TSTP Solution File: BIO003+1 by cvc5---1.0.5
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%------------------------------------------------------------------------------
% File : cvc5---1.0.5
% Problem : BIO003+1 : TPTP v8.1.2. Bugfixed v6.4.1.
% Transfm : none
% Format : tptp
% Command : do_cvc5 %s %d
% Computer : n019.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 300s
% DateTime : Wed Aug 30 18:00:33 EDT 2023
% Result : Theorem 156.10s 156.45s
% Output : Proof 156.34s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 6.15/6.21 % Problem : BIO003+1 : TPTP v8.1.2. Bugfixed v6.4.1.
% 6.15/6.23 % Command : do_cvc5 %s %d
% 6.22/6.43 % Computer : n019.cluster.edu
% 6.22/6.43 % Model : x86_64 x86_64
% 6.22/6.43 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 6.22/6.43 % Memory : 8042.1875MB
% 6.22/6.43 % OS : Linux 3.10.0-693.el7.x86_64
% 6.22/6.43 % CPULimit : 300
% 6.22/6.43 % WCLimit : 300
% 6.22/6.43 % DateTime : Tue Aug 29 12:40:19 EDT 2023
% 6.22/6.43 % CPUTime :
% 12.13/12.35 %----Proving TF0_NAR, FOF, or CNF
% 156.10/156.45 ------- convert to smt2 : /export/starexec/sandbox/tmp/tmp.E3TjtgFlNS/cvc5---1.0.5_6260.p...
% 156.10/156.45 ------- get file name : TPTP file name is BIO003+1
% 156.10/156.45 ------- cvc5-fof : /export/starexec/sandbox/solver/bin/cvc5---1.0.5_6260.smt2...
% 156.10/156.45 --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 156.10/156.45 --- Run --no-e-matching --full-saturate-quant at 5...
% 156.10/156.45 --- Run --no-e-matching --enum-inst-sum --full-saturate-quant at 5...
% 156.10/156.45 --- Run --finite-model-find --uf-ss=no-minimal at 5...
% 156.10/156.45 --- Run --multi-trigger-when-single --full-saturate-quant at 5...
% 156.10/156.45 --- Run --trigger-sel=max --full-saturate-quant at 5...
% 156.10/156.45 --- Run --multi-trigger-when-single --multi-trigger-priority --full-saturate-quant at 5...
% 156.10/156.45 --- Run --multi-trigger-cache --full-saturate-quant at 5...
% 156.10/156.45 --- Run --prenex-quant=none --full-saturate-quant at 5...
% 156.10/156.45 --- Run --enum-inst-interleave --decision=internal --full-saturate-quant at 5...
% 156.10/156.45 --- Run --relevant-triggers --full-saturate-quant at 5...
% 156.10/156.45 --- Run --finite-model-find --e-matching --sort-inference --uf-ss-fair at 5...
% 156.10/156.45 --- Run --pre-skolem-quant=on --full-saturate-quant at 10...
% 156.10/156.45 --- Run --cbqi-vo-exp --full-saturate-quant at 10...
% 156.10/156.45 --- Run --no-cbqi --full-saturate-quant at 10...
% 156.10/156.45 --- Run --macros-quant --macros-quant-mode=all --full-saturate-quant...
% 156.10/156.45 % SZS status Theorem for BIO003+1
% 156.10/156.45 % SZS output start Proof for BIO003+1
% 156.10/156.45 (
% 156.10/156.45 (let ((_let_1 (tptp.fn_cell_2 tptp.a_cell))) (let ((_let_2 (tptp.cytoskeleton_1 _let_1))) (let ((_let_3 (not _let_2))) (let ((_let_4 (tptp.cell_1 tptp.a_cell))) (let ((_let_5 (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_30 X))) (let ((_let_2 (tptp.fn_plasma_membrane_66 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_47 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_5 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_6 (tptp.fn_cell_28 X))) (let ((_let_7 (tptp.fn_cytoplasm_8 _let_6))) (let ((_let_8 (tptp.fn_mixture_1 _let_6))) (let ((_let_9 (tptp.fn_cell_27 X))) (let ((_let_10 (tptp.fn_cytoplasmic_side_1 _let_9))) (let ((_let_11 (tptp.fn_cell_26 X))) (let ((_let_12 (tptp.fn_cell_29 X))) (let ((_let_13 (tptp.fn_cytoplasm_7 _let_6))) (let ((_let_14 (tptp.fn_cell_4 X))) (let ((_let_15 (tptp.fn_cell_22 X))) (let ((_let_16 (tptp.fn_cell_11 X))) (let ((_let_17 (tptp.fn_cell_13 X))) (let ((_let_18 (tptp.fn_cell_14 X))) (let ((_let_19 (tptp.fn_cell_19 X))) (let ((_let_20 (tptp.fn_cell_18 X))) (let ((_let_21 (tptp.fn_cell_20 X))) (let ((_let_22 (tptp.fn_cell_9 X))) (let ((_let_23 (tptp.fn_cell_8 X))) (let ((_let_24 (tptp.fn_cell_24 X))) (let ((_let_25 (tptp.fn_cell_25 X))) (let ((_let_26 (tptp.fn_cell_2 X))) (let ((_let_27 (tptp.fn_cell_1 X))) (let ((_let_28 (tptp.fn_cell_7 X))) (let ((_let_29 (tptp.fn_cell_5 X))) (let ((_let_30 (tptp.fn_cell_21 X))) (=> (tptp.cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell'|) (tptp.description_2 X |tptp.'The basic unit from which living organisms are made, consisting of an aqueous solution of organic molecules enclosed by a membrane. All cells arise from existing cells, usually by a process of division into two. (Alberts:ECB:G-3).'|) (tptp.user_description_2 X |tptp.'The basic unit from which living organisms are made.'|) (tptp.concept2words_2 X tptp.cell) (tptp.living_entity_1 X) (tptp.cell_pole_1 _let_27) (tptp.cytoskeleton_1 _let_26) (tptp.surface_1 _let_14) (tptp.shape_value_1 _let_29) (tptp.specific_surface_area_value_1 _let_28) (tptp.motor_protein_1 _let_23) (tptp.protein_enzyme_1 _let_22) (tptp.size_value_1 _let_16) (tptp.structural_complexity_value_1 _let_17) (tptp.ribosome_1 _let_18) (tptp.length_value_1 _let_20) (tptp.length_value_1 _let_19) (tptp.length_value_1 _let_21) (tptp.membrane_potential_1 _let_30) (tptp.volume_value_1 _let_15) (tptp.genome_1 _let_24) (tptp.chromosome_1 _let_25) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.surface_1 _let_9) (tptp.cytoplasmic_side_1 _let_9) (tptp.mixture_1 _let_6) (tptp.cytoplasm_1 _let_6) (tptp.substance_1 _let_12) (tptp.cytosol_1 _let_12) (tptp.plasma_membrane_1 _let_1) (tptp.cell_1 _let_13) (tptp.cytoplasm_1 _let_10) (tptp.substance_1 _let_8) (tptp.cytosol_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.phospholipid_bilayer_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.phospholipid_bilayer_1 _let_4) (tptp.surface_1 _let_3) (tptp.cytoplasmic_side_1 _let_2) (tptp.is_across_2 _let_30 _let_1) (tptp.shape_2 X _let_29) (tptp.specific_surface_area_2 X _let_28) (tptp.size_2 X _let_16) (tptp.structural_complexity_2 X _let_17) (tptp.diameter_2 X _let_20) (tptp.volume_2 X _let_15) (tptp.exactCardinality X tptp.has_region_0 |"2"| tptp.cell_pole_0) (tptp.has_region_2 X _let_27) (tptp.has_region_2 X _let_14) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.chromosome_0) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_25) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_6 _let_1) (tptp.has_part_2 _let_6 _let_22) (tptp.the_cardinal_value_2 _let_21 |"100.0e0"|) (tptp.cardinal_unit_class_2 _let_21 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_21 _let_20) (tptp.the_cardinal_value_2 _let_19 |"0.1e0"|) (tptp.cardinal_unit_class_2 _let_19 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_20 _let_19) (tptp.is_inside_2 _let_18 _let_12) (tptp.the_scalar_value_2 _let_17 tptp.simple_0) (tptp.scalar_unit_class_2 _let_17 tptp.organism_0) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.is_oriented_toward_2 _let_9 _let_6) (tptp.is_at_2 _let_11 _let_14) (tptp.has_part_2 X _let_6) (tptp.has_part_2 _let_6 _let_12) (tptp.has_region_2 _let_1 _let_9) (tptp.has_part_2 _let_1 _let_11) (tptp.is_facing_2 _let_9 _let_6) (= X _let_13) (= _let_12 _let_8) (= _let_12 _let_7) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_6 _let_10) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))) (let ((_let_6 (tptp.fn_cell_30 tptp.a_cell))) (let ((_let_7 (tptp.fn_plasma_membrane_66 _let_6))) (let ((_let_8 (tptp.fn_biomembrane_47 _let_6))) (let ((_let_9 (tptp.fn_plasma_membrane_71 _let_6))) (let ((_let_10 (tptp.fn_biomembrane_63 _let_6))) (let ((_let_11 (tptp.fn_cell_28 tptp.a_cell))) (let ((_let_12 (tptp.fn_cytoplasm_8 _let_11))) (let ((_let_13 (tptp.fn_mixture_1 _let_11))) (let ((_let_14 (tptp.fn_cell_27 tptp.a_cell))) (let ((_let_15 (tptp.fn_cytoplasmic_side_1 _let_14))) (let ((_let_16 (tptp.fn_cell_26 tptp.a_cell))) (let ((_let_17 (tptp.fn_cell_29 tptp.a_cell))) (let ((_let_18 (tptp.fn_cytoplasm_7 _let_11))) (let ((_let_19 (tptp.fn_cell_4 tptp.a_cell))) (let ((_let_20 (tptp.fn_cell_22 tptp.a_cell))) (let ((_let_21 (tptp.fn_cell_11 tptp.a_cell))) (let ((_let_22 (tptp.fn_cell_13 tptp.a_cell))) (let ((_let_23 (tptp.fn_cell_14 tptp.a_cell))) (let ((_let_24 (tptp.fn_cell_19 tptp.a_cell))) (let ((_let_25 (tptp.fn_cell_18 tptp.a_cell))) (let ((_let_26 (tptp.fn_cell_20 tptp.a_cell))) (let ((_let_27 (tptp.fn_cell_9 tptp.a_cell))) (let ((_let_28 (tptp.fn_cell_8 tptp.a_cell))) (let ((_let_29 (tptp.fn_cell_24 tptp.a_cell))) (let ((_let_30 (tptp.fn_cell_25 tptp.a_cell))) (let ((_let_31 (tptp.fn_cell_1 tptp.a_cell))) (let ((_let_32 (tptp.fn_cell_7 tptp.a_cell))) (let ((_let_33 (tptp.fn_cell_5 tptp.a_cell))) (let ((_let_34 (tptp.fn_cell_21 tptp.a_cell))) (let ((_let_35 (and (tptp.original_name_2 tptp.a_cell |tptp.'Cell'|) (tptp.description_2 tptp.a_cell |tptp.'The basic unit from which living organisms are made, consisting of an aqueous solution of organic molecules enclosed by a membrane. All cells arise from existing cells, usually by a process of division into two. (Alberts:ECB:G-3).'|) (tptp.user_description_2 tptp.a_cell |tptp.'The basic unit from which living organisms are made.'|) (tptp.concept2words_2 tptp.a_cell tptp.cell) (tptp.living_entity_1 tptp.a_cell) (tptp.cell_pole_1 _let_31) _let_2 (tptp.surface_1 _let_19) (tptp.shape_value_1 _let_33) (tptp.specific_surface_area_value_1 _let_32) (tptp.motor_protein_1 _let_28) (tptp.protein_enzyme_1 _let_27) (tptp.size_value_1 _let_21) (tptp.structural_complexity_value_1 _let_22) (tptp.ribosome_1 _let_23) (tptp.length_value_1 _let_25) (tptp.length_value_1 _let_24) (tptp.length_value_1 _let_26) (tptp.membrane_potential_1 _let_34) (tptp.volume_value_1 _let_20) (tptp.genome_1 _let_29) (tptp.chromosome_1 _let_30) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.surface_1 _let_14) (tptp.cytoplasmic_side_1 _let_14) (tptp.mixture_1 _let_11) (tptp.cytoplasm_1 _let_11) (tptp.substance_1 _let_17) (tptp.cytosol_1 _let_17) (tptp.plasma_membrane_1 _let_6) (tptp.cell_1 _let_18) (tptp.cytoplasm_1 _let_15) (tptp.substance_1 _let_13) (tptp.cytosol_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.phospholipid_bilayer_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.surface_1 _let_8) (tptp.cytoplasmic_side_1 _let_7) (tptp.is_across_2 _let_34 _let_6) (tptp.shape_2 tptp.a_cell _let_33) (tptp.specific_surface_area_2 tptp.a_cell _let_32) (tptp.size_2 tptp.a_cell _let_21) (tptp.structural_complexity_2 tptp.a_cell _let_22) (tptp.diameter_2 tptp.a_cell _let_25) (tptp.volume_2 tptp.a_cell _let_20) (tptp.exactCardinality tptp.a_cell tptp.has_region_0 |"2"| tptp.cell_pole_0) (tptp.has_region_2 tptp.a_cell _let_31) (tptp.has_region_2 tptp.a_cell _let_19) (tptp.minCardinality tptp.a_cell tptp.has_part_0 |"1"| tptp.chromosome_0) (tptp.has_part_2 tptp.a_cell _let_1) (tptp.has_part_2 tptp.a_cell _let_30) (tptp.has_part_2 tptp.a_cell _let_29) (tptp.has_part_2 tptp.a_cell _let_28) (tptp.has_part_2 tptp.a_cell _let_23) (tptp.has_part_2 tptp.a_cell _let_6) (tptp.is_inside_2 _let_11 _let_6) (tptp.has_part_2 _let_11 _let_27) (tptp.the_cardinal_value_2 _let_26 |"100.0e0"|) (tptp.cardinal_unit_class_2 _let_26 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_26 _let_25) (tptp.the_cardinal_value_2 _let_24 |"0.1e0"|) (tptp.cardinal_unit_class_2 _let_24 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_25 _let_24) (tptp.is_inside_2 _let_23 _let_17) (tptp.the_scalar_value_2 _let_22 tptp.simple_0) (tptp.scalar_unit_class_2 _let_22 tptp.organism_0) (tptp.directly_proportional_2 _let_21 _let_20) (tptp.is_oriented_toward_2 _let_14 _let_11) (tptp.is_at_2 _let_16 _let_19) (tptp.has_part_2 tptp.a_cell _let_11) (tptp.has_part_2 _let_11 _let_17) (tptp.has_region_2 _let_6 _let_14) (tptp.has_part_2 _let_6 _let_16) (tptp.is_facing_2 _let_14 _let_11) (= tptp.a_cell _let_18) (= _let_17 _let_13) (= _let_17 _let_12) (= _let_14 _let_8) (= _let_14 _let_7) (= _let_16 _let_10) (= _let_16 _let_9) (= _let_11 _let_15) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7)))) (let ((_let_36 (not _let_4))) (let ((_let_37 (or _let_36 _let_35))) (let ((_let_38 (not _let_35))) (let ((_let_39 (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_30 X))) (let ((_let_2 (tptp.fn_biomembrane_47 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_66 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_5 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_6 (tptp.fn_cell_28 X))) (let ((_let_7 (tptp.fn_cytoplasm_8 _let_6))) (let ((_let_8 (tptp.fn_mixture_1 _let_6))) (let ((_let_9 (tptp.fn_cell_27 X))) (let ((_let_10 (tptp.fn_cytoplasmic_side_1 _let_9))) (let ((_let_11 (tptp.fn_cell_26 X))) (let ((_let_12 (tptp.fn_cell_29 X))) (let ((_let_13 (tptp.fn_cytoplasm_7 _let_6))) (let ((_let_14 (tptp.fn_cell_4 X))) (let ((_let_15 (tptp.fn_cell_22 X))) (let ((_let_16 (tptp.fn_cell_11 X))) (let ((_let_17 (tptp.fn_cell_13 X))) (let ((_let_18 (tptp.fn_cell_14 X))) (let ((_let_19 (tptp.fn_cell_19 X))) (let ((_let_20 (tptp.fn_cell_18 X))) (let ((_let_21 (tptp.fn_cell_20 X))) (let ((_let_22 (tptp.fn_cell_9 X))) (let ((_let_23 (tptp.fn_cell_8 X))) (let ((_let_24 (tptp.fn_cell_24 X))) (let ((_let_25 (tptp.fn_cell_25 X))) (let ((_let_26 (tptp.fn_cell_2 X))) (let ((_let_27 (tptp.fn_cell_1 X))) (let ((_let_28 (tptp.fn_cell_7 X))) (let ((_let_29 (tptp.fn_cell_5 X))) (let ((_let_30 (tptp.fn_cell_21 X))) (or (not (tptp.cell_1 X)) (and (tptp.original_name_2 X |tptp.'Cell'|) (tptp.description_2 X |tptp.'The basic unit from which living organisms are made, consisting of an aqueous solution of organic molecules enclosed by a membrane. All cells arise from existing cells, usually by a process of division into two. (Alberts:ECB:G-3).'|) (tptp.user_description_2 X |tptp.'The basic unit from which living organisms are made.'|) (tptp.concept2words_2 X tptp.cell) (tptp.living_entity_1 X) (tptp.cell_pole_1 _let_27) (tptp.cytoskeleton_1 _let_26) (tptp.surface_1 _let_14) (tptp.shape_value_1 _let_29) (tptp.specific_surface_area_value_1 _let_28) (tptp.motor_protein_1 _let_23) (tptp.protein_enzyme_1 _let_22) (tptp.size_value_1 _let_16) (tptp.structural_complexity_value_1 _let_17) (tptp.ribosome_1 _let_18) (tptp.length_value_1 _let_20) (tptp.length_value_1 _let_19) (tptp.length_value_1 _let_21) (tptp.membrane_potential_1 _let_30) (tptp.volume_value_1 _let_15) (tptp.genome_1 _let_24) (tptp.chromosome_1 _let_25) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.surface_1 _let_9) (tptp.cytoplasmic_side_1 _let_9) (tptp.mixture_1 _let_6) (tptp.cytoplasm_1 _let_6) (tptp.substance_1 _let_12) (tptp.cytosol_1 _let_12) (tptp.plasma_membrane_1 _let_1) (tptp.cell_1 _let_13) (tptp.cytoplasm_1 _let_10) (tptp.substance_1 _let_8) (tptp.cytosol_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.phospholipid_bilayer_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.phospholipid_bilayer_1 _let_4) (tptp.surface_1 _let_2) (tptp.cytoplasmic_side_1 _let_3) (tptp.is_across_2 _let_30 _let_1) (tptp.shape_2 X _let_29) (tptp.specific_surface_area_2 X _let_28) (tptp.size_2 X _let_16) (tptp.structural_complexity_2 X _let_17) (tptp.diameter_2 X _let_20) (tptp.volume_2 X _let_15) (tptp.exactCardinality X tptp.has_region_0 |"2"| tptp.cell_pole_0) (tptp.has_region_2 X _let_27) (tptp.has_region_2 X _let_14) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.chromosome_0) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_25) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_6 _let_1) (tptp.has_part_2 _let_6 _let_22) (tptp.the_cardinal_value_2 _let_21 |"100.0e0"|) (tptp.cardinal_unit_class_2 _let_21 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_21 _let_20) (tptp.the_cardinal_value_2 _let_19 |"0.1e0"|) (tptp.cardinal_unit_class_2 _let_19 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_20 _let_19) (tptp.is_inside_2 _let_18 _let_12) (tptp.the_scalar_value_2 _let_17 tptp.simple_0) (tptp.scalar_unit_class_2 _let_17 tptp.organism_0) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.is_oriented_toward_2 _let_9 _let_6) (tptp.is_at_2 _let_11 _let_14) (tptp.has_part_2 X _let_6) (tptp.has_part_2 _let_6 _let_12) (tptp.has_region_2 _let_1 _let_9) (tptp.has_part_2 _let_1 _let_11) (tptp.is_facing_2 _let_9 _let_6) (= X _let_13) (= _let_8 _let_12) (= _let_7 _let_12) (= _let_2 _let_9) (= _let_3 _let_9) (= _let_5 _let_11) (= _let_4 _let_11) (= _let_6 _let_10) (= _let_7 _let_8) (= _let_5 _let_7) (= _let_4 _let_5) (= _let_2 _let_4) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))) (let ((_let_40 (EQ_RESOLVE (ASSUME :args (_let_5)) (MACRO_SR_EQ_INTRO :args (_let_5 SB_DEFAULT SBA_FIXPOINT))))) (SCOPE (SCOPE (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_37)) :args ((or _let_36 _let_35 (not _let_37)))) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (MACRO_SR_PRED_ELIM (SCOPE (INSTANTIATE _let_40 :args (tptp.a_cell QUANTIFIERS_INST_CBQI_CONFLICT)) :args (_let_39)))) _let_40 :args (_let_37 false _let_39)) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_AND_POS :args (_let_35 6)) :args ((or _let_2 _let_38))) (ASSUME :args (_let_3)) :args (_let_38 true _let_2)) (ASSUME :args (_let_4)) :args (false false _let_37 true _let_35 false _let_4)) :args ((tptp.acceptance_constant_1 tptp.rejected_0) (tptp.acceptance_constant_1 tptp.accepted_0) (tptp.activation_constant_1 tptp.inactive_0) (tptp.activation_constant_1 tptp.active_0) (tptp.age_constant_1 tptp.elderly_0) (tptp.age_constant_1 tptp.middle_aged_0) (tptp.age_constant_1 tptp.adolescent_0) (tptp.age_constant_1 tptp.teenage_0) (tptp.age_constant_1 tptp.juvenile_0) (tptp.age_constant_1 tptp.young_0) (tptp.animacy_constant_1 tptp.not_animate_0) (tptp.animacy_constant_1 tptp.animate_0) (tptp.breakability_constant_1 tptp.unbreakable_0) (tptp.breakability_constant_1 tptp.delicate_0) (tptp.breakability_constant_1 tptp.brittle_0) (tptp.breakability_constant_1 tptp.fragile_0) (tptp.breakability_constant_1 tptp.breakable_0) (tptp.brightness_constant_1 tptp.dark_0) (tptp.brightness_constant_1 tptp.dim_0) (tptp.brightness_constant_1 tptp.bright_0) (tptp.brightness_constant_1 tptp.blinding_0) (tptp.capacity_constant_1 tptp.capacious_0) (tptp.capacity_constant_1 tptp.roomy_0) (tptp.capacity_constant_1 tptp.unlimited_0) (tptp.capacity_constant_1 tptp.none_0) (tptp.color_constant_1 tptp.bluegreen_0) (tptp.color_constant_1 tptp.olivegreen_0) (tptp.color_constant_1 tptp.yellowgreen_0) (tptp.color_constant_1 tptp.whitesmoke_0) (tptp.color_constant_1 tptp.wheat_0) (tptp.color_constant_1 tptp.violetred_0) (tptp.color_constant_1 tptp.violet_0) (tptp.color_constant_1 tptp.turquoise_0) (tptp.color_constant_1 tptp.tomato_0) (tptp.color_constant_1 tptp.thistle_0) (tptp.color_constant_1 tptp.tan_0) (tptp.color_constant_1 tptp.steelblue_0) (tptp.color_constant_1 tptp.springgreen_0) (tptp.color_constant_1 tptp.snow_0) (tptp.color_constant_1 tptp.slategray_0) (tptp.color_constant_1 tptp.slateblue_0) (tptp.color_constant_1 tptp.skyblue_0) (tptp.color_constant_1 tptp.sienna_0) (tptp.color_constant_1 tptp.seashell_0) (tptp.color_constant_1 tptp.seagreen_0) (tptp.color_constant_1 tptp.sandybrown_0) (tptp.color_constant_1 tptp.salmon_0) (tptp.color_constant_1 tptp.saddlebrown_0) (tptp.color_constant_1 tptp.royalblue_0) (tptp.color_constant_1 tptp.rosybrown_0) (tptp.color_constant_1 tptp.powderblue_0) (tptp.color_constant_1 tptp.plum_0) (tptp.color_constant_1 tptp.peru_0) (tptp.color_constant_1 tptp.peachpuff_0) (tptp.color_constant_1 tptp.papayawhip_0) (tptp.color_constant_1 tptp.palevioletred_0) (tptp.color_constant_1 tptp.paleturquoise_0) (tptp.color_constant_1 tptp.palegreen_0) (tptp.color_constant_1 tptp.palegoldenrod_0) (tptp.color_constant_1 tptp.orchid_0) (tptp.color_constant_1 tptp.orangered_0) (tptp.color_constant_1 tptp.olivedrab_0) (tptp.color_constant_1 tptp.oldlace_0) (tptp.color_constant_1 tptp.mavajowhite_0) (tptp.color_constant_1 tptp.moccasin_0) (tptp.color_constant_1 tptp.mistyrose_0) (tptp.color_constant_1 tptp.mintcream_0) (tptp.color_constant_1 tptp.midnightblue_0) (tptp.color_constant_1 tptp.mediumvioletred_0) (tptp.color_constant_1 tptp.mediumturquoise_0) (tptp.color_constant_1 tptp.mediumspringgreen_0) (tptp.color_constant_1 tptp.mediumslateblue_0) (tptp.color_constant_1 tptp.mediumseagreen_0) (tptp.color_constant_1 tptp.mediumpurple_0) (tptp.color_constant_1 tptp.mediumorchid_0) (tptp.color_constant_1 tptp.mediumblue_0) (tptp.color_constant_1 tptp.mediumaquamarine_0) (tptp.color_constant_1 tptp.magenta_0) (tptp.color_constant_1 tptp.linen_0) (tptp.color_constant_1 tptp.limegreen_0) (tptp.color_constant_1 tptp.lightyellow_0) (tptp.color_constant_1 tptp.lightsteelblue_0) (tptp.color_constant_1 tptp.lightslategray_0) (tptp.color_constant_1 tptp.lightslateblue_0) (tptp.color_constant_1 tptp.lightskyblue_0) (tptp.color_constant_1 tptp.lightseagreen_0) (tptp.color_constant_1 tptp.lightsalmon_0) (tptp.color_constant_1 tptp.lightpink_0) (tptp.color_constant_1 tptp.lightgreen_0) (tptp.color_constant_1 tptp.lightgrey_0) (tptp.color_constant_1 tptp.lightgoldenrodyellow_0) (tptp.color_constant_1 tptp.lightcyan_0) (tptp.color_constant_1 tptp.lightcoral_0) (tptp.color_constant_1 tptp.lightblue_0) (tptp.color_constant_1 tptp.lemonchiffon_0) (tptp.color_constant_1 tptp.lawngreen_0) (tptp.color_constant_1 tptp.lavenderblush_0) (tptp.color_constant_1 tptp.lavender_0) (tptp.color_constant_1 tptp.khaki_0) (tptp.color_constant_1 tptp.ivory_0) (tptp.color_constant_1 tptp.indigo_0) (tptp.color_constant_1 tptp.indianred_0) (tptp.color_constant_1 tptp.hotpink_0) (tptp.color_constant_1 tptp.honeydew_0) (tptp.color_constant_1 tptp.greenyellow_0) (tptp.color_constant_1 tptp.goldenrod_0) (tptp.color_constant_1 tptp.gold_0) (tptp.color_constant_1 tptp.ghostwhite_0) (tptp.color_constant_1 tptp.gainsboro_0) (tptp.color_constant_1 tptp.forestgreen_0) (tptp.color_constant_1 tptp.floralwhite_0) (tptp.color_constant_1 tptp.firebrick_0) (tptp.color_constant_1 tptp.feldspar_0) (tptp.color_constant_1 tptp.dodgerblue_0) (tptp.color_constant_1 tptp.dimgray_0) (tptp.color_constant_1 tptp.deepskyblue_0) (tptp.color_constant_1 tptp.deeppink_0) (tptp.color_constant_1 tptp.darkviolet_0) (tptp.color_constant_1 tptp.darkturquoise_0) (tptp.color_constant_1 tptp.darkslategray_0) (tptp.color_constant_1 tptp.darkslateblue_0) (tptp.color_constant_1 tptp.darkseagreen_0) (tptp.color_constant_1 tptp.darksalmon_0) (tptp.color_constant_1 tptp.darkred_0) (tptp.color_constant_1 tptp.darkorchid_0) (tptp.color_constant_1 tptp.darkorange_0) (tptp.color_constant_1 tptp.darkolivegreen_0) (tptp.color_constant_1 tptp.darkmagenta_0) (tptp.color_constant_1 tptp.darkkhaki_0) (tptp.color_constant_1 tptp.darkgreen_0) (tptp.color_constant_1 tptp.darkgray_0) (tptp.color_constant_1 tptp.darkgoldenrod_0) (tptp.color_constant_1 tptp.darkcyan_0) (tptp.color_constant_1 tptp.darkblue_0) (tptp.color_constant_1 tptp.cyan_0) (tptp.color_constant_1 tptp.crimson_0) (tptp.color_constant_1 tptp.cornsilk_0) (tptp.color_constant_1 tptp.cornflowerblue_0) (tptp.color_constant_1 tptp.coral_0) (tptp.color_constant_1 tptp.chocolate_0) (tptp.color_constant_1 tptp.chartreuse_0) (tptp.color_constant_1 tptp.cadetblue_0) (tptp.color_constant_1 tptp.burlywood_0) (tptp.color_constant_1 tptp.blueviolet_0) (tptp.color_constant_1 tptp.blanchedalmond_0) (tptp.color_constant_1 tptp.bisque_0) (tptp.color_constant_1 tptp.beige_0) (tptp.color_constant_1 tptp.azure_0) (tptp.color_constant_1 tptp.aquamarine_0) (tptp.color_constant_1 tptp.antiquewhite_0) (tptp.color_constant_1 tptp.aliceblue_0) (tptp.color_constant_1 tptp.teal_0) (tptp.color_constant_1 tptp.olive_0) (tptp.color_constant_1 tptp.navy_0) (tptp.color_constant_1 tptp.maroon_0) (tptp.color_constant_1 tptp.lime_0) (tptp.color_constant_1 tptp.fuchsia_0) (tptp.color_constant_1 tptp.aqua_0) (tptp.color_constant_1 tptp.hazel_0) (tptp.color_constant_1 tptp.silver_0) (tptp.color_constant_1 tptp.redhead_0) (tptp.color_constant_1 tptp.brunette_0) (tptp.color_constant_1 tptp.blonde_0) (tptp.color_constant_1 tptp.blond_0) (tptp.color_constant_1 tptp.auburn_0) (tptp.color_constant_1 tptp.colorless_0) (tptp.color_constant_1 tptp.gray_0) (tptp.color_constant_1 tptp.white_0) (tptp.color_constant_1 tptp.black_0) (tptp.color_constant_1 tptp.brown_0) (tptp.color_constant_1 tptp.pink_0) (tptp.color_constant_1 tptp.purple_0) (tptp.color_constant_1 tptp.orange_0) (tptp.color_constant_1 tptp.green_0) (tptp.color_constant_1 tptp.yellow_0) (tptp.color_constant_1 tptp.blue_0) (tptp.color_constant_1 tptp.red_0) (tptp.consistency_constant_1 tptp.fleshy_0) (tptp.consistency_constant_1 tptp.elastic_0) (tptp.consistency_constant_1 tptp.soft_0) (tptp.consistency_constant_1 tptp.hard_0) (tptp.consistency_constant_1 tptp.boney_0) (tptp.consistency_constant_1 tptp.stony_0) (tptp.consistency_constant_1 tptp.rocky_0) (tptp.consistency_constant_1 tptp.granitic_0) (tptp.consistency_constant_1 tptp.crystalline_0) (tptp.consistency_constant_1 tptp.glassy_0) (tptp.consistency_constant_1 tptp.grainy_0) (tptp.consistency_constant_1 tptp.gritty_0) (tptp.day_constant_1 tptp.saturday_0) (tptp.day_constant_1 tptp.friday_0) (tptp.day_constant_1 tptp.thursday_0) (tptp.day_constant_1 tptp.wednesday_0) (tptp.day_constant_1 tptp.tuesday_0) (tptp.day_constant_1 tptp.monday_0) (tptp.day_constant_1 tptp.sunday_0) (tptp.density_constant_1 tptp.loose_0) (tptp.density_constant_1 tptp.rare_0) (tptp.density_constant_1 tptp.dense_0) (tptp.depth_constant_1 tptp.shallow_0) (tptp.dimension_constant_1 tptp.three_dimensional_0) (tptp.dimension_constant_1 tptp.two_dimensional_0) (tptp.dimension_constant_1 tptp.one_dimensional_0) (tptp.direction_constant_1 tptp.forward_0) (tptp.angle_constant_1 tptp.straight_0) (tptp.direction_constant_1 tptp.straight_0) (tptp.angle_constant_1 tptp.reflex_0) (tptp.direction_constant_1 tptp.reflex_0) (tptp.angle_constant_1 tptp.obtuse_0) (tptp.direction_constant_1 tptp.obtuse_0) (tptp.angle_constant_1 tptp.acute_0) (tptp.direction_constant_1 tptp.acute_0) (tptp.direction_constant_1 tptp.outward_0) (tptp.direction_constant_1 tptp.inward_0) (tptp.direction_constant_1 tptp.backward_0) (tptp.direction_constant_1 tptp.transversal_0) (tptp.direction_constant_1 tptp.lateral_0) (tptp.direction_constant_1 tptp.northnorthwest_0) (tptp.direction_constant_1 tptp.northnortheast_0) (tptp.direction_constant_1 tptp.northeast_0) (tptp.direction_constant_1 tptp.eastnortheast_0) (tptp.direction_constant_1 tptp.eastsoutheast_0) (tptp.direction_constant_1 tptp.southeast_0) (tptp.direction_constant_1 tptp.southsoutheast_0) (tptp.direction_constant_1 tptp.southsouthwest_0) (tptp.direction_constant_1 tptp.southwest_0) (tptp.direction_constant_1 tptp.westsouthwest_0) (tptp.direction_constant_1 tptp.westnorthwest_0) (tptp.direction_constant_1 tptp.northwest_0) (tptp.direction_constant_1 tptp.down_0) (tptp.direction_constant_1 tptp.up_0) (tptp.direction_constant_1 tptp.east_0) (tptp.direction_constant_1 tptp.west_0) (tptp.direction_constant_1 tptp.south_0) (tptp.direction_constant_1 tptp.north_0) (tptp.distance_constant_1 tptp.far_0) (tptp.distance_constant_1 tptp.near_0) (tptp.duration_constant_1 tptp.brief_0) (tptp.duration_constant_1 tptp.forever_0) (tptp.energy_constant_1 tptp.negative_energy_0) (tptp.energy_constant_1 tptp.positive_energy_0) (tptp.fertility_constant_1 tptp.sterile_0) (tptp.fertility_constant_1 tptp.fertile_0) (tptp.flexibility_constant_1 tptp.semi_rigid_0) (tptp.flexibility_constant_1 tptp.rigid_0) (tptp.flexibility_constant_1 tptp.flexible_0) (tptp.frequency_constant_1 tptp.never_0) (tptp.frequency_constant_1 tptp.rarely_0) (tptp.frequency_constant_1 tptp.often_0) (tptp.height_constant_1 tptp.average_0) (tptp.importance_constant_1 tptp.important_0) (tptp.importance_constant_1 tptp.moderately_important_0) (tptp.importance_constant_1 tptp.unimportant_0) (tptp.integrity_constant_1 tptp.permeable_0) (tptp.integrity_constant_1 tptp.semi_permeable_0) (tptp.integrity_constant_1 tptp.impermeable_0) (tptp.intensity_constant_1 tptp.negligible_0) (tptp.height_constant_1 tptp.short_0) (tptp.length_constant_1 tptp.short_0) (tptp.manner_constant_1 tptp.politely_0) (tptp.manner_constant_1 tptp.happily_0) (tptp.manner_constant_1 tptp.dejectedly_0) (tptp.mass_constant_1 tptp.hefty_0) (tptp.mass_constant_1 tptp.light_0) (tptp.orientation_constant_1 tptp.upright_0) (tptp.oxidation_state_constant_1 tptp.reduced_0) (tptp.oxidation_state_constant_1 tptp.oxidized_0) (tptp.polarity_constant_1 tptp.negative_0) (tptp.polarity_constant_1 tptp.positive_0) (tptp.height_constant_1 tptp.tall_0) (tptp.primary_constant_1 tptp.tall_0) (tptp.distance_constant_1 tptp.long_0) (tptp.primary_constant_1 tptp.long_0) (tptp.duration_constant_1 tptp.long_0) (tptp.length_constant_1 tptp.long_0) (tptp.depth_constant_1 tptp.deep_0) (tptp.primary_constant_1 tptp.deep_0) (tptp.age_constant_1 tptp.old_0) (tptp.primary_constant_1 tptp.old_0) (tptp.priority_constant_1 tptp.urgent_0) (tptp.intensity_constant_1 tptp.medium_0) (tptp.priority_constant_1 tptp.medium_0) (tptp.quantity_constant_1 tptp.highest_0) (tptp.quantity_constant_1 tptp.lowest_0) (tptp.quantity_constant_1 tptp.numerous_0) (tptp.quantity_constant_1 tptp.many_0) (tptp.quantity_constant_1 tptp.few_0) (tptp.sentience_constant_1 tptp.not_sentient_0) (tptp.sentience_constant_1 tptp.sentient_0) (tptp.sex_constant_1 tptp.male_0) (tptp.sex_constant_1 tptp.female_0) (tptp.shape_constant_1 tptp.tapered_0) (tptp.shape_constant_1 tptp.zig_zag_0) (tptp.shape_constant_1 tptp.globular_0) (tptp.shape_constant_1 tptp.flat_0) (tptp.shape_constant_1 tptp.branched_0) (tptp.shape_constant_1 tptp.kink_0) (tptp.shape_constant_1 tptp.ring_shaped_0) (tptp.shape_constant_1 tptp.irregularly_shaped_0) (tptp.shape_constant_1 tptp.polyhedron_0) (tptp.shape_constant_1 tptp.cylinder_0) (tptp.shape_constant_1 tptp.tetrahedron_0) (tptp.shape_constant_1 tptp.helix_0) (tptp.shape_constant_1 tptp.bell_0) (tptp.shape_constant_1 tptp.cone_0) (tptp.shape_constant_1 tptp.tube_0) (tptp.shape_constant_1 tptp.sphere_0) (tptp.shape_constant_1 tptp.line_0) (tptp.shape_constant_1 tptp.net_like_0) (tptp.shape_constant_1 tptp.trash_can_like_0) (tptp.shape_constant_1 tptp.wedge_like_0) (tptp.shape_constant_1 tptp.spindle_like_0) (tptp.shape_constant_1 tptp.rose_like_0) (tptp.shape_constant_1 tptp.scale_like_0) (tptp.shape_constant_1 tptp.needle_like_0) (tptp.shape_constant_1 tptp.lens_like_0) (tptp.shape_constant_1 tptp.kidney_like_0) (tptp.shape_constant_1 tptp.heart_like_0) (tptp.shape_constant_1 tptp.hatchet_like_0) (tptp.shape_constant_1 tptp.dumbbell_like_0) (tptp.shape_constant_1 tptp.dome_like_0) (tptp.shape_constant_1 tptp.donut_like_0) (tptp.shape_constant_1 tptp.disc_like_0) (tptp.shape_constant_1 tptp.cup_like_0) (tptp.shape_constant_1 tptp.corkscrew_like_0) (tptp.shape_constant_1 tptp.club_like_0) (tptp.shape_constant_1 tptp.chevron_like_0) (tptp.shape_constant_1 tptp.y_like_0) (tptp.shape_constant_1 tptp.x_like_0) (tptp.shape_constant_1 tptp.v_like_0) (tptp.shape_constant_1 tptp.u_like_0) (tptp.shape_constant_1 tptp.t_like_0) (tptp.shape_constant_1 tptp.s_like_0) (tptp.shape_constant_1 tptp.l_like_0) (tptp.shape_constant_1 tptp.j_like_0) (tptp.shape_constant_1 tptp.crescent_0) (tptp.shape_constant_1 tptp.hollow_volume_0) (tptp.shape_constant_1 tptp.parallelogram_0) (tptp.shape_constant_1 tptp.polygon_0) (tptp.shape_constant_1 tptp.oval_0) (tptp.shape_constant_1 tptp.rectangle_0) (tptp.shape_constant_1 tptp.triangle_0) (tptp.shape_constant_1 tptp.square_0) (tptp.shape_constant_1 tptp.circle_0) (tptp.size_constant_1 tptp.oversized_0) (tptp.area_constant_1 tptp.huge_0) (tptp.size_constant_1 tptp.huge_0) (tptp.size_constant_1 tptp.undersized_0) (tptp.size_constant_1 tptp.gigantic_0) (tptp.size_constant_1 tptp.little_0) (tptp.size_constant_1 tptp.big_0) (tptp.area_constant_1 tptp.tiny_0) (tptp.size_constant_1 tptp.tiny_0) (tptp.size_constant_1 tptp.microscopic_0) (tptp.orientation_constant_1 tptp.horizontal_0) (tptp.slope_constant_1 tptp.horizontal_0) (tptp.direction_constant_1 tptp.horizontal_0) (tptp.slope_constant_1 tptp.gradual_0) (tptp.slope_constant_1 tptp.steep_0) (tptp.orientation_constant_1 tptp.vertical_0) (tptp.slope_constant_1 tptp.vertical_0) (tptp.smell_constant_1 tptp.stinky_0) (tptp.smell_constant_1 tptp.fresh_0) (tptp.smell_constant_1 tptp.foul_0) (tptp.smell_constant_1 tptp.spicy_0) (tptp.smell_constant_1 tptp.musky_0) (tptp.smell_constant_1 tptp.fruity_0) (tptp.smell_constant_1 tptp.odorless_0) (tptp.smell_constant_1 tptp.rancid_0) (tptp.smell_constant_1 tptp.flowery_0) (tptp.smell_constant_1 tptp.smokey_0) (tptp.speed_constant_1 tptp.moderate_0) (tptp.state_constant_1 tptp.solid_0) (tptp.state_constant_1 tptp.liquid_0) (tptp.state_constant_1 tptp.aqueous_0) (tptp.state_constant_1 tptp.gas_0) (tptp.taste_constant_1 tptp.juicy_0) (tptp.taste_constant_1 tptp.watery_0) (tptp.taste_constant_1 tptp.tasteless_0) (tptp.taste_constant_1 tptp.bitter_0) (tptp.taste_constant_1 tptp.sweet_0) (tptp.taste_constant_1 tptp.sour_0) (tptp.taste_constant_1 tptp.creamy_0) (tptp.taste_constant_1 tptp.buttery_0) (tptp.temperature_categorical_constant_1 tptp.freezing_0) (tptp.temperature_categorical_constant_1 tptp.boiling_0) (tptp.temperature_constant_1 tptp.abnormal_0) (tptp.temperature_constant_1 tptp.normal_0) (tptp.temperature_constant_1 tptp.hot_0) (tptp.temperature_constant_1 tptp.warm_0) (tptp.temperature_constant_1 tptp.mild_0) (tptp.temperature_constant_1 tptp.cool_0) (tptp.temperature_constant_1 tptp.cold_0) (tptp.texture_constant_1 tptp.rough_0) (tptp.texture_constant_1 tptp.smooth_0) (tptp.thickness_constant_1 tptp.thick_0) (tptp.primary_constant_1 tptp.thick_0) (tptp.thickness_constant_1 tptp.thin_0) (tptp.time_zone_constant_1 tptp.nzdt_0) (tptp.time_zone_constant_1 tptp.nzst_0) (tptp.time_zone_constant_1 tptp.idle_0) (tptp.time_zone_constant_1 tptp.aedt_0) (tptp.time_zone_constant_1 tptp.aest_0) (tptp.time_zone_constant_1 tptp.acdt_0) (tptp.time_zone_constant_1 tptp.acst_0) (tptp.time_zone_constant_1 tptp.kdt_0) (tptp.time_zone_constant_1 tptp.kst_0) (tptp.time_zone_constant_1 tptp.jst_0) (tptp.time_zone_constant_1 tptp.awst_0) (tptp.time_zone_constant_1 tptp.cxt_0) (tptp.time_zone_constant_1 tptp.kgst_0) (tptp.time_zone_constant_1 tptp.kgt_0) (tptp.time_zone_constant_1 tptp.gest_0) (tptp.time_zone_constant_1 tptp.get_0) (tptp.time_zone_constant_1 tptp.msd_0) (tptp.time_zone_constant_1 tptp.msk_0) (tptp.time_zone_constant_1 tptp.eest_0) (tptp.time_zone_constant_1 tptp.eet_0) (tptp.time_zone_constant_1 tptp.cest_0) (tptp.time_zone_constant_1 tptp.cet_0) (tptp.time_zone_constant_1 tptp.west_0) (tptp.time_zone_constant_1 tptp.ist_0) (tptp.time_zone_constant_1 tptp.wet_0) (tptp.time_zone_constant_1 tptp.gmt_0) (tptp.time_zone_constant_1 tptp.utc_0) (tptp.time_zone_constant_1 tptp.ndt_0) (tptp.time_zone_constant_1 tptp.nst_0) (tptp.time_zone_constant_1 tptp.adt_0) (tptp.time_zone_constant_1 tptp.ast_0) (tptp.time_zone_constant_1 tptp.edt_0) (tptp.time_zone_constant_1 tptp.est_0) (tptp.time_zone_constant_1 tptp.cdt_0) (tptp.time_zone_constant_1 tptp.cst_0) (tptp.time_zone_constant_1 tptp.mdt_0) (tptp.time_zone_constant_1 tptp.mst_0) (tptp.time_zone_constant_1 tptp.pdt_0) (tptp.time_zone_constant_1 tptp.pst_0) (tptp.time_zone_constant_1 tptp.akdt_0) (tptp.time_zone_constant_1 tptp.akst_0) (tptp.time_zone_constant_1 tptp.hst_0) (tptp.time_zone_constant_1 tptp.idlw_0) (tptp.trait_constant_1 tptp.vulnerable_0) (tptp.trait_constant_1 tptp.tireless_0) (tptp.trait_constant_1 tptp.lazy_0) (tptp.trait_constant_1 tptp.honest_0) (tptp.trait_constant_1 tptp.dishonest_0) (tptp.trait_constant_1 tptp.aggressive_0) (tptp.trait_constant_1 tptp.submissive_0) (tptp.truth_constant_1 tptp.false_0) (tptp.truth_constant_1 tptp.true_0) (tptp.velocity_constant_1 tptp.very_slow_0) (tptp.rate_constant_1 tptp.slow_0) (tptp.velocity_constant_1 tptp.slow_0) (tptp.rate_constant_1 tptp.fast_0) (tptp.velocity_constant_1 tptp.fast_0) (tptp.velocity_constant_1 tptp.constant_0) (tptp.visibility_constant_1 tptp.high_contrast_0) (tptp.visibility_constant_1 tptp.low_contrast_0) (tptp.visibility_constant_1 tptp.clear_0) (tptp.visibility_constant_1 tptp.unclear_0) (tptp.visibility_constant_1 tptp.invisible_0) (tptp.visibility_constant_1 tptp.visible_0) (tptp.volume_constant_1 tptp.large_0) (tptp.surface_area_categorical_constant_1 tptp.large_0) (tptp.size_constant_1 tptp.small_0) (tptp.volume_constant_1 tptp.small_0) (tptp.surface_area_categorical_constant_1 tptp.small_0) (tptp.wetness_constant_1 tptp.arid_0) (tptp.wetness_constant_1 tptp.dry_0) (tptp.wetness_constant_1 tptp.moist_0) (tptp.wetness_constant_1 tptp.damp_0) (tptp.wetness_constant_1 tptp.wet_0) (tptp.width_constant_1 tptp.wide_0) (tptp.primary_constant_1 tptp.wide_0) (tptp.width_constant_1 tptp.narrow_0) (tptp.worth_constant_1 tptp.expensive_0) (tptp.worth_constant_1 tptp.inexpensive_0) (tptp.worth_constant_1 tptp.cheap_0) (tptp.ph_constant_1 tptp.neutral_0) (tptp.ph_constant_1 tptp.acidic_0) (tptp.ph_constant_1 tptp.basic_0) (tptp.structural_complexity_constant_1 tptp.very_complex_0) (tptp.structural_complexity_constant_1 tptp.complex_0) (tptp.structural_complexity_constant_1 tptp.simple_0) (tptp.charge_categorical_constant_1 tptp.partial_negative_0) (tptp.charge_categorical_constant_1 tptp.partial_positive_0) (tptp.chemical_polarity_constant_1 tptp.nonpolar_0) (tptp.chemical_polarity_constant_1 tptp.polar_0) (tptp.chemical_stability_constant_1 tptp.unstable_0) (tptp.chemical_stability_constant_1 tptp.stable_0) (tptp.intensity_constant_1 tptp.low_0) (tptp.pressure_constant_1 tptp.low_0) (tptp.priority_constant_1 tptp.low_0) (tptp.specific_surface_area_constant_1 tptp.low_0) (tptp.heat_of_vaporization_constant_1 tptp.low_0) (tptp.surface_tension_constant_1 tptp.low_0) (tptp.temperature_constant_1 tptp.low_0) (tptp.specific_heat_constant_1 tptp.low_0) (tptp.humidity_constant_1 tptp.low_0) (tptp.fluidity_constant_1 tptp.low_0) (tptp.visibility_scalar_constant_1 tptp.low_0) (tptp.velocity_constant_1 tptp.low_0) (tptp.fertility_scalar_constant_1 tptp.low_0) (tptp.transmittance_scalar_constant_1 tptp.low_0) (tptp.absorbance_scalar_constant_1 tptp.low_0) (tptp.electronegativity_constant_1 tptp.low_0) (tptp.quantity_constant_1 tptp.low_0) (tptp.surface_area_scalar_constant_1 tptp.low_0) (tptp.concentration_constant_1 tptp.low_0) (tptp.intensity_constant_1 tptp.high_0) (tptp.pressure_constant_1 tptp.high_0) (tptp.priority_constant_1 tptp.high_0) (tptp.specific_surface_area_constant_1 tptp.high_0) (tptp.heat_of_vaporization_constant_1 tptp.high_0) (tptp.surface_tension_constant_1 tptp.high_0) (tptp.temperature_constant_1 tptp.high_0) (tptp.specific_heat_constant_1 tptp.high_0) (tptp.humidity_constant_1 tptp.high_0) (tptp.fluidity_constant_1 tptp.high_0) (tptp.visibility_scalar_constant_1 tptp.high_0) (tptp.velocity_constant_1 tptp.high_0) (tptp.fertility_scalar_constant_1 tptp.high_0) (tptp.transmittance_scalar_constant_1 tptp.high_0) (tptp.absorbance_scalar_constant_1 tptp.high_0) (tptp.electronegativity_constant_1 tptp.high_0) (tptp.quantity_constant_1 tptp.high_0) (tptp.surface_area_scalar_constant_1 tptp.high_0) (tptp.concentration_constant_1 tptp.high_0) (tptp.concentration_constant_1 tptp.concentrated_0) (tptp.concentration_constant_1 tptp.dilute_0) (tptp.conductivity_constant_1 tptp.high_conductivity_0) (tptp.conductivity_constant_1 tptp.low_conductivity_0) (tptp.conductivity_constant_1 tptp.no_conductivity_0) (tptp.electrolyte_status_constant_1 tptp.non_0) (tptp.intensity_constant_1 tptp.weak_0) (tptp.electrolyte_status_constant_1 tptp.weak_0) (tptp.intensity_constant_1 tptp.strong_0) (tptp.electrolyte_status_constant_1 tptp.strong_0) (tptp.angle_constant_1 tptp.right_0) (tptp.direction_constant_1 tptp.right_0) (tptp.reaction_direction_constant_1 tptp.right_0) (tptp.direction_constant_1 tptp.left_0) (tptp.reaction_direction_constant_1 tptp.left_0) (tptp.salt_status_constant_1 tptp.salt_0) (tptp.solubility_constant_1 tptp.insoluble_0) (tptp.solubility_constant_1 tptp.soluble_0) (tptp.uom_acceleration_magnitude_1 tptp.g_0) (tptp.uom_acceleration_magnitude_1 tptp.kilometer_per_hour_minute_0) (tptp.uom_acceleration_magnitude_1 tptp.mile_per_second_squared_0) (tptp.uom_acceleration_magnitude_1 tptp.kilometer_per_second_squared_0) (tptp.uom_acceleration_magnitude_1 tptp.meter_per_second_squared_0) (tptp.uom_acceleration_magnitude_1 tptp.foot_per_second_squared_0) (tptp.uom_acceleration_magnitude_1 tptp.centimeter_per_second_squared_0) (tptp.uom_angle_1 tptp.grad_0) (tptp.uom_angle_1 tptp.radian_0) (tptp.uom_area_1 tptp.square_foot_0) (tptp.uom_coordinate_1 tptp.arcsecond_0) (tptp.uom_angle_1 tptp.arcsecond_0) (tptp.uom_coordinate_1 tptp.arcminute_0) (tptp.uom_angle_1 tptp.arcminute_0) (tptp.uom_coordinate_1 tptp.degree_0) (tptp.uom_angle_1 tptp.degree_0) (tptp.uom_density_1 tptp.gram_liter_0) (tptp.uom_duration_1 tptp.microsecond_0) (tptp.uom_duration_1 tptp.nanosecond_0) (tptp.uom_duration_1 tptp.millisecond_0) (tptp.uom_duration_1 tptp.week_0) (tptp.uom_energy_1 tptp.kilo_cal_per_mole_0) (tptp.uom_frequency_1 tptp.yearly_0) (tptp.uom_frequency_1 tptp.monthly_0) (tptp.uom_frequency_1 tptp.weekly_0) (tptp.uom_frequency_1 tptp.daily_0) (tptp.uom_frequency_1 tptp.hourly_0) (tptp.uom_frequency_1 tptp.per_year_0) (tptp.uom_frequency_1 tptp.per_month_0) (tptp.uom_frequency_1 tptp.per_week_0) (tptp.uom_frequency_1 tptp.per_day_0) (tptp.uom_frequency_1 tptp.gigahertz_0) (tptp.uom_frequency_1 tptp.megahertz_0) (tptp.uom_frequency_1 tptp.kilohertz_0) (tptp.uom_frequency_1 tptp.hertz_0) (tptp.uom_frequency_1 tptp.per_second_0) (tptp.uom_frequency_1 tptp.per_minute_0) (tptp.uom_frequency_1 tptp.per_hour_0) (tptp.uom_heat_of_vaporization_1 tptp.joule_per_gram_0) (tptp.uom_heat_of_vaporization_1 tptp.calorie_per_gram_0) (tptp.uom_length_1 tptp.nanometer_0) (tptp.uom_length_1 tptp.micrometer_0) (tptp.uom_length_1 tptp.millimeter_0) (tptp.uom_length_1 tptp.centimeter_0) (tptp.uom_length_1 tptp.meter_0) (tptp.uom_length_1 tptp.yard_0) (tptp.uom_length_1 tptp.mile_0) (tptp.uom_length_1 tptp.foot_0) (tptp.uom_length_1 tptp.inch_0) (tptp.uom_length_1 tptp.kilometer_0) (tptp.uom_luminance_1 tptp.candela_per_centimeter_squared_0) (tptp.uom_luminance_1 tptp.candela_per_foot_squared_0) (tptp.uom_luminance_1 tptp.candela_per_meter_squared_0) (tptp.uom_luminance_1 tptp.stilb_0) (tptp.uom_luminance_1 tptp.millilambert_0) (tptp.uom_luminance_1 tptp.footlambert_0) (tptp.uom_luminance_1 tptp.lambert_0) (tptp.uom_luminance_1 tptp.nit_0) (tptp.uom_luminous_flux_1 tptp.lumen_0) (tptp.uom_luminous_intensity_1 tptp.candela_0) (tptp.uom_brightness_1 tptp.candela_0) (tptp.uom_mass_1 tptp.slug_0) (tptp.uom_mass_1 tptp.dalton_0) (tptp.uom_mass_1 tptp.kilogram_0) (tptp.uom_mass_1 tptp.gram_0) (tptp.uom_moment_of_inertia_1 tptp.kilogram_meter_squared_0) (tptp.uom_momentum_1 tptp.kilogram_meter_per_second_0) (tptp.uom_power_1 tptp.horsepower_0) (tptp.uom_power_1 tptp.megawatt_0) (tptp.uom_power_1 tptp.kilowatt_0) (tptp.uom_power_1 tptp.milliwatt_0) (tptp.uom_power_1 tptp.watt_0) (tptp.uom_pressure_1 tptp.millibar_0) (tptp.uom_pressure_1 tptp.bar_0) (tptp.uom_pressure_1 tptp.pounds_per_square_inch_0) (tptp.uom_pressure_1 tptp.pascal_0) (tptp.uom_potential_quantity_1 tptp.pascal_0) (tptp.uom_pressure_1 tptp.kilopascal_0) (tptp.uom_potential_quantity_1 tptp.kilopascal_0) (tptp.uom_potential_quantity_1 tptp.megapascal_0) (tptp.uom_quantity_1 tptp.joule_0) (tptp.uom_quantity_1 tptp.kilocalorie_0) (tptp.uom_quantity_1 tptp.calorie_0) (tptp.uom_quantity_1 tptp.gross_0) (tptp.uom_quantity_1 tptp.score_0) (tptp.uom_quantity_1 tptp.dozen_0) (tptp.uom_quantity_1 tptp.pair_0) (tptp.uom_quantity_1 tptp.mole_0) (tptp.uom_rate_1 tptp.nucleotide_per_second_0) (tptp.uom_rate_1 tptp.beat_per_minute_0) (tptp.uom_rotational_rate_1 tptp.revolution_per_minute_0) (tptp.uom_specific_heat_1 tptp.calorie_per_gram_per_degree_celsius_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_gallon_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_gallon_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_gallon_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_milliliter_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_milliliter_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_milliliter_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_liter_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_liter_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_liter_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_cubic_meter_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_cubic_meter_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_cubic_meter_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_slug_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_dalton_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_kilogram_0) (tptp.uom_specific_surface_area_1 tptp.square_inch_per_gram_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_slug_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_dalton_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_kilogram_0) (tptp.uom_specific_surface_area_1 tptp.square_foot_per_gram_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_slug_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_dalton_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_kilogram_0) (tptp.uom_specific_surface_area_1 tptp.square_meter_per_gram_0) (tptp.uom_speed_1 tptp.mile_per_hour_0) (tptp.uom_speed_1 tptp.kilometer_per_second_0) (tptp.uom_speed_1 tptp.kilometer_per_hour_0) (tptp.uom_speed_1 tptp.mile_per_second_0) (tptp.uom_speed_1 tptp.meter_per_second_0) (tptp.uom_speed_1 tptp.foot_per_second_0) (tptp.uom_speed_1 tptp.centimeter_per_second_0) (tptp.uom_area_1 tptp.square_inch_0) (tptp.uom_surface_area_1 tptp.square_inch_0) (tptp.uom_surface_area_1 tptp.square_millimeter_0) (tptp.uom_surface_area_1 tptp.square_micrometer_0) (tptp.uom_surface_area_1 tptp.square_centimeter_0) (tptp.uom_area_1 tptp.square_meter_0) (tptp.uom_surface_area_1 tptp.square_meter_0) (tptp.uom_temperature_1 tptp.kelvin_0) (tptp.uom_temperature_1 tptp.celsius_0) (tptp.uom_temperature_1 tptp.fahrenheit_0) (tptp.uom_time_1 tptp.year_0) (tptp.uom_duration_1 tptp.year_0) (tptp.uom_time_1 tptp.month_0) (tptp.uom_duration_1 tptp.month_0) (tptp.uom_time_1 tptp.day_0) (tptp.uom_duration_1 tptp.day_0) (tptp.uom_time_1 tptp.second_0) (tptp.uom_duration_1 tptp.second_0) (tptp.uom_time_1 tptp.minute_0) (tptp.uom_duration_1 tptp.minute_0) (tptp.uom_time_1 tptp.hour_0) (tptp.uom_duration_1 tptp.hour_0) (tptp.uom_unitless_1 tptp.unity_0) (tptp.uom_voltage_1 tptp.volt_0) (tptp.uom_quantity_1 tptp.volt_0) (tptp.uom_volume_1 tptp.cubic_meter_0) (tptp.uom_volume_1 tptp.gallon_0) (tptp.uom_volume_1 tptp.liter_0) (tptp.uom_volume_1 tptp.milliliter_0) (tptp.uom_worth_1 tptp.yen_0) (tptp.uom_worth_1 tptp.euro_0) (tptp.uom_worth_1 tptp.britishpound_0) (tptp.uom_worth_1 tptp.canadiandollar_0) (tptp.uom_worth_1 tptp.usdollar_0) (tptp.uom_worth_1 tptp.ringgit_0) (tptp.uom_worth_1 tptp.sgdollar_0) (tptp.uom_worth_1 tptp.rmb_0) (tptp.uom_worth_1 tptp.ntdollar_0) (tptp.uom_worth_1 tptp.rol_0) (tptp.uom_concentration_1 tptp.osmolarity_per_liter_0) (tptp.uom_concentration_1 tptp.milligrams_per_milliliter_0) (tptp.uom_concentration_1 tptp.parts_per_million_0) (tptp.uom_concentration_1 tptp.percentage_0) (tptp.uom_concentration_1 tptp.molar_0) (tptp.uom_conductivity_1 tptp.mili_siemens_per_centimeter_0) 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$$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.plays_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.role_1 Z)) (tptp.plays_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.path_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.path_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.origin_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.origin_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.object_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.object_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_of_2 X Y) (tptp.material_of_star_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.material_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_of_2 X Y) (tptp.is_part_or_unit_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.entity_1 Z)) (tptp.material_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_2 X Y) (tptp.has_part_or_unit_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.material_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_2 X Y) (tptp.material_star_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.material_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_part_or_unit_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.aggregate_1 Y) (tptp.tangible_entity_1 Z)) (tptp.is_part_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_part_or_unit_of_2 X Y) (tptp.plays_2 Y Z) (tptp.tangible_entity_1 X) (tptp.animal_1 Y) (tptp.participant_1 Z)) (tptp.is_part_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.has_region_star_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.has_region_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_part_or_unit_2 X Y) (tptp.element_2 Y Z) (tptp.tangible_entity_1 X) (tptp.aggregate_1 Y) (tptp.tangible_entity_1 Z)) (tptp.has_part_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.experiencer_of_2 X Y))) (=> (and _let_1 (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.destination_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.destination_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.content_of_2 X Y) (tptp.played_by_2 Y Z) (tptp.tangible_entity_1 X) (tptp.container_1 Y) (tptp.tangible_entity_1 Z)) (tptp.content_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_of_2 X Y) (tptp.content_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.container_1 Z)) (tptp.content_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.plays_2 X Y) (tptp.content_2 Y Z) (tptp.tangible_entity_1 X) (tptp.container_1 Y) (tptp.tangible_entity_1 Z)) (tptp.content_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.beneficiary_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.beneficiary_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_region_2 X Y) (tptp.base_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.base_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_of_2 X Y) (tptp.raw_material_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.event_1 Z)) (tptp.raw_material_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_part_or_unit_of_2 X Y) (tptp.material_of_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.material_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.material_of_2 X Y) (tptp.is_possessed_by_2 Y Z) (tptp.tangible_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.entity_1 Z)) (tptp.is_possessed_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.resulting_state_of_2 X Y) (tptp.inhibited_by_2 Y Z) (tptp.state_1 X) (tptp.event_1 Y) (tptp.event_1 Z)) (tptp.inhibited_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.experiencer_2 X Y) (tptp.element_of_2 Y Z) (tptp.state_1 X) (tptp.person_1 Y) (tptp.organization_1 Z)) (tptp.experiencer_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.equal_2 X Y))) (=> (and _let_1 (tptp.state_1 X) (tptp.state_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.resulting_state_of_2 X Y) (tptp.enabled_by_2 Y Z) (tptp.state_1 X) (tptp.event_1 Y) (tptp.event_1 Z)) (tptp.enabled_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.defeated_by_2 X Y) (tptp.subevent_of_2 Y Z) (tptp.state_1 X) (tptp.action_1 Y) (tptp.event_1 Z)) (tptp.defeated_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.defeated_by_2 X Y) (tptp.caused_by_2 Y Z) (tptp.state_1 X) (tptp.action_1 Y) (tptp.event_1 Z)) (tptp.defeated_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.resulting_state_of_2 X Y) (tptp.caused_by_2 Y Z) (tptp.state_1 X) (tptp.event_1 Y) (tptp.event_1 Z)) (tptp.caused_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.toward_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.toward_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_near_2 X Y) (tptp.toward_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.toward_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.toward_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.toward_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.site_of_2 X Y) (tptp.subevent_2 Y Z) (tptp.spatial_entity_1 X) (tptp.event_1 Y) (tptp.event_1 Z)) (tptp.site_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.origin_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.origin_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.origin_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.origin_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.is_under_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_under_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_on_it_2 X Y) (tptp.is_under_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_under_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_under_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) 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(tptp.is_on_2 X Y) (tptp.is_over_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.is_over_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_over_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_over_2 X Y) (tptp.is_on_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_over_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_over_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_over_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.is_outside_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_outside_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.is_outside_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_outside_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_outside_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_outside_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.abuts_2 X Y) (tptp.is_outside_2 Y Z) 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((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_on_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_on_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_on_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_on_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_near_2 X Y) (tptp.is_on_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_near_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_on_2 X Y) (tptp.is_near_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_near_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.is_near_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) 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$$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.is_along_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_along_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_along_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_along_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.is_over_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.is_on_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.is_at_of_2 Y Z) (tptp.spatial_entity_1 X) 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(and (tptp.element_of_2 X Y) (tptp.is_above_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_above_2 X Y) (tptp.is_above_star_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_above_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.height_2 Y Z) (tptp.spatial_entity_1 X) (tptp.physical_object_1 Y) (tptp.length_value_1 Z)) (tptp.height_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.has_on_it_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.has_on_it_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_on_it_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.has_on_it_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.is_on_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.is_at_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.is_at_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.is_along_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.has_on_it_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_part_or_unit_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.abuts_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.encloses_star_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.encloses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.destination_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.destination_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.has_part_or_unit_2 X Y) (tptp.destination_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.destination_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.encloses_2 X Y) (tptp.destination_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.destination_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.content_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.container_1 Z)) (tptp.content_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.content_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.entity_1 Y) (tptp.container_1 Z)) (tptp.content_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.away_from_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.away_from_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.away_from_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.event_1 Z)) (tptp.away_from_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.is_region_of_star_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.is_region_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_region_of_2 X Y) (tptp.is_possessed_by_2 Y Z) (tptp.spatial_entity_1 X) (tptp.tangible_entity_1 Y) (tptp.entity_1 Z)) (tptp.is_possessed_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.is_in_front_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.is_in_front_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.is_in_front_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_in_front_of_2 X Y) (tptp.is_along_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_in_front_of_2 X Y) (tptp.has_on_it_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_in_front_of_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_in_front_of_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.is_in_front_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.does_not_enclose_2 X Y) (tptp.is_at_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.does_not_enclose_2 X Y) (tptp.encloses_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.does_not_enclose_2 X Y) (tptp.element_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_inside_2 X Y) (tptp.does_not_enclose_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.is_at_of_2 X Y) (tptp.does_not_enclose_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.does_not_enclose_2 X Y) (tptp.abuts_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.spatial_entity_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.does_not_enclose_2 X Y) (tptp.element_of_2 Y Z) (tptp.spatial_entity_1 X) (tptp.spatial_entity_1 Y) (tptp.aggregate_1 Z)) (tptp.does_not_enclose_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.experiencer_2 X Y))) (=> (and _let_1 (tptp.slide_1 X) (tptp.slide_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.recipient_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.recipient_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.is_region_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.played_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.is_part_or_unit_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.entity_1 Z)) (tptp.played_by_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.origin_of_2 Y Z) (tptp.role_1 X) (tptp.spatial_entity_1 Y) (tptp.move_1 Z)) (tptp.origin_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.information_content_of_2 X Y) (tptp.object_of_2 Y Z) (tptp.role_1 X) (tptp.information_1 Y) (tptp.event_1 Z)) (tptp.object_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.object_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.object_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.is_part_or_unit_of_2 Y Z) (tptp.role_1 X) (tptp.tangible_entity_1 Y) (tptp.tangible_entity_1 Z)) (tptp.is_part_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.instrument_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.instrument_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.in_event_2 X Y) (tptp.subevent_of_2 Y Z) (tptp.role_1 X) (tptp.event_1 Y) (tptp.event_1 Z)) (tptp.in_event_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.experiencer_of_2 X Y))) (=> (and _let_1 (tptp.role_1 X) (tptp.role_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.experiencer_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.experiencer_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.donor_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.donor_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.destination_of_2 Y Z) (tptp.role_1 X) (tptp.spatial_entity_1 Y) (tptp.move_1 Z)) (tptp.destination_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.beneficiary_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.beneficiary_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.agent_of_2 Y Z) (tptp.role_1 X) (tptp.entity_1 Y) (tptp.event_1 Z)) (tptp.agent_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.object_2 X Y))) (=> (and _let_1 (tptp.reaction_1 X) (tptp.reaction_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.object_2 X Y))) (=> (and _let_1 (tptp.reaction_1 X) (tptp.reaction_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.raw_material_2 X Y) (tptp.has_basic_structural_unit_2 Y Z) (tptp.reaction_1 X) (tptp.chemical_1 Y) (tptp.chemical_entity_1 Z)) (tptp.raw_material_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted)) (let ((_let_1 (tptp.equal_2 X Y))) (=> (and _let_1 (tptp.physical_object_1 X) (tptp.physical_object_1 Y)) _let_1))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.recipient_of_2 Y Z) (tptp.person_1 X) (tptp.organization_1 Y) (tptp.event_1 Z)) (tptp.recipient_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.plays_2 X Y) (tptp.element_of_2 Y Z) (tptp.person_1 X) (tptp.role_1 Y) (tptp.organization_1 Z)) (tptp.element_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_of_2 X Y) (tptp.agent_of_2 Y Z) (tptp.person_1 X) (tptp.organization_1 Y) (tptp.event_1 Z)) (tptp.agent_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.possesses_2 Y Z) (tptp.participant_1 X) (tptp.animal_1 Y) (tptp.entity_1 Z)) (tptp.possesses_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.played_by_2 X Y) (tptp.has_part_or_unit_2 Y Z) (tptp.participant_1 X) (tptp.animal_1 Y) (tptp.tangible_entity_1 Z)) (tptp.has_part_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_2 X Y) (tptp.recipient_of_2 Y Z) (tptp.organization_1 X) (tptp.person_1 Y) (tptp.event_1 Z)) (tptp.recipient_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_2 X Y) (tptp.experiencer_of_2 Y Z) (tptp.organization_1 X) (tptp.person_1 Y) (tptp.state_1 Z)) (tptp.experiencer_of_star_2 X Z))) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (=> (and (tptp.element_2 X Y) 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((_let_8 (tptp.fn_phosphorylated_intermediate_6 X))) (let ((_let_9 (tptp.fn_covalent_bond_19 _let_4))) (let ((_let_10 (tptp.fn_1_comma_3_bisphosphoglycerate_13 X))) (let ((_let_11 (tptp.fn_covalent_bond_20 _let_10))) (let ((_let_12 (tptp.fn_phosphorylated_intermediate_5 X))) (let ((_let_13 (tptp.fn_carboxyl_group_23 _let_2))) (let ((_let_14 (tptp.fn_molecule_11 X))) (let ((_let_15 (tptp.fn_covalent_bond_19 _let_10))) (let ((_let_16 (tptp.fn_1_comma_3_bisphosphoglycerate_8 X))) (let ((_let_17 (tptp.fn_1_comma_3_bisphosphoglycerate_17 X))) (let ((_let_18 (tptp.fn_1_comma_3_bisphosphoglycerate_10 X))) (let ((_let_19 (tptp.fn_1_comma_3_bisphosphoglycerate_18 X))) (let ((_let_20 (tptp.fn_1_comma_3_bisphosphoglycerate_9 X))) (let ((_let_21 (tptp.fn_1_comma_3_bisphosphoglycerate_15 X))) (let ((_let_22 (tptp.fn_1_comma_3_bisphosphoglycerate_1 X))) (let ((_let_23 (tptp.fn_1_comma_3_bisphosphoglycerate_2 X))) (let ((_let_24 (tptp.fn_1_comma_3_bisphosphoglycerate_3 X))) (let ((_let_25 (tptp.fn_1_comma_3_bisphosphoglycerate_7 X))) (let ((_let_26 (tptp.fn_1_comma_3_bisphosphoglycerate_6 X))) (let ((_let_27 (tptp.fn_1_comma_3_bisphosphoglycerate_4 X))) (let ((_let_28 (tptp.fn_carboxyl_group_70 _let_2))) (let ((_let_29 (tptp.fn_1_comma_3_bisphosphoglycerate_12 X))) (let ((_let_30 (tptp.fn_carboxyl_group_25 _let_2))) (let ((_let_31 (tptp.fn_1_comma_3_bisphosphoglycerate_16 X))) (let ((_let_32 (tptp.fn_carboxyl_group_69 _let_2))) (let ((_let_33 (tptp.fn_1_comma_3_bisphosphoglycerate_5 X))) (let ((_let_34 (tptp.fn_functional_group_1 _let_2))) (=> (tptp.number_1_comma_3_bisphosphoglycerate_1 X) (and (tptp.original_name_2 X |tptp.'1,3-Bisphosphoglycerate'|) (tptp.user_description_2 X |tptp.'Three carbon organic molecule which serves as a metabolic intermediate in cellular respiration and photosynthesis.'|) (tptp.concept2words_2 X |tptp.'1,3 bisphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1,3-bisphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1 3 bisphosphoglyceric acid'|) (tptp.concept2words_2 X |tptp.'1-3-bisphosphoglyceric-acid'|) (tptp.concept2words_2 X |tptp.'1 3 bisphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1-3-bisphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1 3bpg'|) (tptp.concept2words_2 X |tptp.'1-3bpg'|) (tptp.concept2words_2 X |tptp.'1,3 diphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1,3-diphosphoglycerate'|) (tptp.concept2words_2 X |tptp.'1,3bpg'|) (tptp.concept2words_2 X tptp.pgap) (tptp.phosphorylated_intermediate_1 X) (tptp.phosphorylation_1 _let_22) (tptp.molecule_1 _let_23) (tptp.kinetic_energy_1 _let_24) (tptp.constant_motion_1 _let_27) (tptp.organic_molecule_1 _let_33) (tptp.speed_value_1 _let_26) (tptp.quantity_value_1 _let_25) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.oxygen_1 _let_20) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_skeleton_1 _let_18) (tptp.carboxyl_group_1 _let_2) (tptp.double_bond_1 _let_29) (tptp.covalent_bond_1 _let_10) (tptp.single_bond_1 _let_10) (tptp.double_bond_1 _let_4) (tptp.functional_group_1 _let_21) (tptp.phosphate_group_1 _let_21) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.hydrogen_1 _let_31) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.phosphorus_1 _let_19) (tptp.chemical_entity_1 _let_34) (tptp.single_bond_1 _let_32) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.hydrogen_1 _let_30) (tptp.double_bond_1 _let_28) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.has_part_2 X _let_31) (tptp.exactCardinality X tptp.has_region_0 |"2"| tptp.phosphate_group_0) (tptp.possesses_2 X _let_10) (tptp.possesses_2 X _let_29) (tptp.is_between_2 _let_4 _let_17) (tptp.is_between_2 _let_10 _let_19) (tptp.is_between_2 _let_4 _let_16) (tptp.is_between_2 _let_10 _let_20) (tptp.is_between_2 _let_4 _let_19) (tptp.possesses_2 X _let_4) (tptp.is_between_2 _let_4 _let_20) (tptp.has_region_2 X _let_2) (tptp.has_state_2 _let_33 X) (tptp.raw_material_2 _let_22 _let_33) (tptp.is_between_2 _let_10 _let_17) (tptp.is_inside_2 _let_31 _let_2) (not (= _let_31 _let_17)) (tptp.is_inside_2 _let_17 _let_2) (tptp.is_inside_2 _let_20 _let_2) (not (= _let_17 _let_31)) (tptp.is_inside_2 _let_16 _let_2) (tptp.is_between_2 _let_29 _let_16) (tptp.is_between_2 _let_29 _let_20) (not (= _let_20 _let_16)) (not (= _let_16 _let_20)) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_17) (tptp.object_2 _let_27 X) (tptp.speed_2 _let_27 _let_26) (tptp.is_inside_2 _let_17 _let_21) (tptp.has_region_2 X _let_21) (tptp.possesses_2 X _let_24) (tptp.quantity_2 _let_24 _let_25) (tptp.directly_proportional_2 _let_26 _let_25) (tptp.result_2 _let_22 X) (tptp.raw_material_2 _let_22 _let_23) (not (= _let_23 X)) (tptp.has_part_2 X _let_20) (not (= _let_20 _let_17)) (not (= X _let_23)) (not (= _let_17 _let_20)) (not (= _let_19 _let_17)) (tptp.is_inside_2 _let_19 _let_21) (tptp.is_inside_2 _let_20 _let_21) (not (= _let_17 _let_19)) (not (= _let_20 _let_19)) (not (= _let_19 _let_20)) (tptp.has_part_2 X _let_16) (tptp.is_inside_2 _let_16 _let_18) (tptp.has_region_2 X _let_18) (not (= _let_17 _let_16)) (not (= _let_16 _let_17)) (= _let_19 _let_11) (= _let_16 _let_5) (= _let_20 _let_15) (= _let_19 _let_9) (= _let_20 _let_14) (= _let_4 (tptp.fn_molecule_10 X)) (= X _let_34) (= _let_33 (tptp.fn_phosphorylated_intermediate_1 X)) (= _let_10 _let_32) (= _let_17 _let_7) (= _let_31 _let_30) (= _let_20 _let_13) (= _let_29 _let_28) (= _let_20 _let_7) (= _let_16 _let_3) (= (tptp.fn_1_comma_3_bisphosphoglycerate_19 X) (tptp.fn_phosphorylated_intermediate_14 X)) (= (tptp.fn_1_comma_3_bisphosphoglycerate_20 X) (tptp.fn_phosphorylated_intermediate_15 X)) (= _let_27 (tptp.fn_phosphorylated_intermediate_9 X)) (= _let_26 (tptp.fn_phosphorylated_intermediate_12 X)) (= _let_25 (tptp.fn_phosphorylated_intermediate_13 X)) (= _let_24 (tptp.fn_phosphorylated_intermediate_4 X)) (= _let_23 (tptp.fn_phosphorylated_intermediate_3 X)) (= _let_22 (tptp.fn_phosphorylated_intermediate_2 X)) (= _let_21 (tptp.fn_phosphorylated_intermediate_11 X)) (= _let_20 _let_12) (= _let_19 _let_8) (= _let_18 (tptp.fn_phosphorylated_intermediate_10 X)) (= _let_17 _let_6) (= _let_16 _let_1) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_7) (= _let_7 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_3_prime_carbon_1 X))) (=> (tptp.number_3_prime_carbon_1 X) (and (tptp.original_name_2 X |tptp.'3-Prime-Carbon'|) (tptp.user_description_2 X |tptp.'The carbon present at 3-prime region.'|) (tptp.concept2words_2 X |tptp.'3 prime carbon'|) (tptp.concept2words_2 X |tptp.'3-prime-carbon'|) (tptp.carbon_1 X) (tptp.number_3_prime_region_1 _let_1) (tptp.is_at_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.number_3_prime_end_1 X) (and (tptp.original_name_2 X |tptp.'3-Prime-End'|) (tptp.description_2 X |tptp.'The has-region of a nucleotide sequence acid which includes the terminal nucleotide with a free 3_' hydroxyl group.'|) (tptp.user_description_2 X |tptp.'The 3_'- end of a strand is so named due to it terminating at the hydroxyl group of the third carbon in the sugar-ring, and is known as the tail end.'|) (tptp.concept2words_2 X |tptp.'3_' end'|) (tptp.concept2words_2 X |tptp.'3_'-end'|) (tptp.concept2words_2 X |tptp.'3 prime end'|) (tptp.concept2words_2 X |tptp.'3-prime-end'|) (tptp.nucleic_acid_region_1 X) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (=> (tptp.number_3_prime_region_1 X) (and (tptp.original_name_2 X |tptp.'3-Prime-Region'|) (tptp.user_description_2 X |tptp.'Region of nucleic acids which is associated with the 3_' carbon on the sugar component of the molecule.'|) (tptp.concept2words_2 X |tptp.'3 prime region'|) (tptp.concept2words_2 X |tptp.'3-prime-region'|) (tptp.nucleic_acid_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_5_prime_carbon_1 X))) (=> (tptp.number_5_prime_carbon_1 X) (and (tptp.original_name_2 X |tptp.'5-Prime-Carbon'|) (tptp.user_description_2 X |tptp.'The carbon present at 5-prime region.'|) (tptp.concept2words_2 X |tptp.'5 prime carbon'|) (tptp.concept2words_2 X |tptp.'5-prime-carbon'|) (tptp.carbon_1 X) (tptp.number_5_prime_region_1 _let_1) (tptp.is_at_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.number_5_prime_end_1 X) (and (tptp.original_name_2 X |tptp.'5-Prime-End'|) (tptp.description_2 X |tptp.'The Region of a Nucleotide-Sequence which includes the terminal Nucleotide with a free 5_' Triphosphate group.'|) (tptp.user_description_2 X |tptp.'The 5_'-end designates the end of the DNA or RNA strand that has the fifth carbon in the sugar-ring of the deoxyribose or ribose at its terminus. A phosphate group attached to the 5_'-end permits ligation of two nucleotides.'|) (tptp.concept2words_2 X |tptp.'five prime end'|) (tptp.concept2words_2 X |tptp.'five-prime-end'|) (tptp.concept2words_2 X |tptp.'5_' end'|) (tptp.concept2words_2 X |tptp.'5_'-end'|) (tptp.concept2words_2 X |tptp.'5 prime end'|) (tptp.concept2words_2 X |tptp.'5-prime-end'|) (tptp.nucleic_acid_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_5_prime_nucleotide_1 X))) (=> (tptp.number_5_prime_nucleotide_1 X) (and (tptp.original_name_2 X |tptp.'5-Prime-Nucleotide'|) (tptp.description_2 X |tptp.'Nucleotide at the end of a sequence whose 5_' end either bears a free triphosphate (free sequences like DNA strands or DNA strand fragments) or whose 5_' end is attached to a neighboring sequence (internal sequences like introns or regulatory sequences).'|) (tptp.user_description_2 X |tptp.'Nucleotide at the 5_' end of a sequence.'|) (tptp.concept2words_2 X |tptp.'5_' nucleotide'|) (tptp.concept2words_2 X |tptp.'5_'-nucleotide'|) (tptp.concept2words_2 X |tptp.'5_' base'|) (tptp.concept2words_2 X |tptp.'five prime base'|) (tptp.concept2words_2 X |tptp.'5 prime nucleotide'|) (tptp.concept2words_2 X |tptp.'5-prime-nucleotide'|) (tptp.nucleotide_1 X) (tptp.number_5_prime_end_1 _let_1) (tptp.is_at_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.number_5_prime_region_1 X) (and (tptp.original_name_2 X |tptp.'5-Prime-Region'|) (tptp.user_description_2 X |tptp.'Region of nucleic acids which is associated with the 5_' carbon on the sugar component of the molecule.'|) (tptp.concept2words_2 X |tptp.'5 prime region'|) (tptp.concept2words_2 X |tptp.'5-prime-region'|) (tptp.nucleic_acid_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.a_antigen_1 X) (and (tptp.original_name_2 X |tptp.'A-Antigen'|) (tptp.user_description_2 X |tptp.'An antigen is a molecule recognized by the immune system. Type A blood has one kind of antigen and type B another. A person with type AB blood has both the A and B antigen.'|) (tptp.concept2words_2 X |tptp.'carbohydrate a'|) (tptp.concept2words_2 X |tptp.'carbohydrate-a'|) (tptp.concept2words_2 X |tptp.'antigen of a'|) (tptp.concept2words_2 X |tptp.'a antigen'|) (tptp.concept2words_2 X |tptp.'a-antigen'|) (tptp.blood_carbohydrate_1 X) (not (tptp.b_antigen_1 X))))) (forall ((X $$unsorted)) (=> (tptp.a_band_1 X) (and (tptp.original_name_2 X |tptp.'A-Band'|) (tptp.user_description_2 X |tptp.'A broad region that corresponds to the length of the thick filaments in a sarcomere'|) (tptp.concept2words_2 X |tptp.'band of a'|) (tptp.concept2words_2 X |tptp.'a band'|) (tptp.concept2words_2 X |tptp.'a-band'|) (tptp.biological_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_a_site_7 X))) (let ((_let_2 (tptp.fn_codon_recognition_11 _let_1))) (let ((_let_3 (tptp.fn_a_site_5 X))) (let ((_let_4 (tptp.fn_attach_1 _let_3))) (let ((_let_5 (tptp.fn_a_site_8 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_codon_recognition_3 _let_1))) (let ((_let_8 (tptp.fn_attach_2 _let_3))) (let ((_let_9 (tptp.fn_move_into_1 _let_5))) (let ((_let_10 (tptp.fn_a_site_3 X))) (let ((_let_11 (tptp.fn_a_site_4 X))) (let ((_let_12 (tptp.fn_codon_recognition_8 _let_1))) (let ((_let_13 (tptp.fn_codon_recognition_9 _let_1))) (let ((_let_14 (tptp.fn_a_site_6 X))) (let ((_let_15 (tptp.fn_a_site_1 X))) (let ((_let_16 (tptp.fn_a_site_2 X))) (=> (tptp.a_site_1 X) (and (tptp.original_name_2 X |tptp.'A-Site'|) (tptp.description_2 X |tptp.'The site on the ribosome where the incoming amino-acyl tRNA binds.'|) (tptp.user_description_2 X |tptp.'One of a ribosome_'s three binding sites for tRNA during translation. The A site holds the tRNA carrying the next amino acid to be added to the polypeptide chain.'|) (tptp.concept2words_2 X |tptp.'a-site'|) (tptp.ribosome_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.three_prime_end_of_mrna_1 _let_15) (tptp.large_ribosomal_subunit_1 _let_16) (tptp.ribosome_1 _let_10) (tptp.spatial_entity_1 _let_11) (tptp.aminoacyl_trna_1 _let_11) (tptp.attach_1 _let_3) (tptp.attach_1 _let_14) (tptp.codon_recognition_1 _let_1) (tptp.move_1 _let_5) (tptp.move_into_1 _let_5) (tptp.attach_1 _let_13) (tptp.move_into_1 _let_12) (tptp.tangible_entity_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.a_site_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.aminoacyl_trna_1 _let_2) (tptp.site_2 _let_1 _let_10) (tptp.has_region_2 _let_16 X) (tptp.is_inside_2 X _let_10) (tptp.is_near_2 X _let_15) (tptp.has_part_2 _let_10 _let_16) (tptp.has_region_2 _let_10 X) (tptp.is_near_2 _let_15 X) (tptp.object_2 _let_3 _let_11) (tptp.base_2 _let_3 X) (tptp.object_2 _let_1 _let_11) (tptp.object_2 _let_14 _let_11) (tptp.subevent_2 _let_1 _let_14) (tptp.subevent_2 _let_1 _let_5) (tptp.agent_2 _let_1 _let_11) (tptp.object_2 _let_5 _let_11) (tptp.destination_2 _let_5 X) (tptp.path_2 _let_5 X) (tptp.next_event_2 _let_5 _let_14) (tptp.base_2 _let_5 _let_10) (= _let_11 _let_4) (= X _let_8) (= _let_14 _let_13) (= X _let_7) (= _let_11 _let_6) (= _let_5 _let_12) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.abdomen_1 X) (and (tptp.original_name_2 X |tptp.'Abdomen'|) (tptp.user_description_2 X |tptp.'In vertebrates such as mammals the abdomen (belly) constitutes the part of the body between the thorax (chest) and pelvis.'|) (tptp.concept2words_2 X tptp.abdomen) (tptp.body_segment_1 X) (not (tptp.thorax_1 X)) (not (tptp.head_1 X))))) (forall ((X $$unsorted)) (=> (tptp.abdominal_cavity_1 X) (and (tptp.original_name_2 X |tptp.'Abdominal-Cavity'|) (tptp.user_description_2 X |tptp.'In vertebrate animals, the cavity that encloses the major visceral organs; separated from the thoracic cavity by the diaphragm.'|) (tptp.concept2words_2 X |tptp.'cavity of abdominal'|) (tptp.concept2words_2 X |tptp.'abdominal cavity'|) (tptp.concept2words_2 X |tptp.'abdominal-cavity'|) (tptp.animal_space_1 X) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.abiotic_factor_1 X) (and (tptp.original_name_2 X |tptp.'Abiotic-Factor'|) (tptp.user_description_2 X |tptp.'A nonliving physical or chemical component of an ecosystem, with which organisms interact.'|) (tptp.concept2words_2 X |tptp.'abiotic factor'|) (tptp.concept2words_2 X |tptp.'abiotic-factor'|) (tptp.ecological_role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.abnormal_1 X) (and (tptp.original_name_2 X |tptp.'Abnormal'|) (tptp.user_description_2 X |tptp.'Not normal or as expected'|) (tptp.concept2words_2 X tptp.abnormal) (tptp.role_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_abnormal_cloned_embryo_4 X))) (let ((_let_2 (tptp.fn_embryogenesis_51 _let_1))) (let ((_let_3 (tptp.fn_embryogenesis_30 _let_1))) (let ((_let_4 (tptp.fn_abnormal_cloned_embryo_5 X))) (let ((_let_5 (tptp.fn_create_1 _let_4))) (let ((_let_6 (tptp.fn_embryogenesis_8 _let_1))) (let ((_let_7 (tptp.fn_abnormal_cloned_embryo_3 X))) (let ((_let_8 (tptp.fn_abnormal_cloned_embryo_2 X))) (let ((_let_9 (tptp.fn_abnormal_cloned_embryo_1 X))) (=> (tptp.abnormal_cloned_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Abnormal-Cloned-Embryo'|) (tptp.user_description_2 X |tptp.'A cloned embryo that is not normal.'|) (tptp.concept2words_2 X |tptp.'abnormal cloned embryo'|) (tptp.concept2words_2 X |tptp.'abnormal-cloned-embryo'|) (tptp.embryo_1 X) (tptp.clone_1 X) (not (tptp.cloned_embryo_1 X)) (not (tptp.animal_embryo_1 X)) (not (tptp.early_embryo_1 X)) (not (tptp.eight_cell_embryo_1 X)) (not (tptp.embryoid_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X)) (tptp.abnormal_1 _let_9) (tptp.dna_1 _let_8) (tptp.dna_hypermethylation_1 _let_7) (tptp.embryogenesis_1 _let_1) (tptp.create_1 _let_4) (tptp.embryo_1 _let_6) (tptp.entity_1 _let_5) (tptp.create_1 _let_3) (tptp.create_1 _let_2) (tptp.result_2 _let_1 X) (tptp.subevent_2 _let_1 _let_7) (tptp.plays_2 X _let_9) (tptp.has_part_2 X _let_8) (tptp.causes_2 _let_7 _let_4) (tptp.object_2 _let_1 X) (tptp.subevent_2 _let_1 _let_4) (tptp.result_2 _let_4 X) (= X _let_6) (= _let_4 _let_3) (= _let_4 _let_2) (= X _let_5) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_abo_blood_group_3 X))) (let ((_let_2 (tptp.fn_transfer_1 _let_1))) (let ((_let_3 (tptp.fn_abo_blood_group_2 X))) (let ((_let_4 (tptp.fn_abo_blood_group_1 X))) (=> (tptp.abo_blood_group_1 X) (and (tptp.original_name_2 X |tptp.'ABO-Blood-Group'|) (tptp.user_description_2 X |tptp.'The ABO blood group phenotypes, also called blood types, are A, B, AB, and O.'|) (tptp.concept2words_2 X |tptp.'abo blood group'|) (tptp.concept2words_2 X |tptp.'abo-blood-group'|) (tptp.gene_with_multiple_alleles_1 X) (tptp.codominance_1 _let_4) (tptp.blood_type_genotype_1 _let_3) (tptp.inheritance_1 _let_1) (tptp.entity_1 _let_2) (tptp.by_means_of_2 _let_1 _let_4) (tptp.element_2 X _let_3) (tptp.object_2 _let_1 X) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.abomasum_1 X) (and (tptp.original_name_2 X |tptp.'Abomasum'|) (tptp.user_description_2 X |tptp.'The fourth chamber in a ruminant_'s digestive system in which cud is digested by the ruminant_'s own enzymes. The abomasum corresponds to the stomach in other mammals.'|) (tptp.concept2words_2 X tptp.abomasum) (tptp.digestive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.abortion_1 X) (and (tptp.original_name_2 X |tptp.'Abortion'|) (tptp.user_description_2 X |tptp.'An embryo or fetus removed or expelled from the uterus before it reaches a viable age.'|) (tptp.concept2words_2 X tptp.abort) (tptp.concept2words_2 X tptp.abortion) (tptp.medical_procedure_1 X) (not (tptp.morning_after_pill_1 X)) (not (tptp.assisted_reproductive_technology_1 X)) (not (tptp.electrocardiogram_1 X)) (not (tptp.genetic_testing_1 X)) (not (tptp.immunization_1 X)) (not (tptp.newborn_screening_1 X)) (not (tptp.paternity_testing_1 X)) (not (tptp.tubal_ligation_1 X)) (not (tptp.ultrasound_imaging_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.abrade_1 X) (and (tptp.original_name_2 X |tptp.'Abrade'|) (tptp.user_description_2 X |tptp.'To wear away or damage by friction.'|) (tptp.concept2words_2 X tptp.abrade) (tptp.make_contact_1 X)))) (forall ((X $$unsorted)) (=> (tptp.abscisic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Abscisic-Acid'|) (tptp.user_description_2 X |tptp.'A plant hormone involved in developmental processes, including seed and bud dormancy and facilitating drought tolerance.'|) (tptp.concept2words_2 X tptp.aba) (tptp.concept2words_2 X |tptp.'abscisic acid'|) (tptp.concept2words_2 X |tptp.'abscisic-acid'|) (tptp.plant_hormone_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absolute_dating_1 X) (and (tptp.original_name_2 X |tptp.'Absolute-Dating'|) (tptp.user_description_2 X |tptp.'A collection of methods for dating materials which provide quantitative estimates of age. The most common form of absolute dating is radiometric dating which i based on the decay of radioactive isotopes.'|) (tptp.concept2words_2 X |tptp.'chronometric dating'|) (tptp.concept2words_2 X |tptp.'calendar dating'|) (tptp.concept2words_2 X |tptp.'dating of absolute'|) (tptp.concept2words_2 X |tptp.'absolute dating'|) (tptp.concept2words_2 X |tptp.'absolute-dating'|) (tptp.radiometric_dating_1 X) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.absorb_1 X) (and (tptp.original_name_2 X |tptp.'Absorb'|) (tptp.concept2words_2 X tptp.absorb) (tptp.take_in_1 X) (not (tptp.eat_1 X)) (not (tptp.absorption_of_energy_by_electron_1 X))))) (forall ((X $$unsorted)) (=> (tptp.absorbance_scalar_constant_1 X) (and (tptp.original_name_2 X |tptp.'Absorbance-Scalar-Constant'|) (tptp.concept2words_2 X |tptp.'absorbance scalar constant'|) (tptp.concept2words_2 X |tptp.'absorbance-scalar-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absorbance_scale_1 X) (and (tptp.original_name_2 X |tptp.'Absorbance-Scale'|) (tptp.concept2words_2 X |tptp.'absorbance scale'|) (tptp.concept2words_2 X |tptp.'absorbance-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absorbance_value_1 X) (and (tptp.original_name_2 X |tptp.'Absorbance-Value'|) (tptp.concept2words_2 X tptp.absorbancy) (tptp.concept2words_2 X tptp.absorbance) (tptp.concept2words_2 X |tptp.'absorbance value'|) (tptp.concept2words_2 X |tptp.'absorbance-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absorption_in_small_intestine_1 X) (and (tptp.original_name_2 X |tptp.'Absorption-In-Small-Intestine'|) (tptp.user_description_2 X |tptp.'The uptake of mechanically and chemically digested nutrient molecules in the small intestine of animals.'|) (tptp.concept2words_2 X |tptp.'absorption in small intestine'|) (tptp.concept2words_2 X |tptp.'absorption-in-small-intestine'|) (tptp.digestive_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_move_into_1 X))) (let ((_let_2 (tptp.fn_absorption_of_energy_by_electron_10 X))) (let ((_let_3 (tptp.fn_atom_14 _let_2))) (let ((_let_4 (tptp.fn_take_in_1 X))) (let ((_let_5 (tptp.fn_absorption_of_energy_by_electron_13 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_absorption_of_energy_by_electron_15 X))) (let ((_let_8 (tptp.fn_increase_3 _let_7))) (let ((_let_9 (tptp.fn_absorption_of_energy_by_electron_14 X))) (let ((_let_10 (tptp.fn_increase_2 _let_7))) (let ((_let_11 (tptp.fn_absorption_of_energy_by_electron_17 X))) (let ((_let_12 (tptp.fn_absorption_of_energy_by_electron_11 X))) (let ((_let_13 (tptp.fn_absorption_of_energy_by_electron_16 X))) (let ((_let_14 (tptp.fn_absorption_of_energy_by_electron_7 X))) (let ((_let_15 (tptp.fn_absorption_of_energy_by_electron_8 X))) (let ((_let_16 (tptp.fn_absorption_of_energy_by_electron_9 X))) (=> (tptp.absorption_of_energy_by_electron_1 X) (and (tptp.original_name_2 X |tptp.'Absorption-Of-Energy-By-Electron'|) (tptp.user_description_2 X |tptp.'An electron can change its shell, but only by absorbing or losing an amount of energy equal to the difference in potential energy between the old shell and the new shell.'|) (tptp.concept2words_2 X tptp.absorb) (tptp.concept2words_2 X |tptp.'absorption of energy by electron'|) (tptp.concept2words_2 X |tptp.'absorption-of-energy-by-electron'|) (tptp.take_in_1 X) (not (tptp.eat_1 X)) (not (tptp.absorb_1 X)) (tptp.system_1 (tptp.fn_absorption_of_energy_by_electron_5 X)) (tptp.quantity_value_1 _let_14) (tptp.quantity_value_1 _let_15) (tptp.quantity_value_1 _let_16) (tptp.atom_1 _let_2) (tptp.container_1 _let_12) (tptp.move_1 _let_5) (tptp.quantity_value_1 _let_9) (tptp.increase_1 _let_7) (tptp.energy_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.electron_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.property_node_1 _let_10) (tptp.property_value_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.electron_1 _let_3) (tptp.subevent_2 _let_5 _let_7) (tptp.called_2 _let_14 |tptp.'EnergyAbsorbed'|) (tptp.called_2 _let_15 |tptp.'PE_Initial'|) (tptp.greater_than_or_equal_to_2 _let_16 _let_9) (tptp.called_2 _let_16 |tptp.'PE_Final'|) (tptp.greater_than_or_equal_to_2 _let_9 _let_15) (tptp.causes_2 X _let_7) (tptp.causes_2 X _let_5) (tptp.quantity_2 _let_13 _let_14) (tptp.object_2 _let_5 _let_11) (tptp.agent_2 X _let_11) (tptp.object_2 X _let_13) (tptp.has_part_2 _let_2 _let_11) (tptp.base_2 X _let_11) (tptp.plays_2 _let_11 _let_12) (tptp.in_event_2 _let_12 X) (tptp.from_value_2 _let_7 _let_9) (= _let_11 _let_6) (= _let_11 _let_4) (= _let_13 (tptp.fn_move_1 X)) (= _let_11 _let_3) (= _let_12 (tptp.fn_move_into_2 X)) (= _let_11 _let_1) (= (tptp.fn_absorption_of_energy_by_electron_12 X) _let_10) (= _let_9 _let_8) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.absorption_of_fats_in_small_intestine_1 X) (and (tptp.original_name_2 X |tptp.'Absorption-Of-Fats-In-Small-Intestine'|) (tptp.user_description_2 X |tptp.'The uptake of small fatty acids by an organism that occurs in the small intestine during food processing.'|) (tptp.concept2words_2 X |tptp.'absorption of fats in small intestine'|) (tptp.concept2words_2 X |tptp.'absorption-of-fats-in-small-intestine'|) (tptp.digestive_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absorption_spectrum_1 X) (and (tptp.original_name_2 X |tptp.'Absorption-Spectrum'|) (tptp.user_description_2 X |tptp.'A range of wavelengths of visible light that can be absorbed by a particular pigment. This range is sometimes depicted in a graph with the same name.'|) (tptp.concept2words_2 X |tptp.'spectrum of absorption'|) (tptp.concept2words_2 X |tptp.'absorption spectrum'|) (tptp.concept2words_2 X |tptp.'absorption-spectrum'|) (tptp.graphical_representation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.absorptive_process_1 X) (and (tptp.original_name_2 X |tptp.'Absorptive-Process'|) (tptp.user_description_2 X |tptp.'Any process that occurs during absorption, the third stage of food processing in animals.'|) (tptp.concept2words_2 X |tptp.'absorptive process'|) (tptp.concept2words_2 X |tptp.'absorptive-process'|) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.abyssal_zone_1 X) (and (tptp.original_name_2 X |tptp.'Abyssal-Zone'|) (tptp.user_description_2 X |tptp.'Pelagic waters over the deepest parts of the ocean, at depths of 4000-6000 meters.'|) (tptp.concept2words_2 X tptp.abyss) (tptp.concept2words_2 X |tptp.'abyssal zone'|) (tptp.concept2words_2 X |tptp.'abyssal-zone'|) (tptp.aquatic_zone_1 X) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.acacia))) (=> (tptp.acacia_tree_1 X) (and (tptp.original_name_2 X |tptp.'Acacia-Tree'|) (tptp.user_description_2 X |tptp.'A tree or shrub of the genus Acacia.'|) (tptp.concept2words_2 X tptp.thorntree) _let_1 _let_1 (tptp.concept2words_2 X |tptp.'tree of acacia'|) (tptp.concept2words_2 X |tptp.'acacia tree'|) (tptp.concept2words_2 X |tptp.'acacia-tree'|) (tptp.eudicot_1 X))))) (forall ((X $$unsorted)) (=> (tptp.acanthodian_1 X) (and (tptp.original_name_2 X |tptp.'Acanthodian'|) (tptp.user_description_2 X |tptp.'Any of a group of extinct fishes that had features of both cartilaginous and bony fishes. Acanthodians appear in the fossil record from the Silurian to the Permian.'|) (tptp.concept2words_2 X tptp.acanthodian) (tptp.early_vertebrate_1 X) (tptp.extinct_vertebrate_1 X) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.acceleration_magnitude_constant_1 X) (and (tptp.original_name_2 X |tptp.'Acceleration-Magnitude-Constant'|) (tptp.concept2words_2 X |tptp.'acceleration magnitude constant'|) (tptp.concept2words_2 X |tptp.'acceleration-magnitude-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.acceleration_magnitude_scale_1 X) (and (tptp.original_name_2 X |tptp.'Acceleration-Magnitude-Scale'|) (tptp.concept2words_2 X |tptp.'acceleration magnitude scale'|) (tptp.concept2words_2 X |tptp.'acceleration-magnitude-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.acceleration_magnitude_value_1 X) (and (tptp.original_name_2 X |tptp.'Acceleration-Magnitude-Value'|) (tptp.description_2 X |tptp.'the rate of change of speed with respect to time'|) (tptp.concept2words_2 X |tptp.'magnitude of acceleration'|) (tptp.concept2words_2 X |tptp.'acceleration magnitude'|) (tptp.concept2words_2 X |tptp.'acceleration-magnitude'|) (tptp.concept2words_2 X tptp.quickening) (tptp.concept2words_2 X tptp.speedup) (tptp.concept2words_2 X tptp.accelerating) (tptp.concept2words_2 X tptp.acceleration) (tptp.concept2words_2 X |tptp.'acceleration magnitude value'|) (tptp.concept2words_2 X |tptp.'acceleration-magnitude-value'|) (tptp.magnitude_value_1 X) (not (tptp.volume_value_1 X)) (not (tptp.speed_value_1 X)) (not (tptp.length_value_1 X)) (not (tptp.size_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.acceptance_constant_1 X) (and (tptp.original_name_2 X |tptp.'Acceptance-Constant'|) (tptp.concept2words_2 X |tptp.'constant of acceptance'|) (tptp.concept2words_2 X |tptp.'acceptance constant'|) (tptp.concept2words_2 X |tptp.'acceptance-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.acceptance_value_1 X) (and (tptp.original_name_2 X |tptp.'Acceptance-Value'|) (tptp.concept2words_2 X tptp.acceptance) (tptp.concept2words_2 X |tptp.'value of acceptance'|) (tptp.concept2words_2 X |tptp.'acceptance value'|) (tptp.concept2words_2 X |tptp.'acceptance-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (=> (tptp.accessory_fruit_1 X) (and (tptp.original_name_2 X |tptp.'Accessory-Fruit'|) (tptp.user_description_2 X |tptp.'A fruit in which some of the fleshy parts are not derived from the ovary, but from some other tissue.'|) (tptp.concept2words_2 X |tptp.'fruit of accessory'|) (tptp.concept2words_2 X |tptp.'accessory fruit'|) (tptp.concept2words_2 X |tptp.'accessory-fruit'|) (tptp.fruit_1 X) (not (tptp.aggregate_fruit_1 X))))) (forall ((X $$unsorted)) (=> (tptp.accessory_pigment_1 X) (and (tptp.original_name_2 X |tptp.'Accessory-Pigment'|) (tptp.user_description_2 X |tptp.'Antennae pigments found in photosynthetic organisms, that work in conjunction with other pigments to absorb light and transfer that light energy to photosystem chlorophyll.'|) (tptp.concept2words_2 X |tptp.'pigment of accessory'|) (tptp.concept2words_2 X |tptp.'accessory pigment'|) (tptp.concept2words_2 X |tptp.'accessory-pigment'|) (tptp.antenna_pigment_1 X)))) (forall ((X $$unsorted)) (=> (tptp.acclimatization_1 X) (and (tptp.original_name_2 X |tptp.'Acclimatization'|) (tptp.user_description_2 X |tptp.'The physiological processes by which an organism adjusts to environmental change.'|) (tptp.concept2words_2 X tptp.acclimatize) (tptp.concept2words_2 X tptp.acclimatization) (tptp.homeostatic_response_1 X) (not (tptp.biological_clock_1 X)) (not (tptp.hibernation_1 X)) (not (tptp.negative_feedback_1 X)) (not (tptp.plant_response_1 X)) (not (tptp.thermoregulation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acetaldehyde_1 X))) (let ((_let_2 (tptp.fn_acetaldehyde_2 X))) (=> (tptp.acetaldehyde_1 X) (and (tptp.original_name_2 X |tptp.'Acetaldehyde'|) (tptp.user_description_2 X |tptp.'Acetaldehyde is an organic compound with the formula CH3CHO. It is a type of aldehyde.'|) (tptp.concept2words_2 X tptp.ethanal) (tptp.concept2words_2 X tptp.acetaldehyde) (tptp.aldehyde_1 X) (not (tptp.aldose_1 X)) (not (tptp.glyceraldehyde_3_phosphate_1 X)) (tptp.carbon_1 _let_1) (tptp.hydrogen_1 _let_2) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (not (= _let_2 _let_1)) (not (= _let_1 _let_2)) (= _let_2 (tptp.fn_aldehyde_5 X)) (= _let_1 (tptp.fn_aldehyde_6 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acetaldehyde_substance_2 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_acetaldehyde_substance_1 X))) (=> (tptp.acetaldehyde_substance_1 X) (and (tptp.original_name_2 X |tptp.'Acetaldehyde-Substance'|) (tptp.user_description_2 X |tptp.'Substance composed of acetaldehyde molecules.'|) (tptp.concept2words_2 X |tptp.'substance of acetaldehyde'|) (tptp.concept2words_2 X |tptp.'acetaldehyde substance'|) (tptp.concept2words_2 X |tptp.'acetaldehyde-substance'|) (tptp.substance_1 X) (tptp.acetaldehyde_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.has_part_2 X _let_3) (tptp.solubility_in_water_2 X _let_1) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.substance_0) (= (tptp.fn_acetaldehyde_substance_3 X) _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ester_11 X))) (let ((_let_2 (tptp.fn_organic_molecule_2 X))) (let ((_let_3 (tptp.fn_acetate_1 X))) (=> (tptp.acetate_1 X) (and (tptp.original_name_2 X |tptp.'Acetate'|) (tptp.user_description_2 X |tptp.'Acetate is a derivative of acetic acid. Two types of derivatives are known, salts and ester.'|) (tptp.concept2words_2 X tptp.acetate) (tptp.ester_1 X) (not (tptp.alpha_ketoglutarate_1 X)) (not (tptp.citrate_1 X)) (not (tptp.fumarate_1 X)) (not (tptp.isocitrate_1 X)) (not (tptp.malate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X)) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_2 (tptp.fn_organic_molecule_2 X))) (let ((_let_3 (tptp.fn_acetic_acid_3 X))) (let ((_let_4 (tptp.fn_acetic_acid_1 X))) (=> (tptp.acetic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Acetic-Acid'|) (tptp.user_description_2 X |tptp.'Acetic acid, CH3COOH, also known as ethanoic acid, is an organic acid that gives vinegar its sour taste and pungent smell. It is a weak acid, in that it is only a partially dissociated acid in an aqueous solution.'|) (tptp.concept2words_2 X |tptp.'acetic acid'|) (tptp.concept2words_2 X |tptp.'acetic-acid'|) (tptp.carboxylic_acid_1 X) (not (tptp.formic_acid_1 X)) (not (tptp.pyruvic_acid_1 X)) (tptp.taste_value_1 _let_4) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.taste_2 X _let_4) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ketone_8 X))) (let ((_let_2 (tptp.fn_ketone_10 X))) (let ((_let_3 (tptp.fn_organic_molecule_2 X))) (let ((_let_4 (tptp.fn_acetone_1 X))) (=> (tptp.acetone_1 X) (and (tptp.original_name_2 X |tptp.'Acetone'|) (tptp.user_description_2 X |tptp.'Acetone is the organic compound with the formula (CH3)2CO. This colorless, mobile, flammable liquid is the simplest example of the ketones.'|) (tptp.concept2words_2 X tptp.acetone) (tptp.ketone_1 X) (not (tptp.dihydroxyacetone_phosphate_1 X)) (not (tptp.ketose_1 X)) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (tptp.has_part_2 X _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ester_9 X))) (let ((_let_2 (tptp.fn_ester_12 X))) (let ((_let_3 (tptp.fn_acetyl_coa_28 X))) (let ((_let_4 (tptp.fn_carboxyl_group_23 _let_3))) (let ((_let_5 (tptp.fn_carboxyl_group_24 _let_3))) (let ((_let_6 (tptp.fn_acetyl_coa_20 X))) (let ((_let_7 (tptp.fn_acetyl_group_4 _let_6))) (let ((_let_8 (tptp.fn_acetyl_coa_18 X))) (let ((_let_9 (tptp.fn_ester_linkage_27 _let_8))) (let ((_let_10 (tptp.fn_ester_11 X))) (let ((_let_11 (tptp.fn_carboxyl_group_19 _let_3))) (let ((_let_12 (tptp.fn_acetyl_group_5 _let_6))) (let ((_let_13 (tptp.fn_ester_linkage_28 _let_8))) (let ((_let_14 (tptp.fn_acetyl_group_3 _let_6))) (let ((_let_15 (tptp.fn_acetyl_coa_27 X))) (let ((_let_16 (tptp.fn_hold_2 _let_15))) (let ((_let_17 (tptp.fn_ester_7 X))) (let ((_let_18 (tptp.fn_carboxyl_group_70 _let_3))) (let ((_let_19 (tptp.fn_ester_14 X))) (let ((_let_20 (tptp.fn_carboxyl_group_67 _let_3))) (let ((_let_21 (tptp.fn_carboxyl_group_47 _let_3))) (let ((_let_22 (tptp.fn_ester_linkage_19 _let_8))) (let ((_let_23 (tptp.fn_carboxyl_group_18 _let_3))) (let ((_let_24 (tptp.fn_carboxyl_group_64 _let_3))) (let ((_let_25 (tptp.fn_ester_linkage_44 _let_8))) (let ((_let_26 (tptp.fn_carboxyl_group_20 _let_3))) (let ((_let_27 (tptp.fn_acetyl_group_7 _let_6))) (let ((_let_28 (tptp.fn_carboxyl_group_25 _let_3))) (let ((_let_29 (tptp.fn_acetyl_group_2 _let_6))) (let ((_let_30 (tptp.fn_carboxyl_group_16 _let_3))) (let ((_let_31 (tptp.fn_carboxyl_group_63 _let_3))) (let ((_let_32 (tptp.fn_ester_linkage_10 _let_8))) (let ((_let_33 (tptp.fn_carboxyl_group_22 _let_3))) (let ((_let_34 (tptp.fn_acetyl_group_6 _let_6))) (let ((_let_35 (tptp.fn_carboxyl_group_66 _let_3))) (let ((_let_36 (tptp.fn_ester_linkage_32 _let_8))) (let ((_let_37 (tptp.fn_acetyl_coa_25 X))) (let ((_let_38 (tptp.fn_covalent_bond_17 _let_37))) (let ((_let_39 (tptp.fn_carboxyl_group_40 _let_3))) (let ((_let_40 (tptp.fn_carboxyl_group_21 _let_3))) (let ((_let_41 (tptp.fn_carboxyl_group_62 _let_3))) (let ((_let_42 (tptp.fn_carboxyl_group_45 _let_3))) (let ((_let_43 (tptp.fn_acetyl_group_1 _let_6))) (let ((_let_44 (tptp.fn_acetyl_coa_14 X))) (let ((_let_45 (tptp.fn_acetyl_coa_19 X))) (let ((_let_46 (tptp.fn_acetyl_coa_17 X))) (let ((_let_47 (tptp.fn_acetyl_coa_7 X))) (let ((_let_48 (tptp.fn_acetyl_coa_8 X))) (let ((_let_49 (tptp.fn_acetyl_coa_9 X))) (let ((_let_50 (tptp.fn_acetyl_coa_6 X))) (let ((_let_51 (tptp.fn_acetyl_coa_26 X))) (let ((_let_52 (tptp.fn_acetyl_coa_15 X))) (let ((_let_53 (tptp.fn_acetyl_coa_33 X))) (let ((_let_54 (tptp.fn_acetyl_coa_29 X))) (let ((_let_55 (tptp.fn_acetyl_coa_13 X))) (let ((_let_56 (tptp.fn_acetyl_coa_32 X))) (let ((_let_57 (tptp.fn_acetyl_coa_30 X))) (let ((_let_58 (tptp.fn_acetyl_coa_31 X))) (let ((_let_59 (tptp.fn_carboxyl_group_55 _let_3))) (let ((_let_60 (tptp.fn_acetyl_coa_10 X))) (let ((_let_61 (tptp.fn_carboxyl_group_46 _let_3))) (let ((_let_62 (tptp.fn_acetyl_coa_12 X))) (let ((_let_63 (tptp.fn_acetyl_coa_24 X))) (let ((_let_64 (tptp.fn_acetyl_coa_21 X))) (let ((_let_65 (tptp.fn_acetyl_coa_22 X))) (let ((_let_66 (tptp.fn_acetyl_coa_11 X))) (let ((_let_67 (tptp.fn_carboxyl_group_49 _let_3))) (let ((_let_68 (tptp.fn_acetyl_coa_23 X))) (let ((_let_69 (tptp.fn_acetyl_coa_16 X))) (let ((_let_70 (tptp.fn_functional_group_1 _let_6))) (let ((_let_71 (tptp.fn_acetyl_coa_1 X))) (let ((_let_72 (tptp.fn_acetyl_coa_2 X))) (=> (tptp.acetyl_coa_1 X) (and (tptp.original_name_2 X |tptp.'Acetyl-CoA'|) (tptp.user_description_2 X |tptp.'Acetyl coenzyme A or acetyl-CoA is an important molecule in metabolism, used in many biochemical reactions. Its main function is to convey the carbon atoms within the acetyl group to the citric acid cycle to be oxidized for energy production. In chemical structure, acetyl-CoA is the thioester between coenzyme A (a thiol) and acetic acid (an acyl group carrier).'|) (tptp.concept2words_2 X |tptp.'acetyl coenzyme a'|) (tptp.concept2words_2 X |tptp.'acetyl-coenzyme-a'|) (tptp.concept2words_2 X |tptp.'acetyl coa'|) (tptp.concept2words_2 X |tptp.'acetyl-coa'|) (tptp.ester_1 X) (not (tptp.coenzyme_a_1 X)) (not (tptp.fadh2_1 X)) (not (tptp.nad_plus_1 X)) (not (tptp.nadh_1 X)) (not (tptp.nadp_plus_1 X)) (not (tptp.nadph_1 X)) (not (tptp.succinyl_coa_1 X)) (tptp.coenzyme_a_1 _let_71) (tptp.charge_value_1 _let_72) (tptp.kinetic_energy_1 _let_50) (tptp.constant_motion_1 _let_47) (tptp.speed_value_1 _let_48) (tptp.quantity_value_1 _let_49) (tptp.hold_together_1 _let_60) (tptp.hold_together_1 _let_66) (tptp.atomic_nucleus_1 _let_62) (tptp.center_1 _let_55) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.oxygen_1 _let_44) (tptp.carbon_skeleton_1 _let_52) (tptp.hold_together_1 _let_69) (tptp.tangible_entity_1 _let_46) (tptp.entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.oxygen_1 _let_46) (tptp.single_bond_1 _let_8) (tptp.ester_linkage_1 _let_8) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.carbon_1 _let_45) (tptp.acetyl_group_1 _let_6) (tptp.entity_1 _let_64) (tptp.electron_1 _let_64) (tptp.valence_electron_1 _let_64) (tptp.electron_1 _let_65) (tptp.valence_electron_1 _let_65) (tptp.share_1 _let_68) (tptp.share_1 _let_63) (tptp.unequal_sharing_1 _let_63) (tptp.covalent_bond_1 _let_37) (tptp.double_bond_1 _let_37) (tptp.hold_together_1 _let_51) (tptp.hold_1 _let_15) (tptp.hold_together_1 _let_15) (tptp.carboxyl_group_1 _let_3) (tptp.center_1 _let_54) (tptp.electron_shell_1 _let_57) (tptp.electron_shell_1 _let_58) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.hydrogen_1 _let_56) (tptp.carbonyl_group_1 _let_53) (tptp.chemical_entity_1 _let_70) (tptp.share_1 _let_67) (tptp.atomic_nucleus_1 _let_61) (tptp.hold_together_1 _let_59) (tptp.hold_together_1 _let_43) (tptp.electron_1 _let_42) (tptp.valence_electron_1 _let_42) (tptp.electron_1 _let_41) (tptp.valence_electron_1 _let_41) (tptp.entity_1 _let_40) (tptp.valence_electron_1 _let_40) (tptp.electron_1 _let_39) (tptp.valence_electron_1 _let_39) (tptp.share_1 _let_38) (tptp.unequal_sharing_1 _let_36) (tptp.share_1 _let_35) (tptp.unequal_sharing_1 _let_35) (tptp.electron_shell_1 _let_34) (tptp.electron_shell_1 _let_33) (tptp.electron_shell_1 _let_32) (tptp.electron_shell_1 _let_31) (tptp.electron_shell_1 _let_30) (tptp.hydrogen_1 _let_29) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.hydrogen_1 _let_28) (tptp.center_1 _let_27) (tptp.center_1 _let_26) (tptp.center_1 _let_25) (tptp.center_1 _let_24) (tptp.center_1 _let_23) (tptp.hold_together_1 _let_22) (tptp.hold_together_1 _let_21) (tptp.hold_together_1 _let_20) (tptp.double_bond_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.carbon_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.carbon_1 _let_13) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.oxygen_1 _let_9) (tptp.oxygen_1 _let_7) (tptp.oxygen_1 _let_5) (tptp.oxygen_1 _let_4) (tptp.the_cardinal_value_2 _let_72 |"0"|) (tptp.cardinal_unit_class_2 _let_72 tptp.unity_0) (tptp.the_categorical_value_2 _let_72 tptp.partial_positive_0) (tptp.the_categorical_value_2 _let_72 tptp.partial_negative_0) (tptp.has_part_2 X _let_71) (tptp.has_part_2 X _let_56) (tptp.object_2 _let_15 _let_46) (tptp.result_2 _let_63 _let_37) (tptp.has_region_2 X _let_6) (tptp.possesses_2 X _let_8) (tptp.is_between_2 _let_8 _let_44) (tptp.agent_2 _let_63 _let_44) (tptp.has_region_2 _let_45 _let_54) (tptp.agent_2 _let_51 _let_8) (tptp.has_region_2 _let_46 _let_58) (tptp.result_2 _let_63 _let_8) (tptp.agent_2 _let_63 _let_45) (tptp.has_region_2 _let_45 _let_57) (tptp.is_between_2 _let_8 _let_45) (tptp.object_2 _let_69 _let_45) (tptp.object_2 _let_69 _let_46) (tptp.is_between_2 _let_8 _let_46) (tptp.has_function_2 _let_8 _let_51) (tptp.has_region_2 _let_44 _let_58) (tptp.is_inside_2 _let_45 _let_6) (not (= _let_45 _let_56)) (tptp.is_inside_2 _let_56 _let_6) (tptp.is_inside_2 _let_44 _let_6) (tptp.has_region_2 _let_44 _let_55) (not (= _let_56 _let_45)) (tptp.has_region_2 _let_56 _let_54) (tptp.object_2 _let_68 _let_65) (tptp.has_region_2 _let_56 _let_57) (tptp.is_inside_2 _let_45 _let_3) (tptp.is_inside_2 _let_46 _let_3) (tptp.is_between_2 _let_37 _let_46) (tptp.has_function_2 _let_37 _let_51) (tptp.agent_2 _let_51 _let_37) (tptp.result_2 _let_68 _let_37) (tptp.object_2 _let_68 _let_64) (tptp.object_2 _let_66 _let_45) (tptp.object_2 _let_66 _let_46) (tptp.agent_2 _let_68 _let_46) (tptp.agent_2 _let_68 _let_45) (tptp.has_region_2 _let_45 _let_58) (tptp.agent_2 _let_63 _let_46) (tptp.object_2 _let_63 _let_64) (not (= _let_64 _let_65)) (tptp.object_2 _let_63 _let_65) (tptp.agent_2 _let_63 _let_56) (not (= _let_65 _let_64)) (tptp.object_2 _let_60 _let_46) (tptp.object_2 _let_60 _let_45) (tptp.has_region_2 _let_45 _let_55) (tptp.is_at_2 _let_62 _let_55) (tptp.has_region_2 _let_45 _let_62) (tptp.object_2 _let_51 _let_46) (tptp.object_2 _let_51 _let_56) (not (= _let_56 _let_44)) (tptp.has_region_2 _let_44 _let_57) (not (= _let_57 _let_58)) (not (= _let_44 _let_56)) (not (= _let_58 _let_57)) (tptp.is_inside_2 _let_44 _let_3) (tptp.has_region_2 _let_44 _let_54) (tptp.has_region_2 _let_46 _let_54) (not (= _let_55 _let_54)) (not (= _let_54 _let_55)) (tptp.has_region_2 X _let_53) (tptp.is_inside_2 _let_45 _let_53) (tptp.is_inside_2 _let_46 _let_53) (tptp.has_part_2 X _let_46) (tptp.possesses_2 X _let_37) (tptp.object_2 _let_51 _let_44) (tptp.object_2 _let_51 _let_45) (tptp.is_inside_2 _let_45 _let_52) (tptp.has_region_2 X _let_52) (tptp.has_part_2 X _let_45) (tptp.object_2 _let_47 X) (tptp.speed_2 _let_47 _let_48) (tptp.directly_proportional_2 _let_48 _let_49) (tptp.quantity_2 _let_50 _let_49) (tptp.possesses_2 X _let_50) (tptp.object_2 _let_15 _let_45) (tptp.object_2 _let_15 _let_44) (tptp.is_between_2 _let_37 _let_44) (tptp.is_between_2 _let_37 _let_45) (not (= _let_45 _let_46)) (not (= _let_46 _let_45)) (tptp.has_part_2 X _let_44) (not (= _let_45 _let_44)) (not (= _let_44 _let_45)) (not (= _let_46 _let_44)) (not (= _let_44 _let_46)) (= _let_46 _let_16) (= _let_63 _let_38) (= X _let_70) (= _let_44 _let_9) (= _let_54 _let_25) (= _let_58 _let_32) (= _let_57 _let_32) (= _let_63 _let_36) (= _let_51 _let_22) (= _let_46 _let_1) (= _let_46 _let_7) (= _let_46 _let_9) (= _let_69 _let_43) (= _let_69 _let_22) (= _let_8 (tptp.fn_ester_10 X)) (= _let_45 _let_13) (= _let_58 _let_34) (= _let_55 _let_27) (= _let_44 _let_7) (= _let_56 _let_29) (= _let_45 _let_14) (= _let_45 _let_12) (= _let_54 _let_24) (= _let_65 _let_42) (= _let_57 _let_31) (= _let_64 _let_40) (= _let_51 _let_21) (= _let_37 _let_18) (= _let_58 _let_33) (= _let_68 _let_67) (= _let_46 _let_4) (= _let_66 _let_21) (= _let_65 _let_41) (= _let_64 _let_39) (= _let_63 _let_35) (= _let_62 _let_61) (= _let_55 _let_26) (= _let_45 _let_11) (= _let_60 _let_59) (= _let_58 _let_31) (= _let_57 _let_30) (= _let_44 _let_5) (= _let_56 _let_28) (= _let_51 _let_20) (= _let_46 _let_5) (= _let_55 _let_24) (= _let_54 _let_23) (= _let_44 _let_4) (= (tptp.fn_acetyl_coa_5 X) (tptp.fn_ester_2 X)) (= (tptp.fn_acetyl_coa_4 X) (tptp.fn_ester_1 X)) (= _let_53 (tptp.fn_ester_8 X)) (= _let_52 (tptp.fn_ester_15 X)) (= _let_51 _let_19) (= _let_50 (tptp.fn_ester_3 X)) (= _let_49 (tptp.fn_ester_6 X)) (= _let_48 (tptp.fn_ester_5 X)) (= _let_47 (tptp.fn_ester_4 X)) (= _let_37 _let_17) (= _let_15 (tptp.fn_ester_13 X)) (= _let_46 _let_2) (= _let_44 _let_2) (= _let_45 _let_10) (= _let_44 _let_1) (= _let_22 _let_43) (= _let_43 _let_22) (= _let_22 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_32) (= _let_32 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_1) (= _let_1 _let_7) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_4) (= _let_4 _let_5) (= _let_5 _let_2) (= _let_2 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acetyl_group_19 X))) (let ((_let_2 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_3 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_4 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_5 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_6 (tptp.fn_acetyl_group_10 X))) (let ((_let_7 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_8 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_9 (tptp.fn_covalent_bond_22 _let_6))) (let ((_let_10 (tptp.fn_covalent_bond_24 _let_6))) (let ((_let_11 (tptp.fn_covalent_bond_23 _let_6))) (let ((_let_12 (tptp.fn_covalent_bond_21 _let_6))) (let ((_let_13 (tptp.fn_covalent_bond_11 _let_6))) (let ((_let_14 (tptp.fn_covalent_bond_12 _let_6))) (let ((_let_15 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_16 (tptp.fn_acetyl_group_18 X))) (let ((_let_17 (tptp.fn_acetyl_group_15 X))) (let ((_let_18 (tptp.fn_acetyl_group_16 X))) (let ((_let_19 (tptp.fn_acetyl_group_17 X))) (let ((_let_20 (tptp.fn_covalent_bond_14 _let_6))) (let ((_let_21 (tptp.fn_acetyl_group_1 X))) (let ((_let_22 (tptp.fn_acetyl_group_3 X))) (let ((_let_23 (tptp.fn_acetyl_group_14 X))) (let ((_let_24 (tptp.fn_acetyl_group_8 X))) (let ((_let_25 (tptp.fn_acetyl_group_13 X))) (let ((_let_26 (tptp.fn_acetyl_group_7 X))) (let ((_let_27 (tptp.fn_acetyl_group_12 X))) (let ((_let_28 (tptp.fn_acetyl_group_6 X))) (let ((_let_29 (tptp.fn_covalent_bond_17 _let_6))) (let ((_let_30 (tptp.fn_acetyl_group_11 X))) (let ((_let_31 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_32 (tptp.fn_acetyl_group_2 X))) (let ((_let_33 (tptp.fn_covalent_bond_4 _let_6))) (let ((_let_34 (tptp.fn_acetyl_group_9 X))) (let ((_let_35 (tptp.fn_acetyl_group_4 X))) (let ((_let_36 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_37 (tptp.fn_acetyl_group_5 X))) (let ((_let_38 (tptp.concept2words_2 X |tptp.'acetyl functional group'|))) (=> (tptp.acetyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Acetyl-Group'|) (tptp.user_description_2 X |tptp.'A functional group comprised of a methyl group and carbon bound to a central oxygen atom.'|) (tptp.concept2words_2 X tptp.acetyl) _let_38 _let_38 (tptp.concept2words_2 X |tptp.'group of acetyl'|) (tptp.concept2words_2 X |tptp.'acetyl group'|) (tptp.concept2words_2 X |tptp.'acetyl-group'|) (tptp.functional_group_1 X) (not (tptp.amino_group_1 X)) (not (tptp.carbonyl_group_1 X)) (not (tptp.carboxyl_group_1 X)) (not (tptp.hydroxyl_group_1 X)) (not (tptp.methyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.hold_together_1 _let_21) (tptp.hydrogen_1 _let_32) (tptp.carbon_1 _let_22) (tptp.oxygen_1 _let_35) (tptp.carbon_1 _let_37) (tptp.electron_shell_1 _let_28) (tptp.center_1 _let_26) (tptp.atomic_nucleus_1 _let_24) (tptp.proton_1 _let_34) (tptp.double_bond_1 _let_6) (tptp.share_1 _let_30) (tptp.electron_shell_1 _let_27) (tptp.center_1 _let_25) (tptp.atomic_nucleus_1 _let_23) (tptp.valence_electron_1 _let_17) (tptp.atomic_nucleus_1 _let_18) (tptp.valence_electron_1 _let_19) (tptp.share_1 _let_16) (tptp.single_bond_1 _let_1) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.proton_1 _let_33) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.share_1 _let_29) (tptp.hold_together_1 _let_20) (tptp.share_1 _let_15) (tptp.electron_shell_1 _let_14) (tptp.electron_shell_1 _let_13) (tptp.center_1 _let_12) (tptp.center_1 _let_11) (tptp.atomic_nucleus_1 _let_10) (tptp.atomic_nucleus_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.atomic_nucleus_1 _let_5) (tptp.atomic_nucleus_1 _let_4) (tptp.valence_electron_1 _let_3) (tptp.valence_electron_1 _let_2) (not (= _let_19 _let_17)) (not (= _let_17 _let_19)) (tptp.is_between_2 _let_6 _let_35) (tptp.is_inside_2 _let_37 X) (not (= _let_35 _let_22)) (tptp.is_inside_2 _let_35 X) (not (= _let_22 _let_35)) (tptp.is_inside_2 _let_22 X) (tptp.is_inside_2 _let_32 X) (tptp.agent_2 _let_16 _let_37) (tptp.is_between_2 _let_1 _let_37) (tptp.has_part_2 _let_37 _let_19) (not (= _let_32 _let_37)) (not (= _let_37 _let_32)) (tptp.has_region_2 _let_35 _let_26) (tptp.has_region_2 _let_35 _let_24) (tptp.has_region_2 _let_35 _let_28) (tptp.object_2 _let_21 _let_35) (tptp.agent_2 _let_30 _let_35) (tptp.is_inside_2 _let_34 _let_24) (tptp.has_part_2 _let_35 _let_34) (tptp.is_between_2 _let_1 _let_32) (tptp.has_region_2 _let_32 _let_18) (tptp.has_part_2 _let_32 _let_17) (tptp.agent_2 _let_16 _let_32) (tptp.is_at_2 _let_24 _let_26) (tptp.agent_2 _let_30 _let_22) (tptp.object_2 _let_21 _let_22) (tptp.result_2 _let_30 _let_6) (tptp.has_region_2 _let_22 _let_27) (not (= _let_28 _let_27)) (not (= _let_27 _let_28)) (tptp.has_region_2 _let_22 _let_25) (tptp.is_at_2 _let_23 _let_25) (not (= _let_26 _let_25)) (not (= _let_25 _let_26)) (tptp.has_function_2 _let_6 _let_21) (tptp.agent_2 _let_21 _let_6) (tptp.is_between_2 _let_6 _let_22) (tptp.has_region_2 _let_22 _let_23) (not (= _let_23 _let_24)) (not (= _let_24 _let_23)) (tptp.object_2 _let_16 _let_19) (tptp.result_2 _let_16 _let_1) (tptp.object_2 _let_16 _let_17) (tptp.is_near_2 _let_18 _let_17) (tptp.is_near_2 _let_17 _let_18) (= _let_19 _let_2) (= _let_37 _let_36) (= _let_26 _let_12) (= _let_28 _let_14) (= _let_35 _let_7) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_13) (= _let_27 _let_14) (= _let_26 _let_11) (= _let_25 _let_12) (= _let_24 _let_9) (= _let_24 _let_10) (= _let_23 _let_10) (= _let_23 _let_9) (= _let_22 _let_8) (= _let_22 _let_7) (= _let_21 _let_20) (= _let_19 _let_3) (= _let_18 _let_5) (= _let_17 _let_3) (= _let_18 _let_4) (= _let_17 _let_2) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_2) (= _let_2 _let_3) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.acetylcholine_1 X) (and (tptp.original_name_2 X |tptp.'Acetylcholine'|) (tptp.user_description_2 X |tptp.'One of the most common neurotransmitters of the peripheral and central nervous systems. It has an inhibitory effect on cardiac tissue and an excitatory effect on skeletal muscle.'|) (tptp.concept2words_2 X tptp.acetylcholine) (tptp.neurotransmitter_1 X) (not (tptp.aspartic_acid_1 X)) (not (tptp.catecholamine_1 X)) (not (tptp.neuropeptide_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_10 X))) (let ((_let_2 (tptp.fn_enzyme_2 X))) (let ((_let_3 (tptp.fn_acetylcholinesterase_3 X))) (let ((_let_4 (tptp.fn_acetylcholinesterase_5 X))) (let ((_let_5 (tptp.fn_acetylcholinesterase_2 X))) (let ((_let_6 (tptp.fn_acetylcholinesterase_4 X))) (let ((_let_7 (tptp.fn_acetylcholinesterase_1 X))) (=> (tptp.acetylcholinesterase_1 X) (and (tptp.original_name_2 X |tptp.'Acetylcholinesterase'|) (tptp.user_description_2 X |tptp.'Acetylcholinesterase is a enzyme having serine residue at its active site and plays important role in nervous system.'|) (tptp.concept2words_2 X tptp.acetylcholinesterase) (tptp.hydrolase_1 X) (tptp.hydrolysis_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.monomer_1 _let_5) (tptp.molecule_1 _let_5) (tptp.amino_acid_1 _let_5) (tptp.active_site_1 _let_3) (tptp.protein_domain_1 _let_6) (tptp.r_group_1 _let_4) (tptp.has_function_2 X _let_7) (tptp.site_2 _let_7 _let_3) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_4 _let_3) (tptp.has_region_2 _let_5 _let_4) (tptp.is_at_2 _let_5 _let_6) (tptp.has_region_2 X _let_6) (= _let_3 _let_2) (= _let_7 (tptp.fn_enzyme_4 X)) (= _let_6 (tptp.fn_protein_enzyme_5 X)) (= _let_5 (tptp.fn_protein_enzyme_11 X)) (= _let_4 (tptp.fn_protein_enzyme_12 X)) (= _let_3 _let_1) (= _let_2 _let_1) (= _let_1 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_achondroplasia_1 X))) (let ((_let_2 (tptp.fn_inheritance_4 _let_1))) (let ((_let_3 (tptp.fn_achondroplasia_2 X))) (=> (tptp.achondroplasia_1 X) (and (tptp.original_name_2 X |tptp.'Achondroplasia'|) (tptp.user_description_2 X |tptp.'A form of genetically determined dwarfism.'|) (tptp.concept2words_2 X tptp.dwarfism) (tptp.concept2words_2 X tptp.achondroplasia) (tptp.human_genetic_disorder_1 X) (not (tptp.alkaptonuria_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X)) (tptp.complete_dominance_1 _let_1) (tptp.dominant_allele_1 _let_3) (tptp.entity_1 _let_2) (tptp.gene_1 _let_2) (tptp.object_2 _let_1 _let_3) (tptp.result_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_human_genetic_disorder_1 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acid_5 X))) (let ((_let_2 (tptp.fn_acid_4 X))) (let ((_let_3 (tptp.fn_acid_3 X))) (=> (tptp.acid_1 X) (and (tptp.original_name_2 X |tptp.'Acid'|) (tptp.description_2 X |tptp.'A chemical that is acidic.'|) (tptp.user_description_2 X |tptp.'A substance that increases the hydrogen ion concentration of a solution.'|) (tptp.concept2words_2 X tptp.acid) (tptp.chemical_1 X) (tptp.ph_value_1 _let_3) (tptp.ph_value_1 _let_2) (tptp.acid_compound_1 _let_1) (tptp.ph_2 X _let_3) (tptp.greater_than_2 _let_2 _let_3) (tptp.the_cardinal_value_2 _let_2 |"7.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acid_chyme_14 X))) (let ((_let_2 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_5 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_6 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_7 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_8 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_9 (tptp.fn_acid_chyme_19 X))) (let ((_let_10 (tptp.fn_epithelium_83 _let_9))) (let ((_let_11 (tptp.fn_epithelium_98 _let_9))) (let ((_let_12 (tptp.fn_acid_chyme_20 X))) (let ((_let_13 (tptp.fn_stomach_8 _let_12))) (let ((_let_14 (tptp.fn_stomach_20 _let_12))) (let ((_let_15 (tptp.fn_stomach_19 _let_12))) (let ((_let_16 (tptp.fn_acid_chyme_10 X))) (let ((_let_17 (tptp.fn_secretion_2 _let_16))) (let ((_let_18 (tptp.fn_acid_chyme_9 X))) (let ((_let_19 (tptp.fn_mixture_1 _let_18))) (let ((_let_20 (tptp.fn_mixture_2 _let_18))) (let ((_let_21 (tptp.fn_acid_chyme_13 X))) (let ((_let_22 (tptp.fn_acid_chyme_12 X))) (let ((_let_23 (tptp.fn_acid_chyme_11 X))) (let ((_let_24 (tptp.fn_acid_chyme_17 X))) (let ((_let_25 (tptp.fn_eukaryotic_cell_29 _let_24))) (let ((_let_26 (tptp.fn_eukaryotic_cell_26 _let_24))) (let ((_let_27 (tptp.fn_acid_chyme_16 X))) (let ((_let_28 (tptp.fn_eukaryotic_cell_31 _let_24))) (let ((_let_29 (tptp.fn_acid_chyme_15 X))) (let ((_let_30 (tptp.fn_secretion_3 _let_16))) (let ((_let_31 (tptp.fn_acid_chyme_21 X))) (let ((_let_32 (tptp.fn_acid_chyme_18 X))) (let ((_let_33 (tptp.fn_acid_chyme_7 X))) (let ((_let_34 (tptp.fn_acid_chyme_8 X))) (let ((_let_35 (tptp.fn_acid_chyme_3 X))) (let ((_let_36 (tptp.fn_acid_chyme_4 X))) (let ((_let_37 (tptp.fn_acid_chyme_6 X))) (let ((_let_38 (tptp.fn_acid_chyme_5 X))) (=> (tptp.acid_chyme_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Chyme'|) (tptp.user_description_2 X |tptp.'Chyme mixed with stomach acid as it enters the duodenum.'|) (tptp.concept2words_2 X |tptp.'chyme of acid'|) (tptp.concept2words_2 X |tptp.'acid chyme'|) (tptp.concept2words_2 X |tptp.'acid-chyme'|) (tptp.organic_entity_1 X) (tptp.heterogeneous_mixture_1 X) (not (tptp.suspension_1 X)) (not (tptp.detritus_1 X)) (not (tptp.feces_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.homogeneous_mixture_1 X)) (not (tptp.loam_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X)) (tptp.ph_value_1 _let_35) (tptp.state_value_1 _let_36) (tptp.chemical_1 _let_38) (tptp.nutrient_1 _let_37) (tptp.substance_1 _let_33) (tptp.gastric_juice_1 _let_34) (tptp.bolus_1 _let_18) (tptp.secretion_1 _let_16) (tptp.tangible_entity_1 _let_23) (tptp.phospholipid_bilayer_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.membrane_protein_1 _let_22) (tptp.protein_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.spatial_entity_1 _let_21) (tptp.polymer_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.transmembrane_protein_1 _let_21) (tptp.integral_protein_1 _let_21) (tptp.transport_protein_1 _let_21) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.mixture_1 _let_29) (tptp.cytoplasm_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.nucleus_1 _let_27) (tptp.cell_1 _let_24) (tptp.animal_cell_1 _let_24) (tptp.eukaryotic_cell_1 _let_24) (tptp.living_entity_1 _let_32) (tptp.gastric_gland_1 _let_32) (tptp.tissue_1 _let_9) (tptp.epithelium_1 _let_9) (tptp.stomach_1 _let_12) (tptp.secretor_1 _let_31) (tptp.secretor_1 _let_30) (tptp.mixture_1 _let_28) (tptp.cytoplasm_1 _let_28) (tptp.tangible_entity_1 _let_26) (tptp.nucleus_1 _let_26) (tptp.spatial_entity_1 _let_25) (tptp.biomembrane_1 _let_25) (tptp.plasma_membrane_1 _let_25) (tptp.substance_1 _let_20) (tptp.substance_1 _let_19) (tptp.living_entity_1 _let_17) (tptp.gastric_gland_1 _let_15) (tptp.tissue_1 _let_14) (tptp.epithelium_1 _let_13) (tptp.cell_1 _let_11) (tptp.animal_cell_1 _let_11) (tptp.eukaryotic_cell_1 _let_10) (tptp.cell_1 _let_10) (tptp.animal_cell_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.membrane_protein_1 _let_6) (tptp.protein_1 _let_6) (tptp.membrane_protein_1 _let_5) (tptp.membrane_protein_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.polymer_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.transmembrane_protein_1 _let_2) (tptp.integral_protein_1 _let_2) (tptp.transport_protein_1 _let_2) (tptp.has_function_2 _let_32 _let_16) (tptp.has_part_2 _let_18 _let_38) (tptp.physical_state_2 X _let_36) (tptp.ph_2 X _let_35) (tptp.is_inside_2 X _let_12) (tptp.plays_2 _let_33 _let_37) (tptp.the_categorical_value_2 _let_36 tptp.liquid_0) (tptp.the_scalar_value_2 _let_35 tptp.acidic_0) (tptp.scalar_unit_class_2 _let_35 tptp.bolus_0) (tptp.has_part_2 X _let_34) (tptp.has_part_2 X _let_18) (tptp.base_2 _let_16 _let_32) (tptp.plays_2 _let_32 _let_31) (tptp.has_part_2 _let_18 _let_33) (tptp.has_part_2 _let_12 _let_9) (tptp.has_part_2 _let_12 _let_32) (tptp.in_event_2 _let_31 _let_16) (not (= _let_21 _let_22)) (not (= _let_22 _let_21)) (tptp.is_across_2 _let_21 _let_1) (tptp.is_inside_2 _let_21 _let_23) (tptp.has_part_2 _let_1 _let_23) (tptp.called_2 _let_22 |tptp.'MP2'|) (tptp.has_part_2 _let_1 _let_22) (tptp.is_at_2 _let_21 _let_1) (tptp.has_part_2 _let_1 _let_21) (tptp.is_between_2 _let_29 _let_27) (tptp.is_inside_2 _let_29 _let_1) (tptp.is_between_2 _let_29 _let_1) (tptp.has_part_2 _let_24 _let_29) (tptp.has_part_2 _let_24 _let_27) (tptp.has_part_2 _let_24 _let_1) (tptp.has_part_2 _let_9 _let_24) (= _let_34 (tptp.fn_mixture_2 X)) (= _let_18 (tptp.fn_mixture_1 X)) (= _let_32 _let_17) (= _let_33 _let_20) (= _let_33 _let_19) (= _let_9 _let_14) (= _let_9 _let_13) (= _let_32 _let_15) (= _let_31 _let_30) (= _let_24 _let_11) (= _let_24 _let_10) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_1 _let_25) (= _let_21 _let_3) (= _let_23 _let_8) (= _let_23 _let_7) (= _let_22 _let_6) (= _let_22 _let_3) (= _let_21 _let_5) (= _let_21 _let_4) (= _let_21 _let_2) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_3 _let_6) (= _let_6 _let_3) (= _let_3 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.acid_compound_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Compound'|) (tptp.user_description_2 X |tptp.'A chemical entity that is acidic.'|) (tptp.concept2words_2 X |tptp.'compound of acid'|) (tptp.concept2words_2 X |tptp.'acid compound'|) (tptp.concept2words_2 X |tptp.'acid-compound'|) (tptp.compound_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acid_dissociation_reaction_13 X))) (let ((_let_2 (tptp.fn_acidic_solution_19 _let_1))) (let ((_let_3 (tptp.fn_acidic_solution_15 _let_1))) (let ((_let_4 (tptp.fn_acid_dissociation_reaction_11 X))) (let ((_let_5 (tptp.fn_dissolve_5 _let_4))) (let ((_let_6 (tptp.fn_acidic_solution_18 _let_1))) (let ((_let_7 (tptp.fn_aqueous_solution_14 _let_1))) (let ((_let_8 (tptp.fn_acidic_solution_21 _let_1))) (let ((_let_9 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_10 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_11 (tptp.fn_reversible_reaction_5 X))) (let ((_let_12 (tptp.fn_acid_dissociation_reaction_12 X))) (let ((_let_13 (tptp.fn_acid_5 _let_12))) (let ((_let_14 (tptp.fn_acid_dissociation_reaction_14 X))) (let ((_let_15 (tptp.fn_acid_dissociation_reaction_16 X))) (let ((_let_16 (tptp.fn_acidic_solution_31 _let_1))) (let ((_let_17 (tptp.fn_acid_dissociation_reaction_15 X))) (let ((_let_18 (tptp.fn_acidic_solution_32 _let_1))) (let ((_let_19 (tptp.fn_acid_dissociation_reaction_9 X))) (let ((_let_20 (tptp.fn_acid_dissociation_reaction_10 X))) (let ((_let_21 (tptp.fn_acid_dissociation_reaction_5 X))) (let ((_let_22 (tptp.fn_acid_dissociation_reaction_6 X))) (let ((_let_23 (tptp.fn_acid_dissociation_reaction_7 X))) (let ((_let_24 (tptp.fn_acid_dissociation_reaction_8 X))) (let ((_let_25 (tptp.fn_acid_dissociation_reaction_17 X))) (let ((_let_26 (tptp.fn_acid_dissociation_reaction_18 X))) (let ((_let_27 (tptp.fn_acid_dissociation_reaction_1 X))) (=> (tptp.acid_dissociation_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Dissociation-Reaction'|) (tptp.user_description_2 X |tptp.'Dissociation reaction of an acid in a solution.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'acid dissociation reaction'|) (tptp.concept2words_2 X |tptp.'acid-dissociation-reaction'|) (tptp.reversible_reaction_1 X) (tptp.chemical_dissociation_reaction_1 X) (not (tptp.base_dissociation_reaction_1 X)) (tptp.equilibrium_constant_value_1 _let_27) (tptp.chemical_energy_1 _let_21) (tptp.quantity_value_1 _let_22) (tptp.quantity_value_1 _let_23) (tptp.chemical_energy_1 _let_24) (tptp.anion_1 _let_19) (tptp.acid_compound_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.dissolve_1 _let_4) (tptp.substance_1 _let_12) (tptp.acid_1 _let_12) (tptp.acidic_solution_1 _let_1) (tptp.chemical_1 _let_14) (tptp.water_1 _let_14) (tptp.chemical_dissociation_reaction_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.hydrogen_ion_1 _let_15) (tptp.reverse_reaction_1 _let_25) (tptp.forward_reaction_1 _let_26) (tptp.anion_1 _let_18) (tptp.chemical_dissociation_reaction_1 _let_16) (tptp.acid_compound_1 _let_13) (tptp.hydrogen_ion_1 _let_8) (tptp.water_1 _let_7) (tptp.chemical_1 _let_6) (tptp.water_1 _let_6) (tptp.substance_1 _let_5) (tptp.acid_1 _let_3) (tptp.acid_dissociation_reaction_1 _let_2) (tptp.ki_2 X _let_27) (tptp.base_2 _let_4 _let_12) (tptp.possesses_2 _let_15 _let_24) (tptp.has_part_2 _let_12 _let_20) (tptp.result_2 _let_25 _let_20) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_26) (tptp.raw_material_2 _let_26 _let_20) (tptp.quantity_2 _let_24 _let_23) (tptp.raw_material_2 X _let_20) (tptp.possesses_2 _let_20 _let_21) (tptp.quantity_2 _let_21 _let_22) (tptp.greater_than_2 _let_22 _let_23) (tptp.result_2 _let_17 _let_15) (tptp.has_solvent_2 _let_1 _let_14) (tptp.has_part_2 _let_1 _let_15) (tptp.result_2 X _let_15) (not (= _let_17 X)) (not (= X _let_17)) (tptp.has_part_2 _let_1 _let_12) (tptp.has_solute_2 _let_1 _let_12) (tptp.has_part_2 _let_1 _let_14) (not (= _let_14 _let_12)) (not (= _let_12 _let_14)) (= _let_12 _let_5) (= _let_20 _let_13) (= _let_26 (tptp.fn_reversible_reaction_7 X)) (= _let_25 (tptp.fn_reversible_reaction_6 X)) (= (tptp.fn_acid_dissociation_reaction_4 X) (tptp.fn_exergonic_reaction_2 X)) (= _let_24 (tptp.fn_exergonic_reaction_6 X)) (= (tptp.fn_acid_dissociation_reaction_3 X) (tptp.fn_exergonic_reaction_1 X)) (= _let_23 (tptp.fn_exergonic_reaction_5 X)) (= _let_22 (tptp.fn_exergonic_reaction_4 X)) (= _let_21 (tptp.fn_exergonic_reaction_3 X)) (= _let_20 _let_11) (= _let_20 _let_10) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_9) (= X _let_2) (= _let_15 _let_8) (= _let_14 _let_7) (= _let_14 _let_6) (= _let_12 _let_3) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_precipitation_6 X))) (let ((_let_2 (tptp.fn_acid_precipitation_50 X))) (let ((_let_3 (tptp.fn_dissolve_5 _let_2))) (let ((_let_4 (tptp.fn_acid_precipitation_51 X))) (let ((_let_5 (tptp.fn_dissolve_5 _let_4))) (let ((_let_6 (tptp.fn_acid_precipitation_30 X))) (let ((_let_7 (tptp.fn_combustion_of_fossil_fuel_9 _let_6))) (let ((_let_8 (tptp.fn_redox_reaction_12 _let_6))) (let ((_let_9 (tptp.fn_acid_precipitation_65 X))) (let ((_let_10 (tptp.fn_oxidation_7 _let_9))) (let ((_let_11 (tptp.fn_acid_precipitation_64 X))) (let ((_let_12 (tptp.fn_reduction_3 _let_11))) (let ((_let_13 (tptp.fn_combustion_of_fossil_fuel_10 _let_6))) (let ((_let_14 (tptp.fn_redox_reaction_16 _let_6))) (let ((_let_15 (tptp.fn_oxidation_10 _let_9))) (let ((_let_16 (tptp.fn_reduction_1 _let_11))) (let ((_let_17 (tptp.fn_combustion_of_fossil_fuel_11 _let_6))) (let ((_let_18 (tptp.fn_redox_reaction_7 _let_6))) (let ((_let_19 (tptp.fn_oxidation_9 _let_9))) (let ((_let_20 (tptp.fn_reduction_4 _let_11))) (let ((_let_21 (tptp.fn_combustion_of_fossil_fuel_2 _let_6))) (let ((_let_22 (tptp.fn_acid_precipitation_35 X))) (let ((_let_23 (tptp.fn_chemical_reaction_2 _let_22))) (let ((_let_24 (tptp.fn_combustion_of_fossil_fuel_1 _let_6))) (let ((_let_25 (tptp.fn_acid_precipitation_39 X))) (let ((_let_26 (tptp.fn_chemical_reaction_2 _let_25))) (let ((_let_27 (tptp.fn_exergonic_reaction_11 _let_6))) (let ((_let_28 (tptp.fn_acid_precipitation_27 X))) (let ((_let_29 (tptp.fn_weak_acid_3 _let_28))) (let ((_let_30 (tptp.fn_carbonic_acid_2 _let_28))) (let ((_let_31 (tptp.fn_acid_5 _let_28))) (let ((_let_32 (tptp.fn_acid_precipitation_36 X))) (let ((_let_33 (tptp.fn_chemical_reaction_1 _let_32))) (let ((_let_34 (tptp.fn_acid_precipitation_26 X))) (let ((_let_35 (tptp.fn_make_contact_2 _let_34))) (let ((_let_36 (tptp.fn_weak_acid_7 _let_28))) (let ((_let_37 (tptp.fn_make_contact_1 _let_34))) (let ((_let_38 (tptp.fn_acid_precipitation_16 X))) (let ((_let_39 (tptp.fn_chemical_reaction_2 _let_38))) (let ((_let_40 (tptp.fn_acid_precipitation_59 X))) (let ((_let_41 (tptp.fn_chemical_3 _let_40))) (let ((_let_42 (tptp.fn_acid_precipitation_24 X))) (let ((_let_43 (tptp.fn_sulfuric_acid_1 _let_42))) (let ((_let_44 (tptp.fn_chemical_reaction_1 _let_25))) (let ((_let_45 (tptp.fn_acid_precipitation_58 X))) (let ((_let_46 (tptp.fn_mixture_1 _let_45))) (let ((_let_47 (tptp.fn_mixture_2 _let_45))) (let ((_let_48 (tptp.fn_acid_precipitation_43 X))) (let ((_let_49 (tptp.fn_water_vapor_1 _let_48))) (let ((_let_50 (tptp.fn_acid_precipitation_56 X))) (let ((_let_51 (tptp.fn_chemical_reaction_2 _let_50))) (let ((_let_52 (tptp.fn_acid_precipitation_47 X))) (let ((_let_53 (tptp.fn_fossil_fuel_2 _let_52))) (let ((_let_54 (tptp.fn_acid_precipitation_49 X))) (let ((_let_55 (tptp.fn_exergonic_reaction_10 _let_54))) (let ((_let_56 (tptp.fn_redox_reaction_16 _let_54))) (let ((_let_57 (tptp.fn_redox_reaction_12 _let_54))) (let ((_let_58 (tptp.fn_acid_precipitation_23 X))) (let ((_let_59 (tptp.fn_acid_precipitation_44 X))) (let ((_let_60 (tptp.fn_acid_precipitation_45 X))) (let ((_let_61 (tptp.fn_acid_precipitation_60 X))) (let ((_let_62 (tptp.fn_acid_precipitation_66 X))) (let ((_let_63 (tptp.fn_acid_precipitation_31 X))) (let ((_let_64 (tptp.fn_acid_precipitation_63 X))) (let ((_let_65 (tptp.fn_combustion_of_fossil_fuel_15 _let_6))) (let ((_let_66 (tptp.fn_combustion_of_fossil_fuel_16 _let_6))) (let ((_let_67 (tptp.fn_combustion_of_fossil_fuel_4 _let_6))) (let ((_let_68 (tptp.fn_acid_precipitation_28 X))) (let ((_let_69 (tptp.fn_combustion_of_fossil_fuel_14 _let_6))) (let ((_let_70 (tptp.fn_acid_precipitation_29 X))) (let ((_let_71 (tptp.fn_acid_precipitation_33 X))) (let ((_let_72 (tptp.fn_acid_precipitation_37 X))) (let ((_let_73 (tptp.fn_acid_precipitation_32 X))) (let ((_let_74 (tptp.fn_acid_precipitation_25 X))) (let ((_let_75 (tptp.fn_acid_precipitation_17 X))) (let ((_let_76 (tptp.fn_oxidation_8 _let_9))) (let ((_let_77 (tptp.fn_acid_precipitation_62 X))) (let ((_let_78 (tptp.fn_acid_precipitation_21 X))) (let ((_let_79 (tptp.fn_biome_3 _let_78))) (let ((_let_80 (tptp.fn_acid_precipitation_12 X))) (let ((_let_81 (tptp.fn_biome_4 _let_78))) (let ((_let_82 (tptp.fn_acid_precipitation_15 X))) (let ((_let_83 (tptp.fn_biome_1 _let_78))) (let ((_let_84 (tptp.fn_acid_precipitation_13 X))) (let ((_let_85 (tptp.fn_biome_2 _let_78))) (let ((_let_86 (tptp.fn_acid_precipitation_14 X))) (let ((_let_87 (tptp.fn_acid_precipitation_38 X))) (let ((_let_88 (tptp.fn_reduction_5 _let_11))) (let ((_let_89 (tptp.fn_acid_precipitation_61 X))) (let ((_let_90 (tptp.fn_acid_precipitation_40 X))) (let ((_let_91 (tptp.fn_acid_precipitation_48 X))) (let ((_let_92 (tptp.fn_dissolve_4 _let_4))) (let ((_let_93 (tptp.fn_acid_precipitation_52 X))) (let ((_let_94 (tptp.fn_chemical_reaction_1 _let_22))) (let ((_let_95 (tptp.fn_acid_precipitation_34 X))) (let ((_let_96 (tptp.fn_acid_precipitation_19 X))) (let ((_let_97 (tptp.fn_impair_1 _let_96))) (let ((_let_98 (tptp.fn_acid_precipitation_20 X))) (let ((_let_99 (tptp.fn_acid_precipitation_18 X))) (let ((_let_100 (tptp.fn_impair_1 _let_99))) (let ((_let_101 (tptp.fn_acid_precipitation_22 X))) (let ((_let_102 (tptp.fn_acid_precipitation_54 X))) (let ((_let_103 (tptp.fn_chemical_reaction_2 _let_102))) (let ((_let_104 (tptp.fn_acid_precipitation_42 X))) (let ((_let_105 (tptp.fn_acid_precipitation_53 X))) (let ((_let_106 (tptp.fn_chemical_reaction_2 _let_105))) (let ((_let_107 (tptp.fn_acid_precipitation_41 X))) (let ((_let_108 (tptp.fn_chemical_reaction_2 _let_32))) (let ((_let_109 (tptp.fn_exergonic_reaction_11 _let_54))) (let ((_let_110 (tptp.fn_acid_precipitation_55 X))) (let ((_let_111 (tptp.fn_acid_precipitation_57 X))) (let ((_let_112 (tptp.fn_impair_1 _let_111))) (let ((_let_113 (tptp.fn_acid_precipitation_46 X))) (let ((_let_114 (tptp.fn_acid_precipitation_10 X))) (let ((_let_115 (tptp.fn_acid_precipitation_1 X))) (let ((_let_116 (tptp.fn_acid_precipitation_4 X))) (let ((_let_117 (tptp.fn_acid_precipitation_6 X))) (let ((_let_118 (tptp.fn_acid_precipitation_5 X))) (let ((_let_119 (tptp.fn_acid_precipitation_8 X))) (let ((_let_120 (tptp.fn_acid_precipitation_7 X))) (let ((_let_121 (tptp.fn_acid_precipitation_11 X))) (let ((_let_122 (tptp.fn_acid_precipitation_9 X))) (=> (tptp.acid_precipitation_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Precipitation'|) (tptp.user_description_2 X |tptp.'Acid precipitation refers to rain, snow, or fog with a pH lower (more acidic) than 5.2.'|) (tptp.concept2words_2 X |tptp.'acid rain'|) (tptp.concept2words_2 X |tptp.'acid-rain'|) (tptp.concept2words_2 X tptp.fall) (tptp.concept2words_2 X |tptp.'precipitation of acid'|) (tptp.concept2words_2 X |tptp.'acid precipitation'|) (tptp.concept2words_2 X |tptp.'acid-precipitation'|) (tptp.precipitation_1 X) (tptp.human_driven_disturbance_1 X) (not (tptp.red_tide_1 X)) (tptp.tangible_entity_1 _let_115) (tptp.change_1 _let_116) (tptp.nitric_oxide_1 _let_118) (tptp.carbon_dioxide_1 _let_117) (tptp.ph_value_1 _let_120) (tptp.ph_value_1 _let_119) (tptp.lake_1 _let_122) (tptp.time_interval_1 _let_114) (tptp.time_interval_1 _let_121) (tptp.plant_1 _let_80) (tptp.animal_1 _let_84) (tptp.algae_1 _let_86) (tptp.cyanobacterium_1 _let_82) (tptp.chemical_reaction_1 _let_38) (tptp.chemical_entity_1 _let_75) (tptp.damage_1 _let_99) (tptp.damage_1 _let_96) (tptp.organism_1 _let_98) (tptp.freshwater_biome_1 _let_78) (tptp.organism_1 _let_101) (tptp.spatial_entity_1 _let_58) (tptp.precipitation_form_1 _let_58) (tptp.sulfuric_acid_1 _let_42) (tptp.spatial_entity_1 _let_74) (tptp.chemical_entity_1 _let_74) (tptp.collide_1 _let_34) (tptp.carbonic_acid_1 _let_28) (tptp.carbon_dioxide_1 _let_68) (tptp.fossil_fuel_1 _let_70) (tptp.combustion_of_fossil_fuel_1 _let_6) (tptp.hydrocarbon_molecule_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.carbonic_acid_compound_1 _let_73) (tptp.acid_compound_1 _let_73) (tptp.spatial_entity_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.chemical_entity_1 _let_71) (tptp.nitric_oxide_1 _let_71) (tptp.nitric_acid_compound_1 _let_95) (tptp.chemical_reaction_1 _let_22) (tptp.chemical_reaction_1 _let_32) (tptp.chemical_entity_1 _let_72) (tptp.sulfur_dioxide_1 _let_72) (tptp.chemical_entity_1 _let_87) (tptp.sulfuric_acid_compound_1 _let_87) (tptp.chemical_reaction_1 _let_25) (tptp.chemical_entity_1 _let_90) (tptp.water_molecule_1 _let_90) (tptp.water_molecule_1 _let_107) (tptp.water_molecule_1 _let_104) (tptp.water_vapor_1 _let_48) (tptp.substance_1 _let_59) (tptp.water_1 _let_59) (tptp.condense_1 _let_60) (tptp.terrestrial_plant_1 _let_113) (tptp.fossil_fuel_1 _let_52) (tptp.chemical_entity_1 _let_91) (tptp.hydrocarbon_molecule_1 _let_91) (tptp.combustion_reaction_1 _let_54) (tptp.dissolve_1 _let_2) (tptp.dissolve_1 _let_4) (tptp.nitric_acid_1 _let_93) (tptp.chemical_reaction_1 _let_105) (tptp.chemical_reaction_1 _let_102) (tptp.sulfur_dioxide_1 _let_110) (tptp.chemical_reaction_1 _let_50) (tptp.damage_1 _let_111) (tptp.soil_1 _let_45) (tptp.substance_1 _let_40) (tptp.chemical_1 _let_40) (tptp.fall_1 _let_61) (tptp.reducing_agent_1 _let_89) (tptp.electron_donor_1 _let_77) (tptp.chemical_entity_1 _let_64) (tptp.tangible_entity_1 _let_64) (tptp.electron_1 _let_64) (tptp.reduction_1 _let_11) (tptp.oxidation_1 _let_9) (tptp.chemical_entity_1 _let_62) (tptp.oxygen_molecule_1 _let_62) (tptp.tangible_entity_1 _let_112) (tptp.chemical_entity_1 _let_109) (tptp.chemical_entity_1 _let_108) (tptp.chemical_entity_1 _let_106) (tptp.chemical_entity_1 _let_103) (tptp.tangible_entity_1 _let_100) (tptp.tangible_entity_1 _let_97) (tptp.chemical_entity_1 _let_94) (tptp.substance_1 _let_92) (tptp.reducing_agent_1 _let_88) (tptp.algae_1 _let_85) (tptp.animal_1 _let_83) (tptp.cyanobacterium_1 _let_81) (tptp.plant_1 _let_79) (tptp.electron_donor_1 _let_76) (tptp.fossil_fuel_1 _let_69) (tptp.carbon_dioxide_1 _let_67) (tptp.oxidation_1 _let_66) (tptp.reduction_1 _let_65) (tptp.chemical_entity_1 _let_57) (tptp.chemical_entity_1 _let_56) (tptp.chemical_entity_1 _let_55) (tptp.hydrocarbon_molecule_1 _let_53) (tptp.chemical_entity_1 _let_51) (tptp.water_molecule_1 _let_49) (tptp.substance_1 _let_47) (tptp.substance_1 _let_46) (tptp.chemical_entity_1 _let_44) (tptp.sulfuric_acid_compound_1 _let_43) (tptp.chemical_entity_1 _let_41) (tptp.chemical_entity_1 _let_39) (tptp.spatial_entity_1 _let_37) (tptp.chemical_entity_1 _let_36) (tptp.spatial_entity_1 _let_35) (tptp.chemical_entity_1 _let_33) (tptp.acid_compound_1 _let_31) (tptp.carbonic_acid_compound_1 _let_30) (tptp.acid_compound_1 _let_29) (tptp.spatial_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.sulfur_dioxide_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.nitric_oxide_1 _let_21) (tptp.electron_1 _let_20) (tptp.electron_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.electron_1 _let_18) (tptp.chemical_entity_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.electron_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.hydrocarbon_molecule_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_12) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.oxygen_molecule_1 _let_7) (tptp.substance_1 _let_5) (tptp.substance_1 _let_3) (tptp.time_before_2 _let_121 _let_114) (not (= _let_99 _let_111)) (not (= _let_99 _let_96)) (tptp.site_2 _let_99 _let_122) (not (= _let_96 _let_99)) (not (= _let_96 _let_111)) (tptp.base_2 _let_96 _let_78) (tptp.element_2 _let_78 _let_98) (tptp.is_inside_2 _let_101 _let_122) (tptp.causes_2 X _let_99) (tptp.causes_2 X _let_96) (tptp.causes_2 X _let_111) (tptp.ph_2 _let_58 _let_120) (tptp.is_near_2 _let_70 _let_115) (tptp.raw_material_2 _let_22 _let_107) (not (= _let_22 _let_25)) (not (= _let_22 _let_32)) (tptp.raw_material_2 _let_32 _let_68) (not (= _let_32 _let_22)) (not (= _let_32 _let_25)) (not (= _let_25 _let_22)) (not (= _let_25 _let_32)) (tptp.raw_material_2 _let_25 _let_90) (not (= _let_90 _let_104)) (not (= _let_90 _let_107)) (tptp.called_2 _let_90 |tptp.'WM2'|) (not (= _let_107 _let_90)) (not (= _let_107 _let_104)) (tptp.called_2 _let_107 |tptp.'WM3'|) (not (= _let_104 _let_90)) (not (= _let_104 _let_107)) (tptp.called_2 _let_104 |tptp.'WM1'|) (tptp.has_part_2 _let_48 _let_107) (tptp.has_part_2 _let_48 _let_104) (tptp.time_during_2 _let_60 _let_121) (tptp.greater_than_2 _let_119 _let_120) (tptp.the_cardinal_value_2 _let_119 |"5.2e0"|) (tptp.cardinal_unit_class_2 _let_119 tptp.unity_0) (tptp.result_2 _let_54 _let_118) (tptp.result_2 _let_54 _let_117) (not (= _let_2 _let_4)) (not (= _let_4 _let_2)) (tptp.raw_material_2 _let_105 _let_118) (not (= _let_105 _let_50)) (not (= _let_105 _let_102)) (tptp.raw_material_2 _let_102 _let_117) (not (= _let_102 _let_105)) (not (= _let_102 _let_50)) (tptp.raw_material_2 _let_50 _let_110) (not (= _let_50 _let_105)) (not (= _let_50 _let_102)) (not (= _let_111 _let_99)) (not (= _let_111 _let_96)) (tptp.by_means_of_2 _let_111 _let_116) (tptp.by_means_of_2 _let_116 _let_38) (tptp.object_2 _let_116 _let_45) (tptp.is_near_2 _let_115 _let_70) (tptp.time_during_2 _let_61 _let_114) (tptp.object_2 _let_111 _let_113) (tptp.base_2 _let_34 _let_73) (tptp.result_2 _let_54 _let_110) (tptp.raw_material_2 _let_32 _let_104) (tptp.raw_material_2 _let_105 _let_107) (tptp.raw_material_2 _let_25 _let_72) (tptp.raw_material_2 _let_50 _let_90) (tptp.raw_material_2 _let_22 _let_71) (tptp.raw_material_2 _let_102 _let_104) (tptp.base_2 _let_4 _let_59) (tptp.base_2 _let_2 _let_59) (tptp.object_2 _let_99 _let_101) (tptp.object_2 _let_96 _let_98) (tptp.result_2 _let_32 _let_73) (tptp.result_2 _let_25 _let_87) (tptp.result_2 _let_22 _let_95) (tptp.raw_material_2 _let_54 _let_91) (tptp.object_2 _let_34 _let_74) (tptp.object_2 _let_4 _let_93) (tptp.has_part_2 _let_45 _let_40) (tptp.plays_2 _let_63 _let_89) (tptp.plays_2 _let_63 _let_77) (tptp.has_part_2 _let_52 _let_91) (tptp.has_part_2 _let_48 _let_90) (tptp.has_part_2 _let_40 _let_75) (tptp.intensity_2 _let_34 |tptp.'*strong'|) (tptp.in_event_2 _let_89 _let_11) (tptp.has_part_2 _let_42 _let_87) (tptp.element_2 _let_78 _let_86) (tptp.element_2 _let_78 _let_84) (tptp.element_2 _let_78 _let_82) (tptp.element_2 _let_78 _let_80) (tptp.in_event_2 _let_77 _let_9) (tptp.raw_material_2 _let_38 _let_75) (tptp.has_part_2 _let_28 _let_73) (tptp.same_type_2 _let_74 _let_73) (tptp.same_type_2 _let_73 _let_74) (tptp.result_2 _let_6 _let_72) (tptp.result_2 _let_6 _let_71) (tptp.has_part_2 _let_70 _let_63) (tptp.subevent_2 _let_6 _let_11) (tptp.recipient_2 _let_11 _let_62) (tptp.recipient_2 _let_9 _let_62) (tptp.subevent_2 _let_6 _let_9) (tptp.result_2 _let_6 _let_68) (tptp.raw_material_2 _let_6 _let_63) (tptp.donor_2 _let_11 _let_63) (tptp.object_2 _let_11 _let_64) (tptp.object_2 _let_9 _let_64) (tptp.donor_2 _let_9 _let_63) (tptp.raw_material_2 _let_6 _let_62) (not (= _let_62 _let_64)) (not (= _let_64 _let_63)) (not (= _let_63 _let_62)) (not (= _let_62 _let_63)) (not (= _let_64 _let_62)) (not (= _let_63 _let_64)) (tptp.base_2 _let_60 _let_48) (tptp.first_subevent_2 X _let_60) (tptp.subevent_2 X _let_60) (tptp.subevent_2 X _let_61) (tptp.object_2 X _let_58) (tptp.has_part_2 _let_58 _let_59) (tptp.result_2 _let_60 _let_59) (tptp.next_event_2 _let_60 _let_61) (tptp.object_2 _let_61 _let_58) (= _let_113 _let_112) (= _let_73 _let_35) (= _let_110 _let_109) (= _let_104 _let_108) (= _let_107 _let_106) (= _let_72 _let_26) (= _let_90 _let_51) (= _let_71 _let_23) (= _let_104 _let_103) (= _let_59 _let_5) (= _let_59 _let_3) (= _let_101 _let_100) (= _let_98 _let_97) (= _let_73 _let_33) (= _let_87 _let_44) (= _let_95 _let_94) (= _let_91 _let_57) (= _let_91 _let_56) (= _let_91 _let_55) (= _let_74 _let_37) (= _let_93 _let_92) (= _let_40 _let_47) (= _let_40 _let_46) (= _let_91 _let_53) (= _let_90 _let_49) (= _let_75 _let_41) (= _let_89 _let_88) (= _let_87 _let_43) (= _let_86 _let_85) (= _let_84 _let_83) (= _let_82 _let_81) (= _let_80 _let_79) (= _let_77 _let_76) (= _let_75 _let_39) (= _let_74 _let_36) (= _let_73 _let_31) (= _let_73 _let_30) (= _let_73 _let_29) (= _let_72 _let_27) (= _let_72 _let_24) (= _let_71 _let_21) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_9 _let_66) (= _let_11 _let_65) (= _let_63 _let_16) (= _let_63 _let_15) (= _let_63 _let_14) (= _let_62 _let_12) (= _let_64 _let_20) (= _let_62 _let_10) (= _let_64 _let_19) (= _let_62 _let_8) (= _let_64 _let_18) (= _let_64 _let_17) (= _let_63 _let_13) (= _let_62 _let_7) (= _let_48 (tptp.fn_precipitation_5 X)) (= _let_61 (tptp.fn_precipitation_4 X)) (= _let_60 (tptp.fn_precipitation_3 X)) (= _let_59 _let_1) (= _let_58 (tptp.fn_precipitation_7 X)) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_10) (= _let_10 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acid_reflux_3 X))) (let ((_let_2 (tptp.fn_acid_reflux_5 X))) (let ((_let_3 (tptp.fn_acid_reflux_4 X))) (let ((_let_4 (tptp.fn_acid_reflux_2 X))) (=> (tptp.acid_reflux_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Reflux'|) (tptp.user_description_2 X |tptp.'Potentially painful condition in which acid chyme from the stomach backflows into the lower end of the esophagus.'|) (tptp.concept2words_2 X |tptp.'reflux of acid'|) (tptp.concept2words_2 X |tptp.'acid reflux'|) (tptp.concept2words_2 X |tptp.'acid-reflux'|) (tptp.animal_process_1 X) (tptp.angle_value_1 _let_4) (tptp.move_1 _let_1) (tptp.stomach_1 _let_3) (tptp.esophagus_1 _let_2) (tptp.the_scalar_value_2 _let_4 tptp.backward_0) (tptp.scalar_unit_class_2 _let_4 tptp.move_0) (tptp.direction_2 _let_1 _let_4) (tptp.origin_2 _let_1 _let_3) (tptp.destination_2 _let_1 _let_2) (tptp.subevent_2 X _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.acid_role_1 X) (and (tptp.original_name_2 X |tptp.'Acid-Role'|) (tptp.concept2words_2 X |tptp.'role of acid'|) (tptp.concept2words_2 X |tptp.'acid role'|) (tptp.concept2words_2 X |tptp.'acid-role'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_2 (tptp.fn_acidic_amino_acid_68 X))) (let ((_let_3 (tptp.fn_hold_2 _let_2))) (let ((_let_4 (tptp.fn_acidic_amino_acid_67 X))) (let ((_let_5 (tptp.fn_hold_2 _let_4))) (let ((_let_6 (tptp.fn_acidic_amino_acid_17 X))) (let ((_let_7 (tptp.fn_hold_2 _let_6))) (let ((_let_8 (tptp.fn_acidic_amino_acid_18 X))) (let ((_let_9 (tptp.fn_hold_2 _let_8))) (let ((_let_10 (tptp.fn_acidic_amino_acid_54 X))) (let ((_let_11 (tptp.fn_hold_2 _let_10))) (let ((_let_12 (tptp.fn_acidic_amino_acid_36 X))) (let ((_let_13 (tptp.fn_hold_2 _let_12))) (let ((_let_14 (tptp.fn_acidic_amino_acid_24 X))) (let ((_let_15 (tptp.fn_share_3 _let_14))) (let ((_let_16 (tptp.fn_acidic_amino_acid_25 X))) (let ((_let_17 (tptp.fn_share_3 _let_16))) (let ((_let_18 (tptp.fn_acidic_amino_acid_63 X))) (let ((_let_19 (tptp.fn_share_3 _let_18))) (let ((_let_20 (tptp.fn_acidic_amino_acid_62 X))) (let ((_let_21 (tptp.fn_share_3 _let_20))) (let ((_let_22 (tptp.fn_acidic_amino_acid_27 X))) (let ((_let_23 (tptp.fn_share_3 _let_22))) (let ((_let_24 (tptp.fn_acidic_amino_acid_28 X))) (let ((_let_25 (tptp.fn_share_3 _let_24))) (let ((_let_26 (tptp.fn_acidic_amino_acid_61 X))) (let ((_let_27 (tptp.fn_share_3 _let_26))) (let ((_let_28 (tptp.fn_acidic_amino_acid_35 X))) (let ((_let_29 (tptp.fn_share_3 _let_28))) (let ((_let_30 (tptp.fn_acidic_amino_acid_65 X))) (let ((_let_31 (tptp.fn_share_1 _let_30))) (let ((_let_32 (tptp.fn_share_1 _let_16))) (let ((_let_33 (tptp.fn_acidic_amino_acid_26 X))) (let ((_let_34 (tptp.fn_share_1 _let_33))) (let ((_let_35 (tptp.fn_share_1 _let_20))) (let ((_let_36 (tptp.fn_share_1 _let_24))) (let ((_let_37 (tptp.fn_acidic_amino_acid_56 X))) (let ((_let_38 (tptp.fn_share_1 _let_37))) (let ((_let_39 (tptp.fn_acidic_amino_acid_34 X))) (let ((_let_40 (tptp.fn_share_1 _let_39))) (let ((_let_41 (tptp.fn_share_1 _let_28))) (let ((_let_42 (tptp.fn_hydrophilic_amino_acid_30 X))) (let ((_let_43 (tptp.fn_acidic_amino_acid_45 X))) (let ((_let_44 (tptp.fn_covalent_bond_19 _let_43))) (let ((_let_45 (tptp.fn_covalent_bond_20 _let_43))) (let ((_let_46 (tptp.fn_acidic_amino_acid_15 X))) (let ((_let_47 (tptp.fn_hold_2 _let_46))) (let ((_let_48 (tptp.fn_hydrophilic_amino_acid_11 X))) (let ((_let_49 (tptp.fn_covalent_bond_18 _let_43))) (let ((_let_50 (tptp.fn_covalent_bond_15 _let_43))) (let ((_let_51 (tptp.fn_hydrophilic_amino_acid_12 X))) (let ((_let_52 (tptp.fn_hydrophilic_amino_acid_8 X))) (let ((_let_53 (tptp.fn_covalent_bond_17 _let_43))) (let ((_let_54 (tptp.fn_hydrophilic_amino_acid_29 X))) (let ((_let_55 (tptp.fn_acidic_amino_acid_53 X))) (let ((_let_56 (tptp.fn_hold_2 _let_55))) (let ((_let_57 (tptp.fn_acidic_amino_acid_74 X))) (let ((_let_58 (tptp.fn_share_1 _let_57))) (let ((_let_59 (tptp.fn_acidic_amino_acid_32 X))) (let ((_let_60 (tptp.fn_share_1 _let_59))) (let ((_let_61 (tptp.fn_share_3 _let_57))) (let ((_let_62 (tptp.fn_share_3 _let_59))) (let ((_let_63 (tptp.fn_hydrophilic_amino_acid_9 X))) (let ((_let_64 (tptp.fn_covalent_bond_22 _let_43))) (let ((_let_65 (tptp.fn_covalent_bond_24 _let_43))) (let ((_let_66 (tptp.fn_hydrophilic_amino_acid_13 X))) (let ((_let_67 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_68 (tptp.fn_hydrophilic_amino_acid_32 X))) (let ((_let_69 (tptp.fn_share_1 _let_14))) (let ((_let_70 (tptp.fn_acidic_amino_acid_16 X))) (let ((_let_71 (tptp.fn_hold_2 _let_70))) (let ((_let_72 (tptp.fn_acidic_amino_acid_55 X))) (let ((_let_73 (tptp.fn_hold_2 _let_72))) (let ((_let_74 (tptp.fn_share_3 _let_30))) (let ((_let_75 (tptp.fn_share_3 _let_33))) (let ((_let_76 (tptp.fn_share_3 _let_37))) (let ((_let_77 (tptp.fn_acidic_amino_acid_70 X))) (let ((_let_78 (tptp.fn_hold_2 _let_77))) (let ((_let_79 (tptp.fn_acidic_amino_acid_14 X))) (let ((_let_80 (tptp.fn_hold_2 _let_79))) (let ((_let_81 (tptp.fn_acidic_amino_acid_59 X))) (let ((_let_82 (tptp.fn_hold_2 _let_81))) (let ((_let_83 (tptp.fn_acidic_amino_acid_19 X))) (let ((_let_84 (tptp.fn_hold_2 _let_83))) (let ((_let_85 (tptp.fn_share_1 _let_18))) (let ((_let_86 (tptp.fn_share_1 _let_22))) (let ((_let_87 (tptp.fn_share_1 _let_26))) (let ((_let_88 (tptp.fn_share_3 _let_39))) (let ((_let_89 (tptp.fn_hydrophilic_amino_acid_33 X))) 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(tptp.fn_acidic_amino_acid_5 X) (tptp.fn_molecule_6 X)) (= _let_131 (tptp.fn_molecule_5 X)) (= _let_59 _let_53) (= _let_55 _let_92) (= (tptp.fn_acidic_amino_acid_3 X) (tptp.fn_amino_acid_4 X)) (= (tptp.fn_acidic_amino_acid_4 X) (tptp.fn_amino_acid_3 X)) (= _let_130 (tptp.fn_amino_acid_5 X)) (= _let_129 (tptp.fn_amino_acid_6 X)) (= _let_128 (tptp.fn_amino_acid_7 X)) (= _let_127 (tptp.fn_amino_acid_16 X)) (= _let_26 _let_121) (= _let_126 _let_96) (= _let_126 _let_95) (= _let_125 (tptp.fn_hydrophilic_amino_acid_23 X)) (= _let_124 (tptp.fn_hydrophilic_amino_acid_19 X)) (= _let_123 (tptp.fn_hydrophilic_amino_acid_22 X)) (= _let_122 _let_121) (= _let_120 (tptp.fn_hydrophilic_amino_acid_6 X)) (= _let_119 (tptp.fn_hydrophilic_amino_acid_5 X)) (= _let_118 (tptp.fn_hydrophilic_amino_acid_18 X)) (= _let_113 _let_91) (= _let_117 (tptp.fn_hydrophilic_amino_acid_4 X)) (= _let_46 (tptp.fn_hydrophilic_amino_acid_16 X)) (= _let_112 _let_42) (= _let_116 (tptp.fn_hydrophilic_amino_acid_3 X)) (= _let_114 _let_94) (= _let_111 _let_67) (= _let_110 _let_68) (= _let_79 _let_93) (= _let_115 (tptp.fn_hydrophilic_amino_acid_14 X)) (= _let_114 _let_93) (= _let_113 _let_90) (= _let_112 _let_89) (= _let_111 _let_68) (= _let_110 _let_67) (= _let_43 (tptp.fn_hydrophilic_amino_acid_28 X)) (= _let_109 _let_65) (= _let_109 _let_66) (= _let_108 _let_65) (= _let_108 _let_64) (= _let_108 _let_63) (= _let_57 _let_52) (= _let_107 (tptp.fn_hydrophilic_amino_acid_26 X)) (= _let_106 (tptp.fn_hydrophilic_amino_acid_25 X)) (= _let_105 _let_54) (= _let_104 _let_52) (= _let_103 _let_51) (= _let_101 _let_45) (= _let_102 _let_50) (= _let_101 _let_44) (= _let_102 _let_49) (= _let_102 _let_48) (= _let_101 _let_42) (= _let_77 _let_91) (= _let_100 (tptp.fn_hydrophilic_amino_acid_21 X)) (= _let_99 (tptp.fn_hydrophilic_amino_acid_20 X)) (= _let_98 _let_1) (= _let_97 (tptp.fn_hydrophilic_amino_acid_27 X)) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_92) (= _let_92 _let_93) (= _let_93 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_15) (= _let_15 _let_15) (= _let_15 _let_42) (= _let_89 _let_42) (= _let_42 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_85 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_78 _let_84) (= _let_84 _let_82) (= _let_82 _let_80) (= _let_80 _let_78) (= _let_78 _let_67) (= _let_67 _let_68) (= _let_68 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_71 _let_73) (= _let_73 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_53) (= _let_52 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_58) (= _let_58 _let_60) (= _let_60 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_42 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_29) (= _let_29 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_27) (= _let_25 _let_36) (= _let_36 _let_23) (= _let_21 _let_35) (= _let_35 _let_19) (= _let_19 _let_34) (= _let_34 _let_17) (= _let_17 _let_32) (= _let_32 _let_31) (= _let_31 _let_15) (= _let_15 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_3 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acidic_solution_18 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_water_83 _let_1))) (let ((_let_4 (tptp.fn_acidic_solution_31 X))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 _let_4))) (let ((_let_6 (tptp.fn_water_105 _let_1))) (let ((_let_7 (tptp.fn_water_109 _let_1))) (let ((_let_8 (tptp.fn_acidic_solution_29 X))) (let ((_let_9 (tptp.fn_water_molecule_75 _let_8))) (let ((_let_10 (tptp.fn_hydrophilic_compound_2 _let_8))) (let ((_let_11 (tptp.fn_water_106 _let_1))) (let ((_let_12 (tptp.fn_water_molecule_63 _let_8))) (let ((_let_13 (tptp.fn_water_molecule_64 _let_8))) (let ((_let_14 (tptp.fn_polar_molecule_2 _let_8))) (let ((_let_15 (tptp.fn_water_molecule_61 _let_8))) (let ((_let_16 (tptp.fn_water_113 _let_1))) (let ((_let_17 (tptp.fn_water_molecule_62 _let_8))) (let ((_let_18 (tptp.fn_water_110 _let_1))) (let ((_let_19 (tptp.fn_hydrophilic_compound_1 _let_8))) (let ((_let_20 (tptp.fn_exergonic_reaction_11 _let_4))) (let ((_let_21 (tptp.fn_acidic_solution_17 X))) (let ((_let_22 (tptp.fn_add_1 _let_21))) (let ((_let_23 (tptp.fn_acidic_solution_22 X))) (let ((_let_24 (tptp.fn_acidic_solution_27 X))) (let ((_let_25 (tptp.fn_water_99 _let_1))) (let ((_let_26 (tptp.fn_acidic_solution_28 X))) (let ((_let_27 (tptp.fn_water_14 _let_1))) (let ((_let_28 (tptp.fn_acidic_solution_16 X))) (let ((_let_29 (tptp.fn_water_101 _let_1))) (let ((_let_30 (tptp.fn_acidic_solution_30 X))) (let ((_let_31 (tptp.fn_water_molecule_1 _let_8))) (let ((_let_32 (tptp.fn_acidic_solution_25 X))) (let ((_let_33 (tptp.fn_water_molecule_2 _let_8))) (let ((_let_34 (tptp.fn_water_molecule_3 _let_8))) (let ((_let_35 (tptp.fn_acidic_solution_24 X))) (let ((_let_36 (tptp.fn_water_molecule_4 _let_8))) (let ((_let_37 (tptp.fn_acidic_solution_26 X))) (let ((_let_38 (tptp.fn_acidic_solution_23 X))) (let ((_let_39 (tptp.fn_acidic_solution_15 X))) (let ((_let_40 (tptp.fn_acidic_solution_19 X))) (let ((_let_41 (tptp.fn_exergonic_reaction_11 _let_40))) (let ((_let_42 (tptp.fn_acidic_solution_32 X))) (let ((_let_43 (tptp.fn_acidic_solution_21 X))) (let ((_let_44 (tptp.fn_add_2 _let_21))) (let ((_let_45 (tptp.fn_acidic_solution_20 X))) (let ((_let_46 (tptp.fn_acidic_solution_11 X))) (let ((_let_47 (tptp.fn_acidic_solution_10 X))) (let ((_let_48 (tptp.fn_acidic_solution_12 X))) (let ((_let_49 (tptp.fn_acidic_solution_9 X))) (let ((_let_50 (tptp.fn_acidic_solution_6 X))) (let ((_let_51 (tptp.fn_acidic_solution_7 X))) (=> (tptp.acidic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Acidic-Solution'|) (tptp.user_description_2 X |tptp.'An aqueous solution containing more H+ ions than OH- ions. An aqueous solution with a pH less than 7.'|) (tptp.concept2words_2 X |tptp.'acidic solution'|) (tptp.concept2words_2 X |tptp.'acidic-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.sodium_chloride_solution_1 X)) (tptp.ph_value_1 _let_50) (tptp.ph_value_1 _let_51) (tptp.density_value_1 _let_49) (tptp.density_value_1 _let_47) (tptp.quantity_value_1 _let_46) (tptp.quantity_value_1 _let_48) (tptp.acid_1 _let_39) (tptp.surface_1 _let_28) (tptp.add_1 _let_21) (tptp.chemical_1 _let_1) (tptp.water_1 _let_1) (tptp.acid_dissociation_reaction_1 _let_40) (tptp.hydroxide_ion_1 _let_45) (tptp.hydrogen_ion_1 _let_43) (tptp.attract_1 _let_23) (tptp.entity_1 _let_38) (tptp.hydrophilic_region_1 _let_38) (tptp.shape_value_1 _let_35) (tptp.polarity_value_1 _let_32) (tptp.covalent_bond_1 _let_37) (tptp.chemical_bond_1 _let_37) (tptp.polar_covalent_bond_1 _let_37) (tptp.tangible_entity_1 _let_24) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.hydrogen_1 _let_24) (tptp.attract_1 _let_26) (tptp.hydrophilic_compound_1 _let_8) (tptp.entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.polar_molecule_1 _let_8) (tptp.water_molecule_1 _let_8) (tptp.heat_1 _let_30) (tptp.chemical_dissociation_reaction_1 _let_4) (tptp.anion_1 _let_42) (tptp.spatial_entity_1 _let_44) (tptp.chemical_entity_1 _let_41) (tptp.property_node_1 _let_36) (tptp.shape_value_1 _let_34) (tptp.property_node_1 _let_33) (tptp.polarity_value_1 _let_31) (tptp.heat_1 _let_29) (tptp.surface_1 _let_27) (tptp.attract_1 _let_25) (tptp.spatial_entity_1 _let_22) (tptp.chemical_entity_1 _let_20) (tptp.hydrophilic_region_1 _let_19) (tptp.entity_1 _let_18) (tptp.hydrophilic_region_1 _let_18) (tptp.covalent_bond_1 _let_17) (tptp.polar_covalent_bond_1 _let_17) (tptp.chemical_bond_1 _let_16) (tptp.covalent_bond_1 _let_16) (tptp.polar_covalent_bond_1 _let_16) (tptp.chemical_bond_1 _let_15) (tptp.polar_covalent_bond_1 _let_15) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.hydrogen_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.attract_1 _let_10) (tptp.attract_1 _let_9) (tptp.attract_1 _let_7) (tptp.attract_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.polar_molecule_1 _let_3) (tptp.hydrophilic_compound_1 _let_3) (tptp.water_molecule_1 _let_3) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.greater_than_2 _let_51 _let_50) (tptp.the_cardinal_value_2 _let_51 |"7.0e0"|) (tptp.cardinal_unit_class_2 _let_51 tptp.unity_0) (not (= _let_39 _let_1)) (not (= _let_1 _let_39)) (tptp.result_2 _let_40 _let_43) (not (= _let_40 _let_4)) (tptp.quantity_2 _let_45 _let_48) (tptp.density_2 _let_45 _let_49) (tptp.has_part_2 X _let_43) (tptp.has_part_2 X _let_42) (tptp.ph_2 X _let_50) (tptp.greater_than_2 _let_47 _let_49) (tptp.greater_than_2 _let_46 _let_48) (tptp.density_2 _let_43 _let_47) (tptp.quantity_2 _let_43 _let_46) (not (= _let_4 _let_40)) (tptp.base_2 _let_21 _let_45) (tptp.object_2 _let_21 _let_43) (tptp.raw_material_2 _let_4 _let_8) (tptp.result_2 _let_4 _let_43) (tptp.result_2 _let_40 _let_42) (tptp.has_solute_2 X _let_39) (tptp.has_part_2 X _let_39) (tptp.has_solvent_2 X _let_1) (tptp.has_part_2 X _let_1) (tptp.inhibits_2 _let_26 _let_30) (tptp.object_2 _let_30 _let_1) (tptp.has_part_2 _let_1 _let_8) (tptp.is_at_2 _let_8 _let_28) (tptp.has_region_2 _let_1 _let_28) (tptp.called_2 _let_8 |"1"|) (tptp.object_2 _let_26 _let_8) (tptp.has_part_2 _let_8 _let_24) (tptp.has_function_2 _let_8 _let_23) (tptp.is_between_2 _let_37 _let_24) (tptp.possesses_2 _let_8 _let_37) (tptp.polarity_2 _let_8 _let_32) (tptp.correspondence_2 _let_32 _let_35) (tptp.shape_2 _let_8 _let_35) (tptp.the_categorical_value_2 _let_35 tptp.v_like_0) (tptp.has_region_2 _let_8 _let_38) (tptp.agent_2 _let_23 _let_38) (tptp.site_2 _let_23 _let_38) (= _let_45 _let_44) (= _let_43 _let_22) (= _let_8 _let_5) (= _let_43 _let_20) (= _let_42 _let_41) (= _let_1 (tptp.fn_solution_6 X)) (= _let_39 (tptp.fn_solution_5 X)) (= _let_23 _let_10) (= _let_38 _let_19) (= _let_38 _let_18) (= _let_37 _let_17) (= _let_37 _let_16) (= _let_37 _let_15) (= (tptp.fn_acidic_solution_13 X) _let_36) (= _let_35 _let_34) (= (tptp.fn_acidic_solution_14 X) _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_14) (= _let_24 _let_12) (= _let_24 _let_13) (= _let_24 _let_11) (= _let_23 _let_9) (= _let_8 _let_3) (= _let_23 _let_7) (= _let_8 _let_2) (= _let_23 _let_6) (= _let_22 _let_20) (= _let_20 _let_19) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.has_part_2 X1 X) (tptp.weak_acid_1 X1) (tptp.acidic_solution_1 X)) (and (tptp.acidic_solution_of_weak_acid_1 X) (= (tptp.fn_acidic_solution_of_weak_acid_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acidic_solution_of_weak_acid_2 X))) (=> (tptp.acidic_solution_of_weak_acid_1 X) (and (tptp.original_name_2 X |tptp.'Acidic-Solution-Of-Weak-Acid'|) (tptp.user_description_2 X |tptp.'Solution containing a weak acid.'|) (tptp.concept2words_2 X |tptp.'weak acid solution'|) (tptp.concept2words_2 X |tptp.'solution of weak acid'|) (tptp.concept2words_2 X |tptp.'weakly acidic solution'|) (tptp.concept2words_2 X |tptp.'acidic solution of weak acid'|) (tptp.concept2words_2 X |tptp.'acidic-solution-of-weak-acid'|) (tptp.acidic_solution_1 X) (tptp.weak_acid_1 _let_1) (tptp.has_part_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acoela_8 X))) (let ((_let_2 (tptp.fn_animal_nutritional_requirement_52 _let_1))) (let ((_let_3 (tptp.fn_animal_nutritional_requirement_54 _let_1))) (let ((_let_4 (tptp.fn_animal_nutritional_requirement_4 _let_1))) (let ((_let_5 (tptp.fn_animal_19 X))) (let ((_let_6 (tptp.fn_animal_nutritional_requirement_6 _let_1))) (let ((_let_7 (tptp.fn_acoela_15 X))) (let ((_let_8 (tptp.fn_move_out_of_1 _let_7))) (let ((_let_9 (tptp.fn_acoela_20 X))) (let ((_let_10 (tptp.fn_agent_role_1 _let_9))) (let ((_let_11 (tptp.fn_animal_nutritional_requirement_61 _let_1))) (let ((_let_12 (tptp.fn_acoela_24 X))) (let ((_let_13 (tptp.fn_acoela_25 X))) (let ((_let_14 (tptp.fn_animal_nutritional_requirement_48 _let_1))) (let ((_let_15 (tptp.fn_acoela_27 X))) (let ((_let_16 (tptp.fn_animal_nutritional_requirement_53 _let_1))) (let ((_let_17 (tptp.fn_acoela_26 X))) (let ((_let_18 (tptp.fn_acoela_18 X))) (let ((_let_19 (tptp.fn_animal_nutritional_requirement_46 _let_1))) (let ((_let_20 (tptp.fn_acoela_28 X))) (let ((_let_21 (tptp.fn_animal_nutritional_requirement_40 _let_1))) (let ((_let_22 (tptp.fn_acoela_22 X))) (let ((_let_23 (tptp.fn_animal_nutritional_requirement_38 _let_1))) (let ((_let_24 (tptp.fn_acoela_23 X))) (let ((_let_25 (tptp.fn_animal_nutritional_requirement_34 _let_1))) (let ((_let_26 (tptp.fn_acoela_9 X))) (let ((_let_27 (tptp.fn_animal_nutritional_requirement_42 _let_1))) (let ((_let_28 (tptp.fn_acoela_29 X))) (let ((_let_29 (tptp.fn_animal_nutritional_requirement_35 _let_1))) (let ((_let_30 (tptp.fn_acoela_10 X))) (let ((_let_31 (tptp.fn_animal_nutritional_requirement_41 _let_1))) (let ((_let_32 (tptp.fn_acoela_11 X))) (let ((_let_33 (tptp.fn_acoela_17 X))) (let ((_let_34 (tptp.fn_acoela_12 X))) (let ((_let_35 (tptp.fn_acoela_14 X))) (let ((_let_36 (tptp.fn_move_out_of_2 _let_7))) (let ((_let_37 (tptp.fn_acoela_21 X))) (let ((_let_38 (tptp.fn_acoela_16 X))) (let ((_let_39 (tptp.fn_acoela_13 X))) (let ((_let_40 (tptp.fn_acoela_19 X))) (let ((_let_41 (tptp.fn_acoela_6 X))) (let ((_let_42 (tptp.fn_acoela_7 X))) (let ((_let_43 (tptp.fn_acoela_5 X))) (let ((_let_44 (tptp.fn_acoela_3 X))) (let ((_let_45 (tptp.fn_acoela_4 X))) (let ((_let_46 (tptp.fn_acoela_2 X))) (let ((_let_47 (tptp.fn_acoela_1 X))) (=> (tptp.acoela_1 X) (and (tptp.original_name_2 X |tptp.'Acoela'|) (tptp.user_description_2 X |tptp.'Order of marine flatworms characterized by the lack of a hindgut and anus and an unsegmented body plan.'|) (tptp.concept2words_2 X tptp.acoela) (tptp.animal_1 X) (tptp.spatial_entity_1 _let_47) (tptp.spatial_entity_1 _let_46) (tptp.elimination_1 _let_44) (tptp.pore_1 _let_45) (tptp.food_absorption_1 _let_43) (tptp.time_interval_1 _let_41) (tptp.time_interval_1 _let_42) (tptp.animal_nutritional_requirement_1 _let_1) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.hydrogen_1 _let_26) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.carbon_1 _let_30) (tptp.oxygen_1 _let_32) (tptp.specific_heat_value_1 _let_34) (tptp.gastrovascular_cavity_1 _let_39) (tptp.temperature_value_1 _let_35) (tptp.move_out_of_1 _let_7) (tptp.digestive_system_1 _let_38) (tptp.water_1 _let_33) (tptp.nutrition_1 _let_18) (tptp.heterotroph_1 _let_40) (tptp.agent_role_1 _let_9) (tptp.container_1 _let_37) (tptp.polypeptide_1 _let_22) (tptp.organic_molecule_1 _let_22) (tptp.spatial_entity_1 _let_24) (tptp.monomer_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.molecule_1 _let_24) (tptp.amino_acid_1 _let_24) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.hydrogen_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.carbohydrate_1 _let_15) (tptp.protein_1 _let_20) (tptp.tangible_entity_1 _let_28) (tptp.entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.oxygen_1 _let_28) (tptp.container_1 _let_36) (tptp.oxygen_1 _let_31) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.oxygen_1 _let_27) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.hydrogen_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.monomer_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.molecule_1 _let_23) (tptp.amino_acid_1 _let_23) (tptp.polypeptide_1 _let_21) (tptp.organic_molecule_1 _let_21) (tptp.protein_1 _let_19) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.hydrogen_1 _let_16) (tptp.chemical_entity_1 _let_14) (tptp.carbohydrate_1 _let_14) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.animal_1 _let_6) (tptp.nutrition_1 _let_4) (tptp.entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.oxygen_1 _let_3) (tptp.entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.oxygen_1 _let_2) (tptp.has_region_2 _let_38 _let_45) (tptp.origin_2 _let_7 _let_47) (tptp.destination_2 _let_7 _let_46) (tptp.path_2 _let_7 _let_45) (tptp.is_inside_2 _let_47 X) (tptp.is_outside_2 _let_46 X) (tptp.subevent_2 _let_44 _let_7) (tptp.path_2 _let_44 _let_45) (tptp.time_during_2 _let_44 _let_41) (tptp.has_function_2 _let_45 _let_44) (tptp.next_event_2 _let_43 _let_44) (tptp.time_during_2 _let_43 _let_42) (tptp.time_before_2 _let_42 _let_41) (tptp.plays_2 X _let_9) (tptp.plays_2 X _let_40) (tptp.in_event_2 _let_40 _let_18) (tptp.has_region_2 X _let_38) (tptp.has_region_2 _let_38 _let_39) (tptp.base_2 _let_7 X) (tptp.plays_2 X _let_37) (tptp.in_event_2 _let_37 _let_7) (tptp.has_part_2 X _let_33) (tptp.specific_heat_2 _let_33 _let_34) (tptp.correspondence_2 _let_35 _let_34) (tptp.temperature_2 X _let_35) (tptp.agent_2 _let_18 X) (not (= _let_17 _let_13)) (tptp.has_part_2 _let_15 _let_17) (tptp.result_2 _let_18 _let_15) (not (= _let_13 _let_17)) (tptp.element_2 _let_1 _let_12) (tptp.has_part_2 _let_15 _let_12) (tptp.has_part_2 _let_15 _let_13) (not (= _let_13 _let_12)) (not (= _let_12 _let_13)) (= X _let_10) (= _let_18 _let_5) (= _let_40 (tptp.fn_animal_18 X)) (= _let_39 (tptp.fn_animal_2 X)) (= _let_38 (tptp.fn_animal_5 X)) (= _let_37 _let_36) (= X _let_8) (= _let_35 (tptp.fn_organism_2 X)) (= _let_34 (tptp.fn_organism_5 X)) (= _let_33 (tptp.fn_organism_4 X)) (= X _let_6) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_4) (= _let_17 _let_16) (= _let_13 _let_3) (= _let_15 _let_14) (= _let_13 _let_2) (= _let_12 _let_11) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.acrosomal_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Acrosomal-Reaction'|) (tptp.user_description_2 X |tptp.'Release of enzymes from the acrosome of a sperm near the zona pellucida of an egg. The enzymes break through the outer coating of the egg and allow fertilization to occur.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'acrosomal reaction'|) (tptp.concept2words_2 X |tptp.'acrosomal-reaction'|) (tptp.animal_fertilization_1 X) (not (tptp.conception_1 X)) (not (tptp.cortical_reaction_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_acrosome_1 X))) (=> (tptp.acrosome_1 X) (and (tptp.original_name_2 X |tptp.'Acrosome'|) (tptp.user_description_2 X |tptp.'A caplike vesicle in the tip of a sperm that contains enzymes used to penetrate an egg_'s protective outer covering.'|) (tptp.concept2words_2 X tptp.acrosome) (tptp.vesicle_1 X) (not (tptp.cortical_granule_1 X)) (not (tptp.lysosome_1 X)) (not (tptp.synaptic_vesicle_1 X)) (not (tptp.transport_vesicle_1 X)) (not (tptp.vacuole_1 X)) (tptp.sperm_cell_1 _let_1) (tptp.has_part_2 _let_1 X) (= _let_1 (tptp.fn_vesicle_5 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_polymer_8 X))) (let ((_let_3 (tptp.fn_actin_1 X))) (let ((_let_4 (tptp.fn_actin_3 X))) (let ((_let_5 (tptp.fn_actin_2 X))) (=> (tptp.actin_1 X) (and (tptp.original_name_2 X |tptp.'Actin'|) (tptp.user_description_2 X |tptp.'Actin is a globular protein found in all eukaryotic cells. It serves as the basic structural unit for microfilament and thin filaments'|) (tptp.concept2words_2 X tptp.actin) (tptp.globular_protein_1 X) (tptp.size_value_1 _let_3) (tptp.size_value_1 _let_5) (tptp.monomer_1 _let_4) (tptp.has_part_2 X _let_4) (tptp.size_2 _let_4 _let_5) (tptp.greater_than_2 _let_3 _let_5) (tptp.size_2 X _let_3) (tptp.the_scalar_value_2 _let_3 tptp.big_0) (tptp.scalar_unit_class_2 _let_3 tptp.polypeptide_0) (= _let_3 _let_2) (= _let_5 (tptp.fn_polymer_7 X)) (= _let_4 (tptp.fn_polymer_4 X)) (= _let_3 _let_1) (= _let_2 _let_1) (= _let_1 _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_actinium_11 X))) (let ((_let_2 (tptp.fn_actinium_14 X))) (let ((_let_3 (tptp.fn_actinium_12 X))) (let ((_let_4 (tptp.fn_actinium_13 X))) (let ((_let_5 (tptp.fn_actinium_5 X))) (let ((_let_6 (tptp.fn_actinium_6 X))) (let ((_let_7 (tptp.fn_actinium_7 X))) (let ((_let_8 (tptp.fn_actinium_4 X))) (=> (tptp.actinium_1 X) (and (tptp.original_name_2 X |tptp.'Actinium'|) (tptp.user_description_2 X |tptp.'Actinium is a metal atom with atomic number 89. It is represented by the symbol Ac.'|) (tptp.concept2words_2 X tptp.actinium) (tptp.concept2words_2 X tptp.ac) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"138"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"89"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"89"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.1"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"227"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"89"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"227"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_actinium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_actinium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_actinium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.actinopod_1 X) (and (tptp.original_name_2 X |tptp.'Actinopod'|) (tptp.user_description_2 X |tptp.'An amoeboid protist whose pseudopods are reinforced by regular arrays of microtubules; examples include radiolarians and heliozoans.'|) (tptp.concept2words_2 X tptp.actinopod) (tptp.amoeba_1 X)))) (forall ((X $$unsorted)) (=> (tptp.actinopterygii_1 X) (and (tptp.original_name_2 X |tptp.'Actinopterygii'|) (tptp.user_description_2 X |tptp.'The taxon comprising the ray-finned fishes.'|) (tptp.concept2words_2 X tptp.actinopterygii) (tptp.ray_finned_fish_1 X) (not (tptp.sunfish_1 X)) (not (tptp.stickleback_1 X))))) (forall ((X $$unsorted)) (=> (tptp.action_1 X) (and (tptp.original_name_2 X |tptp.'Action'|) (tptp.concept2words_2 X |tptp.'work on'|) (tptp.concept2words_2 X tptp.make) (tptp.concept2words_2 X tptp.act) (tptp.concept2words_2 X tptp.do) (tptp.concept2words_2 X tptp.execute) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X tptp.perform) (tptp.concept2words_2 X tptp.work) (tptp.concept2words_2 X tptp.process) (tptp.concept2words_2 X tptp.action) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.action_potential_1 X) (and (tptp.original_name_2 X |tptp.'Action-Potential'|) (tptp.user_description_2 X |tptp.'A rapid change in the membrane potential of an excitable cell, caused by stimulus-triggered, selective opening and closing of voltage-sensitive gates in sodium and potassium ion channels.'|) (tptp.concept2words_2 X |tptp.'potential of action'|) (tptp.concept2words_2 X |tptp.'action potential'|) (tptp.concept2words_2 X |tptp.'action-potential'|) (tptp.change_in_membrane_potential_1 X)))) (forall ((X $$unsorted)) (=> (tptp.action_spectrum_1 X) (and (tptp.original_name_2 X |tptp.'Action-Spectrum'|) (tptp.user_description_2 X |tptp.'A range of wavelengths of radiation that are most effective in promoting a particular process. This range is sometimes depicted in a graph with the same name.'|) (tptp.concept2words_2 X |tptp.'spectrum of action'|) (tptp.concept2words_2 X |tptp.'action spectrum'|) (tptp.concept2words_2 X |tptp.'action-spectrum'|) (tptp.graphical_representation_1 X) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (=> (tptp.activate_1 X) (and (tptp.original_name_2 X |tptp.'Activate'|) (tptp.concept2words_2 X tptp.activate) (tptp.concept2words_2 X tptp.enable) (tptp.concept2words_2 X tptp.reactivate) (tptp.concept2words_2 X tptp.set) (tptp.concept2words_2 X tptp.throw) (tptp.concept2words_2 X tptp.switch) (tptp.concept2words_2 X |tptp.'set up'|) (tptp.concept2words_2 X tptp.ready) (tptp.concept2words_2 X tptp.prepare) (tptp.concept2words_2 X |tptp.'gear up'|) (tptp.concept2words_2 X tptp.flip) (tptp.make_accessible_1 X) (not (tptp.unobstruct_1 X)) (not (tptp.unblock_1 X)) (not (tptp.expose_1 X))))) (forall ((X $$unsorted)) (=> (tptp.activation_constant_1 X) (and (tptp.original_name_2 X |tptp.'Activation-Constant'|) (tptp.concept2words_2 X |tptp.'constant of activation'|) (tptp.concept2words_2 X |tptp.'activation constant'|) (tptp.concept2words_2 X |tptp.'activation-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.activation_energy_1 X) (and (tptp.original_name_2 X |tptp.'Activation-Energy'|) (tptp.user_description_2 X |tptp.'Activation energy is the minimum amount of energy (heat, electromagnetic radiation, or electrical energy) required to activate atoms or molecules to a condition in which it is equally likely that they will undergo chemical reaction. In decomposition reactions, activation energy is proportional to the difficulty of breaking bonds.'|) (tptp.concept2words_2 X |tptp.'energy of activation'|) (tptp.concept2words_2 X |tptp.'energy-of-activation'|) (tptp.concept2words_2 X |tptp.'free energy of activation'|) (tptp.concept2words_2 X |tptp.'free-energy-of-activation'|) (tptp.concept2words_2 X tptp.ea) (tptp.concept2words_2 X |tptp.'activation energy'|) (tptp.concept2words_2 X |tptp.'activation-energy'|) (tptp.energy_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_activation_of_atp_synthase_5 X))) (let ((_let_2 (tptp.fn_activation_of_atp_synthase_4 X))) (let ((_let_3 (tptp.fn_activation_of_atp_synthase_3 X))) (let ((_let_4 (tptp.fn_activation_of_atp_synthase_7 X))) (let ((_let_5 (tptp.fn_activation_of_atp_synthase_6 X))) (=> (tptp.activation_of_atp_synthase_1 X) (and (tptp.original_name_2 X |tptp.'Activation-Of-ATP-Synthase'|) (tptp.user_description_2 X |tptp.'Activation of the enzyme that catalyzes the reaction that forms ATP from ADP and inorganic phosphate.'|) (tptp.concept2words_2 X tptp.activate) (tptp.concept2words_2 X |tptp.'activation of atp synthase'|) (tptp.concept2words_2 X |tptp.'activation-of-atp-synthase'|) (tptp.cellular_process_1 X) (tptp.atp_synthase_1 _let_3) (tptp.atp_synthase_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.activation_value_1 _let_5) (tptp.activation_value_1 _let_4) (tptp.has_state_2 _let_3 _let_2) (tptp.activation_2 _let_3 _let_4) (tptp.activation_2 _let_2 _let_5) (tptp.the_categorical_value_2 _let_5 tptp.active_0) (tptp.the_categorical_value_2 _let_4 tptp.inactive_0) (tptp.object_2 X _let_3) (tptp.result_2 X _let_2) (tptp.agent_2 X _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_activation_of_cyclin_dependent_kinase_6 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_make_accessible_1 X))) (let ((_let_4 (tptp.fn_attach_1 _let_1))) (let ((_let_5 (tptp.fn_activation_of_cyclin_dependent_kinase_7 X))) (let ((_let_6 (tptp.fn_activation_of_cyclin_dependent_kinase_8 X))) (let ((_let_7 (tptp.fn_activation_of_cyclin_dependent_kinase_4 X))) (let ((_let_8 (tptp.fn_activation_of_cyclin_dependent_kinase_1 X))) (let ((_let_9 (tptp.fn_activation_of_cyclin_dependent_kinase_3 X))) (=> (tptp.activation_of_cyclin_dependent_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Activation-Of-Cyclin-Dependent-Kinase'|) (tptp.user_description_2 X |tptp.'The process of activating certain kinase molecules by the attachment of one or more cyclin molecules.'|) (tptp.concept2words_2 X |tptp.'activation of cyclin dependent kinase'|) (tptp.concept2words_2 X |tptp.'activation-of-cyclin-dependent-kinase'|) (tptp.activate_1 X) (tptp.activation_value_1 _let_8) (tptp.activation_value_1 _let_9) (tptp.cyclin_dependent_kinase_1 _let_7) (tptp.attach_1 _let_1) (tptp.cyclin_1 _let_5) (tptp.cyclin_dependent_kinase_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.activation_2 _let_7 _let_9) (tptp.the_categorical_value_2 _let_9 tptp.active_0) (tptp.has_state_2 _let_6 _let_7) (tptp.activation_2 _let_6 _let_8) (tptp.the_categorical_value_2 _let_8 tptp.inactive_0) (tptp.by_means_of_2 X _let_1) (tptp.result_2 X _let_7) (tptp.object_2 X _let_6) (tptp.base_2 _let_1 _let_6) (tptp.object_2 _let_1 _let_5) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.activation_value_1 X) (and (tptp.original_name_2 X |tptp.'Activation-Value'|) (tptp.concept2words_2 X tptp.activation) (tptp.concept2words_2 X |tptp.'value of activation'|) (tptp.concept2words_2 X |tptp.'activation value'|) (tptp.concept2words_2 X |tptp.'activation-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_activator_2 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_activator_1 X))) (let ((_let_4 (tptp.fn_attach_2 _let_1))) (=> (tptp.activator_1 X) (and (tptp.original_name_2 X |tptp.'Activator'|) (tptp.user_description_2 X |tptp.'A protein that binds to DNA and stimulates gene transcription. In prokaryotes, activators bind in or near the promoter; in eukaryotes, activators bind to control elements in enhancers.'|) (tptp.concept2words_2 X tptp.activator) (tptp.transcription_factor_1 X) (not (tptp.homeodomain_protein_1 X)) (not (tptp.morphogen_1 X)) (not (tptp.muscle_specific_transcription_factor_1 X)) (not (tptp.p53_protein_1 X)) (tptp.enhancer_1 _let_3) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.base_2 _let_1 X) (tptp.object_2 _let_1 _let_3) (= _let_1 (tptp.fn_transcription_factor_8 X)) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_active_movement_of_ions_19 X))) (let ((_let_2 (tptp.fn_biomembrane_54 _let_1))) (let ((_let_3 (tptp.fn_active_transport_26 X))) (let ((_let_4 (tptp.fn_active_movement_of_ions_16 X))) (let ((_let_5 (tptp.fn_functional_group_1 _let_4))) (let ((_let_6 (tptp.fn_active_movement_of_ions_24 X))) (let ((_let_7 (tptp.fn_expose_1 _let_6))) (let ((_let_8 (tptp.fn_active_movement_of_ions_10 X))) (let ((_let_9 (tptp.fn_carrier_protein_18 _let_8))) (let ((_let_10 (tptp.fn_integral_protein_24 _let_8))) (let ((_let_11 (tptp.fn_active_transport_18 X))) (let ((_let_12 (tptp.fn_transport_protein_35 _let_8))) (let ((_let_13 (tptp.fn_carrier_protein_16 _let_8))) (let ((_let_14 (tptp.fn_integral_protein_27 _let_8))) (let ((_let_15 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_16 (tptp.fn_carrier_protein_34 _let_8))) (let ((_let_17 (tptp.fn_molecule_11 _let_8))) (let ((_let_18 (tptp.fn_carrier_protein_30 _let_8))) (let ((_let_19 (tptp.fn_integral_protein_6 _let_8))) (let ((_let_20 (tptp.fn_carrier_protein_23 _let_8))) (let ((_let_21 (tptp.fn_integral_protein_23 _let_8))) (let ((_let_22 (tptp.fn_carrier_protein_33 _let_8))) (let ((_let_23 (tptp.fn_polymer_6 _let_8))) (let ((_let_24 (tptp.fn_phosphate_group_5 _let_4))) (let ((_let_25 (tptp.fn_carrier_protein_32 _let_8))) (let ((_let_26 (tptp.fn_active_movement_of_ions_4 X))) (let ((_let_27 (tptp.fn_covalent_bond_19 _let_26))) (let ((_let_28 (tptp.fn_covalent_bond_20 _let_26))) (let ((_let_29 (tptp.fn_phosphate_group_22 _let_4))) (let ((_let_30 (tptp.fn_active_movement_of_ions_3 X))) (let ((_let_31 (tptp.fn_covalent_bond_19 _let_30))) (let ((_let_32 (tptp.fn_covalent_bond_20 _let_30))) (let ((_let_33 (tptp.fn_phosphate_group_41 _let_4))) (let ((_let_34 (tptp.fn_molecule_10 _let_8))) (let ((_let_35 (tptp.fn_phosphate_group_37 _let_4))) (let ((_let_36 (tptp.fn_polymer_1 _let_8))) (let ((_let_37 (tptp.fn_integral_protein_29 _let_8))) (let ((_let_38 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_39 (tptp.fn_biomembrane_47 _let_1))) (let ((_let_40 (tptp.fn_carrier_protein_41 _let_8))) (let ((_let_41 (tptp.fn_active_movement_of_ions_2 X))) (let ((_let_42 (tptp.fn_carrier_protein_38 _let_8))) (let ((_let_43 (tptp.fn_active_movement_of_ions_8 X))) (let ((_let_44 (tptp.fn_carrier_protein_37 _let_8))) (let ((_let_45 (tptp.fn_active_movement_of_ions_9 X))) (let ((_let_46 (tptp.fn_carrier_protein_42 _let_8))) (let ((_let_47 (tptp.fn_active_movement_of_ions_1 X))) (let ((_let_48 (tptp.fn_active_movement_of_ions_17 X))) (let ((_let_49 (tptp.fn_active_movement_of_ions_23 X))) (let ((_let_50 (tptp.fn_carrier_protein_24 _let_8))) (let ((_let_51 (tptp.fn_active_movement_of_ions_11 X))) (let ((_let_52 (tptp.fn_carrier_protein_31 _let_8))) (let ((_let_53 (tptp.fn_active_movement_of_ions_21 X))) (let ((_let_54 (tptp.fn_carrier_protein_21 _let_8))) (let ((_let_55 (tptp.fn_active_movement_of_ions_15 X))) (let ((_let_56 (tptp.fn_active_movement_of_ions_20 X))) (let ((_let_57 (tptp.fn_active_movement_of_ions_12 X))) (let ((_let_58 (tptp.fn_carrier_protein_22 _let_8))) (let ((_let_59 (tptp.fn_active_movement_of_ions_14 X))) (let ((_let_60 (tptp.fn_active_movement_of_ions_22 X))) (let ((_let_61 (tptp.fn_carrier_protein_11 _let_8))) (let ((_let_62 (tptp.fn_carrier_protein_12 _let_8))) (let ((_let_63 (tptp.fn_active_movement_of_ions_5 X))) (let ((_let_64 (tptp.fn_active_movement_of_ions_7 X))) (let ((_let_65 (tptp.fn_phosphate_group_6 _let_4))) (let ((_let_66 (tptp.fn_active_movement_of_ions_6 X))) (let ((_let_67 (tptp.fn_active_movement_of_ions_13 X))) (let ((_let_68 (tptp.fn_biomembrane_42 _let_1))) (let ((_let_69 (tptp.fn_active_movement_of_ions_18 X))) (let ((_let_70 (tptp.fn_active_movement_of_ions_25 X))) (=> (tptp.active_movement_of_ions_1 X) (and (tptp.original_name_2 X |tptp.'Active-Movement-Of-Ions'|) (tptp.user_description_2 X |tptp.'The proteins mediate the movement of ions to move across a membrane.'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'active movement of ion'|) (tptp.concept2words_2 X |tptp.'active-movement-of-ion'|) (tptp.active_transport_1 X) (tptp.constant_motion_1 _let_47) (tptp.kinetic_energy_1 _let_41) (tptp.covalent_bond_1 _let_30) (tptp.chemical_bond_1 _let_30) (tptp.double_bond_1 _let_30) (tptp.covalent_bond_1 _let_26) (tptp.single_bond_1 _let_26) (tptp.oxygen_1 _let_63) (tptp.entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.atom_1 _let_63) (tptp.phosphorus_1 _let_66) (tptp.entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.atom_1 _let_64) (tptp.oxygen_1 _let_64) (tptp.quantity_value_1 _let_43) (tptp.speed_value_1 _let_45) (tptp.chemical_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.membrane_protein_1 _let_8) (tptp.protein_1 _let_8) (tptp.molecule_1 _let_8) (tptp.polymer_1 _let_8) (tptp.transport_protein_1 _let_8) (tptp.integral_protein_1 _let_8) (tptp.carrier_protein_1 _let_8) (tptp.carbon_skeleton_1 _let_51) (tptp.hydrophilic_region_1 _let_57) (tptp.hydrophilic_end_1 _let_57) (tptp.outside_face_1 _let_67) (tptp.surface_1 _let_67) (tptp.hydrophilic_region_1 _let_59) (tptp.hydrophilic_end_1 _let_59) (tptp.hydrophobic_region_1 _let_55) (tptp.phosphate_group_1 _let_4) (tptp.tangible_entity_1 _let_48) (tptp.phospholipid_bilayer_1 _let_48) (tptp.inside_face_1 _let_69) (tptp.membrane_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.polar_amino_acid_1 _let_56) (tptp.hydrophobic_amino_acid_1 _let_53) (tptp.monomer_1 _let_60) (tptp.atom_1 _let_49) (tptp.carbon_1 _let_49) (tptp.expose_1 _let_6) (tptp.ion_1 _let_70) (tptp.inside_face_1 _let_68) (tptp.phosphorus_1 _let_65) (tptp.property_node_1 _let_62) (tptp.property_node_1 _let_61) (tptp.hydrophilic_region_1 _let_58) (tptp.hydrophilic_end_1 _let_58) (tptp.hydrophobic_region_1 _let_54) (tptp.hydrophobic_amino_acid_1 _let_52) (tptp.carbon_skeleton_1 _let_50) (tptp.constant_motion_1 _let_46) (tptp.speed_value_1 _let_44) (tptp.quantity_value_1 _let_42) (tptp.kinetic_energy_1 _let_40) (tptp.surface_1 _let_39) (tptp.outside_face_1 _let_38) (tptp.surface_1 _let_37) (tptp.covalent_bond_1 _let_36) (tptp.single_bond_1 _let_35) (tptp.chemical_bond_1 _let_34) (tptp.double_bond_1 _let_33) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.oxygen_1 _let_29) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.oxygen_1 _let_24) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.monomer_1 _let_23) (tptp.monomer_1 _let_22) (tptp.hydrophilic_region_1 _let_21) (tptp.hydrophilic_region_1 _let_20) (tptp.hydrophilic_end_1 _let_20) (tptp.polar_amino_acid_1 _let_19) (tptp.polar_amino_acid_1 _let_18) (tptp.atom_1 _let_17) (tptp.carbon_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.phospholipid_bilayer_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.phospholipid_bilayer_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.biomembrane_1 _let_10) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.protein_1 _let_2) (tptp.has_part_2 _let_8 _let_66) (tptp.has_part_2 _let_8 _let_64) (tptp.is_at_2 _let_59 _let_69) (tptp.site_2 _let_6 _let_57) (tptp.object_2 _let_6 _let_8) (tptp.has_region_2 _let_8 _let_4) (tptp.is_between_2 _let_30 _let_64) (tptp.is_between_2 _let_26 _let_63) (tptp.object_2 X _let_70) (tptp.possesses_2 _let_8 _let_26) (tptp.possesses_2 _let_8 _let_30) (tptp.is_between_2 _let_30 _let_49) (tptp.path_2 X _let_1) (tptp.agent_2 X _let_8) (tptp.has_region_2 _let_1 _let_69) (tptp.has_region_2 _let_1 _let_67) (tptp.has_region_2 _let_8 _let_67) (tptp.is_at_2 _let_57 _let_67) (tptp.has_part_2 _let_8 _let_63) (not (= _let_49 _let_63)) (not (= _let_63 _let_49)) (tptp.is_between_2 _let_26 _let_66) (tptp.is_between_2 _let_26 _let_64) (tptp.is_inside_2 _let_64 _let_4) (tptp.is_between_2 _let_30 _let_63) (tptp.is_between_2 _let_30 _let_66) (tptp.is_inside_2 _let_66 _let_4) (not (= _let_64 _let_66)) (not (= _let_66 _let_64)) (tptp.is_inside_2 _let_63 _let_4) (not (= _let_64 _let_63)) (not (= _let_63 _let_64)) (not (= _let_66 _let_63)) (not (= _let_63 _let_66)) (tptp.has_region_2 _let_8 _let_51) (tptp.is_across_2 _let_8 _let_1) (tptp.has_part_2 _let_8 _let_60) (tptp.has_region_2 _let_8 _let_59) (tptp.has_region_2 _let_8 _let_57) (tptp.is_opposite_2 _let_57 _let_59) (tptp.is_opposite_2 _let_59 _let_57) (tptp.has_part_2 _let_8 _let_53) (tptp.is_inside_2 _let_53 _let_55) (tptp.has_region_2 _let_8 _let_55) (tptp.has_part_2 _let_8 _let_56) (tptp.is_at_2 _let_56 _let_57) (tptp.has_part_2 _let_1 _let_8) (tptp.has_part_2 _let_1 _let_48) (tptp.is_inside_2 _let_8 _let_48) (tptp.has_part_2 _let_8 _let_49) (tptp.is_inside_2 _let_49 _let_51) (tptp.possesses_2 _let_8 _let_41) (tptp.quantity_2 _let_41 _let_43) (tptp.directly_proportional_2 _let_45 _let_43) (tptp.speed_2 _let_47 _let_45) (tptp.object_2 _let_47 _let_8) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_64 _let_32) (= _let_64 _let_31) (= _let_63 _let_28) (= _let_63 _let_27) (= _let_70 (tptp.fn_active_transport_19 X)) (= _let_26 _let_36) (= _let_49 _let_17) (= _let_30 _let_34) (= _let_1 _let_11) (= _let_8 _let_3) (= _let_69 _let_68) (= _let_67 _let_39) (= _let_67 _let_38) (= _let_67 _let_37) (= _let_63 _let_25) (= _let_26 _let_35) (= _let_30 _let_33) (= _let_66 _let_65) (= _let_64 _let_29) (= _let_63 _let_24) (= (tptp.fn_active_movement_of_ions_26 X) _let_62) (= (tptp.fn_active_movement_of_ions_27 X) _let_61) (= _let_60 _let_23) (= _let_60 _let_22) (= _let_59 _let_58) (= _let_56 _let_19) (= _let_57 _let_21) (= _let_57 _let_20) (= _let_56 _let_18) (= _let_55 _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_49 _let_16) (= _let_48 _let_15) (= _let_48 _let_14) (= _let_48 _let_13) (= _let_8 _let_2) (= _let_1 _let_12) (= _let_1 _let_10) (= _let_1 _let_9) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_active_repressor_26 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_active_repressor_29 X))) (let ((_let_4 (tptp.fn_conformational_change_3 _let_3))) (let ((_let_5 (tptp.fn_active_repressor_9 X))) (let ((_let_6 (tptp.fn_active_repressor_23 X))) (let ((_let_7 (tptp.fn_active_repressor_13 X))) (let ((_let_8 (tptp.fn_active_repressor_25 X))) (let ((_let_9 (tptp.fn_active_repressor_8 X))) (let ((_let_10 (tptp.fn_active_repressor_21 X))) (let ((_let_11 (tptp.fn_active_repressor_20 X))) (let ((_let_12 (tptp.fn_active_repressor_17 X))) (let ((_let_13 (tptp.fn_active_repressor_16 X))) (let ((_let_14 (tptp.fn_active_repressor_15 X))) (let ((_let_15 (tptp.fn_active_repressor_10 X))) (let ((_let_16 (tptp.fn_active_repressor_18 X))) (let ((_let_17 (tptp.fn_active_repressor_19 X))) (let ((_let_18 (tptp.fn_active_repressor_11 X))) (let ((_let_19 (tptp.fn_active_repressor_24 X))) (let ((_let_20 (tptp.fn_active_repressor_14 X))) (let ((_let_21 (tptp.fn_active_repressor_22 X))) (let ((_let_22 (tptp.fn_active_repressor_12 X))) (let ((_let_23 (tptp.fn_conformational_change_4 _let_3))) (let ((_let_24 (tptp.fn_active_repressor_28 X))) (let ((_let_25 (tptp.fn_attach_2 _let_1))) (let ((_let_26 (tptp.fn_active_repressor_27 X))) (let ((_let_27 (tptp.fn_active_repressor_2 X))) (let ((_let_28 (tptp.fn_active_repressor_1 X))) (let ((_let_29 (tptp.fn_active_repressor_3 X))) (=> (tptp.active_repressor_1 X) (and (tptp.original_name_2 X |tptp.'Active-Repressor'|) (tptp.user_description_2 X |tptp.'The active form of a repressor.'|) (tptp.concept2words_2 X |tptp.'active repressor'|) (tptp.concept2words_2 X |tptp.'active-repressor'|) (tptp.repressor_1 X) (not (tptp.inactive_repressor_1 X)) (tptp.binding_site_1 _let_28) (tptp.block_1 _let_27) (tptp.inactive_repressor_1 _let_29) (tptp.constant_motion_1 _let_9) (tptp.protein_domain_1 _let_5) (tptp.carbon_skeleton_1 _let_15) (tptp.allosteric_site_1 _let_18) (tptp.size_value_1 _let_22) (tptp.polypeptide_1 _let_7) (tptp.monomer_1 _let_20) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.carbon_1 _let_13) (tptp.kinetic_energy_1 _let_12) (tptp.attach_1 _let_16) (tptp.conformational_change_1 _let_17) (tptp.quantity_value_1 _let_11) (tptp.speed_value_1 _let_10) (tptp.size_value_1 _let_21) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.monomer_1 _let_6) (tptp.molecule_1 _let_6) (tptp.amino_acid_1 _let_6) (tptp.hydrophilic_region_1 _let_19) (tptp.surface_1 _let_8) (tptp.attach_1 _let_1) (tptp.operator_1 _let_26) (tptp.binding_site_1 _let_24) (tptp.conformational_change_1 _let_3) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.object_2 _let_3 _let_29) (tptp.has_region_2 _let_29 _let_24) (tptp.has_region_2 _let_26 _let_28) (tptp.causes_2 _let_1 _let_27) (tptp.causes_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_26) (tptp.object_2 _let_3 _let_24) (tptp.result_2 _let_3 X) (tptp.object_2 _let_1 X) (tptp.the_scalar_value_2 _let_22 tptp.big_0) (tptp.scalar_unit_class_2 _let_22 tptp.polypeptide_0) (tptp.is_at_2 _let_19 _let_8) (tptp.has_part_2 X _let_20) (tptp.size_2 _let_20 _let_21) (tptp.greater_than_2 _let_22 _let_21) (tptp.size_2 X _let_22) (tptp.has_part_2 X _let_14) (tptp.base_2 _let_16 X) (tptp.causes_2 _let_16 _let_17) (tptp.object_2 _let_17 _let_18) (tptp.has_region_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.has_part_2 X _let_13) (tptp.is_inside_2 _let_13 _let_15) (tptp.has_region_2 X _let_15) (not (= _let_14 _let_13)) (not (= _let_13 _let_14)) (tptp.object_2 _let_9 X) (tptp.speed_2 _let_9 _let_10) (tptp.directly_proportional_2 _let_10 _let_11) (tptp.quantity_2 _let_12 _let_11) (tptp.possesses_2 X _let_12) (tptp.has_region_2 X _let_5) (tptp.is_at_2 _let_6 _let_5) (tptp.has_part_2 _let_7 _let_6) (tptp.has_part_2 X _let_7) (tptp.has_region_2 X _let_8) (= _let_26 _let_25) (= _let_24 _let_23) (= X _let_4) (= X _let_2) (= (tptp.fn_active_repressor_7 X) (tptp.fn_allosteric_protein_22 X)) (= (tptp.fn_active_repressor_6 X) (tptp.fn_allosteric_protein_24 X)) (= (tptp.fn_active_repressor_5 X) (tptp.fn_allosteric_protein_23 X)) (= (tptp.fn_active_repressor_4 X) (tptp.fn_allosteric_protein_25 X)) (= _let_22 (tptp.fn_allosteric_protein_19 X)) (= _let_21 (tptp.fn_allosteric_protein_14 X)) (= _let_20 (tptp.fn_allosteric_protein_11 X)) (= _let_19 (tptp.fn_allosteric_protein_2 X)) (= _let_18 (tptp.fn_allosteric_protein_6 X)) (= _let_17 (tptp.fn_allosteric_protein_9 X)) (= _let_16 (tptp.fn_allosteric_protein_7 X)) (= _let_15 (tptp.fn_allosteric_protein_4 X)) (= _let_14 (tptp.fn_allosteric_protein_10 X)) (= _let_13 (tptp.fn_allosteric_protein_12 X)) (= _let_12 (tptp.fn_allosteric_protein_18 X)) (= _let_11 (tptp.fn_allosteric_protein_15 X)) (= _let_10 (tptp.fn_allosteric_protein_16 X)) (= _let_9 (tptp.fn_allosteric_protein_17 X)) (= _let_8 (tptp.fn_allosteric_protein_3 X)) (= _let_7 (tptp.fn_allosteric_protein_20 X)) (= _let_6 (tptp.fn_allosteric_protein_13 X)) (= _let_5 (tptp.fn_allosteric_protein_21 X)) (= _let_4 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.active_site_1 X) (and (tptp.original_name_2 X |tptp.'Active-Site'|) (tptp.user_description_2 X |tptp.'The active site is part of an enzyme where substrates bind and undergo a chemical reaction.'|) (tptp.concept2words_2 X |tptp.'catalytic center'|) (tptp.concept2words_2 X |tptp.'catalytic-center'|) (tptp.concept2words_2 X |tptp.'enzyme catalytic center'|) (tptp.concept2words_2 X |tptp.'enzyme-catalytic-center'|) (tptp.concept2words_2 X |tptp.'active site'|) (tptp.concept2words_2 X |tptp.'active-site'|) (tptp.cavity_1 X) (tptp.functional_region_1 X) (not (tptp.allosteric_site_1 X)) (not (tptp.alpha_helix_1 X)) (not (tptp.antigen_binding_site_1 X)) (not (tptp.epitope_1 X)) (not (tptp.protein_domain_1 X)) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_active_transport_18 X))) (let ((_let_2 (tptp.fn_biomembrane_52 _let_1))) (let ((_let_3 (tptp.fn_active_transport_26 X))) (let ((_let_4 (tptp.fn_carrier_protein_4 _let_3))) (let ((_let_5 (tptp.fn_subcellular_movement_1 X))) (let ((_let_6 (tptp.fn_active_transport_21 X))) (let ((_let_7 (tptp.fn_solution_6 _let_6))) (let ((_let_8 (tptp.fn_active_transport_24 X))) (let ((_let_9 (tptp.fn_solution_5 _let_6))) (let ((_let_10 (tptp.fn_active_transport_23 X))) (let ((_let_11 (tptp.fn_active_transport_22 X))) (let ((_let_12 (tptp.fn_biomembrane_55 _let_1))) (let ((_let_13 (tptp.fn_active_transport_19 X))) (let ((_let_14 (tptp.fn_active_transport_17 X))) (let ((_let_15 (tptp.fn_active_transport_25 X))) (let ((_let_16 (tptp.fn_concentration_gradient_9 _let_15))) (let ((_let_17 (tptp.fn_active_transport_20 X))) (let ((_let_18 (tptp.fn_concentration_gradient_8 _let_15))) (let ((_let_19 (tptp.fn_active_transport_14 X))) (let ((_let_20 (tptp.fn_active_transport_13 X))) (let ((_let_21 (tptp.fn_active_transport_12 X))) (let ((_let_22 (tptp.fn_active_transport_11 X))) (let ((_let_23 (tptp.fn_active_transport_10 X))) (=> (tptp.active_transport_1 X) (and (tptp.original_name_2 X |tptp.'Active-Transport'|) (tptp.user_description_2 X |tptp.'Active transport is the movement of a substance against its concentration energy (from low to high concentration).'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'active transport'|) (tptp.concept2words_2 X |tptp.'active-transport'|) (tptp.transport_work_1 X) (tptp.endergonic_process_1 X) (tptp.subcellular_movement_1 X) (not (tptp.passive_transport_1 X)) (tptp.system_1 (tptp.fn_active_transport_3 X)) (tptp.density_value_1 _let_23) (tptp.density_value_1 _let_22) (tptp.quantity_value_1 _let_21) (tptp.quantity_value_1 _let_20) (tptp.concentration_value_1 _let_19) (tptp.rate_value_1 _let_14) (tptp.biomembrane_1 _let_1) (tptp.chemical_entity_1 _let_13) (tptp.solution_1 _let_17) (tptp.solution_1 _let_6) (tptp.move_1 _let_11) (tptp.move_through_1 _let_11) (tptp.chemical_1 _let_10) (tptp.chemical_1 _let_8) (tptp.concentration_gradient_1 _let_15) (tptp.carrier_protein_1 _let_3) (tptp.solution_1 _let_18) (tptp.solution_1 _let_16) (tptp.chemical_entity_1 _let_12) (tptp.chemical_1 _let_9) (tptp.chemical_1 _let_7) (tptp.move_through_1 _let_4) (tptp.move_through_1 _let_2) (tptp.destination_2 _let_11 _let_6) (tptp.origin_2 _let_11 _let_17) (tptp.called_2 _let_23 |tptp.'Concentration_OH'|) (tptp.called_2 _let_22 |tptp.'Concentration_H'|) (tptp.called_2 _let_21 |tptp.'Quantity_H'|) (tptp.called_2 _let_20 |tptp.'Quantity_OH'|) (tptp.agent_2 X _let_3) (tptp.base_2 X _let_15) (tptp.origin_2 X _let_17) (tptp.destination_2 X _let_6) (tptp.object_2 X _let_13) (tptp.path_2 X _let_1) (tptp.concentration_2 _let_13 _let_19) (tptp.positive_influence_2 _let_19 _let_14) (tptp.subevent_2 X _let_11) (tptp.agent_2 _let_11 _let_3) (tptp.is_between_2 _let_15 _let_6) (tptp.is_between_2 _let_15 _let_17) (tptp.rate_2 X _let_14) 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(tptp.instrument_2 _let_272 _let_305) (tptp.has_region_2 _let_305 _let_335) (not (= _let_307 _let_334)) (tptp.has_region_2 _let_85 _let_332) (tptp.has_part_2 _let_85 _let_326) (tptp.is_inside_2 _let_326 _let_332) (not (= _let_329 _let_326)) (not (= _let_326 _let_329)) (tptp.is_between_2 _let_319 _let_328) (not (= _let_328 _let_329)) (tptp.is_inside_2 _let_329 _let_332) (tptp.is_inside_2 _let_328 _let_332) (not (= _let_328 _let_326)) (not (= _let_329 _let_328)) (not (= _let_326 _let_328)) (tptp.has_region_2 _let_85 _let_321) (tptp.is_inside_2 _let_322 _let_321) (tptp.has_part_2 _let_85 _let_322) (tptp.possesses_2 _let_85 _let_324) (tptp.is_between_2 _let_324 _let_326) (tptp.directly_proportional_2 _let_317 _let_312) (tptp.speed_2 _let_318 _let_317) (tptp.object_2 _let_318 _let_85) (tptp.possesses_2 _let_85 _let_319) (tptp.is_between_2 _let_319 _let_320) (tptp.has_region_2 _let_85 _let_314) (tptp.is_at_2 _let_316 _let_314) (tptp.has_part_2 _let_85 _let_316) (tptp.is_opposite_2 _let_315 _let_314) (tptp.is_opposite_2 _let_314 _let_315) (tptp.path_2 _let_109 _let_309) (tptp.agent_2 _let_109 _let_85) (tptp.possesses_2 _let_85 _let_311) (tptp.quantity_2 _let_311 _let_312) (not (= _let_306 _let_308)) (tptp.base_2 _let_308 _let_309) (tptp.has_part_2 _let_309 _let_310) (tptp.is_inside_2 _let_85 _let_310) (tptp.is_across_2 _let_85 _let_309) (not (= _let_308 _let_306)) (tptp.has_part_2 _let_305 _let_3) (tptp.has_function_2 _let_305 _let_306) (tptp.base_2 _let_306 _let_305) (tptp.has_function_2 _let_305 _let_272) (tptp.object_2 _let_272 _let_307) (tptp.has_part_2 _let_3 _let_303) (tptp.is_inside_2 _let_303 _let_304) (tptp.has_region_2 _let_3 _let_304) (tptp.has_part_2 _let_3 _let_279) (not (= _let_279 _let_303)) (not (= _let_303 _let_279)) (tptp.called_2 _let_284 |tptp.'Terminal PO4 Group'|) (tptp.object_2 _let_297 _let_13) (tptp.speed_2 _let_297 _let_299) (tptp.directly_proportional_2 _let_299 _let_300) (tptp.has_part_2 _let_13 _let_290) (tptp.has_part_2 _let_13 _let_282) (tptp.is_inside_2 _let_282 _let_288) (tptp.is_inside_2 _let_288 _let_285) (tptp.has_region_2 _let_295 _let_285) (not (= _let_294 _let_290)) (tptp.has_part_2 _let_13 _let_294) (tptp.has_part_2 _let_13 _let_289) (tptp.is_inside_2 _let_289 _let_287) (tptp.is_inside_2 _let_282 _let_287) (not (= _let_290 _let_294)) (not (= _let_290 _let_282)) (not (= _let_282 _let_292)) (not (= _let_292 _let_283)) (tptp.has_part_2 _let_13 _let_283) (tptp.has_region_2 _let_13 _let_288) (not (= _let_282 _let_290)) (not (= _let_292 _let_282)) (not (= _let_283 _let_292)) (tptp.is_between_2 _let_45 _let_283) (not (= _let_283 _let_290)) (tptp.is_inside_2 _let_290 _let_291) (tptp.has_region_2 _let_13 _let_291) (tptp.possesses_2 _let_13 _let_36) (not (= _let_290 _let_283)) (tptp.has_region_2 _let_13 _let_284) (tptp.has_region_2 _let_13 _let_287) (tptp.is_inside_2 _let_289 _let_284) (not (= _let_287 _let_284)) (not (= _let_284 _let_287)) (tptp.is_between_2 _let_45 _let_289) (not (= _let_289 _let_283)) (tptp.is_inside_2 _let_283 _let_288) (tptp.is_inside_2 _let_289 _let_288) (not (= _let_289 _let_282)) (not (= _let_283 _let_289)) (not (= _let_282 _let_289)) (tptp.is_between_2 _let_36 _let_282) (tptp.is_between_2 _let_36 _let_283) (tptp.is_inside_2 _let_283 _let_287) (not (= _let_287 _let_288)) (not (= _let_288 _let_284)) (not (= _let_288 _let_287)) (not (= _let_284 _let_288)) (tptp.possesses_2 _let_13 _let_45) (tptp.is_between_2 _let_45 _let_282) (not (= _let_282 _let_283)) (tptp.is_inside_2 _let_283 _let_284) (tptp.is_inside_2 _let_284 _let_285) (not (= _let_283 _let_282)) (tptp.is_inside_2 _let_280 _let_1) (tptp.is_inside_2 _let_281 _let_1) (not (= _let_281 _let_280)) (not (= _let_280 _let_281)) (tptp.is_inside_2 _let_279 _let_1) (not (= _let_280 _let_279)) (not (= _let_279 _let_280)) (not (= _let_281 _let_279)) (not (= _let_279 _let_281)) (= _let_63 _let_220) (= _let_63 _let_218) (= _let_85 _let_130) (= _let_63 _let_216) (= _let_85 _let_128) (= _let_85 _let_127) (= _let_63 _let_214) (= _let_389 _let_274) (= _let_389 _let_273) (= _let_394 _let_278) (= _let_402 _let_401) (= _let_394 _let_277) (= _let_295 _let_50) (= _let_292 _let_47) (= _let_292 _let_46) (= _let_399 _let_395) (= _let_352 _let_250) (= _let_352 _let_248) (= _let_352 _let_249) (= _let_352 _let_246) (= _let_289 _let_38) (= _let_289 _let_37) (= _let_359 _let_258) (= _let_314 _let_150) (= _let_398 _let_397) (= _let_396 _let_395) (= _let_371 _let_266) (= _let_394 _let_275) (= _let_280 _let_8) (= _let_281 _let_10) (= _let_3 _let_54) (= _let_1 _let_393) (= _let_392 _let_390) (= _let_391 _let_390) (= _let_336 _let_200) (= _let_336 _let_199) (= _let_335 _let_196) (= _let_335 _let_194) (= _let_3 _let_53) (= _let_307 _let_98) (= _let_389 _let_271) (= _let_342 _let_212) (= _let_276 _let_388) (= _let_387 _let_386) (= (tptp.fn_active_transport_by_sodium_potassium_pump_109 X) _let_385) (= _let_384 _let_383) (= _let_129 _let_382) (= _let_326 _let_186) (= (tptp.fn_active_transport_by_sodium_potassium_pump_108 X) _let_381) (= _let_380 _let_379) (= _let_350 _let_240) (= _let_378 _let_270) (= _let_378 _let_269) (= _let_377 _let_268) (= _let_377 _let_267) (= _let_337 _let_203) (= _let_337 _let_202) (= _let_376 _let_201) (= _let_376 _let_200) (= _let_7 _let_375) (= _let_7 _let_374) (= _let_215 _let_373) (= _let_219 _let_372) (= _let_371 _let_265) (= _let_370 _let_369) (= _let_368 _let_367) (= _let_366 _let_365) (= _let_364 _let_363) (= _let_292 _let_44) (= _let_285 _let_29) (= _let_362 _let_264) (= _let_362 _let_263) (= _let_361 _let_262) (= _let_361 _let_261) (= _let_300 _let_52) (= _let_360 _let_260) (= _let_13 _let_12) (= _let_360 _let_259) (= _let_359 _let_257) (= (tptp.fn_active_transport_by_sodium_potassium_pump_110 X) _let_358) (= (tptp.fn_active_transport_by_sodium_potassium_pump_111 X) _let_357) (= _let_355 _let_253) (= _let_356 _let_256) (= _let_356 _let_255) (= _let_356 _let_254) (= _let_352 _let_236) (= _let_355 _let_252) (= _let_355 _let_251) (= _let_352 _let_244) (= _let_354 _let_353) (= _let_352 _let_235) (= _let_347 _let_236) (= _let_247 _let_351) (= _let_350 _let_243) (= _let_350 _let_242) (= _let_350 _let_239) (= _let_350 _let_241) (= _let_350 _let_238) (= _let_349 _let_348) (= _let_347 _let_237) (= _let_347 _let_235) (= _let_245 _let_234) (= _let_245 _let_233) (= _let_346 _let_232) (= _let_346 _let_231) (= _let_346 _let_230) (= _let_345 _let_229) (= _let_345 _let_228) (= _let_345 _let_227) (= _let_344 _let_226) (= _let_344 _let_225) (= _let_344 _let_224) (= _let_343 _let_223) (= _let_343 _let_222) (= _let_343 _let_221) (= _let_305 _let_74) (= _let_305 _let_64) (= _let_315 _let_149) (= _let_315 _let_146) (= _let_342 _let_213) (= _let_342 _let_211) (= _let_309 _let_119) (= _let_309 _let_116) (= _let_309 _let_115) (= _let_341 _let_210) (= _let_320 _let_172) (= _let_341 _let_209) (= _let_341 _let_208) (= _let_308 _let_76) (= _let_320 _let_173) (= _let_329 _let_187) (= _let_340 _let_207) (= _let_340 _let_206) (= _let_340 _let_205) (= _let_340 _let_204) (= _let_339 _let_338) (= _let_337 _let_154) (= _let_336 _let_198) (= _let_336 _let_201) (= _let_336 _let_197) (= _let_336 _let_151) (= _let_305 _let_75) (= _let_335 _let_195) (= _let_335 _let_193) (= _let_272 _let_94) (= _let_334 _let_192) (= _let_334 _let_191) (= _let_334 _let_190) (= _let_334 _let_189) (= _let_334 _let_188) (= _let_326 _let_185) (= _let_332 _let_333) (= _let_332 _let_331) (= _let_329 _let_185) (= _let_328 _let_330) (= _let_329 _let_186) (= _let_329 _let_4) (= _let_328 _let_327) (= _let_326 _let_184) (= _let_324 _let_325) (= _let_324 _let_323) (= _let_322 _let_183) (= _let_322 _let_182) (= _let_322 _let_181) (= _let_322 _let_180) (= _let_321 _let_179) (= _let_321 _let_178) (= _let_321 _let_177) (= _let_321 _let_176) (= _let_320 _let_175) (= _let_320 _let_174) (= _let_320 _let_171) (= _let_320 _let_55) (= _let_319 _let_170) (= _let_319 _let_169) (= _let_319 _let_168) (= _let_319 _let_167) (= _let_318 _let_166) (= _let_318 _let_165) (= _let_318 _let_164) (= _let_318 _let_163) (= _let_317 _let_162) (= _let_317 _let_161) (= _let_317 _let_160) (= _let_317 _let_159) (= _let_317 _let_158) (= _let_316 _let_157) (= _let_316 _let_156) (= _let_316 _let_155) (= _let_314 _let_147) (= _let_316 _let_154) (= _let_314 _let_146) (= _let_315 _let_147) (= _let_314 _let_149) (= _let_315 _let_153) (= _let_315 _let_152) (= _let_315 _let_151) (= _let_314 _let_148) (= _let_314 _let_145) (= (tptp.fn_active_transport_by_sodium_potassium_pump_32 X) _let_313) (= _let_312 _let_144) (= _let_312 _let_143) (= _let_312 _let_142) (= _let_312 _let_141) (= _let_312 _let_140) (= _let_311 _let_139) (= _let_311 _let_138) (= _let_311 _let_137) (= _let_311 _let_136) (= _let_311 _let_135) (= _let_109 _let_133) (= _let_109 _let_134) (= _let_109 _let_132) (= _let_109 _let_131) (= _let_85 _let_125) (= _let_309 _let_117) (= _let_310 _let_124) (= _let_310 _let_123) (= _let_310 _let_122) (= _let_310 _let_121) (= _let_310 _let_120) (= _let_308 _let_110) (= _let_309 _let_118) (= _let_308 _let_101) (= _let_308 _let_106) (= _let_309 _let_114) (= _let_308 _let_103) (= _let_308 _let_105) (= _let_309 _let_113) (= _let_308 _let_104) (= _let_309 _let_112) (= _let_308 _let_100) (= _let_309 _let_111) (= _let_309 _let_65) (= _let_309 _let_61) (= _let_308 _let_108) (= _let_306 _let_86) (= _let_308 _let_107) (= _let_308 _let_102) (= _let_308 _let_99) (= _let_307 _let_97) (= _let_307 _let_96) (= _let_307 _let_95) (= _let_272 _let_93) (= _let_272 _let_91) (= _let_272 _let_92) (= _let_272 _let_90) (= _let_272 _let_89) (= _let_306 _let_88) (= _let_305 _let_62) (= _let_306 _let_77) (= _let_305 _let_72) (= _let_306 _let_87) (= _let_305 _let_70) (= _let_306 _let_84) (= _let_306 _let_83) (= _let_305 _let_68) (= _let_306 _let_81) (= _let_306 _let_82) (= _let_305 _let_66) (= _let_306 _let_79) (= _let_306 _let_80) (= _let_306 _let_78) (= _let_306 _let_76) (= _let_305 _let_67) (= _let_305 _let_73) (= _let_305 _let_71) (= _let_305 _let_65) (= _let_305 _let_69) (= _let_305 _let_61) (= _let_279 _let_5) (= _let_279 _let_4) (= _let_303 _let_57) (= _let_304 _let_60) (= _let_304 _let_59) (= _let_304 _let_58) (= _let_303 _let_56) (= _let_303 _let_55) (= (tptp.fn_active_transport_by_sodium_potassium_pump_9 X) _let_302) (= (tptp.fn_active_transport_by_sodium_potassium_pump_8 X) _let_301) (= _let_300 _let_51) (= _let_299 _let_298) (= _let_297 _let_296) (= _let_295 _let_48) (= _let_294 _let_293) (= _let_288 _let_25) (= _let_292 _let_40) (= _let_292 _let_43) (= _let_290 _let_40) (= _let_291 _let_42) (= _let_291 _let_41) (= _let_290 _let_39) (= _let_282 _let_19) (= _let_289 _let_35) (= _let_283 _let_18) (= _let_289 _let_34) (= _let_289 _let_33) (= _let_284 _let_25) (= _let_288 _let_24) (= _let_287 _let_286) (= _let_36 _let_31) (= _let_36 _let_32) (= _let_36 _let_30) (= _let_285 _let_28) (= _let_284 _let_27) (= _let_284 _let_26) (= _let_284 _let_24) (= _let_283 _let_23) (= _let_282 _let_21) (= _let_283 _let_20) (= _let_283 _let_21) (= _let_283 _let_19) (= _let_45 _let_16) (= _let_282 _let_22) (= _let_282 _let_20) (= _let_282 _let_18) (= _let_13 _let_11) (= _let_45 _let_17) (= _let_45 _let_15) (= _let_45 _let_14) (= _let_281 _let_9) (= _let_280 _let_6) (= _let_279 _let_2) (= _let_278 _let_277) (= _let_277 _let_277) (= _let_277 _let_275) (= _let_275 _let_275) (= _let_275 _let_274) (= _let_274 _let_273) (= _let_273 _let_273) (= _let_273 _let_271) (= _let_271 _let_271) (= _let_271 _let_270) (= _let_269 _let_270) (= _let_270 _let_269) (= _let_269 _let_268) (= _let_267 _let_268) (= _let_268 _let_267) (= _let_267 _let_201) (= _let_201 _let_200) (= _let_200 _let_200) (= _let_200 _let_266) (= _let_266 _let_266) (= _let_266 _let_265) (= _let_265 _let_265) (= _let_265 _let_263) (= _let_263 _let_264) (= _let_264 _let_263) (= _let_263 _let_262) (= _let_261 _let_262) (= _let_262 _let_261) (= _let_261 _let_260) (= _let_259 _let_260) (= _let_260 _let_259) (= _let_259 _let_259) (= _let_259 _let_258) (= _let_258 _let_257) (= _let_257 _let_257) (= _let_257 _let_256) (= _let_255 _let_256) (= _let_256 _let_255) (= _let_255 _let_255) (= _let_254 _let_255) (= _let_255 _let_254) (= _let_254 _let_253) (= _let_253 _let_252) (= _let_252 _let_252) (= _let_251 _let_251) (= _let_251 _let_252) (= _let_252 _let_251) (= _let_251 _let_250) (= _let_250 _let_248) (= _let_248 _let_249) (= _let_249 _let_246) (= _let_246 _let_248) (= _let_248 _let_246) (= _let_246 _let_244) (= _let_244 _let_236) (= _let_236 _let_244) (= _let_244 _let_244) (= _let_244 _let_235) (= _let_235 _let_241) (= _let_241 _let_242) (= _let_242 _let_243) (= _let_243 _let_242) (= _let_242 _let_241) (= _let_241 _let_241) (= _let_240 _let_242) (= _let_239 _let_242) (= _let_242 _let_239) (= _let_239 _let_241) (= _let_241 _let_240) (= _let_240 _let_239) (= _let_238 _let_239) (= _let_239 _let_238) (= _let_238 _let_236) (= _let_236 _let_237) (= _let_237 _let_235) (= _let_235 _let_236) (= _let_236 _let_236) (= _let_236 _let_235) (= _let_235 _let_235) (= _let_235 _let_233) (= _let_233 _let_234) (= _let_234 _let_233) (= _let_233 _let_232) (= _let_231 _let_232) (= _let_232 _let_231) (= _let_231 _let_231) (= _let_230 _let_231) (= _let_231 _let_230) (= _let_230 _let_229) (= _let_228 _let_229) (= _let_229 _let_228) (= _let_227 _let_228) (= _let_228 _let_227) (= _let_227 _let_226) (= _let_225 _let_226) (= _let_226 _let_225) (= _let_224 _let_225) (= _let_225 _let_224) (= _let_224 _let_223) (= _let_222 _let_223) (= _let_223 _let_222) (= _let_222 _let_222) (= _let_221 _let_222) (= _let_222 _let_221) (= _let_221 _let_220) (= _let_220 _let_218) (= _let_218 _let_216) (= _let_216 _let_216) (= _let_216 _let_214) (= _let_214 _let_212) (= _let_212 _let_213) (= _let_213 _let_212) (= _let_212 _let_212) (= _let_212 _let_211) (= _let_211 _let_210) (= _let_209 _let_210) (= _let_210 _let_209) (= _let_209 _let_209) (= _let_208 _let_209) (= _let_209 _let_208) (= _let_208 _let_207) (= _let_207 _let_206) (= _let_206 _let_206) (= _let_206 _let_205) (= _let_205 _let_205) (= _let_205 _let_204) (= _let_204 _let_203) (= _let_202 _let_203) (= _let_203 _let_202) (= _let_202 _let_202) (= _let_202 _let_154) (= _let_154 _let_200) (= _let_200 _let_201) (= _let_201 _let_199) (= _let_199 _let_200) (= _let_200 _let_199) (= _let_199 _let_199) (= _let_199 _let_198) (= _let_198 _let_198) (= _let_197 _let_198) (= _let_198 _let_197) (= _let_197 _let_197) (= _let_151 _let_197) (= _let_197 _let_151) (= _let_151 _let_196) (= _let_196 _let_196) (= _let_196 _let_195) (= _let_194 _let_195) (= _let_195 _let_194) (= _let_194 _let_194) (= _let_194 _let_193) (= _let_193 _let_192) (= _let_192 _let_192) (= _let_192 _let_191) (= _let_191 _let_190) (= _let_190 _let_191) (= _let_191 _let_189) (= _let_189 _let_190) (= _let_188 _let_190) (= _let_190 _let_189) (= _let_189 _let_188) (= _let_188 _let_185) (= _let_185 _let_187) (= _let_187 _let_185) (= _let_185 _let_185) (= _let_186 _let_185) (= _let_185 _let_4) (= _let_4 _let_185) (= _let_185 _let_186) (= _let_186 _let_4) (= _let_4 _let_186) (= _let_186 _let_184) (= _let_184 _let_185) (= _let_185 _let_184) (= _let_184 _let_184) (= _let_184 _let_183) (= _let_182 _let_183) (= _let_183 _let_182) (= _let_182 _let_182) (= _let_180 _let_182) (= _let_182 _let_181) (= _let_181 _let_180) (= _let_180 _let_179) (= _let_178 _let_179) (= _let_179 _let_178) (= _let_178 _let_178) (= _let_176 _let_178) (= _let_178 _let_177) (= _let_177 _let_176) (= _let_176 _let_175) (= _let_175 _let_174) (= _let_173 _let_174) (= _let_174 _let_173) (= _let_172 _let_173) (= _let_173 _let_173) (= _let_173 _let_172) (= _let_172 _let_171) (= _let_171 _let_171) (= _let_55 _let_171) (= _let_171 _let_55) (= _let_55 _let_170) (= _let_169 _let_170) (= _let_170 _let_169) (= _let_167 _let_167) (= _let_167 _let_169) (= _let_169 _let_168) (= _let_168 _let_167) (= _let_167 _let_166) (= _let_165 _let_166) (= _let_166 _let_165) (= _let_165 _let_165) (= _let_163 _let_165) (= _let_165 _let_164) (= _let_164 _let_163) (= _let_163 _let_162) (= _let_161 _let_162) (= _let_162 _let_161) (= _let_161 _let_161) (= _let_160 _let_161) (= _let_161 _let_160) (= _let_160 _let_160) (= _let_160 _let_158) (= _let_158 _let_160) (= _let_160 _let_159) (= _let_159 _let_158) (= _let_158 _let_157) (= _let_156 _let_157) (= _let_157 _let_156) (= _let_156 _let_156) (= _let_154 _let_156) (= _let_156 _let_155) (= _let_155 _let_154) (= _let_154 _let_153) (= _let_153 _let_149) (= _let_149 _let_153) (= _let_153 _let_153) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_152 _let_146) (= _let_146 _let_152) (= _let_152 _let_152) (= _let_152 _let_147) (= _let_147 _let_146) (= _let_146 _let_147) (= _let_151 _let_147) (= _let_147 _let_151) (= _let_151 _let_150) (= _let_150 _let_149) (= _let_149 _let_149) (= _let_148 _let_149) (= _let_149 _let_148) (= _let_147 _let_148) (= _let_148 _let_148) (= _let_148 _let_147) (= _let_147 _let_145) (= _let_145 _let_146) (= _let_146 _let_145) (= _let_145 _let_145) (= _let_145 _let_144) (= _let_143 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_142 _let_143) (= _let_143 _let_142) (= _let_142 _let_142) (= _let_140 _let_140) (= _let_140 _let_142) (= _let_142 _let_141) (= _let_141 _let_140) (= _let_140 _let_139) (= _let_138 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_137 _let_138) (= _let_138 _let_137) (= _let_137 _let_137) (= _let_135 _let_137) (= _let_137 _let_136) (= _let_136 _let_135) (= _let_135 _let_132) (= _let_132 _let_134) (= _let_134 _let_132) (= _let_132 _let_132) (= _let_132 _let_133) (= _let_133 _let_132) (= _let_131 _let_133) (= _let_133 _let_131) (= _let_131 _let_132) (= _let_132 _let_131) (= _let_131 _let_130) (= _let_130 _let_128) (= _let_128 _let_128) (= _let_128 _let_127) (= _let_127 _let_127) (= _let_127 _let_125) (= _let_125 _let_125) (= _let_125 _let_123) (= _let_123 _let_124) (= _let_124 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_122 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_120 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_117 _let_118) (= _let_118 _let_116) (= _let_116 _let_116) (= _let_116 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_113 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_65 _let_113) (= _let_113 _let_113) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_112 _let_65) (= _let_65 _let_111) (= _let_111 _let_111) (= _let_112 _let_61) (= _let_61 _let_112) (= _let_111 _let_61) (= _let_61 _let_111) (= _let_111 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_111 _let_65) (= _let_65 _let_61) (= _let_61 _let_110) (= _let_110 _let_110) (= _let_110 _let_108) (= _let_107 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_106 _let_106) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_102 _let_104) (= _let_104 _let_103) (= _let_103 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_102 _let_101) (= _let_101 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_100) (= _let_100 _let_101) (= _let_101 _let_101) (= _let_101 _let_76) (= _let_76 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_96 _let_97) (= _let_95 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_94) (= _let_92 _let_94) (= _let_94 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_90 _let_93) (= _let_93 _let_91) (= _let_91 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_89 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_87) (= _let_87 _let_86) (= _let_86 _let_88) (= _let_88 _let_87) (= _let_87 _let_84) (= _let_83 _let_86) (= _let_86 _let_84) (= _let_83 _let_84) (= _let_82 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_82) (= _let_82 _let_80) (= _let_78 _let_81) (= _let_80 _let_81) (= _let_81 _let_79) (= _let_79 _let_80) (= _let_80 _let_78) (= _let_77 _let_78) (= _let_78 _let_79) (= _let_79 _let_77) (= _let_77 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_76 _let_76) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_73) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_74) (= _let_74 _let_72) (= _let_72 _let_71) (= _let_72 _let_73) (= _let_73 _let_71) (= _let_71 _let_70) (= _let_69 _let_72) (= _let_70 _let_70) (= _let_71 _let_72) (= _let_72 _let_70) (= _let_69 _let_71) (= _let_71 _let_69) (= _let_70 _let_68) (= _let_68 _let_68) (= _let_67 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_69) (= _let_69 _let_67) (= _let_66 _let_68) (= _let_65 _let_68) (= _let_67 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_65 _let_67) (= _let_67 _let_65) (= _let_65 _let_66) (= _let_66 _let_62) (= _let_62 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_62) (= _let_62 _let_64) (= _let_64 _let_64) (= _let_64 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_40) (= _let_44 _let_40) (= _let_40 _let_40) (= _let_40 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_25) (= _let_24 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_26) (= _let_26 _let_24) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_20 _let_23) (= _let_23 _let_23) (= _let_23 _let_20) (= _let_18 _let_21) (= _let_21 _let_18) (= _let_19 _let_21) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_work_10 X))) (let ((_let_2 (tptp.fn_active_transport_using_atp_91 X))) (let ((_let_3 (tptp.fn_phosphorylation_1 _let_2))) (let ((_let_4 (tptp.fn_active_transport_using_atp_67 X))) (let ((_let_5 (tptp.fn_remove_2 _let_4))) (let ((_let_6 (tptp.fn_active_transport_using_atp_45 X))) (let ((_let_7 (tptp.fn_atp_29 _let_6))) (let ((_let_8 (tptp.fn_nucleoside_triphosphate_28 _let_6))) (let ((_let_9 (tptp.fn_ribonucleotide_13 _let_6))) (let ((_let_10 (tptp.fn_cellular_work_16 X))) (let ((_let_11 (tptp.fn_atp_36 _let_6))) (let ((_let_12 (tptp.fn_nucleoside_triphosphate_33 _let_6))) (let ((_let_13 (tptp.fn_ribonucleotide_17 _let_6))) (let ((_let_14 (tptp.fn_active_transport_using_atp_15 X))) (let ((_let_15 (tptp.fn_covalent_bond_19 _let_14))) (let ((_let_16 (tptp.fn_active_transport_using_atp_75 X))) (let ((_let_17 (tptp.fn_covalent_bond_19 _let_16))) (let ((_let_18 (tptp.fn_covalent_bond_20 _let_16))) (let ((_let_19 (tptp.fn_atp_35 _let_6))) (let ((_let_20 (tptp.fn_nucleoside_triphosphate_29 _let_6))) (let ((_let_21 (tptp.fn_nucleoside_triphosphate_32 _let_6))) (let ((_let_22 (tptp.fn_ribonucleotide_16 _let_6))) (let ((_let_23 (tptp.fn_ribonucleotide_8 _let_6))) (let ((_let_24 (tptp.fn_covalent_bond_20 _let_14))) (let ((_let_25 (tptp.fn_atp_39 _let_6))) (let ((_let_26 (tptp.fn_nucleoside_triphosphate_31 _let_6))) (let ((_let_27 (tptp.fn_ribonucleotide_7 _let_6))) (let ((_let_28 (tptp.fn_atp_31 _let_6))) (let ((_let_29 (tptp.fn_nucleoside_triphosphate_30 _let_6))) (let ((_let_30 (tptp.fn_atp_30 _let_6))) (let ((_let_31 (tptp.fn_nucleoside_triphosphate_35 _let_6))) (let ((_let_32 (tptp.fn_atp_37 _let_6))) (let ((_let_33 (tptp.fn_atp_32 _let_6))) (let ((_let_34 (tptp.fn_atp_33 _let_6))) (let ((_let_35 (tptp.fn_atp_34 _let_6))) (let ((_let_36 (tptp.fn_nucleoside_triphosphate_27 _let_6))) (let ((_let_37 (tptp.fn_ribonucleotide_14 _let_6))) (let ((_let_38 (tptp.fn_atp_25 _let_6))) (let ((_let_39 (tptp.fn_active_transport_using_atp_65 X))) (let ((_let_40 (tptp.fn_5_prime_carbon_1 _let_39))) (let ((_let_41 (tptp.fn_atp_69 _let_6))) (let ((_let_42 (tptp.fn_atp_50 _let_6))) (let ((_let_43 (tptp.fn_ribonucleotide_10 _let_6))) (let ((_let_44 (tptp.fn_phosphorylation_2 _let_2))) (let ((_let_45 (tptp.fn_active_transport_using_atp_81 X))) (let ((_let_46 (tptp.fn_functional_group_1 _let_45))) (let ((_let_47 (tptp.fn_active_transport_using_atp_44 X))) (let ((_let_48 (tptp.fn_detach_2 _let_47))) (let ((_let_49 (tptp.fn_active_transport_using_atp_78 X))) (let ((_let_50 (tptp.fn_carrier_protein_18 _let_49))) (let ((_let_51 (tptp.fn_active_transport_using_atp_48 X))) (let ((_let_52 (tptp.fn_carrier_protein_18 _let_51))) (let ((_let_53 (tptp.fn_active_transport_18 X))) (let ((_let_54 (tptp.fn_transport_protein_35 _let_49))) (let ((_let_55 (tptp.fn_transport_protein_35 _let_51))) (let ((_let_56 (tptp.fn_integral_protein_24 _let_49))) (let ((_let_57 (tptp.fn_integral_protein_24 _let_51))) (let ((_let_58 (tptp.fn_carrier_protein_17 _let_49))) (let ((_let_59 (tptp.fn_transport_protein_31 _let_49))) (let ((_let_60 (tptp.fn_carrier_protein_17 _let_51))) (let ((_let_61 (tptp.fn_transport_protein_31 _let_51))) (let ((_let_62 (tptp.fn_active_transport_using_atp_32 X))) (let ((_let_63 (tptp.fn_biomembrane_101 _let_62))) (let ((_let_64 (tptp.fn_biomembrane_100 _let_62))) (let ((_let_65 (tptp.fn_biomembrane_102 _let_62))) (let ((_let_66 (tptp.fn_carrier_protein_4 _let_49))) (let ((_let_67 (tptp.fn_carrier_protein_4 _let_51))) (let ((_let_68 (tptp.fn_active_transport_22 X))) (let ((_let_69 (tptp.fn_transport_protein_34 _let_49))) (let ((_let_70 (tptp.fn_transport_protein_34 _let_51))) (let ((_let_71 (tptp.fn_biomembrane_52 _let_62))) (let ((_let_72 (tptp.fn_active_transport_26 X))) (let ((_let_73 (tptp.fn_phosphorylation_5 _let_2))) (let ((_let_74 (tptp.fn_biomembrane_54 _let_62))) (let ((_let_75 (tptp.fn_active_transport_using_atp_41 X))) (let ((_let_76 (tptp.fn_functional_group_1 _let_75))) (let ((_let_77 (tptp.fn_active_transport_using_atp_26 X))) (let ((_let_78 (tptp.fn_expose_1 _let_77))) (let ((_let_79 (tptp.fn_carrier_protein_16 _let_49))) (let ((_let_80 (tptp.fn_carrier_protein_16 _let_51))) (let ((_let_81 (tptp.fn_transport_protein_12 _let_49))) (let ((_let_82 (tptp.fn_integral_protein_27 _let_49))) (let ((_let_83 (tptp.fn_integral_protein_27 _let_51))) (let ((_let_84 (tptp.fn_biomembrane_63 _let_62))) (let ((_let_85 (tptp.fn_carrier_protein_23 _let_49))) (let ((_let_86 (tptp.fn_carrier_protein_22 _let_51))) (let ((_let_87 (tptp.fn_carrier_protein_22 _let_49))) 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(tptp.hydrophilic_region_1 _let_85) (tptp.hydrophilic_end_1 _let_85) (tptp.tangible_entity_1 _let_84) (tptp.phospholipid_bilayer_1 _let_84) (tptp.tangible_entity_1 _let_83) (tptp.phospholipid_bilayer_1 _let_83) (tptp.tangible_entity_1 _let_82) (tptp.phospholipid_bilayer_1 _let_82) (tptp.tangible_entity_1 _let_81) (tptp.phospholipid_bilayer_1 _let_81) (tptp.tangible_entity_1 _let_80) (tptp.phospholipid_bilayer_1 _let_80) (tptp.tangible_entity_1 _let_79) (tptp.phospholipid_bilayer_1 _let_79) (tptp.tangible_entity_1 _let_78) (tptp.chemical_entity_1 _let_76) (tptp.tangible_entity_1 _let_74) (tptp.membrane_protein_1 _let_74) (tptp.protein_1 _let_74) (tptp.chemical_entity_1 _let_73) (tptp.move_through_1 _let_71) (tptp.move_through_1 _let_70) (tptp.move_through_1 _let_69) (tptp.move_through_1 _let_67) (tptp.move_through_1 _let_66) (tptp.block_1 _let_65) (tptp.block_1 _let_64) (tptp.block_1 _let_63) (tptp.block_1 _let_61) (tptp.block_1 _let_60) (tptp.block_1 _let_59) (tptp.block_1 _let_58) (tptp.biomembrane_1 _let_57) (tptp.biomembrane_1 _let_56) (tptp.spatial_entity_1 _let_55) (tptp.biomembrane_1 _let_55) (tptp.spatial_entity_1 _let_54) (tptp.biomembrane_1 _let_54) (tptp.membrane_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.membrane_1 _let_50) (tptp.spatial_entity_1 _let_50) (tptp.biomembrane_1 _let_50) (tptp.spatial_entity_1 _let_48) (tptp.chemical_entity_1 _let_46) (tptp.chemical_entity_1 _let_44) (tptp.ribose_1 _let_43) (tptp.aldehyde_1 _let_42) (tptp.aldose_1 _let_42) (tptp.spatial_entity_1 _let_42) (tptp.molecule_1 _let_42) (tptp.organic_molecule_1 _let_42) (tptp.pentose_1 _let_42) (tptp.ribose_1 _let_42) (tptp.entity_1 _let_41) (tptp.number_5_prime_carbon_1 _let_41) (tptp.number_5_prime_region_1 _let_40) (tptp.number_5_prime_region_1 _let_38) (tptp.functional_group_1 _let_37) (tptp.phosphate_group_1 _let_37) (tptp.phosphate_group_1 _let_36) (tptp.functional_group_1 _let_35) (tptp.phosphate_group_1 _let_35) (tptp.functional_group_1 _let_34) (tptp.phosphate_group_1 _let_34) (tptp.functional_group_1 _let_33) (tptp.phosphate_group_1 _let_33) (tptp.oxygen_1 _let_32) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.single_bond_1 _let_31) (tptp.covalent_bond_1 _let_30) (tptp.chemical_bond_1 _let_30) (tptp.single_bond_1 _let_30) (tptp.carbon_skeleton_1 _let_29) (tptp.carbon_skeleton_1 _let_28) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.carbon_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.carbon_1 _let_25) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.oxygen_1 _let_23) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.oxygen_1 _let_22) (tptp.oxygen_1 _let_21) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.oxygen_1 _let_20) (tptp.oxygen_1 _let_19) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.atom_1 _let_13) (tptp.phosphorus_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.phosphorus_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.phosphorus_1 _let_11) (tptp.chemical_bond_1 _let_9) (tptp.double_bond_1 _let_9) (tptp.covalent_bond_1 _let_9) (tptp.chemical_bond_1 _let_8) (tptp.double_bond_1 _let_8) (tptp.covalent_bond_1 _let_8) (tptp.chemical_bond_1 _let_7) (tptp.double_bond_1 _let_7) (tptp.covalent_bond_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.molecule_1 _let_3) (tptp.next_event_2 _let_2 _let_47) (tptp.has_part_2 _let_49 _let_199) (tptp.has_part_2 _let_49 _let_197) (not (= _let_49 _let_51)) (not (= _let_49 _let_6)) (tptp.called_2 _let_143 |tptp.'Terminal PO4 Group'|) (not (= _let_123 _let_111)) (tptp.has_state_2 _let_212 _let_133) (tptp.quantity_2 _let_233 _let_236) (tptp.quantity_2 _let_234 _let_235) (tptp.has_state_2 _let_220 _let_225) (tptp.greater_than_2 _let_236 _let_235) (tptp.possesses_2 _let_133 _let_234) (tptp.time_during_2 _let_116 _let_231) (tptp.time_during_2 _let_207 _let_230) (tptp.has_state_2 _let_51 _let_49) (not (= _let_51 _let_49)) (tptp.has_part_2 _let_51 _let_201) (tptp.has_part_2 _let_51 _let_204) (tptp.possesses_2 _let_111 _let_233) (tptp.has_part_2 _let_111 _let_221) (not (= _let_111 _let_123)) (not (= _let_111 _let_6)) (tptp.same_type_2 _let_232 _let_210) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_47) (tptp.same_type_2 _let_210 _let_232) (not (= _let_210 _let_187)) (not (= _let_210 _let_185)) (not (= _let_6 _let_111)) (not (= _let_6 _let_49)) (tptp.next_event_2 _let_47 _let_157) (tptp.different_type_2 _let_194 _let_171) (tptp.is_at_2 _let_180 _let_219) (tptp.site_2 _let_77 _let_181) (not (= _let_187 _let_210)) (tptp.time_before_2 _let_231 _let_230) (tptp.is_inside_2 _let_208 _let_6) (tptp.different_type_2 _let_171 _let_194) (not (= _let_185 _let_210)) (tptp.base_2 _let_47 _let_49) (tptp.object_2 _let_77 _let_51) (tptp.base_2 _let_4 _let_6) (tptp.base_2 _let_226 _let_111) (tptp.object_2 _let_4 _let_133) (tptp.object_2 _let_226 _let_133) (tptp.raw_material_2 _let_2 _let_6) (tptp.object_2 _let_47 _let_210) (tptp.is_between_2 _let_16 _let_136) (tptp.has_part_2 _let_133 _let_225) (tptp.result_2 _let_2 _let_49) (tptp.has_region_2 _let_49 _let_45) (tptp.raw_material_2 _let_2 _let_51) (tptp.has_region_2 _let_51 _let_75) (tptp.has_part_2 _let_130 _let_222) (tptp.object_2 _let_116 _let_213) (tptp.base_2 _let_207 _let_6) (tptp.raw_material_2 X _let_6) (tptp.is_between_2 _let_127 _let_221) (tptp.is_at_2 _let_39 _let_144) (tptp.has_part_2 _let_123 _let_220) (tptp.has_region_2 _let_62 _let_217) (tptp.has_region_2 _let_62 _let_219) (tptp.in_event_2 _let_214 _let_116) (tptp.possesses_2 _let_14 _let_205) (tptp.has_region_2 _let_51 _let_217) (tptp.is_at_2 _let_181 _let_217) (tptp.has_part_2 _let_51 _let_202) (not (= _let_190 _let_202)) (not (= _let_202 _let_190)) (tptp.has_part_2 _let_49 _let_196) (not (= _let_169 _let_196)) (not (= _let_196 _let_169)) (tptp.possesses_2 _let_6 _let_208) (tptp.quantity_2 _let_208 _let_152) (tptp.destination_2 X _let_215) (tptp.destination_2 _let_157 _let_215) (tptp.origin_2 _let_157 _let_216) (tptp.origin_2 X _let_216) (tptp.raw_material_2 X _let_213) (tptp.plays_2 _let_213 _let_214) (tptp.has_part_2 _let_111 _let_212) (tptp.possesses_2 _let_111 _let_127) (tptp.is_between_2 _let_127 _let_212) (tptp.is_inside_2 _let_49 _let_173) (tptp.agent_2 X _let_51) (tptp.object_2 X _let_210) (tptp.object_2 _let_157 _let_210) (tptp.subevent_2 X _let_157) (tptp.path_2 X _let_62) (tptp.has_part_2 _let_6 _let_130) (tptp.has_part_2 _let_130 _let_155) (tptp.is_inside_2 _let_137 _let_145) (tptp.object_2 _let_116 _let_205) (tptp.subevent_2 X _let_116) (tptp.subevent_2 X _let_207) (tptp.raw_material_2 X _let_205) (tptp.plays_2 _let_205 _let_206) (tptp.in_event_2 _let_206 _let_116) (tptp.next_event_2 _let_116 _let_207) (tptp.object_2 _let_207 _let_208) (tptp.is_inside_2 _let_202 _let_75) (not (= _let_202 _let_204)) (not (= _let_204 _let_202)) (tptp.is_inside_2 _let_201 _let_75) (not (= _let_201 _let_204)) (tptp.is_inside_2 _let_204 _let_75) (not (= _let_202 _let_201)) (not (= _let_201 _let_202)) (not (= _let_204 _let_201)) (not (= _let_197 _let_199)) (not (= _let_199 _let_197)) (tptp.is_inside_2 _let_196 _let_45) (not (= _let_196 _let_197)) (tptp.is_inside_2 _let_197 _let_45) (tptp.is_inside_2 _let_199 _let_45) (not (= _let_199 _let_196)) (not (= _let_197 _let_196)) (not (= _let_196 _let_199)) (tptp.shape_2 _let_51 _let_194) (tptp.has_part_2 _let_51 _let_190) (tptp.is_inside_2 _let_190 _let_192) (tptp.has_region_2 _let_51 _let_192) (tptp.is_across_2 _let_51 _let_62) (tptp.has_part_2 _let_62 _let_51) (tptp.has_part_2 _let_51 _let_188) (tptp.object_2 _let_165 _let_49) (tptp.object_2 _let_156 _let_187) (tptp.object_2 _let_156 _let_185) (tptp.base_2 _let_157 _let_62) (tptp.has_region_2 _let_51 _let_180) (tptp.is_opposite_2 _let_180 _let_181) (tptp.has_region_2 _let_51 _let_181) (tptp.has_part_2 _let_51 _let_182) (tptp.is_at_2 _let_182 _let_181) (tptp.is_opposite_2 _let_181 _let_180) (tptp.has_part_2 _let_62 _let_173) (tptp.is_inside_2 _let_51 _let_173) (tptp.has_part_2 _let_51 _let_175) (tptp.is_inside_2 _let_175 _let_178) (tptp.has_region_2 _let_51 _let_178) (tptp.has_region_2 _let_49 _let_167) (tptp.is_inside_2 _let_169 _let_167) (tptp.has_part_2 _let_49 _let_169) (tptp.shape_2 _let_49 _let_171) (tptp.has_part_2 _let_62 _let_49) (tptp.possesses_2 _let_49 _let_159) (tptp.quantity_2 _let_159 _let_161) (tptp.directly_proportional_2 _let_163 _let_161) (tptp.speed_2 _let_165 _let_163) (tptp.is_across_2 _let_49 _let_62) (tptp.has_function_2 _let_62 _let_156) (tptp.instrument_2 _let_156 _let_62) (tptp.has_function_2 _let_62 _let_157) (tptp.agent_2 _let_157 _let_51) (tptp.has_part_2 _let_6 _let_142) (tptp.has_region_2 _let_155 _let_144) (tptp.has_part_2 _let_6 _let_140) (tptp.is_inside_2 _let_136 _let_143) (tptp.has_region_2 _let_6 _let_139) (tptp.possesses_2 _let_6 _let_16) (tptp.has_part_2 _let_6 _let_137) (tptp.is_between_2 _let_14 _let_137) (tptp.has_part_2 _let_6 _let_136) (tptp.object_2 _let_148 _let_6) (tptp.speed_2 _let_148 _let_150) (tptp.directly_proportional_2 _let_150 _let_152) (tptp.is_inside_2 _let_136 _let_146) (tptp.is_inside_2 _let_136 _let_145) (tptp.has_region_2 _let_6 _let_145) (tptp.has_region_2 _let_6 _let_146) (tptp.is_inside_2 _let_140 _let_146) (tptp.is_inside_2 _let_137 _let_143) (tptp.is_inside_2 _let_140 _let_143) (tptp.is_inside_2 _let_140 _let_145) (not (= _let_39 _let_137)) (not (= _let_137 _let_39)) (not (= _let_143 _let_145)) (not (= _let_145 _let_146)) (tptp.is_inside_2 _let_137 _let_146) (not (= _let_145 _let_143)) (not (= _let_146 _let_145)) (not (= _let_143 _let_146)) (not (= _let_146 _let_143)) (tptp.has_part_2 _let_6 _let_138) (tptp.has_region_2 _let_6 _let_143) (tptp.is_inside_2 _let_143 _let_144) (not (= _let_142 _let_138)) (not (= _let_138 _let_142)) (tptp.is_between_2 _let_16 _let_137) (tptp.is_between_2 _let_16 _let_140) (not (= _let_140 _let_136)) (not (= _let_137 _let_140)) (not (= _let_140 _let_137)) (not (= _let_136 _let_140)) (tptp.possesses_2 _let_6 _let_14) (tptp.is_between_2 _let_14 _let_136) (not (= _let_136 _let_137)) (not (= _let_137 _let_138)) (tptp.is_inside_2 _let_138 _let_139) (not (= _let_137 _let_136)) (not (= _let_138 _let_137)) (= _let_49 _let_48) (= _let_51 _let_78) (= _let_6 _let_5) (= _let_111 _let_229) (= _let_133 _let_228) (= _let_133 _let_227) (= _let_6 _let_3) (= _let_210 _let_110) (= _let_136 _let_18) (= _let_136 _let_17) (= _let_225 _let_135) (= _let_225 _let_134) (= _let_49 _let_46) (= _let_45 _let_224) (= _let_49 _let_44) (= _let_51 _let_76) (= _let_75 _let_223) (= _let_51 _let_73) (= _let_222 _let_132) (= _let_222 _let_131) (= _let_221 _let_129) (= _let_221 _let_128) (= _let_144 _let_40) (= _let_220 _let_126) (= _let_220 _let_125) (= _let_220 _let_124) (= _let_217 _let_122) (= _let_217 _let_121) (= _let_219 _let_218) (= _let_205 _let_106) (= _let_217 _let_120) (= _let_202 _let_104) (= _let_196 _let_101) (= _let_208 _let_108) (= _let_216 (tptp.fn_active_transport_20 X)) (= _let_215 (tptp.fn_active_transport_21 X)) (= _let_213 _let_117) (= _let_214 _let_119) (= _let_214 _let_118) (= _let_213 _let_115) (= _let_212 _let_114) (= _let_212 _let_113) (= _let_212 _let_112) (= _let_127 _let_211) (= _let_173 _let_81) (= _let_51 _let_72) (= _let_62 _let_53) (= _let_157 _let_68) (= _let_210 _let_109) (= _let_155 _let_43) (= _let_130 _let_209) (= _let_145 _let_36) (= _let_208 _let_107) (= _let_207 (tptp.fn_cellular_work_12 X)) (= _let_116 (tptp.fn_cellular_work_11 X)) (= _let_206 (tptp.fn_cellular_work_14 X)) (= _let_205 _let_105) (= _let_204 _let_203) (= _let_202 _let_103) (= _let_201 _let_200) (= _let_197 _let_100) (= _let_199 _let_198) (= _let_197 _let_102) (= _let_196 _let_100) (= (tptp.fn_active_transport_using_atp_42 X) _let_195) (= _let_194 _let_193) (= _let_51 _let_74) (= _let_192 _let_191) (= _let_190 _let_189) (= _let_188 _let_99) (= _let_188 _let_98) (= _let_188 _let_97) (= _let_187 _let_96) (= _let_187 _let_95) (= _let_187 _let_94) (= _let_187 _let_93) (= (tptp.fn_active_transport_using_atp_89 X) _let_186) (= _let_185 _let_184) (= (tptp.fn_active_transport_using_atp_90 X) _let_183) (= _let_182 _let_92) (= _let_181 _let_89) (= _let_181 _let_85) (= _let_182 _let_91) (= _let_182 _let_90) (= _let_181 _let_88) (= _let_181 _let_87) (= _let_180 _let_86) (= _let_180 _let_85) (= _let_178 _let_179) (= _let_178 _let_177) (= _let_175 _let_176) (= _let_175 _let_174) (= _let_173 _let_84) (= _let_62 _let_57) (= _let_173 _let_83) (= _let_173 _let_82) (= _let_173 _let_80) (= _let_173 _let_79) (= (tptp.fn_active_transport_using_atp_11 X) _let_172) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_163 _let_162) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_62 _let_56) (= _let_157 _let_71) (= _let_157 _let_70) (= _let_157 _let_67) (= _let_157 _let_69) (= _let_157 _let_66) (= _let_156 _let_65) (= _let_156 _let_64) (= _let_156 _let_63) (= _let_62 _let_55) (= _let_156 _let_61) (= _let_62 _let_52) (= _let_156 _let_60) (= _let_62 _let_54) (= _let_156 _let_59) (= _let_156 _let_58) (= _let_62 _let_50) (= _let_155 _let_42) (= _let_143 _let_35) (= (tptp.fn_active_transport_using_atp_76 X) _let_154) (= (tptp.fn_active_transport_using_atp_77 X) _let_153) (= _let_152 _let_151) (= _let_150 _let_149) (= _let_148 _let_147) (= _let_140 _let_19) (= _let_146 _let_35) (= _let_145 _let_34) (= _let_145 _let_33) (= _let_143 _let_36) (= _let_39 _let_26) (= _let_39 _let_41) (= _let_143 _let_34) (= _let_146 _let_33) (= _let_145 _let_35) (= _let_144 _let_38) (= _let_143 _let_37) (= _let_143 _let_33) (= _let_142 _let_141) (= _let_140 _let_23) (= _let_137 _let_22) (= _let_140 _let_21) (= _let_140 _let_32) (= _let_16 _let_31) (= _let_16 _let_30) (= _let_139 _let_29) (= _let_139 _let_28) (= _let_138 _let_27) (= _let_138 _let_26) (= _let_138 _let_25) (= _let_137 _let_24) (= _let_137 _let_23) (= _let_137 _let_21) (= _let_137 _let_20) (= _let_137 _let_19) (= _let_136 _let_15) (= _let_14 _let_9) (= _let_136 _let_13) (= _let_136 _let_12) (= _let_136 _let_11) (= _let_6 _let_1) (= _let_14 _let_10) (= _let_14 _let_8) (= _let_14 _let_7) (= _let_135 _let_134) (= _let_134 _let_132) (= _let_132 _let_131) (= _let_131 _let_129) (= _let_129 _let_128) (= _let_128 _let_126) (= _let_126 _let_125) (= _let_125 _let_125) (= _let_125 _let_124) (= _let_124 _let_122) (= _let_122 _let_121) (= _let_121 _let_121) (= _let_121 _let_120) (= _let_120 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_112) (= _let_112 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_100) (= _let_100 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_90 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_85) (= _let_85 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_81 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_69 _let_71) (= _let_71 _let_70) (= _let_68 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_61 _let_63) (= _let_63 _let_61) (= _let_61 _let_59) (= _let_59 _let_61) (= _let_61 _let_58) (= _let_58 _let_58) (= _let_58 _let_60) (= _let_60 _let_58) (= _let_58 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_54 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_53 _let_55) (= _let_55 _let_55) (= _let_54 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_50 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_26) (= _let_26 _let_41) (= _let_41 _let_41) (= _let_41 _let_35) (= _let_35 _let_33) (= _let_33 _let_36) (= _let_36 _let_34) (= _let_33 _let_35) (= _let_35 _let_35) (= _let_35 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_21) (= _let_21 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_21) (= _let_21 _let_32) (= _let_32 _let_19) (= _let_19 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_15 _let_15) (= _let_15 _let_17) (= _let_17 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_11) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.activity_1 X) (and (tptp.original_name_2 X |tptp.'Activity'|) (tptp.description_2 X |tptp.'a collection of related events, often to achieve a goal or produce a result, but less structured than a step-by-step process'|) (tptp.concept2words_2 X tptp.activity) (tptp.concept2words_2 X tptp.act) (tptp.concept2words_2 X |tptp.'human action'|) (tptp.concept2words_2 X tptp.human_action) (tptp.concept2words_2 X |tptp.'human activity'|) (tptp.concept2words_2 X tptp.human_activity) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.adaptation_1 X) (and (tptp.original_name_2 X |tptp.'Adaptation'|) (tptp.user_description_2 X |tptp.'Inherited characteristic of an organism that enhances its survival and reproduction in specific environments.'|) (tptp.concept2words_2 X tptp.adapt) (tptp.concept2words_2 X tptp.adaptation) (tptp.evolutionary_process_1 X) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.adaptive_immunity_1 X) (and (tptp.original_name_2 X |tptp.'Adaptive-Immunity'|) (tptp.user_description_2 X |tptp.'A vertebrate-specific defense that is mediated by B lymphocytes (B Cells) and T lymphocytes (T cells). It exhibits specificity, memory, andself-nonself recognition.'|) (tptp.concept2words_2 X |tptp.'specific immunity'|) (tptp.concept2words_2 X |tptp.'specific-immunity'|) (tptp.concept2words_2 X |tptp.'acquired immunity'|) (tptp.concept2words_2 X |tptp.'acquired-immunity'|) (tptp.concept2words_2 X |tptp.'perform adaptive immunity'|) (tptp.concept2words_2 X |tptp.'adaptive immunity'|) (tptp.concept2words_2 X |tptp.'adaptive-immunity'|) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (=> (tptp.adaptive_management_1 X) (and (tptp.original_name_2 X |tptp.'Adaptive-Management'|) (tptp.user_description_2 X |tptp.'The use of experimentation to try different types of ecological management to see which works best.'|) (tptp.concept2words_2 X |tptp.'perform adaptive management'|) (tptp.concept2words_2 X |tptp.'adaptive management'|) (tptp.concept2words_2 X |tptp.'adaptive-management'|) (tptp.bioremediation_1 X) (not (tptp.phytoremediation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.adaptive_radiation_1 X) (and (tptp.original_name_2 X |tptp.'Adaptive-Radiation'|) (tptp.user_description_2 X |tptp.'The evolution of morphological and ecological diversity within a clade in response to the opening of new ecological niches. Often results in speciation.'|) (tptp.concept2words_2 X |tptp.'adaptive radiation'|) (tptp.concept2words_2 X |tptp.'adaptive-radiation'|) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_add_1 X))) (let ((_let_2 (tptp.fn_add_2 X))) (=> (tptp.add_1 X) (and (tptp.original_name_2 X |tptp.'Add'|) (tptp.concept2words_2 X tptp.add) (tptp.concept2words_2 X tptp.include) (tptp.concept2words_2 X tptp.join) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.add_volumes_1 X) (and (tptp.original_name_2 X |tptp.'Add-Volumes'|) (tptp.description_2 X |tptp.'a method to add the volumes of multiple volumes'|) (tptp.concept2words_2 X |tptp.'add volume'|) (tptp.concept2words_2 X |tptp.'add-volume'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.adenine_1 X) (and (tptp.original_name_2 X |tptp.'Adenine'|) (tptp.user_description_2 X |tptp.'One of the five most common nitrogenous bases which make up nucleotide monomers of nucleic acids. Adenine is present in both DNA and RNA.'|) (tptp.concept2words_2 X tptp.adenine) (tptp.purine_1 X) (not (tptp.guanine_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_dna_1 X) (tptp.adenine_1 X) (tptp.dna_strand_1 X1)) (and (tptp.adenine_at_dna_strand_1 X) (= (tptp.fn_adenine_at_dna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_dna_strand_2 X))) (=> (tptp.adenine_at_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine (A, Ade) is a nucleobase (a purine derivative) which is present at DNA.'|) (tptp.concept2words_2 X |tptp.'adenine at dna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-dna-strand'|) (tptp.adenine_1 X) (tptp.nitrogenous_base_present_in_dna_1 X) (not (tptp.adenine_at_rna_strand_1 X)) (not (tptp.cytosine_at_dna_strand_1 X)) (not (tptp.guanine_at_dna_strand_1 X)) (not (tptp.thymine_1 X)) (tptp.dna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_dna_2 X)))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X2 X1) (tptp.dna_strand_1 X2) (tptp.dna_strand_1 X1) (tptp.adenine_at_dna_strand_1 X)) (and (tptp.adenine_at_dna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_adenine_at_dna_strand_opposite_to_dna_strand_3 X) X2) (= (tptp.fn_adenine_at_dna_strand_opposite_to_dna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_dna_strand_opposite_to_dna_strand_4 X))) (let ((_let_2 (tptp.fn_nitrogenous_base_present_in_dna_2 _let_1))) (let ((_let_3 (tptp.fn_adenine_at_dna_strand_opposite_to_dna_strand_3 X))) (let ((_let_4 (tptp.fn_adenine_at_dna_strand_opposite_to_dna_strand_2 X))) (=> (tptp.adenine_at_dna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-DNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine is a nitrogenous base which is present at DNA strand and is present opposite to other DNA strand having thymine.'|) (tptp.concept2words_2 X |tptp.'adenine at dna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-dna-strand-opposite-to-dna-strand'|) (tptp.adenine_at_dna_strand_1 X) (not (tptp.adenine_at_dna_strand_opposite_to_rna_strand_1 X)) (tptp.dna_strand_1 _let_4) (tptp.dna_strand_1 _let_3) (tptp.thymine_at_dna_strand_opposite_to_dna_strand_1 _let_1) (tptp.dna_strand_1 _let_2) (tptp.complement_2 _let_4 _let_3) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_3 _let_4) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_1 X) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_4 (tptp.fn_adenine_at_dna_strand_2 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.adenine_at_dna_strand_1 X) (tptp.dna_strand_1 X1) (tptp.rna_strand_1 X2)) (and (tptp.adenine_at_dna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_3 X) X2) (= (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_5 X) X1)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.complement_2 X X1) (tptp.adenine_at_dna_strand_1 X) (tptp.uracil_at_rna_strand_opposite_to_dna_strand_1 X1)) (and (tptp.adenine_at_dna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_4 X))) (let ((_let_2 (tptp.fn_nitrogenous_base_present_in_rna_2 _let_1))) (let ((_let_3 (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_3 X))) (let ((_let_4 (tptp.fn_adenine_at_dna_strand_opposite_to_rna_strand_5 X))) (=> (tptp.adenine_at_dna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-DNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine is a nitrogenous base which is present at DNA strand and is present opposite to RNA strand having Uracil.'|) (tptp.concept2words_2 X |tptp.'adenine at dna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-dna-strand-opposite-to-rna-strand'|) (tptp.adenine_at_dna_strand_1 X) (not (tptp.adenine_at_dna_strand_opposite_to_dna_strand_1 X)) (tptp.rna_strand_1 _let_3) (tptp.uracil_at_rna_strand_opposite_to_dna_strand_1 _let_1) (tptp.dna_strand_1 _let_4) (tptp.rna_strand_1 _let_2) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_3 _let_4) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_1 X) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 _let_4 _let_3) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_4 (tptp.fn_adenine_at_dna_strand_2 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_rna_1 X) (tptp.adenine_1 X) (tptp.rna_strand_1 X1)) (and (tptp.adenine_at_rna_strand_1 X) (= (tptp.fn_adenine_at_rna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_rna_strand_2 X))) (=> (tptp.adenine_at_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine (A, Ade) is a nucleobase (a purine derivative) which is present at RNA.'|) (tptp.concept2words_2 X |tptp.'adenine at rna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-rna-strand'|) (tptp.adenine_1 X) (tptp.nitrogenous_base_present_in_rna_1 X) (not (tptp.adenine_at_dna_strand_1 X)) (not (tptp.cytosine_at_rna_strand_1 X)) (not (tptp.guanine_at_rna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_dna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.rna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_rna_2 X)))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X2 X1) (tptp.dna_strand_1 X2) (tptp.rna_strand_1 X1) (tptp.adenine_at_rna_strand_1 X)) (and (tptp.adenine_at_rna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_adenine_at_rna_strand_opposite_to_dna_strand_2 X) X2) (= (tptp.fn_adenine_at_rna_strand_opposite_to_dna_strand_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_rna_strand_opposite_to_dna_strand_3 X))) (let ((_let_2 (tptp.fn_thymine_at_dna_strand_opposite_to_rna_strand_1 _let_1))) (let ((_let_3 (tptp.fn_adenine_at_rna_strand_opposite_to_dna_strand_4 X))) (let ((_let_4 (tptp.fn_nitrogenous_base_present_in_dna_2 _let_1))) (let ((_let_5 (tptp.fn_adenine_at_rna_strand_opposite_to_dna_strand_2 X))) (=> (tptp.adenine_at_rna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-RNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine is a nitrogenous base which is present at RNA strand and is present opposite to other DNA strand having thymine.'|) (tptp.concept2words_2 X |tptp.'adenine at rna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-rna-strand-opposite-to-dna-strand'|) (tptp.adenine_at_rna_strand_1 X) (not (tptp.adenine_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.dna_strand_1 _let_5) (tptp.thymine_at_dna_strand_opposite_to_rna_strand_1 _let_1) (tptp.rna_strand_1 _let_3) (tptp.dna_strand_1 _let_4) (tptp.adenine_at_rna_strand_opposite_to_dna_strand_1 _let_2) (tptp.is_opposite_2 _let_5 _let_3) (tptp.complement_2 _let_5 _let_3) (tptp.is_opposite_2 _let_3 _let_5) (tptp.complement_2 _let_3 _let_5) (tptp.is_at_2 _let_1 _let_5) (tptp.is_at_2 X _let_3) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_1 X) (= _let_5 _let_4) (= _let_3 (tptp.fn_adenine_at_rna_strand_2 X)) (= X _let_2) (= _let_2 _let_2))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.adenine_at_rna_strand_1 X) (tptp.rna_strand_1 X1) (tptp.rna_strand_1 X2)) (and (tptp.adenine_at_rna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_adenine_at_rna_strand_opposite_to_rna_strand_2 X) X2) (= (tptp.fn_adenine_at_rna_strand_opposite_to_rna_strand_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenine_at_rna_strand_opposite_to_rna_strand_3 X))) (let ((_let_2 (tptp.fn_nitrogenous_base_present_in_rna_2 _let_1))) (let ((_let_3 (tptp.fn_adenine_at_rna_strand_opposite_to_rna_strand_2 X))) (let ((_let_4 (tptp.fn_adenine_at_rna_strand_opposite_to_rna_strand_4 X))) (=> (tptp.adenine_at_rna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Adenine-At-RNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Adenine is a nitrogenous base which is present at RNA strand and is present opposite to other RNA strand having Uracil.'|) (tptp.concept2words_2 X |tptp.'adenine at rna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'adenine-at-rna-strand-opposite-to-rna-strand'|) (tptp.adenine_at_rna_strand_1 X) (not (tptp.adenine_at_rna_strand_opposite_to_dna_strand_1 X)) (tptp.rna_strand_1 _let_3) (tptp.uracil_at_rna_strand_opposite_to_rna_strand_1 _let_1) (tptp.rna_strand_1 _let_4) (tptp.rna_strand_1 _let_2) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_3 _let_4) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_1 X) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 _let_4 _let_3) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_4 (tptp.fn_adenine_at_rna_strand_2 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adenosine_2 X))) (let ((_let_2 (tptp.fn_adenosine_1 X))) (=> (tptp.adenosine_1 X) (and (tptp.original_name_2 X |tptp.'Adenosine'|) (tptp.user_description_2 X |tptp.'Nucleoside formed by the binding of adenine and ribose.'|) (tptp.concept2words_2 X tptp.adenosine) (tptp.nucleoside_1 X) (tptp.ribose_1 _let_2) (tptp.adenine_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_nucleoside_20 X)) (= _let_1 (tptp.fn_nucleoside_21 X))))))) (forall ((X $$unsorted)) (=> (tptp.adenovirus_1 X) (and (tptp.original_name_2 X |tptp.'Adenovirus'|) (tptp.user_description_2 X |tptp.'A virus with a poyhedral capsule with a glycoprotein at each vertex.'|) (tptp.concept2words_2 X tptp.adenovirus) (tptp.dna_virus_1 X) (tptp.tumor_virus_1 X) (tptp.animal_virus_1 X) (not (tptp.papovavirus_1 X)) (not (tptp.hiv_1 X)) (not (tptp.cowpox_virus_1 X)) (not (tptp.hepatitis_b_virus_1 X)) (not (tptp.herpesvirus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_10 X))) (let ((_let_2 (tptp.fn_enzyme_2 X))) (let ((_let_3 (tptp.fn_protein_enzyme_11 X))) (let ((_let_4 (tptp.fn_protein_14 X))) (let ((_let_5 (tptp.fn_adenylyl_cyclase_2 X))) (let ((_let_6 (tptp.fn_adenylyl_cyclase_1 X))) (let ((_let_7 (tptp.fn_adenylyl_cyclase_5 X))) (let ((_let_8 (tptp.fn_adenylyl_cyclase_4 X))) (let ((_let_9 (tptp.fn_adenylyl_cyclase_3 X))) (=> (tptp.adenylyl_cyclase_1 X) (and (tptp.original_name_2 X |tptp.'Adenylyl-Cyclase'|) (tptp.user_description_2 X |tptp.'An enzyme which catalyzes the conversion of ATP to cyclic AMP.'|) (tptp.concept2words_2 X |tptp.'adenylyl cyclase'|) (tptp.concept2words_2 X |tptp.'adenylyl-cyclase'|) (tptp.membrane_protein_1 X) (tptp.lyase_1 X) (tptp.r_group_1 _let_6) (tptp.active_site_1 _let_5) (tptp.polypeptide_1 _let_9) (tptp.chemical_reaction_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.monomer_1 _let_7) (tptp.molecule_1 _let_7) (tptp.amino_acid_1 _let_7) (tptp.has_part_2 X _let_9) (tptp.has_part_2 _let_9 _let_7) (tptp.has_function_2 X _let_8) (tptp.site_2 _let_8 _let_5) (tptp.facilitates_2 _let_5 _let_8) (tptp.has_region_2 X _let_5) (tptp.is_inside_2 _let_6 _let_5) (tptp.has_region_2 _let_7 _let_6) (= _let_7 _let_4) (= _let_9 (tptp.fn_protein_8 X)) (= _let_5 _let_2) (= _let_8 (tptp.fn_enzyme_4 X)) (= _let_7 _let_3) (= _let_6 (tptp.fn_protein_enzyme_12 X)) (= _let_5 _let_1) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adhesion_1 X))) (let ((_let_2 (tptp.fn_adhesion_2 X))) (=> (tptp.adhesion_1 X) (and (tptp.original_name_2 X |tptp.'Adhesion'|) (tptp.user_description_2 X |tptp.'The sticking together of two dissimilar molecules resulting from molecular interactions between them.'|) (tptp.concept2words_2 X tptp.adhere) (tptp.concept2words_2 X tptp.adhesion) (tptp.attract_1 X) (not (tptp.cohesion_1 X)) (tptp.molecule_1 _let_1) (tptp.molecule_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_attract_2 X)) (= _let_1 (tptp.fn_attract_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adipose_cell_33 X))) (let ((_let_2 (tptp.fn_mitochondrion_51 _let_1))) (let ((_let_3 (tptp.fn_adipose_cell_9 X))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_3))) (let ((_let_5 (tptp.fn_adipose_cell_42 X))) (let ((_let_6 (tptp.fn_store_2 _let_5))) (let ((_let_7 (tptp.fn_mitochondrion_160 _let_1))) (let ((_let_8 (tptp.fn_animal_cell_90 X))) (let ((_let_9 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_3))) (let ((_let_10 (tptp.fn_animal_cell_62 X))) (let ((_let_11 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_3))) (let ((_let_12 (tptp.fn_animal_cell_78 X))) (let ((_let_13 (tptp.fn_smooth_endoplasmic_reticulum_12 _let_3))) (let ((_let_14 (tptp.fn_animal_cell_45 X))) (let ((_let_15 (tptp.fn_animal_cell_73 X))) (let ((_let_16 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_17 (tptp.fn_animal_cell_85 X))) (let ((_let_18 (tptp.fn_eukaryotic_cell_48 X))) (let ((_let_19 (tptp.fn_animal_cell_75 X))) (let ((_let_20 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_21 (tptp.fn_animal_cell_84 X))) (let ((_let_22 (tptp.fn_eukaryotic_cell_47 X))) (let ((_let_23 (tptp.fn_animal_cell_52 X))) (let ((_let_24 (tptp.fn_adipose_cell_19 X))) (let ((_let_25 (tptp.fn_telomere_3 _let_24))) (let ((_let_26 (tptp.fn_animal_cell_88 X))) (let ((_let_27 (tptp.fn_adipose_cell_23 X))) (let ((_let_28 (tptp.fn_chromosome_4 _let_27))) (let ((_let_29 (tptp.fn_eukaryotic_chromosome_3 _let_27))) (let ((_let_30 (tptp.fn_adipose_cell_41 X))) (let ((_let_31 (tptp.fn_fat_substance_1 _let_30))) (let ((_let_32 (tptp.fn_adipose_cell_43 X))) (let ((_let_33 (tptp.fn_fuel_7 _let_32))) (let ((_let_34 (tptp.fn_mitochondrion_55 _let_1))) (let ((_let_35 (tptp.fn_adipose_cell_52 X))) (let ((_let_36 (tptp.fn_mitochondrion_52 _let_1))) (let ((_let_37 (tptp.fn_adipose_cell_51 X))) (let ((_let_38 (tptp.fn_mitochondrion_159 _let_1))) (let ((_let_39 (tptp.fn_adipose_cell_53 X))) (let ((_let_40 (tptp.fn_adipose_cell_7 X))) (let ((_let_41 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_3))) (let ((_let_42 (tptp.fn_adipose_cell_31 X))) (let ((_let_43 (tptp.fn_adipose_cell_35 X))) (let ((_let_44 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_3))) (let ((_let_45 (tptp.fn_adipose_cell_25 X))) (let ((_let_46 (tptp.fn_adipose_cell_32 X))) (let ((_let_47 (tptp.fn_adipose_cell_3 X))) (let ((_let_48 (tptp.fn_adipose_cell_40 X))) (let ((_let_49 (tptp.fn_adipose_cell_26 X))) (let ((_let_50 (tptp.fn_adipose_cell_48 X))) (let ((_let_51 (tptp.fn_adipose_cell_38 X))) (let ((_let_52 (tptp.fn_adipose_cell_50 X))) (let ((_let_53 (tptp.fn_adipose_cell_37 X))) (let ((_let_54 (tptp.fn_adipose_cell_10 X))) (let ((_let_55 (tptp.fn_adipose_cell_17 X))) (let ((_let_56 (tptp.fn_adipose_cell_16 X))) (let ((_let_57 (tptp.fn_adipose_cell_24 X))) (let ((_let_58 (tptp.fn_adipose_cell_47 X))) (let ((_let_59 (tptp.fn_adipose_cell_11 X))) (let ((_let_60 (tptp.fn_adipose_cell_8 X))) (let ((_let_61 (tptp.fn_adipose_cell_46 X))) (let ((_let_62 (tptp.fn_adipose_cell_45 X))) (let ((_let_63 (tptp.fn_adipose_cell_34 X))) (let ((_let_64 (tptp.fn_adipose_cell_12 X))) (let ((_let_65 (tptp.fn_adipose_cell_13 X))) (let ((_let_66 (tptp.fn_adipose_cell_39 X))) (let ((_let_67 (tptp.fn_adipose_cell_36 X))) (let ((_let_68 (tptp.fn_adipose_cell_14 X))) (let ((_let_69 (tptp.fn_adipose_cell_15 X))) (let ((_let_70 (tptp.fn_adipose_cell_4 X))) (let ((_let_71 (tptp.fn_adipose_cell_49 X))) (let ((_let_72 (tptp.fn_fuel_8 _let_32))) (let ((_let_73 (tptp.fn_adipose_cell_27 X))) (let ((_let_74 (tptp.fn_fuel_6 _let_32))) (let ((_let_75 (tptp.fn_adipose_cell_30 X))) (let ((_let_76 (tptp.fn_fuel_5 _let_32))) (let ((_let_77 (tptp.fn_adipose_cell_28 X))) (let ((_let_78 (tptp.fn_telomere_1 _let_24))) (let ((_let_79 (tptp.fn_adipose_cell_21 X))) (let ((_let_80 (tptp.fn_chromosome_3 _let_27))) (let ((_let_81 (tptp.fn_adipose_cell_18 X))) (let ((_let_82 (tptp.fn_chromosome_8 _let_27))) (let ((_let_83 (tptp.fn_adipose_cell_22 X))) (let ((_let_84 (tptp.fn_chromosome_6 _let_27))) (let ((_let_85 (tptp.fn_adipose_cell_20 X))) (let ((_let_86 (tptp.fn_adipose_cell_44 X))) (let ((_let_87 (tptp.fn_adipose_cell_29 X))) (let ((_let_88 (tptp.fn_store_1 _let_5))) (let ((_let_89 (tptp.fn_adipose_cell_1 X))) (let ((_let_90 (tptp.fn_adipose_cell_2 X))) (=> (tptp.adipose_cell_1 X) (and (tptp.original_name_2 X |tptp.'Adipose-Cell'|) (tptp.user_description_2 X |tptp.'A cell that contains fat as a stored form of energy'|) (tptp.concept2words_2 X |tptp.'adipose cell'|) (tptp.concept2words_2 X |tptp.'adipose-cell'|) (tptp.animal_cell_1 X) (tptp.chromosome_arm_1 _let_89) (tptp.chromosome_arm_1 _let_90) (tptp.peroxisome_1 _let_47) (tptp.move_1 _let_70) (tptp.cellular_work_1 _let_40) (tptp.active_transport_1 _let_40) (tptp.active_movement_of_ions_1 _let_40) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_40) (tptp.endoplasmic_reticulum_1 _let_60) (tptp.rough_endoplasmic_reticulum_1 _let_60) (tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.support_1 _let_54) (tptp.surface_1 _let_59) (tptp.cell_pole_1 _let_64) (tptp.cell_pole_1 _let_65) (tptp.size_value_1 _let_68) (tptp.volume_value_1 _let_69) (tptp.create_1 _let_56) (tptp.produce_1 _let_56) (tptp.microtubule_1 _let_55) (tptp.protein_1 _let_81) (tptp.telomere_1 _let_24) (tptp.centromere_1 _let_85) (tptp.end_1 _let_79) (tptp.coil_1 _let_83) (tptp.eukaryotic_chromosome_1 _let_27) (tptp.chromosome_1 _let_27) (tptp.centrosome_1 _let_57) (tptp.golgi_apparatus_1 _let_45) (tptp.hydrophobic_core_1 _let_49) (tptp.consume_1 _let_73) (tptp.tangible_entity_1 _let_77) (tptp.tangible_entity_1 _let_87) (tptp.heat_1 _let_75) (tptp.eukaryotic_ribosome_1 _let_42) (tptp.tangible_entity_1 _let_46) (tptp.nucleus_1 _let_46) (tptp.semiautonomous_organelle_1 _let_1) (tptp.organelle_1 _let_1) (tptp.mitochondrion_1 _let_1) (tptp.eukaryotic_cellular_respiration_1 _let_63) (tptp.substance_1 _let_43) (tptp.cytosol_1 _let_43) (tptp.support_1 _let_67) (tptp.mixture_1 _let_53) (tptp.cytoplasm_1 _let_53) (tptp.outside_face_1 _let_51) (tptp.extracellular_side_1 _let_51) (tptp.surface_1 _let_51) (tptp.attach_1 _let_66) (tptp.tangible_entity_1 _let_48) (tptp.spatial_entity_1 _let_48) (tptp.biomembrane_1 _let_48) (tptp.animal_plasma_membrane_1 _let_48) (tptp.plasma_membrane_1 _let_48) (tptp.entity_1 _let_30) (tptp.fat_substance_1 _let_30) (tptp.store_1 _let_5) (tptp.fuel_1 _let_32) (tptp.tangible_entity_1 _let_86) (tptp.fat_1 _let_86) (tptp.spatial_entity_1 _let_62) (tptp.polymer_1 _let_62) (tptp.organic_molecule_1 _let_62) (tptp.tangible_entity_1 _let_62) (tptp.membrane_protein_1 _let_62) (tptp.protein_1 _let_62) (tptp.transmembrane_protein_1 _let_61) (tptp.tangible_entity_1 _let_61) (tptp.membrane_protein_1 _let_61) (tptp.protein_1 _let_61) (tptp.spatial_entity_1 _let_61) (tptp.polymer_1 _let_61) (tptp.integrin_1 _let_61) (tptp.tangible_entity_1 _let_58) (tptp.phospholipid_bilayer_1 _let_58) (tptp.protein_1 _let_50) (tptp.organic_molecule_1 _let_50) (tptp.polymer_1 _let_50) (tptp.spatial_entity_1 _let_50) (tptp.membrane_protein_1 _let_50) (tptp.tangible_entity_1 _let_50) (tptp.transmembrane_protein_1 _let_50) (tptp.integral_protein_1 _let_50) (tptp.transport_protein_1 _let_50) (tptp.sodium_potassium_pump_1 _let_50) (tptp.polymer_1 _let_71) (tptp.entity_1 _let_71) (tptp.dna_1 _let_71) (tptp.catabolic_pathway_1 _let_52) (tptp.metabolic_pathway_1 _let_37) (tptp.endergonic_process_1 _let_37) (tptp.chemical_reaction_1 _let_37) (tptp.synthesis_of_organic_molecule_1 _let_37) (tptp.anabolic_pathway_1 _let_37) (tptp.synthesis_of_atp_1 _let_37) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_35) (tptp.electron_transport_chain_pathway_1 _let_39) (tptp.entity_1 _let_88) (tptp.centromere_1 _let_84) (tptp.coil_1 _let_82) (tptp.protein_1 _let_80) (tptp.end_1 _let_78) (tptp.tangible_entity_1 _let_76) (tptp.heat_1 _let_74) (tptp.consume_1 _let_72) (tptp.golgi_apparatus_1 _let_44) (tptp.eukaryotic_ribosome_1 _let_41) (tptp.electron_transport_chain_pathway_1 _let_38) (tptp.metabolic_pathway_1 _let_36) (tptp.endergonic_process_1 _let_36) (tptp.chemical_reaction_1 _let_36) (tptp.synthesis_of_organic_molecule_1 _let_36) (tptp.anabolic_pathway_1 _let_36) (tptp.synthesis_of_atp_1 _let_36) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.fat_1 _let_31) (tptp.entity_1 _let_29) (tptp.dna_1 _let_29) (tptp.polymer_1 _let_29) (tptp.entity_1 _let_28) (tptp.dna_1 _let_28) (tptp.eukaryotic_chromosome_1 _let_25) (tptp.peroxisome_1 _let_13) (tptp.nucleus_1 _let_11) (tptp.substance_1 _let_9) (tptp.cytosol_1 _let_9) (tptp.cellular_work_1 _let_7) (tptp.active_transport_1 _let_7) (tptp.active_movement_of_ions_1 _let_7) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.is_between_2 _let_85 _let_90) (tptp.is_between_2 _let_85 _let_89) (tptp.has_part_2 _let_27 _let_90) (tptp.has_part_2 _let_27 _let_89) (tptp.object_2 _let_75 _let_87) (tptp.site_2 _let_63 _let_53) (tptp.object_2 _let_5 _let_30) (tptp.is_near_2 _let_86 _let_87) (tptp.is_near_2 _let_87 _let_86) (tptp.is_near_2 _let_77 _let_86) (tptp.is_near_2 _let_86 _let_77) (tptp.plays_2 _let_86 _let_32) (tptp.object_2 _let_73 _let_86) (tptp.base_2 _let_5 X) (tptp.has_part_2 _let_30 _let_86) (tptp.has_region_2 _let_27 _let_85) (tptp.has_part_2 _let_27 _let_81) (tptp.agent_2 _let_83 _let_81) (tptp.object_2 _let_83 _let_71) (tptp.is_at_2 _let_24 _let_79) (tptp.has_region_2 _let_27 _let_79) (tptp.has_part_2 _let_27 _let_24) (tptp.in_event_2 _let_32 _let_73) (tptp.objective_2 _let_73 _let_75) (tptp.base_2 _let_75 _let_77) (tptp.is_inside_2 _let_53 _let_48) (tptp.has_part_2 X _let_57) (tptp.has_part_2 _let_27 _let_71) (tptp.has_function_2 X _let_40) (tptp.the_scalar_value_2 _let_68 tptp.big_0) (tptp.scalar_unit_class_2 _let_68 tptp.prokaryote_0) (tptp.has_region_2 X _let_65) (tptp.volume_2 X _let_69) (tptp.destination_2 _let_70 _let_1) (tptp.called_2 _let_50 |tptp.'MP1'|) (not (= _let_3 _let_60)) (not (= _let_60 _let_3)) (tptp.has_part_2 _let_48 _let_61) (tptp.called_2 _let_61 |tptp.'MP1'|) (tptp.causes_2 _let_70 _let_52) (tptp.origin_2 _let_70 _let_47) (tptp.has_part_2 _let_48 _let_62) (tptp.called_2 _let_62 |tptp.'MP1'|) (tptp.agent_2 _let_67 _let_48) (tptp.object_2 _let_67 X) (tptp.size_2 X _let_68) (tptp.directly_proportional_2 _let_68 _let_69) (tptp.is_at_2 _let_50 _let_48) (tptp.has_part_2 _let_48 _let_50) (tptp.object_2 _let_66 _let_50) (tptp.base_2 _let_66 _let_48) (tptp.has_part_2 _let_48 _let_58) (tptp.base_2 _let_63 X) (tptp.has_function_2 X _let_63) (tptp.has_region_2 X _let_64) (tptp.is_opposite_2 _let_65 _let_64) (tptp.is_opposite_2 _let_64 _let_65) (not (= _let_50 _let_61)) (not (= _let_61 _let_62)) (not (= _let_62 _let_50)) (tptp.has_region_2 _let_50 _let_51) (tptp.is_outside_2 _let_51 _let_48) (not (= _let_61 _let_50)) (not (= _let_62 _let_61)) (not (= _let_50 _let_62)) (tptp.is_inside_2 _let_27 _let_46) (tptp.has_part_2 X _let_27) (tptp.has_part_2 X _let_60) (tptp.abuts_2 _let_3 _let_60) (tptp.abuts_2 _let_60 _let_3) (tptp.is_inside_2 _let_50 _let_58) (tptp.is_at_2 _let_58 _let_59) (tptp.has_region_2 X _let_59) (tptp.has_part_2 X _let_53) (tptp.is_between_2 _let_53 _let_46) (tptp.object_2 _let_54 X) (tptp.has_function_2 _let_55 _let_54) (tptp.result_2 _let_56 _let_55) (tptp.has_function_2 _let_57 _let_56) (tptp.is_near_2 _let_57 _let_46) (tptp.is_near_2 _let_46 _let_57) (tptp.base_2 _let_52 X) (tptp.site_2 _let_52 _let_1) (tptp.is_inside_2 _let_1 _let_43) (tptp.has_part_2 _let_53 _let_43) (tptp.is_between_2 _let_53 _let_48) (tptp.has_part_2 X _let_48) (tptp.has_region_2 _let_48 _let_49) (tptp.is_across_2 _let_50 _let_49) (tptp.is_across_2 _let_50 _let_48) (tptp.has_region_2 _let_48 _let_51) (tptp.is_inside_2 _let_46 _let_43) (tptp.has_part_2 X _let_46) (tptp.has_part_2 X _let_47) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_42) (tptp.is_inside_2 _let_42 _let_43) (tptp.is_inside_2 _let_45 _let_43) (tptp.has_part_2 X _let_45) (tptp.first_subevent_2 _let_35 _let_39) (tptp.base_2 _let_40 X) (tptp.base_2 _let_39 X) (tptp.subevent_2 _let_35 _let_39) (tptp.site_2 _let_35 _let_1) (tptp.has_function_2 _let_1 _let_35) (tptp.base_2 _let_35 X) (tptp.has_part_2 X _let_1) (tptp.site_2 _let_37 _let_1) (tptp.base_2 _let_37 X) (= _let_30 _let_88) (= _let_87 _let_76) (= _let_86 _let_33) (= X _let_6) (= _let_86 _let_31) (= _let_85 _let_84) (= _let_71 _let_28) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_27 _let_25) (= _let_79 _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_29) (= _let_71 _let_26) (= _let_40 _let_8) (= (tptp.fn_adipose_cell_6 X) (tptp.fn_animal_cell_49 X)) (= _let_47 _let_14) (= _let_70 (tptp.fn_animal_cell_22 X)) (= (tptp.fn_adipose_cell_5 X) (tptp.fn_animal_cell_50 X)) (= _let_69 (tptp.fn_animal_cell_56 X)) (= _let_68 (tptp.fn_animal_cell_57 X)) (= _let_67 (tptp.fn_animal_cell_76 X)) (= _let_66 (tptp.fn_animal_cell_83 X)) (= _let_65 (tptp.fn_animal_cell_13 X)) (= _let_64 (tptp.fn_animal_cell_1 X)) (= _let_63 (tptp.fn_animal_cell_81 X)) (= _let_62 (tptp.fn_animal_cell_60 X)) (= _let_61 (tptp.fn_animal_cell_80 X)) (= _let_3 (tptp.fn_animal_cell_54 X)) (= _let_60 (tptp.fn_animal_cell_53 X)) (= _let_27 _let_23) (= _let_59 (tptp.fn_animal_cell_55 X)) (= _let_58 (tptp.fn_animal_cell_58 X)) (= _let_46 _let_12) (= _let_57 (tptp.fn_animal_cell_74 X)) (= _let_56 (tptp.fn_animal_cell_64 X)) (= _let_55 (tptp.fn_animal_cell_63 X)) (= _let_54 (tptp.fn_animal_cell_61 X)) (= _let_53 (tptp.fn_animal_cell_79 X)) (= _let_43 _let_10) (= _let_1 (tptp.fn_animal_cell_59 X)) (= _let_52 (tptp.fn_animal_cell_21 X)) (= _let_51 _let_22) (= _let_51 _let_21) (= _let_50 _let_20) (= _let_50 _let_19) (= _let_49 _let_18) (= _let_49 _let_17) (= _let_48 _let_16) (= _let_48 _let_15) (= _let_47 _let_13) (= _let_46 _let_11) (= _let_45 _let_44) (= _let_43 _let_9) (= _let_42 _let_41) (= X _let_4) (= _let_40 _let_7) (= _let_39 _let_38) (= _let_37 _let_36) (= X _let_2) (= _let_35 _let_34) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adipose_tissue_10 X))) (let ((_let_2 (tptp.fn_block_1 _let_1))) (let ((_let_3 (tptp.fn_adipose_tissue_9 X))) (let ((_let_4 (tptp.fn_exchange_2 _let_3))) (let ((_let_5 (tptp.fn_exchange_1 _let_3))) (let ((_let_6 (tptp.fn_adipose_tissue_2 X))) (let ((_let_7 (tptp.fn_barrier_1 _let_6))) (let ((_let_8 (tptp.fn_adipose_tissue_7 X))) (let ((_let_9 (tptp.fn_store_2 _let_8))) (let ((_let_10 (tptp.fn_adipose_tissue_11 X))) (let ((_let_11 (tptp.fn_barrier_1 _let_10))) (let ((_let_12 (tptp.fn_adipose_tissue_8 X))) (let ((_let_13 (tptp.fn_insulator_1 _let_10))) (let ((_let_14 (tptp.fn_store_1 _let_8))) (let ((_let_15 (tptp.fn_adipose_tissue_6 X))) (let ((_let_16 (tptp.fn_adipose_tissue_5 X))) (let ((_let_17 (tptp.fn_adipose_tissue_3 X))) (let ((_let_18 (tptp.fn_impair_1 _let_17))) (let ((_let_19 (tptp.fn_adipose_tissue_4 X))) (let ((_let_20 (tptp.fn_adipose_tissue_1 X))) (=> (tptp.adipose_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Adipose-Tissue'|) (tptp.user_description_2 X |tptp.'A connective tissue that functions to insulate, cushion, and serve as an energy reserve; contains fat-storing cells called adipose cells or adipocytes.'|) (tptp.concept2words_2 X |tptp.'adipose tissue'|) (tptp.concept2words_2 X |tptp.'adipose-tissue'|) (tptp.connective_tissue_1 X) (not (tptp.av_valve_1 X)) (not (tptp.bone_1 X)) (not (tptp.cartilage_1 X)) (not (tptp.fibrous_connective_tissue_1 X)) (not (tptp.loose_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X)) (tptp.block_1 _let_20) (tptp.barrier_1 _let_6) (tptp.damage_1 _let_17) (tptp.animal_organ_1 _let_19) (tptp.adipose_cell_1 _let_16) (tptp.energy_1 _let_15) (tptp.store_1 _let_8) (tptp.thermal_energy_1 _let_12) (tptp.exchange_1 _let_3) (tptp.block_1 _let_1) (tptp.insulator_1 _let_10) (tptp.tangible_entity_1 _let_18) (tptp.entity_1 _let_14) (tptp.block_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.prevents_2 _let_1 _let_3) (tptp.instrument_2 _let_1 X) (tptp.prevents_2 _let_20 _let_17) (tptp.instrument_2 _let_20 X) (tptp.in_event_2 _let_6 _let_20) (tptp.object_2 _let_17 _let_19) (tptp.object_2 _let_3 _let_12) (tptp.has_part_2 X _let_16) (tptp.object_2 _let_8 _let_15) (tptp.plays_2 X _let_10) (tptp.base_2 _let_8 X) (tptp.plays_2 X _let_6) (tptp.in_event_2 _let_10 _let_1) (tptp.object_2 _let_1 _let_12) (= _let_19 _let_18) (= _let_12 _let_5) (= _let_12 _let_4) (= _let_16 (tptp.fn_tissue_1 X)) (= _let_15 _let_14) (= X _let_11) (= X _let_9) (= X _let_7) (= _let_1 _let_13) (= _let_12 _let_2) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.administrative_district_1 X) (and (tptp.original_name_2 X |tptp.'Administrative-District'|) (tptp.description_2 X |tptp.'a Territory delineated on administrative grounds'|) (tptp.concept2words_2 X |tptp.'administrative district'|) (tptp.concept2words_2 X tptp.administrative_district) (tptp.concept2words_2 X |tptp.'administrative division'|) (tptp.concept2words_2 X tptp.administrative_division) (tptp.concept2words_2 X |tptp.'territorial division'|) (tptp.concept2words_2 X tptp.territorial_division) (tptp.concept2words_2 X |tptp.'administrative-district'|) (tptp.territory_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_admit_3 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_admit_2 X))) (let ((_let_4 (tptp.fn_admit_1 X))) (=> (tptp.admit_1 X) (and (tptp.original_name_2 X |tptp.'Admit'|) (tptp.concept2words_2 X tptp.admit) (tptp.concept2words_2 X |tptp.'allow in'|) (tptp.concept2words_2 X tptp.allow_in) (tptp.concept2words_2 X |tptp.'let in'|) (tptp.concept2words_2 X tptp.let_in) (tptp.unobstruct_1 X) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.container_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.base_2 X _let_3) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_4) (tptp.plays_2 _let_3 _let_1) (= _let_4 (tptp.fn_unobstruct_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_adp_28 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_adp_34 X))) (let ((_let_4 (tptp.fn_phosphate_group_39 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_41 _let_3))) (let ((_let_6 (tptp.fn_ribonucleotide_13 X))) (let ((_let_7 (tptp.fn_nucleoside_diphosphate_38 X))) (let ((_let_8 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_9 (tptp.fn_adp_42 X))) (let ((_let_10 (tptp.fn_covalent_bond_15 _let_9))) (let ((_let_11 (tptp.fn_phosphate_group_8 _let_3))) (let ((_let_12 (tptp.fn_ribonucleotide_28 X))) (let ((_let_13 (tptp.fn_ribonucleotide_27 X))) (let ((_let_14 (tptp.fn_ribonucleotide_22 X))) (let ((_let_15 (tptp.fn_nucleoside_diphosphate_3 X))) (let ((_let_16 (tptp.fn_nucleoside_diphosphate_47 X))) (let ((_let_17 (tptp.fn_nucleoside_diphosphate_37 X))) (let ((_let_18 (tptp.fn_nucleoside_diphosphate_36 X))) (let ((_let_19 (tptp.fn_nucleoside_diphosphate_43 X))) (let ((_let_20 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_21 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_22 (tptp.fn_covalent_bond_24 _let_9))) (let ((_let_23 (tptp.fn_covalent_bond_22 _let_9))) (let ((_let_24 (tptp.fn_phosphate_group_18 _let_3))) (let ((_let_25 (tptp.fn_ribonucleotide_29 X))) (let ((_let_26 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_27 (tptp.fn_phosphate_group_12 _let_3))) (let ((_let_28 (tptp.fn_ribonucleotide_24 X))) (let ((_let_29 (tptp.fn_nucleoside_diphosphate_41 X))) (let ((_let_30 (tptp.fn_nucleoside_diphosphate_35 X))) (let ((_let_31 (tptp.fn_covalent_bond_23 _let_9))) (let ((_let_32 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_33 (tptp.fn_covalent_bond_21 _let_9))) (let ((_let_34 (tptp.fn_phosphate_group_10 _let_3))) (let ((_let_35 (tptp.fn_ribonucleotide_23 X))) (let ((_let_36 (tptp.fn_nucleoside_diphosphate_44 X))) (let ((_let_37 (tptp.fn_phosphate_group_17 _let_3))) (let ((_let_38 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_39 (tptp.fn_ribonucleotide_6 X))) (let ((_let_40 (tptp.fn_covalent_bond_17 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(tptp.fn_nucleoside_diphosphate_25 X))) (let ((_let_61 (tptp.fn_nucleotide_15 X))) (let ((_let_62 (tptp.fn_phosphate_group_9 _let_3))) (let ((_let_63 (tptp.fn_adp_4 X))) (let ((_let_64 (tptp.fn_share_2 _let_63))) (let ((_let_65 (tptp.fn_ribonucleotide_19 X))) (let ((_let_66 (tptp.fn_nucleoside_diphosphate_1 X))) (let ((_let_67 (tptp.fn_phosphate_group_6 _let_3))) (let ((_let_68 (tptp.fn_ribonucleotide_17 X))) (let ((_let_69 (tptp.fn_nucleoside_diphosphate_33 X))) (let ((_let_70 (tptp.fn_adp_35 X))) (let ((_let_71 (tptp.fn_chemical_element_11 _let_70))) (let ((_let_72 (tptp.fn_nucleotide_30 X))) (let ((_let_73 (tptp.fn_nucleotide_13 X))) (let ((_let_74 (tptp.fn_phosphate_group_35 _let_3))) (let ((_let_75 (tptp.fn_phosphate_group_20 _let_3))) (let ((_let_76 (tptp.fn_phosphate_group_3 _let_3))) (let ((_let_77 (tptp.fn_ribonucleotide_7 X))) (let ((_let_78 (tptp.fn_nucleoside_diphosphate_4 X))) (let ((_let_79 (tptp.fn_ribonucleotide_2 X))) (let ((_let_80 (tptp.fn_ribonucleotide_4 X))) (let ((_let_81 (tptp.fn_ribonucleotide_15 X))) (let ((_let_82 (tptp.fn_nucleoside_diphosphate_27 X))) (let ((_let_83 (tptp.fn_ribonucleotide_11 X))) (let ((_let_84 (tptp.fn_nucleoside_diphosphate_34 X))) (let ((_let_85 (tptp.fn_ribonucleotide_10 X))) (let ((_let_86 (tptp.fn_adp_38 X))) (let ((_let_87 (tptp.fn_nucleoside_20 _let_86))) (let ((_let_88 (tptp.fn_nucleotide_24 X))) (let ((_let_89 (tptp.fn_adp_32 X))) (let ((_let_90 (tptp.fn_carbohydrate_36 _let_89))) (let ((_let_91 (tptp.fn_nucleoside_10 _let_86))) (let ((_let_92 (tptp.fn_molecule_10 _let_89))) (let ((_let_93 (tptp.fn_carbohydrate_37 _let_89))) (let ((_let_94 (tptp.fn_nucleoside_12 _let_86))) (let ((_let_95 (tptp.fn_adp_52 X))) (let ((_let_96 (tptp.fn_polar_covalent_bond_17 _let_95))) (let ((_let_97 (tptp.fn_carbohydrate_30 _let_89))) (let ((_let_98 (tptp.fn_nucleoside_11 _let_86))) (let ((_let_99 (tptp.fn_polar_covalent_bond_16 _let_95))) (let ((_let_100 (tptp.fn_carbohydrate_6 _let_89))) (let ((_let_101 (tptp.fn_nucleoside_9 _let_86))) (let ((_let_102 (tptp.fn_organic_molecule_3 _let_89))) (let ((_let_103 (tptp.fn_aldose_11 _let_89))) (let ((_let_104 (tptp.fn_nucleoside_6 _let_86))) (let ((_let_105 (tptp.fn_organic_molecule_1 _let_89))) (let ((_let_106 (tptp.fn_polar_covalent_bond_18 _let_95))) (let ((_let_107 (tptp.fn_polar_covalent_bond_19 _let_95))) (let ((_let_108 (tptp.fn_molecule_11 _let_89))) (let ((_let_109 (tptp.fn_nucleoside_7 _let_86))) (let ((_let_110 (tptp.fn_organic_molecule_2 _let_89))) (let ((_let_111 (tptp.fn_aldehyde_5 _let_89))) (let ((_let_112 (tptp.fn_chemical_element_12 _let_70))) (let ((_let_113 (tptp.fn_adp_1 X))) (let ((_let_114 (tptp.fn_adp_40 X))) (let ((_let_115 (tptp.fn_adp_53 X))) (let ((_let_116 (tptp.fn_adp_29 X))) (let ((_let_117 (tptp.fn_adp_33 X))) (let ((_let_118 (tptp.fn_adp_45 X))) (let ((_let_119 (tptp.fn_adp_44 X))) (let ((_let_120 (tptp.fn_adp_7 X))) (let ((_let_121 (tptp.fn_adp_49 X))) (let ((_let_122 (tptp.fn_adp_31 X))) (let ((_let_123 (tptp.fn_adp_6 X))) (let ((_let_124 (tptp.fn_adp_2 X))) (let ((_let_125 (tptp.fn_adp_39 X))) (let ((_let_126 (tptp.fn_adp_43 X))) (let ((_let_127 (tptp.fn_adp_67 X))) (let ((_let_128 (tptp.fn_adp_15 X))) (let ((_let_129 (tptp.fn_adp_13 X))) (let ((_let_130 (tptp.fn_adp_16 X))) (let ((_let_131 (tptp.fn_adp_58 X))) (let ((_let_132 (tptp.fn_adp_41 X))) (let ((_let_133 (tptp.fn_adp_19 X))) (let ((_let_134 (tptp.fn_adp_66 X))) (let ((_let_135 (tptp.fn_adp_3 X))) (let ((_let_136 (tptp.fn_adp_8 X))) (let ((_let_137 (tptp.fn_adp_9 X))) (let ((_let_138 (tptp.fn_adp_5 X))) (let ((_let_139 (tptp.fn_adp_24 X))) (let ((_let_140 (tptp.fn_functional_group_1 _let_3))) (let ((_let_141 (tptp.fn_adp_25 X))) (let ((_let_142 (tptp.fn_adp_30 X))) (let ((_let_143 (tptp.fn_adp_27 X))) (let ((_let_144 (tptp.fn_adp_26 X))) (let ((_let_145 (tptp.fn_adp_23 X))) (let ((_let_146 (tptp.fn_adp_17 X))) (let ((_let_147 (tptp.fn_adp_59 X))) (let ((_let_148 (tptp.fn_adp_12 X))) (let ((_let_149 (tptp.fn_adp_57 X))) (let ((_let_150 (tptp.fn_adp_65 X))) (let ((_let_151 (tptp.fn_adp_54 X))) (let ((_let_152 (tptp.fn_adp_64 X))) (let ((_let_153 (tptp.fn_adp_56 X))) (let ((_let_154 (tptp.fn_adp_63 X))) (let ((_let_155 (tptp.fn_adp_14 X))) (let ((_let_156 (tptp.fn_adp_55 X))) (let ((_let_157 (tptp.fn_adp_18 X))) (let ((_let_158 (tptp.fn_adp_62 X))) (let ((_let_159 (tptp.fn_adp_61 X))) (let ((_let_160 (tptp.fn_adp_60 X))) (let ((_let_161 (tptp.fn_adp_50 X))) (let ((_let_162 (tptp.fn_adp_51 X))) (let ((_let_163 (tptp.fn_adp_22 X))) (let ((_let_164 (tptp.fn_organic_molecule_1 _let_86))) (let ((_let_165 (tptp.fn_adp_47 X))) (let ((_let_166 (tptp.fn_organic_molecule_2 _let_86))) (let ((_let_167 (tptp.fn_adp_48 X))) (let ((_let_168 (tptp.fn_organic_molecule_3 _let_86))) (let ((_let_169 (tptp.fn_adp_46 X))) (let ((_let_170 (tptp.fn_adp_20 X))) (let ((_let_171 (tptp.fn_adp_21 X))) (let ((_let_172 (tptp.fn_adp_36 X))) (let ((_let_173 (tptp.fn_adenosine_2 _let_86))) (let ((_let_174 (tptp.fn_adp_37 X))) (=> (tptp.adp_1 X) (and (tptp.original_name_2 X |tptp.'ADP'|) (tptp.user_description_2 X |tptp.'Adenosine diphosphate; a nucleotide typically found as the uncharged state that converts to ATP in energy reactions.'|) (tptp.concept2words_2 X |tptp.'adenosine diphosphate'|) (tptp.concept2words_2 X |tptp.'adenosine-diphosphate'|) (tptp.concept2words_2 X tptp.adp) (tptp.ribonucleoside_diphosphate_1 X) (tptp.share_1 _let_113) (tptp.share_1 _let_124) (tptp.share_1 _let_135) (tptp.share_1 _let_63) (tptp.share_1 _let_138) (tptp.entity_1 _let_123) (tptp.valence_electron_1 _let_123) (tptp.electron_1 _let_120) (tptp.valence_electron_1 _let_120) (tptp.electron_1 _let_136) (tptp.valence_electron_1 _let_136) (tptp.electron_1 _let_137) (tptp.valence_electron_1 _let_137) (tptp.share_1 _let_148) (tptp.share_1 _let_129) (tptp.share_1 _let_155) (tptp.electron_1 _let_128) (tptp.valence_electron_1 _let_128) (tptp.electron_1 _let_130) (tptp.valence_electron_1 _let_130) (tptp.electron_1 _let_146) (tptp.valence_electron_1 _let_146) (tptp.phosphate_group_1 _let_157) (tptp.entity_1 _let_133) (tptp.chemical_entity_1 _let_133) (tptp.atom_1 _let_133) (tptp.carbon_1 _let_133) (tptp.number_3_prime_carbon_1 _let_170) (tptp.number_5_prime_carbon_1 _let_171) (tptp.carbon_skeleton_1 _let_163) (tptp.constant_motion_1 _let_145) (tptp.carbon_skeleton_1 _let_139) (tptp.number_5_prime_region_1 _let_141) (tptp.speed_value_1 _let_144) (tptp.quantity_value_1 _let_143) (tptp.chemical_bond_1 _let_1) (tptp.double_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.center_1 _let_116) (tptp.kinetic_energy_1 _let_142) (tptp.oxygen_1 _let_122) (tptp.entity_1 _let_122) (tptp.chemical_entity_1 _let_122) (tptp.atom_1 _let_122) (tptp.aldehyde_1 _let_89) (tptp.aldose_1 _let_89) (tptp.spatial_entity_1 _let_89) (tptp.molecule_1 _let_89) (tptp.organic_molecule_1 _let_89) (tptp.pentose_1 _let_89) (tptp.carbohydrate_1 _let_89) (tptp.ribose_1 _let_89) (tptp.center_1 _let_117) (tptp.functional_group_1 _let_3) (tptp.phosphate_group_1 _let_3) (tptp.electronegative_element_1 _let_70) (tptp.atom_1 _let_172) (tptp.adenine_1 _let_174) (tptp.adenosine_1 _let_86) (tptp.nucleoside_1 _let_86) (tptp.organic_molecule_1 _let_86) (tptp.entity_1 _let_125) (tptp.chemical_entity_1 _let_125) (tptp.atom_1 _let_125) (tptp.phosphorus_1 _let_125) (tptp.electron_1 _let_114) (tptp.valence_electron_1 _let_114) (tptp.electron_1 _let_132) (tptp.valence_electron_1 _let_132) (tptp.single_bond_1 _let_9) (tptp.covalent_bond_1 _let_9) (tptp.entity_1 _let_126) (tptp.chemical_entity_1 _let_126) (tptp.atom_1 _let_126) (tptp.oxygen_1 _let_126) (tptp.electron_1 _let_119) (tptp.valence_electron_1 _let_119) (tptp.center_1 _let_118) (tptp.carbon_skeleton_1 _let_169) (tptp.carbon_1 _let_165) (tptp.atom_1 _let_167) (tptp.chemical_entity_1 _let_167) (tptp.electron_1 _let_121) (tptp.valence_electron_1 _let_121) (tptp.hold_1 _let_161) (tptp.hold_together_1 _let_161) (tptp.unequal_sharing_1 _let_162) (tptp.chemical_bond_1 _let_95) (tptp.polar_covalent_bond_1 _let_95) (tptp.atomic_nucleus_1 _let_115) (tptp.electron_1 _let_151) (tptp.valence_electron_1 _let_151) (tptp.share_1 _let_156) (tptp.electron_1 _let_153) (tptp.valence_electron_1 _let_153) (tptp.valence_electron_1 _let_149) (tptp.electron_1 _let_131) (tptp.valence_electron_1 _let_131) (tptp.valence_electron_1 _let_147) (tptp.tangible_entity_1 _let_160) (tptp.oxygen_1 _let_160) (tptp.entity_1 _let_160) (tptp.chemical_entity_1 _let_160) (tptp.atom_1 _let_160) (tptp.entity_1 _let_159) (tptp.chemical_entity_1 _let_159) (tptp.atom_1 _let_159) (tptp.carbon_1 _let_159) (tptp.number_5_prime_carbon_1 _let_159) (tptp.spatial_entity_1 _let_158) (tptp.molecule_1 _let_158) (tptp.organic_molecule_1 _let_158) (tptp.pentose_1 _let_158) (tptp.carbohydrate_1 _let_158) (tptp.share_1 _let_154) (tptp.share_1 _let_152) (tptp.share_1 _let_150) (tptp.share_1 _let_134) (tptp.share_1 _let_127) (tptp.adenine_1 _let_173) (tptp.carbon_skeleton_1 _let_168) (tptp.atom_1 _let_166) (tptp.chemical_entity_1 _let_166) 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_let_107 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_104) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_98 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_94) (= _let_94 _let_96) (= _let_96 _let_96) (= _let_96 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_88) (= _let_88 _let_2) (= _let_41 _let_2) (= _let_2 _let_66) (= _let_15 _let_2) (= _let_2 _let_41) (= _let_41 _let_17) (= _let_16 _let_40) (= _let_66 _let_41) (= _let_41 _let_66) (= _let_66 _let_17) (= _let_17 _let_15) (= _let_15 _let_87) (= _let_85 _let_87) (= _let_87 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_66) (= _let_65 _let_15) (= _let_15 _let_80) (= _let_80 _let_80) (= _let_80 _let_41) (= _let_41 _let_79) (= _let_79 _let_40) (= _let_66 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_15) (= _let_15 _let_17) (= _let_17 _let_13) (= _let_13 _let_76) (= _let_76 _let_19) (= _let_19 _let_19) (= _let_19 _let_75) (= _let_75 _let_15) (= _let_15 _let_18) (= _let_18 _let_76) (= _let_76 _let_76) (= _let_76 _let_40) (= _let_40 _let_66) (= _let_66 _let_66) (= _let_66 _let_74) (= _let_74 _let_18) (= _let_18 _let_13) (= _let_13 _let_75) (= _let_75 _let_75) (= _let_75 _let_65) (= _let_65 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_53) (= _let_53 _let_73) (= _let_73 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_49 _let_71) (= _let_71 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_57) (= _let_69 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_69) (= _let_69 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_4) (= _let_4 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_58) (= _let_58 _let_57) (= _let_54 _let_54) (= _let_54 _let_57) (= _let_55 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_54) (= _let_54 _let_56) (= _let_56 _let_55) (= _let_53 _let_54) (= _let_55 _let_53) (= _let_53 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_38) (= _let_19 _let_38) (= _let_18 _let_39) (= _let_39 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_11) (= _let_11 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_14) (= _let_14 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_19) (= _let_19 _let_8) (= _let_8 _let_16) (= _let_16 _let_19) (= _let_19 _let_16) (= _let_18 _let_16) (= _let_16 _let_18) (= _let_18 _let_14) (= _let_12 _let_13) (= _let_12 _let_10) (= _let_38 _let_10) (= _let_10 _let_38) (= _let_38 _let_35) (= _let_35 _let_35) (= _let_35 _let_37) (= _let_37 _let_37) (= _let_37 _let_31) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_28) (= _let_28 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_20 _let_22) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.adrenal_cortex_1 X) (and (tptp.original_name_2 X |tptp.'Adrenal-Cortex'|) (tptp.user_description_2 X |tptp.'The outer region of the adrenal gland, associated with endocrine activity rather than nervous system activity; mediates the body_'s response to stress.'|) (tptp.concept2words_2 X |tptp.'cortex of adrenal'|) (tptp.concept2words_2 X |tptp.'adrenal cortex'|) (tptp.concept2words_2 X |tptp.'adrenal-cortex'|) (tptp.organ_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.adrenal_gland_1 X) (and (tptp.original_name_2 X |tptp.'Adrenal-Gland'|) (tptp.user_description_2 X |tptp.'One of a pair of endocrine glands that sit atop the kidneys in mammals. The adrenal glands release hormones in response to stress, synthesize corticosteroids and androgens, and affect kidney function by secreting the hormone aldosterone.'|) (tptp.concept2words_2 X |tptp.'gland of adrenal'|) (tptp.concept2words_2 X |tptp.'adrenal gland'|) (tptp.concept2words_2 X |tptp.'adrenal-gland'|) (tptp.endocrine_gland_1 X) (not (tptp.parathyroid_gland_1 X)) (not (tptp.pineal_gland_1 X)) (not (tptp.pituitary_gland_1 X)) (not (tptp.thyroid_gland_1 X))))) (forall ((X $$unsorted)) (=> (tptp.adrenal_medulla_1 X) (and (tptp.original_name_2 X |tptp.'Adrenal-Medulla'|) (tptp.user_description_2 X |tptp.'The inner portion of the adrenal gland, associated with nervous system secretions rather than endocrine secretions; secretes the neurotransmitters epinephrine, norepinephrine, and dopamine.'|) (tptp.concept2words_2 X |tptp.'medulla of adrenal'|) (tptp.concept2words_2 X |tptp.'adrenal medulla'|) (tptp.concept2words_2 X |tptp.'adrenal-medulla'|) (tptp.organ_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.adrenocorticotropic_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Adrenocorticotropic-Hormone'|) (tptp.user_description_2 X |tptp.'A tropic hormone secreted by the anterior pituitary gland; mediates the production and release of corticosteroids by the adrenal cortex.'|) (tptp.concept2words_2 X |tptp.'adrenocorticotropic hormone'|) (tptp.concept2words_2 X |tptp.'adrenocorticotropic-hormone'|) (tptp.peptide_hormone_1 X) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.adult_1 X) (and (tptp.original_name_2 X |tptp.'Adult'|) (tptp.user_description_2 X |tptp.'A fully developed organism from maturity onward is called as an 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(tptp.fn_animal_cell_19 X))) (let ((_let_12 (tptp.fn_stem_cell_36 X))) (let ((_let_13 (tptp.fn_rough_endoplasmic_reticulum_32 _let_5))) (let ((_let_14 (tptp.fn_stem_cell_26 X))) (let ((_let_15 (tptp.fn_animal_cell_62 X))) (let ((_let_16 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_17 (tptp.fn_rough_endoplasmic_reticulum_23 _let_5))) (let ((_let_18 (tptp.fn_stem_cell_15 X))) (let ((_let_19 (tptp.fn_animal_cell_73 X))) (let ((_let_20 (tptp.fn_stem_cell_21 X))) (let ((_let_21 (tptp.fn_animal_cell_58 X))) (let ((_let_22 (tptp.fn_stem_cell_45 X))) (let ((_let_23 (tptp.fn_animal_cell_18 X))) (let ((_let_24 (tptp.fn_stem_cell_35 X))) (let ((_let_25 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_1))) (let ((_let_26 (tptp.fn_rough_endoplasmic_reticulum_56 _let_5))) (let ((_let_27 (tptp.fn_stem_cell_43 X))) (let ((_let_28 (tptp.fn_animal_cell_20 X))) (let ((_let_29 (tptp.fn_stem_cell_17 X))) (let ((_let_30 (tptp.fn_animal_cell_54 X))) (let ((_let_31 (tptp.fn_stem_cell_33 X))) (let ((_let_32 (tptp.fn_animal_cell_78 X))) (let ((_let_33 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_1))) (let ((_let_34 (tptp.fn_stem_cell_23 X))) (let ((_let_35 (tptp.fn_animal_cell_82 X))) (let ((_let_36 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_1))) (let ((_let_37 (tptp.fn_stem_cell_41 X))) (let ((_let_38 (tptp.fn_animal_cell_90 X))) (let ((_let_39 (tptp.fn_stem_cell_13 X))) (let ((_let_40 (tptp.fn_animal_cell_81 X))) (let ((_let_41 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_1))) (let ((_let_42 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_1))) (let ((_let_43 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_44 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_45 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_46 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_47 (tptp.fn_smooth_endoplasmic_reticulum_39 _let_1))) (let ((_let_48 (tptp.fn_rough_endoplasmic_reticulum_52 _let_5))) (let ((_let_49 (tptp.fn_adult_stem_cell_9 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(tptp.anabolic_pathway_1 _let_80) (tptp.synthesis_of_lipid_1 _let_80) (tptp.cellular_work_1 _let_68) (tptp.active_transport_1 _let_68) (tptp.active_movement_of_ions_1 _let_68) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_68) (tptp.mixture_1 _let_51) (tptp.cytoplasm_1 _let_51) (tptp.tangible_entity_1 _let_55) (tptp.spatial_entity_1 _let_55) (tptp.biomembrane_1 _let_55) (tptp.plasma_membrane_1 _let_55) (tptp.animal_plasma_membrane_1 _let_55) (tptp.ribosome_1 _let_58) (tptp.eukaryotic_ribosome_1 _let_58) (tptp.eukaryotic_chromosome_1 _let_60) (tptp.chromosome_1 _let_60) (tptp.endoplasmic_reticulum_1 _let_5) (tptp.rough_endoplasmic_reticulum_1 _let_5) (tptp.endoplasmic_reticulum_1 _let_1) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.golgi_apparatus_1 _let_67) (tptp.tangible_entity_1 _let_66) (tptp.nucleus_1 _let_66) (tptp.centrosome_1 _let_70) (tptp.volume_value_1 _let_73) (tptp.surface_1 _let_79) (tptp.cell_pole_1 _let_75) (tptp.cell_pole_1 _let_76) (tptp.size_value_1 _let_72) (tptp.support_1 _let_71) (tptp.support_1 _let_78) (tptp.metabolic_pathway_1 _let_69) (tptp.catabolic_pathway_1 _let_69) (tptp.eukaryotic_cellular_respiration_1 _let_69) (tptp.synthesis_reaction_1 _let_64) (tptp.chemical_reaction_1 _let_64) (tptp.anabolic_pathway_1 _let_64) (tptp.metabolic_pathway_1 _let_64) (tptp.synthesis_of_lipid_1 _let_64) (tptp.tangible_entity_1 _let_56) (tptp.phospholipid_bilayer_1 _let_56) (tptp.substance_1 _let_52) (tptp.cytosol_1 _let_52) (tptp.create_1 _let_74) (tptp.produce_1 _let_74) (tptp.microtubule_1 _let_77) (tptp.substance_1 _let_81) (tptp.cytosol_1 _let_81) (tptp.tissue_1 _let_3) (tptp.centromere_1 _let_62) (tptp.chromosome_arm_1 _let_65) (tptp.chromosome_arm_1 _let_61) (tptp.transfer_1 _let_86) (tptp.transfer_1 _let_84) (tptp.spatial_entity_1 _let_82) (tptp.cisternal_space_1 _let_82) (tptp.move_1 _let_53) (tptp.peroxisome_1 _let_59) (tptp.transfer_1 _let_85) (tptp.transfer_1 _let_83) (tptp.spatial_entity_1 _let_48) (tptp.cisternal_space_1 _let_48) (tptp.cisternal_space_1 _let_47) (tptp.synthesis_reaction_1 _let_46) (tptp.synthesis_reaction_1 _let_45) (tptp.chemical_reaction_1 _let_44) (tptp.synthesis_of_lipid_1 _let_44) (tptp.chemical_reaction_1 _let_43) (tptp.synthesis_of_lipid_1 _let_43) (tptp.anabolic_pathway_1 _let_43) (tptp.synthesis_of_lipid_1 _let_42) (tptp.synthesis_of_lipid_1 _let_41) (tptp.golgi_apparatus_1 _let_36) (tptp.nucleus_1 _let_33) (tptp.eukaryotic_ribosome_1 _let_26) (tptp.eukaryotic_ribosome_1 _let_25) (tptp.substance_1 _let_17) (tptp.cytosol_1 _let_17) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.mixture_1 _let_13) (tptp.cytoplasm_1 _let_13) (tptp.tangible_entity_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.has_part_2 _let_51 _let_88) (tptp.has_part_2 _let_51 _let_90) (tptp.is_inside_2 _let_90 _let_89) (tptp.is_inside_2 _let_90 _let_87) (not (= _let_90 _let_88)) (not (= _let_88 _let_90)) (tptp.is_inside_2 _let_88 _let_89) (tptp.is_inside_2 _let_88 _let_87) (tptp.recipient_2 _let_86 _let_1) (tptp.recipient_2 _let_84 _let_5) (tptp.has_part_2 _let_3 X) (tptp.is_inside_2 _let_5 _let_81) (tptp.donor_2 _let_86 _let_5) (tptp.has_region_2 _let_5 _let_82) (tptp.agent_2 _let_84 _let_1) (tptp.has_region_2 _let_1 _let_82) (tptp.has_function_2 _let_1 _let_80) (tptp.site_2 _let_80 _let_1) (tptp.is_inside_2 _let_1 _let_81) (tptp.is_inside_2 _let_67 _let_81) (tptp.the_scalar_value_2 _let_72 tptp.big_0) (tptp.scalar_unit_class_2 _let_72 tptp.prokaryote_0) (tptp.has_part_2 X _let_67) (tptp.has_region_2 X _let_76) (tptp.is_inside_2 _let_51 _let_55) (tptp.site_2 _let_54 _let_49) (tptp.first_subevent_2 _let_50 _let_57) (tptp.result_2 _let_74 _let_77) (tptp.has_function_2 _let_77 _let_78) (tptp.object_2 _let_78 X) (tptp.has_region_2 X _let_79) (tptp.is_at_2 _let_56 _let_79) (tptp.site_2 _let_64 _let_1) (tptp.base_2 _let_64 X) (tptp.has_region_2 X _let_75) (tptp.is_opposite_2 _let_76 _let_75) (tptp.is_opposite_2 _let_75 _let_76) (tptp.size_2 X _let_72) (tptp.directly_proportional_2 _let_72 _let_73) (tptp.volume_2 X _let_73) (tptp.has_part_2 X _let_70) (tptp.has_function_2 _let_70 _let_74) (tptp.is_between_2 _let_51 _let_66) (tptp.is_between_2 _let_51 _let_55) (tptp.agent_2 _let_71 _let_55) (tptp.object_2 _let_71 X) (tptp.has_part_2 X _let_58) (tptp.has_function_2 X _let_69) (tptp.base_2 _let_69 X) (tptp.has_part_2 X _let_66) (tptp.is_near_2 _let_70 _let_66) (tptp.is_near_2 _let_66 _let_70) (tptp.base_2 _let_68 X) (tptp.has_function_2 X _let_68) (tptp.has_part_2 X _let_1) (not (= _let_5 _let_1)) (not (= _let_1 _let_5)) (tptp.is_inside_2 _let_60 _let_66) (tptp.is_inside_2 _let_66 _let_52) (tptp.is_inside_2 _let_67 _let_52) (tptp.site_2 _let_63 _let_49) (tptp.base_2 _let_63 X) (tptp.has_part_2 X _let_5) (tptp.abuts_2 _let_5 _let_1) (tptp.has_function_2 _let_1 _let_64) (tptp.abuts_2 _let_1 _let_5) (tptp.origin_2 _let_53 _let_59) (tptp.has_part_2 X _let_59) (tptp.has_part_2 X _let_60) (tptp.base_2 _let_57 X) (tptp.subevent_2 _let_50 _let_57) (tptp.site_2 _let_50 _let_49) (tptp.is_inside_2 _let_49 _let_52) (tptp.is_inside_2 _let_58 _let_52) (tptp.destination_2 _let_53 _let_49) (tptp.causes_2 _let_53 _let_54) (tptp.base_2 _let_54 X) (tptp.has_part_2 X _let_55) (tptp.has_part_2 _let_55 _let_56) (tptp.has_part_2 X _let_49) (tptp.has_function_2 _let_49 _let_50) (tptp.base_2 _let_50 X) (tptp.has_part_2 X _let_51) (tptp.has_part_2 _let_51 _let_52) (= X _let_4) (= _let_81 _let_17) (= _let_86 _let_85) (= _let_82 _let_48) (= _let_84 _let_83) (= _let_82 _let_47) (= _let_67 _let_36) (= _let_81 _let_16) (= _let_80 _let_46) (= _let_80 _let_45) (= _let_80 _let_44) (= _let_80 _let_43) (= _let_80 _let_42) (= _let_80 _let_41) (= (tptp.fn_adult_stem_cell_36 X) (tptp.fn_stem_cell_39 X)) (= (tptp.fn_adult_stem_cell_37 X) (tptp.fn_stem_cell_40 X)) (= _let_79 (tptp.fn_stem_cell_30 X)) (= _let_78 (tptp.fn_stem_cell_37 X)) (= _let_77 (tptp.fn_stem_cell_24 X)) (= _let_76 (tptp.fn_stem_cell_28 X)) (= _let_75 (tptp.fn_stem_cell_29 X)) (= _let_74 (tptp.fn_stem_cell_25 X)) (= _let_73 (tptp.fn_stem_cell_31 X)) (= _let_72 (tptp.fn_stem_cell_27 X)) (= _let_71 (tptp.fn_stem_cell_38 X)) (= _let_70 (tptp.fn_stem_cell_32 X)) (= _let_69 _let_40) (= _let_69 _let_39) (= X _let_2) (= _let_1 _let_30) (= _let_68 _let_38) (= _let_68 _let_37) (= _let_67 _let_35) (= _let_67 _let_34) (= _let_66 _let_33) (= _let_66 _let_32) (= _let_52 _let_15) (= _let_66 _let_31) (= _let_65 (tptp.fn_stem_cell_1 X)) (= _let_64 (tptp.fn_stem_cell_14 X)) (= _let_1 _let_29) (= _let_5 (tptp.fn_stem_cell_16 X)) (= _let_63 _let_28) (= _let_63 _let_27) (= _let_62 (tptp.fn_stem_cell_10 X)) (= _let_61 (tptp.fn_stem_cell_2 X)) (= _let_60 (tptp.fn_stem_cell_34 X)) (= _let_59 (tptp.fn_stem_cell_3 X)) (= _let_58 _let_26) (= _let_58 _let_25) (= _let_52 _let_16) (= _let_58 _let_24) (= _let_57 _let_23) (= _let_57 _let_22) (= _let_56 _let_21) (= _let_56 _let_20) (= _let_55 _let_19) (= _let_55 _let_18) (= _let_54 (tptp.fn_stem_cell_42 X)) (= _let_53 (tptp.fn_stem_cell_4 X)) (= _let_52 _let_17) (= _let_52 _let_14) (= X _let_6) (= _let_51 _let_13) (= _let_51 _let_12) (= _let_50 _let_11) (= _let_50 _let_10) (= _let_49 _let_9) (= _let_49 _let_8) (= _let_49 _let_7) (= _let_48 _let_47) (= _let_47 _let_17) (= _let_16 _let_16) (= _let_16 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_17 _let_16) (= _let_16 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_2) (= _let_2 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.adulthood_1 X) (and (tptp.original_name_2 X |tptp.'Adulthood'|) (tptp.user_description_2 X |tptp.'Adulthood is the period in development in which an organism has attained full physical and intellectual maturity.'|) (tptp.concept2words_2 X tptp.adulthood) (tptp.developmental_stage_1 X) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.adventitious_root_1 X) (and (tptp.original_name_2 X |tptp.'Adventitious-Root'|) (tptp.user_description_2 X |tptp.'A root that grows above ground from a stem or leaf.'|) (tptp.concept2words_2 X |tptp.'adventitious root'|) (tptp.concept2words_2 X |tptp.'adventitious-root'|) (tptp.root_1 X) (not (tptp.carrot_1 X)) (not (tptp.fibrous_root_1 X)) (not (tptp.lateral_root_1 X)) (not (tptp.radicle_1 X)) (not (tptp.taproot_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aerobe_16 X))) (let ((_let_2 (tptp.fn_nutritional_requirement_10 _let_1))) (let ((_let_3 (tptp.fn_aerobe_15 X))) (let ((_let_4 (tptp.fn_nutritional_requirement_9 _let_1))) (let ((_let_5 (tptp.fn_aerobe_14 X))) (let ((_let_6 (tptp.fn_nutritional_requirement_2 _let_1))) (let ((_let_7 (tptp.fn_aerobe_7 X))) (let ((_let_8 (tptp.fn_nutritional_requirement_8 _let_1))) (let ((_let_9 (tptp.fn_aerobe_13 X))) (let ((_let_10 (tptp.fn_nutritional_requirement_3 _let_1))) (let ((_let_11 (tptp.fn_aerobe_8 X))) (let ((_let_12 (tptp.fn_nutritional_requirement_7 _let_1))) (let ((_let_13 (tptp.fn_aerobe_12 X))) (let ((_let_14 (tptp.fn_nutritional_requirement_4 _let_1))) (let ((_let_15 (tptp.fn_aerobe_9 X))) (let ((_let_16 (tptp.fn_nutritional_requirement_6 _let_1))) (let ((_let_17 (tptp.fn_aerobe_11 X))) (let ((_let_18 (tptp.fn_nutritional_requirement_5 _let_1))) (let ((_let_19 (tptp.fn_aerobe_10 X))) (let ((_let_20 (tptp.fn_aerobe_6 X))) (let ((_let_21 (tptp.fn_carbon_source_2 _let_20))) (let ((_let_22 (tptp.fn_aerobe_17 X))) (let ((_let_23 (tptp.fn_aerobe_5 X))) (let ((_let_24 (tptp.fn_aerobe_4 X))) (let ((_let_25 (tptp.fn_aerobe_3 X))) (let ((_let_26 (tptp.fn_aerobe_2 X))) (let ((_let_27 (tptp.fn_aerobe_1 X))) (=> (tptp.aerobe_1 X) (and (tptp.original_name_2 X |tptp.'Aerobe'|) (tptp.user_description_2 X |tptp.'A cell or an organism which live in the presence of oxygen.'|) (tptp.concept2words_2 X tptp.aerobe) (tptp.ecological_role_1 X) (tptp.energy_source_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.nutrition_1 _let_24) (tptp.organism_1 _let_23) (tptp.carbon_source_1 _let_20) (tptp.potassium_1 _let_7) (tptp.calcium_1 _let_11) (tptp.sulfur_1 _let_15) (tptp.phosphorus_1 _let_19) (tptp.oxygen_1 _let_17) (tptp.nitrogen_1 _let_13) (tptp.hydrogen_1 _let_9) (tptp.carbon_1 _let_5) (tptp.iron_1 _let_3) (tptp.nutritional_requirement_1 _let_1) (tptp.organic_molecule_1 _let_22) (tptp.molecule_1 _let_21) (tptp.phosphorus_1 _let_18) (tptp.oxygen_1 _let_16) (tptp.sulfur_1 _let_14) (tptp.nitrogen_1 _let_12) (tptp.calcium_1 _let_10) (tptp.hydrogen_1 _let_8) (tptp.potassium_1 _let_6) (tptp.carbon_1 _let_4) (tptp.iron_1 _let_2) (tptp.in_event_2 X _let_24) (tptp.element_2 _let_1 _let_26) (tptp.plays_2 _let_25 _let_27) (tptp.result_2 _let_24 _let_26) (tptp.raw_material_2 _let_24 _let_25) (tptp.raw_material_2 _let_24 _let_22) (tptp.agent_2 _let_24 _let_23) (tptp.plays_2 _let_23 X) (tptp.plays_2 _let_22 _let_20) (tptp.element_2 _let_1 _let_19) (tptp.element_2 _let_1 _let_17) (tptp.element_2 _let_1 _let_15) (tptp.element_2 _let_1 _let_13) (tptp.element_2 _let_1 _let_11) (tptp.element_2 _let_1 _let_9) (tptp.element_2 _let_1 _let_7) (tptp.element_2 _let_1 _let_5) (tptp.element_2 _let_1 _let_3) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.aerobic_condition_1 X) (and (tptp.original_name_2 X |tptp.'Aerobic-Condition'|) (tptp.user_description_2 X |tptp.'A biological process which occurs in the presence of molecular oxygen.'|) (tptp.concept2words_2 X |tptp.'aerobic condition'|) (tptp.concept2words_2 X |tptp.'aerobic-condition'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.afferent_arteriole_1 X) (and (tptp.original_name_2 X |tptp.'Afferent-Arteriole'|) (tptp.user_description_2 X |tptp.'In the kidney, the blood vessel supplying a nephron.'|) (tptp.concept2words_2 X |tptp.'afferent arteriole'|) (tptp.concept2words_2 X |tptp.'afferent-arteriole'|) (tptp.arteriole_1 X) (not (tptp.efferent_arteriole_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aflatoxin_1 X))) (let ((_let_2 (tptp.fn_aflatoxin_2 X))) (let ((_let_3 (tptp.fn_aflatoxin_3 X))) (let ((_let_4 (tptp.fn_aflatoxin_4 X))) (let ((_let_5 (tptp.fn_toxin_1 _let_4))) (=> (tptp.aflatoxin_1 X) (and (tptp.original_name_2 X |tptp.'Aflatoxin'|) (tptp.user_description_2 X |tptp.'A class of carcinogenic substances secreted by some fungi.'|) (tptp.concept2words_2 X tptp.aflatoxin) (tptp.organic_entity_1 X) (tptp.organic_molecule_1 X) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.carbon_skeleton_1 _let_1) (tptp.carbon_1 _let_2) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.toxin_1 _let_4) (tptp.tangible_entity_1 _let_5) (tptp.plays_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_2 _let_1) (tptp.has_part_2 X _let_2) (not (= _let_3 _let_2)) (not (= _let_2 _let_3)) (= X _let_5) (= _let_3 (tptp.fn_organic_molecule_2 X)) (= _let_2 (tptp.fn_organic_molecule_1 X)) (= _let_1 (tptp.fn_organic_molecule_3 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X |tptp.'sleeping-sickness'|))) (let ((_let_2 (tptp.concept2words_2 X |tptp.'sleeping sickness'|))) (=> (tptp.african_sleeping_sickness_1 X) (and (tptp.original_name_2 X |tptp.'African-Sleeping-Sickness'|) (tptp.user_description_2 X |tptp.'A disease caused by the protozoan parasite Trypanosoma brucei, with a tse tse fly as the vector.'|) (tptp.concept2words_2 X |tptp.'human african trypanosomiasis'|) (tptp.concept2words_2 X |tptp.'human-african-trypanosomiasis'|) _let_2 _let_1 (tptp.concept2words_2 X |tptp.'african lethargy'|) (tptp.concept2words_2 X |tptp.'african-lethargy'|) (tptp.concept2words_2 X |tptp.'congo trypanosomiasis'|) (tptp.concept2words_2 X |tptp.'congo-trypanosomiasis'|) (tptp.concept2words_2 X |tptp.'congo fever'|) (tptp.concept2words_2 X |tptp.'congo-fever'|) _let_2 _let_1 (tptp.concept2words_2 X |tptp.'african sleeping sickness'|) (tptp.concept2words_2 X |tptp.'african-sleeping-sickness'|) (tptp.protozoan_disease_1 X) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.agar_1 X) (and (tptp.original_name_2 X |tptp.'Agar'|) (tptp.user_description_2 X |tptp.'Agar or agar-agar is a gelatinous substance derived from a polysaccharide that accumulates in the cell walls of agarophyte red algae.'|) (tptp.concept2words_2 X |tptp.'agar agar'|) (tptp.concept2words_2 X tptp.agar) (tptp.organic_entity_1 X) (tptp.semisolid_substance_1 X) (not (tptp.cytosol_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_agar_medium_1 X))) (=> (tptp.agar_medium_1 X) (and (tptp.original_name_2 X |tptp.'Agar-Medium'|) (tptp.user_description_2 X |tptp.'An example of bacterial growth medium is agar medium.'|) (tptp.concept2words_2 X |tptp.'medium of agar'|) (tptp.concept2words_2 X |tptp.'agar medium'|) (tptp.concept2words_2 X |tptp.'agar-medium'|) (tptp.culture_medium_1 X) (tptp.agar_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.age_constant_1 X) (and (tptp.original_name_2 X |tptp.'Age-Constant'|) (tptp.concept2words_2 X |tptp.'constant of age'|) (tptp.concept2words_2 X |tptp.'age constant'|) (tptp.concept2words_2 X |tptp.'age-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.age_scale_1 X) (and (tptp.original_name_2 X |tptp.'Age-Scale'|) (tptp.concept2words_2 X |tptp.'scale of age'|) (tptp.concept2words_2 X |tptp.'age scale'|) (tptp.concept2words_2 X |tptp.'age-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.age_structure_1 X) (and (tptp.original_name_2 X |tptp.'Age-Structure'|) (tptp.user_description_2 X |tptp.'The proportion of individuals in each age class of a population.'|) (tptp.concept2words_2 X |tptp.'structure of age'|) (tptp.concept2words_2 X |tptp.'age structure'|) (tptp.concept2words_2 X |tptp.'age-structure'|) (tptp.population_ecology_1 X) (not (tptp.sustainable_development_1 X)) (not (tptp.zero_population_growth_1 X))))) (forall ((X $$unsorted)) (=> (tptp.age_structure_diagram_1 X) (and (tptp.original_name_2 X |tptp.'Age-Structure-Diagram'|) (tptp.user_description_2 X |tptp.'A graphical illustration that shows the distribution of various age groups in a human population.'|) (tptp.concept2words_2 X |tptp.'age structure diagram'|) (tptp.concept2words_2 X |tptp.'age-structure diagram'|) (tptp.concept2words_2 X |tptp.'age-structure-diagram'|) (tptp.population_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_agent_role_1 X))) (=> (tptp.agent_role_1 X) (and (tptp.original_name_2 X |tptp.'Agent-Role'|) (tptp.concept2words_2 X tptp.agent) (tptp.concept2words_2 X |tptp.'causal agency'|) (tptp.concept2words_2 X tptp.causal_agency) (tptp.concept2words_2 X |tptp.'causal agent'|) (tptp.concept2words_2 X tptp.causal_agent) (tptp.concept2words_2 X tptp.cause) (tptp.concept2words_2 X |tptp.'role of agent'|) (tptp.concept2words_2 X |tptp.'agent role'|) (tptp.concept2words_2 X |tptp.'agent-role'|) (tptp.role_1 X) (tptp.entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.agentive_relation_1 X) (and (tptp.original_name_2 X |tptp.'Agentive-Relation'|) (tptp.concept2words_2 X |tptp.'agentive relation'|) (tptp.concept2words_2 X |tptp.'agentive-relation'|) (tptp.relation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.agglutination_1 X) (and (tptp.original_name_2 X |tptp.'Agglutination'|) (tptp.user_description_2 X |tptp.'Agglutination refers to the clumping or sticking together of various substances.'|) (tptp.concept2words_2 X tptp.agglutinate) (tptp.concept2words_2 X tptp.agglutination) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.aggregate_1 X) (and (tptp.original_name_2 X |tptp.'Aggregate'|) (tptp.description_2 X |tptp.'top level component for collections'|) (tptp.concept2words_2 X tptp.group) (tptp.concept2words_2 X tptp.whole) (tptp.concept2words_2 X |tptp.'whole thing'|) (tptp.concept2words_2 X tptp.whole_thing) (tptp.concept2words_2 X tptp.unit) (tptp.concept2words_2 X tptp.aggregate) (tptp.concept2words_2 X tptp.congeries) (tptp.concept2words_2 X tptp.conglomeration) (tptp.concept2words_2 X tptp.grouping) (tptp.concept2words_2 X tptp.complex) (tptp.entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.aggregate_fruit_1 X) (and (tptp.original_name_2 X |tptp.'Aggregate-Fruit'|) (tptp.user_description_2 X |tptp.'A fruit that develops from multiple ovaries that have merged together within a single flower.'|) (tptp.concept2words_2 X |tptp.'fruit of aggregate'|) (tptp.concept2words_2 X |tptp.'aggregate fruit'|) (tptp.concept2words_2 X |tptp.'aggregate-fruit'|) (tptp.fruit_1 X) (not (tptp.accessory_fruit_1 X))))) (forall ((X $$unsorted)) (=> (tptp.agonistic_behavior_1 X) (and (tptp.original_name_2 X |tptp.'Agonistic-Behavior'|) (tptp.user_description_2 X |tptp.'Any animal behavior that results from competition for a limited resource.'|) (tptp.concept2words_2 X |tptp.'agonistic behavior'|) (tptp.concept2words_2 X |tptp.'agonistic-behavior'|) (tptp.social_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.agricultural_process_1 X) (and (tptp.original_name_2 X |tptp.'Agricultural-Process'|) (tptp.user_description_2 X |tptp.'A process related to the production of food and goods through farming.'|) (tptp.concept2words_2 X |tptp.'agricultural process'|) (tptp.concept2words_2 X |tptp.'agricultural-process'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_agricultural_product_2 X))) (let ((_let_2 (tptp.fn_agricultural_product_1 X))) (=> (tptp.agricultural_product_1 X) (and (tptp.original_name_2 X |tptp.'Agricultural-Product'|) (tptp.user_description_2 X |tptp.'A useful product, such as a food or textile, that comes from agriculture.'|) (tptp.concept2words_2 X |tptp.'agricultural product'|) (tptp.concept2words_2 X |tptp.'agricultural-product'|) (tptp.useful_product_1 X) (tptp.agricultural_process_1 _let_2) (tptp.create_1 _let_1) (tptp.result_2 _let_2 X) (tptp.subevent_2 _let_2 _let_1) (tptp.result_2 _let_1 X) (= _let_1 (tptp.fn_artifact_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.agrobacterium_tumefaciens_1 X) (and (tptp.original_name_2 X |tptp.'Agrobacterium-Tumefaciens'|) (tptp.user_description_2 X |tptp.'A common soil bacterium, source of the Ti plasmid, which induces tumors in plants.'|) (tptp.concept2words_2 X |tptp.'agrobacterium tumefaciens'|) (tptp.concept2words_2 X |tptp.'agrobacterium tumefacien'|) (tptp.concept2words_2 X |tptp.'agrobacterium-tumefacien'|) (tptp.gram_negative_bacteria_1 X) (not (tptp.salmonella_1 X))))) (forall ((X $$unsorted)) (=> (tptp.aids_1 X) (and (tptp.original_name_2 X |tptp.'AIDS'|) (tptp.user_description_2 X |tptp.'A disease of the human immune system caused by the human immunodeficiency virus (HIV). This condition progressively reduces the effectiveness of the immune system and leaves individuals susceptible to opportunistic infections and tumors.'|) (tptp.concept2words_2 X |tptp.'acquired immunodeficiency syndrome'|) (tptp.concept2words_2 X |tptp.'acquired-immunodeficiency-syndrome'|) (tptp.concept2words_2 X tptp.aids) (tptp.concept2words_2 X |tptp.'acquired immune deficiency syndrome'|) (tptp.concept2words_2 X |tptp.'acquired-immune-deficiency-syndrome'|) (tptp.concept2words_2 X tptp.aid) (tptp.viral_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.air_1 X) (and (tptp.original_name_2 X |tptp.'Air'|) (tptp.concept2words_2 X tptp.air) (tptp.concept2words_2 X tptp.wind) (tptp.gas_substance_1 X) (not (tptp.vapor_1 X)) (not (tptp.nitric_oxide_gas_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_air_space_1 X))) (=> (tptp.air_space_1 X) (and (tptp.original_name_2 X |tptp.'Air-Space'|) (tptp.user_description_2 X |tptp.'The space with air in it.'|) (tptp.concept2words_2 X |tptp.'air space'|) (tptp.concept2words_2 X |tptp.'space of air'|) (tptp.concept2words_2 X |tptp.'air-space'|) (tptp.space_1 X) (tptp.air_1 _let_1) (tptp.is_inside_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.air_water_interface_1 X) (and (tptp.original_name_2 X |tptp.'Air-Water-Interface'|) (tptp.user_description_2 X |tptp.'Region of contact between air and the surface of a body of water.'|) (tptp.concept2words_2 X |tptp.'air water interface'|) (tptp.concept2words_2 X |tptp.'air-water-interface'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_amino_acid_20 X))) (let ((_let_2 (tptp.fn_amino_acid_24 X))) (let ((_let_3 (tptp.fn_alanine_29 X))) (let ((_let_4 (tptp.fn_hold_2 _let_3))) (let ((_let_5 (tptp.fn_alanine_30 X))) (let ((_let_6 (tptp.fn_hold_2 _let_5))) (let ((_let_7 (tptp.fn_alanine_31 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_alanine_33 X))) (let ((_let_10 (tptp.fn_hold_2 _let_9))) (let ((_let_11 (tptp.fn_alanine_34 X))) (let ((_let_12 (tptp.fn_hold_2 _let_11))) (let ((_let_13 (tptp.fn_alanine_35 X))) (let ((_let_14 (tptp.fn_hold_2 _let_13))) (let ((_let_15 (tptp.fn_alanine_36 X))) (let ((_let_16 (tptp.fn_hold_2 _let_15))) (let ((_let_17 (tptp.fn_alanine_70 X))) (let ((_let_18 (tptp.fn_hold_2 _let_17))) (let ((_let_19 (tptp.fn_alanine_101 X))) (let ((_let_20 (tptp.fn_share_1 _let_19))) (let ((_let_21 (tptp.fn_alanine_10 X))) (let ((_let_22 (tptp.fn_share_1 _let_21))) (let ((_let_23 (tptp.fn_alanine_38 X))) (let ((_let_24 (tptp.fn_share_1 _let_23))) (let ((_let_25 (tptp.fn_alanine_44 X))) (let ((_let_26 (tptp.fn_share_1 _let_25))) (let ((_let_27 (tptp.fn_alanine_45 X))) (let ((_let_28 (tptp.fn_share_1 _let_27))) (let ((_let_29 (tptp.fn_alanine_46 X))) (let ((_let_30 (tptp.fn_share_1 _let_29))) (let ((_let_31 (tptp.fn_alanine_74 X))) (let ((_let_32 (tptp.fn_share_1 _let_31))) (let ((_let_33 (tptp.fn_share_3 _let_19))) (let ((_let_34 (tptp.fn_share_3 _let_21))) (let ((_let_35 (tptp.fn_share_3 _let_23))) (let ((_let_36 (tptp.fn_alanine_100 X))) (let ((_let_37 (tptp.fn_share_3 _let_36))) (let ((_let_38 (tptp.fn_alanine_96 X))) (let ((_let_39 (tptp.fn_share_3 _let_38))) (let ((_let_40 (tptp.fn_alanine_95 X))) (let ((_let_41 (tptp.fn_share_3 _let_40))) (let ((_let_42 (tptp.fn_alanine_94 X))) (let ((_let_43 (tptp.fn_share_3 _let_42))) (let ((_let_44 (tptp.fn_alanine_89 X))) (let ((_let_45 (tptp.fn_share_3 _let_44))) (let ((_let_46 (tptp.fn_alanine_84 X))) (let ((_let_47 (tptp.fn_share_3 _let_46))) (let ((_let_48 (tptp.fn_alanine_88 X))) (let ((_let_49 (tptp.fn_share_3 _let_48))) (let ((_let_50 (tptp.fn_alanine_85 X))) (let ((_let_51 (tptp.fn_share_3 _let_50))) (let ((_let_52 (tptp.fn_alanine_87 X))) (let ((_let_53 (tptp.fn_share_3 _let_52))) (let ((_let_54 (tptp.fn_alanine_86 X))) (let ((_let_55 (tptp.fn_share_3 _let_54))) (let ((_let_56 (tptp.fn_alanine_77 X))) (let ((_let_57 (tptp.fn_carbon_17 _let_56))) (let ((_let_58 (tptp.fn_atom_8 _let_56))) (let ((_let_59 (tptp.fn_carbon_18 _let_56))) (let ((_let_60 (tptp.fn_alanine_79 X))) (let ((_let_61 (tptp.fn_nonpolar_covalent_bond_19 _let_60))) (let ((_let_62 (tptp.fn_nonpolar_covalent_bond_23 _let_60))) (let ((_let_63 (tptp.fn_atom_18 _let_56))) (let ((_let_64 (tptp.fn_carbon_16 _let_56))) (let ((_let_65 (tptp.fn_atom_17 _let_56))) (let ((_let_66 (tptp.fn_carbon_19 _let_56))) (let ((_let_67 (tptp.fn_atom_11 _let_56))) (let ((_let_68 (tptp.fn_carbon_2 _let_56))) (let ((_let_69 (tptp.fn_nonpolar_covalent_bond_1 _let_60))) (let ((_let_70 (tptp.fn_carbon_13 _let_56))) (let ((_let_71 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_let_171 _let_168) (tptp.object_2 _let_171 _let_56) (tptp.has_region_2 _let_56 _let_172) (not (= _let_173 _let_172)) (not (= _let_172 _let_173)) (tptp.object_2 _let_169 _let_168) (tptp.object_2 _let_169 _let_170) (not (= _let_170 _let_167)) (not (= _let_167 _let_170)) (not (= _let_148 _let_167)) (not (= _let_167 _let_148)) (tptp.has_region_2 X _let_166) (tptp.is_inside_2 _let_167 _let_166) (not (= _let_167 _let_168)) (tptp.is_inside_2 _let_168 _let_166) (tptp.is_inside_2 _let_148 _let_166) (not (= _let_168 _let_167)) (tptp.is_at_2 _let_151 _let_165) (tptp.has_function_2 _let_60 _let_3) (tptp.agent_2 _let_3 _let_60) (tptp.result_2 _let_21 _let_60) (tptp.object_2 _let_21 _let_164) (tptp.is_near_2 _let_164 _let_151) (tptp.is_near_2 _let_151 _let_164) (tptp.called_2 _let_153 |tptp.'Number_Proton'|) (tptp.quantity_2 _let_150 _let_153) (tptp.called_2 _let_152 |tptp.'Atomic_Number'|) (tptp.electronegativity_2 _let_56 _let_158) (tptp.has_part_2 _let_56 _let_150) (tptp.is_inside_2 _let_150 _let_151) (tptp.has_region_2 _let_56 _let_151) (tptp.atomic_number_2 _let_56 _let_152) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_56 _let_55) (= _let_168 _let_94) (= _let_56 _let_53) (= _let_56 _let_51) (= _let_148 _let_112) (= _let_168 _let_93) (= _let_56 _let_49) (= _let_56 _let_47) (= _let_148 _let_111) (= _let_148 _let_110) (= _let_56 _let_45) (= _let_168 _let_90) (= _let_168 _let_92) (= _let_56 _let_32) (= _let_56 _let_43) (= _let_168 _let_89) (= _let_168 _let_91) (= _let_56 _let_30) (= _let_56 _let_41) (= _let_168 _let_88) (= _let_148 _let_109) (= _let_56 _let_28) (= _let_56 _let_39) (= _let_148 _let_115) (= _let_148 _let_108) (= _let_56 _let_26) (= _let_148 _let_114) (= _let_148 _let_107) (= _let_148 _let_113) (= _let_148 _let_105) (= _let_56 _let_37) (= _let_56 _let_35) (= _let_56 _let_24) (= _let_167 _let_84) (= _let_56 _let_34) (= _let_56 _let_22) (= _let_56 _let_33) (= _let_56 _let_20) (= _let_56 _let_18) (= _let_148 _let_103) (= _let_56 _let_16) (= _let_170 _let_122) (= _let_56 _let_14) (= _let_170 _let_120) (= _let_56 _let_12) (= _let_148 _let_101) (= _let_56 _let_10) (= _let_148 _let_99) (= _let_56 _let_8) (= _let_170 _let_118) (= _let_56 _let_6) (= _let_148 _let_97) (= _let_56 _let_4) (= _let_222 _let_221) (= X _let_220) (= _let_217 _let_149) (= _let_36 _let_163) (= _let_23 _let_163) (= (tptp.fn_alanine_57 X) _let_218) (= _let_158 _let_69) (= _let_217 _let_147) (= (tptp.fn_alanine_55 X) (tptp.fn_amino_acid_3 X)) (= (tptp.fn_alanine_54 X) (tptp.fn_amino_acid_4 X)) (= _let_173 _let_129) (= _let_104 (tptp.fn_amino_acid_18 X)) (= _let_183 _let_140) (= _let_148 _let_95) (= _let_216 (tptp.fn_amino_acid_12 X)) (= _let_215 (tptp.fn_amino_acid_10 X)) (= _let_168 _let_87) (= _let_182 _let_140) (= _let_56 _let_2) (= _let_214 (tptp.fn_amino_acid_13 X)) (= _let_170 _let_116) (= _let_213 (tptp.fn_amino_acid_25 X)) (= _let_212 (tptp.fn_amino_acid_5 X)) (= _let_211 (tptp.fn_amino_acid_6 X)) (= _let_210 (tptp.fn_amino_acid_7 X)) (= _let_209 (tptp.fn_amino_acid_16 X)) (= _let_186 _let_144) (= _let_106 (tptp.fn_hydrophobic_amino_acid_78 X)) (= _let_19 (tptp.fn_hydrophobic_amino_acid_44 X)) (= _let_208 _let_146) (= _let_208 _let_131) (= _let_167 _let_83) (= _let_167 _let_82) (= _let_5 (tptp.fn_hydrophobic_amino_acid_41 X)) (= _let_207 (tptp.fn_hydrophobic_amino_acid_18 X)) (= _let_206 (tptp.fn_hydrophobic_amino_acid_80 X)) (= _let_205 (tptp.fn_hydrophobic_amino_acid_62 X)) (= _let_204 (tptp.fn_hydrophobic_amino_acid_26 X)) (= _let_203 (tptp.fn_hydrophobic_amino_acid_79 X)) (= _let_202 (tptp.fn_hydrophobic_amino_acid_43 X)) (= _let_200 _let_146) (= _let_201 (tptp.fn_hydrophobic_amino_acid_45 X)) (= _let_200 _let_145) (= _let_199 (tptp.fn_hydrophobic_amino_acid_63 X)) (= _let_198 (tptp.fn_hydrophobic_amino_acid_42 X)) (= _let_194 _let_144) (= _let_197 (tptp.fn_hydrophobic_amino_acid_35 X)) (= _let_196 (tptp.fn_hydrophobic_amino_acid_15 X)) (= _let_195 (tptp.fn_hydrophobic_amino_acid_31 X)) (= _let_117 _let_136) (= _let_194 _let_142) (= _let_193 (tptp.fn_hydrophobic_amino_acid_9 X)) (= _let_192 _let_141) (= _let_165 _let_78) (= _let_191 (tptp.fn_hydrophobic_amino_acid_16 X)) (= _let_190 (tptp.fn_hydrophobic_amino_acid_81 X)) (= _let_189 (tptp.fn_hydrophobic_amino_acid_6 X)) (= _let_184 _let_142) (= _let_60 (tptp.fn_hydrophobic_amino_acid_19 X)) (= _let_176 _let_131) (= _let_188 (tptp.fn_hydrophobic_amino_acid_29 X)) (= _let_187 (tptp.fn_hydrophobic_amino_acid_28 X)) (= _let_170 _let_80) (= _let_96 (tptp.fn_hydrophobic_amino_acid_68 X)) (= _let_186 _let_143) (= _let_185 _let_134) (= _let_184 _let_141) (= _let_183 _let_139) (= _let_180 _let_136) (= _let_182 _let_139) (= _let_181 _let_138) (= _let_179 _let_134) (= _let_181 _let_137) (= _let_180 _let_135) (= _let_168 _let_86) (= _let_173 _let_126) (= _let_179 _let_133) (= _let_178 _let_132) (= _let_178 _let_128) (= _let_148 _let_85) (= _let_177 _let_124) (= _let_164 _let_73) (= _let_176 _let_130) (= _let_167 _let_81) (= _let_175 _let_137) (= _let_174 (tptp.fn_hydrophobic_amino_acid_69 X)) (= _let_171 _let_124) (= _let_172 _let_126) (= _let_173 _let_128) (= _let_172 _let_127) (= _let_172 _let_125) (= _let_56 _let_1) (= _let_171 _let_123) (= _let_170 _let_81) (= _let_169 (tptp.fn_hydrophobic_amino_acid_1 X)) (= _let_148 _let_86) (= _let_168 _let_85) (= _let_167 _let_80) (= _let_166 (tptp.fn_hydrophobic_amino_acid_27 X)) (= _let_165 _let_79) (= _let_165 _let_77) (= _let_164 _let_76) (= _let_164 _let_75) (= _let_151 _let_62) (= _let_151 _let_61) (= _let_164 _let_74) (= _let_164 _let_72) (= _let_21 _let_163) (= _let_3 _let_162) (= _let_161 _let_71) (= _let_161 _let_70) (= (tptp.fn_alanine_27 X) _let_160) (= (tptp.fn_alanine_56 X) _let_159) (= _let_158 _let_68) (= _let_157 _let_156) (= (tptp.fn_alanine_26 X) _let_155) (= (tptp.fn_alanine_53 X) _let_154) (= _let_153 _let_67) (= _let_153 _let_66) (= _let_152 _let_65) (= _let_152 _let_64) (= _let_151 _let_63) (= _let_151 _let_59) (= _let_150 _let_58) (= _let_150 _let_57) (= _let_149 _let_147) (= _let_147 _let_147) (= _let_147 _let_146) (= _let_146 _let_131) (= _let_131 _let_146) (= _let_146 _let_146) (= _let_146 _let_145) (= _let_145 _let_144) (= _let_144 _let_142) (= _let_142 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_143 _let_142) (= _let_142 _let_142) (= _let_142 _let_141) (= _let_141 _let_140) (= _let_139 _let_139) (= _let_139 _let_140) (= _let_140 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_138 _let_137) (= _let_137 _let_137) (= _let_137 _let_136) (= _let_136 _let_136) (= _let_136 _let_135) (= _let_135 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_134 _let_133) (= _let_133 _let_133) (= _let_133 _let_128) (= _let_128 _let_132) (= _let_132 _let_128) (= _let_128 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_126) (= _let_126 _let_126) (= _let_126 _let_128) (= _let_128 _let_128) (= _let_128 _let_126) (= _let_126 _let_127) (= _let_127 _let_125) (= _let_125 _let_126) (= _let_126 _let_125) (= _let_125 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_120) (= _let_120 _let_118) (= _let_118 _let_116) (= _let_116 _let_116) (= _let_116 _let_80) (= _let_81 _let_112) (= _let_109 _let_115) (= _let_115 _let_108) (= _let_108 _let_114) (= _let_114 _let_107) (= _let_107 _let_113) (= _let_113 _let_105) (= _let_105 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_105) (= _let_105 _let_103) (= _let_97 _let_103) (= _let_103 _let_101) (= _let_101 _let_99) (= _let_99 _let_97) (= _let_97 _let_95) (= _let_95 _let_95) (= _let_95 _let_85) (= _let_86 _let_94) (= _let_94 _let_93) (= _let_93 _let_90) (= _let_90 _let_92) (= _let_92 _let_89) (= _let_89 _let_91) (= _let_91 _let_88) (= _let_88 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_85 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_80 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_78) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_59 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_53) (= _let_53 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_45) (= _let_45 _let_32) (= _let_32 _let_43) (= _let_43 _let_30) (= _let_30 _let_41) (= _let_41 _let_28) (= _let_28 _let_39) (= _let_39 _let_26) (= _let_26 _let_37) (= _let_37 _let_35) (= _let_35 _let_24) (= _let_24 _let_34) (= _let_34 _let_22) (= _let_22 _let_33) (= _let_33 _let_20) (= _let_20 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_4 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_albumin_2 X))) (let ((_let_2 (tptp.fn_albumin_1 X))) (=> (tptp.albumin_1 X) (and (tptp.original_name_2 X |tptp.'Albumin'|) (tptp.user_description_2 X |tptp.'The white part of an egg, which contains water and proteins.'|) (tptp.concept2words_2 X |tptp.'egg white'|) (tptp.concept2words_2 X |tptp.'egg-white'|) (tptp.concept2words_2 X tptp.albumin) (tptp.organic_entity_1 X) (tptp.semisolid_substance_1 X) (tptp.water_1 _let_2) (tptp.protein_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.albuterol_1 X) (and (tptp.original_name_2 X |tptp.'Albuterol'|) (tptp.user_description_2 X |tptp.'Albuterol is a bronchodilator that relaxes muscles in the airways and increases air flow to the lungs'|) (tptp.concept2words_2 X tptp.albuterol) (tptp.molecule_1 X) (tptp.drug_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_albuterol_isomer_1 X))) (=> (tptp.albuterol_isomer_1 X) (and (tptp.original_name_2 X |tptp.'Albuterol-Isomer'|) (tptp.user_description_2 X |tptp.'One of the two forms of albuterol, each with the same atomic parts, but different structure, shape and function.'|) (tptp.concept2words_2 X |tptp.'isomer of albuterol'|) (tptp.concept2words_2 X |tptp.'albuterol isomer'|) (tptp.concept2words_2 X |tptp.'albuterol-isomer'|) (tptp.drug_1 X) (tptp.isomer_1 X) (tptp.albuterol_1 _let_1) (tptp.has_state_2 _let_1 X) (tptp.has_isomer_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcohol_4 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_alcohol_3 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_hydroxyl_group_4 _let_3))) (let ((_let_6 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_7 (tptp.fn_organic_molecule_2 X))) (let ((_let_8 (tptp.fn_hydroxyl_group_7 _let_3))) (let ((_let_9 (tptp.fn_molecule_10 X))) (let ((_let_10 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_11 (tptp.fn_organic_molecule_1 X))) (let ((_let_12 (tptp.fn_alcohol_10 X))) (let ((_let_13 (tptp.fn_alcohol_1 X))) (let ((_let_14 (tptp.fn_alcohol_2 X))) (let ((_let_15 (tptp.fn_alcohol_5 X))) (let ((_let_16 (tptp.fn_hydroxyl_group_6 _let_3))) (let ((_let_17 (tptp.fn_alcohol_6 X))) (let ((_let_18 (tptp.fn_alcohol_8 X))) (let ((_let_19 (tptp.fn_alcohol_9 X))) (let ((_let_20 (tptp.fn_alcohol_7 X))) (=> (tptp.alcohol_1 X) (and (tptp.original_name_2 X |tptp.'Alcohol'|) (tptp.user_description_2 X |tptp.'An alcohol is an organic compound in which a hydroxyl functional group (-OH) is bound to a carbon atom, usually connected to other carbon or hydrogen atoms.'|) (tptp.concept2words_2 X |tptp.'r oh'|) (tptp.concept2words_2 X |tptp.'r-oh'|) (tptp.concept2words_2 X tptp.alcohol) (tptp.organic_molecule_1 X) (tptp.quantity_value_1 _let_13) (tptp.speed_value_1 _let_14) (tptp.hydroxyl_group_1 _let_3) (tptp.carbon_skeleton_1 _let_1) (tptp.constant_motion_1 _let_15) (tptp.hydrogen_1 _let_17) (tptp.carbon_1 _let_20) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.chemical_bond_1 _let_19) (tptp.polar_covalent_bond_1 _let_19) (tptp.kinetic_energy_1 _let_12) (tptp.hydrogen_1 _let_16) (tptp.carbon_1 _let_10) (tptp.polar_covalent_bond_1 _let_8) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.oxygen_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.has_part_2 X _let_17) (tptp.possesses_2 X _let_19) (tptp.has_region_2 X _let_3) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_20) (tptp.is_inside_2 _let_20 _let_1) (not (= _let_18 _let_20)) (not (= _let_20 _let_18)) (tptp.is_inside_2 _let_18 _let_3) (tptp.is_inside_2 _let_17 _let_3) (tptp.is_between_2 _let_19 _let_17) (tptp.is_between_2 _let_19 _let_18) (not (= _let_18 _let_17)) (not (= _let_17 _let_18)) (tptp.possesses_2 X _let_12) (tptp.quantity_2 _let_12 _let_13) (tptp.directly_proportional_2 _let_14 _let_13) (tptp.speed_2 _let_15 _let_14) (tptp.object_2 _let_15 X) (= _let_19 _let_9) (= X _let_4) (= _let_18 _let_7) (= _let_18 _let_6) (= _let_20 _let_11) (= _let_20 _let_10) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= X _let_2) (= _let_19 _let_8) (= _let_18 _let_5) (= _let_17 _let_16) (= (tptp.fn_alcohol_11 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_alcohol_12 X) (tptp.fn_molecule_1 X)) (= _let_15 (tptp.fn_molecule_8 X)) (= _let_14 (tptp.fn_molecule_3 X)) (= _let_13 (tptp.fn_molecule_4 X)) (= _let_12 (tptp.fn_molecule_12 X)) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcohol_dehydrogenase_24 X))) (let ((_let_2 (tptp.fn_alcohol_dehydrogenase_25 X))) (let ((_let_3 (tptp.fn_alcohol_dehydrogenase_21 X))) (let ((_let_4 (tptp.fn_alcohol_dehydrogenase_23 X))) (let ((_let_5 (tptp.fn_dehydrogenase_20 X))) (let ((_let_6 (tptp.fn_alcohol_dehydrogenase_26 X))) (let ((_let_7 (tptp.fn_alcohol_dehydrogenase_6 X))) (let ((_let_8 (tptp.fn_alcohol_dehydrogenase_20 X))) (let ((_let_9 (tptp.fn_alcohol_dehydrogenase_19 X))) (let ((_let_10 (tptp.fn_alcohol_dehydrogenase_14 X))) (let ((_let_11 (tptp.fn_alcohol_dehydrogenase_17 X))) (let ((_let_12 (tptp.fn_alcohol_dehydrogenase_16 X))) (let ((_let_13 (tptp.fn_alcohol_dehydrogenase_15 X))) (let ((_let_14 (tptp.fn_alcohol_dehydrogenase_22 X))) (let ((_let_15 (tptp.fn_alcohol_dehydrogenase_7 X))) (let ((_let_16 (tptp.fn_alcohol_dehydrogenase_8 X))) (let ((_let_17 (tptp.fn_alcohol_dehydrogenase_9 X))) (let ((_let_18 (tptp.fn_alcohol_dehydrogenase_11 X))) (let ((_let_19 (tptp.fn_alcohol_dehydrogenase_12 X))) (let ((_let_20 (tptp.fn_alcohol_dehydrogenase_5 X))) (let ((_let_21 (tptp.fn_alcohol_dehydrogenase_10 X))) (let ((_let_22 (tptp.fn_alcohol_dehydrogenase_18 X))) (let ((_let_23 (tptp.fn_alcohol_dehydrogenase_13 X))) (=> (tptp.alcohol_dehydrogenase_1 X) (and (tptp.original_name_2 X |tptp.'Alcohol-Dehydrogenase'|) (tptp.user_description_2 X |tptp.'Alcohol dehydrogenase catalyzes the oxidation of alcohols, using NAD+ or NADP+ as the electron acceptor.'|) (tptp.concept2words_2 X |tptp.'dehydrogenase of alcohol'|) (tptp.concept2words_2 X |tptp.'alcohol dehydrogenase'|) (tptp.concept2words_2 X |tptp.'alcohol-dehydrogenase'|) (tptp.dehydrogenase_1 X) (tptp.tangible_entity_1 _let_20) (tptp.electron_1 _let_20) (tptp.protein_domain_1 _let_7) (tptp.hydrophilic_region_1 _let_15) (tptp.surface_1 _let_16) (tptp.carbon_skeleton_1 _let_17) (tptp.monomer_1 _let_21) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.carbon_1 _let_18) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.carbon_1 _let_19) (tptp.size_value_1 _let_23) (tptp.constant_motion_1 _let_10) (tptp.kinetic_energy_1 _let_13) (tptp.quantity_value_1 _let_12) (tptp.speed_value_1 _let_11) (tptp.size_value_1 _let_22) (tptp.polypeptide_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.monomer_1 _let_8) (tptp.molecule_1 _let_8) (tptp.amino_acid_1 _let_8) (tptp.active_site_1 _let_3) (tptp.organic_molecule_1 _let_14) (tptp.attach_1 _let_4) (tptp.redox_reaction_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_6) (tptp.electron_1 _let_6) (= (tptp.fn_alcohol_dehydrogenase_4 X) (tptp.fn_dehydrogenase_41 X)) (= (tptp.fn_alcohol_dehydrogenase_3 X) (tptp.fn_dehydrogenase_39 X)) (= (tptp.fn_alcohol_dehydrogenase_2 X) (tptp.fn_dehydrogenase_40 X)) (= _let_23 (tptp.fn_dehydrogenase_18 X)) (= (tptp.fn_alcohol_dehydrogenase_1 X) (tptp.fn_dehydrogenase_38 X)) (= _let_22 (tptp.fn_dehydrogenase_33 X)) (= _let_21 (tptp.fn_dehydrogenase_10 X)) (= _let_20 _let_5) (= _let_19 (tptp.fn_dehydrogenase_28 X)) (= _let_18 (tptp.fn_dehydrogenase_11 X)) (= _let_17 (tptp.fn_dehydrogenase_14 X)) (= _let_16 (tptp.fn_dehydrogenase_16 X)) (= _let_15 (tptp.fn_dehydrogenase_15 X)) (= _let_14 (tptp.fn_dehydrogenase_22 X)) (= _let_13 (tptp.fn_dehydrogenase_12 X)) (= _let_12 (tptp.fn_dehydrogenase_35 X)) (= _let_11 (tptp.fn_dehydrogenase_36 X)) (= _let_10 (tptp.fn_dehydrogenase_32 X)) (= _let_9 (tptp.fn_dehydrogenase_37 X)) (= _let_8 (tptp.fn_dehydrogenase_34 X)) (= _let_7 (tptp.fn_dehydrogenase_13 X)) (= _let_6 _let_5) (= _let_4 (tptp.fn_dehydrogenase_9 X)) (= _let_3 (tptp.fn_dehydrogenase_17 X)) (= _let_2 (tptp.fn_dehydrogenase_30 X)) (= _let_1 (tptp.fn_dehydrogenase_29 X)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcohol_fermentation_34 X))) (let ((_let_2 (tptp.fn_nad_plus_20 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_1 _let_1))) (let ((_let_4 (tptp.fn_alcohol_fermentation_46 X))) (let ((_let_5 (tptp.fn_glycolysis_27 _let_4))) (let ((_let_6 (tptp.fn_nad_plus_1 _let_1))) (let ((_let_7 (tptp.fn_alcohol_fermentation_14 X))) (let ((_let_8 (tptp.fn_oxidation_10 _let_7))) (let ((_let_9 (tptp.fn_glycolysis_74 _let_4))) (let ((_let_10 (tptp.fn_fermentation_30 X))) (let ((_let_11 (tptp.fn_alcohol_fermentation_38 X))) (let ((_let_12 (tptp.fn_isomerization_reaction_1 _let_11))) (let ((_let_13 (tptp.fn_glycolysis_78 _let_4))) (let ((_let_14 (tptp.fn_fermentation_32 X))) (let ((_let_15 (tptp.fn_alcohol_fermentation_29 X))) (let ((_let_16 (tptp.fn_catabolic_pathway_10 _let_15))) (let ((_let_17 (tptp.fn_alcohol_fermentation_35 X))) (let ((_let_18 (tptp.fn_chemical_reaction_1 _let_17))) (let ((_let_19 (tptp.fn_oxidation_7 _let_7))) (let ((_let_20 (tptp.fn_alcohol_fermentation_28 X))) (let ((_let_21 (tptp.fn_redox_reaction_16 _let_20))) (let ((_let_22 (tptp.fn_redox_reaction_12 _let_20))) (let ((_let_23 (tptp.fn_alcohol_fermentation_45 X))) (let ((_let_24 (tptp.fn_decomposition_reaction_2 _let_23))) (let ((_let_25 (tptp.fn_oxidation_9 _let_7))) (let ((_let_26 (tptp.fn_redox_reaction_7 _let_20))) (let ((_let_27 (tptp.fn_redox_reaction_10 _let_20))) (let ((_let_28 (tptp.fn_fermentation_24 X))) (let ((_let_29 (tptp.fn_redox_reaction_2 _let_20))) (let ((_let_30 (tptp.fn_redox_reaction_13 _let_20))) (let ((_let_31 (tptp.fn_glycolysis_68 _let_4))) (let ((_let_32 (tptp.fn_glycolysis_16 _let_4))) (let ((_let_33 (tptp.fn_glycolysis_69 _let_4))) (let ((_let_34 (tptp.fn_alcohol_fermentation_40 X))) (let ((_let_35 (tptp.fn_synthesis_of_organic_molecule_1 _let_34))) (let ((_let_36 (tptp.fn_isomerization_reaction_2 _let_11))) (let ((_let_37 (tptp.fn_chemical_reaction_1 _let_20))) (let ((_let_38 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_39 (tptp.fn_alcohol_fermentation_42 X))) (let ((_let_40 (tptp.fn_waste_1 _let_39))) (let ((_let_41 (tptp.fn_catabolic_pathway_10 _let_4))) (let ((_let_42 (tptp.fn_glycolysis_75 _let_4))) (let ((_let_43 (tptp.fn_fermentation_31 X))) (let ((_let_44 (tptp.fn_synthesis_of_atp_13 _let_34))) (let ((_let_45 (tptp.fn_oxidation_1 _let_7))) (let ((_let_46 (tptp.fn_catabolic_pathway_4 _let_4))) (let ((_let_47 (tptp.fn_glycolysis_81 _let_4))) (let ((_let_48 (tptp.fn_synthesis_of_atp_22 _let_34))) (let ((_let_49 (tptp.fn_catabolic_pathway_2 _let_4))) (let ((_let_50 (tptp.fn_catabolic_pathway_2 X))) (let ((_let_51 (tptp.fn_glycolysis_80 _let_4))) (let ((_let_52 (tptp.fn_synthesis_of_atp_23 _let_34))) (let ((_let_53 (tptp.fn_catabolic_pathway_1 _let_4))) (let ((_let_54 (tptp.fn_synthesis_of_atp_26 _let_34))) (let ((_let_55 (tptp.fn_catabolic_pathway_1 X))) (let ((_let_56 (tptp.fn_glycolysis_73 _let_4))) (let ((_let_57 (tptp.fn_fermentation_49 X))) (let ((_let_58 (tptp.fn_glycolysis_77 _let_4))) (let ((_let_59 (tptp.fn_fermentation_17 X))) (let ((_let_60 (tptp.fn_glycolysis_15 _let_4))) (let ((_let_61 (tptp.fn_glycolysis_88 _let_4))) (let ((_let_62 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_let_93) (tptp.result_2 _let_34 _let_98) (tptp.raw_material_2 _let_11 _let_98) (tptp.result_2 _let_20 _let_99) (tptp.raw_material_2 _let_4 _let_100) (= _let_142 _let_141) (= _let_138 _let_72) (= _let_131 _let_67) (= _let_99 _let_40) (= _let_140 _let_139) (= _let_131 _let_65) (= _let_1 _let_18) (= _let_93 _let_24) (= _let_1 _let_16) (= _let_131 _let_64) (= _let_138 _let_70) (= _let_99 _let_38) (= (tptp.fn_alcohol_fermentation_26 X) (tptp.fn_fermentation_6 X)) (= _let_118 _let_57) (= _let_125 _let_62) (= _let_100 _let_43) (= _let_132 _let_69) (= _let_137 (tptp.fn_fermentation_4 X)) (= _let_96 _let_28) (= (tptp.fn_alcohol_fermentation_27 X) (tptp.fn_fermentation_5 X)) (= _let_136 (tptp.fn_fermentation_3 X)) (= _let_135 (tptp.fn_fermentation_2 X)) (= _let_1 _let_14) (= _let_20 (tptp.fn_fermentation_38 X)) (= _let_119 _let_59) (= _let_86 _let_10) (= _let_4 (tptp.fn_fermentation_33 X)) (= _let_110 _let_51) (= _let_134 _let_68) (= (tptp.fn_alcohol_fermentation_10 X) _let_133) (= _let_132 _let_68) (= _let_83 _let_5) (= _let_34 _let_33) (= _let_100 _let_42) (= _let_122 _let_31) (= _let_34 _let_32) (= _let_122 _let_60) (= _let_131 _let_63) (= (tptp.fn_alcohol_fermentation_11 X) _let_130) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_125 _let_61) (= _let_124 _let_123) (= _let_122 _let_33) (= _let_34 _let_31) (= _let_121 _let_120) (= _let_1 _let_13) (= _let_109 _let_47) (= _let_119 _let_58) (= _let_118 _let_56) (= _let_117 _let_116) (= _let_86 _let_12) (= _let_11 _let_115) (= _let_114 _let_113) (= _let_86 _let_9) (= _let_107 _let_45) (= (tptp.fn_alcohol_fermentation_54 X) _let_112) (= _let_111 _let_55) (= _let_110 _let_50) (= _let_111 _let_54) (= _let_111 _let_53) (= _let_110 _let_52) (= _let_110 _let_49) (= _let_100 _let_44) (= _let_109 _let_48) (= _let_109 _let_46) (= (tptp.fn_alcohol_fermentation_12 X) _let_108) (= _let_107 _let_30) (= (tptp.fn_alcohol_fermentation_13 X) _let_106) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_94 _let_26) (= _let_7 _let_101) (= _let_100 _let_41) (= _let_99 _let_37) (= _let_98 _let_36) (= _let_98 _let_35) (= _let_97 _let_30) (= _let_97 _let_29) (= _let_93 _let_22) (= _let_96 _let_27) (= _let_93 _let_21) (= _let_95 _let_19) (= _let_86 _let_8) (= _let_94 _let_25) (= _let_93 _let_19) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_83 _let_3) (= _let_88 _let_87) (= _let_86 _let_6) (= _let_85 _let_84) (= _let_83 _let_2) (= _let_82 _let_81) (= _let_80 _let_79) (= (tptp.fn_alcohol_fermentation_68 X) _let_78) (= _let_77 _let_76) (= (tptp.fn_alcohol_fermentation_67 X) _let_75) (= _let_74 _let_73) (= _let_72 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_31) (= _let_31 _let_60) (= _let_33 _let_60) (= _let_60 _let_60) (= _let_60 _let_33) (= _let_33 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_30) (= _let_30 _let_43) (= _let_43 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_10) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alcohol_fermentation_by_bacteria_1 X) (and (tptp.original_name_2 X 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(tptp.fn_alcohol_fermentation_43 X))) (let ((_let_30 (tptp.fn_glycolysis_69 _let_2))) (let ((_let_31 (tptp.fn_glycolysis_15 _let_2))) (let ((_let_32 (tptp.fn_glycolysis_108 _let_2))) (let ((_let_33 (tptp.fn_alcohol_fermentation_61 X))) (let ((_let_34 (tptp.fn_alcohol_fermentation_by_yeast_11 X))) (let ((_let_35 (tptp.fn_phosphate_group_22 _let_34))) (let ((_let_36 (tptp.fn_phosphate_group_5 _let_34))) (let ((_let_37 (tptp.fn_alcohol_fermentation_by_yeast_10 X))) (let ((_let_38 (tptp.fn_phosphate_group_22 _let_37))) (let ((_let_39 (tptp.fn_phosphate_group_5 _let_37))) (let ((_let_40 (tptp.fn_alcohol_fermentation_by_yeast_17 X))) (let ((_let_41 (tptp.fn_alcohol_fermentation_by_yeast_21 X))) (let ((_let_42 (tptp.fn_glycolysis_82 _let_2))) (let ((_let_43 (tptp.fn_alcohol_fermentation_by_yeast_24 X))) (let ((_let_44 (tptp.fn_glycolysis_65 _let_2))) (let ((_let_45 (tptp.fn_alcohol_fermentation_by_yeast_25 X))) (let ((_let_46 (tptp.fn_alcohol_fermentation_by_yeast_4 X))) (let ((_let_47 (tptp.fn_alcohol_fermentation_by_yeast_19 X))) (let ((_let_48 (tptp.fn_glycolysis_53 _let_2))) (let ((_let_49 (tptp.fn_alcohol_fermentation_by_yeast_27 X))) (let ((_let_50 (tptp.fn_glycolysis_91 _let_2))) (let ((_let_51 (tptp.fn_alcohol_fermentation_by_yeast_26 X))) (let ((_let_52 (tptp.fn_alcohol_fermentation_by_yeast_22 X))) (let ((_let_53 (tptp.fn_glycolysis_79 _let_2))) (let ((_let_54 (tptp.fn_alcohol_fermentation_by_yeast_18 X))) (let ((_let_55 (tptp.fn_alcohol_fermentation_by_yeast_13 X))) (let ((_let_56 (tptp.fn_alcohol_fermentation_by_yeast_20 X))) (let ((_let_57 (tptp.fn_glycolysis_27 _let_2))) (let ((_let_58 (tptp.fn_alcohol_fermentation_by_yeast_7 X))) (let ((_let_59 (tptp.fn_alcohol_fermentation_by_yeast_34 X))) (let ((_let_60 (tptp.fn_alcohol_fermentation_by_yeast_29 X))) (let ((_let_61 (tptp.fn_alcohol_fermentation_by_yeast_33 X))) (let ((_let_62 (tptp.fn_glycolysis_56 _let_2))) (let ((_let_63 (tptp.fn_alcohol_fermentation_by_yeast_32 X))) (let ((_let_64 (tptp.fn_alcohol_fermentation_by_yeast_3 X))) (let ((_let_65 (tptp.fn_glycolysis_68 _let_2))) (let ((_let_66 (tptp.fn_alcohol_fermentation_by_yeast_23 X))) (let ((_let_67 (tptp.fn_glycolysis_8 _let_2))) (let ((_let_68 (tptp.fn_alcohol_fermentation_by_yeast_36 X))) (let ((_let_69 (tptp.fn_alcohol_fermentation_by_yeast_12 X))) (let ((_let_70 (tptp.fn_alcohol_fermentation_by_yeast_35 X))) (let ((_let_71 (tptp.fn_alcohol_fermentation_by_yeast_15 X))) (let ((_let_72 (tptp.fn_alcohol_fermentation_by_yeast_28 X))) (let ((_let_73 (tptp.fn_alcohol_fermentation_by_yeast_5 X))) (let ((_let_74 (tptp.fn_alcohol_fermentation_by_yeast_6 X))) (let ((_let_75 (tptp.fn_alcohol_fermentation_by_yeast_8 X))) (let ((_let_76 (tptp.fn_alcohol_fermentation_by_yeast_9 X))) (let ((_let_77 (tptp.fn_alcohol_fermentation_by_yeast_14 X))) (let ((_let_78 (tptp.fn_alcohol_fermentation_by_yeast_1 X))) (let ((_let_79 (tptp.fn_alcohol_fermentation_by_yeast_2 X))) (=> (tptp.alcohol_fermentation_by_yeast_1 X) (and (tptp.original_name_2 X |tptp.'Alcohol-Fermentation-By-Yeast'|) (tptp.user_description_2 X |tptp.'Alcohol fermentation by yeast, is a biological process in which sugars such as glucose, fructose, and sucrose are converted into cellular energy and thereby produce ethanol and carbon dioxide as metabolic waste products. Yeasts perform this process in the absence of oxygen, ethanol fermentation is classified as anaerobic. Ethanol fermentation occurs in the production of alcoholic beverages and ethanol fuel, and in the rising of bread dough.'|) (tptp.concept2words_2 X tptp.ferment) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'alcohol fermentation by yeast'|) (tptp.concept2words_2 X |tptp.'alcohol-fermentation-by-yeast'|) (tptp.alcohol_fermentation_1 X) (tptp.time_interval_1 _let_78) (tptp.time_interval_1 _let_79) (tptp.spatial_entity_1 _let_64) (tptp.organic_molecule_1 _let_64) (tptp.pyruvate_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.activation_energy_1 _let_46) (tptp.free_energy_1 _let_73) (tptp.waste_product_1 _let_74) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.carbon_1 _let_58) (tptp.entity_1 _let_75) (tptp.chemical_entity_1 _let_75) (tptp.atom_1 _let_75) (tptp.oxygen_1 _let_75) (tptp.entity_1 _let_76) (tptp.chemical_entity_1 _let_76) (tptp.atom_1 _let_76) (tptp.oxygen_1 _let_76) (tptp.phosphate_group_1 _let_37) (tptp.phosphate_group_1 _let_34) (tptp.chemical_reaction_1 _let_69) (tptp.redox_reaction_1 _let_69) (tptp.spatial_entity_1 _let_55) (tptp.tangible_entity_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.organic_molecule_1 _let_55) (tptp.nad_plus_1 _let_55) (tptp.molecule_1 _let_55) (tptp.yeast_1 _let_77) (tptp.decarboxylation_1 _let_71) (tptp.catabolic_pathway_1 _let_2) (tptp.glycolysis_1 _let_2) (tptp.organic_molecule_1 _let_40) (tptp.molecule_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.ribonucleotide_1 _let_40) (tptp.nucleoside_triphosphate_1 _let_40) (tptp.atp_1 _let_40) (tptp.organic_molecule_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.molecule_1 _let_54) (tptp.glyceraldehyde_3_phosphate_1 _let_54) (tptp.energy_investment_phase_of_glycolysis_1 _let_47) (tptp.chemical_entity_1 _let_56) (tptp.organic_molecule_1 _let_56) (tptp.nadh_1 _let_56) (tptp.molecule_1 _let_56) (tptp.molecule_1 _let_41) (tptp.organic_molecule_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.adp_1 _let_41) (tptp.molecule_1 _let_52) (tptp.chemical_entity_1 _let_52) (tptp.organic_molecule_1 _let_52) (tptp.adp_1 _let_52) (tptp.chemical_energy_1 _let_66) (tptp.entity_1 _let_43) (tptp.mixture_1 _let_43) (tptp.cytoplasm_1 _let_43) (tptp.cell_1 _let_45) (tptp.protein_enzyme_1 _let_51) (tptp.protein_enzyme_1 _let_49) (tptp.water_molecule_1 _let_72) (tptp.organic_molecule_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.monosaccharide_1 _let_60) (tptp.glucose_1 _let_60) (tptp.aldehyde_1 _let_60) (tptp.carbohydrate_1 _let_60) (tptp.aldose_1 _let_60) (tptp.chemical_reaction_1 _let_10) (tptp.synthesis_of_atp_1 _let_10) (tptp.substrate_level_phosphorylation_1 _let_10) (tptp.anabolic_pathway_1 _let_10) (tptp.synthesis_of_organic_molecule_1 _let_8) (tptp.chemical_reaction_1 _let_8) (tptp.synthesis_of_atp_1 _let_8) (tptp.substrate_level_phosphorylation_1 _let_8) (tptp.enzymatic_reaction_1 _let_63) (tptp.structural_complexity_value_1 _let_61) (tptp.chemical_energy_1 _let_59) (tptp.tangible_entity_1 _let_70) (tptp.carbon_dioxide_1 _let_70) (tptp.ethyl_alcohol_1 _let_68) (tptp.property_node_1 _let_67) (tptp.chemical_reaction_1 _let_65) (tptp.synthesis_of_atp_1 _let_65) (tptp.substrate_level_phosphorylation_1 _let_65) (tptp.anabolic_pathway_1 _let_65) (tptp.enzymatic_reaction_1 _let_62) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.carbon_1 _let_57) (tptp.organic_molecule_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.molecule_1 _let_53) (tptp.glyceraldehyde_3_phosphate_1 _let_53) (tptp.protein_enzyme_1 _let_50) (tptp.protein_enzyme_1 _let_48) (tptp.cell_1 _let_44) (tptp.entity_1 _let_42) (tptp.mixture_1 _let_42) (tptp.cytoplasm_1 _let_42) (tptp.oxygen_1 _let_39) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.oxygen_1 _let_38) (tptp.oxygen_1 _let_36) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.chemical_energy_1 _let_32) (tptp.chemical_reaction_1 _let_31) (tptp.synthesis_of_atp_1 _let_31) (tptp.substrate_level_phosphorylation_1 _let_31) (tptp.synthesis_of_organic_molecule_1 _let_30) (tptp.chemical_reaction_1 _let_30) (tptp.synthesis_of_atp_1 _let_30) (tptp.substrate_level_phosphorylation_1 _let_30) (tptp.pyruvate_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.structural_complexity_value_1 _let_27) (tptp.structural_complexity_value_1 _let_26) (tptp.chemical_entity_1 _let_24) (tptp.monosaccharide_1 _let_24) (tptp.glucose_1 _let_24) (tptp.aldehyde_1 _let_24) (tptp.carbohydrate_1 _let_24) (tptp.aldose_1 _let_24) (tptp.chemical_energy_1 _let_22) (tptp.organic_molecule_1 _let_20) (tptp.nadh_1 _let_20) (tptp.molecule_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.organic_molecule_1 _let_18) (tptp.nad_plus_1 _let_18) (tptp.molecule_1 _let_18) (tptp.energy_investment_phase_of_glycolysis_1 _let_16) (tptp.activation_energy_1 _let_14) (tptp.molecule_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.ribonucleotide_1 _let_13) (tptp.nucleoside_triphosphate_1 _let_13) (tptp.atp_1 _let_13) (tptp.molecule_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.ribonucleotide_1 _let_12) (tptp.nucleoside_triphosphate_1 _let_12) (tptp.atp_1 _let_12) (tptp.organic_molecule_1 _let_11) (tptp.molecule_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.ribonucleotide_1 _let_11) (tptp.nucleoside_triphosphate_1 _let_11) (tptp.atp_1 _let_11) (tptp.organic_molecule_1 _let_9) (tptp.molecule_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.ribonucleotide_1 _let_9) (tptp.nucleoside_triphosphate_1 _let_9) (tptp.atp_1 _let_9) (tptp.organic_molecule_1 _let_6) (tptp.molecule_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.ribonucleotide_1 _let_6) (tptp.nucleoside_triphosphate_1 _let_6) (tptp.atp_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.adp_1 _let_5) (tptp.organic_molecule_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.adp_1 _let_4) (tptp.molecule_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.adp_1 _let_3) (tptp.in_event_2 _let_74 X) (not (= _let_58 _let_76)) (not (= _let_58 _let_75)) (not (= _let_75 _let_58)) (not (= _let_76 _let_58)) (tptp.time_during_2 _let_69 _let_78) (tptp.time_during_2 _let_2 _let_79) (tptp.time_before_2 _let_79 _let_78) (tptp.the_scalar_value_2 _let_61 tptp.complex_0) (tptp.scalar_unit_class_2 _let_61 tptp.chemical_entity_0) (tptp.base_2 X _let_77) (tptp.result_2 _let_10 _let_40) (tptp.is_inside_2 _let_76 _let_37) (tptp.result_2 _let_8 _let_40) (tptp.is_inside_2 _let_75 _let_34) (tptp.raw_material_2 X _let_46) (tptp.result_2 X _let_73) (tptp.plays_2 _let_73 _let_74) (tptp.possesses_2 _let_40 _let_59) (tptp.result_2 X _let_56) (tptp.raw_material_2 _let_47 _let_40) (tptp.subevent_2 X _let_2) (tptp.first_subevent_2 X _let_2) (tptp.result_2 _let_2 _let_72) (tptp.possesses_2 _let_72 _let_66) (tptp.next_event_2 _let_2 _let_71) (tptp.raw_material_2 _let_2 _let_40) (tptp.result_2 X _let_40) (tptp.subevent_2 X _let_71) (tptp.next_event_2 _let_71 _let_69) (tptp.result_2 X _let_70) (tptp.result_2 _let_71 _let_70) (tptp.raw_material_2 _let_71 _let_64) (tptp.result_2 X _let_64) (tptp.raw_material_2 X _let_55) (tptp.raw_material_2 X _let_60) (tptp.subevent_2 X _let_69) (tptp.raw_material_2 _let_69 _let_56) (not (= _let_56 _let_60)) (not (= _let_60 _let_56)) (tptp.result_2 X _let_68) (tptp.result_2 _let_69 _let_68) (tptp.result_2 _let_69 _let_55) (not (= _let_60 _let_68)) (not (= _let_68 _let_60)) (tptp.subevent_2 _let_2 _let_47) (not (= _let_8 _let_10)) (tptp.result_2 _let_8 _let_56) (tptp.possesses_2 _let_56 _let_66) (not (= _let_10 _let_8)) (tptp.result_2 _let_10 _let_56) (not (= _let_10 _let_63)) (tptp.raw_material_2 _let_63 _let_54) (not (= _let_56 _let_54)) (not (= _let_54 _let_56)) (not (= _let_63 _let_10)) (tptp.next_event_2 _let_63 _let_8) (not (= _let_8 _let_63)) (tptp.next_event_2 _let_63 _let_10) (tptp.result_2 _let_10 _let_64) (tptp.result_2 _let_8 _let_64) (not (= _let_63 _let_8)) (tptp.result_2 _let_2 _let_56) (tptp.raw_material_2 _let_2 _let_60) (tptp.raw_material_2 _let_47 _let_60) (tptp.first_subevent_2 _let_2 _let_47) (tptp.result_2 _let_2 _let_64) (tptp.result_2 _let_63 _let_56) (tptp.raw_material_2 _let_63 _let_55) (tptp.raw_material_2 _let_2 _let_55) (tptp.result_2 _let_2 _let_40) (tptp.structural_complexity_2 _let_40 _let_61) (tptp.possesses_2 _let_55 _let_59) (tptp.possesses_2 _let_60 _let_59) (tptp.structural_complexity_2 _let_60 _let_61) (tptp.structural_complexity_2 _let_55 _let_61) (tptp.has_reduced_form_2 _let_55 _let_56) (tptp.has_oxidized_form_2 _let_56 _let_55) (tptp.result_2 _let_47 _let_54) (not (= _let_54 _let_55)) (tptp.has_part_2 _let_55 _let_58) (not (= _let_55 _let_54)) (not (= _let_56 _let_55)) (not (= _let_55 _let_56)) (not (= _let_52 _let_41)) (not (= _let_41 _let_52)) (not (= _let_52 _let_40)) (not (= _let_40 _let_52)) (tptp.raw_material_2 _let_2 _let_52) (tptp.raw_material_2 _let_2 _let_41) (tptp.raw_material_2 _let_47 _let_46) (tptp.raw_material_2 _let_2 _let_46) (not (= _let_41 _let_40)) (not (= _let_40 _let_41)) (= _let_77 (tptp.fn_metabolic_pathway_1 X)) (= _let_40 _let_13) (= _let_40 _let_11) (= _let_76 _let_39) (= _let_76 _let_38) (= _let_40 _let_12) (= _let_40 _let_9) (= _let_75 _let_36) (= _let_75 _let_35) (= _let_46 _let_15) (= _let_74 (tptp.fn_catabolic_pathway_7 X)) (= _let_73 (tptp.fn_catabolic_pathway_11 X)) (= _let_59 _let_23) (= _let_47 _let_17) (= _let_66 _let_33) (= _let_72 (tptp.fn_alcohol_fermentation_64 X)) (= _let_40 _let_7) (= _let_2 (tptp.fn_alcohol_fermentation_46 X)) (= X _let_1) (= _let_64 _let_29) (= _let_71 (tptp.fn_alcohol_fermentation_45 X)) (= _let_70 (tptp.fn_alcohol_fermentation_41 X)) (= _let_56 _let_21) (= _let_55 _let_19) (= _let_69 (tptp.fn_alcohol_fermentation_28 X)) (= _let_60 _let_25) (= _let_68 (tptp.fn_alcohol_fermentation_47 X)) (= (tptp.fn_alcohol_fermentation_by_yeast_37 X) _let_67) (= _let_66 _let_32) (= _let_8 _let_31) (= _let_10 _let_65) (= _let_8 _let_30) (= _let_64 _let_28) (= _let_61 _let_27) (= _let_63 _let_62) (= _let_61 _let_26) (= _let_60 _let_24) (= _let_59 _let_22) (= _let_58 _let_57) (= _let_56 _let_20) (= _let_55 _let_18) (= _let_54 _let_53) (= _let_41 _let_5) (= _let_52 _let_3) (= _let_52 _let_5) (= _let_51 _let_50) (= _let_49 _let_48) (= _let_47 _let_16) (= _let_46 _let_14) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_4) (= _let_41 _let_3) (= _let_40 _let_6) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_3) (= _let_3 _let_3) (= _let_3 _let_5) (= _let_5 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_9) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alcohol_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Alcohol-Hormone'|) (tptp.user_description_2 X |tptp.'A hormone with one or more hydroxyl groups bound to carbon atoms.'|) (tptp.concept2words_2 X |tptp.'hormone of alcohol'|) (tptp.concept2words_2 X |tptp.'alcohol hormone'|) (tptp.concept2words_2 X |tptp.'alcohol-hormone'|) (tptp.alcohol_1 X) (not (tptp.alcoholic_beverage_1 X)) (not (tptp.ethyl_alcohol_1 X)) (not (tptp.glycerol_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcoholic_beverage_1 X))) (=> (tptp.alcoholic_beverage_1 X) (and (tptp.original_name_2 X |tptp.'Alcoholic-Beverage'|) (tptp.user_description_2 X |tptp.'An alcoholic beverage is a drink containing ethanol (commonly called alcohol). Alcoholic beverages are divided into three general classes: beers, wines, and spirits.'|) (tptp.concept2words_2 X |tptp.'beverage of alcoholic'|) (tptp.concept2words_2 X |tptp.'alcoholic beverage'|) (tptp.concept2words_2 X |tptp.'alcoholic-beverage'|) (tptp.liquid_substance_1 X) (not (tptp.alcohol_hormone_1 X)) (not (tptp.ethyl_alcohol_1 X)) (not (tptp.glycerol_1 X)) (tptp.ethyl_alcohol_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aldehyde_3 X))) (let ((_let_2 (tptp.fn_aldehyde_6 X))) (let ((_let_3 (tptp.fn_aldehyde_5 X))) (let ((_let_4 (tptp.fn_aldehyde_7 X))) (let ((_let_5 (tptp.fn_aldehyde_8 X))) (let ((_let_6 (tptp.fn_aldehyde_9 X))) (let ((_let_7 (tptp.fn_aldehyde_4 X))) (let ((_let_8 (tptp.fn_aldehyde_10 X))) (let ((_let_9 (tptp.fn_functional_group_1 _let_8))) (=> (tptp.aldehyde_1 X) (and (tptp.original_name_2 X |tptp.'Aldehyde'|) (tptp.user_description_2 X |tptp.'An aldehyde is an organic compound containing a formyl group.'|) (tptp.concept2words_2 X tptp.aldehyde) (tptp.organic_molecule_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.carbon_skeleton_1 _let_1) (tptp.constant_motion_1 _let_7) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.carbon_1 _let_2) (tptp.kinetic_energy_1 _let_4) (tptp.quantity_value_1 _let_5) (tptp.speed_value_1 _let_6) (tptp.carbonyl_group_1 _let_8) (tptp.chemical_entity_1 _let_9) (tptp.has_region_2 X _let_8) (tptp.possesses_2 X _let_4) (tptp.quantity_2 _let_4 _let_5) (tptp.directly_proportional_2 _let_6 _let_5) (tptp.speed_2 _let_7 _let_6) (tptp.object_2 _let_7 X) (tptp.has_part_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_2 _let_1) (tptp.has_part_2 X _let_2) (not (= _let_3 _let_2)) (not (= _let_2 _let_3)) (= X _let_9) (= (tptp.fn_aldehyde_1 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_aldehyde_2 X) (tptp.fn_molecule_2 X)) (= _let_7 (tptp.fn_molecule_8 X)) (= _let_6 (tptp.fn_molecule_3 X)) (= _let_5 (tptp.fn_molecule_4 X)) (= _let_4 (tptp.fn_molecule_12 X)) (= _let_3 (tptp.fn_organic_molecule_2 X)) (= _let_2 (tptp.fn_organic_molecule_1 X)) (= _let_1 (tptp.fn_organic_molecule_3 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_3 X))) (let ((_let_3 (tptp.fn_protein_enzyme_7 X))) (let ((_let_4 (tptp.fn_organic_molecule_1 X))) (let ((_let_5 (tptp.fn_protein_enzyme_8 X))) (let ((_let_6 (tptp.fn_organic_molecule_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_10 X))) (let ((_let_10 (tptp.fn_enzyme_2 X))) (let ((_let_11 (tptp.fn_protein_enzyme_11 X))) (let ((_let_12 (tptp.fn_protein_14 X))) (let ((_let_13 (tptp.fn_aldolase_16 X))) (let ((_let_14 (tptp.fn_aldolase_12 X))) (let ((_let_15 (tptp.fn_aldolase_11 X))) (let ((_let_16 (tptp.fn_aldolase_10 X))) (let ((_let_17 (tptp.fn_aldolase_3 X))) (let ((_let_18 (tptp.fn_aldolase_13 X))) (let ((_let_19 (tptp.fn_aldolase_19 X))) (let ((_let_20 (tptp.fn_aldolase_15 X))) (let ((_let_21 (tptp.fn_aldolase_4 X))) (let ((_let_22 (tptp.fn_aldolase_18 X))) (let ((_let_23 (tptp.fn_aldolase_17 X))) (let ((_let_24 (tptp.fn_aldolase_14 X))) (let ((_let_25 (tptp.fn_aldolase_2 X))) (let ((_let_26 (tptp.fn_aldolase_9 X))) (let ((_let_27 (tptp.fn_aldolase_8 X))) (let ((_let_28 (tptp.fn_aldolase_20 X))) (let ((_let_29 (tptp.fn_aldolase_5 X))) (let ((_let_30 (tptp.fn_aldolase_6 X))) (let ((_let_31 (tptp.fn_aldolase_7 X))) (let ((_let_32 (tptp.fn_aldolase_1 X))) (let ((_let_33 (tptp.fn_disulfide_bond_3 _let_32))) (=> (tptp.aldolase_1 X) (and (tptp.original_name_2 X |tptp.'Aldolase'|) (tptp.user_description_2 X |tptp.'An aldolase is an enzyme that cleaves an aldol.'|) (tptp.concept2words_2 X tptp.aldolase) (tptp.lyase_1 X) (tptp.disulfide_bond_1 _let_32) (tptp.catalyst_1 _let_25) (tptp.size_value_1 _let_17) (tptp.spatial_entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.monomer_1 _let_21) (tptp.molecule_1 _let_21) (tptp.amino_acid_1 _let_21) (tptp.quantity_value_1 _let_29) (tptp.speed_value_1 _let_30) (tptp.constant_motion_1 _let_31) (tptp.decrease_1 _let_27) (tptp.chemical_reaction_1 _let_26) (tptp.size_value_1 _let_16) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_1 _let_14) (tptp.monomer_1 _let_18) (tptp.polypeptide_1 _let_24) (tptp.active_site_1 _let_20) (tptp.carbon_skeleton_1 _let_13) (tptp.surface_1 _let_23) (tptp.hydrophilic_region_1 _let_22) (tptp.protein_domain_1 _let_19) (tptp.kinetic_energy_1 _let_28) (tptp.protein_1 _let_33) (tptp.possesses_2 X _let_32) (tptp.possesses_2 X _let_28) (tptp.quantity_2 _let_28 _let_29) (tptp.directly_proportional_2 _let_30 _let_29) (tptp.speed_2 _let_31 _let_30) (tptp.object_2 _let_31 X) (tptp.has_function_2 X _let_27) (tptp.enables_2 _let_27 _let_26) (tptp.plays_2 X _let_25) (tptp.in_event_2 _let_25 _let_26) (tptp.site_2 _let_26 _let_20) (tptp.facilitates_2 _let_20 _let_26) (tptp.has_function_2 X _let_26) (tptp.has_region_2 X _let_22) (tptp.is_at_2 _let_22 _let_23) (tptp.has_region_2 X _let_23) (tptp.has_part_2 X _let_24) (tptp.has_part_2 _let_24 _let_21) (tptp.is_at_2 _let_21 _let_19) (tptp.has_part_2 X _let_15) (tptp.the_scalar_value_2 _let_16 tptp.big_0) (tptp.scalar_unit_class_2 _let_16 tptp.polypeptide_0) (tptp.has_region_2 X _let_20) (tptp.size_2 X _let_16) (tptp.greater_than_2 _let_16 _let_17) (tptp.size_2 _let_18 _let_17) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= X _let_33) (= _let_31 (tptp.fn_molecule_8 X)) (= _let_30 (tptp.fn_molecule_3 X)) (= _let_29 (tptp.fn_molecule_4 X)) (= _let_28 (tptp.fn_molecule_12 X)) (= _let_27 (tptp.fn_enzyme_5 X)) (= _let_20 _let_10) (= _let_26 (tptp.fn_enzyme_4 X)) (= _let_25 (tptp.fn_enzyme_6 X)) (= _let_21 _let_12) (= _let_24 (tptp.fn_protein_8 X)) (= _let_23 (tptp.fn_protein_5 X)) (= _let_22 (tptp.fn_protein_1 X)) (= _let_21 _let_11) (= _let_20 _let_9) (= _let_19 (tptp.fn_protein_enzyme_5 X)) (= _let_18 (tptp.fn_protein_enzyme_9 X)) (= _let_17 (tptp.fn_protein_enzyme_4 X)) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_13 _let_2) (= _let_13 _let_1) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aldose_5 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_aldose_6 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_6 (tptp.fn_monosaccharide_9 X))) (let ((_let_7 (tptp.fn_aldehyde_5 X))) (let ((_let_8 (tptp.fn_carbohydrate_32 X))) (let ((_let_9 (tptp.fn_carbohydrate_33 X))) (let ((_let_10 (tptp.fn_monosaccharide_10 X))) (let ((_let_11 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_12 (tptp.fn_carbonyl_group_9 _let_3))) (let ((_let_13 (tptp.fn_monosaccharide_13 X))) (let ((_let_14 (tptp.fn_carbohydrate_39 X))) (let ((_let_15 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_16 (tptp.fn_monosaccharide_12 X))) (let ((_let_17 (tptp.fn_monosaccharide_18 X))) (let ((_let_18 (tptp.fn_carbohydrate_38 X))) (let ((_let_19 (tptp.fn_monosaccharide_17 X))) (let ((_let_20 (tptp.fn_aldehyde_10 X))) (let ((_let_21 (tptp.fn_carbohydrate_34 X))) (let ((_let_22 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_23 (tptp.fn_monosaccharide_5 X))) (let ((_let_24 (tptp.fn_aldehyde_6 X))) (let ((_let_25 (tptp.fn_carbonyl_group_8 _let_3))) (let ((_let_26 (tptp.fn_monosaccharide_16 X))) (let ((_let_27 (tptp.fn_monosaccharide_6 X))) (let ((_let_28 (tptp.fn_aldehyde_3 X))) (let ((_let_29 (tptp.fn_aldose_3 X))) (let ((_let_30 (tptp.fn_aldose_9 X))) (let ((_let_31 (tptp.fn_aldose_8 X))) (let ((_let_32 (tptp.fn_aldose_4 X))) (let ((_let_33 (tptp.fn_aldose_10 X))) (let ((_let_34 (tptp.fn_aldose_7 X))) (let ((_let_35 (tptp.fn_aldose_11 X))) (let ((_let_36 (tptp.fn_aldose_2 X))) (=> (tptp.aldose_1 X) (and (tptp.original_name_2 X |tptp.'Aldose'|) (tptp.user_description_2 X |tptp.'An aldose is a monosaccharide (a simple sugar) containing one aldehyde group per molecule and having a chemical formula of the form Cn(H2O)n.'|) (tptp.concept2words_2 X |tptp.'aldose sugar'|) (tptp.concept2words_2 X |tptp.'aldose-sugar'|) (tptp.concept2words_2 X tptp.aldose) (tptp.aldehyde_1 X) (tptp.monosaccharide_1 X) (not (tptp.acetaldehyde_1 X)) (not (tptp.disaccharide_1 X)) (not (tptp.nucleic_acid_1 X)) (not (tptp.oligosaccharide_1 X)) (not (tptp.polypeptide_1 X)) (not (tptp.polysaccharide_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_dimer_1 X)) (not (tptp.protein_1 X)) (not (tptp.sporopollenin_1 X)) (not (tptp.sister_chromatid_1 X)) (tptp.system_1 (tptp.fn_aldose_1 X)) (tptp.end_1 _let_36) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.hydrogen_1 _let_29) (tptp.entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.oxygen_1 _let_32) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.functional_group_1 _let_3) (tptp.carbonyl_group_1 _let_3) (tptp.double_bond_1 _let_34) (tptp.polar_covalent_bond_1 _let_31) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.oxygen_1 _let_30) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.carbon_1 _let_33) (tptp.carbon_skeleton_1 _let_35) (tptp.double_bond_1 _let_25) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.carbon_1 _let_22) (tptp.polar_covalent_bond_1 _let_15) (tptp.oxygen_1 _let_12) (tptp.oxygen_1 _let_11) (tptp.hydrogen_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.is_at_2 _let_3 _let_36) (tptp.has_region_2 X _let_36) (tptp.is_at_2 _let_36 _let_35) (tptp.has_part_2 X _let_33) (tptp.has_part_2 X _let_29) (tptp.has_part_2 X _let_30) (tptp.possesses_2 X _let_34) (tptp.has_region_2 X _let_3) (tptp.possesses_2 X _let_31) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_32) (not (= _let_29 _let_32)) (not (= _let_32 _let_29)) (not (= _let_30 _let_32)) (not (= _let_32 _let_30)) (tptp.has_region_2 X _let_35) (tptp.is_inside_2 _let_33 _let_35) (not (= _let_33 _let_32)) (not (= _let_29 _let_33)) (not (= _let_33 _let_29)) (not (= _let_32 _let_33)) (tptp.is_inside_2 _let_33 _let_3) (tptp.is_inside_2 _let_30 _let_3) (tptp.is_between_2 _let_34 _let_30) (tptp.is_between_2 _let_34 _let_33) (not (= _let_33 _let_30)) (not (= _let_30 _let_33)) (tptp.is_inside_2 _let_32 _let_1) (tptp.is_inside_2 _let_29 _let_1) (tptp.is_between_2 _let_31 _let_29) (tptp.is_between_2 _let_31 _let_32) (not (= _let_30 _let_29)) (not (= _let_29 _let_30)) (= _let_34 _let_26) (= X _let_4) (= _let_3 _let_21) (= _let_3 _let_20) (= _let_3 _let_19) (= _let_31 _let_16) (= X _let_2) (= _let_1 _let_10) (= _let_30 _let_13) (= _let_32 _let_18) (= _let_32 _let_17) (= _let_29 _let_7) (= _let_29 _let_6) (= _let_33 _let_24) (= _let_33 _let_23) (= _let_35 _let_28) (= _let_35 _let_27) (= _let_34 _let_25) (= _let_33 _let_22) (= _let_30 _let_12) (= _let_32 _let_11) (= _let_31 _let_15) (= _let_30 _let_14) (= _let_30 _let_11) (= _let_29 _let_8) (= _let_1 _let_9) (= _let_29 _let_5) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_11) (= _let_11 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.aldosterone_1 X) (and (tptp.original_name_2 X |tptp.'Aldosterone'|) (tptp.user_description_2 X |tptp.'A steroid hormone secreted by the adrenal cortex that acts to increase reabsorption of water and ions, particularly Na+ and K+, by the kidney.'|) (tptp.concept2words_2 X tptp.aldosterone) (tptp.steroid_hormone_1 X) (not (tptp.brassinosteroid_1 X)) (not (tptp.corticosteroid_1 X)) (not (tptp.ecdysone_1 X)) (not (tptp.estradiol_1 X)) (not (tptp.progesterone_1 X)) (not (tptp.testosterone_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_algae_4 X))) (let ((_let_2 (tptp.fn_algae_2 X))) (let ((_let_3 (tptp.fn_algae_3 X))) (let ((_let_4 (tptp.fn_algae_1 X))) (let ((_let_5 (tptp.fn_autotroph_11 _let_4))) (=> (tptp.algae_1 X) (and (tptp.original_name_2 X |tptp.'Algae'|) (tptp.user_description_2 X |tptp.'Algae are a large and diverse group of simple, typically autotrophic organisms, ranging from unicellular to multicellular forms.'|) (tptp.concept2words_2 X tptp.alga) (tptp.concept2words_2 X tptp.algae) (tptp.streptophyta_1 X) (tptp.autotroph_1 _let_4) (tptp.specific_heat_value_1 _let_2) (tptp.temperature_value_1 _let_3) (tptp.water_1 _let_1) (tptp.organism_1 _let_5) (tptp.plays_2 X _let_4) (tptp.has_part_2 X _let_1) (tptp.specific_heat_2 _let_1 _let_2) (tptp.correspondence_2 _let_3 _let_2) (tptp.temperature_2 X _let_3) (= X _let_5) (= _let_3 (tptp.fn_organism_2 X)) (= _let_2 (tptp.fn_organism_5 X)) (= _let_1 (tptp.fn_organism_4 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.hab))) (=> (tptp.algae_bloom_1 X) (and (tptp.original_name_2 X |tptp.'Algae-Bloom'|) (tptp.user_description_2 X |tptp.'Rapid growth of algae in response to sudden increases in limiting nutrients such as nitrogen and phosphorus which are often introduced by sources of human pollution .'|) (tptp.concept2words_2 X |tptp.'red tide'|) (tptp.concept2words_2 X |tptp.'red-tide'|) (tptp.concept2words_2 X |tptp.'algal bloom'|) (tptp.concept2words_2 X |tptp.'algal-bloom'|) (tptp.concept2words_2 X |tptp.'harmful algal bloom'|) (tptp.concept2words_2 X |tptp.'harmful-algal-bloom'|) _let_1 _let_1 (tptp.concept2words_2 X |tptp.'bloom of algae'|) (tptp.concept2words_2 X |tptp.'algae bloom'|) (tptp.concept2words_2 X |tptp.'algae-bloom'|) (tptp.growth_1 X) (not (tptp.adulthood_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_algal_cell_46 X))) (let ((_let_2 (tptp.fn_biomembrane_67 _let_1))) (let ((_let_3 (tptp.fn_algal_cell_49 X))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_22 _let_3))) (let ((_let_5 (tptp.fn_smooth_endoplasmic_reticulum_47 _let_3))) (let ((_let_6 (tptp.fn_biomembrane_29 _let_1))) (let ((_let_7 (tptp.fn_algal_cell_39 X))) (let ((_let_8 (tptp.fn_synthesis_of_lipid_2 _let_7))) (let ((_let_9 (tptp.fn_smooth_endoplasmic_reticulum_24 _let_3))) (let ((_let_10 (tptp.fn_algal_cell_48 X))) (let ((_let_11 (tptp.fn_rough_endoplasmic_reticulum_30 _let_10))) (let ((_let_12 (tptp.fn_biomembrane_71 _let_1))) (let ((_let_13 (tptp.fn_algal_cell_45 X))) (let ((_let_14 (tptp.fn_glycolipid_4 _let_13))) (let ((_let_15 (tptp.fn_lipid_14 _let_13))) (let ((_let_16 (tptp.fn_endoplasmic_reticulum_11 _let_10))) (let ((_let_17 (tptp.fn_algal_cell_41 X))) (let ((_let_18 (tptp.fn_cell_wall_13 _let_17))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_3))) (let ((_let_20 (tptp.fn_rough_endoplasmic_reticulum_62 _let_10))) (let ((_let_21 (tptp.fn_metabolic_pathway_1 _let_7))) (let ((_let_22 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_23 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_3))) (let ((_let_24 (tptp.fn_rough_endoplasmic_reticulum_27 _let_10))) (let ((_let_25 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_26 (tptp.fn_rough_endoplasmic_reticulum_32 _let_10))) (let ((_let_27 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_28 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_3))) (let ((_let_29 (tptp.fn_rough_endoplasmic_reticulum_23 _let_10))) (let ((_let_30 (tptp.fn_eukaryotic_cell_24 X))) (let ((_let_31 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_3))) (let ((_let_32 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_33 (tptp.fn_algal_cell_16 X))) (let ((_let_34 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_33))) (let ((_let_35 (tptp.fn_eukaryotic_cell_45 X))) (let ((_let_36 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_3))) (let ((_let_37 (tptp.fn_rough_endoplasmic_reticulum_56 _let_10))) (let ((_let_38 (tptp.fn_eukaryotic_cell_36 X))) (let ((_let_39 (tptp.fn_endoplasmic_reticulum_25 _let_3))) (let ((_let_40 (tptp.fn_eukaryotic_cell_35 X))) (let ((_let_41 (tptp.fn_rough_endoplasmic_reticulum_55 _let_10))) (let ((_let_42 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_43 (tptp.fn_endoplasmic_reticulum_14 _let_10))) (let ((_let_44 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_3))) (let ((_let_45 (tptp.fn_endoplasmic_reticulum_23 _let_10))) (let ((_let_46 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_3))) (let ((_let_47 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_3))) (let ((_let_48 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_3))) (let ((_let_49 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_3))) (let ((_let_50 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_3))) (let ((_let_51 (tptp.fn_rough_endoplasmic_reticulum_22 _let_10))) (let ((_let_52 (tptp.fn_smooth_endoplasmic_reticulum_15 _let_3))) (let ((_let_53 (tptp.fn_smooth_endoplasmic_reticulum_46 _let_3))) (let ((_let_54 (tptp.fn_anabolic_pathway_6 _let_7))) (let ((_let_55 (tptp.fn_smooth_endoplasmic_reticulum_39 _let_3))) (let ((_let_56 (tptp.fn_endoplasmic_reticulum_31 _let_10))) (let ((_let_57 (tptp.fn_glycolipid_13 _let_13))) (let ((_let_58 (tptp.fn_glycolipid_7 _let_13))) (let ((_let_59 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_60 (tptp.fn_algal_cell_35 X))) (let ((_let_61 (tptp.fn_biomembrane_62 _let_1))) (let ((_let_62 (tptp.fn_algal_cell_38 X))) (let ((_let_63 (tptp.fn_algal_cell_37 X))) (let ((_let_64 (tptp.fn_algal_cell_30 X))) (let ((_let_65 (tptp.fn_algal_cell_42 X))) (let ((_let_66 (tptp.fn_algal_cell_22 X))) (let ((_let_67 (tptp.fn_algal_cell_29 X))) (let ((_let_68 (tptp.fn_algal_cell_19 X))) (let ((_let_69 (tptp.fn_algal_cell_43 X))) (let ((_let_70 (tptp.fn_algal_cell_15 X))) (let ((_let_71 (tptp.fn_algal_cell_12 X))) (let ((_let_72 (tptp.fn_algal_cell_50 X))) (let ((_let_73 (tptp.fn_algal_cell_13 X))) (let ((_let_74 (tptp.fn_algal_cell_28 X))) (let ((_let_75 (tptp.fn_algal_cell_26 X))) (let ((_let_76 (tptp.fn_algal_cell_14 X))) (let ((_let_77 (tptp.fn_algal_cell_23 X))) (let ((_let_78 (tptp.fn_algal_cell_25 X))) (let ((_let_79 (tptp.fn_algal_cell_27 X))) (let ((_let_80 (tptp.fn_algal_cell_31 X))) (let ((_let_81 (tptp.fn_algal_cell_18 X))) (let ((_let_82 (tptp.fn_algal_cell_32 X))) (let ((_let_83 (tptp.fn_algal_cell_40 X))) (let ((_let_84 (tptp.fn_algal_cell_24 X))) (let ((_let_85 (tptp.fn_algal_cell_11 X))) (let ((_let_86 (tptp.fn_algal_cell_10 X))) (let ((_let_87 (tptp.fn_algal_cell_34 X))) (let ((_let_88 (tptp.fn_algal_cell_8 X))) (let ((_let_89 (tptp.fn_algal_cell_9 X))) (let ((_let_90 (tptp.fn_algal_cell_17 X))) (let ((_let_91 (tptp.fn_algal_cell_5 X))) (let ((_let_92 (tptp.fn_algal_cell_47 X))) (let ((_let_93 (tptp.fn_algal_cell_36 X))) (let ((_let_94 (tptp.fn_algal_cell_44 X))) (let ((_let_95 (tptp.fn_algal_cell_33 X))) (let ((_let_96 (tptp.fn_algal_cell_1 X))) (let ((_let_97 (tptp.fn_algal_cell_2 X))) (let ((_let_98 (tptp.fn_algal_cell_3 X))) (let ((_let_99 (tptp.fn_algal_cell_4 X))) (=> (tptp.algal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Algal-Cell'|) (tptp.user_description_2 X |tptp.'An algal cell is the basic structural unit of algae.'|) (tptp.concept2words_2 X |tptp.'algal cell'|) (tptp.concept2words_2 X |tptp.'algal-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.walled_cell_1 X) (not (tptp.plant_cell_1 X)) (tptp.protein_enzyme_1 _let_96) (tptp.enter_1 _let_97) (tptp.hydrophilic_face_1 _let_98) (tptp.hydrophilic_face_1 _let_99) (tptp.protein_enzyme_1 _let_91) (tptp.dna_1 _let_88) (tptp.mitochondrial_dna_1 _let_88) (tptp.quantity_value_1 _let_89) (tptp.quantity_value_1 _let_86) (tptp.entity_1 _let_85) (tptp.dna_1 _let_85) (tptp.spatial_entity_1 _let_71) (tptp.membrane_protein_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.transmembrane_protein_1 _let_71) (tptp.integral_protein_1 _let_71) (tptp.transport_protein_1 _let_71) (tptp.hydrophobic_core_1 _let_73) (tptp.outside_face_1 _let_76) (tptp.extracellular_side_1 _let_76) (tptp.tangible_entity_1 _let_70) (tptp.membrane_protein_1 _let_70) (tptp.protein_1 _let_70) (tptp.spatial_entity_1 _let_70) (tptp.polymer_1 _let_70) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_33) (tptp.attach_1 _let_90) (tptp.exchange_1 _let_81) (tptp.golgi_apparatus_1 _let_68) (tptp.mixture_1 _let_66) (tptp.cytoplasm_1 _let_66) (tptp.ribosome_1 _let_77) (tptp.eukaryotic_ribosome_1 _let_77) (tptp.eukaryotic_chromosome_1 _let_84) (tptp.chromosome_1 _let_84) (tptp.volume_value_1 _let_78) (tptp.surface_1 _let_75) (tptp.size_value_1 _let_79) (tptp.tangible_entity_1 _let_74) (tptp.phospholipid_bilayer_1 _let_74) (tptp.substance_1 _let_67) (tptp.cytosol_1 _let_67) (tptp.carbon_skeleton_1 _let_64) (tptp.transfer_1 _let_80) (tptp.transfer_1 _let_82) (tptp.chemical_entity_1 _let_95) (tptp.entity_1 _let_95) (tptp.atom_1 _let_95) (tptp.carbon_1 _let_95) (tptp.semiautonomous_organelle_1 _let_87) (tptp.mitochondrion_1 _let_87) (tptp.organelle_1 _let_87) (tptp.tangible_entity_1 _let_60) (tptp.phospholipid_bilayer_1 _let_60) (tptp.chemical_entity_1 _let_93) (tptp.phospholipid_1 _let_63) (tptp.phospholipid_layer_1 _let_62) (tptp.metabolic_pathway_1 _let_7) (tptp.synthesis_reaction_1 _let_7) (tptp.chemical_reaction_1 _let_7) (tptp.anabolic_pathway_1 _let_7) (tptp.synthesis_of_lipid_1 _let_7) (tptp.eukaryotic_cellular_respiration_1 _let_83) (tptp.algal_cell_wall_1 _let_17) (tptp.tangible_entity_1 _let_65) (tptp.nucleus_1 _let_65) (tptp.membrane_1 _let_69) (tptp.spatial_entity_1 _let_69) (tptp.biomembrane_1 _let_69) (tptp.plasma_membrane_1 _let_69) (tptp.cisternal_space_1 _let_94) (tptp.chemical_entity_1 _let_13) (tptp.lipid_1 _let_13) (tptp.glycolipid_1 _let_13) (tptp.nuclear_membrane_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.substance_1 _let_92) (tptp.cytosol_1 _let_92) (tptp.endoplasmic_reticulum_1 _let_10) (tptp.rough_endoplasmic_reticulum_1 _let_10) (tptp.endoplasmic_reticulum_1 _let_3) (tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.cellular_work_1 _let_72) (tptp.phospholipid_layer_1 _let_61) (tptp.tangible_entity_1 _let_59) (tptp.phospholipid_bilayer_1 _let_59) (tptp.atom_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.carbon_1 _let_57) (tptp.cisternal_space_1 _let_56) (tptp.cisternal_space_1 _let_55) (tptp.chemical_entity_1 _let_54) (tptp.chemical_entity_1 _let_53) (tptp.chemical_entity_1 _let_52) (tptp.synthesis_reaction_1 _let_51) (tptp.synthesis_reaction_1 _let_50) (tptp.synthesis_reaction_1 _let_49) (tptp.chemical_reaction_1 _let_48) (tptp.synthesis_of_lipid_1 _let_48) (tptp.chemical_reaction_1 _let_47) (tptp.synthesis_of_lipid_1 _let_47) (tptp.anabolic_pathway_1 _let_47) (tptp.synthesis_of_lipid_1 _let_46) (tptp.synthesis_of_lipid_1 _let_45) (tptp.synthesis_of_lipid_1 _let_44) (tptp.mitochondrion_1 _let_43) (tptp.transfer_1 _let_41) (tptp.transfer_1 _let_39) (tptp.eukaryotic_ribosome_1 _let_37) (tptp.eukaryotic_ribosome_1 _let_36) (tptp.membrane_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.biomembrane_1 _let_34) (tptp.golgi_apparatus_1 _let_31) (tptp.substance_1 _let_29) (tptp.cytosol_1 _let_29) (tptp.substance_1 _let_28) (tptp.cytosol_1 _let_28) (tptp.mixture_1 _let_26) (tptp.cytoplasm_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.nucleus_1 _let_23) (tptp.cell_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_19) (tptp.cell_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.cell_1 _let_18) (tptp.eukaryotic_cell_1 _let_16) (tptp.cell_1 _let_16) (tptp.carbon_skeleton_1 _let_15) (tptp.carbon_skeleton_1 _let_14) (tptp.carbon_skeleton_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.glycolipid_1 _let_11) (tptp.lipid_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.glycolipid_1 _let_9) (tptp.lipid_1 _let_8) (tptp.glycolipid_1 _let_6) (tptp.phospholipid_1 _let_5) (tptp.phospholipid_1 _let_4) (tptp.phospholipid_1 _let_2) (not (= _let_99 _let_98)) (tptp.is_outside_2 _let_99 _let_1) (not (= _let_98 _let_99)) (tptp.is_inside_2 _let_98 _let_1) (not (= _let_96 _let_91)) (not (= _let_91 _let_96)) (tptp.origin_2 _let_97 _let_94) (tptp.destination_2 _let_97 _let_94) (tptp.has_part_2 _let_66 _let_96) (tptp.result_2 _let_7 _let_13) (tptp.path_2 _let_33 _let_69) (tptp.has_part_2 X _let_17) (tptp.raw_material_2 _let_7 _let_93) (tptp.result_2 _let_7 _let_63) (tptp.has_region_2 _let_10 _let_94) (tptp.site_2 _let_7 _let_10) (tptp.base_2 _let_7 X) (tptp.has_part_2 X _let_87) (tptp.has_region_2 _let_13 _let_64) (tptp.is_inside_2 _let_95 _let_64) (tptp.has_part_2 _let_13 _let_95) (tptp.has_region_2 _let_3 _let_94) (tptp.is_inside_2 _let_65 _let_92) (tptp.has_function_2 _let_3 _let_7) (tptp.site_2 _let_7 _let_3) (tptp.is_inside_2 _let_3 _let_92) (tptp.is_inside_2 _let_93 _let_92) (tptp.is_inside_2 _let_71 _let_74) (tptp.has_part_2 _let_66 _let_91) (tptp.agent_2 _let_80 _let_3) (tptp.donor_2 _let_82 _let_10) (tptp.is_inside_2 _let_84 _let_65) (tptp.has_part_2 _let_65 _let_1) (tptp.has_region_2 _let_71 _let_76) (tptp.object_2 _let_90 _let_71) (tptp.base_2 _let_90 _let_69) (tptp.has_region_2 _let_69 _let_73) (tptp.is_inside_2 _let_87 _let_67) (tptp.has_part_2 _let_87 _let_88) (tptp.quantity_2 _let_88 _let_89) (tptp.greater_than_2 _let_86 _let_89) (tptp.greater_than_or_equal_to_2 _let_86 _let_89) (tptp.has_function_2 X _let_83) (tptp.base_2 _let_83 X) (tptp.has_part_2 X _let_84) (tptp.has_part_2 _let_84 _let_85) (tptp.quantity_2 _let_85 _let_86) (tptp.subevent_2 _let_81 _let_80) (tptp.subevent_2 _let_81 _let_82) (tptp.recipient_2 _let_82 _let_3) (tptp.has_part_2 X _let_3) (tptp.size_2 X _let_79) (tptp.recipient_2 _let_80 _let_10) (not (= _let_10 _let_3)) (tptp.abuts_2 _let_10 _let_3) (tptp.abuts_2 _let_3 _let_10) (not (= _let_3 _let_10)) (tptp.is_inside_2 _let_77 _let_67) (tptp.has_part_2 X _let_77) (tptp.volume_2 X _let_78) (tptp.directly_proportional_2 _let_79 _let_78) (tptp.the_scalar_value_2 _let_79 tptp.big_0) (tptp.scalar_unit_class_2 _let_79 tptp.prokaryote_0) (tptp.has_region_2 _let_69 _let_76) (tptp.is_outside_2 _let_76 _let_69) (tptp.is_between_2 _let_66 _let_69) (tptp.has_part_2 X _let_66) (tptp.has_part_2 X _let_10) (tptp.is_across_2 _let_71 _let_69) (tptp.is_at_2 _let_71 _let_69) (tptp.has_part_2 _let_69 _let_74) (tptp.is_at_2 _let_74 _let_75) (tptp.has_region_2 X _let_75) (tptp.base_2 _let_72 X) (tptp.has_function_2 X _let_72) (tptp.has_part_2 X _let_69) (tptp.has_part_2 _let_69 _let_71) (tptp.is_across_2 _let_71 _let_73) (tptp.is_inside_2 _let_66 _let_69) (tptp.has_part_2 _let_69 _let_70) (tptp.called_2 _let_70 |tptp.'MP2'|) (not (= _let_71 _let_70)) (not (= _let_70 _let_71)) (tptp.has_part_2 X _let_65) (tptp.is_between_2 _let_66 _let_65) (tptp.has_part_2 _let_66 _let_67) (tptp.is_inside_2 _let_68 _let_67) (tptp.has_part_2 X _let_68) (tptp.is_inside_2 _let_64 _let_1) (tptp.has_part_2 _let_1 _let_13) (tptp.is_inside_2 _let_63 _let_62) (tptp.has_region_2 _let_60 _let_62) (tptp.has_part_2 _let_1 _let_60) (= _let_13 _let_11) (= _let_13 _let_9) (= _let_13 _let_8) (= _let_69 _let_34) (= _let_17 (tptp.fn_walled_cell_1 X)) (= X _let_18) (= _let_93 _let_54) (= _let_93 _let_53) (= _let_63 _let_5) (= _let_63 _let_4) (= _let_94 _let_56) (= _let_87 _let_43) (= X _let_21) (= X _let_16) (= _let_7 _let_51) (= _let_7 _let_45) (= _let_95 _let_58) (= _let_95 _let_57) (= _let_64 _let_15) (= _let_64 _let_14) (= _let_94 _let_55) (= _let_65 _let_23) (= _let_93 _let_52) (= _let_92 _let_28) (= _let_7 _let_50) (= _let_7 _let_49) (= _let_7 _let_48) (= _let_7 _let_47) (= _let_7 _let_46) (= _let_7 _let_44) (= (tptp.fn_algal_cell_20 X) (tptp.fn_eukaryotic_cell_60 X)) (= (tptp.fn_algal_cell_21 X) (tptp.fn_eukaryotic_cell_28 X)) (= _let_91 (tptp.fn_eukaryotic_cell_21 X)) (= (tptp.fn_algal_cell_7 X) (tptp.fn_eukaryotic_cell_7 X)) (= _let_80 _let_39) (= (tptp.fn_algal_cell_6 X) (tptp.fn_eukaryotic_cell_8 X)) (= _let_82 _let_41) (= _let_1 (tptp.fn_eukaryotic_cell_37 X)) (= _let_90 (tptp.fn_eukaryotic_cell_16 X)) (= _let_89 (tptp.fn_eukaryotic_cell_6 X)) (= _let_88 (tptp.fn_eukaryotic_cell_33 X)) (= _let_87 _let_42) (= _let_86 (tptp.fn_eukaryotic_cell_5 X)) (= _let_85 (tptp.fn_eukaryotic_cell_56 X)) (= _let_84 (tptp.fn_eukaryotic_cell_30 X)) (= _let_83 (tptp.fn_eukaryotic_cell_23 X)) (= _let_82 _let_40) (= _let_81 (tptp.fn_eukaryotic_cell_34 X)) (= _let_80 _let_38) (= _let_3 (tptp.fn_eukaryotic_cell_20 X)) (= _let_79 (tptp.fn_eukaryotic_cell_27 X)) (= _let_78 (tptp.fn_eukaryotic_cell_59 X)) (= _let_77 _let_37) (= _let_77 _let_36) (= _let_77 _let_35) (= _let_10 (tptp.fn_eukaryotic_cell_19 X)) (= _let_76 (tptp.fn_eukaryotic_cell_47 X)) (= _let_75 (tptp.fn_eukaryotic_cell_44 X)) (= _let_74 (tptp.fn_eukaryotic_cell_41 X)) (= _let_73 (tptp.fn_eukaryotic_cell_48 X)) (= _let_72 (tptp.fn_eukaryotic_cell_32 X)) (= _let_71 (tptp.fn_eukaryotic_cell_15 X)) (= _let_70 (tptp.fn_eukaryotic_cell_50 X)) (= _let_69 _let_32) (= X _let_19) (= _let_68 _let_31) (= _let_67 _let_28) (= _let_68 _let_30) (= _let_67 _let_29) (= _let_67 _let_27) (= _let_66 _let_26) (= _let_66 _let_25) (= X _let_20) (= _let_65 _let_24) (= _let_65 _let_22) (= _let_64 _let_12) (= _let_13 _let_6) (= _let_63 _let_2) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.algal_cell_wall_1 X) (and (tptp.original_name_2 X |tptp.'Algal-Cell-Wall'|) (tptp.user_description_2 X |tptp.'A rigid layer, surrounding the cells algae. The composition of the cell wall varies depending on the type of algae.'|) (tptp.concept2words_2 X |tptp.'algal cell wall'|) (tptp.concept2words_2 X |tptp.'algal-cell-wall'|) (tptp.cell_wall_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alimentary_canal_11 X))) (let ((_let_2 (tptp.fn_esophagus_8 _let_1))) (let ((_let_3 (tptp.fn_esophagus_4 _let_1))) (let ((_let_4 (tptp.fn_alimentary_canal_12 X))) (let ((_let_5 (tptp.fn_esophagus_5 _let_1))) (let ((_let_6 (tptp.fn_alimentary_canal_9 X))) (let ((_let_7 (tptp.fn_esophagus_3 _let_1))) (let ((_let_8 (tptp.fn_alimentary_canal_16 X))) (let ((_let_9 (tptp.fn_esophagus_1 _let_1))) (let ((_let_10 (tptp.fn_alimentary_canal_10 X))) (let ((_let_11 (tptp.fn_esophagus_2 _let_1))) (let ((_let_12 (tptp.fn_alimentary_canal_15 X))) (let ((_let_13 (tptp.fn_alimentary_canal_13 X))) (let ((_let_14 (tptp.fn_large_intestine_2 _let_13))) (let ((_let_15 (tptp.fn_alimentary_canal_14 X))) (let ((_let_16 (tptp.fn_alimentary_canal_4 X))) (let ((_let_17 (tptp.fn_alimentary_canal_1 X))) (let ((_let_18 (tptp.fn_alimentary_canal_2 X))) (let ((_let_19 (tptp.fn_alimentary_canal_6 X))) (let ((_let_20 (tptp.fn_alimentary_canal_3 X))) (let ((_let_21 (tptp.fn_alimentary_canal_7 X))) (let ((_let_22 (tptp.fn_alimentary_canal_5 X))) (=> (tptp.alimentary_canal_1 X) (and (tptp.original_name_2 X |tptp.'Alimentary-Canal'|) (tptp.user_description_2 X |tptp.'In animals, a digestive tract consisting of a tube running between a mouth and an anus; also called a complete digestive tract.'|) (tptp.concept2words_2 X |tptp.'complete digestive system'|) (tptp.concept2words_2 X |tptp.'complete-digestive-system'|) (tptp.concept2words_2 X tptp.gut) (tptp.concept2words_2 X |tptp.'alimentary canal'|) (tptp.concept2words_2 X |tptp.'alimentary-canal'|) (tptp.digestive_tract_1 X) (tptp.canal_1 X) (tptp.sphincter_1 _let_17) (tptp.sphincter_1 _let_18) (tptp.sphincter_1 _let_20) (tptp.small_intestine_1 _let_16) (tptp.mouth_1 _let_22) (tptp.anus_1 _let_19) (tptp.length_value_1 _let_21) (tptp.sphincter_1 _let_6) (tptp.pyloric_sphincter_1 _let_10) (tptp.esophagus_1 _let_1) (tptp.stomach_1 _let_4) (tptp.large_intestine_1 _let_13) (tptp.rectum_1 _let_15) (tptp.end_1 _let_12) (tptp.end_1 _let_8) (tptp.rectum_1 _let_14) (tptp.end_1 _let_11) (tptp.pyloric_sphincter_1 _let_9) (tptp.end_1 _let_7) (tptp.sphincter_1 _let_5) (tptp.stomach_1 _let_3) (tptp.alimentary_canal_1 _let_2) (tptp.the_scalar_value_2 _let_21 tptp.long_0) (tptp.scalar_unit_class_2 _let_21 tptp.digestive_organ_0) (tptp.called_2 _let_8 |tptp.'E1'|) (tptp.called_2 _let_12 |tptp.'E2'|) (tptp.is_at_2 _let_19 _let_12) (tptp.is_at_2 _let_22 _let_8) (tptp.is_inside_2 _let_13 X) (tptp.length_2 _let_16 _let_21) (tptp.is_inside_2 _let_16 X) (tptp.called_2 _let_20 |tptp.'SP5'|) (tptp.is_between_2 _let_20 _let_15) (tptp.is_between_2 _let_20 _let_19) (not (= _let_20 _let_18)) (tptp.is_inside_2 _let_20 X) (tptp.called_2 _let_18 |tptp.'SP4'|) (not (= _let_18 _let_20)) (tptp.is_between_2 _let_18 _let_15) (tptp.is_between_2 _let_18 _let_19) (tptp.is_inside_2 _let_18 X) (tptp.called_2 _let_17 |tptp.'SP3'|) (tptp.is_between_2 _let_17 _let_16) (tptp.is_between_2 _let_17 _let_13) (tptp.is_inside_2 _let_17 X) (tptp.is_between_2 _let_10 _let_16) (tptp.has_part_2 _let_13 _let_15) (tptp.called_2 _let_10 |tptp.'SP2'|) (tptp.is_between_2 _let_6 _let_1) (tptp.called_2 _let_6 |tptp.'SP1'|) (tptp.is_between_2 _let_10 _let_4) (tptp.is_inside_2 _let_10 X) (tptp.has_region_2 X _let_12) (tptp.is_inside_2 _let_1 X) (tptp.is_inside_2 _let_4 X) (tptp.is_between_2 _let_6 _let_4) (tptp.is_inside_2 _let_6 X) (tptp.has_region_2 X _let_8) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alkaptonuria_1 X) (and (tptp.original_name_2 X |tptp.'Alkaptonuria'|) (tptp.user_description_2 X |tptp.'A hereditary disease in which urine turns black because of an inability to metabolize alkapton, which accumulates in the blood and is excreted in the urine.'|) (tptp.concept2words_2 X |tptp.'black urine disease'|) (tptp.concept2words_2 X |tptp.'black-urine-disease'|) (tptp.concept2words_2 X tptp.alcaptonuria) (tptp.concept2words_2 X tptp.alkaptonuria) (tptp.inborn_error_of_metabolism_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.allantois_1 X) (and (tptp.original_name_2 X |tptp.'Allantois'|) (tptp.user_description_2 X |tptp.'One of four extraembryonic membranes; serves as a repository for the embryos nitrogenous waste and functions in gas exchange.'|) (tptp.concept2words_2 X tptp.allantois) (tptp.extraembryonic_membrane_1 X) (not (tptp.amnion_1 X)) (not (tptp.chorion_1 X)) (not (tptp.yolk_sac_1 X))))) (forall ((X $$unsorted)) (=> (tptp.allee_effect_1 X) (and (tptp.original_name_2 X |tptp.'Allee-Effect'|) (tptp.user_description_2 X |tptp.'A positive correlation between population density and individual fitness. First described by W.C. Allee, who showed experimentally that goldfish grew more rapidly in crowded tanks than in uncrowded tanks.'|) (tptp.concept2words_2 X |tptp.'allee effect'|) (tptp.concept2words_2 X |tptp.'allee-effect'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.allele_1 X) (and (tptp.original_name_2 X |tptp.'Allele'|) (tptp.user_description_2 X |tptp.'Any of the alternative versions of a gene that produce distinguishable phenotypic effects.'|) (tptp.concept2words_2 X |tptp.'variant of gene'|) (tptp.concept2words_2 X |tptp.'gene variant'|) (tptp.concept2words_2 X tptp.allele) (tptp.gene_1 X)))) (forall ((X $$unsorted)) (=> (tptp.allele_i_1 X) (and (tptp.original_name_2 X |tptp.'Allele-i'|) (tptp.user_description_2 X |tptp.'Recessive blood allele symbolizing the lack of the IA or IB allele.'|) (tptp.concept2words_2 X |tptp.'allele i'|) (tptp.concept2words_2 X |tptp.'allele-i'|) (tptp.blood_allele_1 X) (not (tptp.ia_1 X)) (not (tptp.ib_1 X))))) (forall ((X $$unsorted)) (=> (tptp.allergy_1 X) (and (tptp.original_name_2 X |tptp.'Allergy'|) (tptp.user_description_2 X |tptp.'A hypersensitivity to normally harmless environmental substances.'|) (tptp.concept2words_2 X |tptp.'show allergic reaction'|) (tptp.concept2words_2 X tptp.allergy) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_allocate_resource_2 X))) (let ((_let_2 (tptp.fn_allocate_resource_1 X))) (=> (tptp.allocate_resource_1 X) (and (tptp.original_name_2 X |tptp.'Allocate-Resource'|) (tptp.concept2words_2 X tptp.allocate) (tptp.concept2words_2 X tptp.apportion) (tptp.concept2words_2 X |tptp.'allocate resource'|) (tptp.concept2words_2 X |tptp.'allocate-resource'|) (tptp.action_1 X) (tptp.entity_1 _let_2) (tptp.resource_1 _let_1) (tptp.object_2 X _let_2) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_allolactose_31 X))) (let ((_let_2 (tptp.fn_allosteric_protein_5 _let_1))) (let ((_let_3 (tptp.fn_allolactose_33 X))) (let ((_let_4 (tptp.fn_inducer_6 _let_3))) (let ((_let_5 (tptp.fn_allolactose_34 X))) (let ((_let_6 (tptp.fn_carbon_source_2 _let_5))) (let ((_let_7 (tptp.fn_lactose_63 X))) (let ((_let_8 (tptp.fn_disaccharide_33 X))) (let ((_let_9 (tptp.fn_lactose_62 X))) (let ((_let_10 (tptp.fn_disaccharide_13 X))) (let ((_let_11 (tptp.fn_lactose_26 X))) (let ((_let_12 (tptp.fn_disaccharide_32 X))) (let ((_let_13 (tptp.fn_lactose_64 X))) (let ((_let_14 (tptp.fn_disaccharide_14 X))) (let ((_let_15 (tptp.fn_lactose_34 X))) (let ((_let_16 (tptp.fn_disaccharide_34 X))) (let ((_let_17 (tptp.fn_lactose_60 X))) (let ((_let_18 (tptp.fn_disaccharide_7 X))) (let ((_let_19 (tptp.fn_allolactose_21 X))) (let ((_let_20 (tptp.fn_allolactose_8 X))) (let ((_let_21 (tptp.fn_allolactose_29 X))) (let ((_let_22 (tptp.fn_allolactose_18 X))) (let ((_let_23 (tptp.fn_allolactose_28 X))) (let ((_let_24 (tptp.fn_allolactose_7 X))) (let ((_let_25 (tptp.fn_allolactose_20 X))) (let ((_let_26 (tptp.fn_allolactose_19 X))) (let ((_let_27 (tptp.fn_allolactose_12 X))) (let ((_let_28 (tptp.fn_allolactose_16 X))) (let ((_let_29 (tptp.fn_allolactose_14 X))) (let ((_let_30 (tptp.fn_allolactose_10 X))) (let ((_let_31 (tptp.fn_allolactose_11 X))) (let ((_let_32 (tptp.fn_allolactose_13 X))) (let ((_let_33 (tptp.fn_allolactose_30 X))) (let ((_let_34 (tptp.fn_allolactose_9 X))) (let ((_let_35 (tptp.fn_allolactose_17 X))) (let ((_let_36 (tptp.fn_allolactose_35 X))) (let ((_let_37 (tptp.fn_allolactose_24 X))) (let ((_let_38 (tptp.fn_allolactose_27 X))) (let ((_let_39 (tptp.fn_allolactose_26 X))) (let ((_let_40 (tptp.fn_allolactose_25 X))) (let ((_let_41 (tptp.fn_allolactose_15 X))) (let ((_let_42 (tptp.fn_allosteric_protein_7 _let_1))) (let ((_let_43 (tptp.fn_allolactose_32 X))) (let ((_let_44 (tptp.fn_hydrogen_9 _let_21))) (let ((_let_45 (tptp.fn_allolactose_23 X))) (let ((_let_46 (tptp.fn_hydrogen_8 _let_21))) (let ((_let_47 (tptp.fn_allolactose_3 X))) (let ((_let_48 (tptp.fn_allolactose_4 X))) (let ((_let_49 (tptp.fn_allolactose_1 X))) (let ((_let_50 (tptp.fn_allolactose_2 X))) (=> (tptp.allolactose_1 X) (and (tptp.original_name_2 X |tptp.'Allolactose'|) (tptp.user_description_2 X |tptp.'A form of lactose that acts as the inducer for the lac operon.'|) (tptp.concept2words_2 X tptp.allolactose) (tptp.lactose_1 X) (tptp.binding_site_1 _let_49) (tptp.transcription_1 _let_50) (tptp.lactose_1 _let_47) (tptp.free_energy_1 _let_48) (tptp.constant_motion_1 _let_24) (tptp.entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.oxygen_1 _let_20) (tptp.galactose_1 _let_34) (tptp.covalent_bond_1 _let_30) (tptp.double_bond_1 _let_30) (tptp.covalent_bond_1 _let_31) (tptp.polar_covalent_bond_1 _let_31) (tptp.kinetic_energy_1 _let_27) (tptp.carbon_skeleton_1 _let_32) (tptp.functional_group_1 _let_29) (tptp.carbonyl_group_1 _let_29) (tptp.hydrophilic_region_1 _let_41) (tptp.functional_group_1 _let_28) (tptp.hydroxyl_group_1 _let_28) (tptp.condensation_reaction_1 _let_35) (tptp.dehydration_reaction_1 _let_35) (tptp.attract_1 _let_22) (tptp.quantity_value_1 _let_26) (tptp.speed_value_1 _let_25) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.oxygen_1 _let_19) (tptp.atomic_weight_value_1 _let_45) (tptp.attract_1 _let_37) (tptp.unequal_sharing_1 _let_40) (tptp.share_1 _let_40) (tptp.electron_1 _let_39) (tptp.valence_electron_1 _let_39) (tptp.entity_1 _let_38) (tptp.electron_1 _let_38) (tptp.valence_electron_1 _let_38) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.hydrogen_1 _let_21) (tptp.chemical_entity_1 _let_33) (tptp.molecule_1 _let_33) (tptp.aldehyde_1 _let_33) (tptp.monosaccharide_1 _let_33) (tptp.carbohydrate_1 _let_33) (tptp.aldose_1 _let_33) (tptp.glucose_1 _let_33) (tptp.active_repressor_1 _let_1) (tptp.attach_1 _let_43) (tptp.inducer_1 _let_3) (tptp.carbon_source_1 _let_5) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.carbon_1 _let_36) (tptp.property_node_1 _let_46) (tptp.atomic_weight_value_1 _let_44) (tptp.attach_1 _let_42) (tptp.molecule_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.molecule_1 _let_2) (tptp.causes_2 _let_43 _let_50) (tptp.has_region_2 _let_1 _let_49) (tptp.has_state_2 X _let_47) (tptp.possesses_2 X _let_48) (tptp.has_isomer_2 X _let_47) (tptp.the_cardinal_value_2 _let_45 |"1.00794"|) (tptp.cardinal_unit_class_2 _let_45 tptp.dalton_0) (tptp.plays_2 X _let_5) (tptp.plays_2 X _let_3) (tptp.atomic_weight_2 _let_21 _let_45) (tptp.base_2 _let_43 _let_1) (tptp.object_2 _let_43 X) (not (= _let_23 _let_19)) (not (= _let_19 _let_23)) (tptp.is_inside_2 _let_21 _let_28) (tptp.site_2 _let_22 _let_41) (tptp.has_region_2 X _let_41) (tptp.raw_material_2 _let_35 _let_33) (tptp.possesses_2 X _let_30) (tptp.has_part_2 X _let_34) (tptp.raw_material_2 _let_35 _let_34) (tptp.result_2 _let_35 X) (tptp.has_part_2 X _let_20) (tptp.is_between_2 _let_30 _let_20) (tptp.is_between_2 _let_31 _let_20) (tptp.possesses_2 X _let_31) (tptp.has_part_2 X _let_33) (not (= _let_33 _let_34)) (not (= _let_34 _let_33)) (tptp.has_region_2 X _let_29) (tptp.is_inside_2 _let_23 _let_29) (tptp.is_inside_2 _let_23 _let_32) (tptp.has_region_2 X _let_32) (tptp.has_part_2 X _let_21) (tptp.is_between_2 _let_30 _let_23) (tptp.is_between_2 _let_30 _let_19) (tptp.is_between_2 _let_31 _let_19) (tptp.is_between_2 _let_31 _let_21) (not (= _let_21 _let_23)) (not (= _let_23 _let_21)) (tptp.has_region_2 X _let_28) (tptp.is_inside_2 _let_20 _let_28) (tptp.is_inside_2 _let_20 _let_29) (tptp.is_inside_2 _let_19 _let_29) (tptp.is_inside_2 _let_19 _let_28) (tptp.object_2 _let_24 X) (tptp.speed_2 _let_24 _let_25) (tptp.directly_proportional_2 _let_25 _let_26) (tptp.quantity_2 _let_27 _let_26) (tptp.possesses_2 X _let_27) (tptp.has_function_2 X _let_22) (tptp.agent_2 _let_22 X) (tptp.has_part_2 X _let_23) (not (= _let_20 _let_23)) (not (= _let_23 _let_20)) (tptp.has_part_2 X _let_19) (not (= _let_19 _let_21)) (not (= _let_21 _let_20)) (not (= _let_20 _let_19)) (not (= _let_19 _let_20)) (not (= _let_21 _let_19)) (not (= _let_20 _let_21)) (= X _let_6) (= X _let_4) (= (tptp.fn_allolactose_22 X) _let_46) (= _let_45 _let_44) (= X _let_2) (= _let_43 _let_42) (= _let_19 _let_8) (= (tptp.fn_allolactose_6 X) (tptp.fn_lactose_83 X)) (= (tptp.fn_allolactose_5 X) (tptp.fn_lactose_82 X)) (= _let_41 (tptp.fn_lactose_53 X)) (= _let_40 (tptp.fn_lactose_38 X)) (= _let_39 (tptp.fn_lactose_48 X)) (= _let_38 (tptp.fn_lactose_49 X)) (= _let_37 (tptp.fn_lactose_47 X)) (= _let_36 (tptp.fn_lactose_24 X)) (= _let_35 (tptp.fn_lactose_35 X)) (= _let_34 (tptp.fn_lactose_28 X)) (= _let_33 (tptp.fn_lactose_27 X)) (= _let_32 (tptp.fn_lactose_61 X)) (= _let_29 _let_18) (= _let_31 (tptp.fn_lactose_37 X)) (= _let_30 (tptp.fn_lactose_36 X)) (= _let_29 _let_17) (= _let_28 _let_16) (= _let_28 _let_15) (= _let_27 (tptp.fn_lactose_81 X)) (= _let_26 (tptp.fn_lactose_78 X)) (= _let_25 (tptp.fn_lactose_79 X)) (= _let_24 (tptp.fn_lactose_80 X)) (= _let_23 _let_14) (= _let_23 _let_13) (= _let_22 (tptp.fn_lactose_52 X)) (= _let_21 _let_12) (= _let_20 _let_10) (= _let_20 _let_7) (= _let_21 _let_11) (= _let_20 _let_9) (= _let_19 _let_7) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_7) (= _let_9 _let_7) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.allopatric_speciation_1 X) (and (tptp.original_name_2 X |tptp.'Allopatric-Speciation'|) (tptp.user_description_2 X |tptp.'The formation of new species as a result of geographic isolation in an ancestral population.'|) (tptp.concept2words_2 X |tptp.'geographic speciation'|) (tptp.concept2words_2 X |tptp.'geographic-speciation'|) (tptp.concept2words_2 X |tptp.'allopatric speciation'|) (tptp.concept2words_2 X |tptp.'allopatric-speciation'|) (tptp.speciation_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X))))) (forall ((X $$unsorted)) (=> (tptp.allopolyploid_1 X) (and (tptp.original_name_2 X |tptp.'Allopolyploid'|) (tptp.user_description_2 X |tptp.'An individual with more than two chromosomes, whose chromosomes derive from different species.'|) (tptp.concept2words_2 X tptp.allopolyploid) (tptp.polyploidy_1 X) (not (tptp.autopolyploid_1 X)) (not (tptp.monosomic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_allosteric_enzyme_14 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_4 (tptp.fn_protein_enzyme_8 X))) (let ((_let_5 (tptp.fn_protein_enzyme_9 X))) (let ((_let_6 (tptp.fn_polymer_4 X))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_10 X))) (let ((_let_10 (tptp.fn_enzyme_2 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_12 (tptp.fn_allosteric_enzyme_16 X))) (let ((_let_13 (tptp.fn_allosteric_enzyme_17 X))) (let ((_let_14 (tptp.fn_allosteric_enzyme_20 X))) (let ((_let_15 (tptp.fn_allosteric_enzyme_19 X))) (let ((_let_16 (tptp.fn_allosteric_enzyme_18 X))) (let ((_let_17 (tptp.fn_allosteric_enzyme_15 X))) (let ((_let_18 (tptp.fn_allosteric_enzyme_21 X))) (let ((_let_19 (tptp.fn_allosteric_enzyme_11 X))) (let ((_let_20 (tptp.fn_allosteric_enzyme_5 X))) (let ((_let_21 (tptp.fn_allosteric_enzyme_6 X))) (let ((_let_22 (tptp.fn_allosteric_enzyme_10 X))) (let ((_let_23 (tptp.fn_allosteric_enzyme_8 X))) (let ((_let_24 (tptp.fn_allosteric_enzyme_9 X))) (let ((_let_25 (tptp.fn_allosteric_enzyme_7 X))) (=> (tptp.allosteric_enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Allosteric-Enzyme'|) (tptp.user_description_2 X |tptp.'Allosteric enzymes are enzymes which are regulated by the binding of regulatory molecules on sites separate from the active site.'|) (tptp.concept2words_2 X |tptp.'allosteric enzyme'|) (tptp.concept2words_2 X |tptp.'allosteric-enzyme'|) (tptp.protein_enzyme_1 X) (tptp.allosteric_enzyme_1 _let_20) (tptp.allosteric_enzyme_1 _let_21) (tptp.activation_value_1 _let_25) (tptp.shape_value_1 _let_23) (tptp.shape_value_1 _let_24) (tptp.activation_value_1 _let_22) (tptp.allosteric_site_1 _let_19) (tptp.carbon_skeleton_1 _let_1) (tptp.active_site_1 _let_17) (tptp.carbon_1 _let_12) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.size_value_1 _let_16) (tptp.size_value_1 _let_15) (tptp.monomer_1 _let_14) (tptp.chemical_reaction_1 _let_18) (tptp.carbon_1 _let_11) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_2) (tptp.called_2 _let_20 |"1"|) (tptp.shape_2 _let_20 _let_24) (tptp.activation_2 _let_20 _let_22) (tptp.called_2 _let_21 |"2"|) (tptp.activation_2 _let_21 _let_25) (tptp.shape_2 _let_21 _let_23) (tptp.the_categorical_value_2 _let_25 tptp.inactive_0) (not (= _let_23 _let_24)) (not (= _let_24 _let_23)) (tptp.the_categorical_value_2 _let_22 tptp.active_0) (tptp.agent_2 _let_18 X) (tptp.has_state_2 X _let_21) (tptp.has_state_2 X _let_20) (tptp.has_region_2 X _let_19) (tptp.has_function_2 X _let_18) (tptp.site_2 _let_18 _let_17) (tptp.facilitates_2 _let_17 _let_18) (tptp.has_part_2 X _let_13) (tptp.the_scalar_value_2 _let_16 tptp.big_0) (tptp.scalar_unit_class_2 _let_16 tptp.polypeptide_0) (tptp.has_part_2 X _let_14) (tptp.size_2 _let_14 _let_15) (tptp.greater_than_2 _let_16 _let_15) (tptp.size_2 X _let_16) (tptp.has_region_2 X _let_17) (tptp.is_inside_2 _let_12 _let_1) (tptp.has_part_2 X _let_12) (tptp.has_region_2 X _let_1) (not (= _let_13 _let_12)) (not (= _let_12 _let_13)) (= (tptp.fn_allosteric_enzyme_13 X) (tptp.fn_protein_10 X)) (= _let_17 _let_10) (= _let_18 (tptp.fn_enzyme_4 X)) (= _let_13 _let_4) (= _let_17 _let_9) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 (tptp.fn_protein_enzyme_4 X)) (= _let_14 _let_6) (= _let_14 _let_5) (= X _let_2) (= _let_13 _let_3) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_polymer_8 X))) (let ((_let_3 (tptp.fn_allosteric_protein_1 X))) (let ((_let_4 (tptp.fn_regulator_molecule_3 _let_3))) (let ((_let_5 (tptp.fn_allosteric_protein_7 X))) (let ((_let_6 (tptp.fn_attach_1 _let_5))) (let ((_let_7 (tptp.fn_allosteric_protein_2 X))) (let ((_let_8 (tptp.fn_allosteric_protein_3 X))) (let ((_let_9 (tptp.fn_allosteric_protein_21 X))) (let ((_let_10 (tptp.fn_allosteric_protein_13 X))) (let ((_let_11 (tptp.fn_allosteric_protein_20 X))) (let ((_let_12 (tptp.fn_allosteric_protein_19 X))) (let ((_let_13 (tptp.fn_allosteric_protein_4 X))) (let ((_let_14 (tptp.fn_allosteric_protein_12 X))) (let ((_let_15 (tptp.fn_allosteric_protein_10 X))) (let ((_let_16 (tptp.fn_allosteric_protein_18 X))) (let ((_let_17 (tptp.fn_allosteric_protein_15 X))) (let ((_let_18 (tptp.fn_allosteric_protein_16 X))) (let ((_let_19 (tptp.fn_allosteric_protein_17 X))) (let ((_let_20 (tptp.fn_allosteric_protein_11 X))) (let ((_let_21 (tptp.fn_allosteric_protein_14 X))) (let ((_let_22 (tptp.fn_allosteric_protein_5 X))) (let ((_let_23 (tptp.fn_attach_2 _let_5))) (let ((_let_24 (tptp.fn_allosteric_protein_9 X))) (let ((_let_25 (tptp.fn_conformational_change_4 _let_24))) (let ((_let_26 (tptp.fn_allosteric_protein_6 X))) (let ((_let_27 (tptp.fn_conformational_change_3 _let_24))) (let ((_let_28 (tptp.fn_allosteric_protein_8 X))) (=> (tptp.allosteric_protein_1 X) (and (tptp.original_name_2 X |tptp.'Allosteric-Protein'|) (tptp.user_description_2 X |tptp.'A protein whose shape is changed when it binds to a particular molecule. In the new shape the protein_'s ability to react to a second molecule is altered.'|) (tptp.concept2words_2 X |tptp.'allosteric protein'|) (tptp.concept2words_2 X |tptp.'allosteric-protein'|) (tptp.protein_1 X) (tptp.regulator_molecule_1 _let_3) (tptp.hydrophilic_region_1 _let_7) (tptp.surface_1 _let_8) (tptp.carbon_skeleton_1 _let_13) (tptp.spatial_entity_1 _let_22) (tptp.molecule_1 _let_22) (tptp.allosteric_site_1 _let_26) (tptp.attach_1 _let_5) (tptp.active_site_1 _let_28) (tptp.conformational_change_1 _let_24) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.monomer_1 _let_20) (tptp.carbon_1 _let_14) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.monomer_1 _let_10) (tptp.molecule_1 _let_10) (tptp.amino_acid_1 _let_10) (tptp.size_value_1 _let_21) (tptp.quantity_value_1 _let_17) (tptp.speed_value_1 _let_18) (tptp.constant_motion_1 _let_19) (tptp.kinetic_energy_1 _let_16) (tptp.size_value_1 _let_12) (tptp.polypeptide_1 _let_11) (tptp.protein_domain_1 _let_9) (tptp.spatial_entity_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.spatial_entity_1 _let_6) (tptp.molecule_1 _let_4) (tptp.causes_2 _let_5 _let_24) (tptp.has_region_2 X _let_26) (tptp.result_2 _let_24 _let_28) (tptp.object_2 _let_24 _let_26) (tptp.object_2 _let_5 _let_22) (tptp.base_2 _let_5 X) (tptp.plays_2 _let_22 _let_3) (tptp.has_part_2 X _let_20) (tptp.size_2 _let_20 _let_21) (tptp.greater_than_2 _let_12 _let_21) (tptp.possesses_2 X _let_16) (tptp.quantity_2 _let_16 _let_17) (tptp.directly_proportional_2 _let_18 _let_17) (tptp.speed_2 _let_19 _let_18) (tptp.object_2 _let_19 X) (tptp.has_part_2 X _let_15) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (tptp.has_part_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (tptp.size_2 X _let_12) (tptp.the_scalar_value_2 _let_12 tptp.big_0) (tptp.scalar_unit_class_2 _let_12 tptp.polypeptide_0) (tptp.has_region_2 X _let_7) (tptp.is_at_2 _let_7 _let_8) (tptp.has_region_2 X _let_8) (tptp.has_region_2 X _let_9) (tptp.is_at_2 _let_10 _let_9) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_22 _let_6) (= X _let_23) (= _let_22 _let_4) (= (tptp.fn_allosteric_protein_25 X) (tptp.fn_polymer_10 X)) (= _let_12 _let_2) (= _let_21 (tptp.fn_polymer_7 X)) (= _let_20 (tptp.fn_polymer_4 X)) (= (tptp.fn_allosteric_protein_24 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_allosteric_protein_23 X) (tptp.fn_molecule_1 X)) (= _let_19 (tptp.fn_molecule_8 X)) (= _let_18 (tptp.fn_molecule_3 X)) (= _let_17 (tptp.fn_molecule_4 X)) (= _let_16 (tptp.fn_molecule_12 X)) (= _let_15 (tptp.fn_organic_molecule_2 X)) (= _let_14 (tptp.fn_organic_molecule_1 X)) (= _let_13 (tptp.fn_organic_molecule_3 X)) (= (tptp.fn_allosteric_protein_22 X) (tptp.fn_protein_10 X)) (= _let_12 _let_1) (= _let_11 (tptp.fn_protein_8 X)) (= _let_10 (tptp.fn_protein_14 X)) (= _let_9 (tptp.fn_protein_7 X)) (= _let_8 (tptp.fn_protein_5 X)) (= _let_7 (tptp.fn_protein_1 X)) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_allosteric_regulation_2 X))) (let ((_let_2 (tptp.fn_regulator_molecule_2 _let_1))) (let ((_let_3 (tptp.fn_regulator_molecule_3 _let_1))) (let ((_let_4 (tptp.fn_allosteric_regulation_3 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_allosteric_regulation_4 X))) (let ((_let_7 (tptp.fn_allosteric_regulation_1 X))) (=> (tptp.allosteric_regulation_1 X) (and (tptp.original_name_2 X |tptp.'Allosteric-Regulation'|) (tptp.user_description_2 X |tptp.'The regulation of protein function by the binding of an effector molecule at a site other than the protein_'s active site.'|) (tptp.concept2words_2 X |tptp.'allosteric reaction'|) (tptp.concept2words_2 X |tptp.'allosteric-reaction'|) (tptp.concept2words_2 X |tptp.'allosteric regulation'|) (tptp.concept2words_2 X |tptp.'allosteric-regulation'|) (tptp.regulation_1 X) (not (tptp.feedback_inhibition_1 X)) (tptp.allosteric_site_1 _let_7) (tptp.regulator_molecule_1 _let_1) (tptp.attach_1 _let_4) (tptp.spatial_entity_1 _let_6) (tptp.molecule_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.molecule_1 _let_3) (tptp.regulation_1 _let_2) (tptp.site_2 _let_4 _let_7) (tptp.object_2 _let_4 _let_6) (tptp.in_event_2 _let_1 X) (tptp.has_function_2 _let_6 X) (tptp.plays_2 _let_6 _let_1) (= _let_6 _let_5) (= _let_6 _let_3) (= X _let_2) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.allosteric_site_1 X) (and (tptp.original_name_2 X |tptp.'Allosteric-Site'|) (tptp.user_description_2 X |tptp.'The site on an enzyme where a molecule other than substrate bind, thus changing the shape of the enzyme and influencing its ability to be active.'|) (tptp.concept2words_2 X |tptp.'regulatory site'|) (tptp.concept2words_2 X |tptp.'regulatory-site'|) (tptp.concept2words_2 X |tptp.'allosteric site'|) (tptp.concept2words_2 X |tptp.'allosteric-site'|) (tptp.receptor_site_1 X) (not (tptp.active_site_1 X)) (not (tptp.alpha_helix_1 X)) (not (tptp.protein_domain_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycosidic_linkage_74 X))) (let ((_let_2 (tptp.fn_glycosidic_linkage_73 X))) (let ((_let_3 (tptp.fn_glycosidic_linkage_46 X))) (let ((_let_4 (tptp.fn_glycosidic_linkage_45 X))) (let ((_let_5 (tptp.fn_polar_covalent_bond_18 X))) (let ((_let_6 (tptp.fn_polar_covalent_bond_19 X))) (let ((_let_7 (tptp.fn_alpha_1_comma_4_linkage_47 X))) (let ((_let_8 (tptp.fn_attract_2 _let_7))) (let ((_let_9 (tptp.fn_glycosidic_linkage_62 X))) (let ((_let_10 (tptp.fn_glycosidic_linkage_25 X))) (let ((_let_11 (tptp.fn_glycosidic_linkage_65 X))) (let ((_let_12 (tptp.fn_alpha_1_comma_4_linkage_49 X))) (let ((_let_13 (tptp.fn_carbon_18 _let_12))) (let ((_let_14 (tptp.fn_atom_18 _let_12))) (let ((_let_15 (tptp.fn_glycosidic_linkage_48 X))) (let ((_let_16 (tptp.fn_glycosidic_linkage_17 X))) (let ((_let_17 (tptp.fn_glycosidic_linkage_47 X))) (let ((_let_18 (tptp.fn_carbon_10 _let_12))) (let ((_let_19 (tptp.fn_atom_14 _let_12))) (let ((_let_20 (tptp.fn_glycosidic_linkage_58 X))) (let ((_let_21 (tptp.fn_carbon_12 _let_12))) (let ((_let_22 (tptp.fn_polar_covalent_bond_9 X))) (let ((_let_23 (tptp.fn_atom_5 _let_12))) (let ((_let_24 (tptp.fn_glycosidic_linkage_59 X))) (let ((_let_25 (tptp.fn_carbon_19 _let_12))) (let ((_let_26 (tptp.fn_polar_covalent_bond_10 X))) (let ((_let_27 (tptp.fn_atom_11 _let_12))) (let ((_let_28 (tptp.fn_glycosidic_linkage_22 X))) (let ((_let_29 (tptp.fn_glycosidic_linkage_13 X))) (let ((_let_30 (tptp.fn_glycosidic_linkage_41 X))) (let ((_let_31 (tptp.fn_glycosidic_linkage_43 X))) (let ((_let_32 (tptp.fn_glycosidic_linkage_51 X))) (let ((_let_33 (tptp.fn_glycosidic_linkage_26 X))) (let ((_let_34 (tptp.fn_glycosidic_linkage_18 X))) (let ((_let_35 (tptp.fn_glycosidic_linkage_9 X))) (let ((_let_36 (tptp.fn_glycosidic_linkage_67 X))) (let ((_let_37 (tptp.fn_glycosidic_linkage_72 X))) (let ((_let_38 (tptp.fn_alpha_1_comma_4_linkage_48 X))) (let ((_let_39 (tptp.fn_atom_14 _let_38))) (let ((_let_40 (tptp.fn_carbon_10 _let_38))) (let ((_let_41 (tptp.fn_carbon_18 _let_38))) (let ((_let_42 (tptp.fn_atom_18 _let_38))) (let ((_let_43 (tptp.fn_glycosidic_linkage_10 X))) (let ((_let_44 (tptp.fn_glycosidic_linkage_11 X))) (let ((_let_45 (tptp.fn_glycosidic_linkage_44 X))) (let ((_let_46 (tptp.fn_glycosidic_linkage_38 X))) (let ((_let_47 (tptp.fn_carbon_19 _let_38))) (let ((_let_48 (tptp.fn_carbon_12 _let_38))) (let ((_let_49 (tptp.fn_atom_5 _let_38))) (let ((_let_50 (tptp.fn_glycosidic_linkage_42 X))) (let ((_let_51 (tptp.fn_glycosidic_linkage_27 X))) (let ((_let_52 (tptp.fn_glycosidic_linkage_50 X))) (let ((_let_53 (tptp.fn_atom_9 _let_12))) (let ((_let_54 (tptp.fn_atom_9 _let_38))) (let ((_let_55 (tptp.fn_glycosidic_linkage_37 X))) (let ((_let_56 (tptp.fn_atom_11 _let_38))) (let ((_let_57 (tptp.fn_glycosidic_linkage_36 X))) (let ((_let_58 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(tptp.fn_alpha_1_comma_4_linkage_6 X))) (let ((_let_134 (tptp.fn_alpha_1_comma_4_linkage_1 X))) (let ((_let_135 (tptp.fn_alpha_1_comma_4_linkage_4 X))) (let ((_let_136 (tptp.fn_alpha_1_comma_4_linkage_5 X))) (let ((_let_137 (tptp.fn_alpha_1_comma_4_linkage_8 X))) (let ((_let_138 (tptp.fn_carbon_11 _let_12))) (let ((_let_139 (tptp.fn_alpha_1_comma_4_linkage_30 X))) (let ((_let_140 (tptp.fn_alpha_1_comma_4_linkage_36 X))) (let ((_let_141 (tptp.fn_carbon_7 _let_12))) (let ((_let_142 (tptp.fn_alpha_1_comma_4_linkage_34 X))) (let ((_let_143 (tptp.fn_alpha_1_comma_4_linkage_35 X))) (let ((_let_144 (tptp.fn_carbon_7 _let_38))) (=> (tptp.alpha_1_comma_4_linkage_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-1,4-Linkage'|) (tptp.user_description_2 X |tptp.'A chemical bond between the number 1 and a number 4 carbon on two adjacent molecules where the oxygen atom from the hydroxyl group of the monosaccharide is below the plane of the molecule.'|) (tptp.concept2words_2 X |tptp.'alpha 1,4 linkage'|) (tptp.concept2words_2 X |tptp.'alpha-1,4-linkage'|) (tptp.glycosidic_linkage_1 X) (not (tptp.beta_1_comma_4_linkage_1 X)) (tptp.share_1 _let_103) (tptp.share_1 _let_107) (tptp.share_1 _let_108) (tptp.unequal_sharing_1 _let_108) (tptp.share_1 _let_119) (tptp.unequal_sharing_1 _let_119) (tptp.share_1 _let_121) (tptp.share_1 _let_123) (tptp.unequal_sharing_1 _let_123) (tptp.asymmetrical_distribution_1 _let_127) (tptp.constant_motion_1 _let_128) (tptp.asymmetrical_distribution_1 _let_129) (tptp.constant_motion_1 _let_130) (tptp.attract_1 _let_118) (tptp.quantity_value_1 _let_98) (tptp.atomic_nucleus_1 _let_96) (tptp.entity_1 _let_117) (tptp.proton_1 _let_117) (tptp.atomic_nucleus_1 _let_106) (tptp.entity_1 _let_114) (tptp.proton_1 _let_114) (tptp.attract_1 _let_122) (tptp.asymmetrical_distribution_1 _let_125) (tptp.constant_motion_1 _let_126) (tptp.system_1 _let_139) (tptp.atomic_number_value_1 _let_120) (tptp.electronegativity_value_1 _let_115) (tptp.electronegativity_value_1 _let_116) (tptp.system_1 _let_142) (tptp.quantity_value_1 _let_99) (tptp.tangible_entity_1 _let_97) (tptp.entity_1 _let_97) (tptp.electron_1 _let_97) (tptp.valence_electron_1 _let_97) (tptp.tangible_entity_1 _let_105) (tptp.entity_1 _let_105) (tptp.electron_1 _let_105) (tptp.valence_electron_1 _let_105) (tptp.asymmetrical_distribution_1 _let_132) (tptp.constant_motion_1 _let_131) (tptp.center_1 _let_101) (tptp.electron_shell_1 _let_110) (tptp.electron_shell_1 _let_111) (tptp.center_1 _let_102) (tptp.share_1 _let_124) (tptp.unequal_sharing_1 _let_124) (tptp.attract_1 _let_7) (tptp.tangible_entity_1 _let_38) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.carbon_1 _let_38) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.carbon_1 _let_12) (tptp.hold_1 _let_100) (tptp.hold_together_1 _let_100) (tptp.atomic_orbital_1 _let_104) (tptp.quantity_value_1 _let_109) (tptp.quantity_value_1 _let_112) (tptp.atomic_number_value_1 _let_113) (tptp.equation_big_node_1 _let_144) (tptp.equation_big_node_1 _let_141) (tptp.system_1 _let_138) (tptp.equation_set_1 _let_95) (tptp.system_1 _let_93) (tptp.equation_set_1 _let_91) (tptp.property_node_1 _let_88) (tptp.property_node_1 _let_86) (tptp.property_node_1 _let_84) (tptp.property_node_1 _let_82) (tptp.property_node_1 _let_80) (tptp.atomic_number_value_1 _let_75) (tptp.atomic_number_value_1 _let_73) (tptp.proton_1 _let_69) (tptp.proton_1 _let_68) (tptp.electronegativity_value_1 _let_67) (tptp.electronegativity_value_1 _let_65) (tptp.proton_1 _let_63) (tptp.proton_1 _let_62) (tptp.atomic_number_value_1 _let_59) (tptp.atomic_number_value_1 _let_58) (tptp.quantity_value_1 _let_56) (tptp.electron_shell_1 _let_54) (tptp.electron_shell_1 _let_53) (tptp.quantity_value_1 _let_49) (tptp.quantity_value_1 _let_48) (tptp.quantity_value_1 _let_47) (tptp.atomic_nucleus_1 _let_42) (tptp.atomic_nucleus_1 _let_41) (tptp.electron_1 _let_40) (tptp.electron_1 _let_39) (tptp.quantity_value_1 _let_27) (tptp.quantity_value_1 _let_25) (tptp.quantity_value_1 _let_23) (tptp.quantity_value_1 _let_21) (tptp.electron_1 _let_19) (tptp.electron_1 _let_18) (tptp.atomic_nucleus_1 _let_14) (tptp.atomic_nucleus_1 _let_13) (tptp.entity_1 _let_8) (tptp.agent_2 _let_7 _let_38) (tptp.agent_2 _let_7 _let_12) (tptp.object_2 _let_7 _let_105) (tptp.object_2 _let_7 _let_97) (tptp.has_region_2 _let_12 _let_102) (tptp.has_part_2 _let_12 _let_97) (tptp.object_2 _let_130 _let_97) (tptp.has_region_2 _let_12 _let_101) (tptp.agent_2 _let_107 _let_38) (tptp.agent_2 _let_108 _let_38) (tptp.called_2 _let_98 |tptp.'Number_Electron'|) (tptp.called_2 _let_99 |tptp.'Number_Proton'|) (tptp.has_region_2 _let_38 _let_111) (tptp.called_2 _let_109 |tptp.'Number_Electron'|) (tptp.called_2 _let_112 |tptp.'Number_Proton'|) (tptp.object_2 _let_124 _let_105) (tptp.object_2 _let_126 _let_105) (tptp.agent_2 _let_124 _let_12) (tptp.agent_2 _let_123 _let_12) (tptp.quantity_2 _let_117 _let_99) (tptp.is_inside_2 _let_117 _let_96) (tptp.atomic_number_2 _let_38 _let_113) (tptp.called_2 _let_113 |tptp.'Atomic_Number'|) (= _let_99 _let_120) (= _let_120 _let_99) (tptp.object_2 _let_131 _let_97) (tptp.causes_2 _let_131 _let_132) (tptp.object_2 _let_132 _let_97) (tptp.object_2 _let_121 _let_97) (tptp.object_2 _let_127 _let_97) (tptp.causes_2 _let_128 _let_127) (tptp.object_2 _let_128 _let_97) (tptp.object_2 _let_129 _let_97) (tptp.causes_2 _let_130 _let_129) (tptp.agent_2 _let_124 _let_38) (tptp.agent_2 _let_123 _let_38) (tptp.object_2 _let_123 _let_105) (tptp.object_2 _let_125 _let_105) (tptp.causes_2 _let_126 _let_125) (tptp.object_2 _let_119 _let_97) (tptp.object_2 _let_123 _let_97) (tptp.result_2 _let_123 X) (tptp.result_2 _let_124 X) (tptp.object_2 _let_124 _let_97) (tptp.has_part_2 _let_38 _let_114) (tptp.agent_2 _let_122 _let_114) (tptp.object_2 _let_122 _let_105) (tptp.object_2 _let_121 _let_105) (tptp.agent_2 _let_121 _let_12) (tptp.agent_2 _let_119 _let_38) (tptp.result_2 _let_119 X) (tptp.result_2 _let_121 X) (tptp.agent_2 _let_121 _let_38) (tptp.has_region_2 _let_38 _let_110) (tptp.has_part_2 _let_38 _let_105) (tptp.object_2 _let_119 _let_105) (tptp.agent_2 _let_119 _let_12) (tptp.atomic_number_2 _let_12 _let_120) (tptp.called_2 _let_120 |tptp.'Atomic_Number'|) (tptp.object_2 _let_108 _let_97) (tptp.agent_2 _let_108 _let_12) (tptp.has_part_2 _let_12 _let_117) (tptp.agent_2 _let_118 _let_117) (tptp.object_2 _let_118 _let_97) (tptp.electronegativity_2 _let_12 _let_115) (not (= _let_115 _let_116)) (tptp.electronegativity_2 _let_38 _let_116) (tptp.has_region_2 _let_38 _let_102) (tptp.is_at_2 _let_96 _let_102) (not (= _let_116 _let_115)) (tptp.object_2 _let_107 _let_97) (tptp.agent_2 _let_107 _let_12) (tptp.has_region_2 _let_12 _let_111) (not (= _let_110 _let_111)) (not (= _let_111 _let_110)) (= _let_112 _let_109) (tptp.quantity_2 _let_114 _let_112) (tptp.is_inside_2 _let_114 _let_106) (= _let_109 _let_112) (= _let_113 _let_112) (= _let_112 _let_113) (tptp.agent_2 _let_103 _let_38) (tptp.agent_2 _let_103 _let_12) (tptp.has_region_2 _let_12 _let_110) (tptp.has_region_2 _let_110 _let_104) (tptp.has_region_2 _let_111 _let_104) (tptp.object_2 _let_100 _let_38) (tptp.has_function_2 X _let_100) (tptp.result_2 _let_108 X) (tptp.object_2 _let_108 _let_105) (tptp.quantity_2 _let_105 _let_109) (tptp.object_2 _let_103 _let_105) (tptp.object_2 _let_107 _let_105) (tptp.result_2 _let_107 X) (not (= _let_97 _let_105)) (not (= _let_105 _let_97)) (not (= _let_12 _let_38)) (tptp.has_region_2 _let_38 _let_106) (tptp.is_at_2 _let_106 _let_101) (not (= _let_38 _let_12)) (not (= _let_96 _let_106)) (not (= _let_106 _let_96)) (tptp.result_2 _let_103 X) (tptp.object_2 _let_103 _let_97) (tptp.is_inside_2 _let_97 _let_104) (tptp.is_inside_2 _let_105 _let_104) (tptp.is_near_2 _let_105 _let_106) (tptp.is_near_2 _let_106 _let_105) (tptp.object_2 _let_100 _let_12) (tptp.agent_2 _let_100 X) (tptp.is_between_2 X _let_38) (tptp.has_region_2 _let_38 _let_101) (not (= _let_101 _let_102)) (not (= _let_102 _let_101)) (tptp.is_between_2 X _let_12) (tptp.has_region_2 _let_12 _let_96) (tptp.is_near_2 _let_96 _let_97) (tptp.quantity_2 _let_97 _let_98) (= _let_98 _let_99) (tptp.is_near_2 _let_97 _let_96) (= _let_99 _let_98) (= _let_12 _let_8) (= _let_109 _let_47) (= _let_112 _let_26) (= _let_112 _let_48) (= (tptp.fn_alpha_1_comma_4_linkage_3 X) _let_144) (= _let_143 _let_92) (= _let_143 _let_95) (= _let_142 _let_94) (= _let_142 _let_93) (= _let_140 _let_92) (= (tptp.fn_alpha_1_comma_4_linkage_2 X) _let_141) (= _let_140 _let_91) (= _let_139 _let_138) (= _let_7 _let_90) (= _let_7 _let_89) (= _let_102 _let_31) (= _let_130 _let_77) (= (tptp.fn_alpha_1_comma_4_linkage_10 X) (tptp.fn_glycosidic_linkage_31 X)) (= _let_107 _let_36) (= (tptp.fn_alpha_1_comma_4_linkage_9 X) (tptp.fn_glycosidic_linkage_32 X)) (= _let_108 _let_45) (= _let_137 _let_88) (= _let_137 _let_87) (= (tptp.fn_alpha_1_comma_4_linkage_7 X) (tptp.fn_glycosidic_linkage_2 X)) (= _let_136 _let_86) (= _let_136 _let_85) (= _let_135 _let_84) (= _let_135 _let_83) (= _let_134 _let_82) (= _let_134 _let_81) (= _let_126 _let_78) (= _let_117 _let_61) (= _let_133 _let_80) (= _let_133 _let_79) (= _let_121 _let_36) (= _let_132 (tptp.fn_glycosidic_linkage_1 X)) (= _let_131 (tptp.fn_glycosidic_linkage_71 X)) (= _let_130 _let_78) (= _let_129 (tptp.fn_glycosidic_linkage_4 X)) (= _let_128 (tptp.fn_glycosidic_linkage_21 X)) (= _let_127 (tptp.fn_glycosidic_linkage_20 X)) (= _let_126 _let_77) (= _let_125 (tptp.fn_glycosidic_linkage_15 X)) (= _let_123 _let_71) (= _let_124 (tptp.fn_glycosidic_linkage_66 X)) (= _let_123 _let_45) (= _let_122 _let_90) (= _let_114 _let_61) (= _let_110 _let_54) (= _let_110 _let_52) (= _let_121 _let_76) (= _let_119 _let_71) (= _let_120 _let_73) (= _let_120 _let_75) (= _let_120 _let_74) (= _let_120 _let_72) (= _let_119 _let_70) (= _let_118 _let_89) (= _let_117 _let_68) (= _let_117 _let_69) (= _let_117 _let_60) (= _let_96 _let_11) (= _let_102 _let_32) (= _let_116 _let_67) (= _let_116 _let_66) (= _let_115 _let_65) (= _let_115 _let_64) (= _let_111 _let_50) (= _let_110 _let_51) (= _let_111 _let_52) (= _let_107 _let_43) (= _let_114 _let_63) (= _let_114 _let_62) (= _let_114 _let_60) (= _let_113 _let_58) (= _let_113 _let_59) (= _let_113 _let_57) (= _let_112 _let_56) (= _let_112 _let_47) (= _let_112 _let_55) (= _let_111 _let_51) (= _let_110 _let_53) (= _let_110 _let_50) (= _let_103 _let_35) (= _let_105 _let_40) (= _let_109 _let_48) (= _let_109 _let_49) (= _let_109 _let_46) (= _let_108 _let_44) (= X _let_2) (= _let_100 _let_29) (= _let_107 _let_35) (= _let_105 _let_16) (= _let_106 _let_41) (= _let_38 _let_5) (= _let_38 _let_4) (= _let_105 _let_39) (= _let_106 _let_42) (= _let_105 _let_15) (= _let_106 _let_9) (= _let_106 _let_11) (= _let_105 _let_17) (= _let_104 (tptp.fn_glycosidic_linkage_49 X)) (= _let_97 _let_17) (= _let_103 _let_37) (= _let_103 _let_36) (= _let_103 _let_34) (= _let_101 _let_32) (= _let_102 _let_33) (= _let_101 _let_31) (= _let_38 _let_3) (= _let_100 _let_30) (= X _let_1) (= _let_100 _let_28) (= _let_99 _let_27) (= _let_99 _let_25) (= _let_98 _let_22) (= _let_99 _let_26) (= _let_99 _let_24) (= _let_98 _let_23) (= _let_97 _let_18) (= _let_98 _let_21) (= _let_98 _let_20) (= _let_97 _let_19) (= _let_96 _let_10) (= _let_97 _let_16) (= _let_97 _let_15) (= _let_96 _let_14) (= _let_96 _let_13) (= _let_96 _let_9) (= _let_12 _let_6) (= _let_12 _let_5) (= _let_12 _let_4) (= _let_12 _let_3) (= _let_95 _let_95) (= _let_95 _let_92) (= _let_92 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_91) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_45) (= _let_45 _let_71) (= _let_71 _let_45) (= _let_45 _let_45) (= _let_45 _let_36) (= _let_36 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_68) (= _let_68 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_61 _let_68) (= _let_68 _let_61) (= _let_60 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_26) (= _let_26 _let_56) (= _let_47 _let_56) (= _let_56 _let_56) (= _let_56 _let_47) (= _let_47 _let_47) (= _let_48 _let_55) (= _let_55 _let_55) (= _let_55 _let_50) (= _let_50 _let_52) (= _let_52 _let_52) (= _let_51 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_49 _let_48) (= _let_48 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_36) (= _let_36 _let_43) (= _let_43 _let_43) (= _let_43 _let_35) (= _let_35 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_9 _let_41) (= _let_41 _let_9) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_11) (= _let_11 _let_39) (= _let_39 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_16) (= _let_16 _let_39) (= _let_39 _let_15) (= _let_17 _let_15) (= _let_15 _let_17) (= _let_17 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_31) (= _let_32 _let_32) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_5) (= _let_3 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_15 _let_15) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_13) (= _let_13 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alpha_1_comma_6_linkage_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-1,6-Linkage'|) (tptp.user_description_2 X |tptp.'A chemical bond between the number 1 and a number 6 carbon on two adjacent molecules.'|) (tptp.concept2words_2 X |tptp.'alpha 1,6 linkage'|) (tptp.concept2words_2 X |tptp.'alpha-1,6-linkage'|) (tptp.glycosidic_linkage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.alpha_cell_islet_of_langerhans_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Cell-Islet-Of-Langerhans'|) (tptp.user_description_2 X |tptp.'Endocrine cells of the islets of Langerhans in the pancreas, which secrete glucagon and thus cause an increase in blood glucose level.'|) (tptp.concept2words_2 X |tptp.'alpha cell'|) (tptp.concept2words_2 X |tptp.'alpha-cell'|) (tptp.concept2words_2 X |tptp.'alpha cell islet of langerhans'|) (tptp.concept2words_2 X |tptp.'alpha cell islet of langerhan'|) (tptp.concept2words_2 X |tptp.'alpha-cell-islet-of-langerhan'|) (tptp.pancreas_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alpha_globin_1 X))) (let ((_let_2 (tptp.fn_protein_8 _let_1))) (=> (tptp.alpha_globin_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Globin'|) (tptp.user_description_2 X |tptp.'Alpha globin (HBA) is a protein that, along with beta globin (HBB), makes up the most common form of hemoglobin in adult humans. The normal adult hemoglobin tetramer consists of two alpha chains and two beta chains.'|) (tptp.concept2words_2 X |tptp.'a globin'|) (tptp.concept2words_2 X |tptp.'a-globin'|) (tptp.concept2words_2 X tptp.hba) (tptp.concept2words_2 X |tptp.'alpha subunit of hemoglobin'|) (tptp.concept2words_2 X |tptp.'alpha-subunit-of-hemoglobin'|) (tptp.concept2words_2 X |tptp.'hemoglobin alpha subunit'|) (tptp.concept2words_2 X |tptp.'hemoglobin-alpha-subunit'|) (tptp.concept2words_2 X |tptp.'globin of alpha'|) (tptp.concept2words_2 X |tptp.'alpha globin'|) (tptp.concept2words_2 X |tptp.'alpha-globin'|) (tptp.globins_1 X) (not (tptp.beta_globin_1 X)) (tptp.hemoglobin_1 _let_1) (tptp.polypeptide_1 _let_2) (tptp.has_part_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alpha_globin_ancestral_gene_3 X))) (let ((_let_2 (tptp.fn_globin_ancestral_gene_2 _let_1))) (let ((_let_3 (tptp.fn_alpha_globin_ancestral_gene_2 X))) (let ((_let_4 (tptp.fn_globin_ancestral_gene_1 _let_1))) (let ((_let_5 (tptp.fn_alpha_globin_ancestral_gene_1 X))) (=> (tptp.alpha_globin_ancestral_gene_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Globin-Ancestral-Gene'|) (tptp.user_description_2 X |tptp.'Ancestral gene source for the alpha globin ancestral gene and the beta globin ancestral gene.'|) (tptp.concept2words_2 X |tptp.'alpha globin ancestral gene'|) (tptp.concept2words_2 X |tptp.'alpha-globin-ancestral-gene'|) (tptp.globin_ancestral_gene_1 X) (not (tptp.beta_globin_ancestral_gene_1 X)) (tptp.beta_globin_ancestral_gene_1 _let_5) (tptp.evolution_1 _let_3) (tptp.globin_ancestral_gene_1 _let_1) (tptp.alpha_globin_ancestral_gene_1 _let_4) (tptp.evolution_1 _let_2) (tptp.result_2 _let_3 _let_5) (tptp.object_2 _let_3 _let_1) (tptp.result_2 _let_3 X) (= X _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.alpha_globin_gene_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Globin-Gene'|) (tptp.user_description_2 X |tptp.'Gene that codes for the alpha globin protein.'|) (tptp.concept2words_2 X |tptp.'alpha globin gene'|) (tptp.concept2words_2 X |tptp.'alpha-globin-gene'|) (tptp.immunoglobulin_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alpha_glucose_3 X))) (let ((_let_2 (tptp.fn_alpha_glucose_2 X))) (=> (tptp.alpha_glucose_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Glucose'|) (tptp.user_description_2 X |tptp.'In alpha glucose the -H group of the rightmost Carbon atom (C1) is above the plane of the ring'|) (tptp.concept2words_2 X |tptp.'glucose of alpha'|) (tptp.concept2words_2 X |tptp.'alpha glucose'|) (tptp.concept2words_2 X |tptp.'alpha-glucose'|) (tptp.glucose_isomer_1 X) (not (tptp.beta_glucose_1 X)) (tptp.shape_value_1 _let_2) (tptp.glucose_1 _let_1) (tptp.shape_2 X _let_2) (tptp.the_categorical_value_2 _let_2 tptp.ring_shaped_0) (tptp.has_state_2 _let_1 X) (tptp.has_isomer_2 _let_1 X) (= _let_1 (tptp.fn_glucose_isomer_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alpha_helix_2 X))) (=> (tptp.alpha_helix_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Helix'|) (tptp.user_description_2 X |tptp.'A coiled region constituting one form of the secondary structure of proteins, arising from a specific pattern of hydrogen bonding between atoms of the polypeptide backbone (not the side chains).'|) (tptp.concept2words_2 X |tptp.'a helix'|) (tptp.concept2words_2 X |tptp.'a-helix'|) (tptp.concept2words_2 X |tptp.'alpha helices'|) (tptp.concept2words_2 X |tptp.'alpha-helices'|) (tptp.concept2words_2 X |tptp.'a helices'|) (tptp.concept2words_2 X |tptp.'a-helices'|) (tptp.concept2words_2 X |tptp.'helix of alpha'|) (tptp.concept2words_2 X |tptp.'alpha helix'|) (tptp.concept2words_2 X |tptp.'alpha-helix'|) (tptp.secondary_protein_structure_1 X) (not (tptp.active_site_1 X)) (not (tptp.allosteric_site_1 X)) (not (tptp.antigen_binding_site_1 X)) (not (tptp.epitope_1 X)) (not (tptp.protein_domain_1 X)) (tptp.shape_value_1 _let_1) (tptp.shape_2 X _let_1) (tptp.the_categorical_value_2 _let_1 tptp.helix_0))))) (forall ((X $$unsorted)) (=> (tptp.alpha_keratin_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Keratin'|) (tptp.user_description_2 X |tptp.'The form of the structural protein, keratin, that is rich in alpha helices.'|) (tptp.concept2words_2 X |tptp.'keratin of alpha'|) (tptp.concept2words_2 X |tptp.'alpha keratin'|) (tptp.concept2words_2 X |tptp.'alpha-keratin'|) (tptp.keratin_1 X) (not (tptp.collagen_1 X)) (not (tptp.fibrin_1 X)) (not (tptp.fibronectin_1 X)) (not (tptp.histone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.alpha_ketoglutarate_1 X) (and (tptp.original_name_2 X |tptp.'Alpha-Ketoglutarate'|) (tptp.user_description_2 X |tptp.'Alpha ketoglutarate is an intermediate compound formed in citric acid cycle.'|) (tptp.concept2words_2 X |tptp.'alpha ketoglutarate'|) (tptp.concept2words_2 X |tptp.'alpha-ketoglutarate'|) (tptp.ester_1 X) (not (tptp.acetate_1 X)) (not (tptp.citrate_1 X)) (not (tptp.fumarate_1 X)) (not (tptp.isocitrate_1 X)) (not (tptp.malate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alpha_tubulin_88 X))) (let ((_let_2 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_3 (tptp.fn_alpha_tubulin_137 X))) (let ((_let_4 (tptp.fn_covalent_bond_12 _let_3))) (let ((_let_5 (tptp.fn_covalent_bond_11 _let_3))) (let ((_let_6 (tptp.fn_alpha_tubulin_85 X))) (let ((_let_7 (tptp.fn_peptide_bond_44 _let_6))) (let ((_let_8 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_9 (tptp.fn_alpha_tubulin_109 X))) (let ((_let_10 (tptp.fn_carboxyl_group_16 _let_9))) (let ((_let_11 (tptp.fn_alpha_tubulin_77 X))) (let ((_let_12 (tptp.fn_amino_group_21 _let_11))) (let ((_let_13 (tptp.fn_polypeptide_84 X))) (let ((_let_14 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_15 (tptp.fn_amino_group_8 _let_11))) (let ((_let_16 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_17 (tptp.fn_peptide_bond_13 _let_6))) (let ((_let_18 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_19 (tptp.fn_carboxyl_group_17 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_let_173) (= _let_321 _let_18) (= _let_138 _let_173) (= _let_444 _let_132) (= _let_341 _let_65) (= _let_398 _let_288) (= _let_332 _let_45) (= _let_48 _let_308) (= _let_347 _let_204) (= _let_435 _let_308) (= _let_332 _let_69) (= _let_120 _let_93) (= _let_334 _let_89) (= (tptp.fn_alpha_tubulin_6 X) (tptp.fn_polymer_9 X)) (= (tptp.fn_alpha_tubulin_5 X) (tptp.fn_polymer_10 X)) (= _let_443 (tptp.fn_polymer_7 X)) (= _let_442 (tptp.fn_polymer_8 X)) (= (tptp.fn_alpha_tubulin_53 X) (tptp.fn_molecule_1 X)) (= _let_437 _let_313) (= (tptp.fn_alpha_tubulin_52 X) (tptp.fn_molecule_2 X)) (= _let_441 (tptp.fn_molecule_8 X)) (= _let_440 (tptp.fn_molecule_3 X)) (= _let_439 (tptp.fn_molecule_4 X)) (= _let_438 (tptp.fn_molecule_12 X)) (= _let_436 _let_311) (= _let_437 _let_312) (= _let_436 _let_310) (= _let_295 (tptp.fn_organic_molecule_3 X)) (= X _let_296) (= _let_138 _let_172) (= _let_421 _let_109) (= _let_50 _let_277) (= _let_48 _let_309) (= _let_336 _let_95) (= _let_435 _let_270) (= _let_3 _let_91) (= _let_58 (tptp.fn_polypeptide_17 X)) (= _let_72 _let_110) (= _let_377 _let_271) (= _let_403 _let_192) (= _let_389 _let_283) (= _let_396 _let_286) (= _let_409 _let_302) (= _let_1 _let_13) (= _let_409 _let_301) (= _let_330 _let_37) (= _let_423 _let_210) (= _let_177 _let_270) (= _let_142 _let_192) (= _let_365 _let_256) (= _let_78 _let_429) (= _let_348 _let_211) (= _let_425 _let_104) (= _let_434 _let_182) (= _let_433 _let_107) (= _let_402 _let_240) (= _let_126 _let_307) (= _let_432 (tptp.fn_polypeptide_51 X)) (= _let_320 _let_20) (= _let_348 _let_203) (= _let_365 _let_240) (= _let_431 _let_269) (= _let_430 _let_429) (= _let_96 _let_131) (= _let_376 _let_269) (= _let_428 _let_309) (= _let_112 _let_41) (= _let_427 (tptp.fn_polypeptide_49 X)) (= _let_426 _let_276) (= _let_420 _let_304) (= _let_340 _let_109) (= _let_384 _let_100) (= _let_333 _let_41) (= _let_425 _let_109) (= _let_419 _let_107) (= _let_345 _let_182) (= _let_415 _let_172) (= _let_339 _let_107) (= _let_412 _let_303) (= _let_424 (tptp.fn_polypeptide_98 X)) (= _let_348 _let_210) (= _let_423 _let_306) (= _let_321 _let_35) (= _let_422 (tptp.fn_polypeptide_80 X)) (= _let_9 (tptp.fn_polypeptide_94 X)) (= _let_382 _let_276) (= _let_331 _let_38) (= _let_345 _let_104) (= _let_421 _let_304) (= _let_342 _let_161) (= _let_28 _let_277) (= _let_420 _let_181) (= _let_419 _let_63) (= _let_343 _let_103) (= _let_384 _let_110) (= _let_53 (tptp.fn_polypeptide_50 X)) (= _let_335 _let_70) (= _let_418 _let_104) (= _let_120 _let_92) (= _let_345 _let_181) (= _let_401 _let_292) (= _let_337 _let_100) (= _let_66 _let_91) (= _let_341 _let_85) (= _let_417 _let_99) (= _let_416 (tptp.fn_polypeptide_119 X)) (= _let_393 _let_284) (= _let_367 _let_104) (= _let_381 _let_274) (= _let_383 _let_277) (= _let_347 _let_203) (= _let_415 _let_274) (= _let_370 _let_264) (= _let_344 _let_63) (= _let_342 _let_169) (= _let_46 _let_410) (= _let_402 _let_293) (= _let_402 _let_211) (= _let_140 _let_271) (= _let_414 (tptp.fn_polypeptide_81 X)) (= _let_11 _let_290) (= _let_11 _let_289) (= _let_413 _let_286) (= _let_412 _let_271) (= _let_355 _let_241) (= _let_355 _let_240) (= _let_380 _let_131) (= _let_411 _let_95) (= _let_366 _let_261) (= _let_337 _let_99) (= _let_341 _let_130) (= _let_136 _let_410) (= _let_338 _let_104) (= _let_409 _let_300) (= _let_334 _let_86) (= _let_334 _let_85) (= _let_409 _let_299) (= _let_338 _let_103) (= _let_408 _let_102) (= _let_342 _let_168) (= _let_363 _let_251) (= _let_345 _let_103) (= _let_338 _let_102) (= _let_332 _let_63) (= _let_377 _let_270) (= _let_365 _let_210) (= _let_146 _let_303) (= _let_397 _let_261) (= _let_6 _let_259) (= _let_6 _let_258) (= _let_319 _let_15) (= _let_159 _let_195) (= _let_351 _let_230) (= _let_407 _let_406) (= _let_405 _let_404) (= _let_1 _let_12) (= _let_403 _let_294) (= _let_321 _let_34) (= _let_402 _let_255) (= _let_401 _let_195) (= _let_365 _let_255) (= _let_321 _let_33) (= _let_345 _let_180) (= _let_379 _let_195) (= _let_385 _let_278) (= _let_280 _let_180) (= _let_342 _let_167) (= _let_351 _let_229) (= _let_314 _let_10) (= _let_150 _let_400) (= _let_346 _let_201) (= _let_347 _let_205) (= _let_134 _let_399) (= _let_355 _let_31) (= _let_321 _let_29) (= _let_28 _let_193) (= _let_321 _let_32) (= _let_347 _let_19) (= _let_321 _let_31) (= _let_320 _let_19) (= _let_398 _let_285) (= _let_380 _let_132) (= _let_44 _let_90) (= _let_380 _let_273) (= _let_371 _let_267) (= _let_76 _let_193) (= _let_333 _let_40) (= _let_397 _let_287) (= _let_396 _let_285) (= _let_395 _let_193) (= _let_394 _let_40) (= _let_334 _let_84) (= _let_3 _let_90) (= _let_382 _let_273) (= _let_338 _let_101) (= _let_378 _let_272) (= _let_334 _let_83) (= _let_341 _let_84) (= _let_341 _let_119) (= _let_332 _let_54) (= _let_341 _let_88) (= _let_332 _let_62) (= _let_341 _let_83) (= _let_356 _let_243) (= _let_318 _let_17) (= _let_350 _let_225) (= _let_314 _let_7) (= _let_349 _let_217) (= _let_350 _let_224) (= _let_393 _let_133) (= _let_351 _let_228) (= (tptp.fn_alpha_tubulin_170 X) _let_392) (= (tptp.fn_alpha_tubulin_171 X) _let_391) (= (tptp.fn_alpha_tubulin_172 X) _let_390) (= _let_389 _let_282) (= _let_342 _let_64) (= _let_361 _let_246) (= _let_362 _let_249) (= (tptp.fn_alpha_tubulin_173 X) _let_388) (= _let_364 _let_253) (= _let_355 _let_199) (= _let_162 _let_194) (= _let_387 _let_279) (= _let_386 _let_279) (= _let_385 _let_265) (= _let_384 _let_275) (= _let_341 _let_82) (= _let_383 _let_268) (= _let_382 _let_275) (= _let_346 _let_200) (= _let_381 _let_268) (= _let_380 _let_265) (= _let_379 _let_194) (= _let_346 _let_199) (= _let_353 _let_236) (= _let_378 _let_133) (= _let_354 _let_238) (= _let_355 _let_239) (= _let_346 _let_198) (= _let_377 _let_266) (= _let_376 _let_268) (= _let_366 _let_262) (= _let_74 _let_133) (= _let_375 _let_374) (= _let_373 _let_372) (= _let_371 _let_266) (= _let_187 _let_265) (= _let_370 _let_263) (= _let_369 _let_368) (= _let_315 _let_7) (= _let_345 _let_184) (= _let_345 _let_183) (= _let_345 _let_176) (= _let_342 _let_160) (= _let_342 _let_158) (= _let_159 _let_194) (= _let_367 _let_176) (= _let_342 _let_87) (= _let_342 _let_166) (= _let_332 _let_67) (= _let_332 _let_65) (= _let_332 _let_64) (= _let_334 _let_82) (= _let_332 _let_61) (= _let_366 _let_260) (= _let_334 _let_88) (= _let_350 _let_223) (= _let_66 _let_97) (= _let_96 _let_98) (= _let_353 _let_235) (= _let_365 _let_254) (= _let_348 _let_212) (= _let_142 _let_191) (= _let_348 _let_208) (= _let_348 _let_207) (= _let_334 _let_45) (= _let_334 _let_69) (= _let_334 _let_87) (= _let_351 _let_227) (= _let_350 _let_222) (= _let_315 _let_5) (= _let_352 _let_234) (= _let_364 _let_252) (= _let_346 _let_197) (= _let_321 _let_30) (= _let_363 _let_250) (= _let_362 _let_248) (= _let_362 _let_247) (= _let_361 _let_245) (= _let_361 _let_244) (= _let_358 _let_324) (= _let_360 _let_316) (= _let_360 _let_359) (= _let_358 _let_357) (= _let_356 _let_242) (= _let_349 _let_216) (= _let_355 _let_197) (= _let_354 _let_237) (= _let_315 _let_4) (= _let_353 _let_5) (= _let_314 _let_4) (= _let_346 _let_18) (= _let_349 _let_215) (= _let_352 _let_233) (= _let_351 _let_231) (= _let_352 _let_232) (= _let_351 _let_226) (= _let_352 _let_16) (= _let_350 _let_221) (= _let_351 _let_223) (= _let_350 _let_220) (= _let_351 _let_218) (= _let_351 _let_220) (= _let_349 _let_214) (= _let_350 _let_219) (= _let_350 _let_218) (= _let_349 _let_213) (= _let_321 _let_27) (= _let_348 _let_206) (= _let_347 _let_202) (= _let_346 _let_196) (= _let_341 _let_128) (= _let_341 _let_118) (= _let_342 _let_157) (= _let_342 _let_147) (= _let_334 _let_81) (= _let_334 _let_79) (= _let_342 _let_156) (= _let_342 _let_145) (= _let_334 _let_80) (= _let_334 _let_77) (= _let_342 _let_143) (= _let_342 _let_155) (= _let_342 _let_141) (= _let_345 _let_175) (= _let_344 _let_174) (= _let_342 _let_139) (= _let_343 _let_171) (= _let_332 _let_52) (= _let_332 _let_43) (= _let_342 _let_154) (= _let_342 _let_137) (= _let_342 _let_135) (= _let_341 _let_116) (= _let_334 _let_75) (= _let_341 _let_114) (= _let_341 _let_113) (= _let_334 _let_73) (= _let_340 _let_108) (= _let_339 _let_106) (= _let_117 _let_94) (= _let_338 _let_88) (= _let_337 _let_98) (= _let_336 _let_94) (= _let_334 _let_67) (= _let_120 _let_39) (= _let_117 _let_250) (= _let_335 _let_39) (= _let_334 _let_71) (= _let_333 _let_39) (= _let_332 _let_42) (= _let_331 _let_8) (= _let_330 _let_36) (= _let_329 _let_328) (= _let_327 _let_326) (= _let_325 _let_324) (= _let_323 _let_322) (= _let_321 _let_25) (= _let_152 _let_173) (= _let_320 _let_18) (= _let_319 _let_14) (= _let_318 _let_16) (= _let_317 _let_316) (= _let_189 _let_111) (= _let_315 _let_2) (= _let_314 _let_8) (= _let_313 _let_312) (= _let_312 _let_312) (= _let_312 _let_311) (= _let_311 _let_310) (= _let_310 _let_310) (= _let_310 _let_94) (= _let_94 _let_277) (= _let_277 _let_308) (= _let_308 _let_309) (= _let_309 _let_308) (= _let_308 _let_308) (= _let_308 _let_270) (= _let_270 _let_186) (= _let_161 _let_186) (= _let_186 _let_161) (= _let_161 _let_161) (= _let_161 _let_107) (= _let_107 _let_308) (= _let_308 _let_307) (= _let_307 _let_307) (= _let_307 _let_94) (= _let_94 _let_288) (= _let_288 _let_269) (= _let_269 _let_104) (= _let_104 _let_109) (= _let_109 _let_210) (= _let_210 _let_306) (= _let_306 _let_306) (= _let_306 _let_109) (= _let_109 _let_304) (= _let_304 _let_305) (= _let_305 _let_304) (= _let_304 _let_304) (= _let_304 _let_181) (= _let_181 _let_107) (= _let_107 _let_107) (= _let_107 _let_63) (= _let_63 _let_172) (= _let_172 _let_172) (= _let_172 _let_274) (= _let_274 _let_173) (= _let_173 _let_286) (= _let_286 _let_286) (= _let_286 _let_303) (= _let_303 _let_303) (= _let_303 _let_271) (= _let_271 _let_271) (= _let_271 _let_288) (= _let_288 _let_95) (= _let_95 _let_95) (= _let_95 _let_302) (= _let_302 _let_300) (= _let_300 _let_301) (= _let_301 _let_300) (= _let_300 _let_300) (= _let_299 _let_300) (= _let_300 _let_299) (= _let_299 _let_299) (= _let_299 _let_298) (= _let_298 _let_296) (= _let_296 _let_296) (= _let_296 _let_192) (= _let_192 _let_294) (= _let_294 _let_240) (= _let_240 _let_293) (= _let_293 _let_240) (= _let_240 _let_211) (= _let_211 _let_255) (= _let_255 _let_173) (= _let_173 _let_292) (= _let_292 _let_292) (= _let_292 _let_195) (= _let_195 _let_291) (= _let_291 _let_180) (= _let_180 _let_290) (= _let_289 _let_289) (= _let_289 _let_290) (= _let_290 _let_289) (= _let_289 _let_277) (= _let_277 _let_193) (= _let_193 _let_288) (= _let_288 _let_288) (= _let_288 _let_285) (= _let_285 _let_261) (= _let_261 _let_287) (= _let_287 _let_287) (= _let_287 _let_286) (= _let_286 _let_285) (= _let_285 _let_285) (= _let_285 _let_284) (= _let_284 _let_284) (= _let_284 _let_133) (= _let_133 _let_283) (= _let_283 _let_282) (= _let_282 _let_281) (= _let_281 _let_279) (= _let_279 _let_278) (= _let_278 _let_278) (= _let_278 _let_265) (= _let_265 _let_100) (= _let_100 _let_100) (= _let_100 _let_110) (= _let_110 _let_110) (= _let_110 _let_275) (= _let_275 _let_173) (= _let_173 _let_277) (= _let_277 _let_277) (= _let_277 _let_268) (= _let_268 _let_276) (= _let_276 _let_276) (= _let_276 _let_273) (= _let_273 _let_275) (= _let_275 _let_275) (= _let_275 _let_274) (= _let_274 _let_274) (= _let_274 _let_268) (= _let_268 _let_132) (= _let_131 _let_132) (= _let_131 _let_131) (= _let_131 _let_273) (= _let_273 _let_273) (= _let_273 _let_265) (= _let_265 _let_195) (= _let_195 _let_195) (= _let_194 _let_272) (= _let_272 _let_272) (= _let_272 _let_133) (= _let_133 _let_271) (= _let_271 _let_270) (= _let_270 _let_270) (= _let_270 _let_266) (= _let_266 _let_269) (= _let_269 _let_269) (= _let_269 _let_268) (= _let_268 _let_268) (= _let_268 _let_267) (= _let_267 _let_266) (= _let_266 _let_266) (= _let_266 _let_111) (= _let_111 _let_265) (= _let_265 _let_265) (= _let_265 _let_264) (= _let_264 _let_264) (= _let_264 _let_263) (= _let_263 _let_263) (= _let_263 _let_104) (= _let_104 _let_176) (= _let_176 _let_261) (= _let_261 _let_262) (= _let_262 _let_261) (= _let_261 _let_261) (= _let_261 _let_260) (= _let_260 _let_260) (= _let_260 _let_258) (= _let_258 _let_258) (= _let_258 _let_259) (= _let_259 _let_258) (= _let_258 _let_257) (= _let_257 _let_240) (= _let_240 _let_256) (= _let_256 _let_240) (= _let_240 _let_210) (= _let_210 _let_255) (= _let_255 _let_255) (= _let_255 _let_254) (= _let_254 _let_253) (= _let_253 _let_253) (= _let_253 _let_252) (= _let_252 _let_251) (= _let_251 _let_251) (= _let_251 _let_250) (= _let_250 _let_250) (= _let_250 _let_249) (= _let_249 _let_247) (= _let_247 _let_248) (= _let_248 _let_247) (= _let_247 _let_247) (= _let_247 _let_246) (= _let_246 _let_246) (= _let_246 _let_245) (= _let_245 _let_246) (= _let_246 _let_244) (= _let_244 _let_245) (= _let_245 _let_244) (= _let_244 _let_244) (= _let_244 _let_243) (= _let_243 _let_242) (= _let_242 _let_242) (= _let_242 _let_240) (= _let_240 _let_241) (= _let_241 _let_240) (= _let_240 _let_240) (= _let_240 _let_31) (= _let_31 _let_199) (= _let_199 _let_239) (= _let_239 _let_239) (= _let_239 _let_197) (= _let_197 _let_238) (= _let_238 _let_238) (= _let_238 _let_237) (= _let_237 _let_237) (= _let_237 _let_236) (= _let_236 _let_236) (= _let_236 _let_235) (= _let_235 _let_235) (= _let_235 _let_5) (= _let_5 _let_5) (= _let_5 _let_234) (= _let_234 _let_233) (= _let_16 _let_233) (= _let_233 _let_232) (= _let_232 _let_16) (= _let_16 _let_230) (= _let_230 _let_231) (= _let_218 _let_231) (= _let_231 _let_218) (= _let_218 _let_230) (= _let_230 _let_229) (= _let_229 _let_229) (= _let_229 _let_228) (= _let_228 _let_228) (= _let_228 _let_226) (= _let_226 _let_227) (= _let_227 _let_226) (= _let_226 _let_220) (= _let_220 _let_223) (= _let_220 _let_225) (= _let_225 _let_224) (= _let_224 _let_224) (= _let_224 _let_223) (= _let_223 _let_220) (= _let_220 _let_221) (= _let_221 _let_223) (= _let_223 _let_222) (= _let_222 _let_221) (= _let_221 _let_220) (= _let_220 _let_218) (= _let_218 _let_219) (= _let_219 _let_218) (= _let_218 _let_217) (= _let_217 _let_216) (= _let_216 _let_215) (= _let_215 _let_216) (= _let_216 _let_216) (= _let_216 _let_213) (= _let_213 _let_215) (= _let_215 _let_214) (= _let_213 _let_214) (= _let_214 _let_213) (= _let_213 _let_213) (= _let_213 _let_211) (= _let_211 _let_212) (= _let_212 _let_211) (= _let_211 _let_211) (= _let_211 _let_203) (= _let_203 _let_210) (= _let_210 _let_25) (= _let_25 _let_210) (= _let_210 _let_210) (= _let_210 _let_207) (= _let_207 _let_207) (= _let_207 _let_209) (= _let_209 _let_25) (= _let_25 _let_207) (= _let_207 _let_208) (= _let_208 _let_207) (= _let_207 _let_206) (= _let_206 _let_204) (= _let_204 _let_205) (= _let_205 _let_204) (= _let_204 _let_203) (= _let_203 _let_203) (= _let_203 _let_19) (= _let_19 _let_202) (= _let_202 _let_201) (= _let_201 _let_200) (= _let_200 _let_200) (= _let_200 _let_199) (= _let_199 _let_199) (= _let_199 _let_198) (= _let_198 _let_198) (= _let_198 _let_197) (= _let_197 _let_197) (= _let_197 _let_18) (= _let_18 _let_18) (= _let_18 _let_196) (= _let_196 _let_195) (= _let_195 _let_194) (= _let_194 _let_194) (= _let_194 _let_173) (= _let_173 _let_193) (= _let_193 _let_193) (= _let_193 _let_192) (= _let_192 _let_191) (= _let_191 _let_186) (= _let_186 _let_190) (= _let_190 _let_188) (= _let_188 _let_185) (= _let_183 _let_186) (= _let_186 _let_185) (= _let_185 _let_185) (= _let_185 _let_184) (= _let_184 _let_182) (= _let_182 _let_183) (= _let_183 _let_184) (= _let_184 _let_183) (= _let_183 _let_182) (= _let_182 _let_182) (= _let_182 _let_104) (= _let_104 _let_181) (= _let_103 _let_181) (= _let_181 _let_181) (= _let_181 _let_103) (= _let_103 _let_180) (= _let_180 _let_180) (= _let_180 _let_176) (= _let_176 _let_179) (= _let_179 _let_178) (= _let_178 _let_178) (= _let_178 _let_176) (= _let_176 _let_176) (= _let_176 _let_175) (= _let_175 _let_63) (= _let_63 _let_174) (= _let_174 _let_173) (= _let_173 _let_173) (= _let_173 _let_172) (= _let_172 _let_103) (= _let_103 _let_103) (= _let_103 _let_171) (= _let_171 _let_64) (= _let_87 _let_64) (= _let_64 _let_87) (= _let_169 _let_87) (= _let_87 _let_87) (= _let_87 _let_169) (= _let_168 _let_169) (= _let_169 _let_169) (= _let_169 _let_168) (= _let_168 _let_168) (= _let_168 _let_167) (= _let_167 _let_167) (= _let_167 _let_166) (= _let_166 _let_108) (= _let_108 _let_165) (= _let_161 _let_166) (= _let_166 _let_160) (= _let_158 _let_166) (= _let_166 _let_166) (= _let_166 _let_157) (= _let_157 _let_156) (= _let_156 _let_155) (= _let_155 _let_154) (= _let_154 _let_153) (= _let_153 _let_149) (= _let_149 _let_108) (= _let_108 _let_148) (= _let_148 _let_165) (= _let_165 _let_163) (= _let_163 _let_161) (= _let_161 _let_160) (= _let_158 _let_160) (= _let_160 _let_158) (= _let_158 _let_157) (= _let_157 _let_147) (= _let_147 _let_156) (= _let_156 _let_145) (= _let_145 _let_155) (= _let_155 _let_141) (= _let_139 _let_154) (= _let_154 _let_137) (= _let_137 _let_153) (= _let_153 _let_151) (= _let_151 _let_149) (= _let_149 _let_148) (= _let_148 _let_147) (= _let_147 _let_145) (= _let_145 _let_143) (= _let_143 _let_141) (= _let_141 _let_139) (= _let_139 _let_137) (= _let_137 _let_135) (= _let_135 _let_98) (= _let_98 _let_133) (= _let_133 _let_133) (= _let_133 _let_132) (= _let_132 _let_131) (= _let_131 _let_98) (= _let_98 _let_88) (= _let_65 _let_88) (= _let_88 _let_65) (= _let_65 _let_85) (= _let_130 _let_85) (= _let_85 _let_130) (= _let_130 _let_130) (= _let_130 _let_84) (= _let_82 _let_129) (= _let_129 _let_82) (= _let_82 _let_128) (= _let_128 _let_129) (= _let_129 _let_127) (= _let_127 _let_119) (= _let_119 _let_128) (= _let_128 _let_118) (= _let_118 _let_127) (= _let_127 _let_125) (= _let_125 _let_123) (= _let_123 _let_121) (= _let_121 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_116) (= _let_116 _let_114) (= _let_114 _let_113) (= _let_113 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_88) (= _let_88 _let_88) (= _let_88 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_91) (= _let_91 _let_91) (= _let_91 _let_97) (= _let_97 _let_95) (= _let_95 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_39) (= _let_39 _let_39) (= _let_39 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_45) (= _let_87 _let_89) (= _let_89 _let_89) (= _let_89 _let_86) (= _let_86 _let_86) (= _let_86 _let_88) (= _let_87 _let_88) (= _let_88 _let_45) (= _let_45 _let_87) (= _let_87 _let_85) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_81) (= _let_81 _let_79) (= _let_79 _let_80) (= _let_80 _let_77) (= _let_77 _let_79) (= _let_79 _let_77) (= _let_77 _let_75) (= _let_73 _let_69) (= _let_69 _let_67) (= _let_71 _let_69) (= _let_69 _let_71) (= _let_71 _let_75) (= _let_75 _let_73) (= _let_73 _let_67) (= _let_67 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_39) (= _let_39 _let_67) (= _let_67 _let_67) (= _let_65 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_69) (= _let_69 _let_69) (= _let_69 _let_63) (= _let_63 _let_67) (= _let_67 _let_64) (= _let_64 _let_67) (= _let_67 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_61) (= _let_61 _let_61) (= _let_61 _let_52) (= _let_52 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_51) (= _let_51 _let_56) (= _let_56 _let_49) (= _let_49 _let_55) (= _let_55 _let_47) (= _let_47 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_43) (= _let_43 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_8) (= _let_8 _let_8) (= _let_8 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_18) (= _let_18 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_18) (= _let_18 _let_29) (= _let_29 _let_30) (= _let_30 _let_27) (= _let_27 _let_29) (= _let_29 _let_25) (= _let_25 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_7) (= _let_4 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alter_1 X) (and (tptp.original_name_2 X |tptp.'Alter'|) (tptp.user_description_2 X |tptp.'Change or cause to change in character or composition.'|) (tptp.concept2words_2 X tptp.alter) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alter_genome_1 X))) (=> (tptp.alter_genome_1 X) (and (tptp.original_name_2 X |tptp.'Alter-Genome'|) (tptp.user_description_2 X |tptp.'Changing the genomic structure of an organism.'|) (tptp.concept2words_2 X |tptp.'genome of alter'|) (tptp.concept2words_2 X |tptp.'alter genome'|) (tptp.concept2words_2 X |tptp.'alter-genome'|) (tptp.change_sequence_1 X) (tptp.genome_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alteration_of_mrna_ends_6 X))) (let ((_let_2 (tptp.fn_pre_mrna_3 _let_1))) (let ((_let_3 (tptp.fn_alteration_of_mrna_ends_5 X))) (let ((_let_4 (tptp.fn_pre_mrna_17 _let_1))) (let ((_let_5 (tptp.fn_alteration_of_mrna_ends_7 X))) (let ((_let_6 (tptp.fn_rna_1 _let_1))) (let ((_let_7 (tptp.fn_alteration_of_mrna_ends_8 X))) (let ((_let_8 (tptp.fn_alteration_of_mrna_ends_13 X))) (let ((_let_9 (tptp.fn_add_1 _let_8))) (let ((_let_10 (tptp.fn_alteration_of_mrna_ends_12 X))) (let ((_let_11 (tptp.fn_alteration_of_mrna_ends_11 X))) (let ((_let_12 (tptp.fn_add_1 _let_11))) (let ((_let_13 (tptp.fn_alteration_of_mrna_ends_10 X))) (let ((_let_14 (tptp.fn_add_2 _let_11))) (let ((_let_15 (tptp.fn_alteration_of_mrna_ends_9 X))) (let ((_let_16 (tptp.fn_add_2 _let_8))) (let ((_let_17 (tptp.fn_alteration_of_mrna_ends_14 X))) (let ((_let_18 (tptp.fn_alteration_of_mrna_ends_3 X))) (let ((_let_19 (tptp.fn_alteration_of_mrna_ends_4 X))) (let ((_let_20 (tptp.fn_alteration_of_mrna_ends_1 X))) (let ((_let_21 (tptp.fn_alteration_of_mrna_ends_2 X))) (=> (tptp.alteration_of_mrna_ends_1 X) (and (tptp.original_name_2 X |tptp.'Alteration-of-mRNA-Ends'|) (tptp.user_description_2 X |tptp.'Modification of pre-mRNA where the 5-prime end is capped off with a modified form of a guanine nucleotide and a poly(A) tail consisting of 50 to 250 nucleotides is added to the 3-prime end.'|) (tptp.concept2words_2 X tptp.alter) (tptp.concept2words_2 X |tptp.'alteration of mrna end'|) (tptp.concept2words_2 X |tptp.'alteration-of-mrna-end'|) (tptp.biochemical_change_1 X) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.nucleus_1 _let_20) (tptp.protein_enzyme_1 _let_21) (tptp.poly_a__tail_1 _let_18) (tptp.change_1 _let_19) (tptp.five_prime_cap_1 _let_3) (tptp.pre_mrna_1 _let_1) (tptp.number_5_prime_end_1 _let_5) (tptp.number_3_prime_end_1 _let_7) (tptp.pre_mrna_1 _let_15) (tptp.adenine_1 _let_13) (tptp.add_1 _let_11) (tptp.seven_methyl_guanosine_1 _let_10) (tptp.add_1 _let_8) (tptp.pre_mrna_1 _let_17) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.number_3_prime_end_1 _let_6) (tptp.number_5_prime_end_1 _let_4) (tptp.five_prime_cap_1 _let_2) (tptp.subevent_2 _let_19 _let_8) (tptp.next_event_2 _let_19 _let_11) (tptp.object_2 _let_19 _let_15) (tptp.site_2 _let_19 _let_5) (tptp.site_2 _let_8 _let_5) (tptp.result_2 _let_8 _let_3) (tptp.maxCardinality _let_11 tptp.object_0 |"250"| tptp.adenine_0) (tptp.minCardinality _let_11 tptp.object_0 |"50"| tptp.adenine_0) (tptp.result_2 _let_11 _let_18) (tptp.agent_2 _let_11 _let_21) (tptp.site_2 _let_11 _let_7) (tptp.site_2 _let_11 _let_20) (tptp.first_subevent_2 X _let_19) (tptp.object_2 X _let_17) (tptp.result_2 X _let_1) (tptp.site_2 X _let_20) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_19) (tptp.has_part_2 _let_1 _let_18) (tptp.base_2 _let_8 _let_17) (tptp.base_2 _let_11 _let_15) (tptp.object_2 _let_11 _let_13) (tptp.object_2 _let_8 _let_10) (tptp.has_region_2 _let_1 _let_7) (tptp.has_region_2 _let_1 _let_5) (tptp.has_part_2 _let_1 _let_3) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_10 _let_9) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alternating_generation_organ_1 X) (and (tptp.original_name_2 X |tptp.'Alternating-Generation-Organ'|) (tptp.user_description_2 X |tptp.'Organ of plants which participates in the process of alternation of generations.'|) (tptp.concept2words_2 X |tptp.'alternating generation organ'|) (tptp.concept2words_2 X |tptp.'alternating-generation-organ'|) (tptp.plant_organ_1 X)))) (forall ((X $$unsorted) (X2 $$unsorted) (X5 $$unsorted) (X1 $$unsorted) (X4 $$unsorted) (X3 $$unsorted)) (=> (and (tptp.experiencer_2 X X1) (tptp.object_2 X X1) (tptp.subevent_2 X X2) (tptp.result_2 X2 X3) (tptp.subevent_2 X X4) (tptp.result_2 X4 X5) (tptp.plant_1 X1) (tptp.create_1 X2) (tptp.sporophyte_1 X3) (tptp.life_cycle_process_1 X) (tptp.create_1 X4) (tptp.gametophyte_1 X5)) (and (tptp.alternation_of_generations_1 X) (= (tptp.fn_alternation_of_generations_10 X) X3) (= (tptp.fn_alternation_of_generations_8 X) X4) (= (tptp.fn_alternation_of_generations_5 X) X1) (= (tptp.fn_alternation_of_generations_9 X) X5) (= (tptp.fn_alternation_of_generations_11 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alternation_of_generations_11 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_alternation_of_generations_10 X))) (let ((_let_4 (tptp.fn_alternation_of_generations_8 X))) (let ((_let_5 (tptp.fn_create_1 _let_4))) (let ((_let_6 (tptp.fn_alternation_of_generations_9 X))) (let ((_let_7 (tptp.fn_alternation_of_generations_6 X))) (let ((_let_8 (tptp.fn_alternation_of_generations_5 X))) (let ((_let_9 (tptp.fn_alternation_of_generations_4 X))) (let ((_let_10 (tptp.fn_alternation_of_generations_2 X))) (let ((_let_11 (tptp.fn_alternation_of_generations_1 X))) (let ((_let_12 (tptp.fn_alternation_of_generations_3 X))) (=> (tptp.alternation_of_generations_1 X) (and (tptp.original_name_2 X |tptp.'Alternation-Of-Generations'|) (tptp.user_description_2 X |tptp.'In plants and some algae, a life cycle that has two multicellular phases: a haploid gametophyte and a diploid sporophyte.'|) (tptp.concept2words_2 X |tptp.'show alternation of generations'|) (tptp.concept2words_2 X |tptp.'alternation of generation'|) (tptp.concept2words_2 X |tptp.'alternation-of-generation'|) (tptp.life_cycle_process_1 X) (tptp.mitosis_1 _let_11) (tptp.fertilization_1 _let_10) (tptp.mitosis_1 _let_12) (tptp.meiosis_1 _let_9) (tptp.plant_1 _let_8) (tptp.mitosis_1 _let_7) (tptp.create_1 _let_4) (tptp.gametophyte_1 _let_6) (tptp.sporophyte_1 _let_3) (tptp.create_1 _let_1) (tptp.entity_1 _let_5) (tptp.entity_1 _let_2) (tptp.site_2 _let_11 _let_6) (tptp.next_event_2 _let_11 _let_10) (tptp.next_event_2 _let_10 _let_1) (tptp.next_event_2 _let_4 _let_11) (tptp.subevent_2 _let_4 _let_12) (tptp.next_event_2 _let_9 _let_4) (tptp.site_2 _let_9 _let_3) (tptp.object_2 X _let_8) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_9) (tptp.experiencer_2 X _let_8) (tptp.subevent_2 _let_1 _let_7) (tptp.minCardinality _let_1 tptp.subevent_0 |"2"| tptp.mitosis_0) (tptp.result_2 _let_4 _let_6) (tptp.result_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alternative_rna_splicing_8 X))) (let ((_let_2 (tptp.fn_polymer_7 _let_1))) (let ((_let_3 (tptp.fn_alternative_rna_splicing_5 X))) (let ((_let_4 (tptp.fn_polymer_8 _let_3))) (let ((_let_5 (tptp.fn_polymer_8 _let_1))) (let ((_let_6 (tptp.fn_alternative_rna_splicing_7 X))) (let ((_let_7 (tptp.fn_alternative_rna_splicing_6 X))) (let ((_let_8 (tptp.fn_alternative_rna_splicing_9 X))) (let ((_let_9 (tptp.fn_chemical_reaction_1 _let_8))) (let ((_let_10 (tptp.fn_alternative_rna_splicing_1 X))) (let ((_let_11 (tptp.fn_alternative_rna_splicing_2 X))) (let ((_let_12 (tptp.fn_alternative_rna_splicing_4 X))) (let ((_let_13 (tptp.fn_alternative_rna_splicing_3 X))) (=> (tptp.alternative_rna_splicing_1 X) (and (tptp.original_name_2 X |tptp.'Alternative-RNA-Splicing'|) (tptp.user_description_2 X |tptp.'A type of eukaryotic gene regulation at the RNA-processing level in which different mRNA molecules are produced from the same primary transcript, depending on which RNA segments are treated as exons and which as introns.'|) (tptp.concept2words_2 X tptp.splice) (tptp.concept2words_2 X |tptp.'alternative rna splicing'|) (tptp.concept2words_2 X |tptp.'alternative-rna-splicing'|) (tptp.rna_splicing_1 X) (not (tptp.post_transcriptional_modification_of_rna_1 X)) (tptp.gene_1 _let_10) (tptp.exon_1 _let_11) (tptp.eukaryotic_gene_regulation_1 _let_13) (tptp.alteration_of_mrna_ends_1 _let_12) (tptp.polypeptide_1 _let_3) (tptp.size_value_1 _let_7) (tptp.size_value_1 _let_6) (tptp.polypeptide_1 _let_1) (tptp.synthesis_reaction_1 _let_8) (tptp.chemical_entity_1 _let_9) (tptp.size_value_1 _let_5) (tptp.size_value_1 _let_4) (tptp.size_value_1 _let_2) (tptp.causes_2 X _let_8) (tptp.subevent_2 X _let_12) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.rna_splicing_0) (tptp.enables_2 X _let_13) (tptp.first_subevent_2 X _let_12) (tptp.has_part_2 _let_1 _let_11) (tptp.result_2 _let_8 _let_3) (tptp.minCardinality _let_8 tptp.result_0 |"2"| tptp.polypeptide_0) (tptp.base_2 _let_8 _let_10) (tptp.exactCardinality _let_8 tptp.base_0 |"1"| tptp.gene_0) (tptp.result_2 _let_8 _let_1) (tptp.size_2 _let_3 _let_7) (tptp.size_2 _let_1 _let_6) (tptp.greater_than_2 _let_6 _let_7) (= _let_1 _let_9) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.altruism_1 X) (and (tptp.original_name_2 X |tptp.'Altruism'|) (tptp.user_description_2 X |tptp.'Behavior that increases another individual_'s fitness at the risk of one_'s own fitness.'|) (tptp.concept2words_2 X tptp.behave) (tptp.concept2words_2 X tptp.altruism) (tptp.social_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.alu_element_1 X) (and (tptp.original_name_2 X |tptp.'Alu-Element'|) (tptp.user_description_2 X |tptp.'An interspersed repeated sequence of DNA, typically about 300 units long'|) (tptp.concept2words_2 X |tptp.'alu element'|) (tptp.concept2words_2 X |tptp.'alu-element'|) (tptp.transposon_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aluminum_11 X))) (let ((_let_2 (tptp.fn_aluminum_14 X))) (let ((_let_3 (tptp.fn_aluminum_12 X))) (let ((_let_4 (tptp.fn_aluminum_13 X))) (let ((_let_5 (tptp.fn_aluminum_5 X))) (let ((_let_6 (tptp.fn_aluminum_6 X))) (let ((_let_7 (tptp.fn_aluminum_7 X))) (let ((_let_8 (tptp.fn_aluminum_4 X))) (=> (tptp.aluminum_1 X) (and (tptp.original_name_2 X |tptp.'Aluminum'|) (tptp.user_description_2 X |tptp.'Aluminum is a metal atom with atomic number 13. It is represented by the symbol Al.'|) (tptp.concept2words_2 X tptp.aluminum) (tptp.concept2words_2 X |tptp.'Al'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"14"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"13"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"13"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.61"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"27"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"13"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"26.98"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_aluminum_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_aluminum_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_aluminum_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.alveolate_1 X) (and (tptp.original_name_2 X |tptp.'Alveolate'|) (tptp.user_description_2 X |tptp.'One of a group of protistan phyla, characterized by the presence of flattened vesicles called alveoli under the plasma membrane.'|) (tptp.concept2words_2 X tptp.alveolata) (tptp.concept2words_2 X tptp.alveolate) (tptp.unicellular_organism_1 X) (tptp.protist_cell_1 X) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X))))) (forall ((X $$unsorted)) (=> (tptp.alveolus_1 X) (and (tptp.original_name_2 X |tptp.'Alveolus'|) (tptp.user_description_2 X |tptp.'In mammalian lungs, the tiny vascularized dead-end sac where gas exchange occurs.'|) (tptp.concept2words_2 X |tptp.'air sac'|) (tptp.concept2words_2 X tptp.alveoli) (tptp.concept2words_2 X tptp.alveolus) (tptp.simple_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.alzheimers_disease_1 X) (and (tptp.original_name_2 X |tptp.'Alzheimers-Disease'|) (tptp.user_description_2 X |tptp.'An age-related dementia that worsens as a person ages. Symptoms include confusion, memory loss, and personality changes.'|) (tptp.concept2words_2 X |tptp.'disease of alzheimers'|) (tptp.concept2words_2 X |tptp.'alzheimers disease'|) (tptp.concept2words_2 X |tptp.'alzheimers-disease'|) (tptp.mental_or_brain_disorder_1 X) (not (tptp.bipolar_disorder_1 X)) (not (tptp.creutzfeldt_jacob_disease_1 X)) (not (tptp.major_depression_1 X)) (not (tptp.multiple_sclerosis_1 X)) (not (tptp.parkinsons_disease_1 X)) (not (tptp.schizophrenia_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alzheimers_disease_process_1 X))) (=> (tptp.alzheimers_disease_process_1 X) (and (tptp.original_name_2 X |tptp.'Alzheimers-Disease-Process'|) (tptp.user_description_2 X |tptp.'Process related to the progression of Alzheimers disease.'|) (tptp.concept2words_2 X |tptp.'alzheimers disease process'|) (tptp.concept2words_2 X |tptp.'alzheimers-disease-process'|) (tptp.disease_process_1 X) (tptp.nervous_system_1 _let_1) (tptp.site_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.amacrine_cell_1 X) (and (tptp.original_name_2 X |tptp.'Amacrine-Cell'|) (tptp.user_description_2 X |tptp.'Interneurons in the retina that integrate information from other neurons before it is sent to the brain.'|) (tptp.concept2words_2 X |tptp.'amacrine cell'|) (tptp.concept2words_2 X |tptp.'amacrine-cell'|) (tptp.sensory_neuron_1 X) (not (tptp.bipolar_cell_1 X)) (not (tptp.ganglion_cell_1 X)) (not (tptp.horizontal_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.american_ginseng_1 X) (and (tptp.original_name_2 X |tptp.'American-Ginseng'|) (tptp.user_description_2 X |tptp.'An herbaceous perennial plant, Panax quinquefolius, native to the eastern US and commonly used in Chinese herbal medicine.'|) (tptp.concept2words_2 X tptp.ginseng) (tptp.concept2words_2 X |tptp.'ginseng of american'|) (tptp.concept2words_2 X |tptp.'american ginseng'|) (tptp.concept2words_2 X |tptp.'american-ginseng'|) (tptp.eudicot_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_americium_9 X))) (let ((_let_2 (tptp.fn_americium_12 X))) (let ((_let_3 (tptp.fn_americium_10 X))) (let ((_let_4 (tptp.fn_americium_11 X))) (let ((_let_5 (tptp.fn_americium_4 X))) (let ((_let_6 (tptp.fn_americium_5 X))) (let ((_let_7 (tptp.fn_americium_3 X))) (=> (tptp.americium_1 X) (and (tptp.original_name_2 X |tptp.'Americium'|) (tptp.user_description_2 X |tptp.'Americium is a metal atom with atomic number 95. It is represented by the symbol Am.'|) (tptp.concept2words_2 X tptp.americium) (tptp.concept2words_2 X tptp.am) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"148"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"95"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"95"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"9"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"243"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"95"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"243"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_americium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_americium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_americium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amine_1 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (=> (tptp.amine_1 X) (and (tptp.original_name_2 X |tptp.'Amine'|) (tptp.user_description_2 X |tptp.'Organic compounds which contain an amino group.'|) (tptp.concept2words_2 X tptp.amine) (tptp.base_compound_1 X) (tptp.nitrogenous_compound_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.amino_group_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.has_region_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amino_acid_26 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_amino_acid_25 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_6 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_7 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_8 (tptp.fn_organic_molecule_1 X))) (let ((_let_9 (tptp.fn_amino_acid_18 X))) (let ((_let_10 (tptp.fn_share_1 _let_9))) (let ((_let_11 (tptp.fn_share_3 _let_9))) (let ((_let_12 (tptp.fn_carboxyl_group_63 _let_1))) (let ((_let_13 (tptp.fn_carboxyl_group_22 _let_1))) (let ((_let_14 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_15 (tptp.fn_amino_group_22 _let_3))) (let ((_let_16 (tptp.fn_organic_molecule_2 X))) (let ((_let_17 (tptp.fn_carboxyl_group_55 _let_1))) (let ((_let_18 (tptp.fn_carboxyl_group_67 _let_1))) (let ((_let_19 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_20 (tptp.fn_carboxyl_group_58 _let_1))) (let ((_let_21 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_22 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_23 (tptp.fn_share_2 _let_9))) (let ((_let_24 (tptp.fn_amino_group_20 _let_3))) (let ((_let_25 (tptp.fn_amino_acid_16 X))) (let ((_let_26 (tptp.fn_amino_acid_7 X))) (let ((_let_27 (tptp.fn_amino_acid_6 X))) (let ((_let_28 (tptp.fn_amino_acid_5 X))) (let ((_let_29 (tptp.fn_amino_acid_11 X))) (let ((_let_30 (tptp.fn_amino_acid_27 X))) (let ((_let_31 (tptp.fn_amino_acid_24 X))) (let ((_let_32 (tptp.fn_carboxyl_group_49 _let_1))) (let ((_let_33 (tptp.fn_amino_acid_10 X))) (let ((_let_34 (tptp.fn_carboxyl_group_16 _let_1))) (let ((_let_35 (tptp.fn_amino_acid_15 X))) (let ((_let_36 (tptp.fn_amino_acid_21 X))) (let ((_let_37 (tptp.fn_amino_acid_28 X))) (let ((_let_38 (tptp.fn_amino_acid_13 X))) (let ((_let_39 (tptp.fn_amino_acid_20 X))) (let ((_let_40 (tptp.fn_amino_acid_19 X))) (let ((_let_41 (tptp.fn_carboxyl_group_56 _let_1))) (let ((_let_42 (tptp.fn_amino_acid_12 X))) (let ((_let_43 (tptp.fn_amino_acid_22 X))) (let ((_let_44 (tptp.fn_carboxyl_group_47 _let_1))) (let ((_let_45 (tptp.fn_amino_acid_14 X))) (let ((_let_46 (tptp.fn_amino_acid_8 X))) (let ((_let_47 (tptp.fn_amino_acid_17 X))) (let ((_let_48 (tptp.fn_amino_group_24 _let_3))) (let ((_let_49 (tptp.fn_amino_acid_9 X))) (let ((_let_50 (tptp.fn_amino_acid_23 X))) (let ((_let_51 (tptp.fn_amino_acid_2 X))) (let ((_let_52 (tptp.fn_amino_acid_1 X))) (=> (tptp.amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Acid'|) (tptp.description_2 X |tptp.'Organic molecule containing both an amino group and a carboxyl group. Alpha amino acids (those in which the amino and carboxyl groups are linked to the same carbon atom) serve as the building blocks of proteins.'|) (tptp.user_description_2 X |tptp.'The monomer of a polypeptide. An amino acid has a carboxyl group and an amino group, in addition to a side-chain specific to each amino acid.'|) (tptp.concept2words_2 X |tptp.'acid of amino'|) (tptp.concept2words_2 X |tptp.'amino acid'|) (tptp.concept2words_2 X |tptp.'amino-acid'|) (tptp.organic_entity_1 X) (tptp.organic_molecule_1 X) (tptp.end_1 _let_52) (tptp.r_group_1 _let_51) (tptp.constant_motion_1 _let_28) (tptp.speed_value_1 _let_27) (tptp.quantity_value_1 _let_26) (tptp.electron_shell_1 _let_46) (tptp.electron_shell_1 _let_49) (tptp.share_1 _let_33) (tptp.oxygen_1 _let_29) (tptp.share_1 _let_42) (tptp.hold_together_1 _let_38) (tptp.hold_together_1 _let_45) (tptp.electron_shell_1 _let_35) (tptp.kinetic_energy_1 _let_25) (tptp.chemical_entity_1 _let_47) (tptp.tangible_entity_1 _let_47) (tptp.entity_1 _let_47) (tptp.atom_1 _let_47) (tptp.nitrogen_1 _let_47) (tptp.share_1 _let_9) (tptp.entity_1 _let_40) (tptp.tangible_entity_1 _let_40) (tptp.electron_1 _let_40) (tptp.valence_electron_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.electron_1 _let_39) (tptp.entity_1 _let_39) (tptp.valence_electron_1 _let_39) (tptp.electron_shell_1 _let_36) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.hydrogen_1 _let_43) (tptp.carbon_skeleton_1 _let_50) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.carbon_1 _let_31) (tptp.amino_group_1 _let_3) (tptp.carboxyl_group_1 _let_1) (tptp.oxygen_1 _let_30) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.hydrogen_1 _let_37) (tptp.electron_shell_1 _let_48) (tptp.hold_together_1 _let_44) (tptp.share_1 _let_41) (tptp.electron_shell_1 _let_34) (tptp.share_1 _let_32) (tptp.tangible_entity_1 _let_24) (tptp.entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.nitrogen_1 _let_24) (tptp.entity_1 _let_23) (tptp.electron_1 _let_22) (tptp.valence_electron_1 _let_22) (tptp.entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.electron_1 _let_21) (tptp.valence_electron_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.electron_1 _let_20) (tptp.valence_electron_1 _let_20) (tptp.entity_1 _let_19) (tptp.valence_electron_1 _let_19) (tptp.hold_together_1 _let_18) (tptp.hold_together_1 _let_17) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.hydrogen_1 _let_15) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.hydrogen_1 _let_14) (tptp.electron_shell_1 _let_13) (tptp.electron_shell_1 _let_12) (tptp.entity_1 _let_11) (tptp.entity_1 _let_10) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.carbon_1 _let_7) (tptp.oxygen_1 _let_6) (tptp.oxygen_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (not (= _let_46 _let_49)) (not (= _let_49 _let_46)) (tptp.is_inside_2 _let_52 _let_51) (not (= _let_43 _let_37)) (tptp.has_region_2 X _let_51) (tptp.has_part_2 X _let_30) (tptp.has_part_2 X _let_29) (tptp.has_part_2 X _let_43) (tptp.has_part_2 X _let_47) (not (= _let_37 _let_43)) (tptp.object_2 _let_9 _let_40) (not (= _let_31 _let_37)) (not (= _let_37 _let_31)) (tptp.has_part_2 X _let_37) (tptp.agent_2 _let_9 _let_31) (not (= _let_31 _let_43)) (not (= _let_43 _let_47)) (not (= _let_43 _let_31)) (not (= _let_47 _let_43)) (tptp.has_region_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.has_region_2 X _let_50) (tptp.is_inside_2 _let_31 _let_50) (tptp.has_part_2 X _let_31) (not (= _let_47 _let_31)) (not (= _let_31 _let_47)) (tptp.is_inside_2 _let_43 _let_3) (tptp.is_inside_2 _let_47 _let_3) (tptp.has_region_2 _let_47 _let_49) (not (= _let_37 _let_47)) (not (= _let_47 _let_37)) (tptp.object_2 _let_42 _let_39) (tptp.has_region_2 _let_43 _let_46) (tptp.object_2 _let_33 _let_40) (tptp.has_region_2 _let_31 _let_36) (tptp.object_2 _let_45 _let_31) (tptp.object_2 _let_45 _let_30) (tptp.agent_2 _let_42 _let_31) (tptp.is_inside_2 _let_31 _let_1) (tptp.is_inside_2 _let_30 _let_1) (tptp.object_2 _let_38 _let_30) (tptp.object_2 _let_38 _let_43) (tptp.object_2 _let_33 _let_39) (not (= _let_39 _let_40)) (tptp.object_2 _let_42 _let_40) (tptp.agent_2 _let_42 _let_30) (tptp.has_region_2 _let_30 _let_35) (not (= _let_40 _let_39)) (tptp.is_inside_2 _let_37 _let_1) (not (= _let_37 _let_29)) (tptp.object_2 _let_38 _let_29) (tptp.object_2 _let_38 _let_31) (not (= _let_31 _let_30)) (not (= _let_29 _let_37)) (not (= _let_30 _let_31)) (tptp.agent_2 _let_33 _let_31) (tptp.agent_2 _let_33 _let_29) (tptp.has_region_2 _let_29 _let_35) (not (= _let_36 _let_35)) (not (= _let_35 _let_36)) (tptp.is_inside_2 _let_29 _let_1) (not (= _let_30 _let_29)) (not (= _let_29 _let_30)) (not (= _let_31 _let_29)) (not (= _let_29 _let_31)) (tptp.possesses_2 X _let_25) (tptp.quantity_2 _let_25 _let_26) (tptp.directly_proportional_2 _let_27 _let_26) (tptp.speed_2 _let_28 _let_27) (tptp.object_2 _let_28 X) (= _let_40 _let_23) (= _let_37 _let_16) (= _let_47 _let_10) (= _let_43 _let_11) (= _let_31 _let_11) (= _let_31 _let_10) (= X _let_4) (= X _let_2) (= _let_47 _let_16) (= _let_31 _let_8) (= _let_50 (tptp.fn_organic_molecule_3 X)) (= _let_43 _let_15) (= _let_49 _let_48) (= _let_37 _let_15) (= _let_47 _let_24) (= _let_39 _let_20) (= _let_46 _let_12) (= _let_40 _let_22) (= _let_36 _let_13) (= _let_45 _let_44) (= _let_43 _let_14) (= _let_38 _let_18) (= _let_42 _let_41) (= _let_40 _let_21) (= _let_39 _let_19) (= _let_30 _let_5) (= _let_38 _let_17) (= _let_37 _let_14) (= _let_36 _let_12) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_29 _let_6) (= _let_31 _let_7) (= _let_30 _let_6) (= _let_29 _let_5) (= (tptp.fn_amino_acid_3 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_amino_acid_4 X) (tptp.fn_molecule_2 X)) (= _let_28 (tptp.fn_molecule_8 X)) (= _let_27 (tptp.fn_molecule_3 X)) (= _let_26 (tptp.fn_molecule_4 X)) (= _let_25 (tptp.fn_molecule_12 X)) (= _let_10 _let_16) (= _let_16 _let_24) (= _let_24 _let_24) (= _let_24 _let_11) (= _let_11 _let_11) (= _let_11 _let_15) (= _let_14 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_8 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.amino_acid_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Acid-Hormone'|) (tptp.user_description_2 X |tptp.'A hormone derived from a single amino acid.'|) (tptp.concept2words_2 X |tptp.'amino acid hormone role'|) (tptp.concept2words_2 X |tptp.'amino-acid-hormone-role'|) (tptp.concept2words_2 X |tptp.'amino acid hormone'|) (tptp.concept2words_2 X |tptp.'amino-acid-hormone'|) (tptp.hormone_1 X) (tptp.amino_acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.amino_acid_neurotransmitter_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Acid-Neurotransmitter'|) (tptp.user_description_2 X |tptp.'A neurotransmitter comprised of a single amino acid.'|) (tptp.concept2words_2 X |tptp.'amino acid neurotransmitter'|) (tptp.concept2words_2 X |tptp.'amino-acid-neurotransmitter'|) (tptp.neurotransmitter_1 X) (tptp.amino_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amino_acid_sequence_2 X))) (let ((_let_2 (tptp.fn_amino_acid_sequence_1 X))) (=> (tptp.amino_acid_sequence_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Acid-Sequence'|) (tptp.user_description_2 X |tptp.'A series of amino acids in a particular order determined by inherited genetic information.'|) (tptp.concept2words_2 X |tptp.'amino acid sequence'|) (tptp.concept2words_2 X |tptp.'amino-acid-sequence'|) (tptp.sequence_1 X) (tptp.amino_acid_1 _let_2) (tptp.amino_acid_1 _let_1) (tptp.minCardinality X tptp.element_0 |"2"| tptp.amino_acid_0) (tptp.first_element_2 X _let_1) (tptp.next_element_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.element_2 X _let_1) (= _let_2 (tptp.fn_sequence_1 X)) (= _let_1 (tptp.fn_sequence_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amino_end_1 X))) (=> (tptp.amino_end_1 X) (and (tptp.original_name_2 X |tptp.'Amino-End'|) (tptp.user_description_2 X |tptp.'The end of a polypeptide chain with an unbound amine group.'|) (tptp.concept2words_2 X |tptp.'n terminus'|) (tptp.concept2words_2 X |tptp.'n-terminus'|) (tptp.concept2words_2 X |tptp.'amino terminus'|) (tptp.concept2words_2 X |tptp.'amino-terminus'|) (tptp.concept2words_2 X |tptp.'n terminal end'|) (tptp.concept2words_2 X |tptp.'n-terminal-end'|) (tptp.concept2words_2 X |tptp.'amine terminus'|) (tptp.concept2words_2 X |tptp.'amine-terminus'|) (tptp.concept2words_2 X |tptp.'end of amino'|) (tptp.concept2words_2 X |tptp.'amino end'|) (tptp.concept2words_2 X |tptp.'amino-end'|) (tptp.molecular_region_1 X) (tptp.end_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.hydrophilic_end_1 X)) (not (tptp.hydrophobic_end_1 X)) (tptp.amino_group_1 _let_1) (tptp.is_at_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amino_group_26 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_3 (tptp.fn_amino_group_20 X))) (let ((_let_4 (tptp.fn_nitrogen_12 _let_3))) (let ((_let_5 (tptp.fn_atom_8 _let_3))) (let ((_let_6 (tptp.fn_amino_group_21 X))) (let ((_let_7 (tptp.fn_covalent_bond_24 _let_6))) (let ((_let_8 (tptp.fn_nitrogen_10 _let_3))) (let ((_let_9 (tptp.fn_atom_18 _let_3))) (let ((_let_10 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_11 (tptp.fn_atom_11 _let_3))) (let ((_let_12 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_13 (tptp.fn_nitrogen_16 _let_3))) (let ((_let_14 (tptp.fn_atom_17 _let_3))) (let ((_let_15 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_16 (tptp.fn_nitrogen_11 _let_3))) (let ((_let_17 (tptp.fn_covalent_bond_23 _let_6))) (let ((_let_18 (tptp.fn_amino_group_4 X))) (let ((_let_19 (tptp.fn_atomic_nucleus_9 _let_18))) (let ((_let_20 (tptp.fn_amino_group_11 X))) (let ((_let_21 (tptp.fn_hydrogen_13 _let_20))) (let ((_let_22 (tptp.fn_covalent_bond_22 _let_6))) (let ((_let_23 (tptp.fn_hydrogen_15 _let_20))) (let ((_let_24 (tptp.fn_atomic_nucleus_2 _let_18))) (let ((_let_25 (tptp.fn_hydrogen_17 _let_20))) (let ((_let_26 (tptp.fn_atomic_nucleus_1 _let_18))) (let ((_let_27 (tptp.fn_hydrogen_10 _let_20))) (let ((_let_28 (tptp.fn_atomic_nucleus_3 _let_18))) (let ((_let_29 (tptp.fn_hydrogen_14 _let_20))) (let ((_let_30 (tptp.fn_amino_group_12 X))) (let ((_let_31 (tptp.fn_hydrogen_14 _let_30))) (let ((_let_32 (tptp.fn_amino_group_13 X))) (let ((_let_33 (tptp.fn_hydrogen_14 _let_32))) (let ((_let_34 (tptp.fn_amino_group_14 X))) (let ((_let_35 (tptp.fn_hydrogen_14 _let_34))) (let ((_let_36 (tptp.fn_amino_group_15 X))) (let ((_let_37 (tptp.fn_hydrogen_14 _let_36))) (let ((_let_38 (tptp.fn_amino_group_16 X))) (let ((_let_39 (tptp.fn_hydrogen_14 _let_38))) (let ((_let_40 (tptp.fn_covalent_bond_21 _let_6))) (let ((_let_41 (tptp.fn_atomic_nucleus_7 _let_18))) (let ((_let_42 (tptp.fn_covalent_bond_10 _let_6))) (let ((_let_43 (tptp.fn_hydrogen_16 _let_20))) (let ((_let_44 (tptp.fn_covalent_bond_11 _let_6))) (let ((_let_45 (tptp.fn_hydrogen_16 _let_30))) (let ((_let_46 (tptp.fn_hydrogen_16 _let_32))) (let ((_let_47 (tptp.fn_hydrogen_16 _let_34))) (let ((_let_48 (tptp.fn_hydrogen_16 _let_36))) (let ((_let_49 (tptp.fn_hydrogen_16 _let_38))) (let ((_let_50 (tptp.fn_hydrogen_12 _let_20))) (let ((_let_51 (tptp.fn_covalent_bond_18 _let_6))) (let ((_let_52 (tptp.fn_atomic_nucleus_8 _let_18))) (let ((_let_53 (tptp.fn_amino_group_18 X))) (let ((_let_54 (tptp.fn_first_electron_shell_5 _let_53))) (let ((_let_55 (tptp.fn_atomic_nucleus_4 _let_18))) (let ((_let_56 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_57 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_58 (tptp.fn_amino_group_32 X))) (let ((_let_59 (tptp.fn_share_3 _let_58))) (let ((_let_60 (tptp.fn_covalent_bond_15 _let_6))) (let ((_let_61 (tptp.fn_nitrogen_13 _let_3))) (let ((_let_62 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_63 (tptp.fn_atom_14 _let_3))) (let ((_let_64 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_65 (tptp.fn_share_1 _let_58))) (let ((_let_66 (tptp.fn_amino_group_33 X))) (let ((_let_67 (tptp.fn_hold_2 _let_66))) (let ((_let_68 (tptp.fn_nitrogen_9 _let_3))) (let ((_let_69 (tptp.fn_covalent_bond_13 _let_6))) (let ((_let_70 (tptp.fn_nitrogen_14 _let_3))) (let ((_let_71 (tptp.fn_covalent_bond_12 _let_6))) (let ((_let_72 (tptp.fn_nitrogen_18 _let_3))) (let ((_let_73 (tptp.fn_amino_group_27 X))) (let ((_let_74 (tptp.fn_amino_group_3 X))) (let ((_let_75 (tptp.fn_amino_group_2 X))) (let ((_let_76 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_77 (tptp.fn_atomic_nucleus_6 _let_1))) (let ((_let_78 (tptp.fn_amino_group_25 X))) (let ((_let_79 (tptp.fn_atomic_nucleus_7 _let_1))) (let ((_let_80 (tptp.fn_amino_group_35 X))) (let ((_let_81 (tptp.fn_amino_group_8 X))) (let ((_let_82 (tptp.fn_amino_group_10 X))) (let ((_let_83 (tptp.fn_amino_group_9 X))) (let ((_let_84 (tptp.fn_atomic_nucleus_5 _let_18))) (let ((_let_85 (tptp.fn_amino_group_17 X))) (let ((_let_86 (tptp.fn_atomic_nucleus_6 _let_18))) (let ((_let_87 (tptp.fn_amino_group_6 X))) (let ((_let_88 (tptp.fn_amino_group_19 X))) (let ((_let_89 (tptp.fn_amino_group_22 X))) (let ((_let_90 (tptp.fn_hydrogen_11 _let_20))) (let ((_let_91 (tptp.fn_amino_group_5 X))) (let ((_let_92 (tptp.fn_hydrogen_6 _let_20))) (let ((_let_93 (tptp.fn_covalent_bond_17 _let_6))) (let ((_let_94 (tptp.fn_covalent_bond_16 _let_6))) (let ((_let_95 (tptp.fn_amino_group_29 X))) (let ((_let_96 (tptp.fn_covalent_bond_1 _let_6))) (let ((_let_97 (tptp.fn_amino_group_30 X))) (let ((_let_98 (tptp.fn_amino_group_28 X))) (let ((_let_99 (tptp.fn_covalent_bond_14 _let_6))) (let ((_let_100 (tptp.fn_amino_group_7 X))) (let ((_let_101 (tptp.fn_amino_group_24 X))) (let ((_let_102 (tptp.fn_amino_group_23 X))) (let ((_let_103 (tptp.fn_atom_5 _let_3))) (let ((_let_104 (tptp.fn_amino_group_34 X))) (let ((_let_105 (tptp.fn_atom_1 _let_3))) (let ((_let_106 (tptp.fn_first_electron_shell_4 _let_53))) (let ((_let_107 (tptp.fn_amino_group_31 X))) (let ((_let_108 (tptp.fn_first_electron_shell_3 _let_53))) (let ((_let_109 (tptp.fn_amino_group_1 X))) (=> (tptp.amino_group_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Group'|) (tptp.user_description_2 X |tptp.'In chemistry, a functional group consisting of a nitrogen atom covalently bonded to two hydrogen atoms. In aqueous solutions amino groups act as a base, accepting a hydrogen atom from water and acquiring a +1 charge.'|) (tptp.concept2words_2 X tptp.nh2) (tptp.concept2words_2 X |tptp.'-nh2'|) (tptp.concept2words_2 X |tptp.'group of amino'|) (tptp.concept2words_2 X |tptp.'amino group'|) (tptp.concept2words_2 X |tptp.'amino-group'|) (tptp.functional_group_1 X) (not (tptp.acetyl_group_1 X)) (not (tptp.carbonyl_group_1 X)) (not (tptp.carboxyl_group_1 X)) (not (tptp.hydroxyl_group_1 X)) (not (tptp.methyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.hydrophilic_region_1 _let_109) (tptp.atomic_number_value_1 _let_75) (tptp.quantity_value_1 _let_74) (tptp.atomic_nucleus_1 _let_18) (tptp.quantity_value_1 _let_91) (tptp.attract_1 _let_87) (tptp.atomic_orbital_1 _let_100) (tptp.proton_1 _let_81) (tptp.atomic_number_value_1 _let_83) (tptp.quantity_value_1 _let_82) (tptp.hydrogen_1 _let_20) (tptp.atom_1 _let_30) (tptp.hydrogen_1 _let_30) (tptp.hydrogen_1 _let_32) (tptp.hydrogen_1 _let_34) (tptp.hydrogen_1 _let_36) (tptp.hydrogen_1 _let_38) (tptp.center_1 _let_85) (tptp.electron_shell_1 _let_53) (tptp.first_electron_shell_1 _let_53) (tptp.electron_1 _let_88) (tptp.valence_electron_1 _let_88) (tptp.tangible_entity_1 _let_3) (tptp.entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.nitrogen_1 _let_3) (tptp.single_bond_1 _let_6) (tptp.entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.atom_1 _let_89) (tptp.hydrogen_1 _let_89) (tptp.valence_electron_1 _let_102) (tptp.electron_shell_1 _let_101) (tptp.center_1 _let_78) (tptp.atomic_nucleus_1 _let_1) (tptp.proton_1 _let_73) (tptp.electron_1 _let_98) (tptp.valence_electron_1 _let_98) (tptp.constant_motion_1 _let_95) (tptp.asymmetrical_distribution_1 _let_97) (tptp.s_orbital_1 _let_107) (tptp.share_1 _let_58) (tptp.hold_1 _let_66) (tptp.hold_together_1 _let_66) (tptp.quantity_value_1 _let_104) (tptp.attract_1 _let_80) (tptp.atom_1 _let_108) (tptp.s_orbital_1 _let_106) (tptp.property_node_1 _let_105) (tptp.quantity_value_1 _let_103) (tptp.hold_together_1 _let_99) (tptp.asymmetrical_distribution_1 _let_96) (tptp.constant_motion_1 _let_94) (tptp.share_1 _let_93) (tptp.property_node_1 _let_92) (tptp.quantity_value_1 _let_90) (tptp.property_node_1 _let_86) (tptp.property_node_1 _let_84) (tptp.attract_1 _let_79) (tptp.property_node_1 _let_77) (tptp.property_node_1 _let_76) (tptp.valence_electron_1 _let_72) (tptp.electron_shell_1 _let_71) (tptp.electron_shell_1 _let_70) (tptp.atomic_orbital_1 _let_69) (tptp.atomic_orbital_1 _let_68) (tptp.tangible_entity_1 _let_67) (tptp.entity_1 _let_65) (tptp.atom_1 _let_64) (tptp.electron_1 _let_63) (tptp.electron_1 _let_62) (tptp.valence_electron_1 _let_61) (tptp.valence_electron_1 _let_60) (tptp.entity_1 _let_59) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.atom_1 _let_55) (tptp.electron_1 _let_54) (tptp.electron_1 _let_52) (tptp.valence_electron_1 _let_51) (tptp.valence_electron_1 _let_50) (tptp.electron_shell_1 _let_49) (tptp.first_electron_shell_1 _let_49) (tptp.electron_shell_1 _let_48) (tptp.first_electron_shell_1 _let_48) (tptp.electron_shell_1 _let_47) (tptp.first_electron_shell_1 _let_47) (tptp.electron_shell_1 _let_46) (tptp.first_electron_shell_1 _let_46) (tptp.electron_shell_1 _let_45) (tptp.first_electron_shell_1 _let_45) (tptp.electron_shell_1 _let_44) (tptp.electron_shell_1 _let_43) (tptp.first_electron_shell_1 _let_43) (tptp.attract_1 _let_42) (tptp.attract_1 _let_41) (tptp.center_1 _let_40) (tptp.center_1 _let_39) (tptp.center_1 _let_37) (tptp.center_1 _let_35) (tptp.center_1 _let_33) (tptp.center_1 _let_31) (tptp.center_1 _let_29) (tptp.center_1 _let_28) (tptp.atomic_number_value_1 _let_27) (tptp.atomic_number_value_1 _let_26) (tptp.quantity_value_1 _let_25) (tptp.quantity_value_1 _let_24) (tptp.atomic_nucleus_1 _let_23) (tptp.atomic_nucleus_1 _let_22) (tptp.proton_1 _let_21) (tptp.proton_1 _let_19) (tptp.center_1 _let_17) (tptp.center_1 _let_16) (tptp.center_1 _let_15) (tptp.atomic_number_value_1 _let_14) (tptp.atomic_number_value_1 _let_13) (tptp.atomic_number_value_1 _let_12) (tptp.quantity_value_1 _let_11) (tptp.quantity_value_1 _let_10) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.proton_1 _let_5) (tptp.proton_1 _let_4) (tptp.proton_1 _let_2) (not (= _let_98 _let_102)) (not (= _let_98 _let_88)) (not (= _let_102 _let_98)) (tptp.is_inside_2 _let_89 X) (tptp.has_region_2 X _let_109) (tptp.is_between_2 _let_6 _let_3) (tptp.is_inside_2 _let_3 X) (tptp.is_inside_2 _let_109 X) (not (= _let_88 _let_98)) (tptp.object_2 _let_66 _let_3) (tptp.agent_2 _let_58 _let_3) (not (= _let_89 _let_3)) (not (= _let_3 _let_89)) (tptp.has_region_2 _let_38 _let_85) (tptp.has_region_2 _let_38 _let_53) (tptp.has_region_2 _let_36 _let_85) (tptp.has_region_2 _let_36 _let_53) (tptp.has_region_2 _let_34 _let_85) (tptp.has_region_2 _let_34 _let_53) (tptp.has_region_2 _let_32 _let_85) (tptp.has_region_2 _let_32 _let_53) (tptp.has_region_2 _let_30 _let_85) (tptp.has_region_2 _let_30 _let_53) (tptp.has_region_2 _let_53 _let_107) (tptp.is_inside_2 _let_88 _let_107) (tptp.quantity_2 _let_98 _let_104) (tptp.has_region_2 _let_89 _let_53) (not (= _let_53 _let_101)) (tptp.is_inside_2 _let_102 _let_100) (not (= _let_101 _let_53)) (tptp.object_2 _let_66 _let_89) (tptp.agent_2 _let_58 _let_89) (not (= _let_85 _let_78)) (not (= _let_78 _let_85)) (tptp.is_between_2 _let_6 _let_89) (tptp.has_region_2 _let_89 _let_85) (tptp.called_2 _let_104 |tptp.'Number_Electron'|) (= _let_74 _let_104) (= _let_104 _let_74) (tptp.object_2 _let_80 _let_98) (tptp.has_part_2 _let_3 _let_102) (tptp.has_part_2 _let_3 _let_73) (tptp.has_region_2 _let_3 _let_78) (tptp.the_cardinal_value_2 _let_75 |"7"|) (tptp.cardinal_unit_class_2 _let_75 tptp.unity_0) (tptp.has_region_2 _let_3 _let_1) (tptp.is_near_2 _let_102 _let_1) (tptp.is_near_2 _let_1 _let_102) (tptp.has_part_2 _let_3 _let_98) (tptp.is_inside_2 _let_98 _let_100) (tptp.has_region_2 _let_101 _let_100) (tptp.has_region_2 _let_3 _let_101) (tptp.atomic_number_2 _let_3 _let_75) (tptp.has_function_2 _let_6 _let_66) (tptp.object_2 _let_87 _let_88) (tptp.agent_2 _let_66 _let_6) (tptp.object_2 _let_58 _let_98) (tptp.is_near_2 _let_1 _let_98) (not (= _let_18 _let_1)) (not (= _let_1 _let_18)) (tptp.is_near_2 _let_98 _let_1) (tptp.result_2 _let_58 _let_6) (tptp.object_2 _let_58 _let_88) (tptp.object_2 _let_95 _let_88) (tptp.causes_2 _let_95 _let_97) (tptp.object_2 _let_97 _let_88) (tptp.has_region_2 _let_20 _let_85) (tptp.has_part_2 _let_89 _let_81) (tptp.the_cardinal_value_2 _let_91 |"1"|) (tptp.cardinal_unit_class_2 _let_91 tptp.unity_0) (tptp.has_part_2 _let_89 _let_88) (tptp.atomic_number_2 _let_89 _let_83) (tptp.the_cardinal_value_2 _let_83 |"1"|) (tptp.cardinal_unit_class_2 _let_83 tptp.unity_0) (tptp.quantity_2 _let_88 _let_91) (tptp.called_2 _let_91 |tptp.'Number_Electron'|) (= _let_82 _let_91) (= _let_91 _let_82) (tptp.has_region_2 _let_20 _let_53) (tptp.is_inside_2 _let_18 _let_53) (tptp.has_region_2 _let_89 _let_18) (tptp.is_near_2 _let_88 _let_18) (tptp.is_near_2 _let_18 _let_88) (tptp.called_2 _let_83 |tptp.'Atomic_Number'|) (tptp.agent_2 _let_87 _let_81) (tptp.is_at_2 _let_18 _let_85) (tptp.is_inside_2 _let_81 _let_18) (tptp.quantity_2 _let_81 _let_82) (tptp.called_2 _let_82 |tptp.'Number_Proton'|) (= _let_83 _let_82) (= _let_82 _let_83) (tptp.agent_2 _let_80 _let_73) (tptp.is_at_2 _let_1 _let_78) (tptp.called_2 _let_75 |tptp.'Atomic_Number'|) (tptp.is_inside_2 _let_73 _let_1) (tptp.quantity_2 _let_73 _let_74) (tptp.called_2 _let_74 |tptp.'Number_Proton'|) (= _let_75 _let_74) (= _let_74 _let_75) (= _let_3 _let_67) (= _let_89 _let_59) (= _let_3 _let_59) (= _let_3 _let_65) (= _let_85 _let_39) (= _let_53 _let_49) (= _let_85 _let_37) (= _let_53 _let_48) (= _let_85 _let_35) (= _let_53 _let_47) (= _let_85 _let_33) (= _let_53 _let_46) (= _let_85 _let_31) (= _let_30 _let_108) (= _let_53 _let_45) (= _let_88 _let_54) (= _let_107 _let_106) (= _let_102 _let_51) (= _let_53 _let_44) (= _let_78 _let_17) (= _let_89 _let_57) (= (tptp.fn_amino_group_39 X) _let_105) (= _let_104 _let_103) (= _let_102 _let_72) (= _let_73 _let_4) (= _let_78 _let_16) (= _let_102 _let_61) (= _let_1 _let_8) (= _let_75 _let_13) (= _let_101 _let_71) (= _let_100 _let_69) (= _let_101 _let_70) (= _let_100 _let_68) (= _let_3 _let_64) (= _let_98 _let_61) (= _let_87 _let_42) (= _let_66 _let_99) (= _let_98 _let_63) (= _let_1 _let_9) (= _let_98 _let_62) (= _let_1 _let_7) (= _let_98 _let_60) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_58 _let_93) (= _let_85 _let_29) (= _let_81 _let_21) (= (tptp.fn_amino_group_36 X) _let_92) (= _let_83 _let_27) (= _let_82 _let_25) (= _let_91 _let_90) (= _let_89 _let_56) (= _let_89 _let_55) (= _let_88 _let_51) (= _let_88 _let_52) (= _let_88 _let_50) (= _let_18 _let_23) (= _let_53 _let_43) (= _let_87 _let_41) (= (tptp.fn_amino_group_37 X) _let_86) (= _let_18 _let_22) (= _let_85 _let_40) (= _let_85 _let_28) (= (tptp.fn_amino_group_41 X) _let_84) (= _let_83 _let_26) (= _let_82 _let_24) (= _let_81 _let_19) (= _let_80 _let_79) (= _let_78 _let_15) (= (tptp.fn_amino_group_38 X) _let_77) (= (tptp.fn_amino_group_40 X) _let_76) (= _let_75 _let_14) (= _let_75 _let_12) (= _let_73 _let_5) (= _let_74 _let_11) (= _let_74 _let_10) (= _let_73 _let_2) (= _let_51 _let_72) (= _let_72 _let_72) (= _let_72 _let_61) (= _let_61 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_59) (= _let_59 _let_67) (= _let_67 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_50 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_31 _let_40) (= _let_40 _let_40) (= _let_40 _let_29) (= _let_29 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.amino_peptidase_1 X) (and (tptp.original_name_2 X |tptp.'Amino-Peptidase'|) (tptp.user_description_2 X |tptp.'Enzyme produced by the small intestine which catalyzes reactions involved in the digestion of proteins.'|) (tptp.concept2words_2 X |tptp.'peptidase of amino'|) (tptp.concept2words_2 X |tptp.'amino peptidase'|) (tptp.concept2words_2 X |tptp.'amino-peptidase'|) (tptp.protease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aminoacyl_trna_1 X))) (=> (tptp.aminoacyl_trna_1 X) (and (tptp.original_name_2 X |tptp.'Aminoacyl-tRNA'|) (tptp.user_description_2 X |tptp.'A mature tRNA molecule with the corresponding amino acid attached to its 3-prime end.'|) (tptp.concept2words_2 X |tptp.'activated amino acid'|) (tptp.concept2words_2 X |tptp.'activated-amino-acid'|) (tptp.concept2words_2 X |tptp.'aminoacyl trna'|) (tptp.concept2words_2 X |tptp.'aminoacyl-trna'|) (tptp.trna_1 X) (not (tptp.initiator_trna_1 X)) (tptp.amino_acid_1 _let_1) (tptp.is_at_2 _let_1 X) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aminoacyl_trna_synthetase_11 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (let ((_let_3 (tptp.fn_aminoacyl_trna_synthetase_13 X))) (let ((_let_4 (tptp.fn_catalyst_2 _let_3))) (let ((_let_5 (tptp.fn_protein_enzyme_7 X))) (let ((_let_6 (tptp.fn_organic_molecule_1 X))) (let ((_let_7 (tptp.fn_protein_enzyme_8 X))) (let ((_let_8 (tptp.fn_organic_molecule_2 X))) (let ((_let_9 (tptp.fn_polymer_1 X))) (let ((_let_10 (tptp.fn_molecule_10 X))) (let ((_let_11 (tptp.fn_aminoacyl_trna_synthetase_12 X))) (let ((_let_12 (tptp.fn_aminoacyl_trna_synthetase_14 X))) (let ((_let_13 (tptp.fn_aminoacyl_trna_synthetase_10 X))) (let ((_let_14 (tptp.fn_aminoacyl_trna_synthetase_6 X))) (let ((_let_15 (tptp.fn_attach_1 _let_14))) (let ((_let_16 (tptp.fn_aminoacyl_trna_synthetase_7 X))) (let ((_let_17 (tptp.fn_attach_2 _let_14))) (let ((_let_18 (tptp.fn_aminoacyl_trna_synthetase_8 X))) (let ((_let_19 (tptp.fn_aminoacyl_trna_synthetase_3 X))) (let ((_let_20 (tptp.fn_impair_1 _let_19))) (let ((_let_21 (tptp.fn_aminoacyl_trna_synthetase_4 X))) (let ((_let_22 (tptp.fn_aminoacyl_trna_synthetase_5 X))) (let ((_let_23 (tptp.fn_create_1 _let_22))) (let ((_let_24 (tptp.fn_aminoacyl_trna_synthetase_9 X))) (let ((_let_25 (tptp.fn_aminoacyl_trna_synthetase_1 X))) (let ((_let_26 (tptp.fn_aminoacyl_trna_synthetase_2 X))) (=> (tptp.aminoacyl_trna_synthetase_1 X) (and (tptp.original_name_2 X |tptp.'Aminoacyl-tRNA-Synthetase'|) (tptp.user_description_2 X |tptp.'An enzyme that joins a specific amino acid to its appropriate tRNA molecule.'|) (tptp.concept2words_2 X |tptp.'aminoacyl trna synthetase'|) (tptp.concept2words_2 X |tptp.'aminoacyl-trna synthetase'|) (tptp.concept2words_2 X |tptp.'aminoacyl-trna-synthetase'|) (tptp.ligase_1 X) (tptp.amp_1 _let_25) (tptp.pyrophosphate_1 _let_26) (tptp.break_1 _let_19) (tptp.atp_1 _let_21) (tptp.create_1 _let_22) (tptp.attach_1 _let_14) (tptp.amino_acid_1 _let_16) (tptp.trna_1 _let_18) (tptp.aminoacyl_trna_1 _let_24) (tptp.catalyst_1 _let_13) (tptp.chemical_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.disulfide_bond_1 _let_1) (tptp.carbon_1 _let_11) (tptp.catalyst_1 _let_3) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.entity_1 _let_23) (tptp.tangible_entity_1 _let_20) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_4) (tptp.protein_1 _let_2) (tptp.in_event_2 _let_13 _let_22) (tptp.result_2 _let_14 _let_24) (tptp.raw_material_2 _let_14 _let_21) (tptp.agent_2 _let_14 X) (tptp.first_subevent_2 _let_22 _let_19) (tptp.subevent_2 _let_22 _let_14) (tptp.subevent_2 _let_22 _let_19) (tptp.causes_2 _let_19 _let_14) (tptp.result_2 _let_19 _let_26) (tptp.result_2 _let_19 _let_25) (tptp.result_2 _let_22 _let_24) (tptp.object_2 _let_19 _let_21) (tptp.base_2 _let_14 _let_18) (tptp.object_2 _let_14 _let_16) (tptp.plays_2 X _let_3) (tptp.plays_2 X _let_13) (tptp.possesses_2 X _let_1) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_11) (not (= _let_12 _let_11)) (not (= _let_11 _let_12)) (= _let_24 _let_23) (= _let_21 _let_20) (= _let_18 _let_17) (= _let_16 _let_15) (= X _let_4) (= _let_13 (tptp.fn_enzyme_6 X)) (= _let_1 _let_10) (= _let_1 _let_9) (= X _let_2) (= _let_12 _let_8) (= _let_12 _let_7) (= _let_11 _let_6) (= _let_11 _let_5) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ammonia_12 X))) (let ((_let_2 (tptp.fn_obtain_1 _let_1))) (let ((_let_3 (tptp.fn_ammonia_5 X))) (let ((_let_4 (tptp.fn_ammonia_8 X))) (let ((_let_5 (tptp.fn_ammonia_7 X))) (let ((_let_6 (tptp.fn_ammonia_6 X))) (let ((_let_7 (tptp.fn_ammonia_9 X))) (let ((_let_8 (tptp.fn_take_1 _let_1))) (let ((_let_9 (tptp.fn_ammonia_11 X))) (let ((_let_10 (tptp.fn_transfer_1 _let_1))) (let ((_let_11 (tptp.fn_ammonia_10 X))) (let ((_let_12 (tptp.fn_ammonia_2 X))) (let ((_let_13 (tptp.fn_ammonia_3 X))) (let ((_let_14 (tptp.fn_ammonia_1 X))) (=> (tptp.ammonia_1 X) (and (tptp.original_name_2 X |tptp.'Ammonia'|) (tptp.user_description_2 X |tptp.'Ammonia is a small molecule produced as a waste product of protein and nucliec acid breakdown. It is also synthesized by nitrogen-fixing bacteria from atmospheric nitrogen. Ammonia is a colorless gas with a pungent smell,and is very toxic.'|) (tptp.concept2words_2 X tptp.nh3) (tptp.concept2words_2 X tptp.ammonium) (tptp.concept2words_2 X tptp.ammonia) (tptp.covalent_compound_1 X) (tptp.inorganic_molecule_1 X) (tptp.hydrogen_1 _let_14) (tptp.mass_value_1 _let_12) (tptp.potential_energy_1 _let_13) (tptp.kinetic_energy_1 _let_3) (tptp.constant_motion_1 _let_6) (tptp.speed_value_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.nitrogen_1 _let_7) (tptp.proton_1 _let_11) (tptp.solution_1 _let_9) (tptp.take_1 _let_1) (tptp.entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.entity_1 _let_2) (tptp.has_part_2 X _let_14) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.hydrogen_0) (tptp.possesses_2 X _let_13) (tptp.mass_2 X _let_12) (tptp.object_2 _let_1 _let_11) (tptp.donor_2 _let_1 _let_9) (tptp.has_part_2 X _let_7) (tptp.recipient_2 _let_1 X) (tptp.agent_2 _let_1 X) (tptp.possesses_2 X _let_3) (tptp.quantity_2 _let_3 _let_4) (tptp.directly_proportional_2 _let_5 _let_4) (tptp.speed_2 _let_6 _let_5) (tptp.object_2 _let_6 X) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 (tptp.fn_molecule_7 X)) (= X _let_2) (= _let_6 (tptp.fn_molecule_8 X)) (= _let_5 (tptp.fn_molecule_3 X)) (= _let_4 (tptp.fn_molecule_4 X)) (= _let_3 (tptp.fn_molecule_12 X)) (= _let_2 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ammonia_gas_1 X))) (=> (tptp.ammonia_gas_1 X) (and (tptp.original_name_2 X |tptp.'Ammonia-Gas'|) (tptp.user_description_2 X |tptp.'Ammonia Gas is the gaseous form of the ammonia. It can be dissolved easily in water.'|) (tptp.concept2words_2 X |tptp.'gas of ammonia'|) (tptp.concept2words_2 X |tptp.'ammonia gas'|) (tptp.concept2words_2 X |tptp.'ammonia-gas'|) (tptp.weak_base_1 X) (tptp.ammonia_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ammonification_5 X))) (let ((_let_2 (tptp.fn_ammonifying_bacterium_10 _let_1))) (let ((_let_3 (tptp.fn_ammonifying_bacterium_5 _let_1))) (let ((_let_4 (tptp.fn_ammonifying_bacterium_14 _let_1))) (let ((_let_5 (tptp.fn_ammonification_3 X))) (let ((_let_6 (tptp.fn_ammonifying_bacterium_9 _let_1))) (let ((_let_7 (tptp.fn_ammonification_2 X))) (let ((_let_8 (tptp.fn_ammonification_4 X))) (let ((_let_9 (tptp.fn_ammonification_1 X))) (=> (tptp.ammonification_1 X) (and (tptp.original_name_2 X |tptp.'Ammonification'|) (tptp.user_description_2 X |tptp.'A process of decomposition of organic nitrogen to ammonia.'|) (tptp.concept2words_2 X |tptp.'undergo ammonification'|) (tptp.concept2words_2 X tptp.ammonify) (tptp.concept2words_2 X tptp.ammonification) (tptp.decomposition_1 X) (tptp.organic_molecule_1 _let_9) (tptp.detritus_1 _let_7) (tptp.nutrition_1 _let_5) (tptp.ammonia_1 _let_8) (tptp.ammonifying_bacterium_1 _let_1) (tptp.detritus_1 _let_6) (tptp.nutrition_1 _let_4) (tptp.nutrition_1 _let_3) (tptp.ammonification_1 _let_2) (tptp.raw_material_2 X _let_9) (tptp.result_2 X _let_8) (tptp.agent_2 _let_5 _let_1) (tptp.raw_material_2 _let_5 _let_7) (tptp.object_2 X _let_7) (tptp.agent_2 X _let_1) (= _let_8 (tptp.fn_decomposition_2 X)) (= X _let_2) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ammonifying_bacterium_4 X))) (let ((_let_2 (tptp.fn_detritivore_10 _let_1))) (let ((_let_3 (tptp.fn_ammonifying_bacterium_10 X))) (let ((_let_4 (tptp.fn_decomposition_7 _let_3))) (let ((_let_5 (tptp.fn_ammonifying_bacterium_15 X))) (let ((_let_6 (tptp.fn_heterotroph_2 _let_5))) (let ((_let_7 (tptp.fn_decomposition_14 _let_3))) (let ((_let_8 (tptp.fn_bacterium_16 X))) (let ((_let_9 (tptp.fn_prokaryote_12 X))) (let ((_let_10 (tptp.fn_bacterium_5 X))) (let ((_let_11 (tptp.fn_cell_26 X))) (let ((_let_12 (tptp.fn_bacterium_13 X))) (let ((_let_13 (tptp.fn_organism_3 X))) (let ((_let_14 (tptp.fn_detritivore_16 _let_1))) (let ((_let_15 (tptp.fn_decomposition_10 _let_3))) (let ((_let_16 (tptp.fn_detritivore_12 _let_1))) (let ((_let_17 (tptp.fn_organism_4 X))) (let ((_let_18 (tptp.fn_detritivore_14 _let_1))) (let ((_let_19 (tptp.fn_organism_5 X))) (let ((_let_20 (tptp.fn_detritivore_13 _let_1))) (let ((_let_21 (tptp.fn_organism_2 X))) (let ((_let_22 (tptp.fn_chemoheterotroph_4 _let_5))) (let ((_let_23 (tptp.fn_ammonifying_bacterium_24 X))) (let ((_let_24 (tptp.fn_ammonifying_bacterium_20 X))) (let ((_let_25 (tptp.fn_ammonifying_bacterium_25 X))) (let ((_let_26 (tptp.fn_ammonifying_bacterium_23 X))) (let ((_let_27 (tptp.fn_ammonifying_bacterium_12 X))) (let ((_let_28 (tptp.fn_ammonifying_bacterium_22 X))) (let ((_let_29 (tptp.fn_ammonifying_bacterium_17 X))) (let ((_let_30 (tptp.fn_ammonifying_bacterium_19 X))) (let ((_let_31 (tptp.fn_ammonifying_bacterium_18 X))) (let ((_let_32 (tptp.fn_ammonifying_bacterium_5 X))) (let ((_let_33 (tptp.fn_ammonifying_bacterium_21 X))) (let ((_let_34 (tptp.fn_ammonifying_bacterium_13 X))) (let ((_let_35 (tptp.fn_ammonifying_bacterium_16 X))) (let ((_let_36 (tptp.fn_decomposition_6 _let_3))) (let ((_let_37 (tptp.fn_ammonifying_bacterium_6 X))) (let ((_let_38 (tptp.fn_decomposition_5 _let_3))) (let ((_let_39 (tptp.fn_ammonifying_bacterium_7 X))) (let ((_let_40 (tptp.fn_decomposition_4 _let_3))) (let ((_let_41 (tptp.fn_ammonifying_bacterium_8 X))) (let ((_let_42 (tptp.fn_decomposition_3 _let_3))) (let ((_let_43 (tptp.fn_ammonifying_bacterium_9 X))) (let ((_let_44 (tptp.fn_ammonifying_bacterium_14 X))) (let ((_let_45 (tptp.fn_ammonifying_bacterium_28 X))) (let ((_let_46 (tptp.fn_ammonifying_bacterium_29 X))) (let ((_let_47 (tptp.fn_ammonifying_bacterium_11 X))) (let ((_let_48 (tptp.fn_ammonifying_bacterium_1 X))) (=> (tptp.ammonifying_bacterium_1 X) (and (tptp.original_name_2 X |tptp.'Ammonifying-Bacterium'|) (tptp.user_description_2 X |tptp.'A bacterium that converts forms of organic nitrogen present in detritus to ammonia. This is an important step of the nitrogen cycle.'|) (tptp.concept2words_2 X |tptp.'ammonifying bacterium'|) (tptp.concept2words_2 X |tptp.'ammonifying-bacterium'|) (tptp.bacterium_1 X) (tptp.amino_acid_1 _let_48) (tptp.detritivore_1 _let_1) (tptp.nutrition_1 _let_32) (tptp.population_1 _let_37) (tptp.biofilm_1 _let_39) (tptp.surface_1 _let_41) (tptp.detritus_1 _let_43) (tptp.ammonification_1 _let_3) (tptp.substance_1 _let_47) (tptp.cytosol_1 _let_47) (tptp.tangible_entity_1 _let_27) (tptp.phospholipid_bilayer_1 _let_27) (tptp.specific_heat_value_1 _let_34) (tptp.nutrition_1 _let_44) (tptp.chemoheterotroph_1 _let_5) (tptp.temperature_value_1 _let_35) (tptp.size_value_1 _let_29) (tptp.surface_1 _let_31) (tptp.volume_value_1 _let_30) (tptp.cell_wall_1 _let_24) (tptp.water_1 _let_33) (tptp.genome_1 _let_28) (tptp.genotype_1 _let_28) (tptp.ribosome_1 _let_26) (tptp.prokaryotic_ribosome_1 _let_26) (tptp.spatial_entity_1 _let_23) (tptp.biomembrane_1 _let_23) (tptp.plasma_membrane_1 _let_23) (tptp.mixture_1 _let_25) (tptp.cytoplasm_1 _let_25) (tptp.nucleoid_1 _let_45) (tptp.chromosome_1 _let_46) (tptp.prokaryotic_chromosome_1 _let_46) (tptp.detritus_1 _let_42) (tptp.surface_1 _let_40) (tptp.biofilm_1 _let_38) (tptp.population_1 _let_36) (tptp.nutrition_1 _let_22) (tptp.temperature_value_1 _let_20) (tptp.specific_heat_value_1 _let_18) (tptp.water_1 _let_16) (tptp.nutrition_1 _let_15) (tptp.nutrition_1 _let_14) (tptp.living_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.organism_1 _let_7) (tptp.organism_1 _let_6) (tptp.living_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.organism_1 _let_4) (tptp.prokaryote_1 _let_4) (tptp.living_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.organism_1 _let_2) (tptp.is_inside_2 _let_26 _let_47) (tptp.has_function_2 X _let_3) (tptp.raw_material_2 _let_3 _let_48) (tptp.plays_2 X _let_5) (tptp.in_event_2 _let_5 _let_44) (tptp.has_region_2 X _let_45) (tptp.is_inside_2 _let_46 _let_45) (tptp.has_part_2 X _let_46) (tptp.has_part_2 _let_25 _let_47) (tptp.agent_2 _let_44 X) (tptp.object_2 _let_3 _let_43) (tptp.raw_material_2 _let_32 _let_43) (tptp.agent_2 _let_3 X) (tptp.element_2 _let_37 X) (tptp.element_2 _let_39 _let_37) (tptp.is_at_2 _let_39 _let_41) (tptp.is_on_2 _let_41 _let_43) (tptp.plays_2 X _let_1) (tptp.temperature_2 X _let_35) (tptp.in_event_2 _let_1 _let_32) (tptp.agent_2 _let_32 X) (tptp.has_part_2 X _let_33) (tptp.specific_heat_2 _let_33 _let_34) (tptp.correspondence_2 _let_35 _let_34) (tptp.size_2 X _let_29) (tptp.directly_proportional_2 _let_29 _let_30) (tptp.volume_2 X _let_30) (tptp.has_region_2 X _let_31) (tptp.is_at_2 _let_27 _let_31) (tptp.has_part_2 X _let_28) (tptp.has_part_2 _let_23 _let_27) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_23) (tptp.is_inside_2 _let_23 _let_24) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_25) (tptp.is_inside_2 _let_25 _let_23) (= X _let_6) (= _let_44 _let_22) (= (tptp.fn_ammonifying_bacterium_3 X) (tptp.fn_organism_6 X)) (= (tptp.fn_ammonifying_bacterium_2 X) (tptp.fn_organism_1 X)) (= _let_47 (tptp.fn_prokaryote_10 X)) (= _let_46 (tptp.fn_prokaryote_9 X)) (= _let_45 (tptp.fn_prokaryote_18 X)) (= _let_44 _let_15) (= _let_32 _let_15) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= X _let_7) (= X _let_4) (= _let_35 _let_21) (= _let_35 _let_20) (= _let_34 _let_19) (= _let_34 _let_18) (= _let_33 _let_17) (= _let_33 _let_16) (= X _let_2) (= _let_32 _let_14) (= (tptp.fn_ammonifying_bacterium_27 X) (tptp.fn_cell_23 X)) (= (tptp.fn_ammonifying_bacterium_26 X) (tptp.fn_cell_10 X)) (= _let_27 _let_11) (= _let_31 (tptp.fn_cell_4 X)) (= _let_30 (tptp.fn_cell_22 X)) (= _let_29 (tptp.fn_cell_11 X)) (= _let_28 _let_13) (= _let_28 _let_12) (= _let_27 _let_10) (= _let_26 (tptp.fn_bacterium_14 X)) (= _let_25 _let_9) (= _let_25 _let_8) (= _let_24 (tptp.fn_bacterium_12 X)) (= _let_23 (tptp.fn_bacterium_15 X)) (= _let_22 _let_15) (= _let_15 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.ammonite_1 X) (and (tptp.original_name_2 X |tptp.'Ammonite'|) (tptp.user_description_2 X |tptp.'A member of an extinct group of shelled cephalopods. Ammonites were major marine predators for hundreds of millions of years until their extinction at the end of the Cretaceous Period.'|) (tptp.concept2words_2 X tptp.ammonite) (tptp.early_invertebrate_1 X) (tptp.extinct_invertebrate_1 X) (not (tptp.acanthodian_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amniocentesis_5 X))) (let ((_let_2 (tptp.fn_collecting_1 _let_1))) (let ((_let_3 (tptp.fn_amniocentesis_4 X))) (let ((_let_4 (tptp.fn_amniocentesis_2 X))) (let ((_let_5 (tptp.fn_amniocentesis_1 X))) (let ((_let_6 (tptp.fn_amniocentesis_3 X))) (=> (tptp.amniocentesis_1 X) (and (tptp.original_name_2 X |tptp.'Amniocentesis'|) (tptp.user_description_2 X |tptp.'A technique of prenatal diagnosis in which amniotic fluid, obtained by aspiration from a needle inserted into the uterus, is analyzed to detect certain genetic and congenital defects in the fetus.'|) (tptp.concept2words_2 X tptp.amniocentesis) (tptp.fetal_testing_1 X) (not (tptp.chorionic_villus_sampling_1 X)) (tptp.placenta_1 _let_5) (tptp.fetus_cell_1 _let_4) (tptp.syringe_1 _let_6) (tptp.amniotic_fluid_1 _let_3) (tptp.collecting_1 _let_1) (tptp.entity_1 _let_2) (tptp.instrument_2 _let_1 _let_6) (tptp.is_inside_2 _let_3 _let_5) (tptp.is_inside_2 _let_4 _let_3) (tptp.by_means_of_2 X _let_1) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.amnion_1 X) (and (tptp.original_name_2 X |tptp.'Amnion'|) (tptp.user_description_2 X |tptp.'One of four extraembryonic membranes in an amniote egg. It surrounds a fluid-filled cavity that cushions the embryo.'|) (tptp.concept2words_2 X tptp.amnion) (tptp.extraembryonic_membrane_1 X) (not (tptp.allantois_1 X)) (not (tptp.chorion_1 X)) (not (tptp.yolk_sac_1 X))))) (forall ((X $$unsorted)) (=> (tptp.amniote_1 X) (and (tptp.original_name_2 X |tptp.'Amniote'|) (tptp.user_description_2 X |tptp.'Member of the clade of tetrapod vertebrates named for their unifying synapomorphy, the amniote egg, which contains multiple membrane that protect the developing embryo. Mammals, birds, and reptiles are amniotes.'|) (tptp.concept2words_2 X tptp.amniote) (tptp.tetrapod_1 X) (not (tptp.amphibian_1 X)) (not (tptp.archosaur_1 X))))) (forall ((X $$unsorted)) (=> (tptp.amniotic_egg_1 X) (and (tptp.original_name_2 X |tptp.'Amniotic-Egg'|) (tptp.user_description_2 X |tptp.'A shelled egg in which an embryo develops within a fluid-filled amniotic sac and is nourished by yolk. Produced by reptiles (including birds) and egg-laying mammals, it enables them to complete their life cycles on dry land.'|) (tptp.concept2words_2 X |tptp.'amniotic egg'|) (tptp.concept2words_2 X |tptp.'amniotic-egg'|) (tptp.shelled_egg_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amniotic_fluid_1 X))) (=> (tptp.amniotic_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Amniotic-Fluid'|) (tptp.user_description_2 X |tptp.'The nourishing and protecting liquid contained by the amniotic sac in which the growing embryo is suspended.'|) (tptp.concept2words_2 X |tptp.'amniotic fluid'|) (tptp.concept2words_2 X |tptp.'amniotic-fluid'|) (tptp.extra_cellular_fluid_1 X) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X)) (tptp.fetus_1 _let_1) (tptp.is_inside_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amoeba_27 X))) (let ((_let_2 (tptp.fn_rough_endoplasmic_reticulum_23 _let_1))) (let ((_let_3 (tptp.fn_amoeba_24 X))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_3))) (let ((_let_5 (tptp.fn_protist_cell_29 X))) (let ((_let_6 (tptp.fn_rough_endoplasmic_reticulum_62 _let_1))) (let ((_let_7 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_3))) (let ((_let_8 (tptp.fn_amoeba_42 X))) (let ((_let_9 (tptp.fn_phagocytosis_70 _let_8))) (let ((_let_10 (tptp.fn_amoeba_11 X))) (let ((_let_11 (tptp.fn_locomotion_1 _let_10))) (let ((_let_12 (tptp.fn_rough_endoplasmic_reticulum_32 _let_1))) (let ((_let_13 (tptp.fn_protist_cell_35 X))) (let ((_let_14 (tptp.fn_phagocytosis_71 _let_8))) (let ((_let_15 (tptp.fn_amoeba_55 X))) (let ((_let_16 (tptp.fn_cytoplasmic_side_1 _let_15))) (let ((_let_17 (tptp.fn_rough_endoplasmic_reticulum_27 _let_1))) (let ((_let_18 (tptp.fn_protist_cell_24 X))) (let ((_let_19 (tptp.fn_rough_endoplasmic_reticulum_28 _let_1))) (let ((_let_20 (tptp.fn_phagocytosis_12 _let_8))) (let ((_let_21 (tptp.fn_rough_endoplasmic_reticulum_21 _let_1))) (let ((_let_22 (tptp.fn_protist_cell_27 X))) (let ((_let_23 (tptp.fn_amoeba_34 X))) (let ((_let_24 (tptp.fn_synthesis_of_endomembranous_system_membrane_60 _let_23))) (let ((_let_25 (tptp.fn_rough_endoplasmic_reticulum_68 _let_1))) (let ((_let_26 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_3))) (let ((_let_27 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_3))) (let ((_let_28 (tptp.fn_synthesis_of_endomembranous_system_membrane_59 _let_23))) (let ((_let_29 (tptp.fn_protist_cell_28 X))) (let ((_let_30 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_3))) (let ((_let_31 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_3))) (let ((_let_32 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_3))) (let ((_let_33 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_3))) (let ((_let_34 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_3))) (let ((_let_35 (tptp.fn_protist_cell_14 X))) (let ((_let_36 (tptp.fn_protist_cell_22 X))) (let ((_let_37 (tptp.fn_phagocytosis_19 _let_8))) (let ((_let_38 (tptp.fn_amoeba_33 X))) (let ((_let_39 (tptp.fn_transport_protein_35 _let_38))) (let ((_let_40 (tptp.fn_integral_protein_24 _let_38))) (let ((_let_41 (tptp.fn_transmembrane_protein_4 _let_38))) (let ((_let_42 (tptp.fn_amoeba_54 X))) (let ((_let_43 (tptp.fn_attach_2 _let_42))) (let ((_let_44 (tptp.fn_amoeba_29 X))) (let ((_let_45 (tptp.fn_attach_2 _let_44))) (let ((_let_46 (tptp.fn_protist_cell_18 X))) (let ((_let_47 (tptp.fn_amoeba_18 X))) (let ((_let_48 (tptp.fn_plasma_membrane_71 _let_47))) (let ((_let_49 (tptp.fn_transport_protein_12 _let_38))) (let ((_let_50 (tptp.fn_integral_protein_27 _let_38))) (let ((_let_51 (tptp.fn_biomembrane_63 _let_47))) (let ((_let_52 (tptp.fn_protist_cell_26 X))) (let ((_let_53 (tptp.fn_synthesis_of_endomembranous_system_membrane_52 _let_23))) (let ((_let_54 (tptp.fn_plasma_membrane_55 _let_47))) (let ((_let_55 (tptp.fn_plasma_membrane_3 _let_47))) (let ((_let_56 (tptp.fn_plasma_membrane_4 _let_47))) (let ((_let_57 (tptp.fn_attach_1 _let_42))) (let ((_let_58 (tptp.fn_attach_1 _let_44))) (let ((_let_59 (tptp.fn_plasma_membrane_34 _let_47))) (let ((_let_60 (tptp.fn_integral_protein_9 _let_38))) (let ((_let_61 (tptp.fn_plasma_membrane_68 _let_47))) (let ((_let_62 (tptp.fn_plasma_membrane_54 _let_47))) (let ((_let_63 (tptp.fn_plasma_membrane_74 _let_47))) (let ((_let_64 (tptp.fn_transport_protein_10 _let_38))) (let ((_let_65 (tptp.fn_plasma_membrane_65 _let_47))) (let ((_let_66 (tptp.fn_biomembrane_41 _let_47))) (let ((_let_67 (tptp.fn_integral_protein_29 _let_38))) (let ((_let_68 (tptp.fn_plasma_membrane_57 _let_47))) (let ((_let_69 (tptp.fn_transport_protein_18 _let_38))) (let ((_let_70 (tptp.fn_plasma_membrane_66 _let_47))) (let ((_let_71 (tptp.fn_transmembrane_protein_6 _let_38))) (let ((_let_72 (tptp.fn_transport_protein_14 _let_38))) (let ((_let_73 (tptp.fn_transport_protein_17 _let_38))) (let ((_let_74 (tptp.fn_endoplasmic_reticulum_25 _let_3))) (let ((_let_75 (tptp.fn_amoeba_4 X))) (let ((_let_76 (tptp.fn_exchange_4 _let_75))) (let ((_let_77 (tptp.fn_exchange_3 _let_75))) (let ((_let_78 (tptp.fn_amoeba_21 X))) (let ((_let_79 (tptp.fn_rough_endoplasmic_reticulum_56 _let_1))) (let ((_let_80 (tptp.fn_amoeba_17 X))) (let ((_let_81 (tptp.fn_amoeba_19 X))) (let ((_let_82 (tptp.fn_amoeba_26 X))) (let ((_let_83 (tptp.fn_amoeba_52 X))) (let ((_let_84 (tptp.fn_amoeba_35 X))) (let ((_let_85 (tptp.fn_amoeba_23 X))) (let ((_let_86 (tptp.fn_amoeba_7 X))) (let ((_let_87 (tptp.fn_amoeba_13 X))) (let ((_let_88 (tptp.fn_amoeba_15 X))) (let ((_let_89 (tptp.fn_amoeba_28 X))) (let ((_let_90 (tptp.fn_amoeba_41 X))) (let ((_let_91 (tptp.fn_amoeba_6 X))) (let ((_let_92 (tptp.fn_amoeba_5 X))) (let ((_let_93 (tptp.fn_amoeba_16 X))) (let ((_let_94 (tptp.fn_amoeba_14 X))) (let ((_let_95 (tptp.fn_amoeba_25 X))) (let ((_let_96 (tptp.fn_amoeba_20 X))) (let ((_let_97 (tptp.fn_amoeba_1 X))) (let ((_let_98 (tptp.fn_amoeba_40 X))) (let ((_let_99 (tptp.fn_amoeba_22 X))) (let ((_let_100 (tptp.fn_amoeba_2 X))) (let ((_let_101 (tptp.fn_amoeba_32 X))) (let ((_let_102 (tptp.fn_amoeba_47 X))) (let ((_let_103 (tptp.fn_amoeba_46 X))) (let ((_let_104 (tptp.fn_plasma_membrane_6 _let_47))) (let ((_let_105 (tptp.fn_amoeba_31 X))) (let ((_let_106 (tptp.fn_amoeba_30 X))) (let ((_let_107 (tptp.fn_amoeba_45 X))) (let ((_let_108 (tptp.fn_phagocytosis_81 _let_8))) (let ((_let_109 (tptp.fn_amoeba_12 X))) (let ((_let_110 (tptp.fn_phagocytosis_79 _let_8))) (let ((_let_111 (tptp.fn_amoeba_53 X))) (let ((_let_112 (tptp.fn_phagocytosis_82 _let_8))) (let ((_let_113 (tptp.fn_amoeba_51 X))) (let ((_let_114 (tptp.fn_phagocytosis_66 _let_8))) (let ((_let_115 (tptp.fn_amoeba_49 X))) (let ((_let_116 (tptp.fn_phagocytosis_88 _let_8))) (let ((_let_117 (tptp.fn_amoeba_48 X))) (let ((_let_118 (tptp.fn_phagocytosis_77 _let_8))) (let ((_let_119 (tptp.fn_amoeba_50 X))) (let ((_let_120 (tptp.fn_phagocytosis_76 _let_8))) (let ((_let_121 (tptp.fn_amoeba_43 X))) (let ((_let_122 (tptp.fn_amoeba_8 X))) (let ((_let_123 (tptp.fn_amoeba_10 X))) (let ((_let_124 (tptp.fn_amoeba_9 X))) (let ((_let_125 (tptp.fn_amoeba_44 X))) (let ((_let_126 (tptp.fn_amoeba_3 X))) (let ((_let_127 (tptp.concept2words_2 X tptp.rhizopods))) (let ((_let_128 (tptp.concept2words_2 X tptp.amoebozoan))) (=> (tptp.amoeba_1 X) (and (tptp.original_name_2 X |tptp.'Amoeba'|) (tptp.user_description_2 X |tptp.'A type of protist characterized by great flexibility and the presence of pseudopodia.'|) (tptp.concept2words_2 X tptp.ameboae) _let_127 (tptp.concept2words_2 X tptp.rhizopoda) _let_128 _let_128 _let_127 (tptp.concept2words_2 X tptp.amoeba) (tptp.unicellular_organism_1 X) (tptp.protist_cell_1 X) (tptp.protist_1 X) (not (tptp.alveolate_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X)) (tptp.protein_enzyme_1 _let_97) (tptp.glycoprotein_1 _let_100) (tptp.transfer_1 _let_126) (tptp.exchange_1 _let_75) (tptp.carbon_skeleton_1 _let_92) (tptp.lipid_1 _let_91) (tptp.glycolipid_1 _let_91) (tptp.golgi_apparatus_1 _let_86) (tptp.water_1 _let_122) (tptp.temperature_value_1 _let_124) (tptp.specific_heat_value_1 _let_123) (tptp.locomotion_1 _let_10) (tptp.tangible_entity_1 _let_109) (tptp.pseudopodium_1 _let_109) (tptp.tangible_entity_1 _let_87) (tptp.phospholipid_bilayer_1 _let_87) (tptp.size_value_1 _let_94) (tptp.surface_1 _let_88) (tptp.volume_value_1 _let_93) (tptp.eukaryotic_ribosome_1 _let_80) (tptp.tangible_entity_1 _let_47) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.plasma_membrane_1 _let_47) (tptp.suspension_1 _let_81) (tptp.colloid_1 _let_81) (tptp.mixture_1 _let_81) (tptp.cytoplasm_1 _let_81) (tptp.er_membrane_1 _let_96) (tptp.substance_1 _let_78) (tptp.cytosol_1 _let_78) (tptp.eukaryotic_cellular_respiration_1 _let_99) (tptp.synthesis_reaction_1 _let_85) (tptp.chemical_reaction_1 _let_85) (tptp.anabolic_pathway_1 _let_85) (tptp.endergonic_reaction_1 _let_85) (tptp.metabolic_pathway_1 _let_85) (tptp.synthesis_of_lipid_1 _let_85) (tptp.endoplasmic_reticulum_1 _let_3) (tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.semiautonomous_organelle_1 _let_95) (tptp.organelle_1 _let_95) (tptp.mitochondrion_1 _let_95) (tptp.tangible_entity_1 _let_82) (tptp.nucleus_1 _let_82) (tptp.rough_endoplasmic_reticulum_1 _let_1) (tptp.chromosome_1 _let_89) (tptp.eukaryotic_chromosome_1 _let_89) (tptp.attach_1 _let_44) (tptp.surface_1 _let_106) (tptp.outside_face_1 _let_106) (tptp.extracellular_side_1 _let_106) (tptp.hydrophobic_core_1 _let_105) (tptp.spatial_entity_1 _let_101) (tptp.polymer_1 _let_101) (tptp.tangible_entity_1 _let_101) (tptp.membrane_protein_1 _let_101) (tptp.protein_1 _let_101) (tptp.spatial_entity_1 _let_38) (tptp.membrane_protein_1 _let_38) (tptp.tangible_entity_1 _let_38) (tptp.transmembrane_protein_1 _let_38) (tptp.integral_protein_1 _let_38) (tptp.transport_protein_1 _let_38) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_23) (tptp.tangible_entity_1 _let_84) (tptp.spatial_entity_1 _let_84) (tptp.biomembrane_1 _let_84) (tptp.nuclear_membrane_1 _let_84) (tptp.aqueous_solution_1 _let_98) (tptp.nuclear_lamina_1 _let_90) (tptp.cellular_work_1 _let_8) (tptp.phagocytosis_1 _let_8) (tptp.fusion_1 _let_121) (tptp.entity_1 _let_125) (tptp.atom_1 _let_125) (tptp.chemical_entity_1 _let_125) (tptp.carbon_1 _let_125) (tptp.carbon_skeleton_1 _let_107) (tptp.move_through_1 _let_103) (tptp.move_1 _let_103) (tptp.tangible_entity_1 _let_102) (tptp.membrane_protein_1 _let_102) (tptp.protein_1 _let_102) (tptp.spatial_entity_1 _let_102) (tptp.polymer_1 _let_102) (tptp.barrier_1 _let_117) (tptp.container_1 _let_117) (tptp.extracellular_side_1 _let_115) (tptp.intracellular_digestion_1 _let_119) (tptp.move_1 _let_113) (tptp.move_into_1 _let_113) (tptp.take_in_1 _let_113) (tptp.spatial_entity_1 _let_83) (tptp.lysosome_1 _let_83) (tptp.spatial_entity_1 _let_111) (tptp.tangible_entity_1 _let_111) (tptp.vesicle_1 _let_111) (tptp.vacuole_1 _let_111) (tptp.entity_1 _let_111) (tptp.food_vacuole_1 _let_111) (tptp.attach_1 _let_42) (tptp.inside_face_1 _let_15) (tptp.cytoplasmic_side_1 _let_15) (tptp.fusion_1 _let_120) (tptp.intracellular_digestion_1 _let_118) (tptp.barrier_1 _let_116) (tptp.container_1 _let_116) (tptp.extracellular_side_1 _let_114) (tptp.move_1 _let_112) (tptp.move_into_1 _let_112) (tptp.take_in_1 _let_112) (tptp.spatial_entity_1 _let_110) (tptp.tangible_entity_1 _let_110) (tptp.vesicle_1 _let_110) (tptp.vacuole_1 _let_110) (tptp.entity_1 _let_110) (tptp.food_vacuole_1 _let_110) (tptp.tangible_entity_1 _let_108) (tptp.pseudopodium_1 _let_108) (tptp.hydrophobic_core_1 _let_104) (tptp.eukaryotic_ribosome_1 _let_79) (tptp.transfer_1 _let_77) (tptp.transfer_1 _let_76) (tptp.transfer_1 _let_74) (tptp.entity_1 _let_73) (tptp.atom_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.carbon_1 _let_72) (tptp.inside_face_1 _let_71) (tptp.cytoplasmic_side_1 _let_70) (tptp.carbon_skeleton_1 _let_69) (tptp.carbon_skeleton_1 _let_68) (tptp.surface_1 _let_67) (tptp.outside_face_1 _let_66) (tptp.extracellular_side_1 _let_65) (tptp.move_through_1 _let_64) (tptp.move_through_1 _let_63) (tptp.move_1 _let_63) (tptp.tangible_entity_1 _let_62) (tptp.membrane_protein_1 _let_62) (tptp.protein_1 _let_62) (tptp.spatial_entity_1 _let_62) (tptp.polymer_1 _let_62) (tptp.tangible_entity_1 _let_61) (tptp.membrane_protein_1 _let_61) (tptp.protein_1 _let_61) (tptp.glycoprotein_1 _let_60) (tptp.glycoprotein_1 _let_59) (tptp.spatial_entity_1 _let_58) (tptp.spatial_entity_1 _let_57) (tptp.membrane_protein_1 _let_56) (tptp.membrane_protein_1 _let_55) (tptp.tangible_entity_1 _let_54) (tptp.transmembrane_protein_1 _let_54) (tptp.integral_protein_1 _let_54) (tptp.transport_protein_1 _let_54) (tptp.glycolipid_1 _let_53) (tptp.tangible_entity_1 _let_51) (tptp.phospholipid_bilayer_1 _let_51) (tptp.tangible_entity_1 _let_50) (tptp.phospholipid_bilayer_1 _let_50) (tptp.tangible_entity_1 _let_49) (tptp.phospholipid_bilayer_1 _let_49) (tptp.tangible_entity_1 _let_48) (tptp.phospholipid_bilayer_1 _let_48) (tptp.spatial_entity_1 _let_45) (tptp.spatial_entity_1 _let_43) (tptp.biomembrane_1 _let_41) (tptp.biomembrane_1 _let_40) (tptp.spatial_entity_1 _let_39) (tptp.biomembrane_1 _let_39) (tptp.tangible_entity_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.biomembrane_1 _let_37) (tptp.plasma_membrane_1 _let_37) (tptp.golgi_apparatus_1 _let_34) (tptp.synthesis_reaction_1 _let_33) (tptp.synthesis_reaction_1 _let_32) (tptp.chemical_reaction_1 _let_31) (tptp.synthesis_of_lipid_1 _let_31) (tptp.chemical_reaction_1 _let_30) (tptp.synthesis_of_lipid_1 _let_30) (tptp.anabolic_pathway_1 _let_30) (tptp.synthesis_reaction_1 _let_28) (tptp.chemical_reaction_1 _let_28) (tptp.anabolic_pathway_1 _let_28) (tptp.metabolic_pathway_1 _let_28) (tptp.endergonic_reaction_1 _let_28) (tptp.synthesis_of_lipid_1 _let_28) (tptp.synthesis_of_lipid_1 _let_27) (tptp.synthesis_of_lipid_1 _let_26) (tptp.metabolic_pathway_1 _let_25) (tptp.synthesis_of_lipid_1 _let_25) (tptp.spatial_entity_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.biomembrane_1 _let_24) (tptp.spatial_entity_1 _let_21) (tptp.biomembrane_1 _let_21) (tptp.nuclear_membrane_1 _let_21) (tptp.spatial_entity_1 _let_20) (tptp.lysosome_1 _let_20) (tptp.lysosome_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.nucleus_1 _let_17) (tptp.cytoplasm_1 _let_16) (tptp.suspension_1 _let_14) (tptp.colloid_1 _let_14) (tptp.cytoplasm_1 _let_14) (tptp.mixture_1 _let_14) (tptp.mixture_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.eukaryotic_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.eukaryotic_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.substance_1 _let_4) (tptp.cytosol_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.recipient_2 _let_126 _let_1) (tptp.instrument_2 _let_10 _let_109) (tptp.has_function_2 _let_109 _let_10) (tptp.called_2 _let_101 |tptp.'MP1'|) (tptp.is_oriented_toward_2 _let_15 _let_81) (tptp.object_2 _let_44 _let_38) (tptp.object_2 _let_42 _let_38) (tptp.base_2 _let_44 _let_47) (tptp.base_2 _let_42 _let_47) (tptp.has_function_2 X _let_8) (tptp.subevent_2 _let_75 _let_126) (tptp.result_2 _let_23 _let_84) (tptp.abuts_2 _let_1 _let_3) (tptp.abuts_2 _let_3 _let_1) (not (= _let_1 _let_3)) (not (= _let_3 _let_1)) (tptp.agent_2 _let_126 _let_3) (tptp.is_facing_2 _let_15 _let_81) (tptp.subevent_2 _let_23 _let_85) (tptp.first_subevent_2 _let_23 _let_85) (tptp.has_part_2 _let_38 _let_125) (tptp.is_inside_2 _let_125 _let_107) (tptp.object_2 _let_10 X) (tptp.agent_2 _let_10 X) (tptp.has_part_2 X _let_122) (tptp.specific_heat_2 _let_122 _let_123) (tptp.correspondence_2 _let_124 _let_123) (tptp.temperature_2 X _let_124) (tptp.destination_2 _let_8 _let_81) (tptp.subevent_2 _let_119 _let_121) (tptp.base_2 _let_121 _let_83) (tptp.subevent_2 _let_8 _let_119) (tptp.path_2 _let_8 _let_47) (tptp.first_subevent_2 _let_119 _let_121) (tptp.object_2 _let_121 _let_111) (tptp.instrument_2 _let_8 _let_111) (tptp.subevent_2 _let_8 _let_113) (tptp.origin_2 _let_113 _let_115) (tptp.plays_2 X _let_117) (tptp.in_event_2 _let_117 _let_113) (tptp.destination_2 _let_113 _let_81) (tptp.is_inside_2 _let_81 X) (tptp.base_2 _let_119 X) (tptp.base_2 _let_113 X) (tptp.agent_2 _let_113 X) (tptp.is_between_2 X _let_115) (tptp.is_outside_2 _let_115 X) (tptp.is_between_2 X _let_81) (tptp.agent_2 _let_8 X) (tptp.has_part_2 X _let_109) (tptp.facilitates_2 _let_109 _let_8) (tptp.base_2 _let_8 X) (tptp.has_part_2 X _let_111) (not (= _let_38 _let_101)) (not (= _let_101 _let_38)) (tptp.has_region_2 _let_47 _let_15) (tptp.called_2 _let_102 |tptp.'MP2'|) (tptp.has_region_2 _let_47 _let_106) (tptp.is_outside_2 _let_106 _let_47) (tptp.is_inside_2 _let_107 _let_47) (tptp.has_region_2 _let_38 _let_107) (tptp.has_region_2 _let_38 _let_106) (tptp.base_2 _let_103 _let_47) (tptp.has_function_2 _let_47 _let_103) (tptp.has_region_2 _let_47 _let_105) (tptp.is_across_2 _let_38 _let_105) (tptp.is_at_2 _let_38 _let_47) (tptp.has_part_2 _let_47 _let_102) (not (= _let_102 _let_38)) (tptp.is_across_2 _let_38 _let_47) (not (= _let_101 _let_102)) (not (= _let_102 _let_101)) (not (= _let_38 _let_102)) (tptp.has_part_2 _let_47 _let_38) (tptp.is_inside_2 _let_38 _let_87) (tptp.is_inside_2 _let_100 _let_87) (tptp.has_part_2 _let_47 _let_100) (tptp.has_part_2 _let_47 _let_101) (tptp.the_scalar_value_2 _let_94 tptp.big_0) (tptp.scalar_unit_class_2 _let_94 tptp.prokaryote_0) (tptp.base_2 _let_99 X) (tptp.has_function_2 X _let_99) (tptp.has_part_2 _let_82 _let_98) (tptp.is_between_2 _let_84 _let_98) (tptp.is_inside_2 _let_92 _let_84) (tptp.abuts_2 _let_84 _let_96) (tptp.is_inside_2 _let_97 _let_96) (tptp.has_part_2 _let_81 _let_97) (tptp.is_inside_2 _let_81 _let_47) (tptp.is_between_2 _let_81 _let_47) (tptp.abuts_2 _let_96 _let_84) (tptp.volume_2 X _let_93) (tptp.directly_proportional_2 _let_94 _let_93) (tptp.size_2 X _let_94) (tptp.has_part_2 X _let_95) (tptp.is_inside_2 _let_95 _let_78) (tptp.is_inside_2 _let_89 _let_82) (tptp.has_part_2 _let_82 _let_90) (tptp.is_along_2 _let_90 _let_84) (tptp.has_part_2 _let_84 _let_91) (tptp.has_region_2 _let_91 _let_92) (tptp.is_along_2 _let_84 _let_90) (tptp.has_part_2 X _let_47) (tptp.has_part_2 _let_47 _let_87) (tptp.is_at_2 _let_87 _let_88) (tptp.has_region_2 X _let_88) (tptp.has_part_2 X _let_89) (tptp.site_2 _let_85 _let_3) (tptp.is_inside_2 _let_3 _let_78) (tptp.is_inside_2 _let_86 _let_78) (tptp.has_part_2 X _let_86) (tptp.has_part_2 X _let_3) (tptp.has_function_2 _let_3 _let_85) (tptp.base_2 _let_85 X) (tptp.is_between_2 _let_81 _let_82) (tptp.has_part_2 _let_82 _let_84) (tptp.has_part_2 X _let_83) (tptp.is_inside_2 _let_82 _let_78) (tptp.has_part_2 X _let_82) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_1 _let_78) (tptp.is_inside_2 _let_80 _let_78) (tptp.has_part_2 X _let_80) (tptp.has_part_2 X _let_81) (tptp.has_part_2 _let_81 _let_78) (= _let_38 _let_58) (= _let_38 _let_57) (= _let_47 _let_45) (= _let_47 _let_43) (= _let_126 _let_77) (= _let_126 _let_76) (= _let_1 (tptp.fn_protist_cell_25 X)) (= _let_126 _let_74) (= _let_81 _let_16) (= _let_85 _let_28) (= _let_125 _let_73) (= _let_125 _let_72) (= X _let_11) (= (tptp.fn_amoeba_39 X) (tptp.fn_organism_1 X)) (= (tptp.fn_amoeba_36 X) (tptp.fn_organism_6 X)) (= _let_124 (tptp.fn_organism_2 X)) (= _let_123 (tptp.fn_organism_5 X)) (= _let_122 (tptp.fn_organism_4 X)) (= _let_83 _let_20) (= _let_47 _let_37) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_81 _let_14) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_8 (tptp.fn_protist_cell_9 X)) (= _let_109 _let_108) (= X _let_9) (= _let_101 _let_62) (= _let_15 _let_71) (= _let_15 _let_70) (= _let_106 _let_67) (= _let_107 _let_69) (= _let_107 _let_68) (= _let_106 _let_66) (= _let_106 _let_65) (= _let_38 _let_56) (= _let_38 _let_55) (= _let_105 _let_104) (= _let_103 _let_64) (= _let_103 _let_63) (= _let_102 _let_62) (= _let_101 _let_61) (= _let_100 _let_60) (= _let_100 _let_59) (= _let_47 _let_41) (= _let_38 _let_54) (= (tptp.fn_amoeba_37 X) (tptp.fn_protist_cell_13 X)) (= (tptp.fn_amoeba_38 X) (tptp.fn_protist_cell_12 X)) (= _let_99 (tptp.fn_protist_cell_32 X)) (= _let_98 (tptp.fn_protist_cell_11 X)) (= _let_81 _let_13) (= _let_97 (tptp.fn_protist_cell_33 X)) (= _let_96 (tptp.fn_protist_cell_31 X)) (= _let_95 (tptp.fn_protist_cell_34 X)) (= _let_94 (tptp.fn_protist_cell_16 X)) (= _let_93 (tptp.fn_protist_cell_17 X)) (= _let_92 (tptp.fn_protist_cell_21 X)) (= _let_84 _let_24) (= _let_91 _let_53) (= _let_91 _let_52) (= _let_84 _let_22) (= _let_90 (tptp.fn_protist_cell_10 X)) (= _let_82 _let_18) (= _let_89 (tptp.fn_protist_cell_19 X)) (= _let_88 (tptp.fn_protist_cell_15 X)) (= _let_87 _let_51) (= _let_47 _let_40) (= _let_87 _let_50) (= _let_47 _let_39) (= _let_87 _let_49) (= _let_87 _let_48) (= _let_87 _let_46) (= _let_47 _let_36) (= _let_85 _let_33) (= _let_85 _let_32) (= _let_85 _let_31) (= _let_85 _let_30) (= _let_85 _let_27) (= _let_85 _let_29) (= _let_85 _let_26) (= X _let_7) (= _let_86 _let_35) (= _let_86 _let_34) (= _let_3 (tptp.fn_protist_cell_23 X)) (= _let_78 _let_5) (= _let_78 _let_4) (= _let_85 _let_25) (= _let_84 _let_21) (= _let_83 _let_19) (= _let_82 _let_17) (= _let_81 _let_12) (= X _let_6) (= _let_80 _let_79) (= _let_78 _let_2) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_74 _let_72) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_65 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_46 _let_48) (= _let_48 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_37 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_22 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.amoebocyte_1 X) (and (tptp.original_name_2 X |tptp.'Amoebocyte'|) (tptp.user_description_2 X |tptp.'An animal cell that moves with pseudopodia similar to those of an amoeba. Depending on the species, an amoebocyte may be involved in the digestion and circulation of nutrients, collection of wastes, immune function, or differentiation to whatever cell type is needed at a particular moment.'|) (tptp.concept2words_2 X tptp.amoebocyte) (tptp.animal_development_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_nucleoside_monophosphate_24 X))) (let ((_let_2 (tptp.fn_nucleoside_monophosphate_26 X))) (let ((_let_3 (tptp.fn_amp_68 X))) (let ((_let_4 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_5 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_6 (tptp.fn_amp_70 X))) (let ((_let_7 (tptp.fn_carbon_18 _let_6))) (let ((_let_8 (tptp.fn_amp_67 X))) (let ((_let_9 (tptp.fn_covalent_bond_24 _let_8))) (let ((_let_10 (tptp.fn_amp_53 X))) (let ((_let_11 (tptp.fn_phosphate_group_18 _let_10))) (let ((_let_12 (tptp.fn_nucleoside_monophosphate_10 X))) (let ((_let_13 (tptp.fn_atom_18 _let_6))) (let ((_let_14 (tptp.fn_amp_71 X))) (let ((_let_15 (tptp.fn_first_electron_shell_7 _let_14))) (let ((_let_16 (tptp.fn_carbon_17 _let_6))) (let ((_let_17 (tptp.fn_covalent_bond_4 _let_3))) (let ((_let_18 (tptp.fn_nucleoside_monophosphate_57 X))) (let ((_let_19 (tptp.fn_carbon_12 _let_6))) (let ((_let_20 (tptp.fn_covalent_bond_9 _let_3))) (let ((_let_21 (tptp.fn_atom_5 _let_6))) (let ((_let_22 (tptp.fn_carbon_16 _let_6))) (let ((_let_23 (tptp.fn_nucleoside_monophosphate_39 X))) (let ((_let_24 (tptp.fn_nucleoside_monophosphate_56 X))) (let ((_let_25 (tptp.fn_covalent_bond_17 _let_8))) (let ((_let_26 (tptp.fn_nucleoside_monophosphate_7 X))) (let ((_let_27 (tptp.fn_nucleotide_29 X))) (let ((_let_28 (tptp.fn_phosphate_group_41 _let_10))) (let ((_let_29 (tptp.fn_covalent_bond_18 _let_8))) (let ((_let_30 (tptp.fn_phosphate_group_20 _let_10))) (let ((_let_31 (tptp.fn_phosphate_group_3 _let_10))) (let ((_let_32 (tptp.fn_phosphate_group_8 _let_10))) (let ((_let_33 (tptp.fn_nucleoside_monophosphate_19 X))) (let ((_let_34 (tptp.fn_nucleoside_monophosphate_42 X))) (let ((_let_35 (tptp.fn_nucleoside_monophosphate_18 X))) (let ((_let_36 (tptp.fn_covalent_bond_22 _let_8))) (let ((_let_37 (tptp.fn_covalent_bond_22 _let_3))) (let ((_let_38 (tptp.fn_phosphate_group_11 _let_10))) (let ((_let_39 (tptp.fn_phosphate_group_14 _let_10))) (let ((_let_40 (tptp.fn_covalent_bond_24 _let_3))) (let ((_let_41 (tptp.fn_nucleotide_35 X))) (let ((_let_42 (tptp.fn_covalent_bond_21 _let_8))) (let ((_let_43 (tptp.fn_covalent_bond_21 _let_3))) (let ((_let_44 (tptp.fn_phosphate_group_10 _let_10))) (let ((_let_45 (tptp.fn_phosphate_group_12 _let_10))) (let ((_let_46 (tptp.fn_covalent_bond_23 _let_3))) (let ((_let_47 (tptp.fn_covalent_bond_23 _let_8))) (let ((_let_48 (tptp.fn_phosphate_group_17 _let_10))) (let ((_let_49 (tptp.fn_nucleoside_monophosphate_30 X))) (let ((_let_50 (tptp.fn_nucleoside_monophosphate_55 X))) (let ((_let_51 (tptp.fn_covalent_bond_15 _let_8))) (let ((_let_52 (tptp.fn_covalent_bond_18 _let_3))) (let ((_let_53 (tptp.fn_nucleoside_monophosphate_33 X))) (let ((_let_54 (tptp.fn_nucleoside_monophosphate_8 X))) (let ((_let_55 (tptp.fn_nucleoside_monophosphate_29 X))) (let ((_let_56 (tptp.fn_nucleoside_monophosphate_9 X))) (let ((_let_57 (tptp.fn_atom_14 _let_6))) (let ((_let_58 (tptp.fn_nucleoside_monophosphate_4 X))) (let ((_let_59 (tptp.fn_carbon_10 _let_6))) (let ((_let_60 (tptp.fn_covalent_bond_14 _let_8))) (let ((_let_61 (tptp.fn_phosphate_group_40 _let_10))) (let ((_let_62 (tptp.fn_covalent_bond_14 _let_3))) (let ((_let_63 (tptp.fn_nucleotide_23 X))) (let ((_let_64 (tptp.fn_phosphate_group_35 _let_10))) (let ((_let_65 (tptp.fn_nucleoside_monophosphate_64 X))) (let ((_let_66 (tptp.fn_phosphate_group_5 _let_10))) (let ((_let_67 (tptp.fn_phosphate_group_22 _let_10))) (let ((_let_68 (tptp.fn_nucleoside_monophosphate_27 X))) (let ((_let_69 (tptp.fn_covalent_bond_20 _let_8))) (let ((_let_70 (tptp.fn_covalent_bond_19 _let_8))) (let ((_let_71 (tptp.fn_nucleotide_10 X))) (let ((_let_72 (tptp.fn_nucleoside_monophosphate_65 X))) (let ((_let_73 (tptp.fn_phosphate_group_6 _let_10))) (let ((_let_74 (tptp.fn_nucleoside_monophosphate_16 X))) (let ((_let_75 (tptp.fn_nucleotide_30 X))) (let ((_let_76 (tptp.fn_nucleotide_24 X))) (let ((_let_77 (tptp.fn_phosphate_group_21 _let_10))) (let ((_let_78 (tptp.fn_phosphate_group_16 _let_10))) (let ((_let_79 (tptp.fn_nucleoside_monophosphate_54 X))) (let ((_let_80 (tptp.fn_covalent_bond_12 _let_8))) (let ((_let_81 (tptp.fn_phosphate_group_13 _let_10))) (let ((_let_82 (tptp.fn_phosphate_group_39 _let_10))) (let ((_let_83 (tptp.fn_nucleoside_monophosphate_60 X))) (let ((_let_84 (tptp.fn_nucleoside_monophosphate_63 X))) (let ((_let_85 (tptp.fn_phosphate_group_36 _let_10))) (let ((_let_86 (tptp.fn_phosphate_group_37 _let_10))) (let ((_let_87 (tptp.fn_nucleoside_monophosphate_23 X))) (let ((_let_88 (tptp.fn_nucleoside_monophosphate_34 X))) (let ((_let_89 (tptp.fn_nucleoside_monophosphate_62 X))) (let ((_let_90 (tptp.fn_covalent_bond_17 _let_3))) (let ((_let_91 (tptp.fn_covalent_bond_15 _let_3))) (let ((_let_92 (tptp.fn_nucleoside_monophosphate_32 X))) (let ((_let_93 (tptp.fn_covalent_bond_13 _let_3))) (let ((_let_94 (tptp.fn_nucleoside_monophosphate_52 X))) (let ((_let_95 (tptp.fn_functional_group_1 _let_10))) (let ((_let_96 (tptp.fn_amp_65 X))) (let ((_let_97 (tptp.fn_chemical_reaction_1 _let_96))) (let ((_let_98 (tptp.fn_nucleoside_monophosphate_20 X))) (let ((_let_99 (tptp.fn_covalent_bond_11 _let_8))) (let ((_let_100 (tptp.fn_atom_9 _let_6))) (let ((_let_101 (tptp.fn_nucleoside_monophosphate_3 X))) (let ((_let_102 (tptp.fn_nucleoside_monophosphate_6 X))) (let ((_let_103 (tptp.fn_nucleoside_monophosphate_25 X))) (let ((_let_104 (tptp.fn_nucleotide_3 X))) (let ((_let_105 (tptp.fn_nucleoside_monophosphate_61 X))) (let ((_let_106 (tptp.fn_nucleoside_monophosphate_5 X))) (let ((_let_107 (tptp.fn_nucleoside_monophosphate_21 X))) (let ((_let_108 (tptp.fn_5_prime_carbon_1 _let_6))) (let ((_let_109 (tptp.fn_nucleoside_monophosphate_15 X))) (let ((_let_110 (tptp.fn_amp_63 X))) (let ((_let_111 (tptp.fn_adenosine_1 _let_110))) (let ((_let_112 (tptp.fn_amp_46 X))) (let ((_let_113 (tptp.fn_amp_27 X))) (let ((_let_114 (tptp.fn_carbon_19 _let_6))) (let ((_let_115 (tptp.fn_amp_29 X))) (let ((_let_116 (tptp.fn_amp_26 X))) (let ((_let_117 (tptp.fn_amp_28 X))) (let ((_let_118 (tptp.fn_carbon_9 _let_6))) (let ((_let_119 (tptp.fn_carbon_13 _let_6))) (let ((_let_120 (tptp.fn_carbon_8 _let_6))) (let ((_let_121 (tptp.fn_amp_8 X))) (let ((_let_122 (tptp.fn_amp_47 X))) (let ((_let_123 (tptp.fn_amp_12 X))) (let ((_let_124 (tptp.fn_amp_43 X))) (let ((_let_125 (tptp.fn_amp_44 X))) (let ((_let_126 (tptp.fn_amp_59 X))) (let ((_let_127 (tptp.fn_amp_60 X))) (let ((_let_128 (tptp.fn_amp_7 X))) (let ((_let_129 (tptp.fn_amp_30 X))) (let ((_let_130 (tptp.fn_amp_4 X))) (let ((_let_131 (tptp.fn_amp_5 X))) (let ((_let_132 (tptp.fn_amp_52 X))) (let ((_let_133 (tptp.fn_amp_80 X))) (let ((_let_134 (tptp.fn_amp_48 X))) (let ((_let_135 (tptp.fn_amp_38 X))) (let ((_let_136 (tptp.fn_amp_13 X))) (let ((_let_137 (tptp.fn_amp_50 X))) (let ((_let_138 (tptp.fn_phosphate_group_38 _let_10))) (let ((_let_139 (tptp.fn_amp_79 X))) (let ((_let_140 (tptp.fn_amp_6 X))) (let ((_let_141 (tptp.fn_amp_14 X))) (let ((_let_142 (tptp.fn_phosphate_group_9 _let_10))) (let ((_let_143 (tptp.fn_amp_31 X))) (let ((_let_144 (tptp.fn_amp_32 X))) (let ((_let_145 (tptp.fn_amp_58 X))) (let ((_let_146 (tptp.fn_amp_9 X))) (let ((_let_147 (tptp.fn_amp_49 X))) (let ((_let_148 (tptp.fn_amp_55 X))) (let ((_let_149 (tptp.fn_covalent_bond_1 _let_3))) (let ((_let_150 (tptp.fn_amp_24 X))) (let ((_let_151 (tptp.fn_covalent_bond_16 _let_3))) (let ((_let_152 (tptp.fn_amp_25 X))) (let ((_let_153 (tptp.fn_covalent_bond_10 _let_3))) (let ((_let_154 (tptp.fn_amp_23 X))) (let ((_let_155 (tptp.fn_amp_57 X))) (let ((_let_156 (tptp.fn_amp_18 X))) (let ((_let_157 (tptp.fn_amp_69 X))) (let ((_let_158 (tptp.fn_amp_51 X))) (let ((_let_159 (tptp.fn_amp_76 X))) (let ((_let_160 (tptp.fn_amp_20 X))) (let ((_let_161 (tptp.fn_amp_21 X))) (let ((_let_162 (tptp.fn_amp_22 X))) (let ((_let_163 (tptp.fn_amp_75 X))) (let ((_let_164 (tptp.fn_amp_73 X))) (let ((_let_165 (tptp.fn_amp_72 X))) (let ((_let_166 (tptp.fn_amp_19 X))) (let ((_let_167 (tptp.fn_amp_66 X))) (let ((_let_168 (tptp.fn_amp_10 X))) (let ((_let_169 (tptp.fn_amp_74 X))) (let ((_let_170 (tptp.fn_amp_35 X))) (let ((_let_171 (tptp.fn_amp_11 X))) (let ((_let_172 (tptp.fn_amp_34 X))) (let ((_let_173 (tptp.fn_amp_36 X))) (let ((_let_174 (tptp.fn_amp_37 X))) (let ((_let_175 (tptp.fn_amp_15 X))) (let ((_let_176 (tptp.fn_amp_54 X))) (let ((_let_177 (tptp.fn_amp_40 X))) (let ((_let_178 (tptp.fn_amp_41 X))) (let ((_let_179 (tptp.fn_amp_42 X))) (let ((_let_180 (tptp.fn_amp_39 X))) (let ((_let_181 (tptp.fn_amp_45 X))) (let ((_let_182 (tptp.fn_amp_33 X))) (let ((_let_183 (tptp.fn_amp_16 X))) (let ((_let_184 (tptp.fn_amp_62 X))) (let ((_let_185 (tptp.fn_amp_17 X))) (let ((_let_186 (tptp.fn_amp_56 X))) (let ((_let_187 (tptp.fn_adenosine_2 _let_110))) (let ((_let_188 (tptp.fn_amp_61 X))) (let ((_let_189 (tptp.fn_chemical_reaction_2 _let_96))) (let ((_let_190 (tptp.fn_amp_64 X))) (=> (tptp.amp_1 X) (and (tptp.original_name_2 X |tptp.'AMP'|) (tptp.user_description_2 X |tptp.'A nucleotide made of one phosphate group, the sugar ribose, and adenosine. AMP can be reversibly converted ADP and ATP by adding phosphate groups.'|) (tptp.concept2words_2 X |tptp.'adenosine monophosphate'|) (tptp.concept2words_2 X |tptp.'adenosine-monophosphate'|) (tptp.concept2words_2 X |tptp.'adenosine mono phosphate'|) (tptp.concept2words_2 X |tptp.'adenosine-mono-phosphate'|) (tptp.concept2words_2 X |tptp.'five prime adenylic acid'|) (tptp.concept2words_2 X |tptp.'five-prime-adenylic-acid'|) (tptp.concept2words_2 X tptp.amp) (tptp.nucleoside_monophosphate_1 X) (tptp.oxygen_1 _let_130) (tptp.entity_1 _let_130) (tptp.chemical_entity_1 _let_130) (tptp.atom_1 _let_130) (tptp.entity_1 _let_131) (tptp.chemical_entity_1 _let_131) (tptp.atom_1 _let_131) (tptp.oxygen_1 _let_131) (tptp.share_1 _let_140) (tptp.share_1 _let_128) (tptp.share_1 _let_121) (tptp.share_1 _let_146) (tptp.share_1 _let_168) (tptp.share_1 _let_171) (tptp.atomic_nucleus_1 _let_123) (tptp.electron_shell_1 _let_136) (tptp.valence_electron_1 _let_141) (tptp.share_1 _let_175) (tptp.share_1 _let_183) (tptp.share_1 _let_185) (tptp.atomic_orbital_1 _let_156) (tptp.entity_1 _let_166) (tptp.electron_1 _let_166) (tptp.valence_electron_1 _let_166) (tptp.entity_1 _let_160) (tptp.electron_1 _let_160) (tptp.valence_electron_1 _let_160) (tptp.entity_1 _let_161) (tptp.electron_1 _let_161) (tptp.valence_electron_1 _let_161) (tptp.electron_1 _let_162) (tptp.entity_1 _let_162) (tptp.valence_electron_1 _let_162) (tptp.attract_1 _let_154) (tptp.asymmetrical_distribution_1 _let_150) (tptp.constant_motion_1 _let_152) (tptp.quantity_value_1 _let_116) (tptp.entity_1 _let_113) (tptp.proton_1 _let_113) (tptp.atomic_number_value_1 _let_117) (tptp.quantity_value_1 _let_115) (tptp.entity_1 _let_129) (tptp.electron_1 _let_129) (tptp.valence_electron_1 _let_129) (tptp.valence_electron_1 _let_143) (tptp.share_1 _let_144) (tptp.share_1 _let_182) (tptp.share_1 _let_172) (tptp.entity_1 _let_170) (tptp.electron_1 _let_170) (tptp.valence_electron_1 _let_170) (tptp.entity_1 _let_173) (tptp.electron_1 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_let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.result_2 _let_168 _let_8) (tptp.result_2 _let_171 _let_8) (tptp.result_2 _let_175 _let_8) (tptp.result_2 _let_183 _let_8) (tptp.result_2 _let_182 _let_8) (tptp.result_2 _let_172 _let_8) (not (= _let_173 _let_122)) (not (= _let_181 _let_14)) (not (= _let_122 _let_173)) (not (= _let_147 _let_14)) (tptp.result_2 _let_148 _let_8) (not (= _let_14 _let_181)) (not (= _let_14 _let_147)) (tptp.result_2 _let_163 _let_8) (tptp.raw_material_2 _let_96 _let_190) (tptp.result_2 _let_96 X) (tptp.is_inside_2 _let_112 _let_14) (tptp.result_2 _let_133 _let_8) (tptp.possesses_2 X _let_8) (tptp.result_2 _let_159 _let_8) (tptp.object_2 _let_159 _let_164) (not (= _let_137 _let_158)) (not (= _let_158 _let_137)) (tptp.result_2 _let_144 _let_8) (tptp.object_2 _let_144 _let_174) (tptp.object_2 _let_145 _let_6) (tptp.agent_2 _let_148 _let_6) (tptp.object_2 _let_127 _let_6) (tptp.object_2 _let_145 _let_157) (tptp.result_2 _let_185 _let_8) (tptp.object_2 _let_185 _let_161) (tptp.is_between_2 _let_8 _let_157) (tptp.is_between_2 _let_3 _let_157) (tptp.agent_2 _let_172 _let_132) (tptp.called_2 _let_157 |tptp.'A2'|) (tptp.object_2 _let_182 _let_135) (tptp.agent_2 _let_182 _let_132) (tptp.agent_2 _let_175 _let_132) (tptp.object_2 _let_183 _let_126) (tptp.object_2 _let_183 _let_160) (not (= _let_155 _let_126)) (not (= _let_126 _let_155)) (tptp.object_2 _let_148 _let_186) (not (= _let_186 _let_155)) (not (= _let_155 _let_134)) (not (= _let_126 _let_186)) (not (= _let_186 _let_126)) (not (= _let_155 _let_186)) (not (= _let_134 _let_155)) (tptp.agent_2 _let_148 _let_157) (tptp.agent_2 _let_148 _let_132) (tptp.agent_2 _let_185 _let_132) (tptp.object_2 _let_185 _let_126) (not (= _let_126 _let_135)) (not (= _let_135 _let_126)) (tptp.has_part_2 X _let_110) (tptp.has_part_2 _let_110 _let_184) (tptp.has_region_2 _let_184 _let_176) (tptp.is_at_2 _let_157 _let_176) (tptp.has_part_2 X _let_131) (tptp.atomic_number_2 _let_157 _let_117) (tptp.has_part_2 X _let_130) (tptp.has_region_2 _let_157 _let_112) (tptp.has_region_2 _let_132 _let_125) (tptp.is_inside_2 _let_157 _let_167) (not (= _let_147 _let_158)) (not (= _let_158 _let_147)) (tptp.called_2 _let_6 |tptp.'A2'|) (tptp.agent_2 _let_171 _let_132) (tptp.object_2 _let_163 _let_165) (tptp.agent_2 _let_183 _let_132) (tptp.object_2 _let_168 _let_162) (tptp.result_2 _let_140 _let_3) (tptp.has_part_2 _let_6 _let_134) (tptp.object_2 _let_182 _let_134) (tptp.possesses_2 X _let_3) (tptp.is_between_2 _let_3 _let_6) (tptp.has_region_2 _let_6 _let_125) (tptp.has_region_2 _let_157 _let_125) (tptp.has_part_2 _let_157 _let_126) (tptp.has_region_2 _let_6 _let_158) (tptp.has_region_2 _let_157 _let_158) (tptp.has_part_2 _let_157 _let_113) (not (= _let_181 _let_158)) (not (= _let_158 _let_181)) (tptp.object_2 _let_177 X) (tptp.speed_2 _let_177 _let_178) (tptp.directly_proportional_2 _let_178 _let_179) (tptp.quantity_2 _let_180 _let_179) (tptp.possesses_2 X _let_180) (tptp.is_at_2 _let_6 _let_176) (tptp.is_inside_2 _let_10 _let_176) (tptp.has_region_2 X _let_10) (tptp.has_part_2 X _let_6) (not (= _let_6 _let_157)) (not (= _let_157 _let_6)) (not (= _let_174 _let_122)) (not (= _let_122 _let_126)) (not (= _let_126 _let_134)) (tptp.object_2 _let_175 _let_134) (tptp.agent_2 _let_175 _let_6) (not (= _let_122 _let_174)) (not (= _let_126 _let_122)) (not (= _let_134 _let_126)) (not (= _let_126 _let_174)) (not (= _let_126 _let_164)) (not (= _let_164 _let_126)) (not (= _let_173 _let_126)) (not (= _let_126 _let_173)) (not (= _let_174 _let_126)) (tptp.agent_2 _let_171 _let_130) (tptp.object_2 _let_171 _let_129) (not (= _let_122 _let_129)) (tptp.object_2 _let_172 _let_122) (tptp.object_2 _let_172 _let_173) (not (= _let_129 _let_122)) (not (= _let_169 _let_126)) (not (= _let_169 _let_155)) (not (= _let_155 _let_170)) (not (= _let_126 _let_170)) (tptp.object_2 _let_168 _let_126) (not (= _let_126 _let_169)) (not (= 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(= _let_147 _let_137)) (tptp.has_region_2 _let_132 _let_124) (tptp.has_region_2 _let_130 _let_125) (not (= _let_126 _let_139)) (not (= _let_139 _let_126)) (tptp.agent_2 _let_127 _let_8) (tptp.result_2 _let_146 _let_8) (tptp.has_function_2 _let_3 _let_145) (tptp.result_2 _let_128 _let_3) (tptp.agent_2 _let_128 _let_130) (tptp.has_part_2 _let_130 _let_122) (not (= _let_122 _let_141)) (not (= _let_141 _let_122)) (tptp.is_inside_2 _let_131 _let_10) (tptp.is_inside_2 _let_132 _let_10) (tptp.object_2 _let_127 _let_132) (tptp.object_2 _let_127 _let_130) (tptp.has_region_2 _let_130 _let_124) (tptp.is_between_2 _let_8 _let_130) (tptp.is_between_2 _let_8 _let_132) (tptp.object_2 _let_145 _let_132) (tptp.agent_2 _let_145 _let_3) (tptp.is_between_2 _let_3 _let_130) (tptp.has_part_2 _let_130 _let_141) (not (= _let_141 _let_143)) (not (= _let_143 _let_122)) (tptp.object_2 _let_144 _let_122) (tptp.agent_2 _let_144 _let_132) (not (= _let_143 _let_141)) (not (= _let_122 _let_143)) (tptp.object_2 _let_133 _let_139) (not (= _let_139 _let_122)) (tptp.object_2 _let_140 _let_122) (tptp.agent_2 _let_140 _let_130) (tptp.has_region_2 _let_130 _let_123) (not (= _let_122 _let_139)) (tptp.has_region_2 _let_130 _let_112) (tptp.has_region_2 _let_130 _let_136) (not (= _let_136 _let_137)) (tptp.has_region_2 _let_132 _let_137) (not (= _let_132 _let_131)) (not (= _let_137 _let_136)) (not (= _let_131 _let_132)) (tptp.agent_2 _let_133 _let_132) (tptp.object_2 _let_133 _let_122) (tptp.is_near_2 _let_122 _let_112) (tptp.is_near_2 _let_112 _let_134) (not (= _let_134 _let_135)) (tptp.is_near_2 _let_112 _let_122) (tptp.is_near_2 _let_134 _let_112) (not (= _let_135 _let_134)) (tptp.is_inside_2 _let_130 _let_10) (not (= _let_131 _let_130)) (not (= _let_130 _let_131)) (not (= _let_132 _let_130)) (not (= _let_130 _let_132)) (tptp.is_near_2 _let_123 _let_129) (tptp.is_near_2 _let_129 _let_123) (tptp.object_2 _let_128 _let_126) (tptp.has_function_2 _let_8 _let_127) (tptp.is_at_2 _let_123 _let_124) (not (= _let_124 _let_125)) (tptp.is_at_2 _let_112 _let_125) (not (= _let_125 _let_124)) (tptp.is_near_2 _let_126 _let_112) (tptp.is_near_2 _let_112 _let_126) (tptp.result_2 _let_121 _let_8) (tptp.object_2 _let_121 _let_122) (tptp.is_near_2 _let_122 _let_123) (tptp.is_near_2 _let_123 _let_122) (not (= _let_112 _let_123)) (not (= _let_123 _let_112)) (tptp.called_2 _let_116 |tptp.'Number_Electron'|) (tptp.called_2 _let_117 |tptp.'Atomic_Number'|) (tptp.called_2 _let_115 |tptp.'Number_Proton'|) (= _let_117 _let_115) (= _let_115 _let_117) (tptp.has_region_2 _let_6 _let_112) (tptp.is_inside_2 _let_113 _let_112) (tptp.quantity_2 _let_113 _let_115) (= _let_116 _let_115) (= _let_115 _let_116) (= _let_190 _let_189) (= _let_188 _let_187) (= X _let_97) (= _let_112 _let_15) (= _let_133 _let_76) (= _let_164 _let_29) (= _let_159 _let_25) (= _let_137 _let_80) (= _let_174 _let_29) (= _let_144 _let_25) (= _let_127 _let_62) (= _let_145 _let_60) (= _let_161 _let_29) (= _let_185 _let_25) (= _let_172 _let_26) (= _let_175 _let_106) (= _let_182 _let_89) (= _let_160 _let_56) (= _let_183 _let_84) (= _let_155 _let_54) (= _let_155 _let_33) (= _let_186 _let_102) (= _let_186 _let_53) (= _let_135 _let_33) (= _let_126 _let_58) (= _let_185 _let_101) (= _let_148 _let_83) (= _let_184 _let_111) (= _let_184 _let_109) (= _let_110 (tptp.fn_nucleoside_monophosphate_11 X)) (= _let_131 _let_72) (= _let_117 _let_24) (= _let_117 _let_23) (= _let_112 _let_12) (= _let_125 _let_50) (= _let_147 _let_79) (= _let_171 _let_89) (= _let_165 _let_102) (= _let_183 _let_83) (= (tptp.fn_amp_77 X) (tptp.fn_nucleoside_monophosphate_36 X)) (= (tptp.fn_amp_78 X) (tptp.fn_nucleoside_monophosphate_35 X)) (= _let_140 _let_84) (= _let_182 _let_65) (= _let_126 _let_56) (= _let_157 _let_2) (= _let_125 _let_49) (= _let_3 _let_87) (= _let_113 _let_18) (= _let_157 _let_69) (= _let_181 (tptp.fn_nucleoside_monophosphate_28 X)) (= _let_158 _let_100) (= _let_180 (tptp.fn_nucleoside_monophosphate_22 X)) (= _let_179 (tptp.fn_nucleoside_monophosphate_14 X)) (= _let_178 (tptp.fn_nucleoside_monophosphate_13 X)) (= _let_177 (tptp.fn_nucleoside_monophosphate_12 X)) (= X _let_95) (= _let_10 (tptp.fn_nucleoside_monophosphate_17 X)) (= _let_176 _let_108) (= _let_176 _let_107) (= _let_6 _let_2) (= _let_175 _let_84) (= _let_134 _let_33) (= _let_126 _let_55) (= _let_122 _let_35) (= _let_174 _let_55) (= _let_173 _let_92) (= _let_164 _let_35) (= _let_173 _let_56) (= _let_172 _let_105) (= _let_122 _let_34) (= _let_129 _let_56) (= _let_171 _let_84) (= _let_168 _let_26) (= _let_126 _let_54) (= _let_170 _let_56) (= _let_155 _let_92) (= _let_169 _let_56) (= _let_162 _let_56) (= _let_126 _let_53) (= _let_161 _let_56) (= _let_146 _let_89) (= _let_168 _let_105) (= _let_167 _let_104) (= _let_167 _let_103) (= _let_126 _let_34) (= _let_166 _let_56) (= _let_146 _let_88) (= _let_121 _let_26) (= _let_165 _let_54) (= _let_164 _let_102) (= _let_134 _let_56) (= _let_163 _let_106) (= _let_162 _let_58) (= _let_161 _let_54) (= _let_128 _let_65) (= _let_126 _let_33) (= _let_160 _let_102) (= _let_122 _let_33) (= _let_134 _let_58) (= _let_159 _let_101) (= _let_158 _let_99) (= _let_136 _let_79) (= _let_158 _let_98) (= _let_156 _let_94) (= _let_134 _let_53) (= _let_140 _let_83) (= _let_6 _let_5) (= _let_132 _let_4) (= _let_6 _let_4) (= _let_132 _let_5) (= _let_132 _let_74) (= _let_6 _let_1) (= _let_157 _let_70) (= _let_130 _let_68) (= _let_157 _let_1) (= _let_156 _let_93) (= _let_116 _let_20) (= _let_155 _let_91) (= _let_113 _let_17) (= _let_154 _let_153) (= _let_152 _let_151) (= _let_150 _let_149) (= _let_126 _let_52) (= _let_148 _let_90) (= _let_123 _let_39) (= _let_147 _let_78) (= _let_124 _let_45) (= _let_125 _let_48) (= _let_126 _let_31) (= _let_146 _let_82) (= _let_141 _let_77) (= _let_128 _let_64) (= _let_124 _let_44) (= _let_132 _let_69) (= _let_127 _let_61) (= _let_145 _let_62) (= _let_3 _let_86) (= _let_145 _let_85) (= _let_8 _let_28) (= _let_144 _let_82) (= _let_122 _let_32) (= _let_143 _let_142) (= _let_141 _let_32) (= _let_123 _let_41) (= _let_123 _let_38) (= _let_140 _let_82) (= _let_122 _let_31) (= _let_139 _let_138) (= _let_137 _let_81) (= _let_130 _let_70) (= _let_136 _let_80) (= _let_136 _let_78) (= _let_130 _let_67) (= _let_135 _let_30) (= _let_134 _let_59) (= _let_134 _let_57) (= _let_134 _let_77) (= _let_112 _let_11) (= _let_122 _let_30) (= _let_133 _let_64) (= _let_130 _let_71) (= _let_132 _let_75) (= _let_130 _let_69) (= _let_132 _let_70) (= _let_132 _let_73) (= _let_131 _let_67) (= _let_130 _let_66) (= _let_129 _let_29) (= _let_128 _let_25) (= _let_8 _let_27) (= _let_127 _let_63) (= _let_127 _let_60) (= _let_126 _let_59) (= _let_126 _let_57) (= _let_126 _let_51) (= _let_125 _let_43) (= _let_125 _let_46) (= _let_124 _let_47) (= _let_125 _let_42) (= _let_125 _let_47) (= _let_123 _let_40) (= _let_124 _let_46) (= _let_123 _let_37) (= _let_124 _let_43) (= _let_124 _let_42) (= _let_112 _let_9) (= _let_123 _let_36) (= _let_122 _let_29) (= _let_121 _let_25) (= (tptp.fn_amp_3 X) _let_120) (= _let_116 _let_21) (= (tptp.fn_amp_2 X) _let_119) (= (tptp.fn_amp_1 X) _let_118) (= _let_117 _let_22) (= _let_116 _let_19) (= _let_115 _let_114) (= _let_113 _let_16) (= _let_112 _let_13) (= _let_112 _let_7) (= _let_102 _let_53) (= _let_53 _let_25) (= _let_101 _let_109) (= _let_109 _let_111) (= _let_111 _let_109) (= _let_109 _let_84) (= _let_83 _let_89) (= _let_89 _let_65) (= _let_65 _let_107) (= _let_107 _let_107) (= _let_107 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_84) (= _let_84 _let_29) (= _let_29 _let_55) (= _let_55 _let_92) (= _let_92 _let_56) (= _let_56 _let_26) (= _let_105 _let_89) (= _let_89 _let_84) (= _let_84 _let_84) (= _let_84 _let_26) (= _let_26 _let_26) (= _let_26 _let_105) (= _let_105 _let_105) (= _let_105 _let_103) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_54) (= _let_54 _let_29) (= _let_29 _let_35) (= _let_35 _let_102) (= _let_102 _let_56) (= _let_58 _let_29) (= _let_29 _let_56) (= _let_56 _let_54) (= _let_54 _let_56) (= _let_56 _let_102) (= _let_102 _let_102) (= _let_102 _let_25) (= _let_25 _let_101) (= _let_101 _let_101) (= _let_101 _let_99) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_98 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_70) (= _let_70 _let_2) (= _let_2 _let_70) (= _let_70 _let_1) (= _let_1 _let_97) (= _let_97 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_54) (= _let_54 _let_33) (= _let_33 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_83) (= _let_83 _let_90) (= _let_90 _let_90) (= _let_90 _let_79) (= _let_78 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_82) (= _let_82 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_62) (= _let_60 _let_62) (= _let_85 _let_62) (= _let_62 _let_85) (= _let_85 _let_85) (= _let_85 _let_25) (= _let_25 _let_82) (= _let_82 _let_77) (= _let_77 _let_32) (= _let_32 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_33) (= _let_33 _let_30) (= _let_30 _let_59) (= _let_57 _let_59) (= _let_59 _let_57) (= _let_33 _let_57) (= _let_57 _let_33) (= _let_33 _let_56) (= _let_58 _let_56) (= _let_56 _let_58) (= _let_53 _let_58) (= _let_58 _let_53) (= _let_53 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_64) (= _let_64 _let_5) (= _let_69 _let_5) (= _let_5 _let_75) (= _let_75 _let_69) (= _let_69 _let_75) (= _let_75 _let_4) (= _let_5 _let_70) (= _let_69 _let_4) (= _let_5 _let_69) (= _let_4 _let_70) (= _let_74 _let_4) (= _let_4 _let_74) (= _let_74 _let_70) (= _let_70 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_67) (= _let_67 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_69 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_56) (= _let_56 _let_29) (= _let_29 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_25) (= _let_25 _let_61) (= _let_63 _let_61) (= _let_61 _let_63) (= _let_63 _let_62) (= _let_62 _let_60) (= _let_61 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_34) (= _let_33 _let_34) (= _let_33 _let_52) (= _let_52 _let_52) (= _let_52 _let_31) (= _let_31 _let_51) (= _let_51 _let_51) (= _let_51 _let_43) (= _let_50 _let_43) (= _let_42 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_36 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_4) (= _let_4 _let_1) (= _let_1 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.amphibian_1 X) (and (tptp.original_name_2 X |tptp.'Amphibian'|) (tptp.user_description_2 X |tptp.'An ectothermic tetrapod vertebrate of the class Amphibia, including frogs, toads, salamanders, and caecilians.'|) (tptp.concept2words_2 X tptp.amphibian) (tptp.tetrapod_1 X) (not (tptp.amniote_1 X)) (not (tptp.archosaur_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amphipathic_molecule_7 X))) (let ((_let_2 (tptp.fn_amphipathic_molecule_4 X))) (let ((_let_3 (tptp.fn_amphipathic_molecule_3 X))) (let ((_let_4 (tptp.fn_amphipathic_molecule_8 X))) (let ((_let_5 (tptp.fn_amphipathic_molecule_1 X))) (let ((_let_6 (tptp.fn_hydrophilic_region_2 _let_5))) (let ((_let_7 (tptp.fn_amphipathic_molecule_6 X))) (let ((_let_8 (tptp.fn_amphipathic_molecule_2 X))) (let ((_let_9 (tptp.fn_hydrophobic_region_2 _let_8))) (let ((_let_10 (tptp.fn_amphipathic_molecule_5 X))) (let ((_let_11 (tptp.fn_attract_2 _let_7))) (=> (tptp.amphipathic_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Amphipathic-Molecule'|) (tptp.user_description_2 X |tptp.'Molecules which contain both hydrophilic and hydrophobic region.'|) (tptp.concept2words_2 X |tptp.'amphiphile,'|) (tptp.concept2words_2 X |tptp.'amphiplilic molecule'|) (tptp.concept2words_2 X |tptp.'amphiplilic-molecule'|) (tptp.concept2words_2 X tptp.amphiphile) (tptp.concept2words_2 X tptp.amphipathic) (tptp.concept2words_2 X |tptp.'amphipathic molecule'|) (tptp.concept2words_2 X |tptp.'amphipathic-molecule'|) (tptp.molecule_1 X) (tptp.hydrophilic_region_1 _let_5) (tptp.hydrophobic_region_1 _let_8) (tptp.speed_value_1 _let_3) (tptp.quantity_value_1 _let_2) (tptp.repel_1 _let_10) (tptp.attract_1 _let_7) (tptp.kinetic_energy_1 _let_1) (tptp.constant_motion_1 _let_4) (tptp.entity_1 _let_11) (tptp.repel_1 _let_9) (tptp.attract_1 _let_6) (tptp.agent_2 _let_10 X) (tptp.facilitates_2 _let_8 _let_10) (tptp.facilitates_2 _let_5 _let_7) (tptp.has_function_2 X _let_10) (tptp.has_function_2 X _let_7) (tptp.has_region_2 X _let_5) (tptp.has_region_2 X _let_8) (tptp.agent_2 _let_7 X) (tptp.site_2 _let_10 _let_8) (tptp.site_2 _let_7 _let_5) (tptp.possesses_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (tptp.directly_proportional_2 _let_3 _let_2) (tptp.speed_2 _let_4 _let_3) (tptp.object_2 _let_4 X) (= X _let_11) (= _let_10 _let_9) (= _let_7 _let_6) (= (tptp.fn_amphipathic_molecule_9 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_amphipathic_molecule_10 X) (tptp.fn_molecule_1 X)) (= _let_4 (tptp.fn_molecule_8 X)) (= _let_3 (tptp.fn_molecule_3 X)) (= _let_2 (tptp.fn_molecule_4 X)) (= _let_1 (tptp.fn_molecule_12 X)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.amphoteric_substance_1 X) (and (tptp.original_name_2 X |tptp.'Amphoteric-Substance'|) (tptp.user_description_2 X |tptp.'A substance capable of behaving as either an acid or a base.'|) (tptp.concept2words_2 X |tptp.'amphoteric substance'|) (tptp.concept2words_2 X |tptp.'amphoteric-substance'|) (tptp.chemical_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ampicillin_1 X) (and (tptp.original_name_2 X |tptp.'Ampicillin'|) (tptp.user_description_2 X |tptp.'An antibiotic that has been used extensively to treat bacterial infections.'|) (tptp.concept2words_2 X tptp.ampicillin) (tptp.antibiotic_1 X) (not (tptp.antimicrobial_protein_1 X)) (not (tptp.erythromycin_1 X)) (not (tptp.penicillin_1 X)) (not (tptp.tetracycline_1 X)) (not (tptp.vancomycin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.amplification_1 X) (and (tptp.original_name_2 X |tptp.'Amplification'|) (tptp.user_description_2 X |tptp.'The increase in strength of a stimulus during transduction.'|) (tptp.concept2words_2 X tptp.amplify) (tptp.concept2words_2 X tptp.amplification) (tptp.nerve_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.amygdala_1 X) (and (tptp.original_name_2 X |tptp.'Amygdala'|) (tptp.user_description_2 X |tptp.'A group of neurons in the temporal lobe of the vertebrate brain, which play a role in memory and emotional responses. The amygdala is part of the limbic system.'|) (tptp.concept2words_2 X tptp.amygdala) (tptp.cerebrum_1 X) (not (tptp.basal_nuclei_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.breathing_control_center_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.cerebral_hemisphere_1 X)) (not (tptp.corpus_callosum_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amylase_1 X))) (=> (tptp.amylase_1 X) (and (tptp.original_name_2 X |tptp.'Amylase'|) (tptp.user_description_2 X |tptp.'Amylase is an enzyme capable of hydrolizing glycosidic linkages between glucose monomers in starch.'|) (tptp.concept2words_2 X tptp.amylase) (tptp.digestive_enzyme_1 X) (tptp.hydrophobic_region_1 _let_1) (tptp.has_region_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amylopectin_7 X))) (let ((_let_2 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_3 (tptp.fn_starch_60 X))) (let ((_let_4 (tptp.fn_storage_polysaccharide_40 X))) (let ((_let_5 (tptp.fn_amylopectin_19 X))) (let ((_let_6 (tptp.fn_covalent_bond_20 _let_5))) (let ((_let_7 (tptp.fn_covalent_bond_19 _let_5))) (let ((_let_8 (tptp.fn_amylopectin_30 X))) (let ((_let_9 (tptp.fn_hold_2 _let_8))) (let ((_let_10 (tptp.fn_amylopectin_29 X))) (let ((_let_11 (tptp.fn_hold_2 _let_10))) (let ((_let_12 (tptp.fn_starch_104 X))) (let ((_let_13 (tptp.fn_storage_polysaccharide_42 X))) (let ((_let_14 (tptp.fn_carbohydrate_33 X))) (let ((_let_15 (tptp.fn_starch_1 X))) (let ((_let_16 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_17 (tptp.fn_starch_73 X))) (let ((_let_18 (tptp.fn_storage_polysaccharide_55 X))) (let ((_let_19 (tptp.fn_storage_polysaccharide_41 X))) (let ((_let_20 (tptp.fn_hydroxyl_group_2 _let_1))) (let ((_let_21 (tptp.fn_starch_3 X))) (let ((_let_22 (tptp.fn_starch_59 X))) (let ((_let_23 (tptp.fn_carbohydrate_38 X))) (let ((_let_24 (tptp.fn_amylopectin_10 X))) (let ((_let_25 (tptp.fn_hold_2 _let_24))) (let ((_let_26 (tptp.fn_starch_47 X))) (let ((_let_27 (tptp.fn_starch_34 X))) (let ((_let_28 (tptp.fn_amylopectin_31 X))) (let ((_let_29 (tptp.fn_hold_2 _let_28))) (let ((_let_30 (tptp.fn_amylopectin_6 X))) (let ((_let_31 (tptp.fn_hold_2 _let_30))) (let ((_let_32 (tptp.fn_amylopectin_9 X))) (let ((_let_33 (tptp.fn_hold_2 _let_32))) (let ((_let_34 (tptp.fn_amylopectin_8 X))) (let ((_let_35 (tptp.fn_hold_2 _let_34))) (let ((_let_36 (tptp.fn_starch_65 X))) (let ((_let_37 (tptp.fn_carbohydrate_37 X))) (let ((_let_38 (tptp.fn_starch_71 X))) (let ((_let_39 (tptp.fn_storage_polysaccharide_16 X))) (let ((_let_40 (tptp.fn_storage_polysaccharide_79 X))) (let ((_let_41 (tptp.fn_polymer_1 X))) (let ((_let_42 (tptp.fn_storage_polysaccharide_27 X))) (let ((_let_43 (tptp.fn_storage_polysaccharide_44 X))) (let ((_let_44 (tptp.fn_covalent_bond_14 _let_5))) (let ((_let_45 (tptp.fn_amylopectin_16 X))) (let ((_let_46 (tptp.fn_amylopectin_24 X))) (let ((_let_47 (tptp.fn_amylopectin_18 X))) (let ((_let_48 (tptp.fn_hydroxyl_group_1 _let_1))) (let ((_let_49 (tptp.fn_amylopectin_17 X))) (let ((_let_50 (tptp.fn_amylopectin_13 X))) (let ((_let_51 (tptp.fn_amylopectin_5 X))) (let ((_let_52 (tptp.fn_amylopectin_15 X))) (let ((_let_53 (tptp.fn_amylopectin_12 X))) (let ((_let_54 (tptp.fn_functional_group_1 _let_1))) (let ((_let_55 (tptp.fn_amylopectin_14 X))) (let ((_let_56 (tptp.fn_amylopectin_27 X))) (let ((_let_57 (tptp.fn_amylopectin_23 X))) (let ((_let_58 (tptp.fn_amylopectin_22 X))) (let ((_let_59 (tptp.fn_amylopectin_2 X))) (let ((_let_60 (tptp.fn_amylopectin_3 X))) (=> (tptp.amylopectin_1 X) (and (tptp.original_name_2 X |tptp.'Amylopectin'|) (tptp.user_description_2 X |tptp.'Amylopectin, a more complex starch, is a branched polymer with 1-6 linkages at the branch points.'|) (tptp.concept2words_2 X tptp.amylopectin) (tptp.starch_1 X) (tptp.shape_value_1 _let_59) (tptp.structural_complexity_value_1 _let_60) (tptp.hold_1 _let_51) (tptp.hold_together_1 _let_51) (tptp.hold_1 _let_30) (tptp.hold_together_1 _let_30) (tptp.molecular_region_1 _let_1) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.hold_1 _let_34) (tptp.hold_together_1 _let_34) (tptp.hold_1 _let_32) (tptp.hold_together_1 _let_32) (tptp.hold_1 _let_24) (tptp.hold_together_1 _let_24) (tptp.electronegativity_value_1 _let_53) (tptp.tangible_entity_1 _let_50) (tptp.alpha_glucose_1 _let_50) (tptp.electronegativity_value_1 _let_55) (tptp.electronegativity_value_1 _let_52) (tptp.tangible_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.hydrogen_1 _let_45) (tptp.tangible_entity_1 _let_49) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.oxygen_1 _let_49) (tptp.shape_value_1 _let_47) (tptp.covalent_bond_1 _let_5) (tptp.double_bond_1 _let_5) (tptp.size_value_1 _let_58) (tptp.size_value_1 _let_57) (tptp.entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.oxygen_1 _let_46) (tptp.electronegativity_value_1 _let_56) (tptp.hold_together_1 _let_10) (tptp.hold_together_1 _let_8) (tptp.hold_1 _let_28) (tptp.hold_together_1 _let_28) (tptp.chemical_entity_1 _let_54) (tptp.property_node_1 _let_48) (tptp.hold_together_1 _let_44) (tptp.tangible_entity_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.tangible_entity_1 _let_29) (tptp.tangible_entity_1 _let_25) (tptp.shape_value_1 _let_20) (tptp.oxygen_1 _let_16) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_2) (tptp.object_2 _let_24 _let_50) (tptp.size_2 _let_50 _let_58) (tptp.the_scalar_value_2 _let_60 tptp.complex_0) (tptp.scalar_unit_class_2 _let_60 tptp.starch_0) (tptp.the_categorical_value_2 _let_47 tptp.helix_0) (tptp.structural_complexity_2 X _let_60) (tptp.shape_2 X _let_59) (tptp.is_between_2 _let_5 _let_50) (tptp.object_2 _let_10 _let_50) (tptp.object_2 _let_10 _let_49) (tptp.object_2 _let_10 _let_46) (tptp.object_2 _let_8 _let_50) (tptp.object_2 _let_8 _let_49) (tptp.object_2 _let_8 _let_46) (tptp.the_categorical_value_2 _let_59 tptp.branched_0) (tptp.object_2 _let_34 _let_50) (tptp.object_2 _let_32 _let_50) (tptp.object_2 _let_30 _let_50) (tptp.object_2 _let_28 _let_50) (tptp.object_2 _let_10 _let_45) (tptp.object_2 _let_8 _let_45) (tptp.object_2 _let_24 _let_49) (tptp.object_2 _let_28 _let_46) (tptp.object_2 _let_32 _let_49) (tptp.has_function_2 _let_5 _let_24) (tptp.object_2 _let_24 _let_45) (tptp.is_between_2 _let_5 _let_45) (tptp.agent_2 _let_24 _let_5) (tptp.object_2 _let_24 _let_46) (tptp.object_2 _let_34 _let_49) (tptp.object_2 _let_28 _let_49) (tptp.object_2 _let_28 _let_45) (tptp.object_2 _let_32 _let_45) (tptp.object_2 _let_32 _let_46) (tptp.is_between_2 _let_5 _let_46) (tptp.object_2 _let_30 _let_46) (tptp.object_2 _let_34 _let_46) (tptp.size_2 X _let_57) (tptp.greater_than_2 _let_57 _let_58) (tptp.possesses_2 X _let_5) (tptp.is_between_2 _let_5 _let_49) (tptp.object_2 _let_30 _let_49) (tptp.object_2 _let_30 _let_45) (tptp.object_2 _let_34 _let_45) (tptp.has_part_2 X _let_46) (tptp.has_part_2 X _let_45) (tptp.object_2 _let_51 _let_46) (tptp.electronegativity_2 _let_46 _let_53) (not (= _let_49 _let_46)) (not (= _let_46 _let_49)) (tptp.greater_than_or_equal_to_2 _let_56 _let_55) (tptp.greater_than_2 _let_56 _let_55) (not (= _let_52 _let_55)) (not (= _let_55 _let_52)) (tptp.object_2 _let_51 _let_49) (tptp.is_inside_2 _let_49 _let_1) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_49) (tptp.electronegativity_2 _let_49 _let_55) (tptp.has_part_2 X _let_50) (tptp.object_2 _let_51 _let_50) (tptp.object_2 _let_51 _let_45) (tptp.electronegativity_2 _let_45 _let_52) (not (= _let_52 _let_53)) (not (= _let_53 _let_52)) (not (= _let_49 _let_45)) (not (= _let_45 _let_49)) (tptp.is_inside_2 _let_45 _let_1) (not (= _let_45 _let_46)) (tptp.is_inside_2 _let_46 _let_1) (tptp.shape_2 _let_1 _let_47) (tptp.the_categorical_value_2 _let_47 tptp.branched_0) (not (= _let_46 _let_45)) (= _let_50 _let_35) (= _let_50 _let_33) (= _let_50 _let_31) (= _let_50 _let_29) (= _let_45 _let_11) (= _let_45 _let_9) (= _let_49 _let_25) (= _let_28 _let_44) (= _let_32 _let_44) (= _let_46 _let_7) (= _let_45 _let_6) (= _let_24 _let_44) (= _let_34 _let_43) (= _let_46 _let_19) (= _let_32 _let_43) (= _let_28 _let_42) (= (tptp.fn_amylopectin_25 X) (tptp.fn_storage_polysaccharide_33 X)) (= _let_46 _let_18) (= (tptp.fn_amylopectin_26 X) (tptp.fn_storage_polysaccharide_34 X)) (= _let_58 (tptp.fn_storage_polysaccharide_37 X)) (= _let_57 (tptp.fn_storage_polysaccharide_36 X)) (= _let_34 _let_42) (= _let_45 _let_4) (= _let_30 _let_43) (= _let_49 _let_19) (= _let_5 _let_41) (= _let_5 _let_40) (= (tptp.fn_amylopectin_28 X) (tptp.fn_starch_6 X)) (= (tptp.fn_amylopectin_20 X) (tptp.fn_starch_55 X)) (= (tptp.fn_amylopectin_11 X) (tptp.fn_starch_46 X)) (= _let_49 _let_7) (= _let_46 _let_17) (= (tptp.fn_amylopectin_21 X) (tptp.fn_starch_54 X)) (= _let_56 (tptp.fn_starch_5 X)) (= _let_55 _let_39) (= _let_55 _let_38) (= X _let_54) (= _let_1 _let_14) (= _let_49 _let_18) (= _let_1 _let_13) (= _let_1 _let_12) (= _let_51 _let_37) (= _let_49 _let_23) (= _let_49 _let_22) (= _let_53 (tptp.fn_starch_51 X)) (= _let_52 (tptp.fn_starch_70 X)) (= _let_45 _let_3) (= _let_51 _let_36) (= _let_50 _let_27) (= _let_50 _let_26) (= _let_49 _let_16) (= (tptp.fn_amylopectin_32 X) _let_48) (= _let_1 _let_15) (= _let_47 _let_21) (= _let_47 _let_20) (= _let_45 _let_7) (= _let_46 _let_6) (= _let_46 _let_16) (= _let_45 _let_2) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_44) (= _let_44 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_7) (= _let_7 _let_23) (= _let_23 _let_23) (= _let_18 _let_23) (= _let_23 _let_18) (= _let_18 _let_19) (= _let_19 _let_22) (= _let_22 _let_22) (= _let_22 _let_16) (= _let_16 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_6) (= _let_7 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amyloplast_8 X))) (let ((_let_2 (tptp.fn_amyloplast_5 X))) (let ((_let_3 (tptp.fn_amyloplast_9 X))) (let ((_let_4 (tptp.fn_amyloplast_7 X))) (let ((_let_5 (tptp.fn_store_2 _let_4))) (let ((_let_6 (tptp.fn_store_1 _let_4))) (let ((_let_7 (tptp.fn_amyloplast_6 X))) (let ((_let_8 (tptp.fn_amyloplast_4 X))) (let ((_let_9 (tptp.fn_amyloplast_3 X))) (let ((_let_10 (tptp.fn_amyloplast_1 X))) (=> (tptp.amyloplast_1 X) (and (tptp.original_name_2 X |tptp.'Amyloplast'|) (tptp.user_description_2 X |tptp.'Amyloplasts are plastids which store starch (amylose).'|) (tptp.concept2words_2 X tptp.amyloplast) (tptp.plastid_1 X) (not (tptp.chloroplast_1 X)) (not (tptp.chromoplast_1 X)) (not (tptp.plant_statolith_1 X)) (tptp.hydrophilic_face_1 _let_10) (tptp.color_value_1 _let_9) (tptp.starch_1 _let_8) (tptp.aqueous_solution_1 _let_2) (tptp.amylose_1 _let_7) (tptp.store_1 _let_4) (tptp.biomembrane_1 _let_1) (tptp.aqueous_solution_1 _let_3) (tptp.entity_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.is_outside_2 _let_10 _let_3) (tptp.is_inside_2 _let_10 _let_1) (tptp.the_categorical_value_2 _let_9 tptp.colorless_0) (tptp.has_function_2 X _let_4) (tptp.color_2 X _let_9) (tptp.is_inside_2 _let_8 X) (tptp.object_2 _let_4 _let_7) (tptp.base_2 _let_4 X) (tptp.is_between_2 _let_1 _let_3) (tptp.has_part_2 X _let_1) (tptp.is_between_2 _let_1 _let_2) (tptp.has_part_2 X _let_2) (= _let_7 _let_6) (= X _let_5) (= _let_3 (tptp.fn_plastid_5 X)) (= _let_2 (tptp.fn_plastid_10 X)) (= _let_1 (tptp.fn_plastid_9 X))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_amylose_24 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_amylose_28 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_6 (tptp.fn_carbonyl_group_9 _let_3))) (let ((_let_7 (tptp.fn_starch_73 X))) (let ((_let_8 (tptp.fn_storage_polysaccharide_41 X))) (let ((_let_9 (tptp.fn_storage_polysaccharide_55 X))) (let ((_let_10 (tptp.fn_polysaccharide_11 X))) (let ((_let_11 (tptp.fn_amylose_27 X))) (let ((_let_12 (tptp.fn_covalent_bond_20 _let_11))) (let ((_let_13 (tptp.fn_amylose_12 X))) (let ((_let_14 (tptp.fn_hold_2 _let_13))) (let ((_let_15 (tptp.fn_amylose_13 X))) (let ((_let_16 (tptp.fn_hold_2 _let_15))) (let ((_let_17 (tptp.fn_starch_104 X))) (let ((_let_18 (tptp.fn_storage_polysaccharide_42 X))) (let ((_let_19 (tptp.fn_polysaccharide_16 X))) (let ((_let_20 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_21 (tptp.fn_starch_60 X))) (let ((_let_22 (tptp.fn_storage_polysaccharide_40 X))) (let ((_let_23 (tptp.fn_carbohydrate_32 X))) (let ((_let_24 (tptp.fn_polysaccharide_26 X))) (let ((_let_25 (tptp.fn_covalent_bond_19 _let_11))) (let ((_let_26 (tptp.fn_hydroxyl_group_5 _let_1))) (let ((_let_27 (tptp.fn_starch_9 X))) (let ((_let_28 (tptp.fn_storage_polysaccharide_39 X))) (let ((_let_29 (tptp.fn_covalent_bond_17 _let_11))) (let ((_let_30 (tptp.fn_hydroxyl_group_8 _let_1))) (let ((_let_31 (tptp.fn_carbonyl_group_4 _let_3))) (let ((_let_32 (tptp.fn_starch_68 X))) (let ((_let_33 (tptp.fn_storage_polysaccharide_45 X))) (let ((_let_34 (tptp.fn_carbohydrate_29 X))) (let ((_let_35 (tptp.fn_covalent_bond_18 _let_11))) (let ((_let_36 (tptp.fn_starch_67 X))) (let ((_let_37 (tptp.fn_storage_polysaccharide_43 X))) (let ((_let_38 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_39 (tptp.fn_starch_66 X))) (let ((_let_40 (tptp.fn_amylose_55 X))) (let ((_let_41 (tptp.fn_hold_2 _let_40))) (let ((_let_42 (tptp.fn_amylose_52 X))) (let ((_let_43 (tptp.fn_hold_2 _let_42))) (let ((_let_44 (tptp.fn_amylose_22 X))) (let ((_let_45 (tptp.fn_hold_2 _let_44))) (let ((_let_46 (tptp.fn_carbonyl_group_10 _let_3))) (let ((_let_47 (tptp.fn_storage_polysaccharide_27 X))) (let ((_let_48 (tptp.fn_carbonyl_group_8 _let_3))) (let ((_let_49 (tptp.fn_storage_polysaccharide_79 X))) (let ((_let_50 (tptp.fn_starch_59 X))) (let ((_let_51 (tptp.fn_carbohydrate_38 X))) (let ((_let_52 (tptp.fn_carbonyl_group_6 _let_3))) (let ((_let_53 (tptp.fn_starch_58 X))) (let ((_let_54 (tptp.fn_starch_52 X))) (let ((_let_55 (tptp.fn_storage_polysaccharide_46 X))) (let ((_let_56 (tptp.fn_storage_polysaccharide_52 X))) (let ((_let_57 (tptp.fn_carbohydrate_31 X))) (let ((_let_58 (tptp.fn_covalent_bond_15 _let_11))) (let ((_let_59 (tptp.fn_storage_polysaccharide_44 X))) (let ((_let_60 (tptp.fn_starch_51 X))) (let ((_let_61 (tptp.fn_storage_polysaccharide_16 X))) (let ((_let_62 (tptp.fn_starch_70 X))) (let ((_let_63 (tptp.fn_polysaccharide_13 X))) (let ((_let_64 (tptp.fn_starch_65 X))) (let ((_let_65 (tptp.fn_carbohydrate_37 X))) (let ((_let_66 (tptp.fn_starch_47 X))) (let ((_let_67 (tptp.fn_starch_34 X))) (let ((_let_68 (tptp.fn_amylose_53 X))) (let ((_let_69 (tptp.fn_hold_2 _let_68))) (let ((_let_70 (tptp.fn_amylose_8 X))) (let ((_let_71 (tptp.fn_hold_2 _let_70))) (let ((_let_72 (tptp.fn_amylose_11 X))) (let ((_let_73 (tptp.fn_hold_2 _let_72))) (let ((_let_74 (tptp.fn_amylose_9 X))) (let ((_let_75 (tptp.fn_hold_2 _let_74))) (let ((_let_76 (tptp.fn_starch_20 X))) (let ((_let_77 (tptp.fn_storage_polysaccharide_23 X))) (let ((_let_78 (tptp.fn_carbohydrate_36 X))) (let ((_let_79 (tptp.fn_polysaccharide_4 X))) (let ((_let_80 (tptp.fn_starch_71 X))) (let ((_let_81 (tptp.fn_amylose_44 X))) (let ((_let_82 (tptp.fn_carbon_2 _let_81))) (let ((_let_83 (tptp.fn_polysaccharide_12 X))) (let ((_let_84 (tptp.fn_covalent_bond_14 _let_11))) (let ((_let_85 (tptp.fn_amylose_19 X))) (let ((_let_86 (tptp.fn_amylose_34 X))) (let ((_let_87 (tptp.fn_amylose_16 X))) (let ((_let_88 (tptp.fn_amylose_37 X))) (let ((_let_89 (tptp.fn_amylose_36 X))) (let ((_let_90 (tptp.fn_amylose_21 X))) (let ((_let_91 (tptp.fn_amylose_23 X))) (let ((_let_92 (tptp.fn_amylose_18 X))) (let ((_let_93 (tptp.fn_amylose_38 X))) (let ((_let_94 (tptp.fn_amylose_56 X))) (let ((_let_95 (tptp.fn_amylose_25 X))) (let ((_let_96 (tptp.fn_amylose_20 X))) (let ((_let_97 (tptp.fn_amylose_48 X))) (let ((_let_98 (tptp.fn_amylose_29 X))) (let ((_let_99 (tptp.fn_amylose_35 X))) (let ((_let_100 (tptp.fn_amylose_54 X))) (let ((_let_101 (tptp.fn_amylose_26 X))) (let ((_let_102 (tptp.fn_amylose_17 X))) (let ((_let_103 (tptp.fn_amylose_49 X))) (let ((_let_104 (tptp.fn_amylose_45 X))) (let ((_let_105 (tptp.fn_amylose_46 X))) (let ((_let_106 (tptp.fn_amylose_47 X))) (let ((_let_107 (tptp.fn_amylose_32 X))) (let ((_let_108 (tptp.fn_amylose_33 X))) (let ((_let_109 (tptp.fn_amylose_31 X))) (let ((_let_110 (tptp.fn_amylose_30 X))) (let ((_let_111 (tptp.fn_amylose_6 X))) (let ((_let_112 (tptp.fn_amylose_2 X))) (let ((_let_113 (tptp.fn_amylose_4 X))) (=> (tptp.amylose_1 X) (and (tptp.original_name_2 X |tptp.'Amylose'|) (tptp.user_description_2 X |tptp.'Amylose is a type of carbohydrate. It is a linear polymer of glucose linked mainly by alpha (1-4) bonds. It is the simplest form of starch.'|) (tptp.concept2words_2 X tptp.amylose) (tptp.starch_1 X) (not (tptp.glycogen_1 X)) (not (tptp.noncellulose_polysaccharide_1 X)) (not (tptp.oligosaccharin_1 X)) (not (tptp.structural_polysaccharide_1 X)) (tptp.system_1 (tptp.fn_amylose_1 X)) (tptp.structural_complexity_value_1 _let_112) (tptp.electronegativity_value_1 _let_113) (tptp.shape_value_1 _let_111) (tptp.hold_1 _let_70) (tptp.hold_together_1 _let_70) (tptp.hold_1 _let_74) (tptp.hold_together_1 _let_74) (tptp.hold_1 _let_72) (tptp.hold_together_1 _let_72) (tptp.hold_1 _let_13) (tptp.hold_together_1 _let_13) (tptp.hold_1 _let_15) (tptp.hold_together_1 _let_15) (tptp.share_1 _let_87) (tptp.unequal_sharing_1 _let_87) (tptp.electronegativity_value_1 _let_102) (tptp.electronegativity_value_1 _let_92) (tptp.tangible_entity_1 _let_85) (tptp.entity_1 _let_85) (tptp.chemical_entity_1 _let_85) (tptp.atom_1 _let_85) (tptp.oxygen_1 _let_85) (tptp.tangible_entity_1 _let_96) (tptp.alpha_glucose_1 _let_96) (tptp.tangible_entity_1 _let_90) (tptp.entity_1 _let_90) (tptp.electron_1 _let_90) (tptp.valence_electron_1 _let_90) (tptp.hold_1 _let_44) (tptp.hold_together_1 _let_44) (tptp.tangible_entity_1 _let_91) (tptp.entity_1 _let_91) (tptp.electron_1 _let_91) (tptp.valence_electron_1 _let_91) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.carbon_skeleton_1 _let_95) (tptp.shape_value_1 _let_101) (tptp.covalent_bond_1 _let_11) (tptp.double_bond_1 _let_11) (tptp.functional_group_1 _let_3) (tptp.carbonyl_group_1 _let_3) (tptp.electronegativity_value_1 _let_98) (tptp.size_value_1 _let_110) (tptp.size_value_1 _let_109) (tptp.store_1 _let_107) (tptp.container_1 _let_108) (tptp.tangible_entity_1 _let_86) (tptp.entity_1 _let_86) (tptp.chemical_entity_1 _let_86) (tptp.atom_1 _let_86) (tptp.hydrogen_1 _let_86) (tptp.electronegativity_value_1 _let_99) (tptp.entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.atom_1 _let_89) (tptp.oxygen_1 _let_89) (tptp.tangible_entity_1 _let_88) (tptp.entity_1 _let_88) (tptp.electron_1 _let_88) (tptp.valence_electron_1 _let_88) (tptp.electronegativity_value_1 _let_93) (tptp.tangible_entity_1 _let_81) (tptp.entity_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.atom_1 _let_81) (tptp.carbon_1 _let_81) (tptp.quantity_value_1 _let_104) (tptp.speed_value_1 _let_105) (tptp.constant_motion_1 _let_106) (tptp.chemical_bond_1 _let_97) (tptp.covalent_bond_1 _let_97) (tptp.polar_covalent_bond_1 _let_97) (tptp.glycosidic_linkage_1 _let_97) (tptp.alpha_1_comma_4_linkage_1 _let_97) (tptp.kinetic_energy_1 _let_103) (tptp.hold_1 _let_42) (tptp.hold_together_1 _let_42) (tptp.hold_1 _let_68) (tptp.hold_together_1 _let_68) (tptp.molecular_region_1 _let_100) (tptp.hold_1 _let_40) (tptp.hold_together_1 _let_40) (tptp.hold_1 _let_94) (tptp.hold_together_1 _let_94) (tptp.hold_together_1 _let_84) (tptp.electronegativity_value_1 _let_82) (tptp.tangible_entity_1 _let_75) (tptp.tangible_entity_1 _let_73) (tptp.tangible_entity_1 _let_71) (tptp.tangible_entity_1 _let_69) (tptp.valence_electron_1 _let_58) (tptp.valence_electron_1 _let_52) (tptp.double_bond_1 _let_48) (tptp.hold_together_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.tangible_entity_1 _let_43) (tptp.tangible_entity_1 _let_41) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.carbon_1 _let_38) (tptp.valence_electron_1 _let_35) (tptp.valence_electron_1 _let_31) (tptp.electron_1 _let_30) (tptp.valence_electron_1 _let_30) (tptp.share_1 _let_29) (tptp.unequal_sharing_1 _let_26) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.hydrogen_1 _let_20) (tptp.tangible_entity_1 _let_16) (tptp.tangible_entity_1 _let_14) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.oxygen_1 _let_6) (tptp.oxygen_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.the_categorical_value_2 _let_111 tptp.line_0) (tptp.object_2 _let_13 _let_96) (tptp.object_2 _let_15 _let_96) (tptp.greater_than_2 _let_113 _let_92) (tptp.greater_than_or_equal_to_2 _let_113 _let_92) (tptp.size_2 _let_96 _let_110) (tptp.object_2 _let_44 _let_96) (tptp.object_2 _let_44 _let_85) (tptp.the_scalar_value_2 _let_112 tptp.simple_0) (tptp.scalar_unit_class_2 _let_112 tptp.starch_0) (tptp.structural_complexity_2 X _let_112) (tptp.shape_2 X _let_111) (tptp.is_between_2 _let_11 _let_96) (tptp.the_cardinal_value_2 _let_98 |"3.44"|) (tptp.cardinal_unit_class_2 _let_98 tptp.unity_0) (tptp.object_2 _let_42 _let_96) (tptp.object_2 _let_40 _let_96) (tptp.object_2 _let_74 _let_96) (tptp.object_2 _let_72 _let_96) (tptp.object_2 _let_70 _let_96) (tptp.object_2 _let_68 _let_96) (tptp.object_2 _let_44 _let_81) (tptp.object_2 _let_42 _let_81) (tptp.object_2 _let_15 _let_85) (tptp.object_2 _let_40 _let_81) (tptp.object_2 _let_13 _let_85) (tptp.object_2 _let_40 _let_89) (tptp.is_between_2 _let_11 _let_86) (tptp.result_2 _let_87 _let_11) (not (= _let_93 _let_99)) (not (= _let_99 _let_93)) (tptp.electronegativity_2 _let_81 _let_99) (tptp.object_2 _let_42 _let_89) (tptp.object_2 _let_94 _let_86) (tptp.object_2 _let_68 _let_89) (tptp.object_2 _let_68 _let_85) (tptp.object_2 _let_40 _let_85) (tptp.object_2 _let_40 _let_86) (tptp.object_2 _let_68 _let_86) (tptp.object_2 _let_44 _let_89) (tptp.object_2 _let_44 _let_86) (tptp.object_2 _let_42 _let_86) (tptp.object_2 _let_42 _let_85) (tptp.object_2 _let_72 _let_85) (tptp.object_2 _let_72 _let_89) (tptp.object_2 _let_72 _let_86) (tptp.object_2 _let_15 _let_86) (tptp.object_2 _let_15 _let_89) (tptp.object_2 _let_13 _let_89) (tptp.object_2 _let_70 _let_89) (tptp.object_2 _let_74 _let_89) (tptp.object_2 _let_74 _let_86) (tptp.object_2 _let_70 _let_86) (tptp.in_event_2 _let_108 _let_107) (tptp.plays_2 X _let_108) (tptp.size_2 X _let_109) (tptp.greater_than_2 _let_109 _let_110) (tptp.base_2 _let_107 X) (tptp.has_function_2 X _let_107) (tptp.possesses_2 X _let_11) (tptp.is_between_2 _let_11 _let_85) (tptp.object_2 _let_70 _let_85) (tptp.possesses_2 X _let_103) (tptp.quantity_2 _let_103 _let_104) (tptp.directly_proportional_2 _let_105 _let_104) (tptp.speed_2 _let_106 _let_105) (tptp.object_2 _let_106 X) (tptp.has_part_2 X _let_81) (tptp.object_2 _let_87 _let_90) (tptp.is_between_2 _let_97 _let_85) (tptp.has_part_2 X _let_86) (tptp.has_part_2 _let_86 _let_88) (tptp.greater_than_2 _let_102 _let_99) (tptp.greater_than_or_equal_to_2 _let_102 _let_99) (tptp.possesses_2 X _let_97) (tptp.has_part_2 X _let_89) (tptp.electronegativity_2 _let_89 _let_99) (not (= _let_98 _let_99)) (not (= _let_99 _let_98)) (tptp.is_between_2 _let_97 _let_89) (tptp.is_between_2 _let_97 _let_86) (tptp.electronegativity_2 _let_86 _let_93) (not (= _let_93 _let_98)) (not (= _let_98 _let_93)) (tptp.agent_2 _let_87 _let_89) (tptp.object_2 _let_87 _let_91) (tptp.has_part_2 _let_89 _let_91) (not (= _let_88 _let_91)) (not (= _let_91 _let_88)) (tptp.object_2 _let_94 _let_96) (tptp.has_part_2 X _let_96) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_89 _let_3) (not (= _let_89 _let_81)) (not (= _let_81 _let_89)) (tptp.object_2 _let_13 _let_81) (tptp.object_2 _let_13 _let_86) (not (= _let_86 _let_89)) (not (= _let_81 _let_86)) (not (= _let_86 _let_81)) (not (= _let_89 _let_86)) (tptp.object_2 _let_94 _let_89) (tptp.object_2 _let_94 _let_85) (tptp.has_part_2 X _let_85) (tptp.has_region_2 X _let_95) (tptp.is_inside_2 _let_81 _let_95) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_89 _let_1) (not (= _let_89 _let_85)) (tptp.electronegativity_2 _let_85 _let_92) (not (= _let_92 _let_93)) (not (= _let_85 _let_89)) (not (= _let_93 _let_92)) (not (= _let_88 _let_90)) (not (= _let_90 _let_88)) (tptp.agent_2 _let_44 _let_11) (tptp.has_function_2 _let_11 _let_44) (tptp.is_inside_2 _let_81 _let_3) (tptp.is_between_2 _let_11 _let_81) (tptp.is_between_2 _let_11 _let_89) (tptp.has_part_2 _let_89 _let_90) (not (= _let_90 _let_91)) (not (= _let_91 _let_90)) (tptp.is_inside_2 _let_85 _let_3) (tptp.object_2 _let_74 _let_85) (tptp.object_2 _let_74 _let_81) (not (= _let_81 _let_85)) (not (= _let_85 _let_81)) (tptp.is_inside_2 _let_86 _let_1) (tptp.agent_2 _let_87 _let_86) (tptp.is_inside_2 _let_85 _let_1) (tptp.agent_2 _let_87 _let_85) (tptp.object_2 _let_87 _let_88) (not (= _let_86 _let_85)) (not (= _let_85 _let_86)) (= _let_96 _let_75) (= _let_96 _let_73) (= _let_96 _let_71) (= _let_96 _let_69) (= _let_81 _let_45) (= _let_81 _let_43) (= _let_85 _let_16) (= _let_81 _let_41) (= _let_85 _let_14) (= _let_40 _let_84) (= _let_99 _let_83) (= _let_99 _let_82) (= _let_42 _let_65) (= _let_94 _let_65) (= (tptp.fn_amylose_14 X) (tptp.fn_storage_polysaccharide_12 X)) (= _let_40 _let_47) (= _let_68 _let_59) (= _let_42 _let_47) (= _let_44 _let_59) (= _let_13 _let_59) (= _let_15 _let_47) (= _let_72 _let_59) (= (tptp.fn_amylose_50 X) (tptp.fn_storage_polysaccharide_73 X)) (= (tptp.fn_amylose_51 X) (tptp.fn_storage_polysaccharide_74 X)) (= (tptp.fn_amylose_42 X) (tptp.fn_storage_polysaccharide_33 X)) (= _let_74 _let_47) (= _let_89 _let_9) (= (tptp.fn_amylose_39 X) (tptp.fn_storage_polysaccharide_34 X)) (= _let_110 (tptp.fn_storage_polysaccharide_37 X)) (= _let_109 (tptp.fn_storage_polysaccharide_36 X)) (= _let_108 (tptp.fn_storage_polysaccharide_51 X)) (= _let_70 _let_84) (= _let_70 _let_59) (= _let_85 _let_8) (= _let_11 _let_49) (= _let_107 (tptp.fn_storage_polysaccharide_49 X)) (= _let_106 (tptp.fn_storage_polysaccharide_71 X)) (= _let_105 (tptp.fn_storage_polysaccharide_70 X)) (= _let_104 (tptp.fn_storage_polysaccharide_69 X)) (= _let_103 (tptp.fn_storage_polysaccharide_72 X)) (= _let_90 _let_53) (= (tptp.fn_amylose_43 X) (tptp.fn_starch_55 X)) (= (tptp.fn_amylose_15 X) (tptp.fn_starch_6 X)) (= (tptp.fn_amylose_10 X) (tptp.fn_starch_2 X)) (= _let_88 _let_35) (= (tptp.fn_amylose_41 X) (tptp.fn_starch_54 X)) (= _let_102 (tptp.fn_starch_5 X)) (= _let_101 (tptp.fn_starch_3 X)) (= _let_100 (tptp.fn_starch_1 X)) (= _let_98 _let_62) (= _let_99 _let_80) (= _let_97 _let_79) (= (tptp.fn_amylose_40 X) (tptp.fn_starch_46 X)) (= _let_98 _let_60) (= _let_93 _let_63) (= _let_97 _let_78) (= _let_97 _let_77) (= _let_97 _let_76) (= _let_89 _let_12) (= _let_91 _let_57) (= _let_88 _let_34) (= _let_91 _let_55) (= _let_88 _let_33) (= _let_88 _let_32) (= _let_91 _let_58) (= _let_91 _let_56) (= _let_91 _let_54) (= _let_87 _let_29) (= _let_87 _let_28) (= _let_87 _let_27) (= X _let_4) (= _let_3 _let_37) (= _let_3 _let_36) (= _let_96 _let_67) (= _let_96 _let_66) (= _let_86 _let_12) (= _let_89 _let_25) (= _let_86 _let_23) (= _let_89 _let_51) (= _let_86 _let_22) (= _let_89 _let_7) (= _let_86 _let_21) (= _let_13 _let_64) (= _let_81 _let_39) (= _let_95 (tptp.fn_starch_61 X)) (= _let_94 _let_64) (= _let_93 _let_62) (= _let_92 _let_61) (= _let_92 _let_60) (= _let_85 _let_9) (= _let_85 _let_7) (= _let_89 _let_8) (= _let_89 _let_50) (= X _let_2) (= _let_1 _let_18) (= _let_1 _let_17) (= _let_88 _let_31) (= _let_44 _let_46) (= _let_91 _let_31) (= _let_90 _let_52) (= _let_89 _let_6) (= _let_11 _let_48) (= _let_74 _let_46) (= _let_81 _let_38) (= _let_85 _let_6) (= _let_1 _let_19) (= _let_88 _let_30) (= _let_87 _let_26) (= _let_86 _let_25) (= _let_85 _let_12) (= _let_85 _let_10) (= _let_86 _let_24) (= _let_86 _let_20) (= _let_85 _let_5) (= _let_84 _let_47) (= _let_47 _let_65) (= _let_65 _let_47) (= _let_47 _let_84) (= _let_59 _let_84) (= _let_84 _let_59) (= _let_59 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_80) (= _let_80 _let_80) (= _let_80 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_71) (= _let_71 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_59) (= _let_59 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_46) (= _let_46 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_31) (= _let_31 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_25) (= _let_51 _let_25) (= _let_25 _let_51) (= _let_51 _let_51) (= _let_8 _let_51) (= _let_51 _let_8) (= _let_9 _let_7) (= _let_50 _let_7) (= _let_7 _let_50) (= _let_50 _let_50) (= _let_50 _let_6) (= _let_6 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_12) (= _let_25 _let_12) (= _let_12 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anabolic_pathway_6 X))) (let ((_let_2 (tptp.fn_anabolic_pathway_5 X))) (let ((_let_3 (tptp.fn_anabolic_pathway_4 X))) (let ((_let_4 (tptp.fn_anabolic_pathway_3 X))) (=> (tptp.anabolic_pathway_1 X) (and (tptp.original_name_2 X |tptp.'Anabolic-Pathway'|) (tptp.user_description_2 X |tptp.'The series of chemical reactions that constructs or synthesizes molecules from smaller units, usually requiring input of energy (ATP) in the process.'|) (tptp.concept2words_2 X |tptp.'anabolic reactions'|) (tptp.concept2words_2 X tptp.biosynthesis) (tptp.concept2words_2 X |tptp.'biosynthetic pathway'|) (tptp.concept2words_2 X |tptp.'biosynthetic-pathway'|) (tptp.concept2words_2 X |tptp.'take part in an anabolic pathway'|) (tptp.concept2words_2 X |tptp.'anabolic pathway'|) (tptp.concept2words_2 X |tptp.'anabolic-pathway'|) (tptp.endergonic_reaction_1 X) (tptp.metabolic_pathway_1 X) (not (tptp.catabolic_pathway_1 X)) (not (tptp.renin_angiotensin_aldosterone_system_1 X)) (tptp.structural_complexity_value_1 _let_4) (tptp.structural_complexity_value_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.structural_complexity_2 _let_1 _let_3) (tptp.structural_complexity_2 _let_2 _let_4) (tptp.greater_than_2 _let_4 _let_3) (tptp.result_2 X _let_2) (tptp.raw_material_2 X _let_1) (= _let_2 (tptp.fn_endergonic_reaction_9 X)) (= _let_1 (tptp.fn_endergonic_reaction_8 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anabolism_6 X))) (let ((_let_2 (tptp.fn_anabolism_3 X))) (let ((_let_3 (tptp.fn_anabolism_5 X))) (let ((_let_4 (tptp.fn_anabolism_4 X))) (=> (tptp.anabolism_1 X) (and (tptp.original_name_2 X |tptp.'Anabolism'|) (tptp.user_description_2 X |tptp.'The class of chemical reactions that consume energy to construct larger molecules from smaller subunits.'|) (tptp.concept2words_2 X tptp.biosynthesis) (tptp.concept2words_2 X |tptp.'anabolic pathway'|) (tptp.concept2words_2 X |tptp.'anabolic-pathway'|) (tptp.concept2words_2 X |tptp.'undergo anabolism'|) (tptp.concept2words_2 X tptp.anabolism) (tptp.endergonic_process_1 X) (tptp.metabolism_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X)) (tptp.molecule_1 _let_2) (tptp.molecule_1 _let_4) (tptp.size_value_1 _let_3) (tptp.size_value_1 _let_1) (tptp.result_2 X _let_4) (tptp.raw_material_2 X _let_2) (tptp.greater_than_2 _let_3 _let_1) (tptp.size_2 _let_4 _let_3) (tptp.size_2 _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaerobe_16 X))) (let ((_let_2 (tptp.fn_nutritional_requirement_10 _let_1))) (let ((_let_3 (tptp.fn_anaerobe_15 X))) (let ((_let_4 (tptp.fn_nutritional_requirement_9 _let_1))) (let ((_let_5 (tptp.fn_anaerobe_14 X))) (let ((_let_6 (tptp.fn_nutritional_requirement_2 _let_1))) (let ((_let_7 (tptp.fn_anaerobe_7 X))) (let ((_let_8 (tptp.fn_nutritional_requirement_8 _let_1))) (let ((_let_9 (tptp.fn_anaerobe_13 X))) (let ((_let_10 (tptp.fn_nutritional_requirement_3 _let_1))) (let ((_let_11 (tptp.fn_anaerobe_8 X))) (let ((_let_12 (tptp.fn_nutritional_requirement_7 _let_1))) (let ((_let_13 (tptp.fn_anaerobe_12 X))) (let ((_let_14 (tptp.fn_nutritional_requirement_4 _let_1))) (let ((_let_15 (tptp.fn_anaerobe_9 X))) (let ((_let_16 (tptp.fn_nutritional_requirement_6 _let_1))) (let ((_let_17 (tptp.fn_anaerobe_11 X))) (let ((_let_18 (tptp.fn_nutritional_requirement_5 _let_1))) (let ((_let_19 (tptp.fn_anaerobe_10 X))) (let ((_let_20 (tptp.fn_anaerobe_6 X))) (let ((_let_21 (tptp.fn_carbon_source_2 _let_20))) (let ((_let_22 (tptp.fn_anaerobe_17 X))) (let ((_let_23 (tptp.fn_anaerobe_5 X))) (let ((_let_24 (tptp.fn_anaerobe_4 X))) (let ((_let_25 (tptp.fn_anaerobe_3 X))) (let ((_let_26 (tptp.fn_anaerobe_2 X))) (let ((_let_27 (tptp.fn_anaerobe_1 X))) (=> (tptp.anaerobe_1 X) (and (tptp.original_name_2 X |tptp.'Anaerobe'|) (tptp.user_description_2 X |tptp.'A cell or an organism which can live in the absence of oxygen.'|) (tptp.concept2words_2 X |tptp.'anaerobic organism'|) (tptp.concept2words_2 X |tptp.'anaerobic-organism'|) (tptp.concept2words_2 X tptp.anaerobe) (tptp.ecological_role_1 X) (tptp.energy_source_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.nutrition_1 _let_24) (tptp.organism_1 _let_23) (tptp.carbon_source_1 _let_20) (tptp.potassium_1 _let_7) (tptp.calcium_1 _let_11) (tptp.sulfur_1 _let_15) (tptp.phosphorus_1 _let_19) (tptp.oxygen_1 _let_17) (tptp.nitrogen_1 _let_13) (tptp.hydrogen_1 _let_9) (tptp.carbon_1 _let_5) (tptp.iron_1 _let_3) (tptp.nutritional_requirement_1 _let_1) (tptp.organic_molecule_1 _let_22) (tptp.molecule_1 _let_21) (tptp.phosphorus_1 _let_18) (tptp.oxygen_1 _let_16) (tptp.sulfur_1 _let_14) (tptp.nitrogen_1 _let_12) (tptp.calcium_1 _let_10) (tptp.hydrogen_1 _let_8) (tptp.potassium_1 _let_6) (tptp.carbon_1 _let_4) (tptp.iron_1 _let_2) (tptp.in_event_2 X _let_24) (tptp.element_2 _let_1 _let_26) (tptp.plays_2 _let_25 _let_27) (tptp.result_2 _let_24 _let_26) (tptp.raw_material_2 _let_24 _let_25) (tptp.raw_material_2 _let_24 _let_22) (tptp.agent_2 _let_24 _let_23) (tptp.plays_2 _let_23 X) (tptp.plays_2 _let_22 _let_20) (tptp.element_2 _let_1 _let_19) (tptp.element_2 _let_1 _let_17) (tptp.element_2 _let_1 _let_15) (tptp.element_2 _let_1 _let_13) (tptp.element_2 _let_1 _let_11) (tptp.element_2 _let_1 _let_9) (tptp.element_2 _let_1 _let_7) (tptp.element_2 _let_1 _let_5) (tptp.element_2 _let_1 _let_3) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.anaerobic_condition_1 X) (and (tptp.original_name_2 X |tptp.'Anaerobic-Condition'|) (tptp.user_description_2 X |tptp.'A biological process which occurs in the absence of molecular oxygen.'|) (tptp.concept2words_2 X |tptp.'anaerobic condition'|) (tptp.concept2words_2 X |tptp.'anaerobic-condition'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaerobic_respiration_15 X))) (let ((_let_2 (tptp.fn_electron_transport_chain_reaction_9 _let_1))) (let ((_let_3 (tptp.fn_anaerobic_respiration_16 X))) (let ((_let_4 (tptp.fn_glycolysis_17 _let_3))) (let ((_let_5 (tptp.fn_electron_transport_chain_reaction_16 _let_1))) (let ((_let_6 (tptp.fn_glycolysis_22 _let_3))) (let ((_let_7 (tptp.fn_electron_transport_chain_reaction_14 _let_1))) (let ((_let_8 (tptp.fn_glycolysis_19 _let_3))) (let ((_let_9 (tptp.fn_anaerobic_respiration_2 X))) (let ((_let_10 (tptp.fn_oxidation_9 _let_9))) (let ((_let_11 (tptp.fn_electron_transport_chain_reaction_15 _let_1))) (let ((_let_12 (tptp.fn_glycolysis_21 _let_3))) (let ((_let_13 (tptp.fn_electron_transport_chain_reaction_8 _let_1))) (let ((_let_14 (tptp.fn_anaerobic_respiration_17 X))) (let ((_let_15 (tptp.fn_endergonic_process_4 _let_14))) (let ((_let_16 (tptp.fn_work_1 _let_14))) (let ((_let_17 (tptp.fn_glycolysis_74 _let_3))) (let ((_let_18 (tptp.fn_oxidation_10 _let_9))) (let ((_let_19 (tptp.fn_anaerobic_respiration_3 X))) (let ((_let_20 (tptp.fn_reduction_1 _let_19))) (let ((_let_21 (tptp.fn_anaerobic_respiration_7 X))) (let ((_let_22 (tptp.fn_redox_reaction_16 _let_21))) (let ((_let_23 (tptp.fn_redox_reaction_12 _let_21))) (let ((_let_24 (tptp.fn_anaerobic_respiration_11 X))) (let ((_let_25 (tptp.fn_release_2 _let_24))) (let ((_let_26 (tptp.fn_glycolysis_33 _let_3))) (let ((_let_27 (tptp.fn_oxidation_8 _let_9))) (let ((_let_28 (tptp.fn_glycolysis_55 _let_3))) (let ((_let_29 (tptp.fn_catabolism_1 X))) (let ((_let_30 (tptp.fn_glycolysis_34 _let_3))) (let ((_let_31 (tptp.fn_reduction_5 _let_19))) (let ((_let_32 (tptp.fn_anaerobic_respiration_8 X))) (let ((_let_33 (tptp.fn_redox_reaction_16 _let_32))) (let ((_let_34 (tptp.fn_anaerobic_respiration_13 X))) (let ((_let_35 (tptp.fn_electron_recipient_2 _let_34))) (let ((_let_36 (tptp.fn_redox_reaction_12 _let_32))) (let ((_let_37 (tptp.fn_anaerobic_respiration_5 X))) (let ((_let_38 (tptp.fn_electron_transport_chain_reaction_7 _let_1))) (let ((_let_39 (tptp.fn_anaerobic_respiration_9 X))) (let ((_let_40 (tptp.fn_electron_transport_chain_reaction_1 _let_1))) (let ((_let_41 (tptp.fn_glycolysis_78 _let_3))) (let ((_let_42 (tptp.fn_anaerobic_respiration_1 X))) (let ((_let_43 (tptp.fn_anaerobic_respiration_10 X))) (let ((_let_44 (tptp.fn_anaerobic_respiration_6 X))) (let ((_let_45 (tptp.fn_anaerobic_respiration_14 X))) (let ((_let_46 (tptp.fn_anaerobic_respiration_4 X))) (let ((_let_47 (tptp.fn_anaerobic_respiration_12 X))) (=> (tptp.anaerobic_respiration_1 X) (and (tptp.original_name_2 X |tptp.'Anaerobic-Respiration'|) (tptp.user_description_2 X |tptp.'A catabolic pathway that occurs in the absence of molecular oxygen involving an electron transport chain and a different inorganic molecule other than oxygen as a final electron acceptor.'|) (tptp.concept2words_2 X |tptp.'perform unaerobic respiration'|) (tptp.concept2words_2 X |tptp.'anaerobic respiration'|) (tptp.concept2words_2 X |tptp.'anaerobic-respiration'|) (tptp.catabolism_1 X) (not (tptp.cellular_respiration_1 X)) (not (tptp.fermentation_1 X)) (tptp.spatial_entity_1 _let_42) (tptp.tangible_entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.organic_molecule_1 _let_42) (tptp.nad_plus_1 _let_42) (tptp.molecule_1 _let_42) (tptp.oxidation_1 _let_9) (tptp.reduction_1 _let_19) (tptp.reducing_agent_1 _let_46) (tptp.chemical_entity_1 _let_37) (tptp.tangible_entity_1 _let_37) (tptp.electron_1 _let_37) (tptp.electron_donor_1 _let_44) (tptp.chemical_reaction_1 _let_21) (tptp.redox_reaction_1 _let_21) (tptp.redox_reaction_1 _let_32) (tptp.energy_1 _let_39) (tptp.free_energy_1 _let_39) (tptp.tangible_entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.organic_molecule_1 _let_43) (tptp.nadh_1 _let_43) (tptp.molecule_1 _let_43) (tptp.release_1 _let_24) (tptp.inorganic_molecule_1 _let_47) (tptp.final_electron_acceptor_1 _let_34) (tptp.molecule_1 _let_45) (tptp.pyruvate_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.electron_transport_chain_reaction_1 _let_1) (tptp.glycolysis_1 _let_3) (tptp.work_1 _let_14) (tptp.endergonic_process_1 _let_14) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_14) (tptp.spatial_entity_1 _let_41) (tptp.tangible_entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.organic_molecule_1 _let_41) (tptp.nad_plus_1 _let_41) (tptp.molecule_1 _let_41) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_40) (tptp.release_1 _let_38) (tptp.chemical_entity_1 _let_36) (tptp.chemical_entity_1 _let_35) (tptp.chemical_entity_1 _let_33) (tptp.reducing_agent_1 _let_31) (tptp.reducing_agent_1 _let_30) (tptp.pyruvate_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.electron_donor_1 _let_27) (tptp.electron_donor_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.chemical_entity_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.organic_molecule_1 _let_17) (tptp.nadh_1 _let_17) (tptp.molecule_1 _let_17) (tptp.energy_1 _let_16) (tptp.free_energy_1 _let_15) (tptp.free_energy_1 _let_13) (tptp.reduction_1 _let_12) (tptp.reduction_1 _let_11) (tptp.electron_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.electron_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.electron_1 _let_7) (tptp.oxidation_1 _let_6) (tptp.oxidation_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.redox_reaction_1 _let_4) (tptp.redox_reaction_1 _let_2) (tptp.enables_2 _let_21 _let_14) (not (= _let_21 _let_32)) (not (= _let_32 _let_21)) (tptp.is_inside_2 _let_39 _let_43) (tptp.subevent_2 _let_1 _let_32) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_3) (tptp.next_event_2 _let_3 _let_1) (tptp.base_2 _let_24 _let_43) (tptp.raw_material_2 _let_21 _let_43) (tptp.raw_material_2 X _let_45) (tptp.plays_2 _let_47 _let_34) (tptp.raw_material_2 _let_32 _let_47) (tptp.donor_2 _let_19 _let_43) (tptp.plays_2 _let_43 _let_46) (tptp.raw_material_2 _let_14 _let_39) (tptp.donor_2 _let_9 _let_43) (tptp.plays_2 _let_43 _let_44) (not (= _let_37 _let_43)) (not (= _let_43 _let_37)) (tptp.raw_material_2 _let_21 _let_42) (tptp.recipient_2 _let_19 _let_42) (tptp.in_event_2 _let_46 _let_19) (tptp.result_2 _let_3 _let_43) (tptp.result_2 _let_3 _let_45) (tptp.recipient_2 _let_9 _let_42) (tptp.in_event_2 _let_44 _let_9) (tptp.has_oxidized_form_2 _let_43 _let_42) (tptp.has_reduced_form_2 _let_42 _let_43) (tptp.raw_material_2 _let_3 _let_42) (not (= _let_43 _let_42)) (not (= _let_42 _let_43)) (not (= _let_37 _let_42)) (not (= _let_42 _let_37)) (tptp.subevent_2 _let_1 _let_14) (tptp.causes_2 _let_21 _let_24) (tptp.object_2 _let_24 _let_39) (tptp.subevent_2 _let_1 _let_21) (tptp.subevent_2 _let_21 _let_9) (tptp.object_2 _let_9 _let_37) (tptp.object_2 _let_19 _let_37) (tptp.subevent_2 _let_21 _let_19) (= _let_43 _let_25) (= _let_43 _let_23) (= _let_43 _let_22) (= _let_45 _let_29) (= _let_47 _let_35) (= _let_47 _let_36) (= _let_47 _let_33) (= _let_46 _let_31) (= _let_43 _let_20) (= _let_39 _let_16) (= _let_39 _let_15) (= _let_44 _let_27) (= _let_37 _let_10) (= _let_43 _let_18) (= _let_21 _let_4) (= _let_46 _let_30) (= _let_19 _let_12) (= _let_45 _let_28) (= _let_44 _let_26) (= _let_9 _let_6) (= _let_37 _let_8) (= _let_43 _let_17) (= _let_42 _let_41) (= _let_14 _let_40) (= _let_39 _let_13) (= _let_24 _let_38) (= _let_19 _let_11) (= _let_37 _let_7) (= _let_9 _let_5) (= _let_21 _let_2) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.anagenesis_1 X) (and (tptp.original_name_2 X |tptp.'Anagenesis'|) (tptp.user_description_2 X |tptp.'The accumulation of genetic differences within a lineage, that eventually results in a new species and renders the ancestral species extinct. This process is distinct from cladogenesis, where new lineages result from divergence with an ancestral lineage.'|) (tptp.concept2words_2 X |tptp.'phyletic evolution'|) (tptp.concept2words_2 X |tptp.'phyletic-evolution'|) (tptp.concept2words_2 X tptp.anagenesis) (tptp.speciation_1 X) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_analysis_1 X))) (=> (tptp.analysis_1 X) (and (tptp.original_name_2 X |tptp.'Analysis'|) (tptp.concept2words_2 X tptp.analyze) (tptp.concept2words_2 X tptp.analysis) (tptp.concept2words_2 X tptp.investigation) (tptp.concept2words_2 X tptp.reasoning) (tptp.concept2words_2 X |tptp.'logical thinking'|) (tptp.concept2words_2 X tptp.logical_thinking) (tptp.concept2words_2 X |tptp.'abstract thought'|) (tptp.concept2words_2 X tptp.abstract_thought) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaphase_9 X))) (let ((_let_2 (tptp.fn_cell_elongation_during_anaphase_21 _let_1))) (let ((_let_3 (tptp.fn_anaphase_10 X))) (let ((_let_4 (tptp.fn_mitotic_event_1 _let_3))) (let ((_let_5 (tptp.fn_cell_elongation_during_anaphase_1 _let_1))) (let ((_let_6 (tptp.fn_cell_elongation_during_anaphase_12 _let_1))) (let ((_let_7 (tptp.fn_cell_elongation_during_anaphase_11 _let_1))) (let ((_let_8 (tptp.fn_cell_elongation_during_anaphase_13 _let_1))) (let ((_let_9 (tptp.fn_cell_elongation_during_anaphase_41 _let_1))) (let ((_let_10 (tptp.fn_anaphase_25 X))) (let ((_let_11 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_10))) (let ((_let_12 (tptp.fn_anaphase_26 X))) (let ((_let_13 (tptp.fn_cell_elongation_during_anaphase_37 _let_1))) (let ((_let_14 (tptp.fn_anaphase_15 X))) (let ((_let_15 (tptp.fn_cell_elongation_during_anaphase_38 _let_1))) (let ((_let_16 (tptp.fn_anaphase_16 X))) (let ((_let_17 (tptp.fn_cell_elongation_during_anaphase_40 _let_1))) (let ((_let_18 (tptp.fn_anaphase_17 X))) (let ((_let_19 (tptp.fn_cell_elongation_during_anaphase_31 _let_1))) (let ((_let_20 (tptp.fn_anaphase_24 X))) (let ((_let_21 (tptp.fn_anaphase_20 X))) (let ((_let_22 (tptp.fn_anaphase_13 X))) (let ((_let_23 (tptp.fn_anaphase_21 X))) (let ((_let_24 (tptp.fn_cell_elongation_during_anaphase_6 _let_1))) (let ((_let_25 (tptp.fn_anaphase_23 X))) (let ((_let_26 (tptp.fn_cell_elongation_during_anaphase_18 _let_1))) (let ((_let_27 (tptp.fn_anaphase_14 X))) (let ((_let_28 (tptp.fn_anaphase_18 X))) (let ((_let_29 (tptp.fn_cell_elongation_during_anaphase_36 _let_1))) (let ((_let_30 (tptp.fn_anaphase_11 X))) (let ((_let_31 (tptp.fn_cell_elongation_during_anaphase_39 _let_1))) (let ((_let_32 (tptp.fn_anaphase_22 X))) (let ((_let_33 (tptp.fn_cell_elongation_during_anaphase_35 _let_1))) (let ((_let_34 (tptp.fn_anaphase_12 X))) (let ((_let_35 (tptp.fn_cell_elongation_during_anaphase_42 _let_1))) (let ((_let_36 (tptp.fn_anaphase_19 X))) (let ((_let_37 (tptp.fn_cell_elongation_during_anaphase_44 _let_1))) (let ((_let_38 (tptp.fn_cell_elongation_during_anaphase_43 _let_1))) (let ((_let_39 (tptp.fn_anaphase_8 X))) (let ((_let_40 (tptp.fn_anaphase_4 X))) (let ((_let_41 (tptp.fn_anaphase_5 X))) (let ((_let_42 (tptp.fn_anaphase_2 X))) (let ((_let_43 (tptp.fn_anaphase_3 X))) (=> (tptp.anaphase_1 X) (and (tptp.original_name_2 X |tptp.'Anaphase'|) (tptp.user_description_2 X |tptp.'The spindle fibres shorten and the centromere splits, separated sister chromatids are pulled along behind the centromeres.In the cytoplasm, the mitotic spindle begins to form. it is made of microtubules extending from the two centrosomes'|) (tptp.concept2words_2 X |tptp.'undergo anaphase'|) (tptp.concept2words_2 X tptp.anaphase) (tptp.mitotic_stage_1 X) (tptp.duration_value_1 _let_42) (tptp.separation_of_sister_chromatids_1 _let_43) (tptp.reeling_mechanism_1 _let_40) (tptp.pacman_mechanism_1 _let_41) (tptp.cell_1 _let_39) (tptp.cell_elongation_during_anaphase_1 _let_1) (tptp.distribution_of_daughter_chromosomes_1 _let_3) (tptp.tangible_entity_1 _let_30) (tptp.phospholipid_bilayer_1 _let_30) (tptp.substance_1 _let_34) (tptp.cytosol_1 _let_34) (tptp.move_1 _let_22) (tptp.cell_elongation_1 _let_27) (tptp.volume_value_1 _let_14) (tptp.size_value_1 _let_16) (tptp.ribosome_1 _let_18) (tptp.membrane_1 _let_28) (tptp.spatial_entity_1 _let_28) (tptp.biomembrane_1 _let_28) (tptp.plasma_membrane_1 _let_28) (tptp.mixture_1 _let_36) (tptp.cytoplasm_1 _let_36) (tptp.centrosome_1 _let_21) (tptp.centrosome_1 _let_23) (tptp.surface_1 _let_32) (tptp.cell_pole_1 _let_25) (tptp.cell_pole_1 _let_20) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_10) (tptp.cell_1 _let_12) (tptp.property_node_1 _let_38) (tptp.property_node_1 _let_37) (tptp.mixture_1 _let_35) (tptp.cytoplasm_1 _let_35) (tptp.substance_1 _let_33) (tptp.cytosol_1 _let_33) (tptp.surface_1 _let_31) (tptp.tangible_entity_1 _let_29) (tptp.phospholipid_bilayer_1 _let_29) (tptp.cell_elongation_1 _let_26) (tptp.cell_pole_1 _let_24) (tptp.cell_pole_1 _let_19) (tptp.ribosome_1 _let_17) (tptp.size_value_1 _let_15) (tptp.volume_value_1 _let_13) (tptp.membrane_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.plasma_membrane_1 _let_9) (tptp.move_1 _let_8) (tptp.move_1 _let_7) (tptp.centrosome_1 _let_6) (tptp.centrosome_1 _let_5) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.next_event_2 _let_43 _let_3) (tptp.subevent_2 X _let_43) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.duration_2 X _let_42) (tptp.first_subevent_2 X _let_43) (tptp.result_2 X _let_12) (tptp.has_state_2 _let_39 _let_12) (tptp.the_scalar_value_2 _let_42 tptp.brief_0) (tptp.scalar_unit_class_2 _let_42 tptp.mitotic_stage_0) (tptp.by_means_of_2 _let_3 _let_41) (tptp.by_means_of_2 _let_3 _let_40) (tptp.path_2 _let_10 _let_28) (tptp.base_2 X _let_39) (tptp.base_2 _let_3 _let_12) (tptp.is_inside_2 _let_36 _let_28) (tptp.has_part_2 _let_12 _let_23) (tptp.subevent_2 _let_1 _let_22) (tptp.has_region_2 _let_12 _let_32) (tptp.has_region_2 _let_12 _let_25) (tptp.is_inside_2 _let_18 _let_34) (tptp.has_part_2 _let_36 _let_34) (tptp.has_part_2 _let_12 _let_36) (tptp.has_part_2 _let_12 _let_21) (tptp.subevent_2 _let_1 _let_27) (tptp.object_2 _let_27 _let_12) (tptp.has_part_2 _let_12 _let_28) (tptp.has_part_2 _let_28 _let_30) (tptp.is_at_2 _let_30 _let_32) (tptp.has_region_2 _let_12 _let_20) (tptp.is_at_2 _let_21 _let_20) (tptp.away_from_2 _let_22 _let_21) (tptp.object_2 _let_22 _let_23) (tptp.is_at_2 _let_23 _let_25) (tptp.base_2 _let_1 _let_12) (tptp.volume_2 _let_12 _let_14) (tptp.directly_proportional_2 _let_16 _let_14) (tptp.size_2 _let_12 _let_16) (tptp.has_part_2 _let_12 _let_18) (= _let_28 _let_11) (= _let_39 (tptp.fn_mitotic_stage_1 X)) (= _let_12 _let_4) (= _let_23 _let_5) (= _let_22 _let_8) (= (tptp.fn_anaphase_7 X) _let_38) (= (tptp.fn_anaphase_6 X) _let_37) (= _let_21 _let_6) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_9) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_6) (= _let_22 _let_7) (= _let_21 _let_5) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_2) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_5) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaphase_i_19 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_anaphase_i_12 X))) (let ((_let_4 (tptp.fn_move_together_2 _let_3))) (let ((_let_5 (tptp.fn_anaphase_i_18 X))) (let ((_let_6 (tptp.fn_eukaryotic_cell_30 _let_5))) (let ((_let_7 (tptp.fn_anaphase_i_13 X))) (let ((_let_8 (tptp.fn_move_apart_1 _let_7))) (let ((_let_9 (tptp.fn_anaphase_i_16 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_anaphase_i_8 X))) (let ((_let_12 (tptp.fn_move_1 _let_11))) (let ((_let_13 (tptp.fn_anaphase_i_17 X))) (let ((_let_14 (tptp.fn_move_1 _let_13))) (let ((_let_15 (tptp.fn_move_apart_2 _let_7))) (let ((_let_16 (tptp.fn_anaphase_i_9 X))) (let ((_let_17 (tptp.fn_move_1 _let_16))) (let ((_let_18 (tptp.fn_anaphase_i_11 X))) (let ((_let_19 (tptp.fn_chromatid_1 _let_18))) (let ((_let_20 (tptp.fn_anaphase_i_21 X))) (let ((_let_21 (tptp.fn_anaphase_i_10 X))) (let ((_let_22 (tptp.fn_chromatid_1 _let_21))) (let ((_let_23 (tptp.fn_anaphase_i_20 X))) (let ((_let_24 (tptp.fn_cell_1 _let_5))) (let ((_let_25 (tptp.fn_anaphase_i_5 X))) (let ((_let_26 (tptp.fn_anaphase_i_15 X))) (let ((_let_27 (tptp.fn_move_apart_3 _let_7))) (let ((_let_28 (tptp.fn_anaphase_i_6 X))) (let ((_let_29 (tptp.fn_move_together_3 _let_3))) (let ((_let_30 (tptp.fn_anaphase_i_7 X))) (let ((_let_31 (tptp.fn_move_together_1 _let_3))) (let ((_let_32 (tptp.fn_anaphase_i_14 X))) (let ((_let_33 (tptp.fn_anaphase_i_4 X))) (let ((_let_34 (tptp.fn_anaphase_i_1 X))) (let ((_let_35 (tptp.fn_anaphase_i_2 X))) (let ((_let_36 (tptp.fn_anaphase_i_3 X))) (=> (tptp.anaphase_i_1 X) (and (tptp.original_name_2 X |tptp.'Anaphase-I'|) (tptp.user_description_2 X |tptp.'During anaphase I phase of meiosis the mitotic spindle guides the movement of chromosomes toward the poles. The sister-chromatids remain attached at their centromere and move as a single unit while the homologous chromosome moves toward the opposite pole.'|) (tptp.concept2words_2 X |tptp.'undergo anaphase i'|) (tptp.concept2words_2 X |tptp.'undergo anaphase-i'|) (tptp.concept2words_2 X |tptp.'anaphase i'|) (tptp.concept2words_2 X |tptp.'anaphase-i'|) (tptp.meiotic_event_1 X) (tptp.mitotic_spindle_1 _let_34) (tptp.kinetochore_microtubule_1 _let_35) (tptp.time_interval_1 _let_36) (tptp.time_interval_1 _let_33) (tptp.cell_pole_1 _let_25) (tptp.metaphase_plate_1 _let_28) (tptp.cell_pole_1 _let_30) (tptp.move_1 _let_11) (tptp.move_1 _let_16) (tptp.sister_chromatid_1 _let_21) (tptp.sister_chromatid_1 _let_18) (tptp.move_together_1 _let_3) (tptp.move_apart_1 _let_7) (tptp.homologous_chromosome_1 _let_32) (tptp.homologous_chromosome_1 _let_26) (tptp.move_1 _let_9) (tptp.move_1 _let_13) (tptp.eukaryotic_cell_1 _let_5) (tptp.move_1 _let_1) (tptp.centromere_1 _let_23) (tptp.centromere_1 _let_20) (tptp.spatial_entity_1 _let_31) (tptp.spatial_entity_1 _let_29) (tptp.spatial_entity_1 _let_27) (tptp.cell_pole_1 _let_24) (tptp.centromere_1 _let_22) (tptp.centromere_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.eukaryotic_chromosome_1 _let_6) (tptp.chromosome_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.time_before_2 _let_36 _let_33) (not (= _let_20 _let_23)) (not (= _let_23 _let_20)) (tptp.destination_2 _let_1 _let_30) (tptp.has_part_2 _let_5 _let_32) (tptp.has_region_2 _let_5 _let_30) (tptp.origin_2 _let_13 _let_28) (tptp.origin_2 _let_9 _let_28) (tptp.has_function_2 _let_35 _let_7) (tptp.agent_2 _let_7 _let_35) (tptp.next_event_2 _let_7 _let_3) (tptp.first_subevent_2 _let_7 _let_16) (tptp.first_subevent_2 _let_7 _let_11) (tptp.subevent_2 _let_7 _let_16) (tptp.subevent_2 _let_7 _let_11) (tptp.first_subevent_2 _let_3 _let_1) (tptp.subevent_2 _let_3 _let_1) (tptp.instrument_2 _let_3 _let_34) (tptp.origin_2 _let_16 _let_28) (tptp.destination_2 _let_16 _let_25) (tptp.destination_2 _let_11 _let_30) (tptp.origin_2 _let_11 _let_28) (not (= _let_30 _let_25)) (not (= _let_25 _let_30)) (tptp.time_during_2 X _let_33) (tptp.first_subevent_2 X _let_7) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_7) (tptp.object_2 _let_16 _let_32) (tptp.object_2 _let_11 _let_26) (tptp.object_2 _let_9 _let_26) (tptp.object_2 _let_7 _let_32) (tptp.object_2 _let_13 _let_32) (tptp.object_2 _let_7 _let_26) (tptp.object_2 _let_3 _let_18) (tptp.object_2 _let_3 _let_21) (tptp.object_2 _let_1 _let_18) (tptp.destination_2 _let_3 _let_30) (tptp.origin_2 _let_7 _let_28) (tptp.has_part_2 _let_5 _let_26) (tptp.has_region_2 _let_5 _let_25) (tptp.has_region_2 _let_21 _let_23) (tptp.has_region_2 _let_18 _let_20) (= _let_32 _let_17) (= _let_26 _let_12) (= _let_26 _let_10) (= _let_32 _let_15) (= _let_32 _let_14) (= _let_26 _let_8) (= _let_18 _let_4) (= _let_21 _let_31) (= _let_18 _let_2) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_6) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_20 _let_19) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaphase_ii_8 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_anaphase_ii_6 X))) (let ((_let_4 (tptp.fn_move_apart_2 _let_3))) (let ((_let_5 (tptp.fn_move_apart_1 _let_3))) (let ((_let_6 (tptp.fn_anaphase_ii_7 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_anaphase_ii_4 X))) (let ((_let_9 (tptp.fn_cell_1 _let_8))) (let ((_let_10 (tptp.fn_anaphase_ii_3 X))) (let ((_let_11 (tptp.fn_move_apart_3 _let_3))) (let ((_let_12 (tptp.fn_anaphase_ii_5 X))) (let ((_let_13 (tptp.fn_anaphase_ii_9 X))) (let ((_let_14 (tptp.fn_anaphase_ii_10 X))) (let ((_let_15 (tptp.fn_anaphase_ii_1 X))) (let ((_let_16 (tptp.fn_anaphase_ii_2 X))) (=> (tptp.anaphase_ii_1 X) (and (tptp.original_name_2 X |tptp.'Anaphase-II'|) (tptp.user_description_2 X |tptp.'During anaphase II, the centromeres of the sister chromatids separate. The sister chromatids of each pair move toward the opposite poles of the cell.'|) (tptp.concept2words_2 X |tptp.'undergo anaphase ii'|) (tptp.concept2words_2 X |tptp.'undergo anaphase-ii'|) (tptp.concept2words_2 X |tptp.'anaphase ii'|) (tptp.concept2words_2 X |tptp.'anaphase-ii'|) (tptp.meiotic_event_1 X) (tptp.cell_pole_1 _let_15) (tptp.kinetochore_microtubule_1 _let_16) (tptp.cell_pole_1 _let_10) (tptp.eukaryotic_cell_1 _let_8) (tptp.metaphase_plate_1 _let_12) (tptp.move_apart_1 _let_3) (tptp.move_1 _let_6) (tptp.move_1 _let_1) (tptp.sister_chromatid_1 _let_13) (tptp.sister_chromatid_1 _let_14) (tptp.spatial_entity_1 _let_11) (tptp.cell_pole_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.has_region_2 _let_8 _let_15) (tptp.subevent_2 X _let_3) (not (= _let_10 _let_15)) (tptp.subevent_2 _let_3 _let_1) (tptp.subevent_2 _let_3 _let_6) (tptp.agent_2 _let_3 _let_16) (not (= _let_15 _let_10)) (tptp.has_function_2 _let_16 _let_3) (tptp.destination_2 _let_6 _let_10) (tptp.origin_2 _let_6 _let_12) (tptp.origin_2 _let_1 _let_12) (tptp.destination_2 _let_1 _let_15) (not (= _let_13 _let_14)) (not (= _let_14 _let_13)) (tptp.object_2 _let_3 _let_13) (tptp.object_2 _let_6 _let_14) (tptp.object_2 _let_3 _let_14) (tptp.object_2 _let_1 _let_13) (tptp.origin_2 _let_3 _let_12) (tptp.has_region_2 _let_8 _let_10) (= _let_13 _let_4) (= _let_14 _let_7) (= _let_14 _let_5) (= _let_13 _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anaphase_promoting_complex_1 X))) (=> (tptp.anaphase_promoting_complex_1 X) (and (tptp.original_name_2 X |tptp.'Anaphase-Promoting-Complex'|) (tptp.user_description_2 X |tptp.'A group of molecules that triggers the eventual breakup of kinetochores holding sister chromatids together and indicates the onset of anaphase.'|) (tptp.concept2words_2 X |tptp.'anaphase promoting complex'|) (tptp.concept2words_2 X |tptp.'anaphase-promoting complex'|) (tptp.concept2words_2 X |tptp.'anaphase-promoting-complex'|) (tptp.protein_complex_1 X) (not (tptp.capsomere_1 X)) (not (tptp.complement_system_1 X)) (not (tptp.light_harvesting_complex_1 X)) (not (tptp.membrane_attack_complex_1 X)) (not (tptp.myofibril_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_core_1 X)) (not (tptp.reaction_center_complex_1 X)) (not (tptp.rosette_cellulose_synthesizing_complex_1 X)) (not (tptp.thick_filament_1 X)) (not (tptp.thin_filament_1 X)) (not (tptp.troponin_complex_1 X)) (tptp.protein_1 _let_1) (tptp.exactCardinality X tptp.element_0 |"0"| tptp.cyclin_dependent_kinase_0) (tptp.exactCardinality X tptp.element_0 |"0"| tptp.cyclin_0) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_protein_complex_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.anaphylactic_shock_1 X) (and (tptp.original_name_2 X |tptp.'Anaphylactic-Shock'|) (tptp.user_description_2 X |tptp.'A life-threatening allergic reaction to injected or ingested allergens.'|) (tptp.concept2words_2 X |tptp.'anaphylactic shock'|) (tptp.concept2words_2 X |tptp.'anaphylactic-shock'|) (tptp.immune_disorders_1 X) (not (tptp.autoimmune_disease_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anapsid_1 X) (and (tptp.original_name_2 X |tptp.'Anapsid'|) (tptp.user_description_2 X |tptp.'A group of extinct amniote vertebrates whose skulls do not have temporal openings.'|) (tptp.concept2words_2 X tptp.anapsid) (tptp.early_vertebrate_1 X) (tptp.extinct_vertebrate_1 X) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anatomical_appendage_1 X) (and (tptp.original_name_2 X |tptp.'Anatomical-Appendage'|) (tptp.user_description_2 X |tptp.'An external body part, or natural prolongation, that protrudes from an organism_'s body.'|) (tptp.concept2words_2 X tptp.appendage) (tptp.concept2words_2 X |tptp.'appendage of anatomical'|) (tptp.concept2words_2 X |tptp.'anatomical appendage'|) (tptp.concept2words_2 X |tptp.'anatomical-appendage'|) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anatomical_region_1 X) (and (tptp.original_name_2 X |tptp.'Anatomical-Region'|) (tptp.user_description_2 X |tptp.'Descriptive term referring to a specific location of an animal_'s body relative to its location to correct anatomical position.'|) (tptp.concept2words_2 X |tptp.'anatomical terms of location'|) (tptp.concept2words_2 X |tptp.'anatomical-terms-of-location'|) (tptp.concept2words_2 X |tptp.'region of anatomical'|) (tptp.concept2words_2 X |tptp.'anatomical region'|) (tptp.concept2words_2 X |tptp.'anatomical-region'|) (tptp.organismal_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anatomical_space_1 X) (and (tptp.original_name_2 X |tptp.'Anatomical-Space'|) (tptp.user_description_2 X |tptp.'A space surrounded by anatomical structures.'|) (tptp.concept2words_2 X |tptp.'space of anatomical'|) (tptp.concept2words_2 X |tptp.'anatomical space'|) (tptp.concept2words_2 X |tptp.'anatomical-space'|) (tptp.space_1 X) (tptp.organismal_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anatomical_structure_1 X) (and (tptp.original_name_2 X |tptp.'Anatomical-Structure'|) (tptp.user_description_2 X |tptp.'Any structural feature of an organism.'|) (tptp.concept2words_2 X |tptp.'structure of anatomical'|) (tptp.concept2words_2 X |tptp.'anatomical structure'|) (tptp.concept2words_2 X |tptp.'anatomical-structure'|) (tptp.living_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anatomist_1 X) (and (tptp.original_name_2 X |tptp.'Anatomist'|) (tptp.user_description_2 X |tptp.'Person who studies anatomy and the relationships between anatomical parts, typically of the human body.'|) (tptp.concept2words_2 X tptp.anatomist) (tptp.biologist_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anatomy_1 X) (and (tptp.original_name_2 X |tptp.'Anatomy'|) (tptp.user_description_2 X |tptp.'The physical structure of an organism, or the study of this aspect of an organism.'|) (tptp.concept2words_2 X tptp.anatomize) (tptp.concept2words_2 X tptp.anatomy) (tptp.morphology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ancestral_gene_2 X))) (let ((_let_2 (tptp.fn_ancestral_gene_1 X))) (=> (tptp.ancestral_gene_1 X) (and (tptp.original_name_2 X |tptp.'Ancestral-Gene'|) (tptp.user_description_2 X |tptp.'The common genes that, through evolution, has produced resulting genomes.'|) (tptp.concept2words_2 X |tptp.'ancestral gene'|) (tptp.concept2words_2 X |tptp.'ancestral-gene'|) (tptp.gene_1 X) (tptp.gene_1 _let_2) (tptp.evolution_1 _let_1) (tptp.result_2 _let_1 _let_2) (tptp.object_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.anchor_1 X) (and (tptp.original_name_2 X |tptp.'Anchor'|) (tptp.user_description_2 X |tptp.'Process of holding something stationary in order to provide support.'|) (tptp.concept2words_2 X tptp.anchor) (tptp.support_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anchor_cell_1 X) (and (tptp.original_name_2 X |tptp.'Anchor-Cell'|) (tptp.user_description_2 X |tptp.'In nematode worms, a cell in the gonad that initiates a cascade leading to the formation of structures in the female reproductive system.'|) (tptp.concept2words_2 X |tptp.'cell of anchor'|) (tptp.concept2words_2 X |tptp.'anchor cell'|) (tptp.concept2words_2 X |tptp.'anchor-cell'|) (tptp.reproductive_cell_1 X) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anchor_cell_destruction_experiment_9 X))) (let ((_let_2 (tptp.fn_scientist_2 _let_1))) (let ((_let_3 (tptp.fn_anchor_cell_destruction_experiment_4 X))) (let ((_let_4 (tptp.fn_model_organism_6 _let_3))) (let ((_let_5 (tptp.fn_anchor_cell_destruction_experiment_10 X))) (let ((_let_6 (tptp.fn_anchor_cell_destruction_experiment_6 X))) (let ((_let_7 (tptp.fn_create_1 _let_6))) (let ((_let_8 (tptp.fn_anchor_cell_destruction_experiment_7 X))) (let ((_let_9 (tptp.fn_anchor_cell_destruction_experiment_5 X))) (let ((_let_10 (tptp.fn_impair_1 _let_9))) (let ((_let_11 (tptp.fn_anchor_cell_destruction_experiment_8 X))) (let ((_let_12 (tptp.fn_anchor_cell_destruction_experiment_1 X))) (let ((_let_13 (tptp.fn_anchor_cell_destruction_experiment_2 X))) (let ((_let_14 (tptp.fn_anchor_cell_destruction_experiment_3 X))) (=> (tptp.anchor_cell_destruction_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Anchor-Cell-Destruction-Experiment'|) (tptp.user_description_2 X |tptp.'An experiment conducted to study destruction of the anchor cell with a laser beam. The vulva fails to form and the precursor cells simply become part of the worm_'s epidermis.'|) (tptp.concept2words_2 X |tptp.'perform an anchor cell destruction experiment'|) (tptp.concept2words_2 X |tptp.'anchor cell destruction experiment'|) (tptp.concept2words_2 X |tptp.'anchor-cell-destruction-experiment'|) (tptp.experiment_1 X) (not (tptp.bicoid_protein_hypothesis_experiment_1 X)) (not (tptp.controlled_experiment_1 X)) (not (tptp.meselson_and_stahl_experiment_1 X)) (not (tptp.steward_experiment_on_carrot_1 X)) (not (tptp.study_on_drosophila_by_morgan_1 X)) (not (tptp.tomato_chimera_experiment_1 X)) (not (tptp.undifferentiated_cell_nucleus_transplantation_to_frog_egg_1 X)) (tptp.vulva_development_1 _let_12) (tptp.laser_light_1 _let_13) (tptp.vulval_precursor_cell_1 _let_14) (tptp.model_organism_1 _let_3) (tptp.destroy_1 _let_9) (tptp.create_1 _let_6) (tptp.epidermis_1 _let_8) (tptp.anchor_cell_1 _let_11) (tptp.scientist_1 _let_1) (tptp.caenorhabditis_elegans_1 _let_5) (tptp.tangible_entity_1 _let_10) (tptp.entity_1 _let_7) (tptp.organism_1 _let_4) (tptp.study_1 _let_2) (tptp.result_2 X _let_5) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_9) (tptp.exactCardinality _let_6 tptp.base_0 |"6"| tptp.vulval_precursor_cell_0) (tptp.base_2 _let_6 _let_14) (tptp.causes_2 _let_9 _let_6) (tptp.agent_2 _let_9 _let_13) (tptp.prevents_2 _let_9 _let_12) (tptp.object_2 _let_9 _let_11) (tptp.result_2 _let_6 _let_8) (tptp.plays_2 _let_5 _let_3) (tptp.agent_2 X _let_1) (= _let_11 _let_10) (= _let_8 _let_7) (= _let_5 _let_4) (= X _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anchorage_dependence_1 X))) (let ((_let_2 (tptp.fn_cell_division_3 _let_1))) (let ((_let_3 (tptp.fn_anchorage_dependence_2 X))) (let ((_let_4 (tptp.fn_attach_1 _let_3))) (let ((_let_5 (tptp.fn_anchorage_dependence_3 X))) (=> (tptp.anchorage_dependence_1 X) (and (tptp.original_name_2 X |tptp.'Anchorage-Dependence'|) (tptp.user_description_2 X |tptp.'Mechanism of regulation of cell division, in which contact with a substrate (such as a culture vial or tissue) is required in order for a cell to divide. Anchorage dependence prevents free-floating or isolated cells from dividing.'|) (tptp.concept2words_2 X |tptp.'dependence of anchorage'|) (tptp.concept2words_2 X |tptp.'anchorage dependence'|) (tptp.concept2words_2 X |tptp.'anchorage-dependence'|) (tptp.cellular_process_1 X) (tptp.cell_division_1 _let_1) (tptp.attach_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.cell_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.cell_1 _let_2) (tptp.by_means_of_2 X _let_3) (tptp.base_2 X _let_5) (tptp.base_2 _let_1 _let_5) (tptp.enables_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_5) (tptp.object_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anchoring_of_organelles_1 X))) (let ((_let_2 (tptp.fn_cytoskeleton_5 _let_1))) (let ((_let_3 (tptp.fn_anchoring_of_organelles_2 X))) (=> (tptp.anchoring_of_organelles_1 X) (and (tptp.original_name_2 X |tptp.'Anchoring-of-organelles'|) (tptp.user_description_2 X |tptp.'Organelles are held in place by intermediate filaments, a component of the cytoskeleton.'|) (tptp.concept2words_2 X |tptp.'organelle anchoring'|) (tptp.concept2words_2 X tptp.anchor) (tptp.concept2words_2 X |tptp.'anchoring of organelle'|) (tptp.concept2words_2 X |tptp.'anchoring-of-organelle'|) (tptp.anchor_1 X) (tptp.cytoskeleton_1 _let_1) (tptp.organelle_1 _let_3) (tptp.support_1 _let_2) (tptp.object_2 X _let_3) (tptp.has_function_2 _let_1 X) (tptp.agent_2 X _let_1) (= _let_3 (tptp.fn_support_1 X)) (= X _let_2) (= _let_2 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.androgen_1 X) (and (tptp.original_name_2 X |tptp.'Androgen'|) (tptp.user_description_2 X |tptp.'A steroid hormone that binds to androgen receptors and stimulates and regulates the development and maintenance of male sexual characteristics.'|) (tptp.concept2words_2 X tptp.androgen) (tptp.sex_hormone_1 X) (not (tptp.estrogen_1 X)) (not (tptp.cytokinin_1 X)) (not (tptp.progestin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.aneuploidy_1 X) (and (tptp.original_name_2 X |tptp.'Aneuploidy'|) (tptp.user_description_2 X |tptp.'An abnormal number of chromosomes.'|) (tptp.concept2words_2 X tptp.aneuploidy) (tptp.chromosomal_disorder_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.angelman_syndrome_1 X) (and (tptp.original_name_2 X |tptp.'Angelman-Syndrome'|) (tptp.user_description_2 X |tptp.'A human genetic disorder caused by loss of the normal maternal expression of a gene on chromosome 15.'|) (tptp.concept2words_2 X |tptp.'angelman syndrome'|) (tptp.concept2words_2 X |tptp.'angelman-syndrome'|) (tptp.human_genetic_disorder_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.alkaptonuria_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_angiopserm_plant_development_1 X))) (=> (tptp.angiopserm_plant_development_1 X) (and (tptp.original_name_2 X |tptp.'Angiopserm-Plant-Development'|) (tptp.user_description_2 X |tptp.'Angiosperm plant development includes the formation of a complete embryo from a zygote ; seed germination; the elaboration of a mature vegetative plant from the embryo; the formation of flowers, fruits, and seeds.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'angiopserm plant development'|) (tptp.concept2words_2 X |tptp.'angiopserm-plant-development'|) (tptp.plant_development_1 X) (tptp.flower_development_1 _let_1) (tptp.subevent_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_angiosperm_3 X))) (let ((_let_2 (tptp.fn_vessel_8 _let_1))) (let ((_let_3 (tptp.fn_vessel_15 _let_1))) (let ((_let_4 (tptp.fn_vessel_7 _let_1))) (let ((_let_5 (tptp.fn_angiosperm_5 X))) (let ((_let_6 (tptp.fn_xylem_15 _let_5))) (let ((_let_7 (tptp.fn_tissue_1 _let_5))) (let ((_let_8 (tptp.fn_angiosperm_11 X))) (let ((_let_9 (tptp.fn_angiosperm_9 X))) (let ((_let_10 (tptp.fn_angiosperm_10 X))) (let ((_let_11 (tptp.fn_vessel_9 _let_1))) (let ((_let_12 (tptp.fn_angiosperm_8 X))) (let ((_let_13 (tptp.fn_angiosperm_7 X))) (let ((_let_14 (tptp.fn_root_5 _let_13))) (let ((_let_15 (tptp.fn_angiosperm_6 X))) (let ((_let_16 (tptp.fn_angiosperm_4 X))) (let ((_let_17 (tptp.fn_plant_vein_1 _let_15))) (let ((_let_18 (tptp.fn_angiosperm_1 X))) (let ((_let_19 (tptp.fn_angiosperm_2 X))) (=> (tptp.angiosperm_1 X) (and (tptp.original_name_2 X |tptp.'Angiosperm'|) (tptp.user_description_2 X |tptp.'The taxonomic grouping of flowering plants, which produce seeds inside a fleshy ovary, called a fruit.'|) (tptp.concept2words_2 X |tptp.'flowering plant'|) (tptp.concept2words_2 X |tptp.'flowering-plant'|) (tptp.concept2words_2 X tptp.anthophyta) (tptp.concept2words_2 X tptp.angiosperm) (tptp.seed_plant_1 X) (not (tptp.gymnosperm_1 X)) (tptp.flower_1 _let_18) (tptp.fruit_1 _let_19) (tptp.vessel_1 _let_1) (tptp.eukaryotic_cell_1 _let_16) (tptp.tracheid_1 _let_16) (tptp.tissue_1 _let_5) (tptp.xylem_1 _let_5) (tptp.plant_vein_1 _let_15) (tptp.root_1 _let_13) (tptp.move_through_1 _let_12) (tptp.cell_1 _let_9) (tptp.plant_cell_1 _let_9) (tptp.vessel_element_1 _let_9) (tptp.vessel_element_1 _let_10) (tptp.cell_1 _let_8) (tptp.plant_cell_1 _let_8) (tptp.vessel_element_1 _let_8) (tptp.xylem_1 _let_17) (tptp.plant_vein_1 _let_14) (tptp.move_through_1 _let_11) (tptp.eukaryotic_cell_1 _let_7) (tptp.tracheid_1 _let_6) (tptp.vessel_element_1 _let_4) (tptp.cell_1 _let_3) (tptp.plant_cell_1 _let_3) (tptp.vessel_element_1 _let_3) (tptp.vessel_element_1 _let_2) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_18) (tptp.has_part_2 _let_5 _let_1) (tptp.is_above_2 _let_8 _let_9) (tptp.has_part_2 _let_15 _let_5) (tptp.has_part_2 X _let_13) (tptp.has_part_2 _let_5 _let_16) (tptp.has_part_2 _let_13 _let_15) (tptp.origin_2 _let_12 _let_8) (tptp.element_2 _let_1 _let_9) (tptp.abuts_2 _let_10 _let_9) (tptp.element_2 _let_1 _let_10) (tptp.base_2 _let_12 _let_1) (tptp.destination_2 _let_12 _let_9) (tptp.is_above_2 _let_9 _let_10) (tptp.abuts_2 _let_9 _let_10) (tptp.element_2 _let_1 _let_8) (not (= _let_8 _let_10)) (not (= _let_10 _let_9)) (not (= _let_9 _let_8)) (not (= _let_8 _let_9)) (not (= _let_10 _let_8)) (not (= _let_9 _let_10)) (= _let_5 _let_17) (= _let_13 (tptp.fn_seed_plant_15 X)) (= _let_16 _let_7) (= _let_16 _let_6) (= _let_15 _let_14) (= _let_10 _let_2) (= _let_9 _let_4) (= _let_12 _let_11) (= _let_9 _let_3) (= _let_10 _let_4) (= _let_9 _let_2) (= _let_8 _let_3) (= _let_7 _let_6) (= _let_6 _let_2) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.angle_constant_1 X) (and (tptp.original_name_2 X |tptp.'Angle-Constant'|) (tptp.concept2words_2 X |tptp.'constant of angle'|) (tptp.concept2words_2 X |tptp.'angle constant'|) (tptp.concept2words_2 X |tptp.'angle-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.angle_value_1 X) (and (tptp.original_name_2 X |tptp.'Angle-Value'|) (tptp.description_2 X |tptp.'the angle of a Spatial-Entity'|) (tptp.concept2words_2 X tptp.way) (tptp.concept2words_2 X tptp.orientation) (tptp.concept2words_2 X tptp.meridian) (tptp.concept2words_2 X |tptp.'line of longitude'|) (tptp.concept2words_2 X tptp.longitude) (tptp.concept2words_2 X tptp.latitude) (tptp.concept2words_2 X tptp.direction) (tptp.concept2words_2 X tptp.angle) (tptp.concept2words_2 X |tptp.'value of angle'|) (tptp.concept2words_2 X |tptp.'angle value'|) (tptp.concept2words_2 X |tptp.'angle-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anhydrobiosis_1 X) (and (tptp.original_name_2 X |tptp.'Anhydrobiosis'|) (tptp.user_description_2 X |tptp.'A form of cryptobiosis in which an organism loses almost all of its water and goes into a dormant state.'|) (tptp.concept2words_2 X tptp.anhydrobiosis) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animacy_constant_1 X) (and (tptp.original_name_2 X |tptp.'Animacy-Constant'|) (tptp.concept2words_2 X |tptp.'animacy constant'|) (tptp.concept2words_2 X |tptp.'animacy-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animacy_value_1 X) (and (tptp.original_name_2 X |tptp.'Animacy-Value'|) (tptp.description_2 X |tptp.'the animacy of an Entity'|) (tptp.concept2words_2 X tptp.animateness) (tptp.concept2words_2 X tptp.aliveness) (tptp.concept2words_2 X tptp.liveness) (tptp.concept2words_2 X tptp.animacy) (tptp.concept2words_2 X |tptp.'animacy value'|) (tptp.concept2words_2 X |tptp.'animacy-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_8 X))) (let ((_let_2 (tptp.fn_carbohydrate_39 _let_1))) (let ((_let_3 (tptp.fn_animal_11 X))) (let ((_let_4 (tptp.fn_animal_nutritional_requirement_52 _let_3))) (let ((_let_5 (tptp.fn_carbohydrate_5 _let_1))) (let ((_let_6 (tptp.fn_animal_nutritional_requirement_61 _let_3))) (let ((_let_7 (tptp.fn_animal_18 X))) (let ((_let_8 (tptp.fn_heterotroph_2 _let_7))) (let ((_let_9 (tptp.fn_animal_22 X))) (let ((_let_10 (tptp.fn_locomotion_1 _let_9))) (let ((_let_11 (tptp.fn_animal_9 X))) (let ((_let_12 (tptp.fn_take_in_1 _let_11))) (let ((_let_13 (tptp.fn_animal_24 X))) (let ((_let_14 (tptp.fn_store_2 _let_13))) (let ((_let_15 (tptp.fn_animal_nutritional_requirement_38 _let_3))) (let ((_let_16 (tptp.fn_animal_7 X))) (let ((_let_17 (tptp.fn_protein_14 _let_16))) (let ((_let_18 (tptp.fn_animal_16 X))) (let ((_let_19 (tptp.fn_animal_12 X))) (let ((_let_20 (tptp.fn_carbohydrate_38 _let_1))) (let ((_let_21 (tptp.fn_animal_17 X))) (let ((_let_22 (tptp.fn_animal_26 X))) (let ((_let_23 (tptp.fn_animal_25 X))) (let ((_let_24 (tptp.fn_animal_20 X))) (let ((_let_25 (tptp.fn_heterotroph_3 _let_7))) (let ((_let_26 (tptp.fn_animal_19 X))) (let ((_let_27 (tptp.fn_heterotroph_5 _let_7))) (let ((_let_28 (tptp.fn_animal_6 X))) (let ((_let_29 (tptp.fn_animal_nutritional_requirement_62 _let_3))) (let ((_let_30 (tptp.fn_animal_13 X))) (let ((_let_31 (tptp.fn_animal_14 X))) (let ((_let_32 (tptp.fn_protein_8 _let_16))) (let ((_let_33 (tptp.fn_animal_15 X))) (let ((_let_34 (tptp.fn_move_1 _let_11))) (let ((_let_35 (tptp.fn_animal_10 X))) (let ((_let_36 (tptp.fn_animal_21 X))) (let ((_let_37 (tptp.fn_store_1 _let_13))) (let ((_let_38 (tptp.fn_animal_23 X))) (let ((_let_39 (tptp.fn_animal_2 X))) (let ((_let_40 (tptp.fn_animal_5 X))) (let ((_let_41 (tptp.fn_animal_1 X))) (let ((_let_42 (tptp.fn_animal_3 X))) (let ((_let_43 (tptp.fn_animal_4 X))) (=> (tptp.animal_1 X) (and (tptp.original_name_2 X |tptp.'Animal'|) (tptp.description_2 X |tptp.'a living entity capable of locomotion'|) (tptp.user_description_2 X |tptp.'Animal is a kingdom of organisms like Plant, fungi and bacteria'|) (tptp.concept2words_2 X tptp.animal) (tptp.concept2words_2 X |tptp.'animate being'|) (tptp.concept2words_2 X tptp.animate_being) (tptp.concept2words_2 X tptp.beast) (tptp.concept2words_2 X tptp.brute) (tptp.concept2words_2 X tptp.creature) (tptp.concept2words_2 X tptp.fauna) (tptp.concept2words_2 X tptp.tiger) (tptp.eukaryote_1 X) (tptp.multicellular_organism_1 X) (not (tptp.plant_1 X)) (not (tptp.fungus_1 X)) (not (tptp.protist_1 X)) (not (tptp.gametophyte_1 X)) (not (tptp.sporophyte_1 X)) (tptp.organic_entity_1 _let_41) (tptp.digestive_tract_1 _let_39) (tptp.nervous_system_1 _let_42) (tptp.circulatory_system_1 _let_43) (tptp.digestive_system_1 _let_40) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.protein_1 _let_16) (tptp.carbohydrate_1 _let_1) (tptp.take_in_1 _let_11) (tptp.diet_1 _let_35) (tptp.animal_nutritional_requirement_1 _let_3) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.carbon_1 _let_19) (tptp.chemical_entity_1 _let_30) (tptp.tangible_entity_1 _let_30) (tptp.entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.nitrogen_1 _let_30) (tptp.spatial_entity_1 _let_31) (tptp.monomer_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.molecule_1 _let_31) (tptp.amino_acid_1 _let_31) (tptp.polypeptide_1 _let_33) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.oxygen_1 _let_21) (tptp.heterotroph_1 _let_7) (tptp.nutrition_1 _let_26) (tptp.water_1 _let_24) (tptp.animal_cell_1 _let_36) (tptp.locomotion_1 _let_9) (tptp.glycogen_1 _let_38) (tptp.store_1 _let_13) (tptp.specific_heat_value_1 _let_23) (tptp.temperature_value_1 _let_22) (tptp.entity_1 _let_37) (tptp.spatial_entity_1 _let_34) (tptp.polypeptide_1 _let_32) (tptp.chemical_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.nitrogen_1 _let_29) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.nutrition_1 _let_25) (tptp.entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.oxygen_1 _let_20) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.monomer_1 _let_17) (tptp.molecule_1 _let_17) (tptp.amino_acid_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.monomer_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.molecule_1 _let_15) (tptp.amino_acid_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.organism_1 _let_8) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.carbon_1 _let_6) (tptp.carbon_1 _let_5) (tptp.entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.oxygen_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.oxygen_1 _let_2) (tptp.has_region_2 X _let_40) (tptp.has_region_2 X _let_43) (tptp.has_region_2 X _let_42) (tptp.element_2 _let_35 _let_28) (tptp.element_2 _let_35 _let_41) (tptp.raw_material_2 _let_26 _let_41) (tptp.result_2 _let_26 _let_16) (tptp.result_2 _let_26 _let_1) (tptp.has_region_2 _let_40 _let_39) (tptp.object_2 _let_13 _let_38) (tptp.has_part_2 X _let_36) (tptp.object_2 _let_11 _let_35) (tptp.base_2 _let_13 X) (tptp.base_2 _let_11 X) (tptp.agent_2 _let_11 X) (tptp.object_2 _let_9 X) (tptp.agent_2 _let_9 X) (tptp.has_part_2 _let_16 _let_33) (tptp.has_part_2 _let_33 _let_31) (tptp.element_2 _let_3 _let_30) (tptp.has_part_2 _let_31 _let_30) (tptp.element_2 _let_3 _let_19) (not (= _let_18 _let_19)) (not (= _let_19 _let_18)) (tptp.raw_material_2 _let_26 _let_28) (tptp.in_event_2 _let_7 _let_26) (tptp.agent_2 _let_26 X) (tptp.plays_2 X _let_7) (tptp.temperature_2 X _let_22) (tptp.correspondence_2 _let_22 _let_23) (tptp.specific_heat_2 _let_24 _let_23) (tptp.has_part_2 X _let_24) (not (= _let_21 _let_18)) (not (= _let_18 _let_21)) (not (= _let_21 _let_19)) (not (= _let_19 _let_21)) (tptp.has_part_2 _let_1 _let_21) (tptp.has_part_2 _let_1 _let_19) (tptp.has_part_2 _let_1 _let_18) (= _let_38 _let_37) (= _let_36 (tptp.fn_multicellular_organism_1 X)) (= _let_35 _let_34) (= X _let_14) (= X _let_12) (= X _let_10) (= _let_31 _let_17) (= _let_33 _let_32) (= _let_31 _let_15) (= _let_30 _let_29) (= _let_18 _let_4) (= _let_19 _let_6) (= _let_28 _let_27) (= X _let_8) (= _let_26 _let_25) (= (tptp.fn_animal_28 X) (tptp.fn_organism_1 X)) (= (tptp.fn_animal_27 X) (tptp.fn_organism_6 X)) (= _let_24 (tptp.fn_organism_4 X)) (= _let_23 (tptp.fn_organism_5 X)) (= _let_22 (tptp.fn_organism_2 X)) (= _let_21 _let_20) (= _let_19 _let_5) (= _let_18 _let_2) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_appendage_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Appendage'|) (tptp.user_description_2 X |tptp.'An external body part, or natural prolongation, that protrudes from an animal_'s body.'|) (tptp.concept2words_2 X |tptp.'appendage of animal'|) (tptp.concept2words_2 X |tptp.'animal appendage'|) (tptp.concept2words_2 X |tptp.'animal-appendage'|) (tptp.anatomical_appendage_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_66 X))) (let ((_let_2 (tptp.fn_centriole_8 _let_1))) (let ((_let_3 (tptp.fn_centriole_2 _let_1))) (let ((_let_4 (tptp.fn_centriole_11 _let_1))) (let ((_let_5 (tptp.fn_centriole_9 _let_1))) (let ((_let_6 (tptp.fn_animal_cell_59 X))) (let ((_let_7 (tptp.fn_mitochondrion_38 _let_6))) (let ((_let_8 (tptp.fn_animal_cell_31 X))) (let ((_let_9 (tptp.fn_mitochondrial_matrix_6 _let_8))) (let ((_let_10 (tptp.fn_mitochondrial_matrix_4 _let_8))) (let ((_let_11 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_12 (tptp.fn_animal_cell_45 X))) (let ((_let_13 (tptp.fn_peroxisome_32 _let_12))) (let ((_let_14 (tptp.fn_animal_cell_42 X))) (let ((_let_15 (tptp.fn_reactant_2 _let_14))) (let ((_let_16 (tptp.fn_animal_cell_46 X))) (let ((_let_17 (tptp.fn_decomposition_reaction_4 _let_16))) (let ((_let_18 (tptp.fn_decomposition_reaction_2 _let_16))) (let ((_let_19 (tptp.fn_animal_cell_21 X))) (let ((_let_20 (tptp.fn_catabolic_pathway_10 _let_19))) (let ((_let_21 (tptp.fn_animal_cell_22 X))) (let ((_let_22 (tptp.fn_move_1 _let_21))) (let ((_let_23 (tptp.fn_mitochondrion_51 _let_6))) (let ((_let_24 (tptp.fn_animal_cell_82 X))) (let ((_let_25 (tptp.fn_golgi_apparatus_22 _let_24))) (let ((_let_26 (tptp.fn_animal_cell_80 X))) (let ((_let_27 (tptp.fn_integrin_6 _let_26))) (let ((_let_28 (tptp.fn_animal_cell_76 X))) (let ((_let_29 (tptp.fn_support_1 _let_28))) (let ((_let_30 (tptp.fn_animal_cell_61 X))) (let ((_let_31 (tptp.fn_support_1 _let_30))) (let ((_let_32 (tptp.fn_metabolic_pathway_1 _let_19))) (let ((_let_33 (tptp.fn_animal_cell_73 X))) (let ((_let_34 (tptp.fn_animal_plasma_membrane_56 _let_33))) (let ((_let_35 (tptp.fn_mitochondrion_52 _let_6))) (let ((_let_36 (tptp.fn_animal_cell_30 X))) (let ((_let_37 (tptp.fn_chemiosmosis_118 _let_36))) (let ((_let_38 (tptp.fn_mitochondrion_160 _let_6))) (let ((_let_39 (tptp.fn_eukaryotic_cell_32 X))) (let ((_let_40 (tptp.fn_golgi_apparatus_91 _let_24))) (let ((_let_41 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_42 (tptp.fn_golgi_apparatus_90 _let_24))) (let ((_let_43 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_44 (tptp.fn_golgi_apparatus_15 _let_24))) (let ((_let_45 (tptp.fn_eukaryotic_cell_30 X))) (let ((_let_46 (tptp.fn_eukaryotic_cell_33 X))) (let ((_let_47 (tptp.fn_semiautonomous_organelle_2 _let_6))) (let ((_let_48 (tptp.fn_mitochondrial_matrix_5 _let_8))) (let ((_let_49 (tptp.fn_eukaryotic_cell_41 X))) (let ((_let_50 (tptp.fn_integrin_29 _let_26))) (let ((_let_51 (tptp.fn_animal_plasma_membrane_54 _let_33))) (let ((_let_52 (tptp.fn_plasma_membrane_71 _let_33))) (let ((_let_53 (tptp.fn_biomembrane_63 _let_33))) (let ((_let_54 (tptp.fn_eukaryotic_cell_50 X))) (let ((_let_55 (tptp.fn_plasma_membrane_54 _let_33))) (let ((_let_56 (tptp.fn_integrin_9 _let_26))) (let ((_let_57 (tptp.fn_animal_plasma_membrane_47 _let_33))) (let ((_let_58 (tptp.fn_eukaryotic_cell_49 X))) (let ((_let_59 (tptp.fn_plasma_membrane_68 _let_33))) (let ((_let_60 (tptp.fn_integrin_8 _let_26))) (let ((_let_61 (tptp.fn_plasma_membrane_55 _let_33))) (let ((_let_62 (tptp.fn_animal_plasma_membrane_53 _let_33))) (let ((_let_63 (tptp.fn_animal_plasma_membrane_62 _let_33))) (let ((_let_64 (tptp.fn_plasma_membrane_3 _let_33))) (let ((_let_65 (tptp.fn_integrin_30 _let_26))) (let ((_let_66 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_67 (tptp.fn_transmembrane_protein_4 _let_26))) (let ((_let_68 (tptp.fn_animal_plasma_membrane_67 _let_33))) (let ((_let_69 (tptp.fn_animal_plasma_membrane_55 _let_33))) (let ((_let_70 (tptp.fn_plasma_membrane_65 _let_33))) (let ((_let_71 (tptp.fn_transmembrane_protein_5 _let_26))) (let ((_let_72 (tptp.fn_animal_plasma_membrane_77 _let_33))) (let ((_let_73 (tptp.fn_animal_plasma_membrane_52 _let_33))) (let ((_let_74 (tptp.fn_animal_plasma_membrane_66 _let_33))) (let ((_let_75 (tptp.fn_animal_plasma_membrane_51 _let_33))) (let ((_let_76 (tptp.fn_plasma_membrane_6 _let_33))) (let ((_let_77 (tptp.fn_centriole_7 _let_1))) (let ((_let_78 (tptp.fn_animal_cell_65 X))) (let ((_let_79 (tptp.fn_centriole_6 _let_1))) (let ((_let_80 (tptp.fn_animal_cell_74 X))) (let ((_let_81 (tptp.fn_centrosome_3 _let_80))) (let ((_let_82 (tptp.fn_animal_cell_68 X))) (let ((_let_83 (tptp.fn_animal_cell_69 X))) (let ((_let_84 (tptp.fn_centriole_10 _let_1))) (let ((_let_85 (tptp.fn_animal_cell_70 X))) (let ((_let_86 (tptp.fn_mitochondrion_3 _let_6))) (let ((_let_87 (tptp.fn_animal_cell_32 X))) (let ((_let_88 (tptp.fn_mitochondrion_1 _let_6))) (let ((_let_89 (tptp.fn_mitochondrion_37 _let_6))) (let ((_let_90 (tptp.fn_animal_cell_24 X))) (let ((_let_91 (tptp.fn_mitochondrion_4 _let_6))) (let ((_let_92 (tptp.fn_animal_cell_33 X))) (let ((_let_93 (tptp.fn_mitochondrion_2 _let_6))) (let ((_let_94 (tptp.fn_mitochondrion_79 _let_6))) (let ((_let_95 (tptp.fn_animal_cell_35 X))) (let ((_let_96 (tptp.fn_mitochondrion_57 _let_6))) (let ((_let_97 (tptp.fn_animal_cell_34 X))) (let ((_let_98 (tptp.fn_mitochondrion_62 _let_6))) (let ((_let_99 (tptp.fn_animal_cell_26 X))) (let ((_let_100 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((_let_163 (tptp.fn_catabolic_pathway_9 _let_19))) (let ((_let_164 (tptp.fn_animal_cell_36 X))) (let ((_let_165 (tptp.fn_catabolic_pathway_2 _let_19))) (let ((_let_166 (tptp.fn_animal_cell_38 X))) (let ((_let_167 (tptp.fn_catabolic_pathway_4 _let_19))) (let ((_let_168 (tptp.fn_animal_cell_37 X))) (let ((_let_169 (tptp.fn_catabolic_pathway_5 _let_19))) (let ((_let_170 (tptp.fn_catabolic_pathway_1 _let_19))) (let ((_let_171 (tptp.fn_animal_cell_84 X))) (let ((_let_172 (tptp.fn_animal_cell_83 X))) (let ((_let_173 (tptp.fn_animal_cell_85 X))) (let ((_let_174 (tptp.fn_animal_cell_72 X))) (let ((_let_175 (tptp.fn_animal_cell_13 X))) (let ((_let_176 (tptp.fn_create_1 _let_134))) (let ((_let_177 (tptp.fn_animal_cell_63 X))) (let ((_let_178 (tptp.fn_animal_cell_8 X))) (let ((_let_179 (tptp.fn_animal_cell_6 X))) (let ((_let_180 (tptp.fn_animal_cell_4 X))) (let ((_let_181 (tptp.fn_animal_cell_5 X))) (let ((_let_182 (tptp.fn_animal_cell_7 X))) (let ((_let_183 (tptp.fn_animal_cell_9 X))) (let 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_let_185) (tptp.has_part_2 X _let_80) (tptp.is_near_2 _let_80 _let_136) (tptp.is_opposite_2 _let_175 _let_185) (tptp.is_opposite_2 _let_185 _let_175) (tptp.is_inside_2 _let_184 _let_162) (not (= _let_174 _let_158)) (not (= _let_158 _let_174)) (tptp.is_at_2 _let_1 _let_120) (tptp.has_function_2 _let_177 _let_30) (not (= _let_123 _let_181)) (tptp.possesses_2 _let_123 _let_180) (tptp.enables_2 _let_16 _let_21) (tptp.has_function_2 _let_12 _let_183) (tptp.quantity_2 _let_178 _let_182) (tptp.greater_than_2 _let_179 _let_182) (not (= _let_181 _let_123)) (tptp.quantity_2 _let_180 _let_179) (tptp.possesses_2 _let_164 _let_178) (tptp.origin_2 _let_21 _let_12) (tptp.destination_2 _let_21 _let_6) (tptp.causes_2 _let_21 _let_19) (tptp.site_2 _let_19 _let_6) (tptp.object_2 _let_21 _let_123) (tptp.result_2 _let_134 _let_177) (tptp.has_function_2 X _let_132) (tptp.has_region_2 _let_6 _let_8) (tptp.subevent_2 _let_36 _let_126) (tptp.object_2 _let_30 X) (tptp.base_2 _let_19 X) (tptp.object_2 _let_28 X) (tptp.has_region_2 X _let_175) (tptp.object_2 _let_172 _let_160) (tptp.has_part_2 _let_33 _let_160) (tptp.is_across_2 _let_160 _let_33) (tptp.has_region_2 _let_160 _let_171) (tptp.is_across_2 _let_160 _let_173) (tptp.is_inside_2 _let_151 _let_33) (tptp.has_part_2 _let_151 _let_174) (tptp.has_region_2 _let_33 _let_173) (tptp.base_2 _let_172 _let_33) (tptp.has_part_2 _let_33 _let_159) (tptp.has_region_2 _let_33 _let_171) (tptp.is_outside_2 _let_171 _let_33) (tptp.has_part_2 _let_33 _let_156) (tptp.result_2 _let_19 _let_164) (tptp.structural_complexity_2 _let_164 _let_166) (tptp.greater_than_2 _let_168 _let_166) (tptp.structural_complexity_2 _let_123 _let_168) (tptp.raw_material_2 _let_19 _let_123) (tptp.called_2 _let_160 |tptp.'MP1'|) (tptp.called_2 _let_159 |tptp.'MP1'|) (tptp.has_part_2 X _let_33) (tptp.is_outside_2 _let_162 X) (tptp.has_part_2 _let_33 _let_26) (tptp.is_at_2 _let_160 _let_33) (tptp.is_inside_2 _let_160 _let_156) (not (= _let_26 _let_160)) (not (= _let_159 _let_26)) (not (= _let_26 _let_159)) (not (= _let_160 _let_26)) (not (= _let_159 _let_160)) (not (= _let_160 _let_159)) (tptp.has_part_2 _let_151 _let_158) (tptp.is_between_2 _let_151 _let_136) (tptp.has_part_2 X _let_12) (tptp.is_at_2 _let_156 _let_153) (tptp.quantity_2 _let_155 _let_154) (tptp.has_part_2 _let_137 _let_155) (tptp.greater_than_2 _let_154 _let_150) (tptp.greater_than_or_equal_to_2 _let_154 _let_150) (tptp.has_part_2 _let_151 _let_135) (tptp.has_part_2 X _let_151) (tptp.has_function_2 X _let_152) (tptp.base_2 _let_152 X) (tptp.has_region_2 X _let_153) (tptp.has_part_2 X _let_148) (tptp.is_inside_2 _let_148 _let_135) (tptp.is_inside_2 _let_6 _let_135) (tptp.has_part_2 _let_6 _let_149) (tptp.quantity_2 _let_149 _let_150) (tptp.the_scalar_value_2 _let_143 tptp.big_0) (tptp.scalar_unit_class_2 _let_143 tptp.prokaryote_0) (tptp.has_part_2 X _let_141) (tptp.size_2 X _let_143) (tptp.directly_proportional_2 _let_143 _let_145) (tptp.volume_2 X _let_145) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_139) (tptp.abuts_2 _let_141 _let_139) (tptp.abuts_2 _let_139 _let_141) (not (= _let_141 _let_139)) (not (= _let_139 _let_141)) (tptp.is_inside_2 _let_24 _let_135) (tptp.is_inside_2 _let_136 _let_135) (tptp.is_inside_2 _let_137 _let_136) (tptp.has_part_2 X _let_137) (tptp.has_part_2 X _let_136) (tptp.has_function_2 _let_80 _let_134) (tptp.base_2 _let_132 X) (tptp.has_part_2 _let_6 _let_103) (tptp.first_subevent_2 _let_128 _let_130) (tptp.subevent_2 _let_128 _let_130) (tptp.base_2 _let_130 X) (tptp.next_event_2 _let_130 _let_36) (tptp.site_2 _let_36 _let_6) (tptp.site_2 _let_128 _let_6) (tptp.subevent_2 _let_128 _let_36) (tptp.has_part_2 X _let_6) (tptp.base_2 _let_126 X) (tptp.site_2 _let_126 _let_6) (tptp.has_function_2 _let_6 _let_128) (tptp.base_2 _let_128 X) (tptp.has_function_2 _let_78 _let_85) (tptp.agent_2 _let_85 _let_78) (tptp.base_2 _let_85 _let_83) (tptp.has_part_2 _let_82 _let_83) (tptp.has_part_2 _let_1 _let_82) (tptp.has_part_2 _let_80 _let_1) (tptp.has_part_2 _let_80 _let_78) (not (= _let_90 _let_105)) (not (= _let_105 _let_90)) (tptp.has_part_2 _let_6 _let_90) (tptp.agent_2 _let_107 _let_6) (tptp.has_function_2 _let_6 _let_107) (tptp.instrument_2 _let_95 _let_109) (tptp.has_part_2 _let_6 _let_109) (tptp.quantity_2 _let_6 _let_87) (tptp.directly_proportional_2 _let_87 _let_92) (tptp.rate_2 _let_107 _let_92) (tptp.result_2 _let_97 _let_90) (tptp.has_function_2 _let_99 _let_97) (tptp.agent_2 _let_97 _let_99) (tptp.result_2 _let_97 _let_105) (tptp.has_part_2 _let_6 _let_105) (tptp.is_between_2 _let_103 _let_101) (tptp.has_part_2 _let_6 _let_101) (tptp.has_part_2 _let_6 _let_99) (tptp.instrument_2 _let_95 _let_99) (tptp.subevent_2 _let_97 _let_95) (tptp.first_subevent_2 _let_97 _let_95) (tptp.is_inside_2 _let_90 _let_8) (tptp.has_function_2 _let_115 _let_111) (tptp.has_function_2 _let_115 _let_16) (tptp.facilitates_2 _let_113 _let_16) (tptp.site_2 _let_16 _let_113) (tptp.has_function_2 _let_12 _let_16) (tptp.in_event_2 _let_14 _let_16) (tptp.in_event_2 _let_117 _let_16) (tptp.plays_2 _let_115 _let_117) (tptp.has_region_2 _let_115 _let_113) (tptp.enables_2 _let_111 _let_16) (tptp.has_region_2 _let_80 _let_120) (tptp.raw_material_2 _let_16 _let_122) (tptp.plays_2 _let_122 _let_14) (tptp.result_2 _let_16 _let_123) (tptp.raw_material_2 _let_16 _let_125) (= _let_123 _let_22) (= _let_177 _let_176) (= _let_126 _let_37) (= X _let_31) (= X _let_32) (= X _let_29) (= _let_175 (tptp.fn_cell_1 X)) (= _let_173 _let_76) (= _let_160 _let_61) (= _let_174 _let_157) (= _let_173 _let_75) (= _let_172 _let_74) (= _let_33 _let_68) (= _let_172 _let_73) (= _let_172 _let_72) (= _let_156 _let_53) (= _let_156 _let_52) (= _let_171 _let_71) (= _let_171 _let_70) (= _let_171 _let_69) (= (tptp.fn_animal_cell_16 X) _let_170) (= (tptp.fn_animal_cell_17 X) _let_169) (= _let_123 _let_20) (= _let_168 _let_167) (= _let_166 _let_165) (= _let_164 _let_163) (= _let_162 _let_161) (= X _let_34) (= X _let_27) (= _let_156 _let_51) (= _let_156 _let_50) (= _let_160 _let_64) (= _let_160 _let_57) (= _let_33 _let_67) (= _let_33 _let_66) (= _let_33 _let_65) (= _let_160 _let_62) (= _let_160 _let_63) (= _let_159 _let_57) (= _let_160 _let_60) (= _let_26 _let_55) (= _let_159 _let_59) (= _let_26 _let_54) (= _let_159 _let_58) (= _let_159 _let_56) (= _let_158 _let_157) (= _let_136 _let_43) (= _let_12 (tptp.fn_eukaryotic_cell_61 X)) (= (tptp.fn_animal_cell_91 X) (tptp.fn_eukaryotic_cell_8 X)) (= _let_156 _let_49) (= _let_137 _let_45) (= _let_155 (tptp.fn_eukaryotic_cell_56 X)) (= (tptp.fn_animal_cell_92 X) (tptp.fn_eukaryotic_cell_7 X)) (= _let_154 (tptp.fn_eukaryotic_cell_5 X)) (= _let_153 (tptp.fn_eukaryotic_cell_44 X)) (= _let_152 (tptp.fn_eukaryotic_cell_23 X)) (= _let_151 (tptp.fn_eukaryotic_cell_31 X)) (= _let_150 (tptp.fn_eukaryotic_cell_6 X)) (= _let_149 _let_48) (= _let_149 _let_47) (= _let_149 _let_46) (= _let_6 _let_11) (= _let_135 _let_41) (= _let_148 (tptp.fn_eukaryotic_cell_45 X)) (= (tptp.fn_animal_cell_50 X) _let_147) (= (tptp.fn_animal_cell_49 X) _let_146) (= _let_145 _let_144) (= _let_143 _let_142) (= _let_141 _let_140) (= _let_139 _let_138) (= X _let_25) (= _let_137 _let_44) (= _let_136 _let_42) (= _let_135 _let_40) (= _let_134 _let_133) (= _let_132 _let_39) (= _let_132 _let_38) (= _let_36 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_35) (= X _let_23) (= _let_125 _let_124) (= _let_123 _let_18) (= _let_123 _let_17) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_16 _let_15) (= _let_14 _let_118) (= _let_117 _let_116) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_16 _let_13) (= _let_6 _let_10) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= (tptp.fn_animal_cell_14 X) _let_93) (= _let_92 _let_91) (= _let_90 _let_9) (= _let_90 _let_7) (= _let_8 _let_89) (= (tptp.fn_animal_cell_15 X) _let_88) (= _let_87 _let_86) (= _let_85 _let_84) (= _let_83 _let_5) (= _let_83 _let_4) (= _let_82 _let_3) (= _let_82 _let_2) (= _let_1 _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_63) (= _let_63 _let_57) (= _let_57 _let_62) (= _let_62 _let_62) (= _let_62 _let_57) (= _let_61 _let_57) (= _let_57 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_32) (= _let_32 _let_34) (= _let_34 _let_31) (= _let_31 _let_32) (= _let_32 _let_29) (= _let_29 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_10) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_7) (= _let_7 _let_7) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_centrosome_4 X))) (let ((_let_2 (tptp.fn_centriole_8 _let_1))) (let ((_let_3 (tptp.fn_centriole_2 _let_1))) (let ((_let_4 (tptp.fn_centriole_11 _let_1))) (let ((_let_5 (tptp.fn_centriole_9 _let_1))) (let ((_let_6 (tptp.fn_animal_cell_centrosome_9 X))) (let ((_let_7 (tptp.fn_animal_cell_centrosome_8 X))) (let ((_let_8 (tptp.fn_animal_cell_centrosome_6 X))) (let ((_let_9 (tptp.fn_animal_cell_centrosome_7 X))) (let ((_let_10 (tptp.fn_animal_cell_centrosome_1 X))) (let ((_let_11 (tptp.fn_animal_cell_centrosome_2 X))) (let ((_let_12 (tptp.fn_centriole_10 _let_1))) (let ((_let_13 (tptp.fn_animal_cell_centrosome_3 X))) (let ((_let_14 (tptp.fn_centriole_7 _let_1))) (let ((_let_15 (tptp.fn_animal_cell_centrosome_5 X))) (let ((_let_16 (tptp.fn_centriole_6 _let_1))) (=> (tptp.animal_cell_centrosome_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Centrosome'|) (tptp.user_description_2 X |tptp.'Organelle in animal cells which serves as the main microtubule organizing center (MTOC).'|) (tptp.concept2words_2 X |tptp.'animal cell centrosome'|) (tptp.concept2words_2 X |tptp.'animal-cell-centrosome'|) (tptp.centrosome_1 X) (tptp.trimer_1 _let_10) (tptp.microtubule_1 _let_11) (tptp.attach_1 _let_13) (tptp.centriole_1 _let_1) (tptp.protein_1 _let_15) (tptp.center_1 _let_8) (tptp.role_1 _let_9) (tptp.organizing_1 _let_7) (tptp.produce_1 _let_6) (tptp.centrosome_1 _let_16) (tptp.protein_1 _let_14) (tptp.attach_1 _let_12) (tptp.microtubule_1 _let_5) (tptp.microtubule_1 _let_4) (tptp.trimer_1 _let_3) (tptp.trimer_1 _let_2) (tptp.is_at_2 _let_1 _let_8) (tptp.has_part_2 X _let_15) (tptp.has_part_2 _let_1 _let_10) (tptp.has_part_2 _let_10 _let_11) (tptp.base_2 _let_13 _let_11) (tptp.agent_2 _let_13 _let_15) (tptp.has_function_2 _let_15 _let_13) (tptp.in_event_2 _let_9 _let_7) (tptp.plays_2 X _let_9) (tptp.has_part_2 X _let_1) (tptp.has_function_2 X _let_6) (tptp.agent_2 _let_6 X) (tptp.has_function_2 X _let_7) (tptp.agent_2 _let_7 X) (tptp.has_region_2 X _let_8) (= X _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_1 (tptp.fn_centrosome_3 X)) (= _let_9 (tptp.fn_centrosome_1 X)) (= _let_8 (tptp.fn_centrosome_2 X)) (= _let_7 (tptp.fn_centrosome_4 X)) (= _let_6 (tptp.fn_centrosome_5 X)) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.cell_division_1 X) (tptp.animal_cell_1 X1)) (and (tptp.animal_cell_division_1 X) (= (tptp.fn_animal_cell_division_9 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_division_9 X))) (let ((_let_2 (tptp.fn_animal_cell_55 _let_1))) (let ((_let_3 (tptp.fn_animal_cell_division_10 X))) (let ((_let_4 (tptp.fn_animal_cell_division_8 X))) (let ((_let_5 (tptp.fn_animal_cell_division_1 X))) (let ((_let_6 (tptp.fn_animal_cell_division_2 X))) (let ((_let_7 (tptp.fn_animal_cell_division_7 X))) (let ((_let_8 (tptp.fn_animal_cell_division_4 X))) (let ((_let_9 (tptp.fn_animal_cell_division_5 X))) (let ((_let_10 (tptp.fn_animal_cell_division_6 X))) (=> (tptp.animal_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Division'|) (tptp.user_description_2 X |tptp.'Cell division in animals, signaled by calcium ions in a cell signal transduction event with growth factors.'|) (tptp.concept2words_2 X |tptp.'cell division in animals'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'animal cell division'|) (tptp.concept2words_2 X |tptp.'animal-cell-division'|) (tptp.cell_division_1 X) (tptp.spatial_entity_1 _let_5) (tptp.cell_signaling_1 _let_6) (tptp.centriole_1 _let_8) (tptp.centriole_1 _let_9) (tptp.centriole_1 _let_10) (tptp.replication_1 _let_7) (tptp.animal_cell_1 _let_4) (tptp.cell_1 _let_1) (tptp.animal_cell_1 _let_1) (tptp.surface_1 _let_3) (tptp.surface_1 _let_2) (tptp.object_2 _let_7 _let_10) (tptp.result_2 _let_7 _let_9) (tptp.result_2 _let_7 _let_8) (tptp.enables_2 _let_7 X) (tptp.causes_2 _let_6 X) (tptp.agent_2 X _let_5) (tptp.is_at_2 _let_5 _let_3) (tptp.object_2 X _let_1) (tptp.result_2 X _let_4) (tptp.has_region_2 _let_1 _let_3) (= _let_1 (tptp.fn_cell_division_3 X)) (= _let_4 (tptp.fn_cell_division_2 X)) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.cell_growth_1 X) (tptp.animal_cell_1 X1)) (and (tptp.animal_cell_growth_1 X) (= (tptp.fn_animal_cell_growth_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_growth_3 X))) (let ((_let_2 (tptp.fn_animal_cell_growth_1 X))) (=> (tptp.animal_cell_growth_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Growth'|) (tptp.user_description_2 X |tptp.'Cell growth in animals triggered by a growth factor at the surface of an animal cell.'|) (tptp.concept2words_2 X |tptp.'cell growth in animals'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X |tptp.'animal cell growth'|) (tptp.concept2words_2 X |tptp.'animal-cell-growth'|) (tptp.cell_growth_1 X) (tptp.entity_1 _let_2) (tptp.animal_cell_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_cell_growth_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.animal_cell_inside_hypertonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Inside-Hypertonic-Solution'|) (tptp.user_description_2 X |tptp.'A hypertonic solution is a solution having a greater solute concentration than the cytosol. It contains a greater concentration of impermeable solutes on the external side of the membrane. When a cell cytoplasm is bathed in a hypertonic solution the water will be drawn into the solution and out of the cell by osmosis. If water molecules continue to diffuse out of the cell, it will cause the cell to shrink, or crenate.'|) (tptp.concept2words_2 X |tptp.'animal cell inside hypertonic solution'|) (tptp.concept2words_2 X |tptp.'animal-cell-inside-hypertonic-solution'|) (tptp.animal_cell_1 X) (tptp.cell_without_cell_wall_inside_hypertonic_solution_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_inside_2 X X1) (tptp.cell_without_cell_wall_inside_hypotonic_solution_1 X) (tptp.animal_cell_1 X) (tptp.hypotonic_solution_1 X1)) (and (tptp.animal_cell_inside_hypotonic_solution_1 X) (= (tptp.fn_animal_cell_inside_hypotonic_solution_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_inside_hypotonic_solution_2 X))) (=> (tptp.animal_cell_inside_hypotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Inside-Hypotonic-Solution'|) (tptp.user_description_2 X |tptp.'An animal cell contained in a solution that has a lower concentration of solute than the cytoplasm of the cell.'|) (tptp.concept2words_2 X |tptp.'animal cell inside hypotonic solution'|) (tptp.concept2words_2 X |tptp.'animal-cell-inside-hypotonic-solution'|) (tptp.animal_cell_1 X) (tptp.cell_without_cell_wall_inside_hypotonic_solution_1 X) (tptp.hypotonic_solution_1 _let_1) (tptp.is_inside_2 X _let_1) (tptp.is_outside_2 _let_1 X) (= _let_1 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_30 X)))))) (forall ((X $$unsorted)) (=> (tptp.animal_cell_inside_isotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Inside-Isotonic-Solution'|) (tptp.user_description_2 X |tptp.'An animal cell contained in a solution where the concentration of solute is equal to that in the cell_'s cytoplasm.'|) (tptp.concept2words_2 X |tptp.'animal cell inside isotonic solution'|) (tptp.concept2words_2 X |tptp.'animal-cell-inside-isotonic-solution'|) (tptp.cell_without_cell_wall_inside_isotonic_solution_1 X) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_cell_structure_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Cell-Structure'|) (tptp.user_description_2 X |tptp.'A structure at the cellular level found in animal cells'|) (tptp.concept2words_2 X |tptp.'structure of animal cell'|) (tptp.concept2words_2 X |tptp.'structure-of-animal-cell'|) (tptp.concept2words_2 X |tptp.'animal cell structure'|) (tptp.concept2words_2 X |tptp.'animal-cell-structure'|) (tptp.eukaryotic_cell_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_development_38 X))) (let ((_let_2 (tptp.fn_add_2 _let_1))) (let ((_let_3 (tptp.fn_animal_development_39 X))) (let ((_let_4 (tptp.fn_remove_2 _let_3))) (let ((_let_5 (tptp.fn_animal_development_37 X))) (let ((_let_6 (tptp.fn_remove_2 _let_5))) (let ((_let_7 (tptp.fn_animal_development_36 X))) (let ((_let_8 (tptp.fn_add_2 _let_7))) (let ((_let_9 (tptp.fn_animal_development_20 X))) (let ((_let_10 (tptp.fn_create_1 _let_9))) (let ((_let_11 (tptp.fn_animal_development_25 X))) (let ((_let_12 (tptp.fn_animal_development_41 X))) (let ((_let_13 (tptp.fn_eight_cell_stage_1 _let_12))) (let ((_let_14 (tptp.fn_animal_development_40 X))) (let ((_let_15 (tptp.fn_eight_cell_stage_2 _let_12))) (let ((_let_16 (tptp.fn_animal_development_31 X))) (let ((_let_17 (tptp.fn_animal_development_26 X))) (let ((_let_18 (tptp.fn_pattern_formation_6 _let_17))) (let ((_let_19 (tptp.fn_animal_development_21 X))) (let ((_let_20 (tptp.fn_animal_development_30 X))) (let ((_let_21 (tptp.fn_life_cycle_2 _let_20))) (let ((_let_22 (tptp.fn_embryogenesis_20 _let_16))) (let ((_let_23 (tptp.fn_animal_development_16 X))) (let ((_let_24 (tptp.fn_animal_development_17 X))) (let ((_let_25 (tptp.fn_animal_development_29 X))) (let ((_let_26 (tptp.fn_create_1 _let_19))) (let ((_let_27 (tptp.fn_animal_development_24 X))) (let ((_let_28 (tptp.fn_add_1 _let_1))) (let ((_let_29 (tptp.fn_animal_development_33 X))) (let ((_let_30 (tptp.fn_add_1 _let_7))) (let ((_let_31 (tptp.fn_animal_development_35 X))) (let ((_let_32 (tptp.fn_remove_1 _let_5))) (let ((_let_33 (tptp.fn_animal_development_34 X))) (let ((_let_34 (tptp.fn_remove_1 _let_3))) (let ((_let_35 (tptp.fn_animal_development_32 X))) (let ((_let_36 (tptp.fn_animal_development_27 X))) (let ((_let_37 (tptp.fn_create_1 _let_36))) (let ((_let_38 (tptp.fn_animal_development_28 X))) (let ((_let_39 (tptp.fn_animal_development_19 X))) (let ((_let_40 (tptp.fn_create_1 _let_39))) (let ((_let_41 (tptp.fn_animal_development_18 X))) (let ((_let_42 (tptp.fn_animal_development_22 X))) (let ((_let_43 (tptp.fn_create_1 _let_42))) (let ((_let_44 (tptp.fn_animal_development_23 X))) (let ((_let_45 (tptp.fn_animal_development_7 X))) (let ((_let_46 (tptp.fn_animal_development_15 X))) (let ((_let_47 (tptp.fn_animal_development_14 X))) (let ((_let_48 (tptp.fn_animal_development_9 X))) (let ((_let_49 (tptp.fn_animal_development_12 X))) (let ((_let_50 (tptp.fn_animal_development_13 X))) (let ((_let_51 (tptp.fn_animal_development_11 X))) (let ((_let_52 (tptp.fn_animal_development_10 X))) (let ((_let_53 (tptp.fn_animal_development_3 X))) (let ((_let_54 (tptp.fn_animal_development_4 X))) (let ((_let_55 (tptp.fn_animal_development_8 X))) (let ((_let_56 (tptp.fn_animal_development_6 X))) (let ((_let_57 (tptp.fn_animal_development_5 X))) (=> (tptp.animal_development_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Development'|) (tptp.user_description_2 X |tptp.'Animal development includes the processes that lead eventually to the formation of a new animal starting from cells derived from one or more parent individuals.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'development of animal'|) (tptp.concept2words_2 X |tptp.'animal development'|) (tptp.concept2words_2 X |tptp.'animal-development'|) (tptp.organismal_development_1 X) (tptp.time_interval_1 _let_53) (tptp.time_interval_1 _let_54) (tptp.apoptosis_1 _let_57) (tptp.unitless_value_1 _let_56) (tptp.unitless_value_1 _let_45) (tptp.organ_1 _let_55) (tptp.gastrulation_1 _let_48) (tptp.organism_maturation_1 _let_52) (tptp.adulthood_1 _let_51) (tptp.pattern_formation_1 _let_49) (tptp.juvenile_stage_1 _let_50) (tptp.blastulation_1 _let_47) (tptp.apoptosis_1 _let_46) (tptp.embryonic_induction_1 _let_23) (tptp.animal_1 _let_24) (tptp.head_1 _let_41) (tptp.create_1 _let_39) (tptp.create_1 _let_9) (tptp.create_1 _let_19) (tptp.create_1 _let_42) (tptp.tail_1 _let_44) (tptp.organismal_region_1 _let_27) (tptp.organismal_region_1 _let_11) (tptp.pattern_formation_1 _let_17) (tptp.create_1 _let_36) (tptp.tissue_1 _let_38) (tptp.living_entity_1 _let_25) (tptp.animal_life_cycle_1 _let_20) (tptp.embryogenesis_1 _let_16) (tptp.damaged_cell_1 _let_35) (tptp.cell_1 _let_29) (tptp.dead_cell_1 _let_33) (tptp.cell_1 _let_31) (tptp.add_1 _let_7) (tptp.remove_1 _let_5) (tptp.add_1 _let_1) (tptp.remove_1 _let_3) (tptp.eight_cell_embryo_1 _let_14) (tptp.eight_cell_stage_1 _let_12) (tptp.entity_1 _let_43) (tptp.entity_1 _let_40) (tptp.entity_1 _let_37) (tptp.spatial_entity_1 _let_34) (tptp.spatial_entity_1 _let_32) (tptp.spatial_entity_1 _let_30) (tptp.spatial_entity_1 _let_28) (tptp.entity_1 _let_26) (tptp.cell_differentiation_induction_1 _let_22) (tptp.organismal_development_1 _let_21) (tptp.create_1 _let_18) (tptp.embryogenesis_1 _let_15) (tptp.eight_cell_embryo_1 _let_13) (tptp.entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.time_before_2 _let_53 _let_54) (tptp.importance_2 _let_57 _let_56) (tptp.the_scalar_value_2 _let_56 tptp.high_0) (tptp.scalar_unit_class_2 _let_56 tptp.cellular_process_0) (tptp.the_scalar_value_2 _let_45 tptp.high_0) (tptp.scalar_unit_class_2 _let_45 tptp.cellular_process_0) (tptp.has_part_2 _let_24 _let_41) (tptp.site_2 _let_42 _let_27) (tptp.next_event_2 _let_17 _let_39) (tptp.next_event_2 _let_17 _let_42) (tptp.subevent_2 _let_17 _let_9) (tptp.result_2 _let_17 _let_55) (tptp.time_during_2 _let_36 _let_54) (tptp.subevent_2 X _let_50) (tptp.subevent_2 X _let_51) (tptp.subevent_2 X _let_16) (tptp.time_during_2 _let_16 _let_53) (tptp.subevent_2 _let_16 _let_47) (tptp.subevent_2 _let_16 _let_48) (tptp.next_event_2 _let_16 _let_17) (tptp.next_event_2 _let_16 _let_36) (tptp.causes_2 _let_52 _let_3) (tptp.subevent_2 _let_51 _let_52) (tptp.subevent_2 _let_51 _let_3) (tptp.subevent_2 _let_51 _let_1) (tptp.subevent_2 _let_51 _let_5) (tptp.subevent_2 _let_51 _let_7) (tptp.subevent_2 _let_51 _let_46) (tptp.next_event_2 _let_5 _let_7) (tptp.next_event_2 _let_3 _let_1) (tptp.subevent_2 _let_50 _let_49) (tptp.next_event_2 _let_12 _let_47) (tptp.next_event_2 _let_47 _let_48) (tptp.base_2 _let_47 _let_14) (tptp.importance_2 _let_46 _let_45) (tptp.result_2 _let_42 _let_44) (tptp.result_2 _let_39 _let_41) (tptp.result_2 _let_36 _let_38) (tptp.object_2 _let_3 _let_35) (tptp.object_2 _let_5 _let_33) (tptp.object_2 _let_7 _let_31) (tptp.object_2 _let_1 _let_29) (tptp.base_2 _let_7 _let_25) (tptp.base_2 _let_5 _let_25) (tptp.base_2 _let_3 _let_25) (tptp.result_2 _let_19 _let_27) (tptp.base_2 _let_1 _let_25) (tptp.experiencer_2 X _let_24) (tptp.subevent_2 _let_16 _let_23) (tptp.subevent_2 _let_20 X) (tptp.subevent_2 _let_17 _let_19) (tptp.subevent_2 _let_16 _let_12) (tptp.result_2 _let_12 _let_14) (tptp.result_2 _let_9 _let_11) (= _let_44 _let_43) (= _let_41 _let_40) (= _let_38 _let_37) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_25 _let_8) (= _let_25 _let_6) (= _let_25 _let_4) (= _let_27 _let_26) (= _let_25 _let_2) (= _let_24 (tptp.fn_organismal_development_1 X)) (= _let_23 _let_22) (= X _let_21) (= _let_19 _let_18) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_11 _let_10) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_development_cell_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Development-Cell'|) (tptp.user_description_2 X |tptp.'An animal cell that is involved in the process of development, either into a new organism, or into tissues or organs.'|) (tptp.concept2words_2 X |tptp.'animal development cell'|) (tptp.concept2words_2 X |tptp.'animal-development-cell'|) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_embryo_8 X))) (let ((_let_2 (tptp.fn_gap_junction_10 _let_1))) (let ((_let_3 (tptp.fn_embryo_1 X))) (let ((_let_4 (tptp.fn_animal_embryo_4 X))) (let ((_let_5 (tptp.fn_communicate_1 _let_4))) (let ((_let_6 (tptp.fn_animal_embryo_2 X))) (let ((_let_7 (tptp.fn_interpret_2 _let_6))) (let ((_let_8 (tptp.fn_animal_embryo_3 X))) (let ((_let_9 (tptp.fn_convey_1 _let_8))) (let ((_let_10 (tptp.fn_animal_embryo_9 X))) (let ((_let_11 (tptp.fn_cell_30 _let_10))) (let ((_let_12 (tptp.fn_animal_embryo_5 X))) (let ((_let_13 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_12))) (let ((_let_14 (tptp.fn_animal_embryo_6 X))) (let ((_let_15 (tptp.fn_gap_junction_9 _let_1))) (let ((_let_16 (tptp.fn_animal_embryo_7 X))) (let ((_let_17 (tptp.fn_animal_embryo_1 X))) (=> (tptp.animal_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Embryo'|) (tptp.user_description_2 X |tptp.'The early developmental stage of an animal while it is in the egg or within the uterus of the mother is called an animal embryo.'|) (tptp.concept2words_2 X |tptp.'embryo of animal'|) (tptp.concept2words_2 X |tptp.'animal embryo'|) (tptp.concept2words_2 X |tptp.'animal-embryo'|) (tptp.embryo_1 X) (not (tptp.abnormal_cloned_embryo_1 X)) (not (tptp.cloned_embryo_1 X)) (not (tptp.early_embryo_1 X)) (not (tptp.eight_cell_embryo_1 X)) (not (tptp.embryoid_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X)) (tptp.exchange_1 _let_17) (tptp.interpret_1 _let_6) (tptp.convey_1 _let_8) (tptp.communicate_1 _let_4) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_12) (tptp.membrane_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.plasma_membrane_1 _let_14) (tptp.animal_cell_1 _let_16) (tptp.gap_junction_1 _let_1) (tptp.tangible_entity_1 _let_10) (tptp.eukaryotic_cell_1 _let_10) (tptp.animal_cell_1 _let_10) (tptp.cell_1 _let_10) (tptp.animal_cell_1 _let_15) (tptp.membrane_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.plasma_membrane_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.animal_cell_1 _let_2) (tptp.has_function_2 _let_1 _let_17) (tptp.has_function_2 _let_1 _let_4) (tptp.base_2 _let_17 _let_16) (tptp.agent_2 _let_17 _let_10) (tptp.instrument_2 _let_4 _let_1) (tptp.subevent_2 _let_4 _let_8) (tptp.subevent_2 _let_4 _let_6) (tptp.next_event_2 _let_8 _let_6) (tptp.recipient_2 _let_8 _let_10) (tptp.agent_2 _let_6 _let_10) (tptp.recipient_2 _let_4 _let_10) (tptp.has_part_2 X _let_10) (tptp.path_2 _let_12 _let_14) (tptp.is_between_2 _let_1 _let_16) (tptp.is_between_2 _let_1 _let_10) (not (= _let_16 _let_10)) (not (= _let_10 _let_16)) (tptp.abuts_2 _let_16 _let_10) (tptp.abuts_2 _let_10 _let_16) (tptp.has_part_2 _let_10 _let_14) (= _let_10 _let_9) (= _let_10 _let_7) (= _let_10 _let_5) (= _let_10 _let_3) (= _let_14 _let_13) (= _let_16 _let_15) (= _let_10 _let_2) (= _let_14 _let_11) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Fertilization'|) (tptp.user_description_2 X |tptp.'The union of haploid gametes to produce a diploid zygote in animals.'|) (tptp.concept2words_2 X tptp.fertilize) (tptp.concept2words_2 X |tptp.'fertilization of animal'|) (tptp.concept2words_2 X |tptp.'animal fertilization'|) (tptp.concept2words_2 X |tptp.'animal-fertilization'|) (tptp.fertilization_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_growth_7 X))) (let ((_let_2 (tptp.fn_animal_21 _let_1))) (let ((_let_3 (tptp.fn_animal_growth_5 X))) (let ((_let_4 (tptp.fn_cell_division_3 _let_3))) (let ((_let_5 (tptp.fn_animal_growth_6 X))) (let ((_let_6 (tptp.fn_animal_growth_1 X))) (let ((_let_7 (tptp.fn_animal_growth_2 X))) (=> (tptp.animal_growth_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Growth'|) (tptp.user_description_2 X |tptp.'Series of events, including cell division, which result in the growth of an animal_'s body.'|) (tptp.concept2words_2 X |tptp.'growth of animal'|) (tptp.concept2words_2 X |tptp.'animal growth'|) (tptp.concept2words_2 X |tptp.'animal-growth'|) (tptp.macrophysiological_process_1 X) (tptp.unitless_value_1 _let_6) (tptp.rate_value_1 _let_7) (tptp.cell_division_1 _let_3) (tptp.cell_1 _let_5) (tptp.animal_cell_1 _let_5) (tptp.animal_1 _let_1) (tptp.cell_1 _let_4) (tptp.animal_cell_1 _let_2) (tptp.base_2 _let_3 _let_5) (tptp.rate_2 _let_3 _let_7) (tptp.importance_2 _let_3 _let_6) (tptp.subevent_2 X _let_3) (tptp.experiencer_2 X _let_1) (tptp.the_scalar_value_2 _let_6 tptp.important_0) (tptp.scalar_unit_class_2 _let_6 tptp.cell_cycle_process_0) (tptp.object_2 _let_3 _let_5) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_husbandry_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Husbandry'|) (tptp.user_description_2 X |tptp.'An agricultural process involving the breeding and care of animal livestock.'|) (tptp.concept2words_2 X |tptp.'husbandry of animal'|) (tptp.concept2words_2 X |tptp.'animal husbandry'|) (tptp.concept2words_2 X |tptp.'animal-husbandry'|) (tptp.agricultural_process_1 X) (not (tptp.crop_rotation_1 X)) (not (tptp.hydroponic_culture_1 X)) (not (tptp.irrigation_1 X)) (not (tptp.logging_1 X)) (not (tptp.monoculture_1 X)) (not (tptp.no_till_agriculture_1 X)) (not (tptp.sustainable_agriculture_1 X)) (not (tptp.vernalization_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.life_cycle_1 X) (tptp.animal_1 X1)) (and (tptp.animal_life_cycle_1 X) (= (tptp.fn_animal_life_cycle_11 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_life_cycle_16 X))) (let ((_let_2 (tptp.fn_meiosis_17 _let_1))) (let ((_let_3 (tptp.fn_cell_division_2 _let_1))) (let ((_let_4 (tptp.fn_animal_life_cycle_12 X))) (let ((_let_5 (tptp.fn_add_2 _let_4))) (let ((_let_6 (tptp.fn_fertilization_1 _let_4))) (let ((_let_7 (tptp.fn_animal_life_cycle_13 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_animal_life_cycle_14 X))) (let ((_let_10 (tptp.fn_animal_life_cycle_8 X))) (let ((_let_11 (tptp.fn_animal_development_11 _let_10))) (let ((_let_12 (tptp.fn_animal_life_cycle_9 X))) (let ((_let_13 (tptp.fn_animal_development_30 _let_10))) (let ((_let_14 (tptp.fn_animal_life_cycle_10 X))) (let ((_let_15 (tptp.fn_animal_life_cycle_15 X))) (let ((_let_16 (tptp.fn_create_1 _let_15))) (let ((_let_17 (tptp.fn_animal_life_cycle_11 X))) (let ((_let_18 (tptp.fn_animal_life_cycle_6 X))) (let ((_let_19 (tptp.fn_animal_life_cycle_5 X))) (let ((_let_20 (tptp.fn_animal_life_cycle_4 X))) (let ((_let_21 (tptp.fn_animal_life_cycle_3 X))) (let ((_let_22 (tptp.fn_animal_life_cycle_1 X))) (let ((_let_23 (tptp.fn_animal_life_cycle_2 X))) (=> (tptp.animal_life_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Life-Cycle'|) (tptp.user_description_2 X |tptp.'The sequence of developmental stages an animal undergoes from one generation to the next beginning with the fusion of male and female gametes, then growth to reproductive maturity, and finally the animal_'s production of gametes. The cycle begins again at this point, assuming the gametes are fertilized.'|) (tptp.concept2words_2 X |tptp.'undergo the animal life cycle'|) (tptp.concept2words_2 X |tptp.'animal life cycle'|) (tptp.concept2words_2 X |tptp.'animal-life-cycle'|) (tptp.life_cycle_1 X) (not (tptp.determinate_growth_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.life_history_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X)) (tptp.sperm_cell_1 _let_22) (tptp.cell_differentiation_1 _let_23) (tptp.sexual_intercourse_1 _let_21) (tptp.meiosis_1 _let_20) (tptp.ovary_1 _let_19) (tptp.testes_1 _let_18) (tptp.animal_development_1 _let_10) (tptp.adulthood_1 _let_12) (tptp.tangible_entity_1 _let_14) (tptp.zygote_1 _let_14) (tptp.animal_1 _let_17) (tptp.fertilization_1 _let_4) (tptp.mitosis_1 _let_7) (tptp.spatial_entity_1 _let_9) (tptp.cell_1 _let_9) (tptp.diploid_cell_1 _let_9) (tptp.create_1 _let_15) (tptp.meiosis_1 _let_1) (tptp.entity_1 _let_16) (tptp.animal_life_cycle_1 _let_13) (tptp.adulthood_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.zygote_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.cell_1 _let_3) (tptp.diploid_cell_1 _let_2) (tptp.subevent_2 _let_12 _let_23) (tptp.object_2 X _let_17) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_15) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.mitosis_0) (tptp.exactCardinality X tptp.subevent_0 |"1"| tptp.meiosis_0) (tptp.first_subevent_2 X _let_1) (tptp.base_2 _let_4 _let_22) (tptp.next_event_2 _let_4 _let_15) (tptp.by_means_of_2 _let_4 _let_21) (tptp.result_2 _let_7 _let_17) (tptp.next_event_2 _let_20 _let_4) (tptp.site_2 _let_20 _let_19) (tptp.raw_material_2 _let_15 _let_14) (tptp.subevent_2 _let_15 _let_7) (tptp.next_event_2 _let_1 _let_4) (tptp.site_2 _let_1 _let_18) (tptp.object_2 _let_7 _let_14) (tptp.result_2 _let_15 _let_17) (tptp.base_2 _let_4 _let_9) (tptp.result_2 _let_1 _let_9) (tptp.result_2 _let_4 _let_14) (tptp.subevent_2 X _let_10) (tptp.subevent_2 _let_10 _let_12) (tptp.object_2 _let_1 _let_9) (= _let_14 _let_8) (= _let_17 _let_16) (= _let_9 _let_5) (= _let_9 _let_3) (= _let_14 _let_6) (= X _let_13) (= _let_12 _let_11) (= _let_9 _let_2) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_meiotic_cycle_2 X))) (let ((_let_2 (tptp.fn_animal_meiotic_cycle_1 X))) (=> (tptp.animal_meiotic_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Meiotic-Cycle'|) (tptp.user_description_2 X |tptp.'An ordered sequence of events in which a parent sex cell divides to make 4 daughter cells which are gametes. The cell cycle includes interphase followed by meoisis (inclusive of cytokinesis).'|) (tptp.concept2words_2 X |tptp.'undergo the meiotic cell cycle'|) (tptp.concept2words_2 X |tptp.'animal meiotic cycle'|) (tptp.concept2words_2 X |tptp.'animal-meiotic-cycle'|) (tptp.meiotic_cell_cycle_1 X) (tptp.animal_1 _let_2) (tptp.animal_cell_1 _let_1) (tptp.base_2 X _let_1) (tptp.object_2 X _let_1) (tptp.experiencer_2 X _let_2) (= _let_2 (tptp.fn_eukaryotic_cell_cycle_1 X)) (= _let_1 (tptp.fn_eukaryotic_cell_cycle_3 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_mitotic_cycle_5 X))) (let ((_let_2 (tptp.fn_centriole_8 _let_1))) (let ((_let_3 (tptp.fn_centriole_2 _let_1))) (let ((_let_4 (tptp.fn_centriole_11 _let_1))) (let ((_let_5 (tptp.fn_centriole_9 _let_1))) (let ((_let_6 (tptp.fn_centriole_6 _let_1))) (let ((_let_7 (tptp.fn_animal_mitotic_cycle_26 X))) (let ((_let_8 (tptp.fn_animal_cell_74 _let_7))) (let ((_let_9 (tptp.fn_animal_mitotic_cycle_17 X))) (let ((_let_10 (tptp.fn_copy_1 _let_9))) (let ((_let_11 (tptp.fn_mitotic_cell_cycle_51 X))) (let ((_let_12 (tptp.fn_mitotic_cell_cycle_26 X))) (let ((_let_13 (tptp.fn_mitotic_cell_cycle_11 X))) (let ((_let_14 (tptp.fn_mitotic_cell_cycle_53 X))) (let ((_let_15 (tptp.fn_mitotic_cell_cycle_18 X))) (let ((_let_16 (tptp.fn_animal_mitotic_cycle_7 X))) (let ((_let_17 (tptp.fn_animal_mitotic_cycle_8 X))) (let ((_let_18 (tptp.fn_centriole_10 _let_1))) (let ((_let_19 (tptp.fn_animal_mitotic_cycle_9 X))) (let ((_let_20 (tptp.fn_centriole_7 _let_1))) (let ((_let_21 (tptp.fn_animal_mitotic_cycle_4 X))) (let ((_let_22 (tptp.fn_animal_mitotic_cycle_16 X))) (let ((_let_23 (tptp.fn_animal_cell_78 _let_7))) (let ((_let_24 (tptp.fn_animal_mitotic_cycle_10 X))) (let ((_let_25 (tptp.fn_animal_cell_67 _let_7))) (let ((_let_26 (tptp.fn_animal_mitotic_cycle_6 X))) (let ((_let_27 (tptp.fn_animal_cell_66 _let_7))) (let ((_let_28 (tptp.fn_animal_mitotic_cycle_27 X))) (let ((_let_29 (tptp.fn_animal_mitotic_cycle_23 X))) (let ((_let_30 (tptp.fn_animal_mitotic_cycle_3 X))) (let ((_let_31 (tptp.fn_animal_mitotic_cycle_19 X))) (let ((_let_32 (tptp.fn_animal_mitotic_cycle_13 X))) (let ((_let_33 (tptp.fn_animal_mitotic_cycle_14 X))) (let ((_let_34 (tptp.fn_animal_mitotic_cycle_15 X))) (let ((_let_35 (tptp.fn_animal_mitotic_cycle_22 X))) (let ((_let_36 (tptp.fn_animal_mitotic_cycle_21 X))) (let ((_let_37 (tptp.fn_animal_mitotic_cycle_25 X))) (let ((_let_38 (tptp.fn_animal_cell_52 _let_37))) (let ((_let_39 (tptp.fn_animal_mitotic_cycle_24 X))) (let ((_let_40 (tptp.fn_animal_mitotic_cycle_20 X))) (let ((_let_41 (tptp.fn_create_1 _let_9))) (let ((_let_42 (tptp.fn_animal_mitotic_cycle_18 X))) (let ((_let_43 (tptp.fn_animal_mitotic_cycle_1 X))) (let ((_let_44 (tptp.fn_animal_mitotic_cycle_2 X))) (=> (tptp.animal_mitotic_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Mitotic-Cycle'|) (tptp.user_description_2 X |tptp.'An ordered sequence of events in which a parent somatic cell is divided to produce two somatic daughter cells. The eukaryotic cell cycle is composed of interphase (including G1, S, and G2 subphases) and M phase (including mitosis and cytokinesis).'|) (tptp.concept2words_2 X |tptp.'undergo the mitotic cell cycle'|) (tptp.concept2words_2 X |tptp.'animal mitotic cycle'|) (tptp.concept2words_2 X |tptp.'animal-mitotic-cycle'|) (tptp.mitotic_cell_cycle_1 X) (tptp.animal_cell_1 _let_43) (tptp.animal_cell_1 _let_44) (tptp.animal_cell_1 _let_30) (tptp.protein_1 _let_21) (tptp.centriole_1 _let_1) (tptp.center_1 _let_26) (tptp.trimer_1 _let_16) (tptp.microtubule_1 _let_17) (tptp.attach_1 _let_19) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.eukaryotic_chromosome_1 _let_32) (tptp.chromosome_1 _let_32) (tptp.quantity_value_1 _let_33) (tptp.quantity_value_1 _let_34) (tptp.tangible_entity_1 _let_22) (tptp.centrosome_1 _let_22) (tptp.copy_1 _let_9) (tptp.centrosome_1 _let_42) (tptp.animal_cell_1 _let_31) (tptp.animal_1 _let_40) (tptp.animal_cell_1 _let_36) (tptp.homologous_chromosome_1 _let_35) (tptp.animal_cell_1 _let_29) (tptp.diploid_chromosome_1 _let_39) (tptp.animal_cell_1 _let_37) (tptp.eukaryotic_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.animal_cell_1 _let_7) (tptp.interphase_1 _let_28) (tptp.entity_1 _let_41) (tptp.eukaryotic_chromosome_1 _let_38) (tptp.chromosome_1 _let_38) (tptp.centriole_1 _let_27) (tptp.center_1 _let_25) (tptp.tangible_entity_1 _let_23) (tptp.nucleus_1 _let_23) (tptp.protein_1 _let_20) (tptp.attach_1 _let_18) (tptp.tangible_entity_1 _let_10) (tptp.centrosome_1 _let_8) (tptp.centrosome_1 _let_6) (tptp.microtubule_1 _let_5) (tptp.microtubule_1 _let_4) (tptp.trimer_1 _let_3) (tptp.trimer_1 _let_2) (tptp.result_2 X _let_31) (not (= _let_22 _let_42)) (tptp.exactCardinality _let_9 tptp.result_0 |"2"| tptp.centrosome_0) (not (= _let_42 _let_22)) (not (= _let_31 _let_37)) (not (= _let_31 _let_29)) (tptp.has_state_2 _let_36 _let_43) (tptp.has_state_2 _let_36 _let_44) (not (= _let_35 _let_39)) (not (= _let_29 _let_31)) (tptp.has_state_2 _let_44 _let_43) (not (= _let_39 _let_35)) (not (= _let_37 _let_31)) (tptp.has_state_2 _let_43 _let_7) (tptp.has_state_2 _let_7 _let_30) (tptp.has_state_2 _let_7 _let_37) (tptp.result_2 _let_9 _let_42) (tptp.object_2 _let_9 _let_22) (tptp.experiencer_2 X _let_40) (tptp.has_part_2 _let_37 _let_39) (tptp.object_2 X _let_36) (tptp.has_state_2 _let_36 _let_7) (tptp.result_2 _let_28 _let_7) (tptp.base_2 _let_28 _let_36) (tptp.base_2 X _let_36) (tptp.quantity_2 _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_34) (tptp.result_2 X _let_29) (not (= _let_29 _let_30)) (not (= _let_30 _let_31)) (tptp.has_part_2 _let_31 _let_32) (tptp.quantity_2 _let_32 _let_33) (not (= _let_30 _let_29)) (not (= _let_31 _let_30)) (tptp.subevent_2 X _let_28) (tptp.first_subevent_2 X _let_28) (tptp.has_part_2 _let_7 _let_24) (tptp.is_near_2 _let_24 _let_22) (tptp.has_region_2 _let_22 _let_26) (tptp.is_at_2 _let_1 _let_26) (tptp.is_near_2 _let_22 _let_24) (tptp.has_part_2 _let_22 _let_1) (tptp.has_part_2 _let_22 _let_21) (tptp.has_part_2 _let_1 _let_16) (tptp.has_part_2 _let_16 _let_17) (tptp.base_2 _let_19 _let_17) (tptp.agent_2 _let_19 _let_21) (tptp.has_function_2 _let_21 _let_19) (= _let_42 _let_41) (= _let_22 _let_10) (= _let_40 (tptp.fn_eukaryotic_cell_cycle_1 X)) (= _let_39 _let_38) (= _let_7 (tptp.fn_mitotic_cell_cycle_31 X)) (= _let_36 (tptp.fn_mitotic_cell_cycle_28 X)) (= (tptp.fn_animal_mitotic_cycle_11 X) (tptp.fn_mitotic_cell_cycle_2 X)) (= _let_35 (tptp.fn_mitotic_cell_cycle_5 X)) (= (tptp.fn_animal_mitotic_cycle_12 X) (tptp.fn_mitotic_cell_cycle_1 X)) (= _let_34 (tptp.fn_mitotic_cell_cycle_3 X)) (= _let_33 (tptp.fn_mitotic_cell_cycle_4 X)) (= _let_32 _let_15) (= _let_32 _let_14) (= _let_31 _let_12) (= _let_31 _let_11) (= _let_30 _let_11) (= _let_30 _let_13) (= _let_29 _let_12) (= _let_29 _let_11) (= _let_28 (tptp.fn_mitotic_cell_cycle_50 X)) (= _let_1 _let_27) (= _let_26 _let_25) (= _let_22 _let_8) (= _let_24 _let_23) (= _let_22 _let_6) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_5) (= _let_17 _let_4) (= _let_16 _let_3) (= _let_16 _let_2) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_11 _let_11) (= _let_13 _let_11) (= _let_11 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_mitotic_spindle_1 X))) (=> (tptp.animal_mitotic_spindle_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Mitotic-Spindle'|) (tptp.user_description_2 X |tptp.'Spindle shaped structure which is responsible for the separation and segregation of the chromosomes during mitosis in animal cells.'|) (tptp.concept2words_2 X |tptp.'animal mitotic spindle'|) (tptp.concept2words_2 X |tptp.'animal-mitotic-spindle'|) (tptp.mitotic_spindle_1 X) (tptp.aster_1 _let_1) (tptp.element_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_nutritional_requirement_44 X))) (let ((_let_2 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_3 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_4 (tptp.fn_animal_nutritional_requirement_38 X))) (let ((_let_5 (tptp.fn_amino_acid_11 _let_4))) (let ((_let_6 (tptp.fn_animal_nutritional_requirement_40 X))) (let ((_let_7 (tptp.fn_polypeptide_101 _let_6))) (let ((_let_8 (tptp.fn_amino_acid_27 _let_4))) (let ((_let_9 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_10 (tptp.fn_amino_acid_24 _let_4))) (let ((_let_11 (tptp.fn_polypeptide_126 _let_6))) (let ((_let_12 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_13 (tptp.fn_amino_acid_28 _let_4))) (let ((_let_14 (tptp.fn_amino_acid_22 _let_4))) (let ((_let_15 (tptp.fn_polypeptide_120 _let_6))) (let ((_let_16 (tptp.fn_polypeptide_89 _let_6))) (let ((_let_17 (tptp.fn_animal_nutritional_requirement_37 X))) (let ((_let_18 (tptp.fn_amino_group_20 _let_17))) (let ((_let_19 (tptp.fn_amino_acid_17 _let_4))) (let ((_let_20 (tptp.fn_polypeptide_125 _let_6))) (let ((_let_21 (tptp.fn_nutritional_requirement_7 X))) (let ((_let_22 (tptp.fn_amino_group_22 _let_17))) (let ((_let_23 (tptp.fn_polypeptide_118 _let_6))) (let ((_let_24 (tptp.fn_amino_group_21 _let_17))) (let ((_let_25 (tptp.fn_molecule_10 _let_4))) (let ((_let_26 (tptp.fn_functional_group_1 _let_1))) (let ((_let_27 (tptp.fn_functional_group_1 _let_17))) (let ((_let_28 (tptp.fn_polypeptide_82 _let_6))) (let ((_let_29 (tptp.fn_polypeptide_83 _let_6))) (let ((_let_30 (tptp.fn_animal_nutritional_requirement_56 X))) (let ((_let_31 (tptp.fn_carbonyl_group_8 _let_30))) (let ((_let_32 (tptp.fn_animal_nutritional_requirement_48 X))) (let ((_let_33 (tptp.fn_carbohydrate_35 _let_32))) (let ((_let_34 (tptp.fn_carbonyl_group_7 _let_30))) (let ((_let_35 (tptp.fn_carbohydrate_5 _let_32))) (let ((_let_36 (tptp.fn_nutritional_requirement_9 X))) (let ((_let_37 (tptp.fn_carbonyl_group_9 _let_30))) (let ((_let_38 (tptp.fn_carbohydrate_38 _let_32))) (let ((_let_39 (tptp.fn_organic_molecule_1 _let_6))) (let ((_let_40 (tptp.fn_organic_molecule_2 _let_6))) (let ((_let_41 (tptp.fn_carbohydrate_39 _let_32))) (let ((_let_42 (tptp.fn_animal_nutritional_requirement_49 X))) (let ((_let_43 (tptp.fn_organic_molecule_1 _let_42))) (let ((_let_44 (tptp.fn_organic_molecule_2 _let_42))) (let ((_let_45 (tptp.fn_animal_nutritional_requirement_42 X))) (let ((_let_46 (tptp.fn_animal_nutritional_requirement_41 X))) (let ((_let_47 (tptp.fn_animal_nutritional_requirement_35 X))) (let ((_let_48 (tptp.fn_animal_nutritional_requirement_34 X))) (let ((_let_49 (tptp.fn_animal_nutritional_requirement_62 X))) (let ((_let_50 (tptp.fn_animal_nutritional_requirement_36 X))) (let ((_let_51 (tptp.fn_animal_nutritional_requirement_39 X))) (let ((_let_52 (tptp.fn_amino_acid_23 _let_4))) (let ((_let_53 (tptp.fn_animal_nutritional_requirement_43 X))) (let ((_let_54 (tptp.fn_amino_acid_26 _let_4))) (let 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((_let_72 (tptp.fn_carbohydrate_34 _let_32))) (let ((_let_73 (tptp.fn_functional_group_1 _let_30))) (let ((_let_74 (tptp.fn_animal_nutritional_requirement_33 X))) (let ((_let_75 (tptp.fn_protein_7 _let_74))) (let ((_let_76 (tptp.fn_animal_nutritional_requirement_32 X))) (let ((_let_77 (tptp.fn_protein_14 _let_74))) (let ((_let_78 (tptp.fn_animal_nutritional_requirement_31 X))) (let ((_let_79 (tptp.fn_animal_nutritional_requirement_46 X))) (let ((_let_80 (tptp.fn_protein_8 _let_79))) (let ((_let_81 (tptp.fn_animal_nutritional_requirement_50 X))) (let ((_let_82 (tptp.fn_animal_nutritional_requirement_51 X))) (let ((_let_83 (tptp.fn_carbon_source_2 _let_82))) (let ((_let_84 (tptp.fn_animal_nutritional_requirement_24 X))) (let ((_let_85 (tptp.fn_animal_nutritional_requirement_23 X))) (let ((_let_86 (tptp.fn_animal_nutritional_requirement_22 X))) (let ((_let_87 (tptp.fn_animal_nutritional_requirement_27 X))) (let ((_let_88 (tptp.fn_animal_nutritional_requirement_12 X))) (let ((_let_89 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((_let_105 (tptp.fn_animal_nutritional_requirement_5 X))) (let ((_let_106 (tptp.fn_animal_nutritional_requirement_3 X))) (=> (tptp.animal_nutritional_requirement_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Nutritional-Requirement'|) (tptp.user_description_2 X |tptp.'Chemicals and elements found in food that are needed by animals in order to sustain healthy life'|) (tptp.concept2words_2 X |tptp.'animal nutritional requirement'|) (tptp.concept2words_2 X |tptp.'animal-nutritional-requirement'|) (tptp.nutritional_requirement_1 X) (tptp.charge_value_1 _let_106) (tptp.nutrition_1 _let_101) (tptp.nutritional_requirement_1 _let_105) (tptp.animal_1 _let_104) (tptp.charge_value_1 _let_100) (tptp.mineral_1 _let_99) (tptp.vitamin_1 _let_98) (tptp.amino_acid_1 _let_97) (tptp.fatty_acid_1 _let_96) (tptp.phenylalanine_1 _let_88) (tptp.methionine_1 _let_89) (tptp.isoleucine_1 _let_90) (tptp.threonine_1 _let_91) (tptp.arginine_1 _let_92) (tptp.leucine_1 _let_93) (tptp.tryptophan_1 _let_94) (tptp.valine_1 _let_95) (tptp.biological_region_1 _let_103) (tptp.energy_source_1 _let_102) (tptp.diet_1 _let_86) (tptp.mass_value_1 _let_85) (tptp.mass_value_1 _let_84) (tptp.system_1 (tptp.fn_animal_nutritional_requirement_26 X)) (tptp.unsaturated_fatty_acid_1 _let_87) (tptp.spatial_entity_1 _let_78) (tptp.chemical_entity_1 _let_78) (tptp.monomer_1 _let_78) (tptp.molecule_1 _let_78) (tptp.amino_acid_1 _let_78) (tptp.protein_domain_1 _let_76) (tptp.protein_1 _let_74) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.hydrogen_1 _let_48) (tptp.entity_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.atom_1 _let_47) (tptp.carbon_1 _let_47) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.hydrogen_1 _let_50) (tptp.functional_group_1 _let_17) (tptp.amino_group_1 _let_17) (tptp.spatial_entity_1 _let_4) (tptp.monomer_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.amino_acid_1 _let_4) (tptp.chemical_bond_1 _let_51) (tptp.single_bond_1 _let_51) (tptp.polypeptide_1 _let_6) (tptp.organic_molecule_1 _let_6) (tptp.oxygen_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.oxygen_1 _let_45) (tptp.carbon_skeleton_1 _let_53) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.atom_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.carbon_1 _let_61) (tptp.protein_1 _let_79) (tptp.nitrogen_1 _let_62) (tptp.chemical_entity_1 _let_32) (tptp.carbohydrate_1 _let_32) (tptp.molecule_1 _let_42) (tptp.organic_molecule_1 _let_42) (tptp.atom_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.carbon_1 _let_81) (tptp.carbon_source_1 _let_82) (tptp.entity_1 _let_65) (tptp.atom_1 _let_65) (tptp.chemical_entity_1 _let_65) (tptp.oxygen_1 _let_65) (tptp.entity_1 _let_69) (tptp.chemical_entity_1 _let_69) (tptp.atom_1 _let_69) (tptp.hydrogen_1 _let_69) (tptp.entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.oxygen_1 _let_60) (tptp.hydroxyl_group_1 _let_71) (tptp.functional_group_1 _let_30) (tptp.carbonyl_group_1 _let_30) (tptp.carbon_skeleton_1 _let_64) (tptp.double_bond_1 _let_56) (tptp.polar_covalent_bond_1 _let_67) (tptp.hold_together_1 _let_58) (tptp.entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.atom_1 _let_59) (tptp.carbon_1 _let_59) (tptp.chemical_entity_1 _let_49) (tptp.tangible_entity_1 _let_49) (tptp.entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.nitrogen_1 _let_49) (tptp.molecule_1 _let_83) (tptp.polypeptide_1 _let_80) (tptp.spatial_entity_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.monomer_1 _let_77) (tptp.molecule_1 _let_77) (tptp.amino_acid_1 _let_77) (tptp.protein_domain_1 _let_75) (tptp.chemical_entity_1 _let_73) (tptp.carbonyl_group_1 _let_72) (tptp.hydroxyl_group_1 _let_70) (tptp.entity_1 _let_68) (tptp.chemical_entity_1 _let_68) (tptp.atom_1 _let_68) (tptp.hydrogen_1 _let_68) (tptp.polar_covalent_bond_1 _let_66) (tptp.carbon_skeleton_1 _let_63) 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(tptp.cardinal_unit_class_2 _let_84 tptp.dalton_0) (tptp.called_2 _let_84 tptp.mass_proton) (tptp.plays_2 _let_42 _let_82) (tptp.has_part_2 _let_42 _let_81) (tptp.element_2 X _let_49) (tptp.element_2 X _let_59) (tptp.has_part_2 _let_79 _let_6) (tptp.has_region_2 _let_74 _let_76) (tptp.is_at_2 _let_78 _let_76) (tptp.has_part_2 _let_6 _let_4) (tptp.possesses_2 _let_32 _let_56) (tptp.has_region_2 _let_32 _let_30) (tptp.possesses_2 _let_32 _let_67) (tptp.is_inside_2 _let_65 _let_71) (tptp.has_part_2 _let_32 _let_60) (tptp.has_region_2 _let_32 _let_71) (tptp.is_inside_2 _let_69 _let_71) (tptp.has_part_2 _let_32 _let_69) (tptp.has_part_2 _let_32 _let_65) (tptp.is_between_2 _let_67 _let_65) (tptp.is_between_2 _let_67 _let_69) (not (= _let_69 _let_65)) (not (= _let_65 _let_69)) (not (= _let_60 _let_65)) (not (= _let_65 _let_60)) (tptp.has_region_2 _let_32 _let_64) (tptp.is_inside_2 _let_59 _let_64) (tptp.has_part_2 _let_32 _let_59) (not (= _let_65 _let_59)) (not (= _let_59 _let_65)) 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_let_17) (tptp.has_part_2 _let_4 _let_46) (tptp.has_region_2 _let_4 _let_1) (tptp.has_part_2 _let_4 _let_45) (tptp.has_region_2 _let_4 _let_53) (tptp.has_part_2 _let_4 _let_50) (tptp.has_part_2 _let_4 _let_49) (not (= _let_59 _let_60)) (not (= _let_60 _let_59)) (tptp.has_function_2 _let_56 _let_58) (tptp.is_between_2 _let_56 _let_59) (tptp.is_inside_2 _let_59 _let_30) (tptp.object_2 _let_58 _let_60) (tptp.object_2 _let_58 _let_59) (tptp.agent_2 _let_58 _let_56) (not (= _let_61 _let_62)) (not (= _let_62 _let_61)) (tptp.has_part_2 _let_6 _let_61) (tptp.possesses_2 _let_4 _let_51) (= _let_42 _let_83) (= _let_81 _let_44) (= _let_81 _let_43) (= _let_49 _let_21) (= _let_59 _let_36) (= _let_6 _let_80) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_56 _let_33) (= _let_32 _let_73) (= _let_30 _let_72) (= _let_71 _let_70) (= _let_60 _let_38) (= _let_65 _let_41) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_38) (= _let_59 _let_35) (= _let_64 _let_63) (= _let_51 _let_25) (= _let_62 _let_40) (= _let_61 _let_40) (= _let_61 _let_39) (= _let_60 _let_37) (= _let_59 _let_34) (= _let_58 _let_57) (= _let_56 _let_31) (= _let_48 _let_14) (= _let_50 _let_13) (= _let_47 _let_10) (= _let_4 _let_29) (= _let_4 _let_28) (= _let_48 _let_15) (= _let_48 _let_13) (= _let_4 _let_27) (= _let_17 _let_55) (= _let_46 _let_8) (= _let_4 _let_26) (= _let_1 _let_54) (= _let_45 _let_5) (= _let_53 _let_52) (= _let_50 _let_14) (= _let_49 _let_19) (= _let_51 _let_24) (= _let_50 _let_23) (= _let_49 _let_20) (= _let_50 _let_22) (= _let_49 _let_18) (= _let_47 _let_11) (= _let_48 _let_16) (= _let_45 _let_7) (= _let_45 _let_3) (= _let_48 _let_12) (= _let_46 _let_2) (= _let_47 _let_9) (= _let_46 _let_3) (= _let_45 _let_2) (= _let_44 _let_43) (= _let_43 _let_38) (= _let_38 _let_41) (= _let_41 _let_41) (= _let_41 _let_38) (= _let_38 _let_39) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_13) (= _let_13 _let_23) (= _let_23 _let_23) (= _let_23 _let_14) (= _let_14 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_2) (= _let_2 _let_3) (= _let_3 _let_5) (= _let_5 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_organ_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Organ'|) (tptp.user_description_2 X |tptp.'A collection of tissues working together in a structural unit in an animal_'s body.'|) (tptp.concept2words_2 X |tptp.'organ of animal'|) (tptp.concept2words_2 X |tptp.'animal organ'|) (tptp.concept2words_2 X |tptp.'animal-organ'|) (tptp.organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_orientation_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Orientation'|) (tptp.user_description_2 X |tptp.'When an animal detects compass directions and travels in a particular straight-line path for a certain distance or until it reaches its destination.'|) (tptp.concept2words_2 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_let_135 _let_133) (= _let_133 _let_92) (= _let_92 _let_131) (= _let_131 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_129 _let_108) (= _let_108 _let_127) (= _let_127 _let_128) (= _let_128 _let_128) (= _let_128 _let_127) (= _let_127 _let_127) (= _let_126 _let_127) (= _let_127 _let_126) (= _let_126 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_122) (= _let_122 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_90) (= _let_90 _let_118) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_116 _let_118) (= _let_118 _let_114) (= _let_114 _let_117) (= _let_117 _let_116) (= _let_116 _let_114) (= _let_114 _let_114) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_111) (= _let_110 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_109 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_106 _let_105) (= _let_105 _let_104) (= _let_102 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_101 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_99) (= _let_98 _let_99) (= _let_98 _let_100) (= _let_100 _let_99) (= _let_99 _let_100) (= _let_100 _let_100) (= _let_100 _let_97) (= _let_97 _let_98) (= _let_97 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_94) (= _let_94 _let_94) (= _let_94 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_88) (= _let_88 _let_86) (= _let_86 _let_87) (= _let_87 _let_85) (= _let_84 _let_86) (= _let_86 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_76) (= _let_76 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_63 _let_65) (= _let_65 _let_62) (= _let_62 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_58 _let_60) (= _let_60 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_52) (= _let_52 _let_50) (= _let_50 _let_52) (= _let_52 _let_48) (= _let_48 _let_50) (= _let_50 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_19) (= _let_19 _let_19) (= _let_19 _let_44) (= _let_44 _let_43) (= _let_43 _let_41) (= _let_41 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_19) (= _let_19 _let_21) (= _let_17 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_15 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_14 _let_19) (= _let_19 _let_14) (= _let_14 _let_21) (= _let_21 _let_21) (= _let_21 _let_17) (= _let_17 _let_12) (= _let_12 _let_20) (= _let_20 _let_20) (= _let_20 _let_10) (= _let_8 _let_18) (= _let_18 _let_8) (= _let_8 _let_19) (= _let_19 _let_18) (= _let_18 _let_15) (= _let_6 _let_17) (= _let_17 _let_6) (= _let_6 _let_15) (= _let_15 _let_6) (= _let_4 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_pole_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Pole'|) (tptp.user_description_2 X |tptp.'The area of an egg that has the lowest concentration of yolk, opposite the vegetal pole which has the highest yolk concentration. Cells in the animal pole divide more rapidly than cells in the vegetal pole.'|) (tptp.concept2words_2 X |tptp.'pole of animal'|) (tptp.concept2words_2 X |tptp.'animal pole'|) (tptp.concept2words_2 X |tptp.'animal-pole'|) (tptp.pole_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_process_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Process'|) (tptp.user_description_2 X |tptp.'A process unique to animals.'|) (tptp.concept2words_2 X |tptp.'process of animal'|) (tptp.concept2words_2 X |tptp.'animal process'|) (tptp.concept2words_2 X |tptp.'animal-process'|) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_space_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Space'|) (tptp.user_description_2 X |tptp.'A space in animals which is surrounded by anatomical structures.'|) (tptp.concept2words_2 X |tptp.'space of animal'|) (tptp.concept2words_2 X |tptp.'animal space'|) (tptp.concept2words_2 X |tptp.'animal-space'|) (tptp.anatomical_space_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_statolith_1 X))) (=> (tptp.animal_statolith_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Statolith'|) (tptp.user_description_2 X |tptp.'A mineralized concretion in the statocyst of invertebrate animals. Due to gravity, the statolith settles against sensory cilia within the cavity of the statocyst, giving the animal information about its body_'s orientation with respect to gravity.'|) (tptp.concept2words_2 X |tptp.'animal statolith'|) (tptp.concept2words_2 X |tptp.'animal-statolith'|) (tptp.vesicle_1 X) (tptp.animal_cell_1 _let_1) (tptp.has_part_2 _let_1 X) (= _let_1 (tptp.fn_vesicle_5 X)))))) (forall ((X $$unsorted)) (=> (tptp.animal_stem_cell_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Stem-Cell'|) (tptp.user_description_2 X |tptp.'Animal stem cells are biological cells found in animal, that can divide through mitosis and differentiate into diverse specialized cell types or can self renew to produce more stem cells.'|) (tptp.concept2words_2 X |tptp.'animal stem cell'|) (tptp.concept2words_2 X |tptp.'animal-stem-cell'|) (tptp.stem_cell_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.stem_cell_culturing_1 X) (tptp.embryonic_stem_cell_1 X1)) (and (tptp.animal_stem_cell_culturing_from_embryo_1 X) (= (tptp.fn_animal_stem_cell_culturing_from_embryo_5 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_stem_cell_culturing_from_embryo_2 X))) (let ((_let_2 (tptp.fn_reproduce_2 _let_1))) (let ((_let_3 (tptp.fn_stem_cell_culturing_2 X))) (let ((_let_4 (tptp.fn_animal_stem_cell_culturing_from_embryo_5 X))) (let ((_let_5 (tptp.fn_embryonic_stem_cell_41 _let_4))) (let ((_let_6 (tptp.fn_animal_stem_cell_culturing_from_embryo_3 X))) (let ((_let_7 (tptp.fn_remove_2 _let_6))) (let ((_let_8 (tptp.fn_culturing_7 X))) (let ((_let_9 (tptp.fn_reproduce_1 _let_1))) (let ((_let_10 (tptp.fn_remove_1 _let_6))) (let ((_let_11 (tptp.fn_animal_stem_cell_culturing_from_embryo_6 X))) (let ((_let_12 (tptp.fn_animal_stem_cell_culturing_from_embryo_7 X))) (let ((_let_13 (tptp.fn_animal_stem_cell_culturing_from_embryo_4 X))) (=> (tptp.animal_stem_cell_culturing_from_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Stem-Cell-Culturing-From-Embryo'|) (tptp.user_description_2 X |tptp.'The growing of the stem cells of animal from its embryo in laboratory.'|) (tptp.concept2words_2 X tptp.culture) (tptp.concept2words_2 X |tptp.'animal stem cell culturing from embryo'|) (tptp.concept2words_2 X |tptp.'animal-stem-cell-culturing-from-embryo'|) (tptp.stem_cell_culturing_1 X) (not (tptp.animal_stem_cell_culturing_from_tissue_1 X)) (tptp.reproduce_1 _let_1) (tptp.remove_1 _let_6) (tptp.early_embryo_1 _let_13) (tptp.spatial_entity_1 _let_4) (tptp.living_entity_1 _let_4) (tptp.cell_1 _let_4) (tptp.embryonic_stem_cell_1 _let_4) (tptp.animal_stem_cell_1 _let_11) (tptp.culture_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.living_entity_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.embryo_1 _let_5) (tptp.living_entity_1 _let_2) (tptp.next_event_2 _let_6 X) (tptp.object_2 _let_6 _let_4) (tptp.base_2 _let_6 _let_13) (tptp.object_2 X _let_4) (tptp.agent_2 _let_1 _let_4) (tptp.base_2 _let_1 _let_4) (tptp.has_part_2 _let_13 _let_4) (tptp.result_2 X _let_12) (tptp.element_2 _let_12 _let_11) (tptp.result_2 _let_1 _let_11) (= _let_4 _let_10) (= _let_13 _let_7) (= _let_4 _let_9) (= _let_1 (tptp.fn_culturing_4 X)) (= _let_4 _let_8) (= _let_13 _let_5) (= _let_11 _let_3) (= _let_12 (tptp.fn_stem_cell_culturing_3 X)) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.stem_cell_culturing_1 X) (tptp.animal_stem_cell_1 X1) (tptp.adult_stem_cell_1 X1)) (and (tptp.animal_stem_cell_culturing_from_tissue_1 X) (= (tptp.fn_animal_stem_cell_culturing_from_tissue_5 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_stem_cell_culturing_from_tissue_3 X))) (let ((_let_2 (tptp.fn_animal_stem_cell_culturing_from_tissue_4 X))) (let ((_let_3 (tptp.fn_animal_stem_cell_culturing_from_tissue_5 X))) (let ((_let_4 (tptp.fn_adult_stem_cell_35 _let_3))) (let ((_let_5 (tptp.fn_animal_stem_cell_culturing_from_tissue_6 X))) (let ((_let_6 (tptp.fn_animal_stem_cell_culturing_from_tissue_1 X))) (=> (tptp.animal_stem_cell_culturing_from_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Stem-Cell-Culturing-From-Tissue'|) (tptp.user_description_2 X |tptp.'The growing of the stem cells of animal from its tissue in laboratory.'|) (tptp.concept2words_2 X tptp.culture) (tptp.concept2words_2 X |tptp.'animal stem cell culturing from tissue'|) (tptp.concept2words_2 X |tptp.'animal-stem-cell-culturing-from-tissue'|) (tptp.stem_cell_culturing_1 X) (not (tptp.animal_stem_cell_culturing_from_embryo_1 X)) (tptp.animal_1 _let_6) (tptp.culture_1 _let_1) (tptp.animal_stem_cell_1 _let_2) (tptp.animal_stem_cell_1 _let_3) (tptp.tissue_1 _let_5) (tptp.tissue_1 _let_4) (tptp.has_part_2 _let_6 _let_5) (tptp.object_2 X _let_3) (tptp.has_part_2 _let_5 _let_3) (tptp.result_2 X _let_1) (tptp.element_2 _let_1 _let_2) (= _let_3 (tptp.fn_stem_cell_culturing_1 X)) (= _let_5 _let_4) (= _let_2 (tptp.fn_stem_cell_culturing_2 X)) (= _let_1 (tptp.fn_stem_cell_culturing_3 X))))))))))) (forall ((X $$unsorted)) (=> (tptp.animal_storage_polysaccharide_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Storage-Polysaccharide'|) (tptp.user_description_2 X |tptp.'A polysaccharide used primarily for energy storage in animals.'|) (tptp.concept2words_2 X |tptp.'animal storage polysaccharide'|) (tptp.concept2words_2 X |tptp.'animal-storage-polysaccharide'|) (tptp.storage_polysaccharide_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_structure_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Structure'|) (tptp.user_description_2 X |tptp.'Structures which make up the body of animals.'|) (tptp.concept2words_2 X |tptp.'structure of animal'|) (tptp.concept2words_2 X |tptp.'animal structure'|) (tptp.concept2words_2 X |tptp.'animal-structure'|) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_system_1 X) (and (tptp.original_name_2 X |tptp.'Animal-System'|) (tptp.user_description_2 X |tptp.'A group of organs in animals that work together in performing vital body functions.'|) (tptp.concept2words_2 X |tptp.'system of animal'|) (tptp.concept2words_2 X |tptp.'animal system'|) (tptp.concept2words_2 X |tptp.'animal-system'|) (tptp.organ_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Tissue'|) (tptp.user_description_2 X |tptp.'An organized collection of similar cells from the same origin, that carry out a specific function in an animal_'s body.'|) (tptp.concept2words_2 X |tptp.'tissue of animal'|) (tptp.concept2words_2 X |tptp.'animal tissue'|) (tptp.concept2words_2 X |tptp.'animal-tissue'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.animal_transcription_factor_gene_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Transcription-Factor-Gene'|) (tptp.user_description_2 X |tptp.'A gene that codes for animal transcription factor.'|) (tptp.concept2words_2 X |tptp.'animal transcription factor gene'|) (tptp.concept2words_2 X |tptp.'animal-transcription-factor-gene'|) (tptp.transcription_factor_gene_1 X) (not (tptp.yeast_transcription_factor_gene_1 X))))) (forall ((X $$unsorted)) (=> (tptp.animal_transport_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Transport'|) (tptp.user_description_2 X |tptp.'A process related to transport of materials in animals.'|) (tptp.concept2words_2 X |tptp.'transport of animal'|) (tptp.concept2words_2 X |tptp.'animal transport'|) (tptp.concept2words_2 X |tptp.'animal-transport'|) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_virus_2 X))) (let ((_let_2 (tptp.fn_viral_envelope_17 _let_1))) (let ((_let_3 (tptp.fn_animal_virus_1 X))) (=> (tptp.animal_virus_1 X) (and (tptp.original_name_2 X |tptp.'Animal-Virus'|) (tptp.user_description_2 X |tptp.'The study of animal viruses is important from a veterinary viewpoint and many of these viruses cause diseases that are economically devastating. Many animal viruses are also important from a human medical perspective. The emergence of the SARS virus in the human population, coming from an animal source, highlights the importance of animals in bearing infectious agents; avian influenza viruses can directly infect humans. In addition research into animal viruses has made an important contribution to our understanding of viruses in general, their replication, molecular biology, evolution and interaction with the host.'|) (tptp.concept2words_2 X |tptp.'virus of animal'|) (tptp.concept2words_2 X |tptp.'animal virus'|) (tptp.concept2words_2 X |tptp.'animal-virus'|) (tptp.virus_1 X) (tptp.glycoprotein_1 _let_3) (tptp.viral_envelope_1 _let_1) (tptp.virus_1 _let_2) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_1) (= X _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anion_5 X))) (let ((_let_2 (tptp.fn_atom_7 _let_1))) (let ((_let_3 (tptp.fn_anion_4 X))) (let ((_let_4 (tptp.fn_atom_6 _let_1))) (let ((_let_5 (tptp.fn_anion_6 X))) (let ((_let_6 (tptp.fn_anion_2 X))) (let ((_let_7 (tptp.fn_anion_1 X))) (=> (tptp.anion_1 X) (and (tptp.original_name_2 X |tptp.'Anion'|) (tptp.user_description_2 X |tptp.'An anion is a negatively charged ion.'|) (tptp.concept2words_2 X tptp.anion) (tptp.ion_1 X) (tptp.electron_1 _let_7) (tptp.gain_1 _let_6) (tptp.charge_value_1 _let_3) (tptp.atom_1 _let_1) (tptp.charge_value_1 _let_5) (tptp.property_node_1 _let_4) (tptp.charge_value_1 _let_2) (tptp.greater_than_2 _let_3 _let_5) (tptp.base_2 _let_6 _let_1) (tptp.recipient_2 _let_6 _let_1) (tptp.object_2 _let_6 _let_7) (tptp.result_2 _let_6 X) (tptp.charge_2 X _let_5) (tptp.charge_2 _let_1 _let_3) (tptp.the_cardinal_value_2 _let_3 |"0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (= (tptp.fn_anion_7 X) (tptp.fn_ion_1 X)) (= _let_5 (tptp.fn_ion_2 X)) (= (tptp.fn_anion_3 X) _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anion_substance_2 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_anion_substance_1 X))) (=> (tptp.anion_substance_1 X) (and (tptp.original_name_2 X |tptp.'Anion-Substance'|) (tptp.user_description_2 X |tptp.'A substance composed of anions.'|) (tptp.concept2words_2 X |tptp.'substance of anion'|) (tptp.concept2words_2 X |tptp.'anion substance'|) (tptp.concept2words_2 X |tptp.'anion-substance'|) (tptp.ionic_substance_1 X) (not (tptp.cation_substance_1 X)) (tptp.anion_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.chemical_0) (tptp.solubility_in_water_2 X _let_1) (tptp.has_part_2 X _let_3) (= _let_3 (tptp.fn_ionic_substance_3 X)) (= (tptp.fn_anion_substance_3 X) _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_annealing_4 X))) (let ((_let_2 (tptp.fn_heat_1 _let_1))) (let ((_let_3 (tptp.fn_annealing_5 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_attach_2 X))) (let ((_let_6 (tptp.fn_attach_1 X))) (let ((_let_7 (tptp.fn_annealing_6 X))) (let ((_let_8 (tptp.fn_attach_2 _let_7))) (let ((_let_9 (tptp.fn_heat_5 _let_1))) (let ((_let_10 (tptp.fn_annealing_8 X))) (let ((_let_11 (tptp.fn_heat_2 _let_1))) (let ((_let_12 (tptp.fn_annealing_7 X))) (let ((_let_13 (tptp.fn_synthesis_of_dna_strand_21 _let_12))) (let ((_let_14 (tptp.fn_annealing_3 X))) (let ((_let_15 (tptp.fn_annealing_2 X))) (let ((_let_16 (tptp.fn_attach_1 _let_3))) (let ((_let_17 (tptp.fn_annealing_10 X))) (let ((_let_18 (tptp.fn_attach_1 _let_7))) (let ((_let_19 (tptp.fn_annealing_9 X))) (=> (tptp.annealing_1 X) (and (tptp.original_name_2 X |tptp.'Annealing'|) (tptp.user_description_2 X |tptp.'Attaching of single-stranded DNS with DNA Primers at 60 degrees Celsius. This is a subevent of PCR.'|) (tptp.concept2words_2 X tptp.anneal) (tptp.concept2words_2 X tptp.annealing) (tptp.attach_1 X) (not (tptp.base_pairing_1 X)) (not (tptp.intercellular_joining_1 X)) (not (tptp.ligand_binding_1 X)) (not (tptp.nucleic_acid_hybridization_1 X)) (tptp.dna_strand_1 _let_15) (tptp.dna_strand_1 _let_14) (tptp.heat_1 _let_1) (tptp.attach_1 _let_3) (tptp.attach_1 _let_7) (tptp.polymerase_chain_reaction_1 _let_12) (tptp.temperature_value_1 _let_10) (tptp.dna_primer_1 _let_19) (tptp.dna_primer_1 _let_17) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.attach_1 _let_13) (tptp.property_node_1 _let_11) (tptp.temperature_value_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.exactCardinality X tptp.base_0 |"1"| tptp.dna_strand_0) (tptp.exactCardinality X tptp.object_0 |"1"| tptp.dna_strand_0) (tptp.the_cardinal_value_2 _let_10 |"60.0e0"|) (tptp.cardinal_unit_class_2 _let_10 tptp.celsius_0) (tptp.enables_2 _let_1 _let_7) (tptp.enables_2 _let_1 _let_3) (tptp.next_event_2 _let_1 _let_7) (tptp.next_event_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_15) (tptp.object_2 _let_7 _let_19) (tptp.object_2 _let_3 _let_17) (tptp.base_2 X _let_14) (tptp.base_2 _let_7 _let_15) (tptp.object_2 X _let_15) (tptp.base_2 _let_3 _let_14) (tptp.base_2 _let_1 _let_14) (tptp.subevent_2 _let_12 X) (tptp.to_value_2 _let_1 _let_10) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_14 _let_5) (= _let_15 _let_8) (= _let_15 _let_6) (= _let_14 _let_4) (= _let_14 _let_2) (= X _let_13) (= (tptp.fn_annealing_1 X) _let_11) (= _let_10 _let_9) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_annelid_6 X))) (let ((_let_2 (tptp.fn_polypeptide_82 _let_1))) (let ((_let_3 (tptp.fn_polypeptide_83 _let_1))) (let ((_let_4 (tptp.fn_polypeptide_125 _let_1))) (let ((_let_5 (tptp.fn_annelid_18 X))) (let ((_let_6 (tptp.fn_animal_nutritional_requirement_62 _let_5))) (let ((_let_7 (tptp.fn_polypeptide_91 _let_1))) (let ((_let_8 (tptp.fn_polypeptide_44 _let_1))) (let ((_let_9 (tptp.fn_polypeptide_120 _let_1))) (let ((_let_10 (tptp.fn_polypeptide_118 _let_1))) (let ((_let_11 (tptp.fn_polypeptide_89 _let_1))) (let ((_let_12 (tptp.fn_polypeptide_119 _let_1))) (let ((_let_13 (tptp.fn_annelid_5 X))) (let ((_let_14 (tptp.fn_amino_acid_24 _let_13))) (let ((_let_15 (tptp.fn_polypeptide_15 _let_1))) (let ((_let_16 (tptp.fn_amino_acid_11 _let_13))) (let ((_let_17 (tptp.fn_amino_acid_27 _let_13))) (let ((_let_18 (tptp.fn_polypeptide_101 _let_1))) (let ((_let_19 (tptp.fn_animal_nutritional_requirement_4 _let_5))) (let ((_let_20 (tptp.fn_invertebrate_4 X))) (let ((_let_21 (tptp.fn_annelid_17 X))) (let ((_let_22 (tptp.fn_annelid_14 X))) (let ((_let_23 (tptp.fn_annelid_15 X))) (let ((_let_24 (tptp.fn_annelid_16 X))) (let ((_let_25 (tptp.fn_annelid_12 X))) (let ((_let_26 (tptp.fn_annelid_13 X))) (let ((_let_27 (tptp.fn_animal_nutritional_requirement_61 _let_5))) (let ((_let_28 (tptp.fn_annelid_4 X))) (let ((_let_29 (tptp.fn_animal_nutritional_requirement_48 _let_5))) (let ((_let_30 (tptp.fn_annelid_3 X))) (let ((_let_31 (tptp.fn_annelid_10 X))) (let ((_let_32 (tptp.fn_animal_nutritional_requirement_46 _let_5))) (let ((_let_33 (tptp.fn_annelid_2 X))) (let ((_let_34 (tptp.fn_animal_nutritional_requirement_40 _let_5))) (let ((_let_35 (tptp.fn_animal_nutritional_requirement_6 _let_5))) (let ((_let_36 (tptp.fn_annelid_9 X))) (let ((_let_37 (tptp.fn_annelid_8 X))) (let ((_let_38 (tptp.fn_annelid_7 X))) (let ((_let_39 (tptp.fn_annelid_11 X))) (=> (tptp.annelid_1 X) (and (tptp.original_name_2 X |tptp.'Annelid'|) (tptp.user_description_2 X |tptp.'A segmented worm from the Phylum Annelida. Examples include polychaetes, earthworms, and leeches.'|) (tptp.concept2words_2 X |tptp.'segmented worm'|) (tptp.concept2words_2 X |tptp.'segmented-worm'|) (tptp.concept2words_2 X tptp.annelida) (tptp.concept2words_2 X tptp.annelid) (tptp.lophotrochozoan_1 X) (not (tptp.ammonite_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X)) (tptp.protein_1 _let_33) (tptp.chemical_entity_1 _let_30) (tptp.carbohydrate_1 _let_30) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_13) (tptp.molecule_1 _let_13) (tptp.amino_acid_1 _let_13) (tptp.organic_molecule_1 _let_1) (tptp.polypeptide_1 _let_1) (tptp.water_1 _let_38) (tptp.specific_heat_value_1 _let_37) (tptp.temperature_value_1 _let_36) (tptp.nutrition_1 _let_31) (tptp.heterotroph_1 _let_39) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.oxygen_1 _let_25) (tptp.tangible_entity_1 _let_26) (tptp.entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.oxygen_1 _let_26) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.hydrogen_1 _let_22) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.hydrogen_1 _let_24) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.nitrogen_1 _let_21) (tptp.animal_nutritional_requirement_1 _let_5) (tptp.animal_1 _let_35) (tptp.polypeptide_1 _let_34) (tptp.organic_molecule_1 _let_34) (tptp.protein_1 _let_32) (tptp.chemical_entity_1 _let_29) (tptp.carbohydrate_1 _let_29) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.nutrition_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.atom_1 _let_18) (tptp.oxygen_1 _let_17) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_15) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.carbon_1 _let_14) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.nitrogen_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.nitrogen_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.nitrogen_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.monomer_1 _let_3) (tptp.molecule_1 _let_3) (tptp.amino_acid_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.monomer_1 _let_2) (tptp.molecule_1 _let_2) (tptp.amino_acid_1 _let_2) (not (= _let_26 _let_22)) (not (= _let_22 _let_26)) (tptp.in_event_2 _let_39 _let_31) (tptp.temperature_2 X _let_36) (tptp.correspondence_2 _let_36 _let_37) (tptp.specific_heat_2 _let_38 _let_37) (tptp.has_part_2 X _let_38) (tptp.plays_2 X _let_39) (tptp.element_2 _let_5 _let_21) (tptp.agent_2 _let_31 X) (tptp.element_2 _let_5 _let_28) (tptp.has_part_2 _let_30 _let_28) (tptp.result_2 _let_31 _let_30) (tptp.result_2 _let_31 _let_33) (tptp.has_part_2 _let_33 _let_1) (tptp.has_part_2 _let_13 _let_26) (not (= _let_25 _let_26)) (not (= _let_26 _let_25)) (not (= _let_23 _let_26)) (not (= _let_26 _let_23)) (tptp.has_part_2 _let_13 _let_25) (tptp.has_part_2 _let_13 _let_22) (not (= _let_23 _let_24)) (not (= _let_24 _let_23)) (tptp.has_part_2 _let_13 _let_24) (tptp.has_part_2 _let_13 _let_23) (not (= _let_23 _let_22)) (not (= _let_25 _let_23)) (not (= _let_23 _let_25)) (not (= _let_22 _let_23)) (not (= _let_21 _let_24)) (not (= _let_24 _let_21)) (not (= _let_25 _let_24)) (not (= _let_24 _let_25)) (not (= _let_22 _let_24)) (not (= _let_24 _let_22)) (tptp.has_part_2 _let_1 _let_13) (tptp.has_part_2 _let_13 _let_21) (not (= _let_21 _let_23)) (not (= _let_22 _let_21)) (not (= _let_21 _let_22)) (not (= _let_23 _let_21)) (= _let_26 _let_18) (= _let_31 _let_20) (= _let_39 (tptp.fn_invertebrate_1 X)) (= _let_38 (tptp.fn_invertebrate_5 X)) (= _let_37 (tptp.fn_invertebrate_3 X)) (= _let_36 (tptp.fn_invertebrate_6 X)) (= _let_21 _let_6) (= X _let_35) (= _let_1 _let_34) (= _let_33 _let_32) (= _let_31 _let_19) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_16) (= _let_23 _let_14) (= _let_25 _let_16) (= _let_26 _let_17) (= _let_24 _let_9) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_25 _let_15) (= _let_24 _let_10) (= _let_23 _let_12) (= _let_22 _let_11) (= _let_22 _let_8) (= _let_21 _let_7) (= _let_21 _let_4) (= _let_13 _let_3) (= _let_13 _let_2) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_9) (= _let_10 _let_10) (= _let_10 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.annual_1 X) (and (tptp.original_name_2 X |tptp.'Annual'|) (tptp.user_description_2 X |tptp.'A flowering plant that completes its entire life cycle in a single year or growing season.'|) (tptp.concept2words_2 X |tptp.'annual plant'|) (tptp.concept2words_2 X tptp.annual) (tptp.angiosperm_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anoplura_1 X) (and (tptp.original_name_2 X |tptp.'Anoplura'|) (tptp.user_description_2 X |tptp.'Order of the class Insecta. Wingless ectoparasites with sucking mouthparts and flattened bodies.'|) (tptp.concept2words_2 X |tptp.'sucking louse'|) (tptp.concept2words_2 X |tptp.'sucking-louse'|) (tptp.concept2words_2 X tptp.anoplura) (tptp.insect_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anp_1 X) (and (tptp.original_name_2 X |tptp.'ANP'|) (tptp.user_description_2 X |tptp.'Atrial natiuretic peptide is a polypeptide hormone secreted by cells in the atria of the heart in response to high blood pressure. Its actions reduce blood volume, increase the breakdown of lipids in the blood, and decreases sodium reabsorption in the kidney, all of which reduce blood pressure.'|) (tptp.concept2words_2 X |tptp.'atrial natriuretic peptide'|) (tptp.concept2words_2 X |tptp.'atrial-natriuretic-peptide'|) (tptp.concept2words_2 X |tptp.'atrial natriuretic factor'|) (tptp.concept2words_2 X |tptp.'atrial-natriuretic-factor'|) (tptp.concept2words_2 X |tptp.'atrial natriuretic hormone'|) (tptp.concept2words_2 X |tptp.'atrial-natriuretic-hormone'|) (tptp.concept2words_2 X tptp.anh) (tptp.concept2words_2 X tptp.anf) (tptp.concept2words_2 X tptp.atriopeptin) (tptp.concept2words_2 X tptp.anp) (tptp.peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ant_1 X) (and (tptp.original_name_2 X |tptp.'Ant'|) (tptp.user_description_2 X |tptp.'Social insects of the Family Formicidae.'|) (tptp.concept2words_2 X tptp.ant) (tptp.hymenoptera_1 X) (not (tptp.parasitoid_wasp_1 X)) (not (tptp.bee_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antarctic_sea_1 X))) (=> (tptp.antarctic_sea_1 X) (and (tptp.original_name_2 X |tptp.'Antarctic-Sea'|) (tptp.user_description_2 X |tptp.'Sea in Antarctic Region.'|) (tptp.concept2words_2 X |tptp.'sea of antarctic'|) (tptp.concept2words_2 X |tptp.'antarctic sea'|) (tptp.concept2words_2 X |tptp.'antarctic-sea'|) (tptp.sea_1 X) (not (tptp.tropical_sea_1 X)) (tptp.ice_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.antenna_1 X) (and (tptp.original_name_2 X |tptp.'Antenna'|) (tptp.user_description_2 X |tptp.'A sensory organ on the head of arthropods such as crustaceans and insects.'|) (tptp.concept2words_2 X tptp.antennae) (tptp.concept2words_2 X tptp.antenna) (tptp.sensory_organ_1 X) (tptp.invertebrate_appendage_1 X) (not (tptp.cochlea_1 X)) (not (tptp.eye_cup_1 X)) (not (tptp.inner_ear_1 X)) (not (tptp.lateral_line_1 X)) (not (tptp.organ_of_corti_1 X)) (not (tptp.organ_of_equilibrium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.antenna_pigment_1 X) (and (tptp.original_name_2 X |tptp.'Antenna-Pigment'|) (tptp.user_description_2 X |tptp.'Photosynthetic pigments that capture light in other parts of the spectrum than chlorophyll a and passes this light energy on to chlorophyll a at the reaction center in the chloroplast.'|) (tptp.concept2words_2 X |tptp.'antennae pigment'|) (tptp.concept2words_2 X |tptp.'pigment of antenna'|) (tptp.concept2words_2 X |tptp.'antenna pigment'|) (tptp.concept2words_2 X |tptp.'antenna-pigment'|) (tptp.pigment_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anterior_1 X) (and (tptp.original_name_2 X |tptp.'Anterior'|) (tptp.user_description_2 X |tptp.'The anterior is the anatomical region near the head or front of an animal with a left and a right side (a bilateral animal).'|) (tptp.concept2words_2 X tptp.rostral) (tptp.concept2words_2 X |tptp.'cranial,'|) (tptp.concept2words_2 X tptp.cephalic) (tptp.concept2words_2 X tptp.cranial) (tptp.concept2words_2 X tptp.anterior) (tptp.anatomical_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anterior_end_1 X) (and (tptp.original_name_2 X |tptp.'Anterior-End'|) (tptp.user_description_2 X |tptp.'The front side region.'|) (tptp.concept2words_2 X |tptp.'end of anterior'|) (tptp.concept2words_2 X |tptp.'anterior end'|) (tptp.concept2words_2 X |tptp.'anterior-end'|) (tptp.anterior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anterior_pituitary_1 X) (and (tptp.original_name_2 X |tptp.'Anterior-Pituitary'|) (tptp.user_description_2 X |tptp.'The anterior portion of the pituitary gland, which secretes hormones that regulate physiological processes including growth and reproduction.'|) (tptp.concept2words_2 X tptp.adenohypophysis) (tptp.concept2words_2 X |tptp.'pituitary of anterior'|) (tptp.concept2words_2 X |tptp.'anterior pituitary'|) (tptp.concept2words_2 X |tptp.'anterior-pituitary'|) (tptp.secretory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anterior_posterior_axis_1 X) (and (tptp.original_name_2 X |tptp.'Anterior-Posterior-Axis'|) (tptp.user_description_2 X |tptp.'A body axis connecting the anterior end and posterior end.'|) (tptp.concept2words_2 X |tptp.'head tail axis'|) (tptp.concept2words_2 X |tptp.'anterior posterior axis'|) (tptp.concept2words_2 X |tptp.'anterior-posterior axis'|) (tptp.concept2words_2 X |tptp.'anterior-posterior-axis'|) (tptp.body_axis_1 X) (not (tptp.dorsal_ventral_axis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anterior_structure_2 X))) (let ((_let_2 (tptp.fn_anterior_structure_1 X))) (=> (tptp.anterior_structure_1 X) (and (tptp.original_name_2 X |tptp.'Anterior-Structure'|) (tptp.user_description_2 X |tptp.'The structure situated before or at the front side.'|) (tptp.concept2words_2 X |tptp.'structure of anterior'|) (tptp.concept2words_2 X |tptp.'anterior structure'|) (tptp.concept2words_2 X |tptp.'anterior-structure'|) (tptp.anatomical_structure_1 X) (tptp.anterior_end_1 _let_2) (tptp.living_entity_1 _let_1) (tptp.has_region_2 _let_1 _let_2) (tptp.has_part_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.anther_1 X) (and (tptp.original_name_2 X |tptp.'Anther'|) (tptp.user_description_2 X |tptp.'In a flowering plant (angiosperm), the distal end of a stamen, where pollen is produced.'|) (tptp.concept2words_2 X tptp.anther) (tptp.flower_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.antheridium_1 X) (and (tptp.original_name_2 X |tptp.'Antheridium'|) (tptp.user_description_2 X |tptp.'In plants, a structure in which male gametes develop.'|) (tptp.concept2words_2 X tptp.antheridia) (tptp.concept2words_2 X tptp.antheridium) (tptp.plant_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anthozoan_1 X) (and (tptp.original_name_2 X |tptp.'Anthozoan'|) (tptp.user_description_2 X |tptp.'An animal in the Phylum Cnidaria, Class Anthozoa. Anthozoans include the sea anemones and corals. Unlike other cnidarians, they do not have a pelagic medusa stage in their life cycle.'|) (tptp.concept2words_2 X tptp.anthozoan) (tptp.cnidaria_1 X) (not (tptp.cubozoan_1 X)) (not (tptp.hydra_1 X)) (not (tptp.hydrozoan_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anthropoid_1 X) (and (tptp.original_name_2 X |tptp.'Anthropoid'|) (tptp.user_description_2 X |tptp.'A member of a primate group that comprises the monkeys and apes.'|) (tptp.concept2words_2 X tptp.anthropoid) (tptp.primate_1 X) (not (tptp.hominid_1 X)) (not (tptp.monkey_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anti_antibiotic_gene_1 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_anti_antibiotic_gene_2 X))) (=> (tptp.anti_antibiotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Anti-Antibiotic-Gene'|) (tptp.user_description_2 X |tptp.'A gene that confers antibiotic resistance by coding for compounds that defeat the actions of the antibiotic.'|) (tptp.concept2words_2 X |tptp.'antibiotic resistance gene'|) (tptp.concept2words_2 X |tptp.'antibiotic-resistance-gene'|) (tptp.concept2words_2 X |tptp.'anti antibiotic gene'|) (tptp.concept2words_2 X |tptp.'anti-antibiotic-gene'|) (tptp.prokaryotic_gene_1 X) (tptp.code_for_1 _let_1) (tptp.anti_antibiotic_protein_1 _let_3) (tptp.entity_1 _let_2) (tptp.donor_2 _let_1 X) (tptp.result_2 _let_1 _let_3) (tptp.has_function_2 X _let_1) (tptp.agent_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_gene_13 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_polymer_8 X))) (let ((_let_3 (tptp.fn_anti_antibiotic_protein_23 X))) (let ((_let_4 (tptp.fn_reactant_3 _let_3))) (let ((_let_5 (tptp.fn_anti_antibiotic_protein_19 X))) (let ((_let_6 (tptp.fn_chemical_3 _let_5))) (let ((_let_7 (tptp.fn_anti_antibiotic_protein_18 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_polymer_1 X))) (let ((_let_10 (tptp.fn_molecule_10 X))) (let ((_let_11 (tptp.fn_anti_antibiotic_protein_22 X))) (let ((_let_12 (tptp.fn_chemical_bond_1 _let_11))) (let ((_let_13 (tptp.fn_anti_antibiotic_protein_21 X))) (let ((_let_14 (tptp.fn_chemical_bond_4 _let_11))) (let ((_let_15 (tptp.fn_anti_antibiotic_protein_20 X))) (let ((_let_16 (tptp.fn_anti_antibiotic_protein_27 X))) (let ((_let_17 (tptp.fn_anti_antibiotic_protein_26 X))) (let ((_let_18 (tptp.fn_anti_antibiotic_protein_11 X))) (let ((_let_19 (tptp.fn_anti_antibiotic_protein_30 X))) (let ((_let_20 (tptp.fn_anti_antibiotic_protein_28 X))) (let ((_let_21 (tptp.fn_anti_antibiotic_protein_35 X))) (let ((_let_22 (tptp.fn_anti_antibiotic_protein_25 X))) (let ((_let_23 (tptp.fn_anti_antibiotic_protein_15 X))) (let ((_let_24 (tptp.fn_anti_antibiotic_protein_13 X))) (let ((_let_25 (tptp.fn_anti_antibiotic_protein_14 X))) (let ((_let_26 (tptp.fn_anti_antibiotic_protein_32 X))) (let ((_let_27 (tptp.fn_anti_antibiotic_protein_33 X))) (let ((_let_28 (tptp.fn_anti_antibiotic_protein_34 X))) (let ((_let_29 (tptp.fn_anti_antibiotic_protein_12 X))) (let ((_let_30 (tptp.fn_anti_antibiotic_protein_31 X))) (let ((_let_31 (tptp.fn_anti_antibiotic_protein_17 X))) (let ((_let_32 (tptp.fn_molecule_10 _let_31))) (let ((_let_33 (tptp.fn_anti_antibiotic_protein_16 X))) (let ((_let_34 (tptp.fn_disulfide_bond_3 _let_33))) (let ((_let_35 (tptp.fn_anti_antibiotic_protein_29 X))) (let ((_let_36 (tptp.fn_chemical_digestion_2 _let_35))) (let ((_let_37 (tptp.fn_anti_antibiotic_protein_10 X))) (let ((_let_38 (tptp.fn_chemical_digestion_1 _let_35))) (let ((_let_39 (tptp.fn_anti_antibiotic_protein_24 X))) (let ((_let_40 (tptp.fn_anti_antibiotic_protein_3 X))) (let ((_let_41 (tptp.fn_anti_antibiotic_protein_2 X))) (let ((_let_42 (tptp.fn_anti_antibiotic_protein_4 X))) (let ((_let_43 (tptp.fn_anti_antibiotic_protein_5 X))) (let ((_let_44 (tptp.fn_anti_antibiotic_protein_1 X))) (=> (tptp.anti_antibiotic_protein_1 X) (and (tptp.original_name_2 X |tptp.'Anti-Antibiotic-Protein'|) (tptp.user_description_2 X |tptp.'A protein whose enzymatic properties allow it to breakdown antibiotic compounds.'|) (tptp.concept2words_2 X |tptp.'anti antibiotic protein'|) (tptp.concept2words_2 X |tptp.'anti-antibiotic-protein'|) (tptp.defensive_protein_1 X) (tptp.free_energy_1 _let_44) (tptp.chemical_energy_1 _let_41) (tptp.water_molecule_1 _let_40) (tptp.molecule_1 _let_42) (tptp.size_value_1 _let_43) (tptp.system_1 (tptp.fn_anti_antibiotic_protein_7 X)) (tptp.chemical_entity_1 _let_37) (tptp.polypeptide_1 _let_18) (tptp.monomer_1 _let_29) (tptp.atom_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.kinetic_energy_1 _let_25) (tptp.carbon_1 _let_23) (tptp.chemical_bond_1 _let_33) (tptp.covalent_bond_1 _let_33) (tptp.disulfide_bond_1 _let_33) (tptp.antibiotic_1 _let_31) (tptp.destroy_1 _let_7) (tptp.chemical_1 _let_5) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.chemical_bond_1 _let_11) (tptp.reactant_1 _let_3) (tptp.activation_energy_1 _let_39) (tptp.carbon_skeleton_1 _let_22) (tptp.surface_1 _let_17) (tptp.hydrophilic_region_1 _let_16) (tptp.protein_domain_1 _let_20) (tptp.chemical_digestion_1 _let_35) (tptp.spatial_entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.monomer_1 _let_19) (tptp.molecule_1 _let_19) (tptp.amino_acid_1 _let_19) (tptp.size_value_1 _let_30) (tptp.quantity_value_1 _let_26) (tptp.speed_value_1 _let_27) (tptp.constant_motion_1 _let_28) (tptp.size_value_1 _let_21) (tptp.tangible_entity_1 _let_38) (tptp.tangible_entity_1 _let_36) (tptp.protein_1 _let_34) (tptp.chemical_bond_1 _let_32) (tptp.chemical_entity_1 _let_14) (tptp.chemical_entity_1 _let_12) (tptp.tangible_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.result_2 _let_35 _let_44) (tptp.result_2 _let_35 _let_42) (tptp.raw_material_2 _let_35 _let_40) (tptp.agent_2 _let_35 X) (tptp.called_2 _let_43 |tptp.'Size_EntityBeingDigested'|) (not (= _let_40 _let_31)) (tptp.in_event_2 _let_3 _let_35) (tptp.has_state_2 _let_13 _let_37) (tptp.has_state_2 _let_15 _let_42) (tptp.agent_2 _let_7 X) (tptp.has_part_2 _let_31 _let_15) (tptp.has_part_2 _let_31 _let_13) (tptp.possesses_2 _let_31 _let_41) (not (= _let_31 _let_40)) (tptp.object_2 _let_7 _let_31) (tptp.has_part_2 _let_5 _let_31) (tptp.plays_2 _let_31 _let_3) (tptp.raw_material_2 _let_35 _let_39) (tptp.result_2 _let_35 _let_37) (tptp.possesses_2 X _let_33) (tptp.possesses_2 _let_31 _let_11) (tptp.has_part_2 X _let_29) (tptp.size_2 _let_29 _let_30) (tptp.greater_than_2 _let_21 _let_30) (tptp.possesses_2 X _let_25) (tptp.quantity_2 _let_25 _let_26) (tptp.directly_proportional_2 _let_27 _let_26) (tptp.speed_2 _let_28 _let_27) (tptp.object_2 _let_28 X) (tptp.has_part_2 X _let_24) (tptp.has_region_2 X _let_22) (tptp.is_inside_2 _let_23 _let_22) (tptp.has_part_2 X _let_23) (not (= _let_24 _let_23)) (not (= _let_23 _let_24)) (tptp.is_at_2 _let_19 _let_20) (tptp.has_region_2 X _let_20) (tptp.size_2 X _let_21) (tptp.the_scalar_value_2 _let_21 tptp.big_0) (tptp.scalar_unit_class_2 _let_21 tptp.polypeptide_0) (tptp.has_region_2 X _let_16) (tptp.is_at_2 _let_16 _let_17) (tptp.has_region_2 X _let_17) (tptp.has_part_2 X _let_18) (tptp.has_part_2 _let_18 _let_19) (tptp.is_between_2 _let_11 _let_15) (tptp.is_between_2 _let_11 _let_13) (= _let_31 _let_8) (= _let_31 _let_6) (= _let_31 _let_4) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_33 _let_10) (= _let_33 _let_9) (= X _let_34) (= _let_11 _let_32) (= _let_21 _let_2) (= _let_30 (tptp.fn_polymer_7 X)) (= _let_29 (tptp.fn_polymer_4 X)) (= _let_28 (tptp.fn_molecule_8 X)) (= _let_27 (tptp.fn_molecule_3 X)) (= _let_26 (tptp.fn_molecule_4 X)) (= _let_25 (tptp.fn_molecule_12 X)) (= _let_24 (tptp.fn_organic_molecule_2 X)) (= _let_23 (tptp.fn_organic_molecule_1 X)) (= _let_22 (tptp.fn_organic_molecule_3 X)) (= _let_21 _let_1) (= _let_20 (tptp.fn_protein_7 X)) (= _let_19 (tptp.fn_protein_14 X)) (= _let_18 (tptp.fn_protein_8 X)) (= _let_17 (tptp.fn_protein_5 X)) (= _let_16 (tptp.fn_protein_1 X)) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.antibacterial_agent_1 X) (and (tptp.original_name_2 X |tptp.'Antibacterial-Agent'|) (tptp.user_description_2 X |tptp.'A poisonous substance that kills, inhibits reproduction, or inhibits development of bacteria.'|) (tptp.concept2words_2 X |tptp.'agent of antibacterial'|) (tptp.concept2words_2 X |tptp.'antibacterial agent'|) (tptp.concept2words_2 X |tptp.'antibacterial-agent'|) (tptp.toxin_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antibiotic_5 X))) (let ((_let_2 (tptp.fn_enzyme_inhibitor_2 _let_1))) (let ((_let_3 (tptp.fn_enzyme_regulator_3 _let_1))) (let ((_let_4 (tptp.fn_enzyme_inhibitor_3 _let_1))) (let ((_let_5 (tptp.fn_enzyme_regulator_2 _let_1))) (let ((_let_6 (tptp.fn_enzyme_inhibitor_7 _let_1))) (let ((_let_7 (tptp.fn_antibiotic_7 X))) (let ((_let_8 (tptp.fn_prokaryote_3 _let_7))) (let ((_let_9 (tptp.fn_bacterium_13 _let_7))) (let ((_let_10 (tptp.fn_organism_3 _let_7))) (let ((_let_11 (tptp.fn_antibiotic_4 X))) (let ((_let_12 (tptp.fn_antibiotic_6 X))) (let ((_let_13 (tptp.fn_enzyme_inhibitor_1 _let_1))) (let ((_let_14 (tptp.fn_antibiotic_2 X))) (let ((_let_15 (tptp.fn_enzyme_inhibitor_5 _let_1))) (let ((_let_16 (tptp.fn_antibiotic_1 X))) (let ((_let_17 (tptp.fn_enzyme_inhibitor_6 _let_1))) (let ((_let_18 (tptp.fn_antibiotic_3 X))) (let ((_let_19 (tptp.fn_antibiotic_8 X))) (let ((_let_20 (tptp.fn_antibiotic_9 X))) (let ((_let_21 (tptp.fn_impair_1 _let_20))) (=> (tptp.antibiotic_1 X) (and (tptp.original_name_2 X |tptp.'Antibiotic'|) (tptp.user_description_2 X |tptp.'A chemical that kills bacteria or inhibits their growth.'|) (tptp.concept2words_2 X tptp.antibacterial) (tptp.concept2words_2 X tptp.antibiotic) (tptp.molecule_1 X) (tptp.drug_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.attach_1 _let_16) (tptp.receptor_site_1 _let_14) (tptp.chemical_reaction_1 _let_18) (tptp.inhibition_1 _let_11) (tptp.regulation_1 _let_11) (tptp.enzyme_inhibitor_1 _let_1) (tptp.spatial_entity_1 _let_12) (tptp.enzyme_1 _let_12) (tptp.protein_enzyme_1 _let_12) (tptp.tangible_entity_1 _let_7) (tptp.organism_1 _let_7) (tptp.prokaryote_1 _let_7) (tptp.bacterium_1 _let_7) (tptp.genome_1 _let_19) (tptp.genotype_1 _let_19) (tptp.destroy_1 _let_20) (tptp.tangible_entity_1 _let_21) (tptp.chemical_reaction_1 _let_17) (tptp.attach_1 _let_15) (tptp.receptor_site_1 _let_13) (tptp.genotype_1 _let_10) (tptp.genome_1 _let_9) (tptp.genotype_1 _let_9) (tptp.protein_enzyme_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.enzyme_1 _let_6) (tptp.protein_enzyme_1 _let_6) (tptp.molecule_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.regulation_1 _let_3) (tptp.inhibition_1 _let_2) (tptp.regulation_1 _let_2) (tptp.agent_2 _let_20 X) (tptp.object_2 _let_20 _let_7) (tptp.has_part_2 _let_7 _let_12) (tptp.has_part_2 _let_7 _let_19) (tptp.site_2 _let_16 _let_14) (tptp.plays_2 X _let_1) (tptp.object_2 _let_16 X) (tptp.base_2 _let_16 _let_12) (tptp.has_function_2 _let_12 _let_18) (tptp.agent_2 _let_18 _let_12) (tptp.in_event_2 _let_1 _let_11) (tptp.agent_2 _let_11 X) (tptp.has_function_2 X _let_11) (tptp.object_2 _let_11 _let_12) (tptp.has_region_2 _let_12 _let_14) (= _let_7 _let_21) (= _let_12 _let_8) (= _let_19 _let_10) (= _let_19 _let_9) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_6) (= X _let_5) (= X _let_4) (= _let_11 _let_3) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.antibiotic_resistance_1 X) (and (tptp.original_name_2 X |tptp.'Antibiotic-Resistance'|) (tptp.user_description_2 X |tptp.'The condition when bacteria have evolved the ability to survive exposure to one or more antibiotics.'|) (tptp.concept2words_2 X |tptp.'resistance of antibiotic'|) (tptp.concept2words_2 X |tptp.'antibiotic resistance'|) (tptp.concept2words_2 X |tptp.'antibiotic-resistance'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.antibiotic_resistance_process_1 X) (and (tptp.original_name_2 X |tptp.'Antibiotic-Resistance-Process'|) (tptp.user_description_2 X |tptp.'Any process by which a bacterial cell resists harm by an antibiotic substance.'|) (tptp.concept2words_2 X |tptp.'be resistant'|) (tptp.concept2words_2 X |tptp.'antibiotic resistance process'|) (tptp.concept2words_2 X |tptp.'antibiotic-resistance-process'|) (tptp.cell_survival_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antibody_22 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_antibody_21 X))) (let ((_let_4 (tptp.fn_disulfide_bond_3 _let_3))) (let ((_let_5 (tptp.fn_protein_9 X))) (let ((_let_6 (tptp.fn_polymer_8 X))) (let ((_let_7 (tptp.fn_polymer_1 X))) (let ((_let_8 (tptp.fn_molecule_10 X))) (let ((_let_9 (tptp.fn_antibody_8 X))) (let ((_let_10 (tptp.fn_antibody_18 X))) (let ((_let_11 (tptp.fn_antibody_12 X))) (let ((_let_12 (tptp.fn_antibody_24 X))) (let ((_let_13 (tptp.fn_antibody_25 X))) (let ((_let_14 (tptp.fn_antibody_16 X))) (let ((_let_15 (tptp.fn_antibody_15 X))) (let ((_let_16 (tptp.fn_antibody_14 X))) (let ((_let_17 (tptp.fn_antibody_9 X))) (let ((_let_18 (tptp.fn_antibody_11 X))) (let ((_let_19 (tptp.fn_antibody_19 X))) (let ((_let_20 (tptp.fn_antibody_20 X))) (let ((_let_21 (tptp.fn_antibody_10 X))) (let ((_let_22 (tptp.fn_antibody_13 X))) (let ((_let_23 (tptp.fn_antibody_17 X))) (let ((_let_24 (tptp.fn_attach_2 _let_1))) (let ((_let_25 (tptp.fn_antibody_23 X))) (let ((_let_26 (tptp.fn_antibody_1 X))) (let ((_let_27 (tptp.fn_antibody_2 X))) (let ((_let_28 (tptp.fn_antibody_3 X))) (=> (tptp.antibody_1 X) (and (tptp.original_name_2 X |tptp.'Antibody'|) (tptp.user_description_2 X |tptp.'Also called immunoglobulin; a protein produced and secreted by plasma cells that recognizes and binds only to a particular antigen.'|) (tptp.concept2words_2 X tptp.ig) (tptp.concept2words_2 X tptp.immunoglobulin) (tptp.concept2words_2 X tptp.antibody) (tptp.immunoglobulin_protein_1 X) (tptp.vertebrate_1 _let_26) (tptp.defense_1 _let_27) (tptp.antigen_binding_site_1 _let_28) (tptp.protein_domain_1 _let_9) (tptp.carbon_skeleton_1 _let_17) (tptp.constant_motion_1 _let_21) (tptp.kinetic_energy_1 _let_18) (tptp.polypeptide_1 _let_11) (tptp.monomer_1 _let_22) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.carbon_1 _let_15) (tptp.size_value_1 _let_14) (tptp.size_value_1 _let_23) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.monomer_1 _let_10) (tptp.molecule_1 _let_10) (tptp.amino_acid_1 _let_10) (tptp.quantity_value_1 _let_19) (tptp.speed_value_1 _let_20) (tptp.chemical_bond_1 _let_3) (tptp.covalent_bond_1 _let_3) (tptp.disulfide_bond_1 _let_3) (tptp.attach_1 _let_1) (tptp.foreign_substance_1 _let_25) (tptp.surface_1 _let_12) (tptp.hydrophilic_region_1 _let_13) (tptp.spatial_entity_1 _let_24) (tptp.protein_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.has_function_2 _let_28 _let_1) (tptp.has_region_2 X _let_28) (tptp.has_function_2 X _let_27) (tptp.site_2 _let_1 _let_28) (tptp.enables_2 _let_1 _let_27) (tptp.object_2 _let_27 _let_26) (tptp.base_2 _let_1 _let_25) (tptp.possesses_2 X _let_3) (tptp.object_2 _let_1 X) (tptp.greater_than_2 _let_14 _let_23) (tptp.has_part_2 X _let_22) (tptp.size_2 _let_22 _let_23) (tptp.possesses_2 X _let_18) (tptp.quantity_2 _let_18 _let_19) (tptp.directly_proportional_2 _let_20 _let_19) (tptp.speed_2 _let_21 _let_20) (tptp.object_2 _let_21 X) (tptp.has_part_2 X _let_16) (tptp.has_part_2 X _let_15) (tptp.is_inside_2 _let_15 _let_17) (tptp.has_region_2 X _let_17) (not (= _let_16 _let_15)) (not (= _let_15 _let_16)) (tptp.is_at_2 _let_13 _let_12) (tptp.has_region_2 X _let_13) (tptp.size_2 X _let_14) (tptp.the_scalar_value_2 _let_14 tptp.big_0) (tptp.scalar_unit_class_2 _let_14 tptp.polypeptide_0) (tptp.has_region_2 X _let_9) (tptp.is_at_2 _let_10 _let_9) (tptp.has_part_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (tptp.has_region_2 X _let_12) (= _let_25 _let_24) (= _let_3 _let_8) (= _let_3 _let_7) (= X _let_4) (= X _let_2) (= _let_14 _let_6) (= (tptp.fn_antibody_6 X) (tptp.fn_polymer_10 X)) (= _let_23 (tptp.fn_polymer_7 X)) (= _let_22 (tptp.fn_polymer_4 X)) (= (tptp.fn_antibody_4 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_antibody_5 X) (tptp.fn_molecule_2 X)) (= _let_21 (tptp.fn_molecule_8 X)) (= _let_20 (tptp.fn_molecule_3 X)) (= _let_19 (tptp.fn_molecule_4 X)) (= _let_18 (tptp.fn_molecule_12 X)) (= _let_17 (tptp.fn_organic_molecule_3 X)) (= _let_16 (tptp.fn_organic_molecule_2 X)) (= _let_15 (tptp.fn_organic_molecule_1 X)) (= (tptp.fn_antibody_7 X) (tptp.fn_protein_10 X)) (= _let_14 _let_5) (= _let_13 (tptp.fn_protein_1 X)) (= _let_12 (tptp.fn_protein_5 X)) (= _let_11 (tptp.fn_protein_8 X)) (= _let_10 (tptp.fn_protein_14 X)) (= _let_9 (tptp.fn_protein_7 X)) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_anticodon_2 X))) (let ((_let_2 (tptp.fn_perceive_1 _let_1))) (let ((_let_3 (tptp.fn_anticodon_3 X))) (let ((_let_4 (tptp.fn_anticodon_1 X))) (=> (tptp.anticodon_1 X) (and (tptp.original_name_2 X |tptp.'Anticodon'|) (tptp.user_description_2 X |tptp.'A sequence of three nucleotides at one end of a tRNA molecule that recognizes and binds to the complementary codon on a mRNA transcript.'|) (tptp.concept2words_2 X |tptp.'anti codon'|) (tptp.concept2words_2 X tptp.anticodon) (tptp.concept2words_2 X |tptp.'genetic message'|) (tptp.nitrogenous_compound_1 X) (tptp.ribonucleotide_1 _let_4) (tptp.recognize_1 _let_1) (tptp.codon_1 _let_3) (tptp.entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.minCardinality _let_1 tptp.object_0 |"2"| tptp.codon_0) (tptp.has_part_2 X _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antidiuretic_hormone_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (let ((_let_3 (tptp.concept2words_2 X tptp.vasopressin))) (=> (tptp.antidiuretic_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Antidiuretic-Hormone'|) (tptp.user_description_2 X |tptp.'A polypeptide hormone, also called vasopressin, secreted by the posterior pituitary in times of dehydration. It causes the body to increase water retention by increasing water absorption in the collecting ducts of the nephron.'|) (tptp.concept2words_2 X tptp.adh) (tptp.concept2words_2 X |tptp.'arginine vasopressin'|) (tptp.concept2words_2 X |tptp.'arginine-vasopressin'|) (tptp.concept2words_2 X tptp.avp) _let_3 (tptp.concept2words_2 X tptp.argipressin) _let_3 (tptp.concept2words_2 X |tptp.'hormone of antidiuretic'|) (tptp.concept2words_2 X |tptp.'antidiuretic hormone'|) (tptp.concept2words_2 X |tptp.'antidiuretic-hormone'|) (tptp.pituitary_peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X)) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antigen_1 X))) (=> (tptp.antigen_1 X) (and (tptp.original_name_2 X |tptp.'Antigen'|) (tptp.user_description_2 X |tptp.'A substance that initiates an immune response by binding to receptors on B cells or T cells.'|) (tptp.concept2words_2 X tptp.antigen) (tptp.role_1 X) (tptp.organic_molecule_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.antigen_binding_site_1 X) (and (tptp.original_name_2 X |tptp.'Antigen-Binding-Site'|) (tptp.user_description_2 X |tptp.'A molecular region at the tip of each branch of a Y-shaped antibody molecule; the antigen binding site recognizes and binds to a specific antigen molecule.'|) (tptp.concept2words_2 X |tptp.'antigen binding site'|) (tptp.concept2words_2 X |tptp.'antigen-binding site'|) (tptp.concept2words_2 X |tptp.'antigen-binding-site'|) (tptp.functional_region_1 X) (tptp.binding_site_1 X) (not (tptp.active_site_1 X)) (not (tptp.alpha_helix_1 X)) (not (tptp.protein_domain_1 X))))) (forall ((X $$unsorted)) (=> (tptp.antigen_presentation_1 X) (and (tptp.original_name_2 X |tptp.'Antigen-Presentation'|) (tptp.user_description_2 X |tptp.'The process by which a major histocompatibilty (MHC) molecule binds to an antigen molecule or fragment of a pathogen and presents it to the T cells of the immune system, which initiates an immune response.'|) (tptp.concept2words_2 X tptp.present) (tptp.concept2words_2 X |tptp.'presentation of antigen'|) (tptp.concept2words_2 X |tptp.'antigen presentation'|) (tptp.concept2words_2 X |tptp.'antigen-presentation'|) (tptp.cellular_process_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X))))) (forall ((X $$unsorted)) (=> (tptp.antigen_presenting_cell_1 X) (and (tptp.original_name_2 X |tptp.'Antigen-Presenting-Cell'|) (tptp.user_description_2 X |tptp.'A cell that ingests bacteria and viruses and then destroys them. Class II MHC molecules in these cells collect peptide remnants of this degradation and present them to helper T-cells.'|) (tptp.concept2words_2 X |tptp.'antigen presenting cell'|) (tptp.concept2words_2 X |tptp.'antigen-presenting cell'|) (tptp.concept2words_2 X |tptp.'antigen-presenting-cell'|) (tptp.immune_cell_1 X) (not (tptp.effector_cell_1 X)) (not (tptp.eosinophil_1 X)) (not (tptp.mast_cell_1 X)) (not (tptp.natural_killer_cell_1 X)) (not (tptp.neutrophil_1 X)) (not (tptp.recombinant_immune_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antigen_receptor_2 X))) (let ((_let_2 (tptp.fn_antigen_receptor_1 X))) (=> (tptp.antigen_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Antigen-Receptor'|) (tptp.user_description_2 X |tptp.'A polypeptide chain on the surface of B cells and T cells, that detects and binds to antigen molecules. This binding initiates an acquired immune response.'|) (tptp.concept2words_2 X |tptp.'receptor of antigen'|) (tptp.concept2words_2 X |tptp.'antigen receptor'|) (tptp.concept2words_2 X |tptp.'antigen-receptor'|) (tptp.receptor_protein_1 X) (tptp.hydrophobic_region_1 _let_2) (tptp.antigen_binding_site_1 _let_1) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.antimicrobial_protein_1 X) (and (tptp.original_name_2 X |tptp.'Antimicrobial-Protein'|) (tptp.user_description_2 X |tptp.'A protein functioning in nonspecific defense by attacking microbes.'|) (tptp.concept2words_2 X |tptp.'protein of antimicrobial'|) (tptp.concept2words_2 X |tptp.'antimicrobial protein'|) (tptp.concept2words_2 X |tptp.'antimicrobial-protein'|) (tptp.protein_1 X) (tptp.antibiotic_1 X) (not (tptp.ampicillin_1 X)) (not (tptp.erythromycin_1 X)) (not (tptp.penicillin_1 X)) (not (tptp.tetracycline_1 X)) (not (tptp.vancomycin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antimony_8 X))) (let ((_let_2 (tptp.fn_antimony_10 X))) (let ((_let_3 (tptp.fn_antimony_11 X))) (let ((_let_4 (tptp.fn_antimony_9 X))) (let ((_let_5 (tptp.fn_antimony_4 X))) (let ((_let_6 (tptp.fn_antimony_5 X))) (let ((_let_7 (tptp.fn_antimony_3 X))) (=> (tptp.antimony_1 X) (and (tptp.original_name_2 X |tptp.'Antimony'|) (tptp.user_description_2 X |tptp.'Antimony is a metalloid atom with atomic number 51. It is represented by the symbol Sb.'|) (tptp.concept2words_2 X |tptp.'Sb'|) (tptp.concept2words_2 X tptp.antimony) (tptp.metalloid_atom_1 X) (not (tptp.boron_1 X)) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.atomic_number_value_1 _let_3) (tptp.the_cardinal_value_2 _let_3 |"51"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"71"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"51"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"51"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"5"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.05"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"122"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"121.8"|) (tptp.cardinal_unit_class_2 _let_4 tptp.dalton_0) (tptp.atomic_weight_2 X _let_4) (tptp.atomic_number_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_antimony_7 X) (tptp.fn_atom_13 X)) (= _let_4 (tptp.fn_atom_16 X)) (= (tptp.fn_antimony_12 X) (tptp.fn_atom_12 X)) (= _let_3 (tptp.fn_atom_17 X)) (= (tptp.fn_antimony_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.antioxidant_1 X) (and (tptp.original_name_2 X |tptp.'Antioxidant'|) (tptp.user_description_2 X |tptp.'A substance which removes oxidizing chemicals which may cause cellular damage.'|) (tptp.concept2words_2 X tptp.antioxidant) (tptp.agent_role_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_antiparallel_arrangement_8 X))) (let ((_let_2 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_3 (tptp.fn_antiparallel_arrangement_7 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_information_1 X))) (let ((_let_6 (tptp.fn_chemical_bond_1 _let_1))) (let ((_let_7 (tptp.fn_attach_1 _let_3))) (let ((_let_8 (tptp.fn_antiparallel_arrangement_6 X))) (let ((_let_9 (tptp.fn_chemical_bond_3 _let_1))) (let ((_let_10 (tptp.fn_antiparallel_arrangement_9 X))) (let ((_let_11 (tptp.fn_antiparallel_arrangement_5 X))) (let ((_let_12 (tptp.fn_antiparallel_arrangement_1 X))) (let ((_let_13 (tptp.fn_attach_2 _let_12))) (let ((_let_14 (tptp.fn_antiparallel_arrangement_4 X))) (let ((_let_15 (tptp.fn_antiparallel_arrangement_2 X))) (let ((_let_16 (tptp.fn_attach_2 _let_15))) (let ((_let_17 (tptp.fn_antiparallel_arrangement_3 X))) (=> (tptp.antiparallel_arrangement_1 X) (and (tptp.original_name_2 X |tptp.'Antiparallel-Arrangement'|) (tptp.user_description_2 X |tptp.'Two parallel objects oriented in the opposite direction from each other.'|) (tptp.concept2words_2 X |tptp.'anti parallel arrangement'|) (tptp.concept2words_2 X |tptp.'antiparallel arrangement'|) (tptp.concept2words_2 X |tptp.'antiparallel-arrangement'|) (tptp.relative_relationship_1 X) (tptp.attach_1 _let_12) (tptp.attach_1 _let_15) (tptp.purine_1 _let_17) (tptp.pyrimidine_1 _let_14) (tptp.parallel_dna_strand_1 _let_11) (tptp.antiparallel_dna_strand_1 _let_8) (tptp.attach_1 _let_3) (tptp.hydrogen_bond_1 _let_1) (tptp.hold_together_1 _let_10) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_13) (tptp.hold_together_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.agent_2 _let_12 _let_1) (tptp.agent_2 _let_15 _let_1) (tptp.has_part_2 _let_8 _let_17) (tptp.has_part_2 _let_8 _let_14) (tptp.agent_2 _let_3 _let_1) (tptp.has_goal_2 X _let_10) (tptp.information_content_2 X _let_11) (tptp.information_content_2 X _let_8) (tptp.base_2 _let_3 _let_8) (tptp.object_2 _let_3 _let_11) (tptp.base_2 _let_15 _let_17) (tptp.base_2 _let_12 _let_14) (tptp.is_between_2 _let_1 _let_8) (tptp.object_2 _let_10 _let_8) (tptp.object_2 _let_10 _let_11) (tptp.is_between_2 _let_1 _let_11) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_11 _let_7) (= _let_17 _let_16) (= _let_14 _let_13) (= _let_11 _let_6) (= _let_10 _let_9) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.antiparallel_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Antiparallel-DNA-Strand'|) (tptp.user_description_2 X |tptp.'A DNA molecule where the two strands are arranged in the opposite direction from each other.'|) (tptp.concept2words_2 X |tptp.'antiparallel dna strand'|) (tptp.concept2words_2 X |tptp.'antiparallel-dna-strand'|) (tptp.dna_strand_1 X)))) (forall ((X $$unsorted)) (=> (tptp.anuran_1 X) (and (tptp.original_name_2 X |tptp.'Anuran'|) (tptp.user_description_2 X |tptp.'An order of amphibians amphibians (commonly referred to as frogs). Most frogs are characterized by long hind legs, a short body, webbed digits (fingers or toes), protruding eyes and the absence of a tail.'|) (tptp.concept2words_2 X tptp.frog) (tptp.concept2words_2 X tptp.anuran) (tptp.amphibian_1 X) (not (tptp.apodan_1 X))))) (forall ((X $$unsorted)) (=> (tptp.anus_1 X) (and (tptp.original_name_2 X |tptp.'Anus'|) (tptp.user_description_2 X |tptp.'Opening at the end of the alimentary canal through which solid waste is expelled from the body.'|) (tptp.concept2words_2 X tptp.anus) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ape_1 X) (and (tptp.original_name_2 X |tptp.'Ape'|) (tptp.user_description_2 X |tptp.'An Old World anthropoid primates, which lack a tail and have longer arms compared to monkeys.'|) (tptp.concept2words_2 X tptp.ape) (tptp.anthropoid_1 X) (not (tptp.chimpanzee_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aphid_1 X))) (let ((_let_2 (tptp.fn_fluid_feeder_6 _let_1))) (=> (tptp.aphid_1 X) (and (tptp.original_name_2 X |tptp.'Aphid'|) (tptp.user_description_2 X |tptp.'A type of insect which uses a needle-like mouthpart called a stylet to feed on phloem sap running in plant sieve-tube elements.'|) (tptp.concept2words_2 X |tptp.'plant louse'|) (tptp.concept2words_2 X |tptp.'plant-louse'|) (tptp.concept2words_2 X tptp.greenfly) (tptp.concept2words_2 X tptp.aphid) (tptp.hemiptera_1 X) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X)) (tptp.fluid_feeder_1 _let_1) (tptp.animal_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.aphotic_zone_1 X) (and (tptp.original_name_2 X |tptp.'Aphotic-Zone'|) (tptp.user_description_2 X |tptp.'The depths of an ocean or lake where sunlight does not penetrate sufficiently to support photosynthesis.'|) (tptp.concept2words_2 X |tptp.'aphotic zone'|) (tptp.concept2words_2 X |tptp.'aphotic-zone'|) (tptp.aquatic_zone_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.apical_bud_1 X) (and (tptp.original_name_2 X |tptp.'Apical-Bud'|) (tptp.user_description_2 X |tptp.'A bud at the terminal end of a plant shoot, which contains an apical meristem.'|) (tptp.concept2words_2 X |tptp.'apical bud'|) (tptp.concept2words_2 X |tptp.'apical-bud'|) (tptp.stem_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.apical_dominance_1 X) (and (tptp.original_name_2 X |tptp.'Apical-Dominance'|) (tptp.user_description_2 X |tptp.'The concentration of growth at the tip of a plant shoot, where a terminal bud partly inhibits the growth of axillary buds.'|) (tptp.concept2words_2 X |tptp.'apical dominance'|) (tptp.concept2words_2 X |tptp.'apical-dominance'|) (tptp.plant_growth_1 X)))) (forall ((X $$unsorted)) (=> (tptp.apical_ectodermal_ridge_1 X) (and (tptp.original_name_2 X |tptp.'Apical-Ectodermal-Ridge'|) (tptp.user_description_2 X |tptp.'An area of thickened ectodermal cells at the distal end of each limb bud that acts as a signaling center to ensure proper development of the limb.'|) (tptp.concept2words_2 X |tptp.'apical ectodermal ridge'|) (tptp.concept2words_2 X |tptp.'apical-ectodermal-ridge'|) (tptp.dermal_tissue_1 X) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_apical_meristem_2 X))) (let ((_let_2 (tptp.fn_apical_meristem_1 X))) (=> (tptp.apical_meristem_1 X) (and (tptp.original_name_2 X |tptp.'Apical-Meristem'|) (tptp.user_description_2 X |tptp.'The growing tip of a plant shoot or root. Cell division in apical meristems allows the shoot or root to grow longer.'|) (tptp.concept2words_2 X |tptp.'apical meristem'|) (tptp.concept2words_2 X |tptp.'apical-meristem'|) (tptp.meristem_1 X) (tptp.embryonic_tissue_1 X) (not (tptp.cork_cambium_1 X)) (not (tptp.floral_meristem_1 X)) (not (tptp.lateral_meristem_1 X)) (tptp.grow_1 _let_2) (tptp.plant_1 _let_1) (tptp.site_2 _let_2 X) (tptp.object_2 _let_2 _let_1) (tptp.has_part_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.apicomplexan_1 X) (and (tptp.original_name_2 X |tptp.'Apicomplexan'|) (tptp.user_description_2 X |tptp.'A protist in the clade Apicomplexa, which are parasites of animals. Some cause diseases in humans; for example, the apicomplexan Plasmodium falciparum causes malaria.'|) (tptp.concept2words_2 X tptp.apicomplexan) (tptp.alveolate_1 X) (not (tptp.ciliate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.apodan_1 X) (and (tptp.original_name_2 X |tptp.'Apodan'|) (tptp.user_description_2 X |tptp.'A member of a group of legless amphibians, such as a caecilian.'|) (tptp.concept2words_2 X tptp.apodan) (tptp.amphibian_1 X) (not (tptp.anuran_1 X))))) (forall ((X $$unsorted)) (=> (tptp.apomixis_1 X) (and (tptp.original_name_2 X |tptp.'Apomixis'|) (tptp.user_description_2 X |tptp.'In plants, the ability to reproduce from seeds that have not been fertilized by a male gamete.'|) (tptp.concept2words_2 X |tptp.'undergo apoximis'|) (tptp.concept2words_2 X tptp.apomixis) (tptp.asexual_reproduction_1 X) (not (tptp.parthenogenesis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_apoplast_2 X))) (let ((_let_2 (tptp.fn_apoplast_1 X))) (=> (tptp.apoplast_1 X) (and (tptp.original_name_2 X |tptp.'Apoplast'|) (tptp.user_description_2 X |tptp.'In plants, the continuum of cell walls plus the extracellular spaces.'|) (tptp.concept2words_2 X tptp.apoplast) (tptp.plant_region_1 X) (tptp.extra_cellular_fluid_1 _let_2) (tptp.plant_cell_wall_1 _let_1) (tptp.is_inside_2 _let_2 X) (tptp.is_inside_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_apoplastic_transport_2 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_apoplastic_transport_3 X))) (let ((_let_4 (tptp.fn_apoplastic_transport_1 X))) (=> (tptp.apoplastic_transport_1 X) (and (tptp.original_name_2 X |tptp.'Apoplastic-Transport'|) (tptp.user_description_2 X |tptp.'Route of transport of water and solutes in vascular plants which follows a path external to the plant cell plasma membrane through the apoplast.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'apoplastic transport'|) (tptp.concept2words_2 X |tptp.'apoplastic-transport'|) (tptp.plant_transport_1 X) (tptp.apoplast_1 _let_4) (tptp.move_through_1 _let_1) (tptp.aqueous_solution_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.path_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.path_2 _let_1 _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_apoptosis_44 X))) (let ((_let_2 (tptp.fn_vesicle_5 _let_1))) (let ((_let_3 (tptp.fn_apoptosis_42 X))) (let ((_let_4 (tptp.fn_blebbing_2 _let_3))) (let ((_let_5 (tptp.fn_apoptosis_60 X))) (let ((_let_6 (tptp.fn_metabolic_pathway_1 _let_5))) (let ((_let_7 (tptp.fn_apoptosis_49 X))) (let ((_let_8 (tptp.fn_contract_1 _let_7))) (let ((_let_9 (tptp.fn_apoptosis_64 X))) (let ((_let_10 (tptp.fn_cell_22 _let_9))) (let ((_let_11 (tptp.fn_contract_4 _let_7))) (let ((_let_12 (tptp.fn_cell_30 _let_9))) (let ((_let_13 (tptp.fn_apoptosis_59 X))) (let ((_let_14 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_13))) (let ((_let_15 (tptp.fn_apoptosis_71 X))) (let ((_let_16 (tptp.fn_protease_17 _let_15))) (let ((_let_17 (tptp.fn_hydrolase_1 _let_15))) (let ((_let_18 (tptp.fn_apoptosis_65 X))) (let ((_let_19 (tptp.fn_protease_17 _let_18))) (let ((_let_20 (tptp.fn_hydrolase_1 _let_18))) (let ((_let_21 (tptp.fn_apoptosis_69 X))) (let ((_let_22 (tptp.fn_reactant_2 _let_21))) (let ((_let_23 (tptp.fn_apoptosis_37 X))) (let ((_let_24 (tptp.fn_food_vacuole_24 _let_23))) (let ((_let_25 (tptp.fn_apoptosis_43 X))) (let ((_let_26 (tptp.fn_create_1 _let_25))) (let ((_let_27 (tptp.fn_apoptosis_47 X))) (let ((_let_28 (tptp.fn_hydrolysis_9 _let_27))) (let ((_let_29 (tptp.fn_exergonic_reaction_11 _let_27))) (let ((_let_30 (tptp.fn_decomposition_reaction_4 _let_27))) (let ((_let_31 (tptp.fn_protease_8 _let_15))) (let ((_let_32 (tptp.fn_apoptosis_46 X))) (let ((_let_33 (tptp.fn_hydrolysis_11 _let_32))) (let ((_let_34 (tptp.fn_reactant_3 _let_21))) (let ((_let_35 (tptp.fn_hydrolysis_10 _let_27))) (let ((_let_36 (tptp.fn_apoptosis_31 X))) (let ((_let_37 (tptp.fn_nuclease_2 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((_let_58 (tptp.fn_apoptosis_73 X))) (let ((_let_59 (tptp.fn_cell_11 _let_9))) (let ((_let_60 (tptp.fn_apoptosis_40 X))) (let ((_let_61 (tptp.fn_cell_10 _let_9))) (let ((_let_62 (tptp.fn_cell_25 _let_9))) (let ((_let_63 (tptp.fn_apoptosis_15 X))) (let ((_let_64 (tptp.fn_apoptosis_62 X))) (let ((_let_65 (tptp.fn_cell_23 _let_9))) (let ((_let_66 (tptp.fn_cell_2 _let_9))) (let ((_let_67 (tptp.fn_apoptosis_16 X))) (let ((_let_68 (tptp.fn_cell_26 _let_9))) (let ((_let_69 (tptp.fn_apoptosis_18 X))) (let ((_let_70 (tptp.fn_apoptosis_58 X))) (let ((_let_71 (tptp.fn_cell_28 _let_9))) (let ((_let_72 (tptp.fn_apoptosis_55 X))) (let ((_let_73 (tptp.fn_cell_9 _let_9))) (let ((_let_74 (tptp.fn_apoptosis_61 X))) (let ((_let_75 (tptp.fn_cell_4 _let_9))) (let ((_let_76 (tptp.fn_apoptosis_17 X))) (let ((_let_77 (tptp.fn_cell_29 _let_9))) (let ((_let_78 (tptp.fn_apoptosis_19 X))) (let ((_let_79 (tptp.fn_cell_14 _let_9))) (let ((_let_80 (tptp.fn_apoptosis_14 X))) (let ((_let_81 (tptp.fn_vesicle_9 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_let_101) (tptp.water_molecule_1 _let_101) (tptp.chemical_entity_1 _let_98) (tptp.atom_1 _let_100) (tptp.chemical_entity_1 _let_91) (tptp.water_molecule_1 _let_91) (tptp.reactant_1 _let_94) (tptp.break_1 _let_96) (tptp.dna_1 _let_95) (tptp.nuclease_1 _let_36) (tptp.damage_1 _let_125) (tptp.eukaryotic_cell_1 _let_127) (tptp.chemical_reaction_1 _let_105) (tptp.decomposition_reaction_1 _let_105) (tptp.exergonic_reaction_1 _let_105) (tptp.hydrolysis_1 _let_105) (tptp.polymer_1 _let_107) (tptp.phagocyte_1 _let_112) (tptp.food_vacuole_1 _let_23) (tptp.barrier_1 _let_55) (tptp.carry_1 _let_103) (tptp.size_value_1 _let_60) (tptp.biomembrane_1 _let_82) (tptp.blebbing_1 _let_3) (tptp.produce_1 _let_25) (tptp.entity_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.vesicle_1 _let_1) (tptp.cellular_structure_1 _let_114) (tptp.decomposition_reaction_1 _let_32) (tptp.exergonic_reaction_1 _let_32) (tptp.hydrolysis_1 _let_32) (tptp.chemical_reaction_1 _let_32) (tptp.chemical_reaction_1 _let_27) (tptp.decomposition_reaction_1 _let_27) (tptp.exergonic_reaction_1 _let_27) (tptp.hydrolysis_1 _let_27) (tptp.destroy_1 _let_118) (tptp.contract_1 _let_7) (tptp.intracellular_digestion_1 _let_44) (tptp.organelle_1 _let_120) (tptp.organic_molecule_1 _let_83) (tptp.nuclear_membrane_1 _let_109) (tptp.aqueous_solution_1 _let_124) (tptp.mixture_1 _let_72) (tptp.cytoplasm_1 _let_72) (tptp.aqueous_solution_1 _let_111) (tptp.er_membrane_1 _let_51) (tptp.membrane_1 _let_70) (tptp.spatial_entity_1 _let_70) (tptp.biomembrane_1 _let_70) (tptp.plasma_membrane_1 _let_70) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_13) (tptp.translation_1 _let_5) (tptp.protein_enzyme_1 _let_74) (tptp.volume_value_1 _let_64) (tptp.aqueous_solution_1 _let_108) (tptp.tangible_entity_1 _let_9) (tptp.cell_1 _let_9) (tptp.protease_1 _let_18) (tptp.cell_1 _let_97) (tptp.active_site_1 _let_87) (tptp.decrease_1 _let_90) (tptp.reactant_1 _let_21) (tptp.catalyst_1 _let_85) (tptp.protease_1 _let_15) (tptp.chemical_entity_1 _let_88) (tptp.polymer_1 _let_88) (tptp.protein_1 _let_88) (tptp.motor_protein_1 _let_58) (tptp.tangible_entity_1 _let_126) (tptp.aqueous_solution_1 _let_123) (tptp.surface_1 _let_121) (tptp.tangible_entity_1 _let_119) (tptp.tangible_entity_1 _let_116) (tptp.tangible_entity_1 _let_113) (tptp.aqueous_solution_1 _let_110) (tptp.polymer_1 _let_106) (tptp.chemical_reaction_1 _let_104) (tptp.decomposition_reaction_1 _let_104) (tptp.exergonic_reaction_1 _let_104) (tptp.hydrolysis_1 _let_104) (tptp.carry_1 _let_102) (tptp.chemical_entity_1 _let_99) (tptp.reactant_1 _let_93) (tptp.chemical_reaction_1 _let_92) (tptp.exergonic_reaction_1 _let_92) (tptp.hydrolysis_1 _let_92) (tptp.decrease_1 _let_89) (tptp.active_site_1 _let_86) (tptp.catalyst_1 _let_84) (tptp.biomembrane_1 _let_81) (tptp.ribosome_1 _let_79) (tptp.substance_1 _let_77) (tptp.cytosol_1 _let_77) (tptp.surface_1 _let_75) (tptp.protein_enzyme_1 _let_73) (tptp.mixture_1 _let_71) (tptp.cytoplasm_1 _let_71) (tptp.tangible_entity_1 _let_68) (tptp.phospholipid_bilayer_1 _let_68) (tptp.cytoskeleton_1 _let_66) (tptp.property_node_1 _let_65) (tptp.chromosome_1 _let_62) (tptp.property_node_1 _let_61) (tptp.size_value_1 _let_59) (tptp.motor_protein_1 _let_57) (tptp.tangible_entity_1 _let_56) (tptp.tangible_entity_1 _let_54) (tptp.eukaryotic_cell_1 _let_54) (tptp.cell_1 _let_54) (tptp.aqueous_solution_1 _let_53) (tptp.aqueous_solution_1 _let_52) (tptp.chemical_entity_1 _let_50) (tptp.water_molecule_1 _let_49) (tptp.chemical_entity_1 _let_48) (tptp.chemical_entity_1 _let_47) (tptp.chemical_entity_1 _let_46) (tptp.cell_1 _let_45) (tptp.cell_1 _let_43) (tptp.break_1 _let_42) (tptp.break_1 _let_41) (tptp.chemical_entity_1 _let_40) (tptp.nucleic_acid_1 _let_39) (tptp.chemical_entity_1 _let_38) (tptp.water_molecule_1 _let_37) (tptp.water_molecule_1 _let_35) (tptp.chemical_entity_1 _let_34) (tptp.chemical_entity_1 _let_33) (tptp.chemical_entity_1 _let_31) (tptp.polymer_1 _let_31) (tptp.protein_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_28) (tptp.entity_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.chemical_reaction_1 _let_22) (tptp.hydrolysis_1 _let_20) (tptp.exergonic_reaction_1 _let_19) (tptp.hydrolysis_1 _let_19) (tptp.chemical_reaction_1 _let_19) (tptp.hydrolysis_1 _let_17) (tptp.exergonic_reaction_1 _let_16) (tptp.hydrolysis_1 _let_16) (tptp.chemical_reaction_1 _let_16) (tptp.membrane_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.plasma_membrane_1 _let_12) (tptp.volume_value_1 _let_11) (tptp.volume_value_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.cell_1 _let_6) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.is_inside_2 _let_117 _let_72) (tptp.agent_2 _let_115 _let_133) (tptp.next_event_2 _let_115 _let_118) (tptp.has_state_2 _let_100 _let_98) (tptp.is_near_2 _let_127 _let_131) (not (= _let_112 _let_131)) (tptp.raw_material_2 _let_128 _let_130) (tptp.has_part_2 _let_139 _let_107) (tptp.is_inside_2 _let_139 _let_1) (tptp.next_event_2 _let_3 _let_25) (tptp.base_2 _let_25 _let_97) (tptp.next_event_2 _let_25 _let_44) (tptp.raw_material_2 _let_25 _let_138) (tptp.minCardinality _let_25 tptp.raw_material_0 |"1"| tptp.cellular_structure_0) (tptp.has_function_2 _let_1 _let_128) (tptp.has_state_2 _let_114 _let_139) (tptp.has_state_2 _let_138 _let_82) (tptp.next_event_2 _let_32 _let_115) (tptp.base_2 _let_32 _let_9) (tptp.is_near_2 _let_131 _let_127) (not (= _let_131 _let_112)) (tptp.has_state_2 _let_131 _let_9) (tptp.next_event_2 _let_27 _let_32) (tptp.base_2 _let_27 _let_131) (tptp.agent_2 _let_118 _let_132) (tptp.base_2 _let_118 _let_9) (tptp.next_event_2 _let_118 _let_7) (tptp.next_event_2 _let_7 _let_3) (tptp.abuts_2 _let_109 _let_51) (tptp.has_region_2 _let_109 _let_136) (not (= _let_124 _let_111)) (tptp.is_between_2 _let_72 _let_70) (tptp.is_inside_2 _let_137 _let_124) (tptp.is_outside_2 _let_122 _let_109) (tptp.is_inside_2 _let_122 _let_124) (not (= _let_122 _let_136)) (not (= _let_111 _let_124)) (tptp.is_inside_2 _let_136 _let_109) (not (= _let_136 _let_122)) (tptp.is_outside_2 _let_136 _let_111) (tptp.abuts_2 _let_51 _let_109) (tptp.base_2 _let_135 _let_72) (tptp.base_2 _let_134 _let_72) (tptp.is_inside_2 _let_74 _let_51) (tptp.is_inside_2 _let_108 _let_51) (tptp.has_part_2 _let_9 _let_120) (tptp.has_part_2 _let_9 _let_36) (tptp.has_part_2 _let_9 _let_18) (tptp.has_part_2 _let_9 _let_133) (tptp.has_part_2 _let_9 _let_117) (tptp.has_part_2 _let_9 _let_132) (tptp.subevent_2 X _let_115) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_32) (tptp.subevent_2 X _let_27) (tptp.subevent_2 X _let_118) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_44) (tptp.prevents_2 X _let_125) (tptp.first_subevent_2 X _let_27) (tptp.object_2 X _let_131) (tptp.plays_2 _let_130 _let_129) (tptp.in_event_2 _let_129 _let_128) (not (= _let_88 _let_58)) (not (= _let_58 _let_88)) (tptp.in_event_2 _let_21 _let_32) (tptp.plays_2 _let_112 _let_55) (tptp.result_2 _let_25 _let_1) (tptp.object_2 _let_125 _let_127) (tptp.is_between_2 _let_109 _let_124) (tptp.has_region_2 _let_109 _let_122) (tptp.plays_2 _let_88 _let_21) (tptp.base_2 _let_7 _let_9) (tptp.object_2 _let_118 _let_120) (tptp.object_2 _let_115 _let_117) (tptp.raw_material_2 _let_25 _let_114) (tptp.has_part_2 _let_112 _let_23) (tptp.path_2 _let_13 _let_70) (tptp.is_between_2 _let_109 _let_111) (tptp.base_2 _let_5 _let_9) (tptp.is_between_2 _let_51 _let_108) (tptp.from_value_2 _let_7 _let_64) (tptp.base_2 _let_44 _let_97) (tptp.has_function_2 _let_18 _let_32) (tptp.subevent_2 _let_44 _let_105) (tptp.raw_material_2 _let_105 _let_107) (tptp.has_function_2 _let_23 _let_103) (tptp.object_2 _let_103 _let_1) (tptp.is_inside_2 _let_1 _let_23) (tptp.agent_2 _let_103 _let_23) (tptp.result_2 _let_32 _let_98) (not (= _let_98 _let_100)) (tptp.has_part_2 _let_88 _let_100) (not (= _let_88 _let_101)) (tptp.raw_material_2 _let_32 _let_101) (not (= _let_100 _let_98)) (not (= _let_101 _let_88)) (tptp.base_2 _let_3 _let_9) (tptp.has_state_2 _let_9 _let_97) (tptp.result_2 _let_3 _let_97) (tptp.raw_material_2 _let_27 _let_95) (not (= _let_95 _let_91)) (not (= _let_91 _let_95)) (tptp.has_function_2 _let_36 _let_27) (tptp.in_event_2 _let_94 _let_27) (tptp.plays_2 _let_95 _let_94) (tptp.object_2 _let_96 _let_95) (tptp.agent_2 _let_96 _let_36) (tptp.raw_material_2 _let_27 _let_91) (tptp.enables_2 _let_90 _let_32) (tptp.has_function_2 _let_15 _let_90) (tptp.has_region_2 _let_15 _let_87) (tptp.plays_2 _let_15 _let_85) (tptp.in_event_2 _let_85 _let_32) (tptp.site_2 _let_32 _let_87) (tptp.facilitates_2 _let_87 _let_32) (tptp.raw_material_2 _let_32 _let_88) (tptp.has_part_2 _let_9 _let_70) (tptp.has_part_2 _let_9 _let_80) (tptp.is_inside_2 _let_80 _let_78) (tptp.has_part_2 _let_72 _let_78) (tptp.has_part_2 _let_9 _let_72) (tptp.is_at_2 _let_69 _let_76) (tptp.has_region_2 _let_9 _let_76) (tptp.size_2 _let_9 _let_60) (tptp.directly_proportional_2 _let_60 _let_64) (tptp.volume_2 _let_9 _let_64) (tptp.has_part_2 _let_72 _let_74) (tptp.is_inside_2 _let_72 _let_70) (tptp.has_part_2 _let_70 _let_69) (tptp.has_part_2 _let_9 _let_67) (tptp.has_part_2 _let_9 _let_63) (tptp.has_part_2 _let_9 _let_58) (tptp.has_function_2 _let_15 _let_32) (tptp.has_part_2 _let_1 _let_82) (tptp.has_part_2 _let_9 _let_1) (tptp.result_2 _let_27 _let_83) (= _let_32 _let_22) (= _let_112 _let_56) (= _let_1 _let_26) (= _let_127 _let_126) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_88 _let_34) (= _let_9 _let_8) (= _let_120 _let_119) (= _let_117 _let_116) (= _let_114 _let_113) (= _let_112 _let_54) (= _let_70 _let_14) (= _let_111 _let_110) (= _let_9 _let_6) (= _let_108 _let_53) (= _let_108 _let_52) (= _let_64 _let_11) (= _let_97 _let_45) (= _let_32 _let_20) (= _let_32 _let_19) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_1 _let_24) (= _let_103 _let_102) (= _let_101 _let_50) (= _let_101 _let_33) (= _let_101 _let_49) (= _let_88 _let_33) (= _let_100 _let_99) (= _let_98 _let_48) (= _let_98 _let_47) (= _let_98 _let_46) (= _let_97 _let_43) (= _let_9 _let_4) (= _let_95 _let_40) (= _let_91 _let_37) (= _let_96 _let_42) (= _let_96 _let_41) (= _let_95 _let_39) (= _let_94 _let_93) (= _let_27 _let_92) (= _let_91 _let_38) (= _let_91 _let_35) (= _let_90 _let_89) (= _let_88 _let_31) (= _let_87 _let_86) (= _let_85 _let_84) (= _let_83 _let_30) (= _let_83 _let_29) (= _let_83 _let_28) (= _let_82 _let_81) (= _let_9 _let_2) (= _let_32 _let_17) (= _let_32 _let_16) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_72 _let_71) (= _let_70 _let_12) (= _let_69 _let_68) (= _let_67 _let_66) (= (tptp.fn_apoptosis_29 X) _let_65) (= _let_64 _let_10) (= _let_63 _let_62) (= (tptp.fn_apoptosis_30 X) _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_56 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_33) (= _let_33 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_35) (= _let_35 _let_37) (= _let_37 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_20 _let_17) (= _let_17 _let_20) (= _let_20 _let_19) (= _let_19 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.appendix_1 X) (and (tptp.original_name_2 X |tptp.'Appendix'|) (tptp.user_description_2 X |tptp.'A small, blind-ended extension of the vertebrate cecum that contains lymphoid cells and may contribute to immunity.'|) (tptp.concept2words_2 X tptp.appendix) (tptp.immune_organ_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aquaporin_56 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_water_83 _let_1))) (let ((_let_4 (tptp.fn_aquaporin_77 X))) (let ((_let_5 (tptp.fn_passive_transport_14 _let_4))) (let ((_let_6 (tptp.fn_aquaporin_81 X))) (let ((_let_7 (tptp.fn_plasma_membrane_50 _let_6))) (let ((_let_8 (tptp.fn_aquaporin_67 X))) (let ((_let_9 (tptp.fn_thermal_motion_5 _let_8))) (let ((_let_10 (tptp.fn_water_105 _let_1))) (let ((_let_11 (tptp.fn_water_109 _let_1))) (let ((_let_12 (tptp.fn_water_84 _let_1))) (let ((_let_13 (tptp.fn_water_106 _let_1))) (let ((_let_14 (tptp.fn_water_80 _let_1))) (let ((_let_15 (tptp.fn_aquaporin_54 X))) (let ((_let_16 (tptp.fn_hypertonic_solution_7 _let_15))) (let ((_let_17 (tptp.fn_aqueous_solution_14 _let_15))) (let ((_let_18 (tptp.fn_hypertonic_solution_8 _let_15))) (let ((_let_19 (tptp.fn_water_81 _let_1))) (let ((_let_20 (tptp.fn_hypertonic_solution_6 _let_15))) (let ((_let_21 (tptp.fn_facilitated_diffusion_using_channel_protein_2 _let_4))) (let ((_let_22 (tptp.fn_aquaporin_82 X))) (let ((_let_23 (tptp.fn_polypeptide_130 _let_22))) (let ((_let_24 (tptp.fn_polymer_1 _let_22))) (let ((_let_25 (tptp.fn_polypeptide_125 _let_22))) (let ((_let_26 (tptp.fn_polypeptide_91 _let_22))) (let ((_let_27 (tptp.fn_channel_protein_8 X))) (let ((_let_28 (tptp.fn_transport_protein_28 X))) (let ((_let_29 (tptp.fn_polypeptide_82 _let_22))) (let ((_let_30 (tptp.fn_transport_protein_8 X))) (let ((_let_31 (tptp.fn_polypeptide_83 _let_22))) (let ((_let_32 (tptp.fn_passive_transport_24 _let_4))) (let ((_let_33 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_4 _let_4))) (let ((_let_34 (tptp.fn_channel_protein_5 X))) (let ((_let_35 (tptp.fn_transport_protein_10 X))) (let ((_let_36 (tptp.fn_transport_protein_34 X))) (let ((_let_37 (tptp.fn_passive_transport_22 _let_4))) (let ((_let_38 (tptp.fn_water_95 _let_1))) (let ((_let_39 (tptp.fn_passive_transport_13 _let_4))) (let ((_let_40 (tptp.fn_water_96 _let_1))) (let ((_let_41 (tptp.fn_facilitated_diffusion_using_channel_protein_13 _let_4))) (let ((_let_42 (tptp.fn_plasma_membrane_74 _let_6))) (let ((_let_43 (tptp.fn_facilitated_diffusion_using_channel_protein_14 _let_4))) (let ((_let_44 (tptp.fn_plasma_membrane_55 _let_6))) (let ((_let_45 (tptp.fn_plasma_membrane_54 _let_6))) (let ((_let_46 (tptp.fn_aquaporin_73 X))) (let ((_let_47 (tptp.fn_hydrophilic_channel_2 _let_46))) (let ((_let_48 (tptp.fn_aquaporin_94 X))) (let ((_let_49 (tptp.fn_expose_1 _let_48))) (let ((_let_50 (tptp.fn_aquaporin_87 X))) (let ((_let_51 (tptp.fn_expose_1 _let_50))) (let ((_let_52 (tptp.fn_aquaporin_79 X))) (let ((_let_53 (tptp.fn_expose_1 _let_52))) (let ((_let_54 (tptp.fn_plasma_membrane_68 _let_6))) (let ((_let_55 (tptp.fn_transport_protein_35 X))) (let ((_let_56 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_9 _let_4))) (let ((_let_57 (tptp.fn_passive_transport_25 _let_4))) (let ((_let_58 (tptp.fn_integral_protein_24 X))) (let ((_let_59 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_60 (tptp.fn_aquaporin_78 X))) (let ((_let_61 (tptp.fn_cell_30 _let_60))) (let ((_let_62 (tptp.fn_aquaporin_47 X))) (let ((_let_63 (tptp.fn_attach_2 _let_62))) (let ((_let_64 (tptp.fn_plasma_membrane_34 _let_6))) (let ((_let_65 (tptp.fn_integral_protein_9 X))) (let ((_let_66 (tptp.fn_plasma_membrane_71 _let_6))) (let ((_let_67 (tptp.fn_integral_protein_27 X))) (let ((_let_68 (tptp.fn_biomembrane_63 _let_6))) (let ((_let_69 (tptp.fn_plasma_membrane_96 _let_6))) (let ((_let_70 (tptp.fn_plasma_membrane_31 _let_6))) (let ((_let_71 (tptp.fn_channel_protein_6 X))) (let ((_let_72 (tptp.fn_transport_protein_31 X))) (let ((_let_73 (tptp.fn_biomembrane_102 _let_6))) (let ((_let_74 (tptp.fn_integral_protein_25 X))) (let ((_let_75 (tptp.fn_channel_protein_4 X))) (let ((_let_76 (tptp.fn_channel_protein_11 X))) (let ((_let_77 (tptp.fn_biomembrane_105 _let_6))) (let ((_let_78 (tptp.fn_plasma_membrane_3 _let_6))) (let ((_let_79 (tptp.fn_passive_transport_21 _let_4))) (let ((_let_80 (tptp.fn_plasma_membrane_4 _let_6))) (let ((_let_81 (tptp.fn_attach_1 _let_62))) (let ((_let_82 (tptp.fn_plasma_membrane_98 _let_6))) (let ((_let_83 (tptp.fn_channel_protein_3 X))) (let ((_let_84 (tptp.fn_plasma_membrane_77 _let_6))) (let ((_let_85 (tptp.fn_plasma_membrane_70 _let_6))) (let ((_let_86 (tptp.fn_transport_protein_16 X))) (let ((_let_87 (tptp.fn_transport_protein_33 X))) (let ((_let_88 (tptp.fn_integral_protein_23 X))) (let ((_let_89 (tptp.fn_transmembrane_protein_2 X))) (let ((_let_90 (tptp.fn_transport_protein_4 X))) (let ((_let_91 (tptp.fn_integral_protein_7 X))) (let ((_let_92 (tptp.fn_hydrophilic_region_2 _let_46))) (let ((_let_93 (tptp.fn_transport_protein_32 X))) (let ((_let_94 (tptp.fn_integral_protein_6 X))) (let ((_let_95 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_2 _let_4))) (let ((_let_96 (tptp.fn_channel_protein_7 X))) (let ((_let_97 (tptp.fn_biomembrane_42 _let_6))) (let ((_let_98 (tptp.fn_transmembrane_protein_6 X))) (let ((_let_99 (tptp.fn_biomembrane_41 _let_6))) (let ((_let_100 (tptp.fn_biomembrane_47 _let_6))) (let ((_let_101 (tptp.fn_plasma_membrane_73 _let_6))) (let ((_let_102 (tptp.fn_aquaporin_45 X))) (let ((_let_103 (tptp.fn_block_1 _let_102))) (let ((_let_104 (tptp.fn_aquaporin_64 X))) (let ((_let_105 (tptp.fn_aquaporin_76 X))) (let ((_let_106 (tptp.fn_water_99 _let_1))) (let ((_let_107 (tptp.fn_aquaporin_61 X))) (let ((_let_108 (tptp.fn_water_78 _let_1))) (let ((_let_109 (tptp.fn_aquaporin_58 X))) (let ((_let_110 (tptp.fn_aquaporin_62 X))) (let ((_let_111 (tptp.fn_water_110 _let_1))) (let ((_let_112 (tptp.fn_aquaporin_53 X))) (let ((_let_113 (tptp.fn_aquaporin_63 X))) (let ((_let_114 (tptp.fn_aquaporin_52 X))) (let ((_let_115 (tptp.fn_water_14 _let_1))) (let ((_let_116 (tptp.fn_aquaporin_59 X))) (let ((_let_117 (tptp.fn_water_101 _let_1))) (let ((_let_118 (tptp.fn_aquaporin_57 X))) (let ((_let_119 (tptp.fn_aquaporin_55 X))) (let ((_let_120 (tptp.fn_hypertonic_solution_5 _let_15))) (let ((_let_121 (tptp.fn_aquaporin_93 X))) (let ((_let_122 (tptp.fn_aquaporin_88 X))) (let ((_let_123 (tptp.fn_aquaporin_89 X))) (let ((_let_124 (tptp.fn_polypeptide_126 _let_22))) (let ((_let_125 (tptp.fn_aquaporin_90 X))) (let ((_let_126 (tptp.fn_passive_transport_1 _let_4))) (let ((_let_127 (tptp.fn_facilitated_diffusion_using_channel_protein_1 _let_4))) (let ((_let_128 (tptp.fn_aquaporin_91 X))) (let ((_let_129 (tptp.fn_aquaporin_65 X))) (let ((_let_130 (tptp.fn_aquaporin_40 X))) (let ((_let_131 (tptp.fn_passive_transport_29 _let_4))) (let ((_let_132 (tptp.fn_aquaporin_66 X))) (let ((_let_133 (tptp.fn_aquaporin_34 X))) (let ((_let_134 (tptp.fn_aquaporin_68 X))) (let ((_let_135 (tptp.fn_aquaporin_80 X))) (let ((_let_136 (tptp.fn_plasma_membrane_33 _let_6))) (let ((_let_137 (tptp.fn_aquaporin_35 X))) (let ((_let_138 (tptp.fn_aquaporin_72 X))) (let ((_let_139 (tptp.fn_plasma_membrane_97 _let_6))) (let ((_let_140 (tptp.fn_aquaporin_36 X))) (let ((_let_141 (tptp.fn_plasma_membrane_30 _let_6))) (let ((_let_142 (tptp.fn_aquaporin_69 X))) (let ((_let_143 (tptp.fn_aquaporin_37 X))) (let ((_let_144 (tptp.fn_aquaporin_86 X))) (let ((_let_145 (tptp.fn_aquaporin_85 X))) (let ((_let_146 (tptp.fn_aquaporin_60 X))) (let ((_let_147 (tptp.fn_aquaporin_83 X))) (let ((_let_148 (tptp.fn_aquaporin_74 X))) (let ((_let_149 (tptp.fn_aquaporin_38 X))) (let ((_let_150 (tptp.fn_aquaporin_75 X))) (let ((_let_151 (tptp.fn_aquaporin_70 X))) (let ((_let_152 (tptp.fn_aquaporin_103 X))) (let ((_let_153 (tptp.fn_passive_transport_20 _let_4))) (let ((_let_154 (tptp.fn_aquaporin_46 X))) (let ((_let_155 (tptp.fn_hydrophilic_channel_1 _let_46))) (let ((_let_156 (tptp.fn_aquaporin_84 X))) (let ((_let_157 (tptp.fn_aquaporin_102 X))) (let ((_let_158 (tptp.fn_aquaporin_101 X))) (let ((_let_159 (tptp.fn_aquaporin_71 X))) (let ((_let_160 (tptp.fn_aquaporin_39 X))) (let ((_let_161 (tptp.fn_aquaporin_100 X))) (let ((_let_162 (tptp.fn_block_1 _let_161))) (let ((_let_163 (tptp.fn_aquaporin_23 X))) (let ((_let_164 (tptp.fn_aquaporin_41 X))) (let ((_let_165 (tptp.fn_block_1 _let_164))) (let ((_let_166 (tptp.fn_aquaporin_30 X))) (let ((_let_167 (tptp.fn_aquaporin_99 X))) (let ((_let_168 (tptp.fn_block_1 _let_167))) (let ((_let_169 (tptp.fn_aquaporin_22 X))) (let ((_let_170 (tptp.fn_aquaporin_42 X))) (let ((_let_171 (tptp.fn_block_1 _let_170))) (let ((_let_172 (tptp.fn_aquaporin_31 X))) (let ((_let_173 (tptp.fn_aquaporin_98 X))) (let ((_let_174 (tptp.fn_block_1 _let_173))) (let ((_let_175 (tptp.fn_aquaporin_21 X))) (let ((_let_176 (tptp.fn_aquaporin_43 X))) (let ((_let_177 (tptp.fn_block_1 _let_176))) (let ((_let_178 (tptp.fn_aquaporin_32 X))) (let ((_let_179 (tptp.fn_aquaporin_97 X))) (let ((_let_180 (tptp.fn_block_1 _let_179))) (let ((_let_181 (tptp.fn_aquaporin_20 X))) (let ((_let_182 (tptp.fn_aquaporin_44 X))) (let ((_let_183 (tptp.fn_block_1 _let_182))) (let ((_let_184 (tptp.fn_aquaporin_33 X))) (let ((_let_185 (tptp.fn_aquaporin_96 X))) (let ((_let_186 (tptp.fn_block_1 _let_185))) (let ((_let_187 (tptp.fn_aquaporin_19 X))) (let ((_let_188 (tptp.fn_aquaporin_95 X))) (let ((_let_189 (tptp.fn_block_1 _let_188))) (let ((_let_190 (tptp.fn_aquaporin_24 X))) (let ((_let_191 (tptp.fn_aquaporin_92 X))) (let ((_let_192 (tptp.fn_block_1 _let_191))) (let ((_let_193 (tptp.fn_aquaporin_25 X))) (let ((_let_194 (tptp.fn_aquaporin_48 X))) (let ((_let_195 (tptp.fn_block_1 _let_194))) (let ((_let_196 (tptp.fn_aquaporin_27 X))) (let ((_let_197 (tptp.fn_aquaporin_51 X))) (let ((_let_198 (tptp.fn_block_1 _let_197))) (let ((_let_199 (tptp.fn_aquaporin_26 X))) (let ((_let_200 (tptp.fn_aquaporin_49 X))) (let ((_let_201 (tptp.fn_block_1 _let_200))) (let ((_let_202 (tptp.fn_aquaporin_28 X))) (let ((_let_203 (tptp.fn_aquaporin_50 X))) (let ((_let_204 (tptp.fn_block_1 _let_203))) (let ((_let_205 (tptp.fn_aquaporin_29 X))) (let ((_let_206 (tptp.fn_aquaporin_16 X))) (let ((_let_207 (tptp.fn_aquaporin_15 X))) (let ((_let_208 (tptp.fn_aquaporin_14 X))) (let ((_let_209 (tptp.fn_aquaporin_13 X))) (let ((_let_210 (tptp.fn_aquaporin_12 X))) (let ((_let_211 (tptp.fn_aquaporin_11 X))) (let ((_let_212 (tptp.fn_aquaporin_10 X))) (let ((_let_213 (tptp.fn_aquaporin_9 X))) (let ((_let_214 (tptp.fn_aquaporin_8 X))) (let ((_let_215 (tptp.fn_aquaporin_18 X))) (let ((_let_216 (tptp.fn_aquaporin_1 X))) (let ((_let_217 (tptp.fn_aquaporin_2 X))) (let ((_let_218 (tptp.fn_aquaporin_3 X))) (let ((_let_219 (tptp.fn_aquaporin_4 X))) (let ((_let_220 (tptp.fn_aquaporin_5 X))) (let ((_let_221 (tptp.fn_aquaporin_6 X))) (let ((_let_222 (tptp.fn_aquaporin_7 X))) (=> (tptp.aquaporin_1 X) (and (tptp.original_name_2 X |tptp.'Aquaporin'|) (tptp.user_description_2 X |tptp.'Aquaporins are proteins embedded in the cell membrane that regulate the flow of water.'|) (tptp.concept2words_2 X |tptp.'water channel protein'|) (tptp.concept2words_2 X |tptp.'water-channel-protein'|) (tptp.concept2words_2 X |tptp.'water pore'|) (tptp.concept2words_2 X |tptp.'water channel'|) (tptp.concept2words_2 X tptp.aquaporin) (tptp.channel_protein_1 X) (not (tptp.atp_synthase_1 X)) (tptp.hydrophilic_compound_1 _let_216) (tptp.hydrophilic_compound_1 _let_217) (tptp.hydrophilic_compound_1 _let_218) (tptp.hydrophilic_compound_1 _let_219) (tptp.hydrophilic_compound_1 _let_220) (tptp.hydrophilic_compound_1 _let_221) (tptp.hydrophilic_compound_1 _let_222) (tptp.hydrophilic_compound_1 _let_214) (tptp.hydrophilic_compound_1 _let_213) (tptp.hydrophilic_compound_1 _let_212) (tptp.hydrophilic_compound_1 _let_211) 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_let_145)) (tptp.object_2 _let_138 _let_145) (not (= _let_145 _let_143)) (tptp.has_region_2 X _let_46) (tptp.object_2 _let_129 _let_143) (tptp.base_2 _let_129 _let_6) (tptp.path_2 _let_4 _let_6) (tptp.has_function_2 _let_6 _let_129) (tptp.path_2 _let_129 _let_46) (tptp.facilitates_2 _let_46 _let_4) (tptp.has_part_2 X _let_22) (tptp.is_at_2 _let_128 _let_151) (tptp.has_region_2 X _let_152) (tptp.site_2 _let_149 _let_148) (tptp.facilitates_2 _let_147 _let_149) (tptp.is_at_2 _let_150 _let_147) (tptp.has_part_2 X _let_150) (tptp.has_region_2 X _let_151) (tptp.has_region_2 X _let_147) (tptp.is_opposite_2 _let_147 _let_148) (tptp.has_region_2 X _let_148) (tptp.has_function_2 X _let_149) (tptp.agent_2 _let_149 X) (tptp.is_opposite_2 _let_148 _let_147) (tptp.is_between_2 _let_6 _let_146) (tptp.has_function_2 _let_6 _let_140) (tptp.is_impermeable_to_2 _let_6 _let_145) (tptp.has_part_2 _let_6 _let_135) (tptp.is_at_2 _let_144 _let_6) (tptp.plays_2 _let_6 _let_142) (tptp.in_event_2 _let_142 _let_138) (tptp.object_2 _let_138 _let_143) (tptp.has_function_2 _let_6 _let_138) (not (= _let_140 _let_138)) (not (= _let_137 _let_140)) (not (= _let_140 _let_137)) (not (= _let_138 _let_140)) (tptp.base_2 _let_133 _let_6) (tptp.has_function_2 _let_6 _let_133) (tptp.has_function_2 _let_6 _let_137) (not (= _let_138 _let_137)) (not (= _let_137 _let_138)) (tptp.has_part_2 _let_6 _let_134) (tptp.is_inside_2 _let_134 _let_135) (tptp.is_inside_2 X _let_135) (tptp.is_across_2 X _let_6) (tptp.has_part_2 _let_6 X) (tptp.instrument_2 _let_4 X) (tptp.subevent_2 _let_4 _let_133) (tptp.agent_2 _let_133 X) (tptp.facilitates_2 X _let_133) (tptp.objective_2 _let_4 _let_132) (tptp.by_means_of_2 _let_4 _let_8) (tptp.subevent_2 _let_4 _let_129) (tptp.causes_2 _let_8 _let_129) (tptp.agent_2 _let_8 _let_130) (tptp.has_part_2 _let_22 _let_128) (tptp.inhibits_2 _let_107 _let_118) (tptp.object_2 _let_118 _let_1) (tptp.has_region_2 _let_1 _let_116) (tptp.is_at_2 _let_105 _let_116) (tptp.has_part_2 _let_1 _let_105) (not (= _let_113 _let_114)) (not (= _let_114 _let_110)) (not (= _let_110 _let_114)) (not (= _let_114 _let_113)) (tptp.has_part_2 _let_105 _let_113) (tptp.site_2 _let_104 _let_112) (tptp.agent_2 _let_104 _let_112) (tptp.has_region_2 _let_105 _let_112) (tptp.object_2 _let_109 _let_105) (tptp.base_2 _let_109 _let_1) (tptp.has_part_2 _let_105 _let_110) (tptp.agent_2 _let_109 _let_105) (tptp.object_2 _let_107 _let_105) (tptp.called_2 _let_105 |"1"|) (tptp.has_function_2 _let_105 _let_104) (tptp.is_hypotonic_to_2 _let_119 _let_15) (tptp.has_part_2 _let_119 _let_121) (tptp.has_solute_2 _let_119 _let_121) (tptp.is_hypertonic_to_2 _let_15 _let_119) (tptp.has_solvent_2 _let_15 _let_1) (tptp.has_part_2 _let_15 _let_1) (not (= _let_125 _let_122)) (not (= _let_122 _let_125)) (tptp.is_between_2 _let_123 _let_125) (tptp.possesses_2 _let_22 _let_123) (tptp.is_between_2 _let_123 _let_122) (tptp.base_2 _let_4 _let_60) (tptp.origin_2 _let_4 _let_15) (tptp.destination_2 _let_4 _let_119) (= _let_144 _let_81) (= _let_105 _let_9) (= _let_205 _let_204) (= _let_202 _let_201) (= _let_199 _let_198) (= _let_196 _let_195) (= _let_193 _let_192) (= _let_6 _let_63) (= _let_190 _let_189) (= _let_160 _let_103) (= _let_187 _let_186) (= _let_184 _let_183) (= _let_181 _let_180) (= _let_178 _let_177) (= _let_175 _let_174) (= _let_172 _let_171) (= _let_169 _let_168) (= _let_166 _let_165) (= _let_163 _let_162) (= _let_160 _let_101) (= _let_105 _let_7) (= X _let_53) (= X _let_51) (= _let_6 _let_61) (= X _let_49) (= _let_149 _let_92) (= _let_159 (tptp.fn_integral_protein_29 X)) (= _let_148 _let_89) (= _let_158 _let_100) (= _let_158 _let_99) (= _let_157 _let_98) (= _let_157 _let_97) (= _let_156 _let_155) (= _let_154 _let_153) (= _let_105 _let_5) (= _let_138 _let_72) (= _let_138 _let_71) (= _let_145 _let_83) (= _let_143 _let_76) (= _let_143 _let_75) (= X _let_47) (= _let_129 _let_35) (= _let_46 _let_96) (= _let_46 _let_95) (= _let_129 _let_36) (= _let_129 _let_33) (= _let_6 _let_56) (= _let_22 (tptp.fn_transport_protein_7 X)) (= _let_128 _let_30) (= _let_152 (tptp.fn_transport_protein_15 X)) (= _let_151 (tptp.fn_transport_protein_6 X)) (= _let_150 _let_94) (= _let_150 _let_93) (= _let_147 _let_88) (= _let_149 _let_91) (= _let_147 _let_87) (= _let_149 _let_90) (= _let_148 _let_87) (= _let_147 _let_86) (= _let_146 _let_85) (= _let_146 _let_84) (= _let_145 _let_82) (= _let_135 _let_68) (= _let_144 _let_80) (= _let_144 _let_79) (= _let_6 _let_57) (= _let_144 _let_78) (= _let_143 _let_77) (= _let_143 _let_7) (= _let_138 _let_70) (= _let_142 _let_141) (= _let_140 _let_139) (= _let_138 _let_74) (= _let_138 _let_73) (= _let_138 _let_69) (= _let_137 _let_136) (= _let_133 _let_35) (= _let_133 _let_42) (= X _let_54) (= _let_6 _let_59) (= X _let_45) (= _let_6 _let_55) (= X _let_44) (= _let_135 _let_67) (= _let_135 _let_66) (= _let_6 _let_58) (= _let_134 _let_65) (= _let_134 _let_64) (= _let_133 _let_34) (= X _let_43) (= _let_4 _let_28) (= _let_133 _let_36) (= _let_133 _let_41) (= _let_132 _let_131) (= _let_8 _let_38) (= _let_130 _let_40) (= _let_130 _let_39) (= _let_8 _let_37) (= _let_4 _let_27) (= _let_129 _let_34) (= _let_129 _let_32) (= _let_128 _let_31) (= _let_128 _let_29) (= _let_119 _let_21) (= _let_15 _let_127) (= _let_60 _let_126) (= _let_122 _let_26) (= _let_125 _let_124) (= _let_123 _let_24) (= _let_123 _let_23) (= _let_122 _let_25) (= _let_121 _let_120) (= _let_119 _let_20) (= _let_1 _let_18) (= _let_1 _let_17) (= _let_1 _let_16) (= _let_118 _let_117) (= _let_116 _let_115) (= _let_114 _let_19) (= _let_110 _let_13) (= _let_113 _let_19) (= _let_114 _let_12) (= _let_114 _let_14) (= _let_113 _let_13) (= _let_104 _let_11) (= _let_112 _let_111) (= _let_105 _let_3) (= _let_110 _let_14) (= _let_110 _let_12) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_2) (= _let_104 _let_10) (= _let_103 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_87) (= _let_88 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_76) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_7) (= _let_7 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_70 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_55 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_49 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_35) (= _let_34 _let_36) (= _let_36 _let_34) (= _let_42 _let_34) (= _let_34 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_12) (= _let_19 _let_12) (= _let_12 _let_19) (= _let_19 _let_19) (= _let_19 _let_14) (= _let_14 _let_14) (= _let_14 _let_19) (= _let_13 _let_19) (= _let_19 _let_13) (= _let_13 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aquatic_biogeochemical_cycle_1 X))) (let ((_let_2 (tptp.fn_aquatic_biogeochemical_cycle_2 X))) (=> (tptp.aquatic_biogeochemical_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Aquatic-Biogeochemical-Cycle'|) (tptp.user_description_2 X |tptp.'Portion of a biogeochimal cycle which occurs in aquatic ecosystems. Biogeochemical cycles cycle chemicals through biotic and abiotic components of ecosystems.'|) (tptp.concept2words_2 X |tptp.'undergo the aquatic biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'aquatic biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'aquatic-biogeochemical-cycle'|) (tptp.biogeochemical_cycle_1 X) (tptp.chemical_entity_1 _let_1) (tptp.aquatic_ecosystem_1 _let_2) (tptp.site_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_biogeochemical_cycle_2 X)) (= _let_1 (tptp.fn_biogeochemical_cycle_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ecosystem_31 X))) (let ((_let_2 (tptp.fn_ecosystem_19 X))) (let ((_let_3 (tptp.fn_aquatic_ecosystem_12 X))) (let ((_let_4 (tptp.fn_ecosystem_10 X))) (let ((_let_5 (tptp.fn_aquatic_ecosystem_10 X))) (let ((_let_6 (tptp.fn_aquatic_ecosystem_9 X))) (let ((_let_7 (tptp.fn_aquatic_ecosystem_11 X))) (let ((_let_8 (tptp.fn_aquatic_ecosystem_6 X))) (let ((_let_9 (tptp.fn_aquatic_ecosystem_7 X))) (let ((_let_10 (tptp.fn_aquatic_ecosystem_8 X))) (let ((_let_11 (tptp.fn_aquatic_ecosystem_3 X))) (let ((_let_12 (tptp.fn_aquatic_ecosystem_4 X))) (let ((_let_13 (tptp.fn_aquatic_ecosystem_5 X))) (=> (tptp.aquatic_ecosystem_1 X) (and (tptp.original_name_2 X |tptp.'Aquatic-Ecosystem'|) (tptp.user_description_2 X |tptp.'An ecosystem, or collection of living organisms and the physical environment, that is located primarily in water.'|) (tptp.concept2words_2 X |tptp.'ecosystem of aquatic'|) (tptp.concept2words_2 X |tptp.'aquatic ecosystem'|) (tptp.concept2words_2 X |tptp.'aquatic-ecosystem'|) (tptp.ecosystem_1 X) (tptp.aphotic_zone_1 _let_11) (tptp.quantity_value_1 _let_12) (tptp.limiting_nutrient_1 _let_13) (tptp.quantity_value_1 _let_8) (tptp.limiting_nutrient_1 _let_9) (tptp.photic_zone_1 _let_10) (tptp.tangible_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_7) (tptp.chemical_element_1 _let_3) (tptp.tangible_entity_1 _let_3) (not (= _let_6 _let_5)) (tptp.has_region_2 X _let_10) (tptp.has_region_2 X _let_11) (tptp.greater_than_2 _let_12 _let_8) (not (= _let_5 _let_6)) (tptp.plays_2 _let_5 _let_13) (tptp.quantity_2 _let_5 _let_12) (tptp.is_inside_2 _let_5 _let_11) (tptp.is_inside_2 _let_7 _let_10) (tptp.plays_2 _let_7 _let_9) (tptp.quantity_2 _let_7 _let_8) (tptp.element_2 X _let_7) (tptp.element_2 X _let_6) (tptp.element_2 X _let_5) (tptp.element_2 X _let_3) (= _let_7 _let_4) (= _let_6 _let_1) (= _let_5 _let_4) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aquatic_nitrogen_cycle_7 X))) (let ((_let_2 (tptp.fn_nitrification_9 _let_1))) (let ((_let_3 (tptp.fn_aquatic_nitrogen_cycle_24 X))) (let ((_let_4 (tptp.fn_oxidation_10 _let_3))) (let ((_let_5 (tptp.fn_oxidation_7 _let_3))) (let ((_let_6 (tptp.fn_aquatic_nitrogen_cycle_18 X))) (let ((_let_7 (tptp.fn_chemical_3 _let_6))) (let ((_let_8 (tptp.fn_aquatic_nitrogen_cycle_28 X))) (let ((_let_9 (tptp.fn_electron_donor_1 _let_8))) (let ((_let_10 (tptp.fn_nitrification_12 _let_1))) (let ((_let_11 (tptp.fn_oxidation_9 _let_3))) (let ((_let_12 (tptp.fn_nitrification_6 _let_1))) (let ((_let_13 (tptp.fn_aquatic_nitrogen_cycle_17 X))) (let ((_let_14 (tptp.fn_solution_6 _let_13))) (let ((_let_15 (tptp.fn_aquatic_nitrogen_cycle_33 X))) (let ((_let_16 (tptp.fn_water_body_5 _let_15))) (let ((_let_17 (tptp.fn_water_body_10 _let_15))) (let ((_let_18 (tptp.fn_electron_donor_2 _let_8))) (let ((_let_19 (tptp.fn_nitrification_7 _let_1))) (let ((_let_20 (tptp.fn_aquatic_nitrogen_cycle_5 X))) (let ((_let_21 (tptp.fn_chemical_reaction_1 _let_20))) (let ((_let_22 (tptp.fn_nitrification_10 _let_1))) (let ((_let_23 (tptp.fn_nitrification_8 _let_1))) (let ((_let_24 (tptp.fn_aquatic_nitrogen_cycle_30 X))) (let ((_let_25 (tptp.fn_nitrogen_fixation_4 _let_24))) (let ((_let_26 (tptp.fn_aquatic_biogeochemical_cycle_1 X))) (let ((_let_27 (tptp.fn_nitrogen_fixation_1 _let_24))) (let ((_let_28 (tptp.fn_aquatic_nitrogen_cycle_8 X))) (let ((_let_29 (tptp.fn_consume_1 _let_28))) (let ((_let_30 (tptp.fn_nitrogen_fixation_5 _let_24))) (let ((_let_31 (tptp.fn_aquatic_nitrogen_cycle_11 X))) (let ((_let_32 (tptp.fn_ammonification_4 _let_31))) (let ((_let_33 (tptp.fn_ammonification_1 _let_31))) (let ((_let_34 (tptp.fn_aquatic_nitrogen_cycle_10 X))) (let ((_let_35 (tptp.fn_decomposition_1 _let_34))) (let ((_let_36 (tptp.fn_decomposition_3 _let_34))) (let ((_let_37 (tptp.fn_aquatic_nitrogen_cycle_9 X))) (let ((_let_38 (tptp.fn_death_2 _let_37))) (let ((_let_39 (tptp.fn_aquatic_nitrogen_cycle_19 X))) (let ((_let_40 (tptp.fn_anion_4 _let_39))) (let ((_let_41 (tptp.fn_aquatic_nitrogen_cycle_38 X))) (let ((_let_42 (tptp.fn_anion_2 _let_39))) (let ((_let_43 (tptp.fn_aquatic_nitrogen_cycle_40 X))) (let ((_let_44 (tptp.fn_anion_6 _let_39))) (let ((_let_45 (tptp.fn_aquatic_nitrogen_cycle_41 X))) (let ((_let_46 (tptp.fn_anion_5 _let_39))) (let ((_let_47 (tptp.fn_aquatic_nitrogen_cycle_39 X))) (let ((_let_48 (tptp.fn_aquatic_nitrogen_cycle_34 X))) (let ((_let_49 (tptp.fn_plankton_1 _let_48))) (let ((_let_50 (tptp.fn_aquatic_nitrogen_cycle_35 X))) (let ((_let_51 (tptp.fn_oxidation_8 _let_3))) (let ((_let_52 (tptp.fn_aquatic_nitrogen_cycle_26 X))) (let ((_let_53 (tptp.fn_aquatic_nitrogen_cycle_16 X))) (let ((_let_54 (tptp.fn_aquatic_nitrogen_cycle_27 X))) (let ((_let_55 (tptp.fn_aquatic_nitrogen_cycle_20 X))) (let ((_let_56 (tptp.fn_aquatic_nitrogen_cycle_21 X))) (let ((_let_57 (tptp.fn_nitrification_11 _let_1))) (let ((_let_58 (tptp.fn_aquatic_nitrogen_cycle_22 X))) (let ((_let_59 (tptp.fn_nitrification_3 _let_1))) (let ((_let_60 (tptp.fn_aquatic_nitrogen_cycle_25 X))) (let ((_let_61 (tptp.fn_nitrification_2 _let_1))) (let ((_let_62 (tptp.fn_aquatic_nitrogen_cycle_29 X))) (let ((_let_63 (tptp.fn_oxidation_11 _let_3))) (let ((_let_64 (tptp.fn_aquatic_nitrogen_cycle_23 X))) (let ((_let_65 (tptp.fn_aquatic_nitrogen_cycle_37 X))) (let ((_let_66 (tptp.fn_aquatic_nitrogen_cycle_32 X))) (let ((_let_67 (tptp.fn_aquatic_nitrogen_cycle_31 X))) (let ((_let_68 (tptp.fn_consume_2 _let_28))) (let ((_let_69 (tptp.fn_aquatic_nitrogen_cycle_15 X))) (let ((_let_70 (tptp.fn_aquatic_nitrogen_cycle_12 X))) (let ((_let_71 (tptp.fn_solution_5 _let_13))) (let ((_let_72 (tptp.fn_aquatic_nitrogen_cycle_36 X))) (let ((_let_73 (tptp.fn_take_in_1 _let_72))) (let ((_let_74 (tptp.fn_aquatic_nitrogen_cycle_3 X))) (let ((_let_75 (tptp.fn_decomposition_1 _let_74))) (let ((_let_76 (tptp.fn_aquatic_nitrogen_cycle_4 X))) (let ((_let_77 (tptp.fn_aquatic_nitrogen_cycle_13 X))) (let ((_let_78 (tptp.fn_death_1 _let_37))) (let ((_let_79 (tptp.fn_aquatic_nitrogen_cycle_14 X))) (let ((_let_80 (tptp.fn_chemical_reaction_2 _let_20))) (let ((_let_81 (tptp.fn_aquatic_nitrogen_cycle_6 X))) (let ((_let_82 (tptp.fn_move_1 _let_72))) (let ((_let_83 (tptp.fn_aquatic_nitrogen_cycle_2 X))) (let ((_let_84 (tptp.fn_aquatic_nitrogen_cycle_1 X))) (=> (tptp.aquatic_nitrogen_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Aquatic-Nitrogen-Cycle'|) (tptp.user_description_2 X |tptp.'The portion of the nitrogen cycle that occurs in water.'|) (tptp.concept2words_2 X |tptp.'undergo the aquatic nitrogen cycle'|) (tptp.concept2words_2 X |tptp.'aquatic nitrogen cycle'|) (tptp.concept2words_2 X |tptp.'aquatic-nitrogen-cycle'|) (tptp.aquatic_biogeochemical_cycle_1 X) (tptp.abiotic_factor_1 _let_84) (tptp.biotic_factor_1 _let_83) (tptp.decomposition_1 _let_74) (tptp.amino_acid_1 _let_76) (tptp.chemical_reaction_1 _let_20) (tptp.hydrogen_ion_1 _let_81) (tptp.nitrification_1 _let_1) (tptp.consume_1 _let_28) (tptp.death_1 _let_37) (tptp.decomposition_1 _let_34) (tptp.ammonification_1 _let_31) (tptp.organic_molecule_1 _let_70) (tptp.dead_organism_1 _let_77) (tptp.organism_1 _let_79) (tptp.resource_1 _let_69) (tptp.liquid_substance_1 _let_53) (tptp.water_1 _let_53) (tptp.chemical_1 _let_53) (tptp.spatial_entity_1 _let_13) (tptp.solution_1 _let_13) (tptp.mineral_1 _let_6) (tptp.chemical_entity_1 _let_39) (tptp.nitrate_ion_1 _let_39) (tptp.anion_1 _let_39) (tptp.chemical_entity_1 _let_55) (tptp.no2_minus_1 _let_55) (tptp.chemical_entity_1 _let_56) (tptp.electron_1 _let_56) (tptp.oxidation_1 _let_58) (tptp.oxidizing_agent_1 _let_64) (tptp.oxidation_1 _let_3) (tptp.time_interval_1 _let_60) (tptp.electron_1 _let_52) (tptp.nh4_plus_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.electron_donor_1 _let_8) (tptp.time_interval_1 _let_62) (tptp.nitrogen_fixation_1 _let_24) (tptp.ammonia_1 _let_67) (tptp.entity_1 _let_66) (tptp.nitrogen_fixing_bacterium_1 _let_66) (tptp.water_body_1 _let_15) (tptp.tangible_entity_1 _let_48) (tptp.plankton_1 _let_48) (tptp.cell_1 _let_50) (tptp.take_in_1 _let_72) (tptp.chemical_entity_1 _let_65) (tptp.molecule_1 _let_65) (tptp.nitrogen_molecule_1 _let_65) (tptp.charge_value_1 _let_41) (tptp.atom_1 _let_47) (tptp.gain_1 _let_43) (tptp.charge_value_1 _let_45) (tptp.spatial_entity_1 _let_82) (tptp.chemical_entity_1 _let_80) (tptp.tangible_entity_1 _let_78) (tptp.organic_molecule_1 _let_75) (tptp.tangible_entity_1 _let_73) (tptp.chemical_1 _let_71) (tptp.resource_1 _let_68) (tptp.oxidizing_agent_1 _let_63) (tptp.time_interval_1 _let_61) (tptp.time_interval_1 _let_59) (tptp.oxidation_1 _let_57) (tptp.electron_donor_1 _let_51) (tptp.cell_1 _let_49) (tptp.atom_1 _let_46) (tptp.charge_value_1 _let_44) (tptp.gain_1 _let_42) (tptp.charge_value_1 _let_40) (tptp.tangible_entity_1 _let_38) (tptp.detritus_1 _let_36) (tptp.organic_molecule_1 _let_35) (tptp.organic_molecule_1 _let_33) (tptp.ammonia_1 _let_32) (tptp.ammonia_1 _let_30) (tptp.entity_1 _let_29) (tptp.nitrogen_fixing_bacterium_1 _let_27) (tptp.molecule_1 _let_25) (tptp.nitrogen_molecule_1 _let_25) (tptp.chemical_entity_1 _let_23) (tptp.electron_1 _let_23) (tptp.no2_minus_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.nh4_plus_1 _let_19) (tptp.chemical_entity_1 _let_18) (tptp.liquid_substance_1 _let_17) (tptp.water_1 _let_17) (tptp.liquid_substance_1 _let_16) (tptp.water_1 _let_16) (tptp.chemical_1 _let_14) (tptp.electron_1 _let_12) (tptp.electron_1 _let_11) (tptp.oxidation_1 _let_10) (tptp.oxidation_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.nitrate_ion_1 _let_2) (tptp.the_cardinal_value_2 _let_45 |"-1.0e0"|) (tptp.cardinal_unit_class_2 _let_45 tptp.unity_0) (tptp.destination_2 _let_72 _let_50) (tptp.origin_2 _let_72 _let_15) (tptp.is_inside_2 _let_50 _let_48) (tptp.base_2 X _let_15) (tptp.subevent_2 X _let_72) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_31) (tptp.subevent_2 X _let_34) (tptp.subevent_2 X _let_37) (tptp.subevent_2 X _let_28) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_20) (tptp.subevent_2 X _let_74) (tptp.is_outside_2 _let_15 _let_48) (tptp.base_2 _let_24 _let_15) (tptp.next_event_2 _let_24 _let_28) (tptp.plays_2 _let_53 _let_84) (tptp.plays_2 _let_79 _let_83) (tptp.next_event_2 _let_31 _let_20) (tptp.next_event_2 _let_34 _let_31) (tptp.next_event_2 _let_37 _let_34) (tptp.next_event_2 _let_28 _let_37) (tptp.agent_2 _let_28 _let_79) (tptp.raw_material_2 _let_20 _let_67) (tptp.object_2 X _let_65) (tptp.result_2 _let_37 _let_77) (tptp.object_2 _let_72 _let_13) (tptp.has_part_2 _let_6 _let_39) (tptp.result_2 _let_20 _let_54) (tptp.raw_material_2 _let_20 _let_81) (tptp.object_2 _let_37 _let_79) (tptp.object_2 _let_34 _let_77) (tptp.object_2 _let_28 _let_66) (tptp.plays_2 _let_66 _let_69) (tptp.result_2 _let_74 _let_76) (tptp.base_2 _let_72 _let_48) (tptp.agent_2 _let_72 _let_48) (tptp.has_solute_2 _let_13 _let_6) (tptp.result_2 _let_34 _let_70) (tptp.result_2 _let_31 _let_67) (tptp.raw_material_2 _let_31 _let_70) (tptp.in_event_2 _let_69 _let_28) (tptp.result_2 _let_24 _let_67) (tptp.agent_2 _let_24 _let_66) (tptp.raw_material_2 _let_24 _let_65) (tptp.in_event_2 _let_64 _let_58) (tptp.plays_2 _let_39 _let_64) (tptp.has_part_2 _let_15 _let_53) (tptp.called_2 _let_53 |"1"|) (tptp.donor_2 _let_58 _let_55) (tptp.called_2 _let_58 |"2"|) (tptp.recipient_2 _let_58 _let_39) (tptp.subevent_2 _let_1 _let_58) (tptp.time_during_2 _let_58 _let_60) (tptp.time_before_2 _let_62 _let_60) (tptp.time_during_2 _let_3 _let_62) (tptp.called_2 _let_3 |"1"|) (tptp.subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_3 _let_58) (tptp.object_2 _let_58 _let_56) (not (= _let_55 _let_56)) (not (= _let_56 _let_55)) (not (= _let_55 _let_52)) (not (= _let_55 _let_54)) (not (= _let_52 _let_54)) (not (= _let_54 _let_52)) (not (= _let_54 _let_55)) (not (= _let_52 _let_55)) (tptp.first_subevent_2 _let_1 _let_3) (tptp.recipient_2 _let_3 _let_55) (not (= _let_55 _let_39)) (not (= _let_39 _let_55)) (not (= _let_56 _let_39)) (not (= _let_39 _let_56)) (tptp.donor_2 _let_3 _let_54) (tptp.base_2 _let_43 _let_47) (tptp.recipient_2 _let_43 _let_47) (tptp.charge_2 _let_47 _let_41) (tptp.greater_than_2 _let_41 _let_45) (tptp.charge_2 _let_39 _let_45) (tptp.result_2 _let_43 _let_39) (tptp.the_cardinal_value_2 _let_41 |"0"|) (tptp.cardinal_unit_class_2 _let_41 tptp.unity_0) (tptp.has_part_2 _let_48 _let_50) (tptp.object_2 _let_3 _let_52) (tptp.in_event_2 _let_8 _let_3) (tptp.has_solvent_2 _let_13 _let_53) (tptp.plays_2 _let_54 _let_8) (= _let_65 _let_26) (= _let_77 _let_38) (= _let_13 _let_82) (= _let_39 _let_7) (= _let_54 _let_21) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_77 _let_36) (= _let_66 _let_29) (= _let_76 _let_75) (= _let_48 _let_73) (= _let_6 _let_71) (= _let_70 _let_35) (= _let_67 _let_32) (= _let_70 _let_33) (= _let_69 _let_68) (= _let_67 _let_30) (= _let_66 _let_27) (= _let_65 _let_25) (= _let_64 _let_63) (= _let_53 _let_17) (= _let_53 _let_16) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_52 _let_12) (= _let_54 _let_19) (= _let_39 _let_5) (= _let_56 _let_11) (= _let_56 _let_23) (= _let_39 _let_4) (= _let_39 _let_2) (= _let_55 _let_5) (= _let_55 _let_22) (= _let_3 _let_10) (= _let_54 _let_4) (= _let_54 _let_18) (= _let_53 _let_14) (= _let_52 _let_11) (= _let_3 _let_9) (= _let_8 _let_51) (= _let_50 _let_49) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_38 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_11) (= _let_11 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_5) (= _let_5 _let_22) (= _let_22 _let_21) (= _let_21 _let_4) (= _let_19 _let_4) (= _let_4 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.aquatic_organism_1 X) (and (tptp.original_name_2 X |tptp.'Aquatic-Organism'|) (tptp.user_description_2 X |tptp.'An organism that lives in water.'|) (tptp.concept2words_2 X |tptp.'organism of aquatic'|) (tptp.concept2words_2 X |tptp.'aquatic organism'|) (tptp.concept2words_2 X |tptp.'aquatic-organism'|) (tptp.organism_1 X)))) (forall ((X $$unsorted)) (=> (tptp.aquatic_zone_1 X) (and (tptp.original_name_2 X |tptp.'Aquatic-Zone'|) (tptp.user_description_2 X |tptp.'Specialized layer or region within an aquatic ecosystem which has unique properties, such as temperature and density. ZOnes often have unique communities of organisms.'|) (tptp.concept2words_2 X |tptp.'zone of aquatic'|) (tptp.concept2words_2 X |tptp.'aquatic zone'|) (tptp.concept2words_2 X |tptp.'aquatic-zone'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.aqueous_humor_1 X) (and (tptp.original_name_2 X |tptp.'Aqueous-Humor'|) (tptp.user_description_2 X |tptp.'Plasma-like liquid in the space between the lens and the cornea in the vertebrate eye; helps maintain the shape of the eye, supplies nutrients and oxygen to its tissues, and disposes of its wastes.'|) (tptp.concept2words_2 X |tptp.'aqueous humor'|) (tptp.concept2words_2 X |tptp.'aqueous-humor'|) (tptp.bodily_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aqueous_salt_solution_3 X))) (let ((_let_2 (tptp.fn_ionic_bond_3 _let_1))) (let ((_let_3 (tptp.fn_chemical_bond_3 _let_1))) (let ((_let_4 (tptp.fn_ionic_bond_4 _let_1))) (let ((_let_5 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_6 (tptp.fn_salt_solution_2 X))) (let ((_let_7 (tptp.fn_aqueous_salt_solution_8 X))) (let ((_let_8 (tptp.fn_solute_1 _let_7))) (let ((_let_9 (tptp.fn_aqueous_salt_solution_1 X))) (let ((_let_10 (tptp.fn_aqueous_salt_solution_6 X))) (let ((_let_11 (tptp.fn_ionic_bond_1 _let_1))) (let ((_let_12 (tptp.fn_aqueous_salt_solution_2 X))) (let ((_let_13 (tptp.fn_ionic_bond_2 _let_1))) (let ((_let_14 (tptp.fn_aqueous_salt_solution_9 X))) (let ((_let_15 (tptp.fn_aqueous_salt_solution_7 X))) (let ((_let_16 (tptp.fn_aqueous_salt_solution_4 X))) (let ((_let_17 (tptp.fn_ionic_compound_3 _let_16))) (=> (tptp.aqueous_salt_solution_1 X) (and (tptp.original_name_2 X |tptp.'Aqueous-Salt-Solution'|) (tptp.user_description_2 X |tptp.'The salt crystal when placed in water dissolves as the attractions between its ions decrease.'|) (tptp.concept2words_2 X |tptp.'salt crystal in water'|) (tptp.concept2words_2 X |tptp.'aqueous salt solution'|) (tptp.concept2words_2 X |tptp.'aqueous-salt-solution'|) (tptp.aqueous_solution_1 X) (tptp.salt_solution_1 X) (not (tptp.sodium_chloride_crystal_1 X)) (tptp.hold_together_1 _let_9) (tptp.intensity_value_1 _let_12) (tptp.chemical_bond_1 _let_1) (tptp.ionic_bond_1 _let_1) (tptp.ionic_compound_1 _let_16) (tptp.chemical_entity_1 _let_10) (tptp.anion_1 _let_10) (tptp.water_1 _let_15) (tptp.solute_1 _let_7) (tptp.tangible_entity_1 _let_14) (tptp.salt_substance_1 _let_14) (tptp.ionic_bond_1 _let_17) (tptp.property_node_1 _let_13) (tptp.intensity_value_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.chemical_entity_1 _let_5) (tptp.anion_1 _let_4) (tptp.hold_together_1 _let_3) (tptp.hold_together_1 _let_2) (tptp.result_2 _let_9 X) (tptp.has_part_2 X _let_16) (tptp.the_scalar_value_2 _let_12 tptp.weak_0) (tptp.scalar_unit_class_2 _let_12 tptp.chemical_bond_0) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (tptp.plays_2 _let_14 _let_7) (tptp.possesses_2 _let_16 _let_1) (tptp.has_part_2 X _let_15) (tptp.has_solvent_2 X _let_15) (tptp.has_part_2 X _let_14) (tptp.has_solute_2 X _let_14) (tptp.agent_2 _let_9 _let_1) (tptp.has_function_2 _let_1 _let_9) (tptp.object_2 _let_9 _let_10) (tptp.is_between_2 _let_1 _let_10) (tptp.intensity_2 _let_1 _let_12) (= _let_14 _let_8) (= _let_1 _let_17) (= _let_15 (tptp.fn_aqueous_solution_14 X)) (= _let_14 _let_6) (= (tptp.fn_aqueous_salt_solution_5 X) _let_13) (= _let_12 _let_11) (= _let_9 _let_3) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 _let_2) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_solution_6 X))) (let ((_let_2 (tptp.fn_solution_5 X))) (let ((_let_3 (tptp.fn_aqueous_solution_14 X))) (let ((_let_4 (tptp.fn_aqueous_solution_13 X))) (let ((_let_5 (tptp.fn_aqueous_solution_12 X))) (let ((_let_6 (tptp.fn_aqueous_solution_11 X))) (let ((_let_7 (tptp.fn_aqueous_solution_10 X))) (=> (tptp.aqueous_solution_1 X) (and (tptp.original_name_2 X |tptp.'Aqueous-Solution'|) (tptp.user_description_2 X |tptp.'A solution in which water is the dissolving agent (i.e., solvent).'|) (tptp.concept2words_2 X |tptp.'aqueous solution'|) (tptp.concept2words_2 X |tptp.'aqueous-solution'|) (tptp.liquid_substance_1 X) (tptp.solution_1 X) (not (tptp.gel_1 X)) (tptp.system_1 (tptp.fn_aqueous_solution_7 X)) (tptp.density_value_1 _let_7) (tptp.density_value_1 _let_6) (tptp.quantity_value_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.water_1 _let_3) (tptp.called_2 _let_7 |tptp.'Concentration_OH'|) (tptp.called_2 _let_6 |tptp.'Concentration_H'|) (tptp.called_2 _let_5 |tptp.'Quantity_OH'|) (tptp.called_2 _let_4 |tptp.'Quantity_H'|) (tptp.has_solvent_2 X _let_3) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1) (= _let_1 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_arabidopsis_1 X))) (let ((_let_2 (tptp.fn_model_organism_6 _let_1))) (=> (tptp.arabidopsis_1 X) (and (tptp.original_name_2 X |tptp.'Arabidopsis'|) (tptp.user_description_2 X |tptp.'A member of the mustard family of plants, used as a model organism.'|) (tptp.concept2words_2 X |tptp.'arabidopsis thaliana'|) (tptp.concept2words_2 X |tptp.'arabidopsis-thaliana'|) (tptp.concept2words_2 X tptp.arabidopsis) (tptp.eudicot_1 X) (tptp.model_organism_1 _let_1) (tptp.organism_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.arabidopsis_development_1 X) (and (tptp.original_name_2 X |tptp.'Arabidopsis-Development'|) (tptp.user_description_2 X |tptp.'Arabidopsis development includes the formation of a complete embryo from a zygote ; seed germination; the elaboration of a mature vegetative plant from the embryo; the formation of flowers, fruits, and seeds.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'development of arabidopsis'|) (tptp.concept2words_2 X |tptp.'arabidopsis development'|) (tptp.concept2words_2 X |tptp.'arabidopsis-development'|) (tptp.angiopserm_plant_development_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_arabidopsis_thaliana_1 X))) (=> (tptp.arabidopsis_thaliana_1 X) (and (tptp.original_name_2 X |tptp.'Arabidopsis-Thaliana'|) (tptp.user_description_2 X |tptp.'Arabidopsis thaliana is a small flowering plant native to Europe, Asia, and northwestern Africa. A spring annual with a relatively short life cycle, Arabidopsis is popular as a model organism in plant biology and genetics.'|) (tptp.concept2words_2 X |tptp.'common wall cress'|) (tptp.concept2words_2 X |tptp.'arabidopsis thaliana'|) (tptp.concept2words_2 X |tptp.'arabidopsis-thaliana'|) (tptp.arabidopsis_1 X) (not (tptp.caenorhabditis_elegans_1 X)) (not (tptp.drosophila_melanogaster_1 X)) (not (tptp.zebrafish_1 X)) (tptp.molecular_genetics_1 _let_1) (tptp.base_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.arachnid_1 X) (and (tptp.original_name_2 X |tptp.'Arachnid'|) (tptp.user_description_2 X |tptp.'A member of a major arthropod group, the cheliceriforms. Arachnids include spiders, scorpions, ticks, and mites.'|) (tptp.concept2words_2 X tptp.arachnid) (tptp.cheliceriform_1 X) (not (tptp.eurypterid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.arbuscular_mycorrhiza_1 X) (and (tptp.original_name_2 X |tptp.'Arbuscular-Mycorrhiza'|) (tptp.user_description_2 X |tptp.'Association of a fungus with a plant root system in which the fungus penetrates the host (plant) cells plasma membranes.'|) (tptp.concept2words_2 X |tptp.'arbuscular mycorrhiza'|) (tptp.concept2words_2 X |tptp.'arbuscular-mycorrhiza'|) (tptp.mycorrhiza_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_arbuscular_mycorrhizal_fungus_1 X))) (=> (tptp.arbuscular_mycorrhizal_fungus_1 X) (and (tptp.original_name_2 X |tptp.'Arbuscular-Mycorrhizal-Fungus'|) (tptp.user_description_2 X |tptp.'The fungus that penetrates the cells of a plant_'s roots in an arbuscular mycorrhizal symbiosis.'|) (tptp.concept2words_2 X |tptp.'arbuscular mycorrhizal fungus'|) (tptp.concept2words_2 X |tptp.'arbuscular-mycorrhizal-fungus'|) (tptp.multicellular_organism_1 X) (tptp.deuteromycete_1 X) (not (tptp.coenocytic_fungus_1 X)) (not (tptp.mold_1 X)) (not (tptp.yeast_1 X)) (tptp.fungal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_multicellular_organism_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.archaea_1 X) (and (tptp.original_name_2 X |tptp.'Archaea'|) (tptp.description_2 X |tptp.'Member of one of the two classes of prokaryotes, the other group being the bacterium.'|) (tptp.user_description_2 X |tptp.'Prokaryote that is classified in the Archaea domain, one of two prokaryotic domains for Prokaryotes. The other domain is Bacteria.'|) (tptp.concept2words_2 X tptp.archaebacterium) (tptp.concept2words_2 X tptp.archaebacteria) (tptp.concept2words_2 X tptp.archaea) (tptp.prokaryote_1 X)))) (forall ((X $$unsorted)) (=> (tptp.archaeopteryx_1 X) (and (tptp.original_name_2 X |tptp.'Archaeopteryx'|) (tptp.user_description_2 X |tptp.'A genus of extinct animal that is thought to represent a transitional state between feathered dinosaurs and modern birds.'|) (tptp.concept2words_2 X tptp.archaeopteryx) (tptp.reptile_1 X) (tptp.extinct_vertebrate_1 X) (not (tptp.crocodilia_1 X)) (not (tptp.lepidosaur_1 X)) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.archaeplastid_1 X) (and (tptp.original_name_2 X |tptp.'Archaeplastid'|) (tptp.user_description_2 X |tptp.'A monophyletic grouping of red algae, green algae, and land plants, descended from a protist ancestor. Proposed as one of five major categories of eukaryotic organisms in a current hypothesis of eukaryotic evolutionary history.'|) (tptp.concept2words_2 X tptp.archaeplastid) (tptp.eukaryotic_clade_1 X) (not (tptp.excavata_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.unikonta_1 X))))) (forall ((X $$unsorted)) (=> (tptp.archaeplastida_1 X) (and (tptp.original_name_2 X |tptp.'Archaeplastida'|) (tptp.user_description_2 X |tptp.'One of five supergroups of eukaryotes proposed in a current hypothesis of the evolutionary history of eukaryotes. This monophyletic group, which includes red algae, green algae, and land plants, descended from an ancient protist ancestor that engulfed a cyanobacterium.'|) (tptp.concept2words_2 X tptp.archaeplastida) (tptp.eukaryotic_clade_1 X)))) (forall ((X $$unsorted)) (=> (tptp.archegonium_1 X) (and (tptp.original_name_2 X |tptp.'Archegonium'|) (tptp.user_description_2 X |tptp.'In plants, a structure in which female gametes develop.'|) (tptp.concept2words_2 X tptp.archegonia) (tptp.concept2words_2 X tptp.archegonium) (tptp.plant_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.archenteron_1 X) (and (tptp.original_name_2 X |tptp.'Archenteron'|) (tptp.user_description_2 X |tptp.'The earliest animal gut, formed during gastrulation as an endoderm-lined cavity.'|) (tptp.concept2words_2 X tptp.archenteron) (tptp.developmental_space_1 X) (not (tptp.coelom_1 X)) (not (tptp.mantle_cavity_1 X)) (not (tptp.rumen_1 X))))) (forall ((X $$unsorted)) (=> (tptp.architectural_structure_1 X) (and (tptp.original_name_2 X |tptp.'Architectural-Structure'|) (tptp.description_2 X |tptp.'a stable, supported artifact'|) (tptp.concept2words_2 X tptp.construction) (tptp.concept2words_2 X tptp.structure) (tptp.concept2words_2 X |tptp.'architectural structure'|) (tptp.concept2words_2 X |tptp.'architectural-structure'|) (tptp.artifact_1 X) (not (tptp.physical_document_1 X)) (not (tptp.furnishing_1 X)) (not (tptp.device_1 X)) (not (tptp.pharmaceutical_product_1 X)) (not (tptp.photographic_film_1 X)) (not (tptp.scientific_device_1 X)) (not (tptp.useful_product_1 X))))) (forall ((X $$unsorted)) (=> (tptp.archosaur_1 X) (and (tptp.original_name_2 X |tptp.'Archosaur'|) (tptp.user_description_2 X |tptp.'A member of a group of diapsid amniotes that includes crocodiles, alligators, extinct dinosaurs, pterosaurs, and birds.'|) (tptp.concept2words_2 X tptp.archosaur) (tptp.reptile_1 X) (not (tptp.amniote_1 X)) (not (tptp.amphibian_1 X))))) (forall ((X $$unsorted)) (=> (tptp.area_constant_1 X) (and (tptp.original_name_2 X |tptp.'Area-Constant'|) (tptp.concept2words_2 X |tptp.'constant of area'|) (tptp.concept2words_2 X |tptp.'area constant'|) (tptp.concept2words_2 X |tptp.'area-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.area_scale_1 X) (and (tptp.original_name_2 X |tptp.'Area-Scale'|) (tptp.concept2words_2 X |tptp.'scale of area'|) (tptp.concept2words_2 X |tptp.'area scale'|) (tptp.concept2words_2 X |tptp.'area-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.area_value_1 X) (and (tptp.original_name_2 X |tptp.'Area-Value'|) (tptp.description_2 X |tptp.'area is a property for describing how big the two-dimensional extent of a Tangible-Entity is'|) (tptp.concept2words_2 X |tptp.'surface area'|) (tptp.concept2words_2 X tptp.expanse) (tptp.concept2words_2 X tptp.area) (tptp.concept2words_2 X |tptp.'value of area'|) (tptp.concept2words_2 X |tptp.'area value'|) (tptp.concept2words_2 X |tptp.'area-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.arginine_1 X) (and (tptp.original_name_2 X |tptp.'Arginine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins.'|) (tptp.concept2words_2 X tptp.arginine) (tptp.basic_amino_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_argon_11 X))) (let ((_let_2 (tptp.fn_argon_14 X))) (let ((_let_3 (tptp.fn_argon_12 X))) (let ((_let_4 (tptp.fn_argon_13 X))) (let ((_let_5 (tptp.fn_argon_5 X))) (let ((_let_6 (tptp.fn_argon_6 X))) (let ((_let_7 (tptp.fn_argon_7 X))) (let ((_let_8 (tptp.fn_argon_4 X))) (=> (tptp.argon_1 X) (and (tptp.original_name_2 X |tptp.'Argon'|) (tptp.user_description_2 X |tptp.'Argon is a non metal atom with atomic number 18. It is represented by the symbol Ar.'|) (tptp.concept2words_2 X |tptp.'Ar'|) (tptp.concept2words_2 X tptp.argon) (tptp.inert_atom_1 X) (not (tptp.neon_1 X)) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"22"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"18"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"18"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"8"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"0"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"0"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"40"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"18"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"39.95"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.called_2 _let_4 |tptp.'Atomic_Number'|) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (tptp.called_2 _let_2 |tptp.'Number_Electron'|) (= (tptp.fn_argon_9 X) (tptp.fn_atom_12 X)) (= (tptp.fn_argon_8 X) (tptp.fn_atom_1 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_argon_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.arithmetic_difference_1 X) (and (tptp.original_name_2 X |tptp.'Arithmetic-Difference'|) (tptp.concept2words_2 X tptp.difference) (tptp.concept2words_2 X |tptp.'difference of arithmetic'|) (tptp.concept2words_2 X |tptp.'arithmetic difference'|) (tptp.concept2words_2 X |tptp.'arithmetic-difference'|) (tptp.arithmetic_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.arithmetic_method_1 X) (and (tptp.original_name_2 X |tptp.'Arithmetic-Method'|) (tptp.concept2words_2 X |tptp.'method of arithmetic'|) (tptp.concept2words_2 X |tptp.'arithmetic method'|) (tptp.concept2words_2 X |tptp.'arithmetic-method'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.arithmetic_product_1 X) (and (tptp.original_name_2 X |tptp.'Arithmetic-Product'|) (tptp.concept2words_2 X tptp.product) (tptp.concept2words_2 X |tptp.'mathematical product'|) (tptp.concept2words_2 X |tptp.'product of arithmetic'|) (tptp.concept2words_2 X |tptp.'arithmetic product'|) (tptp.concept2words_2 X |tptp.'arithmetic-product'|) (tptp.arithmetic_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.arithmetic_quotient_1 X) (and (tptp.original_name_2 X |tptp.'Arithmetic-Quotient'|) (tptp.concept2words_2 X tptp.quotient) (tptp.concept2words_2 X |tptp.'quotient of arithmetic'|) (tptp.concept2words_2 X |tptp.'arithmetic quotient'|) (tptp.concept2words_2 X |tptp.'arithmetic-quotient'|) (tptp.arithmetic_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.aromatic_hydrocarbon_1 X) (and (tptp.original_name_2 X |tptp.'Aromatic-Hydrocarbon'|) (tptp.user_description_2 X |tptp.'Organic compounds which have carbon structures in ring formation with alternating single and double bonds.'|) (tptp.concept2words_2 X |tptp.'aromatic hydrocarbon'|) (tptp.concept2words_2 X |tptp.'aromatic-hydrocarbon'|) (tptp.hydrocarbon_molecule_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_arsenic_8 X))) (let ((_let_2 (tptp.fn_electron_shell_2 _let_1))) (let ((_let_3 (tptp.fn_arsenic_15 X))) (let ((_let_4 (tptp.fn_atomic_nucleus_8 _let_3))) (let ((_let_5 (tptp.fn_electron_shell_1 _let_1))) (let ((_let_6 (tptp.fn_atomic_nucleus_4 _let_3))) (let ((_let_7 (tptp.fn_arsenic_13 X))) (let ((_let_8 (tptp.fn_toxin_1 _let_7))) (let ((_let_9 (tptp.fn_atom_8 X))) (let ((_let_10 (tptp.fn_atomic_nucleus_9 _let_3))) (let ((_let_11 (tptp.fn_electron_shell_3 _let_1))) (let ((_let_12 (tptp.fn_arsenic_12 X))) (let ((_let_13 (tptp.fn_arsenic_19 X))) (let ((_let_14 (tptp.fn_arsenic_14 X))) (let ((_let_15 (tptp.fn_arsenic_11 X))) (let ((_let_16 (tptp.fn_arsenic_16 X))) (let ((_let_17 (tptp.fn_arsenic_17 X))) (let ((_let_18 (tptp.fn_arsenic_9 X))) (let ((_let_19 (tptp.fn_arsenic_18 X))) (let ((_let_20 (tptp.fn_atomic_nucleus_3 _let_3))) (let ((_let_21 (tptp.fn_arsenic_7 X))) (let ((_let_22 (tptp.fn_arsenic_3 X))) (let ((_let_23 (tptp.fn_arsenic_2 X))) (let ((_let_24 (tptp.fn_arsenic_4 X))) (let ((_let_25 (tptp.fn_arsenic_1 X))) (=> (tptp.arsenic_1 X) (and (tptp.original_name_2 X |tptp.'Arsenic'|) (tptp.user_description_2 X |tptp.'Arsenic is a metalloid atom with atomic number 33. It is represented by the symbol As.'|) (tptp.concept2words_2 X |tptp.'As'|) (tptp.concept2words_2 X tptp.arsenic) (tptp.metalloid_atom_1 X) (tptp.event_1 _let_25) (tptp.electronegativity_value_1 _let_23) (tptp.atomic_mass_value_1 _let_22) (tptp.neutron_1 _let_24) (tptp.center_1 _let_21) (tptp.electron_shell_1 _let_1) (tptp.system_1 _let_18) (tptp.quantity_value_1 _let_15) (tptp.atomic_orbital_1 _let_12) (tptp.toxin_1 _let_7) (tptp.proton_1 _let_14) (tptp.atomic_nucleus_1 _let_3) (tptp.quantity_value_1 _let_16) (tptp.atomic_number_value_1 _let_17) (tptp.atomic_weight_value_1 _let_19) (tptp.valence_electron_1 _let_13) (tptp.center_1 _let_20) (tptp.atomic_orbital_1 _let_11) (tptp.proton_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.atom_1 _let_6) (tptp.atom_1 _let_5) (tptp.electron_1 _let_4) (tptp.electron_1 _let_2) (tptp.in_event_2 _let_7 _let_25) (tptp.has_part_2 X _let_24) (tptp.exactCardinality X tptp.has_part_0 |"33"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"33"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"42"| tptp.neutron_0) (tptp.mass_number_2 X _let_22) (tptp.electronegativity_2 X _let_23) (tptp.the_cardinal_value_2 _let_16 |"5"|) (tptp.cardinal_unit_class_2 _let_16 tptp.unity_0) (tptp.the_cardinal_value_2 _let_23 |"2.18"|) (tptp.cardinal_unit_class_2 _let_23 tptp.unity_0) (tptp.the_cardinal_value_2 _let_22 |"75"|) (tptp.cardinal_unit_class_2 _let_22 tptp.unity_0) (tptp.the_cardinal_value_2 _let_17 |"33"|) (tptp.cardinal_unit_class_2 _let_17 tptp.unity_0) (tptp.the_cardinal_value_2 _let_19 |"74.92"|) (tptp.cardinal_unit_class_2 _let_19 tptp.dalton_0) (tptp.quantity_2 _let_13 _let_16) (tptp.plays_2 X _let_7) (tptp.is_inside_2 _let_14 _let_3) (tptp.is_at_2 _let_3 _let_21) (tptp.has_region_2 X _let_21) (tptp.is_near_2 _let_13 _let_3) (tptp.is_near_2 _let_3 _let_13) (tptp.has_region_2 X _let_3) (tptp.called_2 _let_17 |tptp.'Atomic_Number'|) (tptp.called_2 _let_16 |tptp.'Number_Electron'|) (tptp.atomic_weight_2 X _let_19) (tptp.called_2 _let_15 |tptp.'Number_Proton'|) (tptp.atomic_number_2 X _let_17) (tptp.has_part_2 X _let_14) (tptp.quantity_2 _let_14 _let_15) (= _let_15 _let_17) (= _let_16 _let_15) (= _let_15 _let_16) (= _let_17 _let_15) (tptp.has_part_2 X _let_13) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_13 _let_12) (tptp.has_region_2 _let_1 _let_12) (= X _let_8) (= _let_14 _let_10) (= X _let_6) (= _let_21 _let_20) (= _let_13 _let_4) (= _let_3 (tptp.fn_atom_18 X)) (= (tptp.fn_arsenic_21 X) (tptp.fn_atom_12 X)) (= (tptp.fn_arsenic_22 X) (tptp.fn_atom_1 X)) (= (tptp.fn_arsenic_20 X) (tptp.fn_atom_13 X)) (= _let_19 (tptp.fn_atom_16 X)) (= _let_18 (tptp.fn_atom_3 X)) (= (tptp.fn_arsenic_10 X) (tptp.fn_atom_4 X)) (= _let_17 (tptp.fn_atom_17 X)) (= _let_16 (tptp.fn_atom_5 X)) (= _let_15 (tptp.fn_atom_11 X)) (= _let_14 _let_9) (= X _let_5) (= _let_13 _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.arteriole_1 X) (and (tptp.original_name_2 X |tptp.'Arteriole'|) (tptp.user_description_2 X |tptp.'A small diameter blood vessel that carries blood between an artery and a capillary bed.'|) (tptp.concept2words_2 X tptp.arteriole) (tptp.artery_1 X)))) (forall ((X $$unsorted)) (=> (tptp.arteriosclerosis_1 X) (and (tptp.original_name_2 X |tptp.'Arteriosclerosis'|) (tptp.user_description_2 X |tptp.'A hardening of the arteries that occurs when fat and/or mineral deposits accumulate and form structures called plaques in the walls of arteries.'|) (tptp.concept2words_2 X |tptp.'hardening of the arteries'|) (tptp.concept2words_2 X |tptp.'hardening-of-the-arteries'|) (tptp.concept2words_2 X tptp.arteriosclerosis) (tptp.cardiovascular_disease_1 X) (not (tptp.atherosclerosis_1 X)) (not (tptp.stroke_1 X)) (not (tptp.thrombus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_artery_1 X))) (=> (tptp.artery_1 X) (and (tptp.original_name_2 X |tptp.'Artery'|) (tptp.user_description_2 X |tptp.'A vessel that transports blood away from the heart to other parts of the body.'|) (tptp.concept2words_2 X tptp.artery) (tptp.blood_vessel_1 X) (tptp.artery_wall_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.artery_wall_1 X) (and (tptp.original_name_2 X |tptp.'Artery-Wall'|) (tptp.user_description_2 X |tptp.'The wall of an artery, consisting of three layers: an outer layer of connective tissue, a middle layer of smooth muscle, and an inner layer of endothelial cells.'|) (tptp.concept2words_2 X |tptp.'wall of artery'|) (tptp.concept2words_2 X |tptp.'artery wall'|) (tptp.concept2words_2 X |tptp.'artery-wall'|) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_arthropod_7 X))) (let ((_let_2 (tptp.fn_support_1 _let_1))) (let ((_let_3 (tptp.fn_arthropod_8 X))) (let ((_let_4 (tptp.fn_exoskeleton_4 _let_3))) (let ((_let_5 (tptp.fn_arthropod_3 X))) (let ((_let_6 (tptp.fn_arthropod_5 X))) (let ((_let_7 (tptp.fn_arthropod_6 X))) (let ((_let_8 (tptp.fn_arthropod_4 X))) (let ((_let_9 (tptp.fn_arthropod_2 X))) (let ((_let_10 (tptp.fn_arthropod_1 X))) (let ((_let_11 (tptp.concept2words_2 X |tptp.'jointed-appendage'|))) (let ((_let_12 (tptp.concept2words_2 X |tptp.'jointed appendage'|))) (=> (tptp.arthropod_1 X) (and (tptp.original_name_2 X |tptp.'Arthropod'|) (tptp.user_description_2 X |tptp.'A segmented ecdysozoaan of the phylum Arthropoda, characterized by a jointed appendages and an exoskeleton that is molted periodically. Examples of arthropods include crustaceans, insects, spiders, and millipedes.'|) (tptp.concept2words_2 X tptp.arthropoda) _let_12 _let_11 _let_12 _let_11 (tptp.concept2words_2 X tptp.arthropod) (tptp.bilaterally_symmetrical_animal_1 X) (tptp.ecdysozoan_1 X) (not (tptp.ammonite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X)) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.leg_1 _let_5) (tptp.abdomen_1 _let_8) (tptp.thorax_1 _let_6) (tptp.head_1 _let_7) (tptp.support_1 _let_1) (tptp.exoskeleton_1 _let_3) (tptp.organism_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.is_inside_2 _let_10 X) (tptp.is_outside_2 _let_9 X) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_7) (tptp.has_function_2 _let_3 _let_1) (tptp.has_part_2 _let_6 _let_5) (tptp.has_part_2 X _let_3) (tptp.object_2 _let_1 X) (= X _let_4) (= X _let_2) (= _let_4 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_artifact_1 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (=> (tptp.artifact_1 X) (and (tptp.original_name_2 X |tptp.'Artifact'|) (tptp.description_2 X |tptp.'A man-made object'|) (tptp.concept2words_2 X tptp.artifact) (tptp.inanimate_object_1 X) (not (tptp.piece_of_substance_1 X)) (tptp.create_1 _let_1) (tptp.entity_1 _let_2) (tptp.result_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.artificial_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Artificial-Membrane'|) (tptp.user_description_2 X |tptp.'Artificial or synthetic membrane, often used in laboratory experiments to provide selective permeability.'|) (tptp.concept2words_2 X |tptp.'synthetic membrane'|) (tptp.concept2words_2 X |tptp.'artificial membrane'|) (tptp.concept2words_2 X |tptp.'artificial-membrane'|) (tptp.membrane_1 X)))) (forall ((X $$unsorted)) (=> (tptp.artificial_selection_1 X) (and (tptp.original_name_2 X |tptp.'Artificial-Selection'|) (tptp.user_description_2 X |tptp.'The intentional breeding of domesticated plants and animals for certain desirable traits.'|) (tptp.concept2words_2 X |tptp.'artificial selection'|) (tptp.concept2words_2 X |tptp.'artificial-selection'|) (tptp.selection_force_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.destroy_1 X) (tptp.artificial_selection_1 X) (tptp.antibiotic_1 X1)) (and (tptp.artificial_selection_with_antibiotics_1 X) (= (tptp.fn_artificial_selection_with_antibiotics_6 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_artificial_selection_with_antibiotics_2 X))) (let ((_let_2 (tptp.fn_culturing_7 _let_1))) (let ((_let_3 (tptp.fn_artificial_selection_with_antibiotics_4 X))) (let ((_let_4 (tptp.fn_harm_1 _let_3))) (let ((_let_5 (tptp.fn_artificial_selection_with_antibiotics_6 X))) (let ((_let_6 (tptp.fn_antibiotic_9 _let_5))) (let ((_let_7 (tptp.fn_artificial_selection_with_antibiotics_3 X))) (let ((_let_8 (tptp.fn_artificial_selection_with_antibiotics_5 X))) (let ((_let_9 (tptp.fn_impair_1 _let_8))) (let ((_let_10 (tptp.fn_artificial_selection_with_antibiotics_7 X))) (=> (tptp.artificial_selection_with_antibiotics_1 X) (and (tptp.original_name_2 X |tptp.'Artificial-Selection-With-Antibiotics'|) (tptp.user_description_2 X |tptp.'Artificial selection using antibiotics. The antibiotics kill untransformed bacterial cells in a culture, leaving only transformed bacterial cells.'|) (tptp.concept2words_2 X |tptp.'selection for transformed cells'|) (tptp.concept2words_2 X |tptp.'selection for transformation'|) (tptp.concept2words_2 X |tptp.'selection with antibiotics'|) (tptp.concept2words_2 X |tptp.'selection against untransformed cells'|) (tptp.concept2words_2 X tptp.select) (tptp.concept2words_2 X |tptp.'artificial selection with antibiotics'|) (tptp.concept2words_2 X |tptp.'artificial-selection-with-antibiotic'|) (tptp.artificial_selection_1 X) (tptp.destroy_1 X) (not (tptp.autophagy_1 X)) (not (tptp.selective_degradation_1 X)) (tptp.culturing_1 _let_1) (tptp.untransformed_bacterial_cell_1 _let_7) (tptp.harm_1 _let_3) (tptp.harm_1 _let_8) (tptp.antibiotic_1 _let_5) (tptp.transformed_bacterial_cell_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.destroy_1 _let_6) (tptp.living_entity_1 _let_4) (tptp.cell_1 _let_2) (tptp.inhibits_2 _let_3 _let_1) (tptp.agent_2 _let_3 _let_5) (tptp.agent_2 _let_8 _let_5) (tptp.object_2 X _let_10) (tptp.object_2 _let_8 _let_10) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_1 _let_7) (tptp.agent_2 X _let_5) (= _let_10 (tptp.fn_impair_1 X)) (= _let_10 _let_9) (= _let_7 _let_4) (= _let_7 _let_2) (= X _let_6) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.artiodactyla_1 X) (and (tptp.original_name_2 X |tptp.'Artiodactyla'|) (tptp.user_description_2 X |tptp.'Ungulates with an even number of toes. Species include sheep, cattle, pigs and deer.'|) (tptp.concept2words_2 X tptp.artiodactyla) (tptp.ungulate_1 X) (not (tptp.perissodactyla_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ascent_of_xylem_sap_14 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_ascent_of_xylem_sap_23 X))) (let ((_let_4 (tptp.fn_cellulose_33 _let_3))) (let ((_let_5 (tptp.fn_ascent_of_xylem_sap_18 X))) (let ((_let_6 (tptp.fn_adhesion_2 _let_5))) (let ((_let_7 (tptp.fn_ascent_of_xylem_sap_19 X))) (let ((_let_8 (tptp.fn_plant_cell_22 _let_7))) (let ((_let_9 (tptp.fn_adhesion_1 _let_5))) (let ((_let_10 (tptp.fn_ascent_of_xylem_sap_20 X))) (let ((_let_11 (tptp.fn_chemical_reaction_1 _let_10))) (let ((_let_12 (tptp.fn_cellulose_35 _let_3))) (let ((_let_13 (tptp.fn_cellulose_37 _let_3))) (let ((_let_14 (tptp.fn_chemical_reaction_2 _let_10))) (let ((_let_15 (tptp.fn_cellulose_34 _let_3))) (let ((_let_16 (tptp.fn_ascent_of_xylem_sap_10 X))) (let ((_let_17 (tptp.fn_water_molecule_75 _let_16))) (let ((_let_18 (tptp.fn_hydrophilic_compound_2 _let_3))) (let ((_let_19 (tptp.fn_water_14 _let_1))) (let ((_let_20 (tptp.fn_ascent_of_xylem_sap_12 X))) (let ((_let_21 (tptp.fn_water_83 _let_1))) (let ((_let_22 (tptp.fn_ascent_of_xylem_sap_11 X))) (let ((_let_23 (tptp.fn_water_78 _let_1))) (let ((_let_24 (tptp.fn_ascent_of_xylem_sap_15 X))) (let ((_let_25 (tptp.fn_ascent_of_xylem_sap_21 X))) (let ((_let_26 (tptp.fn_plant_cell_82 _let_7))) (let ((_let_27 (tptp.fn_ascent_of_xylem_sap_22 X))) (let ((_let_28 (tptp.fn_ascent_of_xylem_sap_16 X))) (let ((_let_29 (tptp.fn_solution_6 _let_28))) (let ((_let_30 (tptp.fn_solution_5 _let_28))) (let ((_let_31 (tptp.fn_ascent_of_xylem_sap_13 X))) (let ((_let_32 (tptp.fn_ascent_of_xylem_sap_17 X))) (let ((_let_33 (tptp.fn_vascular_tissue_1 _let_32))) (let ((_let_34 (tptp.fn_ascent_of_xylem_sap_7 X))) (let ((_let_35 (tptp.fn_ascent_of_xylem_sap_8 X))) (let ((_let_36 (tptp.fn_ascent_of_xylem_sap_2 X))) (let ((_let_37 (tptp.fn_ascent_of_xylem_sap_6 X))) (let ((_let_38 (tptp.fn_ascent_of_xylem_sap_5 X))) (let ((_let_39 (tptp.fn_ascent_of_xylem_sap_4 X))) (let ((_let_40 (tptp.fn_ascent_of_xylem_sap_9 X))) (=> (tptp.ascent_of_xylem_sap_1 X) (and (tptp.original_name_2 X |tptp.'Ascent-Of-Xylem-Sap'|) (tptp.user_description_2 X |tptp.'Ascent of Xylem sap is the upward movement of water and minerals over long distances by bulk flow to the veins that branch throughout each leaf.'|) (tptp.concept2words_2 X tptp.ascend) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'ascent of xylem sap'|) (tptp.concept2words_2 X |tptp.'ascent-of-xylem-sap'|) (tptp.plant_transport_1 X) (tptp.length_value_1 _let_36) (tptp.root_1 _let_39) (tptp.shoot_1 _let_38) (tptp.angle_value_1 _let_37) (tptp.transpirational_pull_1 _let_34) (tptp.bulk_flow_1 _let_35) (tptp.water_potential_gradient_1 _let_40) (tptp.molecule_1 _let_16) (tptp.entity_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.polar_molecule_1 _let_16) (tptp.water_molecule_1 _let_16) (tptp.spatial_entity_1 _let_22) (tptp.tangible_entity_1 _let_22) (tptp.polar_molecule_1 _let_22) (tptp.hydrophilic_compound_1 _let_22) (tptp.water_molecule_1 _let_22) (tptp.surface_1 _let_20) (tptp.mineral_1 _let_31) (tptp.chemical_1 _let_1) (tptp.water_1 _let_1) (tptp.cohesion_1 _let_24) (tptp.attract_1 _let_24) (tptp.xylem_sap_1 _let_28) (tptp.xylem_1 _let_32) (tptp.adhesion_1 _let_5) (tptp.attract_1 _let_5) (tptp.plant_cell_1 _let_7) (tptp.synthesis_reaction_1 _let_10) (tptp.chemical_entity_1 _let_25) (tptp.beta_glucose_1 _let_25) (tptp.cell_wall_1 _let_27) (tptp.plant_cell_wall_1 _let_27) (tptp.chemical_entity_1 _let_3) (tptp.molecule_1 _let_3) (tptp.carbohydrate_1 _let_3) (tptp.hydrophilic_compound_1 _let_3) (tptp.polar_molecule_1 _let_3) (tptp.polysaccharide_1 _let_3) (tptp.cellulose_1 _let_3) (tptp.plant_cell_1 _let_33) (tptp.chemical_1 _let_30) (tptp.chemical_1 _let_29) (tptp.cell_wall_1 _let_26) (tptp.plant_cell_wall_1 _let_26) (tptp.cohesion_1 _let_23) (tptp.attract_1 _let_23) (tptp.spatial_entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.polar_molecule_1 _let_21) (tptp.hydrophilic_compound_1 _let_21) (tptp.water_molecule_1 _let_21) (tptp.surface_1 _let_19) (tptp.attract_1 _let_18) (tptp.attract_1 _let_17) (tptp.adhesion_1 _let_15) (tptp.attract_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.beta_glucose_1 _let_13) (tptp.beta_glucose_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.molecule_1 _let_9) (tptp.carbohydrate_1 _let_8) (tptp.hydrophilic_compound_1 _let_8) (tptp.polar_molecule_1 _let_8) (tptp.polysaccharide_1 _let_8) (tptp.cellulose_1 _let_8) (tptp.molecule_1 _let_6) (tptp.water_molecule_1 _let_4) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.the_scalar_value_2 _let_36 tptp.long_0) (tptp.scalar_unit_class_2 _let_36 tptp.plant_transport_0) (tptp.the_scalar_value_2 _let_37 tptp.up_0) (tptp.scalar_unit_class_2 _let_37 tptp.plant_transport_0) (tptp.base_2 X _let_32) (tptp.object_2 X _let_28) (tptp.subevent_2 X _let_35) (tptp.agent_2 X _let_40) (tptp.origin_2 X _let_39) (tptp.destination_2 X _let_38) (tptp.direction_2 X _let_37) (tptp.distance_2 X _let_36) (tptp.enables_2 _let_24 _let_34) (tptp.by_means_of_2 _let_35 _let_34) (tptp.has_function_2 _let_32 X) (tptp.enables_2 _let_5 _let_34) (tptp.raw_material_2 _let_10 _let_25) (tptp.result_2 _let_10 _let_3) (tptp.has_part_2 _let_28 _let_31) (tptp.has_part_2 _let_32 _let_7) (tptp.has_part_2 _let_28 _let_1) (tptp.has_solvent_2 _let_28 _let_1) (tptp.has_solute_2 _let_28 _let_31) (not (= _let_31 _let_1)) (not (= _let_1 _let_31)) (tptp.same_type_2 _let_22 _let_16) (tptp.same_type_2 _let_16 _let_22) (tptp.is_above_2 _let_20 _let_22) (tptp.is_at_2 _let_16 _let_20) (tptp.has_part_2 _let_1 _let_16) (tptp.has_part_2 _let_1 _let_22) (tptp.object_2 _let_24 _let_22) (tptp.agent_2 _let_24 _let_16) (tptp.object_2 _let_24 _let_16) (tptp.base_2 _let_24 _let_1) (tptp.called_2 _let_16 |"1"|) (tptp.agent_2 _let_24 _let_22) (tptp.has_region_2 _let_1 _let_20) (tptp.object_2 _let_5 _let_16) (tptp.agent_2 _let_5 _let_3) (tptp.has_part_2 _let_3 _let_25) (tptp.has_part_2 _let_27 _let_3) (tptp.has_part_2 _let_7 _let_27) (tptp.agent_2 _let_5 _let_16) (tptp.object_2 _let_5 _let_3) (= _let_25 _let_14) (= _let_3 _let_11) (= _let_7 _let_33) (= _let_31 _let_30) (= _let_1 _let_29) (= _let_3 _let_9) (= _let_16 _let_6) (= _let_5 _let_17) (= _let_3 _let_8) (= _let_27 _let_26) (= _let_16 _let_4) (= _let_5 _let_18) (= _let_5 _let_15) (= _let_25 _let_13) (= _let_25 _let_12) (= _let_16 _let_2) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.ascocarp_1 X) (and (tptp.original_name_2 X |tptp.'Ascocarp'|) (tptp.user_description_2 X |tptp.'The fruiting body of an ascomycete fungus.'|) (tptp.concept2words_2 X tptp.ascocarp) (tptp.fungal_organ_1 X) (not (tptp.basidiocarp_1 X)) (not (tptp.truffle_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ascomycete_1 X) (and (tptp.original_name_2 X |tptp.'Ascomycete'|) (tptp.user_description_2 X |tptp.'Fungi from the phylum Ascomycota. The defining feature of the Ascomycota is the production of sexual spores in saclike asci (singular, ascus ).'|) (tptp.concept2words_2 X |tptp.'sac fungi'|) (tptp.concept2words_2 X |tptp.'sac-fungi'|) (tptp.concept2words_2 X tptp.ascomycete) (tptp.fungus_1 X) (not (tptp.chytrid_1 X)) (not (tptp.club_fungus_1 X)) (not (tptp.deuteromycete_1 X)) (not (tptp.glomeromycete_1 X)) (not (tptp.symbiotic_fungi_1 X)) (not (tptp.zygomycete_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ascus_1 X) (and (tptp.original_name_2 X |tptp.'Ascus'|) (tptp.user_description_2 X |tptp.'A capsule, containing usually 8 sexually produced ascospores, located at the distal end of a dikaryotic hypha in ascomycete fungi.'|) (tptp.concept2words_2 X tptp.ascus) (tptp.fungal_tissue_1 X) (not (tptp.hypha_1 X)) (not (tptp.mycelium_1 X)) (not (tptp.zygosporangium_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_asexual_reproduction_1 X))) (let ((_let_2 (tptp.fn_asexual_reproduction_2 X))) (=> (tptp.asexual_reproduction_1 X) (and (tptp.original_name_2 X |tptp.'Asexual-Reproduction'|) (tptp.user_description_2 X |tptp.'Any method of producing offspring from a single parent without the fusion of gametes. Examples of asexual reproduction include binary fission, budding, and fragmentation. The offspring of asexual reproduction are genetically identical to each other and to their parent.'|) (tptp.concept2words_2 X tptp.reproduce) (tptp.concept2words_2 X |tptp.'asexual reproduction'|) (tptp.concept2words_2 X |tptp.'asexual-reproduction'|) (tptp.reproduce_1 X) (not (tptp.sexual_reproduction_1 X)) (tptp.organism_1 _let_1) (tptp.organism_1 _let_2) (tptp.agent_2 X _let_1) (tptp.base_2 X _let_1) (tptp.result_2 X _let_2) (= _let_2 (tptp.fn_reproduce_2 X)) (= _let_1 (tptp.fn_reproduce_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.asian_ladybug_1 X) (and (tptp.original_name_2 X |tptp.'Asian-Ladybug'|) (tptp.user_description_2 X |tptp.'A large coccinellid beetle originally native to eastern Asia, but which has been introduced to North America and Europe to control aphids and scale insects.'|) (tptp.concept2words_2 X |tptp.'ladybug of asian'|) (tptp.concept2words_2 X |tptp.'asian ladybug'|) (tptp.concept2words_2 X |tptp.'asian-ladybug'|) (tptp.beetle_1 X) (not (tptp.bombardier_beetle_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_asparagine_5 X))) (let ((_let_2 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_3 (tptp.fn_hydrophilic_amino_acid_33 X))) (let ((_let_4 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_5 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_6 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_7 (tptp.fn_hydrophilic_amino_acid_32 X))) (let ((_let_8 (tptp.fn_carboxyl_group_56 _let_1))) (let ((_let_9 (tptp.fn_hydrophilic_amino_acid_4 X))) (let ((_let_10 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_11 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_12 (tptp.fn_carboxyl_group_47 _let_1))) (let ((_let_13 (tptp.fn_hydrophilic_amino_acid_1 X))) (let ((_let_14 (tptp.fn_carboxyl_group_69 _let_1))) (let ((_let_15 (tptp.fn_hydrophilic_amino_acid_28 X))) (let ((_let_16 (tptp.fn_carboxyl_group_67 _let_1))) (let ((_let_17 (tptp.fn_hydrophilic_amino_acid_7 X))) (let ((_let_18 (tptp.fn_hydrophilic_amino_acid_2 X))) (let ((_let_19 (tptp.fn_hydrophilic_amino_acid_30 X))) (let ((_let_20 (tptp.fn_amino_acid_22 X))) (let ((_let_21 (tptp.fn_carboxyl_group_65 _let_1))) (let ((_let_22 (tptp.fn_carboxyl_group_46 _let_1))) (let ((_let_23 (tptp.fn_carboxyl_group_57 _let_1))) (let ((_let_24 (tptp.fn_hydrophilic_amino_acid_13 X))) (let ((_let_25 (tptp.fn_carboxyl_group_62 _let_1))) (let ((_let_26 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_27 (tptp.fn_carboxyl_group_40 _let_1))) (let ((_let_28 (tptp.fn_carboxyl_group_58 _let_1))) (let ((_let_29 (tptp.fn_hydrophilic_amino_acid_12 X))) (let ((_let_30 (tptp.fn_hydrophilic_amino_acid_8 X))) (let ((_let_31 (tptp.fn_carboxyl_group_22 _let_1))) (let ((_let_32 (tptp.fn_carboxyl_group_63 _let_1))) (let ((_let_33 (tptp.fn_carboxyl_group_16 _let_1))) (let ((_let_34 (tptp.fn_hydrophilic_amino_acid_14 X))) (let ((_let_35 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_36 (tptp.fn_hydrophilic_amino_acid_6 X))) (let ((_let_37 (tptp.fn_functional_group_1 _let_1))) (let 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(tptp.fn_asparagine_50 X))) (let ((_let_83 (tptp.fn_asparagine_7 X))) (let ((_let_84 (tptp.fn_asparagine_43 X))) (let ((_let_85 (tptp.fn_asparagine_9 X))) (let ((_let_86 (tptp.fn_asparagine_13 X))) (let ((_let_87 (tptp.fn_asparagine_12 X))) (let ((_let_88 (tptp.fn_asparagine_11 X))) (let ((_let_89 (tptp.fn_asparagine_6 X))) (let ((_let_90 (tptp.fn_asparagine_8 X))) (let ((_let_91 (tptp.fn_chemical_reaction_2 _let_38))) (let ((_let_92 (tptp.fn_asparagine_47 X))) (let ((_let_93 (tptp.fn_asparagine_1 X))) (let ((_let_94 (tptp.fn_asparagine_2 X))) (=> (tptp.asparagine_1 X) (and (tptp.original_name_2 X |tptp.'Asparagine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids which make up proteins.'|) (tptp.concept2words_2 X tptp.asparagine) (tptp.polar_amino_acid_1 X) (tptp.valence_electron_1 _let_93) (tptp.hydrophilic_region_1 _let_94) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.polar_side_chain_1 _let_89) (tptp.end_1 _let_83) (tptp.polar_region_1 _let_90) (tptp.kinetic_energy_1 _let_85) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.hydrogen_1 _let_49) (tptp.constant_motion_1 _let_88) (tptp.speed_value_1 _let_87) (tptp.quantity_value_1 _let_86) (tptp.share_1 _let_55) (tptp.share_1 _let_74) (tptp.share_1 _let_76) (tptp.share_1 _let_78) (tptp.share_1 _let_75) (tptp.share_1 _let_80) (tptp.hold_together_1 _let_59) (tptp.hold_together_1 _let_56) (tptp.hold_1 _let_60) (tptp.hold_together_1 _let_60) (tptp.hold_1 _let_77) (tptp.hold_together_1 _let_77) (tptp.hold_together_1 _let_71) (tptp.electron_shell_1 _let_67) (tptp.electron_shell_1 _let_52) (tptp.share_1 _let_66) (tptp.atomic_nucleus_1 _let_62) (tptp.electron_shell_1 _let_68) (tptp.entity_1 _let_64) (tptp.tangible_entity_1 _let_64) (tptp.electron_1 _let_64) (tptp.valence_electron_1 _let_64) (tptp.tangible_entity_1 _let_65) (tptp.electron_1 _let_65) (tptp.valence_electron_1 _let_65) (tptp.atomic_nucleus_1 _let_63) (tptp.electron_shell_1 _let_69) (tptp.entity_1 _let_79) (tptp.tangible_entity_1 _let_79) (tptp.electron_1 _let_79) (tptp.valence_electron_1 _let_79) (tptp.tangible_entity_1 _let_70) (tptp.electron_1 _let_70) (tptp.entity_1 _let_70) (tptp.valence_electron_1 _let_70) (tptp.share_1 _let_81) (tptp.amino_group_1 _let_43) (tptp.carbonyl_group_1 _let_40) (tptp.entity_1 _let_51) (tptp.oxygen_1 _let_51) (tptp.entity_1 _let_50) (tptp.oxygen_1 _let_50) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.hydrogen_1 _let_61) (tptp.chemical_entity_1 _let_72) (tptp.tangible_entity_1 _let_72) (tptp.entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.nitrogen_1 _let_72) (tptp.amino_group_1 _let_84) (tptp.tangible_entity_1 _let_53) (tptp.entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.atom_1 _let_53) (tptp.carbon_1 _let_53) (tptp.carbon_skeleton_1 _let_73) (tptp.single_bond_1 _let_57) (tptp.oxaloacetate_1 _let_92) (tptp.synthesis_reaction_1 _let_38) (tptp.share_1 _let_45) (tptp.tangible_entity_1 _let_82) (tptp.electron_1 _let_82) (tptp.entity_1 _let_82) (tptp.valence_electron_1 _let_82) (tptp.chemical_entity_1 _let_91) (tptp.hold_together_1 _let_58) (tptp.share_1 _let_54) (tptp.entity_1 _let_46) (tptp.tangible_entity_1 _let_44) (tptp.entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.nitrogen_1 _let_44) (tptp.chemical_entity_1 _let_41) (tptp.chemical_entity_1 _let_39) (tptp.chemical_entity_1 _let_37) (tptp.entity_1 _let_35) (tptp.valence_electron_1 _let_35) (tptp.electron_shell_1 _let_33) (tptp.electron_shell_1 _let_32) (tptp.electron_shell_1 _let_31) (tptp.tangible_entity_1 _let_28) (tptp.electron_1 _let_28) (tptp.valence_electron_1 _let_28) (tptp.electron_1 _let_27) (tptp.valence_electron_1 _let_27) (tptp.entity_1 _let_26) (tptp.tangible_entity_1 _let_26) (tptp.electron_1 _let_26) (tptp.valence_electron_1 _let_26) (tptp.electron_1 _let_25) (tptp.valence_electron_1 _let_25) (tptp.atomic_nucleus_1 _let_23) (tptp.atomic_nucleus_1 _let_22) (tptp.atomic_nucleus_1 _let_21) (tptp.hold_together_1 _let_16) (tptp.single_bond_1 _let_14) (tptp.hold_together_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.carbon_1 _let_10) (tptp.share_1 _let_8) (tptp.oxygen_1 _let_5) (tptp.oxygen_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.hydrogen_1 _let_2) (tptp.is_inside_2 _let_83 _let_89) (tptp.is_at_2 _let_94 _let_40) (not (= _let_43 _let_84)) (not (= _let_84 _let_43)) (tptp.object_2 _let_45 _let_93) (not (= _let_82 _let_93)) (not (= _let_93 _let_82)) (tptp.object_2 _let_45 _let_82) (tptp.raw_material_2 _let_38 _let_92) (tptp.is_inside_2 _let_72 _let_43) (tptp.has_region_2 X _let_40) (tptp.result_2 _let_38 X) (tptp.has_region_2 X _let_89) (tptp.is_inside_2 _let_90 _let_89) (tptp.has_region_2 X _let_90) (tptp.has_region_2 X _let_84) (tptp.is_inside_2 _let_61 _let_84) (tptp.possesses_2 X _let_85) (tptp.quantity_2 _let_85 _let_86) (tptp.directly_proportional_2 _let_87 _let_86) (tptp.speed_2 _let_88 _let_87) (tptp.object_2 _let_88 X) (tptp.has_region_2 _let_72 _let_63) (tptp.has_part_2 _let_72 _let_65) (tptp.has_region_2 _let_72 _let_69) (tptp.object_2 _let_71 _let_51) (tptp.is_inside_2 _let_72 _let_84) (tptp.object_2 _let_60 _let_53) (tptp.has_part_2 X _let_50) (tptp.object_2 _let_75 _let_79) (tptp.has_region_2 X _let_83) (tptp.agent_2 _let_78 _let_50) (tptp.agent_2 _let_45 _let_51) (tptp.agent_2 _let_66 _let_61) (tptp.agent_2 _let_66 _let_72) (tptp.is_between_2 _let_57 _let_72) (tptp.result_2 _let_66 _let_57) (tptp.has_part_2 X _let_61) (tptp.object_2 _let_77 _let_61) (tptp.object_2 _let_77 _let_53) (tptp.agent_2 _let_81 _let_53) (tptp.object_2 _let_81 _let_82) (tptp.agent_2 _let_78 _let_53) (tptp.object_2 _let_78 _let_79) (tptp.object_2 _let_80 _let_79) (tptp.agent_2 _let_80 _let_53) (tptp.object_2 _let_56 _let_53) (tptp.has_part_2 X _let_72) (tptp.has_part_2 X _let_51) (tptp.object_2 _let_77 _let_51) (tptp.object_2 _let_77 _let_50) (tptp.object_2 _let_60 _let_50) (tptp.object_2 _let_74 _let_70) (tptp.object_2 _let_76 _let_70) (tptp.agent_2 _let_76 _let_53) (not (= _let_72 _let_53)) (not (= _let_53 _let_72)) (tptp.has_part_2 X _let_53) (tptp.possesses_2 X _let_57) (tptp.is_between_2 _let_57 _let_61) (not (= _let_72 _let_61)) (not (= _let_61 _let_72)) (tptp.agent_2 _let_74 _let_53) (tptp.agent_2 _let_74 _let_51) (tptp.agent_2 _let_75 _let_51) (tptp.agent_2 _let_75 _let_53) (not (= _let_53 _let_61)) (not (= _let_61 _let_53)) (tptp.has_part_2 X _let_49) (not (= _let_49 _let_53)) (tptp.is_inside_2 _let_53 _let_73) (tptp.has_region_2 X _let_73) (tptp.has_region_2 X _let_1) (not (= _let_53 _let_49)) (tptp.has_region_2 X _let_43) (tptp.is_inside_2 _let_61 _let_43) (not (= _let_61 _let_49)) (not (= _let_49 _let_61)) (not (= _let_72 _let_49)) (not (= _let_49 _let_72)) (tptp.object_2 _let_71 _let_53) (tptp.object_2 _let_55 _let_70) (tptp.has_region_2 _let_50 _let_52) (tptp.has_region_2 _let_61 _let_68) (not (= _let_69 _let_68)) (not (= _let_68 _let_69)) (tptp.has_region_2 _let_53 _let_67) (not (= _let_52 _let_67)) (not (= _let_67 _let_52)) (tptp.object_2 _let_66 _let_65) (tptp.object_2 _let_66 _let_64) (tptp.is_near_2 _let_63 _let_65) (tptp.is_near_2 _let_65 _let_63) (tptp.has_part_2 _let_61 _let_64) (tptp.is_near_2 _let_62 _let_64) (tptp.is_near_2 _let_64 _let_62) (not (= _let_65 _let_64)) (not (= _let_64 _let_65)) (tptp.object_2 _let_60 _let_51) (tptp.object_2 _let_60 _let_61) (tptp.has_region_2 _let_61 _let_62) (not (= _let_63 _let_62)) (not (= _let_62 _let_63)) (tptp.is_between_2 _let_57 _let_53) (tptp.is_between_2 _let_57 _let_51) (tptp.object_2 _let_59 _let_51) (tptp.object_2 _let_59 _let_53) (tptp.is_inside_2 _let_53 _let_1) (tptp.agent_2 _let_55 _let_53) (tptp.agent_2 _let_55 _let_50) (tptp.object_2 _let_56 _let_50) (not (= _let_53 _let_50)) (not (= _let_50 _let_53)) (tptp.agent_2 _let_45 _let_50) (tptp.agent_2 _let_45 _let_53) (not (= _let_53 _let_51)) (not (= _let_51 _let_53)) (not (= _let_50 _let_51)) (not (= _let_51 _let_50)) (tptp.is_inside_2 _let_49 _let_1) (not (= _let_49 _let_50)) (tptp.is_inside_2 _let_50 _let_1) (tptp.is_inside_2 _let_51 _let_1) (tptp.has_region_2 _let_51 _let_52) (not (= _let_50 _let_49)) (= _let_82 _let_46) (= _let_92 _let_91) (= _let_72 _let_44) (= X _let_41) (= X _let_39) (= _let_90 (tptp.fn_polar_amino_acid_1 X)) (= _let_89 (tptp.fn_polar_amino_acid_2 X)) (= (tptp.fn_asparagine_4 X) (tptp.fn_amino_acid_3 X)) (= (tptp.fn_asparagine_3 X) (tptp.fn_amino_acid_4 X)) (= _let_61 _let_20) (= _let_84 _let_48) (= _let_88 (tptp.fn_amino_acid_5 X)) (= _let_87 (tptp.fn_amino_acid_6 X)) (= _let_86 (tptp.fn_amino_acid_7 X)) (= _let_85 (tptp.fn_amino_acid_16 X)) (= _let_63 _let_24) (= _let_65 _let_29) (= _let_69 _let_34) (= _let_71 _let_18) (= _let_84 _let_47) (= _let_60 _let_18) (= _let_83 (tptp.fn_hydrophilic_amino_acid_23 X)) (= _let_50 _let_7) (= _let_45 _let_9) (= _let_66 _let_30) (= _let_82 _let_36) (= _let_81 (tptp.fn_hydrophilic_amino_acid_5 X)) (= _let_77 _let_17) (= _let_56 _let_13) (= _let_80 (tptp.fn_hydrophilic_amino_acid_19 X)) (= _let_79 (tptp.fn_hydrophilic_amino_acid_22 X)) (= _let_78 (tptp.fn_hydrophilic_amino_acid_18 X)) (= _let_60 _let_17) (= _let_50 _let_6) (= _let_77 _let_13) (= _let_51 _let_7) (= _let_76 _let_9) (= _let_70 _let_36) (= _let_57 _let_15) (= _let_75 (tptp.fn_hydrophilic_amino_acid_17 X)) (= _let_51 _let_6) (= _let_74 (tptp.fn_hydrophilic_amino_acid_3 X)) (= X _let_37) (= _let_1 (tptp.fn_hydrophilic_amino_acid_26 X)) (= _let_73 (tptp.fn_hydrophilic_amino_acid_27 X)) (= _let_53 _let_11) (= _let_72 _let_42) (= _let_49 _let_3) (= _let_61 _let_19) (= _let_43 _let_47) (= _let_71 _let_12) (= _let_70 _let_35) (= _let_68 _let_31) (= _let_69 _let_33) (= _let_68 _let_32) (= _let_67 _let_32) (= _let_67 _let_31) (= _let_64 _let_26) (= _let_66 _let_8) (= _let_65 _let_28) (= _let_65 _let_27) (= _let_64 _let_25) (= _let_62 _let_22) (= _let_63 _let_23) (= _let_62 _let_21) (= _let_61 _let_2) (= _let_60 _let_16) (= _let_59 _let_58) (= _let_57 _let_14) (= _let_56 _let_12) (= _let_55 _let_54) (= _let_50 _let_5) (= _let_51 _let_4) (= _let_53 _let_10) (= _let_45 _let_8) (= _let_52 _let_33) (= _let_51 _let_5) (= _let_50 _let_4) (= _let_49 _let_2) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_36) (= _let_36 _let_17) (= _let_17 _let_13) (= _let_13 _let_13) (= _let_13 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_37) (= _let_37 _let_18) (= _let_18 _let_12) (= _let_12 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_8) (= _let_8 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_2) (= _let_2 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_4) (= _let_5 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aspartic_acid_4 X))) (let ((_let_2 (tptp.fn_amino_group_22 _let_1))) (let ((_let_3 (tptp.fn_acidic_amino_acid_47 X))) (let ((_let_4 (tptp.fn_amino_group_20 _let_1))) (let ((_let_5 (tptp.fn_acidic_amino_acid_46 X))) (let ((_let_6 (tptp.fn_amino_group_21 _let_1))) (let ((_let_7 (tptp.fn_acidic_amino_acid_45 X))) (let ((_let_8 (tptp.fn_functional_group_1 _let_1))) (let ((_let_9 (tptp.fn_aspartic_acid_18 X))) (let ((_let_10 (tptp.fn_chemical_reaction_1 _let_9))) (let ((_let_11 (tptp.fn_acidic_amino_acid_57 X))) (let ((_let_12 (tptp.fn_acidic_amino_acid_48 X))) (let ((_let_13 (tptp.fn_aspartic_acid_6 X))) (let ((_let_14 (tptp.fn_aspartic_acid_7 X))) (let ((_let_15 (tptp.fn_aspartic_acid_5 X))) (let ((_let_16 (tptp.fn_aspartic_acid_14 X))) (let ((_let_17 (tptp.fn_aspartic_acid_12 X))) (let ((_let_18 (tptp.fn_aspartic_acid_16 X))) (let ((_let_19 (tptp.fn_aspartic_acid_15 X))) (let ((_let_20 (tptp.fn_aspartic_acid_3 X))) (let ((_let_21 (tptp.fn_aspartic_acid_13 X))) (let ((_let_22 (tptp.fn_aspartic_acid_20 X))) (let ((_let_23 (tptp.fn_aspartic_acid_11 X))) (let ((_let_24 (tptp.fn_aspartic_acid_21 X))) (let ((_let_25 (tptp.fn_aspartic_acid_8 X))) (let ((_let_26 (tptp.fn_aspartic_acid_9 X))) (let ((_let_27 (tptp.fn_aspartic_acid_10 X))) (let ((_let_28 (tptp.fn_aspartic_acid_17 X))) (let ((_let_29 (tptp.fn_chemical_reaction_2 _let_9))) (let ((_let_30 (tptp.fn_aspartic_acid_19 X))) (=> (tptp.aspartic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Aspartic-Acid'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids which make up proteins. On its own, it also functions as a neurotransmitter.'|) (tptp.concept2words_2 X |tptp.'aspartic acid'|) (tptp.concept2words_2 X |tptp.'aspartic-acid'|) (tptp.acidic_amino_acid_1 X) (tptp.neurotransmitter_1 X) (not (tptp.acetylcholine_1 X)) (not (tptp.catecholamine_1 X)) (not (tptp.neuropeptide_1 X)) (tptp.carbon_skeleton_1 _let_20) (tptp.functional_group_1 _let_1) (tptp.amino_group_1 _let_1) (tptp.covalent_bond_1 _let_15) (tptp.single_bond_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.chemical_entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.nitrogen_1 _let_14) (tptp.constant_motion_1 _let_25) (tptp.speed_value_1 _let_26) (tptp.quantity_value_1 _let_27) (tptp.end_1 _let_23) (tptp.tangible_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.entity_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.tangible_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.entity_1 _let_21) (tptp.oxygen_1 _let_21) (tptp.carboxyl_group_1 _let_16) (tptp.tangible_entity_1 _let_19) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.carbon_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.hydrogen_1 _let_18) (tptp.kinetic_energy_1 _let_28) (tptp.synthesis_reaction_1 _let_9) (tptp.oxaloacetate_1 _let_30) (tptp.polar_side_chain_1 _let_22) (tptp.negatively_charged_region_1 _let_24) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.single_bond_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.nitrogen_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.hydrogen_1 _let_2) (tptp.raw_material_2 _let_9 _let_30) (tptp.result_2 _let_9 X) (tptp.possesses_2 X _let_15) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_21) (tptp.is_inside_2 _let_24 _let_22) (tptp.has_part_2 X _let_19) (tptp.has_region_2 X _let_20) (tptp.is_inside_2 _let_18 _let_16) (not (= _let_18 _let_19)) (not (= _let_19 _let_18)) (tptp.has_part_2 X _let_18) (not (= _let_18 _let_21)) (not (= _let_21 _let_19)) (not (= _let_19 _let_17)) (tptp.has_part_2 X _let_17) (not (= _let_21 _let_18)) (not (= _let_19 _let_21)) (not (= _let_17 _let_19)) (tptp.object_2 _let_25 X) (tptp.speed_2 _let_25 _let_26) (tptp.directly_proportional_2 _let_26 _let_27) (tptp.quantity_2 _let_28 _let_27) (tptp.possesses_2 X _let_28) (tptp.has_part_2 X _let_13) (tptp.has_region_2 X _let_22) (tptp.is_inside_2 _let_23 _let_22) (tptp.has_region_2 X _let_23) (tptp.has_region_2 X _let_24) (tptp.is_inside_2 _let_19 _let_16) (tptp.is_inside_2 _let_21 _let_16) (not (= _let_21 _let_17)) (not (= _let_19 _let_13)) (not (= _let_13 _let_19)) (not (= _let_17 _let_21)) (tptp.has_part_2 X _let_14) (not (= _let_14 _let_19)) (tptp.is_inside_2 _let_19 _let_20) (not (= _let_18 _let_14)) (not (= _let_14 _let_18)) (not (= _let_19 _let_14)) (tptp.has_region_2 X _let_16) (tptp.is_inside_2 _let_17 _let_16) (not (= _let_17 _let_18)) (not (= _let_18 _let_17)) (not (= _let_13 _let_18)) (not (= _let_18 _let_13)) (tptp.is_inside_2 _let_14 _let_1) (tptp.is_inside_2 _let_13 _let_1) (tptp.is_between_2 _let_15 _let_13) (tptp.is_between_2 _let_15 _let_14) (not (= _let_14 _let_13)) (not (= _let_13 _let_14)) (= _let_30 _let_29) (= X _let_10) (= _let_15 _let_7) (= X _let_8) (= _let_1 (tptp.fn_acidic_amino_acid_42 X)) (= (tptp.fn_aspartic_acid_2 X) (tptp.fn_acidic_amino_acid_3 X)) (= (tptp.fn_aspartic_acid_1 X) (tptp.fn_acidic_amino_acid_4 X)) (= _let_21 _let_12) (= _let_28 (tptp.fn_acidic_amino_acid_6 X)) (= _let_27 (tptp.fn_acidic_amino_acid_11 X)) (= _let_26 (tptp.fn_acidic_amino_acid_10 X)) (= _let_25 (tptp.fn_acidic_amino_acid_8 X)) (= _let_24 (tptp.fn_acidic_amino_acid_1 X)) (= _let_23 (tptp.fn_acidic_amino_acid_7 X)) (= _let_22 (tptp.fn_acidic_amino_acid_41 X)) (= _let_21 _let_11) (= _let_20 (tptp.fn_acidic_amino_acid_44 X)) (= _let_19 (tptp.fn_acidic_amino_acid_50 X)) (= _let_14 _let_5) (= _let_13 _let_3) (= _let_18 (tptp.fn_acidic_amino_acid_49 X)) (= _let_17 _let_12) (= _let_16 (tptp.fn_acidic_amino_acid_43 X)) (= _let_15 _let_6) (= _let_14 _let_4) (= _let_13 _let_2) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.assisted_reproductive_technology_1 X) (and (tptp.original_name_2 X |tptp.'Assisted-Reproductive-Technology'|) (tptp.user_description_2 X |tptp.'A general term for the methods used to achieve human pregnancy by artificial or partially artificial means, primarily to treat infertility.'|) (tptp.concept2words_2 X |tptp.'assisted reproductive technology'|) (tptp.concept2words_2 X |tptp.'assisted-reproductive-technology'|) (tptp.medical_procedure_1 X) (not (tptp.abortion_1 X)) (not (tptp.electrocardiogram_1 X)) (not (tptp.genetic_testing_1 X)) (not (tptp.immunization_1 X)) (not (tptp.newborn_screening_1 X)) (not (tptp.paternity_testing_1 X)) (not (tptp.tubal_ligation_1 X)) (not (tptp.ultrasound_imaging_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.associative_learning_1 X) (and (tptp.original_name_2 X |tptp.'Associative-Learning'|) (tptp.user_description_2 X |tptp.'The process by which an animal learns to form an association between two stimuli or between a stimulus and a behavior.'|) (tptp.concept2words_2 X |tptp.'associative learning'|) (tptp.concept2words_2 X |tptp.'associative-learning'|) (tptp.learning_1 X) (not (tptp.habituation_1 X)) (not (tptp.social_learning_1 X)) (not (tptp.spatial_learning_1 X))))) (forall ((X $$unsorted)) (=> (tptp.assurance_1 X) (and (tptp.original_name_2 X |tptp.'Assurance'|) (tptp.description_2 X |tptp.'a message expressing a commitment to do (or not do) something'|) (tptp.concept2words_2 X tptp.commitment) (tptp.concept2words_2 X tptp.dedication) (tptp.concept2words_2 X tptp.assurance) (tptp.message_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_astatine_9 X))) (let ((_let_2 (tptp.fn_astatine_12 X))) (let ((_let_3 (tptp.fn_astatine_10 X))) (let ((_let_4 (tptp.fn_astatine_11 X))) (let ((_let_5 (tptp.fn_astatine_4 X))) (let ((_let_6 (tptp.fn_astatine_5 X))) (let ((_let_7 (tptp.fn_astatine_3 X))) (=> (tptp.astatine_1 X) (and (tptp.original_name_2 X |tptp.'Astatine'|) (tptp.user_description_2 X |tptp.'Astatine is a metal atom with atomic number 85. It is represented by the symbol At.'|) (tptp.concept2words_2 X tptp.astatine) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"125"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"85"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"85"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"210"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"85"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"210"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_astatine_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_astatine_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_astatine_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.aster_1 X) (and (tptp.original_name_2 X |tptp.'Aster'|) (tptp.user_description_2 X |tptp.'A star-shaped structure, comprised of short microtubules, that forms around each centrosome in an animal cell that is undergoing mitosis.'|) (tptp.concept2words_2 X |tptp.'astral rays'|) (tptp.concept2words_2 X |tptp.'astral-rays'|) (tptp.concept2words_2 X |tptp.'astral microtubules'|) (tptp.concept2words_2 X |tptp.'astral-microtubules'|) (tptp.concept2words_2 X tptp.aster) (tptp.cytoskeleton_1 X) (tptp.animal_cell_structure_1 X) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (=> (tptp.asteroid_1 X) (and (tptp.original_name_2 X |tptp.'Asteroid'|) (tptp.user_description_2 X |tptp.'A big rock from outer space, whose landing on Earth could be a cataclysmic event; such a collision is associated with K/T boundary and extinction of dinosaurs.'|) (tptp.concept2words_2 X tptp.asteroid) (tptp.geologic_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.asteroidea_1 X) (and (tptp.original_name_2 X |tptp.'Asteroidea'|) (tptp.user_description_2 X |tptp.'Class of echinoderms that comprises the sea stars and sea daisies.'|) (tptp.concept2words_2 X tptp.asteroidea) (tptp.echinoderm_1 X) (not (tptp.brittle_star_1 X)) (not (tptp.sea_cucumber_1 X)) (not (tptp.sea_daisy_1 X)) (not (tptp.sea_lily_1 X)) (not (tptp.sea_star_1 X)) (not (tptp.sea_urchin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.astrocyte_1 X) (and (tptp.original_name_2 X |tptp.'Astrocyte'|) (tptp.user_description_2 X |tptp.'Star-shaped glial cell found in the brain and spinal cord. Astrocytes provide biochemical support for the cells that form the blood-brain barrier, provide nutrients to neurons, and play a role in repairing damage to neural tissue.'|) (tptp.concept2words_2 X tptp.astrocyte) (tptp.glial_cell_1 X) (not (tptp.oligodendrocyte_1 X)) (not (tptp.radial_glia_1 X)) (not (tptp.schwann_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.asymmetrical_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Asymmetrical-Cell-Division'|) (tptp.user_description_2 X |tptp.'A process in which one daughter cell receives more cytoplasm than the other following mitosis.'|) (tptp.concept2words_2 X |tptp.'divide asymmetrically'|) (tptp.concept2words_2 X |tptp.'asymmetrical cell division'|) (tptp.concept2words_2 X |tptp.'asymmetrical-cell-division'|) (tptp.cell_division_1 X)))) (forall ((X $$unsorted)) (=> (tptp.asymmetrical_distribution_1 X) (and (tptp.original_name_2 X |tptp.'Asymmetrical-Distribution'|) (tptp.user_description_2 X |tptp.'Asymmeterical distribution refers to asymmetry or irregularity in the spatial arrangement or placement of parts or components.'|) (tptp.concept2words_2 X |tptp.'asymmetrical arrangement'|) (tptp.concept2words_2 X |tptp.'asymmetrical distribution'|) (tptp.concept2words_2 X |tptp.'asymmetrical-distribution'|) (tptp.distributing_1 X) (not (tptp.symmetrical_distribution_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atherosclerosis_2 X))) (let ((_let_2 (tptp.fn_consume_1 _let_1))) (let ((_let_3 (tptp.fn_atherosclerosis_1 X))) (=> (tptp.atherosclerosis_1 X) (and (tptp.original_name_2 X |tptp.'Atherosclerosis'|) (tptp.user_description_2 X |tptp.'The hardening of arteries caused by a build-up of fatty deposits called plaques in the inner walls of the arteries.'|) (tptp.concept2words_2 X tptp.atherosclerosis) (tptp.cardiovascular_disease_1 X) (not (tptp.arteriosclerosis_1 X)) (not (tptp.stroke_1 X)) (not (tptp.thrombus_1 X)) (tptp.saturated_fat_1 _let_3) (tptp.consume_1 _let_1) (tptp.entity_1 _let_2) (tptp.result_2 _let_1 X) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atmosphere_3 X))) (let ((_let_2 (tptp.fn_gas_substance_2 _let_1))) (let ((_let_3 (tptp.fn_chemical_2 _let_1))) (let ((_let_4 (tptp.fn_atmosphere_6 X))) (let ((_let_5 (tptp.fn_gas_substance_2 _let_4))) (let ((_let_6 (tptp.fn_chemical_2 _let_4))) (let ((_let_7 (tptp.fn_atmosphere_4 X))) (let ((_let_8 (tptp.fn_atmosphere_5 X))) (let ((_let_9 (tptp.fn_greenhouse_gas_1 _let_1))) (let ((_let_10 (tptp.fn_atmosphere_1 X))) (let ((_let_11 (tptp.fn_atmosphere_2 X))) (=> (tptp.atmosphere_1 X) (and (tptp.original_name_2 X |tptp.'Atmosphere'|) (tptp.user_description_2 X |tptp.'Layer of gases that surrounds the Earth and is retained by Earth_'s gravity.'|) (tptp.concept2words_2 X tptp.atmosphere) (tptp.region_1 X) (tptp.n2_gas_1 _let_10) (tptp.sulfur_dioxide_1 _let_11) (tptp.co2_gas_1 _let_1) (tptp.state_value_1 _let_7) (tptp.state_value_1 _let_8) (tptp.o2_gas_1 _let_4) (tptp.atmosphere_1 _let_9) (tptp.state_value_1 _let_6) (tptp.state_value_1 _let_5) (tptp.state_value_1 _let_3) (tptp.state_value_1 _let_2) (tptp.is_inside_2 _let_11 X) (tptp.is_inside_2 _let_10 X) (tptp.is_inside_2 _let_4 X) (tptp.is_inside_2 _let_1 X) (tptp.physical_state_2 _let_4 _let_8) (tptp.the_categorical_value_2 _let_8 tptp.gas_0) (tptp.physical_state_2 _let_1 _let_7) (tptp.the_categorical_value_2 _let_7 tptp.gas_0) (= X _let_9) (= _let_8 _let_6) (= _let_8 _let_5) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atom_18 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_atom_9 X))) (let ((_let_4 (tptp.fn_electron_shell_1 _let_3))) (let ((_let_5 (tptp.fn_atom_15 X))) (let ((_let_6 (tptp.fn_kinetic_energy_2 _let_5))) (let ((_let_7 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_8 (tptp.fn_atom_14 X))) (let ((_let_9 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_10 (tptp.fn_atom_17 X))) (let ((_let_11 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_12 (tptp.fn_atom_11 X))) (let ((_let_13 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_14 (tptp.fn_atom_8 X))) (let ((_let_15 (tptp.fn_atomic_nucleus_6 _let_1))) (let ((_let_16 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_17 (tptp.fn_atom_16 X))) (let ((_let_18 (tptp.fn_atomic_weight_value_1 _let_17))) (let ((_let_19 (tptp.fn_atom_5 X))) (let ((_let_20 (tptp.fn_atom_7 X))) (=> (tptp.atom_1 X) (and (tptp.original_name_2 X |tptp.'Atom'|) (tptp.user_description_2 X |tptp.'An atom is the smallest representative particle of an element'|) (tptp.concept2words_2 X |tptp.'has isotope'|) (tptp.concept2words_2 X |tptp.'has-isotope'|) (tptp.concept2words_2 X |tptp.'has atom'|) (tptp.concept2words_2 X |tptp.'has-atom'|) (tptp.concept2words_2 X tptp.atom) (tptp.chemical_entity_1 X) (not (tptp.molecule_1 X)) (not (tptp.ion_1 X)) (tptp.system_1 (tptp.fn_atom_3 X)) (tptp.quantity_value_1 _let_19) (tptp.charge_value_1 _let_20) (tptp.proton_1 _let_14) (tptp.electron_shell_1 _let_3) (tptp.quantity_value_1 _let_12) (tptp.electron_1 _let_8) (tptp.kinetic_energy_1 _let_5) (tptp.atomic_weight_value_1 _let_17) (tptp.atomic_number_value_1 _let_10) (tptp.atomic_nucleus_1 _let_1) (tptp.property_node_1 _let_18) (tptp.property_node_1 _let_16) (tptp.property_node_1 _let_15) (tptp.proton_1 _let_13) (tptp.quantity_value_1 _let_11) (tptp.atomic_number_value_1 _let_9) (tptp.electron_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.atom_1 _let_4) (tptp.atom_1 _let_2) (tptp.called_2 _let_19 |tptp.'Number_Electron'|) (= _let_19 _let_12) (tptp.the_cardinal_value_2 _let_20 |"0"|) (tptp.cardinal_unit_class_2 _let_20 tptp.unity_0) (tptp.charge_2 X _let_20) (tptp.atomic_weight_2 X _let_17) (tptp.quantity_2 _let_8 _let_19) (= _let_12 _let_19) (tptp.possesses_2 X _let_5) (tptp.has_region_2 X _let_3) (tptp.called_2 _let_10 |tptp.'Atomic_Number'|) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_14) (tptp.quantity_2 _let_14 _let_12) (tptp.called_2 _let_12 |tptp.'Number_Proton'|) (tptp.has_region_2 X _let_1) (tptp.atomic_number_2 X _let_10) (= _let_10 _let_12) (tptp.is_near_2 _let_8 _let_1) (tptp.is_near_2 _let_1 _let_8) (= _let_12 _let_10) (= X _let_6) (= X _let_4) (= (tptp.fn_atom_13 X) _let_18) (= (tptp.fn_atom_12 X) _let_16) (= (tptp.fn_atom_10 X) _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= X _let_2) (= _let_8 _let_7) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.atomic_entity_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Entity'|) (tptp.user_description_2 X |tptp.'Components or categories of atoms.'|) (tptp.concept2words_2 X |tptp.'atomic entity'|) (tptp.concept2words_2 X |tptp.'atomic-entity'|) (tptp.chemical_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_mass_constant_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Mass-Constant'|) (tptp.concept2words_2 X |tptp.'atomic mass constant'|) (tptp.concept2words_2 X |tptp.'atomic-mass-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_mass_value_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Mass-Value'|) (tptp.description_2 X |tptp.'The sum of the number of protons and neutrons in the nucleus of an atom'|) (tptp.concept2words_2 X |tptp.'atomic mass'|) (tptp.concept2words_2 X |tptp.'number of mass'|) (tptp.concept2words_2 X |tptp.'mass number'|) (tptp.concept2words_2 X |tptp.'mass-number'|) (tptp.concept2words_2 X |tptp.'atomic mass value'|) (tptp.concept2words_2 X |tptp.'atomic-mass-value'|) (tptp.unitless_value_1 X) (not (tptp.ph_value_1 X)) (not (tptp.atomic_number_value_1 X)) (not (tptp.charge_value_1 X)) (not (tptp.pka_value_1 X)) (not (tptp.pkb_value_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atomic_nucleus_7 X))) (let ((_let_2 (tptp.fn_attract_2 _let_1))) (let ((_let_3 (tptp.fn_atomic_nucleus_9 X))) (let ((_let_4 (tptp.fn_attract_1 _let_1))) (let ((_let_5 (tptp.fn_atomic_nucleus_8 X))) (let ((_let_6 (tptp.fn_atomic_nucleus_2 X))) (let ((_let_7 (tptp.fn_atomic_nucleus_3 X))) (let ((_let_8 (tptp.fn_atomic_nucleus_4 X))) (let ((_let_9 (tptp.fn_atomic_nucleus_1 X))) (=> (tptp.atomic_nucleus_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Nucleus'|) (tptp.user_description_2 X |tptp.'The central core of an atom, which contains protons and neutrons.'|) (tptp.concept2words_2 X |tptp.'atomic nucleus'|) (tptp.concept2words_2 X |tptp.'atomic-nucleus'|) (tptp.atomic_region_1 X) (tptp.atomic_number_value_1 _let_9) (tptp.quantity_value_1 _let_6) (tptp.center_1 _let_7) (tptp.atom_1 _let_8) (tptp.attract_1 _let_1) (tptp.electron_1 _let_5) (tptp.proton_1 _let_3) (tptp.entity_1 _let_4) (tptp.entity_1 _let_2) (= _let_9 _let_6) (tptp.called_2 _let_9 |tptp.'Atomic_Number'|) (= _let_6 _let_9) (tptp.called_2 _let_6 |tptp.'Number_Proton'|) (tptp.is_near_2 _let_5 X) (tptp.has_region_2 _let_8 X) (tptp.has_region_2 _let_8 _let_7) (tptp.atomic_number_2 _let_8 _let_9) (tptp.has_part_2 _let_8 _let_3) (tptp.has_part_2 _let_8 _let_5) (tptp.is_at_2 X _let_7) (tptp.is_near_2 X _let_5) (tptp.is_inside_2 _let_3 X) (tptp.quantity_2 _let_3 _let_6) (tptp.object_2 _let_1 _let_5) (tptp.agent_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.atomic_number_constant_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Number-Constant'|) (tptp.concept2words_2 X |tptp.'atomic number constant'|) (tptp.concept2words_2 X |tptp.'atomic-number-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_number_value_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Number-Value'|) (tptp.description_2 X |tptp.'The number of protons in a nucleus. It determines the chemical properties of an element.'|) (tptp.concept2words_2 X |tptp.'atomic number'|) (tptp.concept2words_2 X |tptp.'atomic-number'|) (tptp.concept2words_2 X |tptp.'atomic number value'|) (tptp.concept2words_2 X |tptp.'atomic-number-value'|) (tptp.unitless_value_1 X) (not (tptp.ph_value_1 X)) (not (tptp.charge_value_1 X)) (not (tptp.pka_value_1 X)) (not (tptp.pkb_value_1 X)) (not (tptp.atomic_mass_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.atomic_orbital_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Orbital'|) (tptp.user_description_2 X |tptp.'The three-dimensional space where an electron is found 90% of the time.'|) (tptp.concept2words_2 X |tptp.'atomic orbital'|) (tptp.concept2words_2 X |tptp.'atomic-orbital'|) (tptp.atomic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_region_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Region'|) (tptp.user_description_2 X |tptp.'A region of the atom or atoms in a molecule including atomic parts such as electrons.'|) (tptp.concept2words_2 X |tptp.'atomic region'|) (tptp.concept2words_2 X |tptp.'atomic-region'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_tracking_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Tracking'|) (tptp.user_description_2 X |tptp.'A process of following particular atoms through a complex chemical pathway, such as following oxygen through photosynthesis.'|) (tptp.concept2words_2 X |tptp.'atomic tracking'|) (tptp.concept2words_2 X |tptp.'atomic-tracking'|) (tptp.technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.atomic_weight_constant_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Weight-Constant'|) (tptp.concept2words_2 X |tptp.'atomic weight constant'|) (tptp.concept2words_2 X |tptp.'atomic-weight-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.atomic_weight_value_1 X) (and (tptp.original_name_2 X |tptp.'Atomic-Weight-Value'|) (tptp.description_2 X |tptp.'The mass of a neutral atom of a nuclide. The atomic weight of an atom is the weight of the atom based on a scale where 12C = 12. The atomic weight of an element is the weighted average of each isotope.'|) (tptp.user_description_2 X |tptp.'The ratio of the average mass of an atom of an element to the mass of carbon 12, which is assigned 12 atomic mass units.'|) (tptp.concept2words_2 X |tptp.'atomic weight'|) (tptp.concept2words_2 X |tptp.'atomic-weight'|) (tptp.concept2words_2 X |tptp.'mass number'|) (tptp.concept2words_2 X |tptp.'relative atomic mass'|) (tptp.concept2words_2 X |tptp.'atomic weight value'|) (tptp.concept2words_2 X |tptp.'atomic-weight-value'|) (tptp.mass_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atp_29 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_atp_33 X))) (let ((_let_4 (tptp.fn_phosphate_group_35 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_41 _let_3))) (let ((_let_6 (tptp.fn_atp_32 X))) (let ((_let_7 (tptp.fn_phosphate_group_41 _let_6))) (let ((_let_8 (tptp.fn_nucleoside_triphosphate_28 X))) (let ((_let_9 (tptp.fn_ribonucleotide_13 X))) (let ((_let_10 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_11 (tptp.fn_phosphate_group_3 _let_3))) (let ((_let_12 (tptp.fn_phosphate_group_9 _let_6))) (let ((_let_13 (tptp.fn_nucleoside_triphosphate_3 X))) (let ((_let_14 (tptp.fn_nucleoside_triphosphate_14 X))) (let ((_let_15 (tptp.fn_nucleoside_triphosphate_23 X))) (let ((_let_16 (tptp.fn_nucleoside_triphosphate_7 X))) (let ((_let_17 (tptp.fn_ribonucleotide_27 X))) (let ((_let_18 (tptp.fn_ribonucleotide_28 X))) (let ((_let_19 (tptp.fn_atp_30 X))) (let ((_let_20 (tptp.fn_covalent_bond_15 _let_19))) (let ((_let_21 (tptp.fn_atp_14 X))) (let ((_let_22 (tptp.fn_share_2 _let_21))) (let ((_let_23 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_24 (tptp.fn_phosphate_group_11 _let_3))) (let ((_let_25 (tptp.fn_covalent_bond_22 _let_19))) (let ((_let_26 (tptp.fn_phosphate_group_18 _let_3))) (let ((_let_27 (tptp.fn_ribonucleotide_29 X))) (let ((_let_28 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_29 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_30 (tptp.fn_phosphate_group_17 _let_3))) (let ((_let_31 (tptp.fn_phosphate_group_12 _let_6))) (let ((_let_32 (tptp.fn_nucleoside_triphosphate_12 X))) (let ((_let_33 (tptp.fn_nucleoside_triphosphate_20 X))) (let ((_let_34 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_35 (tptp.fn_phosphate_group_10 _let_3))) (let ((_let_36 (tptp.fn_phosphate_group_10 _let_6))) (let ((_let_37 (tptp.fn_phosphate_group_12 _let_3))) (let ((_let_38 (tptp.fn_covalent_bond_21 _let_19))) (let ((_let_39 (tptp.fn_phosphate_group_20 _let_3))) (let ((_let_40 (tptp.fn_phosphate_group_20 _let_6))) (let ((_let_41 (tptp.fn_nucleoside_triphosphate_15 X))) (let ((_let_42 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_43 (tptp.fn_phosphate_group_21 _let_3))) (let ((_let_44 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_45 (tptp.fn_covalent_bond_14 _let_19))) (let ((_let_46 (tptp.fn_phosphate_group_36 _let_3))) (let ((_let_47 (tptp.fn_nucleoside_triphosphate_11 X))) (let ((_let_48 (tptp.fn_ribonucleotide_20 X))) (let ((_let_49 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_50 (tptp.fn_phosphate_group_19 _let_3))) (let ((_let_51 (tptp.fn_phosphate_group_5 _let_3))) (let ((_let_52 (tptp.fn_phosphate_group_22 _let_3))) (let ((_let_53 (tptp.fn_phosphate_group_22 _let_6))) (let ((_let_54 (tptp.fn_nucleoside_triphosphate_32 X))) (let ((_let_55 (tptp.fn_nucleoside_triphosphate_29 X))) (let ((_let_56 (tptp.fn_ribonucleotide_8 X))) (let ((_let_57 (tptp.fn_ribonucleotide_16 X))) (let ((_let_58 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_59 (tptp.fn_covalent_bond_19 _let_19))) (let ((_let_60 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_61 (tptp.fn_phosphate_group_8 _let_3))) (let ((_let_62 (tptp.fn_phosphate_group_38 _let_3))) (let ((_let_63 (tptp.fn_phosphate_group_38 _let_6))) (let ((_let_64 (tptp.fn_nucleoside_triphosphate_19 X))) (let ((_let_65 (tptp.fn_ribonucleotide_22 X))) (let ((_let_66 (tptp.fn_covalent_bond_18 _let_19))) (let ((_let_67 (tptp.fn_phosphate_group_9 _let_3))) (let ((_let_68 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_let_29) (= _let_156 _let_34) (= _let_154 _let_28) (= _let_155 _let_34) (= _let_155 _let_29) (= _let_154 _let_23) (= _let_153 _let_10) (= _let_152 _let_2) (= _let_151 _let_150) (= _let_150 _let_149) (= _let_149 _let_148) (= _let_148 _let_147) (= _let_147 _let_146) (= _let_146 _let_146) (= _let_146 _let_143) (= _let_143 _let_144) (= _let_144 _let_144) (= _let_144 _let_143) (= _let_143 _let_142) (= _let_142 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_138 _let_140) (= _let_140 _let_138) (= _let_138 _let_137) (= _let_137 _let_136) (= _let_136 _let_134) (= _let_132 _let_134) (= _let_134 _let_132) (= _let_132 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_78) (= _let_78 _let_101) (= _let_101 _let_129) (= _let_129 _let_127) (= _let_126 _let_127) (= _let_127 _let_127) (= _let_127 _let_126) (= _let_126 _let_126) (= _let_126 _let_65) (= _let_65 _let_41) (= _let_41 _let_125) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_123) (= _let_123 _let_121) (= _let_121 _let_121) (= _let_120 _let_120) (= _let_120 _let_121) (= _let_121 _let_120) (= _let_120 _let_79) (= _let_79 _let_71) (= _let_71 _let_2) (= _let_2 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_115 _let_99) (= _let_99 _let_115) (= _let_115 _let_117) (= _let_117 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_112 _let_112) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_112 _let_109) (= _let_109 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_107) (= _let_107 _let_79) (= _let_79 _let_102) (= _let_102 _let_105) (= _let_41 _let_105) (= _let_105 _let_41) (= _let_41 _let_104) (= _let_104 _let_104) (= _let_104 _let_101) (= _let_70 _let_48) (= _let_48 _let_103) (= _let_103 _let_103) (= _let_103 _let_71) (= _let_71 _let_102) (= _let_102 _let_102) (= _let_102 _let_79) (= _let_79 _let_79) (= _let_79 _let_101) (= _let_101 _let_101) (= _let_101 _let_70) (= _let_70 _let_64) (= _let_64 _let_42) (= _let_42 _let_64) (= _let_64 _let_100) (= _let_100 _let_100) (= _let_100 _let_68) (= _let_68 _let_2) (= _let_2 _let_71) (= _let_71 _let_80) (= _let_80 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_99) (= _let_99 _let_99) (= _let_99 _let_97) (= _let_97 _let_60) (= _let_97 _let_56) (= _let_56 _let_60) (= _let_60 _let_60) (= _let_60 _let_97) (= _let_97 _let_97) (= _let_97 _let_57) (= _let_55 _let_57) (= _let_57 _let_55) (= _let_55 _let_53) (= _let_52 _let_96) (= _let_96 _let_53) (= _let_53 _let_96) (= _let_96 _let_96) (= _let_96 _let_52) (= _let_51 _let_95) (= _let_95 _let_46) (= _let_46 _let_87) (= _let_87 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_87) (= _let_86 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_88) (= _let_88 _let_90) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_83) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_79) (= _let_79 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_4) (= _let_4 _let_77) (= _let_77 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_18) (= _let_18 _let_68) (= _let_68 _let_68) (= _let_68 _let_39) (= _let_39 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_58 _let_60) (= _let_60 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_59) (= _let_58 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_16) (= _let_16 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_17) (= _let_17 _let_13) (= _let_13 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_10) (= _let_10 _let_37) (= _let_37 _let_29) (= _let_29 _let_38) (= _let_38 _let_29) (= _let_29 _let_36) (= _let_36 _let_37) (= _let_37 _let_35) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_18 _let_20) (= _let_20 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atp_cycle_31 X))) (let ((_let_2 (tptp.fn_dephosphorylation_of_atp_62 _let_1))) (let ((_let_3 (tptp.fn_atp_cycle_6 X))) (let ((_let_4 (tptp.fn_ribonucleotide_9 _let_3))) (let ((_let_5 (tptp.fn_atp_cycle_24 X))) (let ((_let_6 (tptp.fn_organic_molecule_1 _let_5))) (let ((_let_7 (tptp.fn_dephosphorylation_of_atp_54 _let_1))) (let ((_let_8 (tptp.fn_atp_cycle_55 X))) (let ((_let_9 (tptp.fn_synthesis_of_atp_10 _let_8))) (let ((_let_10 (tptp.fn_anabolic_pathway_6 _let_8))) (let ((_let_11 (tptp.fn_synthesis_of_atp_23 _let_8))) (let ((_let_12 (tptp.fn_anabolic_pathway_4 _let_8))) (let ((_let_13 (tptp.fn_synthesis_of_atp_13 _let_8))) (let ((_let_14 (tptp.fn_dephosphorylation_of_atp_53 _let_1))) (let ((_let_15 (tptp.fn_dephosphorylation_11 _let_1))) (let ((_let_16 (tptp.fn_atp_cycle_15 X))) (let ((_let_17 (tptp.fn_dephosphorylation_11 _let_16))) (let ((_let_18 (tptp.fn_atp_cycle_18 X))) (let ((_let_19 (tptp.fn_dephosphorylation_11 _let_18))) (let ((_let_20 (tptp.fn_atp_cycle_16 X))) (let ((_let_21 (tptp.fn_dephosphorylation_11 _let_20))) (let ((_let_22 (tptp.fn_atp_cycle_17 X))) (let ((_let_23 (tptp.fn_hydrolysis_11 _let_22))) (let ((_let_24 (tptp.fn_synthesis_of_organic_molecule_1 _let_8))) (let ((_let_25 (tptp.fn_atp_cycle_19 X))) (let ((_let_26 (tptp.fn_remove_2 _let_25))) (let ((_let_27 (tptp.fn_synthesis_of_atp_21 _let_8))) (let ((_let_28 (tptp.fn_atp_30 _let_3))) (let ((_let_29 (tptp.fn_nucleoside_triphosphate_35 _let_3))) (let ((_let_30 (tptp.fn_ribonucleotide_12 _let_3))) (let ((_let_31 (tptp.fn_molecule_10 _let_3))) (let ((_let_32 (tptp.fn_synthesis_of_atp_18 _let_8))) (let ((_let_33 (tptp.fn_synthesis_of_atp_19 _let_8))) (let ((_let_34 (tptp.fn_atp_33 _let_3))) (let ((_let_35 (tptp.fn_atp_34 _let_3))) (let ((_let_36 (tptp.fn_atp_32 _let_3))) (let ((_let_37 (tptp.fn_ribonucleotide_14 _let_3))) (let ((_let_38 (tptp.fn_synthesis_of_atp_20 _let_8))) (let ((_let_39 (tptp.fn_dephosphorylation_of_atp_60 _let_1))) (let ((_let_40 (tptp.fn_nucleoside_triphosphate_27 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(tptp.fn_exergonic_process_3 _let_1))) (let ((_let_61 (tptp.fn_atp_cycle_8 X))) (let ((_let_62 (tptp.fn_exergonic_process_3 _let_61))) (let ((_let_63 (tptp.fn_atp_cycle_9 X))) (let ((_let_64 (tptp.fn_exergonic_process_3 _let_63))) (let ((_let_65 (tptp.fn_atp_cycle_11 X))) (let ((_let_66 (tptp.fn_exergonic_process_3 _let_65))) (let ((_let_67 (tptp.fn_atp_cycle_10 X))) (let ((_let_68 (tptp.fn_exergonic_process_3 _let_67))) (let ((_let_69 (tptp.fn_atp_31 _let_3))) (let ((_let_70 (tptp.fn_nucleoside_triphosphate_30 _let_3))) (let ((_let_71 (tptp.fn_dephosphorylation_7 _let_1))) (let ((_let_72 (tptp.fn_atp_39 _let_3))) (let ((_let_73 (tptp.fn_dephosphorylation_of_atp_65 _let_1))) (let ((_let_74 (tptp.fn_nucleoside_triphosphate_31 _let_3))) (let ((_let_75 (tptp.fn_organic_molecule_1 _let_3))) (let ((_let_76 (tptp.fn_dephosphorylation_3 _let_1))) (let ((_let_77 (tptp.fn_atp_7 _let_3))) (let ((_let_78 (tptp.fn_organic_molecule_2 _let_3))) (let ((_let_79 (tptp.fn_dephosphorylation_of_atp_51 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(tptp.fn_dephosphorylation_of_atp_45 _let_1))) (let ((_let_99 (tptp.fn_hydrolysis_6 _let_1))) (let ((_let_100 (tptp.fn_hydrolysis_6 _let_92))) (let ((_let_101 (tptp.fn_dephosphorylation_of_atp_49 _let_1))) (let ((_let_102 (tptp.fn_hydrolysis_4 _let_92))) (let ((_let_103 (tptp.fn_dephosphorylation_of_atp_48 _let_1))) (let ((_let_104 (tptp.fn_hydrolysis_5 _let_92))) (let ((_let_105 (tptp.fn_dephosphorylation_of_atp_47 _let_1))) (let ((_let_106 (tptp.fn_hydrolysis_8 _let_1))) (let ((_let_107 (tptp.fn_dephosphorylation_of_atp_56 _let_1))) (let ((_let_108 (tptp.fn_ribonucleotide_11 _let_3))) (let ((_let_109 (tptp.fn_atp_25 _let_3))) (let ((_let_110 (tptp.fn_atp_cycle_29 X))) (let ((_let_111 (tptp.fn_5_prime_carbon_1 _let_110))) (let ((_let_112 (tptp.fn_nucleoside_5 _let_5))) (let ((_let_113 (tptp.fn_hydrolysis_3 _let_1))) (let ((_let_114 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_115 (tptp.fn_dephosphorylation_10 _let_1))) (let ((_let_116 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_117 (tptp.fn_hydrolysis_10 _let_61))) (let ((_let_118 (tptp.fn_hydrolysis_11 _let_61))) (let ((_let_119 (tptp.fn_exergonic_reaction_10 _let_61))) (let ((_let_120 (tptp.fn_hydrolysis_10 _let_67))) (let ((_let_121 (tptp.fn_hydrolysis_11 _let_67))) (let ((_let_122 (tptp.fn_exergonic_reaction_10 _let_67))) (let ((_let_123 (tptp.fn_organic_molecule_2 _let_5))) (let ((_let_124 (tptp.fn_atp_cycle_30 X))) (let ((_let_125 (tptp.fn_atp_cycle_5 X))) (let ((_let_126 (tptp.fn_atp_cycle_54 X))) (let ((_let_127 (tptp.fn_atp_cycle_53 X))) (let ((_let_128 (tptp.fn_synthesis_of_atp_22 _let_8))) (let ((_let_129 (tptp.fn_atp_cycle_52 X))) (let ((_let_130 (tptp.fn_atp_cycle_51 X))) (let ((_let_131 (tptp.fn_atp_cycle_50 X))) (let ((_let_132 (tptp.fn_atp_cycle_25 X))) (let ((_let_133 (tptp.fn_atp_cycle_49 X))) (let ((_let_134 (tptp.fn_atp_cycle_46 X))) (let ((_let_135 (tptp.fn_atp_cycle_47 X))) (let ((_let_136 (tptp.fn_atp_cycle_7 X))) (let ((_let_137 (tptp.fn_synthesis_of_atp_27 _let_8))) (let 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(tptp.has_state_2 _let_140 _let_144) (tptp.quantity_2 _let_161 _let_149) (tptp.possesses_2 _let_152 _let_161) (tptp.raw_material_2 _let_1 _let_152) (tptp.has_region_2 _let_143 _let_159) (tptp.is_inside_2 _let_132 _let_159) (tptp.called_2 _let_132 |tptp.'Terminal PO4 Group'|) (tptp.has_part_2 _let_144 _let_154) (tptp.has_part_2 _let_144 _let_155) (tptp.has_state_2 _let_157 _let_155) (tptp.has_part_2 _let_152 _let_157) (tptp.has_part_2 _let_152 _let_158) (tptp.raw_material_2 _let_1 _let_151) (not (= _let_151 _let_152)) (tptp.has_part_2 _let_152 _let_153) (tptp.has_state_2 _let_153 _let_154) (not (= _let_154 _let_155)) (not (= _let_152 _let_151)) (not (= _let_155 _let_154)) (tptp.result_2 _let_1 _let_144) (tptp.possesses_2 _let_144 _let_145) (tptp.quantity_2 _let_145 _let_147) (tptp.greater_than_2 _let_149 _let_147) (tptp.raw_material_2 _let_1 _let_3) (tptp.has_part_2 _let_3 _let_5) (tptp.has_part_2 _let_5 _let_143) (not (= _let_142 _let_3)) (not (= _let_3 _let_142)) (tptp.has_part_2 _let_3 _let_141) (tptp.has_region_2 _let_3 _let_139) (tptp.is_inside_2 _let_140 _let_139) (tptp.has_part_2 _let_3 _let_140) (not (= _let_141 _let_140)) (not (= _let_140 _let_141)) (tptp.has_part_2 _let_3 _let_135) (tptp.has_region_2 _let_3 _let_132) (tptp.has_part_2 _let_3 _let_134) (tptp.called_2 _let_133 |tptp.'Terminal PO4 Group'|) (tptp.result_2 _let_8 _let_3) (tptp.raw_material_2 _let_8 _let_136) (tptp.has_region_2 _let_3 _let_133) (tptp.is_inside_2 _let_134 _let_133) (tptp.is_inside_2 _let_134 _let_131) (tptp.is_inside_2 _let_135 _let_131) (tptp.is_inside_2 _let_135 _let_133) (tptp.is_between_2 _let_130 _let_134) (tptp.is_inside_2 _let_134 _let_132) (tptp.is_inside_2 _let_135 _let_132) (not (= _let_134 _let_135)) (not (= _let_135 _let_134)) (tptp.has_region_2 _let_3 _let_131) (not (= _let_131 _let_133)) (not (= _let_133 _let_132)) (not (= _let_132 _let_131)) (not (= _let_131 _let_132)) (not (= _let_133 _let_131)) (not (= _let_132 _let_133)) (tptp.raw_material_2 _let_8 _let_126) (tptp.structural_complexity_2 _let_126 _let_127) (tptp.greater_than_2 _let_129 _let_127) (tptp.structural_complexity_2 _let_3 _let_129) (tptp.possesses_2 _let_3 _let_130) (not (= _let_124 _let_125)) (not (= _let_125 _let_124)) (tptp.has_part_2 _let_5 _let_124) (= _let_3 _let_26) (= _let_3 _let_21) (= _let_3 _let_19) (= _let_3 _let_17) (= _let_168 _let_91) (= _let_136 _let_68) (= _let_169 _let_122) (= _let_169 _let_121) (= _let_169 _let_120) (= _let_136 _let_66) (= _let_136 _let_64) (= _let_151 _let_96) (= _let_151 _let_93) (= _let_142 _let_82) (= _let_142 _let_81) (= _let_142 _let_80) (= _let_151 _let_95) (= _let_151 _let_91) (= _let_136 _let_62) (= _let_159 _let_111) (= _let_168 _let_119) (= _let_168 _let_118) (= _let_168 _let_117) (= _let_1 (tptp.fn_energy_coupling_3 X)) (= _let_136 _let_60) (= _let_167 _let_166) (= _let_136 _let_59) (= _let_165 _let_116) (= _let_165 _let_115) (= _let_165 _let_114) (= _let_164 (tptp.fn_energy_coupling_4 X)) (= _let_136 _let_57) (= _let_133 _let_37) (= _let_163 _let_113) (= _let_163 _let_103) (= _let_125 _let_7) (= _let_140 _let_73) (= (tptp.fn_atp_cycle_2 X) _let_162) (= _let_161 _let_160) (= _let_159 _let_109) (= _let_132 _let_39) (= _let_159 _let_112) (= _let_159 _let_108) (= _let_159 _let_107) (= _let_158 _let_106) (= _let_158 _let_105) (= _let_157 _let_156) (= _let_155 _let_104) (= _let_155 _let_103) (= _let_154 _let_102) (= _let_154 _let_101) (= _let_153 _let_100) (= _let_152 _let_97) (= _let_153 _let_99) (= _let_153 _let_98) (= _let_151 _let_94) (= _let_152 _let_93) (= _let_152 _let_79) (= _let_151 _let_90) (= (tptp.fn_atp_cycle_3 X) _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_145 _let_89) (= _let_145 _let_88) (= _let_144 _let_87) (= _let_144 _let_86) (= _let_143 _let_85) (= _let_143 _let_84) (= _let_143 _let_83) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_142 _let_79) (= _let_3 _let_14) (= _let_140 _let_75) (= _let_141 _let_78) (= _let_141 _let_77) (= _let_140 _let_76) (= _let_140 _let_74) (= _let_140 _let_72) (= _let_3 _let_15) (= _let_139 _let_71) (= _let_139 _let_70) (= _let_139 _let_69) (= _let_132 _let_33) (= _let_3 _let_23) (= (tptp.fn_atp_cycle_4 X) _let_138) (= (tptp.fn_atp_cycle_1 X) _let_137) (= _let_136 _let_56) (= _let_3 _let_24) (= _let_133 _let_32) (= _let_131 _let_33) (= _let_134 _let_42) (= _let_133 _let_38) (= _let_134 _let_49) (= _let_135 _let_55) (= _let_135 _let_54) (= _let_135 _let_53) (= _let_135 _let_52) (= _let_135 _let_51) (= _let_134 _let_48) (= _let_132 _let_37) (= _let_132 _let_40) (= _let_134 _let_44) (= _let_134 _let_50) (= _let_134 _let_47) (= _let_130 _let_30) (= _let_134 _let_46) (= _let_134 _let_45) (= _let_134 _let_43) (= _let_134 _let_41) (= _let_132 _let_32) (= _let_133 _let_35) (= _let_133 _let_33) (= _let_132 _let_36) (= _let_132 _let_34) (= _let_132 _let_35) (= _let_132 _let_38) (= _let_131 _let_37) (= _let_131 _let_34) (= _let_131 _let_36) (= _let_131 _let_35) (= _let_131 _let_32) (= _let_130 _let_31) (= _let_130 _let_29) (= _let_130 _let_28) (= _let_130 _let_27) (= _let_3 _let_13) (= _let_129 _let_128) (= _let_127 _let_12) (= _let_127 _let_11) (= _let_126 _let_10) (= _let_126 _let_9) (= _let_125 _let_6) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_121 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_91) (= _let_91 _let_91) (= _let_91 _let_118) (= _let_118 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_103) (= _let_103 _let_111) (= _let_111 _let_112) (= _let_112 _let_111) (= _let_111 _let_109) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_107 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_103) (= _let_103 _let_103) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_101) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_98) (= _let_98 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_79) (= _let_79 _let_97) (= _let_93 _let_97) (= _let_97 _let_79) (= _let_79 _let_93) (= _let_93 _let_79) (= _let_79 _let_96) (= _let_96 _let_94) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_91 _let_94) (= _let_94 _let_93) (= _let_93 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_88) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_86) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_76) (= _let_76 _let_74) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_64) (= _let_64 _let_62) (= _let_62 _let_60) (= _let_60 _let_59) (= _let_57 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_37) (= _let_37 _let_35) (= _let_35 _let_37) (= _let_37 _let_32) (= _let_38 _let_33) (= _let_33 _let_40) (= _let_40 _let_37) (= _let_37 _let_40) (= _let_40 _let_40) (= _let_34 _let_40) (= _let_40 _let_34) (= _let_35 _let_35) (= _let_35 _let_39) (= _let_39 _let_36) (= _let_36 _let_39) (= _let_39 _let_39) (= _let_39 _let_33) (= _let_38 _let_32) (= _let_32 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_23) (= _let_23 _let_24) (= _let_24 _let_21) (= _let_17 _let_23) (= _let_23 _let_23) (= _let_23 _let_15) (= _let_15 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_14) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_2) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atp_hydrolyzing_transport_protein_11 X))) (let ((_let_2 (tptp.fn_biomembrane_54 _let_1))) (let ((_let_3 (tptp.fn_transport_protein_35 X))) (let ((_let_4 (tptp.fn_integral_protein_24 X))) (let ((_let_5 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_6 (tptp.fn_biomembrane_52 _let_1))) (let ((_let_7 (tptp.fn_transport_protein_34 X))) (let ((_let_8 (tptp.fn_transport_protein_10 X))) (let ((_let_9 (tptp.fn_biomembrane_56 _let_1))) (let ((_let_10 (tptp.fn_transport_protein_20 X))) (let ((_let_11 (tptp.fn_integral_protein_16 X))) (let ((_let_12 (tptp.fn_biomembrane_102 _let_1))) (let ((_let_13 (tptp.fn_transport_protein_31 X))) (let ((_let_14 (tptp.fn_biomembrane_101 _let_1))) (let ((_let_15 (tptp.fn_integral_protein_25 X))) (let ((_let_16 (tptp.fn_biomembrane_100 _let_1))) (let ((_let_17 (tptp.fn_biomembrane_105 _let_1))) (let ((_let_18 (tptp.fn_atp_hydrolyzing_transport_protein_10 X))) (let ((_let_19 (tptp.fn_move_1 _let_18))) (let ((_let_20 (tptp.fn_transport_protein_21 X))) (let ((_let_21 (tptp.fn_polymer_6 X))) (let ((_let_22 (tptp.fn_atp_hydrolyzing_transport_protein_5 X))) (let ((_let_23 (tptp.fn_atp_hydrolyzing_transport_protein_8 X))) (let ((_let_24 (tptp.fn_atp_hydrolyzing_transport_protein_9 X))) (let ((_let_25 (tptp.fn_biomembrane_76 _let_1))) (let ((_let_26 (tptp.fn_atp_hydrolyzing_transport_protein_6 X))) (let ((_let_27 (tptp.fn_atp_hydrolyzing_transport_protein_7 X))) (let ((_let_28 (tptp.fn_atp_hydrolyzing_transport_protein_2 X))) (let ((_let_29 (tptp.fn_atp_hydrolyzing_transport_protein_1 X))) (=> (tptp.atp_hydrolyzing_transport_protein_1 X) (and (tptp.original_name_2 X |tptp.'ATP-Hydrolyzing-Transport-Protein'|) (tptp.user_description_2 X |tptp.'Some transport proteins hydrolyze ATP as an energy source to actively pump substances across the membrane.'|) (tptp.concept2words_2 X |tptp.'atp hydrolyzing transport protein'|) (tptp.concept2words_2 X |tptp.'atp-hydrolyzing-transport-protein'|) (tptp.transport_protein_1 X) (not (tptp.electrogenic_pump_1 X)) (tptp.dephosphorylation_of_atp_1 _let_29) (tptp.active_transport_using_atp_1 _let_28) (tptp.size_value_1 _let_22) (tptp.monomer_1 _let_26) (tptp.size_value_1 _let_27) (tptp.block_1 _let_23) (tptp.spatial_entity_1 _let_24) (tptp.hydrophilic_compound_1 _let_24) (tptp.move_1 _let_18) (tptp.move_through_1 _let_18) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.property_node_1 _let_25) (tptp.spatial_entity_1 _let_19) (tptp.hydrophilic_compound_1 _let_17) (tptp.block_1 _let_16) (tptp.block_1 _let_14) (tptp.block_1 _let_12) (tptp.size_value_1 _let_9) (tptp.move_through_1 _let_6) (tptp.tangible_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.protein_1 _let_2) (tptp.agent_2 _let_29 X) (tptp.agent_2 _let_28 X) (tptp.object_2 _let_18 _let_24) (tptp.greater_than_2 _let_22 _let_27) (tptp.is_across_2 X _let_1) (tptp.instrument_2 _let_23 _let_1) (tptp.facilitates_2 X _let_18) (tptp.agent_2 _let_18 X) (tptp.has_part_2 X _let_26) (tptp.size_2 _let_26 _let_27) (tptp.called_2 _let_23 |"1"|) (tptp.has_function_2 _let_1 _let_23) (tptp.object_2 _let_23 _let_24) (tptp.has_function_2 _let_1 _let_18) (tptp.base_2 _let_18 _let_1) (tptp.has_part_2 _let_1 X) (tptp.size_2 X _let_22) (tptp.the_scalar_value_2 _let_22 tptp.big_0) (tptp.scalar_unit_class_2 _let_22 tptp.polypeptide_0) (= _let_24 _let_19) (= (tptp.fn_atp_hydrolyzing_transport_protein_3 X) (tptp.fn_transport_protein_23 X)) (= _let_27 (tptp.fn_transport_protein_19 X)) (= _let_26 _let_21) (= _let_26 _let_20) (= _let_18 _let_7) (= (tptp.fn_atp_hydrolyzing_transport_protein_4 X) _let_25) (= _let_24 _let_17) (= _let_23 _let_16) (= _let_23 _let_15) (= _let_23 _let_13) (= _let_23 _let_14) (= _let_23 _let_12) (= _let_22 _let_11) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_1 _let_5) (= _let_1 _let_4) (= X _let_2) (= _let_1 _let_3) (= _let_18 _let_8) (= _let_18 _let_6) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atp_synthase_34 X))) (let ((_let_2 (tptp.fn_synthesis_of_atp_13 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_organic_molecule_1 _let_1))) (let ((_let_4 (tptp.fn_synthesis_of_atp_23 _let_1))) (let ((_let_5 (tptp.fn_anabolic_pathway_4 _let_1))) (let ((_let_6 (tptp.fn_atp_synthase_46 X))) (let ((_let_7 (tptp.fn_passive_transport_24 _let_6))) (let ((_let_8 (tptp.fn_atp_synthase_37 X))) (let ((_let_9 (tptp.fn_biomembrane_52 _let_8))) (let ((_let_10 (tptp.fn_atp_synthase_45 X))) (let ((_let_11 (tptp.fn_kinetic_energy_2 _let_10))) (let ((_let_12 (tptp.fn_atp_synthase_31 X))) (let ((_let_13 (tptp.fn_expose_1 _let_12))) (let ((_let_14 (tptp.fn_atp_synthase_36 X))) (let ((_let_15 (tptp.fn_expose_1 _let_14))) (let ((_let_16 (tptp.fn_synthesis_of_atp_10 _let_1))) (let ((_let_17 (tptp.fn_anabolic_pathway_6 _let_1))) (let ((_let_18 (tptp.fn_atp_synthase_39 X))) (let ((_let_19 (tptp.fn_reactant_3 _let_18))) (let ((_let_20 (tptp.fn_atp_synthase_21 X))) (let ((_let_21 (tptp.fn_synthesis_of_atp_9 _let_1))) (let ((_let_22 (tptp.fn_atp_synthase_23 X))) (let ((_let_23 (tptp.fn_synthesis_of_atp_8 _let_1))) (let ((_let_24 (tptp.fn_atp_synthase_28 X))) (let ((_let_25 (tptp.fn_synthesis_of_atp_7 _let_1))) (let ((_let_26 (tptp.fn_atp_synthase_27 X))) (let ((_let_27 (tptp.fn_synthesis_of_atp_22 _let_1))) (let ((_let_28 (tptp.fn_atp_synthase_24 X))) (let ((_let_29 (tptp.fn_atp_synthase_25 X))) (let ((_let_30 (tptp.fn_synthesis_of_atp_26 _let_1))) (let ((_let_31 (tptp.fn_synthesis_of_atp_24 _let_1))) (let ((_let_32 (tptp.fn_synthesis_of_atp_25 _let_1))) (let ((_let_33 (tptp.fn_synthesis_of_atp_6 _let_1))) (let ((_let_34 (tptp.fn_atp_synthase_26 X))) (let ((_let_35 (tptp.fn_synthesis_of_atp_27 _let_1))) (let ((_let_36 (tptp.fn_passive_transport_25 _let_6))) (let ((_let_37 (tptp.fn_atp_synthase_44 X))) (let ((_let_38 (tptp.fn_passive_transport_6 _let_6))) (let ((_let_39 (tptp.fn_atp_synthase_41 X))) (let ((_let_40 (tptp.fn_passive_transport_7 _let_6))) (let ((_let_41 (tptp.fn_atp_synthase_30 X))) (let ((_let_42 (tptp.fn_atp_synthase_35 X))) (let ((_let_43 (tptp.fn_hydrophilic_channel_1 _let_42))) (let ((_let_44 (tptp.fn_atp_synthase_42 X))) (let ((_let_45 (tptp.fn_hydrophilic_channel_2 _let_42))) (let ((_let_46 (tptp.fn_atp_synthase_29 X))) (let ((_let_47 (tptp.fn_kinetic_energy_1 _let_10))) (let ((_let_48 (tptp.fn_atp_synthase_47 X))) (let ((_let_49 (tptp.fn_biomembrane_63 _let_8))) (let ((_let_50 (tptp.fn_atp_synthase_40 X))) (let ((_let_51 (tptp.fn_atp_synthase_32 X))) (let ((_let_52 (tptp.fn_knob_1 _let_51))) (let ((_let_53 (tptp.fn_atp_synthase_22 X))) (let ((_let_54 (tptp.fn_atp_synthase_38 X))) (let ((_let_55 (tptp.fn_atp_synthase_33 X))) (let ((_let_56 (tptp.fn_reactant_2 _let_18))) (let ((_let_57 (tptp.fn_atp_synthase_15 X))) (let ((_let_58 (tptp.fn_atp_synthase_16 X))) (let ((_let_59 (tptp.fn_atp_synthase_14 X))) (let ((_let_60 (tptp.fn_atp_synthase_11 X))) (let ((_let_61 (tptp.fn_atp_synthase_12 X))) (let ((_let_62 (tptp.fn_atp_synthase_8 X))) (let ((_let_63 (tptp.fn_atp_synthase_4 X))) (let ((_let_64 (tptp.fn_atp_synthase_13 X))) (let ((_let_65 (tptp.fn_atp_synthase_1 X))) (let ((_let_66 (tptp.fn_atp_synthase_5 X))) (let ((_let_67 (tptp.fn_atp_synthase_6 X))) (=> (tptp.atp_synthase_1 X) (and (tptp.original_name_2 X |tptp.'ATP-Synthase'|) (tptp.user_description_2 X |tptp.'ATP synthase is a general term for an enzyme that can synthesize adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate by using a form of energy. This energy is often in the form of protons moving down an electrochemical gradient, such as from the lumen into the stroma of chloroplasts or from the inter-membrane space into the matrix in mitochondria.'|) (tptp.concept2words_2 X |tptp.'atp synthase complex'|) (tptp.concept2words_2 X |tptp.'atp-synthase-complex'|) (tptp.concept2words_2 X |tptp.'atp synthase'|) (tptp.concept2words_2 X |tptp.'atp-synthase'|) (tptp.protein_complex_1 X) (not (tptp.aquaporin_1 X)) (not (tptp.gated_channel_1 X)) (tptp.stator_1 _let_65) (tptp.peptide_bond_1 _let_63) (tptp.quantity_value_1 _let_66) (tptp.speed_value_1 _let_67) (tptp.quantity_value_1 _let_62) (tptp.outside_face_1 _let_60) (tptp.hydrophilic_end_1 _let_61) (tptp.rotor_1 _let_64) (tptp.hydrophilic_end_1 _let_59) (tptp.size_value_1 _let_57) (tptp.size_value_1 _let_58) (tptp.organic_molecule_1 _let_20) (tptp.molecule_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.ribonucleotide_1 _let_20) (tptp.nucleoside_triphosphate_1 _let_20) (tptp.atp_1 _let_20) (tptp.phosphorylation_1 _let_53) (tptp.chemical_reaction_1 _let_53) (tptp.free_energy_1 _let_22) (tptp.structural_complexity_value_1 _let_28) (tptp.structural_complexity_value_1 _let_29) (tptp.free_energy_1 _let_34) (tptp.quantity_value_1 _let_26) (tptp.quantity_value_1 _let_24) (tptp.channel_protein_1 _let_46) (tptp.move_through_1 _let_41) (tptp.expose_1 _let_12) (tptp.knob_1 _let_51) (tptp.rod_1 _let_55) (tptp.chemical_reaction_1 _let_1) (tptp.synthesis_of_organic_molecule_1 _let_1) (tptp.anabolic_pathway_1 _let_1) (tptp.synthesis_of_atp_1 _let_1) (tptp.hydrophilic_channel_1 _let_42) (tptp.expose_1 _let_14) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.adp_1 _let_54) (tptp.reactant_1 _let_18) (tptp.tangible_entity_1 _let_50) (tptp.phospholipid_bilayer_1 _let_50) (tptp.rate_value_1 _let_39) (tptp.center_1 _let_44) (tptp.move_through_1 _let_37) (tptp.kinetic_energy_1 _let_10) (tptp.facilitated_diffusion_1 _let_6) (tptp.constant_motion_1 _let_48) (tptp.chemical_reaction_1 _let_56) (tptp.phosphorylation_1 _let_52) (tptp.chemical_reaction_1 _let_52) (tptp.tangible_entity_1 _let_49) (tptp.phospholipid_bilayer_1 _let_49) (tptp.constant_motion_1 _let_47) (tptp.channel_protein_1 _let_45) (tptp.center_1 _let_43) (tptp.property_node_1 _let_40) (tptp.rate_value_1 _let_38) (tptp.spatial_entity_1 _let_36) (tptp.biomembrane_1 _let_36) (tptp.property_node_1 _let_35) (tptp.free_energy_1 _let_33) (tptp.property_node_1 _let_32) (tptp.property_node_1 _let_31) (tptp.property_node_1 _let_30) (tptp.structural_complexity_value_1 _let_27) (tptp.quantity_value_1 _let_25) (tptp.quantity_value_1 _let_23) (tptp.free_energy_1 _let_21) (tptp.chemical_entity_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.organic_molecule_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.move_through_1 _let_9) (tptp.move_through_1 _let_7) (tptp.structural_complexity_value_1 _let_5) (tptp.structural_complexity_value_1 _let_4) (tptp.organic_molecule_1 _let_3) (tptp.molecule_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.ribonucleotide_1 _let_2) (tptp.nucleoside_triphosphate_1 _let_2) (tptp.atp_1 _let_2) (tptp.speed_2 _let_48 _let_67) (tptp.instrument_2 _let_6 X) (tptp.agent_2 _let_6 X) (tptp.quantity_2 _let_10 _let_66) (tptp.directly_proportional_2 _let_67 _let_66) (tptp.path_2 _let_37 _let_42) (not (= _let_37 _let_41)) (tptp.directly_proportional_2 _let_62 _let_39) (tptp.is_opposite_2 _let_61 _let_59) (tptp.has_part_2 _let_8 X) (tptp.site_2 _let_14 _let_42) (tptp.site_2 _let_14 _let_59) (tptp.facilitates_2 _let_42 _let_6) (tptp.subevent_2 _let_1 _let_53) (tptp.is_between_2 _let_55 _let_51) (tptp.is_between_2 _let_55 _let_64) (tptp.element_2 X _let_65) (tptp.element_2 X _let_51) (tptp.element_2 X _let_64) (tptp.facilitates_2 X _let_41) (tptp.possesses_2 X _let_63) (tptp.quantity_2 X _let_62) (tptp.is_inside_2 X _let_50) (tptp.size_2 X _let_58) (tptp.is_across_2 X _let_8) (tptp.has_region_2 X _let_44) (tptp.has_region_2 X _let_61) (tptp.has_region_2 X _let_60) (tptp.has_region_2 X _let_42) (tptp.has_region_2 X _let_59) (tptp.has_function_2 X _let_1) (tptp.has_function_2 X _let_6) (tptp.facilitates_2 _let_51 _let_1) (tptp.is_at_2 _let_51 _let_55) (tptp.is_opposite_2 _let_59 _let_61) (tptp.is_at_2 _let_59 _let_60) (tptp.site_2 _let_12 _let_59) (tptp.site_2 _let_12 _let_42) (tptp.the_scalar_value_2 _let_58 tptp.big_0) (tptp.scalar_unit_class_2 _let_58 tptp.polypeptide_0) (tptp.greater_than_2 _let_58 _let_57) (not (= _let_41 _let_37)) (tptp.agent_2 _let_41 X) (tptp.in_event_2 _let_18 _let_1) (tptp.plays_2 _let_54 _let_18) (tptp.element_2 X _let_55) (tptp.possesses_2 _let_54 _let_34) (tptp.raw_material_2 _let_1 _let_54) (tptp.structural_complexity_2 _let_54 _let_29) (tptp.has_function_2 _let_51 _let_53) (tptp.object_2 _let_14 X) (tptp.object_2 _let_12 X) (tptp.base_2 _let_37 _let_8) (tptp.has_function_2 _let_8 _let_41) (tptp.has_part_2 _let_8 _let_50) (tptp.possesses_2 X _let_10) (tptp.object_2 _let_48 X) (tptp.is_at_2 _let_42 _let_44) (tptp.base_2 _let_41 _let_8) (tptp.path_2 _let_6 _let_8) (tptp.has_function_2 _let_8 _let_37) (tptp.subevent_2 _let_6 _let_37) (tptp.rate_2 _let_6 _let_39) (tptp.quantity_2 _let_34 _let_26) (tptp.called_2 _let_24 |tptp.'FE_p'|) (tptp.structural_complexity_2 _let_20 _let_28) (tptp.greater_than_2 _let_28 _let_29) (tptp.result_2 _let_1 _let_20) (tptp.possesses_2 _let_20 _let_22) (tptp.quantity_2 _let_22 _let_24) (tptp.greater_than_2 _let_24 _let_26) (tptp.called_2 _let_26 |tptp.'FE_r'|) (= _let_1 _let_56) (= _let_54 _let_19) (= _let_55 (tptp.fn_protein_complex_1 X)) (= _let_29 _let_5) (= _let_54 _let_17) (= _let_54 _let_16) (= _let_53 _let_52) (= X _let_15) (= X _let_13) (= _let_37 _let_9) (= _let_41 _let_9) (= _let_50 _let_49) (= _let_48 _let_47) (= X _let_11) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_41 _let_7) (= (tptp.fn_atp_synthase_43 X) _let_40) (= _let_39 _let_38) (= _let_37 _let_7) (= _let_8 _let_36) (= (tptp.fn_atp_synthase_20 X) _let_35) (= _let_34 _let_33) (= (tptp.fn_atp_synthase_18 X) _let_32) (= (tptp.fn_atp_synthase_17 X) _let_31) (= (tptp.fn_atp_synthase_19 X) _let_30) (= _let_29 _let_4) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_3) (= _let_20 _let_2) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.atrium_1 X) (and (tptp.original_name_2 X |tptp.'Atrium'|) (tptp.user_description_2 X |tptp.'Receiving chamber of the vertebrate heart; blood from the body returns in veins to the atrium and is transferred to a ventricle.'|) (tptp.concept2words_2 X tptp.atria) (tptp.concept2words_2 X tptp.atrium) (tptp.organ_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_attach_1 X))) (let ((_let_2 (tptp.fn_attach_2 X))) (=> (tptp.attach_1 X) (and (tptp.original_name_2 X |tptp.'Attach'|) (tptp.concept2words_2 X tptp.attach) (tptp.concept2words_2 X tptp.connect) (tptp.concept2words_2 X tptp.link) (tptp.concept2words_2 X tptp.tie) (tptp.concept2words_2 X tptp.bond) (tptp.concept2words_2 X tptp.hold) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_attack_1 X))) (=> (tptp.attack_1 X) (and (tptp.original_name_2 X |tptp.'Attack'|) (tptp.user_description_2 X |tptp.'Aggressive action towards another.'|) (tptp.concept2words_2 X tptp.attack) (tptp.interact_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_attract_1 X))) (let ((_let_2 (tptp.fn_attract_2 X))) (=> (tptp.attract_1 X) (and (tptp.original_name_2 X |tptp.'Attract'|) (tptp.user_description_2 X |tptp.'Exert a force on (a body) causing it to approach or prevent it from moving away'|) (tptp.concept2words_2 X |tptp.'affinity for'|) (tptp.concept2words_2 X |tptp.'has affinity'|) (tptp.concept2words_2 X tptp.attract) (tptp.interact_1 X) (tptp.entity_1 _let_1) (tptp.entity_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.agent_2 X X2) (tptp.object_2 X X1) (tptp.object_2 X X2) (tptp.cation_1 X1) (tptp.attraction_between_oppositely_charged_entities_1 X) (tptp.anion_1 X2)) (and (tptp.attraction_between_anion_and_cation_1 X) (= (tptp.fn_attraction_between_anion_and_cation_3 X) X1) (= (tptp.fn_attraction_between_anion_and_cation_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_attraction_between_anion_and_cation_4 X))) (let ((_let_2 (tptp.fn_ionic_bond_6 _let_1))) (let ((_let_3 (tptp.fn_ionic_bond_4 _let_1))) (let ((_let_4 (tptp.fn_attraction_between_anion_and_cation_2 X))) (let ((_let_5 (tptp.fn_ionic_bond_5 _let_1))) (let ((_let_6 (tptp.fn_attraction_between_anion_and_cation_3 X))) (=> (tptp.attraction_between_anion_and_cation_1 X) (and (tptp.original_name_2 X |tptp.'Attraction-Between-Anion-And-Cation'|) (tptp.user_description_2 X |tptp.'The Attraction Between A Cation And An Anion is Electrostatic attraction.'|) (tptp.concept2words_2 X |tptp.'attract each other'|) (tptp.concept2words_2 X |tptp.'attraction between anion and cation'|) (tptp.concept2words_2 X |tptp.'attraction-between-anion-and-cation'|) (tptp.attraction_between_oppositely_charged_entities_1 X) (tptp.anion_1 _let_4) (tptp.cation_1 _let_6) (tptp.ionic_bond_1 _let_1) (tptp.cation_1 _let_5) (tptp.anion_1 _let_3) (tptp.attraction_between_oppositely_charged_entities_1 _let_2) (tptp.agent_2 X _let_4) (tptp.agent_2 X _let_6) (tptp.is_between_2 _let_1 _let_4) (tptp.object_2 X _let_4) (tptp.object_2 X _let_6) (tptp.is_between_2 _let_1 _let_6) (tptp.result_2 X _let_1) (= _let_6 _let_5) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_attract_1 X))) (let ((_let_2 (tptp.fn_attract_2 X))) (let ((_let_3 (tptp.fn_attraction_between_oppositely_charged_entities_7 X))) (let ((_let_4 (tptp.fn_attraction_between_oppositely_charged_entities_1 X))) (let ((_let_5 (tptp.fn_attraction_between_oppositely_charged_entities_2 X))) (let ((_let_6 (tptp.fn_attraction_between_oppositely_charged_entities_4 X))) (let ((_let_7 (tptp.fn_attraction_between_oppositely_charged_entities_3 X))) (=> (tptp.attraction_between_oppositely_charged_entities_1 X) (and (tptp.original_name_2 X |tptp.'Attraction-Between-Oppositely-Charged-Entities'|) (tptp.user_description_2 X |tptp.'It is the attraction between two oppositely charged entities.'|) (tptp.concept2words_2 X |tptp.'electrical attraction'|) (tptp.concept2words_2 X |tptp.'electrical-attraction'|) (tptp.concept2words_2 X tptp.attract) (tptp.concept2words_2 X |tptp.'attraction between oppositely charged entity'|) (tptp.concept2words_2 X |tptp.'attraction-between-oppositely-charged-entity'|) (tptp.attract_1 X) (tptp.charge_value_1 _let_4) (tptp.charge_value_1 _let_5) (tptp.chemical_bond_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_3) (tptp.result_2 X _let_7) (tptp.agent_2 X _let_6) (tptp.object_2 X _let_6) (tptp.charge_2 _let_6 _let_5) (tptp.charge_2 _let_3 _let_4) (tptp.agent_2 X _let_3) (tptp.object_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))))))) (forall ((X $$unsorted)) (=> (tptp.auditory_space_1 X) (and (tptp.original_name_2 X |tptp.'Auditory-Space'|) (tptp.user_description_2 X |tptp.'A space in the ear which is surrounded by anatomical structures.'|) (tptp.concept2words_2 X |tptp.'auditory space'|) (tptp.concept2words_2 X |tptp.'auditory-space'|) (tptp.organ_space_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aug_13 X))) (let ((_let_2 (tptp.fn_phosphodiester_bond_29 _let_1))) (let ((_let_3 (tptp.fn_phosphodiester_bond_30 _let_1))) (let ((_let_4 (tptp.fn_phosphodiester_bond_16 _let_1))) (let ((_let_5 (tptp.fn_phosphodiester_bond_15 _let_1))) (let ((_let_6 (tptp.fn_phosphodiester_bond_20 _let_1))) (let ((_let_7 (tptp.fn_phosphodiester_bond_33 _let_1))) (let ((_let_8 (tptp.fn_phosphodiester_bond_14 _let_1))) (let ((_let_9 (tptp.fn_aug_5 X))) (let ((_let_10 (tptp.fn_aug_6 X))) (let ((_let_11 (tptp.fn_aug_12 X))) (let ((_let_12 (tptp.fn_phosphodiester_bond_18 _let_1))) (let ((_let_13 (tptp.fn_aug_7 X))) (let ((_let_14 (tptp.fn_phosphodiester_bond_26 _let_1))) (let ((_let_15 (tptp.fn_aug_9 X))) (let ((_let_16 (tptp.fn_phosphodiester_bond_31 _let_1))) (let ((_let_17 (tptp.fn_phosphodiester_bond_1 _let_1))) (let ((_let_18 (tptp.fn_aug_10 X))) (let ((_let_19 (tptp.fn_phosphodiester_bond_17 _let_1))) (let ((_let_20 (tptp.fn_aug_8 X))) (let ((_let_21 (tptp.fn_phosphodiester_bond_44 _let_1))) (let ((_let_22 (tptp.fn_aug_2 X))) (let ((_let_23 (tptp.fn_aug_1 X))) (=> (tptp.aug_1 X) (and (tptp.original_name_2 X |tptp.'AUG'|) (tptp.user_description_2 X |tptp.'A triplet of nucleotides present on the mRNA that codes for the amino acid, methionine, serves as the start or initiation codon for protein synthesis, and is the place where the first tRNA binds to the mRNA during translation.'|) (tptp.concept2words_2 X |tptp.'start codon'|) (tptp.concept2words_2 X tptp.aug) (tptp.start_codon_1 X) (tptp.carbon_1 _let_23) (tptp.nitrogen_1 _let_22) (tptp.hold_together_1 _let_9) (tptp.ester_linkage_1 _let_10) (tptp.atom_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.hold_together_1 _let_20) (tptp.atomic_number_value_1 _let_15) (tptp.system_1 _let_18) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.phosphodiester_bond_1 _let_1) (tptp.property_node_1 _let_21) (tptp.hold_together_1 _let_19) (tptp.equation_big_node_1 _let_17) (tptp.equation_set_1 _let_16) (tptp.atomic_number_value_1 _let_14) (tptp.atom_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.hold_together_1 _let_8) (tptp.system_1 _let_7) (tptp.system_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.ester_linkage_1 _let_3) (tptp.ester_linkage_1 _let_2) (tptp.possesses_2 X _let_1) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_22) (not (= _let_22 _let_23)) (not (= _let_23 _let_22)) (tptp.called_2 _let_10 |"2"|) (tptp.called_2 _let_15 |tptp.'Atomic_Number'|) (tptp.object_2 _let_9 _let_11) (tptp.is_between_2 _let_10 _let_13) (tptp.object_2 _let_20 _let_13) (tptp.agent_2 _let_20 _let_10) (tptp.has_function_2 _let_10 _let_20) (tptp.object_2 _let_20 _let_11) (tptp.is_between_2 _let_1 _let_11) (tptp.atomic_number_2 _let_11 _let_15) (tptp.has_function_2 _let_1 _let_9) (tptp.agent_2 _let_9 _let_1) (tptp.element_2 _let_1 _let_10) (tptp.is_between_2 _let_10 _let_11) (not (= _let_11 _let_13)) (not (= _let_13 _let_11)) (= (tptp.fn_aug_4 X) _let_21) (= _let_18 _let_7) (= _let_20 _let_19) (= _let_18 _let_6) (= (tptp.fn_aug_3 X) _let_17) (= (tptp.fn_aug_11 X) _let_16) (= _let_15 _let_14) (= _let_11 _let_5) (= _let_13 _let_12) (= _let_11 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.aurelia_1 X) (and (tptp.original_name_2 X |tptp.'Aurelia'|) (tptp.user_description_2 X |tptp.'A genus of scyphozoan jellies, commonly known as moon jellies.'|) (tptp.concept2words_2 X tptp.aurelia) (tptp.scyphozoan_1 X)))) (forall ((X $$unsorted)) (=> (tptp.australopithecine_1 X) (and (tptp.original_name_2 X |tptp.'Australopithecine'|) (tptp.user_description_2 X |tptp.'A member from Australopithecus, a taxon of bipedal human ancestors.'|) (tptp.concept2words_2 X tptp.australopith) (tptp.concept2words_2 X tptp.australopithecine) (tptp.hominid_1 X) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.australopithecus_afarensis_1 X) (and (tptp.original_name_2 X |tptp.'Australopithecus-Afarensis'|) (tptp.user_description_2 X |tptp.'A species of extinct hominin that lived between 3.9 and 2.9 million years ago.'|) (tptp.concept2words_2 X |tptp.'australopithecus afarensis'|) (tptp.concept2words_2 X |tptp.'australopithecus-afarensis'|) (tptp.australopithecine_1 X) (not (tptp.australopithecus_africanus_1 X))))) (forall ((X $$unsorted)) (=> (tptp.australopithecus_africanus_1 X) (and (tptp.original_name_2 X |tptp.'Australopithecus-Africanus'|) (tptp.user_description_2 X |tptp.'A species of extinct hominin that lived between 3.03 and 2.04 million years ago. This species walked fully erect (was bipedal) and had humanlike hands and teeth. However, the brain was only about one-third the size of a modern humans brain.'|) (tptp.concept2words_2 X |tptp.'australopithecus africanus'|) (tptp.concept2words_2 X |tptp.'australopithecus-africanus'|) (tptp.australopithecine_1 X) (not (tptp.australopithecus_afarensis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_authorize_1 X))) (=> (tptp.authorize_1 X) (and (tptp.original_name_2 X |tptp.'Authorize'|) (tptp.concept2words_2 X tptp.authorize) (tptp.concept2words_2 X tptp.authorise) (tptp.concept2words_2 X tptp.pass) (tptp.concept2words_2 X tptp.clear) (tptp.concept2words_2 X tptp.empower) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.agent_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.authorized_1 X) (and (tptp.original_name_2 X |tptp.'Authorized'|) (tptp.concept2words_2 X tptp.authorized) (tptp.concept2words_2 X tptp.authorised) (tptp.cliche_1 X)))) (forall ((X $$unsorted)) (=> (tptp.autocrine_1 X) (and (tptp.original_name_2 X |tptp.'Autocrine'|) (tptp.user_description_2 X |tptp.'Refers to a type of chemical signalling where the secreted molecule acts on the cell that secreted it.'|) (tptp.concept2words_2 X |tptp.'autocrine molecule'|) (tptp.concept2words_2 X tptp.autocrine) (tptp.hormone_1 X)))) (forall ((X $$unsorted)) (=> (tptp.autocrine_signaling_1 X) (and (tptp.original_name_2 X |tptp.'Autocrine-Signaling'|) (tptp.user_description_2 X |tptp.'A process by which a cell secretes a substance that acts on itself to transmit a chemical message.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'signaling of autocrine'|) (tptp.concept2words_2 X |tptp.'autocrine signaling'|) (tptp.concept2words_2 X |tptp.'autocrine-signaling'|) (tptp.local_cell_communication_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autodigestion_2 X))) (let ((_let_2 (tptp.fn_autodigestion_1 X))) (=> (tptp.autodigestion_1 X) (and (tptp.original_name_2 X |tptp.'Autodigestion'|) (tptp.user_description_2 X |tptp.'The destruction of a cell through the action of its own enzymes or the digestion of an enzyme by another molecule of the same enzyme.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X tptp.autodigestion) (tptp.cellular_process_1 X) (tptp.living_entity_1 _let_2) (tptp.entity_1 _let_1) (tptp.object_2 X _let_2) (tptp.agent_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.autoimmune_disease_1 X) (and (tptp.original_name_2 X |tptp.'Autoimmune-Disease'|) (tptp.user_description_2 X |tptp.'Disease condition that arises when the body mounts an immune response against its own cells and tissues.'|) (tptp.concept2words_2 X |tptp.'autoimmune disease'|) (tptp.concept2words_2 X |tptp.'autoimmune-disease'|) (tptp.immune_disorders_1 X) (not (tptp.anaphylactic_shock_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autoionization_of_water_25 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_chemical_equilibrium_reaction_5 X))) (let ((_let_4 (tptp.fn_reversible_reaction_5 X))) (let ((_let_5 (tptp.fn_autoionization_of_water_24 X))) (let ((_let_6 (tptp.fn_make_contact_1 _let_5))) (let ((_let_7 (tptp.fn_water_83 _let_1))) (let ((_let_8 (tptp.fn_chemical_equilibrium_reaction_6 X))) (let ((_let_9 (tptp.fn_autoionization_of_water_22 X))) (let ((_let_10 (tptp.fn_exergonic_reaction_10 _let_9))) (let ((_let_11 (tptp.fn_chemical_equilibrium_reaction_9 X))) (let ((_let_12 (tptp.fn_reversible_reaction_7 X))) (let ((_let_13 (tptp.fn_chemical_equilibrium_reaction_4 X))) (let ((_let_14 (tptp.fn_autoionization_of_water_23 X))) (let ((_let_15 (tptp.fn_chemical_3 _let_14))) (let ((_let_16 (tptp.fn_exergonic_reaction_11 _let_9))) (let ((_let_17 (tptp.fn_autoionization_of_water_14 X))) (let ((_let_18 (tptp.fn_reverse_reaction_7 _let_17))) (let ((_let_19 (tptp.fn_autoionization_of_water_15 X))) (let ((_let_20 (tptp.fn_chemical_reaction_1 _let_19))) (let ((_let_21 (tptp.fn_autoionization_of_water_21 X))) (let ((_let_22 (tptp.fn_chemical_reaction_1 _let_21))) (let ((_let_23 (tptp.fn_chemical_reaction_2 _let_19))) (let ((_let_24 (tptp.fn_make_contact_2 _let_5))) (let ((_let_25 (tptp.fn_autoionization_of_water_18 X))) (let ((_let_26 (tptp.fn_autoionization_of_water_17 X))) (let ((_let_27 (tptp.fn_autoionization_of_water_16 X))) (let ((_let_28 (tptp.fn_autoionization_of_water_20 X))) (let ((_let_29 (tptp.fn_reverse_reaction_8 _let_17))) (let ((_let_30 (tptp.fn_autoionization_of_water_19 X))) (let ((_let_31 (tptp.fn_autoionization_of_water_1 X))) (let ((_let_32 (tptp.fn_autoionization_of_water_4 X))) (let ((_let_33 (tptp.fn_autoionization_of_water_2 X))) (let ((_let_34 (tptp.fn_autoionization_of_water_3 X))) (=> (tptp.autoionization_of_water_1 X) (and (tptp.original_name_2 X |tptp.'Autoionization-Of-Water'|) (tptp.user_description_2 X |tptp.'Autoionization of water is the reversible reaction during which water dissociates forming hydroxide (OH-) and hydronium (H3O+) ions and reforms water from these same ions at an equal rate.'|) (tptp.concept2words_2 X |tptp.'dissociation and formation of water molecule'|) (tptp.concept2words_2 X |tptp.'dissociation-and-formation-of-water-molecule'|) (tptp.concept2words_2 X |tptp.'self ionization of water'|) (tptp.concept2words_2 X |tptp.'self-ionization-of-water'|) (tptp.concept2words_2 X |tptp.'autodissociation of water'|) (tptp.concept2words_2 X |tptp.'autodissociation-of-water'|) (tptp.concept2words_2 X |tptp.'dissociation of water'|) (tptp.concept2words_2 X |tptp.'dissociation-of-water'|) (tptp.concept2words_2 X tptp.autoionize) (tptp.concept2words_2 X tptp.dissociate) (tptp.concept2words_2 X |tptp.'autoionization of water'|) (tptp.concept2words_2 X |tptp.'autoionization-of-water'|) (tptp.chemical_equilibrium_reaction_1 X) (tptp.concentration_value_1 _let_31) (tptp.concentration_value_1 _let_33) (tptp.quantity_value_1 _let_34) (tptp.quantity_value_1 _let_32) (tptp.system_1 (tptp.fn_autoionization_of_water_7 X)) (tptp.reverse_reaction_1 _let_17) (tptp.chemical_reaction_1 _let_19) (tptp.hydroxide_ion_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.spatial_entity_1 _let_26) (tptp.tangible_entity_1 _let_26) (tptp.polar_molecule_1 _let_26) (tptp.hydrophilic_compound_1 _let_26) (tptp.water_molecule_1 _let_26) (tptp.entity_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.tangible_entity_1 _let_25) (tptp.polar_molecule_1 _let_25) (tptp.water_molecule_1 _let_25) (tptp.hydrogen_ion_1 _let_30) (tptp.hydronium_ion_1 _let_28) (tptp.chemical_reaction_1 _let_21) (tptp.forward_reaction_1 _let_21) (tptp.chemical_dissociation_reaction_1 _let_9) (tptp.water_1 _let_14) (tptp.collide_1 _let_5) (tptp.water_1 _let_1) (tptp.chemical_1 _let_29) (tptp.spatial_entity_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_10) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.polar_molecule_1 _let_7) (tptp.hydrophilic_compound_1 _let_7) (tptp.water_molecule_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.called_2 _let_32 |tptp.'Quantity_H3O'|) (tptp.called_2 _let_34 |tptp.'Quantity_OH'|) (tptp.called_2 _let_33 |tptp.'Concentration_OH'|) (tptp.called_2 _let_31 |tptp.'Concentration_H3O'|) (tptp.raw_material_2 _let_19 _let_25) (tptp.result_2 X _let_27) (tptp.raw_material_2 X _let_26) (tptp.quantity_2 _let_27 _let_34) (tptp.concentration_2 _let_27 _let_33) (not (= _let_26 _let_25)) (not (= _let_25 _let_26)) (tptp.quantity_2 _let_28 _let_32) (tptp.concentration_2 _let_28 _let_31) (tptp.subevent_2 _let_21 _let_9) (tptp.subevent_2 _let_21 _let_19) (tptp.first_subevent_2 _let_21 _let_9) (tptp.result_2 _let_9 _let_30) (tptp.has_state_2 _let_1 _let_14) (tptp.object_2 _let_5 _let_25) (tptp.base_2 _let_5 _let_30) (tptp.raw_material_2 _let_9 _let_26) (tptp.result_2 _let_21 _let_28) (tptp.raw_material_2 _let_19 _let_30) (tptp.result_2 _let_9 _let_27) (tptp.result_2 _let_19 _let_28) (tptp.has_part_2 _let_14 _let_27) (tptp.raw_material_2 _let_17 _let_28) (tptp.has_part_2 _let_14 _let_28) (tptp.intensity_2 _let_5 |tptp.'*strong'|) (tptp.raw_material_2 X _let_25) (tptp.result_2 _let_17 _let_25) (tptp.result_2 _let_17 _let_26) (tptp.raw_material_2 _let_21 _let_26) (tptp.raw_material_2 _let_21 _let_25) (tptp.subevent_2 X _let_21) (tptp.result_2 _let_21 _let_27) (tptp.raw_material_2 _let_17 _let_27) (tptp.subevent_2 X _let_17) (tptp.result_2 X _let_28) (tptp.has_part_2 _let_1 _let_26) (tptp.has_part_2 _let_1 _let_25) (tptp.called_2 _let_25 |"1"|) (tptp.same_type_2 _let_26 _let_25) (tptp.same_type_2 _let_25 _let_26) (= _let_25 _let_6) (= _let_30 _let_24) (= _let_26 _let_10) (= _let_28 _let_22) (= _let_30 _let_23) (= _let_27 _let_16) (= _let_28 _let_20) (= _let_27 _let_15) (= _let_14 _let_29) (= _let_28 _let_18) (= _let_21 _let_12) (= _let_26 _let_8) (= _let_25 _let_4) (= _let_25 _let_3) (= _let_28 _let_13) (= _let_17 (tptp.fn_chemical_equilibrium_reaction_10 X)) (= _let_27 _let_13) (= _let_21 _let_11) (= _let_26 _let_7) (= _let_25 _let_2) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_13) (= _let_13 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.automobile_1 X) (and (tptp.original_name_2 X |tptp.'Automobile'|) (tptp.user_description_2 X |tptp.'Device used for transportation.'|) (tptp.concept2words_2 X tptp.car) (tptp.concept2words_2 X tptp.auto) (tptp.concept2words_2 X tptp.automobile) (tptp.device_1 X) (not (tptp.centrifuge_1 X)) (not (tptp.needle_1 X)) (not (tptp.optical_device_1 X)) (not (tptp.test_tube_1 X))))) (forall ((X $$unsorted)) (=> (tptp.autonomic_nervous_1 X) (and (tptp.original_name_2 X |tptp.'Autonomic-Nervous'|) (tptp.user_description_2 X |tptp.'Part of the vertebrate peripheral nervous system largely under subconscious control; it consists of the sympathetic, parasympathetic, and enteric divisions. The autonomic nervous system regulates the body_'s internal environment.'|) (tptp.concept2words_2 X |tptp.'autonomic nervous'|) (tptp.concept2words_2 X |tptp.'autonomic-nervous'|) (tptp.peripheral_nervous_system_1 X) (not (tptp.sensory_system_1 X)) (not (tptp.sensory_division_1 X)) (not (tptp.motor_system_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autophagy_14 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_42 _let_1))) (let ((_let_3 (tptp.fn_autophagy_49 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_autophagy_6 X))) (let ((_let_6 (tptp.fn_intracellular_process_1 _let_5))) (let ((_let_7 (tptp.fn_intracellular_process_1 X))) (let ((_let_8 (tptp.fn_autophagy_12 X))) (let ((_let_9 (tptp.fn_attach_2 _let_8))) (let ((_let_10 (tptp.fn_autophagy_11 X))) (let ((_let_11 (tptp.fn_detach_2 _let_10))) (let ((_let_12 (tptp.fn_autophagy_33 X))) (let ((_let_13 (tptp.fn_organelle_1 _let_12))) (let ((_let_14 (tptp.fn_autophagy_9 X))) (let ((_let_15 (tptp.fn_impair_1 _let_14))) (let ((_let_16 (tptp.fn_autophagy_28 X))) (let ((_let_17 (tptp.fn_impair_1 _let_16))) (let ((_let_18 (tptp.fn_autophagy_27 X))) (let ((_let_19 (tptp.fn_impair_1 _let_18))) (let ((_let_20 (tptp.fn_autophagy_25 X))) (let ((_let_21 (tptp.fn_send_2 _let_20))) (let ((_let_22 (tptp.fn_autophagy_15 X))) (let ((_let_23 (tptp.fn_impair_1 _let_22))) (let ((_let_24 (tptp.fn_autophagy_23 X))) (let ((_let_25 (tptp.fn_release_1 _let_24))) (let ((_let_26 (tptp.fn_detach_1 _let_10))) (let ((_let_27 (tptp.fn_autophagy_29 X))) (let ((_let_28 (tptp.fn_take_in_1 _let_27))) (let ((_let_29 (tptp.fn_autophagy_31 X))) (let ((_let_30 (tptp.fn_release_2 _let_29))) (let ((_let_31 (tptp.fn_autophagy_30 X))) (let ((_let_32 (tptp.fn_release_2 _let_31))) (let ((_let_33 (tptp.fn_autophagy_26 X))) (let ((_let_34 (tptp.fn_impair_1 _let_33))) (let ((_let_35 (tptp.fn_autophagy_21 X))) (let ((_let_36 (tptp.fn_add_2 _let_35))) (let ((_let_37 (tptp.fn_organelle_2 _let_12))) (let ((_let_38 (tptp.fn_autophagy_10 X))) (let ((_let_39 (tptp.fn_biomembrane_15 _let_38))) (let ((_let_40 (tptp.fn_biomembrane_14 _let_38))) (let ((_let_41 (tptp.fn_release_2 _let_24))) (let ((_let_42 (tptp.fn_add_1 _let_35))) (let ((_let_43 (tptp.fn_autophagy_22 X))) (let ((_let_44 (tptp.fn_create_1 _let_43))) (let ((_let_45 (tptp.fn_autophagy_35 X))) (let ((_let_46 (tptp.fn_eukaryotic_cell_45 _let_1))) (let ((_let_47 (tptp.fn_autophagy_43 X))) (let ((_let_48 (tptp.fn_eukaryotic_cell_27 _let_1))) (let ((_let_49 (tptp.fn_autophagy_37 X))) (let ((_let_50 (tptp.fn_eukaryotic_cell_28 _let_1))) (let ((_let_51 (tptp.fn_eukaryotic_cell_59 _let_1))) (let ((_let_52 (tptp.fn_autophagy_36 X))) (let ((_let_53 (tptp.fn_eukaryotic_cell_60 _let_1))) (let ((_let_54 (tptp.fn_eukaryotic_cell_26 _let_1))) (let ((_let_55 (tptp.fn_autophagy_39 X))) (let ((_let_56 (tptp.fn_eukaryotic_cell_31 _let_1))) (let ((_let_57 (tptp.fn_autophagy_45 X))) (let ((_let_58 (tptp.fn_eukaryotic_cell_29 _let_1))) (let ((_let_59 (tptp.fn_autophagy_44 X))) (let ((_let_60 (tptp.fn_eukaryotic_cell_20 _let_1))) (let ((_let_61 (tptp.fn_autophagy_38 X))) (let ((_let_62 (tptp.fn_eukaryotic_cell_19 _let_1))) (let ((_let_63 (tptp.fn_autophagy_41 X))) (let ((_let_64 (tptp.fn_eukaryotic_cell_30 _let_1))) (let ((_let_65 (tptp.fn_autophagy_42 X))) (let ((_let_66 (tptp.fn_eukaryotic_cell_24 _let_1))) (let ((_let_67 (tptp.fn_autophagy_40 X))) (let ((_let_68 (tptp.fn_eukaryotic_cell_44 _let_1))) (let ((_let_69 (tptp.fn_autophagy_46 X))) (let ((_let_70 (tptp.fn_eukaryotic_cell_41 _let_1))) (let ((_let_71 (tptp.fn_autophagy_34 X))) (let ((_let_72 (tptp.fn_autophagy_13 X))) (let ((_let_73 (tptp.fn_lysosomal_enzyme_17 _let_72))) (let ((_let_74 (tptp.fn_lysosomal_membrane_6 _let_38))) (let ((_let_75 (tptp.fn_autophagy_24 X))) (let ((_let_76 (tptp.fn_autophagy_16 X))) (let ((_let_77 (tptp.fn_autophagy_32 X))) (let ((_let_78 (tptp.fn_autophagy_17 X))) (let ((_let_79 (tptp.fn_debris_1 _let_78))) (let ((_let_80 (tptp.fn_autophagy_20 X))) (let ((_let_81 (tptp.fn_autophagy_7 X))) (let ((_let_82 (tptp.fn_move_1 _let_81))) (let ((_let_83 (tptp.fn_autophagy_8 X))) (let ((_let_84 (tptp.fn_autophagy_19 X))) (let ((_let_85 (tptp.fn_move_1 _let_84))) (let ((_let_86 (tptp.fn_autophagy_18 X))) (let ((_let_87 (tptp.fn_release_1 _let_29))) (let ((_let_88 (tptp.fn_autophagy_1 X))) (let ((_let_89 (tptp.fn_autophagy_5 X))) (let ((_let_90 (tptp.fn_autophagy_4 X))) (let ((_let_91 (tptp.fn_autophagy_3 X))) (let ((_let_92 (tptp.fn_autophagy_2 X))) (=> (tptp.autophagy_1 X) (and (tptp.original_name_2 X |tptp.'Autophagy'|) (tptp.user_description_2 X |tptp.'Autophagy is a catabolic process involving the degradation of a cell_'s own components through the lysosomal machinery. Lysosomal enzymes recycle the cell_'s organic material by this process.'|) (tptp.concept2words_2 X tptp.autophagocytosis) (tptp.concept2words_2 X |tptp.'self digestion'|) (tptp.concept2words_2 X tptp.degrade) (tptp.concept2words_2 X |tptp.'undergo autophagy'|) (tptp.concept2words_2 X tptp.destroy) (tptp.concept2words_2 X tptp.autophagy) (tptp.intracellular_process_1 X) (not (tptp.artificial_selection_with_antibiotics_1 X)) (not (tptp.selective_degradation_1 X)) (tptp.cellular_structure_1 _let_88) (tptp.organic_molecule_1 _let_92) (tptp.cytoplasm_1 _let_91) (tptp.take_apart_1 _let_90) (tptp.take_apart_1 _let_89) (tptp.cellular_recycling_1 _let_5) (tptp.take_in_1 _let_81) (tptp.organelle_1 _let_83) (tptp.destroy_1 _let_14) (tptp.tangible_entity_1 _let_38) (tptp.biomembrane_1 _let_38) (tptp.lysosomal_membrane_1 _let_38) (tptp.detach_1 _let_10) (tptp.attach_1 _let_8) (tptp.tangible_entity_1 _let_72) (tptp.lysosomal_enzyme_1 _let_72) (tptp.spatial_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.destroy_1 _let_22) (tptp.impair_1 _let_22) (tptp.cellular_structure_1 _let_76) (tptp.debris_1 _let_78) (tptp.organelle_1 _let_86) (tptp.take_in_1 _let_84) (tptp.vesicle_1 _let_80) (tptp.fusion_1 _let_35) (tptp.create_1 _let_43) (tptp.release_1 _let_24) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_75) (tptp.send_1 _let_20) (tptp.break_1 _let_33) (tptp.destroy_1 _let_18) (tptp.destroy_1 _let_16) (tptp.take_in_1 _let_27) (tptp.release_1 _let_31) (tptp.release_1 _let_29) (tptp.aqueous_solution_1 _let_77) (tptp.lysosome_1 _let_12) (tptp.tangible_entity_1 _let_71) (tptp.phospholipid_bilayer_1 _let_71) (tptp.spatial_entity_1 _let_45) (tptp.substance_1 _let_45) (tptp.cytosol_1 _let_45) (tptp.volume_value_1 _let_52) (tptp.size_value_1 _let_49) (tptp.smooth_endoplasmic_reticulum_1 _let_61) (tptp.tangible_entity_1 _let_55) (tptp.nucleus_1 _let_55) (tptp.golgi_apparatus_1 _let_67) (tptp.rough_endoplasmic_reticulum_1 _let_63) (tptp.eukaryotic_chromosome_1 _let_65) (tptp.chromosome_1 _let_65) (tptp.ribosome_1 _let_47) (tptp.eukaryotic_ribosome_1 _let_47) (tptp.spatial_entity_1 _let_59) (tptp.biomembrane_1 _let_59) (tptp.plasma_membrane_1 _let_59) (tptp.mixture_1 _let_57) (tptp.cytoplasm_1 _let_57) (tptp.surface_1 _let_69) (tptp.take_in_1 _let_3) (tptp.tangible_entity_1 _let_87) (tptp.spatial_entity_1 _let_85) (tptp.spatial_entity_1 _let_82) (tptp.destroy_1 _let_79) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_74) (tptp.release_1 _let_73) (tptp.tangible_entity_1 _let_70) (tptp.phospholipid_bilayer_1 _let_70) (tptp.surface_1 _let_68) (tptp.golgi_apparatus_1 _let_66) (tptp.eukaryotic_chromosome_1 _let_64) (tptp.chromosome_1 _let_64) (tptp.rough_endoplasmic_reticulum_1 _let_62) (tptp.smooth_endoplasmic_reticulum_1 _let_60) (tptp.spatial_entity_1 _let_58) (tptp.biomembrane_1 _let_58) (tptp.plasma_membrane_1 _let_58) (tptp.mixture_1 _let_56) (tptp.cytoplasm_1 _let_56) (tptp.tangible_entity_1 _let_54) (tptp.nucleus_1 _let_54) (tptp.property_node_1 _let_53) (tptp.volume_value_1 _let_51) (tptp.property_node_1 _let_50) (tptp.size_value_1 _let_48) (tptp.ribosome_1 _let_46) (tptp.eukaryotic_ribosome_1 _let_46) (tptp.entity_1 _let_44) (tptp.spatial_entity_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.aqueous_solution_1 _let_40) (tptp.aqueous_solution_1 _let_39) (tptp.aqueous_solution_1 _let_37) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_34) (tptp.tangible_entity_1 _let_32) (tptp.tangible_entity_1 _let_30) (tptp.tangible_entity_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.tangible_entity_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.biomembrane_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.cell_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.is_inside_2 _let_88 _let_80) (tptp.has_state_2 _let_83 _let_76) (tptp.agent_2 _let_14 _let_72) (tptp.next_event_2 _let_10 _let_8) (tptp.called_2 _let_10 |tptp.'RemoveOld'|) (tptp.called_2 _let_8 |tptp.'AttachNew'|) (tptp.has_part_2 _let_1 _let_12) (tptp.causes_2 _let_22 _let_5) (tptp.result_2 _let_22 _let_92) (tptp.called_2 _let_92 |tptp.'new entity'|) (tptp.is_inside_2 _let_76 _let_80) (tptp.called_2 _let_76 |tptp.'old entity'|) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_81) (tptp.subevent_2 X _let_22) (tptp.subevent_2 X _let_43) (tptp.subevent_2 X _let_35) (tptp.agent_2 X _let_72) (tptp.object_2 X _let_78) (tptp.site_2 X _let_12) (tptp.first_subevent_2 X _let_3) (tptp.first_subevent_2 X _let_81) (tptp.destination_2 _let_84 _let_72) (tptp.object_2 _let_84 _let_91) (tptp.next_event_2 _let_35 _let_22) (tptp.next_event_2 _let_43 _let_35) (tptp.enables_2 _let_75 _let_20) (tptp.object_2 _let_20 _let_72) (tptp.causes_2 _let_33 _let_31) (tptp.agent_2 _let_90 _let_72) (tptp.site_2 _let_90 _let_12) (tptp.agent_2 _let_18 _let_72) (tptp.site_2 _let_18 _let_12) (tptp.agent_2 _let_89 _let_72) (tptp.site_2 _let_89 _let_12) (tptp.agent_2 _let_16 _let_72) (tptp.site_2 _let_16 _let_12) (tptp.has_function_2 _let_12 X) (tptp.has_part_2 _let_12 _let_72) (tptp.has_state_2 _let_45 _let_88) (tptp.next_event_2 _let_3 _let_43) (tptp.object_2 _let_3 _let_45) (tptp.object_2 _let_29 _let_72) (tptp.base_2 _let_10 _let_1) (tptp.base_2 _let_8 _let_1) (tptp.object_2 _let_20 _let_38) (tptp.object_2 _let_18 _let_38) (tptp.base_2 _let_35 _let_12) (tptp.object_2 _let_16 _let_38) (tptp.object_2 _let_14 _let_38) (tptp.result_2 _let_43 _let_80) (tptp.object_2 _let_84 _let_86) (tptp.object_2 _let_33 _let_12) (tptp.object_2 _let_35 _let_80) (tptp.base_2 _let_31 _let_12) (tptp.object_2 _let_81 _let_83) (tptp.base_2 _let_29 _let_12) (tptp.object_2 _let_10 _let_76) (tptp.base_2 _let_24 _let_80) (tptp.object_2 _let_24 _let_76) (tptp.base_2 X _let_1) (tptp.base_2 _let_5 _let_1) (tptp.agent_2 _let_27 _let_12) (tptp.base_2 _let_27 _let_12) (tptp.result_2 _let_22 _let_78) (tptp.has_part_2 _let_12 _let_77) (tptp.is_between_2 _let_38 _let_77) (tptp.has_part_2 _let_12 _let_38) (tptp.has_part_2 _let_1 _let_57) (tptp.has_part_2 _let_1 _let_59) (tptp.has_part_2 _let_59 _let_71) (tptp.is_at_2 _let_71 _let_69) (tptp.has_region_2 _let_1 _let_69) (tptp.has_part_2 _let_1 _let_47) (tptp.has_part_2 _let_1 _let_67) (tptp.is_inside_2 _let_67 _let_45) (tptp.has_part_2 _let_57 _let_45) (tptp.is_inside_2 _let_57 _let_59) (tptp.abuts_2 _let_61 _let_63) (tptp.abuts_2 _let_63 _let_61) (tptp.has_part_2 _let_1 _let_63) (tptp.has_part_2 _let_1 _let_55) (tptp.is_inside_2 _let_65 _let_55) (tptp.has_part_2 _let_1 _let_65) (not (= _let_61 _let_63)) (tptp.volume_2 _let_1 _let_52) (tptp.directly_proportional_2 _let_49 _let_52) (tptp.size_2 _let_1 _let_49) (tptp.has_part_2 _let_1 _let_61) (not (= _let_63 _let_61)) (tptp.is_between_2 _let_57 _let_59) (tptp.is_between_2 _let_57 _let_55) (tptp.the_scalar_value_2 _let_49 tptp.big_0) (tptp.scalar_unit_class_2 _let_49 tptp.prokaryote_0) (tptp.is_inside_2 _let_47 _let_45) (tptp.object_2 _let_31 _let_72) (tptp.result_2 _let_75 _let_38) (tptp.object_2 _let_22 _let_76) (= _let_45 _let_4) (= _let_72 _let_87) (= _let_1 _let_11) (= _let_1 _let_9) (= _let_38 _let_21) (= _let_38 _let_19) (= _let_12 _let_36) (= _let_38 _let_17) (= _let_38 _let_15) (= _let_80 _let_44) (= _let_86 _let_85) (= _let_12 _let_34) (= _let_80 _let_42) (= _let_12 _let_32) (= _let_83 _let_82) (= _let_12 _let_30) (= _let_76 _let_26) (= _let_80 _let_41) (= _let_76 _let_25) (= _let_1 _let_7) (= _let_1 _let_6) (= _let_12 _let_28) (= _let_22 _let_79) (= _let_77 _let_40) (= _let_77 _let_39) (= _let_38 _let_13) (= _let_77 _let_37) (= _let_76 _let_23) (= _let_75 _let_74) (= _let_31 _let_73) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_54) (= (tptp.fn_autophagy_48 X) _let_53) (= _let_52 _let_51) (= (tptp.fn_autophagy_47 X) _let_50) (= _let_49 _let_48) (= _let_47 _let_46) (= _let_45 _let_2) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_30 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_15 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.autopolyploid_1 X) (and (tptp.original_name_2 X |tptp.'Autopolyploid'|) (tptp.user_description_2 X |tptp.'An organism with more than two sets of chromosomes, all of which are derived from the same species.'|) (tptp.concept2words_2 X tptp.autopolyploid) (tptp.polyploidy_1 X) (not (tptp.allopolyploid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.autoradiograph_1 X) (and (tptp.original_name_2 X |tptp.'Autoradiograph'|) (tptp.user_description_2 X |tptp.'An image produced via autoradiography.'|) (tptp.concept2words_2 X tptp.autoradiograph) (tptp.image_1 X)))) (forall ((X $$unsorted)) (=> (tptp.autoradiography_1 X) (and (tptp.original_name_2 X |tptp.'Autoradiography'|) (tptp.user_description_2 X |tptp.'A technique that identifies radioactively tagged molecules in cells to follow specific pathways.'|) (tptp.concept2words_2 X tptp.autoradiography) (tptp.technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.autoreplication_1 X) (and (tptp.original_name_2 X |tptp.'Autoreplication'|) (tptp.user_description_2 X |tptp.'The biological process in which a molecule or organelle copies itself, independent of the cell in which it is contained.'|) (tptp.concept2words_2 X tptp.autoreplicate) (tptp.concept2words_2 X tptp.autoreplication) (tptp.replication_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autoreplication_of_chloroplast_2 X))) (let ((_let_2 (tptp.fn_autoreplication_of_chloroplast_1 X))) (=> (tptp.autoreplication_of_chloroplast_1 X) (and (tptp.original_name_2 X |tptp.'Autoreplication-Of-Chloroplast'|) (tptp.user_description_2 X |tptp.'The biological process in which a chloroplast copies itself, independent of the cell in which it is contained.'|) (tptp.concept2words_2 X tptp.autoreplicate) (tptp.concept2words_2 X |tptp.'chloroplast autoreplication'|) (tptp.concept2words_2 X |tptp.'chloroplast-autoreplication'|) (tptp.concept2words_2 X |tptp.'autoreplication of chloroplast'|) (tptp.concept2words_2 X |tptp.'autoreplication-of-chloroplast'|) (tptp.autoreplication_of_semiautonomous_organelle_1 X) (tptp.chloroplast_1 _let_2) (tptp.chloroplast_1 _let_1) (tptp.agent_2 X _let_1) (tptp.same_type_2 _let_1 _let_2) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1) (tptp.has_function_2 _let_1 X) (tptp.same_type_2 _let_2 _let_1) (= _let_2 (tptp.fn_autoreplication_of_semiautonomous_organelle_2 X)) (= _let_1 (tptp.fn_autoreplication_of_semiautonomous_organelle_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autoreplication_of_mitochondrion_1 X))) (let ((_let_2 (tptp.fn_autoreplication_of_mitochondrion_2 X))) (=> (tptp.autoreplication_of_mitochondrion_1 X) (and (tptp.original_name_2 X |tptp.'Autoreplication-Of-Mitochondrion'|) (tptp.user_description_2 X |tptp.'The biological process in which a mitochondrion copies itself, independent of the cell in which it is contained.'|) (tptp.concept2words_2 X tptp.autoreplicate) (tptp.concept2words_2 X |tptp.'mitochondrion autoreplication'|) (tptp.concept2words_2 X |tptp.'mitochondrion-autoreplication'|) (tptp.concept2words_2 X |tptp.'autoreplication of mitochondrion'|) (tptp.concept2words_2 X |tptp.'autoreplication-of-mitochondrion'|) (tptp.autoreplication_of_semiautonomous_organelle_1 X) (tptp.mitochondrion_1 _let_1) (tptp.mitochondrion_1 _let_2) (tptp.agent_2 X _let_1) (tptp.object_2 X _let_1) (tptp.has_function_2 _let_1 X) (tptp.result_2 X _let_2) (= _let_2 (tptp.fn_autoreplication_of_semiautonomous_organelle_2 X)) (= _let_1 (tptp.fn_autoreplication_of_semiautonomous_organelle_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autoreplication_of_semiautonomous_organelle_1 X))) (let ((_let_2 (tptp.fn_autoreplication_of_semiautonomous_organelle_2 X))) (=> (tptp.autoreplication_of_semiautonomous_organelle_1 X) (and (tptp.original_name_2 X |tptp.'Autoreplication-Of-Semiautonomous-Organelle'|) (tptp.user_description_2 X |tptp.'The biological process in which a semiautonomous organelle copies itself, independent of the cell in which it is contained.'|) (tptp.concept2words_2 X tptp.autoreplicate) (tptp.concept2words_2 X |tptp.'autoreplication of semiautonomous organelle'|) (tptp.concept2words_2 X |tptp.'autoreplication-of-semiautonomous-organelle'|) (tptp.autoreplication_1 X) (tptp.semiautonomous_organelle_1 _let_1) (tptp.semiautonomous_organelle_1 _let_2) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1) (tptp.agent_2 X _let_1) (tptp.has_function_2 _let_1 X) (tptp.same_type_2 _let_1 _let_2) (tptp.same_type_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autosomal_dominant_trait_2 X))) (let ((_let_2 (tptp.fn_genotype_2 _let_1))) (let ((_let_3 (tptp.fn_autosomal_dominant_trait_3 X))) (let ((_let_4 (tptp.fn_genotype_1 _let_1))) (let ((_let_5 (tptp.fn_autosomal_dominant_trait_1 X))) (let ((_let_6 (tptp.fn_genotype_2 _let_5))) (=> (tptp.autosomal_dominant_trait_1 X) (and (tptp.original_name_2 X |tptp.'Autosomal-Dominant-Trait'|) (tptp.user_description_2 X |tptp.'A dominant genetic trait carried on the autosomes.'|) (tptp.concept2words_2 X |tptp.'autosomal dominant trait'|) (tptp.concept2words_2 X |tptp.'autosomal-dominant-trait'|) (tptp.dominant_phenotype_1 X) (tptp.dominant_trait_1 X) (not (tptp.blood_type_phenotype_1 X)) (not (tptp.codominant_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.mutant_phenotype_1 X)) (not (tptp.mutant_type_1 X)) (not (tptp.parental_type_1 X)) (not (tptp.phenotype_of_offspring_1 X)) (not (tptp.phenotype_of_parent_1 X)) (not (tptp.trait_on_a_range_1 X)) (not (tptp.trait_on_a_scale_1 X)) (not (tptp.wild_type_1 X)) (not (tptp.x_chromosome_phenotype_dominant_1 X)) (not (tptp.x_chromosome_phenotype_recessive_1 X)) (tptp.homozygous_dominant_1 _let_5) (tptp.heterozygous_1 _let_1) (tptp.code_for_1 _let_3) (tptp.code_for_1 _let_6) (tptp.phenotype_1 _let_4) (tptp.code_for_1 _let_2) (tptp.donor_2 _let_3 _let_5) (tptp.donor_2 _let_3 _let_1) (tptp.agent_2 _let_3 _let_5) (tptp.agent_2 _let_3 _let_1) (tptp.result_2 _let_3 X) (= _let_3 _let_6) (= X _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autosomal_recessive_trait_2 X))) (let ((_let_2 (tptp.fn_autosomal_recessive_trait_1 X))) (=> (tptp.autosomal_recessive_trait_1 X) (and (tptp.original_name_2 X |tptp.'Autosomal-Recessive-Trait'|) (tptp.user_description_2 X |tptp.'Recessive trait that is phenotypically apparent when two alleles for the trait are present. The gene for the character is located on one of the autosomes.'|) (tptp.concept2words_2 X |tptp.'autosomal recessive trait'|) (tptp.concept2words_2 X |tptp.'autosomal-recessive-trait'|) (tptp.recessive_trait_1 X) (tptp.homozygous_recessive_1 _let_2) (tptp.inheritance_1 _let_1) (tptp.event_1 _let_1) (tptp.transfer_1 _let_1) (tptp.donor_2 _let_1 _let_2) (tptp.object_2 _let_1 X) (= _let_1 (tptp.fn_character_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.autosome_1 X) (and (tptp.original_name_2 X |tptp.'Autosome'|) (tptp.user_description_2 X |tptp.'A chromosome that is not a sex-determining chromosome.'|) (tptp.concept2words_2 X tptp.autosome) (tptp.eukaryotic_chromosome_1 X) (not (tptp.yeast_artificial_chromosome_1 X)) (not (tptp.sex_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X)) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_fragment_1 X)) (not (tptp.defective_chromosome_1 X)) (not (tptp.human_chromosome_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_autotroph_21 X))) (let ((_let_2 (tptp.fn_nutritional_requirement_10 _let_1))) (let ((_let_3 (tptp.fn_autotroph_20 X))) (let ((_let_4 (tptp.fn_nutritional_requirement_9 _let_1))) (let ((_let_5 (tptp.fn_autotroph_19 X))) (let ((_let_6 (tptp.fn_nutritional_requirement_2 _let_1))) (let ((_let_7 (tptp.fn_autotroph_12 X))) (let ((_let_8 (tptp.fn_nutritional_requirement_8 _let_1))) (let ((_let_9 (tptp.fn_autotroph_18 X))) (let ((_let_10 (tptp.fn_nutritional_requirement_3 _let_1))) (let ((_let_11 (tptp.fn_autotroph_13 X))) (let ((_let_12 (tptp.fn_nutritional_requirement_7 _let_1))) (let ((_let_13 (tptp.fn_autotroph_17 X))) (let ((_let_14 (tptp.fn_nutritional_requirement_4 _let_1))) (let ((_let_15 (tptp.fn_autotroph_14 X))) (let ((_let_16 (tptp.fn_nutritional_requirement_6 _let_1))) (let ((_let_17 (tptp.fn_autotroph_16 X))) (let ((_let_18 (tptp.fn_nutritional_requirement_5 _let_1))) (let ((_let_19 (tptp.fn_autotroph_15 X))) (let ((_let_20 (tptp.fn_autotroph_9 X))) (let ((_let_21 (tptp.fn_obtain_1 _let_20))) (let ((_let_22 (tptp.fn_autotroph_11 X))) (let ((_let_23 (tptp.fn_autotroph_8 X))) (let ((_let_24 (tptp.fn_carbon_source_2 _let_23))) (let ((_let_25 (tptp.fn_autotroph_22 X))) (let ((_let_26 (tptp.fn_transfer_1 _let_20))) (let ((_let_27 (tptp.fn_autotroph_10 X))) (let ((_let_28 (tptp.fn_autotroph_6 X))) (let ((_let_29 (tptp.fn_autotroph_7 X))) (let ((_let_30 (tptp.fn_autotroph_1 X))) (let ((_let_31 (tptp.fn_autotroph_3 X))) (let ((_let_32 (tptp.fn_autotroph_4 X))) (let ((_let_33 (tptp.fn_autotroph_5 X))) (let ((_let_34 (tptp.fn_autotroph_2 X))) (=> (tptp.autotroph_1 X) (and (tptp.original_name_2 X |tptp.'Autotroph'|) (tptp.user_description_2 X |tptp.'Organisms which do not consume other organisms for sources of energy or organic carbon. Autotrophs build their own organic molecules using solar energy or the oxidation of inorganic molecules for energy and carbon dioxide or dissolved carbon-containing compounds.'|) (tptp.concept2words_2 X |tptp.'autotrophic organism'|) (tptp.concept2words_2 X |tptp.'producer of biosphere'|) (tptp.concept2words_2 X tptp.producer) (tptp.concept2words_2 X tptp.autotroph) (tptp.ecological_role_1 X) (tptp.tangible_entity_1 _let_30) (tptp.energy_source_1 _let_34) (tptp.carbon_dioxide_1 _let_31) (tptp.water_molecule_1 _let_32) (tptp.inorganic_molecule_1 _let_33) (tptp.chemical_entity_1 _let_28) (tptp.nutrition_1 _let_29) (tptp.carbon_source_1 _let_23) (tptp.obtain_1 _let_20) (tptp.mineral_1 _let_27) (tptp.organism_1 _let_22) (tptp.potassium_1 _let_7) (tptp.calcium_1 _let_11) (tptp.sulfur_1 _let_15) (tptp.phosphorus_1 _let_19) (tptp.oxygen_1 _let_17) (tptp.nitrogen_1 _let_13) (tptp.hydrogen_1 _let_9) (tptp.carbon_1 _let_5) (tptp.iron_1 _let_3) (tptp.nutritional_requirement_1 _let_1) (tptp.inorganic_molecule_1 _let_25) (tptp.entity_1 _let_26) (tptp.molecule_1 _let_24) (tptp.entity_1 _let_21) (tptp.phosphorus_1 _let_18) (tptp.oxygen_1 _let_16) (tptp.sulfur_1 _let_14) (tptp.nitrogen_1 _let_12) (tptp.calcium_1 _let_10) (tptp.hydrogen_1 _let_8) (tptp.potassium_1 _let_6) (tptp.carbon_1 _let_4) (tptp.iron_1 _let_2) (tptp.plays_2 _let_30 _let_34) (tptp.object_2 _let_20 _let_33) (tptp.object_2 _let_20 _let_32) (tptp.object_2 _let_20 _let_31) (tptp.in_event_2 X _let_29) (tptp.plays_2 _let_22 X) (tptp.element_2 _let_1 _let_28) (tptp.raw_material_2 _let_29 _let_30) (tptp.raw_material_2 _let_29 _let_25) (tptp.agent_2 _let_29 _let_22) (tptp.result_2 _let_29 _let_28) (tptp.object_2 _let_20 _let_27) (tptp.plays_2 _let_25 _let_23) (tptp.recipient_2 _let_20 _let_22) (tptp.agent_2 _let_20 _let_22) (tptp.element_2 _let_1 _let_19) (tptp.element_2 _let_1 _let_17) (tptp.element_2 _let_1 _let_15) (tptp.element_2 _let_1 _let_13) (tptp.element_2 _let_1 _let_11) (tptp.element_2 _let_1 _let_9) (tptp.element_2 _let_1 _let_7) (tptp.element_2 _let_1 _let_5) (tptp.element_2 _let_1 _let_3) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.auxin_1 X) (and (tptp.original_name_2 X |tptp.'Auxin'|) (tptp.user_description_2 X |tptp.'A class of plant hormones that coordinate many growth and behavioral processes in a plant_'s life.'|) (tptp.concept2words_2 X tptp.auxin) (tptp.concept2words_2 X |tptp.'indoleacetic acid'|) (tptp.concept2words_2 X |tptp.'indoleacetic-acid'|) (tptp.concept2words_2 X tptp.iaa) (tptp.concept2words_2 X |tptp.'indole acetic acid'|) (tptp.concept2words_2 X |tptp.'indole-acetic-acid'|) (tptp.plant_hormone_1 X)))) (forall ((X $$unsorted)) (=> (tptp.av_valve_1 X) (and (tptp.original_name_2 X |tptp.'AV-Valve'|) (tptp.user_description_2 X |tptp.'A valve between an atrium and a ventricle of the heart.'|) (tptp.concept2words_2 X |tptp.'atrioventricular valve'|) (tptp.concept2words_2 X |tptp.'atrioventricular-valve'|) (tptp.concept2words_2 X |tptp.'bicuspid valve'|) (tptp.concept2words_2 X |tptp.'bicuspid-valve'|) (tptp.concept2words_2 X |tptp.'tricuspid valve'|) (tptp.concept2words_2 X |tptp.'tricuspid-valve'|) (tptp.concept2words_2 X |tptp.'atroventricular valve'|) (tptp.concept2words_2 X |tptp.'atroventricular-valve'|) (tptp.concept2words_2 X |tptp.'av valve'|) (tptp.concept2words_2 X |tptp.'av-valve'|) (tptp.valve_1 X) (tptp.connective_tissue_1 X) (not (tptp.adipose_tissue_1 X)) (not (tptp.bone_1 X)) (not (tptp.cartilage_1 X)) (not (tptp.fibrous_connective_tissue_1 X)) (not (tptp.loose_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X))))) (forall ((X $$unsorted)) (=> (tptp.avirulent_1 X) (and (tptp.original_name_2 X |tptp.'Avirulent'|) (tptp.user_description_2 X |tptp.'Term describing a pathogen that can harm, but doesn_'t kill, its host.'|) (tptp.concept2words_2 X tptp.avirulent) (tptp.pathogen_1 X) (not (tptp.opportunistic_pathogen_1 X)) (not (tptp.virulent_1 X)) (not (tptp.zoonotic_pathogen_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_axes_formation_5 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_axes_formation_3 X))) (let ((_let_4 (tptp.fn_axes_formation_4 X))) (let ((_let_5 (tptp.fn_create_1 _let_4))) (let ((_let_6 (tptp.fn_axes_formation_2 X))) (let ((_let_7 (tptp.fn_axes_formation_1 X))) (=> (tptp.axes_formation_1 X) (and (tptp.original_name_2 X |tptp.'Axes-Formation'|) (tptp.user_description_2 X |tptp.'Formation of body axes like anterior posterior axi'|) (tptp.concept2words_2 X |tptp.'axis formation'|) (tptp.concept2words_2 X |tptp.'axes formation'|) (tptp.concept2words_2 X |tptp.'axes-formation'|) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X)) (tptp.protein_1 _let_7) (tptp.anterior_posterior_axis_1 _let_6) (tptp.dorsal_ventral_axis_1 _let_3) (tptp.create_1 _let_4) (tptp.create_1 _let_1) (tptp.entity_1 _let_5) (tptp.entity_1 _let_2) (tptp.agent_2 _let_1 _let_7) (tptp.agent_2 _let_4 _let_7) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.result_2 _let_4 _let_6) (tptp.result_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.axillary_bud_1 X) (and (tptp.original_name_2 X |tptp.'Axillary-Bud'|) (tptp.user_description_2 X |tptp.'In plants, an embryonic shoot that arises in the angle between a leaf and a stem. Axillary buds give rise to lateral shoots or branches.'|) (tptp.concept2words_2 X |tptp.'axillary bud'|) (tptp.concept2words_2 X |tptp.'axillary-bud'|) (tptp.plant_structure_1 X) (not (tptp.ovule_1 X)) (not (tptp.peristome_1 X)) (not (tptp.petiole_1 X)) (not (tptp.plant_vein_1 X)) (not (tptp.pollen_grain_1 X)) (not (tptp.pollen_tube_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_axon_5 X))) (let ((_let_2 (tptp.fn_release_2 _let_1))) (let ((_let_3 (tptp.fn_release_1 _let_1))) (let ((_let_4 (tptp.fn_axon_4 X))) (let ((_let_5 (tptp.fn_axon_2 X))) (let ((_let_6 (tptp.fn_axon_1 X))) (=> (tptp.axon_1 X) (and (tptp.original_name_2 X |tptp.'Axon'|) (tptp.user_description_2 X |tptp.'A typically long extension of a neuron that carries nerve impulses away from the cell body toward target cells.'|) (tptp.concept2words_2 X tptp.axon) (tptp.neuron_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X)) (tptp.nerve_cell_1 _let_6) (tptp.shape_value_1 _let_5) (tptp.neurotransmitter_1 _let_4) (tptp.release_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 _let_6 X) (tptp.shape_2 X _let_5) (tptp.has_function_2 X _let_1) (tptp.the_categorical_value_2 _let_5 tptp.cylinder_0) (tptp.is_inside_2 _let_4 X) (tptp.object_2 _let_1 _let_4) (tptp.base_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.axon_hillock_1 X) (and (tptp.original_name_2 X |tptp.'Axon-Hillock'|) (tptp.user_description_2 X |tptp.'The conical region of a neurons axon where it joins the cell body; typically the region where nerve impulses are generated.'|) (tptp.concept2words_2 X |tptp.'hillock of axon'|) (tptp.concept2words_2 X |tptp.'axon hillock'|) (tptp.concept2words_2 X |tptp.'axon-hillock'|) (tptp.neuron_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_azide_2 X))) (=> (tptp.azide_1 X) (and (tptp.original_name_2 X |tptp.'Azide'|) (tptp.user_description_2 X |tptp.'Anion of nitrogen with a minus 3 charge; also serves as a functional group in organic chemistry.'|) (tptp.concept2words_2 X tptp.azide) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (not (tptp.malonate_1 X)) (not (tptp.benzoate_1 X)) (not (tptp.carbonate_ion_1 X)) (not (tptp.cl_minus_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.bicarbonate_ion_1 X)) (not (tptp.organic_anion_1 X)) (not (tptp.phosphate_ion_1 X)) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-3"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_azide_1 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X)))))) (forall ((X $$unsorted)) (=> (tptp.b_antigen_1 X) (and (tptp.original_name_2 X |tptp.'B-Antigen'|) (tptp.user_description_2 X |tptp.'An antigen is a molecule recognized by the immune system. Type A blood has one kind of antigen and type B another. A person with type AB blood has both the A and B antigen.'|) (tptp.concept2words_2 X |tptp.'carbohydrate b'|) (tptp.concept2words_2 X |tptp.'carbohydrate-b'|) (tptp.concept2words_2 X |tptp.'antigen of b'|) (tptp.concept2words_2 X |tptp.'b antigen'|) (tptp.concept2words_2 X |tptp.'b-antigen'|) (tptp.blood_carbohydrate_1 X) (not (tptp.a_antigen_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_b_cell_8 X))) (let ((_let_2 (tptp.fn_gene_13 _let_1))) (let ((_let_3 (tptp.fn_b_cell_7 X))) (let ((_let_4 (tptp.fn_immunoglobulin_gene_9 _let_3))) (let ((_let_5 (tptp.fn_b_cell_9 X))) (let ((_let_6 (tptp.fn_gene_related_aggregates_1 _let_5))) (let ((_let_7 (tptp.fn_b_cell_10 X))) (let ((_let_8 (tptp.fn_combine_2 _let_7))) (let ((_let_9 (tptp.fn_gene_6 _let_1))) (let ((_let_10 (tptp.fn_b_cell_4 X))) (let ((_let_11 (tptp.fn_create_1 _let_10))) (let ((_let_12 (tptp.fn_b_cell_12 X))) (let ((_let_13 (tptp.fn_embryo_1 _let_12))) (let ((_let_14 (tptp.fn_b_cell_3 X))) (let ((_let_15 (tptp.fn_cell_differentiation_19 _let_14))) (let ((_let_16 (tptp.fn_b_cell_6 X))) (let ((_let_17 (tptp.fn_b_cell_5 X))) (let ((_let_18 (tptp.fn_b_cell_11 X))) (let ((_let_19 (tptp.fn_cell_24 _let_18))) (let ((_let_20 (tptp.fn_b_cell_2 X))) (let ((_let_21 (tptp.fn_cell_differentiation_19 _let_20))) (let ((_let_22 (tptp.fn_combine_1 _let_7))) (let ((_let_23 (tptp.fn_b_cell_1 X))) (=> (tptp.b_cell_1 X) (and (tptp.original_name_2 X |tptp.'B-Cell'|) (tptp.user_description_2 X |tptp.'The lymphocytes that complete their development in the bone marrow and become effector cells for the humoral immune response.'|) (tptp.concept2words_2 X |tptp.'b lymphocyte'|) (tptp.concept2words_2 X |tptp.'b cells'|) (tptp.concept2words_2 X |tptp.'cell of b'|) (tptp.concept2words_2 X |tptp.'b cell'|) (tptp.concept2words_2 X |tptp.'b-cell'|) (tptp.lymphocyte_1 X) (tptp.dna_sequence_1 _let_23) (tptp.cell_differentiation_1 _let_20) (tptp.cell_differentiation_1 _let_14) (tptp.produce_1 _let_10) (tptp.immunoglobulin_protein_1 _let_17) (tptp.code_for_1 _let_16) (tptp.entity_1 _let_3) (tptp.immunoglobulin_gene_1 _let_3) (tptp.immunoglobulin_gene_1 _let_1) (tptp.gene_related_aggregates_1 _let_5) (tptp.genome_1 _let_5) (tptp.combine_1 _let_7) (tptp.stem_cell_1 _let_18) (tptp.embryo_1 _let_12) (tptp.entity_1 _let_22) (tptp.eukaryotic_cell_1 _let_21) (tptp.genome_1 _let_19) (tptp.eukaryotic_cell_1 _let_15) (tptp.eukaryotic_cell_1 _let_13) (tptp.entity_1 _let_11) (tptp.protein_1 _let_9) (tptp.entity_1 _let_8) (tptp.gene_1 _let_6) (tptp.code_for_1 _let_4) (tptp.code_for_1 _let_2) (tptp.object_2 _let_7 _let_23) (tptp.next_element_2 _let_23 _let_3) (tptp.first_element_2 _let_5 _let_1) (tptp.element_2 _let_5 _let_23) (tptp.element_2 _let_5 _let_3) (tptp.next_element_2 _let_1 _let_23) (tptp.exactCardinality _let_10 tptp.result_0 |"1"| tptp.immunoglobulin_protein_0) (tptp.agent_2 _let_10 X) (tptp.subevent_2 _let_14 _let_7) (tptp.result_2 _let_14 X) (tptp.enables_2 _let_20 _let_10) (tptp.result_2 _let_20 X) (tptp.result_2 _let_10 _let_17) (tptp.object_2 _let_7 _let_1) (tptp.object_2 _let_7 _let_3) (tptp.object_2 _let_14 _let_18) (tptp.has_part_2 _let_12 _let_18) (tptp.element_2 _let_5 _let_1) (tptp.agent_2 _let_16 _let_3) (tptp.object_2 _let_20 X) (tptp.has_part_2 _let_18 _let_5) (tptp.agent_2 _let_16 _let_1) (tptp.result_2 _let_16 _let_17) (= _let_17 _let_11) (= _let_1 _let_8) (= _let_3 _let_22) (= _let_18 _let_15) (= _let_18 _let_13) (= _let_1 _let_6) (= _let_16 _let_4) (= X _let_21) (= _let_5 _let_19) (= _let_17 _let_9) (= _let_16 _let_2) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_b_cell_receptor_5 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_molecule_7 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_b_cell_receptor_17 X))) (let ((_let_6 (tptp.fn_disulfide_bond_3 _let_5))) (let ((_let_7 (tptp.fn_protein_9 X))) (let ((_let_8 (tptp.fn_receptor_protein_3 X))) (let ((_let_9 (tptp.fn_receptor_protein_5 X))) (let ((_let_10 (tptp.fn_polymer_4 X))) (let ((_let_11 (tptp.fn_polymer_1 X))) (let ((_let_12 (tptp.fn_molecule_10 X))) (let ((_let_13 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_14 (tptp.fn_b_cell_receptor_10 X))) (let ((_let_15 (tptp.fn_b_cell_receptor_9 X))) (let ((_let_16 (tptp.fn_b_cell_receptor_2 X))) (let ((_let_17 (tptp.fn_b_cell_receptor_16 X))) (let ((_let_18 (tptp.fn_b_cell_receptor_7 X))) (let ((_let_19 (tptp.fn_b_cell_receptor_3 X))) (let ((_let_20 (tptp.fn_b_cell_receptor_4 X))) (let ((_let_21 (tptp.fn_b_cell_receptor_11 X))) (let ((_let_22 (tptp.fn_b_cell_receptor_6 X))) (let ((_let_23 (tptp.fn_b_cell_receptor_14 X))) (let ((_let_24 (tptp.fn_b_cell_receptor_13 X))) (let ((_let_25 (tptp.fn_b_cell_receptor_12 X))) (let ((_let_26 (tptp.fn_b_cell_receptor_8 X))) (let ((_let_27 (tptp.fn_b_cell_receptor_15 X))) (let ((_let_28 (tptp.fn_b_cell_receptor_1 X))) (=> (tptp.b_cell_receptor_1 X) (and (tptp.original_name_2 X |tptp.'B-Cell-Receptor'|) (tptp.user_description_2 X |tptp.'The antigen receptor on B cells: a Y-shaped, membrane-bound molecule consisting of two identical heavy chains and two identical light chains linked by disulfide bridges and containing two antigen-binding sites.'|) (tptp.concept2words_2 X |tptp.'b cell receptor'|) (tptp.concept2words_2 X |tptp.'b-cell-receptor'|) (tptp.receptor_protein_1 X) (tptp.hydrophobic_region_1 _let_28) (tptp.protein_domain_1 _let_16) (tptp.hydrophilic_region_1 _let_19) (tptp.surface_1 _let_20) (tptp.carbon_skeleton_1 _let_1) (tptp.kinetic_energy_1 _let_22) (tptp.polypeptide_1 _let_18) (tptp.monomer_1 _let_26) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_1 _let_14) (tptp.size_value_1 _let_21) (tptp.constant_motion_1 _let_25) (tptp.speed_value_1 _let_24) (tptp.quantity_value_1 _let_23) (tptp.size_value_1 _let_27) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.monomer_1 _let_17) (tptp.molecule_1 _let_17) (tptp.amino_acid_1 _let_17) (tptp.chemical_bond_1 _let_5) (tptp.covalent_bond_1 _let_5) (tptp.disulfide_bond_1 _let_5) (tptp.carbon_1 _let_13) (tptp.protein_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.has_region_2 X _let_28) (tptp.possesses_2 X _let_5) (tptp.has_part_2 X _let_26) (tptp.size_2 _let_26 _let_27) (tptp.greater_than_2 _let_21 _let_27) (tptp.has_part_2 X _let_15) (tptp.possesses_2 X _let_22) (tptp.quantity_2 _let_22 _let_23) (tptp.directly_proportional_2 _let_24 _let_23) (tptp.speed_2 _let_25 _let_24) (tptp.object_2 _let_25 X) (tptp.is_at_2 _let_19 _let_20) (tptp.has_region_2 X _let_20) (tptp.size_2 X _let_21) (tptp.the_scalar_value_2 _let_21 tptp.big_0) (tptp.scalar_unit_class_2 _let_21 tptp.polypeptide_0) (tptp.has_region_2 X _let_16) (tptp.is_at_2 _let_17 _let_16) (tptp.has_part_2 _let_18 _let_17) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.is_inside_2 _let_14 _let_1) (tptp.has_part_2 X _let_14) (tptp.has_region_2 X _let_1) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= _let_5 _let_12) (= _let_5 _let_11) (= X _let_6) (= _let_21 _let_8) (= _let_27 (tptp.fn_receptor_protein_4 X)) (= _let_26 _let_10) (= _let_26 _let_9) (= _let_15 _let_3) (= _let_25 (tptp.fn_molecule_8 X)) (= _let_24 (tptp.fn_molecule_3 X)) (= _let_23 (tptp.fn_molecule_4 X)) (= _let_22 (tptp.fn_molecule_12 X)) (= _let_21 _let_7) (= _let_20 (tptp.fn_protein_5 X)) (= _let_19 (tptp.fn_protein_1 X)) (= _let_18 (tptp.fn_protein_8 X)) (= _let_17 (tptp.fn_protein_14 X)) (= _let_16 (tptp.fn_protein_7 X)) (= X _let_4) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_b_galactosidase_2 X))) (let ((_let_2 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_4 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_6 (tptp.fn_b_galactosidase_5 X))) (let ((_let_7 (tptp.fn_b_galactosidase_3 X))) (let ((_let_8 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_9 (tptp.fn_b_galactosidase_4 X))) (let ((_let_10 (tptp.fn_b_galactosidase_1 X))) (=> (tptp.b_galactosidase_1 X) (and (tptp.original_name_2 X |tptp.'B-Galactosidase'|) (tptp.user_description_2 X |tptp.'Beta-Galactosidase is a hydrolase enzyme that catalyzes the hydrolysis of Beta-galactosides into monosaccharides.'|) (tptp.concept2words_2 X |tptp.'beta galactosidase'|) (tptp.concept2words_2 X |tptp.'beta-galactosidase'|) (tptp.concept2words_2 X |tptp.'b galactosidase'|) (tptp.concept2words_2 X |tptp.'b-galactosidase'|) (tptp.hydrolase_1 X) (tptp.galactose_1 _let_10) (tptp.decomposition_reaction_1 _let_1) (tptp.exergonic_reaction_1 _let_1) (tptp.hydrolysis_1 _let_1) (tptp.lactose_1 _let_7) (tptp.glucose_1 _let_9) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.result_2 _let_1 _let_10) (tptp.result_2 _let_1 _let_9) (tptp.raw_material_2 _let_1 _let_7) (tptp.has_function_2 X _let_1) (tptp.result_2 _let_1 _let_6) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_7 _let_4) (= _let_1 (tptp.fn_hydrolase_1 X)) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_1 X))) (let ((_let_2 (tptp.fn_monoatomic_ion_1 X))) (let ((_let_3 (tptp.fn_ba_plus_2_3 X))) (let ((_let_4 (tptp.fn_lose_1 _let_3))) (let ((_let_5 (tptp.fn_ba_plus_2_4 X))) (let ((_let_6 (tptp.fn_ba_plus_2_7 X))) (let ((_let_7 (tptp.fn_ba_plus_2_6 X))) (let ((_let_8 (tptp.fn_ba_plus_2_2 X))) (let ((_let_9 (tptp.fn_ba_plus_2_1 X))) (=> (tptp.ba_plus_2_1 X) (and (tptp.original_name_2 X |tptp.'Ba-Plus-2'|) (tptp.user_description_2 X |tptp.'An Ion of Barium with 2 positive charge.'|) (tptp.concept2words_2 X tptp.barium) (tptp.concept2words_2 X |tptp.'ba plus 2'|) (tptp.concept2words_2 X |tptp.'ba-plus-2'|) (tptp.cation_1 X) (tptp.monoatomic_ion_1 X) (not (tptp.ch3nh3_plus_1 X)) (not (tptp.cs_plus_1 X)) (not (tptp.nh4_plus_1 X)) (not (tptp.pb_plus_2_1 X)) (tptp.barium_1 _let_9) (tptp.neutron_1 _let_8) (tptp.lose_1 _let_3) (tptp.barium_1 _let_5) (tptp.proton_1 _let_7) (tptp.charge_value_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.the_cardinal_value_2 _let_6 |"2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.has_ion_2 _let_9 X) (tptp.has_part_2 X _let_8) (tptp.exactCardinality X tptp.has_part_0 |"54"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"56"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"56"| tptp.neutron_0) (tptp.has_part_2 X _let_7) (tptp.result_2 _let_3 X) (tptp.charge_2 X _let_6) (tptp.donor_2 _let_3 _let_5) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_3 (tptp.fn_cation_7 X)) (= (tptp.fn_ba_plus_2_5 X) (tptp.fn_cation_4 X)) (= _let_6 (tptp.fn_cation_5 X)) (= _let_5 _let_4) (= _let_2 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterial_artificial_chromosome_3 X))) (let ((_let_2 (tptp.fn_bacterial_artificial_chromosome_2 X))) (let ((_let_3 (tptp.fn_bacterial_artificial_chromosome_1 X))) (=> (tptp.bacterial_artificial_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Bacterial-artificial-chromosome'|) (tptp.user_description_2 X |tptp.'An artificial version of a bacterial chromosome that can carry inserts of 100,000 to 500,000 base pairs'|) (tptp.concept2words_2 X tptp.bac) (tptp.concept2words_2 X |tptp.'artificial version of bacterial chromosome'|) (tptp.concept2words_2 X |tptp.'artificial bacterial chromosome'|) (tptp.concept2words_2 X |tptp.'bacterial artificial chromosome'|) (tptp.concept2words_2 X |tptp.'bacterial-artificial-chromosome'|) (tptp.cloning_vector_1 X) (not (tptp.cloning_phage_1 X)) (not (tptp.cloning_plasmid_1 X)) (not (tptp.expression_vector_1 X)) (tptp.base_pair_1 _let_3) (tptp.foreign_dna_1 _let_2) (tptp.carry_1 _let_1) (tptp.has_part_2 _let_2 _let_3) (tptp.maxCardinality _let_2 tptp.has_part_0 |"500000"| tptp.base_pair_0) (tptp.agent_2 _let_1 X) (tptp.object_2 _let_1 _let_2) (= _let_2 (tptp.fn_cloning_vector_4 X)) (= _let_1 (tptp.fn_cloning_vector_5 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterial_biofilm_2 X))) (let ((_let_2 (tptp.fn_bacterial_biofilm_1 X))) (=> (tptp.bacterial_biofilm_1 X) (and (tptp.original_name_2 X |tptp.'Bacterial-Biofilm'|) (tptp.user_description_2 X |tptp.'Aggregate of prokaryotic organisms which adhere to and grow on a surface.'|) (tptp.concept2words_2 X 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_let_17 _let_99) (tptp.path_2 _let_17 _let_1) (tptp.is_inside_2 _let_166 _let_1) (tptp.away_from_2 _let_165 _let_169) (tptp.has_part_2 X _let_169) (tptp.possesses_2 X _let_170) (tptp.intensity_2 _let_170 _let_171) (tptp.from_value_2 _let_99 _let_171) (tptp.subevent_2 _let_15 _let_17) (tptp.base_2 _let_17 X) (tptp.has_part_2 X _let_152) (tptp.site_2 _let_168 _let_152) (tptp.base_2 _let_168 X) (tptp.is_outside_2 _let_167 X) (tptp.is_outside_2 _let_167 _let_1) (tptp.is_between_2 _let_1 _let_31) (tptp.is_inside_2 _let_31 X) (tptp.has_part_2 X _let_1) (tptp.first_subevent_2 _let_15 _let_17) (tptp.next_event_2 _let_17 _let_165) (tptp.object_2 _let_165 _let_1) (tptp.has_region_2 _let_1 _let_166) (tptp.is_outside_2 _let_166 _let_31) (tptp.has_solvent_2 _let_155 _let_162) (tptp.water_potential_2 _let_155 _let_163) (tptp.greater_than_or_equal_to_2 _let_163 _let_164) (not (= _let_156 _let_162)) (not (= _let_162 _let_156)) (tptp.base_2 _let_15 X) (tptp.result_2 _let_15 _let_44) (tptp.has_state_2 X _let_44) (tptp.is_inside_2 X _let_155) (tptp.has_part_2 _let_155 _let_162) (tptp.has_region_2 X _let_161) (tptp.is_inside_2 _let_152 _let_161) (tptp.is_inside_2 _let_152 _let_1) (tptp.is_between_2 _let_1 _let_155) (tptp.is_outside_2 _let_155 X) (tptp.base_2 _let_11 X) (tptp.base_2 _let_7 _let_1) (tptp.path_2 _let_11 _let_1) (tptp.base_2 _let_150 _let_1) (tptp.destination_2 _let_17 _let_155) (tptp.origin_2 _let_17 _let_31) (tptp.is_between_2 _let_151 _let_31) (tptp.is_between_2 _let_151 _let_155) (tptp.has_part_2 _let_44 _let_158) (tptp.is_inside_2 _let_158 _let_145) (tptp.has_part_2 _let_155 _let_156) (tptp.has_solute_2 _let_155 _let_156) (tptp.is_hypertonic_to_2 _let_155 _let_31) (tptp.is_hypotonic_to_2 _let_31 _let_155) (tptp.has_region_2 _let_149 _let_106) (tptp.is_inside_2 _let_149 _let_110) (not (= _let_105 _let_149)) (not (= _let_149 _let_105)) (tptp.is_across_2 _let_149 _let_1) (tptp.has_part_2 _let_1 _let_149) (tptp.is_across_2 _let_149 _let_109) (not (= _let_107 _let_105)) (not (= _let_105 _let_107)) (tptp.is_across_2 _let_107 _let_109) (tptp.is_inside_2 _let_107 _let_110) (tptp.has_part_2 _let_1 _let_110) (tptp.has_part_2 _let_1 _let_105) (tptp.is_across_2 _let_107 _let_1) (tptp.has_part_2 _let_1 _let_107) (tptp.has_part_2 _let_1 _let_112) (tptp.is_inside_2 _let_112 _let_110) (tptp.has_region_2 _let_1 _let_64) (tptp.base_2 _let_35 _let_1) (tptp.has_function_2 _let_1 _let_35) (tptp.has_region_2 _let_1 _let_106) (tptp.is_outside_2 _let_106 _let_1) (tptp.has_region_2 _let_1 _let_109) (tptp.is_at_2 _let_107 _let_1) (tptp.has_region_2 _let_107 _let_106) (tptp.called_2 _let_105 |tptp.'MP1'|) (tptp.same_type_2 _let_134 _let_124) (tptp.same_type_2 _let_124 _let_134) (tptp.object_2 _let_126 _let_124) (tptp.object_2 _let_126 _let_134) (tptp.has_part_2 _let_28 _let_134) (tptp.has_part_2 _let_28 _let_124) (tptp.object_2 _let_140 _let_28) (tptp.agent_2 _let_140 _let_118) (tptp.agent_2 _let_116 _let_118) (tptp.object_2 _let_116 _let_28) (tptp.instrument_2 _let_126 _let_138) (tptp.possesses_2 _let_28 _let_138) (tptp.base_2 _let_114 _let_28) (tptp.from_value_2 _let_114 _let_130) (tptp.volume_2 _let_28 _let_130) (tptp.called_2 _let_124 |"1"|) (tptp.is_at_2 _let_124 _let_136) (tptp.has_region_2 _let_28 _let_136) (tptp.base_2 _let_120 _let_28) (tptp.donor_2 _let_120 _let_28) (tptp.agent_2 _let_126 _let_134) (tptp.base_2 _let_126 _let_28) (tptp.temperature_2 _let_28 _let_122) (tptp.from_value_2 _let_133 _let_122) (tptp.by_means_of_2 _let_133 _let_120) (tptp.from_value_2 _let_128 _let_130) (tptp.base_2 _let_128 _let_28) (tptp.agent_2 _let_126 _let_124) (tptp.object_2 _let_120 _let_118) (tptp.causes_2 _let_116 _let_114) (not (= _let_28 _let_142)) (not (= _let_142 _let_28)) (tptp.has_part_2 _let_31 _let_142) (tptp.has_solvent_2 _let_31 _let_28) (tptp.has_part_2 _let_31 _let_28) (tptp.has_solute_2 _let_31 _let_142) (tptp.has_part_2 _let_144 _let_145) (tptp.has_part_2 _let_44 _let_144) (tptp.to_value_2 _let_99 _let_147) (tptp.base_2 _let_73 _let_49) (tptp.has_function_2 _let_49 _let_73) (tptp.called_2 _let_107 |tptp.'MP2'|) (tptp.object_2 _let_150 _let_107) (not (= _let_107 _let_149)) (not (= _let_149 _let_107)) (tptp.agent_2 _let_11 _let_151) (tptp.is_facing_2 _let_64 _let_152) (tptp.agent_2 _let_17 _let_153) (tptp.base_2 _let_11 _let_153) (tptp.object_2 _let_73 _let_154) (tptp.object_2 _let_35 _let_134) (= _let_107 _let_8) (= _let_154 _let_77) (= _let_73 _let_52) (= _let_154 _let_75) (= X _let_91) (= X _let_89) (= _let_151 _let_63) (= _let_49 _let_188) (= _let_187 _let_52) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_41 X) (tptp.fn_organism_1 X)) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_46 X) (tptp.fn_organism_6 X)) (= _let_186 (tptp.fn_organism_2 X)) (= _let_185 (tptp.fn_organism_5 X)) (= _let_184 (tptp.fn_organism_4 X)) (= _let_183 (tptp.fn_prokaryote_10 X)) (= _let_182 (tptp.fn_prokaryote_18 X)) (= _let_181 (tptp.fn_prokaryote_9 X)) (= _let_64 _let_23) (= _let_180 (tptp.fn_bacterium_14 X)) (= _let_153 _let_72) (= _let_149 _let_53) (= _let_179 (tptp.fn_bacterium_11 X)) (= _let_28 _let_34) (= _let_35 _let_21) (= _let_35 _let_20) (= _let_178 _let_177) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_42 X) (tptp.fn_cell_10 X)) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_43 X) (tptp.fn_cell_23 X)) (= _let_110 _let_27) (= _let_110 _let_26) (= _let_176 _let_104) (= _let_176 _let_103) (= _let_175 (tptp.fn_cell_11 X)) (= _let_174 (tptp.fn_cell_22 X)) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_44 X) (tptp.fn_walled_cell_inside_hypertonic_solution_15 X)) (= _let_173 _let_160) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_11 X) (tptp.fn_walled_cell_inside_hypertonic_solution_42 X)) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_10 X) (tptp.fn_walled_cell_inside_hypertonic_solution_41 X)) (= _let_145 _let_46) (= _let_172 _let_102) (= _let_172 _let_101) (= _let_134 _let_38) (= _let_134 _let_37) (= _let_99 _let_48) (= _let_151 _let_60) (= _let_151 _let_59) (= _let_171 _let_100) (= _let_99 _let_47) (= _let_171 _let_98) (= _let_170 (tptp.fn_walled_cell_inside_hypertonic_solution_6 X)) (= _let_169 _let_97) (= _let_169 _let_96) (= _let_168 (tptp.fn_walled_cell_inside_hypertonic_solution_7 X)) (= _let_152 _let_68) (= X _let_88) (= _let_167 (tptp.fn_walled_cell_inside_hypertonic_solution_3 X)) (= _let_31 _let_40) (= _let_166 (tptp.fn_walled_cell_inside_hypertonic_solution_4 X)) (= _let_165 _let_95) (= _let_165 _let_94) (= _let_17 _let_70) (= _let_164 (tptp.fn_walled_cell_inside_hypertonic_solution_39 X)) (= _let_163 (tptp.fn_walled_cell_inside_hypertonic_solution_38 X)) (= _let_156 _let_85) (= _let_162 _let_93) (= _let_162 _let_92) (= _let_44 _let_43) (= _let_44 _let_42) (= _let_15 (tptp.fn_walled_cell_inside_hypertonic_solution_19 X)) (= X _let_87) (= _let_155 _let_83) (= _let_155 _let_82) (= _let_1 _let_16) (= _let_155 _let_80) (= _let_152 _let_67) (= _let_1 _let_14) (= _let_1 _let_13) (= _let_152 _let_66) (= _let_161 _let_160) (= X _let_86) (= _let_7 _let_159) (= _let_150 _let_56) (= _let_1 _let_18) (= _let_150 _let_55) (= _let_1 _let_12) (= _let_155 _let_81) (= _let_155 _let_79) (= _let_151 _let_61) (= _let_151 _let_58) (= _let_17 _let_69) (= _let_31 _let_41) (= _let_31 _let_39) (= _let_158 _let_157) (= _let_156 _let_84) (= _let_155 _let_78) (= _let_134 _let_36) (= _let_154 _let_74) (= _let_153 _let_71) (= _let_153 _let_58) (= _let_152 _let_65) (= _let_151 _let_57) (= _let_150 _let_54) (= _let_149 _let_4) (= _let_73 _let_50) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_45 X) _let_148) (= _let_147 _let_146) (= _let_145 _let_45) (= _let_144 _let_143) (= _let_28 _let_33) (= _let_28 _let_32) (= _let_142 _let_141) (= _let_140 _let_139) (= _let_138 _let_137) (= _let_124 _let_30) (= _let_136 _let_135) (= _let_134 _let_30) (= _let_133 _let_132) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_20 X) _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_29) (= (tptp.fn_bacterial_cell_inside_hypertonic_solution_21 X) _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_118 _let_117) (= _let_116 _let_115) (= _let_114 _let_113) (= _let_105 _let_3) (= _let_110 _let_25) (= _let_107 _let_3) (= _let_112 _let_111) (= _let_110 _let_24) (= _let_64 _let_22) (= _let_35 _let_19) (= _let_106 _let_10) (= _let_109 _let_108) (= _let_107 _let_6) (= _let_107 _let_5) (= _let_107 _let_4) (= _let_106 _let_9) (= _let_105 _let_2) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_98 _let_100) (= _let_100 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_94 _let_94) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_92) (= _let_92 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_89) (= _let_89 _let_89) (= _let_89 _let_87) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_58) (= _let_58 _let_69) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_63) (= _let_63 _let_61) (= _let_60 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_4) (= _let_4 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_30) (= _let_30 _let_34) (= _let_34 _let_33) (= _let_32 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_29) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_18) (= _let_18 _let_14) (= _let_14 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bacterial_disease_1 X) (and (tptp.original_name_2 X |tptp.'Bacterial-Disease'|) (tptp.user_description_2 X |tptp.'Abnormal condition in an organism, caused by infection with bacteria.'|) (tptp.concept2words_2 X |tptp.'bacterial disease'|) (tptp.concept2words_2 X |tptp.'bacterial-disease'|) (tptp.infectious_disease_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.bacterium_1 X1) (tptp.infection_1 X)) (and (tptp.bacterial_infection_1 X) (= (tptp.fn_bacterial_infection_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterial_infection_2 X))) (let ((_let_2 (tptp.fn_bacterial_infection_3 X))) (=> (tptp.bacterial_infection_1 X) (and (tptp.original_name_2 X |tptp.'Bacterial-Infection'|) (tptp.user_description_2 X |tptp.'Harmful colonization of an organism by pathogenic prokaryotes.'|) (tptp.concept2words_2 X |tptp.'infection caused by bacteria'|) (tptp.concept2words_2 X tptp.infect) (tptp.concept2words_2 X |tptp.'bacterial infection'|) (tptp.concept2words_2 X |tptp.'bacterial-infection'|) (tptp.infection_1 X) (tptp.bacterium_1 _let_1) (tptp.organism_1 _let_2) (tptp.base_2 X _let_2) (tptp.agent_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterial_infection_in_human_1 X))) (=> (tptp.bacterial_infection_in_human_1 X) (and (tptp.original_name_2 X |tptp.'Bacterial-Infection-In-Human'|) (tptp.user_description_2 X |tptp.'Bacterial infection in a human.'|) (tptp.concept2words_2 X |tptp.'human bacterial infection'|) (tptp.concept2words_2 X tptp.infect) (tptp.concept2words_2 X |tptp.'bacterial infection in human'|) (tptp.concept2words_2 X |tptp.'bacterial-infection-in-human'|) (tptp.bacterial_infection_1 X) (not (tptp.human_genetic_order_1 X)) (tptp.person_1 _let_1) (tptp.base_2 X _let_1) (= _let_1 (tptp.fn_bacterial_infection_3 X)))))) (forall ((X $$unsorted)) (=> (tptp.bacteriorhodopsin_1 X) (and (tptp.original_name_2 X |tptp.'Bacteriorhodopsin'|) (tptp.user_description_2 X |tptp.'A purple-colored photosynthetic pigment that is most efficient at absorbing green light, embedded in the plasma membrane of some prokaryotes.'|) (tptp.concept2words_2 X tptp.bacteriorhodopsin) (tptp.pigment_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_prokaryote_13 X))) (let ((_let_2 (tptp.fn_bacterium_11 X))) (let ((_let_3 (tptp.fn_attach_2 _let_2))) (let ((_let_4 (tptp.fn_bacterium_15 X))) (let ((_let_5 (tptp.fn_plasma_membrane_55 _let_4))) (let ((_let_6 (tptp.fn_attach_1 _let_2))) (let ((_let_7 (tptp.fn_plasma_membrane_71 _let_4))) (let ((_let_8 (tptp.fn_biomembrane_63 _let_4))) (let ((_let_9 (tptp.fn_plasma_membrane_65 _let_4))) (let ((_let_10 (tptp.fn_biomembrane_41 _let_4))) (let ((_let_11 (tptp.fn_plasma_membrane_66 _let_4))) (let ((_let_12 (tptp.fn_prokaryote_16 X))) (let ((_let_13 (tptp.fn_prokaryote_12 X))) (let ((_let_14 (tptp.fn_cell_28 X))) (let ((_let_15 (tptp.fn_organism_3 X))) (let ((_let_16 (tptp.fn_cell_24 X))) (let ((_let_17 (tptp.fn_plasma_membrane_6 _let_4))) (let ((_let_18 (tptp.fn_bacterium_9 X))) (let ((_let_19 (tptp.fn_bacterium_8 X))) (let ((_let_20 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_21 (tptp.fn_bacterium_4 X))) (let ((_let_22 (tptp.fn_bacterium_5 X))) (let ((_let_23 (tptp.fn_bacterium_10 X))) (let ((_let_24 (tptp.fn_bacterium_1 X))) (let ((_let_25 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_26 (tptp.fn_bacterium_6 X))) (let ((_let_27 (tptp.fn_plasma_membrane_34 _let_4))) (let ((_let_28 (tptp.fn_bacterium_7 X))) (let ((_let_29 (tptp.fn_bacterium_16 X))) (let ((_let_30 (tptp.fn_bacterium_12 X))) (let ((_let_31 (tptp.fn_bacterium_13 X))) (let ((_let_32 (tptp.fn_bacterium_14 X))) (let ((_let_33 (tptp.fn_prokaryotic_ribosome_1 _let_32))) (let ((_let_34 (tptp.fn_bacterium_2 X))) (let ((_let_35 (tptp.fn_passive_transport_26 _let_34))) (let ((_let_36 (tptp.fn_bacterium_3 X))) (=> (tptp.bacterium_1 X) (and (tptp.original_name_2 X |tptp.'Bacterium'|) (tptp.description_2 X |tptp.'Member of one of the two classes of prokaryotes, the other group being the archaea.'|) (tptp.user_description_2 X |tptp.'Bacterium is a prokaryotic organism.'|) (tptp.concept2words_2 X tptp.bacteria) (tptp.concept2words_2 X |tptp.'bacterial cell'|) (tptp.concept2words_2 X tptp.bacterium) (tptp.prokaryote_1 X) (tptp.surface_1 _let_24) (tptp.cytoplasmic_side_1 _let_24) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_34) (tptp.membrane_potential_1 _let_36) (tptp.tangible_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.spatial_entity_1 _let_21) (tptp.polymer_1 _let_21) (tptp.tangible_entity_1 _let_22) (tptp.phospholipid_bilayer_1 _let_22) (tptp.tangible_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.protein_1 _let_26) (tptp.glycoprotein_1 _let_28) (tptp.spatial_entity_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.transmembrane_protein_1 _let_19) (tptp.integral_protein_1 _let_19) (tptp.transport_protein_1 _let_19) (tptp.hydrophobic_core_1 _let_18) (tptp.outside_face_1 _let_23) (tptp.extracellular_side_1 _let_23) (tptp.attach_1 _let_2) (tptp.cell_wall_1 _let_30) (tptp.genome_1 _let_31) (tptp.genotype_1 _let_31) (tptp.ribosome_1 _let_32) (tptp.prokaryotic_ribosome_1 _let_32) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.mixture_1 _let_29) (tptp.cytoplasm_1 _let_29) (tptp.gradient_1 _let_35) (tptp.concentration_gradient_1 _let_35) (tptp.prokaryote_1 _let_33) (tptp.glycoprotein_1 _let_27) (tptp.tangible_entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.protein_1 _let_25) (tptp.tangible_entity_1 _let_20) (tptp.membrane_protein_1 _let_20) (tptp.protein_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.polymer_1 _let_20) (tptp.hydrophobic_core_1 _let_17) (tptp.cytoplasmic_side_1 _let_11) (tptp.outside_face_1 _let_10) (tptp.extracellular_side_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.transmembrane_protein_1 _let_5) (tptp.integral_protein_1 _let_5) (tptp.transport_protein_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.is_across_2 _let_36 _let_4) (tptp.called_2 _let_21 |tptp.'MP1'|) (not (= _let_26 _let_19)) (tptp.called_2 _let_26 |tptp.'MP2'|) (not (= _let_19 _let_26)) (tptp.object_2 _let_2 _let_19) (tptp.base_2 _let_2 _let_4) (tptp.base_2 _let_34 _let_36) (tptp.has_part_2 X _let_31) (tptp.is_facing_2 _let_24 _let_29) (tptp.is_oriented_toward_2 _let_24 _let_29) (tptp.has_part_2 X _let_29) (tptp.is_inside_2 _let_29 _let_4) (tptp.is_inside_2 _let_4 _let_30) (tptp.has_part_2 X _let_30) (tptp.has_part_2 X _let_4) (tptp.called_2 _let_26 |tptp.'MP1'|) (tptp.has_region_2 _let_19 _let_23) (tptp.called_2 _let_21 |tptp.'MP2'|) (tptp.has_part_2 _let_4 _let_26) (tptp.has_part_2 _let_4 _let_28) (tptp.has_part_2 _let_4 _let_21) (tptp.has_part_2 _let_4 _let_22) (tptp.is_inside_2 _let_28 _let_22) (not (= _let_26 _let_21)) (not (= _let_21 _let_26)) (tptp.has_part_2 _let_4 _let_19) (tptp.is_across_2 _let_19 _let_4) (tptp.has_region_2 _let_4 _let_23) (tptp.is_outside_2 _let_23 _let_4) (tptp.has_region_2 _let_4 _let_24) (tptp.has_region_2 _let_4 _let_18) (tptp.is_across_2 _let_19 _let_18) (tptp.is_inside_2 _let_19 _let_22) (not (= _let_21 _let_19)) (not (= _let_19 _let_21)) (= _let_19 _let_6) (= _let_4 _let_3) (= _let_36 _let_35) (= _let_32 (tptp.fn_prokaryote_8 X)) (= X _let_33) (= _let_31 _let_16) (= _let_31 _let_15) (= _let_24 _let_12) (= _let_30 (tptp.fn_prokaryote_14 X)) (= _let_4 _let_1) (= _let_29 _let_14) (= _let_29 _let_13) (= _let_28 _let_27) (= _let_22 _let_8) (= _let_26 _let_25) (= _let_24 _let_11) (= _let_23 _let_10) (= _let_23 _let_9) (= _let_22 _let_7) (= _let_21 _let_20) (= _let_19 _let_5) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bacteroid_1 X) (and (tptp.original_name_2 X |tptp.'Bacteroid'|) (tptp.user_description_2 X |tptp.'An irregularly-shaped form of the bacterium Rhizobium found in the root nodules of legumes.'|) (tptp.concept2words_2 X tptp.bacteroid) (tptp.rhizobacterium_1 X)))) (forall ((X $$unsorted)) (=> (tptp.baculum_1 X) (and (tptp.original_name_2 X |tptp.'Baculum'|) (tptp.user_description_2 X |tptp.'A bone in the penis of most mammals; aids in copulation by maintaining stiffness of the penis.'|) (tptp.concept2words_2 X tptp.baculum) (tptp.reproductive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bag_1 X) (and (tptp.original_name_2 X |tptp.'Bag'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.balance_equation_1 X) (and (tptp.original_name_2 X |tptp.'Balance-Equation'|) (tptp.description_2 X |tptp.'a method to balance equations stoichiometrically'|) (tptp.concept2words_2 X |tptp.'equation of balance'|) (tptp.concept2words_2 X |tptp.'balance equation'|) (tptp.concept2words_2 X |tptp.'balance-equation'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.balanced_polymorphism_1 X) (and (tptp.original_name_2 X |tptp.'Balanced-Polymorphism'|) (tptp.user_description_2 X |tptp.'The ability of natural selection to maintain a stable proportion of two or more phenotypes in a population.'|) (tptp.concept2words_2 X |tptp.'balanced polymorphism'|) (tptp.concept2words_2 X |tptp.'balanced-polymorphism'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.balancing_selection_1 X) (and (tptp.original_name_2 X |tptp.'Balancing-Selection'|) (tptp.user_description_2 X |tptp.'Natural selection that acts against the mean value of a phenotype and thus maintains two or more phenotypes in a population.'|) (tptp.concept2words_2 X |tptp.'selection of balancing'|) (tptp.concept2words_2 X |tptp.'balancing selection'|) (tptp.concept2words_2 X |tptp.'balancing-selection'|) (tptp.selection_force_1 X) (not (tptp.directional_selection_1 X)) (not (tptp.disruptive_selection_1 X))))) (forall ((X $$unsorted)) (=> (tptp.baleen_1 X) (and (tptp.original_name_2 X |tptp.'Baleen'|) (tptp.user_description_2 X |tptp.'Comb-like plates on the upper jaws of some whales which strain food (small invertebrates and fish) from the water when the whale feeds.'|) (tptp.concept2words_2 X tptp.baleen) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ball_and_socket_joint_1 X) (and (tptp.original_name_2 X |tptp.'Ball-And-Socket-Joint'|) (tptp.user_description_2 X |tptp.'A skeletal joint consisting of a ball that rotates within the socket of another bone, allowing the limb to move freely in all directions.'|) (tptp.concept2words_2 X |tptp.'ball and socket joint'|) (tptp.concept2words_2 X |tptp.'ball-and-socket-joint'|) (tptp.joint_1 X) (not (tptp.hinge_joint_1 X)) (not (tptp.pivot_joint_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_band_pattern_4 X))) (let ((_let_2 (tptp.fn_gel_electrophoresis_1 _let_1))) (let ((_let_3 (tptp.fn_band_pattern_2 X))) (let ((_let_4 (tptp.fn_band_pattern_3 X))) (let ((_let_5 (tptp.fn_band_pattern_1 X))) (=> (tptp.band_pattern_1 X) (and (tptp.original_name_2 X |tptp.'Band-Pattern'|) (tptp.user_description_2 X |tptp.'A parttern of bands formed in agarose gel during electrophoresis. Each band contains a specific group of DNA fragments common for polaroty, size, and/or wieght.'|) (tptp.concept2words_2 X |tptp.'pattern of band'|) (tptp.concept2words_2 X |tptp.'band pattern'|) (tptp.concept2words_2 X |tptp.'band-pattern'|) (tptp.relative_relationship_1 X) (not (tptp.map_unit_1 X)) (not (tptp.tangible_entity_1 X)) (not (tptp.region_1 X)) (not (tptp.chiasma_1 X)) (not (tptp.distance_between_genes_1 X)) (not (tptp.nicks_in_damaged_dna_1 X)) (not (tptp.replication_fork_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.waste_product_1 X)) (tptp.dna_piece_1 _let_5) (tptp.restriction_fragment_analysis_1 _let_3) (tptp.detect_1 _let_4) (tptp.gel_electrophoresis_1 _let_1) (tptp.band_pattern_1 _let_2) (tptp.minCardinality _let_4 tptp.object_0 |"2"| tptp.dna_piece_0) (tptp.object_2 _let_4 _let_5) (tptp.instrument_2 _let_4 X) (tptp.result_2 _let_3 X) (tptp.result_2 _let_1 X) (= X _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.bandicoot_1 X) (and (tptp.original_name_2 X |tptp.'Bandicoot'|) (tptp.user_description_2 X |tptp.'An small to medium-sized omnivorous Australian marsupial.'|) (tptp.concept2words_2 X tptp.bandicoot) (tptp.marsupial_1 X) (not (tptp.kangaroo_1 X))))) (forall ((X $$unsorted)) (=> (tptp.barbiturate_1 X) (and (tptp.original_name_2 X |tptp.'Barbiturate'|) (tptp.user_description_2 X |tptp.'Organic compound having powerful soporific effect. An overdose of this drug can be fatal.'|) (tptp.concept2words_2 X tptp.barbiturate) (tptp.drug_1 X) (not (tptp.chemotherapeutic_drug_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_barium_10 X))) (let ((_let_2 (tptp.fn_barium_12 X))) (let ((_let_3 (tptp.fn_barium_11 X))) (let ((_let_4 (tptp.fn_barium_14 X))) (let ((_let_5 (tptp.fn_barium_13 X))) (let ((_let_6 (tptp.fn_ba_plus_2_1 _let_5))) (let ((_let_7 (tptp.fn_barium_3 X))) (let ((_let_8 (tptp.fn_barium_2 X))) (let ((_let_9 (tptp.fn_barium_1 X))) (let ((_let_10 (tptp.fn_barium_4 X))) (=> (tptp.barium_1 X) (and (tptp.original_name_2 X |tptp.'Barium'|) (tptp.user_description_2 X |tptp.'Barium is a metal atom with atomic number 56. It is represented by the symbol Ba.'|) (tptp.concept2words_2 X |tptp.'Ba'|) (tptp.concept2words_2 X tptp.barium) (tptp.metal_atom_1 X) (not (tptp.cesium_1 X)) (not (tptp.indium_1 X)) (not (tptp.sodium_1 X)) (not (tptp.lead_1 X)) (not (tptp.polonium_1 X)) (tptp.electronegativity_value_1 _let_9) (tptp.valence_value_1 _let_8) (tptp.atomic_mass_value_1 _let_7) (tptp.neutron_1 _let_10) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.quantity_value_1 _let_2) (tptp.ba_plus_2_1 _let_5) (tptp.atomic_number_value_1 _let_4) (tptp.barium_1 _let_6) (tptp.the_cardinal_value_2 _let_4 |"56"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.electronegativity_2 X _let_9) (tptp.valence_2 X _let_8) (tptp.mass_number_2 X _let_7) (tptp.exactCardinality X tptp.has_part_0 |"81"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"56"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"56"| tptp.electron_0) (tptp.has_part_2 X _let_10) (tptp.the_cardinal_value_2 _let_2 |"2"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_9 |"0.89"|) (tptp.cardinal_unit_class_2 _let_9 tptp.unity_0) (tptp.the_cardinal_value_2 _let_8 |"2"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"137"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"137.3"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.has_ion_2 X _let_5) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= X _let_6) (= (tptp.fn_barium_15 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_barium_9 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_barium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bark_1 X) (and (tptp.original_name_2 X |tptp.'Bark'|) (tptp.user_description_2 X |tptp.'In a woody plant, all the tissues outside the vascular cambium. Bark consists of layers of periderm (cork) and secondary phloem.'|) (tptp.concept2words_2 X tptp.bark) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (=> (tptp.barnacle_1 X) (and (tptp.original_name_2 X |tptp.'Barnacle'|) (tptp.user_description_2 X |tptp.'A type of arthropod belonging to the Subphylum Crustacea. Barnacles are sessile and exclusively marine, and tend to live in shallow and tidal waters. Their bodies are encased in a set of calcareous plates from which they extend their feathery thoracic legs for filter-feeding.'|) (tptp.concept2words_2 X tptp.barnacle) (tptp.crustacean_1 X) (not (tptp.clawed_lobster_1 X)) (not (tptp.copepod_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.decapod_1 X)) (not (tptp.isopod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_barr_body_4 X))) (let ((_let_2 (tptp.fn_nucleus_6 _let_1))) (let ((_let_3 (tptp.fn_barr_body_3 X))) (let ((_let_4 (tptp.fn_create_1 _let_3))) (let ((_let_5 (tptp.fn_nucleus_13 _let_1))) (let ((_let_6 (tptp.fn_barr_body_2 X))) (let ((_let_7 (tptp.fn_barr_body_1 X))) (=> (tptp.barr_body_1 X) (and (tptp.original_name_2 X |tptp.'Barr-Body'|) (tptp.user_description_2 X |tptp.'A dense object lying along the inside of the nuclear envelope in cells of female mammals, representing a highly condensed, inactivated X chromosome.'|) (tptp.concept2words_2 X |tptp.'inactivated x chromosome'|) (tptp.concept2words_2 X |tptp.'barr body'|) (tptp.concept2words_2 X |tptp.'barr-body'|) (tptp.x_chromosome_1 X) (not (tptp.x_chromosome_dominant_1 X)) (not (tptp.x_chromosome_recessive_1 X)) (tptp.barr_body_1 _let_7) (tptp.nuclear_membrane_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.barr_body_formation_1 _let_3) (tptp.nucleus_1 _let_1) (tptp.nuclear_membrane_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.entity_1 _let_4) (tptp.eukaryotic_chromosome_1 _let_2) (tptp.same_type_2 _let_7 X) (tptp.same_type_2 X _let_7) (tptp.abuts_2 X _let_6) (tptp.abuts_2 _let_6 X) (tptp.result_2 _let_3 X) (tptp.is_inside_2 X _let_1) (tptp.has_part_2 _let_1 _let_6) (= X _let_4) (= X _let_2) (= _let_6 _let_5) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_barr_body_formation_5 X))) (let ((_let_2 (tptp.fn_xist_rna_11 _let_1))) (let ((_let_3 (tptp.fn_xist_rna_15 _let_1))) (let ((_let_4 (tptp.fn_barr_body_formation_11 X))) (let ((_let_5 (tptp.fn_select_1 _let_4))) (let ((_let_6 (tptp.fn_barr_body_formation_12 X))) (let ((_let_7 (tptp.fn_animal_cell_52 _let_6))) (let ((_let_8 (tptp.fn_barr_body_formation_9 X))) (let ((_let_9 (tptp.fn_eukaryotic_chromosome_3 _let_8))) (let ((_let_10 (tptp.fn_barr_body_formation_8 X))) (let ((_let_11 (tptp.fn_dna_methylation_10 _let_10))) (let ((_let_12 (tptp.fn_barr_body_formation_2 X))) (let ((_let_13 (tptp.fn_xist_rna_14 _let_1))) (let ((_let_14 (tptp.fn_barr_body_formation_4 X))) (let ((_let_15 (tptp.fn_xist_rna_13 _let_1))) (let ((_let_16 (tptp.fn_barr_body_formation_10 X))) (let ((_let_17 (tptp.fn_barr_body_formation_7 X))) (let ((_let_18 (tptp.fn_xist_gene_2 _let_17))) (let ((_let_19 (tptp.fn_barr_body_formation_6 X))) (let ((_let_20 (tptp.fn_xist_gene_1 _let_17))) (let ((_let_21 (tptp.fn_barr_body_formation_3 X))) (let ((_let_22 (tptp.fn_barr_body_formation_1 X))) (=> (tptp.barr_body_formation_1 X) (and (tptp.original_name_2 X |tptp.'Barr-Body-Formation'|) (tptp.user_description_2 X |tptp.'Formation of a Barr-Body from a randomally selected X chromosome.'|) (tptp.concept2words_2 X |tptp.'x inactivation'|) (tptp.concept2words_2 X |tptp.'x-inactivation'|) (tptp.concept2words_2 X |tptp.'x chromosome inactivation'|) (tptp.concept2words_2 X |tptp.'x-chromosome-inactivation'|) (tptp.concept2words_2 X |tptp.'form a barr body'|) (tptp.concept2words_2 X |tptp.'barr body formation'|) (tptp.concept2words_2 X |tptp.'barr-body-formation'|) (tptp.produce_1 X) (not (tptp.synthesis_of_gamete_1 X)) (not (tptp.synthesis_of_lysosome_1 X)) (tptp.condense_1 _let_22) (tptp.entity_1 _let_12) (tptp.dna_1 _let_12) (tptp.polymer_1 _let_12) (tptp.x_chromosome_1 _let_21) (tptp.attach_1 _let_14) (tptp.xist_rna_1 _let_1) (tptp.code_for_1 _let_19) (tptp.xist_gene_1 _let_17) (tptp.dna_methylation_1 _let_10) (tptp.chromosome_1 _let_8) (tptp.entity_1 _let_8) (tptp.x_chromosome_1 _let_8) (tptp.eukaryotic_chromosome_1 _let_8) (tptp.deactivate_1 _let_16) (tptp.choose_at_random_1 _let_4) (tptp.female_somatic_cell_1 _let_6) (tptp.xist_rna_1 _let_20) (tptp.code_for_1 _let_18) (tptp.deactivate_1 _let_15) (tptp.attach_1 _let_13) (tptp.dna_1 _let_11) (tptp.entity_1 _let_9) (tptp.dna_1 _let_9) (tptp.polymer_1 _let_9) (tptp.eukaryotic_chromosome_1 _let_7) (tptp.chromosome_1 _let_7) (tptp.entity_1 _let_5) (tptp.x_chromosome_1 _let_3) (tptp.barr_body_formation_1 _let_2) (tptp.next_event_2 _let_4 _let_16) (tptp.exactCardinality _let_4 tptp.object_0 |"1"| tptp.x_chromosome_0) (tptp.exactCardinality _let_22 tptp.object_0 |"1"| tptp.x_chromosome_0) (tptp.object_2 _let_22 _let_8) (tptp.next_event_2 _let_16 _let_22) (tptp.by_means_of_2 _let_16 _let_10) (tptp.site_2 X _let_6) (tptp.subevent_2 X _let_22) (tptp.subevent_2 X _let_4) (tptp.next_event_2 _let_14 _let_4) (tptp.raw_material_2 X _let_21) (tptp.has_part_2 _let_6 _let_8) (tptp.object_2 _let_4 _let_8) (tptp.base_2 _let_4 _let_8) (tptp.raw_material_2 _let_10 _let_12) (tptp.agent_2 _let_19 _let_17) (tptp.result_2 _let_19 _let_1) (tptp.first_subevent_2 X _let_14) (tptp.subevent_2 X _let_16) (tptp.agent_2 _let_16 _let_1) (tptp.object_2 _let_14 _let_1) (tptp.base_2 _let_14 _let_8) (tptp.object_2 _let_16 _let_8) (tptp.enables_2 _let_14 _let_16) (tptp.subevent_2 X _let_14) (tptp.has_part_2 _let_8 _let_12) (= _let_21 (tptp.fn_produce_1 X)) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_12 _let_11) (= _let_1 _let_20) (= _let_19 _let_18) (= X _let_2) (= _let_16 _let_15) (= _let_8 _let_3) (= _let_14 _let_13) (= _let_12 _let_9) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_barr_body_mosaic_2 X))) (=> (tptp.barr_body_mosaic_1 X) (and (tptp.original_name_2 X |tptp.'Barr-Body-Mosaic'|) (tptp.user_description_2 X |tptp.'A female that consists of a mixture of cells each having had different X chromosomes inactivated during Barr-body formation.'|) (tptp.concept2words_2 X tptp.mosaicism) (tptp.concept2words_2 X |tptp.'female mosaicism'|) (tptp.concept2words_2 X |tptp.'barr body mosaicism'|) (tptp.concept2words_2 X |tptp.'barr body mosaic'|) (tptp.concept2words_2 X |tptp.'barr-body mosaic'|) (tptp.concept2words_2 X |tptp.'barr-body-mosaic'|) (tptp.organism_1 X) (tptp.sex_value_1 _let_1) (tptp.sex_2 X _let_1) (tptp.the_categorical_value_2 _let_1 tptp.female_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_barrier_1 X))) (=> (tptp.barrier_1 X) (and (tptp.original_name_2 X |tptp.'Barrier'|) (tptp.concept2words_2 X tptp.barrier) (tptp.concept2words_2 X tptp.obstruction) (tptp.concept2words_2 X tptp.impediment) (tptp.concept2words_2 X tptp.impedimenta) (tptp.role_1 X) (tptp.tangible_entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bartholins_gland_1 X) (and (tptp.original_name_2 X |tptp.'Bartholins-Gland'|) (tptp.user_description_2 X |tptp.'A gland near the vaginal opening that secretes mucus to lubricate the vagina.'|) (tptp.concept2words_2 X |tptp.'bartholins gland'|) (tptp.concept2words_2 X |tptp.'bartholins-gland'|) (tptp.gland_1 X) (not (tptp.bulbourethral_gland_1 X)) (not (tptp.endocrine_gland_1 X)) (not (tptp.mammary_glands_1 X)) (not (tptp.prostate_gland_1 X)) (not (tptp.salivary_gland_1 X)) (not (tptp.seminal_vesicle_1 X))))) (forall ((X $$unsorted)) (=> (tptp.basal_angiosperm_1 X) (and (tptp.original_name_2 X |tptp.'Basal-Angiosperm'|) (tptp.user_description_2 X |tptp.'One of the first plants to diverge from the earliest angiosperm. Examples include water lilies and star anise.'|) (tptp.concept2words_2 X |tptp.'basal angiosperm'|) (tptp.concept2words_2 X |tptp.'basal-angiosperm'|) (tptp.angiosperm_1 X) (not (tptp.cooksonia_1 X)) (not (tptp.seedless_vascular_plant_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_basal_body_8 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_3 (tptp.fn_basal_body_6 X))) (let ((_let_4 (tptp.fn_eukaryotic_cell_31 _let_1))) (let ((_let_5 (tptp.fn_basal_body_7 X))) (let ((_let_6 (tptp.fn_basal_body_5 X))) (let ((_let_7 (tptp.fn_basal_body_4 X))) (let ((_let_8 (tptp.fn_basal_body_2 X))) (let ((_let_9 (tptp.fn_basal_body_3 X))) (let ((_let_10 (tptp.fn_basal_body_1 X))) (=> (tptp.basal_body_1 X) (and (tptp.original_name_2 X |tptp.'Basal-Body'|) (tptp.user_description_2 X |tptp.'It is an organelle formed from centriole. It is found at the base of a eukaryotic cilium or flagellum. It is made up of microtubules arranged in the 9+2 arrangement. Centriole also has microtubules arranged in the same arrangement'|) (tptp.concept2words_2 X |tptp.'basal body'|) (tptp.concept2words_2 X |tptp.'basal-body'|) (tptp.cellular_structure_1 X) (tptp.periphery_1 _let_10) (tptp.protein_1 _let_8) (tptp.microtubule_triplet_1 _let_9) (tptp.microtubule_triplet_1 _let_7) (tptp.molecular_assembly_1 _let_6) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.mixture_1 _let_5) (tptp.cytoplasm_1 _let_5) (tptp.eukaryotic_cell_1 _let_1) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.eukaryotic_cellular_respiration_1 _let_2) (tptp.element_2 _let_6 _let_7) (tptp.element_2 _let_6 _let_9) (tptp.element_2 _let_6 _let_8) (tptp.has_region_2 _let_6 _let_10) (tptp.called_2 _let_7 |"1"|) (tptp.called_2 _let_9 |"2"|) (tptp.is_between_2 _let_8 _let_9) (tptp.is_between_2 _let_8 _let_7) (tptp.has_part_2 _let_1 X) (tptp.has_part_2 X _let_6) (tptp.site_2 _let_3 _let_5) (tptp.has_function_2 _let_1 _let_3) (tptp.base_2 _let_3 _let_1) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.basal_nuclei_1 X) (and (tptp.original_name_2 X |tptp.'Basal-Nuclei'|) (tptp.user_description_2 X |tptp.'A cluster of nuclei located in the base of the forebrain, associated with learning and movement.'|) (tptp.concept2words_2 X |tptp.'basal nucleus'|) (tptp.concept2words_2 X |tptp.'basal-nuclei'|) (tptp.cerebrum_1 X) (not (tptp.amygdala_1 X)) (not (tptp.brainstem_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_5 X))) (let ((_let_2 (tptp.fn_base_2 X))) (let ((_let_3 (tptp.fn_base_1 X))) (=> (tptp.base_1 X) (and (tptp.original_name_2 X |tptp.'Base'|) (tptp.description_2 X |tptp.'A chemical that is basic.'|) (tptp.user_description_2 X |tptp.'A substance that decreases the hydrogen ion concentration of a solution.'|) (tptp.concept2words_2 X tptp.base) (tptp.chemical_1 X) (tptp.ph_value_1 _let_3) (tptp.ph_value_1 _let_2) (tptp.base_compound_1 _let_1) (tptp.greater_than_2 _let_2 _let_3) (tptp.the_cardinal_value_2 _let_3 |"7.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.ph_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.base_compound_1 X) (and (tptp.original_name_2 X |tptp.'Base-Compound'|) (tptp.user_description_2 X |tptp.'Compound with basic properties.'|) (tptp.concept2words_2 X |tptp.'compound of base'|) (tptp.concept2words_2 X |tptp.'base compound'|) (tptp.concept2words_2 X |tptp.'base-compound'|) (tptp.compound_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_2 (tptp.fn_base_dissociation_reaction_18 X))) (let ((_let_3 (tptp.fn_forward_reaction_5 _let_2))) (let ((_let_4 (tptp.fn_reversible_reaction_5 X))) (let ((_let_5 (tptp.fn_base_dissociation_reaction_8 X))) (let ((_let_6 (tptp.fn_base_5 _let_5))) (let ((_let_7 (tptp.fn_forward_reaction_6 _let_2))) (let ((_let_8 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_9 (tptp.fn_base_dissociation_reaction_5 X))) (let ((_let_10 (tptp.fn_add_2 _let_9))) (let ((_let_11 (tptp.fn_base_dissociation_reaction_12 X))) (let ((_let_12 (tptp.fn_base_dissociation_reaction_16 X))) (let ((_let_13 (tptp.fn_base_dissociation_reaction_15 X))) (let ((_let_14 (tptp.fn_base_dissociation_reaction_14 X))) (let ((_let_15 (tptp.fn_base_dissociation_reaction_13 X))) (let ((_let_16 (tptp.fn_forward_reaction_7 _let_2))) (let ((_let_17 (tptp.fn_base_dissociation_reaction_11 X))) (let ((_let_18 (tptp.fn_forward_reaction_2 _let_2))) (let ((_let_19 (tptp.fn_base_dissociation_reaction_10 X))) (let ((_let_20 (tptp.fn_forward_reaction_1 _let_2))) (let ((_let_21 (tptp.fn_base_dissociation_reaction_9 X))) (let ((_let_22 (tptp.fn_forward_reaction_3 _let_2))) (let ((_let_23 (tptp.fn_forward_reaction_4 _let_2))) (let ((_let_24 (tptp.fn_base_dissociation_reaction_17 X))) (let ((_let_25 (tptp.fn_base_dissociation_reaction_6 X))) (let ((_let_26 (tptp.fn_make_contact_2 _let_17))) (let ((_let_27 (tptp.fn_base_dissociation_reaction_4 X))) (let ((_let_28 (tptp.fn_add_1 _let_9))) (let ((_let_29 (tptp.fn_base_dissociation_reaction_7 X))) (let ((_let_30 (tptp.fn_base_dissociation_reaction_2 X))) (let ((_let_31 (tptp.fn_base_dissociation_reaction_3 X))) (=> (tptp.base_dissociation_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Base-Dissociation-Reaction'|) (tptp.user_description_2 X |tptp.'Dissociation reaction in which the hydroxide and remainder of the base separate.'|) (tptp.concept2words_2 X |tptp.'dissociation of base'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'base dissociation reaction'|) (tptp.concept2words_2 X |tptp.'base-dissociation-reaction'|) (tptp.reversible_reaction_1 X) (tptp.chemical_dissociation_reaction_1 X) (not (tptp.acid_dissociation_reaction_1 X)) (tptp.quantity_value_1 _let_30) (tptp.cation_1 _let_31) (tptp.base_compound_1 _let_27) (tptp.add_1 _let_9) (tptp.hydroxide_ion_1 _let_25) (tptp.hydrogen_ion_1 _let_29) (tptp.base_1 _let_5) (tptp.concentration_value_1 _let_21) (tptp.rate_value_1 _let_19) (tptp.make_contact_1 _let_17) (tptp.collide_1 _let_17) (tptp.base_compound_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.chemical_energy_1 _let_15) (tptp.quantity_value_1 _let_14) (tptp.quantity_value_1 _let_13) (tptp.chemical_energy_1 _let_12) (tptp.reverse_reaction_1 _let_24) (tptp.forward_reaction_1 _let_2) (tptp.spatial_entity_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.property_node_1 _let_23) (tptp.property_node_1 _let_22) (tptp.concentration_value_1 _let_20) (tptp.rate_value_1 _let_18) (tptp.collide_1 _let_16) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.base_compound_1 _let_6) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.result_2 X _let_31) (tptp.quantity_2 _let_25 _let_30) (tptp.has_part_2 _let_5 _let_27) (tptp.concentration_2 _let_5 _let_21) (tptp.base_2 _let_9 _let_25) (tptp.object_2 _let_9 _let_29) (tptp.base_2 _let_17 _let_27) (tptp.result_2 X _let_25) (tptp.possesses_2 _let_25 _let_15) (tptp.has_part_2 _let_5 _let_11) (tptp.result_2 _let_24 _let_11) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_2) (tptp.intensity_2 _let_17 |tptp.'*strong'|) (tptp.raw_material_2 _let_2 _let_11) (tptp.object_2 _let_17 _let_11) (tptp.rate_2 _let_17 _let_19) (tptp.directly_proportional_2 _let_19 _let_21) (tptp.raw_material_2 X _let_11) (tptp.possesses_2 _let_11 _let_12) (tptp.quantity_2 _let_12 _let_13) (tptp.greater_than_2 _let_13 _let_14) (tptp.quantity_2 _let_15 _let_14) (= _let_25 _let_10) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_25 _let_8) (= _let_11 _let_6) (= _let_24 (tptp.fn_reversible_reaction_6 X)) (= (tptp.fn_base_dissociation_reaction_20 X) _let_23) (= (tptp.fn_base_dissociation_reaction_19 X) _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_11 _let_7) (= _let_2 (tptp.fn_reversible_reaction_7 X)) (= _let_11 _let_3) (= (tptp.fn_base_dissociation_reaction_21 X) (tptp.fn_exergonic_reaction_2 X)) (= (tptp.fn_base_dissociation_reaction_22 X) (tptp.fn_exergonic_reaction_1 X)) (= _let_15 (tptp.fn_exergonic_reaction_6 X)) (= _let_14 (tptp.fn_exergonic_reaction_5 X)) (= _let_13 (tptp.fn_exergonic_reaction_4 X)) (= _let_12 (tptp.fn_exergonic_reaction_3 X)) (= _let_11 _let_4) (= _let_11 _let_1) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_pair_2 X))) (let ((_let_2 (tptp.fn_base_pair_1 X))) (=> (tptp.base_pair_1 X) (and (tptp.original_name_2 X |tptp.'Base-Pair'|) (tptp.user_description_2 X |tptp.'One of the pairs of nucleotide bases (a purine and pyrimidine) on complementary strands of DNA or RNA.'|) (tptp.concept2words_2 X |tptp.'complementary base pair'|) (tptp.concept2words_2 X |tptp.'nucelotide pair'|) (tptp.concept2words_2 X |tptp.'nucelotide-pair'|) (tptp.concept2words_2 X |tptp.'pair of base'|) (tptp.concept2words_2 X |tptp.'base pair'|) (tptp.concept2words_2 X |tptp.'base-pair'|) (tptp.nitrogenous_compound_1 X) (tptp.purine_1 _let_2) (tptp.pyrimidine_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.pyrimidine_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.purine_0) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.base_pair_substitution_1 X) (and (tptp.original_name_2 X |tptp.'Base-Pair-Substitution'|) (tptp.user_description_2 X |tptp.'A change in genetic material in which one nitrogenous base is substituted for another.'|) (tptp.concept2words_2 X tptp.substitute) (tptp.concept2words_2 X |tptp.'base pair substitution'|) (tptp.concept2words_2 X |tptp.'base-pair-substitution'|) (tptp.point_mutation_1 X) (not (tptp.silent_mutation_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X2) (tptp.nitrogenous_base_1 X1) (tptp.attach_1 X) (tptp.nitrogenous_base_1 X2)) (and (tptp.base_pairing_1 X) (= (tptp.fn_base_pairing_3 X) X2) (= (tptp.fn_base_pairing_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_pairing_5 X))) (let ((_let_2 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_3 (tptp.fn_attach_1 X))) (let ((_let_4 (tptp.fn_base_pairing_2 X))) (let ((_let_5 (tptp.fn_attach_2 _let_4))) (let ((_let_6 (tptp.fn_chemical_bond_1 _let_1))) (let ((_let_7 (tptp.fn_attach_1 _let_4))) (let ((_let_8 (tptp.fn_attach_2 X))) (let ((_let_9 (tptp.fn_base_pairing_3 X))) (let ((_let_10 (tptp.fn_base_pairing_4 X))) (=> (tptp.base_pairing_1 X) (and (tptp.original_name_2 X |tptp.'Base-pairing'|) (tptp.user_description_2 X |tptp.'Base pairing is the process in which nitrogenous bases of complementary strands opposite to each other are joined. It can occur between complementary regions of DNA strands and RNA strands, including DNA to RNA, DNA to DNA, and RNA to RNA.'|) (tptp.concept2words_2 X |tptp.'base pair'|) (tptp.concept2words_2 X tptp.pair) (tptp.concept2words_2 X |tptp.'pairing of base'|) (tptp.concept2words_2 X |tptp.'base pairing'|) (tptp.concept2words_2 X |tptp.'base-pairing'|) (tptp.attach_1 X) (not (tptp.annealing_1 X)) (not (tptp.intercellular_joining_1 X)) (not (tptp.ligand_binding_1 X)) (not (tptp.nucleic_acid_hybridization_1 X)) (tptp.attach_1 _let_4) (tptp.nitrogenous_base_1 _let_9) (tptp.nitrogenous_base_1 _let_10) (tptp.hydrogen_bond_1 _let_1) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_2) (not (= _let_10 _let_9)) (tptp.complement_2 _let_10 _let_9) (not (= _let_9 _let_10)) (tptp.complement_2 _let_9 _let_10) (tptp.instrument_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.agent_2 _let_4 _let_1) (tptp.base_2 X _let_10) (tptp.base_2 _let_4 _let_9) (tptp.object_2 X _let_9) (tptp.object_2 _let_4 _let_10) (tptp.is_between_2 _let_1 _let_10) (tptp.is_between_2 _let_1 _let_9) (= _let_10 _let_8) (= _let_9 _let_5) (= _let_9 _let_3) (= _let_10 _let_7) (= _let_10 _let_6) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.base_2 X X2) (tptp.adenine_1 X1) (tptp.base_pairing_1 X) (tptp.thymine_1 X2)) (and (tptp.base_pairing_between_adenine_and_thymine_1 X) (= (tptp.fn_base_pairing_between_adenine_and_thymine_3 X) X2) (= (tptp.fn_base_pairing_between_adenine_and_thymine_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_pairing_between_adenine_and_thymine_2 X))) (let ((_let_2 (tptp.fn_base_pairing_between_adenine_and_thymine_3 X))) (=> (tptp.base_pairing_between_adenine_and_thymine_1 X) (and (tptp.original_name_2 X |tptp.'Base-Pairing-Between-Adenine-And-Thymine'|) (tptp.user_description_2 X |tptp.'Base pairing occurs between Adenine at one DNA strand and Thymine at comlementary DNA strand. Adenine (A) and Thymine (T) pairing involves 2 hydrogen bonds.'|) (tptp.concept2words_2 X |tptp.'a t base pairing'|) (tptp.concept2words_2 X |tptp.'a-t-base-pairing'|) (tptp.concept2words_2 X tptp.pair) (tptp.concept2words_2 X |tptp.'base pairing between adenine and thymine'|) (tptp.concept2words_2 X |tptp.'base-pairing-between-adenine-and-thymine'|) (tptp.base_pairing_1 X) (not (tptp.base_pairing_between_adenine_and_uracil_1 X)) (not (tptp.base_pairing_between_cytosine_and_guanine_1 X)) (tptp.adenine_1 _let_1) (tptp.thymine_1 _let_2) (tptp.object_2 X _let_1) (not (= _let_1 _let_2)) (tptp.base_2 X _let_2) (not (= _let_2 _let_1)) (tptp.complement_2 _let_1 _let_2) (tptp.complement_2 _let_2 _let_1) (= _let_2 (tptp.fn_base_pairing_4 X)) (= _let_1 (tptp.fn_base_pairing_3 X))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.base_2 X X2) (tptp.adenine_1 X1) (tptp.base_pairing_1 X) (tptp.uracil_1 X2)) (and (tptp.base_pairing_between_adenine_and_uracil_1 X) (= (tptp.fn_base_pairing_between_adenine_and_uracil_2 X) X1) (= (tptp.fn_base_pairing_between_adenine_and_uracil_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_pairing_between_adenine_and_uracil_2 X))) (let ((_let_2 (tptp.fn_base_pairing_between_adenine_and_uracil_3 X))) (=> (tptp.base_pairing_between_adenine_and_uracil_1 X) (and (tptp.original_name_2 X |tptp.'Base-Pairing-Between-Adenine-And-Uracil'|) (tptp.user_description_2 X |tptp.'Base pairing occurs between Adenine and Uracil in RNA. There are 2 hydrogen bonds between Adenine and Uracil'|) (tptp.concept2words_2 X |tptp.'a u base pairing'|) (tptp.concept2words_2 X |tptp.'a-u-base-pairing'|) (tptp.concept2words_2 X tptp.pair) (tptp.concept2words_2 X |tptp.'base pairing between adenine and uracil'|) (tptp.concept2words_2 X |tptp.'base-pairing-between-adenine-and-uracil'|) (tptp.base_pairing_1 X) (not (tptp.base_pairing_between_adenine_and_thymine_1 X)) (not (tptp.base_pairing_between_cytosine_and_guanine_1 X)) (tptp.adenine_1 _let_1) (tptp.uracil_1 _let_2) (tptp.object_2 X _let_1) (not (= _let_1 _let_2)) (tptp.base_2 X _let_2) (not (= _let_2 _let_1)) (tptp.complement_2 _let_1 _let_2) (tptp.complement_2 _let_2 _let_1) (= _let_2 (tptp.fn_base_pairing_4 X)) (= _let_1 (tptp.fn_base_pairing_3 X))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.base_2 X X2) (tptp.cytosine_1 X1) (tptp.base_pairing_1 X) (tptp.guanine_1 X2)) (and (tptp.base_pairing_between_cytosine_and_guanine_1 X) (= (tptp.fn_base_pairing_between_cytosine_and_guanine_3 X) X2) (= (tptp.fn_base_pairing_between_cytosine_and_guanine_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_base_pairing_between_cytosine_and_guanine_3 X))) (let ((_let_2 (tptp.fn_guanine_1 _let_1))) (let ((_let_3 (tptp.fn_base_pairing_3 X))) (let ((_let_4 (tptp.fn_base_pairing_between_cytosine_and_guanine_2 X))) (=> (tptp.base_pairing_between_cytosine_and_guanine_1 X) (and (tptp.original_name_2 X |tptp.'Base-Pairing-Between-Cytosine-And-Guanine'|) (tptp.user_description_2 X |tptp.'Base pairing occurs between Guanine present at nucleotides strand and Cytosine present at comlementary nucleotides strand. Guanine(G) and Cytosine (C) pairing involves 3 hydrogen bonds.'|) (tptp.concept2words_2 X |tptp.'c g base pairing'|) (tptp.concept2words_2 X |tptp.'c-g-base-pairing'|) (tptp.concept2words_2 X tptp.pair) (tptp.concept2words_2 X |tptp.'base pairing between cytosine and guanine'|) (tptp.concept2words_2 X |tptp.'base-pairing-between-cytosine-and-guanine'|) (tptp.base_pairing_1 X) (not (tptp.base_pairing_between_adenine_and_thymine_1 X)) (not (tptp.base_pairing_between_adenine_and_uracil_1 X)) (tptp.nitrogenous_base_1 _let_4) (tptp.cytosine_1 _let_4) (tptp.nitrogenous_base_1 _let_1) (tptp.guanine_1 _let_1) (tptp.cytosine_1 _let_2) (tptp.base_2 X _let_1) (not (= _let_1 _let_4)) (tptp.object_2 X _let_4) (not (= _let_4 _let_1)) (tptp.complement_2 _let_4 _let_1) (tptp.complement_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_1 (tptp.fn_base_pairing_4 X)) (= _let_4 _let_2) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.base_role_1 X) (and (tptp.original_name_2 X |tptp.'Base-Role'|) (tptp.concept2words_2 X |tptp.'role of base'|) (tptp.concept2words_2 X |tptp.'base role'|) (tptp.concept2words_2 X |tptp.'base-role'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.basement_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Basement-Membrane'|) (tptp.user_description_2 X |tptp.'A mat of extracellular matrix at the base of epithelial tissue.'|) (tptp.concept2words_2 X |tptp.'membrane of basement'|) (tptp.concept2words_2 X |tptp.'basement membrane'|) (tptp.concept2words_2 X |tptp.'basement-membrane'|) (tptp.extra_cellular_matrix_1 X) (not (tptp.extraembryonic_membrane_1 X)) (not (tptp.middle_lamella_1 X)) (not (tptp.zona_pellucida_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_basic_amino_acid_47 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_basic_amino_acid_29 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_hydrophilic_amino_acid_29 X))) (let ((_let_6 (tptp.fn_amino_group_20 _let_1))) (let ((_let_7 (tptp.fn_hydrophilic_amino_acid_33 X))) (let ((_let_8 (tptp.fn_hydrophilic_amino_acid_30 X))) (let ((_let_9 (tptp.fn_carboxyl_group_25 _let_3))) (let ((_let_10 (tptp.fn_amino_group_22 _let_1))) (let ((_let_11 (tptp.fn_hydrophilic_amino_acid_28 X))) (let ((_let_12 (tptp.fn_amino_group_21 _let_1))) (let ((_let_13 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_14 (tptp.fn_hydrophilic_amino_acid_32 X))) (let ((_let_15 (tptp.fn_carboxyl_group_24 _let_3))) (let ((_let_16 (tptp.fn_carboxyl_group_23 _let_3))) (let ((_let_17 (tptp.fn_basic_amino_acid_20 X))) (let ((_let_18 (tptp.fn_hold_2 _let_17))) (let ((_let_19 (tptp.fn_basic_amino_acid_14 X))) (let ((_let_20 (tptp.fn_hold_2 _let_19))) (let ((_let_21 (tptp.fn_hydrophilic_amino_acid_21 X))) (let ((_let_22 (tptp.fn_carboxyl_group_16 _let_3))) (let ((_let_23 (tptp.fn_hydrophilic_amino_acid_20 X))) (let ((_let_24 (tptp.fn_hydrophilic_amino_acid_7 X))) (let ((_let_25 (tptp.fn_hydrophilic_amino_acid_2 X))) (let ((_let_26 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_27 (tptp.fn_carboxyl_group_19 _let_3))) (let ((_let_28 (tptp.fn_carboxyl_group_67 _let_3))) (let ((_let_29 (tptp.fn_hydrophilic_amino_acid_16 X))) (let ((_let_30 (tptp.fn_amino_group_33 _let_1))) (let ((_let_31 (tptp.fn_hydrophilic_amino_acid_15 X))) (let ((_let_32 (tptp.fn_hydrophilic_amino_acid_3 X))) (let ((_let_33 (tptp.fn_hydrophilic_amino_acid_18 X))) (let ((_let_34 (tptp.fn_carboxyl_group_56 _let_3))) (let ((_let_35 (tptp.fn_hydrophilic_amino_acid_19 X))) (let ((_let_36 (tptp.fn_carboxyl_group_49 _let_3))) (let ((_let_37 (tptp.fn_hydrophilic_amino_acid_5 X))) (let ((_let_38 (tptp.fn_hydrophilic_amino_acid_17 X))) (let ((_let_39 (tptp.fn_carboxyl_group_21 _let_3))) (let ((_let_40 (tptp.fn_basic_amino_acid_39 X))) (let ((_let_41 (tptp.fn_share_2 _let_40))) (let ((_let_42 (tptp.fn_carboxyl_group_55 _let_3))) (let ((_let_43 (tptp.fn_basic_amino_acid_31 X))) (let ((_let_44 (tptp.fn_basic_amino_acid_32 X))) (let ((_let_45 (tptp.fn_basic_amino_acid_35 X))) (let ((_let_46 (tptp.fn_basic_amino_acid_46 X))) (let ((_let_47 (tptp.fn_basic_amino_acid_12 X))) (let ((_let_48 (tptp.fn_basic_amino_acid_33 X))) (let ((_let_49 (tptp.fn_basic_amino_acid_25 X))) (let ((_let_50 (tptp.fn_basic_amino_acid_26 X))) (let ((_let_51 (tptp.fn_basic_amino_acid_45 X))) (let ((_let_52 (tptp.fn_basic_amino_acid_36 X))) (let ((_let_53 (tptp.fn_basic_amino_acid_34 X))) (let ((_let_54 (tptp.fn_basic_amino_acid_30 X))) (let ((_let_55 (tptp.fn_basic_amino_acid_13 X))) (let ((_let_56 (tptp.fn_basic_amino_acid_44 X))) (let ((_let_57 (tptp.fn_basic_amino_acid_22 X))) (let ((_let_58 (tptp.fn_basic_amino_acid_17 X))) (let ((_let_59 (tptp.fn_basic_amino_acid_6 X))) (let ((_let_60 (tptp.fn_basic_amino_acid_41 X))) (let ((_let_61 (tptp.fn_basic_amino_acid_18 X))) (let ((_let_62 (tptp.fn_basic_amino_acid_27 X))) (let ((_let_63 (tptp.fn_basic_amino_acid_23 X))) (let ((_let_64 (tptp.fn_basic_amino_acid_19 X))) (let ((_let_65 (tptp.fn_basic_amino_acid_24 X))) (let ((_let_66 (tptp.fn_basic_amino_acid_40 X))) (let ((_let_67 (tptp.fn_carboxyl_group_47 _let_3))) (let ((_let_68 (tptp.fn_basic_amino_acid_15 X))) (let ((_let_69 (tptp.fn_basic_amino_acid_16 X))) (let ((_let_70 (tptp.fn_basic_amino_acid_38 X))) (let ((_let_71 (tptp.fn_basic_amino_acid_37 X))) (let ((_let_72 (tptp.fn_basic_amino_acid_7 X))) (let ((_let_73 (tptp.fn_basic_amino_acid_11 X))) (let ((_let_74 (tptp.fn_basic_amino_acid_10 X))) (let ((_let_75 (tptp.fn_basic_amino_acid_8 X))) (let ((_let_76 (tptp.fn_basic_amino_acid_43 X))) (let ((_let_77 (tptp.fn_basic_amino_acid_42 X))) (let ((_let_78 (tptp.fn_basic_amino_acid_21 X))) (let ((_let_79 (tptp.fn_basic_amino_acid_9 X))) (let ((_let_80 (tptp.fn_basic_amino_acid_28 X))) (let ((_let_81 (tptp.fn_basic_amino_acid_1 X))) (let ((_let_82 (tptp.fn_basic_amino_acid_2 X))) (=> (tptp.basic_amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Basic-Amino-Acid'|) (tptp.user_description_2 X |tptp.'Amino acids which carry an overall positive charge due to the presence of a positively charged side chain.'|) (tptp.concept2words_2 X |tptp.'cation amino acid'|) (tptp.concept2words_2 X |tptp.'positively charged amino acid'|) (tptp.concept2words_2 X |tptp.'positively charged amino-acid'|) (tptp.concept2words_2 X |tptp.'basic amino acid'|) (tptp.concept2words_2 X |tptp.'basic-amino-acid'|) (tptp.electrically_charged_amino_acid_1 X) (tptp.hydrophilic_region_1 _let_81) (tptp.positively_charged_region_1 _let_82) (tptp.end_1 _let_59) (tptp.kinetic_energy_1 _let_72) (tptp.constant_motion_1 _let_75) (tptp.charge_value_1 _let_79) (tptp.speed_value_1 _let_74) (tptp.quantity_value_1 _let_73) (tptp.hold_together_1 _let_47) (tptp.hold_1 _let_55) (tptp.hold_together_1 _let_55) (tptp.hold_1 _let_19) (tptp.hold_together_1 _let_19) (tptp.hold_together_1 _let_68) (tptp.hold_together_1 _let_69) (tptp.share_1 _let_58) (tptp.share_1 _let_61) (tptp.share_1 _let_64) (tptp.hold_1 _let_17) (tptp.hold_together_1 _let_17) (tptp.hold_together_1 _let_78) (tptp.share_1 _let_57) (tptp.share_1 _let_63) (tptp.share_1 _let_65) (tptp.electron_shell_1 _let_49) (tptp.electron_shell_1 _let_50) (tptp.entity_1 _let_62) (tptp.tangible_entity_1 _let_62) (tptp.electron_1 _let_62) (tptp.valence_electron_1 _let_62) (tptp.polar_side_chain_1 _let_80) (tptp.functional_group_1 _let_3) (tptp.carboxyl_group_1 _let_3) (tptp.carbon_skeleton_1 _let_54) (tptp.chemical_entity_1 _let_43) (tptp.tangible_entity_1 _let_43) (tptp.entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.nitrogen_1 _let_43) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.hydrogen_1 _let_44) (tptp.tangible_entity_1 _let_48) (tptp.entity_1 _let_48) (tptp.oxygen_1 _let_48) (tptp.entity_1 _let_53) (tptp.oxygen_1 _let_53) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.hydrogen_1 _let_45) (tptp.tangible_entity_1 _let_52) (tptp.entity_1 _let_52) (tptp.chemical_entity_1 _let_52) (tptp.atom_1 _let_52) (tptp.carbon_1 _let_52) (tptp.entity_1 _let_71) (tptp.valence_electron_1 _let_71) (tptp.share_1 _let_70) (tptp.share_1 _let_40) (tptp.share_1 _let_66) (tptp.share_1 _let_60) (tptp.hold_together_1 _let_77) (tptp.hold_together_1 _let_76) (tptp.hold_together_1 _let_56) (tptp.hold_1 _let_51) (tptp.hold_together_1 _let_51) (tptp.single_bond_1 _let_46) (tptp.functional_group_1 _let_1) (tptp.amino_group_1 _let_1) (tptp.hold_together_1 _let_67) (tptp.hold_together_1 _let_42) (tptp.entity_1 _let_41) (tptp.entity_1 _let_39) (tptp.valence_electron_1 _let_39) (tptp.share_1 _let_36) (tptp.share_1 _let_34) (tptp.hold_1 _let_30) (tptp.hold_together_1 _let_30) (tptp.hold_together_1 _let_28) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.electron_shell_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.tangible_entity_1 _let_18) (tptp.oxygen_1 _let_16) (tptp.oxygen_1 _let_15) (tptp.single_bond_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.tangible_entity_1 _let_6) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.nitrogen_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.is_inside_2 _let_81 _let_80) (tptp.is_inside_2 _let_82 _let_80) (tptp.has_region_2 X _let_82) (tptp.has_region_2 X _let_81) (tptp.the_categorical_value_2 _let_79 tptp.partial_positive_0) (tptp.object_2 _let_40 _let_71) (tptp.object_2 _let_19 _let_48) (tptp.object_2 _let_17 _let_48) (tptp.has_region_2 X _let_80) (tptp.is_inside_2 _let_59 _let_80) (tptp.object_2 _let_17 _let_44) (tptp.charge_2 X _let_79) (tptp.is_inside_2 _let_44 _let_1) (tptp.object_2 _let_19 _let_44) (tptp.object_2 _let_78 _let_52) (tptp.object_2 _let_78 _let_53) (tptp.object_2 _let_77 _let_52) (tptp.object_2 _let_77 _let_53) (tptp.agent_2 _let_63 _let_53) (tptp.agent_2 _let_65 _let_52) (tptp.agent_2 _let_64 _let_53) (tptp.agent_2 _let_66 _let_52) (tptp.object_2 _let_66 _let_71) (tptp.object_2 _let_55 _let_48) (tptp.object_2 _let_55 _let_44) (tptp.object_2 _let_76 _let_53) (tptp.object_2 _let_76 _let_52) (tptp.object_2 _let_17 _let_52) (tptp.object_2 _let_17 _let_53) (tptp.agent_2 _let_61 _let_53) (tptp.possesses_2 X _let_72) (tptp.quantity_2 _let_72 _let_73) (tptp.directly_proportional_2 _let_74 _let_73) (tptp.speed_2 _let_75 _let_74) (tptp.object_2 _let_75 X) (tptp.agent_2 _let_70 _let_52) (tptp.object_2 _let_70 _let_71) (tptp.object_2 _let_56 _let_53) (tptp.object_2 _let_56 _let_44) (tptp.agent_2 _let_40 _let_52) (tptp.agent_2 _let_40 _let_53) (tptp.has_region_2 _let_53 _let_49) (not (= _let_45 _let_53)) (not (= _let_53 _let_45)) (tptp.is_inside_2 _let_53 _let_3) (tptp.object_2 _let_68 _let_53) (tptp.object_2 _let_68 _let_52) (tptp.object_2 _let_69 _let_52) (tptp.object_2 _let_69 _let_53) (tptp.has_part_2 X _let_43) (tptp.possesses_2 X _let_46) (tptp.has_part_2 X _let_44) (tptp.agent_2 _let_66 _let_48) (tptp.object_2 _let_65 _let_62) (tptp.has_part_2 X _let_48) (tptp.has_region_2 _let_48 _let_50) (tptp.agent_2 _let_57 _let_52) (tptp.object_2 _let_57 _let_62) (tptp.object_2 _let_63 _let_62) (tptp.agent_2 _let_63 _let_52) (tptp.agent_2 _let_64 _let_52) (tptp.agent_2 _let_60 _let_52) (tptp.agent_2 _let_60 _let_53) (tptp.has_part_2 X _let_53) (tptp.has_part_2 X _let_52) (tptp.agent_2 _let_61 _let_52) (tptp.agent_2 _let_58 _let_53) (tptp.agent_2 _let_58 _let_52) (not (= _let_52 _let_45)) (tptp.has_part_2 X _let_45) (tptp.has_region_2 X _let_59) (not (= _let_45 _let_52)) (tptp.object_2 _let_56 _let_52) (tptp.object_2 _let_56 _let_48) (tptp.agent_2 _let_57 _let_48) (not (= _let_52 _let_48)) (not (= _let_48 _let_52)) (tptp.object_2 _let_55 _let_52) (tptp.object_2 _let_55 _let_53) (tptp.object_2 _let_19 _let_53) (tptp.object_2 _let_19 _let_52) (not (= _let_52 _let_43)) (not (= _let_43 _let_52)) (tptp.object_2 _let_51 _let_52) (tptp.object_2 _let_51 _let_53) (not (= _let_53 _let_52)) (tptp.is_inside_2 _let_52 _let_54) (tptp.has_region_2 X _let_54) (not (= _let_52 _let_53)) (tptp.object_2 _let_47 _let_52) (tptp.object_2 _let_47 _let_53) (not (= _let_53 _let_48)) (not (= _let_48 _let_53)) (not (= _let_45 _let_48)) (not (= _let_48 _let_45)) (tptp.object_2 _let_51 _let_48) (tptp.object_2 _let_51 _let_44) (not (= _let_44 _let_52)) (tptp.is_inside_2 _let_52 _let_3) (tptp.is_inside_2 _let_48 _let_3) (not (= _let_52 _let_44)) (tptp.object_2 _let_47 _let_44) (tptp.object_2 _let_47 _let_48) (tptp.has_region_2 _let_48 _let_49) (not (= _let_50 _let_49)) (not (= _let_49 _let_50)) (tptp.is_between_2 _let_46 _let_43) (tptp.is_between_2 _let_46 _let_44) (not (= _let_44 _let_45)) (tptp.is_inside_2 _let_45 _let_3) (tptp.has_region_2 X _let_3) (not (= _let_45 _let_44)) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_43 _let_1) (not (= _let_43 _let_45)) (not (= _let_44 _let_43)) (not (= _let_43 _let_44)) (not (= _let_45 _let_43)) (= _let_71 _let_41) (= _let_48 _let_20) (= _let_48 _let_18) (= _let_80 (tptp.fn_hydrophilic_amino_acid_24 X)) (= _let_17 _let_30) (= (tptp.fn_basic_amino_acid_3 X) (tptp.fn_molecule_6 X)) (= _let_79 (tptp.fn_molecule_5 X)) (= _let_19 _let_30) (= _let_78 _let_42) (= _let_63 _let_36) (= _let_77 _let_67) (= _let_65 _let_34) (= _let_64 _let_36) (= _let_66 _let_36) (= _let_55 _let_28) (= _let_61 _let_34) (= _let_17 _let_42) (= _let_76 _let_67) (= (tptp.fn_basic_amino_acid_5 X) (tptp.fn_amino_acid_3 X)) (= (tptp.fn_basic_amino_acid_4 X) (tptp.fn_amino_acid_4 X)) (= _let_75 (tptp.fn_amino_acid_5 X)) (= _let_74 (tptp.fn_amino_acid_6 X)) (= _let_73 (tptp.fn_amino_acid_7 X)) (= _let_72 (tptp.fn_amino_acid_16 X)) (= _let_71 _let_39) (= _let_70 _let_36) (= _let_44 _let_9) (= _let_56 _let_28) (= _let_49 _let_22) (= _let_40 _let_34) (= _let_53 _let_15) (= _let_69 _let_42) (= _let_68 _let_67) (= _let_66 _let_33) (= _let_65 _let_38) (= _let_50 _let_21) (= _let_48 _let_14) (= _let_64 _let_37) (= _let_63 _let_35) (= _let_62 (tptp.fn_hydrophilic_amino_acid_22 X)) (= _let_57 _let_33) (= _let_61 _let_32) (= _let_53 _let_13) (= _let_60 _let_38) (= _let_59 (tptp.fn_hydrophilic_amino_acid_23 X)) (= _let_58 (tptp.fn_hydrophilic_amino_acid_4 X)) (= _let_57 _let_32) (= _let_48 _let_16) (= _let_56 _let_31) (= _let_19 _let_29) (= _let_55 _let_24) (= _let_54 (tptp.fn_hydrophilic_amino_acid_27 X)) (= _let_51 _let_25) (= _let_53 _let_16) (= _let_53 _let_14) (= _let_48 _let_15) (= _let_52 _let_27) (= _let_52 _let_26) (= _let_51 _let_24) (= _let_50 _let_23) (= _let_49 _let_21) (= _let_48 _let_13) (= _let_47 (tptp.fn_hydrophilic_amino_acid_1 X)) (= X _let_4) (= _let_45 _let_9) (= _let_3 (tptp.fn_hydrophilic_amino_acid_26 X)) (= _let_45 _let_7) (= _let_44 _let_8) (= _let_46 _let_12) (= _let_46 _let_11) (= _let_45 _let_8) (= _let_44 _let_10) (= _let_44 _let_7) (= _let_43 _let_6) (= _let_43 _let_5) (= X _let_2) (= _let_1 (tptp.fn_hydrophilic_amino_acid_25 X)) (= _let_30 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_36) (= _let_36 _let_36) (= _let_36 _let_33) (= _let_33 _let_34) (= _let_34 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_28) (= _let_28 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_24) (= _let_24 _let_15) (= _let_13 _let_16) (= _let_16 _let_13) (= _let_13 _let_14) (= _let_14 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_21) (= _let_21 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_8 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_basic_solution_30 X))) (let ((_let_2 (tptp.fn_base_dissociation_reaction_6 _let_1))) (let ((_let_3 (tptp.fn_basic_solution_31 X))) (let ((_let_4 (tptp.fn_chemical_reaction_1 _let_3))) (let ((_let_5 (tptp.fn_basic_solution_29 X))) (let ((_let_6 (tptp.fn_reverse_reaction_7 _let_5))) (let ((_let_7 (tptp.fn_base_dissociation_reaction_12 _let_1))) (let ((_let_8 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_9 (tptp.fn_base_dissociation_reaction_8 _let_1))) (let ((_let_10 (tptp.fn_solution_5 X))) (let ((_let_11 (tptp.fn_base_dissociation_reaction_2 _let_1))) (let ((_let_12 (tptp.fn_basic_solution_28 X))) (let ((_let_13 (tptp.fn_increase_3 _let_12))) (let ((_let_14 (tptp.fn_basic_solution_25 X))) (let ((_let_15 (tptp.fn_base_dissociation_reaction_13 _let_1))) (let ((_let_16 (tptp.fn_basic_solution_19 X))) (let ((_let_17 (tptp.fn_base_dissociation_reaction_14 _let_1))) (let ((_let_18 (tptp.fn_basic_solution_18 X))) (let ((_let_19 (tptp.fn_base_dissociation_reaction_15 _let_1))) (let ((_let_20 (tptp.fn_basic_solution_17 X))) (let ((_let_21 (tptp.fn_base_dissociation_reaction_21 _let_1))) (let ((_let_22 (tptp.fn_basic_solution_32 X))) (let ((_let_23 (tptp.fn_base_dissociation_reaction_11 _let_1))) (let ((_let_24 (tptp.fn_basic_solution_15 X))) (let ((_let_25 (tptp.fn_base_dissociation_reaction_4 _let_1))) (let ((_let_26 (tptp.fn_basic_solution_12 X))) (let ((_let_27 (tptp.fn_basic_solution_23 X))) (let ((_let_28 (tptp.fn_base_dissociation_reaction_16 _let_1))) (let ((_let_29 (tptp.fn_basic_solution_16 X))) (let ((_let_30 (tptp.fn_base_dissociation_reaction_17 _let_1))) (let ((_let_31 (tptp.fn_base_dissociation_reaction_3 _let_1))) (let ((_let_32 (tptp.fn_basic_solution_11 X))) (let ((_let_33 (tptp.fn_base_dissociation_reaction_9 _let_1))) (let ((_let_34 (tptp.fn_basic_solution_13 X))) (let ((_let_35 (tptp.fn_base_dissociation_reaction_10 _let_1))) (let ((_let_36 (tptp.fn_basic_solution_14 X))) (let ((_let_37 (tptp.fn_basic_solution_24 X))) (let ((_let_38 (tptp.fn_base_dissociation_reaction_1 _let_1))) (let ((_let_39 (tptp.fn_base_dissociation_reaction_18 _let_1))) (let ((_let_40 (tptp.fn_base_dissociation_reaction_22 _let_1))) (let ((_let_41 (tptp.fn_base_dissociation_reaction_5 _let_1))) (let ((_let_42 (tptp.fn_basic_solution_27 X))) (let ((_let_43 (tptp.fn_base_dissociation_reaction_20 _let_1))) (let ((_let_44 (tptp.fn_base_dissociation_reaction_19 _let_1))) (let ((_let_45 (tptp.fn_increase_4 _let_12))) (let ((_let_46 (tptp.fn_basic_solution_21 X))) (let ((_let_47 (tptp.fn_increase_1 _let_12))) (let ((_let_48 (tptp.fn_basic_solution_22 X))) (let ((_let_49 (tptp.fn_chemical_3 _let_48))) (let ((_let_50 (tptp.fn_basic_solution_33 X))) (let ((_let_51 (tptp.fn_basic_solution_4 X))) (let ((_let_52 (tptp.fn_basic_solution_3 X))) (let ((_let_53 (tptp.fn_basic_solution_6 X))) (=> (tptp.basic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Basic-Solution'|) (tptp.user_description_2 X |tptp.'An aqueous solution containing more OH- ions than H+ ions. An aqueous solution with a pH greater than 7.'|) (tptp.concept2words_2 X |tptp.'solution of base'|) (tptp.concept2words_2 X |tptp.'solution of basic'|) (tptp.concept2words_2 X |tptp.'basic solution'|) (tptp.concept2words_2 X |tptp.'basic-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.buffered_solution_1 X)) (not (tptp.gel_1 X)) (not (tptp.hypertonic_solution_1 X)) (not (tptp.hypotonic_solution_1 X)) (not (tptp.isotonic_solution_1 X)) (tptp.ph_value_1 _let_52) (tptp.ph_value_1 _let_51) (tptp.quantity_value_1 _let_53) (tptp.cation_1 _let_32) (tptp.base_compound_1 _let_26) (tptp.concentration_value_1 _let_34) (tptp.rate_value_1 _let_36) (tptp.make_contact_1 _let_24) (tptp.collide_1 _let_24) (tptp.chemical_energy_1 _let_29) (tptp.quantity_value_1 _let_20) (tptp.quantity_value_1 _let_18) (tptp.chemical_energy_1 _let_16) (tptp.property_value_1 _let_46) (tptp.water_1 _let_48) (tptp.chemical_1 _let_27) (tptp.base_1 _let_27) (tptp.property_value_1 _let_37) (tptp.quantity_value_1 _let_37) (tptp.chemical_entity_1 _let_14) (tptp.hydroxide_ion_1 _let_14) (tptp.add_1 _let_42) (tptp.increase_1 _let_12) (tptp.reverse_reaction_1 _let_5) (tptp.base_dissociation_reaction_1 _let_1) (tptp.chemical_reaction_1 _let_3) (tptp.forward_reaction_1 _let_3) (tptp.base_compound_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.hydronium_ion_1 _let_50) (tptp.chemical_entity_1 _let_49) (tptp.property_node_1 _let_47) (tptp.property_value_1 _let_45) (tptp.property_node_1 _let_44) (tptp.property_node_1 _let_43) (tptp.add_1 _let_41) (tptp.property_node_1 _let_40) (tptp.forward_reaction_1 _let_39) (tptp.property_node_1 _let_38) (tptp.rate_value_1 _let_35) (tptp.concentration_value_1 _let_33) (tptp.cation_1 _let_31) (tptp.reverse_reaction_1 _let_30) (tptp.chemical_energy_1 _let_28) (tptp.base_compound_1 _let_25) (tptp.make_contact_1 _let_23) (tptp.collide_1 _let_23) (tptp.property_node_1 _let_21) (tptp.quantity_value_1 _let_19) (tptp.quantity_value_1 _let_17) (tptp.chemical_energy_1 _let_15) (tptp.property_value_1 _let_13) (tptp.quantity_value_1 _let_11) (tptp.base_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.base_compound_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.hydroxide_ion_1 _let_2) (not (= _let_48 _let_27)) (not (= _let_27 _let_48)) (tptp.greater_than_2 _let_37 _let_53) (tptp.causes_2 _let_42 _let_12) (tptp.by_means_of_2 _let_12 _let_42) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_32) (tptp.ph_2 X _let_52) (tptp.quantity_2 _let_50 _let_53) (tptp.called_2 _let_53 |tptp.'Quantity_H'|) (tptp.the_cardinal_value_2 _let_51 |"7.0e0"|) (tptp.cardinal_unit_class_2 _let_51 tptp.unity_0) (tptp.greater_than_2 _let_52 _let_51) (tptp.raw_material_2 _let_5 _let_14) (tptp.result_2 _let_3 _let_14) (tptp.has_part_2 _let_48 _let_50) (tptp.has_part_2 X _let_27) (tptp.has_solute_2 X _let_27) (tptp.has_part_2 X _let_48) (tptp.has_solvent_2 X _let_48) (tptp.to_value_2 _let_12 _let_46) (tptp.greater_than_2 _let_46 _let_37) (tptp.from_value_2 _let_12 _let_37) (tptp.base_2 _let_42 _let_14) (tptp.raw_material_2 _let_3 _let_22) (tptp.subevent_2 _let_1 _let_3) (tptp.quantity_2 _let_14 _let_37) (tptp.concentration_2 _let_27 _let_34) (tptp.directly_proportional_2 _let_36 _let_34) (tptp.rate_2 _let_24 _let_36) (tptp.intensity_2 _let_24 |tptp.'*strong'|) (tptp.quantity_2 _let_29 _let_20) (tptp.possesses_2 _let_22 _let_29) (tptp.result_2 _let_5 _let_22) (tptp.subevent_2 _let_1 _let_5) (tptp.result_2 _let_1 _let_32) (tptp.raw_material_2 _let_1 _let_22) (tptp.object_2 _let_24 _let_22) (tptp.base_2 _let_24 _let_26) (tptp.has_part_2 _let_27 _let_26) (tptp.has_part_2 _let_27 _let_22) (tptp.result_2 _let_1 _let_14) (tptp.possesses_2 _let_14 _let_16) (tptp.quantity_2 _let_16 _let_18) (tptp.greater_than_2 _let_20 _let_18) (= _let_14 _let_6) (= _let_14 _let_4) (= _let_50 _let_49) (= _let_48 (tptp.fn_solution_6 X)) (= _let_27 _let_10) (= (tptp.fn_basic_solution_20 X) _let_47) (= _let_37 _let_13) (= _let_46 _let_45) (= (tptp.fn_basic_solution_10 X) _let_44) (= (tptp.fn_basic_solution_9 X) _let_43) (= _let_42 _let_41) (= (tptp.fn_basic_solution_7 X) _let_40) (= _let_3 _let_39) (= (tptp.fn_basic_solution_26 X) _let_38) (= _let_37 _let_11) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_5 _let_30) (= _let_29 _let_28) (= _let_27 _let_9) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_8) (= _let_22 _let_7) (= (tptp.fn_basic_solution_8 X) _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_2) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_basic_solution_22 X))) (let ((_let_2 (tptp.fn_aqueous_solution_14 X))) (let ((_let_3 (tptp.fn_basic_solution_of_weak_base_3 X))) (let ((_let_4 (tptp.fn_basic_solution_of_weak_base_7 X))) (let ((_let_5 (tptp.fn_basic_solution_of_weak_base_8 X))) (let ((_let_6 (tptp.fn_basic_solution_of_weak_base_9 X))) (let ((_let_7 (tptp.fn_basic_solution_of_weak_base_14 X))) (let ((_let_8 (tptp.fn_basic_solution_of_weak_base_12 X))) (let ((_let_9 (tptp.fn_basic_solution_of_weak_base_11 X))) (let ((_let_10 (tptp.fn_basic_solution_of_weak_base_10 X))) (let ((_let_11 (tptp.fn_basic_solution_of_weak_base_4 X))) (let ((_let_12 (tptp.fn_basic_solution_of_weak_base_6 X))) (let ((_let_13 (tptp.fn_basic_solution_of_weak_base_13 X))) (let ((_let_14 (tptp.fn_basic_solution_of_weak_base_5 X))) (let ((_let_15 (tptp.fn_basic_solution_of_weak_base_1 X))) (let ((_let_16 (tptp.fn_water_2 _let_3))) (let ((_let_17 (tptp.fn_basic_solution_of_weak_base_2 X))) (let ((_let_18 (tptp.fn_water_1 _let_3))) (=> (tptp.basic_solution_of_weak_base_1 X) (and (tptp.original_name_2 X |tptp.'Basic-Solution-Of-Weak-Base'|) (tptp.user_description_2 X |tptp.'A solution that contains a weak base.'|) (tptp.concept2words_2 X |tptp.'solution of weak base'|) (tptp.concept2words_2 X |tptp.'solution-of-weak-base'|) (tptp.concept2words_2 X |tptp.'weak base solution'|) (tptp.concept2words_2 X |tptp.'weak-base-solution'|) (tptp.concept2words_2 X |tptp.'basic solution of weak base'|) (tptp.concept2words_2 X |tptp.'basic-solution-of-weak-base'|) (tptp.basic_solution_1 X) (tptp.weak_base_1 _let_15) (tptp.potential_value_1 _let_17) (tptp.water_1 _let_3) (tptp.rate_value_1 _let_11) (tptp.base_compound_1 _let_14) (tptp.concentration_value_1 _let_12) (tptp.hydronium_ion_1 _let_4) (tptp.quantity_value_1 _let_5) (tptp.property_value_1 _let_6) (tptp.quantity_value_1 _let_6) (tptp.make_contact_1 _let_10) (tptp.collide_1 _let_10) (tptp.base_compound_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.base_dissociation_reaction_1 _let_8) (tptp.cation_1 _let_13) (tptp.chemical_entity_1 _let_7) (tptp.hydroxide_ion_1 _let_7) (tptp.property_node_1 _let_18) (tptp.potential_value_1 _let_16) (tptp.solute_potential_2 _let_15 _let_17) (tptp.solute_potential_2 _let_3 _let_17) (tptp.the_cardinal_value_2 _let_17 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_17 tptp.pascal_0) (tptp.has_solute_2 X _let_15) (tptp.has_part_2 X _let_15) (not (= _let_3 _let_15)) (not (= _let_15 _let_3)) (tptp.called_2 _let_5 |tptp.'Quantity_H'|) (tptp.has_solvent_2 X _let_3) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_3) (tptp.has_part_2 _let_3 _let_4) (tptp.quantity_2 _let_4 _let_5) (tptp.greater_than_2 _let_6 _let_5) (tptp.quantity_2 _let_7 _let_6) (= (tptp.fn_basic_solution_of_weak_base_15 X) _let_18) (= _let_17 _let_16) (= _let_15 (tptp.fn_basic_solution_23 X)) (= (tptp.fn_basic_solution_of_weak_base_16 X) (tptp.fn_basic_solution_5 X)) (= _let_14 (tptp.fn_basic_solution_12 X)) (= (tptp.fn_basic_solution_of_weak_base_17 X) (tptp.fn_basic_solution_26 X)) (= (tptp.fn_basic_solution_of_weak_base_18 X) (tptp.fn_basic_solution_10 X)) (= (tptp.fn_basic_solution_of_weak_base_19 X) (tptp.fn_basic_solution_9 X)) (= _let_13 (tptp.fn_basic_solution_11 X)) (= _let_12 (tptp.fn_basic_solution_13 X)) (= _let_11 (tptp.fn_basic_solution_14 X)) (= _let_10 (tptp.fn_basic_solution_15 X)) (= _let_9 (tptp.fn_basic_solution_32 X)) (= _let_8 (tptp.fn_basic_solution_30 X)) (= _let_7 (tptp.fn_basic_solution_25 X)) (= _let_6 (tptp.fn_basic_solution_24 X)) (= _let_5 (tptp.fn_basic_solution_6 X)) (= _let_4 (tptp.fn_basic_solution_33 X)) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.basidiocarp_1 X) (and (tptp.original_name_2 X |tptp.'Basidiocarp'|) (tptp.user_description_2 X |tptp.'The multicellular structure on which spores are produced in the basidiomycete fungi. Mushrooms are basidiocarps.'|) (tptp.concept2words_2 X tptp.basidiocarp) (tptp.fungal_organ_1 X) (not (tptp.ascocarp_1 X)) (not (tptp.truffle_1 X))))) (forall ((X $$unsorted)) (=> (tptp.basidium_1 X) (and (tptp.original_name_2 X |tptp.'Basidium'|) (tptp.user_description_2 X |tptp.'Microscopic spore-producing structure on the gills of a basidiocarp.'|) (tptp.concept2words_2 X tptp.basidia) (tptp.concept2words_2 X tptp.basidium) (tptp.fungal_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.basophil_1 X) (and (tptp.original_name_2 X |tptp.'Basophil'|) (tptp.user_description_2 X |tptp.'A type of white blood cell that produces histamine and the anticoagulant heparin. Basophils participate in several types of inflammation, especially those that involve an allergic response.'|) (tptp.concept2words_2 X tptp.basophil) (tptp.leukocyte_1 X) (not (tptp.lymphocyte_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bat_1 X) (and (tptp.original_name_2 X |tptp.'Bat'|) (tptp.user_description_2 X |tptp.'Mammal of the order Chiroptera, whose hand forms a webbed wing. Bats are the only mammals capable of sustained flight.'|) (tptp.concept2words_2 X tptp.chiroptera) (tptp.concept2words_2 X tptp.bat) (tptp.placental_mammal_1 X) (not (tptp.edentata_1 X)) (not (tptp.elephant_1 X)) (not (tptp.primate_1 X)) (not (tptp.rodent_1 X)) (not (tptp.ungulate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.batesian_mimicry_1 X) (and (tptp.original_name_2 X |tptp.'Batesian-Mimicry'|) (tptp.user_description_2 X |tptp.'A type of mimicry where a harmless species has evolved to resemble another species which is poisonous or otherwise harmful to predators.'|) (tptp.concept2words_2 X |tptp.'batesian mimicry'|) (tptp.concept2words_2 X |tptp.'batesian-mimicry'|) (tptp.mimicry_1 X) (not (tptp.mullerian_mimicry_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bathroom_1 X) (and (tptp.original_name_2 X |tptp.'Bathroom'|) (tptp.concept2words_2 X tptp.bathroom) (tptp.concept2words_2 X tptp.bath) (tptp.room_1 X) (not (tptp.hallway_1 X)) (not (tptp.elevator_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_accessible_1 X))) (=> (tptp.be_accessible_1 X) (and (tptp.original_name_2 X |tptp.'Be-Accessible'|) (tptp.concept2words_2 X |tptp.'be accessible'|) (tptp.concept2words_2 X |tptp.'be-accessible'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_activated_1 X))) (=> (tptp.be_activated_1 X) (and (tptp.original_name_2 X |tptp.'Be-Activated'|) (tptp.concept2words_2 X tptp.activated) (tptp.concept2words_2 X tptp.active) (tptp.concept2words_2 X tptp.on) (tptp.concept2words_2 X |tptp.'be activated'|) (tptp.concept2words_2 X |tptp.'be-activated'|) (tptp.be_accessible_1 X) (tptp.entity_1 _let_1) (= _let_1 (tptp.fn_be_accessible_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.be_analogically_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Analogically-Related'|) (tptp.concept2words_2 X |tptp.'analogical relationship'|) (tptp.concept2words_2 X |tptp.'be analogically related'|) (tptp.concept2words_2 X |tptp.'be-analogically-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_attached_to_1 X) (and (tptp.original_name_2 X |tptp.'Be-Attached-To'|) (tptp.concept2words_2 X tptp.attached) (tptp.concept2words_2 X tptp.attach) (tptp.concept2words_2 X tptp.connect) (tptp.concept2words_2 X |tptp.'be attached to'|) (tptp.concept2words_2 X |tptp.'be-attached-to'|) (tptp.be_touching_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_available_1 X))) (=> (tptp.be_available_1 X) (and (tptp.original_name_2 X |tptp.'Be-Available'|) (tptp.concept2words_2 X |tptp.'be available'|) (tptp.concept2words_2 X |tptp.'be-available'|) (tptp.state_1 X) (tptp.resource_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_blocked_1 X))) (=> (tptp.be_blocked_1 X) (and (tptp.original_name_2 X |tptp.'Be-Blocked'|) (tptp.concept2words_2 X tptp.blocked) (tptp.concept2words_2 X |tptp.'out of use'|) (tptp.concept2words_2 X tptp.out_of_use) (tptp.concept2words_2 X tptp.plugged) (tptp.concept2words_2 X tptp.closed) (tptp.concept2words_2 X |tptp.'be blocked'|) (tptp.concept2words_2 X |tptp.'be-blocked'|) (tptp.be_inaccessible_1 X) (tptp.spatial_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_inaccessible_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_broken_1 X))) (=> (tptp.be_broken_1 X) (and (tptp.original_name_2 X |tptp.'Be-Broken'|) (tptp.concept2words_2 X tptp.broken) (tptp.concept2words_2 X tptp.busted) (tptp.concept2words_2 X |tptp.'be broken'|) (tptp.concept2words_2 X |tptp.'be-broken'|) (tptp.be_damaged_1 X) (tptp.physical_object_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_damaged_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_closed_3 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_be_closed_2 X))) (let ((_let_4 (tptp.fn_be_closed_1 X))) (=> (tptp.be_closed_1 X) (and (tptp.original_name_2 X |tptp.'Be-Closed'|) (tptp.concept2words_2 X tptp.closed) (tptp.concept2words_2 X tptp.shut) (tptp.concept2words_2 X tptp.unopen) (tptp.concept2words_2 X |tptp.'be closed'|) (tptp.concept2words_2 X |tptp.'be-closed'|) (tptp.be_blocked_1 X) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.portal_covering_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.instrument_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_4 (tptp.fn_be_blocked_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_concealed_1 X))) (=> (tptp.be_concealed_1 X) (and (tptp.original_name_2 X |tptp.'Be-Concealed'|) (tptp.concept2words_2 X tptp.concealed) (tptp.concept2words_2 X tptp.hidden) (tptp.concept2words_2 X |tptp.'out of sight'|) (tptp.concept2words_2 X tptp.out_of_sight) (tptp.concept2words_2 X |tptp.'be concealed'|) (tptp.concept2words_2 X |tptp.'be-concealed'|) (tptp.be_inaccessible_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_inaccessible_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_confined_2 X))) (let ((_let_2 (tptp.fn_be_confined_1 X))) (=> (tptp.be_confined_1 X) (and (tptp.original_name_2 X |tptp.'Be-Confined'|) (tptp.concept2words_2 X tptp.confined) (tptp.concept2words_2 X |tptp.'fenced in'|) (tptp.concept2words_2 X tptp.fenced_in) (tptp.concept2words_2 X tptp.penned) (tptp.concept2words_2 X |tptp.'be confined'|) (tptp.concept2words_2 X |tptp.'be-confined'|) (tptp.be_obstructed_1 X) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.is_inside_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_obstructed_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_contained_1 X))) (let ((_let_2 (tptp.fn_be_contained_2 X))) (let ((_let_3 (tptp.fn_be_contained_3 X))) (let ((_let_4 (tptp.fn_be_contained_4 X))) (=> (tptp.be_contained_1 X) (and (tptp.original_name_2 X |tptp.'Be-Contained'|) (tptp.concept2words_2 X tptp.hold) (tptp.concept2words_2 X tptp.contain) (tptp.concept2words_2 X tptp.bear) (tptp.concept2words_2 X tptp.carry) (tptp.concept2words_2 X |tptp.'be contained'|) (tptp.concept2words_2 X |tptp.'be-contained'|) (tptp.state_1 X) (tptp.tangible_entity_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.spatial_entity_1 _let_3) (tptp.spatial_entity_1 _let_4) (tptp.destination_2 X _let_4) (tptp.origin_2 X _let_3) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_controlled_1 X))) (=> (tptp.be_controlled_1 X) (and (tptp.original_name_2 X |tptp.'Be-Controlled'|) (tptp.concept2words_2 X tptp.controlled) (tptp.concept2words_2 X |tptp.'be controlled'|) (tptp.concept2words_2 X |tptp.'be-controlled'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_damaged_1 X))) (=> (tptp.be_damaged_1 X) (and (tptp.original_name_2 X |tptp.'Be-Damaged'|) (tptp.concept2words_2 X |tptp.'be damaged'|) (tptp.concept2words_2 X |tptp.'be-damaged'|) (tptp.state_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_defeated_3 X))) (let ((_let_2 (tptp.fn_be_defeated_1 X))) (let ((_let_3 (tptp.fn_be_defeated_2 X))) (=> (tptp.be_defeated_1 X) (and (tptp.original_name_2 X |tptp.'Be-Defeated'|) (tptp.concept2words_2 X tptp.lose) (tptp.concept2words_2 X |tptp.'defeated of be'|) (tptp.concept2words_2 X |tptp.'be defeated'|) (tptp.concept2words_2 X |tptp.'be-defeated'|) (tptp.state_1 X) (tptp.entity_1 _let_2) (tptp.contest_1 _let_3) (tptp.loser_1 _let_1) (tptp.base_2 X _let_3) (tptp.object_2 X _let_2) (tptp.in_event_2 _let_1 _let_3) (tptp.plays_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.be_different_1 X) (and (tptp.original_name_2 X |tptp.'Be-Different'|) (tptp.concept2words_2 X tptp.different) (tptp.concept2words_2 X tptp.dissimilar) (tptp.concept2words_2 X tptp.unalike) (tptp.concept2words_2 X tptp.unlike) (tptp.concept2words_2 X tptp.difference) (tptp.concept2words_2 X |tptp.'be different'|) (tptp.concept2words_2 X |tptp.'be-different'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_energetically_different_1 X) (and (tptp.original_name_2 X |tptp.'Be-Energetically-Different'|) (tptp.concept2words_2 X |tptp.'energetic difference'|) (tptp.concept2words_2 X |tptp.'be energetically different'|) (tptp.concept2words_2 X |tptp.'be-energetically-different'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_energetically_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Energetically-Related'|) (tptp.concept2words_2 X |tptp.'energetic relationship'|) (tptp.concept2words_2 X |tptp.'be energetically related'|) (tptp.concept2words_2 X |tptp.'be-energetically-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_functionally_different_1 X) (and (tptp.original_name_2 X |tptp.'Be-Functionally-Different'|) (tptp.concept2words_2 X |tptp.'functional difference'|) (tptp.concept2words_2 X |tptp.'be functionally different'|) (tptp.concept2words_2 X |tptp.'be-functionally-different'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_functionally_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Functionally-Related'|) (tptp.concept2words_2 X |tptp.'functional relationship'|) (tptp.concept2words_2 X |tptp.'be functionally related'|) (tptp.concept2words_2 X |tptp.'be-functionally-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_functionally_similar_1 X) (and (tptp.original_name_2 X |tptp.'Be-Functionally-Similar'|) (tptp.concept2words_2 X |tptp.'functional similarity'|) (tptp.concept2words_2 X |tptp.'be functionally similar'|) (tptp.concept2words_2 X |tptp.'be-functionally-similar'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_held_2 X))) (let ((_let_2 (tptp.fn_be_held_1 X))) (=> (tptp.be_held_1 X) (and (tptp.original_name_2 X |tptp.'Be-Held'|) (tptp.concept2words_2 X tptp.held) (tptp.concept2words_2 X |tptp.'be held'|) (tptp.concept2words_2 X |tptp.'be-held'|) (tptp.be_obstructed_1 X) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_obstructed_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.be_impacted_1 X) (and (tptp.original_name_2 X |tptp.'Be-Impacted'|) (tptp.concept2words_2 X tptp.impact) (tptp.concept2words_2 X |tptp.'be impacted'|) (tptp.concept2words_2 X |tptp.'be-impacted'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_inaccessible_1 X))) (=> (tptp.be_inaccessible_1 X) (and (tptp.original_name_2 X |tptp.'Be-Inaccessible'|) (tptp.concept2words_2 X |tptp.'be inaccessible'|) (tptp.concept2words_2 X |tptp.'be-inaccessible'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_known_1 X))) (let ((_let_2 (tptp.fn_be_known_2 X))) (=> (tptp.be_known_1 X) (and (tptp.original_name_2 X |tptp.'Be-Known'|) (tptp.concept2words_2 X tptp.know) (tptp.concept2words_2 X tptp.known) (tptp.concept2words_2 X tptp.familiar) (tptp.concept2words_2 X tptp.conversant) (tptp.concept2words_2 X tptp.versed) (tptp.concept2words_2 X tptp.knowledgeable) (tptp.concept2words_2 X tptp.intimate) (tptp.concept2words_2 X |tptp.'intimate with'|) (tptp.concept2words_2 X tptp.intimate_with) (tptp.concept2words_2 X |tptp.'knowledgeable about'|) (tptp.concept2words_2 X tptp.knowledgeable_about) (tptp.concept2words_2 X |tptp.'be known'|) (tptp.concept2words_2 X |tptp.'be-known'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.living_entity_1 _let_2) (tptp.experiencer_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_obstructed_1 X))) (=> (tptp.be_obstructed_1 X) (and (tptp.original_name_2 X |tptp.'Be-Obstructed'|) (tptp.concept2words_2 X tptp.obstructed) (tptp.concept2words_2 X |tptp.'be obstructed'|) (tptp.concept2words_2 X |tptp.'be-obstructed'|) (tptp.be_inaccessible_1 X) (tptp.entity_1 _let_1) (= _let_1 (tptp.fn_be_inaccessible_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_open_2 X))) (let ((_let_2 (tptp.fn_conduit_1 _let_1))) (let ((_let_3 (tptp.fn_be_unblocked_1 X))) (let ((_let_4 (tptp.fn_be_open_1 X))) (=> (tptp.be_open_1 X) (and (tptp.original_name_2 X |tptp.'Be-Open'|) (tptp.concept2words_2 X tptp.open) (tptp.concept2words_2 X tptp.unfastened) (tptp.concept2words_2 X tptp.opened) (tptp.concept2words_2 X |tptp.'open of be'|) (tptp.concept2words_2 X |tptp.'be open'|) (tptp.concept2words_2 X |tptp.'be-open'|) (tptp.be_unblocked_1 X) (tptp.spatial_entity_1 _let_4) (tptp.portal_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.object_2 X _let_4) (tptp.plays_2 _let_4 _let_1) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.be_qualitatively_different_1 X) (and (tptp.original_name_2 X |tptp.'Be-Qualitatively-Different'|) (tptp.concept2words_2 X |tptp.'qualitative difference'|) (tptp.concept2words_2 X |tptp.'be qualitatively different'|) (tptp.concept2words_2 X |tptp.'be-qualitatively-different'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_qualitatively_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Qualitatively-Related'|) (tptp.concept2words_2 X |tptp.'qualitative relationship'|) (tptp.concept2words_2 X |tptp.'be qualitatively related'|) (tptp.concept2words_2 X |tptp.'be-qualitatively-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_qualitatively_similar_1 X) (and (tptp.original_name_2 X |tptp.'Be-Qualitatively-Similar'|) (tptp.concept2words_2 X |tptp.'qualitative similarity'|) (tptp.concept2words_2 X |tptp.'be qualitatively similar'|) (tptp.concept2words_2 X |tptp.'be-qualitatively-similar'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Related'|) (tptp.concept2words_2 X tptp.relation) (tptp.concept2words_2 X tptp.relationship) (tptp.concept2words_2 X |tptp.'be related'|) (tptp.concept2words_2 X |tptp.'be-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_restrained_1 X) (and (tptp.original_name_2 X |tptp.'Be-Restrained'|) (tptp.concept2words_2 X tptp.restrained) (tptp.concept2words_2 X tptp.immobile) (tptp.concept2words_2 X tptp.immovable) (tptp.concept2words_2 X tptp.immoveable) (tptp.concept2words_2 X tptp.stabile) (tptp.concept2words_2 X tptp.unmovable) (tptp.concept2words_2 X tptp.fixed) (tptp.concept2words_2 X tptp.frozen) (tptp.concept2words_2 X |tptp.'be restrained'|) (tptp.concept2words_2 X |tptp.'be-restrained'|) (tptp.be_obstructed_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_ruined_1 X))) (=> (tptp.be_ruined_1 X) (and (tptp.original_name_2 X |tptp.'Be-Ruined'|) (tptp.concept2words_2 X tptp.broken) (tptp.concept2words_2 X tptp.busted) (tptp.concept2words_2 X tptp.irreparable) (tptp.concept2words_2 X |tptp.'be ruined'|) (tptp.concept2words_2 X |tptp.'be-ruined'|) (tptp.be_broken_1 X) (tptp.physical_object_1 _let_1) (= _let_1 (tptp.fn_be_broken_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.be_sf_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-SF-Related'|) (tptp.concept2words_2 X |tptp.'structural functional relationship'|) (tptp.concept2words_2 X |tptp.'structural-functional relationship'|) (tptp.concept2words_2 X |tptp.'be sf related'|) (tptp.concept2words_2 X |tptp.'be-sf-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_shut_out_3 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_be_shut_out_2 X))) (let ((_let_4 (tptp.fn_be_shut_out_1 X))) (=> (tptp.be_shut_out_1 X) (and (tptp.original_name_2 X |tptp.'Be-Shut-Out'|) (tptp.concept2words_2 X tptp.external) (tptp.concept2words_2 X |tptp.'be shut out'|) (tptp.concept2words_2 X |tptp.'be-shut-out'|) (tptp.be_obstructed_1 X) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.container_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.base_2 X _let_3) (tptp.in_event_2 _let_1 X) (tptp.is_outside_2 _let_4 _let_3) (tptp.object_2 X _let_4) (tptp.plays_2 _let_3 _let_1) (= _let_4 (tptp.fn_be_obstructed_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.be_similar_1 X) (and (tptp.original_name_2 X |tptp.'Be-Similar'|) (tptp.concept2words_2 X tptp.similar) (tptp.concept2words_2 X tptp.alike) (tptp.concept2words_2 X tptp.same) (tptp.concept2words_2 X tptp.similarity) (tptp.concept2words_2 X tptp.like) (tptp.concept2words_2 X |tptp.'be similar'|) (tptp.concept2words_2 X |tptp.'be-similar'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_sitting_1 X))) (=> (tptp.be_sitting_1 X) (and (tptp.original_name_2 X |tptp.'Be-Sitting'|) (tptp.concept2words_2 X tptp.seated) (tptp.concept2words_2 X tptp.sitting) (tptp.concept2words_2 X |tptp.'sitting of be'|) (tptp.concept2words_2 X |tptp.'be sitting'|) (tptp.concept2words_2 X |tptp.'be-sitting'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_stable_1 X))) (=> (tptp.be_stable_1 X) (and (tptp.original_name_2 X |tptp.'Be-Stable'|) (tptp.concept2words_2 X tptp.stable) (tptp.concept2words_2 X tptp.static) (tptp.concept2words_2 X tptp.unchanging) (tptp.concept2words_2 X |tptp.'stable of be'|) (tptp.concept2words_2 X |tptp.'be stable'|) (tptp.concept2words_2 X |tptp.'be-stable'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_standing_1 X))) (=> (tptp.be_standing_1 X) (and (tptp.original_name_2 X |tptp.'Be-Standing'|) (tptp.concept2words_2 X tptp.standing) (tptp.concept2words_2 X |tptp.'standing of be'|) (tptp.concept2words_2 X |tptp.'be standing'|) (tptp.concept2words_2 X |tptp.'be-standing'|) (tptp.state_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_stored_3 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_be_stored_2 X))) (let ((_let_4 (tptp.fn_be_stored_1 X))) (=> (tptp.be_stored_1 X) (and (tptp.original_name_2 X |tptp.'Be-Stored'|) (tptp.concept2words_2 X tptp.stored) (tptp.concept2words_2 X |tptp.'be stored'|) (tptp.concept2words_2 X |tptp.'be-stored'|) (tptp.state_1 X) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.container_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.is_inside_2 _let_4 _let_3) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_4) (tptp.base_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.be_structurally_different_1 X) (and (tptp.original_name_2 X |tptp.'Be-Structurally-Different'|) (tptp.concept2words_2 X |tptp.'structural difference'|) (tptp.concept2words_2 X |tptp.'be structurally different'|) (tptp.concept2words_2 X |tptp.'be-structurally-different'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_structurally_related_1 X) (and (tptp.original_name_2 X |tptp.'Be-Structurally-Related'|) (tptp.concept2words_2 X |tptp.'structural relationship'|) (tptp.concept2words_2 X |tptp.'be structurally related'|) (tptp.concept2words_2 X |tptp.'be-structurally-related'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.be_structurally_similar_1 X) (and (tptp.original_name_2 X |tptp.'Be-Structurally-Similar'|) (tptp.concept2words_2 X |tptp.'structural similarity'|) (tptp.concept2words_2 X |tptp.'be structurally similar'|) (tptp.concept2words_2 X |tptp.'be-structurally-similar'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_supported_1 X))) (=> (tptp.be_supported_1 X) (and (tptp.original_name_2 X |tptp.'Be-Supported'|) (tptp.concept2words_2 X tptp.supported) (tptp.concept2words_2 X |tptp.'be supported'|) (tptp.concept2words_2 X |tptp.'be-supported'|) (tptp.be_obstructed_1 X) (tptp.entity_1 _let_1) (= _let_1 (tptp.fn_be_obstructed_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.be_touching_1 X) (and (tptp.original_name_2 X |tptp.'Be-Touching'|) (tptp.concept2words_2 X tptp.touch) (tptp.concept2words_2 X tptp.meet) (tptp.concept2words_2 X tptp.adjoin) (tptp.concept2words_2 X tptp.contact) (tptp.concept2words_2 X |tptp.'touching of be'|) (tptp.concept2words_2 X |tptp.'be touching'|) (tptp.concept2words_2 X |tptp.'be-touching'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_unavailable_1 X))) (=> (tptp.be_unavailable_1 X) (and (tptp.original_name_2 X |tptp.'Be-Unavailable'|) (tptp.concept2words_2 X |tptp.'be unavailable'|) (tptp.concept2words_2 X |tptp.'be-unavailable'|) (tptp.state_1 X) (tptp.resource_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_unblocked_1 X))) (=> (tptp.be_unblocked_1 X) (and (tptp.original_name_2 X |tptp.'Be-Unblocked'|) (tptp.concept2words_2 X tptp.patent) (tptp.concept2words_2 X tptp.unclogged) (tptp.concept2words_2 X tptp.clear) (tptp.concept2words_2 X tptp.open) (tptp.concept2words_2 X |tptp.'be unblocked'|) (tptp.concept2words_2 X |tptp.'be-unblocked'|) (tptp.be_accessible_1 X) (tptp.spatial_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_be_accessible_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_be_victorious_3 X))) (let ((_let_2 (tptp.fn_be_victorious_1 X))) (let ((_let_3 (tptp.fn_be_victorious_2 X))) (=> (tptp.be_victorious_1 X) (and (tptp.original_name_2 X |tptp.'Be-Victorious'|) (tptp.concept2words_2 X tptp.win) (tptp.concept2words_2 X |tptp.'be victorious'|) (tptp.concept2words_2 X |tptp.'be-victorious'|) (tptp.state_1 X) (tptp.entity_1 _let_2) (tptp.contest_1 _let_3) (tptp.winner_1 _let_1) (tptp.base_2 X _let_3) (tptp.object_2 X _let_2) (tptp.in_event_2 _let_1 _let_3) (tptp.plays_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.bean_1 X) (and (tptp.original_name_2 X |tptp.'Bean'|) (tptp.user_description_2 X |tptp.'Bean is a common name for large plant seeds of several genera of the family Fabaceae (alternately Leguminosae) used for human food or animal feed.'|) (tptp.concept2words_2 X tptp.bean) (tptp.seed_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bean_plant_1 X))) (let ((_let_2 (tptp.fn_bean_plant_2 X))) (let ((_let_3 (tptp.fn_bean_plant_3 X))) (=> (tptp.bean_plant_1 X) (and (tptp.original_name_2 X |tptp.'Bean-Plant'|) (tptp.user_description_2 X |tptp.'Bean is a common name for large plant seeds of several genera of the family Fabaceae (alternately Leguminosae) used for human food or animal feed.'|) (tptp.concept2words_2 X |tptp.'plant of bean'|) (tptp.concept2words_2 X |tptp.'bean plant'|) (tptp.concept2words_2 X |tptp.'bean-plant'|) (tptp.legume_1 X) (tptp.food_plant_1 X) (tptp.environment_1 _let_1) (tptp.produce_1 _let_2) (tptp.produce_1 _let_3) (tptp.agent_2 _let_3 X) (tptp.agent_2 _let_2 X) (tptp.is_outside_2 _let_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.bee_1 X) (and (tptp.original_name_2 X |tptp.'Bee'|) (tptp.user_description_2 X |tptp.'Flying insects in the order Hymenoptera, ecologically important for their roles as pollinators and honey producers.'|) (tptp.concept2words_2 X tptp.bee) (tptp.hymenoptera_1 X) (not (tptp.ant_1 X)) (not (tptp.parasitoid_wasp_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcoholic_beverage_1 X))) (let ((_let_2 (tptp.fn_beer_7 X))) (let ((_let_3 (tptp.fn_alcohol_fermentation_47 _let_2))) (let ((_let_4 (tptp.fn_catabolic_pathway_10 _let_2))) (let ((_let_5 (tptp.fn_beer_3 X))) (let ((_let_6 (tptp.fn_impair_1 _let_5))) (let ((_let_7 (tptp.fn_beer_6 X))) (let ((_let_8 (tptp.fn_beer_5 X))) (let ((_let_9 (tptp.fn_create_1 _let_8))) (let ((_let_10 (tptp.fn_beer_4 X))) (let ((_let_11 (tptp.fn_beer_2 X))) (let ((_let_12 (tptp.fn_beer_1 X))) (=> (tptp.beer_1 X) (and (tptp.original_name_2 X |tptp.'Beer'|) (tptp.user_description_2 X |tptp.'Beer is the world_'s most widely consumed and probably the oldest of alcoholic beverages; it is the third most popular drink overall, after water and tea.'|) (tptp.concept2words_2 X tptp.beer) (tptp.alcoholic_beverage_1 X) (tptp.yeast_1 _let_12) (tptp.protein_enzyme_1 _let_11) (tptp.break_1 _let_5) (tptp.maltose_1 _let_10) (tptp.produce_1 _let_8) (tptp.ethyl_alcohol_1 _let_7) (tptp.alcohol_fermentation_1 _let_2) (tptp.entity_1 _let_9) (tptp.tangible_entity_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.ethyl_alcohol_1 _let_3) (tptp.has_part_2 _let_12 _let_11) (tptp.agent_2 _let_2 _let_11) (tptp.object_2 _let_2 _let_10) (tptp.by_means_of_2 _let_2 _let_5) (tptp.result_2 _let_5 _let_7) (tptp.object_2 _let_5 _let_10) (tptp.raw_material_2 _let_2 _let_10) (tptp.result_2 _let_2 _let_7) (tptp.result_2 _let_8 X) (tptp.has_part_2 X _let_7) (= _let_10 _let_6) (= _let_10 _let_4) (= _let_7 _let_3) (= X _let_9) (= _let_7 _let_1) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_1)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.beetle_1 X) (and (tptp.original_name_2 X |tptp.'Beetle'|) (tptp.user_description_2 X |tptp.'An insect in the order Coleoptera, the largest taxon of animals. Beetles typically have their outer wings modified into hardened shells that cover the more delicate flight wings when the animal is not flying.'|) (tptp.concept2words_2 X tptp.beetle) (tptp.coleoptera_1 X) (not (tptp.aphid_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.behavior_1 X) (and (tptp.original_name_2 X |tptp.'Behavior'|) (tptp.user_description_2 X |tptp.'Within a body, the response of a physiological system under nervous control to a stimulus; likewise, an organism_'s range of actions and mannerisms in response to a stimulus.'|) (tptp.concept2words_2 X tptp.behave) (tptp.concept2words_2 X tptp.behavior) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.behavioral_ecology_1 X) (and (tptp.original_name_2 X |tptp.'Behavioral-Ecology'|) (tptp.user_description_2 X |tptp.'The study of evolutionary and ecological influences on animal behavior.'|) (tptp.concept2words_2 X |tptp.'behavioral ecology'|) (tptp.concept2words_2 X |tptp.'behavioral-ecology'|) (tptp.ecology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_benign_tumor_3 X))) (let ((_let_2 (tptp.fn_harm_1 _let_1))) (let ((_let_3 (tptp.fn_benign_tumor_4 X))) (let ((_let_4 (tptp.fn_benign_tumor_1 X))) (=> (tptp.benign_tumor_1 X) (and (tptp.original_name_2 X |tptp.'Benign-Tumor'|) (tptp.user_description_2 X |tptp.'A mass of abnormal cells that remains at the site of its origin and thus lacks the ability to metastasize.'|) (tptp.concept2words_2 X |tptp.'benign tumor'|) (tptp.concept2words_2 X |tptp.'benign-tumor'|) (tptp.tumor_1 X) (tptp.intensity_value_1 _let_4) (tptp.harm_1 _let_1) (tptp.eukaryote_1 _let_3) (tptp.living_entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.intensity_2 _let_1 _let_4) (tptp.has_part_2 _let_3 X) (tptp.the_scalar_value_2 _let_4 tptp.low_0) (tptp.scalar_unit_class_2 _let_4 tptp.harm_0) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_benign_tumor_treatment_4 X))) (let ((_let_2 (tptp.fn_benign_tumor_4 _let_1))) (let ((_let_3 (tptp.fn_benign_tumor_treatment_3 X))) (let ((_let_4 (tptp.fn_remove_2 _let_3))) (let ((_let_5 (tptp.fn_benign_tumor_treatment_5 X))) (let ((_let_6 (tptp.fn_remove_1 _let_3))) (let ((_let_7 (tptp.fn_benign_tumor_treatment_2 X))) (=> (tptp.benign_tumor_treatment_1 X) (and (tptp.original_name_2 X |tptp.'Benign-Tumor-Treatment'|) (tptp.user_description_2 X |tptp.'A series of medical steps designed to reduce or eliminate the presence of benign tumors.'|) (tptp.concept2words_2 X |tptp.'benign tumor treatment'|) (tptp.concept2words_2 X |tptp.'benign-tumor-treatment'|) (tptp.medical_treatment_of_cancer_1 X) (tptp.intensity_value_1 _let_7) (tptp.remove_1 _let_3) (tptp.spatial_entity_1 _let_1) (tptp.benign_tumor_1 _let_1) (tptp.spatial_entity_1 _let_5) (tptp.eukaryote_1 _let_5) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.eukaryote_1 _let_2) (tptp.intensity_2 _let_1 _let_7) (tptp.subevent_2 X _let_3) (tptp.the_scalar_value_2 _let_7 tptp.low_0) (tptp.scalar_unit_class_2 _let_7 tptp.tumor_0) (tptp.object_2 _let_3 _let_1) (tptp.base_2 _let_3 _let_5) (tptp.has_part_2 _let_5 _let_1) (= _let_1 _let_6) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.benthic_zone_1 X) (and (tptp.original_name_2 X |tptp.'Benthic-Zone'|) (tptp.user_description_2 X |tptp.'The bottom surface of a marine or freshwater ecosystem.'|) (tptp.concept2words_2 X |tptp.'benthic zone'|) (tptp.concept2words_2 X |tptp.'benthic-zone'|) (tptp.aquatic_zone_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.benthos_1 X) (and (tptp.original_name_2 X |tptp.'Benthos'|) (tptp.user_description_2 X |tptp.'The biological community in the benthic zone of a marine or freshwater ecosystem.'|) (tptp.concept2words_2 X tptp.benthos) (tptp.ecological_community_1 X) (not (tptp.biofilm_1 X)) (not (tptp.vegetation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_benzoate_1 X))) (=> (tptp.benzoate_1 X) (and (tptp.original_name_2 X |tptp.'Benzoate'|) (tptp.user_description_2 X |tptp.'Anion resulting from the disassociation of Benzoic Acid'|) (tptp.concept2words_2 X tptp.benzoate) (tptp.organic_anion_1 X) (not (tptp.malonate_1 X)) (not (tptp.carbonate_ion_1 X)) (not (tptp.cl_minus_1 X)) (not (tptp.azide_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.bicarbonate_ion_1 X)) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-1"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_benzoate_2 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_berkelium_9 X))) (let ((_let_2 (tptp.fn_berkelium_12 X))) (let ((_let_3 (tptp.fn_berkelium_10 X))) (let ((_let_4 (tptp.fn_berkelium_11 X))) (let ((_let_5 (tptp.fn_berkelium_4 X))) (let ((_let_6 (tptp.fn_berkelium_5 X))) (let ((_let_7 (tptp.fn_berkelium_3 X))) (=> (tptp.berkelium_1 X) (and (tptp.original_name_2 X |tptp.'Berkelium'|) (tptp.user_description_2 X |tptp.'Berkelium is a metal atom with atomic number 97. It is represented by the symbol Bk.'|) (tptp.concept2words_2 X tptp.berkelium) (tptp.concept2words_2 X tptp.bk) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"150"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"97"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"97"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"11"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"247"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"97"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"247"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_berkelium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_berkelium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_berkelium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beryllium_11 X))) (let ((_let_2 (tptp.fn_beryllium_14 X))) (let ((_let_3 (tptp.fn_beryllium_12 X))) (let ((_let_4 (tptp.fn_beryllium_13 X))) (let ((_let_5 (tptp.fn_beryllium_5 X))) (let ((_let_6 (tptp.fn_beryllium_6 X))) (let ((_let_7 (tptp.fn_beryllium_7 X))) (let ((_let_8 (tptp.fn_beryllium_4 X))) (=> (tptp.beryllium_1 X) (and (tptp.original_name_2 X |tptp.'Beryllium'|) (tptp.user_description_2 X |tptp.'Beryllium is a metal atom with atomic number 4. It is represented by the symbol Be.'|) (tptp.concept2words_2 X tptp.beryllium) (tptp.concept2words_2 X |tptp.'Be'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"5"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"2"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.57"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"9"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"4"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"9.012"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_beryllium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_beryllium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_beryllium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.beta_1_comma_4_linkage_1 X) (and (tptp.original_name_2 X |tptp.'Beta-1,4-Linkage'|) (tptp.user_description_2 X |tptp.'A chemical bond between the number 1 and a number 4 carbon on two adjacent molecules where the oxygen atom from the hydroxyl group of the monosaccharide is above the plane of the molecule.'|) (tptp.concept2words_2 X |tptp.'beta 1,4 linkage'|) (tptp.concept2words_2 X |tptp.'beta-1,4-linkage'|) (tptp.glycosidic_linkage_1 X) (not (tptp.alpha_1_comma_4_linkage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.beta_cell_islet_of_langerhans_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Cell-Islet-Of-Langerhans'|) (tptp.user_description_2 X |tptp.'Endocrine cells of the islets of Langerhans in the pancreas, which secrete insulin and thus cause an decrease in blood glucose level.'|) (tptp.concept2words_2 X |tptp.'beta cell'|) (tptp.concept2words_2 X |tptp.'beta-cell'|) (tptp.concept2words_2 X |tptp.'beta cell islet of langerhans'|) (tptp.concept2words_2 X |tptp.'beta cell islet of langerhan'|) (tptp.concept2words_2 X |tptp.'beta-cell-islet-of-langerhan'|) (tptp.pancreas_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_globin_37 X))) (let ((_let_2 (tptp.fn_peptide_bond_55 _let_1))) (let ((_let_3 (tptp.fn_polypeptide_48 X))) (let ((_let_4 (tptp.fn_peptide_bond_41 _let_1))) (let ((_let_5 (tptp.fn_peptide_bond_17 _let_1))) (let ((_let_6 (tptp.fn_peptide_bond_37 _let_1))) (let ((_let_7 (tptp.fn_beta_globin_49 X))) (let ((_let_8 (tptp.fn_amino_group_4 _let_7))) (let ((_let_9 (tptp.fn_peptide_bond_34 _let_1))) (let ((_let_10 (tptp.fn_beta_globin_25 X))) (let ((_let_11 (tptp.fn_share_1 _let_10))) (let ((_let_12 (tptp.fn_beta_globin_3 X))) (let ((_let_13 (tptp.fn_share_1 _let_12))) (let ((_let_14 (tptp.fn_share_3 _let_10))) (let ((_let_15 (tptp.fn_beta_globin_34 X))) (let ((_let_16 (tptp.fn_share_3 _let_15))) (let ((_let_17 (tptp.fn_share_3 _let_12))) (let ((_let_18 (tptp.fn_beta_globin_35 X))) (let ((_let_19 (tptp.fn_share_3 _let_18))) (let ((_let_20 (tptp.fn_amino_group_20 _let_7))) (let ((_let_21 (tptp.fn_beta_globin_40 X))) (let ((_let_22 (tptp.fn_amino_acid_17 _let_21))) (let ((_let_23 (tptp.fn_polypeptide_125 X))) (let ((_let_24 (tptp.fn_peptide_bond_23 _let_1))) (let ((_let_25 (tptp.fn_amino_acid_18 _let_21))) (let 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_let_176 _let_158)) (not (= _let_176 _let_172)) (not (= _let_158 _let_176)) (tptp.has_region_2 _let_161 _let_158) (tptp.object_2 _let_175 _let_161) (tptp.object_2 _let_175 _let_162) (not (= _let_159 _let_174)) (not (= _let_174 _let_159)) (not (= _let_159 _let_162)) (not (= _let_162 _let_159)) (tptp.agent_2 _let_173 _let_162) (tptp.agent_2 _let_173 _let_161) (not (= _let_159 _let_171)) (tptp.has_region_2 _let_172 _let_156) (tptp.has_region_2 _let_159 _let_172) (not (= _let_171 _let_159)) (tptp.object_2 _let_115 _let_171) (tptp.object_2 _let_115 _let_159) (not (= _let_169 _let_154)) (not (= _let_154 _let_152)) (not (= _let_152 _let_154)) (tptp.is_at_2 _let_169 _let_170) (not (= _let_154 _let_169)) (tptp.has_region_2 _let_159 _let_154) (tptp.has_region_2 _let_167 _let_168) (tptp.is_between_2 _let_166 _let_167) (tptp.is_between_2 _let_166 _let_159) (tptp.has_region_2 _let_159 _let_165) (tptp.is_at_2 _let_154 _let_165) (tptp.instrument_2 _let_164 _let_1) (tptp.agent_2 _let_33 _let_1) 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_let_159 _let_17) (= _let_159 _let_13) (= _let_185 _let_127) (= _let_185 _let_123) (= X _let_138) (= _let_190 _let_140) (= _let_223 _let_222) (= (tptp.fn_beta_globin_19 X) (tptp.fn_polymer_9 X)) (= (tptp.fn_beta_globin_20 X) (tptp.fn_polymer_10 X)) (= _let_221 (tptp.fn_polymer_7 X)) (= _let_220 (tptp.fn_polymer_8 X)) (= _let_199 _let_219) (= _let_174 _let_95) (= _let_174 _let_94) (= _let_15 _let_130) (= _let_148 _let_3) (= _let_119 _let_60) (= _let_15 _let_129) (= _let_115 _let_83) (= _let_10 _let_211) (= _let_175 _let_98) (= _let_173 _let_92) (= _let_164 _let_62) (= _let_204 _let_146) (= _let_180 _let_109) (= _let_218 (tptp.fn_polypeptide_98 X)) (= _let_12 _let_54) (= _let_217 (tptp.fn_polypeptide_103 X)) (= _let_216 _let_147) (= _let_115 _let_60) (= _let_162 _let_38) (= _let_117 _let_98) (= _let_187 _let_134) (= _let_216 _let_92) (= _let_31 _let_114) (= _let_215 (tptp.fn_polypeptide_96 X)) (= _let_214 (tptp.fn_polypeptide_56 X)) (= _let_185 _let_38) (= _let_213 _let_146) (= _let_161 _let_52) (= _let_185 _let_126) (= _let_33 _let_60) (= _let_171 _let_86) (= _let_171 _let_85) (= _let_171 _let_84) (= _let_166 _let_71) (= _let_166 _let_70) (= _let_166 _let_69) (= _let_21 _let_142) (= _let_21 _let_141) (= _let_33 _let_59) (= _let_44 _let_129) (= _let_212 (tptp.fn_polypeptide_128 X)) (= _let_163 _let_54) (= _let_159 _let_23) (= _let_42 _let_211) (= _let_1 _let_56) (= _let_1 _let_55) (= _let_166 _let_68) (= _let_175 _let_97) (= _let_210 _let_209) (= _let_193 _let_90) (= _let_178 _let_103) (= _let_172 _let_90) (= _let_208 _let_207) (= _let_167 _let_76) (= _let_15 _let_128) (= _let_180 _let_108) (= _let_186 _let_68) (= _let_206 _let_205) (= _let_183 _let_97) (= _let_185 _let_37) (= _let_171 _let_76) (= _let_204 _let_145) (= _let_162 _let_37) (= _let_165 _let_66) (= _let_185 _let_125) (= _let_203 _let_202) (= _let_161 _let_51) (= _let_160 _let_25) (= _let_201 _let_200) (= _let_199 _let_75) (= _let_176 _let_99) (= _let_21 _let_143) (= _let_7 _let_198) (= _let_185 _let_35) (= _let_197 _let_196) (= _let_79 _let_74) (= _let_159 _let_22) (= _let_122 _let_195) (= _let_27 _let_194) (= _let_172 _let_89) (= _let_193 _let_144) (= _let_185 _let_124) (= _let_29 _let_112) (= _let_192 _let_191) (= _let_162 _let_35) (= _let_183 _let_112) (= _let_167 _let_75) (= _let_161 _let_50) (= _let_167 _let_74) (= _let_171 _let_75) (= _let_190 _let_139) (= _let_189 _let_188) (= X _let_136) (= _let_170 _let_81) (= _let_180 _let_107) (= _let_187 _let_133) (= _let_168 _let_77) (= _let_153 _let_8) (= _let_186 _let_132) (= _let_186 _let_131) (= _let_31 _let_113) (= _let_159 _let_20) (= _let_159 _let_16) (= _let_185 _let_121) (= _let_161 _let_48) (= _let_161 _let_43) (= _let_159 _let_14) (= _let_159 _let_11) (= _let_161 _let_47) (= _let_161 _let_41) (= _let_162 _let_34) (= _let_185 _let_120) (= _let_185 _let_118) (= _let_185 _let_116) (= _let_162 _let_32) (= _let_162 _let_30) (= _let_162 _let_28) (= _let_177 _let_101) (= _let_167 _let_73) (= _let_169 _let_80) (= _let_180 _let_64) (= _let_184 _let_6) (= _let_40 _let_53) (= _let_182 _let_78) (= _let_183 _let_58) (= _let_182 _let_111) (= _let_181 _let_110) (= _let_182 _let_5) (= _let_181 _let_106) (= _let_180 _let_106) (= _let_100 _let_149) (= _let_179 _let_105) (= _let_104 _let_72) (= _let_179 _let_88) (= _let_170 _let_63) (= _let_165 _let_65) (= _let_168 _let_63) (= _let_165 _let_64) (= _let_178 _let_102) (= _let_177 _let_6) (= _let_172 _let_88) (= _let_176 _let_87) (= _let_175 _let_96) (= _let_174 _let_39) (= _let_173 _let_91) (= _let_172 _let_87) (= _let_171 _let_72) (= _let_115 _let_82) (= _let_170 _let_65) (= _let_169 _let_78) (= _let_168 _let_65) (= _let_167 _let_72) (= _let_166 _let_67) (= _let_165 _let_63) (= _let_164 _let_61) (= _let_1 _let_57) (= _let_33 _let_58) (= _let_163 _let_53) (= _let_162 _let_26) (= _let_161 _let_39) (= _let_160 _let_24) (= _let_159 _let_9) (= _let_158 _let_157) (= _let_156 _let_155) (= _let_154 _let_5) (= _let_154 _let_4) (= _let_153 _let_6) (= _let_152 _let_151) (= _let_150 _let_149) (= _let_148 _let_2) (= _let_147 _let_147) (= _let_147 _let_92) (= _let_92 _let_146) (= _let_146 _let_145) (= _let_145 _let_145) (= _let_145 _let_90) (= _let_90 _let_144) (= _let_144 _let_144) (= _let_144 _let_142) (= _let_142 _let_142) (= _let_142 _let_143) (= _let_143 _let_141) (= _let_141 _let_141) (= _let_141 _let_142) (= _let_142 _let_141) (= _let_141 _let_140) (= _let_140 _let_139) (= _let_139 _let_139) (= _let_139 _let_138) (= _let_138 _let_136) (= _let_136 _let_136) (= _let_136 _let_134) (= _let_134 _let_134) (= _let_134 _let_133) (= _let_133 _let_68) (= _let_68 _let_132) (= _let_132 _let_68) (= _let_68 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_129 _let_128) (= _let_128 _let_128) (= _let_128 _let_127) (= _let_127 _let_38) (= _let_126 _let_38) (= _let_38 _let_126) (= _let_126 _let_126) (= _let_126 _let_37) (= _let_125 _let_37) (= _let_37 _let_125) (= _let_125 _let_125) (= _let_125 _let_35) (= _let_124 _let_35) (= _let_35 _let_124) (= _let_124 _let_123) (= _let_123 _let_124) (= _let_124 _let_124) (= _let_124 _let_121) (= _let_121 _let_123) (= _let_123 _let_121) (= _let_121 _let_120) (= _let_120 _let_118) (= _let_118 _let_116) (= _let_116 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_97) (= _let_97 _let_112) (= _let_112 _let_112) (= _let_112 _let_58) (= _let_58 _let_78) (= _let_78 _let_111) (= _let_111 _let_78) (= _let_78 _let_5) (= _let_5 _let_110) (= _let_110 _let_110) (= _let_110 _let_106) (= _let_106 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_64) (= _let_64 _let_106) (= _let_106 _let_106) (= _let_106 _let_88) (= _let_88 _let_105) (= _let_105 _let_88) (= _let_88 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_6) (= _let_6 _let_99) (= _let_99 _let_87) (= _let_87 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_94) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_39) (= _let_39 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_85) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_76) (= _let_75 _let_75) (= _let_75 _let_72) (= _let_72 _let_83) (= _let_83 _let_60) (= _let_60 _let_60) (= _let_60 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_63) (= _let_65 _let_80) (= _let_80 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_63) (= _let_63 _let_65) (= _let_65 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_49) (= _let_49 _let_45) (= _let_45 _let_48) (= _let_48 _let_43) (= _let_43 _let_47) (= _let_47 _let_41) (= _let_41 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_28 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_19) (= _let_17 _let_20) (= _let_20 _let_20) (= _let_20 _let_16) (= _let_14 _let_19) (= _let_19 _let_17) (= _let_17 _let_13) (= _let_13 _let_16) (= _let_16 _let_14) (= _let_14 _let_11) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_5 _let_5) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_globin_ancestral_gene_1 X))) (let ((_let_2 (tptp.fn_alpha_globin_ancestral_gene_2 _let_1))) (let ((_let_3 (tptp.fn_beta_globin_ancestral_gene_2 X))) (let ((_let_4 (tptp.fn_alpha_globin_ancestral_gene_1 _let_1))) (=> (tptp.beta_globin_ancestral_gene_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Globin-Ancestral-Gene'|) (tptp.user_description_2 X |tptp.'Ancestral gene source for the alpha globin ancestral gene and the beta globin ancestral gene.'|) (tptp.concept2words_2 X |tptp.'beta globin ancestral gene'|) (tptp.concept2words_2 X |tptp.'beta-globin-ancestral-gene'|) (tptp.globin_ancestral_gene_1 X) (not (tptp.alpha_globin_ancestral_gene_1 X)) (tptp.alpha_globin_ancestral_gene_1 _let_1) (tptp.evolution_1 _let_3) (tptp.beta_globin_ancestral_gene_1 _let_4) (tptp.evolution_1 _let_2) (tptp.result_2 _let_3 _let_1) (tptp.result_2 _let_3 X) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immunoglobulin_gene_34 X))) (let ((_let_2 (tptp.fn_beta_globin_gene_3 X))) (let ((_let_3 (tptp.fn_attach_2 _let_2))) (let ((_let_4 (tptp.fn_immunoglobulin_gene_35 X))) (let ((_let_5 (tptp.fn_beta_globin_gene_1 X))) (let ((_let_6 (tptp.fn_chemical_bond_4 _let_5))) (let ((_let_7 (tptp.fn_beta_globin_gene_2 X))) (let ((_let_8 (tptp.fn_beta_globin_gene_4 X))) (=> (tptp.beta_globin_gene_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Globin-Gene'|) (tptp.user_description_2 X |tptp.'Beta-Globin gene codes for the beta-globin part of the hemoglobin.'|) (tptp.concept2words_2 X |tptp.'beta globin gene'|) (tptp.concept2words_2 X |tptp.'beta-globin-gene'|) (tptp.immunoglobulin_gene_1 X) (tptp.phosphodiester_bond_1 _let_5) (tptp.chemical_bond_1 _let_5) (tptp.spatial_entity_1 _let_7) (tptp.monomer_1 _let_7) (tptp.attach_1 _let_2) (tptp.chemical_entity_1 _let_8) (tptp.monomer_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.spatial_entity_1 _let_3) (tptp.base_2 _let_2 _let_7) (tptp.is_between_2 _let_5 _let_8) (tptp.element_2 X _let_8) (tptp.possesses_2 X _let_5) (tptp.is_between_2 _let_5 _let_7) (tptp.element_2 X _let_7) (tptp.first_element_2 X _let_8) (tptp.next_element_2 _let_8 _let_7) (= _let_7 _let_3) (= _let_8 _let_6) (= _let_8 _let_4) (= _let_7 _let_1) (= _let_5 (tptp.fn_immunoglobulin_gene_28 X)) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_globin_pre_mrna_1 X))) (=> (tptp.beta_globin_pre_mrna_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Globin-Pre-mRNA'|) (tptp.user_description_2 X |tptp.'Beta-Globin pre-mRNA is the primary transcript formed after transcription of beta-globiin gene. This transcript produces beta-globin polypeptide.'|) (tptp.concept2words_2 X |tptp.'beta globin pre mrna'|) (tptp.concept2words_2 X |tptp.'beta-globin-pre-mrna'|) (tptp.pre_mrna_1 X) (tptp.intron_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.exon_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_pre_mrna_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_glucose_3 X))) (let ((_let_2 (tptp.fn_beta_glucose_1 X))) (=> (tptp.beta_glucose_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Glucose'|) (tptp.user_description_2 X |tptp.'In beta glucose the -H group of the rightmost Carbon atom (C1) is below the plane of the ring.'|) (tptp.concept2words_2 X |tptp.'glucose of beta'|) (tptp.concept2words_2 X |tptp.'beta glucose'|) (tptp.concept2words_2 X |tptp.'beta-glucose'|) (tptp.glucose_isomer_1 X) (not (tptp.alpha_glucose_1 X)) (tptp.shape_value_1 _let_2) (tptp.glucose_1 _let_1) (tptp.has_state_2 _let_1 X) (tptp.the_categorical_value_2 _let_2 tptp.ring_shaped_0) (tptp.shape_2 X _let_2) (tptp.has_isomer_2 _let_1 X) (= _let_1 (tptp.fn_glucose_isomer_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_oxidation_4 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_4 (tptp.fn_reactant_3 _let_1))) (let ((_let_5 (tptp.fn_beta_oxidation_8 X))) (let ((_let_6 (tptp.fn_fatty_acid_29 _let_5))) (let ((_let_7 (tptp.fn_beta_oxidation_10 X))) (let ((_let_8 (tptp.fn_exergonic_reaction_10 _let_7))) (let ((_let_9 (tptp.fn_beta_oxidation_9 X))) (let ((_let_10 (tptp.fn_beta_oxidation_6 X))) (let ((_let_11 (tptp.fn_beta_oxidation_5 X))) (let ((_let_12 (tptp.fn_beta_oxidation_7 X))) (let ((_let_13 (tptp.fn_beta_oxidation_1 X))) (=> (tptp.beta_oxidation_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Oxidation'|) (tptp.user_description_2 X |tptp.'Beta oxidation is the process by which fatty acids, in the form of Acyl-CoA molecules, are broken down in mitochondria and/or in peroxisomes to generate Acetyl-CoA, the entry molecule for the Citric Acid cycle.'|) (tptp.concept2words_2 X |tptp.'undergo beta oxidation'|) (tptp.concept2words_2 X |tptp.'undergo beta-oxidation'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'oxidation of beta'|) (tptp.concept2words_2 X |tptp.'beta oxidation'|) (tptp.concept2words_2 X |tptp.'beta-oxidation'|) (tptp.catabolic_pathway_1 X) (tptp.fadh2_1 _let_13) (tptp.reactant_1 _let_1) (tptp.structural_complexity_value_1 _let_11) (tptp.structural_complexity_value_1 _let_10) (tptp.chemical_entity_1 _let_12) (tptp.hydrocarbon_chain_1 _let_12) (tptp.chemical_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.fatty_acid_1 _let_5) (tptp.nadh_1 _let_9) (tptp.chemical_dissociation_reaction_1 _let_7) (tptp.chemical_entity_1 _let_8) (tptp.hydrocarbon_chain_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.result_2 X _let_13) (tptp.causes_2 _let_7 X) (tptp.raw_material_2 _let_7 _let_12) (tptp.plays_2 _let_5 _let_1) (tptp.raw_material_2 X _let_5) (tptp.structural_complexity_2 _let_5 _let_11) (tptp.has_part_2 _let_5 _let_12) (tptp.in_event_2 _let_1 X) (tptp.result_2 X _let_9) (tptp.structural_complexity_2 _let_9 _let_10) (tptp.greater_than_2 _let_11 _let_10) (= _let_12 _let_8) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_12 _let_6) (= X _let_2) (= (tptp.fn_beta_oxidation_2 X) (tptp.fn_catabolic_pathway_1 X)) (= (tptp.fn_beta_oxidation_3 X) (tptp.fn_catabolic_pathway_5 X)) (= _let_11 (tptp.fn_catabolic_pathway_4 X)) (= _let_10 (tptp.fn_catabolic_pathway_2 X)) (= _let_9 (tptp.fn_catabolic_pathway_9 X)) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.beta_sheet_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Sheet'|) (tptp.user_description_2 X |tptp.'One form of the secondary structure of proteins in which the polypeptide chain folds back and forth. Two or more strands of the polypeptide chain lie side by side or parallel to each other (called beta strands) and are held together by hydrogen bonds between atoms of the polypeptide backbone (not the side chains).'|) (tptp.concept2words_2 X |tptp.'beta pleated sheet'|) (tptp.concept2words_2 X |tptp.'beta-pleated-sheet'|) (tptp.concept2words_2 X |tptp.'sheet of beta'|) (tptp.concept2words_2 X |tptp.'beta sheet'|) (tptp.concept2words_2 X |tptp.'beta-sheet'|) (tptp.secondary_protein_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_beta_tubulin_57 X))) (let ((_let_2 (tptp.fn_peptide_bond_33 _let_1))) (let ((_let_3 (tptp.fn_polypeptide_63 X))) (let ((_let_4 (tptp.fn_polypeptide_130 X))) (let ((_let_5 (tptp.fn_polymer_1 X))) (let ((_let_6 (tptp.fn_peptide_bond_55 _let_1))) (let ((_let_7 (tptp.fn_polypeptide_48 X))) (let ((_let_8 (tptp.fn_peptide_bond_23 _let_1))) (let ((_let_9 (tptp.fn_polypeptide_52 X))) (let ((_let_10 (tptp.fn_peptide_bond_27 _let_1))) (let ((_let_11 (tptp.fn_peptide_bond_47 _let_1))) (let ((_let_12 (tptp.fn_polypeptide_38 X))) (let ((_let_13 (tptp.fn_beta_tubulin_85 X))) (let ((_let_14 (tptp.fn_share_2 _let_13))) (let ((_let_15 (tptp.fn_beta_tubulin_56 X))) (let ((_let_16 (tptp.fn_amino_acid_28 _let_15))) (let ((_let_17 (tptp.fn_beta_tubulin_83 X))) (let ((_let_18 (tptp.fn_share_1 _let_17))) (let ((_let_19 (tptp.fn_beta_tubulin_16 X))) (let ((_let_20 (tptp.fn_share_1 _let_19))) (let ((_let_21 (tptp.fn_beta_tubulin_49 X))) (let ((_let_22 (tptp.fn_share_1 _let_21))) (let ((_let_23 (tptp.fn_beta_tubulin_35 X))) (let ((_let_24 (tptp.fn_share_1 _let_23))) (let ((_let_25 (tptp.fn_beta_tubulin_74 X))) (let ((_let_26 (tptp.fn_share_1 _let_25))) (let ((_let_27 (tptp.fn_beta_tubulin_15 X))) (let ((_let_28 (tptp.fn_share_1 _let_27))) (let ((_let_29 (tptp.fn_share_3 _let_17))) (let ((_let_30 (tptp.fn_share_3 _let_19))) (let ((_let_31 (tptp.fn_share_3 _let_21))) (let ((_let_32 (tptp.fn_share_3 _let_23))) (let ((_let_33 (tptp.fn_share_3 _let_27))) (let ((_let_34 (tptp.fn_share_3 _let_25))) (let ((_let_35 (tptp.fn_amino_acid_22 _let_15))) (let ((_let_36 (tptp.fn_polypeptide_118 X))) (let ((_let_37 (tptp.fn_beta_tubulin_45 X))) (let ((_let_38 (tptp.fn_covalent_bond_20 _let_37))) (let ((_let_39 (tptp.fn_covalent_bond_19 _let_37))) (let ((_let_40 (tptp.fn_beta_tubulin_67 X))) (let ((_let_41 (tptp.fn_hydrogen_13 _let_40))) (let ((_let_42 (tptp.fn_covalent_bond_4 _let_37))) (let ((_let_43 (tptp.fn_hydrogen_12 _let_40))) (let ((_let_44 (tptp.fn_share_2 _let_25))) (let ((_let_45 (tptp.fn_share_2 _let_17))) (let ((_let_46 (tptp.fn_covalent_bond_18 _let_37))) (let ((_let_47 (tptp.fn_polypeptide_31 X))) (let ((_let_48 (tptp.fn_polypeptide_105 X))) (let ((_let_49 (tptp.fn_polypeptide_109 X))) (let ((_let_50 (tptp.fn_covalent_bond_15 _let_37))) (let ((_let_51 (tptp.fn_beta_tubulin_48 X))) (let ((_let_52 (tptp.fn_amino_group_22 _let_51))) (let ((_let_53 (tptp.fn_amino_acid_27 _let_15))) (let ((_let_54 (tptp.fn_amino_acid_11 _let_15))) (let ((_let_55 (tptp.fn_polypeptide_15 X))) (let ((_let_56 (tptp.fn_molecule_11 _let_15))) (let ((_let_57 (tptp.fn_amino_acid_24 _let_15))) (let ((_let_58 (tptp.fn_polypeptide_119 X))) (let ((_let_59 (tptp.fn_functional_group_1 _let_51))) (let ((_let_60 (tptp.fn_polypeptide_82 X))) (let ((_let_61 (tptp.fn_polypeptide_25 X))) (let ((_let_62 (tptp.fn_polypeptide_103 X))) (let ((_let_63 (tptp.fn_share_2 _let_23))) (let ((_let_64 (tptp.fn_polypeptide_110 X))) (let ((_let_65 (tptp.fn_beta_tubulin_33 X))) (let ((_let_66 (tptp.fn_share_2 _let_65))) (let ((_let_67 (tptp.fn_beta_tubulin_42 X))) (let ((_let_68 (tptp.fn_share_2 _let_67))) (let ((_let_69 (tptp.fn_beta_tubulin_40 X))) (let ((_let_70 (tptp.fn_share_2 _let_69))) (let ((_let_71 (tptp.fn_beta_tubulin_62 X))) (let ((_let_72 (tptp.fn_share_2 _let_71))) (let ((_let_73 (tptp.fn_share_2 _let_21))) (let ((_let_74 (tptp.fn_polypeptide_18 X))) (let ((_let_75 (tptp.fn_beta_tubulin_41 X))) (let ((_let_76 (tptp.fn_share_2 _let_75))) (let ((_let_77 (tptp.fn_beta_tubulin_60 X))) (let ((_let_78 (tptp.fn_share_2 _let_77))) (let ((_let_79 (tptp.fn_beta_tubulin_50 X))) (let ((_let_80 (tptp.fn_attract_1 _let_79))) (let ((_let_81 (tptp.fn_covalent_bond_13 _let_37))) (let ((_let_82 (tptp.fn_polypeptide_19 X))) (let ((_let_83 (tptp.fn_polypeptide_30 X))) (let ((_let_84 (tptp.fn_polypeptide_111 X))) (let ((_let_85 (tptp.fn_covalent_bond_17 _let_37))) (let ((_let_86 (tptp.fn_beta_tubulin_82 X))) (let ((_let_87 (tptp.fn_share_2 _let_86))) (let ((_let_88 (tptp.fn_beta_tubulin_81 X))) (let ((_let_89 (tptp.fn_share_2 _let_88))) (let ((_let_90 (tptp.fn_polypeptide_89 X))) (let ((_let_91 (tptp.fn_polypeptide_90 X))) (let ((_let_92 (tptp.fn_share_2 _let_19))) (let ((_let_93 (tptp.fn_polypeptide_16 X))) (let ((_let_94 (tptp.fn_molecule_10 _let_15))) (let ((_let_95 (tptp.fn_beta_tubulin_78 X))) (let ((_let_96 (tptp.fn_beta_tubulin_79 X))) (let ((_let_97 (tptp.fn_beta_tubulin_14 X))) (let ((_let_98 (tptp.fn_peptide_bond_35 _let_1))) 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((_let_141 (tptp.fn_beta_tubulin_87 X))) (let ((_let_142 (tptp.fn_beta_tubulin_19 X))) (let ((_let_143 (tptp.fn_beta_tubulin_12 X))) (let ((_let_144 (tptp.fn_polypeptide_17 X))) (let ((_let_145 (tptp.fn_beta_tubulin_17 X))) (let ((_let_146 (tptp.fn_beta_tubulin_18 X))) (let ((_let_147 (tptp.fn_beta_tubulin_75 X))) (let ((_let_148 (tptp.fn_beta_tubulin_65 X))) (let ((_let_149 (tptp.fn_beta_tubulin_66 X))) (let ((_let_150 (tptp.fn_beta_tubulin_37 X))) (let ((_let_151 (tptp.fn_beta_tubulin_36 X))) (let ((_let_152 (tptp.fn_beta_tubulin_61 X))) (let ((_let_153 (tptp.fn_beta_tubulin_38 X))) (let ((_let_154 (tptp.fn_beta_tubulin_76 X))) (let ((_let_155 (tptp.fn_beta_tubulin_39 X))) (let ((_let_156 (tptp.fn_beta_tubulin_89 X))) (let ((_let_157 (tptp.fn_beta_tubulin_25 X))) (let ((_let_158 (tptp.fn_beta_tubulin_27 X))) (let ((_let_159 (tptp.fn_beta_tubulin_26 X))) (let ((_let_160 (tptp.fn_beta_tubulin_28 X))) (let ((_let_161 (tptp.fn_beta_tubulin_31 X))) (let ((_let_162 (tptp.fn_beta_tubulin_30 X))) (let ((_let_163 (tptp.fn_beta_tubulin_29 X))) (let ((_let_164 (tptp.fn_beta_tubulin_64 X))) (let ((_let_165 (tptp.fn_beta_tubulin_63 X))) (let ((_let_166 (tptp.fn_beta_tubulin_58 X))) (let ((_let_167 (tptp.fn_tubulin_19 _let_166))) (let ((_let_168 (tptp.fn_beta_tubulin_6 X))) (let ((_let_169 (tptp.fn_beta_tubulin_7 X))) (=> (tptp.beta_tubulin_1 X) (and (tptp.original_name_2 X |tptp.'Beta-Tubulin'|) (tptp.user_description_2 X |tptp.'Polypeptide subunit of tubulin protein.'|) (tptp.concept2words_2 X |tptp.'tubulin of beta'|) (tptp.concept2words_2 X |tptp.'beta tubulin'|) (tptp.concept2words_2 X |tptp.'beta-tubulin'|) (tptp.polypeptide_1 X) (tptp.system_1 (tptp.fn_beta_tubulin_4 X)) (tptp.mass_value_1 _let_168) (tptp.mass_value_1 _let_169) (tptp.asymmetrical_distribution_1 _let_130) (tptp.share_1 _let_99) (tptp.unequal_sharing_1 _let_99) (tptp.unequal_sharing_1 _let_138) (tptp.share_1 _let_104) (tptp.share_1 _let_143) (tptp.unequal_sharing_1 _let_143) (tptp.share_1 _let_136) 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(tptp.valence_electron_1 _let_50) (tptp.valence_electron_1 _let_46) (tptp.entity_1 _let_45) (tptp.entity_1 _let_44) (tptp.valence_electron_1 _let_43) (tptp.proton_1 _let_42) (tptp.proton_1 _let_41) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.hydrogen_1 _let_35) (tptp.entity_1 _let_34) (tptp.entity_1 _let_33) (tptp.entity_1 _let_32) (tptp.entity_1 _let_31) (tptp.entity_1 _let_30) (tptp.entity_1 _let_29) (tptp.entity_1 _let_28) (tptp.entity_1 _let_26) (tptp.entity_1 _let_24) (tptp.entity_1 _let_22) (tptp.entity_1 _let_20) (tptp.entity_1 _let_18) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.hydrogen_1 _let_16) (tptp.entity_1 _let_14) (tptp.electron_1 _let_11) (tptp.valence_electron_1 _let_11) (tptp.electron_1 _let_10) (tptp.valence_electron_1 _let_10) (tptp.share_1 _let_8) (tptp.double_bond_1 _let_6) (tptp.attach_1 _let_2) (tptp.result_2 _let_141 _let_37) (tptp.result_2 _let_103 _let_1) (tptp.result_2 _let_13 _let_1) (tptp.result_2 _let_86 _let_1) (tptp.result_2 _let_88 _let_1) (not (= _let_154 _let_116)) (tptp.object_2 _let_71 _let_127) (tptp.result_2 _let_77 _let_1) (tptp.size_2 _let_15 _let_165) (tptp.called_2 _let_169 tptp.mass_electron) (tptp.called_2 _let_168 tptp.mass_proton) (tptp.the_cardinal_value_2 _let_168 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_168 tptp.dalton_0) (not (= _let_120 _let_119)) (not (= _let_116 _let_154)) (not (= _let_116 _let_126)) (tptp.object_2 _let_21 _let_116) (not (= _let_119 _let_120)) (not (= _let_126 _let_116)) (tptp.object_2 _let_67 _let_127) (tptp.result_2 _let_67 _let_1) (tptp.object_2 _let_75 _let_126) (tptp.object_2 _let_69 _let_127) (tptp.result_2 _let_65 _let_1) (tptp.object_2 _let_19 _let_116) (tptp.result_2 _let_104 _let_1) (tptp.object_2 _let_79 _let_127) (tptp.object_2 _let_77 _let_127) (tptp.object_2 _let_75 _let_127) (tptp.object_2 _let_71 _let_126) (tptp.object_2 _let_69 _let_126) (tptp.object_2 _let_88 _let_147) (tptp.object_2 _let_65 _let_125) (tptp.object_2 _let_86 _let_147) (tptp.object_2 _let_19 _let_154) (tptp.object_2 _let_13 _let_100) (tptp.agent_2 _let_27 _let_40) (tptp.has_part_2 _let_166 X) (tptp.is_inside_2 _let_119 _let_51) (tptp.result_2 _let_23 _let_37) (tptp.object_2 _let_23 _let_116) (tptp.result_2 _let_21 _let_37) (tptp.object_2 _let_21 _let_126) (tptp.size_2 X _let_164) (tptp.greater_than_2 _let_164 _let_165) (tptp.possesses_2 X _let_160) (tptp.quantity_2 _let_160 _let_161) (tptp.directly_proportional_2 _let_162 _let_161) (tptp.speed_2 _let_163 _let_162) (tptp.object_2 _let_163 X) (tptp.has_part_2 X _let_159) (tptp.has_region_2 X _let_157) (tptp.is_inside_2 _let_158 _let_157) (tptp.has_part_2 X _let_158) (not (= _let_159 _let_158)) (not (= _let_158 _let_159)) (tptp.has_region_2 _let_152 _let_150) (tptp.base_2 _let_95 _let_152) (tptp.has_region_2 X _let_149) (tptp.object_2 _let_17 _let_147) (tptp.object_2 _let_79 _let_126) (tptp.is_between_2 _let_156 _let_122) (tptp.object_2 _let_140 _let_125) (tptp.is_between_2 _let_156 _let_121) (tptp.possesses_2 _let_15 _let_156) (tptp.called_2 _let_156 |tptp.'C=O'|) (tptp.possesses_2 _let_152 _let_96) (tptp.result_2 _let_97 _let_96) (tptp.agent_2 _let_25 _let_40) (tptp.object_2 _let_25 _let_154) (tptp.is_inside_2 _let_154 _let_135) (tptp.possesses_2 _let_15 _let_37) (tptp.has_part_2 X _let_15) (tptp.has_part_2 X _let_152) (tptp.has_part_2 _let_152 _let_151) (tptp.has_region_2 X _let_148) (tptp.is_at_2 _let_150 _let_148) (tptp.is_inside_2 _let_151 _let_150) (tptp.is_opposite_2 _let_149 _let_148) (tptp.is_opposite_2 _let_148 _let_149) (tptp.object_2 _let_145 _let_116) (tptp.causes_2 _let_146 _let_145) (tptp.object_2 _let_146 _let_116) (not (= _let_116 _let_147)) (not (= _let_147 _let_116)) (tptp.result_2 _let_17 _let_37) (tptp.object_2 _let_17 _let_116) (not (= _let_116 _let_127)) (not (= _let_127 _let_126)) (tptp.object_2 _let_77 _let_126) (not (= _let_127 _let_116)) (not (= _let_126 _let_127)) (tptp.result_2 _let_143 _let_1) (tptp.object_2 _let_143 _let_137) (tptp.object_2 _let_142 _let_137) (tptp.result_2 _let_142 _let_37) (tptp.is_between_2 _let_37 _let_40) (tptp.object_2 _let_141 _let_116) (tptp.agent_2 _let_141 _let_40) (tptp.agent_2 _let_142 _let_40) (tptp.object_2 _let_142 _let_116) (not (= _let_116 _let_125)) (not (= _let_125 _let_116)) (tptp.result_2 _let_138 _let_1) (tptp.object_2 _let_138 _let_100) (tptp.object_2 _let_139 _let_100) (tptp.result_2 _let_139 _let_1) (tptp.result_2 _let_140 _let_1) (tptp.possesses_2 X _let_1) (tptp.result_2 _let_136 _let_1) (tptp.object_2 _let_136 _let_137) (not (= _let_116 _let_137)) (not (= _let_137 _let_116)) (tptp.is_inside_2 _let_116 _let_135) (tptp.object_2 _let_134 _let_116) (tptp.agent_2 _let_134 _let_110) (tptp.result_2 _let_27 _let_37) (tptp.object_2 _let_27 _let_116) (tptp.object_2 _let_130 _let_116) (tptp.causes_2 _let_132 _let_130) (tptp.object_2 _let_132 _let_116) (tptp.has_part_2 _let_15 _let_40) (tptp.has_part_2 _let_15 _let_121) (tptp.has_region_2 _let_15 _let_118) (tptp.has_part_2 _let_15 _let_122) (tptp.has_region_2 _let_15 _let_124) (tptp.has_part_2 _let_15 _let_119) (tptp.has_region_2 _let_15 _let_51) (tptp.is_inside_2 _let_40 _let_51) (not (= _let_119 _let_122)) (not (= _let_122 _let_119)) (not (= _let_40 _let_119)) (not (= _let_119 _let_40)) (not (= _let_122 _let_40)) (not (= _let_120 _let_122)) (not (= _let_122 _let_120)) (not (= _let_40 _let_122)) (not (= _let_1 _let_96)) (not (= _let_96 _let_1)) (tptp.result_2 _let_99 _let_1) (tptp.agent_2 _let_106 _let_1) (tptp.has_function_2 _let_1 _let_106) (not (= _let_103 _let_102)) (tptp.object_2 _let_104 _let_100) (tptp.object_2 _let_103 _let_100) (not (= _let_102 _let_103)) (tptp.result_2 _let_102 _let_96) (not (= _let_99 _let_97)) (not (= _let_97 _let_99)) (tptp.object_2 _let_99 _let_100) (tptp.called_2 _let_96 |tptp.'C=O'|) (tptp.instrument_2 _let_95 _let_1) (= _let_112 _let_108) (tptp.is_near_2 _let_116 _let_115) (tptp.is_near_2 _let_115 _let_116) (= _let_108 _let_112) (tptp.quantity_2 _let_116 _let_108) (tptp.has_part_2 _let_40 _let_116) (tptp.called_2 _let_112 |tptp.'Number_Proton'|) (tptp.quantity_2 _let_110 _let_112) (tptp.is_inside_2 _let_110 _let_115) (tptp.has_region_2 _let_40 _let_115) (tptp.has_part_2 _let_40 _let_110) (tptp.called_2 _let_108 |tptp.'Number_Electron'|) (not (= _let_120 _let_121)) (not (= _let_121 _let_122)) (not (= _let_122 _let_121)) (not (= _let_121 _let_120)) (tptp.has_part_2 _let_15 _let_120) (not (= _let_121 _let_40)) (not (= _let_40 _let_121)) (tptp.is_inside_2 _let_122 _let_124) (tptp.is_inside_2 _let_122 _let_118) (tptp.is_inside_2 _let_121 _let_118) (tptp.is_inside_2 _let_120 _let_118) (tptp.is_inside_2 _let_119 _let_118) (tptp.agent_2 _let_17 _let_40) (tptp.agent_2 _let_19 _let_40) (tptp.agent_2 _let_21 _let_40) (tptp.agent_2 _let_23 _let_40) (tptp.object_2 _let_25 _let_116) (tptp.object_2 _let_23 _let_125) (tptp.object_2 _let_67 _let_126) (tptp.object_2 _let_21 _let_127) (= _let_127 _let_80) (= _let_127 _let_78) (= _let_127 _let_76) (= _let_126 _let_72) (= _let_126 _let_70) (= _let_147 _let_89) (= _let_125 _let_66) (= _let_147 _let_87) (= _let_154 _let_92) (= _let_100 _let_14) (= _let_40 _let_28) (= X _let_167) (= _let_119 _let_52) (= _let_23 _let_85) (= _let_126 _let_46) (= _let_21 _let_85) (= (tptp.fn_beta_tubulin_23 X) (tptp.fn_polymer_9 X)) (= (tptp.fn_beta_tubulin_24 X) (tptp.fn_polymer_10 X)) (= _let_165 (tptp.fn_polymer_7 X)) (= _let_164 (tptp.fn_polymer_8 X)) (= (tptp.fn_beta_tubulin_22 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_beta_tubulin_21 X) (tptp.fn_molecule_2 X)) (= _let_163 (tptp.fn_molecule_8 X)) (= _let_162 (tptp.fn_molecule_3 X)) (= _let_161 (tptp.fn_molecule_4 X)) (= _let_160 (tptp.fn_molecule_12 X)) (= _let_159 (tptp.fn_organic_molecule_2 X)) (= _let_158 (tptp.fn_organic_molecule_1 X)) (= _let_157 (tptp.fn_organic_molecule_3 X)) (= _let_95 _let_3) (= _let_17 _let_62) (= _let_79 (tptp.fn_polypeptide_22 X)) (= _let_122 _let_58) (= _let_121 _let_56) (= _let_121 _let_55) (= _let_156 _let_94) (= _let_156 _let_93) (= _let_97 _let_9) (= _let_96 _let_7) (= _let_155 (tptp.fn_polypeptide_87 X)) (= _let_135 _let_82) (= _let_154 _let_74) (= _let_40 _let_34) (= _let_25 _let_144) (= _let_153 (tptp.fn_polypeptide_99 X)) (= _let_151 _let_91) (= _let_152 (tptp.fn_polypeptide_83 X)) (= _let_15 _let_60) (= _let_151 _let_90) (= _let_150 (tptp.fn_polypeptide_85 X)) (= _let_149 (tptp.fn_polypeptide_80 X)) (= _let_148 (tptp.fn_polypeptide_81 X)) (= _let_116 _let_49) (= _let_147 _let_64) (= _let_146 (tptp.fn_polypeptide_24 X)) (= _let_145 (tptp.fn_polypeptide_23 X)) (= _let_77 _let_144) (= _let_126 _let_48) (= _let_127 _let_74) (= _let_116 _let_45) (= _let_17 _let_61) (= _let_37 (tptp.fn_polypeptide_108 X)) (= _let_137 _let_64) (= _let_143 (tptp.fn_polypeptide_129 X)) (= _let_125 _let_64) (= _let_116 _let_50) (= _let_116 _let_48) (= _let_40 _let_39) (= _let_142 _let_85) (= _let_40 _let_38) (= _let_142 _let_84) (= _let_40 _let_36) (= _let_141 _let_61) (= _let_140 (tptp.fn_polypeptide_128 X)) (= _let_139 (tptp.fn_polypeptide_41 X)) (= _let_100 _let_12) (= _let_138 (tptp.fn_polypeptide_40 X)) (= _let_137 _let_83) (= _let_116 _let_47) (= _let_137 _let_12) (= _let_136 (tptp.fn_polypeptide_39 X)) (= _let_1 _let_5) (= _let_1 _let_4) (= _let_135 _let_81) (= _let_110 _let_42) (= _let_134 _let_133) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_116 _let_46) (= _let_27 _let_85) (= _let_119 _let_35) (= _let_15 _let_59) (= _let_51 _let_128) (= _let_120 _let_33) (= _let_120 _let_26) (= _let_40 _let_33) (= _let_122 _let_28) (= _let_40 _let_26) (= _let_122 _let_34) (= _let_40 _let_35) (= _let_127 _let_73) (= _let_126 _let_68) (= _let_125 _let_63) (= _let_116 _let_44) (= _let_40 _let_32) (= _let_40 _let_24) (= _let_40 _let_31) (= _let_40 _let_22) (= _let_40 _let_30) (= _let_40 _let_20) (= _let_40 _let_29) (= _let_40 _let_18) (= _let_124 _let_123) (= _let_122 _let_57) (= _let_121 _let_54) (= _let_40 _let_16) (= _let_120 _let_53) (= _let_119 _let_16) (= _let_118 _let_117) (= _let_116 _let_43) (= _let_115 _let_114) (= (tptp.fn_beta_tubulin_91 X) _let_113) (= _let_112 _let_111) (= _let_110 _let_41) (= (tptp.fn_beta_tubulin_90 X) _let_109) (= _let_108 _let_107) (= _let_106 _let_105) (= _let_104 _let_8) (= _let_100 _let_11) (= _let_103 _let_98) (= _let_102 _let_101) (= _let_100 _let_10) (= _let_99 _let_98) (= _let_97 _let_8) (= _let_96 _let_6) (= _let_95 _let_2) (= _let_93 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_74) (= _let_74 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_87) (= _let_87 _let_64) (= _let_64 _let_84) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_64) (= _let_64 _let_83) (= _let_83 _let_83) (= _let_83 _let_12) (= _let_12 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_74) (= _let_74 _let_78) (= _let_78 _let_76) (= _let_76 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_46) (= _let_46 _let_48) (= _let_48 _let_72) (= _let_72 _let_70) (= _let_70 _let_48) (= _let_48 _let_68) (= _let_68 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_28) (= _let_34 _let_28) (= _let_58 _let_34) (= _let_34 _let_34) (= _let_34 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_33) (= _let_53 _let_26) (= _let_26 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_35) (= _let_35 _let_16) (= _let_16 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_36 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_33 _let_34) (= _let_34 _let_35) (= _let_35 _let_33) (= _let_33 _let_35) (= _let_35 _let_35) (= _let_35 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_33) (= _let_33 _let_28) (= _let_28 _let_34) (= _let_34 _let_26) (= _let_26 _let_33) (= _let_33 _let_26) (= _let_26 _let_32) (= _let_32 _let_24) (= _let_24 _let_31) (= _let_31 _let_22) (= _let_22 _let_30) (= _let_30 _let_20) (= _let_20 _let_29) (= _let_29 _let_18) (= _let_18 _let_28) (= _let_28 _let_26) (= _let_26 _let_16) (= _let_16 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.beta2_adrenergic_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Beta2-Adrenergic-Receptor'|) (tptp.user_description_2 X |tptp.'Receptor that plays a role in G-protein signal transduction pathways.'|) (tptp.concept2words_2 X |tptp.'beta2 adrenergic receptor'|) (tptp.concept2words_2 X |tptp.'beta2-adrenergic-receptor'|) (tptp.g_protein_coupled_receptor_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bicarbonate_ion_3 X))) (let ((_let_2 (tptp.fn_bicarbonate_ion_2 X))) (let ((_let_3 (tptp.fn_bicarbonate_ion_1 X))) (=> (tptp.bicarbonate_ion_1 X) (and (tptp.original_name_2 X |tptp.'Bicarbonate-Ion'|) (tptp.user_description_2 X |tptp.'HCO3- that is used in biological systems as a buffer and neutralizes acids.'|) (tptp.concept2words_2 X |tptp.'ion of bicarbonate'|) (tptp.concept2words_2 X |tptp.'bicarbonate ion'|) (tptp.concept2words_2 X |tptp.'bicarbonate-ion'|) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (not (tptp.malonate_1 X)) (not (tptp.benzoate_1 X)) (not (tptp.carbonate_ion_1 X)) (not (tptp.cl_minus_1 X)) (not (tptp.azide_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.organic_anion_1 X)) (not (tptp.phosphate_ion_1 X)) (tptp.carbon_1 _let_3) (tptp.oxygen_1 _let_2) (tptp.hydrogen_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.hydrogen_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.oxygen_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_polyatomic_ion_1 X)) (= _let_1 (tptp.fn_polyatomic_ion_2 X)))))))) (forall ((X $$unsorted)) (=> (tptp.bicoid_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid'|) (tptp.user_description_2 X |tptp.'A maternal effect gene that is important for patterning the anterior end of Drosophila.'|) (tptp.concept2words_2 X tptp.bicoid) (tptp.maternal_effect_gene_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bicoid_gene_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-Gene'|) (tptp.user_description_2 X |tptp.'A kind of maternal-effect gene (as in bicoid gene) whose function is to code for products used for establishing the normal patterning of anterior parts (head and thorax) of the embryo.'|) (tptp.concept2words_2 X |tptp.'gene of bicoid'|) (tptp.concept2words_2 X |tptp.'bicoid gene'|) (tptp.concept2words_2 X |tptp.'bicoid-gene'|) (tptp.maternal_effect_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maternal_effect_gene_mutation_3 X))) (let ((_let_2 (tptp.fn_bicoid_gene_mutation_5 X))) (let ((_let_3 (tptp.fn_impair_1 _let_2))) (let ((_let_4 (tptp.fn_bicoid_gene_mutation_9 X))) (let ((_let_5 (tptp.fn_posterior_structure_2 _let_4))) (let ((_let_6 (tptp.fn_bicoid_gene_mutation_10 X))) (let ((_let_7 (tptp.fn_bicoid_gene_mutation_4 X))) (let ((_let_8 (tptp.fn_bicoid_gene_mutation_8 X))) (let ((_let_9 (tptp.fn_posterior_structure_2 _let_8))) (let ((_let_10 (tptp.fn_bicoid_gene_mutation_7 X))) (let ((_let_11 (tptp.fn_create_1 _let_10))) (let ((_let_12 (tptp.fn_bicoid_gene_mutation_3 X))) (let ((_let_13 (tptp.fn_bicoid_gene_mutation_6 X))) (let ((_let_14 (tptp.fn_create_1 _let_13))) (let ((_let_15 (tptp.fn_bicoid_gene_mutation_2 X))) (let ((_let_16 (tptp.fn_bicoid_gene_mutation_1 X))) (=> (tptp.bicoid_gene_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-Gene-Mutation'|) (tptp.user_description_2 X |tptp.'The mutation of bicoid gene.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'bicoid gene mutation'|) (tptp.concept2words_2 X |tptp.'bicoid-gene-mutation'|) (tptp.maternal_effect_gene_mutation_1 X) (tptp.anterior_end_1 _let_16) (tptp.stop_1 _let_15) (tptp.anatomical_structure_1 _let_12) (tptp.bicoid_gene_1 _let_7) (tptp.damage_1 _let_2) (tptp.create_1 _let_13) (tptp.create_1 _let_10) (tptp.entity_1 _let_8) (tptp.posterior_structure_1 _let_8) (tptp.posterior_structure_1 _let_4) (tptp.embryo_1 _let_6) (tptp.entity_1 _let_14) (tptp.entity_1 _let_11) (tptp.living_entity_1 _let_9) (tptp.living_entity_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.exactCardinality _let_6 tptp.has_part_0 |"2"| tptp.posterior_structure_0) (tptp.has_region_2 _let_6 _let_16) (tptp.result_2 X _let_6) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_2) (tptp.result_2 _let_13 _let_4) (tptp.prevents_2 _let_15 _let_10) (tptp.object_2 _let_2 _let_7) (tptp.result_2 _let_13 _let_8) (tptp.result_2 _let_10 _let_12) (tptp.has_part_2 _let_6 _let_8) (tptp.object_2 X _let_7) (tptp.has_part_2 _let_6 _let_4) (= _let_7 _let_3) (= _let_8 _let_14) (= _let_12 _let_11) (= _let_6 _let_9) (= _let_7 _let_1) (= _let_6 _let_5) (= _let_3 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bicoid_mrna_4 X))) (let ((_let_2 (tptp.fn_synthesis_of_mrna_3 _let_1))) (let ((_let_3 (tptp.fn_bicoid_mrna_5 X))) (let ((_let_4 (tptp.fn_translation_7 _let_3))) (let ((_let_5 (tptp.fn_bicoid_mrna_6 X))) (let ((_let_6 (tptp.fn_collecting_1 _let_5))) (let ((_let_7 (tptp.fn_synthesis_of_rna_8 _let_1))) (let ((_let_8 (tptp.fn_bicoid_mrna_9 X))) (let ((_let_9 (tptp.fn_synthesis_of_protein_16 _let_8))) (let ((_let_10 (tptp.fn_anabolic_pathway_5 _let_8))) (let ((_let_11 (tptp.fn_synthesis_of_protein_13 _let_8))) (let ((_let_12 (tptp.fn_bicoid_mrna_7 X))) (let ((_let_13 (tptp.fn_egg_2 _let_12))) (let ((_let_14 (tptp.fn_bicoid_mrna_8 X))) (let ((_let_15 (tptp.fn_bicoid_mrna_10 X))) (let ((_let_16 (tptp.fn_bicoid_mrna_2 X))) (let ((_let_17 (tptp.fn_bicoid_mrna_1 X))) (=> (tptp.bicoid_mrna_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-mRNA'|) (tptp.user_description_2 X |tptp.'The mRNA formed from the transcription of bicoid gene.'|) (tptp.concept2words_2 X |tptp.'mrna of bicoid'|) (tptp.concept2words_2 X |tptp.'bicoid mrna'|) (tptp.concept2words_2 X |tptp.'bicoid-mrna'|) (tptp.mrna_1 X) (not (tptp.prokaryotic_mrna_1 X)) (tptp.drosophila_melanogaster_1 _let_17) (tptp.sex_value_1 _let_16) (tptp.synthesis_of_mrna_1 _let_1) (tptp.translation_1 _let_3) (tptp.collecting_1 _let_5) (tptp.egg_1 _let_12) (tptp.anterior_end_1 _let_14) (tptp.synthesis_of_protein_1 _let_8) (tptp.bicoid_protein_1 _let_15) (tptp.anterior_end_1 _let_13) (tptp.translation_1 _let_11) (tptp.chemical_entity_1 _let_10) (tptp.protein_1 _let_9) (tptp.rna_1 _let_7) (tptp.entity_1 _let_6) (tptp.mrna_1 _let_4) (tptp.mrna_1 _let_2) (tptp.site_2 _let_5 _let_14) (tptp.has_part_2 _let_12 X) (tptp.has_part_2 _let_17 _let_12) (tptp.sex_2 _let_17 _let_16) (tptp.the_categorical_value_2 _let_16 tptp.female_0) (tptp.result_2 _let_8 _let_15) (tptp.object_2 _let_5 X) (tptp.instrument_2 _let_3 X) (tptp.has_region_2 _let_12 _let_14) (tptp.result_2 _let_1 X) (tptp.first_subevent_2 _let_8 _let_3) (tptp.subevent_2 _let_8 _let_3) (= _let_15 _let_10) (= _let_15 _let_9) (= X _let_6) (= X _let_4) (= _let_14 _let_13) (= X _let_7) (= X _let_2) (= _let_3 _let_11) (= _let_10 _let_9) (= _let_9 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bicoid_protein_1 X))) (let ((_let_2 (tptp.fn_morphogen_1 _let_1))) (=> (tptp.bicoid_protein_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-Protein'|) (tptp.user_description_2 X |tptp.'A protein from from translation of bicoid mRNA.'|) (tptp.concept2words_2 X |tptp.'protein of bicoid'|) (tptp.concept2words_2 X |tptp.'bicoid protein'|) (tptp.concept2words_2 X |tptp.'bicoid-protein'|) (tptp.transcription_factor_1 X) (tptp.morphogen_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bicoid_protein_hypothesis_3 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_bicoid_protein_hypothesis_4 X))) (let ((_let_4 (tptp.fn_bicoid_protein_hypothesis_1 X))) (let ((_let_5 (tptp.fn_bicoid_protein_hypothesis_2 X))) (=> (tptp.bicoid_protein_hypothesis_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-Protein-Hypothesis'|) (tptp.user_description_2 X |tptp.'The bicoid protein is responsible for specifying the drosophila_'s anterior end according to Bicoid Protein hypothesis.'|) (tptp.concept2words_2 X |tptp.'bicoid protein hypothesis'|) (tptp.concept2words_2 X |tptp.'bicoid-protein-hypothesis'|) (tptp.hypothesis_1 X) (not (tptp.individualistic_hypothesis_1 X)) (not (tptp.interactive_hypothesis_1 X)) (not (tptp.practice_hypothesis_of_play_1 X)) (not (tptp.snowball_earth_hypothesis_1 X)) (tptp.amphipathic_molecule_1 _let_4) (tptp.bicoid_protein_1 _let_4) (tptp.fruit_fly_1 _let_5) (tptp.thing_1 _let_1) (tptp.create_1 _let_1) (tptp.anterior_end_1 _let_3) (tptp.entity_1 _let_2) (tptp.has_region_2 _let_5 _let_3) (tptp.base_2 _let_1 _let_5) (tptp.agent_2 _let_1 _let_4) (tptp.information_content_2 X _let_1) (tptp.result_2 _let_1 _let_3) (= _let_1 (tptp.fn_information_1 X)) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bicoid_protein_hypothesis_experiment_9 X))) (let ((_let_2 (tptp.fn_synthesis_of_protein_16 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_bicoid_protein_hypothesis_experiment_12 X))) (let ((_let_5 (tptp.fn_embryogenesis_8 _let_4))) (let ((_let_6 (tptp.fn_bicoid_protein_hypothesis_experiment_11 X))) (let ((_let_7 (tptp.fn_bicoid_protein_hypothesis_experiment_10 X))) (let ((_let_8 (tptp.fn_bicoid_protein_hypothesis_experiment_6 X))) (let ((_let_9 (tptp.fn_bicoid_protein_hypothesis_experiment_7 X))) (let ((_let_10 (tptp.fn_bicoid_protein_hypothesis_experiment_8 X))) (let ((_let_11 (tptp.fn_bicoid_protein_hypothesis_experiment_4 X))) (let ((_let_12 (tptp.fn_bicoid_protein_hypothesis_experiment_5 X))) (let ((_let_13 (tptp.fn_bicoid_protein_hypothesis_experiment_3 X))) (let ((_let_14 (tptp.fn_bicoid_protein_hypothesis_experiment_2 X))) (let ((_let_15 (tptp.fn_bicoid_protein_hypothesis_experiment_1 X))) (=> (tptp.bicoid_protein_hypothesis_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Bicoid-Protein-Hypothesis-Experiment'|) (tptp.user_description_2 X |tptp.'The experiment conducted to show bicoid protein is responsible for specifying the drosophila_'s anterior end according to Bicoid Protein hypothesis.'|) (tptp.concept2words_2 X |tptp.'bicoid protein hypothesis experiment'|) (tptp.concept2words_2 X |tptp.'bicoid-protein-hypothesis-experiment'|) (tptp.experiment_1 X) (not (tptp.anchor_cell_destruction_experiment_1 X)) (not (tptp.controlled_experiment_1 X)) (not (tptp.meselson_and_stahl_experiment_1 X)) (not (tptp.steward_experiment_on_carrot_1 X)) (not (tptp.study_on_drosophila_by_morgan_1 X)) (not (tptp.tomato_chimera_experiment_1 X)) (not (tptp.undifferentiated_cell_nucleus_transplantation_to_frog_egg_1 X)) (tptp.bicoid_protein_hypothesis_1 _let_15) (tptp.scientist_1 _let_14) (tptp.bicoid_mrna_1 _let_13) (tptp.fruit_fly_1 _let_11) (tptp.region_1 _let_12) (tptp.create_1 _let_8) (tptp.inject_1 _let_9) (tptp.study_1 _let_10) (tptp.synthesis_of_protein_1 _let_1) (tptp.bicoid_protein_1 _let_7) (tptp.early_embryo_1 _let_6) (tptp.embryogenesis_1 _let_4) (tptp.embryo_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.protein_1 _let_2) (tptp.base_2 _let_10 _let_15) (tptp.agent_2 _let_9 _let_14) (tptp.object_2 _let_9 _let_13) (tptp.base_2 _let_9 _let_6) (tptp.site_2 _let_9 _let_12) (tptp.minCardinality _let_9 tptp.site_0 |"2"| tptp.spatial_entity_0) (tptp.next_event_2 _let_9 _let_1) (tptp.base_2 _let_8 _let_6) (tptp.site_2 _let_8 _let_12) (tptp.agent_2 _let_8 _let_7) (tptp.next_event_2 _let_1 _let_8) (tptp.has_region_2 _let_6 _let_12) (tptp.result_2 _let_4 _let_11) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_1) (tptp.result_2 _let_1 _let_7) (tptp.object_2 _let_4 _let_6) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.biennial_1 X) (and (tptp.original_name_2 X |tptp.'Biennial'|) (tptp.user_description_2 X |tptp.'A flowering plant that requires two years to complete its life cycle.'|) (tptp.concept2words_2 X |tptp.'biennial plant'|) (tptp.concept2words_2 X tptp.biennial) (tptp.angiosperm_1 X)))) (forall ((X $$unsorted)) (=> (tptp.big_node_1 X) (and (tptp.original_name_2 X |tptp.'Big-Node'|) (tptp.concept2words_2 X |tptp.'big node'|) (tptp.concept2words_2 X |tptp.'big-node'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bilaterally_symmetrical_animal_2 X))) (let ((_let_2 (tptp.fn_bilaterally_symmetrical_animal_1 X))) (=> (tptp.bilaterally_symmetrical_animal_1 X) (and (tptp.original_name_2 X |tptp.'Bilaterally-Symmetrical-Animal'|) (tptp.user_description_2 X |tptp.'An animal with bilateral body symmetry is called a bilaterally symmetrical animal.'|) (tptp.concept2words_2 X |tptp.'bilaterally symmetrical animal'|) (tptp.concept2words_2 X |tptp.'bilaterally-symmetrical-animal'|) (tptp.animal_1 X) (tptp.anterior_posterior_axis_1 _let_2) (tptp.dorsal_ventral_axis_1 _let_1) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.bilaterian_1 X) (and (tptp.original_name_2 X |tptp.'Bilaterian'|) (tptp.user_description_2 X |tptp.'Member of a clade of animals with bilateral symmetry and three germ layers.'|) (tptp.concept2words_2 X tptp.bilaterian) (tptp.eumetazoan_1 X) (not (tptp.chordate_1 X)) (not (tptp.invertebrate_1 X)) (not (tptp.radiata_1 X)) (not (tptp.triploblastic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_solution_5 X))) (let ((_let_2 (tptp.fn_bile_3 X))) (let ((_let_3 (tptp.fn_agent_role_1 _let_2))) (let ((_let_4 (tptp.fn_bile_2 X))) (let ((_let_5 (tptp.fn_bile_1 X))) (=> (tptp.bile_1 X) (and (tptp.original_name_2 X |tptp.'Bile'|) (tptp.user_description_2 X |tptp.'A bitter-tasting mixture of substances produced by the liver and stored in the gallbladder. Bile is secreted into the small intestine to aid in the digestion of fats.'|) (tptp.concept2words_2 X tptp.bile) (tptp.digestive_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X)) (tptp.bile_salt_1 _let_5) (tptp.water_1 _let_4) (tptp.emulsifier_1 _let_2) (tptp.entity_1 _let_3) (tptp.plays_2 _let_5 _let_2) (tptp.has_solute_2 X _let_5) (tptp.has_solvent_2 X _let_4) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_5) (not (= _let_5 _let_4)) (not (= _let_4 _let_5)) (= _let_5 _let_3) (= _let_5 _let_1) (= _let_4 (tptp.fn_solution_6 X)) (= _let_3 _let_1) (= _let_1 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.bile_salt_1 X) (and (tptp.original_name_2 X |tptp.'Bile-Salt'|) (tptp.user_description_2 X |tptp.'Emulsifying agents present in bile which aid in digestion and absorption of lipids.'|) (tptp.concept2words_2 X |tptp.'salt of bile'|) (tptp.concept2words_2 X |tptp.'bile salt'|) (tptp.concept2words_2 X |tptp.'bile-salt'|) (tptp.chemical_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_3 X))) (let ((_let_2 (tptp.fn_binary_fission_9 X))) (let ((_let_3 (tptp.fn_cell_growth_2 _let_2))) (let ((_let_4 (tptp.fn_asexual_reproduction_1 X))) (let ((_let_5 (tptp.fn_binary_fission_13 X))) (let ((_let_6 (tptp.fn_impair_1 _let_5))) (let ((_let_7 (tptp.fn_binary_fission_10 X))) (let ((_let_8 (tptp.fn_cell_30 _let_7))) (let ((_let_9 (tptp.fn_binary_fission_22 X))) (let ((_let_10 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_9))) (let ((_let_11 (tptp.fn_cell_division_2 X))) (let ((_let_12 (tptp.fn_asexual_reproduction_2 X))) (let ((_let_13 (tptp.fn_cell_14 _let_7))) (let ((_let_14 (tptp.fn_binary_fission_19 X))) (let ((_let_15 (tptp.fn_cell_29 _let_7))) (let ((_let_16 (tptp.fn_binary_fission_15 X))) (let ((_let_17 (tptp.fn_cell_28 _let_7))) (let ((_let_18 (tptp.fn_binary_fission_21 X))) (let ((_let_19 (tptp.fn_binary_fission_20 X))) (let ((_let_20 (tptp.fn_cell_26 _let_7))) (let ((_let_21 (tptp.fn_binary_fission_16 X))) (let ((_let_22 (tptp.fn_cell_11 _let_7))) (let ((_let_23 (tptp.fn_binary_fission_11 X))) (let ((_let_24 (tptp.fn_cell_22 _let_7))) (let ((_let_25 (tptp.fn_binary_fission_18 X))) (let ((_let_26 (tptp.fn_cell_23 _let_7))) (let ((_let_27 (tptp.fn_cell_4 _let_7))) (let ((_let_28 (tptp.fn_binary_fission_17 X))) (let ((_let_29 (tptp.fn_cell_10 _let_7))) (let ((_let_30 (tptp.fn_organism_4 _let_7))) (let ((_let_31 (tptp.fn_binary_fission_6 X))) (let ((_let_32 (tptp.fn_organism_5 _let_7))) (let ((_let_33 (tptp.fn_binary_fission_8 X))) (let ((_let_34 (tptp.fn_organism_2 _let_7))) (let ((_let_35 (tptp.fn_binary_fission_7 X))) (let ((_let_36 (tptp.fn_organism_1 _let_7))) (let ((_let_37 (tptp.fn_organism_6 _let_7))) (let ((_let_38 (tptp.fn_binary_fission_25 X))) (let ((_let_39 (tptp.fn_binary_fission_14 X))) (let ((_let_40 (tptp.fn_binary_fission_24 X))) (let ((_let_41 (tptp.fn_cell_growth_1 _let_2))) (let ((_let_42 (tptp.fn_binary_fission_23 X))) (let ((_let_43 (tptp.fn_binary_fission_4 X))) (let ((_let_44 (tptp.fn_binary_fission_5 X))) (=> (tptp.binary_fission_1 X) (and (tptp.original_name_2 X |tptp.'Binary-Fission'|) (tptp.user_description_2 X |tptp.'Binary fission is the form of asexual reproduction and cell division used by all prokaryotes, some protozoa, and some organelles within eukaryotic organisms. It results in the production of two identical daughter cells.'|) (tptp.concept2words_2 X |tptp.'undergo binary fission'|) (tptp.concept2words_2 X |tptp.'fission of binary'|) (tptp.concept2words_2 X |tptp.'binary fission'|) (tptp.concept2words_2 X |tptp.'binary-fission'|) (tptp.asexual_reproduction_1 X) (tptp.cell_division_1 X) (not (tptp.mitosis_1 X)) (tptp.system_1 (tptp.fn_binary_fission_2 X)) (tptp.grow_1 _let_43) (tptp.cell_equator_1 _let_44) (tptp.water_1 _let_31) (tptp.temperature_value_1 _let_35) (tptp.specific_heat_value_1 _let_33) (tptp.cell_growth_1 _let_2) (tptp.unicellular_organism_1 _let_7) (tptp.size_value_1 _let_23) (tptp.divide_1 _let_5) (tptp.unicellular_organism_1 _let_39) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.surface_1 _let_28) (tptp.volume_value_1 _let_25) (tptp.ribosome_1 _let_14) (tptp.membrane_1 _let_19) (tptp.spatial_entity_1 _let_19) (tptp.biomembrane_1 _let_19) (tptp.plasma_membrane_1 _let_19) (tptp.mixture_1 _let_18) (tptp.cytoplasm_1 _let_18) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_9) (tptp.grow_1 _let_42) (tptp.daughter_cell_1 _let_40) (tptp.parent_cell_1 _let_38) (tptp.grow_1 _let_41) (tptp.property_node_1 _let_37) (tptp.property_node_1 _let_36) (tptp.temperature_value_1 _let_34) (tptp.specific_heat_value_1 _let_32) (tptp.water_1 _let_30) (tptp.property_node_1 _let_29) (tptp.surface_1 _let_27) (tptp.property_node_1 _let_26) (tptp.volume_value_1 _let_24) (tptp.size_value_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.ribosome_1 _let_13) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.cell_1 _let_3) (tptp.result_2 _let_5 _let_39) (tptp.called_2 _let_23 tptp.size_obj) (tptp.object_2 _let_43 _let_19) (tptp.toward_2 _let_43 _let_44) (tptp.subevent_2 X _let_43) (tptp.subevent_2 X _let_2) (tptp.base_2 _let_2 _let_7) (tptp.object_2 _let_5 _let_7) (tptp.path_2 _let_9 _let_19) (tptp.base_2 X _let_7) (tptp.agent_2 X _let_7) (tptp.subevent_2 _let_2 _let_42) (tptp.object_2 _let_42 _let_7) (tptp.object_2 _let_2 _let_7) (tptp.in_event_2 _let_40 X) (tptp.object_2 X _let_7) (tptp.plays_2 _let_7 _let_38) (tptp.in_event_2 _let_38 X) (tptp.result_2 X _let_39) (tptp.plays_2 _let_39 _let_40) (tptp.temperature_2 _let_7 _let_35) (tptp.has_part_2 _let_7 _let_31) (tptp.specific_heat_2 _let_31 _let_33) (tptp.correspondence_2 _let_35 _let_33) (tptp.has_part_2 _let_7 _let_19) (tptp.volume_2 _let_7 _let_25) (tptp.has_part_2 _let_7 _let_18) (tptp.has_region_2 _let_7 _let_28) (tptp.is_at_2 _let_21 _let_28) (tptp.size_2 _let_7 _let_23) (tptp.directly_proportional_2 _let_23 _let_25) (tptp.has_part_2 _let_7 _let_14) (tptp.is_inside_2 _let_14 _let_16) (tptp.has_part_2 _let_18 _let_16) (tptp.is_inside_2 _let_18 _let_19) (tptp.has_part_2 _let_19 _let_21) (= _let_7 _let_6) (= _let_19 _let_10) (= _let_7 _let_4) (= _let_7 _let_3) (= _let_42 _let_41) (= _let_40 (tptp.fn_cell_division_5 X)) (= _let_39 _let_12) (= _let_39 _let_11) (= _let_38 (tptp.fn_cell_division_6 X)) (= _let_7 _let_1) (= (tptp.fn_binary_fission_26 X) _let_37) (= (tptp.fn_binary_fission_28 X) _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= (tptp.fn_binary_fission_12 X) _let_29) (= _let_28 _let_27) (= (tptp.fn_binary_fission_27 X) _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_8) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_binary_fission_in_amoeba_21 X))) (let ((_let_2 (tptp.fn_mitosis_31 _let_1))) (let ((_let_3 (tptp.fn_binary_fission_10 X))) (let ((_let_4 (tptp.fn_binary_fission_in_amoeba_15 X))) (let ((_let_5 (tptp.fn_impair_1 _let_4))) (let ((_let_6 (tptp.fn_binary_fission_in_amoeba_4 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_binary_fission_in_amoeba_34 X))) (let ((_let_9 (tptp.fn_amoeba_24 _let_8))) (let ((_let_10 (tptp.fn_protist_cell_23 _let_8))) (let ((_let_11 (tptp.fn_amoeba_23 _let_8))) (let ((_let_12 (tptp.fn_protist_cell_28 _let_8))) (let ((_let_13 (tptp.fn_amoeba_18 _let_8))) (let ((_let_14 (tptp.fn_binary_fission_20 X))) (let ((_let_15 (tptp.fn_amoeba_19 _let_8))) (let ((_let_16 (tptp.fn_protist_cell_35 _let_8))) (let ((_let_17 (tptp.fn_amoeba_21 _let_8))) (let ((_let_18 (tptp.fn_protist_cell_29 _let_8))) (let ((_let_19 (tptp.fn_mitosis_33 _let_1))) (let ((_let_20 (tptp.fn_binary_fission_in_amoeba_28 X))) (let ((_let_21 (tptp.fn_peroxisome_40 _let_20))) (let ((_let_22 (tptp.fn_amoeba_7 _let_8))) (let ((_let_23 (tptp.fn_mitosis_3 _let_1))) (let ((_let_24 (tptp.fn_amoeba_17 _let_8))) (let ((_let_25 (tptp.fn_protist_cell_30 _let_8))) (let ((_let_26 (tptp.fn_amoeba_26 _let_8))) (let ((_let_27 (tptp.fn_mitosis_32 _let_1))) (let ((_let_28 (tptp.fn_protist_cell_24 _let_8))) (let ((_let_29 (tptp.fn_mitosis_34 _let_1))) (let ((_let_30 (tptp.fn_protist_cell_19 _let_8))) (let ((_let_31 (tptp.fn_binary_fission_14 X))) (let ((_let_32 (tptp.fn_cell_division_2 X))) (let ((_let_33 (tptp.fn_binary_fission_in_amoeba_24 X))) (let ((_let_34 (tptp.fn_binary_fission_in_amoeba_22 X))) (let ((_let_35 (tptp.fn_binary_fission_in_amoeba_25 X))) (let ((_let_36 (tptp.fn_amoeba_13 _let_8))) (let ((_let_37 (tptp.fn_binary_fission_in_amoeba_32 X))) (let ((_let_38 (tptp.fn_binary_fission_in_amoeba_36 X))) (let ((_let_39 (tptp.fn_binary_fission_in_amoeba_31 X))) (let ((_let_40 (tptp.fn_binary_fission_in_amoeba_27 X))) (let ((_let_41 (tptp.fn_amoeba_52 _let_8))) (let ((_let_42 (tptp.fn_binary_fission_in_amoeba_26 X))) (let ((_let_43 (tptp.fn_binary_fission_in_amoeba_29 X))) (let ((_let_44 (tptp.fn_binary_fission_in_amoeba_30 X))) (let ((_let_45 (tptp.fn_amoeba_9 _let_8))) (let ((_let_46 (tptp.fn_binary_fission_in_amoeba_16 X))) (let ((_let_47 (tptp.fn_amoeba_10 _let_8))) (let ((_let_48 (tptp.fn_binary_fission_in_amoeba_17 X))) (let ((_let_49 (tptp.fn_amoeba_8 _let_8))) (let ((_let_50 (tptp.fn_binary_fission_in_amoeba_13 X))) (let ((_let_51 (tptp.fn_amoeba_15 _let_8))) (let ((_let_52 (tptp.fn_binary_fission_in_amoeba_23 X))) (let ((_let_53 (tptp.fn_amoeba_14 _let_8))) (let ((_let_54 (tptp.fn_binary_fission_in_amoeba_11 X))) (let ((_let_55 (tptp.fn_amoeba_16 _let_8))) (let ((_let_56 (tptp.fn_binary_fission_in_amoeba_12 X))) (let ((_let_57 (tptp.fn_amoeba_38 _let_8))) (let ((_let_58 (tptp.fn_amoeba_36 _let_8))) (let ((_let_59 (tptp.fn_amoeba_39 _let_8))) (let ((_let_60 (tptp.fn_amoeba_37 _let_8))) (let ((_let_61 (tptp.fn_mitosis_35 _let_1))) (let ((_let_62 (tptp.fn_binary_fission_in_amoeba_1 X))) (let ((_let_63 (tptp.fn_binary_fission_in_amoeba_2 X))) (let ((_let_64 (tptp.fn_mitosis_45 _let_1))) (let ((_let_65 (tptp.fn_binary_fission_in_amoeba_5 X))) (let ((_let_66 (tptp.fn_binary_fission_in_amoeba_18 X))) (let ((_let_67 (tptp.fn_binary_fission_in_amoeba_10 X))) (let ((_let_68 (tptp.fn_binary_fission_in_amoeba_14 X))) (let ((_let_69 (tptp.fn_binary_fission_in_amoeba_35 X))) (let ((_let_70 (tptp.fn_binary_fission_in_amoeba_19 X))) (let ((_let_71 (tptp.fn_binary_fission_13 X))) (let ((_let_72 (tptp.fn_binary_fission_in_amoeba_20 X))) (let ((_let_73 (tptp.fn_eukaryotic_cell_61 _let_8))) (let ((_let_74 (tptp.fn_cell_2 _let_8))) (let ((_let_75 (tptp.fn_binary_fission_in_amoeba_3 X))) (let ((_let_76 (tptp.fn_binary_fission_in_amoeba_33 X))) (=> (tptp.binary_fission_in_amoeba_1 X) (and (tptp.original_name_2 X |tptp.'Binary-Fission-In-Amoeba'|) (tptp.user_description_2 X |tptp.'Type of cellular division in amoebas which produces two identical daughter cells.'|) (tptp.concept2words_2 X |tptp.'binary fission in amoeba'|) (tptp.concept2words_2 X |tptp.'binary-fission-in-amoeba'|) (tptp.binary_fission_1 X) (tptp.prophase_1 _let_62) (tptp.chromosome_1 _let_63) (tptp.eukaryotic_chromosome_1 _let_63) (tptp.homologous_chromosome_1 _let_63) (tptp.cytoskeleton_1 _let_75) (tptp.move_1 _let_6) (tptp.tangible_entity_1 _let_65) (tptp.eukaryotic_cell_1 _let_65) (tptp.cell_1 _let_65) (tptp.cell_growth_1 _let_67) (tptp.size_value_1 _let_54) (tptp.volume_value_1 _let_56) (tptp.water_1 _let_50) (tptp.grow_1 _let_68) (tptp.impair_1 _let_4) (tptp.divide_1 _let_4) (tptp.temperature_value_1 _let_46) (tptp.specific_heat_value_1 _let_48) (tptp.parent_cell_1 _let_66) (tptp.daughter_cell_1 _let_70) (tptp.divide_1 _let_72) (tptp.mitosis_1 _let_1) (tptp.synthesis_reaction_1 _let_34) (tptp.chemical_reaction_1 _let_34) (tptp.anabolic_pathway_1 _let_34) (tptp.endergonic_reaction_1 _let_34) (tptp.metabolic_pathway_1 _let_34) (tptp.synthesis_of_lipid_1 _let_34) (tptp.surface_1 _let_52) (tptp.endoplasmic_reticulum_1 _let_33) (tptp.smooth_endoplasmic_reticulum_1 _let_33) (tptp.membrane_1 _let_35) (tptp.tangible_entity_1 _let_35) (tptp.spatial_entity_1 _let_35) (tptp.biomembrane_1 _let_35) (tptp.plasma_membrane_1 _let_35) (tptp.spatial_entity_1 _let_42) (tptp.lysosome_1 _let_42) (tptp.golgi_apparatus_1 _let_40) (tptp.peroxisome_1 _let_20) (tptp.eukaryotic_ribosome_1 _let_43) (tptp.tangible_entity_1 _let_44) (tptp.nucleus_1 _let_44) (tptp.substance_1 _let_39) (tptp.cytosol_1 _let_39) (tptp.tangible_entity_1 _let_37) (tptp.phospholipid_bilayer_1 _let_37) (tptp.amoeba_1 _let_76) (tptp.spatial_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.unicellular_organism_1 _let_8) (tptp.protist_cell_1 _let_8) (tptp.amoeba_1 _let_8) (tptp.grow_1 _let_69) (tptp.suspension_1 _let_38) (tptp.colloid_1 _let_38) (tptp.mixture_1 _let_38) (tptp.cytoplasm_1 _let_38) (tptp.cytoskeleton_1 _let_74) (tptp.peroxisome_1 _let_73) (tptp.tangible_entity_1 _let_64) (tptp.eukaryotic_cell_1 _let_64) (tptp.cell_1 _let_64) (tptp.prophase_1 _let_61) (tptp.property_node_1 _let_60) (tptp.property_node_1 _let_59) (tptp.property_node_1 _let_58) (tptp.property_node_1 _let_57) (tptp.volume_value_1 _let_55) (tptp.size_value_1 _let_53) (tptp.surface_1 _let_51) (tptp.water_1 _let_49) (tptp.specific_heat_value_1 _let_47) (tptp.temperature_value_1 _let_45) (tptp.spatial_entity_1 _let_41) (tptp.lysosome_1 _let_41) (tptp.tangible_entity_1 _let_36) (tptp.phospholipid_bilayer_1 _let_36) (tptp.chromosome_1 _let_30) (tptp.eukaryotic_chromosome_1 _let_30) (tptp.homologous_chromosome_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.nucleus_1 _let_28) (tptp.tangible_entity_1 _let_27) (tptp.nucleus_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.nucleus_1 _let_26) (tptp.eukaryotic_ribosome_1 _let_25) (tptp.eukaryotic_ribosome_1 _let_24) (tptp.golgi_apparatus_1 _let_23) (tptp.golgi_apparatus_1 _let_22) (tptp.cytosol_1 _let_21) (tptp.substance_1 _let_19) (tptp.cytosol_1 _let_19) (tptp.substance_1 _let_18) (tptp.cytosol_1 _let_18) (tptp.substance_1 _let_17) (tptp.cytosol_1 _let_17) (tptp.mixture_1 _let_16) (tptp.cytoplasm_1 _let_16) (tptp.suspension_1 _let_15) (tptp.colloid_1 _let_15) (tptp.mixture_1 _let_15) (tptp.cytoplasm_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.plasma_membrane_1 _let_13) (tptp.synthesis_reaction_1 _let_12) (tptp.chemical_reaction_1 _let_12) (tptp.anabolic_pathway_1 _let_12) (tptp.synthesis_of_lipid_1 _let_12) (tptp.synthesis_reaction_1 _let_11) (tptp.chemical_reaction_1 _let_11) (tptp.anabolic_pathway_1 _let_11) (tptp.endergonic_reaction_1 _let_11) (tptp.metabolic_pathway_1 _let_11) (tptp.synthesis_of_lipid_1 _let_11) (tptp.smooth_endoplasmic_reticulum_1 _let_10) (tptp.endoplasmic_reticulum_1 _let_9) (tptp.smooth_endoplasmic_reticulum_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.next_event_2 _let_69 _let_72) (tptp.first_subevent_2 X _let_67) (tptp.subevent_2 X _let_72) (tptp.subevent_2 X _let_1) (tptp.is_inside_2 _let_42 _let_39) (tptp.next_event_2 _let_1 _let_69) (tptp.exactCardinality _let_72 tptp.result_0 |"2"| tptp.amoeba_0) (tptp.result_2 _let_72 _let_76) (tptp.called_2 _let_54 tptp.size_obj) (tptp.next_event_2 _let_67 _let_1) (tptp.agent_2 _let_6 _let_75) (tptp.object_2 _let_6 _let_8) (tptp.object_2 _let_4 _let_8) (tptp.result_2 _let_4 _let_76) (tptp.result_2 X _let_76) (tptp.plays_2 _let_76 _let_70) (tptp.is_inside_2 _let_20 _let_39) (tptp.has_part_2 _let_8 _let_75) (tptp.has_part_2 _let_8 _let_20) (tptp.has_state_2 _let_8 _let_65) (tptp.base_2 _let_62 _let_8) (tptp.base_2 _let_1 _let_8) (tptp.has_part_2 _let_8 _let_63) (tptp.object_2 _let_72 _let_8) (tptp.object_2 _let_68 _let_8) (tptp.base_2 X _let_8) (tptp.in_event_2 _let_70 X) (tptp.base_2 _let_67 _let_8) (tptp.agent_2 X _let_8) (tptp.object_2 _let_67 _let_8) (tptp.subevent_2 X _let_69) (tptp.object_2 _let_69 _let_35) (tptp.object_2 X _let_8) (tptp.plays_2 _let_8 _let_66) (tptp.in_event_2 _let_66 X) (tptp.subevent_2 X _let_67) (tptp.subevent_2 _let_67 _let_68) (tptp.result_2 _let_62 _let_65) (tptp.subevent_2 _let_1 _let_62) (tptp.first_subevent_2 _let_1 _let_62) (tptp.object_2 _let_1 _let_44) (tptp.is_inside_2 _let_63 _let_44) (tptp.site_2 _let_34 _let_33) (tptp.volume_2 _let_8 _let_56) (tptp.is_at_2 _let_37 _let_52) (tptp.has_region_2 _let_8 _let_52) (tptp.size_2 _let_8 _let_54) (tptp.directly_proportional_2 _let_54 _let_56) (tptp.temperature_2 _let_8 _let_46) (tptp.correspondence_2 _let_46 _let_48) (tptp.specific_heat_2 _let_50 _let_48) (tptp.has_part_2 _let_8 _let_50) (tptp.has_part_2 _let_8 _let_38) (tptp.is_inside_2 _let_43 _let_39) (tptp.has_part_2 _let_8 _let_43) (tptp.has_part_2 _let_8 _let_44) (tptp.is_inside_2 _let_44 _let_39) (tptp.is_inside_2 _let_33 _let_39) (tptp.is_inside_2 _let_38 _let_35) (tptp.has_part_2 _let_38 _let_39) (tptp.is_inside_2 _let_40 _let_39) (tptp.has_part_2 _let_8 _let_40) (tptp.has_part_2 _let_8 _let_42) (tptp.has_part_2 _let_8 _let_33) (tptp.has_function_2 _let_33 _let_34) (tptp.base_2 _let_34 _let_8) (tptp.has_part_2 _let_8 _let_35) (tptp.has_part_2 _let_35 _let_37) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_4 _let_71) (= _let_76 _let_32) (= _let_76 _let_31) (= _let_39 _let_21) (= _let_75 _let_74) (= _let_20 _let_73) (= _let_72 _let_71) (= _let_70 (tptp.fn_binary_fission_24 X)) (= _let_35 _let_14) (= _let_69 (tptp.fn_binary_fission_4 X)) (= _let_68 (tptp.fn_binary_fission_23 X)) (= _let_67 (tptp.fn_binary_fission_9 X)) (= _let_66 (tptp.fn_binary_fission_25 X)) (= _let_8 _let_3) (= _let_65 _let_64) (= _let_63 _let_30) (= _let_63 _let_29) (= _let_62 _let_61) (= (tptp.fn_binary_fission_in_amoeba_9 X) _let_60) (= (tptp.fn_binary_fission_in_amoeba_7 X) _let_59) (= (tptp.fn_binary_fission_in_amoeba_6 X) _let_58) (= (tptp.fn_binary_fission_in_amoeba_8 X) _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_47) (= _let_46 _let_45) (= _let_44 _let_27) (= _let_44 _let_28) (= _let_44 _let_26) (= _let_43 _let_25) (= _let_43 _let_24) (= _let_42 _let_41) (= _let_8 _let_2) (= _let_40 _let_23) (= _let_39 _let_19) (= _let_40 _let_22) (= _let_38 _let_16) (= _let_39 _let_18) (= _let_39 _let_17) (= _let_38 _let_15) (= _let_37 _let_36) (= _let_35 _let_13) (= _let_33 _let_10) (= _let_34 _let_12) (= _let_34 _let_11) (= _let_33 _let_9) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_binary_fission_in_prokaryote_5 X))) (let ((_let_2 (tptp.fn_binary_fission_14 _let_1))) (let ((_let_3 (tptp.fn_cell_division_2 _let_1))) (let ((_let_4 (tptp.fn_binary_fission_14 X))) (let ((_let_5 (tptp.fn_binary_fission_in_prokaryote_4 X))) (let ((_let_6 (tptp.fn_binary_fission_14 _let_5))) (let ((_let_7 (tptp.fn_cell_division_2 X))) (let ((_let_8 (tptp.fn_cell_division_2 _let_5))) (let ((_let_9 (tptp.fn_binary_fission_in_prokaryote_7 X))) (let ((_let_10 (tptp.fn_binary_fission_in_prokaryote_2 X))) (let ((_let_11 (tptp.fn_binary_fission_10 _let_5))) (let ((_let_12 (tptp.fn_binary_fission_9 _let_5))) (let ((_let_13 (tptp.fn_binary_fission_10 _let_1))) (let ((_let_14 (tptp.fn_binary_fission_9 _let_1))) (let ((_let_15 (tptp.fn_binary_fission_in_prokaryote_8 X))) (let ((_let_16 (tptp.fn_binary_fission_4 _let_1))) (let ((_let_17 (tptp.fn_binary_fission_in_prokaryote_9 X))) (let ((_let_18 (tptp.fn_binary_fission_in_prokaryote_3 X))) (let ((_let_19 (tptp.fn_binary_fission_24 _let_5))) (let ((_let_20 (tptp.fn_binary_fission_23 _let_5))) (let ((_let_21 (tptp.fn_binary_fission_in_prokaryote_10 X))) (let ((_let_22 (tptp.fn_binary_fission_in_prokaryote_6 X))) (let ((_let_23 (tptp.fn_binary_fission_24 _let_1))) (let ((_let_24 (tptp.fn_binary_fission_13 _let_1))) (let ((_let_25 (tptp.fn_binary_fission_in_prokaryote_1 X))) (=> (tptp.binary_fission_in_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Binary-Fission-In-Prokaryote'|) (tptp.user_description_2 X |tptp.'Binary fission is the form of asexual reproduction and cell division used by all prokaryotes. It results in the production of two identical prokaryote daughter cells.'|) (tptp.concept2words_2 X |tptp.'binary fission in prokaryote'|) (tptp.concept2words_2 X |tptp.'binary-fission-in-prokaryote'|) (tptp.binary_fission_1 X) (tptp.dna_replication_in_prokaryotes_1 _let_25) (tptp.cell_growth_1 _let_10) (tptp.daughter_cell_1 _let_18) (tptp.binary_fission_1 _let_5) (tptp.cell_division_1 _let_1) (tptp.binary_fission_1 _let_1) (tptp.prokaryote_1 _let_22) (tptp.prokaryote_1 _let_9) (tptp.grow_1 _let_15) (tptp.divide_1 _let_17) (tptp.cell_elongation_1 _let_21) (tptp.divide_1 _let_24) (tptp.daughter_cell_1 _let_23) (tptp.grow_1 _let_20) (tptp.daughter_cell_1 _let_19) (tptp.grow_1 _let_16) (tptp.cell_growth_1 _let_14) (tptp.unicellular_organism_1 _let_13) (tptp.cell_growth_1 _let_12) (tptp.unicellular_organism_1 _let_11) (tptp.cell_1 _let_8) (tptp.unicellular_organism_1 _let_6) (tptp.cell_1 _let_3) (tptp.unicellular_organism_1 _let_2) (tptp.next_event_2 _let_15 _let_17) (tptp.first_subevent_2 X _let_10) (tptp.exactCardinality X tptp.subevent_0 |"0"| tptp.mitosis_0) (tptp.subevent_2 X _let_17) (tptp.subevent_2 X _let_25) (tptp.next_event_2 _let_25 _let_15) (tptp.next_event_2 _let_10 _let_25) (tptp.agent_2 _let_1 _let_9) (tptp.result_2 _let_5 _let_22) (tptp.result_2 X _let_22) (tptp.result_2 _let_17 _let_22) (tptp.object_2 _let_1 _let_9) (tptp.base_2 _let_1 _let_9) (tptp.result_2 _let_1 _let_22) (tptp.plays_2 _let_22 _let_18) (tptp.object_2 _let_5 _let_9) (tptp.base_2 _let_5 _let_9) (tptp.agent_2 _let_5 _let_9) (tptp.object_2 _let_21 _let_9) (tptp.subevent_2 _let_10 _let_21) (tptp.in_event_2 _let_18 X) (tptp.agent_2 X _let_9) (tptp.subevent_2 X _let_10) (tptp.object_2 _let_17 _let_9) (tptp.object_2 X _let_9) (tptp.object_2 _let_10 _let_9) (tptp.base_2 _let_10 _let_9) (tptp.base_2 X _let_9) (tptp.subevent_2 X _let_15) (= _let_22 _let_8) (= _let_22 _let_7) (= _let_17 _let_24) (= _let_22 _let_6) (= _let_22 _let_4) (= _let_18 _let_23) (= _let_22 _let_3) (= _let_22 _let_2) (= _let_21 _let_20) (= _let_18 _let_19) (= _let_18 (tptp.fn_binary_fission_24 X)) (= _let_17 (tptp.fn_binary_fission_13 X)) (= _let_15 _let_16) (= _let_15 (tptp.fn_binary_fission_4 X)) (= _let_10 _let_14) (= _let_9 _let_13) (= _let_10 _let_12) (= _let_9 _let_11) (= _let_10 (tptp.fn_binary_fission_9 X)) (= _let_9 (tptp.fn_binary_fission_10 X)) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_4) (= _let_2 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.binding_site_1 X) (and (tptp.original_name_2 X |tptp.'Binding-Site'|) (tptp.user_description_2 X |tptp.'In biochemistry, a binding site is a region on a protein, DNA, or RNA to which specific other molecules and ions form a bond.'|) (tptp.concept2words_2 X |tptp.'site of binding'|) (tptp.concept2words_2 X |tptp.'binding site'|) (tptp.concept2words_2 X |tptp.'binding-site'|) (tptp.molecular_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.binomial_nomenclature_1 X) (and (tptp.original_name_2 X |tptp.'Binomial-Nomenclature'|) (tptp.user_description_2 X |tptp.'The formal system of assigning two-part names to biological organisms. Each name consists of a genus and a species epithet. For example, Homo sapiens is the scientific name for humans.'|) (tptp.concept2words_2 X |tptp.'scientific name'|) (tptp.concept2words_2 X |tptp.'scientific-name'|) (tptp.concept2words_2 X |tptp.'nomenclature of binomial'|) (tptp.concept2words_2 X |tptp.'binomial nomenclature'|) (tptp.concept2words_2 X |tptp.'binomial-nomenclature'|) (tptp.taxonomy_1 X) (not (tptp.branch_point_1 X)) (not (tptp.cladistics_1 X)) (not (tptp.deep_green_1 X)) (not (tptp.molecular_systematics_1 X)) (not (tptp.paraphyletic_1 X)) (not (tptp.phylocode_1 X)) (not (tptp.phylogenetic_bracketing_1 X)) (not (tptp.phylogeny_1 X))))) (forall ((X $$unsorted)) (=> (tptp.biochemical_change_1 X) (and (tptp.original_name_2 X |tptp.'Biochemical-Change'|) (tptp.user_description_2 X |tptp.'A change at the molecular, atomic or subcellular level in an organism.'|) (tptp.concept2words_2 X |tptp.'biochemical change'|) (tptp.concept2words_2 X |tptp.'biochemical-change'|) (tptp.change_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biochemical_model_1 X) (and (tptp.original_name_2 X |tptp.'Biochemical-Model'|) (tptp.user_description_2 X |tptp.'A model representating an biochemical theory or process.'|) (tptp.concept2words_2 X |tptp.'biochemical model'|) (tptp.concept2words_2 X |tptp.'biochemical-model'|) (tptp.model_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biodiesel_production_9 X))) (let ((_let_2 (tptp.fn_synthesis_of_lipid_2 _let_1))) (let ((_let_3 (tptp.fn_biodiesel_production_8 X))) (let ((_let_4 (tptp.fn_biodiesel_production_10 X))) (let ((_let_5 (tptp.fn_molecule_10 _let_4))) (let ((_let_6 (tptp.fn_biodiesel_production_3 X))) (let ((_let_7 (tptp.fn_molecule_11 _let_4))) (let ((_let_8 (tptp.fn_biodiesel_production_5 X))) (let ((_let_9 (tptp.fn_molecule_9 _let_4))) (let ((_let_10 (tptp.fn_biodiesel_production_6 X))) (let ((_let_11 (tptp.fn_molecule_7 _let_4))) (let ((_let_12 (tptp.fn_biodiesel_production_4 X))) (let ((_let_13 (tptp.fn_biodiesel_production_7 X))) (let ((_let_14 (tptp.fn_biodiesel_production_1 X))) (let ((_let_15 (tptp.fn_biodiesel_production_2 X))) (=> (tptp.biodiesel_production_1 X) (and (tptp.original_name_2 X |tptp.'Biodiesel-Production'|) (tptp.user_description_2 X |tptp.'In biodiesel production, plants and algae utilize light energy to produce oils which serve as replacements or supplements for fossil fuels.'|) (tptp.concept2words_2 X tptp.produce) (tptp.concept2words_2 X |tptp.'biodiesel production'|) (tptp.concept2words_2 X |tptp.'biodiesel-production'|) (tptp.biofuel_production_1 X) (tptp.time_interval_1 _let_14) (tptp.time_interval_1 _let_15) (tptp.chemical_bond_1 _let_6) (tptp.atom_1 _let_12) (tptp.atom_1 _let_8) (tptp.atom_1 _let_10) (tptp.c4_photosynthesis_1 _let_13) (tptp.oil_1 _let_3) (tptp.synthesis_of_organic_molecule_1 _let_1) (tptp.synthesis_of_lipid_1 _let_1) (tptp.hydrocarbon_molecule_1 _let_4) (tptp.atom_1 _let_11) (tptp.atom_1 _let_9) (tptp.atom_1 _let_7) (tptp.chemical_bond_1 _let_5) (tptp.lipid_1 _let_2) (tptp.time_during_2 _let_1 _let_14) (tptp.first_subevent_2 X _let_13) (tptp.subevent_2 X _let_13) (tptp.time_during_2 _let_13 _let_15) (tptp.time_before_2 _let_15 _let_14) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_13 _let_1) (tptp.result_2 X _let_4) (tptp.called_2 _let_4 |tptp.'new entity'|) (tptp.result_2 _let_1 _let_3) (= _let_13 (tptp.fn_biofuel_production_18 X)) (= _let_1 (tptp.fn_biofuel_production_17 X)) (= _let_4 (tptp.fn_biofuel_production_27 X)) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.biodiversity_hot_spot_1 X) (and (tptp.original_name_2 X |tptp.'Biodiversity-Hot-Spot'|) (tptp.user_description_2 X |tptp.'A relatively small area with an unusually high concentration of endemic species, many of which are endangered or otherwise threatened by human actions.'|) (tptp.concept2words_2 X |tptp.'biodiversity hot spot'|) (tptp.concept2words_2 X |tptp.'biodiversity hot-spot'|) (tptp.concept2words_2 X |tptp.'biodiversity-hot-spot'|) (tptp.ecological_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bioenergetics_16 X))) (let ((_let_2 (tptp.fn_energy_flow_in_ecosystem_6 _let_1))) (let ((_let_3 (tptp.fn_bioenergetics_7 X))) (let ((_let_4 (tptp.fn_energy_flow_in_ecosystem_1 _let_1))) (let ((_let_5 (tptp.fn_bioenergetics_9 X))) (let ((_let_6 (tptp.fn_energy_flow_in_ecosystem_4 _let_1))) (let ((_let_7 (tptp.fn_bioenergetics_10 X))) (let ((_let_8 (tptp.fn_energy_flow_in_ecosystem_5 _let_1))) (let ((_let_9 (tptp.fn_bioenergetics_8 X))) (let ((_let_10 (tptp.fn_energy_flow_in_ecosystem_3 _let_1))) (let ((_let_11 (tptp.fn_bioenergetics_13 X))) (let ((_let_12 (tptp.fn_bioenergetics_15 X))) (let ((_let_13 (tptp.fn_conduit_1 _let_12))) (let ((_let_14 (tptp.fn_bioenergetics_14 X))) (let ((_let_15 (tptp.fn_bioenergetics_11 X))) (let ((_let_16 (tptp.fn_transfer_1 _let_15))) (let ((_let_17 (tptp.fn_bioenergetics_12 X))) (let ((_let_18 (tptp.fn_bioenergetics_5 X))) (let ((_let_19 (tptp.fn_bioenergetics_3 X))) (let ((_let_20 (tptp.fn_bioenergetics_2 X))) (let ((_let_21 (tptp.fn_bioenergetics_4 X))) (let ((_let_22 (tptp.fn_bioenergetics_6 X))) (let ((_let_23 (tptp.fn_bioenergetics_1 X))) (=> (tptp.bioenergetics_1 X) (and (tptp.original_name_2 X |tptp.'Bioenergetics'|) (tptp.user_description_2 X |tptp.'Bioenergetics represents the processes whereby living matter obtains, stores, and uses energy for various purposes.'|) (tptp.concept2words_2 X |tptp.'analyze bioenergetically'|) (tptp.concept2words_2 X tptp.bioenergetics) (tptp.thermodynamics_1 X) (tptp.energy_coupling_1 _let_23) (tptp.spatial_entity_1 _let_20) (tptp.spatial_entity_1 _let_19) (tptp.organism_1 _let_21) (tptp.organism_1 _let_18) (tptp.energy_1 _let_22) (tptp.enter_1 _let_3) (tptp.exit_1 _let_9) (tptp.environment_1 _let_5) (tptp.sunlight_1 _let_7) (tptp.transfer_1 _let_15) (tptp.chemical_energy_1 _let_17) (tptp.thermal_energy_1 _let_11) (tptp.spatial_entity_1 _let_14) (tptp.portal_1 _let_12) (tptp.energy_flow_in_ecosystem_1 _let_1) (tptp.entity_1 _let_16) (tptp.spatial_entity_1 _let_13) (tptp.thermal_energy_1 _let_10) (tptp.exit_1 _let_8) (tptp.sunlight_1 _let_6) (tptp.environment_1 _let_4) (tptp.enter_1 _let_2) (tptp.object_2 X _let_22) (tptp.subevent_2 X _let_1) (tptp.supports_2 X _let_23) (tptp.object_2 _let_1 _let_22) (tptp.is_outside_2 _let_20 _let_7) (tptp.is_inside_2 _let_19 _let_7) (tptp.recipient_2 _let_15 _let_21) (tptp.donor_2 _let_15 _let_18) (tptp.is_inside_2 _let_18 _let_7) (tptp.is_between_2 _let_7 _let_20) (tptp.is_between_2 _let_7 _let_5) (tptp.is_between_2 _let_7 _let_19) (tptp.is_between_2 _let_7 _let_18) (tptp.is_between_2 _let_7 _let_11) (tptp.origin_2 _let_9 _let_18) (tptp.path_2 _let_9 _let_14) (tptp.destination_2 _let_3 _let_18) (tptp.object_2 _let_15 _let_17) (tptp.plays_2 _let_14 _let_12) (tptp.subevent_2 _let_1 _let_9) (tptp.next_event_2 _let_3 _let_9) (tptp.agent_2 _let_9 _let_11) (tptp.result_2 _let_9 _let_11) (tptp.destination_2 _let_9 _let_5) (tptp.first_subevent_2 _let_1 _let_3) (tptp.agent_2 _let_3 _let_7) (tptp.base_2 _let_9 _let_7) (tptp.object_2 _let_9 _let_11) (tptp.is_inside_2 _let_11 _let_7) (tptp.subevent_2 _let_1 _let_3) (tptp.origin_2 _let_3 _let_5) (tptp.is_outside_2 _let_5 _let_7) (tptp.base_2 _let_3 _let_7) (tptp.object_2 _let_3 _let_7) (= _let_17 _let_16) (= _let_14 _let_13) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bioethanol_production_19 X))) (let ((_let_2 (tptp.fn_synthesis_of_carbohydrate_2 _let_1))) (let ((_let_3 (tptp.fn_bioethanol_production_16 X))) (let ((_let_4 (tptp.fn_hydrolysis_11 _let_3))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 _let_3))) (let ((_let_6 (tptp.fn_bioethanol_production_15 X))) (let ((_let_7 (tptp.fn_alcohol_fermentation_53 _let_6))) (let ((_let_8 (tptp.fn_catabolic_pathway_10 _let_6))) (let ((_let_9 (tptp.fn_hydrolysis_9 _let_3))) (let ((_let_10 (tptp.fn_exergonic_reaction_11 _let_3))) (let ((_let_11 (tptp.fn_decomposition_reaction_4 _let_3))) (let ((_let_12 (tptp.fn_alcohol_fermentation_52 _let_6))) (let ((_let_13 (tptp.fn_catabolic_pathway_4 _let_6))) (let ((_let_14 (tptp.fn_metabolic_pathway_1 _let_6))) (let ((_let_15 (tptp.fn_bioethanol_production_8 X))) (let ((_let_16 (tptp.fn_culture_2 _let_15))) (let ((_let_17 (tptp.fn_bioethanol_production_10 X))) (let ((_let_18 (tptp.fn_biofuel_production_1 X))) (let ((_let_19 (tptp.fn_bioethanol_production_6 X))) (let ((_let_20 (tptp.fn_bioethanol_production_20 X))) (let ((_let_21 (tptp.fn_bioethanol_production_18 X))) (let ((_let_22 (tptp.fn_bioethanol_production_14 X))) (let ((_let_23 (tptp.fn_bioethanol_production_17 X))) (let ((_let_24 (tptp.fn_bioethanol_production_11 X))) (let ((_let_25 (tptp.fn_bioethanol_production_7 X))) (let ((_let_26 (tptp.fn_alcohol_fermentation_54 _let_6))) (let ((_let_27 (tptp.fn_alcohol_fermentation_47 _let_6))) (let ((_let_28 (tptp.fn_bioethanol_production_13 X))) (let ((_let_29 (tptp.fn_molecule_10 _let_20))) (let ((_let_30 (tptp.fn_bioethanol_production_27 X))) (let ((_let_31 (tptp.fn_molecule_11 _let_20))) (let ((_let_32 (tptp.fn_bioethanol_production_24 X))) (let ((_let_33 (tptp.fn_molecule_7 _let_20))) (let ((_let_34 (tptp.fn_bioethanol_production_26 X))) (let ((_let_35 (tptp.fn_molecule_9 _let_20))) (let ((_let_36 (tptp.fn_bioethanol_production_25 X))) (let ((_let_37 (tptp.fn_culture_1 _let_15))) (let ((_let_38 (tptp.fn_bioethanol_production_9 X))) (let ((_let_39 (tptp.fn_bioethanol_production_28 X))) (let ((_let_40 (tptp.fn_chemical_bond_4 _let_39))) (let ((_let_41 (tptp.fn_bioethanol_production_22 X))) (let ((_let_42 (tptp.fn_chemical_bond_1 _let_39))) (let ((_let_43 (tptp.fn_bioethanol_production_23 X))) (let ((_let_44 (tptp.fn_bioethanol_production_12 X))) (let ((_let_45 (tptp.fn_bioethanol_production_5 X))) (let ((_let_46 (tptp.fn_bioethanol_production_1 X))) (let ((_let_47 (tptp.fn_bioethanol_production_2 X))) (let ((_let_48 (tptp.fn_bioethanol_production_3 X))) (let ((_let_49 (tptp.fn_bioethanol_production_4 X))) (=> (tptp.bioethanol_production_1 X) (and (tptp.original_name_2 X |tptp.'Bioethanol-Production'|) (tptp.user_description_2 X |tptp.'In bioethanol production, plants utilize light energy to produce starch, which is converted by bacteria to ethanol. The ethanol serves as a replacement or supplement for fossil fuels.'|) (tptp.concept2words_2 X tptp.produce) (tptp.concept2words_2 X |tptp.'bioethanol production'|) (tptp.concept2words_2 X |tptp.'bioethanol-production'|) (tptp.biofuel_production_1 X) (tptp.time_interval_1 _let_46) (tptp.time_interval_1 _let_47) (tptp.time_interval_1 _let_48) (tptp.time_interval_1 _let_49) (tptp.atom_1 _let_45) (tptp.isolation_1 _let_19) (tptp.structural_complexity_value_1 _let_25) (tptp.culture_1 _let_15) (tptp.culturing_1 _let_38) (tptp.starch_1 _let_17) (tptp.organic_molecule_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.monosaccharide_1 _let_24) (tptp.glucose_1 _let_24) (tptp.aldehyde_1 _let_24) (tptp.carbohydrate_1 _let_24) (tptp.aldose_1 _let_24) (tptp.prokaryote_1 _let_44) (tptp.ethyl_alcohol_1 _let_28) (tptp.laboratory_1 _let_22) (tptp.alcohol_fermentation_1 _let_6) (tptp.hydrolysis_1 _let_3) (tptp.photosynthesis_1 _let_23) (tptp.isolation_1 _let_21) (tptp.synthesis_of_organic_molecule_1 _let_1) (tptp.synthesis_of_carbohydrate_1 _let_1) (tptp.ethyl_alcohol_1 _let_20) (tptp.atom_1 _let_41) (tptp.atom_1 _let_43) (tptp.atom_1 _let_32) (tptp.atom_1 _let_36) (tptp.atom_1 _let_34) (tptp.chemical_bond_1 _let_30) (tptp.chemical_bond_1 _let_39) (tptp.chemical_entity_1 _let_42) (tptp.chemical_entity_1 _let_40) (tptp.culturing_1 _let_37) (tptp.atom_1 _let_35) (tptp.atom_1 _let_33) (tptp.atom_1 _let_31) (tptp.chemical_bond_1 _let_29) (tptp.ethyl_alcohol_1 _let_27) (tptp.property_node_1 _let_26) (tptp.cell_1 _let_16) (tptp.cell_1 _let_14) (tptp.structural_complexity_value_1 _let_13) (tptp.structural_complexity_value_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.organic_molecule_1 _let_8) (tptp.organic_molecule_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.monosaccharide_1 _let_7) (tptp.glucose_1 _let_7) (tptp.aldehyde_1 _let_7) (tptp.carbohydrate_1 _let_7) (tptp.aldose_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.carbohydrate_1 _let_2) (tptp.time_before_2 _let_47 _let_46) (tptp.time_before_2 _let_48 _let_49) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_6) (tptp.the_scalar_value_2 _let_25 tptp.complex_0) (tptp.scalar_unit_class_2 _let_25 tptp.molecule_0) (tptp.site_2 _let_38 _let_22) (tptp.object_2 _let_19 _let_28) (tptp.time_during_2 _let_6 _let_49) (tptp.object_2 _let_6 _let_24) (tptp.site_2 _let_6 _let_22) (tptp.next_event_2 _let_6 _let_19) (tptp.time_during_2 _let_3 _let_48) (tptp.site_2 _let_3 _let_22) (tptp.next_event_2 _let_3 _let_6) (tptp.time_during_2 _let_23 _let_47) (tptp.object_2 _let_21 _let_17) (tptp.object_2 _let_21 _let_20) (tptp.site_2 _let_21 _let_22) (tptp.next_event_2 _let_21 _let_3) (tptp.time_during_2 _let_1 _let_46) (tptp.possesses_2 _let_20 _let_39) (tptp.has_part_2 _let_20 _let_45) (tptp.result_2 _let_3 _let_24) (tptp.raw_material_2 _let_3 _let_17) (tptp.element_2 _let_15 _let_44) (tptp.base_2 _let_6 _let_44) (tptp.is_between_2 _let_39 _let_43) (tptp.is_between_2 _let_39 _let_41) (tptp.result_2 _let_38 _let_15) (tptp.has_part_2 _let_20 _let_34) (tptp.possesses_2 _let_20 _let_30) (tptp.result_2 _let_6 _let_28) (tptp.raw_material_2 _let_6 _let_24) (tptp.structural_complexity_2 _let_24 _let_25) (tptp.next_event_2 _let_23 _let_1) (tptp.called_2 _let_20 |tptp.'new entity'|) (tptp.site_2 _let_19 _let_22) (tptp.subevent_2 X _let_19) (tptp.object_2 _let_19 _let_20) (tptp.result_2 X _let_20) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_21) (tptp.result_2 _let_1 _let_17) (= _let_24 _let_11) (= _let_24 _let_10) (= _let_24 _let_9) (= _let_17 _let_5) (= _let_17 _let_4) (= _let_44 _let_16) (= _let_44 _let_14) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= (tptp.fn_bioethanol_production_21 X) _let_26) (= _let_25 _let_13) (= _let_25 _let_12) (= _let_24 _let_8) (= _let_24 _let_7) (= _let_23 (tptp.fn_biofuel_production_18 X)) (= _let_22 (tptp.fn_biofuel_production_2 X)) (= _let_21 _let_18) (= _let_1 (tptp.fn_biofuel_production_17 X)) (= _let_20 (tptp.fn_biofuel_production_27 X)) (= _let_19 _let_18) (= _let_17 _let_2) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biofilm_3 X))) (let ((_let_2 (tptp.fn_biofilm_1 X))) (let ((_let_3 (tptp.fn_biofilm_2 X))) (=> (tptp.biofilm_1 X) (and (tptp.original_name_2 X |tptp.'Biofilm'|) (tptp.user_description_2 X |tptp.'An aggregation of prokaryotes where the cells adhere to each other on a surface and engage in metabolic cooperation.'|) (tptp.concept2words_2 X tptp.biofilm) (tptp.aggregate_1 X) (tptp.tangible_entity_1 X) (not (tptp.benthos_1 X)) (not (tptp.vegetation_1 X)) (tptp.population_1 _let_2) (tptp.prokaryote_1 _let_3) (tptp.surface_1 _let_1) (tptp.element_2 _let_2 _let_3) (tptp.minCardinality _let_2 tptp.element_0 |"2"| tptp.prokaryote_0) (tptp.element_2 X _let_2) (tptp.is_at_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biofilm_formation_6 X))) (let ((_let_2 (tptp.fn_quorum_sensing_in_prokaryote_7 _let_1))) (let ((_let_3 (tptp.fn_biofilm_formation_7 X))) (let ((_let_4 (tptp.fn_biofilm_2 _let_3))) (let ((_let_5 (tptp.fn_biofilm_formation_12 X))) (let ((_let_6 (tptp.fn_locomotion_1 _let_5))) (let ((_let_7 (tptp.fn_biofilm_formation_10 X))) (let ((_let_8 (tptp.fn_cell_signaling_4 _let_7))) (let ((_let_9 (tptp.fn_quorum_sensing_in_prokaryote_9 _let_1))) (let ((_let_10 (tptp.fn_biofilm_formation_8 X))) (let ((_let_11 (tptp.fn_locomotion_1 _let_10))) (let ((_let_12 (tptp.fn_quorum_sensing_in_prokaryote_5 _let_1))) (let ((_let_13 (tptp.fn_biofilm_formation_14 X))) (let ((_let_14 (tptp.fn_quorum_sensing_in_prokaryote_12 _let_1))) (let ((_let_15 (tptp.fn_biofilm_formation_13 X))) (let ((_let_16 (tptp.fn_biofilm_formation_15 X))) (let ((_let_17 (tptp.fn_biofilm_formation_5 X))) (let ((_let_18 (tptp.fn_quorum_sensing_in_prokaryote_10 _let_1))) (let ((_let_19 (tptp.fn_biofilm_formation_11 X))) (let ((_let_20 (tptp.fn_quorum_sensing_in_prokaryote_8 _let_1))) (let ((_let_21 (tptp.fn_biofilm_formation_9 X))) (let ((_let_22 (tptp.fn_biofilm_1 _let_3))) (let ((_let_23 (tptp.fn_biofilm_formation_4 X))) (let ((_let_24 (tptp.fn_biofilm_3 _let_3))) (let ((_let_25 (tptp.fn_biofilm_formation_3 X))) (let ((_let_26 (tptp.fn_cell_communication_2 _let_19))) (let ((_let_27 (tptp.fn_biofilm_formation_1 X))) (let ((_let_28 (tptp.fn_biofilm_formation_2 X))) (=> (tptp.biofilm_formation_1 X) (and (tptp.original_name_2 X |tptp.'Biofilm-Formation'|) (tptp.user_description_2 X |tptp.'The process of colonization and cell division that results in the production of a biofilm on a surface.'|) (tptp.concept2words_2 X |tptp.'formation of biofilm'|) (tptp.concept2words_2 X |tptp.'biofilm formation'|) (tptp.concept2words_2 X |tptp.'biofilm-formation'|) (tptp.biological_process_1 X) (tptp.tangible_entity_1 _let_27) (tptp.nutrition_1 _let_28) (tptp.surface_1 _let_25) (tptp.population_1 _let_23) (tptp.spatial_entity_1 _let_17) (tptp.prokaryote_1 _let_17) (tptp.quorum_sensing_in_prokaryote_1 _let_1) (tptp.biofilm_1 _let_3) (tptp.go_to_1 _let_10) (tptp.signal_generation_1 _let_21) (tptp.cell_signaling_1 _let_7) (tptp.cell_communication_1 _let_19) (tptp.go_to_1 _let_5) (tptp.come_together_1 _let_15) (tptp.sense_1 _let_13) (tptp.cell_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.prokaryote_1 _let_16) (tptp.cell_signaling_1 _let_26) (tptp.surface_1 _let_24) (tptp.population_1 _let_22) (tptp.signal_generation_1 _let_20) (tptp.cell_communication_1 _let_18) (tptp.come_together_1 _let_14) (tptp.sense_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.prokaryote_1 _let_9) (tptp.cell_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.prokaryote_1 _let_4) (tptp.prokaryote_1 _let_2) (tptp.element_2 _let_23 _let_17) (tptp.agent_2 _let_28 _let_17) (tptp.raw_material_2 _let_28 _let_27) (tptp.is_at_2 _let_27 _let_25) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_3) (tptp.subevent_2 _let_15 _let_10) (tptp.subevent_2 _let_15 _let_5) (tptp.first_subevent_2 _let_15 _let_10) (tptp.first_subevent_2 _let_15 _let_5) (tptp.base_2 _let_7 _let_16) (tptp.object_2 _let_5 _let_16) (tptp.agent_2 _let_5 _let_16) (tptp.object_2 _let_10 _let_17) (tptp.agent_2 _let_10 _let_17) (tptp.subevent_2 _let_19 _let_7) (tptp.is_at_2 _let_3 _let_25) (tptp.element_2 _let_3 _let_23) (tptp.element_2 _let_23 _let_16) (tptp.object_2 _let_15 _let_17) (tptp.first_subevent_2 _let_1 _let_19) (tptp.subevent_2 _let_1 _let_19) (tptp.subevent_2 _let_1 _let_15) (tptp.causes_2 _let_19 _let_15) 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(tptp.fn_photosynthesis_24 _let_1))) (let ((_let_40 (tptp.fn_biofuel_production_39 X))) (let ((_let_41 (tptp.fn_biofuel_production_38 X))) (let ((_let_42 (tptp.fn_photosynthesis_51 _let_1))) (let ((_let_43 (tptp.fn_biofuel_production_35 X))) (let ((_let_44 (tptp.fn_photosynthesis_52 _let_1))) (let ((_let_45 (tptp.fn_biofuel_production_36 X))) (let ((_let_46 (tptp.fn_photosynthesis_53 _let_1))) (let ((_let_47 (tptp.fn_biofuel_production_37 X))) (let ((_let_48 (tptp.fn_photosynthesis_46 _let_1))) (let ((_let_49 (tptp.fn_photosynthesis_55 _let_1))) (let ((_let_50 (tptp.fn_photosynthesis_56 _let_1))) (let ((_let_51 (tptp.fn_photosynthesis_6 _let_1))) (let ((_let_52 (tptp.fn_photosynthesis_5 _let_1))) (let ((_let_53 (tptp.fn_photosynthesis_57 _let_1))) (let ((_let_54 (tptp.fn_photosynthesis_54 _let_1))) (let ((_let_55 (tptp.fn_biofuel_production_27 X))) (let ((_let_56 (tptp.fn_molecule_12 _let_55))) (let ((_let_57 (tptp.fn_biofuel_production_10 X))) (let ((_let_58 (tptp.fn_molecule_4 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(tptp.fn_replace_3 _let_19))) (let ((_let_80 (tptp.fn_biofuel_production_15 X))) (let ((_let_81 (tptp.fn_biofuel_production_17 X))) (let ((_let_82 (tptp.fn_anabolic_pathway_6 _let_81))) (let ((_let_83 (tptp.fn_biofuel_production_20 X))) (let ((_let_84 (tptp.fn_biofuel_production_1 X))) (let ((_let_85 (tptp.fn_biofuel_production_2 X))) (=> (tptp.biofuel_production_1 X) (and (tptp.original_name_2 X |tptp.'Biofuel-Production'|) (tptp.user_description_2 X |tptp.'In biofuel production, living organisms utilize light energy to produce organic molecules which serve as replacements or supplements for fossil fuels.'|) (tptp.concept2words_2 X tptp.produce) (tptp.concept2words_2 X |tptp.'biofuel production'|) (tptp.concept2words_2 X |tptp.'biofuel-production'|) (tptp.produce_1 X) (tptp.isolation_1 _let_84) (tptp.laboratory_1 _let_85) (tptp.size_value_1 _let_33) (tptp.size_value_1 _let_31) (tptp.constant_motion_1 _let_63) (tptp.kinetic_energy_1 _let_57) (tptp.quantity_value_1 _let_59) (tptp.speed_value_1 _let_61) (tptp.consume_1 _let_69) (tptp.biofuel_1 _let_14) (tptp.automobile_1 _let_80) (tptp.spatial_entity_1 _let_34) (tptp.tangible_entity_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.hydrophobic_compound_1 _let_34) (tptp.molecule_1 _let_34) (tptp.carbon_dioxide_1 _let_34) (tptp.synthesis_of_organic_molecule_1 _let_81) (tptp.photosynthesis_1 _let_1) (tptp.tangible_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.sugar_1 _let_29) (tptp.glucose_1 _let_83) (tptp.water_molecule_1 _let_78) (tptp.oxidation_1 _let_5) (tptp.replace_1 _let_19) (tptp.combine_1 _let_26) (tptp.fossil_fuel_1 _let_76) (tptp.tangible_entity_1 _let_73) (tptp.organic_molecule_1 _let_55) (tptp.renewable_resource_1 _let_75) (tptp.replenish_1 _let_17) (tptp.heat_1 _let_71) (tptp.reduction_1 _let_10) (tptp.oxidation_1 _let_12) (tptp.chemical_entity_1 _let_67) (tptp.chemical_entity_1 _let_66) (tptp.electron_1 _let_66) (tptp.quantity_value_1 _let_43) (tptp.quantity_value_1 _let_45) (tptp.free_energy_1 _let_47) (tptp.structural_complexity_value_1 _let_41) (tptp.structural_complexity_value_1 _let_40) (tptp.free_energy_1 _let_36) (tptp.reactant_1 _let_38) (tptp.chemical_entity_1 _let_82) (tptp.spatial_entity_1 _let_79) (tptp.chemical_entity_1 _let_77) (tptp.resource_1 _let_74) (tptp.tangible_entity_1 _let_72) (tptp.heat_1 _let_70) (tptp.consume_1 _let_68) (tptp.property_node_1 _let_65) (tptp.property_node_1 _let_64) (tptp.constant_motion_1 _let_62) (tptp.speed_value_1 _let_60) (tptp.quantity_value_1 _let_58) (tptp.kinetic_energy_1 _let_56) (tptp.property_node_1 _let_54) (tptp.property_node_1 _let_53) (tptp.property_node_1 _let_52) (tptp.property_node_1 _let_51) (tptp.property_node_1 _let_50) (tptp.property_node_1 _let_49) (tptp.oxidation_1 _let_48) (tptp.free_energy_1 _let_46) (tptp.quantity_value_1 _let_44) (tptp.quantity_value_1 _let_42) (tptp.structural_complexity_value_1 _let_39) (tptp.reactant_1 _let_37) (tptp.free_energy_1 _let_35) (tptp.size_value_1 _let_32) (tptp.size_value_1 _let_30) (tptp.entity_1 _let_28) (tptp.entity_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.electron_1 _let_23) (tptp.electron_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.structural_complexity_value_1 _let_9) (tptp.structural_complexity_value_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.hydrophobic_compound_1 _let_4) (tptp.molecule_1 _let_4) (tptp.carbon_dioxide_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.sugar_1 _let_2) (tptp.next_event_2 _let_81 _let_84) (tptp.site_2 _let_84 _let_85) (tptp.object_2 _let_84 _let_55) (tptp.next_event_2 _let_1 _let_81) (tptp.result_2 _let_1 _let_83) (not (= _let_29 _let_83)) (not (= _let_83 _let_29)) (tptp.object_2 _let_26 _let_55) (tptp.subevent_2 X _let_81) (tptp.subevent_2 X _let_84) (tptp.object_2 _let_71 _let_73) (tptp.raw_material_2 X _let_34) (tptp.raw_material_2 _let_81 _let_83) (tptp.base_2 _let_19 _let_80) (tptp.result_2 X _let_55) (tptp.object_2 _let_26 _let_76) (tptp.donor_2 _let_5 _let_78) (not (= _let_34 _let_78)) (not (= _let_78 _let_34)) (tptp.object_2 _let_19 _let_55) (tptp.called_2 _let_55 |tptp.'new entity'|) (tptp.object_2 _let_19 _let_76) (tptp.called_2 _let_76 |tptp.'old entity'|) (tptp.object_2 _let_17 _let_55) (tptp.plays_2 _let_55 _let_75) (tptp.in_event_2 _let_75 _let_17) (tptp.recipient_2 _let_10 _let_55) (tptp.plays_2 _let_55 _let_14) (tptp.object_2 _let_69 _let_55) (tptp.is_near_2 _let_73 _let_55) (tptp.is_near_2 _let_55 _let_73) (tptp.in_event_2 _let_14 _let_69) (tptp.objective_2 _let_69 _let_71) (tptp.donor_2 _let_12 _let_67) (not (= _let_67 _let_55)) (tptp.recipient_2 _let_12 _let_55) (tptp.object_2 _let_12 _let_66) (not (= _let_55 _let_67)) (tptp.donor_2 _let_10 _let_67) (tptp.object_2 _let_10 _let_66) (not (= _let_67 _let_66)) (not (= _let_66 _let_67)) (not (= _let_55 _let_66)) (not (= _let_66 _let_55)) (tptp.possesses_2 _let_55 _let_57) (tptp.quantity_2 _let_57 _let_59) (tptp.directly_proportional_2 _let_61 _let_59) (tptp.speed_2 _let_63 _let_61) (tptp.object_2 _let_63 _let_55) (tptp.called_2 _let_45 |tptp.'FE_p'|) (tptp.called_2 _let_43 |tptp.'FE_r'|) (tptp.recipient_2 _let_5 _let_34) (tptp.quantity_2 _let_36 _let_43) (tptp.greater_than_2 _let_45 _let_43) (tptp.quantity_2 _let_47 _let_45) (tptp.possesses_2 _let_29 _let_47) (tptp.structural_complexity_2 _let_29 _let_41) (tptp.plays_2 _let_34 _let_38) (tptp.in_event_2 _let_38 _let_1) (tptp.raw_material_2 _let_1 _let_34) (tptp.structural_complexity_2 _let_34 _let_40) (tptp.greater_than_2 _let_41 _let_40) (tptp.result_2 _let_1 _let_29) (tptp.size_2 _let_29 _let_31) (tptp.greater_than_2 _let_31 _let_33) (tptp.size_2 _let_34 _let_33) (tptp.possesses_2 _let_34 _let_36) (= _let_34 _let_7) (= _let_83 _let_82) (= _let_80 _let_79) (= _let_55 _let_21) (= _let_76 _let_28) (= _let_76 _let_27) (= _let_34 _let_6) (= _let_78 _let_77) (= _let_55 _let_20) (= _let_76 _let_25) (= _let_75 _let_74) (= _let_55 _let_18) (= _let_73 _let_72) (= _let_55 _let_15) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_66 _let_23) (= _let_55 _let_13) (= _let_67 _let_24) (= _let_67 _let_11) (= _let_55 _let_16) (= _let_55 _let_11) (= _let_66 _let_11) (= _let_67 _let_16) (= _let_66 _let_22) (= (tptp.fn_biofuel_production_8 X) _let_65) (= (tptp.fn_biofuel_production_7 X) _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= (tptp.fn_biofuel_production_42 X) _let_54) (= (tptp.fn_biofuel_production_43 X) _let_53) (= (tptp.fn_biofuel_production_4 X) _let_52) (= (tptp.fn_biofuel_production_3 X) _let_51) (= (tptp.fn_biofuel_production_44 X) _let_50) (= (tptp.fn_biofuel_production_45 X) _let_49) (= _let_5 _let_48) (= _let_41 _let_9) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_8) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_4) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_3) (= _let_29 _let_2) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_11) (= _let_11 _let_16) (= _let_16 _let_23) (= _let_23 _let_11) (= _let_11 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.biogenic_amine_1 X) (and (tptp.original_name_2 X |tptp.'Biogenic-Amine'|) (tptp.user_description_2 X |tptp.'A class of neurotransmitter derived from an amino acid.'|) (tptp.concept2words_2 X |tptp.'biogenic amine'|) (tptp.concept2words_2 X |tptp.'biogenic-amine'|) (tptp.amino_acid_neurotransmitter_1 X) (not (tptp.glutamate_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biogeochemical_cycle_2 X))) (let ((_let_2 (tptp.fn_biogeochemical_cycle_1 X))) (=> (tptp.biogeochemical_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Biogeochemical-Cycle'|) (tptp.user_description_2 X |tptp.'A physical and chemical pathway by which a chemical element or molecule moves through the biosphere.'|) (tptp.concept2words_2 X |tptp.'undergo the biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'biogeochemical-cycle'|) (tptp.geologic_process_1 X) (not (tptp.catastrophism_1 X)) (not (tptp.climate_1 X)) (not (tptp.continental_drift_1 X)) (not (tptp.plate_tectonics_1 X)) (not (tptp.uniformitarianism_1 X)) (tptp.tangible_entity_1 _let_2) (tptp.region_1 _let_1) (tptp.object_2 X _let_2) (tptp.site_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.biogeography_1 X) (and (tptp.original_name_2 X |tptp.'Biogeography'|) (tptp.user_description_2 X |tptp.'The study of the distribution of organisms through time and across geographic space.'|) (tptp.concept2words_2 X tptp.biogeography) (tptp.ecology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bioinformatics_1 X) (and (tptp.original_name_2 X |tptp.'Bioinformatics'|) (tptp.user_description_2 X |tptp.'A branch of biology that deals with the study of ways to store, retrieve, and analyze large biological data sets.'|) (tptp.concept2words_2 X |tptp.'perform bioinformatics'|) (tptp.concept2words_2 X tptp.bioinformatics) (tptp.biotechnology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biological_augmentation_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Augmentation'|) (tptp.user_description_2 X |tptp.'The practice in restoration ecology of using organisms to add essential materials to an ecosystem that has been degraded.'|) (tptp.concept2words_2 X |tptp.'augment biologically'|) (tptp.concept2words_2 X |tptp.'biological augmentation'|) (tptp.concept2words_2 X |tptp.'biological-augmentation'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biological_clock_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Clock'|) (tptp.user_description_2 X |tptp.'An endogenous timekeeper that governs an organism_'s physiological and behavioral rhythms. It marks the passage of time with or without external cues but often requires environmental cues maintain proper timing of physiological and behavioral events.'|) (tptp.concept2words_2 X |tptp.'biological clock'|) (tptp.concept2words_2 X |tptp.'biological-clock'|) (tptp.homeostatic_response_1 X) (not (tptp.acclimatization_1 X)) (not (tptp.hibernation_1 X)) (not (tptp.negative_feedback_1 X)) (not (tptp.plant_response_1 X)) (not (tptp.thermoregulation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biological_fluid_1 X))) (=> (tptp.biological_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Fluid'|) (tptp.user_description_2 X |tptp.'The fluid substance present in a living organism.'|) (tptp.concept2words_2 X |tptp.'biological fluid'|) (tptp.concept2words_2 X |tptp.'biological-fluid'|) (tptp.aqueous_solution_1 X) (tptp.organic_entity_1 X) (not (tptp.water_1 X)) (not (tptp.vinegar_1 X)) (tptp.ph_value_1 _let_1) (tptp.ph_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.biological_magnification_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Magnification'|) (tptp.user_description_2 X |tptp.'The process by which a substance becomes more concentrated in higher trophic levels in a food chain. Biological magnification occurs due to persistance of the substance (i.e., it cannot be broken down by normal environmental or physiological processes), retention of the substance within organisms (i.e., it is not excreted), and food chain energetics.'|) (tptp.concept2words_2 X |tptp.'biological magnification'|) (tptp.concept2words_2 X |tptp.'biological-magnification'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biological_process_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Process'|) (tptp.user_description_2 X |tptp.'Process related to living organisms.'|) (tptp.concept2words_2 X |tptp.'biological process'|) (tptp.concept2words_2 X |tptp.'biological-process'|) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biological_region_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Region'|) (tptp.description_2 X |tptp.'A region of a biological entity.'|) (tptp.concept2words_2 X |tptp.'biological region'|) (tptp.concept2words_2 X |tptp.'biological-region'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biological_restoration_1 X))) (let ((_let_2 (tptp.fn_biological_restoration_2 X))) (=> (tptp.biological_restoration_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Restoration'|) (tptp.user_description_2 X |tptp.'The active renewal of ecosystems which have been damaged due to pollution, agriculture, fire or other processes.'|) (tptp.concept2words_2 X |tptp.'biological restoration'|) (tptp.concept2words_2 X |tptp.'biological-restoration'|) (tptp.ecological_process_1 X) (tptp.bioremediation_1 _let_1) (tptp.biological_augmentation_1 _let_2) (tptp.by_means_of_2 X _let_2) (tptp.by_means_of_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.biological_species_1 X) (and (tptp.original_name_2 X |tptp.'Biological-Species'|) (tptp.user_description_2 X |tptp.'A group of organisms that can interbreed in nature and produce viable, fertile offspring but are reproductively isolated from other 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(tptp.fn_biologist_31 X))) (let ((_let_45 (tptp.fn_biologist_22 X))) (let ((_let_46 (tptp.fn_biologist_30 X))) (let ((_let_47 (tptp.fn_biologist_17 X))) (let ((_let_48 (tptp.fn_biologist_21 X))) (let ((_let_49 (tptp.fn_biologist_16 X))) (let ((_let_50 (tptp.fn_biologist_24 X))) (let ((_let_51 (tptp.fn_biologist_18 X))) (let ((_let_52 (tptp.fn_biologist_4 X))) (let ((_let_53 (tptp.fn_biologist_13 X))) (let ((_let_54 (tptp.fn_biologist_8 X))) (let ((_let_55 (tptp.fn_biologist_9 X))) (let ((_let_56 (tptp.fn_bulk_feeder_4 _let_1))) (let ((_let_57 (tptp.fn_biologist_20 X))) (let ((_let_58 (tptp.fn_biologist_1 X))) (let ((_let_59 (tptp.fn_biologist_2 X))) (=> (tptp.biologist_1 X) (and (tptp.original_name_2 X |tptp.'Biologist'|) (tptp.user_description_2 X |tptp.'A scientist who studies living organisms.'|) (tptp.concept2words_2 X tptp.biologist) (tptp.scientist_1 X) (tptp.spatial_entity_1 _let_58) (tptp.spatial_entity_1 _let_59) (tptp.secretor_1 _let_17) (tptp.synthesis_reaction_1 _let_52) 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(tptp.heterotroph_1 _let_46) (tptp.container_1 _let_44) (tptp.bulk_feeder_1 _let_1) (tptp.stomach_1 _let_43) (tptp.pharynx_1 _let_35) (tptp.esophagus_1 _let_42) (tptp.liver_1 _let_41) (tptp.pancreas_1 _let_40) (tptp.gallbladder_1 _let_38) (tptp.heart_1 _let_36) (tptp.trachea_1 _let_34) (tptp.lung_1 _let_32) (tptp.water_1 _let_29) (tptp.epithelium_1 _let_24) (tptp.mouth_1 _let_26) (tptp.tissue_1 _let_23) (tptp.bone_1 _let_23) (tptp.eukaryotic_cell_1 _let_16) (tptp.cell_1 _let_16) (tptp.human_cell_1 _let_16) (tptp.mammalian_cell_1 _let_16) (tptp.ingestion_1 _let_56) (tptp.organic_molecule_1 _let_15) (tptp.organic_molecule_1 _let_9) (tptp.tangible_entity_1 _let_4) (tptp.animal_1 _let_2) (tptp.is_outside_2 _let_59 X) (tptp.is_inside_2 _let_58 X) (tptp.origin_2 _let_3 _let_59) (tptp.destination_2 _let_3 _let_58) (tptp.raw_material_2 _let_8 _let_21) (tptp.result_2 _let_8 _let_55) (tptp.base_2 _let_3 X) (tptp.agent_2 _let_3 X) (tptp.in_event_2 _let_1 _let_57) (tptp.base_2 _let_57 X) (tptp.agent_2 _let_57 X) (tptp.element_2 _let_39 _let_42) (tptp.element_2 _let_39 _let_35) (tptp.element_2 _let_39 _let_41) (tptp.object_2 _let_28 _let_21) (tptp.the_cardinal_value_2 _let_31 |"37.0e0"|) (tptp.cardinal_unit_class_2 _let_31 tptp.celsius_0) (tptp.called_2 _let_37 |tptp.'M3'|) (tptp.called_2 _let_54 |tptp.'Protist'|) (tptp.base_2 _let_20 _let_39) (tptp.enables_2 _let_20 _let_22) (tptp.base_2 _let_54 _let_27) (tptp.raw_material_2 _let_54 _let_55) (tptp.plays_2 _let_24 _let_53) (tptp.in_event_2 _let_53 _let_18) (tptp.base_2 _let_52 _let_16) (tptp.site_2 _let_52 _let_19) (tptp.has_function_2 _let_19 _let_52) (tptp.element_2 _let_50 _let_36) (tptp.has_region_2 X _let_50) (tptp.base_2 _let_51 X) (tptp.agent_2 _let_51 X) (tptp.temperature_2 X _let_31) (tptp.has_function_2 X _let_48) (tptp.base_2 _let_48 X) (tptp.agent_2 _let_49 X) (tptp.object_2 _let_49 X) (tptp.has_region_2 X _let_33) (tptp.element_2 _let_39 _let_43) (tptp.has_region_2 X _let_39) (tptp.plays_2 X _let_46) (tptp.in_event_2 _let_46 _let_47) (tptp.agent_2 _let_47 X) (tptp.has_part_2 X _let_43) (tptp.plays_2 X _let_44) (tptp.in_event_2 _let_44 _let_45) (tptp.base_2 _let_45 X) (tptp.plays_2 X _let_1) (tptp.next_element_2 _let_35 _let_42) (tptp.has_part_2 X _let_42) (tptp.has_part_2 X _let_35) (tptp.abuts_2 _let_43 _let_42) (tptp.abuts_2 _let_42 _let_43) (tptp.has_part_2 X _let_38) (tptp.element_2 _let_39 _let_38) (tptp.element_2 _let_39 _let_40) (tptp.has_part_2 X _let_40) (tptp.has_part_2 X _let_41) (tptp.next_element_2 _let_34 _let_32) (tptp.has_part_2 X _let_34) (tptp.has_part_2 X _let_36) (tptp.origin_2 _let_37 _let_36) (tptp.destination_2 _let_37 _let_23) (tptp.has_part_2 X _let_32) (tptp.element_2 _let_33 _let_32) (tptp.element_2 _let_33 _let_34) (tptp.abuts_2 _let_35 _let_34) (tptp.abuts_2 _let_34 _let_35) (tptp.enables_2 _let_20 _let_28) (tptp.path_2 _let_28 X) (tptp.has_part_2 X _let_29) (tptp.specific_heat_2 _let_29 _let_30) (tptp.correspondence_2 _let_31 _let_30) (tptp.has_part_2 X _let_24) (tptp.is_inside_2 _let_24 _let_25) (tptp.has_region_2 X _let_25) (tptp.has_part_2 X _let_26) (tptp.has_region_2 _let_26 _let_27) (tptp.path_2 _let_20 X) (tptp.object_2 _let_20 _let_21) (tptp.object_2 _let_22 _let_21) (tptp.path_2 _let_22 X) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_16) (tptp.plays_2 _let_16 _let_17) (tptp.in_event_2 _let_17 _let_18) (tptp.base_2 _let_18 _let_16) (tptp.has_part_2 _let_16 _let_19) (= _let_21 _let_9) (= _let_55 _let_15) (= X _let_4) (= _let_57 _let_56) (= (tptp.fn_biologist_47 X) (tptp.fn_person_63 X)) (= (tptp.fn_biologist_48 X) (tptp.fn_person_19 X)) (= _let_55 _let_14) (= _let_54 (tptp.fn_person_71 X)) (= _let_53 (tptp.fn_person_69 X)) (= _let_52 (tptp.fn_person_40 X)) (= _let_51 (tptp.fn_person_18 X)) (= _let_50 (tptp.fn_person_36 X)) (= _let_49 (tptp.fn_person_73 X)) (= _let_48 (tptp.fn_person_74 X)) (= _let_47 _let_13) (= _let_47 _let_12) (= _let_46 (tptp.fn_person_31 X)) (= X _let_2) (= _let_1 (tptp.fn_person_67 X)) (= _let_45 _let_11) (= _let_45 _let_10) (= _let_44 (tptp.fn_person_30 X)) (= _let_43 (tptp.fn_person_29 X)) (= _let_42 (tptp.fn_person_27 X)) (= _let_41 (tptp.fn_person_26 X)) (= _let_40 (tptp.fn_person_25 X)) (= _let_39 (tptp.fn_person_35 X)) (= _let_38 (tptp.fn_person_24 X)) (= _let_37 (tptp.fn_person_38 X)) (= _let_36 (tptp.fn_person_23 X)) (= _let_35 (tptp.fn_person_28 X)) (= _let_34 (tptp.fn_person_22 X)) (= _let_33 (tptp.fn_person_34 X)) (= _let_32 (tptp.fn_person_21 X)) (= _let_31 (tptp.fn_person_62 X)) (= _let_30 (tptp.fn_person_39 X)) (= _let_29 (tptp.fn_person_20 X)) (= _let_28 (tptp.fn_person_65 X)) (= _let_27 (tptp.fn_person_68 X)) (= _let_26 (tptp.fn_person_64 X)) (= _let_25 (tptp.fn_person_50 X)) (= _let_24 (tptp.fn_person_72 X)) (= _let_23 (tptp.fn_person_60 X)) (= _let_22 (tptp.fn_person_33 X)) (= _let_21 _let_7) (= _let_20 (tptp.fn_person_32 X)) (= _let_19 (tptp.fn_person_41 X)) (= _let_18 (tptp.fn_person_49 X)) (= _let_17 (tptp.fn_person_16 X)) (= _let_16 _let_6) (= _let_16 _let_5) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.biology_1 X) (and (tptp.original_name_2 X |tptp.'Biology'|) (tptp.user_description_2 X |tptp.'The scientific study of life.'|) (tptp.concept2words_2 X tptp.biology) (tptp.inquiry_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_2 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_3 (tptp.fn_decomposition_reaction_2 X))) (let ((_let_4 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_5 (tptp.fn_decomposition_reaction_5 X))) (let ((_let_6 (tptp.fn_bioluminescence_2 X))) (let ((_let_7 (tptp.fn_bioluminescence_3 X))) (let ((_let_8 (tptp.fn_bioluminescence_1 X))) (=> (tptp.bioluminescence_1 X) (and (tptp.original_name_2 X |tptp.'Bioluminescence'|) (tptp.user_description_2 X |tptp.'The ability of an organism to produce and emit light.'|) (tptp.concept2words_2 X |tptp.'show bioluminescence'|) (tptp.concept2words_2 X tptp.bioluminescence) (tptp.decomposition_reaction_1 X) (tptp.exergonic_reaction_1 X) (tptp.light_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.molecule_1 _let_7) (tptp.result_2 X _let_8) (tptp.raw_material_2 X _let_7) (tptp.result_2 X _let_6) (= _let_7 _let_5) (= _let_7 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_6 _let_1) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1)))))))))))) (forall ((X $$unsorted)) (=> (tptp.biomanipulation_1 X) (and (tptp.original_name_2 X |tptp.'Biomanipulation'|) (tptp.user_description_2 X |tptp.'The intentional introduction of higher-level consumers to a degraded aquatic ecosystem, to control algal blooms caused by eutrophication; an example of top-down control over community structure in an ecosystem.'|) (tptp.concept2words_2 X tptp.biomanipulation) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biomass_1 X) (and (tptp.original_name_2 X |tptp.'Biomass'|) (tptp.user_description_2 X |tptp.'The total mass of living organisms in a given area at a given time.'|) (tptp.concept2words_2 X tptp.biomass) (tptp.substance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biomass_pyramid_1 X) (and (tptp.original_name_2 X |tptp.'Biomass-Pyramid'|) (tptp.user_description_2 X |tptp.'A diagram showing the distribution of mass among organisms at different trophic levels in an ecosystem.'|) (tptp.concept2words_2 X |tptp.'pyramid of biomass'|) (tptp.concept2words_2 X |tptp.'pyramid-of-biomass'|) (tptp.concept2words_2 X |tptp.'biomass pyramid'|) (tptp.concept2words_2 X |tptp.'biomass-pyramid'|) (tptp.ecological_pyramid_1 X) (not (tptp.pyramid_of_numbers_1 X)) (not (tptp.pyramid_of_production_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biome_8 X))) (let ((_let_2 (tptp.fn_photosynthesis_1 _let_1))) (let ((_let_3 (tptp.fn_biome_14 X))) (let ((_let_4 (tptp.fn_energy_transformation_by_organism_1 _let_3))) (let ((_let_5 (tptp.fn_photosynthesis_40 _let_1))) (let ((_let_6 (tptp.fn_photosynthesis_31 _let_1))) (let ((_let_7 (tptp.fn_biome_13 X))) (let ((_let_8 (tptp.fn_light_reaction_50 _let_7))) (let ((_let_9 (tptp.fn_photosynthesis_34 _let_1))) (let ((_let_10 (tptp.fn_energy_transformation_by_organism_2 _let_3))) (let ((_let_11 (tptp.fn_light_reaction_45 _let_7))) (let ((_let_12 (tptp.fn_biome_3 X))) (let ((_let_13 (tptp.fn_plant_20 _let_12))) (let ((_let_14 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_15 (tptp.fn_metabolic_pathway_1 _let_7))) (let ((_let_16 (tptp.fn_plant_45 _let_12))) (let ((_let_17 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_18 (tptp.fn_biome_4 X))) (let ((_let_19 (tptp.fn_cyanobacterium_15 _let_18))) (let ((_let_20 (tptp.fn_biome_15 X))) (let ((_let_21 (tptp.fn_sunlight_1 _let_20))) (let ((_let_22 (tptp.fn_biome_10 X))) (let ((_let_23 (tptp.fn_biome_11 X))) (let ((_let_24 (tptp.fn_photosynthesis_35 _let_1))) (let ((_let_25 (tptp.fn_biome_12 X))) (let ((_let_26 (tptp.fn_plant_18 _let_12))) (let ((_let_27 (tptp.fn_biome_9 X))) (let ((_let_28 (tptp.fn_cyanobacterium_17 _let_18))) (let ((_let_29 (tptp.fn_biome_5 X))) (let ((_let_30 (tptp.fn_biome_6 X))) (let ((_let_31 (tptp.fn_biome_7 X))) (let ((_let_32 (tptp.fn_photosynthesis_34 _let_31))) (let ((_let_33 (tptp.fn_biome_16 X))) (let ((_let_34 (tptp.fn_metabolic_pathway_1 _let_31))) (let ((_let_35 (tptp.fn_biome_17 X))) (let ((_let_36 (tptp.fn_biome_2 X))) (let ((_let_37 (tptp.fn_biome_1 X))) (=> (tptp.biome_1 X) (and (tptp.original_name_2 X |tptp.'Biome'|) (tptp.user_description_2 X |tptp.'A large ecosystem, typically characterized by the predominant vegetation, climate, and the adaptations of the organisms living in that particular environment.'|) (tptp.concept2words_2 X tptp.biome) (tptp.region_1 X) (tptp.aggregate_1 X) (tptp.animal_1 _let_37) (tptp.algae_1 _let_36) (tptp.plant_1 _let_12) (tptp.cyanobacterium_1 _let_18) (tptp.chemical_reaction_1 _let_29) (tptp.metabolic_pathway_1 _let_29) (tptp.photosynthesis_1 _let_29) (tptp.visible_light_1 _let_30) (tptp.energy_1 _let_30) (tptp.photosynthesis_1 _let_31) (tptp.anabolic_pathway_1 _let_1) (tptp.metabolic_pathway_1 _let_1) (tptp.photosynthesis_1 _let_1) (tptp.chemical_entity_1 _let_27) (tptp.oxygen_molecule_1 _let_27) (tptp.energy_1 _let_22) (tptp.chemical_energy_1 _let_22) (tptp.visible_light_1 _let_23) (tptp.energy_1 _let_23) (tptp.plant_cell_1 _let_25) (tptp.cell_1 _let_25) (tptp.eukaryotic_cell_1 _let_25) (tptp.metabolic_pathway_1 _let_7) (tptp.light_reaction_1 _let_7) (tptp.energy_transformation_by_organism_1 _let_3) (tptp.sunlight_1 _let_20) (tptp.visible_light_1 _let_33) (tptp.energy_1 _let_33) (tptp.algal_cell_1 _let_35) (tptp.cell_1 _let_34) (tptp.visible_light_1 _let_32) (tptp.energy_1 _let_32) (tptp.chemical_reaction_1 _let_28) (tptp.metabolic_pathway_1 _let_28) (tptp.photosynthesis_1 _let_28) (tptp.photosynthesis_1 _let_26) (tptp.anabolic_pathway_1 _let_26) (tptp.metabolic_pathway_1 _let_26) (tptp.light_reaction_1 _let_24) (tptp.visible_light_1 _let_21) (tptp.visible_light_1 _let_19) (tptp.energy_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.oxygen_molecule_1 _let_16) (tptp.cell_1 _let_15) (tptp.cell_1 _let_14) (tptp.plant_cell_1 _let_13) (tptp.cell_1 _let_13) (tptp.eukaryotic_cell_1 _let_13) (tptp.visible_light_1 _let_11) (tptp.energy_1 _let_10) (tptp.visible_light_1 _let_9) (tptp.energy_1 _let_9) (tptp.energy_transformation_by_organism_1 _let_8) (tptp.energy_transformation_by_organism_1 _let_6) (tptp.chemical_energy_1 _let_5) (tptp.energy_1 _let_4) (tptp.chemical_energy_1 _let_2) (tptp.has_part_2 _let_36 _let_35) (not (= _let_29 _let_1)) (not (= _let_29 _let_31)) (not (= _let_31 _let_29)) (not (= _let_31 _let_1)) (not (= _let_1 _let_29)) (not (= _let_1 _let_31)) (tptp.has_part_2 _let_20 _let_23) (tptp.has_part_2 _let_20 _let_33) (tptp.element_2 X _let_12) (tptp.element_2 X _let_37) (tptp.element_2 X _let_36) (tptp.element_2 X _let_18) (tptp.base_2 _let_7 _let_25) (tptp.base_2 _let_31 _let_35) (tptp.has_part_2 _let_20 _let_30) (tptp.raw_material_2 _let_31 _let_33) (tptp.raw_material_2 _let_29 _let_30) (tptp.base_2 _let_29 _let_18) (tptp.experiencer_2 _let_29 _let_18) (tptp.has_function_2 _let_12 _let_1) (tptp.has_part_2 _let_12 _let_25) (tptp.base_2 _let_1 _let_25) (tptp.result_2 _let_1 _let_27) (tptp.raw_material_2 _let_7 _let_23) (tptp.causes_2 _let_7 _let_3) (tptp.raw_material_2 _let_1 _let_23) (tptp.object_2 _let_3 _let_23) (tptp.raw_material_2 _let_3 _let_23) (not (= _let_22 _let_23)) (not (= _let_23 _let_22)) (tptp.result_2 _let_1 _let_22) (tptp.result_2 _let_3 _let_22) (= _let_25 _let_15) (= _let_35 _let_34) (= _let_30 _let_21) (= _let_33 _let_32) (= _let_30 _let_19) (= _let_29 _let_28) (= _let_27 _let_17) (= _let_27 _let_16) (= _let_25 _let_14) (= _let_1 _let_26) (= _let_25 _let_13) (= _let_7 _let_24) (= _let_3 _let_8) (= _let_23 _let_11) (= _let_3 _let_6) (= _let_23 _let_10) (= _let_22 _let_5) (= _let_23 _let_9) (= _let_22 _let_4) (= _let_22 _let_2) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_6 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biomembrane_54 X))) (let ((_let_2 (tptp.fn_membrane_protein_1 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_65 X))) (let ((_let_4 (tptp.fn_phospholipid_80 _let_3))) (let ((_let_5 (tptp.fn_phospholipid_116 _let_3))) (let ((_let_6 (tptp.fn_phospholipid_92 _let_3))) (let ((_let_7 (tptp.fn_biomembrane_63 X))) (let ((_let_8 (tptp.fn_phospholipid_bilayer_19 _let_7))) (let ((_let_9 (tptp.fn_phospholipid_90 _let_3))) (let ((_let_10 (tptp.fn_phospholipid_bilayer_32 _let_7))) (let ((_let_11 (tptp.fn_biomembrane_69 X))) (let ((_let_12 (tptp.fn_move_together_1 _let_11))) (let ((_let_13 (tptp.fn_phospholipid_97 _let_3))) (let ((_let_14 (tptp.fn_lipid_14 _let_3))) (let ((_let_15 (tptp.fn_phospholipid_88 _let_3))) (let ((_let_16 (tptp.fn_phospholipid_bilayer_37 _let_7))) (let ((_let_17 (tptp.fn_membrane_protein_2 _let_1))) (let ((_let_18 (tptp.fn_biomembrane_74 X))) (let ((_let_19 (tptp.fn_hold_2 _let_18))) (let ((_let_20 (tptp.fn_phospholipid_bilayer_24 _let_7))) (let ((_let_21 (tptp.fn_biomembrane_64 X))) (let ((_let_22 (tptp.fn_hold_2 _let_21))) (let ((_let_23 (tptp.fn_biomembrane_53 X))) (let ((_let_24 (tptp.fn_move_1 _let_23))) (let ((_let_25 (tptp.fn_move_together_2 _let_11))) (let ((_let_26 (tptp.fn_biomembrane_68 X))) (let ((_let_27 (tptp.fn_move_apart_1 _let_26))) (let ((_let_28 (tptp.fn_phospholipid_bilayer_23 _let_7))) (let ((_let_29 (tptp.fn_biomembrane_66 X))) (let ((_let_30 (tptp.fn_phospholipid_90 _let_29))) (let ((_let_31 (tptp.fn_phospholipid_92 _let_29))) (let ((_let_32 (tptp.fn_phospholipid_bilayer_26 _let_7))) (let ((_let_33 (tptp.fn_phospholipid_88 _let_29))) (let ((_let_34 (tptp.fn_phospholipid_87 _let_3))) (let ((_let_35 (tptp.fn_biomembrane_92 X))) (let ((_let_36 (tptp.fn_phospholipid_91 _let_3))) (let ((_let_37 (tptp.fn_biomembrane_93 X))) (let ((_let_38 (tptp.fn_biomembrane_78 X))) (let ((_let_39 (tptp.fn_biomembrane_90 X))) (let ((_let_40 (tptp.fn_phospholipid_83 _let_3))) (let ((_let_41 (tptp.fn_biomembrane_96 X))) (let ((_let_42 (tptp.fn_phospholipid_84 _let_3))) (let ((_let_43 (tptp.fn_biomembrane_94 X))) (let ((_let_44 (tptp.fn_phospholipid_94 _let_3))) (let ((_let_45 (tptp.fn_biomembrane_86 X))) (let ((_let_46 (tptp.fn_phospholipid_102 _let_3))) (let ((_let_47 (tptp.fn_biomembrane_85 X))) (let ((_let_48 (tptp.fn_phospholipid_44 _let_3))) (let ((_let_49 (tptp.fn_phospholipid_98 _let_3))) (let ((_let_50 (tptp.fn_biomembrane_91 X))) (let ((_let_51 (tptp.fn_phospholipid_103 _let_3))) (let ((_let_52 (tptp.fn_biomembrane_84 X))) (let ((_let_53 (tptp.fn_phospholipid_43 _let_3))) (let ((_let_54 (tptp.fn_biomembrane_77 X))) (let ((_let_55 (tptp.fn_phospholipid_104 _let_3))) (let ((_let_56 (tptp.fn_biomembrane_88 X))) (let ((_let_57 (tptp.fn_biomembrane_89 X))) (let ((_let_58 (tptp.fn_phospholipid_105 _let_3))) (let ((_let_59 (tptp.fn_biomembrane_87 X))) (let ((_let_60 (tptp.fn_phospholipid_99 _let_3))) (let ((_let_61 (tptp.fn_biomembrane_95 X))) (let ((_let_62 (tptp.fn_biomembrane_80 X))) (let ((_let_63 (tptp.fn_phospholipid_89 _let_3))) (let ((_let_64 (tptp.fn_biomembrane_97 X))) (let ((_let_65 (tptp.fn_phospholipid_bilayer_33 _let_7))) (let ((_let_66 (tptp.fn_biomembrane_61 X))) (let ((_let_67 (tptp.fn_phospholipid_bilayer_38 _let_7))) (let ((_let_68 (tptp.fn_biomembrane_81 X))) (let ((_let_69 (tptp.fn_phospholipid_bilayer_34 _let_7))) (let ((_let_70 (tptp.fn_biomembrane_62 X))) (let ((_let_71 (tptp.fn_phospholipid_bilayer_3 _let_7))) (let ((_let_72 (tptp.fn_biomembrane_75 X))) (let ((_let_73 (tptp.fn_biomembrane_79 X))) (let ((_let_74 (tptp.fn_biomembrane_82 X))) (let ((_let_75 (tptp.fn_phospholipid_bilayer_39 _let_7))) (let ((_let_76 (tptp.fn_biomembrane_83 X))) (let ((_let_77 (tptp.fn_phospholipid_94 _let_29))) (let ((_let_78 (tptp.fn_biomembrane_51 X))) (let ((_let_79 (tptp.fn_phospholipid_98 _let_29))) (let ((_let_80 (tptp.fn_biomembrane_59 X))) (let ((_let_81 (tptp.fn_protein_9 _let_1))) (let ((_let_82 (tptp.fn_biomembrane_56 X))) (let ((_let_83 (tptp.fn_protein_10 _let_1))) (let ((_let_84 (tptp.fn_organic_molecule_2 _let_29))) (let ((_let_85 (tptp.fn_biomembrane_60 X))) (let ((_let_86 (tptp.fn_biomembrane_52 X))) (let ((_let_87 (tptp.fn_biomembrane_49 X))) (let ((_let_88 (tptp.fn_biomembrane_50 X))) (let ((_let_89 (tptp.fn_biomembrane_55 X))) (let ((_let_90 (tptp.fn_membrane_5 X))) (let ((_let_91 (tptp.fn_biomembrane_48 X))) (let ((_let_92 (tptp.fn_biomembrane_72 X))) (let ((_let_93 (tptp.fn_biomembrane_73 X))) (let ((_let_94 (tptp.fn_attach_2 _let_93))) (let ((_let_95 (tptp.fn_biomembrane_71 X))) (let ((_let_96 (tptp.fn_biomembrane_102 X))) (let ((_let_97 (tptp.fn_block_1 _let_96))) (let ((_let_98 (tptp.fn_biomembrane_105 X))) (let ((_let_99 (tptp.fn_biomembrane_101 X))) (let ((_let_100 (tptp.fn_block_1 _let_99))) (let ((_let_101 (tptp.fn_biomembrane_99 X))) (let ((_let_102 (tptp.fn_biomembrane_100 X))) (let ((_let_103 (tptp.fn_block_1 _let_102))) (let ((_let_104 (tptp.fn_biomembrane_98 X))) (let ((_let_105 (tptp.fn_biomembrane_57 X))) (let ((_let_106 (tptp.fn_hold_1 _let_105))) (let ((_let_107 (tptp.fn_hold_2 _let_105))) (let ((_let_108 (tptp.fn_biomembrane_58 X))) (let ((_let_109 (tptp.fn_attach_1 _let_93))) (let ((_let_110 (tptp.fn_biomembrane_70 X))) (let ((_let_111 (tptp.fn_move_apart_2 _let_26))) (let ((_let_112 (tptp.fn_biomembrane_67 X))) (let ((_let_113 (tptp.fn_biomembrane_18 X))) (let ((_let_114 (tptp.fn_biomembrane_4 X))) (let ((_let_115 (tptp.fn_biomembrane_9 X))) (let ((_let_116 (tptp.fn_biomembrane_8 X))) (let ((_let_117 (tptp.fn_biomembrane_10 X))) (let ((_let_118 (tptp.fn_biomembrane_11 X))) (let ((_let_119 (tptp.fn_biomembrane_13 X))) (let ((_let_120 (tptp.fn_biomembrane_44 X))) (let ((_let_121 (tptp.fn_biomembrane_43 X))) (let ((_let_122 (tptp.fn_biomembrane_42 X))) (let ((_let_123 (tptp.fn_biomembrane_14 X))) (let ((_let_124 (tptp.fn_biomembrane_20 X))) (let ((_let_125 (tptp.fn_biomembrane_16 X))) (let ((_let_126 (tptp.fn_biomembrane_17 X))) (let ((_let_127 (tptp.fn_biomembrane_30 X))) (let ((_let_128 (tptp.fn_biomembrane_29 X))) (let ((_let_129 (tptp.fn_biomembrane_32 X))) (let ((_let_130 (tptp.fn_biomembrane_15 X))) (let ((_let_131 (tptp.fn_biomembrane_25 X))) (let ((_let_132 (tptp.fn_biomembrane_47 X))) (let ((_let_133 (tptp.fn_biomembrane_41 X))) (let ((_let_134 (tptp.fn_biomembrane_1 X))) (let ((_let_135 (tptp.fn_biomembrane_22 X))) (let ((_let_136 (tptp.fn_biomembrane_21 X))) (let ((_let_137 (tptp.fn_biomembrane_24 X))) (let ((_let_138 (tptp.fn_biomembrane_23 X))) (let ((_let_139 (tptp.fn_biomembrane_31 X))) (let ((_let_140 (tptp.fn_biomembrane_33 X))) (let ((_let_141 (tptp.fn_biomembrane_34 X))) (let ((_let_142 (tptp.fn_biomembrane_35 X))) (let ((_let_143 (tptp.fn_biomembrane_36 X))) (=> (tptp.biomembrane_1 X) (and (tptp.original_name_2 X |tptp.'Biomembrane'|) (tptp.user_description_2 X |tptp.'A biological membrane or biomembrane is an enclosing or separating membrane that acts as a selective barrier, within or around a cell.'|) (tptp.concept2words_2 X |tptp.'biological membrane'|) (tptp.concept2words_2 X |tptp.'biological-membrane'|) (tptp.concept2words_2 X |tptp.'cellular membrane'|) (tptp.concept2words_2 X |tptp.'cellular-membrane'|) (tptp.concept2words_2 X tptp.membrane) (tptp.concept2words_2 X tptp.biomembrane) (tptp.membrane_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X)) (tptp.phospholipid_1 _let_134) (tptp.density_value_1 _let_114) (tptp.membrane_potential_1 _let_116) (tptp.voltage_value_1 _let_115) (tptp.voltage_value_1 _let_117) (tptp.voltage_value_1 _let_118) (tptp.rate_value_1 _let_119) (tptp.aqueous_solution_1 _let_123) (tptp.aqueous_solution_1 _let_130) (tptp.quantity_value_1 _let_125) (tptp.quantity_value_1 _let_126) (tptp.fluidity_value_1 _let_113) (tptp.quantity_value_1 _let_124) (tptp.rate_value_1 _let_136) (tptp.rate_value_1 _let_135) (tptp.kinetic_energy_1 _let_138) (tptp.quantity_value_1 _let_137) (tptp.temperature_value_1 _let_131) (tptp.glycolipid_1 _let_128) (tptp.glycoprotein_1 _let_127) (tptp.quantity_value_1 _let_139) (tptp.saturated_fatty_acid_1 _let_129) (tptp.share_1 _let_140) (tptp.unequal_sharing_1 _let_141) (tptp.hydrophobic_compound_1 _let_142) (tptp.hydrophobic_compound_1 _let_143) (tptp.outside_face_1 _let_133) (tptp.inside_face_1 _let_122) (tptp.chemical_polarity_value_1 _let_121) (tptp.size_value_1 _let_120) (tptp.surface_1 _let_132) (tptp.hydrophobic_compound_1 _let_91) (tptp.barrier_1 _let_87) (tptp.block_1 _let_88) (tptp.chemical_bond_1 _let_78) (tptp.ester_linkage_1 _let_78) (tptp.move_through_1 _let_86) (tptp.move_1 _let_23) (tptp.tangible_entity_1 _let_1) (tptp.membrane_protein_1 _let_1) (tptp.protein_1 _let_1) (tptp.chemical_entity_1 _let_89) (tptp.size_value_1 _let_82) (tptp.hold_together_1 _let_105) (tptp.phospholipid_1 _let_108) (tptp.tangible_entity_1 _let_80) (tptp.entity_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.atom_1 _let_80) (tptp.carbon_1 _let_80) (tptp.hydrogen_1 _let_85) (tptp.phospholipid_layer_1 _let_66) (tptp.phospholipid_layer_1 _let_70) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.hold_together_1 _let_21) (tptp.lipid_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.phospholipid_1 _let_3) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.organic_molecule_1 _let_29) (tptp.phospholipid_1 _let_29) (tptp.phospholipid_1 _let_112) (tptp.move_apart_1 _let_26) (tptp.move_together_1 _let_11) (tptp.carbohydrate_side_chain_1 _let_110) (tptp.carbon_skeleton_1 _let_95) (tptp.hydrophilic_compound_1 _let_92) (tptp.attach_1 _let_93) (tptp.hold_together_1 _let_18) (tptp.hydrophobic_core_1 _let_72) (tptp.fatty_acid_tail_1 _let_54) (tptp.fatty_acid_tail_1 _let_38) (tptp.fatty_acid_tail_1 _let_73) (tptp.hydrophilic_head_1 _let_62) (tptp.hydrophilic_face_1 _let_68) (tptp.hydrophilic_head_1 _let_74) (tptp.hydrophilic_face_1 _let_76) (tptp.speed_value_1 _let_52) (tptp.quantity_value_1 _let_47) (tptp.chemical_bond_1 _let_45) (tptp.ester_linkage_1 _let_45) (tptp.kinetic_energy_1 _let_59) (tptp.constant_motion_1 _let_56) (tptp.carbon_skeleton_1 _let_57) (tptp.repel_1 _let_39) (tptp.tangible_entity_1 _let_50) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.carbon_1 _let_50) (tptp.fatty_acid_1 _let_35) (tptp.spatial_entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.hydrophobic_compound_1 _let_37) (tptp.organic_acid_1 _let_37) (tptp.carboxylic_acid_1 _let_37) (tptp.fatty_acid_1 _let_37) (tptp.entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.phosphorus_1 _let_43) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.oxygen_1 _let_61) (tptp.spatial_entity_1 _let_41) (tptp.functional_group_1 _let_41) (tptp.phosphate_group_1 _let_41) (tptp.entity_1 _let_64) (tptp.spatial_entity_1 _let_64) (tptp.tangible_entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.glycerol_1 _let_64) (tptp.alcohol_1 _let_64) (tptp.hydrophobic_compound_1 _let_104) (tptp.hydrophobic_compound_1 _let_101) (tptp.block_1 _let_102) (tptp.block_1 _let_99) (tptp.block_1 _let_96) (tptp.hydrophilic_compound_1 _let_98) (tptp.spatial_entity_1 _let_111) (tptp.spatial_entity_1 _let_109) (tptp.tangible_entity_1 _let_107) (tptp.tangible_entity_1 _let_106) (tptp.spatial_entity_1 _let_103) (tptp.spatial_entity_1 _let_100) (tptp.spatial_entity_1 _let_97) (tptp.spatial_entity_1 _let_94) (tptp.atom_1 _let_84) (tptp.chemical_entity_1 _let_84) (tptp.property_node_1 _let_83) (tptp.size_value_1 _let_81) (tptp.tangible_entity_1 _let_79) (tptp.entity_1 _let_79) (tptp.chemical_entity_1 _let_79) (tptp.atom_1 _let_79) (tptp.carbon_1 _let_79) (tptp.chemical_bond_1 _let_77) (tptp.ester_linkage_1 _let_77) (tptp.hydrophilic_face_1 _let_75) (tptp.hydrophobic_core_1 _let_71) (tptp.phospholipid_layer_1 _let_69) (tptp.hydrophilic_face_1 _let_67) (tptp.phospholipid_layer_1 _let_65) (tptp.entity_1 _let_63) (tptp.spatial_entity_1 _let_63) (tptp.tangible_entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.glycerol_1 _let_63) (tptp.alcohol_1 _let_63) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.oxygen_1 _let_60) (tptp.kinetic_energy_1 _let_58) (tptp.constant_motion_1 _let_55) (tptp.property_node_1 _let_53) (tptp.speed_value_1 _let_51) (tptp.tangible_entity_1 _let_49) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.carbon_1 _let_49) (tptp.property_node_1 _let_48) (tptp.quantity_value_1 _let_46) (tptp.chemical_bond_1 _let_44) (tptp.ester_linkage_1 _let_44) (tptp.entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.phosphorus_1 _let_42) (tptp.spatial_entity_1 _let_40) (tptp.functional_group_1 _let_40) (tptp.phosphate_group_1 _let_40) (tptp.spatial_entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.hydrophobic_compound_1 _let_36) (tptp.organic_acid_1 _let_36) (tptp.carboxylic_acid_1 _let_36) (tptp.fatty_acid_1 _let_36) (tptp.fatty_acid_1 _let_34) (tptp.hydrophilic_head_1 _let_33) (tptp.hydrophilic_head_1 _let_32) (tptp.fatty_acid_tail_1 _let_31) (tptp.fatty_acid_tail_1 _let_30) (tptp.fatty_acid_tail_1 _let_28) (tptp.spatial_entity_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_24) (tptp.tangible_entity_1 _let_22) (tptp.phospholipid_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.phospholipid_bilayer_1 _let_17) (tptp.hydrophilic_head_1 _let_16) (tptp.hydrophilic_head_1 _let_15) (tptp.carbon_skeleton_1 _let_14) (tptp.carbon_skeleton_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.phospholipid_1 _let_10) (tptp.fatty_acid_tail_1 _let_9) (tptp.fatty_acid_tail_1 _let_8) (tptp.fatty_acid_tail_1 _let_6) (tptp.repel_1 _let_5) (tptp.repel_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.called_2 _let_96 |"1"|) (not (= _let_96 _let_99)) (not (= _let_96 _let_102)) (tptp.instrument_2 _let_96 _let_54) (tptp.agent_2 _let_96 _let_72) (tptp.called_2 _let_99 |"2"|) (not (= _let_99 _let_96)) (not (= _let_99 _let_102)) (tptp.agent_2 _let_99 _let_76) (tptp.instrument_2 _let_99 _let_74) (tptp.called_2 _let_102 |"3"|) (not (= _let_102 _let_99)) (not (= _let_102 _let_96)) (tptp.agent_2 _let_102 _let_68) (tptp.instrument_2 _let_102 _let_62) (tptp.the_scalar_value_2 _let_120 tptp.small_0) (tptp.scalar_unit_class_2 _let_120 tptp.physical_object_0) (tptp.the_categorical_value_2 _let_121 tptp.nonpolar_0) (tptp.is_inside_2 _let_76 _let_133) (tptp.is_inside_2 _let_68 _let_122) (tptp.is_inside_2 _let_133 _let_130) (tptp.object_2 _let_18 _let_143) (tptp.object_2 _let_18 _let_142) (tptp.result_2 _let_141 _let_3) (tptp.result_2 _let_140 _let_3) (not (= _let_92 _let_89)) (tptp.quantity_2 _let_129 _let_139) (tptp.directly_proportional_2 _let_139 _let_113) (tptp.is_inside_2 _let_127 _let_7) (tptp.is_inside_2 _let_95 X) (tptp.is_outside_2 _let_110 X) (tptp.correspondence_2 _let_131 _let_137) (tptp.directly_proportional_2 _let_131 _let_137) (tptp.directly_proportional_2 _let_131 _let_113) (tptp.positive_influence_2 _let_137 _let_135) (tptp.negative_influence_2 _let_137 _let_136) (tptp.quantity_2 _let_138 _let_137) (tptp.directly_proportional_2 _let_135 _let_113) (tptp.inversely_proportional_2 _let_136 _let_113) (tptp.rate_2 _let_11 _let_136) (tptp.rate_2 _let_26 _let_135) (tptp.called_2 _let_112 |tptp.'P2'|) (tptp.is_inside_2 _let_112 _let_70) (tptp.quantity_2 _let_112 _let_125) (tptp.called_2 _let_29 |tptp.'P1'|) (tptp.called_2 _let_3 |tptp.'P4'|) (tptp.object_2 _let_21 _let_134) (tptp.has_region_2 X _let_133) (tptp.has_region_2 X _let_122) (tptp.has_region_2 X _let_132) (tptp.density_2 X _let_114) (tptp.is_impermeable_to_2 X _let_91) (tptp.possesses_2 X _let_116) (tptp.temperature_2 X _let_131) (tptp.is_between_2 X _let_130) (tptp.is_between_2 X _let_123) (tptp.fluidity_2 X _let_113) (tptp.has_function_2 X _let_102) (tptp.has_function_2 X _let_99) (tptp.has_function_2 X _let_96) (tptp.has_part_2 X _let_129) (tptp.has_part_2 X _let_128) (tptp.has_part_2 X _let_127) (not (= _let_70 _let_66)) (tptp.directly_proportional_2 _let_113 _let_119) (not (= _let_66 _let_70)) (tptp.greater_than_2 _let_125 _let_126) (tptp.greater_than_2 _let_125 _let_124) (tptp.is_inside_2 _let_123 _let_122) (not (= _let_89 _let_92)) (tptp.chemical_polarity_2 _let_89 _let_121) (tptp.size_2 _let_89 _let_120) (tptp.rate_2 _let_23 _let_119) (tptp.the_cardinal_value_2 _let_118 |"-50.0e0"|) (tptp.cardinal_unit_class_2 _let_118 tptp.volt_0) (tptp.greater_than_or_equal_to_2 _let_118 _let_115) (tptp.the_cardinal_value_2 _let_117 |"-200.0e0"|) (tptp.cardinal_unit_class_2 _let_117 tptp.volt_0) (tptp.greater_than_or_equal_to_2 _let_115 _let_117) (tptp.voltage_2 _let_116 _let_115) (tptp.inversely_proportional_2 _let_114 _let_113) (tptp.path_2 _let_86 _let_72) (tptp.object_2 _let_26 _let_112) (tptp.object_2 _let_26 _let_29) (tptp.object_2 _let_11 _let_29) (tptp.object_2 _let_23 _let_29) (tptp.object_2 _let_11 _let_3) (tptp.object_2 _let_21 _let_29) (tptp.object_2 _let_93 _let_110) (tptp.object_2 _let_105 _let_108) (tptp.agent_2 _let_105 _let_1) (tptp.object_2 _let_102 _let_104) (tptp.object_2 _let_99 _let_101) (tptp.object_2 _let_96 _let_98) (tptp.object_2 _let_18 _let_7) (tptp.base_2 _let_93 _let_95) (tptp.is_impermeable_to_2 X _let_92) (tptp.object_2 _let_88 _let_92) (tptp.is_permeable_to_2 X _let_89) (tptp.object_2 _let_86 _let_89) (not (= _let_91 _let_89)) (not (= _let_89 _let_91)) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_7) (tptp.has_function_2 X _let_86) (tptp.base_2 _let_86 X) (tptp.plays_2 X _let_87) (tptp.in_event_2 _let_87 _let_88) (not (= _let_43 _let_61)) (not (= _let_61 _let_43)) (tptp.has_part_2 _let_3 _let_61) (tptp.has_region_2 _let_3 _let_62) (tptp.is_at_2 _let_64 _let_62) (tptp.has_part_2 _let_3 _let_64) (not (= _let_50 _let_43)) (tptp.is_at_2 _let_50 _let_38) (not (= _let_43 _let_50)) (tptp.has_part_2 _let_3 _let_43) (tptp.has_region_2 _let_3 _let_41) (tptp.is_at_2 _let_41 _let_62) (not (= _let_35 _let_37)) (tptp.is_inside_2 _let_50 _let_57) (tptp.has_part_2 _let_3 _let_50) (tptp.has_part_2 _let_3 _let_35) (not (= _let_37 _let_35)) (tptp.has_part_2 _let_3 _let_37) (tptp.facilitates_2 _let_38 _let_39) (tptp.has_region_2 _let_3 _let_38) (tptp.possesses_2 _let_3 _let_45) (tptp.is_between_2 _let_45 _let_61) (tptp.is_inside_2 _let_61 _let_41) (tptp.directly_proportional_2 _let_52 _let_47) (tptp.quantity_2 _let_59 _let_47) (tptp.possesses_2 _let_3 _let_59) (tptp.agent_2 _let_39 _let_3) (tptp.has_function_2 _let_3 _let_39) (tptp.has_region_2 _let_3 _let_57) (tptp.object_2 _let_56 _let_3) (tptp.speed_2 _let_56 _let_52) (tptp.has_region_2 _let_3 _let_54) (tptp.is_between_2 _let_45 _let_50) (tptp.called_2 _let_45 |tptp.'EL1'|) (tptp.is_inside_2 _let_43 _let_41) (tptp.site_2 _let_39 _let_38) (tptp.called_2 _let_37 |"2"|) (tptp.called_2 _let_35 |"1"|) (tptp.has_region_2 _let_70 _let_76) (tptp.is_between_2 _let_72 _let_76) (tptp.is_between_2 _let_72 _let_68) (tptp.has_region_2 _let_66 _let_68) (tptp.has_region_2 _let_7 _let_66) (tptp.is_along_2 _let_70 _let_66) (tptp.is_inside_2 _let_74 _let_76) (tptp.is_at_2 _let_74 _let_76) (tptp.has_region_2 _let_29 _let_74) (tptp.element_2 _let_70 _let_29) (tptp.is_along_2 _let_66 _let_70) (tptp.abuts_2 _let_73 _let_38) (tptp.abuts_2 _let_38 _let_73) (tptp.has_region_2 _let_29 _let_73) (tptp.has_region_2 _let_7 _let_72) (tptp.has_region_2 _let_7 _let_70) (tptp.is_inside_2 _let_62 _let_68) (tptp.element_2 _let_66 _let_3) (tptp.has_part_2 _let_29 _let_80) (tptp.is_between_2 _let_78 _let_80) (tptp.possesses_2 _let_29 _let_78) (tptp.called_2 _let_78 |tptp.'EL1'|) (tptp.has_part_2 _let_29 _let_85) (= _let_112 _let_111) (= _let_29 _let_27) (= _let_29 _let_25) (= _let_29 _let_24) (= _let_3 _let_12) (= _let_29 _let_22) (= _let_110 _let_109) (= _let_108 _let_107) (= _let_1 _let_106) (= _let_104 _let_103) (= _let_101 _let_100) (= _let_98 _let_97) (= _let_7 _let_19) (= _let_95 _let_94) (= _let_92 _let_90) (= _let_91 _let_90) (= _let_89 (tptp.fn_membrane_4 X)) (= _let_7 _let_17) (= X _let_2) (= _let_88 (tptp.fn_membrane_2 X)) (= _let_87 (tptp.fn_membrane_1 X)) (= _let_86 (tptp.fn_membrane_3 X)) (= _let_85 _let_84) (= (tptp.fn_biomembrane_76 X) _let_83) (= _let_82 _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_74 _let_33) (= _let_74 _let_32) (= _let_38 _let_8) (= _let_73 _let_31) (= _let_73 _let_30) (= _let_29 _let_20) (= _let_73 _let_28) (= _let_72 _let_71) (= _let_70 _let_69) (= _let_62 _let_16) (= _let_68 _let_67) (= _let_66 _let_65) (= _let_3 _let_10) (= _let_64 _let_63) (= _let_62 _let_15) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_14) (= _let_57 _let_13) (= _let_56 _let_55) (= _let_54 _let_9) (= (tptp.fn_biomembrane_104 X) _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= (tptp.fn_biomembrane_103 X) _let_48) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_5) (= _let_38 _let_9) (= _let_39 _let_4) (= _let_38 _let_6) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_32 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_28 _let_28) (= _let_28 _let_30) (= _let_30 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biomembrane_containing_double_lipid_bilayer_3 X))) (let ((_let_2 (tptp.fn_intermembrane_space_1 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_containing_double_lipid_bilayer_1 X))) (let ((_let_4 (tptp.fn_intermembrane_space_2 _let_1))) (let ((_let_5 (tptp.fn_biomembrane_containing_double_lipid_bilayer_2 X))) (=> (tptp.biomembrane_containing_double_lipid_bilayer_1 X) (and (tptp.original_name_2 X |tptp.'Biomembrane-Containing-Double-Lipid-Bilayer'|) (tptp.user_description_2 X |tptp.'Biomembrane consisting of inner and outer membrane (each their own lipid bilayer).'|) (tptp.concept2words_2 X |tptp.'double membrane'|) (tptp.concept2words_2 X |tptp.'biomembrane containing double lipid bilayer'|) (tptp.concept2words_2 X |tptp.'biomembrane-containing-double-lipid-bilayer'|) (tptp.biomembrane_1 X) (tptp.outer_membrane_1 _let_3) (tptp.inner_membrane_1 _let_5) (tptp.intermembrane_space_1 _let_1) (tptp.inner_membrane_1 _let_4) (tptp.outer_membrane_1 _let_2) (tptp.has_region_2 X _let_1) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.phospholipid_bilayer_0) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_5) (tptp.is_between_2 _let_1 _let_5) (tptp.is_between_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.biomolecular_process_1 X) (and (tptp.original_name_2 X |tptp.'Biomolecular-Process'|) (tptp.user_description_2 X |tptp.'A process occuring within molecules that carry out the functions of life.'|) (tptp.concept2words_2 X |tptp.'biomolecular process'|) (tptp.concept2words_2 X |tptp.'biomolecular-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biophilia_1 X) (and (tptp.original_name_2 X |tptp.'Biophilia'|) (tptp.user_description_2 X |tptp.'A state of appreciation for living things.'|) (tptp.concept2words_2 X tptp.biophilia) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bioremediation_4 X))) (let ((_let_2 (tptp.fn_toxin_1 _let_1))) (let ((_let_3 (tptp.fn_bioremediation_5 X))) (let ((_let_4 (tptp.fn_remove_1 _let_3))) (let ((_let_5 (tptp.fn_bioremediation_2 X))) (let ((_let_6 (tptp.fn_collecting_1 _let_5))) (let ((_let_7 (tptp.fn_bioremediation_3 X))) (let ((_let_8 (tptp.fn_bioremediation_1 X))) (=> (tptp.bioremediation_1 X) (and (tptp.original_name_2 X |tptp.'Bioremediation'|) (tptp.user_description_2 X |tptp.'The use of organisms_' biochemical processes to removed pollutants from the environment and restore health to an ecosystem.'|) (tptp.concept2words_2 X |tptp.'perform bioremediation'|) (tptp.concept2words_2 X tptp.bioremediation) (tptp.biomanipulation_1 X) (tptp.organism_1 _let_8) (tptp.collecting_1 _let_5) (tptp.chemical_entity_1 _let_7) (tptp.toxin_1 _let_1) (tptp.remove_1 _let_3) (tptp.entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 _let_3 _let_8) (tptp.subevent_2 X _let_5) (tptp.by_means_of_2 X _let_3) (tptp.agent_2 X _let_8) (tptp.base_2 _let_5 _let_8) (tptp.agent_2 _let_5 _let_8) (tptp.object_2 _let_5 _let_7) (tptp.object_2 _let_3 _let_7) (tptp.plays_2 _let_7 _let_1) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biosphere_4 X))) (let ((_let_2 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_3 (tptp.fn_biosphere_2 X))) (let ((_let_4 (tptp.fn_ecosystem_15 _let_3))) (let ((_let_5 (tptp.fn_ecosystem_16 _let_3))) (let ((_let_6 (tptp.fn_ecosystem_31 _let_3))) (let ((_let_7 (tptp.fn_biosphere_5 X))) (let ((_let_8 (tptp.fn_biosphere_3 X))) (let ((_let_9 (tptp.fn_biosphere_6 X))) (let ((_let_10 (tptp.fn_chloroplast_79 _let_9))) (let ((_let_11 (tptp.fn_biosphere_1 X))) (=> (tptp.biosphere_1 X) (and (tptp.original_name_2 X |tptp.'Biosphere'|) (tptp.user_description_2 X |tptp.'The global sum of all ecosystems on Earth.'|) (tptp.concept2words_2 X tptp.biosphere) (tptp.aggregate_1 X) (tptp.geographic_region_1 X) (tptp.landscape_1 _let_11) (tptp.ecosystem_1 _let_3) (tptp.tangible_entity_1 _let_8) (tptp.algae_1 _let_8) (tptp.photosynthesis_1 _let_1) (tptp.metabolic_pathway_1 _let_1) (tptp.algal_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.chloroplast_1 _let_9) (tptp.photosynthesis_1 _let_10) (tptp.tangible_entity_1 _let_6) (tptp.algae_1 _let_5) (tptp.algal_cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.minCardinality X tptp.element_0 |"1"| tptp.ecosystem_0) (tptp.minCardinality X tptp.element_0 |"1"| tptp.landscape_0) (tptp.element_2 X _let_11) (tptp.element_2 X _let_3) (tptp.has_part_2 _let_7 _let_9) (tptp.has_function_2 _let_9 _let_1) (tptp.site_2 _let_1 _let_9) (tptp.element_2 _let_3 _let_8) (tptp.has_part_2 _let_8 _let_7) (tptp.base_2 _let_1 _let_7) (= _let_1 _let_10) (= _let_7 _let_4) (= _let_8 _let_6) (= _let_8 _let_5) (= _let_7 _let_2) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_biotechnology_2 X))) (let ((_let_2 (tptp.fn_biotechnology_4 X))) (let ((_let_3 (tptp.fn_biotechnology_3 X))) (let ((_let_4 (tptp.fn_biotechnology_1 X))) (=> (tptp.biotechnology_1 X) (and (tptp.original_name_2 X |tptp.'Biotechnology'|) (tptp.user_description_2 X |tptp.'The manipulation of organisms or their components to produce useful products.'|) (tptp.concept2words_2 X |tptp.'perform biotechnology'|) (tptp.concept2words_2 X tptp.biotechnology) (tptp.engineering_1 X) (tptp.living_entity_1 _let_4) (tptp.change_1 _let_1) (tptp.living_entity_1 _let_3) (tptp.genome_1 _let_2) (tptp.result_2 _let_1 _let_4) (tptp.object_2 _let_1 _let_2) (tptp.base_2 _let_1 _let_3) (tptp.has_part_2 _let_3 _let_2) (tptp.by_means_of_2 X _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.bioterrorism_1 X) (and (tptp.original_name_2 X |tptp.'Bioterrorism'|) (tptp.user_description_2 X |tptp.'The deliberate release of pathogens or toxins into the environment, to cause fear or terror in individuals or populations.'|) (tptp.concept2words_2 X tptp.bioterrorism) (tptp.human_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biotic_boundary_1 X) (and (tptp.original_name_2 X |tptp.'Biotic-Boundary'|) (tptp.user_description_2 X |tptp.'The geographic area needed to sustain a particular organism, as opposed to a legal or political boundary.'|) (tptp.concept2words_2 X |tptp.'biotic boundary'|) (tptp.concept2words_2 X |tptp.'biotic-boundary'|) (tptp.ecological_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.biotic_factor_1 X) (and (tptp.original_name_2 X |tptp.'Biotic-Factor'|) (tptp.user_description_2 X |tptp.'Any living thing that affects other living things in an ecosystem.'|) (tptp.concept2words_2 X |tptp.'biotic factor'|) (tptp.concept2words_2 X |tptp.'biotic-factor'|) (tptp.ecological_role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bipedalism_1 X) (and (tptp.original_name_2 X |tptp.'Bipedalism'|) (tptp.user_description_2 X |tptp.'The ability or practice of walking on two legs.'|) (tptp.concept2words_2 X tptp.bipedalism) (tptp.locomotion_1 X) (not (tptp.flight_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bipolar_cell_1 X) (and (tptp.original_name_2 X |tptp.'Bipolar-Cell'|) (tptp.user_description_2 X |tptp.'A neuron of the retina that sits between photoreceptor cells and ganglion cells, and transmits signals from the former to the latter.'|) (tptp.concept2words_2 X |tptp.'bipolar cell'|) (tptp.concept2words_2 X |tptp.'bipolar-cell'|) (tptp.sensory_neuron_1 X) (not (tptp.amacrine_cell_1 X)) (not (tptp.ganglion_cell_1 X)) (not (tptp.horizontal_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bipolar_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Bipolar-Disorder'|) (tptp.user_description_2 X |tptp.'A depressive mental illness characterized by swings of mood from high to low; also called manic-depressive disorder.'|) (tptp.concept2words_2 X |tptp.'bipolar disorder'|) (tptp.concept2words_2 X |tptp.'bipolar-disorder'|) (tptp.mental_or_brain_disorder_1 X) (not (tptp.alzheimers_disease_1 X)) (not (tptp.creutzfeldt_jacob_disease_1 X)) (not (tptp.major_depression_1 X)) (not (tptp.multiple_sclerosis_1 X)) (not (tptp.parkinsons_disease_1 X)) (not (tptp.schizophrenia_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_vertebrate_25 X))) (let ((_let_2 (tptp.fn_animal_19 X))) (let ((_let_3 (tptp.fn_vertebrate_23 X))) (let ((_let_4 (tptp.fn_animal_8 X))) (let ((_let_5 (tptp.fn_vertebrate_24 X))) (let ((_let_6 (tptp.fn_animal_12 X))) (let ((_let_7 (tptp.fn_bird_44 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_bird_43 X))) (let ((_let_10 (tptp.fn_amino_acid_11 _let_9))) (let ((_let_11 (tptp.fn_amino_acid_27 _let_9))) (let ((_let_12 (tptp.fn_amino_acid_22 _let_9))) (let ((_let_13 (tptp.fn_amino_acid_28 _let_9))) (let ((_let_14 (tptp.fn_bird_38 X))) (let ((_let_15 (tptp.fn_bird_40 X))) (let ((_let_16 (tptp.fn_bird_37 X))) (let ((_let_17 (tptp.fn_bird_13 X))) (let ((_let_18 (tptp.fn_bird_39 X))) (let ((_let_19 (tptp.fn_bird_30 X))) (let ((_let_20 (tptp.fn_bird_14 X))) (let ((_let_21 (tptp.fn_bird_10 X))) (let ((_let_22 (tptp.fn_bird_36 X))) (let ((_let_23 (tptp.fn_bird_28 X))) (let ((_let_24 (tptp.fn_bird_33 X))) (let ((_let_25 (tptp.fn_bird_31 X))) (let ((_let_26 (tptp.fn_bird_11 X))) (let ((_let_27 (tptp.fn_bird_32 X))) (let ((_let_28 (tptp.fn_bird_34 X))) (let ((_let_29 (tptp.fn_bird_18 X))) (let ((_let_30 (tptp.fn_bird_26 X))) (let ((_let_31 (tptp.fn_bird_20 X))) (let ((_let_32 (tptp.fn_bird_12 X))) (let ((_let_33 (tptp.fn_bird_21 X))) (let ((_let_34 (tptp.fn_bird_24 X))) (let ((_let_35 (tptp.fn_bird_49 X))) (let ((_let_36 (tptp.fn_bird_35 X))) (let ((_let_37 (tptp.fn_bird_27 X))) (let ((_let_38 (tptp.fn_bird_29 X))) (let ((_let_39 (tptp.fn_bird_47 X))) (let ((_let_40 (tptp.fn_bird_46 X))) (let ((_let_41 (tptp.fn_bird_25 X))) (let ((_let_42 (tptp.fn_bird_22 X))) (let ((_let_43 (tptp.fn_bird_15 X))) (let ((_let_44 (tptp.fn_bird_17 X))) (let ((_let_45 (tptp.fn_bird_16 X))) (let ((_let_46 (tptp.fn_bird_45 X))) (let ((_let_47 (tptp.fn_bird_48 X))) (let ((_let_48 (tptp.fn_bird_42 X))) (let ((_let_49 (tptp.fn_bird_41 X))) (let ((_let_50 (tptp.fn_bulk_feeder_3 _let_49))) (let ((_let_51 (tptp.fn_bird_19 X))) (let ((_let_52 (tptp.fn_enzyme_5 _let_51))) (let ((_let_53 (tptp.fn_bird_23 X))) (let ((_let_54 (tptp.fn_enzyme_5 _let_42))) (let ((_let_55 (tptp.fn_bird_1 X))) (let ((_let_56 (tptp.fn_bird_2 X))) (let ((_let_57 (tptp.fn_bird_3 X))) (let ((_let_58 (tptp.fn_bird_4 X))) (let ((_let_59 (tptp.fn_bird_5 X))) (=> (tptp.bird_1 X) (and (tptp.original_name_2 X |tptp.'Bird'|) (tptp.user_description_2 X 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_let_35) (tptp.decrease_1 _let_54) (tptp.decrease_1 _let_52) (tptp.animal_1 _let_50) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.hydrogen_1 _let_12) (tptp.oxygen_1 _let_11) (tptp.oxygen_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.is_specific_to_2 _let_51 _let_33) (tptp.is_specific_to_2 _let_42 _let_41) (tptp.base_2 _let_59 X) (tptp.result_2 _let_59 _let_57) (tptp.raw_material_2 _let_59 _let_58) (tptp.quantity_2 _let_58 _let_55) (tptp.age_2 _let_57 _let_56) (tptp.the_scalar_value_2 _let_56 tptp.young_0) (tptp.scalar_unit_class_2 _let_56 tptp.specialised_organ_0) (tptp.the_scalar_value_2 _let_55 tptp.high_0) (tptp.scalar_unit_class_2 _let_55 tptp.protein_0) (tptp.element_2 _let_16 _let_38) (tptp.object_2 _let_7 _let_46) (tptp.object_2 _let_7 _let_40) (not (= _let_45 _let_44)) (not (= _let_44 _let_45)) (tptp.has_function_2 _let_42 _let_53) (tptp.has_function_2 _let_51 _let_53) (tptp.plays_2 X _let_49) (tptp.result_2 _let_29 _let_47) (tptp.has_part_2 _let_47 _let_48) (tptp.has_part_2 _let_48 _let_9) (tptp.has_part_2 _let_39 _let_46) (not (= _let_40 _let_46)) (not (= _let_46 _let_40)) (tptp.has_part_2 _let_9 _let_45) (tptp.has_part_2 _let_9 _let_44) (tptp.has_part_2 _let_9 _let_43) (not (= _let_44 _let_43)) (not (= _let_43 _let_44)) (not (= _let_45 _let_43)) (not (= _let_43 _let_45)) (tptp.has_part_2 X _let_20) (tptp.has_part_2 X _let_17) (tptp.agent_2 _let_35 _let_42) (not (= _let_34 _let_41)) (not (= _let_41 _let_34)) (tptp.result_2 _let_29 _let_39) (tptp.has_part_2 _let_39 _let_40) (tptp.enables_2 _let_30 _let_36) (tptp.base_2 _let_30 _let_16) (tptp.correspondence_2 _let_37 _let_23) (tptp.temperature_2 X _let_37) (tptp.has_part_2 X _let_38) (tptp.result_2 _let_35 _let_33) (tptp.raw_material_2 _let_35 _let_31) (tptp.object_2 _let_36 _let_31) (tptp.path_2 _let_36 X) (tptp.has_part_2 X _let_19) (tptp.path_2 _let_30 X) (tptp.object_2 _let_30 _let_31) (tptp.raw_material_2 _let_32 _let_31) (tptp.result_2 _let_32 _let_33) (not (= _let_33 _let_34)) (not (= _let_34 _let_33)) (tptp.plays_2 X _let_28) (tptp.in_event_2 _let_28 _let_29) (tptp.agent_2 _let_29 X) (tptp.has_part_2 X _let_18) (tptp.element_2 _let_14 _let_18) (tptp.agent_2 _let_26 X) (tptp.object_2 _let_26 X) (tptp.has_part_2 X _let_27) (tptp.element_2 _let_16 _let_27) (tptp.element_2 _let_16 _let_19) (tptp.element_2 _let_16 _let_24) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_25) (tptp.element_2 _let_16 _let_25) (tptp.element_2 _let_16 _let_20) (tptp.base_2 _let_21 X) (tptp.agent_2 _let_21 X) (tptp.has_part_2 X _let_22) (tptp.specific_heat_2 _let_22 _let_23) (tptp.next_element_2 _let_18 _let_15) (tptp.abuts_2 _let_18 _let_19) (tptp.next_element_2 _let_19 _let_17) (tptp.abuts_2 _let_19 _let_18) (tptp.abuts_2 _let_20 _let_17) (tptp.abuts_2 _let_17 _let_20) (tptp.has_region_2 X _let_14) (tptp.element_2 _let_14 _let_15) (tptp.has_part_2 X _let_15) (tptp.has_region_2 X _let_16) (tptp.element_2 _let_16 _let_17) (= _let_40 _let_8) (= _let_45 _let_13) (= _let_53 _let_54) (= _let_53 _let_52) (= X _let_50) (= _let_9 (tptp.fn_animal_14 X)) (= _let_48 (tptp.fn_animal_15 X)) (= _let_47 (tptp.fn_animal_7 X)) (= _let_40 _let_6) (= _let_46 (tptp.fn_animal_17 X)) (= _let_44 _let_11) (= _let_45 _let_12) (= _let_44 _let_10) (= _let_43 _let_13) (= _let_42 (tptp.fn_vertebrate_20 X)) (= (tptp.fn_bird_8 X) (tptp.fn_vertebrate_60 X)) (= _let_41 (tptp.fn_vertebrate_3 X)) (= _let_40 _let_5) (= _let_39 _let_4) (= _let_39 _let_3) (= _let_38 (tptp.fn_vertebrate_41 X)) (= _let_37 (tptp.fn_vertebrate_55 X)) (= _let_36 (tptp.fn_vertebrate_34 X)) (= _let_35 (tptp.fn_vertebrate_47 X)) (= _let_34 (tptp.fn_vertebrate_2 X)) (= _let_33 (tptp.fn_vertebrate_53 X)) (= _let_32 (tptp.fn_vertebrate_48 X)) (= _let_31 (tptp.fn_vertebrate_35 X)) (= _let_30 (tptp.fn_vertebrate_33 X)) (= _let_29 _let_2) (= _let_29 _let_1) (= _let_28 (tptp.fn_vertebrate_56 X)) (= _let_27 (tptp.fn_vertebrate_16 X)) (= _let_26 (tptp.fn_vertebrate_59 X)) (= _let_25 (tptp.fn_vertebrate_15 X)) (= _let_24 (tptp.fn_vertebrate_17 X)) (= (tptp.fn_bird_9 X) (tptp.fn_vertebrate_61 X)) (= _let_23 (tptp.fn_vertebrate_54 X)) (= _let_22 (tptp.fn_vertebrate_57 X)) (= _let_21 (tptp.fn_vertebrate_58 X)) (= _let_20 (tptp.fn_vertebrate_18 X)) (= _let_19 (tptp.fn_vertebrate_19 X)) (= _let_18 (tptp.fn_vertebrate_4 X)) (= _let_17 (tptp.fn_vertebrate_26 X)) (= _let_16 (tptp.fn_vertebrate_40 X)) (= _let_15 (tptp.fn_vertebrate_5 X)) (= _let_14 (tptp.fn_vertebrate_6 X)) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bird_digestive_system_1 X) (and (tptp.original_name_2 X |tptp.'Bird-Digestive-System'|) (tptp.user_description_2 X |tptp.'A system of organs in a bird_'s body which is responsible for the digestion and absorption of nutrients from food.'|) (tptp.concept2words_2 X |tptp.'bird digestive system'|) (tptp.concept2words_2 X |tptp.'bird-digestive-system'|) (tptp.digestive_system_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bird_homeotic_gene_2 X))) (let ((_let_2 (tptp.fn_bird_homeotic_gene_1 X))) (=> (tptp.bird_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Bird-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in birds.'|) (tptp.concept2words_2 X |tptp.'bird homeotic gene'|) (tptp.concept2words_2 X |tptp.'bird-homeotic-gene'|) (tptp.vertebrate_homeotic_gene_1 X) (tptp.bird_1 _let_2) (tptp.animal_development_1 _let_1) (tptp.agent_2 _let_1 X) (tptp.experiencer_2 _let_1 _let_2) (= _let_2 (tptp.fn_vertebrate_homeotic_gene_18 X)) (= _let_1 (tptp.fn_vertebrate_homeotic_gene_20 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bird_limb_development_26 X))) (let ((_let_2 (tptp.fn_apoptosis_64 _let_1))) (let ((_let_3 (tptp.fn_apoptosis_7 _let_1))) (let ((_let_4 (tptp.fn_bird_limb_development_23 X))) (let ((_let_5 (tptp.fn_intracellular_digestion_11 _let_4))) (let ((_let_6 (tptp.fn_bird_limb_development_30 X))) (let ((_let_7 (tptp.fn_blebbing_1 _let_6))) (let ((_let_8 (tptp.fn_bird_limb_development_24 X))) (let ((_let_9 (tptp.fn_animal_cell_56 _let_8))) (let ((_let_10 (tptp.fn_apoptosis_62 _let_1))) (let ((_let_11 (tptp.fn_animal_cell_79 _let_8))) (let ((_let_12 (tptp.fn_eukaryotic_cell_31 _let_8))) (let ((_let_13 (tptp.fn_apoptosis_55 _let_1))) (let ((_let_14 (tptp.fn_animal_cell_71 _let_8))) (let ((_let_15 (tptp.fn_apoptosis_61 _let_1))) (let ((_let_16 (tptp.fn_apoptosis_48 _let_1))) (let ((_let_17 (tptp.fn_apoptosis_21 _let_1))) (let ((_let_18 (tptp.fn_apoptosis_51 _let_1))) (let ((_let_19 (tptp.fn_apoptosis_20 _let_1))) (let ((_let_20 (tptp.fn_animal_cell_57 _let_8))) (let ((_let_21 (tptp.fn_bird_limb_development_18 X))) (let ((_let_22 (tptp.fn_bird_limb_development_19 X))) (let ((_let_23 (tptp.fn_bird_limb_development_21 X))) (let ((_let_24 (tptp.fn_bird_limb_development_17 X))) (let ((_let_25 (tptp.fn_animal_cell_49 _let_8))) (let ((_let_26 (tptp.fn_animal_cell_50 _let_8))) (let ((_let_27 (tptp.fn_apoptosis_43 _let_1))) (let ((_let_28 (tptp.fn_bird_limb_development_25 X))) (let ((_let_29 (tptp.fn_apoptosis_50 _let_1))) (let ((_let_30 (tptp.fn_apoptosis_42 _let_1))) (let ((_let_31 (tptp.fn_apoptosis_49 _let_1))) (let ((_let_32 (tptp.fn_bird_limb_development_29 X))) (let ((_let_33 (tptp.fn_bird_limb_development_6 X))) (let ((_let_34 (tptp.fn_bird_limb_development_7 X))) (let ((_let_35 (tptp.fn_apoptosis_32 _let_1))) (let ((_let_36 (tptp.fn_bird_limb_development_28 X))) (let ((_let_37 (tptp.fn_apoptosis_33 _let_1))) (let ((_let_38 (tptp.fn_bird_limb_development_27 X))) (let ((_let_39 (tptp.fn_apoptosis_44 _let_1))) (let ((_let_40 (tptp.fn_bird_limb_development_20 X))) (let ((_let_41 (tptp.fn_bird_limb_development_35 X))) (let ((_let_42 (tptp.fn_bird_limb_development_34 X))) (let ((_let_43 (tptp.fn_bird_limb_development_33 X))) (let ((_let_44 (tptp.fn_bird_limb_development_8 X))) (let ((_let_45 (tptp.fn_bird_limb_development_9 X))) (let ((_let_46 (tptp.fn_eukaryotic_cell_29 _let_8))) (let ((_let_47 (tptp.fn_bird_limb_development_22 X))) (let ((_let_48 (tptp.fn_apoptosis_57 _let_1))) (let ((_let_49 (tptp.fn_bird_limb_development_16 X))) (let ((_let_50 (tptp.fn_apoptosis_53 _let_1))) (let ((_let_51 (tptp.fn_bird_limb_development_15 X))) (let ((_let_52 (tptp.fn_apoptosis_56 _let_1))) (let ((_let_53 (tptp.fn_bird_limb_development_11 X))) (let ((_let_54 (tptp.fn_apoptosis_54 _let_1))) (let ((_let_55 (tptp.fn_bird_limb_development_12 X))) (let ((_let_56 (tptp.fn_apoptosis_1 _let_1))) (let ((_let_57 (tptp.fn_bird_limb_development_14 X))) (let ((_let_58 (tptp.fn_apoptosis_13 _let_1))) (let ((_let_59 (tptp.fn_bird_limb_development_13 X))) (let ((_let_60 (tptp.fn_apoptosis_8 _let_1))) (let ((_let_61 (tptp.fn_bird_limb_development_10 X))) (let ((_let_62 (tptp.fn_bird_limb_development_1 X))) (let ((_let_63 (tptp.fn_bird_limb_development_2 X))) (let ((_let_64 (tptp.fn_bird_limb_development_5 X))) (let ((_let_65 (tptp.fn_bird_limb_development_3 X))) (=> (tptp.bird_limb_development_1 X) (and (tptp.original_name_2 X |tptp.'Bird-Limb-Development'|) (tptp.user_description_2 X |tptp.'The processes which direct the formation of the limbs during the embryonic development of a bird.'|) (tptp.concept2words_2 X |tptp.'bird limb development'|) (tptp.concept2words_2 X |tptp.'bird-limb-development'|) (tptp.limb_development_1 X) (tptp.shape_value_1 _let_62) (tptp.biological_region_1 _let_63) (tptp.toe_1 _let_65) (tptp.bird_1 _let_64) (tptp.destroy_1 _let_33) (tptp.cellular_structure_1 _let_34) (tptp.organelle_1 _let_34) (tptp.toe_1 _let_44) (tptp.animal_embryo_1 _let_45) (tptp.dna_polymerase_iii_1 _let_61) (tptp.aqueous_solution_1 _let_53) (tptp.aqueous_solution_1 _let_55) (tptp.hydrophilic_face_1 _let_59) (tptp.hydrophilic_face_1 _let_57) (tptp.nuclear_membrane_1 _let_51) (tptp.er_membrane_1 _let_49) (tptp.protein_enzyme_1 _let_24) (tptp.size_value_1 _let_21) (tptp.volume_value_1 _let_22) (tptp.entity_1 _let_40) (tptp.tangible_entity_1 _let_40) (tptp.vesicle_1 _let_40) (tptp.mixture_1 _let_23) (tptp.cytoplasm_1 _let_23) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.plasma_membrane_1 _let_47) (tptp.intracellular_digestion_1 _let_4) (tptp.tangible_entity_1 _let_8) (tptp.cell_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.animal_cell_1 _let_8) (tptp.produce_1 _let_28) (tptp.apoptosis_1 _let_1) (tptp.eukaryotic_cell_1 _let_38) (tptp.damage_1 _let_36) (tptp.contract_1 _let_32) (tptp.blebbing_1 _let_6) (tptp.biological_region_1 _let_43) (tptp.interdigital_tissue_1 _let_42) (tptp.destroy_1 _let_41) (tptp.dna_polymerase_iii_1 _let_60) (tptp.hydrophilic_face_1 _let_58) (tptp.hydrophilic_face_1 _let_56) (tptp.aqueous_solution_1 _let_54) (tptp.aqueous_solution_1 _let_52) (tptp.nuclear_membrane_1 _let_50) (tptp.er_membrane_1 _let_48) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.entity_1 _let_39) (tptp.tangible_entity_1 _let_39) (tptp.vesicle_1 _let_39) (tptp.eukaryotic_cell_1 _let_37) (tptp.damage_1 _let_35) (tptp.contract_1 _let_31) (tptp.blebbing_1 _let_30) (tptp.intracellular_digestion_1 _let_29) (tptp.produce_1 _let_27) (tptp.property_node_1 _let_26) (tptp.property_node_1 _let_25) (tptp.size_value_1 _let_20) (tptp.cellular_structure_1 _let_19) (tptp.organelle_1 _let_18) (tptp.destroy_1 _let_17) (tptp.destroy_1 _let_16) (tptp.protein_enzyme_1 _let_15) (tptp.protein_enzyme_1 _let_14) (tptp.mixture_1 _let_13) (tptp.cytoplasm_1 _let_13) (tptp.mixture_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.mixture_1 _let_11) (tptp.cytoplasm_1 _let_11) (tptp.volume_value_1 _let_10) (tptp.volume_value_1 _let_9) (tptp.cell_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.eukaryotic_cell_1 _let_5) (tptp.cell_1 _let_5) (tptp.eukaryotic_cell_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.cell_1 _let_2) (tptp.is_between_2 _let_43 _let_65) (tptp.base_2 _let_28 _let_8) (tptp.has_function_2 _let_40 _let_4) (tptp.the_categorical_value_2 _let_62 tptp.flat_0) (tptp.has_region_2 _let_45 _let_63) (tptp.has_state_2 _let_45 _let_64) (tptp.shape_2 _let_63 _let_62) (tptp.result_2 _let_6 _let_8) (tptp.base_2 _let_4 _let_8) (tptp.object_2 _let_1 _let_8) (tptp.is_near_2 _let_38 _let_8) (tptp.is_near_2 _let_8 _let_38) (tptp.has_part_2 _let_8 _let_40) (tptp.base_2 _let_32 _let_8) (tptp.base_2 _let_33 _let_8) (tptp.base_2 _let_6 _let_8) (tptp.has_part_2 _let_8 _let_34) (tptp.has_part_2 _let_8 _let_47) (tptp.is_inside_2 _let_23 _let_47) (tptp.is_between_2 _let_23 _let_47) (tptp.base_2 X _let_45) (tptp.by_means_of_2 X _let_1) (tptp.causes_2 _let_1 _let_41) (tptp.object_2 _let_41 _let_42) (tptp.is_inside_2 _let_42 _let_43) (tptp.is_between_2 _let_43 _let_44) (tptp.from_value_2 _let_32 _let_22) (tptp.result_2 _let_28 _let_40) (tptp.prevents_2 _let_1 _let_36) (tptp.object_2 _let_36 _let_38) (tptp.next_event_2 _let_32 _let_6) (tptp.subevent_2 _let_1 _let_32) (tptp.subevent_2 _let_1 _let_33) (tptp.object_2 _let_33 _let_34) (tptp.subevent_2 _let_1 _let_28) (tptp.next_event_2 _let_28 _let_4) (tptp.subevent_2 _let_1 _let_4) (tptp.subevent_2 _let_1 _let_6) (tptp.next_event_2 _let_6 _let_28) (tptp.size_2 _let_8 _let_21) (tptp.directly_proportional_2 _let_21 _let_22) (tptp.volume_2 _let_8 _let_22) (tptp.has_part_2 _let_8 _let_23) (tptp.has_part_2 _let_23 _let_24) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_8 _let_3) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_49 _let_48) (= _let_23 _let_12) (= _let_47 _let_46) (= _let_45 (tptp.fn_limb_development_11 X)) (= _let_44 (tptp.fn_limb_development_1 X)) (= _let_43 (tptp.fn_limb_development_9 X)) (= _let_42 (tptp.fn_limb_development_14 X)) (= _let_41 (tptp.fn_limb_development_13 X)) (= _let_1 (tptp.fn_limb_development_10 X)) (= _let_22 _let_10) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_19) (= _let_34 _let_18) (= _let_33 _let_17) (= _let_33 _let_16) (= _let_32 _let_31) (= _let_6 _let_30) (= _let_4 _let_29) (= _let_28 _let_27) (= (tptp.fn_bird_limb_development_31 X) _let_26) (= (tptp.fn_bird_limb_development_32 X) _let_25) (= _let_24 _let_15) (= _let_24 _let_14) (= _let_8 _let_2) (= _let_23 _let_13) (= _let_23 _let_11) (= _let_22 _let_9) (= _let_21 _let_20) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bird_song_1 X) (and (tptp.original_name_2 X |tptp.'Bird-Song'|) (tptp.user_description_2 X |tptp.'Vocalizations used by birds to mark territory and advertise for mates.'|) (tptp.concept2words_2 X |tptp.'song of bird'|) (tptp.concept2words_2 X |tptp.'bird song'|) (tptp.concept2words_2 X |tptp.'bird-song'|) (tptp.language_1 X) (not (tptp.natural_language_1 X))))) (forall ((X $$unsorted)) (=> (tptp.birth_control_1 X) (and (tptp.original_name_2 X |tptp.'Birth-Control'|) (tptp.user_description_2 X |tptp.'The use of medications, devices, or sexual practices to prevent or reduce the probability of conception and pregnancy.'|) (tptp.concept2words_2 X |tptp.'control of birth'|) (tptp.concept2words_2 X |tptp.'birth control'|) (tptp.concept2words_2 X |tptp.'birth-control'|) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.birth_control_pill_1 X) (and (tptp.original_name_2 X |tptp.'Birth-Control-Pill'|) (tptp.user_description_2 X |tptp.'A pill containing estrogen and/or progesterone that, when taken correctly, inhibits ovulation and thus acts an a contraceptive.'|) (tptp.concept2words_2 X |tptp.'birth control pill'|) (tptp.concept2words_2 X |tptp.'birth-control-pill'|) (tptp.prezygotic_barrier_1 X) (not (tptp.reproductive_barrier_method_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bismuth_9 X))) (let ((_let_2 (tptp.fn_bismuth_12 X))) (let ((_let_3 (tptp.fn_bismuth_10 X))) (let ((_let_4 (tptp.fn_bismuth_11 X))) (let ((_let_5 (tptp.fn_bismuth_4 X))) (let ((_let_6 (tptp.fn_bismuth_5 X))) (let ((_let_7 (tptp.fn_bismuth_3 X))) (=> (tptp.bismuth_1 X) (and (tptp.original_name_2 X |tptp.'Bismuth'|) (tptp.user_description_2 X |tptp.'Bismuth is a metal atom with atomic number 83. It is represented by the symbol Bi.'|) (tptp.concept2words_2 X tptp.bismuth) (tptp.concept2words_2 X |tptp.'Bi'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"126"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"83"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"83"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"5"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.02"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"209"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"83"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"209"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_bismuth_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_bismuth_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_bismuth_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.bivalve_1 X) (and (tptp.original_name_2 X |tptp.'Bivalve'|) (tptp.user_description_2 X |tptp.'A mollusc of the Class Bivalvia; examples include mussels, clams, oysters, and scallops.'|) (tptp.concept2words_2 X tptp.bivalve) (tptp.mollusc_1 X) (not (tptp.cephalopod_1 X)) (not (tptp.chiton_1 X)) (not (tptp.gastropod_1 X))))) (forall ((X $$unsorted)) (=> (tptp.black_bread_mold_1 X) (and (tptp.original_name_2 X |tptp.'Black-Bread-Mold'|) (tptp.user_description_2 X |tptp.'A widely distributed zygomycete fungus, Rhizopus stolonifer, commonly found on the surface of bread.'|) (tptp.concept2words_2 X |tptp.'black bread mold'|) (tptp.concept2words_2 X |tptp.'black-bread-mold'|) (tptp.zygomycete_1 X) (not (tptp.bread_mold_1 X))))) (forall ((X $$unsorted)) (=> (tptp.blade_1 X) (and (tptp.original_name_2 X |tptp.'Blade'|) (tptp.user_description_2 X |tptp.'The thin, flattened structure of a seaweed that provides a majority of the surface area for photosynthesis. Also, the most flattened part of the leaf of a plant.'|) (tptp.concept2words_2 X tptp.blade) (tptp.stem_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.blastocoel_1 X) (and (tptp.original_name_2 X |tptp.'Blastocoel'|) (tptp.user_description_2 X |tptp.'The hollow, fluid-filled space that forms in the center of a blastula in early animal development.'|) (tptp.concept2words_2 X tptp.blastocoel) (tptp.developmental_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blastocyst_1 X))) (=> (tptp.blastocyst_1 X) (and (tptp.original_name_2 X |tptp.'Blastocyst'|) (tptp.user_description_2 X |tptp.'The term used for the blastula stage in mammals and other vertebrates.'|) (tptp.concept2words_2 X tptp.blastocyst) (tptp.embryonic_stages_1 X) (tptp.cell_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.blastodisc_1 X) (and (tptp.original_name_2 X |tptp.'Blastodisc'|) (tptp.user_description_2 X |tptp.'In bird eggs, a cap of cells developed in early cleavage that sits on the yolk.'|) (tptp.concept2words_2 X tptp.blastodisc) (tptp.ensemble_1 X)))) (forall ((X $$unsorted)) (=> (tptp.blastomere_1 X) (and (tptp.original_name_2 X |tptp.'Blastomere'|) (tptp.user_description_2 X |tptp.'A cell that derives from a cleavage division in early animal development.'|) (tptp.concept2words_2 X tptp.blastomere) (tptp.animal_development_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.blastopore_1 X) (and (tptp.original_name_2 X |tptp.'Blastopore'|) (tptp.user_description_2 X |tptp.'In a gastrulating embryo, the opening to the archenteron. In protostomous animals the blastopore develops into the larval mouth, while in deuterostomous animals it develops into the anus.'|) (tptp.concept2words_2 X tptp.blastopore) (tptp.developmental_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blastula_1 X))) (let ((_let_2 (tptp.fn_blastula_2 X))) (let ((_let_3 (tptp.fn_blastula_3 X))) (let ((_let_4 (tptp.fn_blastula_4 X))) (=> (tptp.blastula_1 X) (and (tptp.original_name_2 X |tptp.'Blastula'|) (tptp.user_description_2 X |tptp.'A hollow ball of cells created by cleavage divisions in the early embryonic development of animals.'|) (tptp.concept2words_2 X |tptp.'blastula stage'|) (tptp.concept2words_2 X tptp.blastula) (tptp.embryonic_stages_1 X) (tptp.blastocoel_1 _let_1) (tptp.fluid_substance_1 _let_2) (tptp.shape_value_1 _let_3) (tptp.cell_1 _let_4) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_2) (tptp.shape_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blastulation_1 X))) (=> (tptp.blastulation_1 X) (and (tptp.original_name_2 X |tptp.'Blastulation'|) (tptp.user_description_2 X |tptp.'A stage of development in which a blastula is formed when the zygote unergoes cell division is called as blastula stage.'|) (tptp.concept2words_2 X |tptp.'undergo blastulation'|) (tptp.concept2words_2 X tptp.blastulation) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X)) (tptp.blastula_1 _let_1) (tptp.result_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blebbing_3 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_blebbing_4 X))) (let ((_let_4 (tptp.fn_blebbing_1 X))) (let ((_let_5 (tptp.fn_blebbing_2 X))) (=> (tptp.blebbing_1 X) (and (tptp.original_name_2 X |tptp.'Blebbing'|) (tptp.user_description_2 X |tptp.'During apoptosis, a process in which the cytoskeleton detaches from the plasma membrane, creating bulges in the cell called blebs. These blebs will later rupture as the cell dies.'|) (tptp.concept2words_2 X tptp.blebbing) (tptp.cellular_process_1 X) (tptp.cell_1 _let_4) (tptp.cell_1 _let_5) (tptp.produce_1 _let_1) (tptp.lobe_1 _let_3) (tptp.entity_1 _let_2) (tptp.has_state_2 _let_5 _let_4) (tptp.has_part_2 _let_4 _let_3) (tptp.base_2 X _let_5) (tptp.by_means_of_2 X _let_1) (tptp.result_2 X _let_4) (tptp.result_2 _let_1 _let_3) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_block_1 X))) (=> (tptp.block_1 X) (and (tptp.original_name_2 X |tptp.'Block'|) (tptp.concept2words_2 X tptp.block) (tptp.concept2words_2 X tptp.bar) (tptp.concept2words_2 X tptp.barricade) (tptp.concept2words_2 X |tptp.'block off'|) (tptp.concept2words_2 X tptp.block_off) (tptp.concept2words_2 X |tptp.'block up'|) (tptp.concept2words_2 X tptp.block_up) (tptp.concept2words_2 X tptp.blockade) (tptp.concept2words_2 X |tptp.'choke up'|) (tptp.concept2words_2 X tptp.choke_up) (tptp.concept2words_2 X |tptp.'close up'|) (tptp.concept2words_2 X tptp.close_up) (tptp.concept2words_2 X tptp.impede) (tptp.concept2words_2 X tptp.jam) (tptp.concept2words_2 X tptp.lug) (tptp.concept2words_2 X tptp.obstruct) (tptp.concept2words_2 X tptp.occlude) (tptp.concept2words_2 X tptp.stuff) (tptp.concept2words_2 X tptp.occulude) (tptp.make_inaccessible_1 X) (tptp.spatial_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_make_inaccessible_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.blocking_of_cell_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Blocking-of-cell-cycle'|) (tptp.user_description_2 X |tptp.'The stopping of the cell cycle.'|) (tptp.concept2words_2 X |tptp.'blocking of cell cycle'|) (tptp.concept2words_2 X |tptp.'blocking-of-cell-cycle'|) (tptp.block_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_16 X))) (let ((_let_2 (tptp.fn_solution_5 _let_1))) (let ((_let_3 (tptp.fn_solution_6 _let_1))) (let ((_let_4 (tptp.fn_blood_24 X))) (let ((_let_5 (tptp.fn_solution_6 _let_4))) (let ((_let_6 (tptp.fn_aqueous_solution_14 _let_4))) (let ((_let_7 (tptp.fn_blood_15 X))) (let ((_let_8 (tptp.fn_chemical_3 _let_7))) (let ((_let_9 (tptp.fn_blood_14 X))) (let ((_let_10 (tptp.fn_blood_10 X))) (let ((_let_11 (tptp.fn_blood_9 X))) (let ((_let_12 (tptp.fn_blood_12 X))) (let ((_let_13 (tptp.fn_blood_23 X))) (let ((_let_14 (tptp.fn_cell_14 _let_13))) (let ((_let_15 (tptp.fn_blood_17 X))) (let ((_let_16 (tptp.fn_cell_29 _let_13))) (let ((_let_17 (tptp.fn_blood_26 X))) (let ((_let_18 (tptp.fn_blood_21 X))) (let ((_let_19 (tptp.fn_buffer_3 _let_18))) (let ((_let_20 (tptp.fn_blood_19 X))) (let ((_let_21 (tptp.fn_blood_18 X))) (let ((_let_22 (tptp.fn_solution_5 _let_4))) (let ((_let_23 (tptp.fn_blood_25 X))) (let ((_let_24 (tptp.fn_blood_22 X))) (let ((_let_25 (tptp.fn_buffered_solution_2 _let_4))) (let ((_let_26 (tptp.fn_blood_3 X))) (let ((_let_27 (tptp.fn_blood_4 X))) (let ((_let_28 (tptp.fn_blood_5 X))) (let ((_let_29 (tptp.fn_blood_7 X))) (let ((_let_30 (tptp.fn_blood_6 X))) (let ((_let_31 (tptp.fn_blood_8 X))) (=> (tptp.blood_1 X) (and (tptp.original_name_2 X |tptp.'Blood'|) (tptp.user_description_2 X |tptp.'A type of connective tissue. In humans, blood consists of red blood cells, white blood cells, and platelets suspended in a fluid matrix called plasma; blood circulates nutrients, wastes, respiratory gases, and hormones throughout the body.'|) (tptp.concept2words_2 X tptp.blood) (tptp.bodily_fluid_1 X) (tptp.connective_tissue_1 X) (tptp.suspension_1 X) (tptp.concentration_value_1 _let_26) (tptp.concentration_value_1 _let_27) (tptp.calcium_ion_1 _let_28) (tptp.leukocyte_1 _let_30) (tptp.clotting_factor_1 _let_29) (tptp.platelet_1 _let_31) (tptp.chemical_1 _let_11) (tptp.chemical_1 _let_10) (tptp.system_1 _let_12) (tptp.calcium_ion_1 _let_9) (tptp.chemical_1 _let_7) (tptp.substance_1 _let_1) (tptp.cytosol_1 _let_1) (tptp.solution_1 _let_1) (tptp.ribosome_1 _let_15) (tptp.water_1 _let_21) (tptp.chemical_1 _let_21) (tptp.ph_maintenance_1 _let_20) (tptp.carbonic_acid_bicarbonate_buffer_1 _let_18) (tptp.solid_substance_1 _let_24) (tptp.erythrocyte_1 _let_13) (tptp.plasma_1 _let_4) (tptp.polar_substance_1 _let_23) (tptp.state_value_1 _let_17) (tptp.buffer_1 _let_25) (tptp.chemical_1 _let_22) (tptp.ph_maintenance_1 _let_19) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.ribosome_1 _let_14) (tptp.chemical_entity_1 _let_8) (tptp.water_1 _let_6) (tptp.chemical_1 _let_5) (tptp.chemical_1 _let_3) (tptp.chemical_1 _let_2) (tptp.has_part_2 X _let_31) (tptp.has_part_2 X _let_30) (tptp.has_part_2 X _let_29) (tptp.has_part_2 _let_4 _let_28) (tptp.has_part_2 _let_4 _let_23) (tptp.base_2 _let_20 _let_4) (tptp.concentration_2 _let_28 _let_26) (tptp.concentration_2 _let_9 _let_27) (tptp.called_2 _let_27 |tptp.'Concentration_Ca2PlusRedbloodCell'|) (tptp.called_2 _let_26 |tptp.'Concentration_Ca2PlusBlood'|) (tptp.has_part_2 X _let_13) (tptp.has_part_2 X _let_4) (tptp.has_part_2 _let_4 _let_18) (tptp.has_part_2 _let_4 _let_21) (tptp.has_solvent_2 _let_4 _let_21) (tptp.has_solute_2 _let_4 _let_23) (not (= _let_23 _let_21)) (not (= _let_21 _let_23)) (tptp.has_function_2 _let_18 _let_20) (tptp.agent_2 _let_20 _let_18) (tptp.has_part_2 _let_13 _let_15) (tptp.is_inside_2 _let_15 _let_1) (tptp.has_solute_2 _let_1 _let_7) (tptp.has_part_2 _let_1 _let_7) (tptp.has_part_2 _let_7 _let_9) (= _let_13 (tptp.fn_tissue_1 X)) (= _let_4 (tptp.fn_suspension_2 X)) (= _let_18 _let_25) (= _let_24 (tptp.fn_suspension_1 X)) (= _let_23 _let_22) (= _let_21 _let_6) (= _let_21 _let_5) (= _let_20 _let_19) (= (tptp.fn_blood_20 X) (tptp.fn_liquid_substance_1 X)) (= _let_17 (tptp.fn_liquid_substance_2 X)) (= _let_1 _let_16) (= _let_15 _let_14) (= (tptp.fn_blood_11 X) (tptp.fn_aqueous_solution_1 X)) (= (tptp.fn_blood_13 X) (tptp.fn_aqueous_solution_9 X)) (= _let_12 (tptp.fn_aqueous_solution_7 X)) (= _let_11 (tptp.fn_solution_6 X)) (= _let_10 (tptp.fn_solution_5 X)) (= _let_9 _let_8) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.blood_allele_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Allele'|) (tptp.user_description_2 X |tptp.'An allele coding for one of carbohydrates attached to the membrane surface of a red blood cell that determe the organism_'s blood group.'|) (tptp.concept2words_2 X |tptp.'allele of blood'|) (tptp.concept2words_2 X |tptp.'blood allele'|) (tptp.concept2words_2 X |tptp.'blood-allele'|) (tptp.allele_1 X)))) (forall ((X $$unsorted)) (=> (tptp.blood_brain_barrier_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Brain-Barrier'|) (tptp.user_description_2 X |tptp.'A specialized system of capillary endothelial cells that protects the brain from harmful substances in the blood stream, while supplying the brain with the required nutrients for proper function.'|) (tptp.concept2words_2 X |tptp.'blood brain barrier'|) (tptp.concept2words_2 X |tptp.'blood-brain barrier'|) (tptp.concept2words_2 X |tptp.'blood-brain-barrier'|) (tptp.endothelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.epithelium_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.cervix_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_carbohydrate_15 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_16 _let_1))) (let ((_let_3 (tptp.fn_blood_carbohydrate_16 X))) (let ((_let_4 (tptp.fn_covalent_bond_17 _let_3))) (let ((_let_5 (tptp.fn_polar_covalent_bond_12 _let_1))) (let ((_let_6 (tptp.fn_blood_carbohydrate_20 X))) (let ((_let_7 (tptp.fn_carbonyl_group_4 _let_6))) (let ((_let_8 (tptp.fn_polar_covalent_bond_11 _let_1))) (let ((_let_9 (tptp.fn_covalent_bond_15 _let_3))) (let ((_let_10 (tptp.fn_covalent_bond_18 _let_3))) (let ((_let_11 (tptp.fn_blood_carbohydrate_28 X))) (let ((_let_12 (tptp.fn_share_2 _let_11))) (let ((_let_13 (tptp.fn_blood_carbohydrate_6 X))) (let ((_let_14 (tptp.fn_share_2 _let_13))) (let ((_let_15 (tptp.fn_blood_carbohydrate_7 X))) (let ((_let_16 (tptp.fn_share_2 _let_15))) (let ((_let_17 (tptp.fn_carbohydrate_side_chain_27 X))) (let ((_let_18 (tptp.fn_oligosaccharide_2 X))) (let ((_let_19 (tptp.fn_polar_covalent_bond_17 _let_1))) (let ((_let_20 (tptp.fn_carbonyl_group_10 _let_6))) (let ((_let_21 (tptp.fn_covalent_bond_14 _let_3))) (let ((_let_22 (tptp.fn_blood_carbohydrate_4 X))) (let ((_let_23 (tptp.fn_share_2 _let_22))) (let ((_let_24 (tptp.fn_blood_carbohydrate_34 X))) (let ((_let_25 (tptp.fn_share_2 _let_24))) (let ((_let_26 (tptp.fn_blood_carbohydrate_29 X))) (let ((_let_27 (tptp.fn_share_2 _let_26))) (let ((_let_28 (tptp.fn_blood_carbohydrate_5 X))) (let ((_let_29 (tptp.fn_share_2 _let_28))) (let ((_let_30 (tptp.fn_carbohydrate_side_chain_34 X))) (let ((_let_31 (tptp.fn_carbonyl_group_7 _let_6))) (let ((_let_32 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_33 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_34 (tptp.fn_share_1 _let_22))) (let ((_let_35 (tptp.fn_share_1 _let_24))) (let ((_let_36 (tptp.fn_share_3 _let_22))) (let ((_let_37 (tptp.fn_carbohydrate_side_chain_22 X))) (let ((_let_38 (tptp.fn_oligosaccharide_5 X))) (let ((_let_39 (tptp.fn_carbonyl_group_9 _let_6))) (let ((_let_40 (tptp.fn_share_3 _let_24))) (let ((_let_41 (tptp.fn_carbohydrate_side_chain_26 X))) (let ((_let_42 (tptp.fn_oligosaccharide_9 X))) (let ((_let_43 (tptp.fn_oligosaccharide_3 X))) (let ((_let_44 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_45 (tptp.fn_carbohydrate_side_chain_29 X))) (let ((_let_46 (tptp.fn_oligosaccharide_6 X))) (let ((_let_47 (tptp.fn_carbonyl_group_6 _let_6))) (let ((_let_48 (tptp.fn_carbonyl_group_8 _let_6))) (let ((_let_49 (tptp.fn_carbohydrate_side_chain_28 X))) (let ((_let_50 (tptp.fn_oligosaccharide_10 X))) (let ((_let_51 (tptp.fn_share_1 _let_26))) (let ((_let_52 (tptp.fn_blood_carbohydrate_25 X))) (let ((_let_53 (tptp.fn_share_1 _let_52))) (let ((_let_54 (tptp.fn_share_1 _let_11))) (let ((_let_55 (tptp.fn_share_1 _let_13))) (let ((_let_56 (tptp.fn_share_1 _let_15))) (let ((_let_57 (tptp.fn_share_3 _let_52))) (let ((_let_58 (tptp.fn_share_3 _let_13))) (let ((_let_59 (tptp.fn_carbohydrate_side_chain_24 X))) (let ((_let_60 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_61 (tptp.fn_share_1 _let_28))) (let ((_let_62 (tptp.fn_share_3 _let_28))) (let ((_let_63 (tptp.fn_share_3 _let_26))) (let ((_let_64 (tptp.fn_share_3 _let_11))) (let ((_let_65 (tptp.fn_share_3 _let_15))) (let ((_let_66 (tptp.fn_carbohydrate_side_chain_25 X))) (let ((_let_67 (tptp.fn_oligosaccharide_4 X))) (let ((_let_68 (tptp.fn_blood_carbohydrate_21 X))) (let ((_let_69 (tptp.fn_attract_2 _let_68))) (let ((_let_70 (tptp.fn_carbohydrate_side_chain_32 X))) (let ((_let_71 (tptp.fn_carbohydrate_side_chain_12 X))) (let ((_let_72 (tptp.fn_carbohydrate_side_chain_23 X))) (let ((_let_73 (tptp.fn_carbohydrate_side_chain_35 X))) (let ((_let_74 (tptp.fn_polar_covalent_bond_1 _let_1))) (let ((_let_75 (tptp.fn_carbohydrate_side_chain_37 X))) (let ((_let_76 (tptp.fn_polar_covalent_bond_2 _let_1))) (let ((_let_77 (tptp.fn_carbohydrate_side_chain_36 X))) (let ((_let_78 (tptp.fn_carbohydrate_side_chain_19 X))) (let ((_let_79 (tptp.fn_polar_covalent_bond_3 _let_1))) (let ((_let_80 (tptp.fn_blood_carbohydrate_22 X))) (let ((_let_81 (tptp.fn_blood_carbohydrate_30 X))) (let ((_let_82 (tptp.fn_blood_carbohydrate_33 X))) (let ((_let_83 (tptp.fn_blood_carbohydrate_23 X))) (let ((_let_84 (tptp.fn_blood_carbohydrate_10 X))) (let ((_let_85 (tptp.fn_blood_carbohydrate_14 X))) (let ((_let_86 (tptp.fn_blood_carbohydrate_32 X))) (let ((_let_87 (tptp.fn_blood_carbohydrate_12 X))) (let ((_let_88 (tptp.fn_carbonyl_group_5 _let_6))) (let ((_let_89 (tptp.fn_blood_carbohydrate_8 X))) (let ((_let_90 (tptp.fn_blood_carbohydrate_13 X))) (let ((_let_91 (tptp.fn_blood_carbohydrate_18 X))) (let ((_let_92 (tptp.fn_blood_carbohydrate_9 X))) (let ((_let_93 (tptp.fn_functional_group_1 _let_6))) (let ((_let_94 (tptp.fn_blood_carbohydrate_17 X))) (let ((_let_95 (tptp.fn_blood_carbohydrate_19 X))) (let ((_let_96 (tptp.fn_blood_carbohydrate_11 X))) (let ((_let_97 (tptp.fn_blood_carbohydrate_26 X))) (let ((_let_98 (tptp.fn_blood_carbohydrate_24 X))) (let ((_let_99 (tptp.fn_blood_carbohydrate_27 X))) (let ((_let_100 (tptp.fn_blood_carbohydrate_31 X))) (let ((_let_101 (tptp.fn_blood_carbohydrate_35 X))) (let ((_let_102 (tptp.fn_blood_carbohydrate_1 X))) (let ((_let_103 (tptp.fn_blood_carbohydrate_2 X))) (=> (tptp.blood_carbohydrate_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Carbohydrate'|) (tptp.user_description_2 X |tptp.'A sugar (monosaccharide) or one of its dimers (disaccharides) or polymers (polysaccharides) that is attached to the membrane surface of a red blood cell.'|) (tptp.concept2words_2 X |tptp.'carbohydrate of blood'|) (tptp.concept2words_2 X |tptp.'blood carbohydrate'|) (tptp.concept2words_2 X |tptp.'blood-carbohydrate'|) (tptp.carbohydrate_side_chain_1 X) (tptp.erythrocyte_1 _let_102) (tptp.length_value_1 _let_103) (tptp.share_1 _let_22) (tptp.unequal_sharing_1 _let_22) (tptp.unequal_sharing_1 _let_28) (tptp.share_1 _let_28) (tptp.share_1 _let_13) (tptp.unequal_sharing_1 _let_13) (tptp.unequal_sharing_1 _let_15) (tptp.share_1 _let_89) (tptp.share_1 _let_92) (tptp.entity_1 _let_84) (tptp.chemical_entity_1 _let_84) (tptp.atom_1 _let_84) (tptp.carbon_1 _let_84) (tptp.entity_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.atom_1 _let_96) (tptp.carbon_1 _let_96) (tptp.atom_1 _let_87) (tptp.chemical_entity_1 _let_87) (tptp.entity_1 _let_87) (tptp.oxygen_1 _let_87) (tptp.hydrogen_1 _let_90) (tptp.entity_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.atom_1 _let_90) (tptp.entity_1 _let_85) (tptp.chemical_entity_1 _let_85) (tptp.atom_1 _let_85) (tptp.oxygen_1 _let_85) (tptp.polar_covalent_bond_1 _let_1) (tptp.covalent_bond_1 _let_3) (tptp.double_bond_1 _let_3) (tptp.functional_group_1 _let_94) (tptp.hydroxyl_group_1 _let_94) (tptp.hydrophilic_region_1 _let_91) (tptp.entity_1 _let_91) (tptp.carbon_skeleton_1 _let_95) (tptp.functional_group_1 _let_6) (tptp.carbonyl_group_1 _let_6) (tptp.attract_1 _let_68) (tptp.valence_electron_1 _let_80) (tptp.entity_1 _let_83) (tptp.electron_1 _let_83) (tptp.valence_electron_1 _let_83) (tptp.electronegativity_value_1 _let_98) (tptp.share_1 _let_52) (tptp.share_1 _let_97) (tptp.electronegativity_value_1 _let_99) (tptp.unequal_sharing_1 _let_11) (tptp.unequal_sharing_1 _let_26) (tptp.entity_1 _let_81) (tptp.electron_1 _let_81) (tptp.valence_electron_1 _let_81) (tptp.electronegativity_value_1 _let_100) (tptp.electron_1 _let_86) (tptp.valence_electron_1 _let_86) (tptp.hold_together_1 _let_82) (tptp.unequal_sharing_1 _let_24) (tptp.share_1 _let_24) (tptp.chemical_entity_1 _let_93) (tptp.share_1 _let_88) (tptp.property_node_1 _let_79) (tptp.electronegativity_value_1 _let_76) (tptp.electronegativity_value_1 _let_74) (tptp.entity_1 _let_69) (tptp.entity_1 _let_65) (tptp.entity_1 _let_64) (tptp.entity_1 _let_63) (tptp.entity_1 _let_62) (tptp.entity_1 _let_61) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.entity_1 _let_58) (tptp.entity_1 _let_57) (tptp.entity_1 _let_56) (tptp.entity_1 _let_55) (tptp.entity_1 _let_54) (tptp.entity_1 _let_53) (tptp.entity_1 _let_51) (tptp.double_bond_1 _let_48) (tptp.valence_electron_1 _let_47) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.entity_1 _let_40) (tptp.oxygen_1 _let_39) (tptp.entity_1 _let_36) (tptp.entity_1 _let_35) (tptp.entity_1 _let_34) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.carbon_1 _let_31) (tptp.entity_1 _let_29) (tptp.entity_1 _let_27) (tptp.entity_1 _let_25) (tptp.entity_1 _let_23) (tptp.hold_together_1 _let_21) (tptp.hold_together_1 _let_20) (tptp.hold_together_1 _let_19) (tptp.entity_1 _let_16) (tptp.entity_1 _let_14) (tptp.entity_1 _let_12) (tptp.valence_electron_1 _let_10) (tptp.valence_electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.valence_electron_1 _let_8) (tptp.valence_electron_1 _let_7) (tptp.valence_electron_1 _let_5) (tptp.share_1 _let_4) (tptp.unequal_sharing_1 _let_2) (tptp.object_2 _let_24 _let_80) (tptp.result_2 _let_24 _let_3) (tptp.agent_2 _let_24 _let_87) (tptp.object_2 _let_26 _let_81) (tptp.result_2 _let_26 _let_1) (tptp.object_2 _let_11 _let_83) (tptp.result_2 _let_11 _let_1) (tptp.length_2 X _let_103) (tptp.is_on_2 X _let_102) (tptp.result_2 _let_15 _let_1) (tptp.object_2 _let_15 _let_83) (tptp.object_2 _let_13 _let_83) (tptp.result_2 _let_13 _let_1) (tptp.agent_2 _let_22 _let_87) (tptp.object_2 _let_15 _let_81) (tptp.object_2 _let_13 _let_81) (tptp.object_2 _let_11 _let_81) (tptp.agent_2 _let_15 _let_90) (tptp.agent_2 _let_15 _let_87) (tptp.agent_2 _let_11 _let_90) (tptp.agent_2 _let_13 _let_87) (tptp.agent_2 _let_11 _let_87) (tptp.agent_2 _let_24 _let_90) (tptp.object_2 _let_24 _let_81) (tptp.result_2 _let_28 _let_1) (tptp.object_2 _let_28 _let_81) (tptp.agent_2 _let_13 _let_90) (tptp.result_2 _let_24 _let_1) (tptp.object_2 _let_24 _let_86) (tptp.agent_2 _let_28 _let_87) (tptp.object_2 _let_28 _let_83) (tptp.has_part_2 X _let_96) (tptp.is_between_2 _let_3 _let_85) (tptp.is_between_2 _let_1 _let_90) (tptp.is_between_2 _let_1 _let_85) (not (= _let_90 _let_85)) (not (= _let_85 _let_90)) (tptp.has_part_2 X _let_84) (not (= _let_87 _let_84)) (not (= _let_90 _let_87)) (not (= _let_87 _let_90)) (not (= _let_84 _let_87)) (tptp.the_cardinal_value_2 _let_99 |"2.1"|) (tptp.cardinal_unit_class_2 _let_99 tptp.unity_0) (tptp.the_cardinal_value_2 _let_98 |"3.44"|) (tptp.cardinal_unit_class_2 _let_98 tptp.unity_0) (tptp.has_region_2 X _let_95) (tptp.site_2 _let_68 _let_91) (tptp.has_region_2 X _let_91) (tptp.has_region_2 X _let_94) (tptp.is_inside_2 _let_85 _let_94) (tptp.electronegativity_2 _let_90 _let_99) (tptp.has_part_2 X _let_90) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_87) (tptp.agent_2 _let_92 _let_87) (tptp.has_function_2 X _let_68) (tptp.agent_2 _let_68 X) (tptp.has_part_2 X _let_85) (tptp.electronegativity_2 _let_85 _let_100) (tptp.the_cardinal_value_2 _let_100 |"3.44"|) (tptp.cardinal_unit_class_2 _let_100 tptp.unity_0) (tptp.electronegativity_2 _let_87 _let_98) (not (= _let_98 _let_99)) (not (= _let_99 _let_100)) (not (= _let_85 _let_87)) (not (= _let_87 _let_85)) (not (= _let_99 _let_98)) (not (= _let_100 _let_99)) (tptp.agent_2 _let_97 _let_87) (tptp.result_2 _let_97 _let_3) (tptp.possesses_2 X _let_3) (tptp.has_part_2 X _let_87) (tptp.has_part_2 _let_87 _let_83) (tptp.is_inside_2 _let_84 _let_95) (tptp.is_inside_2 _let_96 _let_95) (not (= _let_96 _let_87)) (not (= _let_84 _let_96)) (not (= _let_96 _let_84)) (not (= _let_87 _let_96)) (tptp.has_region_2 X _let_6) (tptp.is_inside_2 _let_87 _let_6) (tptp.is_inside_2 _let_87 _let_94) (tptp.is_inside_2 _let_90 _let_94) (not (= _let_90 _let_84)) (not (= _let_84 _let_90)) (tptp.result_2 _let_92 _let_3) (tptp.object_2 _let_82 _let_85) (tptp.object_2 _let_22 _let_81) (tptp.has_part_2 _let_90 _let_81) (not (= _let_81 _let_83)) (not (= _let_83 _let_81)) (tptp.object_2 _let_22 _let_83) (tptp.result_2 _let_22 _let_1) (tptp.agent_2 _let_82 _let_1) (tptp.has_function_2 _let_1 _let_82) (not (= _let_81 _let_80)) (not (= _let_80 _let_81)) (tptp.object_2 _let_22 _let_80) (not (= _let_84 _let_85)) (not (= _let_85 _let_84)) (tptp.is_between_2 _let_3 _let_87) (tptp.is_between_2 _let_3 _let_84) (tptp.is_inside_2 _let_84 _let_6) (tptp.has_function_2 _let_3 _let_82) (tptp.result_2 _let_89 _let_3) (tptp.agent_2 _let_89 _let_87) (tptp.object_2 _let_82 _let_87) (tptp.agent_2 _let_82 _let_3) (not (= _let_86 _let_81)) (not (= _let_81 _let_86)) (tptp.has_part_2 _let_85 _let_86) (tptp.is_inside_2 _let_85 _let_6) (tptp.has_part_2 _let_84 _let_80) (tptp.object_2 _let_82 _let_84) (tptp.object_2 _let_82 _let_90) (tptp.agent_2 _let_22 _let_90) (tptp.result_2 _let_22 _let_3) (tptp.object_2 _let_22 _let_86) (tptp.result_2 _let_52 _let_3) (tptp.agent_2 _let_22 _let_85) (tptp.agent_2 _let_68 _let_91) (tptp.agent_2 _let_22 _let_84) (tptp.agent_2 _let_24 _let_84) (tptp.agent_2 _let_28 _let_90) (tptp.agent_2 _let_24 _let_85) (tptp.agent_2 _let_26 _let_87) (tptp.agent_2 _let_26 _let_90) (tptp.agent_2 _let_52 _let_87) (tptp.object_2 _let_24 _let_83) (tptp.object_2 _let_26 _let_83) (= _let_81 _let_16) (= _let_81 _let_14) (= _let_81 _let_12) (= _let_90 _let_65) (= _let_87 _let_56) (= _let_90 _let_64) (= _let_87 _let_58) (= _let_87 _let_55) (= _let_87 _let_54) (= _let_13 _let_2) (= _let_86 _let_8) (= _let_24 _let_2) (= _let_83 _let_29) (= _let_83 _let_5) (= _let_28 _let_2) (= _let_96 _let_38) (= _let_3 _let_50) (= _let_85 _let_43) (= _let_1 _let_18) (= _let_85 _let_42) (= _let_90 _let_44) (= _let_90 _let_67) (= _let_87 _let_43) (= _let_84 _let_38) (= _let_101 _let_79) (= _let_101 _let_78) (= (tptp.fn_blood_carbohydrate_36 X) (tptp.fn_carbohydrate_side_chain_21 X)) (= (tptp.fn_blood_carbohydrate_37 X) (tptp.fn_carbohydrate_side_chain_20 X)) (= _let_91 _let_70) (= _let_92 _let_71) (= _let_87 _let_41) (= _let_1 _let_17) (= _let_100 _let_76) (= _let_100 _let_77) (= _let_68 (tptp.fn_carbohydrate_side_chain_30 X)) (= _let_100 _let_74) (= _let_100 _let_73) (= _let_99 _let_76) (= _let_99 _let_75) (= _let_87 _let_60) (= _let_98 _let_74) (= _let_98 _let_73) (= _let_85 _let_41) (= _let_83 _let_30) (= _let_3 _let_49) (= _let_97 _let_71) (= _let_96 _let_72) (= _let_95 (tptp.fn_carbohydrate_side_chain_31 X)) (= _let_84 _let_37) (= _let_90 _let_66) (= _let_94 (tptp.fn_carbohydrate_side_chain_33 X)) (= _let_87 _let_42) (= _let_87 _let_59) (= X _let_93) (= _let_6 _let_46) (= _let_6 _let_45) (= _let_92 _let_4) (= _let_85 _let_44) (= _let_81 _let_10) (= _let_81 _let_9) (= _let_83 _let_27) (= _let_83 _let_25) (= _let_87 _let_57) (= _let_87 _let_53) (= _let_90 _let_63) (= _let_87 _let_51) (= _let_85 _let_40) (= _let_90 _let_62) (= _let_90 _let_61) (= _let_84 _let_35) (= _let_84 _let_36) (= _let_84 _let_34) (= _let_91 _let_69) (= _let_52 _let_4) (= _let_90 _let_60) (= _let_90 _let_33) (= _let_22 _let_4) (= _let_86 _let_10) (= _let_84 _let_33) (= _let_85 _let_32) (= _let_89 _let_88) (= _let_87 _let_39) (= _let_3 _let_48) (= _let_81 _let_7) (= _let_85 _let_33) (= _let_86 _let_9) (= _let_86 _let_47) (= _let_85 _let_39) (= _let_80 _let_7) (= _let_82 _let_21) (= _let_84 _let_32) (= _let_82 _let_20) (= _let_84 _let_31) (= _let_81 _let_5) (= _let_83 _let_23) (= _let_83 _let_8) (= _let_82 _let_19) (= _let_81 _let_8) (= _let_22 _let_2) (= _let_80 _let_5) (= _let_79 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_77 _let_74) (= _let_74 _let_77) (= _let_77 _let_77) (= _let_77 _let_73) (= _let_73 _let_75) (= _let_75 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_38) (= _let_38 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_4) (= _let_4 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_60) (= _let_44 _let_60) (= _let_60 _let_44) (= _let_67 _let_44) (= _let_44 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_64 _let_66) (= _let_66 _let_66) (= _let_66 _let_63) (= _let_62 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_33 _let_61) (= _let_61 _let_33) (= _let_33 _let_60) (= _let_42 _let_60) (= _let_60 _let_60) (= _let_60 _let_42) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_59) (= _let_59 _let_58) (= _let_58 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_57 _let_56) (= _let_56 _let_58) (= _let_58 _let_55) (= _let_54 _let_57) (= _let_57 _let_53) (= _let_51 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_39) (= _let_39 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_8) (= _let_8 _let_9) (= _let_9 _let_10) (= _let_10 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_33) (= _let_39 _let_32) (= _let_32 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_5) (= _let_5 _let_30) (= _let_30 _let_29) (= _let_29 _let_30) (= _let_30 _let_27) (= _let_25 _let_23) (= _let_23 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_8) (= _let_8 _let_23) (= _let_23 _let_8) (= _let_8 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_5 _let_7) (= _let_7 _let_7) (= _let_8 _let_5) (= _let_5 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_cell_2 X))) (let ((_let_2 (tptp.fn_blood_cell_1 X))) (let ((_let_3 (tptp.fn_blood_cell_3 X))) (=> (tptp.blood_cell_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Cell'|) (tptp.user_description_2 X |tptp.'A blood cell, also called a hematocyte, is a cell of any type normally found in blood. In mammals, blood cells fall into three categories - Red blood cell, white blood cell, platelets.'|) (tptp.concept2words_2 X tptp.hematocyte) (tptp.concept2words_2 X |tptp.'cell of blood'|) (tptp.concept2words_2 X |tptp.'blood cell'|) (tptp.concept2words_2 X |tptp.'blood-cell'|) (tptp.animal_cell_1 X) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_1) (tptp.block_1 _let_3) (tptp.instrument_2 _let_3 X) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_sugar_regulation_3 X))) (let ((_let_2 (tptp.fn_blood_sugar_regulation_2 X))) (let ((_let_3 (tptp.fn_blood_sugar_regulation_1 X))) (=> (tptp.blood_sugar_regulation_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Sugar-Regulation'|) (tptp.user_description_2 X |tptp.'Blood sugar regulation is the process by which the levels of blood sugar, primarily glucose, are maintained by the body'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'blood sugar regulation'|) (tptp.concept2words_2 X |tptp.'blood-sugar-regulation'|) (tptp.regulation_1 X) (tptp.concentration_value_1 _let_3) (tptp.carbohydrate_1 _let_2) (tptp.blood_1 _let_1) (tptp.concentration_2 _let_2 _let_3) (tptp.object_2 X _let_2) (tptp.site_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_10 X))) (let ((_let_2 (tptp.fn_blood_9 X))) (let ((_let_3 (tptp.fn_blood_19 X))) (let ((_let_4 (tptp.fn_blood_type_a_18 X))) (let ((_let_5 (tptp.fn_buffer_3 _let_4))) (let ((_let_6 (tptp.fn_carbonic_acid_bicarbonate_buffer_3 _let_4))) (let ((_let_7 (tptp.fn_buffer_1 _let_4))) (let ((_let_8 (tptp.fn_blood_type_a_19 X))) (let ((_let_9 (tptp.fn_blood_type_a_14 X))) (let ((_let_10 (tptp.fn_blood_type_a_13 X))) (let ((_let_11 (tptp.fn_blood_type_a_12 X))) (let ((_let_12 (tptp.fn_blood_type_a_9 X))) (let ((_let_13 (tptp.fn_blood_type_a_8 X))) (let ((_let_14 (tptp.fn_blood_type_a_15 X))) (let ((_let_15 (tptp.fn_blood_type_a_16 X))) (let ((_let_16 (tptp.fn_blood_type_a_10 X))) (let ((_let_17 (tptp.fn_blood_type_a_17 X))) (let ((_let_18 (tptp.fn_blood_type_a_20 X))) (let ((_let_19 (tptp.fn_blood_type_a_2 X))) (let ((_let_20 (tptp.fn_blood_type_a_1 X))) (=> (tptp.blood_type_a_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-A'|) (tptp.user_description_2 X |tptp.'Blood type specified by carbohydrate A on the red blood cell_'s plasma membrane.'|) (tptp.concept2words_2 X |tptp.'blood type a'|) (tptp.concept2words_2 X |tptp.'blood-type-a'|) (tptp.blood_1 X) (tptp.blood_type_phenotype_1 X) (not (tptp.blood_type_ab_1 X)) (not (tptp.blood_type_b_1 X)) (not (tptp.blood_type_o_1 X)) (tptp.quantity_value_1 _let_20) (tptp.potential_value_1 _let_19) (tptp.solid_substance_1 _let_13) (tptp.chemical_1 _let_12) (tptp.system_1 _let_16) (tptp.concentration_value_1 _let_11) (tptp.concentration_value_1 _let_10) (tptp.calcium_ion_1 _let_9) (tptp.polar_substance_1 _let_14) (tptp.water_1 _let_15) (tptp.chemical_1 _let_15) (tptp.ph_maintenance_1 _let_17) (tptp.buffer_1 _let_4) (tptp.carbonic_acid_bicarbonate_buffer_1 _let_4) (tptp.plasma_1 _let_8) (tptp.weak_acid_1 _let_18) (tptp.carbonic_acid_1 _let_18) (tptp.weak_acid_1 _let_7) (tptp.carbonic_acid_1 _let_6) (tptp.ph_maintenance_1 _let_5) (tptp.quantity_2 _let_12 _let_20) (tptp.solute_potential_2 _let_12 _let_19) (tptp.facilitates_2 _let_18 _let_17) (tptp.has_part_2 _let_4 _let_18) (tptp.has_part_2 _let_8 _let_4) (tptp.base_2 _let_17 _let_8) (tptp.agent_2 _let_17 _let_4) (tptp.has_function_2 _let_4 _let_17) (tptp.has_solute_2 X _let_12) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_8) (= _let_18 _let_7) (= _let_18 _let_6) (= (tptp.fn_blood_type_a_6 X) (tptp.fn_blood_1 X)) (= (tptp.fn_blood_type_a_5 X) (tptp.fn_blood_2 X)) (= _let_17 _let_5) (= _let_4 (tptp.fn_blood_21 X)) (= _let_17 _let_3) (= (tptp.fn_blood_type_a_7 X) (tptp.fn_blood_11 X)) (= _let_16 (tptp.fn_blood_12 X)) (= _let_15 (tptp.fn_blood_18 X)) (= _let_14 (tptp.fn_blood_25 X)) (= _let_13 (tptp.fn_blood_22 X)) (= _let_12 _let_2) (= _let_12 _let_1) (= _let_11 (tptp.fn_blood_4 X)) (= (tptp.fn_blood_type_a_11 X) (tptp.fn_blood_13 X)) (= _let_10 (tptp.fn_blood_3 X)) (= _let_9 (tptp.fn_blood_5 X)) (= _let_8 (tptp.fn_blood_24 X)) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.blood_type_ab_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-AB'|) (tptp.user_description_2 X |tptp.'Blood type specified by both blood carbohydrate A and blood carbohydrate B on the red blood cell_'s plasma membrane.'|) (tptp.concept2words_2 X |tptp.'blood type ab'|) (tptp.concept2words_2 X |tptp.'blood-type-ab'|) (tptp.blood_type_phenotype_1 X) (not (tptp.blood_type_a_1 X)) (not (tptp.blood_type_b_1 X)) (not (tptp.blood_type_o_1 X))))) (forall ((X $$unsorted)) (=> (tptp.blood_type_b_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-B'|) (tptp.user_description_2 X |tptp.'Blood type specified by carbohydrate B on the red blood cell_'s plasma membrane.'|) (tptp.concept2words_2 X |tptp.'blood type b'|) (tptp.concept2words_2 X |tptp.'blood-type-b'|) (tptp.blood_1 X) (tptp.blood_type_phenotype_1 X) (not (tptp.blood_type_a_1 X)) (not (tptp.blood_type_ab_1 X)) (not (tptp.blood_type_o_1 X))))) (forall ((X $$unsorted)) (=> (tptp.blood_type_genotype_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-Genotype'|) (tptp.user_description_2 X |tptp.'The genetic makeup of an organism_'s blood type.'|) (tptp.concept2words_2 X |tptp.'blood group genotype'|) (tptp.concept2words_2 X |tptp.'blood-group-genotype'|) (tptp.concept2words_2 X |tptp.'abo group genotype'|) (tptp.concept2words_2 X |tptp.'abo-group-genotype'|) (tptp.concept2words_2 X |tptp.'blood type genotype'|) (tptp.concept2words_2 X |tptp.'blood-type-genotype'|) (tptp.genotype_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_type_genotype_iaia_2 X))) (let ((_let_2 (tptp.fn_blood_type_genotype_iaia_1 X))) (=> (tptp.blood_type_genotype_iaia_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-Genotype-IAIA'|) (tptp.user_description_2 X |tptp.'Allele coding for one of the blood carbohydrates.'|) (tptp.concept2words_2 X |tptp.'blood type genotype iaia'|) (tptp.concept2words_2 X |tptp.'blood-type-genotype-iaia'|) (tptp.blood_type_genotype_1 X) (tptp.ia_1 _let_2) (tptp.ia_1 _let_1) (tptp.exactCardinality X tptp.element_0 |"2"| tptp.ia_0) (tptp.element_2 X _let_2) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_gene_related_aggregates_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.blood_type_o_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-O'|) (tptp.user_description_2 X |tptp.'Blood type specified by neither carbohydrate A nor carbohydrate B being found on the red blood cell_'s plasma membrane.'|) (tptp.concept2words_2 X |tptp.'blood type o'|) (tptp.concept2words_2 X |tptp.'blood-type-o'|) (tptp.blood_type_phenotype_1 X) (not (tptp.blood_type_a_1 X)) (not (tptp.blood_type_ab_1 X)) (not (tptp.blood_type_b_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_type_phenotype_2 X))) (let ((_let_2 (tptp.fn_blood_type_phenotype_1 X))) (=> (tptp.blood_type_phenotype_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Type-Phenotype'|) (tptp.user_description_2 X |tptp.'The blood type of an organism as determined by the blood carbohydrate on the membrane surface of its red blood cells.'|) (tptp.concept2words_2 X |tptp.'blood type'|) (tptp.concept2words_2 X |tptp.'blood type phenotype'|) (tptp.concept2words_2 X |tptp.'blood-type-phenotype'|) (tptp.codominant_1 X) (not (tptp.autosomal_dominant_trait_1 X)) (not (tptp.dominant_phenotype_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.mutant_phenotype_1 X)) (not (tptp.mutant_type_1 X)) (not (tptp.parental_type_1 X)) (not (tptp.phenotype_of_offspring_1 X)) (not (tptp.phenotype_of_parent_1 X)) (not (tptp.trait_on_a_range_1 X)) (not (tptp.trait_on_a_scale_1 X)) (not (tptp.wild_type_1 X)) (not (tptp.x_chromosome_phenotype_dominant_1 X)) (not (tptp.x_chromosome_phenotype_recessive_1 X)) (tptp.determined_by_1 _let_2) (tptp.blood_carbohydrate_1 _let_1) (tptp.result_2 _let_2 X) (tptp.object_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blood_vessel_1 X))) (let ((_let_2 (tptp.fn_blood_vessel_2 X))) (=> (tptp.blood_vessel_1 X) (and (tptp.original_name_2 X |tptp.'Blood-Vessel'|) (tptp.user_description_2 X |tptp.'The part of the circulatory system, including arteries, veins, and capillaries, that carries blood through out the body.'|) (tptp.concept2words_2 X |tptp.'vessel of blood'|) (tptp.concept2words_2 X |tptp.'blood vessel'|) (tptp.concept2words_2 X |tptp.'blood-vessel'|) (tptp.circulatory_organ_1 X) (not (tptp.xylem_1 X)) (tptp.lumen_1 _let_1) (tptp.blood_1 _let_2) (tptp.is_inside_2 _let_2 _let_1) (tptp.has_region_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blotting_2 X))) (let ((_let_2 (tptp.fn_gel_electrophoresis_2 _let_1))) (let ((_let_3 (tptp.fn_blotting_1 X))) (let ((_let_4 (tptp.fn_blotting_3 X))) (let ((_let_5 (tptp.fn_solid_support_1 _let_4))) (=> (tptp.blotting_1 X) (and (tptp.original_name_2 X |tptp.'Blotting'|) (tptp.user_description_2 X |tptp.'A method of transferring proteins, DNA or RNA, onto a solid support carrier.'|) (tptp.concept2words_2 X tptp.blot) (tptp.concept2words_2 X tptp.blotting) (tptp.capillary_action_1 X) (tptp.gel_1 _let_3) (tptp.gel_electrophoresis_1 _let_1) (tptp.solid_support_1 _let_4) (tptp.blotting_1 _let_5) (tptp.gel_1 _let_2) (tptp.origin_2 X _let_3) (tptp.destination_2 X _let_4) (tptp.instrument_2 _let_1 _let_3) (= X _let_5) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blue_green_light_8 X))) (let ((_let_2 (tptp.fn_blue_green_light_3 X))) (let ((_let_3 (tptp.fn_blue_green_light_1 X))) (let ((_let_4 (tptp.fn_blue_green_light_2 X))) (=> (tptp.blue_green_light_1 X) (and (tptp.original_name_2 X |tptp.'Blue-Green-Light'|) (tptp.user_description_2 X |tptp.'The portion of the electromagnetic spectrum that can be detected as blue-green by the human eye, ranging in wavelength from about 430 nm to 470 nm.'|) (tptp.concept2words_2 X |tptp.'blue green light'|) (tptp.concept2words_2 X |tptp.'blue-green-light'|) (tptp.light_1 X) (tptp.length_value_1 _let_3) (tptp.length_value_1 _let_4) (tptp.color_value_1 _let_2) (tptp.length_value_1 _let_1) (tptp.greater_than_or_equal_to_2 _let_1 _let_4) (tptp.the_categorical_value_2 _let_2 tptp.teal_0) (tptp.the_cardinal_value_2 _let_4 |"430.0e0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_3 _let_1) (tptp.the_cardinal_value_2 _let_3 |"470.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.nanometer_0) (tptp.color_2 X _let_2) (tptp.wavelength_2 X _let_1) (= (tptp.fn_blue_green_light_7 X) (tptp.fn_electromagnetic_energy_1 X)) (= _let_1 (tptp.fn_electromagnetic_energy_4 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blue_light_8 X))) (let ((_let_2 (tptp.fn_blue_light_2 X))) (let ((_let_3 (tptp.fn_blue_light_3 X))) (let ((_let_4 (tptp.fn_blue_light_4 X))) (let ((_let_5 (tptp.fn_blue_light_5 X))) (=> (tptp.blue_light_1 X) (and (tptp.original_name_2 X |tptp.'Blue-Light'|) (tptp.user_description_2 X |tptp.'The portion of the electromagnetic spectrum that can be detected as blue by the human eye, ranging in wavelength from about 380 nm to 450 nm.'|) (tptp.concept2words_2 X |tptp.'light of blue'|) (tptp.concept2words_2 X |tptp.'blue light'|) (tptp.concept2words_2 X |tptp.'blue-light'|) (tptp.light_1 X) (tptp.color_value_1 _let_2) (tptp.visible_light_1 _let_3) (tptp.length_value_1 _let_4) (tptp.length_value_1 _let_5) (tptp.length_value_1 _let_1) (tptp.greater_than_or_equal_to_2 _let_1 _let_5) (tptp.the_cardinal_value_2 _let_5 |"450.0e0"|) (tptp.cardinal_unit_class_2 _let_5 tptp.nanometer_0) (tptp.the_cardinal_value_2 _let_4 |"520.0e0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_4 _let_1) (tptp.has_part_2 _let_3 X) (tptp.color_2 X _let_2) (tptp.the_categorical_value_2 _let_2 tptp.blue_0) (tptp.wavelength_2 X _let_1) (= (tptp.fn_blue_light_9 X) (tptp.fn_electromagnetic_energy_1 X)) (= _let_1 (tptp.fn_electromagnetic_energy_4 X)))))))))) (forall ((X $$unsorted)) (=> (tptp.blue_light_photoreceptor_1 X) (and (tptp.original_name_2 X |tptp.'Blue-Light-Photoreceptor'|) (tptp.user_description_2 X |tptp.'A type of photoreceptor that detects blue light and is responsible for initiating phototropism in plants.'|) (tptp.concept2words_2 X |tptp.'blue light photoreceptor'|) (tptp.concept2words_2 X |tptp.'blue-light photoreceptor'|) (tptp.concept2words_2 X |tptp.'blue-light-photoreceptor'|) (tptp.photoreceptor_1 X) (not (tptp.cone_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.result_2 X X2) (tptp.dna_1 X1) (tptp.lyse_1 X) (tptp.blunt_end_fragment_1 X2) (tptp.minCardinality X tptp.result_0 |"2"| tptp.blunt_end_fragment_0)) (and (tptp.blunt_cut_1 X) (= (tptp.fn_blunt_cut_3 X) X2) (= (tptp.fn_blunt_cut_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blunt_cut_3 X))) (let ((_let_2 (tptp.fn_restriction_fragment_16 _let_1))) (let ((_let_3 (tptp.fn_blunt_cut_2 X))) (=> (tptp.blunt_cut_1 X) (and (tptp.original_name_2 X |tptp.'Blunt-Cut'|) (tptp.user_description_2 X |tptp.'The result of a restriction enzyme_'s non-staggered breaking of the covalent phophodiester bonds of both DNA strands.'|) (tptp.concept2words_2 X tptp.cut) (tptp.concept2words_2 X |tptp.'blunt cut'|) (tptp.concept2words_2 X |tptp.'blunt-cut'|) (tptp.lyse_1 X) (not (tptp.staggered_cut_1 X)) (tptp.dna_1 _let_3) (tptp.blunt_end_fragment_1 _let_1) (tptp.lyse_1 _let_2) (tptp.minCardinality X tptp.result_0 |"2"| tptp.blunt_end_fragment_0) (tptp.object_2 X _let_3) (tptp.result_2 X _let_1) (= _let_3 (tptp.fn_impair_1 X)) (= X _let_2))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.result_2 X1 X) (tptp.blunt_cut_1 X1) (tptp.restriction_fragment_1 X)) (and (tptp.blunt_end_fragment_1 X) (= (tptp.fn_blunt_end_fragment_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_blunt_end_fragment_3 X))) (let ((_let_2 (tptp.fn_dna_ligase_12 _let_1))) (let ((_let_3 (tptp.fn_blunt_end_fragment_6 X))) (let ((_let_4 (tptp.fn_recombinant_dna_18 _let_3))) (let ((_let_5 (tptp.fn_dna_ligase_7 _let_1))) (let ((_let_6 (tptp.fn_dna_ligase_10 _let_1))) (let ((_let_7 (tptp.fn_blunt_end_fragment_4 X))) (let ((_let_8 (tptp.fn_blunt_cut_3 _let_7))) (let ((_let_9 (tptp.fn_blunt_end_fragment_7 X))) (let ((_let_10 (tptp.fn_blunt_cut_3 _let_9))) (let ((_let_11 (tptp.fn_blunt_end_fragment_5 X))) (let ((_let_12 (tptp.fn_blunt_end_fragment_2 X))) (=> (tptp.blunt_end_fragment_1 X) (and (tptp.original_name_2 X |tptp.'Blunt-End-Fragment'|) (tptp.user_description_2 X |tptp.'A single-stranded end of a double-stranded blunt cut restriction fragment.'|) (tptp.concept2words_2 X |tptp.'blunt end fragment'|) (tptp.concept2words_2 X |tptp.'blunt-end-fragment'|) (tptp.restriction_fragment_1 X) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.sticky_end_fragment_1 X)) (tptp.covalent_bond_1 _let_12) (tptp.dna_ligase_1 _let_1) (tptp.blunt_cut_1 _let_7) (tptp.attach_1 _let_11) (tptp.recombinant_dna_1 _let_3) (tptp.blunt_cut_1 _let_9) (tptp.blunt_end_fragment_1 _let_10) (tptp.blunt_end_fragment_1 _let_8) (tptp.dna_piece_1 _let_6) (tptp.attach_1 _let_5) (tptp.attach_1 _let_4) (tptp.attach_1 _let_2) (tptp.result_2 _let_11 _let_12) (tptp.result_2 _let_11 _let_3) (tptp.result_2 _let_9 X) (tptp.result_2 _let_7 X) (tptp.agent_2 _let_11 _let_1) (tptp.base_2 _let_11 X) (= _let_11 _let_4) (= X _let_10) (= X _let_8) (= X _let_6) (= _let_11 _let_5) (= _let_11 _let_2) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bmp_4_1 X) (and (tptp.original_name_2 X |tptp.'BMP-4'|) (tptp.user_description_2 X |tptp.'One of a group of bone morphogenic proteins (BMPs) involved in the growth and formation of bones and cartilage.'|) (tptp.concept2words_2 X |tptp.'bone morphogenetic proteins'|) (tptp.concept2words_2 X |tptp.'bone-morphogenetic-proteins'|) (tptp.concept2words_2 X tptp.bmp) (tptp.concept2words_2 X |tptp.'bmp 4'|) (tptp.concept2words_2 X |tptp.'bmp-4'|) (tptp.peptide_hormone_1 X) (not (tptp.erythropoietin_1 X)) (not (tptp.growth_hormone_1 X)) (not (tptp.inhibin_1 X)) (not (tptp.leptin_1 X)) (not (tptp.prolactin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bodily_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Bodily-Fluid'|) (tptp.user_description_2 X |tptp.'A liquid which originates from the human body and includes those which leak out or are normally excreted or secreted.'|) (tptp.concept2words_2 X |tptp.'body fluid'|) (tptp.concept2words_2 X |tptp.'body-fluid'|) (tptp.concept2words_2 X |tptp.'bodily fluid'|) (tptp.concept2words_2 X |tptp.'bodily-fluid'|) (tptp.biological_fluid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.body_axis_1 X) (and (tptp.original_name_2 X |tptp.'Body-Axis'|) (tptp.user_description_2 X |tptp.'An imaginary longitudinal line through the vertical center of the body (head to feet) or one of its parts, or a line about which the body or a part rotates.'|) (tptp.concept2words_2 X |tptp.'axis of body'|) (tptp.concept2words_2 X |tptp.'body axis'|) (tptp.concept2words_2 X |tptp.'body-axis'|) (tptp.organismal_region_1 X) (not (tptp.extra_cellular_matrix_1 X))))) (forall ((X $$unsorted)) (=> (tptp.body_cavity_1 X) (and (tptp.original_name_2 X |tptp.'Body-Cavity'|) (tptp.user_description_2 X |tptp.'A space, filled with air or fluid, between an animal_'s digestive tract and its body wall.'|) (tptp.concept2words_2 X |tptp.'cavity of body'|) (tptp.concept2words_2 X |tptp.'body cavity'|) (tptp.concept2words_2 X |tptp.'body-cavity'|) (tptp.animal_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.body_plan_1 X) (and (tptp.original_name_2 X |tptp.'Body-Plan'|) (tptp.user_description_2 X |tptp.'The'|) (tptp.concept2words_2 X |tptp.'plan of body'|) (tptp.concept2words_2 X |tptp.'body plan'|) (tptp.concept2words_2 X |tptp.'body-plan'|) (tptp.map_1 X)))) (forall ((X $$unsorted)) (=> (tptp.body_segment_1 X) (and (tptp.original_name_2 X |tptp.'Body-Segment'|) (tptp.user_description_2 X |tptp.'A segment of the body of an organism.'|) (tptp.concept2words_2 X |tptp.'segment of body'|) (tptp.concept2words_2 X |tptp.'body segment'|) (tptp.concept2words_2 X |tptp.'body-segment'|) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_body_segment_pair_1 X))) (=> (tptp.body_segment_pair_1 X) (and (tptp.original_name_2 X |tptp.'Body-Segment-Pair'|) (tptp.user_description_2 X |tptp.'A pair of body segments.'|) (tptp.concept2words_2 X |tptp.'body segment pair'|) (tptp.concept2words_2 X |tptp.'body-segment-pair'|) (tptp.anatomical_structure_1 X) (tptp.body_segment_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.body_segment_0) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.body_wall_1 X) (and (tptp.original_name_2 X |tptp.'Body-Wall'|) (tptp.user_description_2 X |tptp.'Layers of cells that make up the external surface of an animal_'s body.'|) (tptp.concept2words_2 X |tptp.'wall of body'|) (tptp.concept2words_2 X |tptp.'body wall'|) (tptp.concept2words_2 X |tptp.'body-wall'|) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bohr_shift_1 X) (and (tptp.original_name_2 X |tptp.'Bohr-Shift'|) (tptp.user_description_2 X |tptp.'A decrease in the oxygen-binding ability of hemoglobin due to a decrease in blood pH. This results in a release of oxygen into active tissues.'|) (tptp.concept2words_2 X |tptp.'shift of bohr'|) (tptp.concept2words_2 X |tptp.'bohr shift'|) (tptp.concept2words_2 X |tptp.'bohr-shift'|) (tptp.biomolecular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bohrium_6 X))) (let ((_let_2 (tptp.fn_bohrium_7 X))) (let ((_let_3 (tptp.fn_bohrium_1 X))) (let ((_let_4 (tptp.fn_bohrium_2 X))) (=> (tptp.bohrium_1 X) (and (tptp.original_name_2 X |tptp.'Bohrium'|) (tptp.user_description_2 X |tptp.'Bohrium is a metal atom with atomic number 107. It is represented by the symbol Bh.'|) (tptp.concept2words_2 X tptp.bohrium) (tptp.concept2words_2 X |tptp.'Bh'|) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"157"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"107"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"107"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"264"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"107"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"264"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_bohrium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_bohrium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_boiling_2 X))) (let ((_let_2 (tptp.fn_boiling_1 X))) (=> (tptp.boiling_1 X) (and (tptp.original_name_2 X |tptp.'Boiling'|) (tptp.user_description_2 X |tptp.'The phase change from liquid to gas, which occurs when a liquid is heated to its boiling point.'|) (tptp.concept2words_2 X tptp.boil) (tptp.concept2words_2 X tptp.boiling) (tptp.change_of_state_1 X) (tptp.gas_substance_1 _let_2) (tptp.liquid_substance_1 _let_1) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1) (tptp.base_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_boiling_of_water_1 X))) (=> (tptp.boiling_of_water_1 X) (and (tptp.original_name_2 X |tptp.'Boiling-Of-Water'|) (tptp.user_description_2 X |tptp.'The phase change from liquid water to water vapor, which occurs when the temperature of liquid water reaches 100 degree Celsius.'|) (tptp.concept2words_2 X tptp.boil) (tptp.concept2words_2 X |tptp.'water boiling'|) (tptp.concept2words_2 X |tptp.'water-boiling'|) (tptp.concept2words_2 X |tptp.'boiling of water'|) (tptp.concept2words_2 X |tptp.'boiling-of-water'|) (tptp.boiling_1 X) (tptp.temperature_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"100.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.celsius_0))))) (forall ((X $$unsorted)) (=> (tptp.bolting_1 X) (and (tptp.original_name_2 X |tptp.'Bolting'|) (tptp.user_description_2 X |tptp.'In agricultural or horticultural plants, the production of flowers before the edible crop is harvested. Bolting represents a diversion from producing edible tissues into producing flowers.'|) (tptp.concept2words_2 X tptp.bolting) (tptp.plant_growth_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bolus_2 X))) (=> (tptp.bolus_1 X) (and (tptp.original_name_2 X |tptp.'Bolus'|) (tptp.user_description_2 X |tptp.'A mass of food that has been chewed and swallowed.'|) (tptp.concept2words_2 X tptp.bolus) (tptp.organic_entity_1 X) (tptp.heterogeneous_mixture_1 X) (not (tptp.nitrogenous_waste_1 X)) (tptp.shape_value_1 _let_1) (tptp.shape_2 X _let_1) (tptp.the_categorical_value_2 _let_1 tptp.sphere_0))))) (forall ((X $$unsorted)) (=> (tptp.bombardier_beetle_1 X) (and (tptp.original_name_2 X |tptp.'Bombardier-Beetle'|) (tptp.user_description_2 X |tptp.'One of a group of beetles that discharge spurts of noxious chemicals when disturbed.'|) (tptp.concept2words_2 X |tptp.'beetle of bombardier'|) (tptp.concept2words_2 X |tptp.'bombardier beetle'|) (tptp.concept2words_2 X |tptp.'bombardier-beetle'|) (tptp.beetle_1 X) (not (tptp.asian_ladybug_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bone_7 X))) (let ((_let_2 (tptp.fn_glycoprotein_5 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_1 _let_1))) (let ((_let_4 (tptp.fn_glycoprotein_4 _let_1))) (let ((_let_5 (tptp.fn_organic_molecule_2 _let_1))) (let ((_let_6 (tptp.fn_glycoprotein_2 _let_1))) (let ((_let_7 (tptp.fn_glycoprotein_3 _let_1))) (let ((_let_8 (tptp.fn_polymer_6 _let_1))) (let ((_let_9 (tptp.fn_bone_4 X))) (let ((_let_10 (tptp.fn_bone_5 X))) (let ((_let_11 (tptp.fn_bone_6 X))) (let ((_let_12 (tptp.fn_create_1 _let_11))) (let ((_let_13 (tptp.fn_bone_3 X))) (let ((_let_14 (tptp.fn_bone_1 X))) (let ((_let_15 (tptp.fn_bone_2 X))) (=> (tptp.bone_1 X) (and (tptp.original_name_2 X |tptp.'Bone'|) (tptp.user_description_2 X |tptp.'A type of dense connective tissue consisting of cells held in a collagen matrix impregnated with calcium salts. Bones form the endoskeleton of most vertebrate animals.'|) (tptp.concept2words_2 X tptp.bone) (tptp.connective_tissue_1 X) (not (tptp.adipose_tissue_1 X)) (not (tptp.av_valve_1 X)) (not (tptp.cartilage_1 X)) (not (tptp.fibrous_connective_tissue_1 X)) (not (tptp.loose_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X)) (tptp.connective_tissue_1 _let_14) (tptp.vitamin_d_1 _let_15) (tptp.monomer_1 _let_13) (tptp.polypeptide_1 _let_13) (tptp.carbon_1 _let_9) (tptp.phosphorus_1 _let_10) (tptp.produce_1 _let_11) (tptp.collagen_1 _let_1) (tptp.entity_1 _let_12) (tptp.monomer_1 _let_8) (tptp.monomer_1 _let_7) (tptp.polypeptide_1 _let_6) (tptp.atom_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.carbon_1 _let_3) (tptp.carbon_1 _let_2) (tptp.facilitates_2 _let_15 _let_11) (tptp.has_part_2 X _let_14) (tptp.has_part_2 _let_14 _let_1) (tptp.has_part_2 _let_1 _let_10) (tptp.has_part_2 _let_1 _let_13) (tptp.result_2 _let_11 X) (tptp.has_part_2 _let_1 _let_9) (not (= _let_10 _let_9)) (not (= _let_9 _let_10)) (= _let_13 _let_8) (= _let_13 _let_7) (= _let_13 _let_6) (= X _let_12) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bone_cell_50 X))) (let ((_let_2 (tptp.fn_mitochondrion_51 _let_1))) (let ((_let_3 (tptp.fn_bone_cell_44 X))) (let ((_let_4 (tptp.fn_endoplasmic_reticulum_11 _let_3))) (let ((_let_5 (tptp.fn_bone_cell_39 X))) (let ((_let_6 (tptp.fn_integrin_6 _let_5))) (let ((_let_7 (tptp.fn_bone_cell_41 X))) (let ((_let_8 (tptp.fn_tissue_1 _let_7))) (let ((_let_9 (tptp.fn_bone_cell_45 X))) (let ((_let_10 (tptp.fn_animal_plasma_membrane_56 _let_9))) (let ((_let_11 (tptp.fn_mitochondrion_160 _let_1))) (let ((_let_12 (tptp.fn_animal_cell_90 X))) (let ((_let_13 (tptp.fn_animal_cell_79 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_15 (tptp.fn_animal_cell_73 X))) (let ((_let_16 (tptp.fn_bone_cell_38 X))) (let ((_let_17 (tptp.fn_fibronectin_53 _let_16))) (let ((_let_18 (tptp.fn_integrin_30 _let_5))) (let ((_let_19 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_20 (tptp.fn_integral_protein_24 _let_16))) (let ((_let_21 (tptp.fn_animal_cell_85 X))) (let ((_let_22 (tptp.fn_eukaryotic_cell_48 X))) (let ((_let_23 (tptp.fn_animal_cell_75 X))) (let ((_let_24 (tptp.fn_integrin_8 _let_5))) (let ((_let_25 (tptp.fn_animal_plasma_membrane_47 _let_9))) (let ((_let_26 (tptp.fn_animal_plasma_membrane_53 _let_9))) (let ((_let_27 (tptp.fn_animal_cell_58 X))) (let ((_let_28 (tptp.fn_fibronectin_47 _let_16))) (let ((_let_29 (tptp.fn_integrin_29 _let_5))) (let ((_let_30 (tptp.fn_integral_protein_27 _let_16))) (let ((_let_31 (tptp.fn_animal_plasma_membrane_54 _let_9))) (let ((_let_32 (tptp.fn_plasma_membrane_71 _let_9))) (let ((_let_33 (tptp.fn_biomembrane_63 _let_9))) (let ((_let_34 (tptp.fn_animal_cell_80 X))) (let ((_let_35 (tptp.fn_integrin_9 _let_5))) (let ((_let_36 (tptp.fn_plasma_membrane_54 _let_9))) (let ((_let_37 (tptp.fn_fibronectin_45 _let_16))) (let ((_let_38 (tptp.fn_plasma_membrane_55 _let_9))) (let ((_let_39 (tptp.fn_animal_plasma_membrane_62 _let_9))) (let ((_let_40 (tptp.fn_plasma_membrane_68 _let_9))) (let ((_let_41 (tptp.fn_animal_cell_52 X))) (let ((_let_42 (tptp.fn_bone_cell_21 X))) (let ((_let_43 (tptp.fn_telomere_3 _let_42))) (let ((_let_44 (tptp.fn_animal_cell_88 X))) (let ((_let_45 (tptp.fn_bone_cell_28 X))) (let ((_let_46 (tptp.fn_chromosome_4 _let_45))) (let ((_let_47 (tptp.fn_plasma_membrane_3 _let_9))) (let ((_let_48 (tptp.fn_endoplasmic_reticulum_23 _let_3))) (let ((_let_49 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_3))) (let ((_let_50 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_3))) (let ((_let_51 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_3))) (let ((_let_52 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_3))) (let ((_let_53 (tptp.fn_animal_plasma_membrane_5 _let_9))) (let ((_let_54 (tptp.fn_biomembrane_47 _let_9))) (let ((_let_55 (tptp.fn_mitochondrion_55 _let_1))) (let ((_let_56 (tptp.fn_bone_cell_53 X))) (let ((_let_57 (tptp.fn_mitochondrion_52 _let_1))) (let ((_let_58 (tptp.fn_bone_cell_52 X))) (let ((_let_59 (tptp.fn_mitochondrion_159 _let_1))) (let ((_let_60 (tptp.fn_bone_cell_54 X))) (let ((_let_61 (tptp.fn_bone_cell_7 X))) (let ((_let_62 (tptp.fn_bone_cell_46 X))) (let ((_let_63 (tptp.fn_bone_cell_30 X))) (let ((_let_64 (tptp.fn_bone_cell_32 X))) (let ((_let_65 (tptp.fn_bone_cell_27 X))) (let ((_let_66 (tptp.fn_bone_cell_51 X))) (let ((_let_67 (tptp.fn_bone_cell_4 X))) (let ((_let_68 (tptp.fn_bone_cell_3 X))) (let ((_let_69 (tptp.fn_bone_cell_17 X))) (let ((_let_70 (tptp.fn_bone_cell_47 X))) (let ((_let_71 (tptp.fn_bone_cell_29 X))) (let ((_let_72 (tptp.fn_bone_cell_13 X))) (let ((_let_73 (tptp.fn_bone_cell_26 X))) (let ((_let_74 (tptp.fn_bone_cell_25 X))) (let ((_let_75 (tptp.fn_bone_cell_31 X))) (let ((_let_76 (tptp.fn_bone_cell_40 X))) (let ((_let_77 (tptp.fn_bone_cell_18 X))) (let ((_let_78 (tptp.fn_bone_cell_37 X))) (let ((_let_79 (tptp.fn_bone_cell_14 X))) (let ((_let_80 (tptp.fn_bone_cell_35 X))) (let ((_let_81 (tptp.fn_bone_cell_19 X))) (let ((_let_82 (tptp.fn_bone_cell_8 X))) (let ((_let_83 (tptp.fn_bone_cell_43 X))) (let ((_let_84 (tptp.fn_bone_cell_9 X))) (let ((_let_85 (tptp.fn_bone_cell_10 X))) (let ((_let_86 (tptp.fn_bone_cell_11 X))) (let ((_let_87 (tptp.fn_bone_cell_12 X))) (let ((_let_88 (tptp.fn_bone_cell_33 X))) (let ((_let_89 (tptp.fn_bone_cell_36 X))) (let ((_let_90 (tptp.fn_integrin_7 _let_5))) (let ((_let_91 (tptp.fn_bone_cell_16 X))) (let ((_let_92 (tptp.fn_telomere_1 _let_42))) (let ((_let_93 (tptp.fn_bone_cell_23 X))) (let ((_let_94 (tptp.fn_chromosome_3 _let_45))) (let ((_let_95 (tptp.fn_bone_cell_20 X))) (let ((_let_96 (tptp.fn_chromosome_8 _let_45))) (let ((_let_97 (tptp.fn_bone_cell_24 X))) (let ((_let_98 (tptp.fn_chromosome_6 _let_45))) (let ((_let_99 (tptp.fn_bone_cell_22 X))) (let ((_let_100 (tptp.fn_bone_cell_42 X))) (let ((_let_101 (tptp.fn_endoplasmic_reticulum_25 _let_3))) (let ((_let_102 (tptp.fn_bone_cell_49 X))) (let ((_let_103 (tptp.fn_rough_endoplasmic_reticulum_55 _let_71))) (let ((_let_104 (tptp.fn_bone_cell_48 X))) (let ((_let_105 (tptp.fn_bone_cell_15 X))) (let ((_let_106 (tptp.fn_catabolic_pathway_10 _let_83))) (let ((_let_107 (tptp.fn_bone_cell_34 X))) (let ((_let_108 (tptp.fn_bone_cell_2 X))) (let ((_let_109 (tptp.fn_bone_cell_1 X))) (=> (tptp.bone_cell_1 X) (and (tptp.original_name_2 X |tptp.'Bone-Cell'|) (tptp.user_description_2 X |tptp.'Cells that make up bone tissue.'|) (tptp.concept2words_2 X tptp.osteoblast) (tptp.concept2words_2 X tptp.osteocyte) (tptp.concept2words_2 X |tptp.'cell of bone'|) (tptp.concept2words_2 X |tptp.'bone cell'|) (tptp.concept2words_2 X 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_let_100) (tptp.catabolic_pathway_1 _let_83) (tptp.eukaryotic_cellular_respiration_1 _let_83) (tptp.endoplasmic_reticulum_1 _let_3) (tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.tangible_entity_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.animal_plasma_membrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.mixture_1 _let_62) (tptp.cytoplasm_1 _let_62) (tptp.golgi_apparatus_1 _let_70) (tptp.transfer_1 _let_104) (tptp.transfer_1 _let_102) (tptp.semiautonomous_organelle_1 _let_1) (tptp.organelle_1 _let_1) (tptp.mitochondrion_1 _let_1) (tptp.catabolic_pathway_1 _let_66) (tptp.metabolic_pathway_1 _let_58) (tptp.endergonic_process_1 _let_58) (tptp.chemical_reaction_1 _let_58) (tptp.synthesis_of_organic_molecule_1 _let_58) (tptp.anabolic_pathway_1 _let_58) (tptp.synthesis_of_atp_1 _let_58) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_56) (tptp.electron_transport_chain_pathway_1 _let_60) (tptp.organic_molecule_1 _let_106) (tptp.transfer_1 _let_103) (tptp.transfer_1 _let_101) (tptp.centromere_1 _let_98) (tptp.coil_1 _let_96) (tptp.protein_1 _let_94) (tptp.end_1 _let_92) (tptp.glycoprotein_1 _let_90) (tptp.integral_protein_1 _let_90) (tptp.fibronectin_1 _let_90) (tptp.electron_transport_chain_pathway_1 _let_59) (tptp.metabolic_pathway_1 _let_57) (tptp.endergonic_process_1 _let_57) (tptp.chemical_reaction_1 _let_57) (tptp.synthesis_of_organic_molecule_1 _let_57) (tptp.anabolic_pathway_1 _let_57) (tptp.synthesis_of_atp_1 _let_57) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_55) (tptp.surface_1 _let_54) (tptp.hydrophilic_face_1 _let_53) (tptp.synthesis_reaction_1 _let_52) (tptp.synthesis_reaction_1 _let_51) (tptp.chemical_reaction_1 _let_50) (tptp.synthesis_of_lipid_1 _let_50) (tptp.chemical_reaction_1 _let_49) (tptp.synthesis_of_lipid_1 _let_49) (tptp.anabolic_pathway_1 _let_49) (tptp.synthesis_of_lipid_1 _let_48) (tptp.membrane_protein_1 _let_47) (tptp.entity_1 _let_46) (tptp.dna_1 _let_46) (tptp.eukaryotic_chromosome_1 _let_43) (tptp.tangible_entity_1 _let_40) (tptp.membrane_protein_1 _let_40) (tptp.protein_1 _let_40) (tptp.spatial_entity_1 _let_39) (tptp.tangible_entity_1 _let_39) (tptp.transmembrane_protein_1 _let_39) (tptp.integral_protein_1 _let_39) (tptp.transport_protein_1 _let_39) (tptp.tangible_entity_1 _let_38) (tptp.transmembrane_protein_1 _let_38) (tptp.integral_protein_1 _let_38) (tptp.transport_protein_1 _let_38) (tptp.sodium_potassium_pump_1 _let_37) (tptp.tangible_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.protein_1 _let_36) (tptp.spatial_entity_1 _let_36) (tptp.polymer_1 _let_36) (tptp.spatial_entity_1 _let_35) (tptp.polymer_1 _let_35) (tptp.organic_molecule_1 _let_35) (tptp.tangible_entity_1 _let_35) (tptp.membrane_protein_1 _let_35) (tptp.protein_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.phospholipid_bilayer_1 _let_33) (tptp.tangible_entity_1 _let_32) (tptp.phospholipid_bilayer_1 _let_32) (tptp.tangible_entity_1 _let_31) (tptp.phospholipid_bilayer_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.phospholipid_bilayer_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.phospholipid_bilayer_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.phospholipid_bilayer_1 _let_28) (tptp.polymer_1 _let_26) (tptp.spatial_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.tangible_entity_1 _let_26) (tptp.transmembrane_protein_1 _let_26) (tptp.integral_protein_1 _let_26) (tptp.transport_protein_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.polymer_1 _let_25) (tptp.protein_1 _let_25) (tptp.organic_molecule_1 _let_25) (tptp.polymer_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.membrane_protein_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.transmembrane_protein_1 _let_24) (tptp.integral_protein_1 _let_24) (tptp.transport_protein_1 _let_24) (tptp.sodium_potassium_pump_1 _let_24) (tptp.biomembrane_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.biomembrane_1 _let_18) (tptp.animal_plasma_membrane_1 _let_18) (tptp.plasma_membrane_1 _let_18) (tptp.biomembrane_1 _let_17) (tptp.plasma_membrane_1 _let_17) (tptp.animal_plasma_membrane_1 _let_17) (tptp.cellular_work_1 _let_11) (tptp.active_transport_1 _let_11) (tptp.active_movement_of_ions_1 _let_11) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_11) (tptp.animal_cell_1 _let_10) (tptp.eukaryotic_cell_1 _let_8) (tptp.eukaryotic_cell_1 _let_6) (tptp.animal_cell_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.recipient_2 _let_102 _let_71) (tptp.recipient_2 _let_104 _let_3) (tptp.site_2 _let_83 _let_62) (not (= _let_76 _let_16)) (not (= _let_16 _let_76)) (tptp.has_part_2 _let_45 _let_109) (tptp.has_part_2 _let_45 _let_108) (tptp.is_between_2 _let_99 _let_109) (tptp.is_between_2 _let_99 _let_108) (tptp.has_region_2 _let_9 _let_105) (tptp.is_at_2 _let_76 _let_78) (tptp.is_at_2 _let_89 _let_78) (not (= _let_76 _let_89)) (not (= _let_89 _let_76)) (not (= _let_80 _let_89)) (not (= _let_89 _let_80)) (tptp.has_part_2 _let_7 X) (tptp.is_outside_2 _let_105 _let_9) (tptp.donor_2 _let_104 _let_71) (not (= _let_80 _let_76)) (not (= _let_76 _let_80)) (tptp.base_2 _let_100 X) (tptp.has_function_2 _let_3 _let_100) (tptp.site_2 _let_100 _let_3) (tptp.agent_2 _let_102 _let_3) (not (= _let_76 _let_5)) (not (= _let_5 _let_76)) (tptp.is_inside_2 _let_80 _let_78) (tptp.has_region_2 _let_45 _let_99) (tptp.has_part_2 _let_45 _let_95) (tptp.agent_2 _let_97 _let_95) (tptp.object_2 _let_97 _let_88) (tptp.is_at_2 _let_42 _let_93) (tptp.has_region_2 _let_45 _let_93) (tptp.has_part_2 _let_45 _let_42) (tptp.is_oriented_toward_2 _let_91 _let_62) (tptp.has_region_2 _let_9 _let_91) (tptp.is_facing_2 _let_91 _let_62) (tptp.called_2 _let_89 |tptp.'MP1'|) (tptp.is_at_2 _let_89 _let_9) (tptp.is_across_2 _let_89 _let_9) (tptp.has_part_2 _let_9 _let_89) (not (= _let_5 _let_16)) (not (= _let_89 _let_5)) (not (= _let_5 _let_89)) (not (= _let_16 _let_5)) (tptp.called_2 _let_80 |tptp.'MP1'|) (tptp.called_2 _let_16 |tptp.'MP1'|) (tptp.is_at_2 _let_80 _let_78) (tptp.is_inside_2 _let_89 _let_78) (not (= _let_89 _let_16)) (tptp.is_inside_2 _let_16 _let_78) (not (= _let_16 _let_89)) (not (= _let_16 _let_80)) (tptp.is_across_2 _let_80 _let_9) (tptp.has_part_2 _let_9 _let_80) (tptp.is_at_2 _let_80 _let_9) (tptp.has_part_2 _let_9 _let_16) (not (= _let_80 _let_16)) (tptp.called_2 _let_5 |tptp.'MP1'|) (tptp.has_region_2 _let_76 _let_77) (tptp.has_part_2 _let_45 _let_88) (tptp.called_2 _let_76 |tptp.'MP1'|) (tptp.the_scalar_value_2 _let_86 tptp.big_0) (tptp.scalar_unit_class_2 _let_86 tptp.prokaryote_0) (tptp.has_function_2 X _let_61) (tptp.has_region_2 X _let_85) (tptp.is_inside_2 _let_62 _let_9) (tptp.destination_2 _let_67 _let_1) (tptp.is_at_2 _let_76 _let_9) (tptp.is_across_2 _let_76 _let_69) (tptp.size_2 X _let_86) (tptp.directly_proportional_2 _let_86 _let_87) (tptp.volume_2 X _let_87) (tptp.has_part_2 X _let_75) (tptp.base_2 _let_83 X) (tptp.has_function_2 X _let_83) (tptp.has_region_2 X _let_84) (tptp.is_opposite_2 _let_85 _let_84) (tptp.is_opposite_2 _let_84 _let_85) (tptp.base_2 _let_81 _let_9) (tptp.object_2 _let_81 _let_76) (tptp.is_inside_2 _let_76 _let_78) (tptp.is_at_2 _let_78 _let_82) (tptp.has_region_2 X _let_82) (not (= _let_3 _let_71)) (tptp.has_part_2 X _let_71) (tptp.has_part_2 X _let_45) (tptp.is_inside_2 _let_45 _let_63) (tptp.has_part_2 X _let_63) (not (= _let_71 _let_3)) (tptp.object_2 _let_79 X) (tptp.agent_2 _let_79 _let_9) (tptp.has_part_2 _let_9 _let_5) (not (= _let_80 _let_5)) (not (= _let_5 _let_80)) (tptp.has_part_2 _let_9 _let_76) (tptp.is_across_2 _let_76 _let_9) (tptp.has_region_2 _let_9 _let_77) (tptp.is_outside_2 _let_77 _let_9) (tptp.has_part_2 _let_9 _let_78) (tptp.object_2 _let_72 X) (tptp.has_function_2 _let_73 _let_72) (tptp.result_2 _let_74 _let_73) (tptp.has_function_2 _let_75 _let_74) (tptp.is_near_2 _let_75 _let_63) (tptp.is_near_2 _let_63 _let_75) (tptp.is_inside_2 _let_70 _let_64) (tptp.has_part_2 X _let_70) (tptp.has_part_2 X _let_3) (tptp.abuts_2 _let_71 _let_3) (tptp.abuts_2 _let_3 _let_71) (tptp.causes_2 _let_67 _let_66) (tptp.origin_2 _let_67 _let_68) (tptp.has_part_2 X _let_68) (tptp.has_part_2 X _let_9) (tptp.has_region_2 _let_9 _let_69) (tptp.base_2 _let_66 X) (tptp.site_2 _let_66 _let_1) (tptp.is_inside_2 _let_1 _let_64) (tptp.has_part_2 _let_62 _let_64) (tptp.is_between_2 _let_62 _let_9) (tptp.has_part_2 X _let_62) (tptp.is_between_2 _let_62 _let_63) (tptp.is_inside_2 _let_63 _let_64) (tptp.is_inside_2 _let_65 _let_64) (tptp.has_part_2 X _let_65) (tptp.first_subevent_2 _let_56 _let_60) (tptp.base_2 _let_61 X) (tptp.base_2 _let_60 X) (tptp.subevent_2 _let_56 _let_60) (tptp.site_2 _let_56 _let_1) (tptp.has_function_2 _let_1 _let_56) (tptp.base_2 _let_56 X) (tptp.has_part_2 X _let_1) (tptp.site_2 _let_58 _let_1) (tptp.base_2 _let_58 X) (= _let_105 _let_54) (= _let_76 _let_26) (= _let_76 _let_25) (= X _let_8) (= _let_107 _let_106) (= _let_105 _let_53) (= _let_104 _let_103) (= X _let_4) (= _let_102 _let_101) (= _let_100 _let_52) (= _let_100 _let_51) (= _let_100 _let_50) (= _let_100 _let_49) (= _let_100 _let_48) (= _let_76 _let_24) (= _let_80 _let_38) (= _let_80 _let_24) (= _let_99 _let_98) (= _let_88 _let_46) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_45 _let_43) (= _let_93 _let_92) (= _let_91 (tptp.fn_eukaryotic_cell_46 X)) (= _let_89 _let_47) (= _let_16 _let_90) (= _let_89 _let_40) (= _let_89 _let_26) (= _let_89 _let_25) (= _let_89 _let_38) (= _let_89 _let_39) (= _let_89 _let_24) (= _let_80 _let_39) (= _let_89 _let_37) (= _let_78 _let_28) (= _let_9 _let_17) (= _let_80 _let_37) (= _let_88 _let_44) (= _let_61 _let_12) (= (tptp.fn_bone_cell_6 X) (tptp.fn_animal_cell_49 X)) (= (tptp.fn_bone_cell_5 X) (tptp.fn_animal_cell_50 X)) (= _let_62 _let_14) (= _let_87 (tptp.fn_animal_cell_56 X)) (= _let_86 (tptp.fn_animal_cell_57 X)) (= _let_85 (tptp.fn_animal_cell_13 X)) (= _let_84 (tptp.fn_animal_cell_1 X)) (= _let_83 (tptp.fn_animal_cell_81 X)) (= _let_82 (tptp.fn_animal_cell_55 X)) (= _let_81 (tptp.fn_animal_cell_83 X)) (= _let_45 _let_41) (= _let_80 _let_40) (= _let_80 _let_35) (= _let_80 _let_23) (= _let_5 _let_36) (= _let_5 _let_35) (= _let_5 _let_34) (= _let_79 (tptp.fn_animal_cell_76 X)) (= _let_78 _let_33) (= _let_78 _let_32) (= _let_78 _let_31) (= _let_9 _let_20) (= _let_78 _let_30) (= _let_78 _let_29) (= _let_78 _let_27) (= _let_77 (tptp.fn_animal_cell_84 X)) (= _let_76 _let_23) (= _let_75 (tptp.fn_animal_cell_74 X)) (= _let_74 (tptp.fn_animal_cell_64 X)) (= _let_73 (tptp.fn_animal_cell_63 X)) (= _let_72 (tptp.fn_animal_cell_61 X)) (= _let_71 (tptp.fn_animal_cell_53 X)) (= _let_3 (tptp.fn_animal_cell_54 X)) (= _let_70 (tptp.fn_animal_cell_82 X)) (= _let_69 _let_22) (= _let_69 _let_21) (= X _let_10) (= X _let_6) (= _let_9 _let_18) (= _let_9 _let_19) (= _let_68 (tptp.fn_animal_cell_45 X)) (= _let_67 (tptp.fn_animal_cell_22 X)) (= _let_9 _let_15) (= _let_1 (tptp.fn_animal_cell_59 X)) (= _let_66 (tptp.fn_animal_cell_21 X)) (= _let_65 (tptp.fn_animal_cell_51 X)) (= _let_64 (tptp.fn_animal_cell_62 X)) (= _let_63 (tptp.fn_animal_cell_78 X)) (= _let_62 _let_13) (= _let_61 _let_11) (= _let_60 _let_59) (= _let_58 _let_57) (= X _let_2) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_40) (= _let_25 _let_40) (= _let_40 _let_40) (= _let_40 _let_25) (= _let_38 _let_25) (= _let_25 _let_38) (= _let_38 _let_38) (= _let_39 _let_39) (= _let_26 _let_39) (= _let_39 _let_26) (= _let_24 _let_26) (= _let_26 _let_24) (= _let_37 _let_46) (= _let_46 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_39) (= _let_39 _let_35) (= _let_35 _let_38) (= _let_38 _let_35) (= _let_24 _let_35) (= _let_35 _let_24) (= _let_24 _let_37) (= _let_37 _let_37) (= _let_37 _let_23) (= _let_23 _let_35) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_8) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bone_formation_1 X))) (=> (tptp.bone_formation_1 X) (and (tptp.original_name_2 X |tptp.'Bone-Formation'|) (tptp.user_description_2 X |tptp.'The process in which minerals such as calcium are added to tissues to form bone. Bone formation occurs during development, growth and repair of bone tissue.'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X |tptp.'formation of bone'|) (tptp.concept2words_2 X |tptp.'bone formation'|) (tptp.concept2words_2 X |tptp.'bone-formation'|) (tptp.animal_process_1 X) (tptp.bone_1 _let_1) (tptp.result_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.bone_marrow_1 X) (and (tptp.original_name_2 X |tptp.'Bone-Marrow'|) (tptp.user_description_2 X |tptp.'Bone marrow is the flexible tissue found in the interior of bones. In humans, marrow in large bones produces new blood cells.'|) (tptp.concept2words_2 X |tptp.'marrow of bone'|) (tptp.concept2words_2 X |tptp.'bone marrow'|) (tptp.concept2words_2 X |tptp.'bone-marrow'|) (tptp.lymphatic_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bony_fish_1 X) (and (tptp.original_name_2 X |tptp.'Bony-Fish'|) (tptp.user_description_2 X |tptp.'A member of the clade Osteichthyes, fishes that have bony, rather than cartilaginous, skeletons.'|) (tptp.concept2words_2 X tptp.osteichthyan) (tptp.concept2words_2 X tptp.osteichthyes) (tptp.concept2words_2 X |tptp.'bony fish'|) (tptp.concept2words_2 X |tptp.'bony-fish'|) (tptp.fish_1 X) (not (tptp.cartilaginous_fish_1 X)) (not (tptp.lobe_fin_fish_1 X)) (not (tptp.tetrapod_fish_1 X))))) (forall ((X $$unsorted)) (=> (tptp.book_lung_1 X) (and (tptp.original_name_2 X |tptp.'Book-Lung'|) (tptp.user_description_2 X |tptp.'The respiratory structure of spiders and other terrestrial chelicerates, consisting of a stack of thin, vascularized, sheets of tissue hanging in an air-filled cavity.'|) (tptp.concept2words_2 X |tptp.'lung of book'|) (tptp.concept2words_2 X |tptp.'book lung'|) (tptp.concept2words_2 X |tptp.'book-lung'|) (tptp.respiratory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.boolean_1 X) (and (tptp.original_name_2 X |tptp.'Boolean'|) (tptp.concept2words_2 X tptp.boolean) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.boom_and_bust_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Boom-And-Bust-Cycle'|) (tptp.user_description_2 X |tptp.'Regular fluctuations in population density.'|) (tptp.concept2words_2 X |tptp.'boom and bust cycle'|) (tptp.concept2words_2 X |tptp.'boom-and-bust-cycle'|) (tptp.population_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_borisy_experiment_1 X))) (let ((_let_2 (tptp.fn_scientist_2 _let_1))) (=> (tptp.borisy_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Borisy-Experiment'|) (tptp.user_description_2 X |tptp.'Experiment conducted by G. G. Borisy and collegues which investigated the mechanisms of microtubule shortening during mitosis.'|) (tptp.concept2words_2 X |tptp.'borisy experiment'|) (tptp.concept2words_2 X |tptp.'borisy-experiment'|) (tptp.experiment_1 X) (tptp.gary_borisy_1 _let_1) (tptp.study_1 _let_2) (tptp.agent_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_boron_8 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_4 (tptp.fn_boron_15 X))) (let ((_let_5 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_6 (tptp.fn_boron_9 X))) (let ((_let_7 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_8 (tptp.fn_boron_16 X))) (let ((_let_9 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_10 (tptp.fn_boron_11 X))) (let ((_let_11 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_12 (tptp.fn_boron_14 X))) (let ((_let_13 (tptp.fn_boron_12 X))) (let ((_let_14 (tptp.fn_boron_13 X))) (let ((_let_15 (tptp.fn_boron_4 X))) (let ((_let_16 (tptp.fn_boron_3 X))) (let ((_let_17 (tptp.fn_boron_2 X))) (let ((_let_18 (tptp.fn_boron_1 X))) (=> (tptp.boron_1 X) (and (tptp.original_name_2 X |tptp.'Boron'|) (tptp.user_description_2 X |tptp.'Boron is a metalloid atom with atomic number 5. It is represented by the symbol B.'|) (tptp.concept2words_2 X |tptp.'B'|) (tptp.concept2words_2 X tptp.boron) (tptp.metalloid_atom_1 X) (not (tptp.indium_1 X)) (not (tptp.antimony_1 X)) (tptp.electronegativity_value_1 _let_18) (tptp.valence_value_1 _let_17) (tptp.atomic_mass_value_1 _let_16) (tptp.neutron_1 _let_15) (tptp.atomic_nucleus_1 _let_1) (tptp.center_1 _let_6) (tptp.atomic_number_value_1 _let_10) (tptp.quantity_value_1 _let_13) (tptp.atomic_weight_value_1 _let_14) (tptp.valence_electron_1 _let_12) (tptp.electron_1 _let_4) (tptp.proton_1 _let_8) (tptp.property_node_1 _let_11) (tptp.atomic_number_value_1 _let_9) (tptp.proton_1 _let_7) (tptp.center_1 _let_5) (tptp.electron_1 _let_3) (tptp.atom_1 _let_2) (tptp.is_inside_2 _let_15 _let_1) (tptp.the_cardinal_value_2 _let_14 |"10.81"|) (tptp.cardinal_unit_class_2 _let_14 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_16 |"11"|) (tptp.cardinal_unit_class_2 _let_16 tptp.unity_0) (tptp.the_cardinal_value_2 _let_17 |"3"|) (tptp.cardinal_unit_class_2 _let_17 tptp.unity_0) (tptp.the_cardinal_value_2 _let_18 |"2.04"|) (tptp.cardinal_unit_class_2 _let_18 tptp.unity_0) (tptp.the_cardinal_value_2 _let_13 |"3"|) (tptp.cardinal_unit_class_2 _let_13 tptp.unity_0) (tptp.electronegativity_2 X _let_18) (tptp.valence_2 X _let_17) (tptp.mass_number_2 X _let_16) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"5"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"5"| tptp.electron_0) (tptp.has_part_2 X _let_15) (tptp.the_cardinal_value_2 _let_10 |"5"|) (tptp.cardinal_unit_class_2 _let_10 tptp.unity_0) (tptp.called_2 _let_10 |tptp.'AtomicNumber'|) (tptp.atomic_weight_2 X _let_14) (tptp.has_part_2 X _let_12) (tptp.quantity_2 _let_12 _let_13) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_8 _let_1) (tptp.has_part_2 X _let_4) (tptp.atomic_number_2 X _let_10) (tptp.is_at_2 _let_1 _let_6) (tptp.has_region_2 X _let_6) (tptp.has_part_2 X _let_8) (tptp.is_near_2 _let_4 _let_1) (tptp.is_near_2 _let_1 _let_4) (= (tptp.fn_boron_17 X) (tptp.fn_atom_13 X)) (= _let_14 (tptp.fn_atom_16 X)) (= (tptp.fn_boron_18 X) (tptp.fn_atom_1 X)) (= _let_13 (tptp.fn_atom_5 X)) (= _let_12 (tptp.fn_atom_14 X)) (= (tptp.fn_boron_10 X) _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= X _let_2) (= _let_6 _let_5) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.botanist_1 X) (and (tptp.original_name_2 X |tptp.'Botanist'|) (tptp.user_description_2 X |tptp.'Scientist that does botany or studies plants.'|) (tptp.concept2words_2 X tptp.botanist) (tptp.biologist_1 X)))) (forall ((X $$unsorted)) (=> (tptp.botany_1 X) (and (tptp.original_name_2 X |tptp.'Botany'|) (tptp.user_description_2 X |tptp.'Field of biology that involves study of plants.'|) (tptp.concept2words_2 X tptp.botanize) (tptp.concept2words_2 X tptp.botany) (tptp.biology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bottleneck_effect_1 X) (and (tptp.original_name_2 X |tptp.'Bottleneck-Effect'|) (tptp.user_description_2 X |tptp.'A type of genetic drift that occurs when population size decreases drastically due to natural events or human actions. After a bottleneck event the remaining few organisms do not represent the genetic make-up of the original population.'|) (tptp.concept2words_2 X |tptp.'effect of bottleneck'|) (tptp.concept2words_2 X |tptp.'bottleneck effect'|) (tptp.concept2words_2 X |tptp.'bottleneck-effect'|) (tptp.genetic_drift_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bound_ribosome_3 X))) (let ((_let_2 (tptp.fn_er_membrane_13 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_4 (tptp.fn_bound_ribosome_2 X))) (let ((_let_5 (tptp.fn_bound_ribosome_4 X))) (let ((_let_6 (tptp.fn_endoplasmic_reticulum_30 _let_5))) (let ((_let_7 (tptp.fn_er_membrane_28 _let_1))) (let ((_let_8 (tptp.fn_bound_ribosome_1 X))) (=> (tptp.bound_ribosome_1 X) (and (tptp.original_name_2 X |tptp.'Bound-Ribosome'|) (tptp.user_description_2 X |tptp.'Bound ribosome is the ribosome attached to Rough endoplasmic reticulum. Bound ribosome is structurally similar to free ribosome and can also serve as free ribosome by getting detached from Rough Endoplasmic Reticulum'|) (tptp.concept2words_2 X |tptp.'ribosome of bound'|) (tptp.concept2words_2 X |tptp.'bound ribosome'|) (tptp.concept2words_2 X |tptp.'bound-ribosome'|) (tptp.eukaryotic_ribosome_1 X) (not (tptp.free_ribosome_1 X)) (tptp.outside_face_1 _let_8) (tptp.surface_1 _let_4) (tptp.outside_face_1 _let_4) (tptp.tangible_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.er_membrane_1 _let_1) (tptp.rough_endoplasmic_reticulum_1 _let_5) (tptp.endoplasmic_reticulum_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.er_membrane_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.outside_face_1 _let_3) (tptp.surface_1 _let_2) (tptp.outside_face_1 _let_2) (tptp.is_at_2 X _let_8) (tptp.is_outside_2 _let_4 _let_1) (tptp.has_part_2 _let_5 X) (tptp.has_part_2 _let_5 _let_1) (tptp.has_region_2 _let_1 _let_4) (= _let_5 _let_7) (= _let_1 _let_6) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.bowmans_capsule_1 X) (and (tptp.original_name_2 X |tptp.'Bowmans-Capsule'|) (tptp.user_description_2 X |tptp.'An expanded, cup-shaped receptacle at the end of the nephron in a kidney, that surrounds the glomerulus and is the site where filtrate enters the nephron from the blood.'|) (tptp.concept2words_2 X |tptp.'bowmans capsule'|) (tptp.concept2words_2 X |tptp.'bowmans-capsule'|) (tptp.mixed_epithelial_tissue_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.epithelium_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brachiopod_1 X) (and (tptp.original_name_2 X |tptp.'Brachiopod'|) (tptp.user_description_2 X |tptp.'A bivalved marine lophophorate. Its valves are dorsal and ventral, as opposed to the left and right valves of a bivalved mollusc.'|) (tptp.concept2words_2 X tptp.brachiopod) (tptp.lophotrochozoan_1 X) (not (tptp.ectoproct_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_brain_3 X))) (let ((_let_2 (tptp.fn_tissue_1 _let_1))) (let ((_let_3 (tptp.fn_brain_2 X))) (let ((_let_4 (tptp.fn_brain_1 X))) (=> (tptp.brain_1 X) (and (tptp.original_name_2 X |tptp.'Brain'|) (tptp.user_description_2 X |tptp.'One of two major organs of the central nervous system, the other being the spinal cord. The brain receives information from the rest of the body, interprets and integrates the information, and controls the body_'s responses to the environment.'|) (tptp.concept2words_2 X tptp.brain) (tptp.nervous_organ_1 X) (tptp.stem_cell_1 _let_4) (tptp.nerve_cell_1 _let_3) (tptp.tissue_1 _let_1) (tptp.eukaryotic_cell_1 _let_2) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_organ_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.brain_region_1 X) (and (tptp.original_name_2 X |tptp.'Brain-Region'|) (tptp.user_description_2 X |tptp.'A region or structure in the vertebrate brain.'|) (tptp.concept2words_2 X |tptp.'region of brain'|) (tptp.concept2words_2 X |tptp.'brain region'|) (tptp.concept2words_2 X |tptp.'brain-region'|) (tptp.nervous_tissue_1 X) (not (tptp.ganglion_1 X)) (not (tptp.gray_matter_1 X)) (not (tptp.nerve_circuit_1 X)) (not (tptp.neural_crest_1 X)) (not (tptp.neuromast_1 X)) (not (tptp.notochord_1 X)) (not (tptp.ommatidium_1 X)) (not (tptp.optic_nerve_1 X)) (not (tptp.retina_1 X)) (not (tptp.white_matter_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brainstem_1 X) (and (tptp.original_name_2 X |tptp.'Brainstem'|) (tptp.user_description_2 X |tptp.'Region of the brain that connects the cerebrum to the spinal cord. It consists of the midbrain, pons, and medulla oblongata. The brainstem controls the life-support activities such as breathing and homeostasis, as well as coordination of movement and conduction of impulses from the spinal cord to higher brain centers.'|) (tptp.concept2words_2 X tptp.brainstem) (tptp.brain_region_1 X) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.amygdala_1 X)) (not (tptp.basal_nuclei_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.primary_somatosensory_cortex_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.branch_point_1 X) (and (tptp.original_name_2 X |tptp.'Branch-Point'|) (tptp.user_description_2 X |tptp.'The part of a phylogenetic tree that represents where an ancestor gives rise to two or more descendent taxa. In most cases a branch point is shown as a dichotomy, with two descendant taxa diverging at the branch point.'|) (tptp.concept2words_2 X tptp.dichotomy) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'point of branch'|) (tptp.concept2words_2 X |tptp.'branch point'|) (tptp.concept2words_2 X |tptp.'branch-point'|) (tptp.phylogeny_1 X) (not (tptp.binomial_nomenclature_1 X)) (not (tptp.cladistics_1 X)) (not (tptp.deep_green_1 X)) (not (tptp.molecular_systematics_1 X)) (not (tptp.paraphyletic_1 X)) (not (tptp.phylocode_1 X)) (not (tptp.phylogenetic_bracketing_1 X)) (not (tptp.taxonomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brassinosteroid_1 X) (and (tptp.original_name_2 X |tptp.'Brassinosteroid'|) (tptp.user_description_2 X |tptp.'A type of plant steroid hormone, involved in a variety of plant processes including cell expansion and cell elongation, differentiation of vascular tissues, and pollen tube formation.'|) (tptp.concept2words_2 X tptp.brassinosteroid) (tptp.steroid_hormone_1 X) (not (tptp.aldosterone_1 X)) (not (tptp.corticosteroid_1 X)) (not (tptp.ecdysone_1 X)) (not (tptp.estradiol_1 X)) (not (tptp.progesterone_1 X)) (not (tptp.testosterone_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_breach_2 X))) (let ((_let_2 (tptp.fn_conduit_1 _let_1))) (let ((_let_3 (tptp.fn_breach_1 X))) (=> (tptp.breach_1 X) (and (tptp.original_name_2 X |tptp.'Breach'|) (tptp.concept2words_2 X tptp.breach) (tptp.concept2words_2 X tptp.gap) (tptp.break_1 X) (tptp.spatial_entity_1 _let_3) (tptp.portal_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.in_event_2 _let_1 X) (tptp.result_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.bread_mold_1 X) (and (tptp.original_name_2 X |tptp.'Bread-Mold'|) (tptp.user_description_2 X |tptp.'Neurospora crassa, a species of mold of the phylum Ascomyceta.'|) (tptp.concept2words_2 X |tptp.'mold of bread'|) (tptp.concept2words_2 X |tptp.'bread mold'|) (tptp.concept2words_2 X |tptp.'bread-mold'|) (tptp.zygomycete_1 X) (not (tptp.black_bread_mold_1 X))))) (forall ((X $$unsorted)) (=> (tptp.break_1 X) (and (tptp.original_name_2 X |tptp.'Break'|) (tptp.concept2words_2 X tptp.break) (tptp.concept2words_2 X |tptp.'break down'|) (tptp.concept2words_2 X tptp.break_down) (tptp.concept2words_2 X |tptp.'conk out'|) (tptp.concept2words_2 X tptp.conk_out) (tptp.concept2words_2 X tptp.die) (tptp.concept2words_2 X tptp.fail) (tptp.concept2words_2 X |tptp.'give out'|) (tptp.concept2words_2 X tptp.give_out) (tptp.concept2words_2 X |tptp.'give way'|) (tptp.concept2words_2 X tptp.give_way) (tptp.concept2words_2 X tptp.go) (tptp.concept2words_2 X |tptp.'break apart'|) (tptp.damage_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_break_contact_1 X))) (let ((_let_2 (tptp.fn_break_contact_2 X))) (=> (tptp.break_contact_1 X) (and (tptp.original_name_2 X |tptp.'Break-Contact'|) (tptp.concept2words_2 X |tptp.'let go'|) (tptp.concept2words_2 X tptp.let_go) (tptp.concept2words_2 X tptp.unwind) (tptp.concept2words_2 X |tptp.'break contact between'|) (tptp.concept2words_2 X |tptp.'contact of break'|) (tptp.concept2words_2 X |tptp.'break contact'|) (tptp.concept2words_2 X |tptp.'break-contact'|) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.breakability_constant_1 X) (and (tptp.original_name_2 X |tptp.'Breakability-Constant'|) (tptp.concept2words_2 X |tptp.'constant of breakability'|) (tptp.concept2words_2 X |tptp.'breakability constant'|) (tptp.concept2words_2 X |tptp.'breakability-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.breakability_scale_1 X) (and (tptp.original_name_2 X |tptp.'Breakability-Scale'|) (tptp.concept2words_2 X |tptp.'scale of breakability'|) (tptp.concept2words_2 X |tptp.'breakability scale'|) (tptp.concept2words_2 X |tptp.'breakability-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.breakability_value_1 X) (and (tptp.original_name_2 X |tptp.'Breakability-Value'|) (tptp.description_2 X |tptp.'the breakability of an Entity'|) (tptp.concept2words_2 X tptp.fragility) (tptp.concept2words_2 X tptp.breakability) (tptp.concept2words_2 X |tptp.'value of breakability'|) (tptp.concept2words_2 X |tptp.'breakability value'|) (tptp.concept2words_2 X |tptp.'breakability-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.breakfast_1 X) (and (tptp.original_name_2 X |tptp.'Breakfast'|) (tptp.concept2words_2 X tptp.breakfast) (tptp.meal_1 X) (not (tptp.supper_1 X)) (not (tptp.lunch_1 X)) (not (tptp.dinner_1 X)) (not (tptp.brunch_1 X))))) (forall ((X $$unsorted)) (=> (tptp.breast_cancer_1 X) (and (tptp.original_name_2 X |tptp.'Breast-Cancer'|) (tptp.user_description_2 X |tptp.'A form of cancer that begins in mammary tissue and may spread to other parts of the body.'|) (tptp.concept2words_2 X |tptp.'cancer of breast'|) (tptp.concept2words_2 X |tptp.'breast cancer'|) (tptp.concept2words_2 X |tptp.'breast-cancer'|) (tptp.cancer_1 X) (not (tptp.burkitts_lymphoma_1 X)) (not (tptp.cml_1 X)) (not (tptp.leukemia_1 X)) (not (tptp.prostate_cancer_1 X))))) (forall ((X $$unsorted)) (=> (tptp.breathing_1 X) (and (tptp.original_name_2 X |tptp.'Breathing'|) (tptp.user_description_2 X |tptp.'The process that brings air into and out of the lungs.'|) (tptp.concept2words_2 X tptp.breathe) (tptp.concept2words_2 X tptp.breathing) (tptp.gas_exchange_1 X)))) (forall ((X $$unsorted)) (=> (tptp.breathing_control_center_1 X) (and (tptp.original_name_2 X |tptp.'Breathing-Control-Center'|) (tptp.user_description_2 X |tptp.'The pons and medulla oblongata, areas in the brain that control the organs involved in breathing.'|) (tptp.concept2words_2 X |tptp.'breathing control center'|) (tptp.concept2words_2 X |tptp.'breathing-control-center'|) (tptp.brainstem_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.amygdala_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebral_cortex_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bridge_3 X))) (let ((_let_2 (tptp.fn_conduit_1 _let_1))) (let ((_let_3 (tptp.fn_bridge_2 X))) (let ((_let_4 (tptp.fn_bridge_1 X))) (=> (tptp.bridge_1 X) (and (tptp.original_name_2 X |tptp.'Bridge'|) (tptp.description_2 X |tptp.'an architectural structure that acts as conduit over a barrier'|) (tptp.concept2words_2 X tptp.bridge) (tptp.concept2words_2 X tptp.span) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X)) (not (tptp.laboratory_1 X)) (tptp.barrier_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.conduit_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.plays_2 _let_3 _let_4) (tptp.is_over_2 X _let_3) (tptp.plays_2 X _let_1) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_brighten_4 X))) (let ((_let_2 (tptp.fn_brighten_5 X))) (let ((_let_3 (tptp.fn_brighten_1 X))) (=> (tptp.brighten_1 X) (and (tptp.original_name_2 X |tptp.'Brighten'|) (tptp.concept2words_2 X tptp.brighten) (tptp.concept2words_2 X |tptp.'lighten up'|) (tptp.concept2words_2 X tptp.lighten_up) (tptp.concept2words_2 X tptp.lighten) (tptp.increase_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.expand_1 X)) (not (tptp.condense_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_in_cell_size_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.brightness_value_1 _let_1) (tptp.brightness_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_2 _let_1) (= (tptp.fn_brighten_3 X) (tptp.fn_increase_2 X)) (= (tptp.fn_brighten_2 X) (tptp.fn_increase_1 X)) (= _let_2 (tptp.fn_increase_4 X)) (= _let_1 (tptp.fn_increase_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.brightfield_microscope_1 X) (and (tptp.original_name_2 X |tptp.'Brightfield-Microscope'|) (tptp.user_description_2 X |tptp.'A type of light microscope that illuminates the entire field, so specimens must be stained.'|) (tptp.concept2words_2 X |tptp.'brightfield microscope'|) (tptp.concept2words_2 X |tptp.'brightfield-microscope'|) (tptp.light_microscope_1 X) (not (tptp.phase_contrast_microscope_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brightness_constant_1 X) (and (tptp.original_name_2 X |tptp.'Brightness-Constant'|) (tptp.concept2words_2 X |tptp.'constant of brightness'|) (tptp.concept2words_2 X |tptp.'brightness constant'|) (tptp.concept2words_2 X |tptp.'brightness-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.brightness_scale_1 X) (and (tptp.original_name_2 X |tptp.'Brightness-Scale'|) (tptp.concept2words_2 X |tptp.'scale of brightness'|) (tptp.concept2words_2 X |tptp.'brightness scale'|) (tptp.concept2words_2 X |tptp.'brightness-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.brightness_value_1 X) (and (tptp.original_name_2 X |tptp.'Brightness-Value'|) (tptp.description_2 X |tptp.'the brightness of a Tangible-Entity'|) (tptp.concept2words_2 X |tptp.'brightness level'|) (tptp.concept2words_2 X tptp.brightness) (tptp.concept2words_2 X tptp.luminosity) (tptp.concept2words_2 X tptp.luminance) (tptp.concept2words_2 X tptp.luminousness) (tptp.concept2words_2 X tptp.light) (tptp.concept2words_2 X |tptp.'value of brightness'|) (tptp.concept2words_2 X |tptp.'brightness value'|) (tptp.concept2words_2 X |tptp.'brightness-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brittle_star_1 X) (and (tptp.original_name_2 X |tptp.'Brittle-Star'|) (tptp.user_description_2 X |tptp.'Any of a group of echinoderms from the class Ophiuroidea that superficially resemble sea stars. Brittle stars get their common name from the fact that their arms autotomize readily; they also differ from the sea stars in some aspects of their water vascular system and digestive system.'|) (tptp.concept2words_2 X |tptp.'star of brittle'|) (tptp.concept2words_2 X |tptp.'brittle star'|) (tptp.concept2words_2 X |tptp.'brittle-star'|) (tptp.echinoderm_1 X) (not (tptp.asteroidea_1 X)) (not (tptp.sea_cucumber_1 X)) (not (tptp.sea_daisy_1 X)) (not (tptp.sea_lily_1 X)) (not (tptp.sea_star_1 X)) (not (tptp.sea_urchin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bromine_9 X))) (let ((_let_2 (tptp.fn_bromine_12 X))) (let ((_let_3 (tptp.fn_bromine_10 X))) (let ((_let_4 (tptp.fn_bromine_11 X))) (let ((_let_5 (tptp.fn_bromine_4 X))) (let ((_let_6 (tptp.fn_bromine_5 X))) (let ((_let_7 (tptp.fn_bromine_3 X))) (=> (tptp.bromine_1 X) (and (tptp.original_name_2 X |tptp.'Bromine'|) (tptp.user_description_2 X |tptp.'Bromine is a non metal atom with atomic number 35. It is represented by the symbol Br.'|) (tptp.concept2words_2 X tptp.bromine) (tptp.concept2words_2 X |tptp.'Br'|) (tptp.non_metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"45"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"35"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"35"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.96"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"80"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"35"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"79.9"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_bromine_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_bromine_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_bromine_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.bronchiole_1 X) (and (tptp.original_name_2 X |tptp.'Bronchiole'|) (tptp.user_description_2 X |tptp.'Small, branched air passages that transport air to the alveoli of the lungs, where gas exchange occurs.'|) (tptp.concept2words_2 X tptp.bronchiole) (tptp.simple_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bronchus_1 X) (and (tptp.original_name_2 X |tptp.'Bronchus'|) (tptp.user_description_2 X |tptp.'One of two branches tubes that leads from the trachea into the lungs.'|) (tptp.concept2words_2 X |tptp.'bronchial tubes'|) (tptp.concept2words_2 X |tptp.'bronchial-tubes'|) (tptp.concept2words_2 X tptp.bronchus) (tptp.simple_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bronsted_lowry_acid_1 X) (and (tptp.original_name_2 X |tptp.'Bronsted-Lowry-Acid'|) (tptp.user_description_2 X |tptp.'An ion or molecule that is able to donate a hydrogen ion to another ion or molecule'|) (tptp.concept2words_2 X |tptp.'bronsted lowry acid'|) (tptp.concept2words_2 X |tptp.'bronsted-lowry-acid'|) (tptp.acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bronsted_lowry_acid_compound_1 X) (and (tptp.original_name_2 X |tptp.'Bronsted-Lowry-Acid-Compound'|) (tptp.user_description_2 X |tptp.'A chemical entity that donates H+.'|) (tptp.concept2words_2 X |tptp.'bronsted lowry acid compound'|) (tptp.concept2words_2 X |tptp.'bronsted-lowry-acid-compound'|) (tptp.ionic_compound_1 X) (tptp.acid_compound_1 X) (not (tptp.c6h5cooh_1 X)) (not (tptp.ch2_cooh_2_1 X)) (not (tptp.salt_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brown_alga_1 X) (and (tptp.original_name_2 X |tptp.'Brown-Alga'|) (tptp.user_description_2 X |tptp.'A multicellular, photosynthetic protist, typically a brownish or olive-brown color due to carotenoid pigments. The largest seaweeds (giant kelps) are brown algae.'|) (tptp.concept2words_2 X |tptp.'alga of brown'|) (tptp.concept2words_2 X |tptp.'brown alga'|) (tptp.concept2words_2 X |tptp.'brown-alga'|) (tptp.stramenopile_1 X) (not (tptp.golden_alga_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brown_algae_1 X) (and (tptp.original_name_2 X |tptp.'Brown-Algae'|) (tptp.user_description_2 X |tptp.'A multicellular, photosynthetic protist, typically a brownish or olive-brown color due to carotenoid pigments. The largest seaweeds (giant kelps) are brown algae.'|) (tptp.concept2words_2 X |tptp.'algae of brown'|) (tptp.concept2words_2 X |tptp.'brown algae'|) (tptp.concept2words_2 X |tptp.'brown-algae'|) (tptp.diplomonad_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_brown_fat_6 X))) (let ((_let_2 (tptp.fn_animal_cell_59 _let_1))) (let ((_let_3 (tptp.fn_adipose_cell_33 _let_1))) (let ((_let_4 (tptp.fn_eukaryotic_cell_25 _let_1))) (let ((_let_5 (tptp.fn_brown_fat_4 X))) (let ((_let_6 (tptp.fn_mitochondrial_membrane_35 _let_5))) (let ((_let_7 (tptp.fn_mitochondrial_membrane_37 _let_5))) (let ((_let_8 (tptp.fn_brown_fat_7 X))) (let ((_let_9 (tptp.fn_transport_protein_35 _let_8))) (let ((_let_10 (tptp.fn_brown_fat_3 X))) (let ((_let_11 (tptp.fn_animal_cell_32 _let_1))) (let ((_let_12 (tptp.fn_brown_fat_2 X))) (let ((_let_13 (tptp.fn_animal_cell_15 _let_1))) (let ((_let_14 (tptp.fn_animal_cell_23 _let_1))) (let ((_let_15 (tptp.fn_brown_fat_5 X))) (let ((_let_16 (tptp.fn_biomembrane_54 _let_15))) (=> (tptp.brown_fat_1 X) (and (tptp.original_name_2 X |tptp.'Brown-Fat'|) (tptp.user_description_2 X |tptp.'Metabolically active adipose tissue which contributes to the generation of body heat.'|) (tptp.concept2words_2 X |tptp.'fat of brown'|) (tptp.concept2words_2 X |tptp.'brown fat'|) (tptp.concept2words_2 X |tptp.'brown-fat'|) (tptp.adipose_tissue_1 X) (tptp.quantity_value_1 _let_12) (tptp.semiautonomous_organelle_1 _let_10) (tptp.organelle_1 _let_10) (tptp.mitochondrion_1 _let_10) (tptp.entity_1 _let_5) (tptp.mitochondrial_membrane_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.entity_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.inner_membrane_1 _let_15) (tptp.biomembrane_1 _let_15) (tptp.eukaryotic_cell_1 _let_1) (tptp.adipose_cell_1 _let_1) (tptp.animal_cell_1 _let_1) (tptp.uncoupling_protein_1 _let_8) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.protein_1 _let_16) (tptp.entity_1 _let_14) (tptp.mitochondrial_membrane_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.property_node_1 _let_13) (tptp.quantity_value_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.entity_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.inner_membrane_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.organelle_1 _let_6) (tptp.mitochondrion_1 _let_6) (tptp.semiautonomous_organelle_1 _let_6) (tptp.semiautonomous_organelle_1 _let_4) (tptp.mitochondrion_1 _let_4) (tptp.organelle_1 _let_4) (tptp.semiautonomous_organelle_1 _let_3) (tptp.organelle_1 _let_3) (tptp.mitochondrion_1 _let_3) (tptp.semiautonomous_organelle_1 _let_2) (tptp.organelle_1 _let_2) (tptp.mitochondrion_1 _let_2) (tptp.the_scalar_value_2 _let_12 tptp.high_0) (tptp.scalar_unit_class_2 _let_12 tptp.semiautonomous_organelle_0) (tptp.is_across_2 _let_8 _let_15) (tptp.has_part_2 _let_15 _let_8) (tptp.has_part_2 _let_5 _let_15) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_10 _let_5) (tptp.has_part_2 _let_1 _let_10) (tptp.quantity_2 _let_10 _let_12) (= _let_15 _let_9) (= _let_8 _let_16) (= _let_15 _let_7) (= _let_1 (tptp.fn_adipose_tissue_5 X)) (= _let_10 _let_6) (= _let_5 _let_14) (= (tptp.fn_brown_fat_1 X) _let_13) (= _let_12 _let_11) (= _let_10 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.brown_headed_cowbird_1 X) (and (tptp.original_name_2 X |tptp.'Brown-Headed-Cowbird'|) (tptp.user_description_2 X |tptp.'Molothrus ater, the most common brood parasitic bird in North America.'|) (tptp.concept2words_2 X |tptp.'brown headed cowbird'|) (tptp.concept2words_2 X |tptp.'brown-headed cowbird'|) (tptp.concept2words_2 X |tptp.'brown-headed-cowbird'|) (tptp.bird_1 X) (not (tptp.flightless_birds_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (=> (tptp.brunch_1 X) (and (tptp.original_name_2 X |tptp.'Brunch'|) (tptp.concept2words_2 X tptp.brunch) (tptp.meal_1 X) (not (tptp.supper_1 X)) (not (tptp.lunch_1 X)) (not (tptp.dinner_1 X)) (not (tptp.breakfast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bryophyte_2 X))) (let ((_let_2 (tptp.fn_bryophyte_1 X))) (=> (tptp.bryophyte_1 X) (and (tptp.original_name_2 X |tptp.'Bryophyte'|) (tptp.user_description_2 X |tptp.'A general term for plants which do not have extensive vascular tissue and lack other adaptations for terrestrial living.'|) (tptp.concept2words_2 X |tptp.'nonvascular plant'|) (tptp.concept2words_2 X |tptp.'nonvascular-plant'|) (tptp.concept2words_2 X tptp.bryophyte) (tptp.plant_1 X) (tptp.seta_1 _let_2) (tptp.bryophyte_sporangium_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.bryophyte_sporangium_1 X) (and (tptp.original_name_2 X |tptp.'Bryophyte-Sporangium'|) (tptp.user_description_2 X |tptp.'Multicellular organ in mosses, liverworts and hornworts which produces haploid cells through meiosis.'|) (tptp.concept2words_2 X tptp.capsule) (tptp.concept2words_2 X |tptp.'sporangium of bryophyte'|) (tptp.concept2words_2 X |tptp.'bryophyte sporangium'|) (tptp.concept2words_2 X |tptp.'bryophyte-sporangium'|) (tptp.sporangium_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_19 X))) (let ((_let_2 (tptp.fn_eumetazoan_22 X))) (let ((_let_3 (tptp.fn_animal_8 X))) (let ((_let_4 (tptp.fn_eumetazoan_2 X))) (let ((_let_5 (tptp.fn_animal_12 X))) (let ((_let_6 (tptp.fn_eumetazoan_6 X))) (let ((_let_7 (tptp.fn_animal_11 X))) (let ((_let_8 (tptp.fn_eumetazoan_28 X))) (let ((_let_9 (tptp.fn_bryozoan_5 X))) (let ((_let_10 (tptp.fn_bryozoan_9 X))) (let ((_let_11 (tptp.fn_bryozoan_6 X))) (let ((_let_12 (tptp.fn_bryozoan_14 X))) (let ((_let_13 (tptp.fn_bryozoan_4 X))) (let ((_let_14 (tptp.fn_bryozoan_15 X))) (let ((_let_15 (tptp.fn_bryozoan_11 X))) (let ((_let_16 (tptp.fn_bryozoan_12 X))) (let ((_let_17 (tptp.fn_bryozoan_16 X))) (let ((_let_18 (tptp.fn_bryozoan_17 X))) (let ((_let_19 (tptp.fn_bryozoan_18 X))) (let ((_let_20 (tptp.fn_bryozoan_10 X))) (let ((_let_21 (tptp.fn_bryozoan_7 X))) (let ((_let_22 (tptp.fn_bryozoan_8 X))) (let ((_let_23 (tptp.fn_bryozoan_13 X))) (let ((_let_24 (tptp.fn_agent_role_1 _let_23))) (let ((_let_25 (tptp.fn_bryozoan_1 X))) (=> (tptp.bryozoan_1 X) (and (tptp.original_name_2 X |tptp.'Bryozoan'|) (tptp.user_description_2 X |tptp.'A member of the phylum Bryozoa, which comprises marine and freshwater colonial lophophorate animals.'|) (tptp.concept2words_2 X tptp.bryozoan) (tptp.eumetazoan_1 X) (not (tptp.ammonite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X)) (tptp.tangible_entity_1 _let_25) (tptp.locomotion_1 _let_13) (tptp.temperature_value_1 _let_9) (tptp.water_1 _let_11) (tptp.tissue_1 _let_21) (tptp.animal_cell_1 _let_22) (tptp.specific_heat_value_1 _let_10) (tptp.animal_nutritional_requirement_1 _let_20) (tptp.chemical_entity_1 _let_15) (tptp.carbohydrate_1 _let_15) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.agent_role_1 _let_23) (tptp.heterotroph_1 _let_12) (tptp.nutrition_1 _let_14) (tptp.take_in_1 _let_17) (tptp.diet_1 _let_18) (tptp.organic_entity_1 _let_19) (tptp.entity_1 _let_24) (tptp.raw_material_2 _let_14 _let_25) (tptp.plays_2 X _let_23) (tptp.element_2 _let_20 _let_16) (tptp.agent_2 _let_17 X) (tptp.base_2 _let_17 X) (tptp.object_2 _let_17 _let_18) (tptp.element_2 _let_18 _let_19) (tptp.raw_material_2 _let_14 _let_19) (tptp.in_event_2 _let_12 _let_14) (tptp.agent_2 _let_13 X) (tptp.object_2 _let_13 X) (tptp.agent_2 _let_14 X) (tptp.result_2 _let_14 _let_15) (tptp.has_part_2 _let_15 _let_16) (tptp.temperature_2 X _let_9) (tptp.correspondence_2 _let_9 _let_10) (tptp.specific_heat_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (tptp.plays_2 X _let_12) (= X _let_24) (= _let_22 (tptp.fn_eumetazoan_21 X)) (= _let_21 (tptp.fn_eumetazoan_20 X)) (= _let_20 _let_8) (= _let_20 _let_7) (= (tptp.fn_bryozoan_3 X) (tptp.fn_animal_27 X)) (= (tptp.fn_bryozoan_2 X) (tptp.fn_animal_28 X)) (= _let_19 (tptp.fn_animal_1 X)) (= _let_18 (tptp.fn_animal_10 X)) (= _let_17 (tptp.fn_animal_9 X)) (= _let_16 _let_6) (= _let_16 _let_5) (= _let_15 _let_4) (= _let_15 _let_3) (= _let_14 _let_2) (= _let_14 _let_1) (= _let_13 (tptp.fn_animal_22 X)) (= _let_12 (tptp.fn_animal_18 X)) (= _let_11 (tptp.fn_animal_20 X)) (= _let_10 (tptp.fn_animal_25 X)) (= _let_9 (tptp.fn_animal_26 X)) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.budding_1 X) (and (tptp.original_name_2 X |tptp.'Budding'|) (tptp.user_description_2 X |tptp.'A type of asexual reproduction in animals in which a parent produces an outgrowth of tissue (a bud) that eventually separates and begins an independent existence. Buds can separate to form clones, or remain interconnected to form colonies. In either case, buds are genetically identical to their parents.'|) (tptp.concept2words_2 X tptp.bud) (tptp.concept2words_2 X tptp.budding) (tptp.reproduction_1 X) (not (tptp.cross_breeding_event_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.plant_reproduction_1 X)) (not (tptp.semelparity_1 X)) (not (tptp.vegetative_reproduction_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_buffer_3 X))) (let ((_let_2 (tptp.fn_ph_maintenance_1 _let_1))) (let ((_let_3 (tptp.fn_buffer_1 X))) (let ((_let_4 (tptp.fn_buffer_2 X))) (=> (tptp.buffer_1 X) (and (tptp.original_name_2 X |tptp.'Buffer'|) (tptp.user_description_2 X |tptp.'A solution that contains a weak acid and its corresponding base. A buffer minimizes change in pH when acids or bases are added to the solution.'|) (tptp.concept2words_2 X |tptp.'biological buffer'|) (tptp.concept2words_2 X |tptp.'biological-buffer'|) (tptp.concept2words_2 X tptp.buffer) (tptp.fluid_substance_1 X) (tptp.weak_acid_1 _let_3) (tptp.base_1 _let_4) (tptp.ph_maintenance_1 _let_1) (tptp.buffer_1 _let_2) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.facilitates_2 _let_4 _let_1) (tptp.facilitates_2 _let_3 _let_1) (tptp.agent_2 _let_1 X) (tptp.has_function_2 X _let_1) (= X _let_2) (= _let_2 _let_2)))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.has_part_2 X X1) (tptp.buffer_1 X1) (tptp.aqueous_solution_1 X)) (and (tptp.buffered_solution_1 X) (= (tptp.fn_buffered_solution_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mixture_1 X))) (let ((_let_2 (tptp.fn_mixture_2 X))) (let ((_let_3 (tptp.fn_buffered_solution_2 X))) (=> (tptp.buffered_solution_1 X) (and (tptp.original_name_2 X |tptp.'Buffered-Solution'|) (tptp.user_description_2 X |tptp.'A solution that resists change in pH when acids or bases are added. The solution may contain either a weak acid and its salt or a weak base and its salt.'|) (tptp.concept2words_2 X |tptp.'buffered solution'|) (tptp.concept2words_2 X |tptp.'buffered-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.basic_solution_1 X)) (not (tptp.gel_1 X)) (not (tptp.hypertonic_solution_1 X)) (not (tptp.hypotonic_solution_1 X)) (not (tptp.isotonic_solution_1 X)) (tptp.buffer_1 _let_3) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_building_3 X))) (let ((_let_2 (tptp.fn_floor_1 _let_1))) (let ((_let_3 (tptp.fn_building_4 X))) (let ((_let_4 (tptp.fn_roof_1 _let_3))) (let ((_let_5 (tptp.fn_floor_2 _let_1))) (let ((_let_6 (tptp.fn_building_5 X))) (let ((_let_7 (tptp.fn_building_2 X))) (let ((_let_8 (tptp.fn_building_1 X))) (=> (tptp.building_1 X) (and (tptp.original_name_2 X |tptp.'Building'|) (tptp.description_2 X |tptp.'an architectural structure playing a container, having a floor, rooms, walls and a roof'|) (tptp.concept2words_2 X tptp.building) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X)) (not (tptp.laboratory_1 X)) (tptp.room_1 _let_8) (tptp.wall_1 _let_7) (tptp.floor_1 _let_1) (tptp.roof_1 _let_3) (tptp.container_1 _let_6) (tptp.container_1 _let_5) (tptp.architectural_structure_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_1) (= X _let_4) (= _let_6 _let_5) (= X _let_2) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.building_complex_1 X) (and (tptp.original_name_2 X |tptp.'Building-Complex'|) (tptp.concept2words_2 X tptp.complex) (tptp.concept2words_2 X |tptp.'building complex'|) (tptp.concept2words_2 X tptp.building_complex) (tptp.concept2words_2 X |tptp.'complex of building'|) (tptp.concept2words_2 X |tptp.'building-complex'|) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.bridge_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X)) (not (tptp.laboratory_1 X))))) (forall ((X $$unsorted)) (=> (tptp.bulb_1 X) (and (tptp.original_name_2 X |tptp.'Bulb'|) (tptp.user_description_2 X |tptp.'In plants, a short stem with leaf bases.'|) (tptp.concept2words_2 X tptp.bulb) (tptp.root_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.bulbourethral_gland_1 X) (and (tptp.original_name_2 X |tptp.'Bulbourethral-Gland'|) (tptp.user_description_2 X |tptp.'A gland near the prostate gland, that secretes fluid into the urethra to neutralize any residual acidic urine and protect sperm cells.'|) (tptp.concept2words_2 X |tptp.'bulbourethral gland'|) (tptp.concept2words_2 X |tptp.'bulbourethral-gland'|) (tptp.gland_1 X) (not (tptp.bartholins_gland_1 X)) (not (tptp.endocrine_gland_1 X)) (not (tptp.mammary_glands_1 X)) (not (tptp.prostate_gland_1 X)) (not (tptp.salivary_gland_1 X)) (not (tptp.seminal_vesicle_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bulk_feeder_4 X))) (let ((_let_2 (tptp.fn_ingestion_1 _let_1))) (let ((_let_3 (tptp.fn_bulk_feeder_3 X))) (let ((_let_4 (tptp.fn_ingestion_3 _let_1))) (let ((_let_5 (tptp.fn_bulk_feeder_5 X))) (let ((_let_6 (tptp.fn_bulk_feeder_2 X))) (=> (tptp.bulk_feeder_1 X) (and (tptp.original_name_2 X |tptp.'Bulk-Feeder'|) (tptp.user_description_2 X |tptp.'An animal that eats large pieces of other organisms or swallows them intact.'|) (tptp.concept2words_2 X |tptp.'feeder of bulk'|) (tptp.concept2words_2 X |tptp.'bulk feeder'|) (tptp.concept2words_2 X |tptp.'bulk-feeder'|) (tptp.feeder_1 X) (tptp.size_value_1 _let_6) (tptp.animal_1 _let_3) (tptp.ingestion_1 _let_1) (tptp.substance_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.animal_1 _let_2) (tptp.in_event_2 X _let_1) (tptp.the_scalar_value_2 _let_6 tptp.big_0) (tptp.scalar_unit_class_2 _let_6 tptp.tangible_entity_0) (tptp.size_2 _let_5 _let_6) (tptp.plays_2 _let_3 X) (tptp.agent_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_3) (tptp.object_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.bulk_feeding_1 X) (and (tptp.original_name_2 X |tptp.'Bulk-Feeding'|) (tptp.user_description_2 X |tptp.'The process of ingesting large pieces of food.'|) (tptp.concept2words_2 X |tptp.'feeding of bulk'|) (tptp.concept2words_2 X |tptp.'bulk feeding'|) (tptp.concept2words_2 X |tptp.'bulk-feeding'|) (tptp.feeding_1 X) (not (tptp.fluid_feeding_1 X)) (not (tptp.opportunistic_feeding_1 X)) (not (tptp.substrate_feeding_1 X)) (not (tptp.suspension_feeding_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bulk_flow_2 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_bulk_flow_3 X))) (let ((_let_4 (tptp.fn_bulk_flow_1 X))) (=> (tptp.bulk_flow_1 X) (and (tptp.original_name_2 X |tptp.'Bulk-Flow'|) (tptp.user_description_2 X |tptp.'The movement of a fluid because of a pressure difference between two locations.'|) (tptp.concept2words_2 X |tptp.'flow of bulk'|) (tptp.concept2words_2 X |tptp.'bulk flow'|) (tptp.concept2words_2 X |tptp.'bulk-flow'|) (tptp.general_chemical_process_1 X) (tptp.pressure_gradient_1 _let_4) (tptp.move_1 _let_1) (tptp.liquid_substance_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.agent_2 _let_1 _let_4) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bulk_transport_5 X))) (let ((_let_2 (tptp.fn_vesicle_5 _let_1))) (let ((_let_3 (tptp.fn_cellular_work_2 X))) (let ((_let_4 (tptp.fn_bulk_transport_3 X))) (let ((_let_5 (tptp.fn_carry_1 _let_4))) (let ((_let_6 (tptp.fn_bulk_transport_2 X))) (let ((_let_7 (tptp.fn_create_1 _let_6))) (let ((_let_8 (tptp.fn_bulk_transport_6 X))) (let ((_let_9 (tptp.fn_cell_30 _let_8))) (let ((_let_10 (tptp.fn_bulk_transport_1 X))) (let ((_let_11 (tptp.fn_move_1 _let_4))) (let ((_let_12 (tptp.fn_bulk_transport_4 X))) (=> (tptp.bulk_transport_1 X) (and (tptp.original_name_2 X |tptp.'Bulk-Transport'|) (tptp.user_description_2 X |tptp.'The movement of large molecules, such as protein or polysaccharides, across the cell membrane through the use of vesicles.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'transport of bulk'|) (tptp.concept2words_2 X |tptp.'bulk transport'|) (tptp.concept2words_2 X |tptp.'bulk-transport'|) (tptp.endergonic_process_1 X) (tptp.transport_work_1 X) (tptp.plasma_membrane_1 _let_10) (tptp.create_1 _let_6) (tptp.carry_1 _let_4) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.vesicle_1 _let_1) (tptp.cell_1 _let_8) (tptp.spatial_entity_1 _let_11) (tptp.plasma_membrane_1 _let_9) (tptp.entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.cell_1 _let_2) (tptp.instrument_2 X _let_1) (tptp.object_2 X _let_12) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_6) (tptp.path_2 X _let_10) (tptp.has_function_2 _let_1 _let_4) (tptp.is_inside_2 _let_12 _let_1) (tptp.result_2 _let_6 _let_1) (tptp.agent_2 _let_4 _let_1) (tptp.object_2 _let_4 _let_12) (tptp.base_2 X _let_8) (tptp.has_part_2 _let_8 _let_10) (tptp.has_part_2 _let_8 _let_1) (= _let_1 _let_7) (= _let_1 _let_5) (= _let_12 _let_11) (= _let_8 _let_3) (= _let_10 _let_9) (= _let_8 _let_2) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.bundle_sheath_1 X) (and (tptp.original_name_2 X |tptp.'Bundle-Sheath'|) (tptp.user_description_2 X |tptp.'A layer or region of cells surrounding a vascular bundle.'|) (tptp.concept2words_2 X |tptp.'sheath of bundle'|) (tptp.concept2words_2 X |tptp.'bundle sheath'|) (tptp.concept2words_2 X |tptp.'bundle-sheath'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bundle_sheath_cell_1 X))) (=> (tptp.bundle_sheath_cell_1 X) (and (tptp.original_name_2 X |tptp.'Bundle-Sheath-Cell'|) (tptp.user_description_2 X |tptp.'A type of photosynthetic cell arranged into tightly packed sheaths around the veins of the leaf.'|) (tptp.concept2words_2 X |tptp.'bundle sheath cell'|) (tptp.concept2words_2 X |tptp.'bundle-sheath cell'|) (tptp.concept2words_2 X |tptp.'bundle-sheath-cell'|) (tptp.parenchyma_cell_1 X) (not (tptp.collenchyma_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X)) (tptp.plant_vein_1 _let_1) (tptp.is_along_2 X _let_1) (tptp.is_along_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.burkitts_lymphoma_1 X) (and (tptp.original_name_2 X |tptp.'Burkitts-Lymphoma'|) (tptp.user_description_2 X |tptp.'A type of lymphatic cancer associated with the Epstein-Barr virus.'|) (tptp.concept2words_2 X |tptp.'burkitts lymphoma'|) (tptp.concept2words_2 X |tptp.'burkitts-lymphoma'|) (tptp.cancer_1 X) (not (tptp.breast_cancer_1 X)) (not (tptp.cml_1 X)) (not (tptp.leukemia_1 X)) (not (tptp.prostate_cancer_1 X))))) (forall ((X $$unsorted)) (=> (tptp.butter_1 X) (and (tptp.original_name_2 X |tptp.'Butter'|) (tptp.user_description_2 X |tptp.'Butter is a dairy product made by churning fresh or fermented cream or milk.'|) (tptp.concept2words_2 X tptp.butter) (tptp.saturated_animal_fat_substance_1 X) (not (tptp.lard_1 X))))) (forall ((X $$unsorted)) (=> (tptp.butterfly_1 X) (and (tptp.original_name_2 X |tptp.'Butterfly'|) (tptp.user_description_2 X |tptp.'A mostly diurnal flying insect of the order Lepidoptera, the butterflies and moths.'|) (tptp.concept2words_2 X tptp.butterfly) (tptp.lepidoptera_1 X) (not (tptp.moth_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_buy_2 X))) (let ((_let_2 (tptp.fn_buy_1 X))) (=> (tptp.buy_1 X) (and (tptp.original_name_2 X |tptp.'Buy'|) (tptp.concept2words_2 X tptp.buy) (tptp.concept2words_2 X tptp.purchase) (tptp.obtain_1 X) (tptp.tangible_entity_1 _let_2) (tptp.money_1 _let_1) (tptp.donor_2 X _let_2) (tptp.instrument_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_c3_photosynthesis_39 X))) (let ((_let_2 (tptp.fn_light_reaction_54 _let_1))) (let ((_let_3 (tptp.fn_c3_photosynthesis_40 X))) (let ((_let_4 (tptp.fn_linear_electron_flow_215 _let_3))) (let ((_let_5 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(tptp.chemical_entity_1 _let_151) (tptp.three_phosphoglycerate_1 _let_151) (tptp.chemical_reaction_1 _let_149) (tptp.share_1 _let_147) (tptp.spatial_entity_1 _let_134) (tptp.spatial_entity_1 _let_132) (tptp.free_energy_1 _let_129) (tptp.share_1 _let_125) (tptp.container_1 _let_119) (tptp.protein_pump_1 _let_116) (tptp.chemical_entity_1 _let_116) (tptp.tangible_entity_1 _let_116) (tptp.membrane_protein_1 _let_116) (tptp.protein_1 _let_116) (tptp.molecule_1 _let_116) (tptp.polymer_1 _let_116) (tptp.transport_protein_1 _let_116) (tptp.integral_protein_1 _let_116) (tptp.carrier_protein_1 _let_116) (tptp.electrogenic_pump_1 _let_116) (tptp.proton_pump_1 _let_116) (tptp.move_1 _let_112) (tptp.move_through_1 _let_112) (tptp.gradient_1 _let_110) (tptp.electrochemical_gradient_1 _let_110) (tptp.hydrogen_ion_gradient_1 _let_110) (tptp.chemiosmosis_1 _let_108) (tptp.plant_cell_1 _let_106) (tptp.cell_1 _let_106) (tptp.eukaryotic_cell_1 _let_106) (tptp.free_energy_1 _let_104) (tptp.structural_complexity_value_1 _let_102) (tptp.tangible_entity_1 _let_101) (tptp.oxygen_molecule_1 _let_98) (tptp.take_in_1 _let_97) (tptp.take_in_1 _let_96) (tptp.energy_1 _let_94) (tptp.chemical_energy_1 _let_94) (tptp.energy_1 _let_93) (tptp.chemical_energy_1 _let_93) (tptp.structural_complexity_value_1 _let_91) (tptp.property_node_1 _let_88) (tptp.property_node_1 _let_87) (tptp.entity_1 _let_84) (tptp.chemical_entity_1 _let_84) (tptp.atom_1 _let_84) (tptp.carbon_1 _let_84) (tptp.share_1 _let_82) (tptp.equal_sharing_1 _let_81) (tptp.equal_sharing_1 _let_80) (tptp.hold_together_1 _let_79) (tptp.hold_together_1 _let_78) (tptp.chemical_reaction_1 _let_76) (tptp.carbon_fixation_1 _let_74) (tptp.chemical_reaction_1 _let_73) (tptp.photosynthesis_1 _let_71) (tptp.anabolic_pathway_1 _let_71) (tptp.metabolic_pathway_1 _let_71) (tptp.photosynthesis_1 _let_69) (tptp.photosynthesis_1 _let_68) (tptp.tangible_entity_1 _let_67) (tptp.chemical_entity_1 _let_67) (tptp.number_1_comma_3_bisphosphoglycerate_1 _let_67) (tptp.tangible_entity_1 _let_66) (tptp.chemical_entity_1 _let_66) (tptp.number_1_comma_3_bisphosphoglycerate_1 _let_66) (tptp.chemical_entity_1 _let_65) (tptp.chemical_entity_1 _let_64) (tptp.chemical_entity_1 _let_62) (tptp.nadph_1 _let_62) (tptp.chemical_entity_1 _let_61) (tptp.nadph_1 _let_61) (tptp.chemical_entity_1 _let_60) (tptp.nadph_1 _let_60) (tptp.regeneration_of_ribulose_bisphosphate_1 _let_59) (tptp.regeneration_of_ribulose_bisphosphate_1 _let_58) (tptp.energy_transformation_by_organism_1 _let_56) (tptp.energy_transformation_by_organism_1 _let_55) (tptp.calvin_cycle_1 _let_53) (tptp.anabolic_pathway_1 _let_53) (tptp.calvin_cycle_1 _let_52) (tptp.structural_complexity_value_1 _let_51) (tptp.structural_complexity_value_1 _let_49) (tptp.glucose_1 _let_46) (tptp.sugar_1 _let_45) (tptp.chemical_entity_1 _let_44) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.oxygen_1 _let_40) (tptp.entity_1 _let_39) (tptp.entity_1 _let_38) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.polar_covalent_bond_1 _let_33) (tptp.covalent_bond_1 _let_33) (tptp.double_bond_1 _let_33) (tptp.water_molecule_1 _let_32) (tptp.chemical_entity_1 _let_31) (tptp.spatial_entity_1 _let_30) (tptp.chemical_entity_1 _let_28) (tptp.chemical_entity_1 _let_26) (tptp.hydrophobic_compound_1 _let_26) (tptp.molecule_1 _let_26) (tptp.carbon_dioxide_1 _let_26) (tptp.chemical_entity_1 _let_24) (tptp.electron_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_17) (tptp.work_1 _let_17) (tptp.endergonic_process_1 _let_17) (tptp.active_transport_1 _let_16) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_16) (tptp.active_movement_of_ions_1 _let_16) (tptp.cellular_work_1 _let_16) (tptp.membrane_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.biomembrane_1 _let_15) (tptp.thylakoid_membrane_1 _let_13) (tptp.chemical_reaction_1 _let_12) (tptp.light_reaction_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.visible_light_1 _let_7) (tptp.energy_1 _let_7) (tptp.visible_light_1 _let_5) (tptp.take_in_1 _let_4) (tptp.move_into_1 _let_4) (tptp.move_1 _let_4) (tptp.absorb_1 _let_4) (tptp.take_in_1 _let_2) (tptp.absorb_1 _let_2) (tptp.move_1 _let_2) (tptp.has_part_2 _let_230 _let_115) (tptp.has_part_2 _let_230 _let_242) (tptp.has_region_2 _let_237 _let_241) (tptp.time_during_2 _let_137 _let_240) (tptp.time_before_2 _let_238 _let_239) (tptp.is_across_2 _let_235 _let_115) (not (= _let_135 _let_133)) (tptp.object_2 _let_22 _let_229) (tptp.possesses_2 _let_124 _let_186) (tptp.structural_complexity_2 _let_124 _let_185) (not (= _let_124 _let_123)) (tptp.possesses_2 _let_220 _let_130) (tptp.has_function_2 _let_123 _let_22) (not (= _let_123 _let_124)) (tptp.time_during_2 _let_3 _let_239) (tptp.time_during_2 _let_9 _let_238) (tptp.object_2 _let_150 _let_154) (not (= _let_133 _let_135)) (tptp.plays_2 _let_220 _let_100) (tptp.result_2 _let_1 _let_138) (tptp.agent_2 _let_29 _let_123) (tptp.object_2 _let_29 _let_123) (tptp.path_2 _let_14 _let_115) (tptp.base_2 _let_29 _let_237) (tptp.plays_2 _let_121 _let_20) (tptp.has_function_2 _let_72 X) (tptp.agent_2 _let_14 _let_235) (tptp.has_part_2 _let_230 _let_6) (tptp.result_2 _let_37 _let_35) (tptp.result_2 _let_144 _let_35) (tptp.result_2 _let_232 _let_35) (tptp.agent_2 _let_232 _let_127) (tptp.agent_2 _let_179 _let_127) (tptp.agent_2 _let_179 _let_145) (tptp.agent_2 _let_178 _let_145) (tptp.subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_9 _let_3) (tptp.experiencer_2 X _let_70) (tptp.base_2 X _let_230) (tptp.size_2 _let_48 _let_182) (tptp.structural_complexity_2 _let_229 _let_226) (tptp.raw_material_2 _let_25 _let_229) (tptp.possesses_2 _let_229 _let_228) (tptp.possesses_2 _let_138 _let_228) (tptp.structural_complexity_2 _let_138 _let_226) (tptp.possesses_2 _let_194 _let_187) (tptp.has_function_2 _let_192 _let_1) (tptp.raw_material_2 X _let_124) (tptp.object_2 _let_203 _let_223) (tptp.has_part_2 _let_114 _let_223) (tptp.result_2 X _let_220) (tptp.result_2 _let_131 _let_220) (tptp.object_2 _let_217 _let_215) (tptp.site_2 _let_217 _let_192) (tptp.site_2 _let_203 _let_192) (tptp.object_2 _let_203 _let_219) (tptp.has_part_2 _let_114 _let_219) (tptp.has_part_2 _let_114 _let_211) (tptp.object_2 _let_203 _let_211) (tptp.object_2 _let_203 _let_213) (tptp.has_part_2 _let_114 _let_213) (tptp.has_part_2 _let_114 _let_215) (tptp.facilitates_2 _let_205 X) (tptp.element_2 _let_207 _let_205) (tptp.element_2 _let_209 _let_207) (tptp.has_part_2 _let_196 _let_209) (tptp.has_part_2 _let_192 _let_196) (tptp.quantity_2 _let_114 _let_198) (tptp.inversely_proportional_2 _let_198 _let_200) (tptp.wavelength_2 _let_114 _let_200) (tptp.has_part_2 _let_114 _let_202) (tptp.object_2 _let_203 _let_202) (tptp.has_function_2 _let_190 _let_25) (tptp.raw_material_2 _let_25 _let_194) (tptp.result_2 _let_1 _let_194) (tptp.site_2 _let_1 _let_196) (tptp.facilitates_2 _let_196 _let_1) (tptp.site_2 _let_25 _let_190) (tptp.result_2 _let_25 _let_194) (tptp.possesses_2 _let_194 _let_188) (tptp.result_2 _let_136 _let_188) (tptp.raw_material_2 _let_136 _let_187) (tptp.has_part_2 _let_6 _let_190) (tptp.facilitates_2 _let_190 X) (tptp.site_2 X _let_6) (tptp.is_inside_2 _let_190 _let_6) (tptp.is_between_2 _let_190 _let_192) (tptp.has_function_2 _let_6 X) (tptp.result_2 X _let_48) (tptp.possesses_2 _let_48 _let_188) (not (= _let_114 _let_188)) (not (= _let_188 _let_114)) (tptp.first_subevent_2 _let_140 _let_177) (tptp.recipient_2 _let_22 _let_123) (tptp.result_2 X _let_187) (tptp.possesses_2 _let_123 _let_186) (tptp.agent_2 _let_146 _let_145) (tptp.structural_complexity_2 _let_123 _let_185) (tptp.greater_than_2 _let_128 _let_185) (tptp.result_2 _let_183 _let_35) (tptp.agent_2 _let_183 _let_127) (tptp.agent_2 _let_184 _let_127) (tptp.result_2 _let_184 _let_35) (tptp.in_event_2 _let_180 X) (tptp.plays_2 _let_123 _let_180) (tptp.size_2 _let_123 _let_181) (tptp.greater_than_2 _let_182 _let_181) (tptp.agent_2 _let_173 _let_145) (tptp.agent_2 _let_173 _let_127) (tptp.agent_2 _let_178 _let_127) (tptp.result_2 _let_178 _let_35) (tptp.result_2 _let_179 _let_35) (tptp.raw_material_2 X _let_123) (tptp.object_2 _let_177 _let_123) (tptp.subevent_2 _let_140 _let_177) (tptp.raw_material_2 _let_140 _let_145) (not (= _let_145 _let_127)) (not (= _let_127 _let_145)) (tptp.result_2 _let_3 _let_138) (tptp.subevent_2 _let_3 _let_118) (tptp.raw_material_2 _let_25 _let_123) (tptp.subevent_2 _let_140 _let_150) (tptp.is_between_2 _let_35 _let_145) (tptp.result_2 _let_173 _let_35) (tptp.next_event_2 _let_140 _let_160) (tptp.next_event_2 _let_160 _let_137) (tptp.has_region_2 _let_123 _let_170) (tptp.facilitates_2 _let_170 _let_172) (tptp.agent_2 _let_172 _let_123) (tptp.has_function_2 _let_123 _let_172) (tptp.site_2 _let_172 _let_170) (tptp.object_2 _let_162 _let_123) (tptp.speed_2 _let_162 _let_164) (tptp.directly_proportional_2 _let_164 _let_166) (tptp.quantity_2 _let_168 _let_166) (tptp.possesses_2 _let_123 _let_168) (tptp.result_2 _let_140 _let_152) (tptp.raw_material_2 _let_160 _let_152) (tptp.subevent_2 _let_25 _let_160) (tptp.subevent_2 _let_25 _let_140) (tptp.raw_material_2 _let_140 _let_156) (tptp.plays_2 _let_123 _let_158) (tptp.in_event_2 _let_158 _let_140) (tptp.raw_material_2 _let_140 _let_123) (not (= _let_123 _let_156)) (not (= _let_156 _let_123)) (tptp.next_event_2 _let_141 _let_150) (tptp.result_2 _let_150 _let_152) (not (= _let_152 _let_139)) (not (= _let_154 _let_152)) (not (= _let_152 _let_154)) (not (= _let_139 _let_152)) (tptp.result_2 _let_148 _let_35) (tptp.agent_2 _let_148 _let_127) (tptp.is_between_2 _let_35 _let_127) (tptp.agent_2 _let_142 _let_35) (tptp.object_2 _let_142 _let_127) (tptp.result_2 _let_146 _let_35) (tptp.agent_2 _let_146 _let_127) (tptp.has_part_2 _let_123 _let_127) (tptp.has_part_2 _let_123 _let_145) (tptp.agent_2 _let_143 _let_145) (tptp.result_2 _let_143 _let_35) (tptp.agent_2 _let_143 _let_127) (tptp.agent_2 _let_144 _let_127) (tptp.agent_2 _let_144 _let_145) (tptp.object_2 _let_142 _let_145) (tptp.first_subevent_2 _let_25 _let_140) (tptp.subevent_2 _let_140 _let_141) (tptp.raw_material_2 _let_141 _let_123) (tptp.possesses_2 _let_123 _let_35) (tptp.has_function_2 _let_35 _let_142) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_25) (tptp.raw_material_2 X _let_114) (tptp.causes_2 _let_1 _let_136) (tptp.next_event_2 _let_1 _let_25) (tptp.raw_material_2 _let_25 _let_138) (not (= _let_139 _let_138)) (not (= _let_138 _let_139)) (tptp.object_2 _let_136 _let_114) (tptp.raw_material_2 _let_136 _let_114) (tptp.raw_material_2 _let_1 _let_114) (tptp.enables_2 _let_1 _let_25) (tptp.subevent_2 _let_25 _let_137) (tptp.has_part_2 _let_115 _let_117) (tptp.path_2 _let_118 _let_115) (tptp.result_2 _let_118 _let_111) (tptp.instrument_2 _let_109 _let_111) (tptp.subevent_2 _let_1 _let_109) (tptp.subevent_2 _let_118 _let_113) (tptp.agent_2 _let_118 _let_117) (tptp.is_across_2 _let_117 _let_115) (tptp.base_2 _let_113 _let_115) (tptp.has_function_2 _let_115 _let_113) (tptp.site_2 _let_1 _let_115) (tptp.first_subevent_2 _let_1 _let_9) (tptp.subevent_2 _let_1 _let_9) (tptp.object_2 _let_9 _let_114) (tptp.called_2 _let_113 |tptp.'MT1'|) (tptp.has_function_2 _let_111 _let_109) (tptp.plays_2 _let_121 _let_120) (tptp.base_2 _let_9 _let_121) (tptp.in_event_2 _let_120 _let_9) (not (= _let_122 _let_124)) (not (= _let_124 _let_122)) (not (= _let_122 _let_123)) (not (= _let_123 _let_122)) (tptp.object_2 _let_22 _let_122) (tptp.agent_2 _let_126 _let_127) (tptp.result_2 _let_126 _let_35) (tptp.agent_2 _let_9 _let_121) (tptp.subevent_2 _let_3 _let_9) (tptp.structural_complexity_2 _let_48 _let_128) (tptp.donor_2 _let_22 _let_124) (tptp.possesses_2 _let_48 _let_130) (tptp.result_2 _let_25 _let_48) (tptp.object_2 _let_131 _let_133) (tptp.base_2 _let_131 _let_135) (tptp.agent_2 _let_37 _let_127) (= _let_220 _let_101) (= _let_138 _let_64) (= _let_123 _let_30) (= _let_115 _let_15) (= _let_237 _let_236) (= _let_121 _let_21) (= X _let_73) (= _let_235 _let_234) (= _let_6 _let_233) (= _let_37 _let_86) (= _let_144 _let_83) (= _let_178 _let_86) (= _let_232 _let_89) (= _let_3 _let_231) (= _let_230 _let_107) (= _let_230 _let_106) (= X _let_71) (= _let_226 _let_103) (= _let_229 (tptp.fn_photosynthesis_33 X)) (= _let_138 _let_63) (= _let_228 _let_105) (= _let_228 _let_104) (= (tptp.fn_c3_photosynthesis_33 X) _let_227) (= _let_226 _let_102) (= (tptp.fn_c3_photosynthesis_109 X) _let_225) (= (tptp.fn_c3_photosynthesis_110 X) _let_224) (= _let_124 _let_32) (= _let_223 _let_222) (= _let_131 _let_221) (= _let_220 _let_99) (= _let_220 _let_98) (= _let_219 _let_218) (= _let_217 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_let_103) (tptp.chemical_entity_1 _let_102) (tptp.tangible_entity_1 _let_101) (tptp.chemical_entity_1 _let_101) (tptp.sugar_1 _let_101) (tptp.tangible_entity_1 _let_100) (tptp.sugar_1 _let_100) (tptp.chemical_entity_1 _let_100) (tptp.glucose_1 _let_100) (tptp.plant_1 _let_99) (tptp.c3_plant_1 _let_97) (tptp.photosystem_i_1 _let_96) (tptp.photosystem_i_1 _let_95) (tptp.chemical_energy_1 _let_94) (tptp.chemical_energy_1 _let_92) (tptp.chemical_entity_1 _let_91) (tptp.organic_molecule_1 _let_91) (tptp.molecule_1 _let_91) (tptp.entity_1 _let_91) (tptp.nadh_1 _let_91) (tptp.chemical_entity_1 _let_90) (tptp.chemical_entity_1 _let_89) (tptp.organic_molecule_1 _let_89) (tptp.molecule_1 _let_89) (tptp.nadh_1 _let_89) (tptp.tangible_entity_1 _let_87) (tptp.chemical_entity_1 _let_87) (tptp.oxygen_molecule_1 _let_87) (tptp.substance_1 _let_86) (tptp.solid_substance_1 _let_86) (tptp.solid_substance_1 _let_85) (tptp.substance_1 _let_84) (tptp.solid_substance_1 _let_84) (tptp.cytoskeleton_1 _let_83) (tptp.cytoskeleton_1 _let_82) (tptp.protein_enzyme_1 _let_81) (tptp.enzyme_1 _let_81) (tptp.protein_enzyme_1 _let_80) (tptp.enzyme_1 _let_80) (tptp.tangible_entity_1 _let_79) (tptp.atp_synthase_1 _let_77) (tptp.spatial_entity_1 _let_76) (tptp.tangible_entity_1 _let_76) (tptp.hydrophobic_compound_1 _let_76) (tptp.molecule_1 _let_76) (tptp.carbon_dioxide_1 _let_76) (tptp.chemical_entity_1 _let_76) (tptp.tangible_entity_1 _let_75) (tptp.carbon_dioxide_1 _let_75) (tptp.metabolic_pathway_1 _let_74) (tptp.eukaryotic_cellular_respiration_1 _let_74) (tptp.eukaryotic_cellular_respiration_1 _let_72) (tptp.waste_product_1 _let_71) (tptp.waste_product_1 _let_70) (tptp.carbohydrate_side_chain_1 _let_69) (tptp.carbohydrate_side_chain_1 _let_67) (tptp.surface_1 _let_66) (tptp.surface_1 _let_64) (tptp.protein_enzyme_1 _let_62) (tptp.protein_enzyme_1 _let_61) (tptp.protein_enzyme_1 _let_60) (tptp.surface_1 _let_59) (tptp.cytoplasmic_side_1 _let_59) (tptp.surface_1 _let_58) (tptp.cytoplasmic_side_1 _let_58) (tptp.spatial_entity_1 _let_57) (tptp.mixture_1 _let_57) (tptp.suspension_1 _let_57) (tptp.colloid_1 _let_57) (tptp.cytoplasm_1 _let_57) (tptp.spatial_entity_1 _let_56) (tptp.mixture_1 _let_54) (tptp.cytoplasm_1 _let_54) (tptp.spatial_entity_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.nuclear_membrane_1 _let_53) (tptp.nuclear_membrane_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.spatial_entity_1 _let_51) (tptp.biomembrane_1 _let_51) (tptp.nuclear_membrane_1 _let_51) (tptp.tangible_entity_1 _let_50) (tptp.nucleus_1 _let_50) (tptp.tangible_entity_1 _let_49) (tptp.nucleus_1 _let_49) (tptp.nucleus_1 _let_48) (tptp.aqueous_solution_1 _let_47) (tptp.liquid_substance_1 _let_47) (tptp.solution_1 _let_47) (tptp.substance_1 _let_47) (tptp.cytosol_1 _let_47) (tptp.cytosol_1 _let_46) (tptp.substance_1 _let_45) (tptp.cytosol_1 _let_45) (tptp.substance_1 _let_44) (tptp.cytosol_1 _let_44) (tptp.synthesis_reaction_1 _let_43) (tptp.metabolic_pathway_1 _let_43) (tptp.chemical_reaction_1 _let_43) (tptp.anabolic_pathway_1 _let_43) (tptp.synthesis_of_lipid_1 _let_43) (tptp.synthesis_reaction_1 _let_42) (tptp.synthesis_reaction_1 _let_41) (tptp.chemical_reaction_1 _let_40) (tptp.chemical_reaction_1 _let_38) (tptp.synthesis_of_lipid_1 _let_38) (tptp.chemical_reaction_1 _let_37) (tptp.synthesis_of_lipid_1 _let_37) (tptp.anabolic_pathway_1 _let_37) (tptp.synthesis_of_lipid_1 _let_36) (tptp.synthesis_of_lipid_1 _let_35) (tptp.er_membrane_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.er_membrane_1 _let_33) (tptp.biomembrane_1 _let_33) (tptp.smooth_endoplasmic_reticulum_1 _let_32) (tptp.smooth_endoplasmic_reticulum_1 _let_31) (tptp.cell_1 _let_30) (tptp.plant_cell_1 _let_30) (tptp.plant_cell_1 _let_28) (tptp.cell_1 _let_28) (tptp.eukaryotic_cell_1 _let_28) (tptp.cell_1 _let_25) (tptp.cell_1 _let_23) (tptp.cell_1 _let_21) (tptp.eukaryotic_cell_1 _let_19) (tptp.cell_1 _let_19) (tptp.plant_cell_1 _let_17) (tptp.polysaccharide_1 _let_16) (tptp.carbohydrate_1 _let_15) (tptp.hydrophilic_compound_1 _let_15) (tptp.polar_molecule_1 _let_15) (tptp.polysaccharide_1 _let_15) (tptp.cellulose_1 _let_15) (tptp.support_1 _let_14) (tptp.support_1 _let_13) (tptp.defense_1 _let_12) (tptp.defense_1 _let_11) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.plasma_membrane_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.membrane_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.plasma_membrane_1 _let_7) (tptp.cell_wall_1 _let_5) (tptp.plant_cell_wall_1 _let_5) (tptp.cell_wall_1 _let_4) (tptp.plant_cell_wall_1 _let_2) (not (= _let_243 _let_140)) (not (= _let_243 _let_178)) (tptp.is_inside_2 _let_39 _let_129) (tptp.is_at_2 _let_141 _let_68) (tptp.has_part_2 _let_68 _let_249) (tptp.quantity_2 X _let_246) (tptp.inversely_proportional_2 _let_235 _let_244) (tptp.has_part_2 _let_248 _let_245) (tptp.temperature_2 _let_248 _let_247) (tptp.directly_proportional_2 _let_247 _let_235) (tptp.correspondence_2 _let_246 _let_247) (tptp.correspondence_2 _let_246 _let_244) (tptp.concentration_2 _let_245 _let_244) (tptp.result_2 _let_109 _let_178) (not (= _let_178 _let_243)) (tptp.possesses_2 _let_240 _let_225) (tptp.causes_2 _let_27 _let_109) (not (= _let_140 _let_243)) (tptp.object_2 _let_78 _let_242) (tptp.object_2 _let_109 _let_176) (tptp.agent_2 _let_78 _let_141) (tptp.plays_2 _let_240 _let_238) (tptp.experiencer_2 _let_98 X) (tptp.base_2 _let_29 _let_3) (tptp.has_function_2 _let_136 _let_29) (tptp.causes_2 _let_29 _let_98) (tptp.rate_2 _let_29 _let_235) (tptp.quantity_2 _let_181 _let_231) (tptp.called_2 _let_229 |tptp.'FE_p'|) (tptp.result_2 _let_27 _let_171) (tptp.quantity_2 _let_172 _let_229) (tptp.greater_than_2 _let_229 _let_231) (tptp.called_2 _let_231 |tptp.'FE_r'|) (tptp.quantity_2 _let_157 _let_221) (tptp.greater_than_2 _let_223 _let_221) (tptp.quantity_2 _let_225 _let_223) (tptp.has_function_2 _let_116 _let_207) (tptp.agent_2 _let_207 _let_116) (tptp.base_2 _let_207 _let_116) (tptp.result_2 _let_27 _let_153) (tptp.by_means_of_2 _let_162 _let_27) (tptp.has_function_2 X _let_27) (tptp.result_2 _let_22 _let_219) (tptp.possesses_2 _let_219 _let_157) (tptp.is_inside_2 _let_150 _let_130) (tptp.site_2 _let_201 _let_68) (tptp.time_during_2 _let_209 _let_211) (tptp.time_during_2 _let_207 _let_211) (tptp.time_during_2 _let_208 _let_211) (not (= _let_209 _let_208)) (not (= _let_209 _let_207)) (not (= _let_207 _let_209)) (not (= _let_208 _let_209)) (tptp.element_2 _let_158 _let_205) (tptp.element_2 _let_205 _let_116) (tptp.facilitates_2 _let_116 _let_207) (not (= _let_208 _let_207)) (not (= _let_207 _let_208)) (tptp.subevent_2 _let_27 _let_201) (tptp.instrument_2 _let_201 _let_158) (tptp.element_2 _let_158 _let_203) (tptp.is_near_2 _let_205 _let_203) (tptp.is_near_2 _let_203 _let_205) (tptp.subevent_2 _let_187 _let_197) (tptp.origin_2 _let_197 _let_24) (tptp.object_2 _let_199 _let_24) (tptp.agent_2 _let_199 _let_149) (tptp.has_function_2 _let_149 _let_199) (tptp.object_2 _let_193 _let_24) (tptp.causes_2 _let_193 _let_187) (tptp.base_2 _let_187 _let_3) (tptp.object_2 _let_195 _let_3) (tptp.agent_2 _let_195 _let_6) (tptp.agent_2 _let_187 _let_3) (tptp.subevent_2 _let_187 _let_189) (tptp.origin_2 _let_189 _let_24) (tptp.has_part_2 _let_24 _let_191) (not (= _let_191 _let_136)) (not (= _let_136 _let_191)) (tptp.object_2 _let_180 _let_178) (tptp.possesses_2 _let_153 _let_172) (tptp.experiencer_2 _let_27 X) (tptp.donor_2 _let_180 _let_176) (tptp.raw_material_2 _let_27 _let_176) (tptp.base_2 _let_27 _let_3) (tptp.has_function_2 _let_140 _let_180) (tptp.recipient_2 _let_180 _let_140) (tptp.possesses_2 _let_140 _let_181) (not (= _let_178 _let_140)) (not (= _let_140 _let_178)) (tptp.structural_complexity_2 _let_171 _let_173) (tptp.greater_than_2 _let_173 _let_175) (tptp.structural_complexity_2 _let_140 _let_175) (not (= _let_140 _let_176)) (not (= _let_176 _let_178)) (not (= _let_176 _let_140)) (not (= _let_178 _let_176)) (tptp.raw_material_2 _let_27 _let_140) (tptp.size_2 _let_140 _let_168) (tptp.greater_than_2 _let_170 _let_168) (tptp.size_2 _let_171 _let_170) (tptp.possesses_2 _let_171 _let_172) (tptp.agent_2 _let_166 X) (tptp.base_2 _let_166 X) (tptp.has_function_2 X _let_166) (tptp.subevent_2 _let_166 _let_165) (tptp.agent_2 _let_162 X) (tptp.in_event_2 _let_163 _let_162) (tptp.plays_2 X _let_163) (tptp.has_part_2 X _let_164) (tptp.site_2 _let_165 _let_164) (tptp.temperature_2 X _let_159) (tptp.correspondence_2 _let_159 _let_160) (tptp.specific_heat_2 _let_161 _let_160) (tptp.has_part_2 X _let_161) (tptp.has_part_2 X _let_3) (tptp.is_across_2 _let_158 _let_68) (tptp.result_2 _let_22 _let_140) (tptp.result_2 _let_22 _let_156) (tptp.possesses_2 _let_156 _let_157) (tptp.possesses_2 _let_140 _let_157) (tptp.has_function_2 _let_3 _let_22) (tptp.base_2 _let_22 _let_3) (tptp.has_part_2 _let_3 _let_119) (tptp.object_2 _let_123 _let_3) (tptp.has_function_2 _let_6 _let_123) (tptp.instrument_2 _let_126 _let_6) (tptp.has_function_2 _let_6 _let_126) (tptp.has_part_2 _let_3 _let_6) (tptp.object_2 _let_120 _let_3) (tptp.has_function_2 _let_6 _let_120) (tptp.plays_2 _let_6 _let_128) (tptp.in_event_2 _let_128 _let_126) (tptp.element_2 _let_122 _let_124) (tptp.has_part_2 _let_6 _let_124) (tptp.agent_2 _let_123 _let_6) (tptp.facilitates_2 _let_122 _let_123) (tptp.has_part_2 _let_6 _let_122) (tptp.agent_2 _let_120 _let_6) (tptp.is_outside_2 _let_6 _let_119) (tptp.is_at_2 _let_1 _let_6) (tptp.has_part_2 _let_131 _let_132) (tptp.is_inside_2 _let_131 _let_130) (tptp.is_inside_2 _let_18 _let_130) (tptp.site_2 _let_20 _let_18) (tptp.has_function_2 _let_18 _let_20) (tptp.has_part_2 _let_18 _let_129) (tptp.is_inside_2 _let_136 _let_129) (tptp.has_part_2 _let_24 _let_136) (tptp.is_between_2 _let_24 _let_131) (tptp.is_inside_2 _let_135 _let_131) (tptp.has_part_2 _let_3 _let_135) (tptp.has_part_2 _let_24 _let_130) (tptp.is_inside_2 _let_24 _let_119) (tptp.is_between_2 _let_24 _let_119) (tptp.is_oriented_toward_2 _let_133 _let_24) (tptp.is_facing_2 _let_133 _let_24) (tptp.abuts_2 _let_132 _let_129) (tptp.abuts_2 _let_129 _let_132) (tptp.has_region_2 _let_119 _let_133) (tptp.has_part_2 _let_3 _let_18) (tptp.has_part_2 _let_3 _let_24) (tptp.has_part_2 _let_3 _let_131) (tptp.has_part_2 _let_63 _let_138) (tptp.is_at_2 _let_138 _let_137) (tptp.has_region_2 _let_63 _let_137) (tptp.plays_2 _let_140 _let_139) (tptp.in_event_2 _let_139 _let_22) (tptp.is_across_2 _let_141 _let_68) (tptp.has_part_2 _let_68 _let_141) (tptp.base_2 _let_55 _let_1) (tptp.has_function_2 _let_1 _let_55) (tptp.has_function_2 _let_39 _let_20) (tptp.has_function_2 _let_39 _let_146) (tptp.plays_2 _let_39 _let_148) (tptp.in_event_2 _let_148 _let_20) (tptp.facilitates_2 _let_144 _let_20) (tptp.has_region_2 _let_39 _let_144) (tptp.enables_2 _let_146 _let_20) (tptp.site_2 _let_20 _let_144) (tptp.has_part_2 _let_3 _let_149) (tptp.has_part_2 _let_24 _let_150) (tptp.has_region_2 _let_65 _let_137) (tptp.has_part_2 _let_68 _let_63) (tptp.has_part_2 _let_68 _let_65) (tptp.is_outside_2 _let_138 _let_68) (tptp.possesses_2 _let_153 _let_155) (tptp.base_2 _let_20 _let_3) (tptp.object_2 _let_55 _let_24) (= _let_242 _let_241) (= _let_176 _let_110) (= _let_141 _let_79) (= _let_240 _let_239) (= X _let_99) (= _let_3 _let_30) (= _let_136 _let_62) (= _let_98 _let_237) (= (tptp.fn_c3_plant_69 X) _let_236) (= _let_235 _let_234) (= (tptp.fn_c3_plant_41 X) _let_233) (= _let_181 _let_112) (= (tptp.fn_c3_plant_40 X) _let_232) (= _let_231 _let_230) (= _let_229 _let_228) (= (tptp.fn_c3_plant_99 X) _let_227) (= (tptp.fn_c3_plant_98 X) _let_226) (= _let_225 _let_224) (= _let_223 _let_222) (= _let_221 _let_220) (= _let_207 _let_117) (= _let_153 _let_88) (= _let_157 _let_93) (= _let_219 (tptp.fn_plant_4 X)) (= _let_68 _let_218) (= _let_217 _let_216) (= _let_215 _let_214) (= _let_213 _let_212) (= _let_209 _let_115) (= _let_208 _let_113) (= _let_211 _let_210) (= _let_207 _let_115) (= _let_209 _let_114) (= _let_207 _let_114) (= _let_208 _let_115) (= _let_207 _let_113) (= _let_116 _let_206) (= _let_205 _let_204) (= _let_203 _let_202) (= _let_158 _let_96) (= _let_201 _let_200) (= _let_149 _let_83) (= _let_199 _let_198) (= _let_197 _let_196) (= _let_195 _let_194) (= _let_193 _let_192) (= _let_136 _let_61) (= _let_191 _let_190) (= _let_189 _let_188) (= _let_187 _let_186) (= (tptp.fn_c3_plant_43 X) _let_185) (= (tptp.fn_c3_plant_42 X) _let_184) (= (tptp.fn_c3_plant_18 X) _let_183) (= _let_153 _let_87) (= (tptp.fn_c3_plant_17 X) _let_182) (= X _let_97) (= _let_3 _let_28) (= _let_27 (tptp.fn_plant_18 X)) (= _let_176 _let_108) (= _let_181 _let_111) (= _let_180 _let_179) (= _let_178 _let_177) (= _let_176 _let_107) (= _let_175 _let_174) (= _let_171 _let_102) (= _let_173 _let_106) (= _let_173 _let_105) (= _let_171 _let_101) (= _let_172 _let_104) (= _let_172 _let_103) (= _let_171 _let_100) (= _let_170 _let_169) (= _let_168 _let_167) (= _let_140 _let_76) (= (tptp.fn_c3_plant_87 X) (tptp.fn_plant_21 X)) (= (tptp.fn_c3_plant_88 X) (tptp.fn_plant_22 X)) (= _let_166 (tptp.fn_plant_17 X)) (= _let_165 (tptp.fn_plant_11 X)) (= _let_164 (tptp.fn_plant_12 X)) (= _let_163 (tptp.fn_plant_16 X)) (= _let_162 (tptp.fn_plant_19 X)) (= _let_161 (tptp.fn_plant_13 X)) (= _let_160 (tptp.fn_plant_15 X)) (= _let_159 (tptp.fn_plant_14 X)) (= _let_158 _let_95) (= _let_157 _let_94) (= _let_157 _let_92) (= _let_156 _let_91) (= _let_156 _let_90) (= _let_156 _let_89) (= _let_3 _let_26) (= _let_22 _let_73) (= _let_3 _let_23) (= _let_22 _let_74) (= _let_22 _let_72) (= _let_24 _let_56) (= _let_3 _let_21) (= _let_155 _let_154) (= _let_63 _let_152) (= _let_65 _let_151) (= _let_138 _let_69) (= _let_137 _let_66) (= _let_150 _let_86) (= _let_150 _let_85) (= _let_150 _let_84) (= _let_149 _let_82) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_144 _let_143) (= _let_20 _let_40) (= _let_39 _let_81) (= _let_39 _let_80) (= _let_55 _let_142) (= _let_141 _let_77) (= _let_140 _let_75) (= _let_139 _let_71) (= _let_139 _let_70) (= _let_138 _let_67) (= _let_137 _let_64) (= _let_136 _let_60) (= _let_135 _let_134) (= _let_130 _let_46) (= _let_130 _let_45) (= _let_132 _let_52) (= _let_129 _let_34) (= _let_133 _let_59) (= _let_119 _let_8) (= _let_133 _let_58) (= _let_18 _let_32) (= _let_24 _let_57) (= _let_3 _let_25) (= _let_24 _let_54) (= _let_3 _let_19) (= _let_131 _let_49) (= _let_131 _let_50) (= _let_132 _let_53) (= _let_132 _let_51) (= _let_131 _let_48) (= _let_130 _let_47) (= _let_130 _let_44) (= _let_20 _let_42) (= _let_20 _let_41) (= _let_20 _let_38) (= _let_20 _let_37) (= _let_18 _let_31) (= _let_20 _let_43) (= _let_20 _let_36) (= _let_20 _let_35) (= _let_129 _let_33) (= _let_119 _let_9) (= _let_6 _let_4) (= _let_3 _let_17) (= _let_120 _let_12) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_16) (= _let_124 _let_15) (= _let_123 _let_14) (= _let_6 _let_5) (= _let_123 _let_13) (= _let_122 _let_121) (= _let_120 _let_11) (= _let_119 _let_10) (= _let_119 _let_7) (= _let_6 _let_2) (= _let_1 _let_118) (= _let_114 _let_115) (= _let_114 _let_114) (= _let_113 _let_115) (= _let_115 _let_117) (= _let_117 _let_117) (= _let_117 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_110 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_105) (= _let_105 _let_105) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_100 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_94) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_26 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_21 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) 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(tptp.fn_phosphorylated_intermediate_5 _let_7))) (let ((_let_14 (tptp.fn_organic_molecule_2 _let_7))) (let ((_let_15 (tptp.fn_c4_photosynthesis_53 X))) (let ((_let_16 (tptp.fn_chemiosmosis_100 _let_15))) (let ((_let_17 (tptp.fn_c4_photosynthesis_80 X))) (let ((_let_18 (tptp.fn_light_reaction_48 _let_17))) (let ((_let_19 (tptp.fn_c4_photosynthesis_43 X))) (let ((_let_20 (tptp.fn_reduction_in_calvin_cycle_5 _let_19))) (let ((_let_21 (tptp.fn_c4_photosynthesis_134 X))) (let ((_let_22 (tptp.fn_reverse_reaction_5 _let_21))) (let ((_let_23 (tptp.fn_c4_photosynthesis_133 X))) (let ((_let_24 (tptp.fn_reverse_reaction_5 _let_23))) (let ((_let_25 (tptp.fn_c4_photosynthesis_135 X))) (let ((_let_26 (tptp.fn_forward_reaction_5 _let_25))) (let ((_let_27 (tptp.fn_c4_photosynthesis_136 X))) (let ((_let_28 (tptp.fn_forward_reaction_5 _let_27))) (let ((_let_29 (tptp.fn_reverse_reaction_6 _let_21))) (let ((_let_30 (tptp.fn_reverse_reaction_6 _let_23))) (let ((_let_31 (tptp.fn_forward_reaction_6 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(tptp.fn_nucleoside_triphosphate_32 _let_41))) (let ((_let_52 (tptp.fn_ribonucleotide_8 _let_41))) (let ((_let_53 (tptp.fn_chemiosmosis_44 _let_15))) (let ((_let_54 (tptp.fn_aldose_4 _let_41))) (let ((_let_55 (tptp.fn_aldose_9 _let_41))) (let ((_let_56 (tptp.fn_triose_14 _let_41))) (let ((_let_57 (tptp.fn_triose_9 _let_41))) (let ((_let_58 (tptp.fn_molecule_11 _let_41))) (let ((_let_59 (tptp.fn_light_reaction_36 _let_17))) (let ((_let_60 (tptp.fn_atp_27 _let_41))) (let ((_let_61 (tptp.fn_eukaryotic_calvin_cycle_65 _let_33))) (let ((_let_62 (tptp.fn_aldehyde_5 _let_41))) (let ((_let_63 (tptp.fn_atp_32 _let_41))) (let ((_let_64 (tptp.fn_ribonucleotide_14 _let_41))) (let ((_let_65 (tptp.fn_nucleoside_triphosphate_27 _let_41))) (let ((_let_66 (tptp.fn_chemiosmosis_39 _let_15))) (let ((_let_67 (tptp.fn_light_reaction_31 _let_17))) (let ((_let_68 (tptp.fn_chemiosmosis_41 _let_15))) (let ((_let_69 (tptp.fn_light_reaction_33 _let_17))) (let ((_let_70 (tptp.fn_atp_30 _let_41))) (let ((_let_71 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_let_376 _let_112) (= _let_376 _let_111) (= _let_375 _let_374) (= _let_342 _let_87) (= _let_373 _let_109) (= _let_373 _let_110) (= _let_373 _let_108) (= _let_372 _let_107) (= _let_372 _let_106) (= (tptp.fn_c4_photosynthesis_226 X) _let_371) (= _let_370 _let_102) (= _let_369 _let_368) (= _let_367 _let_366) (= _let_365 _let_364) (= _let_363 _let_362) (= _let_361 _let_101) (= _let_361 _let_100) (= _let_349 _let_95) (= _let_360 _let_359) (= _let_358 _let_357) (= _let_356 _let_355) (= _let_354 _let_99) (= _let_354 _let_98) (= (tptp.fn_c4_photosynthesis_227 X) _let_353) (= _let_352 _let_97) (= _let_352 _let_96) (= _let_351 _let_350) (= _let_349 _let_94) (= _let_341 _let_84) (= _let_341 _let_83) (= _let_348 _let_93) (= _let_348 _let_91) (= _let_347 _let_90) (= _let_347 _let_88) (= _let_346 _let_345) (= _let_344 _let_343) (= _let_342 _let_86) (= _let_342 _let_85) (= _let_341 _let_82) (= _let_340 _let_81) (= _let_340 _let_80) (= _let_339 _let_338) (= _let_337 _let_336) (= _let_335 _let_334) (= _let_333 _let_332) (= _let_331 _let_330) (= _let_329 _let_328) (= _let_326 _let_69) (= _let_326 _let_68) (= _let_325 _let_67) (= _let_325 _let_66) (= _let_322 _let_59) (= _let_322 _let_58) (= _let_322 _let_53) (= _let_41 _let_18) (= _let_327 _let_75) (= _let_327 _let_74) (= _let_41 _let_16) (= _let_327 _let_73) (= _let_326 _let_63) (= _let_322 _let_57) (= _let_322 _let_56) (= _let_322 _let_55) (= _let_322 _let_54) (= _let_324 _let_49) (= _let_322 _let_51) (= _let_327 _let_71) (= _let_327 _let_72) (= _let_324 _let_50) (= _let_327 _let_70) (= _let_326 _let_45) (= _let_322 _let_50) (= _let_322 _let_49) (= _let_322 _let_48) (= _let_325 _let_65) (= _let_325 _let_64) (= _let_320 _let_44) (= _let_324 _let_52) (= _let_325 _let_45) (= _let_321 _let_46) (= _let_324 _let_47) (= _let_326 _let_46) (= _let_325 _let_63) (= _let_324 _let_62) (= _let_324 _let_56) (= _let_324 _let_57) (= _let_324 _let_54) (= _let_324 _let_55) (= _let_324 _let_51) (= _let_324 _let_48) (= _let_323 _let_60) (= _let_322 _let_52) (= _let_322 _let_47) (= _let_321 _let_45) (= _let_320 _let_43) (= _let_320 _let_42) (= _let_319 _let_13) (= _let_319 _let_14) (= _let_319 _let_12) (= _let_318 _let_11) (= _let_318 _let_10) (= _let_317 _let_316) (= _let_315 _let_12) (= (tptp.fn_c4_photosynthesis_112 X) _let_314) (= _let_313 _let_312) (= _let_311 _let_310) (= (tptp.fn_c4_photosynthesis_111 X) _let_309) (= _let_308 _let_307) (= _let_306 _let_305) (= _let_152 _let_304) (= _let_303 _let_9) (= _let_303 _let_8) (= _let_302 _let_301) (= _let_300 _let_299) (= _let_299 _let_298) (= _let_297 _let_297) (= _let_297 _let_298) (= _let_298 _let_297) (= _let_297 _let_296) (= _let_296 _let_296) (= _let_296 _let_295) (= _let_295 _let_294) (= _let_293 _let_293) (= _let_293 _let_294) (= _let_294 _let_293) (= _let_293 _let_292) (= _let_292 _let_292) (= _let_292 _let_291) (= _let_290 _let_290) (= _let_290 _let_291) (= _let_291 _let_290) (= _let_290 _let_289) (= _let_289 _let_287) (= _let_287 _let_287) (= _let_287 _let_286) (= _let_286 _let_286) (= _let_285 _let_286) (= _let_286 _let_285) (= _let_285 _let_285) (= _let_285 _let_284) (= _let_283 _let_284) (= _let_284 _let_283) (= _let_283 _let_281) (= _let_281 _let_280) (= _let_280 _let_282) (= _let_282 _let_281) (= _let_281 _let_279) (= _let_279 _let_280) (= _let_280 _let_279) (= _let_279 _let_279) (= _let_278 _let_279) (= _let_279 _let_278) (= _let_278 _let_278) (= _let_278 _let_277) (= _let_277 _let_277) (= _let_277 _let_276) (= _let_276 _let_276) (= _let_276 _let_275) (= _let_274 _let_275) (= _let_275 _let_274) (= _let_274 _let_272) (= _let_272 _let_273) (= _let_273 _let_272) (= _let_272 _let_271) (= _let_271 _let_271) (= _let_271 _let_270) (= _let_270 _let_270) (= _let_270 _let_269) (= _let_268 _let_269) (= _let_269 _let_268) (= _let_268 _let_268) (= _let_268 _let_266) (= _let_266 _let_267) (= _let_267 _let_266) (= _let_266 _let_266) (= _let_266 _let_265) (= _let_265 _let_265) (= _let_265 _let_264) (= _let_264 _let_263) (= _let_263 _let_263) (= _let_263 _let_261) (= _let_261 _let_261) (= _let_261 _let_262) (= _let_262 _let_261) (= _let_260 _let_261) (= _let_261 _let_260) (= _let_260 _let_260) (= _let_260 _let_259) (= _let_258 _let_259) (= _let_259 _let_258) (= _let_258 _let_258) (= _let_258 _let_257) (= _let_257 _let_256) (= _let_256 _let_256) (= _let_256 _let_255) (= _let_255 _let_256) (= _let_256 _let_254) (= _let_254 _let_255) (= _let_255 _let_254) (= _let_254 _let_253) (= _let_253 _let_253) (= _let_253 _let_252) (= _let_252 _let_251) (= _let_251 _let_249) (= _let_249 _let_249) (= _let_249 _let_248) (= _let_248 _let_248) (= _let_248 _let_247) (= _let_246 _let_247) (= _let_247 _let_247) (= _let_247 _let_246) (= _let_246 _let_246) (= _let_246 _let_226) (= _let_226 _let_245) (= _let_245 _let_226) (= _let_226 _let_244) (= _let_243 _let_244) (= _let_244 _let_244) (= _let_244 _let_243) (= _let_243 _let_243) (= _let_243 _let_242) (= _let_242 _let_242) (= _let_242 _let_241) (= _let_240 _let_241) (= _let_241 _let_240) (= _let_240 _let_237) (= _let_237 _let_240) (= _let_240 _let_240) (= _let_240 _let_234) (= _let_234 _let_231) (= _let_231 _let_239) (= _let_239 _let_238) (= _let_238 _let_237) (= _let_237 _let_236) (= _let_236 _let_234) (= _let_234 _let_233) (= _let_233 _let_231) (= _let_231 _let_230) (= _let_230 _let_228) (= _let_228 _let_227) (= _let_227 _let_226) (= _let_226 _let_223) (= _let_223 _let_224) (= _let_224 _let_224) (= _let_224 _let_223) (= _let_223 _let_222) (= _let_222 _let_222) (= _let_222 _let_221) (= _let_220 _let_221) (= _let_221 _let_220) (= _let_219 _let_220) (= _let_220 _let_220) (= _let_220 _let_219) (= _let_219 _let_219) (= _let_219 _let_218) (= _let_218 _let_218) (= _let_218 _let_216) (= _let_216 _let_216) (= _let_216 _let_214) (= _let_214 _let_213) (= _let_213 _let_213) (= _let_213 _let_211) (= _let_211 _let_210) (= _let_210 _let_208) (= _let_208 _let_207) (= _let_207 _let_206) (= _let_206 _let_205) (= _let_205 _let_204) (= _let_204 _let_203) (= _let_203 _let_202) (= _let_202 _let_201) (= _let_201 _let_200) (= _let_200 _let_200) (= _let_199 _let_200) (= _let_200 _let_199) (= _let_198 _let_199) (= _let_199 _let_198) (= _let_198 _let_197) (= _let_179 _let_198) (= _let_198 _let_198) (= _let_198 _let_177) (= _let_177 _let_197) (= _let_197 _let_195) (= _let_195 _let_193) (= _let_193 _let_191) (= _let_191 _let_189) (= _let_189 _let_187) (= _let_187 _let_185) (= _let_185 _let_183) (= _let_183 _let_181) (= _let_181 _let_179) (= _let_179 _let_175) (= _let_175 _let_177) (= _let_177 _let_175) (= _let_175 _let_171) (= _let_171 _let_173) (= _let_173 _let_173) (= _let_173 _let_171) (= _let_171 _let_171) (= _let_171 _let_170) (= _let_170 _let_168) (= _let_168 _let_168) (= _let_168 _let_165) (= _let_165 _let_166) (= _let_166 _let_165) (= _let_165 _let_165) (= _let_165 _let_163) (= _let_163 _let_164) (= _let_164 _let_163) (= _let_163 _let_163) (= _let_163 _let_162) (= _let_162 _let_162) (= _let_162 _let_161) (= _let_161 _let_160) (= _let_160 _let_158) (= _let_158 _let_158) (= _let_158 _let_156) (= _let_155 _let_156) (= _let_156 _let_155) (= _let_155 _let_153) (= _let_151 _let_153) (= _let_153 _let_151) (= _let_151 _let_149) (= _let_149 _let_149) (= _let_149 _let_150) (= _let_150 _let_149) (= _let_149 _let_148) (= _let_148 _let_147) (= _let_147 _let_147) (= _let_147 _let_145) (= _let_145 _let_143) (= _let_143 _let_143) (= _let_143 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_138) (= _let_138 _let_135) (= _let_135 _let_138) (= _let_138 _let_138) (= _let_139 _let_134) (= _let_134 _let_139) (= _let_139 _let_139) (= _let_139 _let_138) (= _let_134 _let_138) (= _let_138 _let_134) (= _let_135 _let_135) (= _let_133 _let_135) (= _let_135 _let_133) (= _let_132 _let_132) (= _let_132 _let_133) (= _let_132 _let_137) (= _let_137 _let_137) (= _let_137 _let_136) (= _let_136 _let_134) (= _let_134 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_133 _let_134) (= _let_134 _let_133) (= _let_133 _let_133) (= _let_133 _let_132) (= _let_132 _let_130) (= _let_130 _let_131) (= _let_131 _let_130) (= _let_130 _let_128) (= _let_128 _let_127) (= _let_127 _let_126) (= _let_126 _let_126) (= _let_126 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_115) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_112) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_111 _let_111) (= _let_111 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_110) (= _let_110 _let_110) (= _let_110 _let_108) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_106 _let_105) (= _let_105 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_98) (= _let_98 _let_98) (= _let_98 _let_99) (= _let_99 _let_98) (= _let_98 _let_96) (= _let_96 _let_96) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_94) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_89) (= _let_89 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_71 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_63) (= _let_46 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_45) (= _let_63 _let_45) (= _let_45 _let_63) (= _let_63 _let_63) (= _let_63 _let_56) (= _let_56 _let_62) (= _let_62 _let_56) (= _let_56 _let_57) (= _let_54 _let_57) (= _let_57 _let_54) (= _let_54 _let_54) (= _let_54 _let_55) (= _let_50 _let_55) (= _let_55 _let_50) (= _let_49 _let_52) (= _let_51 _let_51) (= _let_51 _let_47) (= _let_47 _let_51) (= _let_51 _let_48) (= _let_48 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_34) (= _let_34 _let_34) (= _let_34 _let_31) (= _let_31 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_29) (= _let_28 _let_30) (= _let_30 _let_26) (= _let_26 _let_29) (= _let_29 _let_28) (= _let_28 _let_24) (= _let_24 _let_26) (= _let_26 _let_22) (= _let_22 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_18 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_16 _let_16) (= _let_16 _let_18) (= _let_18 _let_16) (= _let_16 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_c4_plant_62 X))) (let ((_let_2 (tptp.fn_plant_cell_63 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_4 (tptp.fn_c4_plant_35 X))) (let ((_let_5 (tptp.fn_eukaryotic_cellular_respiration_68 _let_4))) (let ((_let_6 (tptp.fn_cellular_respiration_43 _let_4))) (let ((_let_7 (tptp.fn_c4_plant_106 X))) (let ((_let_8 (tptp.fn_pyruvate_oxidation_3 _let_7))) (let ((_let_9 (tptp.fn_pyruvate_oxidation_7 _let_7))) (let ((_let_10 (tptp.fn_exergonic_reaction_6 _let_4))) (let ((_let_11 (tptp.fn_exergonic_reaction_6 _let_7))) (let ((_let_12 (tptp.fn_eukaryotic_cellular_respiration_62 _let_4))) (let ((_let_13 (tptp.fn_c4_plant_59 X))) (let ((_let_14 (tptp.fn_c4_photosynthesis_44 _let_13))) (let ((_let_15 (tptp.fn_cellular_respiration_61 _let_4))) (let ((_let_16 (tptp.fn_plant_38 X))) (let ((_let_17 (tptp.fn_eukaryotic_cellular_respiration_111 _let_4))) (let ((_let_18 (tptp.fn_cellular_respiration_56 _let_4))) (let ((_let_19 (tptp.fn_eukaryotic_cellular_respiration_42 _let_4))) (let ((_let_20 (tptp.fn_pyruvate_oxidation_84 _let_7))) (let ((_let_21 (tptp.fn_exergonic_reaction_11 _let_4))) (let ((_let_22 (tptp.fn_exergonic_reaction_11 _let_7))) (let ((_let_23 (tptp.fn_eukaryotic_cellular_respiration_101 _let_4))) (let ((_let_24 (tptp.fn_plant_cell_59 _let_1))) (let ((_let_25 (tptp.fn_c4_plant_43 X))) (let ((_let_26 (tptp.fn_stem_6 _let_25))) (let ((_let_27 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(tptp.dermal_tissue_system_1 _let_104) (tptp.atmosphere_1 _let_102) (tptp.spongy_mesophyll_1 _let_100) (tptp.ground_tissue_system_1 _let_98) (tptp.palisade_mesophyll_1 _let_96) (tptp.plant_vein_1 _let_94) (tptp.vascular_tissue_system_1 _let_92) (tptp.biological_region_1 _let_90) (tptp.move_into_1 _let_88) (tptp.enter_1 _let_86) (tptp.stoma_1 _let_84) (tptp.surface_1 _let_82) (tptp.pyruvate_oxidation_1 _let_80) (tptp.organic_molecule_1 _let_75) (tptp.molecule_1 _let_75) (tptp.chemical_entity_1 _let_75) (tptp.ribonucleotide_1 _let_75) (tptp.nucleoside_triphosphate_1 _let_75) (tptp.atp_1 _let_75) (tptp.waste_product_1 _let_74) (tptp.waste_product_1 _let_73) (tptp.property_node_1 _let_71) (tptp.quantity_value_1 _let_70) (tptp.quantity_value_1 _let_68) (tptp.quantity_value_1 _let_67) (tptp.quantity_value_1 _let_65) (tptp.free_energy_1 _let_64) (tptp.free_energy_1 _let_62) (tptp.tangible_entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.sugar_1 _let_61) (tptp.sugar_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.glucose_1 _let_59) (tptp.structural_complexity_value_1 _let_57) (tptp.structural_complexity_value_1 _let_55) (tptp.tangible_entity_1 _let_52) (tptp.molecule_1 _let_52) (tptp.organic_molecule_1 _let_52) (tptp.tangible_entity_1 _let_51) (tptp.microfibril_1 _let_51) (tptp.cellulose_1 _let_50) (tptp.cellulose_1 _let_49) (tptp.carbohydrate_1 _let_47) (tptp.hydrophilic_compound_1 _let_47) (tptp.polar_molecule_1 _let_47) (tptp.polysaccharide_1 _let_47) (tptp.cellulose_1 _let_47) (tptp.tangible_entity_1 _let_46) (tptp.nucleus_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.nucleus_1 _let_45) (tptp.spatial_entity_1 _let_44) (tptp.biomembrane_1 _let_44) (tptp.plasma_membrane_1 _let_44) (tptp.membrane_1 _let_42) (tptp.spatial_entity_1 _let_42) (tptp.biomembrane_1 _let_42) (tptp.plasma_membrane_1 _let_42) (tptp.mixture_1 _let_41) (tptp.cytoplasm_1 _let_41) (tptp.spatial_entity_1 _let_40) (tptp.mixture_1 _let_40) (tptp.suspension_1 _let_40) (tptp.colloid_1 _let_40) (tptp.cytoplasm_1 _let_40) (tptp.cell_1 _let_39) (tptp.cell_1 _let_38) (tptp.eukaryotic_cell_1 _let_38) (tptp.plant_cell_1 _let_38) (tptp.epidermis_1 _let_36) (tptp.epidermis_1 _let_35) (tptp.air_space_1 _let_34) (tptp.air_space_1 _let_32) (tptp.tangible_entity_1 _let_30) (tptp.tangible_entity_1 _let_28) (tptp.leaf_1 _let_26) (tptp.organelle_1 _let_24) (tptp.mitochondrion_1 _let_24) (tptp.semiautonomous_organelle_1 _let_24) (tptp.organelle_1 _let_23) (tptp.mitochondrion_1 _let_23) (tptp.semiautonomous_organelle_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.nadh_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.organic_molecule_1 _let_19) (tptp.molecule_1 _let_19) (tptp.nadh_1 _let_19) (tptp.chemical_entity_1 _let_18) (tptp.organic_molecule_1 _let_18) (tptp.molecule_1 _let_18) (tptp.nadh_1 _let_18) (tptp.chemical_entity_1 _let_17) (tptp.organic_molecule_1 _let_17) (tptp.molecule_1 _let_17) (tptp.entity_1 _let_17) (tptp.nadh_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.carbon_dioxide_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.hydrophobic_compound_1 _let_14) (tptp.molecule_1 _let_14) (tptp.carbon_dioxide_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.carbon_dioxide_1 _let_12) (tptp.chemical_energy_1 _let_11) (tptp.chemical_energy_1 _let_10) (tptp.chemical_energy_1 _let_9) (tptp.chemical_energy_1 _let_8) (tptp.chemical_energy_1 _let_6) (tptp.chemical_energy_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.metabolic_pathway_1 _let_2) (tptp.eukaryotic_cellular_respiration_1 _let_2) (tptp.result_2 _let_4 _let_189) (tptp.is_inside_2 _let_113 _let_124) (tptp.by_means_of_2 _let_122 _let_209) (tptp.agent_2 _let_209 _let_113) (tptp.has_region_2 X _let_208) (tptp.has_part_2 X _let_31) (tptp.has_part_2 X _let_25) (tptp.has_part_2 X _let_207) (tptp.quantity_2 X _let_201) (tptp.the_scalar_value_2 _let_205 tptp.hot_0) (tptp.scalar_unit_class_2 _let_205 tptp.region_0) (tptp.is_outside_2 _let_206 X) (tptp.temperature_2 _let_206 _let_205) (tptp.concentration_2 _let_204 _let_200) (tptp.has_part_2 _let_203 _let_204) (tptp.temperature_2 _let_203 _let_202) (tptp.correspondence_2 _let_201 _let_202) (tptp.correspondence_2 _let_201 _let_200) (tptp.site_2 _let_198 _let_112) (tptp.site_2 _let_165 _let_155) (tptp.site_2 _let_13 _let_112) (tptp.element_2 _let_105 _let_111) (tptp.destination_2 _let_29 _let_199) (tptp.is_inside_2 _let_199 _let_31) (tptp.is_outside_2 _let_194 _let_31) (tptp.base_2 _let_29 _let_31) (tptp.base_2 _let_27 _let_31) (tptp.object_2 _let_179 _let_197) (tptp.object_2 _let_43 _let_48) (tptp.destination_2 _let_27 _let_85) (tptp.path_2 _let_27 _let_33) (tptp.origin_2 _let_27 _let_194) (tptp.recipient_2 _let_191 _let_25) (tptp.donor_2 _let_191 _let_31) (tptp.raw_material_2 _let_7 _let_189) (tptp.possesses_2 _let_189 _let_77) (tptp.path_2 _let_43 _let_113) (tptp.has_function_2 _let_113 _let_43) (tptp.by_means_of_2 _let_158 _let_13) (tptp.has_function_2 X _let_13) (tptp.result_2 _let_198 _let_78) (tptp.in_event_2 _let_187 _let_4) (tptp.plays_2 _let_78 _let_187) (tptp.quantity_2 _let_175 _let_177) (tptp.called_2 _let_176 |tptp.'FE_p'|) (tptp.experiencer_2 _let_13 X) (tptp.base_2 _let_13 _let_1) (tptp.recipient_2 _let_179 _let_78) (tptp.has_function_2 _let_78 _let_179) (tptp.quantity_2 _let_169 _let_176) (tptp.greater_than_2 _let_176 _let_177) (tptp.called_2 _let_177 |tptp.'FE_r'|) (tptp.result_2 _let_13 _let_168) (tptp.size_2 _let_168 _let_171) (tptp.greater_than_2 _let_171 _let_173) (tptp.size_2 _let_78 _let_173) (tptp.possesses_2 _let_78 _let_175) (tptp.raw_material_2 _let_13 _let_78) (tptp.structural_complexity_2 _let_78 _let_166) (tptp.greater_than_2 _let_167 _let_166) (tptp.structural_complexity_2 _let_168 _let_167) (tptp.possesses_2 _let_168 _let_169) (tptp.has_part_2 X _let_157) (tptp.has_function_2 X _let_165) (tptp.agent_2 _let_165 X) (tptp.base_2 _let_165 X) (tptp.has_part_2 X _let_1) (tptp.correspondence_2 _let_162 _let_161) (tptp.temperature_2 X _let_162) (tptp.has_part_2 X _let_163) (tptp.site_2 _let_164 _let_163) (tptp.subevent_2 _let_165 _let_164) (tptp.agent_2 _let_158 X) (tptp.in_event_2 _let_159 _let_158) (tptp.plays_2 X _let_159) (tptp.has_part_2 X _let_160) (tptp.specific_heat_2 _let_160 _let_161) (tptp.has_region_2 X _let_154) (tptp.is_inside_2 _let_155 _let_154) (tptp.has_part_2 X _let_155) (tptp.has_region_2 X _let_156) (tptp.is_inside_2 _let_157 _let_156) (tptp.called_2 _let_137 |tptp.'MP2'|) (tptp.called_2 _let_145 |tptp.'MP1'|) (tptp.is_inside_2 _let_135 _let_141) (tptp.has_function_2 _let_1 _let_4) (tptp.object_2 _let_128 _let_1) (tptp.has_part_2 _let_1 _let_124) (tptp.object_2 _let_126 _let_1) (tptp.has_function_2 _let_113 _let_139) (tptp.object_2 _let_153 _let_135) (tptp.base_2 _let_153 _let_113) (tptp.has_part_2 _let_113 _let_143) (tptp.is_between_2 _let_113 _let_149) (tptp.is_inside_2 _let_133 _let_149) (tptp.has_region_2 _let_135 _let_133) (tptp.has_region_2 _let_135 _let_151) (tptp.is_inside_2 _let_151 _let_113) (tptp.is_across_2 _let_135 _let_117) (not (= _let_137 _let_135)) (not (= _let_145 _let_137)) (not (= _let_137 _let_145)) (not (= _let_135 _let_137)) (tptp.has_part_2 _let_113 _let_145) (not (= _let_145 _let_135)) (tptp.is_at_2 _let_135 _let_113) (tptp.has_part_2 _let_113 _let_147) (not (= _let_147 _let_135)) (not (= _let_135 _let_145)) (not (= _let_135 _let_147)) (tptp.is_oriented_toward_2 _let_115 _let_112) (tptp.path_2 _let_139 _let_115) (tptp.base_2 _let_139 _let_113) (tptp.has_part_2 _let_113 _let_141) (tptp.is_inside_2 _let_143 _let_141) (tptp.has_region_2 _let_113 _let_133) (tptp.is_outside_2 _let_133 _let_113) (tptp.has_part_2 _let_113 _let_135) (tptp.is_across_2 _let_135 _let_113) (tptp.has_part_2 _let_113 _let_137) (tptp.object_2 _let_130 _let_1) (tptp.agent_2 _let_130 _let_124) (tptp.has_part_2 _let_124 _let_131) (tptp.element_2 _let_48 _let_131) (tptp.has_part_2 _let_124 _let_48) (tptp.is_outside_2 _let_124 _let_113) (tptp.has_function_2 _let_124 _let_126) (tptp.agent_2 _let_126 _let_124) (tptp.has_function_2 _let_124 _let_128) (tptp.agent_2 _let_128 _let_124) (tptp.agent_2 _let_119 _let_1) (tptp.base_2 _let_119 _let_1) (tptp.has_part_2 _let_1 _let_120) (tptp.is_between_2 _let_112 _let_120) (tptp.object_2 _let_122 _let_112) (tptp.base_2 _let_4 _let_1) (tptp.has_function_2 _let_81 _let_4) (tptp.has_part_2 _let_1 _let_81) (tptp.has_part_2 _let_1 _let_113) (tptp.has_region_2 _let_113 _let_117) (tptp.has_part_2 _let_1 _let_112) (tptp.is_inside_2 _let_112 _let_113) (tptp.has_region_2 _let_113 _let_115) (tptp.is_facing_2 _let_115 _let_112) (tptp.is_between_2 _let_112 _let_113) (tptp.has_region_2 _let_31 _let_99) (tptp.has_part_2 _let_31 _let_95) (tptp.destination_2 _let_87 _let_85) (tptp.has_part_2 _let_31 _let_106) (tptp.has_part_2 _let_31 _let_111) (tptp.is_above_2 _let_111 _let_97) (not (= _let_111 _let_106)) (tptp.is_above_2 _let_106 _let_110) (tptp.has_part_2 _let_31 _let_110) (tptp.has_part_2 _let_31 _let_101) (tptp.is_above_2 _let_101 _let_106) (not (= _let_106 _let_111)) (tptp.has_part_2 _let_31 _let_108) (tptp.is_above_2 _let_108 _let_111) (tptp.has_region_2 _let_111 _let_33) (not (= _let_110 _let_108)) (not (= _let_108 _let_110)) (tptp.base_2 _let_87 _let_31) (tptp.origin_2 _let_87 _let_103) (tptp.is_outside_2 _let_103 _let_31) (tptp.has_region_2 _let_31 _let_105) (tptp.element_2 _let_105 _let_106) (tptp.has_part_2 _let_31 _let_97) (tptp.is_inside_2 _let_97 _let_99) (tptp.is_inside_2 _let_101 _let_99) (tptp.has_region_2 _let_101 _let_85) (tptp.is_inside_2 _let_85 _let_31) (tptp.base_2 _let_89 _let_31) (tptp.destination_2 _let_89 _let_91) (tptp.is_inside_2 _let_91 _let_31) (tptp.has_region_2 _let_31 _let_93) (tptp.is_inside_2 _let_95 _let_93) (tptp.has_region_2 _let_31 _let_83) (tptp.is_at_2 _let_33 _let_83) (tptp.path_2 _let_87 _let_33) (tptp.is_near_2 _let_85 _let_33) (tptp.is_near_2 _let_33 _let_85) (tptp.subevent_2 _let_4 _let_7) (tptp.possesses_2 _let_79 _let_77) (tptp.result_2 _let_7 _let_79) (tptp.site_2 _let_7 _let_81) (tptp.result_2 _let_4 _let_76) (tptp.possesses_2 _let_76 _let_77) (tptp.possesses_2 _let_78 _let_77) (tptp.result_2 _let_4 _let_78) (tptp.result_2 _let_4 _let_79) (= _let_31 _let_30) (= _let_31 _let_28) (= _let_197 _let_196) (= _let_48 _let_52) (= _let_43 _let_195) (= _let_85 _let_34) (= _let_194 _let_193) (= _let_27 _let_192) (= _let_31 _let_26) (= _let_191 _let_190) (= _let_77 _let_8) (= _let_189 _let_188) (= _let_113 _let_44) (= _let_158 _let_54) (= _let_187 _let_74) (= _let_187 _let_73) (= (tptp.fn_c4_plant_26 X) _let_186) (= _let_185 _let_72) (= _let_185 _let_71) (= (tptp.fn_c4_plant_24 X) _let_184) (= (tptp.fn_c4_plant_23 X) _let_183) (= X _let_182) (= (tptp.fn_c4_plant_22 X) _let_181) (= _let_1 _let_38) (= (tptp.fn_c4_plant_21 X) _let_180) (= _let_179 _let_178) (= _let_177 _let_70) (= _let_177 _let_69) (= _let_177 _let_68) (= _let_176 _let_67) (= _let_176 _let_66) (= _let_176 _let_65) (= _let_175 _let_174) (= _let_173 _let_172) (= _let_171 _let_170) (= _let_168 _let_61) (= _let_169 _let_64) (= _let_168 _let_60) (= _let_169 _let_63) (= _let_169 _let_62) (= _let_168 _let_59) (= _let_167 _let_58) (= _let_167 _let_57) (= _let_166 _let_56) (= _let_166 _let_55) (= _let_13 (tptp.fn_plant_18 X)) (= _let_78 _let_16) (= _let_78 _let_14) (= (tptp.fn_c4_plant_39 X) (tptp.fn_vascular_plant_22 X)) (= (tptp.fn_c4_plant_38 X) (tptp.fn_vascular_plant_21 X)) (= _let_1 _let_37) (= _let_165 (tptp.fn_vascular_plant_24 X)) (= _let_164 (tptp.fn_vascular_plant_23 X)) (= _let_163 (tptp.fn_vascular_plant_25 X)) (= _let_162 (tptp.fn_vascular_plant_13 X)) (= _let_161 (tptp.fn_vascular_plant_14 X)) (= _let_160 (tptp.fn_vascular_plant_12 X)) (= _let_159 (tptp.fn_vascular_plant_19 X)) (= _let_158 _let_53) (= _let_157 (tptp.fn_vascular_plant_26 X)) (= _let_156 (tptp.fn_vascular_plant_15 X)) (= _let_155 (tptp.fn_vascular_plant_9 X)) (= _let_154 (tptp.fn_vascular_plant_16 X)) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_145 _let_144) (= _let_143 _let_142) (= _let_141 _let_140) (= _let_139 _let_138) (= _let_137 _let_136) (= _let_135 _let_134) (= _let_133 _let_132) (= _let_131 _let_50) (= _let_131 _let_49) (= _let_48 _let_51) (= _let_131 _let_47) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_46) (= _let_120 _let_45) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_81 _let_24) (= _let_1 _let_39) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_115 _let_114) (= _let_113 _let_42) (= _let_112 _let_41) (= _let_112 _let_40) (= _let_106 _let_36) (= _let_111 _let_35) (= _let_110 _let_109) (= _let_108 _let_107) (= _let_106 _let_35) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= _let_85 _let_32) (= _let_33 _let_84) (= _let_83 _let_82) (= _let_81 _let_23) (= _let_7 _let_80) (= _let_79 _let_22) (= _let_77 _let_11) (= _let_77 _let_10) (= _let_79 _let_20) (= _let_77 _let_9) (= _let_79 _let_18) (= _let_79 _let_21) (= _let_79 _let_19) (= _let_79 _let_17) (= _let_78 _let_15) (= _let_77 _let_6) (= _let_78 _let_12) (= _let_77 _let_5) (= _let_76 _let_75) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_68 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_65 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_c7h5o2_minus_1 X))) (=> (tptp.c7h5o2_minus_1 X) (and (tptp.original_name_2 X |tptp.'C7H5O2-Minus'|) (tptp.concept2words_2 X |tptp.'c7h5o2 minus'|) 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(tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_42 _let_1))) (let ((_let_3 (tptp.fn_caenorhabditis_elegans_development_39 X))) (let ((_let_4 (tptp.fn_signal_reception_3 _let_3))) (let ((_let_5 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_53 _let_1))) (let ((_let_6 (tptp.fn_organismal_development_1 X))) (let ((_let_7 (tptp.fn_caenorhabditis_elegans_development_19 X))) (let ((_let_8 (tptp.fn_second_stage_larva_4 _let_7))) (let ((_let_9 (tptp.fn_caenorhabditis_elegans_development_26 X))) (let ((_let_10 (tptp.fn_cell_differentiation_induction_5 _let_9))) (let ((_let_11 (tptp.fn_caenorhabditis_elegans_development_25 X))) (let ((_let_12 (tptp.fn_cell_differentiation_19 _let_11))) (let ((_let_13 (tptp.fn_caenorhabditis_elegans_development_24 X))) (let ((_let_14 (tptp.fn_cell_division_3 _let_13))) (let ((_let_15 (tptp.fn_second_stage_larva_3 _let_7))) (let ((_let_16 (tptp.fn_caenorhabditis_elegans_development_32 X))) (let ((_let_17 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(tptp.fn_gene_activation_7 _let_46))) (let ((_let_48 (tptp.fn_caenorhabditis_elegans_development_36 X))) (let ((_let_49 (tptp.fn_caenorhabditis_elegans_development_21 X))) (let ((_let_50 (tptp.fn_vulva_development_1 _let_49))) (let ((_let_51 (tptp.fn_caenorhabditis_elegans_development_31 X))) (let ((_let_52 (tptp.fn_caenorhabditis_elegans_development_23 X))) (let ((_let_53 (tptp.fn_create_1 _let_52))) (let ((_let_54 (tptp.fn_caenorhabditis_elegans_development_22 X))) (let ((_let_55 (tptp.fn_create_1 _let_51))) (let ((_let_56 (tptp.fn_caenorhabditis_elegans_development_27 X))) (let ((_let_57 (tptp.fn_caenorhabditis_elegans_development_1 X))) (let ((_let_58 (tptp.fn_caenorhabditis_elegans_development_11 X))) (let ((_let_59 (tptp.fn_caenorhabditis_elegans_development_10 X))) (let ((_let_60 (tptp.fn_caenorhabditis_elegans_development_9 X))) (let ((_let_61 (tptp.fn_caenorhabditis_elegans_development_8 X))) (let ((_let_62 (tptp.fn_caenorhabditis_elegans_development_7 X))) (let ((_let_63 (tptp.fn_caenorhabditis_elegans_development_6 X))) (let ((_let_64 (tptp.fn_caenorhabditis_elegans_development_5 X))) (let ((_let_65 (tptp.fn_caenorhabditis_elegans_development_4 X))) (let ((_let_66 (tptp.fn_caenorhabditis_elegans_development_3 X))) (let ((_let_67 (tptp.fn_caenorhabditis_elegans_development_2 X))) (=> (tptp.caenorhabditis_elegans_development_1 X) (and (tptp.original_name_2 X |tptp.'Caenorhabditis-Elegans-Development'|) (tptp.user_description_2 X |tptp.'The macrophysiological process that involves the development of Caenorhabditis elegans.'|) (tptp.concept2words_2 X |tptp.'c elegans development'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'caenorhabditis elegans development'|) (tptp.concept2words_2 X |tptp.'caenorhabditis-elegans-development'|) (tptp.organismal_development_1 X) (tptp.larval_stage_1 _let_57) (tptp.gene_1 _let_67) (tptp.create_1 _let_66) (tptp.create_1 _let_65) (tptp.cell_differentiation_1 _let_64) (tptp.cell_division_1 _let_63) (tptp.cell_differentiation_1 _let_62) (tptp.cell_division_1 _let_61) (tptp.cell_differentiation_induction_1 _let_60) (tptp.cell_signaling_1 _let_59) (tptp.cell_differentiation_induction_1 _let_58) (tptp.cell_communication_leading_to_apoptosis_1 _let_1) (tptp.cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_1 _let_1) (tptp.morphogenesis_1 _let_44) (tptp.embryogenesis_1 _let_42) (tptp.multicellular_organism_1 _let_32) (tptp.caenorhabditis_elegans_1 _let_32) (tptp.vulval_precursor_cell_1 _let_39) (tptp.cell_1 _let_40) (tptp.eukaryotic_cell_1 _let_40) (tptp.vulval_precursor_cell_1 _let_40) (tptp.cell_1 _let_41) (tptp.eukaryotic_cell_1 _let_41) (tptp.vulval_precursor_cell_1 _let_41) (tptp.second_stage_larva_1 _let_7) (tptp.embryonic_gonad_1 _let_37) (tptp.vulva_development_1 _let_49) (tptp.inner_vulva_1 _let_54) (tptp.create_1 _let_52) (tptp.cell_division_1 _let_13) (tptp.cell_differentiation_1 _let_11) (tptp.cell_differentiation_induction_1 _let_9) (tptp.outer_vulva_1 _let_56) (tptp.outer_vulva_1 _let_35) (tptp.cell_differentiation_1 _let_18) (tptp.cell_division_1 _let_24) (tptp.create_1 _let_51) (tptp.cell_differentiation_1 _let_16) (tptp.cell_division_1 _let_22) (tptp.cell_signaling_1 _let_20) (tptp.create_1 _let_33) (tptp.gene_expression_1 _let_48) (tptp.gene_activation_1 _let_46) (tptp.cell_signaling_1 _let_28) (tptp.signal_reception_1 _let_3) (tptp.animal_cell_1 _let_31) (tptp.animal_cell_1 _let_29) (tptp.eukaryotic_cell_1 _let_29) (tptp.cell_1 _let_29) (tptp.entity_1 _let_55) (tptp.entity_1 _let_53) (tptp.create_1 _let_50) (tptp.gene_expression_1 _let_47) (tptp.cell_communication_leading_to_apoptosis_1 _let_45) (tptp.morphogenesis_1 _let_43) (tptp.vulval_precursor_cell_1 _let_38) (tptp.embryonic_gonad_1 _let_36) (tptp.entity_1 _let_34) (tptp.animal_cell_1 _let_30) (tptp.cell_signaling_1 _let_27) (tptp.signal_reception_1 _let_26) (tptp.cell_1 _let_25) (tptp.cell_1 _let_23) (tptp.cell_1 _let_21) (tptp.eukaryotic_cell_1 _let_19) (tptp.eukaryotic_cell_1 _let_17) (tptp.vulval_precursor_cell_1 _let_15) (tptp.cell_1 _let_14) (tptp.eukaryotic_cell_1 _let_12) (tptp.eukaryotic_cell_1 _let_10) (tptp.vulval_precursor_cell_1 _let_8) (tptp.caenorhabditis_elegans_1 _let_5) (tptp.cell_1 _let_4) (tptp.animal_cell_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.exactCardinality _let_28 tptp.subevent_0 |"131"| tptp.apoptosis_0) (tptp.called_2 _let_58 |tptp.'CDI 1'|) (not (= _let_58 _let_60)) (not (= _let_58 _let_9)) (tptp.causes_2 _let_58 _let_11) (tptp.next_event_2 _let_58 _let_11) (tptp.base_2 _let_48 _let_67) (tptp.base_2 _let_48 _let_40) (tptp.next_event_2 _let_59 _let_60) (tptp.called_2 _let_60 |tptp.'CDI 2'|) (not (= _let_60 _let_58)) (tptp.causes_2 _let_60 _let_62) (tptp.next_event_2 _let_60 _let_62) (tptp.next_event_2 _let_61 _let_62) (tptp.next_event_2 _let_62 _let_33) (tptp.next_event_2 _let_20 _let_22) (tptp.next_event_2 _let_22 _let_16) (tptp.base_2 _let_16 _let_41) (tptp.next_event_2 _let_63 _let_64) (tptp.next_event_2 _let_64 _let_65) (tptp.base_2 _let_65 _let_39) (tptp.next_event_2 _let_24 _let_18) (tptp.next_event_2 _let_18 _let_66) (tptp.base_2 _let_18 _let_41) (tptp.base_2 _let_66 _let_41) (tptp.called_2 _let_35 |tptp.'Outer Vulva 1'|) (tptp.called_2 _let_56 |tptp.'Outer Vulva 2'|) (tptp.called_2 _let_9 |tptp.'CDI 3'|) (not (= _let_9 _let_58)) (tptp.next_event_2 _let_11 _let_52) (tptp.base_2 _let_11 _let_40) (tptp.next_event_2 _let_13 _let_11) (tptp.base_2 _let_52 _let_40) (tptp.subevent_2 _let_49 _let_52) (tptp.subevent_2 _let_49 _let_13) (tptp.subevent_2 _let_49 _let_11) (tptp.subevent_2 _let_49 _let_9) (tptp.subevent_2 _let_49 _let_66) (tptp.subevent_2 _let_49 _let_18) (tptp.subevent_2 _let_49 _let_24) (tptp.subevent_2 _let_49 _let_65) (tptp.subevent_2 _let_49 _let_64) (tptp.subevent_2 _let_49 _let_63) (tptp.subevent_2 _let_49 _let_16) (tptp.subevent_2 _let_49 _let_22) (tptp.subevent_2 _let_49 _let_20) (tptp.subevent_2 _let_49 _let_33) (tptp.subevent_2 _let_49 _let_62) (tptp.subevent_2 _let_49 _let_61) (tptp.subevent_2 _let_49 _let_60) (tptp.subevent_2 _let_49 _let_59) (tptp.subevent_2 _let_49 _let_48) (tptp.subevent_2 _let_49 _let_46) (tptp.subevent_2 _let_49 _let_58) (tptp.site_2 _let_49 _let_37) (tptp.base_2 _let_49 _let_7) (tptp.subevent_2 X _let_42) (tptp.subevent_2 _let_57 _let_49) (tptp.subevent_2 _let_42 _let_57) (tptp.result_2 _let_51 _let_56) (tptp.result_2 _let_52 _let_54) (tptp.object_2 _let_13 _let_40) (tptp.object_2 _let_24 _let_41) (tptp.object_2 _let_22 _let_41) (tptp.base_2 _let_20 _let_41) (tptp.object_2 _let_18 _let_41) (tptp.object_2 _let_16 _let_41) (tptp.object_2 _let_11 _let_40) (tptp.experiencer_2 X _let_32) (tptp.base_2 _let_9 _let_40) (tptp.subevent_2 _let_49 _let_51) (tptp.next_event_2 _let_46 _let_48) (tptp.subevent_2 _let_42 _let_44) (tptp.subevent_2 _let_44 _let_1) (tptp.has_part_2 _let_37 _let_41) (tptp.called_2 _let_41 |tptp.'VPC 5'|) (tptp.has_part_2 _let_37 _let_40) (tptp.called_2 _let_40 |tptp.'VPC 4'|) (tptp.has_part_2 _let_7 _let_37) (tptp.has_part_2 _let_37 _let_39) (tptp.called_2 _let_39 |tptp.'VPC 2'|) (not (= _let_29 _let_31)) (not (= _let_31 _let_29)) (tptp.has_part_2 _let_32 _let_31) (tptp.has_part_2 _let_32 _let_29) (tptp.object_2 _let_1 _let_29) (tptp.agent_2 _let_1 _let_31) (tptp.subevent_2 _let_1 _let_28) (tptp.subevent_2 _let_28 _let_3) (tptp.recipient_2 _let_3 _let_29) (tptp.first_subevent_2 _let_28 _let_3) (tptp.base_2 _let_3 _let_29) (tptp.result_2 _let_33 _let_35) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_40 _let_14) (= _let_41 _let_25) (= _let_41 _let_23) (= _let_41 _let_21) (= _let_41 _let_19) (= _let_41 _let_17) (= _let_40 _let_12) (= _let_32 _let_6) (= _let_40 _let_10) (= _let_51 _let_50) (= _let_48 _let_47) (= _let_1 _let_45) (= _let_44 _let_43) (= _let_41 _let_15) (= _let_40 _let_8) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_29 _let_4) (= _let_32 _let_5) (= _let_31 _let_30) (= _let_29 _let_2) (= _let_28 _let_27) (= _let_3 _let_26) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_17 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calcification_3 X))) (let ((_let_2 (tptp.fn_calcification_2 X))) (let ((_let_3 (tptp.fn_calcification_1 X))) (let ((_let_4 (tptp.fn_calcification_4 X))) (=> (tptp.calcification_1 X) (and (tptp.original_name_2 X |tptp.'Calcification'|) (tptp.user_description_2 X |tptp.'The accumulation of calcium salts in soft tissues.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.calcify) (tptp.concept2words_2 X tptp.calcification) (tptp.general_chemical_process_1 X) (tptp.calcium_carbonate_1 _let_3) (tptp.carbonate_ion_1 _let_2) (tptp.calcium_ion_1 _let_1) (tptp.consistency_value_1 _let_4) (tptp.the_categorical_value_2 _let_4 tptp.crystalline_0) (tptp.consistency_2 _let_3 _let_4) (tptp.result_2 X _let_3) (tptp.raw_material_2 X _let_2) (tptp.raw_material_2 X _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calcitonin_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.calcitonin_1 X) (and (tptp.original_name_2 X |tptp.'Calcitonin'|) (tptp.user_description_2 X |tptp.'A polypeptide hormone produced by the thyroid gland. It reduces blood calcium by opposing the effect of parathyroid hormone.'|) (tptp.concept2words_2 X tptp.calcitonin) (tptp.thyroid_peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X)) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calcium_18 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_calcium_16 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_6 (tptp.fn_calcium_15 X))) (let ((_let_7 (tptp.fn_electron_shell_2 _let_6))) (let ((_let_8 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_9 (tptp.fn_calcium_17 X))) (let ((_let_10 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_11 (tptp.fn_calcium_19 X))) (let ((_let_12 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_13 (tptp.fn_calcium_13 X))) (let ((_let_14 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_15 (tptp.fn_calcium_20 X))) (let ((_let_16 (tptp.fn_calcium_12 X))) (let ((_let_17 (tptp.fn_electron_shell_3 _let_6))) (let ((_let_18 (tptp.fn_calcium_14 X))) (let ((_let_19 (tptp.fn_calcium_3 X))) (let ((_let_20 (tptp.fn_calcium_4 X))) (let ((_let_21 (tptp.fn_calcium_5 X))) (let ((_let_22 (tptp.fn_calcium_1 X))) (let ((_let_23 (tptp.fn_calcium_2 X))) (=> (tptp.calcium_1 X) (and (tptp.original_name_2 X |tptp.'Calcium'|) (tptp.user_description_2 X |tptp.'Calcium is a metal atom with atomic number 20. It is represented by the symbol Ca.'|) (tptp.concept2words_2 X |tptp.'Ca'|) (tptp.concept2words_2 X tptp.calcium) (tptp.metal_atom_1 X) (not (tptp.copper_1 X)) (not (tptp.iron_1 X)) (not (tptp.magnesium_1 X)) (not (tptp.carbon_1 X)) (not (tptp.hydrogen_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.neutron_1 _let_22) (tptp.quantity_value_1 _let_23) (tptp.electronegativity_value_1 _let_19) (tptp.valence_value_1 _let_20) (tptp.atomic_mass_value_1 _let_21) (tptp.atomic_weight_value_1 _let_16) (tptp.atomic_number_value_1 _let_13) (tptp.atomic_orbital_1 _let_18) (tptp.electron_shell_1 _let_6) (tptp.move_1 _let_3) (tptp.center_1 _let_9) (tptp.atomic_nucleus_1 _let_1) (tptp.proton_1 _let_11) (tptp.electron_1 _let_15) (tptp.atomic_orbital_1 _let_17) (tptp.property_node_1 _let_14) (tptp.atomic_number_value_1 _let_12) (tptp.proton_1 _let_10) (tptp.center_1 _let_8) (tptp.electron_1 _let_7) (tptp.electron_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.atom_1 _let_2) (tptp.the_cardinal_value_2 _let_16 |"40.08"|) (tptp.cardinal_unit_class_2 _let_16 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_13 |"20"|) (tptp.cardinal_unit_class_2 _let_13 tptp.unity_0) (tptp.the_cardinal_value_2 _let_21 |"40"|) (tptp.cardinal_unit_class_2 _let_21 tptp.unity_0) (tptp.the_cardinal_value_2 _let_20 |"2"|) (tptp.cardinal_unit_class_2 _let_20 tptp.unity_0) (tptp.the_cardinal_value_2 _let_19 |"1"|) (tptp.cardinal_unit_class_2 _let_19 tptp.unity_0) (tptp.the_cardinal_value_2 _let_23 |"2"|) (tptp.cardinal_unit_class_2 _let_23 tptp.unity_0) (tptp.has_part_2 X _let_22) (tptp.exactCardinality X tptp.has_part_0 |"20"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"20"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"20"| tptp.neutron_0) (tptp.mass_number_2 X _let_21) (tptp.valence_2 X _let_20) (tptp.electronegativity_2 X _let_19) (tptp.object_2 _let_3 X) (tptp.has_region_2 _let_6 _let_18) (tptp.is_inside_2 _let_15 _let_18) (tptp.has_region_2 X _let_6) (tptp.atomic_weight_2 X _let_16) (tptp.has_part_2 X _let_15) (tptp.atomic_number_2 X _let_13) (tptp.is_at_2 _let_1 _let_9) (tptp.has_region_2 X _let_9) (tptp.has_part_2 X _let_11) (tptp.is_inside_2 _let_11 _let_1) (tptp.has_region_2 X _let_1) (= X _let_4) (= _let_15 _let_7) (= _let_18 _let_17) (= _let_6 (tptp.fn_atom_9 X)) (= (tptp.fn_calcium_11 X) (tptp.fn_atom_13 X)) (= _let_16 (tptp.fn_atom_16 X)) (= _let_15 _let_5) (= (tptp.fn_calcium_10 X) _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calcium_carbonate_2 X))) (let ((_let_2 (tptp.fn_calcium_carbonate_1 X))) (=> (tptp.calcium_carbonate_1 X) (and (tptp.original_name_2 X |tptp.'Calcium-Carbonate'|) (tptp.user_description_2 X |tptp.'A mineral compound with the chemical formula CaCO3. It plays a role in animal nutrition, biological buffer systems, and the physical structure of some organisms.'|) (tptp.concept2words_2 X tptp.caco3) (tptp.concept2words_2 X |tptp.'carbonate of calcium'|) (tptp.concept2words_2 X |tptp.'calcium carbonate'|) (tptp.concept2words_2 X |tptp.'calcium-carbonate'|) (tptp.salt_1 X) (tptp.calcium_ion_1 _let_2) (tptp.carbonate_ion_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_ionic_compound_1 X)) (= _let_1 (tptp.fn_ionic_compound_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calcium_cycle_9 X))) (let ((_let_2 (tptp.fn_soil_solution_1 _let_1))) (let ((_let_3 (tptp.fn_solution_6 _let_1))) (let ((_let_4 (tptp.fn_calcium_cycle_5 X))) (let ((_let_5 (tptp.fn_soil_2 _let_4))) (let ((_let_6 (tptp.fn_mixture_2 _let_4))) (let ((_let_7 (tptp.fn_calcium_cycle_4 X))) (let ((_let_8 (tptp.fn_chemical_3 _let_7))) (let ((_let_9 (tptp.fn_local_biogeochemical_cycle_2 X))) (let ((_let_10 (tptp.fn_calcium_cycle_10 X))) (let ((_let_11 (tptp.fn_chemical_3 _let_10))) (let ((_let_12 (tptp.fn_calcium_cycle_11 X))) (let ((_let_13 (tptp.fn_calcium_cycle_7 X))) (let ((_let_14 (tptp.fn_calcium_cycle_6 X))) (let ((_let_15 (tptp.fn_root_hair_3 _let_14))) (let ((_let_16 (tptp.fn_calcium_cycle_8 X))) (let ((_let_17 (tptp.fn_root_hair_1 _let_14))) (let ((_let_18 (tptp.fn_root_hair_2 _let_14))) (let ((_let_19 (tptp.fn_calcium_cycle_1 X))) (let ((_let_20 (tptp.fn_calcium_cycle_3 X))) (let ((_let_21 (tptp.fn_calcium_cycle_2 X))) (=> (tptp.calcium_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Calcium-Cycle'|) (tptp.user_description_2 X |tptp.'Global biogeochemical processes which cycle calcium through the biotic and abiotic components of ecosystems.'|) (tptp.concept2words_2 X |tptp.'undergo the calcium cycle'|) (tptp.concept2words_2 X |tptp.'cycle of calcium'|) (tptp.concept2words_2 X |tptp.'calcium cycle'|) (tptp.concept2words_2 X |tptp.'calcium-cycle'|) (tptp.local_biogeochemical_cycle_1 X) (tptp.decomposition_1 _let_19) (tptp.calcium_ion_1 _let_21) (tptp.root_1 _let_20) (tptp.chemical_1 _let_7) (tptp.substance_1 _let_7) (tptp.mineral_1 _let_7) (tptp.mixture_1 _let_4) (tptp.soil_1 _let_4) (tptp.root_hair_1 _let_14) (tptp.calcium_ion_1 _let_13) (tptp.take_in_1 _let_16) (tptp.solution_1 _let_1) (tptp.soil_solution_1 _let_1) (tptp.chemical_1 _let_10) (tptp.mineral_1 _let_10) (tptp.calcium_ion_1 _let_12) (tptp.soil_solution_1 _let_18) (tptp.soil_1 _let_17) (tptp.take_in_1 _let_15) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_8) (tptp.substance_1 _let_6) (tptp.mineral_1 _let_5) (tptp.chemical_1 _let_3) (tptp.mineral_1 _let_2) (tptp.site_2 _let_19 _let_4) (tptp.result_2 _let_19 _let_21) (tptp.has_state_2 _let_21 _let_13) (tptp.has_part_2 _let_20 _let_14) (tptp.subevent_2 X _let_19) (tptp.has_state_2 _let_13 _let_12) (tptp.object_2 X _let_13) (tptp.base_2 _let_16 _let_14) (tptp.agent_2 _let_16 _let_14) (tptp.is_outside_2 _let_4 _let_14) (tptp.origin_2 _let_16 _let_4) (tptp.object_2 _let_16 _let_1) (tptp.has_solute_2 _let_1 _let_10) (tptp.has_part_2 _let_1 _let_10) (tptp.has_part_2 _let_4 _let_7) (tptp.has_part_2 _let_10 _let_12) (tptp.has_part_2 _let_7 _let_13) (= _let_13 _let_9) (= _let_1 _let_18) (= _let_4 _let_17) (= _let_16 _let_15) (= _let_13 _let_8) (= _let_12 _let_11) (= _let_7 _let_6) (= _let_7 _let_5) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_1 X))) (let ((_let_2 (tptp.fn_monoatomic_ion_1 X))) (let ((_let_3 (tptp.fn_calcium_ion_5 X))) (let ((_let_4 (tptp.fn_calcium_ion_6 X))) (let ((_let_5 (tptp.fn_calcium_ion_2 X))) (let ((_let_6 (tptp.fn_lose_1 _let_5))) (let ((_let_7 (tptp.fn_calcium_ion_3 X))) (let ((_let_8 (tptp.fn_calcium_ion_1 X))) (=> (tptp.calcium_ion_1 X) (and (tptp.original_name_2 X |tptp.'Calcium-Ion'|) (tptp.user_description_2 X |tptp.'A atom of calcium with a charge of 2+.'|) (tptp.concept2words_2 X |tptp.'ion of calcium'|) (tptp.concept2words_2 X |tptp.'calcium ion'|) (tptp.concept2words_2 X |tptp.'calcium-ion'|) (tptp.monoatomic_ion_1 X) (tptp.cation_1 X) (not (tptp.methyl_ion_1 X)) (not (tptp.metal_cation_1 X)) (not (tptp.hydronium_ion_1 X)) (not (tptp.magnesium_ion_1 X)) (not (tptp.sodium_ion_1 X)) (tptp.neutron_1 _let_8) (tptp.lose_1 _let_5) (tptp.calcium_1 _let_7) (tptp.charge_value_1 _let_3) (tptp.proton_1 _let_4) (tptp.tangible_entity_1 _let_6) (tptp.the_cardinal_value_2 _let_3 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.has_part_2 X _let_8) (tptp.exactCardinality X tptp.has_part_0 |"18"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"20"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"20"| tptp.neutron_0) (tptp.donor_2 _let_5 _let_7) (tptp.result_2 _let_5 X) (tptp.has_part_2 X _let_4) (tptp.charge_2 X _let_3) (= _let_7 _let_6) (= _let_5 (tptp.fn_cation_7 X)) (= _let_4 _let_2) (= _let_4 _let_1) (= (tptp.fn_calcium_ion_4 X) (tptp.fn_cation_4 X)) (= _let_3 (tptp.fn_cation_5 X)) (= _let_2 _let_1)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_californium_9 X))) (let ((_let_2 (tptp.fn_californium_12 X))) (let ((_let_3 (tptp.fn_californium_10 X))) (let ((_let_4 (tptp.fn_californium_11 X))) (let ((_let_5 (tptp.fn_californium_4 X))) (let ((_let_6 (tptp.fn_californium_5 X))) (let ((_let_7 (tptp.fn_californium_3 X))) (=> (tptp.californium_1 X) (and (tptp.original_name_2 X |tptp.'Californium'|) (tptp.user_description_2 X |tptp.'Californium is a metal atom with atomic number 98. It is represented by the symbol Cf.'|) (tptp.concept2words_2 X tptp.californium) (tptp.concept2words_2 X tptp.cf) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"153"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"98"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"98"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"12"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"251"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"98"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"251"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_californium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_californium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_californium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.callus_1 X) (and (tptp.original_name_2 X |tptp.'Callus'|) (tptp.user_description_2 X |tptp.'An area of skin that has become thick and toughened due to repeated friction, pressure, or other irritation.'|) (tptp.concept2words_2 X tptp.callus) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calmodulin_3 X))) (let ((_let_2 (tptp.fn_calmodulin_2 X))) (let ((_let_3 (tptp.fn_calmodulin_1 X))) (=> (tptp.calmodulin_1 X) (and (tptp.original_name_2 X |tptp.'Calmodulin'|) (tptp.user_description_2 X |tptp.'A calcium binding protein found in all eukaryotes.'|) (tptp.concept2words_2 X tptp.calmodulin) (tptp.relay_protein_1 X) (not (tptp.g_protein_1 X)) (not (tptp.scaffolding_protein_1 X)) (tptp.eukaryotic_cell_1 _let_3) (tptp.signal_transduction_with_calmodulin_1 _let_2) (tptp.relay_molecule_1 _let_1) (tptp.has_part_2 _let_3 X) (tptp.in_event_2 _let_1 _let_2) (tptp.plays_2 X _let_1) (= _let_1 (tptp.fn_relay_protein_1 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_calvin_cycle_75 X))) (let ((_let_2 (tptp.fn_ribulose_bisphosphate_24 _let_1))) (let ((_let_3 (tptp.fn_pentose_16 _let_1))) (let ((_let_4 (tptp.fn_calvin_cycle_89 X))) (let ((_let_5 (tptp.fn_regeneration_of_ribulose_bisphosphate_2 _let_4))) (let ((_let_6 (tptp.fn_calvin_cycle_86 X))) (let ((_let_7 (tptp.fn_reverse_reaction_7 _let_6))) (let ((_let_8 (tptp.fn_calvin_cycle_85 X))) (let ((_let_9 (tptp.fn_chemical_reaction_1 _let_8))) (let ((_let_10 (tptp.fn_ribulose_bisphosphate_23 _let_1))) (let ((_let_11 (tptp.fn_ribulose_bisphosphate_27 _let_1))) (let ((_let_12 (tptp.fn_ketone_10 _let_1))) (let ((_let_13 (tptp.fn_pentose_21 _let_1))) (let ((_let_14 (tptp.fn_ribulose_bisphosphate_18 _let_1))) (let ((_let_15 (tptp.fn_ketone_7 _let_1))) (let ((_let_16 (tptp.fn_ribulose_bisphosphate_25 _let_1))) (let ((_let_17 (tptp.fn_ribulose_bisphosphate_26 _let_1))) (let ((_let_18 (tptp.fn_ketone_12 _let_1))) (let ((_let_19 (tptp.fn_pentose_15 _let_1))) (let ((_let_20 (tptp.fn_pentose_10 _let_1))) (let ((_let_21 (tptp.fn_ketone_8 _let_1))) (let ((_let_22 (tptp.fn_ribulose_bisphosphate_20 _let_1))) (let ((_let_23 (tptp.fn_ketone_9 _let_1))) (let ((_let_24 (tptp.fn_ribulose_bisphosphate_22 _let_1))) (let ((_let_25 (tptp.fn_ketone_11 _let_1))) (let ((_let_26 (tptp.fn_pentose_12 _let_1))) (let ((_let_27 (tptp.fn_monosaccharide_17 _let_1))) (let ((_let_28 (tptp.fn_ribulose_bisphosphate_21 _let_1))) (let ((_let_29 (tptp.fn_pentose_11 _let_1))) (let ((_let_30 (tptp.fn_calvin_cycle_55 X))) (let ((_let_31 (tptp.fn_carbon_dioxide_4 _let_30))) (let ((_let_32 (tptp.fn_calvin_cycle_58 X))) (let ((_let_33 (tptp.fn_covalent_bond_20 _let_32))) (let ((_let_34 (tptp.fn_carbon_dioxide_1 _let_30))) (let ((_let_35 (tptp.fn_polar_covalent_bond_19 _let_32))) (let ((_let_36 (tptp.fn_polar_covalent_bond_18 _let_32))) (let ((_let_37 (tptp.fn_calvin_cycle_61 X))) (let ((_let_38 (tptp.fn_share_1 _let_37))) (let ((_let_39 (tptp.fn_share_3 _let_37))) (let ((_let_40 (tptp.fn_calvin_cycle_57 X))) (let ((_let_41 (tptp.fn_carbon_fixation_6 _let_40))) (let ((_let_42 (tptp.fn_calvin_cycle_34 X))) (let ((_let_43 (tptp.fn_chemical_reaction_2 _let_42))) (let ((_let_44 (tptp.fn_carbon_dioxide_3 _let_30))) (let ((_let_45 (tptp.fn_carbon_dioxide_7 _let_30))) (let ((_let_46 (tptp.fn_polar_covalent_bond_17 _let_32))) (let ((_let_47 (tptp.fn_calvin_cycle_51 X))) (let ((_let_48 (tptp.fn_carboxyl_group_23 _let_47))) (let ((_let_49 (tptp.fn_calvin_cycle_50 X))) (let ((_let_50 (tptp.fn_phosphate_group_22 _let_49))) (let ((_let_51 (tptp.fn_phosphate_group_5 _let_49))) (let ((_let_52 (tptp.fn_calvin_cycle_73 X))) (let ((_let_53 (tptp.fn_three_phosphoglycerate_4 _let_52))) (let ((_let_54 (tptp.fn_carboxyl_group_70 _let_47))) (let ((_let_55 (tptp.fn_three_phosphoglycerate_9 _let_52))) (let ((_let_56 (tptp.fn_carboxyl_group_19 _let_47))) (let ((_let_57 (tptp.fn_three_phosphoglycerate_3 _let_52))) (let ((_let_58 (tptp.fn_carboxyl_group_69 _let_47))) (let ((_let_59 (tptp.fn_phosphate_group_37 _let_49))) (let ((_let_60 (tptp.fn_three_phosphoglycerate_8 _let_52))) (let ((_let_61 (tptp.fn_carboxyl_group_24 _let_47))) (let ((_let_62 (tptp.fn_three_phosphoglycerate_12 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_let_87) (tptp.number_1_comma_3_bisphosphoglycerate_1 _let_87) (tptp.chemical_entity_1 _let_86) (tptp.chemical_entity_1 _let_85) (tptp.chemical_entity_1 _let_84) (tptp.molecule_1 _let_84) (tptp.constant_motion_1 _let_83) (tptp.constant_motion_1 _let_82) (tptp.kinetic_energy_1 _let_81) (tptp.kinetic_energy_1 _let_80) (tptp.speed_value_1 _let_79) (tptp.speed_value_1 _let_78) (tptp.quantity_value_1 _let_77) (tptp.quantity_value_1 _let_76) (tptp.chemical_entity_1 _let_75) (tptp.organic_molecule_1 _let_73) (tptp.three_phosphoglycerate_1 _let_72) (tptp.chemical_entity_1 _let_70) (tptp.chemical_entity_1 _let_69) (tptp.double_bond_1 _let_68) (tptp.double_bond_1 _let_67) (tptp.phosphorus_1 _let_66) (tptp.phosphorus_1 _let_65) (tptp.entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.atom_1 _let_64) (tptp.hydrogen_1 _let_64) (tptp.entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.atom_1 _let_63) (tptp.hydrogen_1 _let_63) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.oxygen_1 _let_62) (tptp.oxygen_1 _let_61) (tptp.single_bond_1 _let_60) (tptp.single_bond_1 _let_59) (tptp.single_bond_1 _let_58) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.carbon_1 _let_57) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.carbon_1 _let_56) (tptp.double_bond_1 _let_55) (tptp.double_bond_1 _let_54) (tptp.entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.atom_1 _let_53) (tptp.oxygen_1 _let_53) (tptp.oxygen_1 _let_51) (tptp.entity_1 _let_51) (tptp.chemical_entity_1 _let_51) (tptp.atom_1 _let_51) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.oxygen_1 _let_50) (tptp.oxygen_1 _let_48) (tptp.hold_together_1 _let_46) (tptp.hold_together_1 _let_45) (tptp.carbon_1 _let_44) (tptp.chemical_entity_1 _let_43) (tptp.molecule_1 _let_41) (tptp.entity_1 _let_39) (tptp.entity_1 _let_38) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.oxygen_1 _let_34) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.oxygen_1 _let_31) (tptp.functional_group_1 _let_29) (tptp.hydroxyl_group_1 _let_29) (tptp.functional_group_1 _let_28) (tptp.hydroxyl_group_1 _let_28) (tptp.functional_group_1 _let_27) (tptp.carbonyl_group_1 _let_27) (tptp.functional_group_1 _let_26) (tptp.carbonyl_group_1 _let_26) (tptp.carbonyl_group_1 _let_25) (tptp.functional_group_1 _let_24) (tptp.carbonyl_group_1 _let_24) (tptp.carbon_skeleton_1 _let_23) (tptp.carbon_skeleton_1 _let_22) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.oxygen_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.oxygen_1 _let_19) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.chemical_bond_1 _let_15) (tptp.double_bond_1 _let_15) (tptp.covalent_bond_1 _let_14) (tptp.chemical_bond_1 _let_14) (tptp.double_bond_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.carbon_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.carbon_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.ribulose_bisphosphate_1 _let_5) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.hydrogen_1 _let_3) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.hydrogen_1 _let_2) (tptp.raw_material_2 _let_42 _let_1) (tptp.next_event_2 _let_42 _let_74) (tptp.electronegativity_2 _let_216 _let_229) (tptp.greater_than_2 _let_220 _let_229) (tptp.greater_than_or_equal_to_2 _let_220 _let_229) (tptp.time_before_2 _let_228 _let_226) (tptp.time_int_before_2 _let_228 _let_226) (tptp.subevent_2 _let_40 _let_74) (tptp.subevent_2 _let_40 _let_42) (tptp.raw_material_2 _let_40 _let_1) (tptp.time_during_2 _let_40 _let_190) (tptp.next_event_2 _let_40 _let_71) (tptp.result_2 _let_37 _let_32) (not (= _let_192 _let_186)) (tptp.result_2 _let_208 _let_186) (tptp.structural_complexity_2 _let_206 _let_224) (tptp.toward_2 _let_227 _let_182) (tptp.time_during_2 _let_74 _let_226) (not (= _let_174 _let_1)) (tptp.possesses_2 _let_52 _let_225) (not (= _let_52 _let_1)) (tptp.possesses_2 _let_202 _let_196) (tptp.structural_complexity_2 _let_222 _let_224) (not (= _let_1 _let_174)) (not (= _let_1 _let_52)) (tptp.in_event_2 _let_104 X) (tptp.raw_material_2 X _let_1) (tptp.raw_material_2 X _let_192) (tptp.raw_material_2 X _let_30) (tptp.result_2 X _let_206) (tptp.result_2 X _let_223) (tptp.result_2 X _let_222) (tptp.first_subevent_2 X _let_40) (tptp.subevent_2 X _let_40) (tptp.subevent_2 X _let_71) (tptp.subevent_2 X _let_4) (tptp.possesses_2 _let_183 _let_221) (tptp.structural_complexity_2 _let_183 _let_204) (not (= _let_183 _let_177)) (not (= _let_186 _let_192)) (tptp.toward_2 _let_211 _let_182) (tptp.electronegativity_2 _let_219 _let_220) (not (= _let_177 _let_183)) (not (= _let_177 _let_182)) (not (= _let_182 _let_177)) (tptp.has_atom_2 _let_182 _let_219) (tptp.possesses_2 _let_182 _let_218) (tptp.the_scalar_value_2 _let_217 tptp.high_0) (tptp.scalar_unit_class_2 _let_217 tptp.energy_0) (tptp.quantity_2 _let_179 _let_217) (tptp.raw_material_2 _let_71 _let_52) (tptp.next_event_2 _let_71 _let_4) (tptp.has_atom_2 _let_191 _let_216) (= _let_214 _let_213) (= _let_214 _let_215) (tptp.called_2 _let_214 |tptp.'Number_Proton'|) (= _let_215 _let_214) (tptp.the_cardinal_value_2 _let_215 |"6"|) (tptp.cardinal_unit_class_2 _let_215 tptp.unity_0) (tptp.called_2 _let_215 |tptp.'Atomic_Number'|) (= _let_213 _let_214) (tptp.called_2 _let_213 |tptp.'Number_Electron'|) (tptp.plays_2 _let_186 _let_104) (tptp.result_2 _let_8 _let_1) (tptp.raw_material_2 _let_8 _let_186) (tptp.result_2 _let_6 _let_186) (tptp.raw_material_2 _let_98 _let_186) (tptp.raw_material_2 _let_6 _let_1) (tptp.agent_2 _let_37 _let_124) (tptp.raw_material_2 _let_42 _let_30) (tptp.result_2 _let_96 _let_186) (tptp.raw_material_2 _let_40 _let_30) (tptp.object_2 _let_211 _let_177) (tptp.plays_2 _let_183 _let_92) (tptp.plays_2 _let_182 _let_88) (tptp.result_2 _let_74 _let_52) (tptp.raw_material_2 _let_74 _let_174) (tptp.result_2 _let_42 _let_174) (tptp.result_2 _let_40 _let_52) (tptp.result_2 _let_98 _let_210) (tptp.has_region_2 _let_210 _let_110) (tptp.subevent_2 _let_208 _let_96) (tptp.in_event_2 _let_92 X) (tptp.result_2 _let_4 _let_206) (tptp.result_2 _let_4 _let_1) (tptp.raw_material_2 _let_4 _let_186) (tptp.raw_material_2 _let_4 _let_192) (tptp.base_2 X _let_201) (tptp.result_2 X _let_202) (tptp.structural_complexity_2 _let_202 _let_203) (tptp.greater_than_2 _let_203 _let_204) (tptp.raw_material_2 _let_40 _let_198) (not (= _let_198 _let_30)) (tptp.plays_2 _let_30 _let_200) (tptp.in_event_2 _let_200 _let_40) (tptp.base_2 _let_40 _let_201) (not (= _let_30 _let_198)) (tptp.quantity_2 _let_196 _let_195) (tptp.called_2 _let_194 |tptp.'FE_r'|) (tptp.raw_material_2 X _let_183) (tptp.possesses_2 _let_183 _let_193) (tptp.quantity_2 _let_193 _let_194) (tptp.greater_than_2 _let_195 _let_194) (tptp.called_2 _let_195 |tptp.'FE_p'|) (tptp.raw_material_2 _let_71 _let_192) (tptp.raw_material_2 _let_181 _let_52) (not (= _let_191 _let_182)) (tptp.raw_material_2 _let_185 _let_191) (tptp.raw_material_2 _let_185 _let_182) (not (= _let_182 _let_191)) (tptp.subevent_2 _let_71 _let_185) (tptp.result_2 _let_185 _let_186) (tptp.result_2 _let_71 _let_186) (tptp.time_during_2 _let_71 _let_188) (tptp.time_before_2 _let_190 _let_188) (tptp.subevent_2 _let_71 _let_181) (tptp.result_2 _let_181 _let_182) (not (= _let_182 _let_183)) (not (= _let_52 _let_182)) (not (= _let_182 _let_52)) (not (= _let_183 _let_182)) (tptp.is_inside_2 _let_118 _let_122) (tptp.has_part_2 _let_1 _let_118) (tptp.has_region_2 _let_1 _let_123) (tptp.is_inside_2 _let_113 _let_123) (tptp.has_part_2 _let_1 _let_113) (not (= _let_116 _let_119)) (not (= _let_118 _let_113)) (tptp.is_inside_2 _let_116 _let_121) (not (= _let_119 _let_116)) (tptp.is_inside_2 _let_119 _let_123) (tptp.is_inside_2 _let_118 _let_123) (not (= _let_113 _let_118)) (tptp.is_inside_2 _let_119 _let_122) (tptp.has_part_2 _let_1 _let_119) (tptp.has_region_2 _let_1 _let_122) (tptp.is_inside_2 _let_120 _let_122) (tptp.has_part_2 _let_1 _let_120) (not (= _let_120 _let_119)) (not (= _let_119 _let_113)) (not (= _let_113 _let_116)) (not (= _let_116 _let_113)) (not (= _let_120 _let_113)) (not (= _let_119 _let_120)) (not (= _let_113 _let_119)) (not (= _let_113 _let_120)) (not (= _let_118 _let_116)) (not (= _let_116 _let_120)) (not (= _let_116 _let_118)) (not (= _let_120 _let_116)) (tptp.is_inside_2 _let_120 _let_121) (tptp.has_region_2 _let_1 _let_121) (tptp.has_part_2 _let_1 _let_116) (not (= _let_118 _let_120)) (not (= _let_120 _let_118)) (not (= _let_118 _let_119)) (not (= _let_119 _let_118)) (tptp.is_between_2 _let_115 _let_118) (tptp.is_between_2 _let_117 _let_120) (tptp.is_between_2 _let_115 _let_120) (tptp.is_between_2 _let_115 _let_119) (tptp.is_between_2 _let_117 _let_119) (tptp.possesses_2 _let_1 _let_117) (tptp.is_between_2 _let_117 _let_118) (tptp.is_between_2 _let_117 _let_116) (tptp.is_between_2 _let_115 _let_116) (tptp.possesses_2 _let_1 _let_115) (tptp.is_between_2 _let_115 _let_113) (not (= _let_130 _let_124)) (not (= _let_124 _let_130)) (tptp.is_between_2 _let_32 _let_124) (tptp.is_between_2 _let_32 _let_130) (tptp.has_part_2 _let_30 _let_130) (tptp.object_2 _let_131 _let_130) (tptp.has_function_2 _let_32 _let_131) (tptp.agent_2 _let_131 _let_32) (tptp.object_2 _let_131 _let_124) (tptp.has_part_2 _let_30 _let_124) (tptp.agent_2 _let_129 _let_130) (tptp.agent_2 _let_126 _let_130) (tptp.result_2 _let_126 _let_32) (tptp.result_2 _let_129 _let_32) (tptp.agent_2 _let_129 _let_124) (tptp.possesses_2 _let_30 _let_32) (tptp.agent_2 _let_126 _let_124) (not (= _let_134 _let_132)) (not (= _let_132 _let_134)) (not (= _let_134 _let_136)) (not (= _let_136 _let_134)) (tptp.is_inside_2 _let_134 _let_47) (not (= _let_137 _let_136)) (not (= _let_136 _let_132)) (not (= _let_132 _let_136)) (not (= _let_136 _let_137)) (tptp.is_inside_2 _let_137 _let_47) (tptp.is_inside_2 _let_136 _let_47) (tptp.is_between_2 _let_135 _let_136) (tptp.is_between_2 _let_135 _let_134) (tptp.is_between_2 _let_133 _let_134) (tptp.is_between_2 _let_133 _let_132) (tptp.is_inside_2 _let_132 _let_47) (not (= _let_132 _let_138)) (not (= _let_138 _let_132)) (tptp.is_between_2 _let_139 _let_138) (tptp.is_between_2 _let_139 _let_132) (tptp.is_inside_2 _let_132 _let_49) (not (= _let_138 _let_136)) (tptp.is_between_2 _let_135 _let_132) (tptp.is_between_2 _let_135 _let_138) (tptp.is_inside_2 _let_138 _let_49) (tptp.is_inside_2 _let_136 _let_49) (not (= _let_136 _let_138)) (tptp.object_2 _let_153 _let_52) (tptp.speed_2 _let_153 _let_146) (tptp.directly_proportional_2 _let_146 _let_143) (tptp.quantity_2 _let_151 _let_143) (tptp.possesses_2 _let_52 _let_151) (tptp.is_between_2 _let_133 _let_136) (tptp.is_between_2 _let_139 _let_136) (tptp.is_between_2 _let_139 _let_134) (tptp.is_inside_2 _let_134 _let_149) (tptp.has_region_2 _let_52 _let_149) (tptp.possesses_2 _let_52 _let_135) (tptp.has_part_2 _let_52 _let_138) (tptp.is_between_2 _let_133 _let_138) (tptp.possesses_2 _let_52 _let_133) (tptp.possesses_2 _let_52 _let_139) (tptp.has_part_2 _let_52 _let_134) (tptp.has_region_2 _let_52 _let_47) (tptp.has_part_2 _let_52 _let_132) (tptp.has_region_2 _let_52 _let_49) (tptp.has_part_2 _let_52 _let_136) (tptp.has_part_2 _let_52 _let_137) (tptp.is_inside_2 _let_116 _let_122) (tptp.quantity_2 _let_158 _let_154) (tptp.directly_proportional_2 _let_156 _let_154) (tptp.speed_2 _let_159 _let_156) (tptp.object_2 _let_159 _let_1) (tptp.possesses_2 _let_1 _let_158) (tptp.speed_2 _let_167 _let_164) (tptp.directly_proportional_2 _let_164 _let_161) (tptp.quantity_2 _let_169 _let_161) (tptp.possesses_2 _let_30 _let_169) (tptp.object_2 _let_167 _let_30) (tptp.facilitates_2 _let_173 _let_171) (tptp.site_2 _let_171 _let_173) (tptp.has_function_2 _let_30 _let_171) (tptp.has_region_2 _let_30 _let_173) (tptp.agent_2 _let_171 _let_30) (not (= _let_52 _let_174)) (not (= _let_174 _let_52)) (tptp.agent_2 _let_176 _let_124) (tptp.result_2 _let_176 _let_32) (tptp.possesses_2 _let_177 _let_179) (= _let_186 _let_105) (= _let_1 _let_9) (= _let_186 _let_103) (= _let_186 _let_101) (= _let_186 _let_102) (= _let_186 _let_100) (= _let_186 _let_99) (= _let_1 _let_7) (= _let_124 _let_39) (= _let_124 _let_38) (= _let_30 _let_43) (= _let_186 _let_97) (= _let_177 _let_212) (= _let_183 _let_93) (= _let_182 _let_89) (= _let_52 _let_75) (= _let_174 _let_86) (= _let_174 _let_85) (= _let_52 _let_73) (= _let_210 _let_112) (= _let_210 _let_111) (= _let_96 _let_209) (= X _let_207) (= _let_206 _let_205) (= _let_1 _let_5) (= _let_186 _let_95) (= _let_192 _let_107) (= _let_201 _let_109) (= (tptp.fn_calvin_cycle_35 X) (tptp.fn_anabolic_pathway_1 X)) (= (tptp.fn_calvin_cycle_36 X) (tptp.fn_anabolic_pathway_2 X)) (= _let_204 (tptp.fn_anabolic_pathway_4 X)) (= _let_203 (tptp.fn_anabolic_pathway_3 X)) (= _let_202 (tptp.fn_anabolic_pathway_5 X)) (= _let_201 _let_108) (= _let_200 _let_199) (= _let_30 _let_41) (= _let_198 _let_197) (= (tptp.fn_calvin_cycle_29 X) (tptp.fn_endergonic_reaction_7 X)) (= _let_196 (tptp.fn_endergonic_reaction_3 X)) (= (tptp.fn_calvin_cycle_28 X) (tptp.fn_endergonic_reaction_6 X)) (= _let_195 (tptp.fn_endergonic_reaction_4 X)) (= _let_194 (tptp.fn_endergonic_reaction_5 X)) (= _let_193 (tptp.fn_endergonic_reaction_2 X)) (= _let_183 _let_91) (= _let_192 _let_106) (= _let_191 _let_90) (= _let_190 _let_189) (= _let_188 _let_187) (= _let_186 _let_94) (= _let_185 _let_184) (= _let_183 _let_90) (= _let_52 _let_72) (= _let_182 _let_87) (= _let_181 _let_180) (= _let_179 _let_178) (= _let_124 _let_33) (= _let_176 _let_175) (= _let_174 _let_84) (= _let_173 _let_172) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= (tptp.fn_calvin_cycle_122 X) _let_165) (= _let_164 _let_163) (= (tptp.fn_calvin_cycle_121 X) _let_162) (= _let_161 _let_160) (= _let_154 _let_77) (= _let_156 _let_79) (= _let_159 _let_83) (= _let_159 _let_82) (= _let_158 _let_81) (= _let_158 _let_80) (= (tptp.fn_calvin_cycle_109 X) _let_157) (= _let_156 _let_78) (= (tptp.fn_calvin_cycle_108 X) _let_155) (= _let_154 _let_76) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_136 _let_53) (= _let_149 _let_148) (= _let_135 _let_60) (= _let_138 _let_66) (= _let_133 _let_55) (= (tptp.fn_calvin_cycle_91 X) _let_147) (= _let_146 _let_145) (= _let_139 _let_68) (= (tptp.fn_calvin_cycle_90 X) _let_144) (= _let_143 _let_142) (= _let_134 _let_57) (= _let_52 _let_70) (= _let_47 _let_141) (= _let_132 _let_53) (= _let_52 _let_69) (= _let_49 _let_140) (= _let_136 _let_62) (= _let_137 _let_64) (= _let_139 _let_67) (= _let_132 _let_51) (= _let_132 _let_50) (= _let_135 _let_59) (= _let_136 _let_50) (= _let_138 _let_65) (= _let_137 _let_63) (= _let_136 _let_61) (= _let_135 _let_58) (= _let_134 _let_56) (= _let_133 _let_54) (= _let_132 _let_48) (= _let_130 _let_35) (= _let_130 _let_36) (= _let_124 _let_36) (= _let_131 _let_46) (= _let_124 _let_35) (= _let_131 _let_45) (= _let_124 _let_34) (= _let_130 _let_44) (= _let_129 _let_128) (= _let_32 _let_127) (= _let_126 _let_125) (= _let_124 _let_31) (= _let_123 _let_29) (= _let_123 _let_28) (= _let_122 _let_27) (= _let_122 _let_25) (= _let_122 _let_26) (= _let_122 _let_24) (= _let_113 _let_3) (= _let_116 _let_13) (= _let_121 _let_23) (= _let_121 _let_22) (= _let_116 _let_11) (= _let_120 _let_13) (= _let_120 _let_10) (= _let_118 _let_19) (= _let_119 _let_20) (= _let_118 _let_17) (= _let_119 _let_16) (= _let_120 _let_21) (= _let_120 _let_11) (= _let_119 _let_17) (= _let_118 _let_18) (= _let_118 _let_16) (= _let_117 _let_15) (= _let_116 _let_12) (= _let_117 _let_14) (= _let_116 _let_10) (= _let_115 _let_114) (= _let_113 _let_2) (= _let_112 _let_111) (= _let_111 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_105) (= _let_105 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_97) (= _let_97 _let_97) (= _let_97 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_53) (= _let_53 _let_53) (= _let_53 _let_62) (= _let_62 _let_62) (= _let_62 _let_50) (= _let_50 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_35) (= _let_44 _let_36) (= _let_36 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_13) (= _let_13 _let_21) (= _let_21 _let_10) (= _let_10 _let_13) (= _let_13 _let_10) (= _let_11 _let_16) (= _let_16 _let_20) (= _let_20 _let_16) (= _let_17 _let_19) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_12 _let_10) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.calyptra_1 X) (and (tptp.original_name_2 X |tptp.'Calyptra'|) (tptp.user_description_2 X |tptp.'A protective cap of gametophyte tissue in moss spores.'|) (tptp.concept2words_2 X tptp.calyptra) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_plant_20 X))) (let ((_let_2 (tptp.fn_cam_plant_79 X))) (let ((_let_3 (tptp.fn_crassulacean_acid_metabolism_120 _let_2))) (let ((_let_4 (tptp.fn_cam_plant_119 X))) (let ((_let_5 (tptp.fn_leaf_44 _let_4))) (let ((_let_6 (tptp.fn_cam_plant_98 X))) (let ((_let_7 (tptp.fn_metabolic_pathway_1 _let_6))) (let ((_let_8 (tptp.fn_cam_plant_77 X))) (let ((_let_9 (tptp.fn_parenchyma_cell_40 _let_8))) (let ((_let_10 (tptp.fn_plant_metabolic_cell_17 _let_8))) (let ((_let_11 (tptp.fn_plant_cell_83 _let_8))) (let ((_let_12 (tptp.fn_eukaryotic_cell_31 _let_8))) (let ((_let_13 (tptp.fn_parenchyma_cell_13 _let_8))) (let ((_let_14 (tptp.fn_plant_cell_84 _let_8))) (let ((_let_15 (tptp.fn_parenchyma_cell_29 _let_8))) (let ((_let_16 (tptp.fn_plant_cell_63 _let_8))) (let ((_let_17 (tptp.fn_plant_34 X))) (let ((_let_18 (tptp.fn_plant_metabolic_cell_25 _let_8))) (let ((_let_19 (tptp.fn_parenchyma_cell_43 _let_8))) (let ((_let_20 (tptp.fn_plant_35 X))) (let ((_let_21 (tptp.fn_parenchyma_cell_23 _let_8))) (let ((_let_22 (tptp.fn_plant_cell_71 _let_8))) (let ((_let_23 (tptp.fn_parenchyma_cell_14 _let_8))) (let ((_let_24 (tptp.fn_crassulacean_acid_metabolism_115 _let_2))) (let ((_let_25 (tptp.fn_plant_metabolic_cell_39 _let_8))) (let ((_let_26 (tptp.fn_parenchyma_cell_32 _let_8))) (let ((_let_27 (tptp.fn_crassulacean_acid_metabolism_119 _let_2))) (let ((_let_28 (tptp.fn_eukaryotic_cellular_respiration_62 _let_6))) (let ((_let_29 (tptp.fn_photosynthesis_38 _let_2))) (let ((_let_30 (tptp.fn_cellular_respiration_61 _let_6))) (let ((_let_31 (tptp.fn_plant_38 X))) (let ((_let_32 (tptp.fn_cam_plant_97 X))) (let ((_let_33 (tptp.fn_carbon_dioxide_2 _let_32))) (let ((_let_34 (tptp.fn_photosynthesis_58 _let_2))) (let ((_let_35 (tptp.fn_carbon_dioxide_4 _let_32))) (let ((_let_36 (tptp.fn_carbon_dioxide_1 _let_32))) (let ((_let_37 (tptp.fn_carbon_dioxide_3 _let_32))) (let ((_let_38 (tptp.fn_crassulacean_acid_metabolism_70 _let_2))) (let ((_let_39 (tptp.fn_vascular_plant_24 X))) (let ((_let_40 (tptp.fn_crassulacean_acid_metabolism_88 _let_2))) (let ((_let_41 (tptp.fn_vascular_plant_18 X))) (let ((_let_42 (tptp.fn_plant_19 X))) (let ((_let_43 (tptp.fn_parenchyma_cell_15 _let_8))) (let ((_let_44 (tptp.fn_plant_18 X))) (let ((_let_45 (tptp.fn_crassulacean_acid_metabolism_118 _let_2))) (let ((_let_46 (tptp.fn_photosynthesis_34 _let_2))) (let ((_let_47 (tptp.fn_crassulacean_acid_metabolism_114 _let_2))) (let ((_let_48 (tptp.fn_parenchyma_cell_11 _let_8))) (let ((_let_49 (tptp.fn_crassulacean_acid_metabolism_143 _let_2))) (let ((_let_50 (tptp.fn_plant_30 X))) (let ((_let_51 (tptp.fn_photosynthesis_25 _let_2))) (let ((_let_52 (tptp.fn_crassulacean_acid_metabolism_106 _let_2))) (let ((_let_53 (tptp.fn_plant_cell_6 _let_8))) (let ((_let_54 (tptp.fn_crassulacean_acid_metabolism_161 _let_2))) (let ((_let_55 (tptp.fn_plant_metabolic_cell_7 _let_8))) (let ((_let_56 (tptp.fn_crassulacean_acid_metabolism_134 _let_2))) (let ((_let_57 (tptp.fn_leaf_17 _let_4))) (let ((_let_58 (tptp.fn_crassulacean_acid_metabolism_84 _let_2))) (let ((_let_59 (tptp.fn_leaf_12 _let_4))) (let ((_let_60 (tptp.fn_organ_1 _let_4))) (let ((_let_61 (tptp.fn_crassulacean_acid_metabolism_94 _let_2))) (let ((_let_62 (tptp.fn_plant_metabolic_cell_6 _let_8))) (let ((_let_63 (tptp.fn_crassulacean_acid_metabolism_147 _let_2))) (let ((_let_64 (tptp.fn_photosynthesis_24 _let_2))) (let ((_let_65 (tptp.fn_crassulacean_acid_metabolism_72 _let_2))) (let ((_let_66 (tptp.fn_photosynthesis_64 _let_2))) (let ((_let_67 (tptp.fn_crassulacean_acid_metabolism_95 _let_2))) (let ((_let_68 (tptp.fn_photosynthesis_35 _let_2))) (let ((_let_69 (tptp.fn_crassulacean_acid_metabolism_102 _let_2))) (let ((_let_70 (tptp.fn_photosynthesis_36 _let_2))) (let ((_let_71 (tptp.fn_crassulacean_acid_metabolism_146 _let_2))) (let ((_let_72 (tptp.fn_photosynthesis_50 _let_2))) (let ((_let_73 (tptp.fn_plant_32 X))) (let ((_let_74 (tptp.fn_crassulacean_acid_metabolism_138 _let_2))) (let ((_let_75 (tptp.fn_photosynthesis_51 _let_2))) (let ((_let_76 (tptp.fn_plant_23 X))) (let ((_let_77 (tptp.fn_crassulacean_acid_metabolism_38 _let_2))) (let ((_let_78 (tptp.fn_molecule_12 _let_32))) (let ((_let_79 (tptp.fn_photosynthesis_99 _let_2))) (let ((_let_80 (tptp.fn_crassulacean_acid_metabolism_48 _let_2))) (let ((_let_81 (tptp.fn_molecule_4 _let_32))) (let ((_let_82 (tptp.fn_photosynthesis_96 _let_2))) (let ((_let_83 (tptp.fn_crassulacean_acid_metabolism_47 _let_2))) (let ((_let_84 (tptp.fn_molecule_3 _let_32))) (let ((_let_85 (tptp.fn_crassulacean_acid_metabolism_35 _let_2))) (let ((_let_86 (tptp.fn_molecule_1 _let_32))) (let ((_let_87 (tptp.fn_crassulacean_acid_metabolism_39 _let_2))) (let ((_let_88 (tptp.fn_hydrophobic_compound_2 _let_32))) (let ((_let_89 (tptp.fn_crassulacean_acid_metabolism_41 _let_2))) (let ((_let_90 (tptp.fn_hydrophobic_compound_3 _let_32))) (let ((_let_91 (tptp.fn_crassulacean_acid_metabolism_67 _let_2))) (let ((_let_92 (tptp.fn_plant_29 X))) (let ((_let_93 (tptp.fn_crassulacean_acid_metabolism_40 _let_2))) (let ((_let_94 (tptp.fn_molecule_8 _let_32))) (let ((_let_95 (tptp.fn_crassulacean_acid_metabolism_73 _let_2))) (let ((_let_96 (tptp.fn_plant_28 X))) (let ((_let_97 (tptp.fn_crassulacean_acid_metabolism_139 _let_2))) (let ((_let_98 (tptp.fn_photosynthesis_52 _let_2))) (let ((_let_99 (tptp.fn_plant_24 X))) (let ((_let_100 (tptp.fn_crassulacean_acid_metabolism_125 _let_2))) (let ((_let_101 (tptp.fn_leaf_5 _let_4))) (let ((_let_102 (tptp.fn_eukaryotic_cellular_respiration_68 _let_6))) (let ((_let_103 (tptp.fn_cellular_respiration_43 _let_6))) (let ((_let_104 (tptp.fn_plant_10 X))) (let ((_let_105 (tptp.fn_eukaryotic_cellular_respiration_95 _let_6))) (let ((_let_106 (tptp.fn_plant_cell_115 _let_8))) (let ((_let_107 (tptp.fn_eukaryotic_cellular_respiration_111 _let_6))) (let ((_let_108 (tptp.fn_eukaryotic_cellular_respiration_42 _let_6))) (let ((_let_109 (tptp.fn_cellular_respiration_56 _let_6))) (let ((_let_110 (tptp.fn_plant_cell_116 _let_8))) (let ((_let_111 (tptp.fn_eukaryotic_cellular_respiration_64 _let_6))) (let 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(tptp.closing_of_stoma_1 _let_182) (tptp.tangible_entity_1 _let_181) (tptp.organ_1 _let_181) (tptp.leaf_1 _let_181) (tptp.synthesis_of_atp_1 _let_179) (tptp.add_1 _let_175) (tptp.carbon_fixation_1 _let_173) (tptp.protein_enzyme_1 _let_170) (tptp.protein_enzyme_1 _let_168) (tptp.synthesis_of_atp_1 _let_166) (tptp.thylakoid_1 _let_164) (tptp.mixture_1 _let_162) (tptp.aqueous_solution_1 _let_162) (tptp.stroma_1 _let_162) (tptp.chemical_energy_1 _let_156) (tptp.property_node_1 _let_135) (tptp.property_node_1 _let_133) (tptp.volume_value_1 _let_131) (tptp.size_value_1 _let_129) (tptp.cytoskeleton_1 _let_126) (tptp.cytoplasmic_streaming_1 _let_124) (tptp.membrane_1 _let_121) (tptp.spatial_entity_1 _let_121) (tptp.biomembrane_1 _let_121) (tptp.plasma_membrane_1 _let_121) (tptp.tangible_entity_1 _let_120) (tptp.chemical_entity_1 _let_120) (tptp.sugar_1 _let_120) (tptp.tangible_entity_1 _let_119) (tptp.chemical_entity_1 _let_119) (tptp.sugar_1 _let_119) (tptp.waste_product_1 _let_117) (tptp.waste_product_1 _let_116) (tptp.glycolysis_1 _let_114) (tptp.spatial_entity_1 _let_113) (tptp.tangible_entity_1 _let_113) (tptp.chemical_entity_1 _let_113) (tptp.organic_molecule_1 _let_113) (tptp.molecule_1 _let_113) (tptp.nad_plus_1 _let_113) (tptp.spatial_entity_1 _let_112) (tptp.tangible_entity_1 _let_112) (tptp.chemical_entity_1 _let_112) (tptp.organic_molecule_1 _let_112) (tptp.molecule_1 _let_112) (tptp.nad_plus_1 _let_112) (tptp.spatial_entity_1 _let_111) (tptp.tangible_entity_1 _let_111) (tptp.molecule_1 _let_111) (tptp.chemical_entity_1 _let_111) (tptp.organic_molecule_1 _let_111) (tptp.nad_plus_1 _let_111) (tptp.chemical_entity_1 _let_110) (tptp.organic_molecule_1 _let_110) (tptp.molecule_1 _let_110) (tptp.entity_1 _let_110) (tptp.nadh_1 _let_110) (tptp.chemical_entity_1 _let_109) (tptp.organic_molecule_1 _let_109) (tptp.molecule_1 _let_109) (tptp.nadh_1 _let_109) (tptp.chemical_entity_1 _let_108) (tptp.organic_molecule_1 _let_108) (tptp.molecule_1 _let_108) 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_let_79) (tptp.kinetic_energy_1 _let_78) (tptp.kinetic_energy_1 _let_77) (tptp.quantity_value_1 _let_75) (tptp.quantity_value_1 _let_74) (tptp.free_energy_1 _let_72) (tptp.free_energy_1 _let_71) (tptp.calvin_cycle_1 _let_70) (tptp.anabolic_pathway_1 _let_70) (tptp.eukaryotic_calvin_cycle_1 _let_69) (tptp.endergonic_reaction_1 _let_69) (tptp.anabolic_pathway_1 _let_69) (tptp.calvin_cycle_1 _let_69) (tptp.light_reaction_1 _let_68) (tptp.light_reaction_1 _let_67) (tptp.carbon_fixation_1 _let_66) (tptp.chemical_reaction_1 _let_66) (tptp.carbon_fixation_1 _let_65) (tptp.chemical_reaction_1 _let_65) (tptp.structural_complexity_value_1 _let_64) (tptp.structural_complexity_value_1 _let_63) (tptp.store_1 _let_62) (tptp.store_1 _let_61) (tptp.tissue_1 _let_60) (tptp.palisade_mesophyll_1 _let_59) (tptp.tissue_1 _let_58) (tptp.palisade_mesophyll_1 _let_58) (tptp.layer_1 _let_57) (tptp.layer_1 _let_56) (tptp.container_1 _let_55) (tptp.container_1 _let_54) (tptp.chloroplast_1 _let_53) (tptp.chloroplast_1 _let_52) (tptp.structural_complexity_value_1 _let_51) (tptp.structural_complexity_value_1 _let_49) (tptp.oxygen_molecule_1 _let_48) (tptp.oxygen_molecule_1 _let_47) (tptp.visible_light_1 _let_46) (tptp.energy_1 _let_46) (tptp.spatial_entity_1 _let_45) (tptp.energy_1 _let_45) (tptp.visible_light_1 _let_45) (tptp.photosynthesis_1 _let_43) (tptp.starch_storage_by_plant_1 _let_40) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.carbon_1 _let_38) (tptp.carbon_1 _let_37) (tptp.oxygen_1 _let_36) (tptp.oxygen_1 _let_35) (tptp.polar_covalent_bond_1 _let_34) (tptp.covalent_bond_1 _let_34) (tptp.double_bond_1 _let_34) (tptp.double_bond_1 _let_33) (tptp.tangible_entity_1 _let_30) (tptp.carbon_dioxide_1 _let_30) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.hydrophobic_compound_1 _let_29) (tptp.molecule_1 _let_29) (tptp.carbon_dioxide_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.carbon_dioxide_1 _let_28) (tptp.spatial_entity_1 _let_27) (tptp.tangible_entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.hydrophobic_compound_1 _let_27) (tptp.molecule_1 _let_27) (tptp.carbon_dioxide_1 _let_27) (tptp.spatial_entity_1 _let_26) (tptp.vesicle_1 _let_26) (tptp.central_vacuole_1 _let_26) (tptp.vesicle_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.vacuole_1 _let_25) (tptp.central_vacuole_1 _let_25) (tptp.vesicle_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.vacuole_1 _let_24) (tptp.central_vacuole_1 _let_24) (tptp.vesicle_1 _let_23) (tptp.spatial_entity_1 _let_23) (tptp.vacuole_1 _let_23) (tptp.central_vacuole_1 _let_23) (tptp.exchange_1 _let_22) (tptp.exchange_1 _let_21) (tptp.organelle_1 _let_19) (tptp.mitochondrion_1 _let_19) (tptp.semiautonomous_organelle_1 _let_19) (tptp.catabolic_pathway_1 _let_18) (tptp.metabolic_pathway_1 _let_18) (tptp.eukaryotic_cellular_respiration_1 _let_18) (tptp.metabolic_pathway_1 _let_16) (tptp.eukaryotic_cellular_respiration_1 _let_16) (tptp.catabolic_pathway_1 _let_15) (tptp.metabolic_pathway_1 _let_15) (tptp.eukaryotic_cellular_respiration_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.nucleus_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.nucleus_1 _let_13) (tptp.mixture_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.mixture_1 _let_11) (tptp.suspension_1 _let_11) (tptp.colloid_1 _let_11) (tptp.cytoplasm_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.mixture_1 _let_10) (tptp.suspension_1 _let_10) (tptp.colloid_1 _let_10) (tptp.cytoplasm_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.mixture_1 _let_9) (tptp.suspension_1 _let_9) (tptp.colloid_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.cell_1 _let_7) (tptp.mesophyll_cell_1 _let_5) (tptp.cell_1 _let_3) (tptp.plant_metabolic_cell_1 _let_3) (tptp.parenchyma_cell_1 _let_3) (tptp.eukaryotic_cell_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.plant_cell_1 _let_3) (tptp.mesophyll_cell_1 _let_3) (not (= _let_290 _let_289)) (tptp.is_at_2 _let_290 X) (not (= _let_289 _let_290)) (tptp.is_at_2 _let_289 X) (tptp.site_2 _let_174 X) (tptp.site_2 _let_186 X) (tptp.site_2 _let_185 X) (tptp.site_2 _let_176 X) (tptp.destination_2 _let_252 _let_283) (tptp.is_at_2 _let_211 _let_8) (tptp.experiencer_2 _let_287 X) (tptp.prevents_2 _let_288 _let_287) (tptp.the_categorical_value_2 _let_284 tptp.hollow_volume_0) (tptp.is_inside_2 X _let_177) (tptp.volume_2 X _let_286) (tptp.has_part_2 X _let_279) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_285) (tptp.shape_2 X _let_284) (tptp.has_function_2 _let_8 _let_186) (tptp.agent_2 _let_281 X) (tptp.base_2 _let_281 X) (tptp.result_2 _let_201 _let_277) (tptp.result_2 _let_219 _let_277) (tptp.is_outside_2 _let_283 _let_4) (tptp.has_function_2 _let_279 _let_281) (tptp.path_2 _let_281 _let_279) (tptp.size_2 _let_277 _let_242) (tptp.by_means_of_2 _let_153 _let_2) (tptp.structural_complexity_2 _let_277 _let_160) (tptp.has_function_2 X _let_2) (tptp.result_2 _let_2 _let_277) (tptp.possesses_2 _let_277 _let_247) (tptp.result_2 _let_272 _let_276) (tptp.possesses_2 _let_276 _let_258) (tptp.result_2 _let_6 _let_276) (tptp.has_part_2 X _let_8) (tptp.in_event_2 _let_275 _let_6) (tptp.plays_2 _let_32 _let_275) (tptp.result_2 _let_272 _let_267) (tptp.first_subevent_2 _let_6 _let_272) (tptp.result_2 _let_272 _let_32) (tptp.raw_material_2 _let_265 _let_271) (tptp.possesses_2 _let_271 _let_264) (tptp.subevent_2 _let_6 _let_265) (tptp.subevent_2 _let_6 _let_272) (tptp.raw_material_2 _let_272 _let_271) (tptp.has_state_2 _let_271 _let_270) (tptp.result_2 _let_265 _let_270) (not (= _let_265 _let_272)) (tptp.result_2 _let_272 _let_270) (tptp.has_state_2 _let_270 _let_271) (not (= _let_272 _let_265)) (tptp.has_reduced_form_2 _let_271 _let_270) (tptp.has_oxidized_form_2 _let_270 _let_271) (tptp.result_2 _let_6 _let_267) (tptp.result_2 _let_6 _let_270) (tptp.possesses_2 _let_270 _let_258) (not (= _let_271 _let_270)) (not (= _let_270 _let_271)) (tptp.result_2 _let_265 _let_32) (tptp.result_2 _let_265 _let_267) (tptp.possesses_2 _let_267 _let_258) (tptp.possesses_2 _let_269 _let_258) (tptp.result_2 _let_6 _let_269) (tptp.result_2 _let_6 _let_32) (tptp.possesses_2 _let_32 _let_258) (tptp.quantity_2 _let_258 _let_260) (tptp.greater_than_2 _let_262 _let_260) (tptp.quantity_2 _let_264 _let_262) (tptp.donor_2 _let_194 _let_221) (tptp.first_subevent_2 _let_199 _let_205) (tptp.subevent_2 _let_2 _let_186) (tptp.raw_material_2 _let_199 _let_140) (tptp.subevent_2 _let_2 _let_201) (tptp.called_2 _let_248 |tptp.'FE_p'|) (tptp.first_subevent_2 _let_2 _let_174) (tptp.first_subevent_2 _let_174 _let_176) (tptp.is_inside_2 _let_178 _let_250) (tptp.has_region_2 _let_4 _let_250) (tptp.base_2 _let_252 _let_4) (tptp.possesses_2 _let_159 _let_247) (tptp.quantity_2 _let_247 _let_248) (tptp.greater_than_2 _let_248 _let_207) (tptp.speed_2 _let_244 _let_214) (tptp.object_2 _let_244 _let_32) (tptp.agent_2 _let_246 _let_32) (tptp.object_2 _let_246 _let_32) (tptp.recipient_2 _let_224 _let_32) (tptp.agent_2 _let_239 _let_32) (tptp.object_2 _let_239 _let_32) (tptp.size_2 _let_32 _let_241) (tptp.greater_than_2 _let_242 _let_241) (tptp.has_atom_2 _let_32 _let_234) (tptp.electronegativity_2 _let_234 _let_236) (tptp.greater_than_2 _let_236 _let_228) (tptp.greater_than_or_equal_to_2 _let_236 _let_228) (tptp.subevent_2 _let_219 _let_194) (tptp.recipient_2 _let_194 _let_32) (tptp.has_region_2 _let_32 _let_232) (tptp.facilitates_2 _let_232 _let_222) (tptp.site_2 _let_222 _let_232) (tptp.has_function_2 _let_211 _let_231) (tptp.enables_2 _let_231 _let_2) (tptp.raw_material_2 _let_2 _let_32) (tptp.has_function_2 _let_32 _let_224) (tptp.object_2 _let_224 _let_196) (tptp.subevent_2 _let_219 _let_224) (tptp.donor_2 _let_224 _let_221) (tptp.has_atom_2 _let_221 _let_226) (tptp.electronegativity_2 _let_226 _let_228) (tptp.site_2 _let_201 _let_163) (tptp.has_function_2 _let_163 _let_201) (tptp.raw_material_2 _let_201 _let_32) (tptp.has_function_2 _let_32 _let_222) (tptp.agent_2 _let_222 _let_32) (tptp.raw_material_2 _let_219 _let_32) (tptp.raw_material_2 _let_219 _let_221) (not (= _let_221 _let_32)) (not (= _let_196 _let_221)) (not (= _let_221 _let_196)) (not (= _let_32 _let_221)) (tptp.enables_2 _let_200 _let_201) (tptp.first_subevent_2 _let_201 _let_199) (tptp.raw_material_2 _let_199 _let_217) (not (= _let_32 _let_217)) (not (= _let_217 _let_32)) (tptp.raw_material_2 _let_199 _let_32) (tptp.possesses_2 _let_32 _let_212) (tptp.quantity_2 _let_212 _let_213) (tptp.directly_proportional_2 _let_214 _let_213) (tptp.in_event_2 _let_209 _let_2) (tptp.plays_2 _let_211 _let_209) (tptp.has_function_2 _let_211 _let_2) (tptp.subevent_2 _let_2 _let_200) (tptp.raw_material_2 _let_200 _let_158) (tptp.subevent_2 _let_199 _let_205) (tptp.object_2 _let_205 _let_32) (tptp.possesses_2 _let_32 _let_206) (tptp.quantity_2 _let_206 _let_207) (tptp.called_2 _let_207 |tptp.'FE_r'|) (tptp.next_event_2 _let_185 _let_200) (tptp.next_event_2 _let_200 _let_201) (tptp.subevent_2 _let_201 _let_199) (tptp.subevent_2 _let_199 _let_203) (tptp.raw_material_2 _let_203 _let_32) (tptp.in_event_2 _let_192 _let_194) (tptp.object_2 _let_194 _let_196) (not (= _let_196 _let_32)) (tptp.plays_2 _let_32 _let_198) (tptp.in_event_2 _let_198 _let_199) (not (= _let_32 _let_196)) (tptp.next_event_2 _let_186 _let_183) (tptp.subevent_2 _let_2 _let_183) (tptp.subevent_2 _let_2 _let_185) (tptp.object_2 _let_185 _let_32) (tptp.plays_2 _let_32 _let_192) (tptp.greater_than_2 _let_160 _let_187) (tptp.structural_complexity_2 _let_32 _let_187) (tptp.plays_2 _let_32 _let_189) (tptp.in_event_2 _let_189 _let_2) (tptp.experiencer_2 _let_2 X) (tptp.next_event_2 _let_174 _let_186) (tptp.subevent_2 _let_2 _let_174) (tptp.site_2 _let_2 _let_161) (tptp.is_inside_2 _let_163 _let_161) (tptp.facilitates_2 _let_163 _let_2) (tptp.in_event_2 _let_172 _let_186) (tptp.site_2 _let_186 _let_137) (tptp.has_function_2 _let_137 _let_186) (tptp.base_2 _let_186 _let_8) (tptp.base_2 _let_2 _let_8) (tptp.has_part_2 _let_4 _let_178) (tptp.base_2 _let_183 _let_4) (tptp.next_event_2 _let_183 _let_185) (tptp.site_2 _let_185 _let_8) (tptp.base_2 _let_146 _let_8) (tptp.agent_2 _let_167 _let_171) (tptp.agent_2 _let_180 _let_171) (tptp.base_2 _let_180 _let_8) (tptp.is_at_2 _let_169 _let_8) (tptp.agent_2 _let_180 _let_169) (tptp.base_2 _let_174 _let_8) (tptp.subevent_2 _let_174 _let_176) (tptp.site_2 _let_176 _let_8) (tptp.is_inside_2 _let_8 _let_177) (tptp.has_region_2 _let_178 _let_177) (tptp.base_2 _let_167 _let_8) (tptp.agent_2 _let_167 _let_169) (not (= _let_169 _let_171)) (tptp.is_at_2 _let_171 _let_8) (tptp.plays_2 _let_8 _let_172) (not (= _let_171 _let_169)) (tptp.has_function_2 _let_161 _let_2) (tptp.has_part_2 _let_161 _let_163) (tptp.is_between_2 _let_163 _let_165) (tptp.is_inside_2 _let_165 _let_161) (tptp.has_part_2 _let_8 _let_161) (tptp.result_2 _let_2 _let_157) (not (= _let_157 _let_158)) (tptp.raw_material_2 _let_2 _let_158) (tptp.result_2 _let_2 _let_159) (tptp.structural_complexity_2 _let_159 _let_160) (not (= _let_158 _let_157)) (tptp.subevent_2 _let_146 _let_155) (tptp.has_part_2 X _let_142) (tptp.temperature_2 X _let_151) (tptp.height_2 X _let_145) (tptp.plays_2 X _let_152) (tptp.in_event_2 _let_152 _let_153) (tptp.agent_2 _let_153 X) (tptp.has_part_2 X _let_154) (tptp.site_2 _let_155 _let_154) (tptp.agent_2 _let_146 X) (tptp.has_part_2 X _let_149) (tptp.specific_heat_2 _let_149 _let_150) (tptp.correspondence_2 _let_151 _let_150) (tptp.has_function_2 X _let_146) (tptp.base_2 _let_146 X) (tptp.has_region_2 X _let_147) (tptp.is_inside_2 _let_148 _let_147) (tptp.has_part_2 X _let_148) (tptp.has_region_2 X _let_141) (tptp.is_inside_2 _let_142 _let_141) (tptp.has_part_2 _let_142 _let_143) (tptp.thickness_2 _let_143 _let_144) (tptp.directly_proportional_2 _let_144 _let_145) (tptp.has_part_2 _let_32 _let_140) (tptp.is_between_2 _let_138 _let_140) (tptp.possesses_2 _let_32 _let_138) (tptp.is_between_2 _let_138 _let_139) (tptp.has_part_2 _let_32 _let_139) (not (= _let_140 _let_139)) (not (= _let_139 _let_140)) (tptp.has_part_2 _let_8 _let_134) (tptp.has_part_2 _let_8 _let_123) (tptp.has_part_2 _let_8 _let_137) (tptp.has_part_2 _let_8 _let_127) (tptp.agent_2 _let_136 _let_8) (tptp.volume_2 _let_8 _let_132) (tptp.has_function_2 _let_8 _let_6) (tptp.the_scalar_value_2 _let_130 tptp.big_0) (tptp.scalar_unit_class_2 _let_130 tptp.prokaryote_0) (tptp.base_2 _let_136 _let_8) (tptp.base_2 _let_6 _let_8) (tptp.has_function_2 _let_134 _let_6) (tptp.size_2 _let_8 _let_130) (tptp.directly_proportional_2 _let_130 _let_132) (tptp.has_part_2 _let_8 _let_128) (tptp.is_between_2 _let_123 _let_128) (tptp.is_between_2 _let_123 _let_122) (tptp.has_part_2 _let_8 _let_122) (tptp.is_inside_2 _let_123 _let_122) (tptp.object_2 _let_125 _let_123) (tptp.agent_2 _let_125 _let_127) (tptp.has_function_2 _let_127 _let_125) (= _let_283 _let_282) (= _let_281 _let_280) (= _let_242 _let_92) (= _let_153 _let_42) (= _let_160 _let_50) (= _let_278 (tptp.fn_plant_46 X)) (= _let_277 _let_120) (= _let_277 _let_119) (= _let_277 _let_118) (= _let_272 _let_115) (= _let_276 (tptp.fn_plant_4 X)) (= _let_275 _let_117) (= _let_275 _let_116) (= (tptp.fn_cam_plant_133 X) _let_274) (= (tptp.fn_cam_plant_134 X) _let_273) (= _let_265 _let_106) (= _let_272 _let_114) (= _let_270 _let_109) (= _let_271 _let_113) (= _let_271 _let_112) (= _let_271 _let_111) (= _let_270 _let_110) (= _let_270 _let_108) (= _let_270 _let_107) (= _let_269 _let_268) (= _let_267 _let_266) (= _let_265 _let_105) (= _let_264 _let_263) (= _let_262 _let_261) (= _let_260 _let_259) (= _let_258 _let_104) (= _let_32 _let_30) (= _let_258 _let_103) (= _let_258 _let_102) (= _let_32 _let_28) (= (tptp.fn_cam_plant_63 X) _let_257) (= (tptp.fn_cam_plant_61 X) _let_256) (= (tptp.fn_cam_plant_64 X) _let_255) (= (tptp.fn_cam_plant_73 X) _let_254) (= _let_140 _let_38) (= (tptp.fn_cam_plant_16 X) _let_253) (= _let_252 _let_251) (= _let_250 _let_101) (= _let_250 _let_100) (= (tptp.fn_cam_plant_72 X) _let_249) (= _let_248 _let_98) (= _let_247 _let_96) (= _let_248 _let_99) (= _let_248 _let_97) (= _let_247 _let_95) (= _let_246 _let_245) (= _let_244 _let_94) (= _let_244 _let_93) (= (tptp.fn_cam_plant_62 X) _let_243) (= _let_242 _let_91) (= _let_241 _let_240) (= _let_239 _let_238) (= (tptp.fn_cam_plant_18 X) _let_237) (= _let_236 _let_235) (= _let_234 _let_233) (= _let_232 _let_90) (= _let_232 _let_89) (= _let_231 _let_230) (= (tptp.fn_cam_plant_19 X) _let_229) (= _let_228 _let_227) (= _let_226 _let_225) (= _let_224 _let_223) (= _let_222 _let_88) (= _let_222 _let_87) (= _let_221 _let_220) (= _let_219 _let_218) (= _let_217 _let_216) (= _let_215 _let_86) (= _let_215 _let_85) (= _let_214 _let_84) (= _let_214 _let_83) (= _let_213 _let_82) (= _let_213 _let_81) (= _let_213 _let_80) (= _let_212 _let_79) (= _let_212 _let_78) (= _let_212 _let_77) (= _let_211 _let_210) (= _let_209 _let_208) (= _let_207 _let_76) (= _let_207 _let_75) (= _let_207 _let_74) (= _let_32 _let_31) (= _let_206 _let_73) (= _let_206 _let_72) (= _let_206 _let_71) (= _let_205 _let_204) (= _let_203 _let_202) (= _let_199 _let_66) (= _let_200 _let_68) (= _let_201 _let_70) (= _let_201 _let_69) (= _let_200 _let_67) (= _let_199 _let_65) (= _let_198 _let_197) (= _let_196 _let_195) (= _let_194 _let_193) (= _let_192 _let_191) (= _let_2 _let_44) (= X _let_190) (= _let_189 _let_188) (= _let_32 _let_27) (= _let_160 _let_51) (= _let_187 _let_64) (= _let_187 _let_63) (= _let_137 _let_24) (= _let_172 _let_55) (= _let_186 _let_62) (= _let_186 _let_61) (= _let_146 _let_40) (= _let_185 _let_184) (= _let_183 _let_182) (= _let_178 _let_60) (= _let_4 _let_181) (= _let_180 _let_179) (= _let_178 _let_59) (= _let_178 _let_58) (= _let_8 _let_5) (= _let_177 _let_57) (= _let_177 _let_56) (= _let_176 _let_175) (= _let_174 _let_173) (= _let_172 _let_54) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_161 _let_53) (= _let_8 _let_3) (= _let_165 _let_164) (= _let_163 _let_162) (= _let_161 _let_52) (= _let_160 _let_49) (= _let_2 _let_43) (= _let_159 _let_48) (= _let_159 _let_47) (= _let_158 _let_46) (= _let_158 _let_45) (= _let_157 _let_156) (= (tptp.fn_cam_plant_75 X) (tptp.fn_vascular_plant_21 X)) (= (tptp.fn_cam_plant_10 X) (tptp.fn_vascular_plant_1 X)) (= (tptp.fn_cam_plant_11 X) (tptp.fn_vascular_plant_7 X)) (= _let_155 (tptp.fn_vascular_plant_23 X)) (= _let_154 (tptp.fn_vascular_plant_25 X)) (= _let_153 _let_41) (= _let_152 (tptp.fn_vascular_plant_19 X)) (= (tptp.fn_cam_plant_74 X) (tptp.fn_vascular_plant_22 X)) (= _let_151 (tptp.fn_vascular_plant_13 X)) (= _let_150 (tptp.fn_vascular_plant_14 X)) (= _let_149 (tptp.fn_vascular_plant_12 X)) (= _let_148 (tptp.fn_vascular_plant_9 X)) (= _let_147 (tptp.fn_vascular_plant_16 X)) (= _let_146 _let_39) (= _let_145 (tptp.fn_vascular_plant_8 X)) (= _let_144 (tptp.fn_vascular_plant_2 X)) (= _let_143 (tptp.fn_vascular_plant_11 X)) (= _let_142 (tptp.fn_vascular_plant_26 X)) (= _let_141 (tptp.fn_vascular_plant_15 X)) (= _let_139 _let_36) (= _let_140 _let_37) (= _let_139 _let_35) (= _let_32 _let_29) (= _let_138 _let_34) (= _let_138 _let_33) (= _let_8 _let_1) (= _let_123 _let_12) (= _let_123 _let_11) (= _let_123 _let_10) (= _let_137 _let_26) (= _let_137 _let_25) (= _let_137 _let_23) (= _let_136 _let_22) (= _let_136 _let_21) (= (tptp.fn_cam_plant_21 X) _let_135) (= _let_134 _let_20) (= _let_6 _let_17) (= _let_134 _let_19) (= _let_8 _let_7) (= _let_6 _let_18) (= _let_6 _let_16) (= _let_6 _let_15) (= (tptp.fn_cam_plant_20 X) _let_133) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_14) (= _let_128 _let_13) (= _let_127 _let_126) (= _let_125 _let_124) (= _let_123 _let_9) (= _let_122 _let_121) (= _let_119 _let_120) (= _let_120 _let_120) (= _let_120 _let_119) (= _let_118 _let_118) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_116) (= _let_116 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_112) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_112 _let_112) (= _let_111 _let_111) (= _let_111 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_110) (= _let_110 _let_108) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_107 _let_107) (= _let_107 _let_108) (= _let_108 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_102 _let_102) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_100 _let_101) (= _let_101 _let_100) (= _let_100 _let_98) (= _let_99 _let_98) (= _let_98 _let_99) (= _let_99 _let_97) (= _let_97 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_95) (= _let_95 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_81) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_75 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_74 _let_74) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_30) (= _let_30 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_5) (= _let_5 _let_7) (= _let_7 _let_1) (= _let_1 _let_5) (= _let_5 _let_1) (= _let_1 _let_1) (= _let_1 _let_3) (= _let_3 _let_3) (= _let_3 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cambium_1 X) (and (tptp.original_name_2 X |tptp.'Cambium'|) (tptp.user_description_2 X |tptp.'Plant tissue layer which provides undifferentiated cells for growth.'|) (tptp.concept2words_2 X tptp.cambium) (tptp.meristem_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_receptor_protein_3 X))) (let ((_let_3 (tptp.fn_receptor_protein_5 X))) (let ((_let_4 (tptp.fn_polymer_4 X))) (let ((_let_5 (tptp.fn_camp_receptor_protein_12 X))) (let ((_let_6 (tptp.fn_camp_receptor_protein_11 X))) (let ((_let_7 (tptp.fn_camp_receptor_protein_10 X))) (let ((_let_8 (tptp.fn_camp_receptor_protein_6 X))) (let ((_let_9 (tptp.fn_camp_receptor_protein_13 X))) (let ((_let_10 (tptp.fn_camp_receptor_protein_8 X))) (let ((_let_11 (tptp.fn_camp_receptor_protein_9 X))) (let ((_let_12 (tptp.fn_camp_receptor_protein_7 X))) (let ((_let_13 (tptp.fn_camp_receptor_protein_3 X))) (let ((_let_14 (tptp.fn_attach_1 _let_13))) (let ((_let_15 (tptp.fn_camp_receptor_protein_5 X))) (let ((_let_16 (tptp.fn_lac_operon_10 _let_15))) (let ((_let_17 (tptp.fn_camp_receptor_protein_4 X))) (let ((_let_18 (tptp.fn_attach_2 _let_13))) (let ((_let_19 (tptp.fn_camp_receptor_protein_1 X))) (let ((_let_20 (tptp.fn_camp_receptor_protein_2 X))) (=> (tptp.camp_receptor_protein_1 X) (and (tptp.original_name_2 X |tptp.'CAMP-Receptor-Protein'|) (tptp.user_description_2 X |tptp.'cAMP receptor protein is is a regulatory protein that binds cAMP, which causes a conformational change that allows the protein to bind tightly to a specific DNA sequence in the promoters of the genes it controls.'|) (tptp.concept2words_2 X tptp.crp) (tptp.concept2words_2 X |tptp.'camp receptor protein'|) (tptp.concept2words_2 X |tptp.'camp-receptor-protein'|) (tptp.receptor_protein_1 X) (tptp.regulatory_protein_1 X) (not (tptp.cyclin_1 X)) (not (tptp.cytokine_1 X)) (not (tptp.interferon_1 X)) (not (tptp.mpf_1 X)) (not (tptp.transcription_factor_1 X)) (not (tptp.tropomyosin_1 X)) (not (tptp.ubiquitin_1 X)) (tptp.transcription_elongation_1 _let_19) (tptp.conformational_change_1 _let_20) (tptp.attach_1 _let_13) (tptp.gene_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.lac_operon_1 _let_15) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.monomer_1 _let_8) (tptp.molecule_1 _let_8) (tptp.amino_acid_1 _let_8) (tptp.size_value_1 _let_12) (tptp.size_value_1 _let_10) (tptp.monomer_1 _let_11) (tptp.polypeptide_1 _let_7) (tptp.surface_1 _let_6) (tptp.hydrophilic_region_1 _let_5) (tptp.protein_domain_1 _let_9) (tptp.spatial_entity_1 _let_18) (tptp.gene_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.enables_2 _let_20 _let_13) (tptp.instrument_2 _let_19 _let_17) (tptp.base_2 _let_13 _let_15) (tptp.element_2 _let_15 _let_17) (tptp.object_2 _let_13 X) (tptp.has_part_2 X _let_11) (tptp.size_2 _let_11 _let_12) (tptp.greater_than_2 _let_10 _let_12) (tptp.is_at_2 _let_8 _let_9) (tptp.has_region_2 X _let_9) (tptp.size_2 X _let_10) (tptp.the_scalar_value_2 _let_10 tptp.big_0) (tptp.scalar_unit_class_2 _let_10 tptp.polypeptide_0) (tptp.has_region_2 X _let_5) (tptp.is_at_2 _let_5 _let_6) (tptp.has_region_2 X _let_6) (tptp.has_part_2 X _let_7) (tptp.has_part_2 _let_7 _let_8) (= _let_15 _let_18) (= _let_17 _let_16) (= X _let_14) (= _let_10 _let_2) (= _let_12 (tptp.fn_receptor_protein_4 X)) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 _let_1) (= _let_9 (tptp.fn_protein_7 X)) (= _let_8 (tptp.fn_protein_14 X)) (= _let_7 (tptp.fn_protein_8 X)) (= _let_6 (tptp.fn_protein_5 X)) (= _let_5 (tptp.fn_protein_1 X)) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_camp_receptor_protein_with_cyclic_amp_14 X))) (let ((_let_2 (tptp.fn_conformational_change_4 _let_1))) (let ((_let_3 (tptp.fn_camp_receptor_protein_with_cyclic_amp_16 X))) (let ((_let_4 (tptp.fn_cyclic_amp_93 _let_3))) (let ((_let_5 (tptp.fn_camp_receptor_protein_with_cyclic_amp_24 X))) (let ((_let_6 (tptp.fn_attach_1 _let_5))) (let ((_let_7 (tptp.fn_camp_receptor_protein_with_cyclic_amp_15 X))) (let ((_let_8 (tptp.fn_camp_receptor_protein_2 _let_7))) (let ((_let_9 (tptp.fn_cyclic_amp_94 _let_3))) (let ((_let_10 (tptp.fn_attach_2 _let_5))) (let ((_let_11 (tptp.fn_camp_receptor_protein_with_cyclic_amp_19 X))) (let ((_let_12 (tptp.fn_operon_5 _let_11))) (let ((_let_13 (tptp.fn_camp_receptor_protein_with_cyclic_amp_22 X))) (let ((_let_14 (tptp.fn_attach_2 _let_13))) (let ((_let_15 (tptp.fn_cyclic_amp_92 _let_3))) (let ((_let_16 (tptp.fn_positive_gene_regulation_3 X))) (let ((_let_17 (tptp.fn_camp_receptor_protein_3 _let_7))) (let ((_let_18 (tptp.fn_camp_receptor_protein_with_cyclic_amp_18 X))) (let ((_let_19 (tptp.fn_camp_receptor_protein_with_cyclic_amp_12 X))) (let ((_let_20 (tptp.fn_camp_receptor_protein_with_cyclic_amp_13 X))) (let ((_let_21 (tptp.fn_camp_receptor_protein_with_cyclic_amp_11 X))) (let ((_let_22 (tptp.fn_camp_receptor_protein_with_cyclic_amp_17 X))) (let ((_let_23 (tptp.fn_attach_1 _let_13))) (let ((_let_24 (tptp.fn_camp_receptor_protein_with_cyclic_amp_23 X))) (let ((_let_25 (tptp.fn_camp_receptor_protein_with_cyclic_amp_20 X))) (let ((_let_26 (tptp.fn_fold_1 _let_25))) (let ((_let_27 (tptp.fn_camp_receptor_protein_with_cyclic_amp_21 X))) (let ((_let_28 (tptp.fn_camp_receptor_protein_with_cyclic_amp_1 X))) (let ((_let_29 (tptp.fn_camp_receptor_protein_with_cyclic_amp_6 X))) (let ((_let_30 (tptp.fn_camp_receptor_protein_with_cyclic_amp_4 X))) (let ((_let_31 (tptp.fn_camp_receptor_protein_with_cyclic_amp_2 X))) (let ((_let_32 (tptp.fn_camp_receptor_protein_with_cyclic_amp_9 X))) (let ((_let_33 (tptp.fn_camp_receptor_protein_with_cyclic_amp_3 X))) (let ((_let_34 (tptp.fn_camp_receptor_protein_with_cyclic_amp_8 X))) (=> (tptp.camp_receptor_protein_with_cyclic_amp_1 X) (and (tptp.original_name_2 X |tptp.'CAMP-Receptor-Protein-With-Cyclic-AMP'|) (tptp.user_description_2 X |tptp.'The event during whiich cAMP is bound. When cAMP binds to the alloseric site on cAMP receptor protein, the protein assumes its active shape and can bind to a specific site at the upstream end of the lac promoter.'|) (tptp.concept2words_2 X |tptp.'camp receptor protein with cyclic amp'|) (tptp.concept2words_2 X |tptp.'camp-receptor-protein-with-cyclic-amp'|) (tptp.positive_gene_regulation_1 X) (tptp.transcription_1 _let_28) (tptp.glucose_1 _let_31) (tptp.cell_1 _let_33) (tptp.quantity_value_1 _let_30) (tptp.quantity_value_1 _let_29) (tptp.quantity_value_1 _let_34) (tptp.lactose_1 _let_32) (tptp.gene_1 _let_21) (tptp.chemical_entity_1 _let_19) (tptp.protein_1 _let_19) (tptp.transcription_factor_1 _let_19) (tptp.gene_expression_1 _let_20) (tptp.conformational_change_1 _let_1) (tptp.spatial_entity_1 _let_7) (tptp.camp_receptor_protein_1 _let_7) (tptp.cyclic_amp_1 _let_3) (tptp.attach_1 _let_22) (tptp.promoter_1 _let_18) (tptp.spatial_entity_1 _let_18) (tptp.lac_operon_1 _let_11) (tptp.fold_1 _let_25) (tptp.dna_1 _let_27) (tptp.attach_1 _let_13) (tptp.enhancer_1 _let_24) (tptp.attach_1 _let_5) (tptp.entity_1 _let_26) (tptp.spatial_entity_1 _let_23) (tptp.attach_1 _let_17) (tptp.attach_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.promoter_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.conformational_change_1 _let_9) (tptp.conformational_change_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.camp_receptor_protein_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.quantity_2 _let_32 _let_34) (tptp.the_scalar_value_2 _let_34 tptp.many_0) (tptp.scalar_unit_class_2 _let_34 tptp.lactose_0) (tptp.the_scalar_value_2 _let_29 tptp.many_0) (tptp.scalar_unit_class_2 _let_29 tptp.cyclic_amp_0) (tptp.the_scalar_value_2 _let_30 tptp.few_0) (tptp.scalar_unit_class_2 _let_30 tptp.glucose_0) (tptp.has_part_2 _let_33 _let_3) (tptp.has_part_2 _let_33 _let_31) (tptp.has_part_2 _let_33 _let_32) (tptp.quantity_2 _let_31 _let_30) (tptp.enables_2 _let_13 _let_28) (tptp.enables_2 _let_25 _let_13) (tptp.has_part_2 _let_18 _let_27) (tptp.site_2 _let_22 _let_11) (tptp.quantity_2 _let_3 _let_29) (tptp.object_2 X _let_7) (tptp.object_2 X _let_3) (tptp.object_2 X _let_11) (tptp.enables_2 X _let_28) (tptp.first_subevent_2 X _let_22) (tptp.object_2 _let_25 _let_27) (tptp.object_2 _let_13 _let_24) (tptp.base_2 _let_13 _let_18) (tptp.subevent_2 X _let_22) (tptp.first_element_2 _let_11 _let_18) (tptp.element_2 _let_11 _let_18) (tptp.object_2 _let_22 _let_7) (tptp.base_2 _let_22 _let_3) (tptp.enables_2 _let_22 _let_1) (tptp.enables_2 _let_1 _let_5) (tptp.object_2 _let_5 _let_7) (tptp.base_2 _let_5 _let_18) (tptp.object_2 _let_1 _let_7) (= _let_27 _let_26) (= _let_24 _let_23) (= _let_18 _let_14) (= _let_22 _let_16) (= _let_18 _let_12) (= _let_7 _let_4) (= _let_1 _let_9) (= _let_22 _let_15) (= _let_21 (tptp.fn_gene_regulation_1 X)) (= _let_20 (tptp.fn_gene_regulation_2 X)) (= _let_19 (tptp.fn_gene_regulation_3 X)) (= _let_7 _let_2) (= _let_18 _let_10) (= _let_1 _let_8) (= _let_7 _let_6) (= _let_5 _let_17) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_4) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.canal_1 X) (and (tptp.original_name_2 X |tptp.'Canal'|) (tptp.user_description_2 X |tptp.'Tubular passage or channel that connects different regions of the body.'|) (tptp.concept2words_2 X tptp.canal) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.canavanine_1 X) (and (tptp.original_name_2 X |tptp.'Canavanine'|) (tptp.user_description_2 X |tptp.'An amino acid resembling arginine, used by plants as a defense chemical'|) (tptp.concept2words_2 X tptp.canavanine) (tptp.basic_amino_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cancer_1 X))) (let ((_let_2 (tptp.fn_cancer_6 X))) (let ((_let_3 (tptp.fn_cancer_5 X))) (let ((_let_4 (tptp.fn_cancer_4 X))) (let ((_let_5 (tptp.fn_cancer_3 X))) (let ((_let_6 (tptp.fn_cancer_2 X))) (=> (tptp.cancer_1 X) (and (tptp.original_name_2 X |tptp.'Cancer'|) (tptp.user_description_2 X |tptp.'A disease condition involving the uncontrolled growth of abnormal cells in the body.'|) (tptp.concept2words_2 X |tptp.'uncontrolled cell growth'|) (tptp.concept2words_2 X |tptp.'uninhibited cell growth'|) (tptp.concept2words_2 X |tptp.'unregulated cell growth'|) (tptp.concept2words_2 X |tptp.'unrestricted cell division'|) (tptp.concept2words_2 X tptp.cancer) (tptp.disease_1 X) (tptp.cancer_cell_1 _let_1) (tptp.gene_amplification_1 _let_6) (tptp.rate_value_1 _let_5) (tptp.replication_1 _let_4) (tptp.make_error_1 _let_3) (tptp.cell_cycle_1 _let_2) (tptp.result_2 _let_6 X) (tptp.result_2 _let_6 _let_1) (tptp.the_scalar_value_2 _let_5 tptp.fast_0) (tptp.scalar_unit_class_2 _let_5 tptp.replication_0) (tptp.object_2 _let_4 _let_1) (tptp.rate_2 _let_4 _let_5) (tptp.by_means_of_2 _let_4 _let_2) (tptp.agent_2 _let_3 _let_1) (tptp.causes_2 _let_3 _let_2) (tptp.result_2 _let_2 X) (tptp.base_2 _let_2 _let_1)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cancer_cell_24 X))) (let ((_let_2 (tptp.fn_dna_strand_14 _let_1))) (let ((_let_3 (tptp.fn_cancer_cell_17 X))) (let ((_let_4 (tptp.fn_impair_1 _let_3))) (let ((_let_5 (tptp.fn_cancer_cell_18 X))) (let ((_let_6 (tptp.fn_cancer_cell_6 X))) (let ((_let_7 (tptp.fn_cancer_cell_12 X))) (let ((_let_8 (tptp.fn_cancer_cell_21 X))) (let ((_let_9 (tptp.fn_cancer_cell_23 X))) (let ((_let_10 (tptp.fn_cancer_cell_22 X))) (let ((_let_11 (tptp.fn_cancer_cell_10 X))) (let ((_let_12 (tptp.fn_cancer_cell_7 X))) (let ((_let_13 (tptp.fn_cancer_cell_1 X))) (let ((_let_14 (tptp.fn_cancer_cell_11 X))) (let ((_let_15 (tptp.fn_cancer_cell_4 X))) (let ((_let_16 (tptp.fn_cancer_cell_5 X))) (let ((_let_17 (tptp.fn_cancer_cell_19 X))) (let ((_let_18 (tptp.fn_cancer_cell_20 X))) (let ((_let_19 (tptp.fn_cancer_cell_9 X))) (let ((_let_20 (tptp.fn_cancer_cell_8 X))) (let ((_let_21 (tptp.fn_cancer_cell_26 X))) (let ((_let_22 (tptp.fn_chromosome_4 _let_21))) (let ((_let_23 (tptp.fn_cancer_cell_25 X))) (let ((_let_24 (tptp.fn_chromosome_5 _let_21))) (let ((_let_25 (tptp.fn_cancer_cell_27 X))) (let ((_let_26 (tptp.fn_animal_cell_52 _let_25))) (let ((_let_27 (tptp.fn_cancer_cell_15 X))) (let ((_let_28 (tptp.fn_oncogene_18 _let_27))) (let ((_let_29 (tptp.fn_cancer_cell_13 X))) (let ((_let_30 (tptp.fn_oncogene_8 _let_27))) (let ((_let_31 (tptp.fn_cancer_cell_14 X))) (let ((_let_32 (tptp.fn_cancer_cell_16 X))) (=> (tptp.cancer_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cancer-Cell'|) (tptp.user_description_2 X |tptp.'Abnormal cells that rapidly grow and divide without control and are able to invade other tissues and spread throughout the body.'|) (tptp.concept2words_2 X |tptp.'cell of cancer'|) (tptp.concept2words_2 X |tptp.'cancer cell'|) (tptp.concept2words_2 X |tptp.'cancer-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.cell_state_1 X) (tptp.cellular_work_1 _let_13) (tptp.ribosome_1 _let_15) (tptp.eukaryotic_ribosome_1 _let_15) (tptp.golgi_apparatus_1 _let_16) (tptp.tangible_entity_1 _let_6) (tptp.nucleus_1 _let_6) (tptp.surface_1 _let_12) (tptp.size_value_1 _let_20) (tptp.volume_value_1 _let_19) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.substance_1 _let_14) (tptp.cytosol_1 _let_14) (tptp.smooth_endoplasmic_reticulum_1 _let_7) (tptp.gene_amplification_1 _let_29) (tptp.translocation_during_translation_1 _let_31) (tptp.oncogene_1 _let_27) (tptp.tumor_suppressor_gene_1 _let_32) (tptp.damage_1 _let_3) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.chromosome_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_17) (tptp.semiautonomous_organelle_1 _let_18) (tptp.mitochondrion_1 _let_18) (tptp.organelle_1 _let_18) (tptp.rough_endoplasmic_reticulum_1 _let_8) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.dna_strand_1 _let_1) (tptp.entity_1 _let_23) (tptp.dna_1 _let_23) (tptp.eukaryotic_chromosome_1 _let_21) (tptp.chromosome_1 _let_21) (tptp.somatic_cell_1 _let_25) (tptp.translocation_during_translation_1 _let_30) (tptp.gene_amplification_1 _let_28) (tptp.eukaryotic_chromosome_1 _let_26) (tptp.chromosome_1 _let_26) (tptp.dna_strand_1 _let_24) (tptp.entity_1 _let_22) (tptp.dna_1 _let_22) (tptp.tangible_entity_1 _let_4) (tptp.gene_1 _let_2) (tptp.has_state_2 _let_25 X) (tptp.result_2 _let_3 X) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.oncogene_0) (tptp.result_2 _let_31 X) (tptp.result_2 _let_29 X) (tptp.object_2 _let_3 _let_32) (tptp.has_part_2 _let_1 _let_32) (tptp.result_2 _let_31 _let_27) (tptp.result_2 _let_29 _let_27) (tptp.has_part_2 _let_25 _let_21) (tptp.has_part_2 _let_21 _let_23) (tptp.has_part_2 _let_23 _let_1) (tptp.has_part_2 X _let_5) (= _let_32 _let_4) (= _let_32 _let_2) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_21 _let_26) (= _let_1 _let_24) (= _let_23 _let_22) (= (tptp.fn_cancer_cell_3 X) (tptp.fn_eukaryotic_cell_28 X)) (= (tptp.fn_cancer_cell_2 X) (tptp.fn_eukaryotic_cell_60 X)) (= _let_20 (tptp.fn_eukaryotic_cell_27 X)) (= _let_19 (tptp.fn_eukaryotic_cell_59 X)) (= _let_18 (tptp.fn_eukaryotic_cell_25 X)) (= _let_17 (tptp.fn_eukaryotic_cell_23 X)) (= _let_16 (tptp.fn_eukaryotic_cell_24 X)) (= _let_15 (tptp.fn_eukaryotic_cell_45 X)) (= _let_14 (tptp.fn_eukaryotic_cell_42 X)) (= _let_13 (tptp.fn_eukaryotic_cell_32 X)) (= _let_12 (tptp.fn_eukaryotic_cell_44 X)) (= _let_11 (tptp.fn_eukaryotic_cell_41 X)) (= _let_10 (tptp.fn_eukaryotic_cell_29 X)) (= _let_9 (tptp.fn_eukaryotic_cell_31 X)) (= _let_8 (tptp.fn_eukaryotic_cell_19 X)) (= _let_7 (tptp.fn_eukaryotic_cell_20 X)) (= _let_6 (tptp.fn_eukaryotic_cell_26 X)) (= _let_5 (tptp.fn_eukaryotic_cell_30 X)) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cancer_cell_gene_amplification_3 X))) (let ((_let_2 (tptp.fn_chemotherapeutic_drug_3 _let_1))) (let ((_let_3 (tptp.fn_gene_amplification_4 X))) (let ((_let_4 (tptp.fn_chemotherapeutic_drug_4 _let_1))) (let ((_let_5 (tptp.fn_cancer_cell_gene_amplification_2 X))) (let ((_let_6 (tptp.fn_cancer_cell_gene_amplification_4 X))) (let ((_let_7 (tptp.fn_cancer_cell_gene_amplification_1 X))) (let ((_let_8 (tptp.concept2words_2 X |tptp.'cancer gene amplification'|))) (=> (tptp.cancer_cell_gene_amplification_1 X) (and (tptp.original_name_2 X |tptp.'Cancer-Cell-Gene-Amplification'|) (tptp.user_description_2 X |tptp.'A genetic change increasing the number of copies of the proto-oncogene in the cell through repeated gene duplication.'|) (tptp.concept2words_2 X |tptp.'protogene amplification'|) _let_8 _let_8 (tptp.concept2words_2 X |tptp.'cancer cell gene amplification'|) (tptp.concept2words_2 X |tptp.'cancer-cell-gene-amplification'|) (tptp.gene_amplification_1 X) (not (tptp.rrna_gene_amplification_1 X)) (tptp.replication_1 _let_7) (tptp.add_1 _let_5) (tptp.chemotherapeutic_drug_1 _let_1) (tptp.cell_1 _let_6) (tptp.cancer_cell_1 _let_6) (tptp.add_1 _let_4) (tptp.cancer_cell_1 _let_2) (tptp.causes_2 _let_5 X) (tptp.by_means_of_2 X _let_7) (tptp.agent_2 _let_7 _let_6) (tptp.object_2 _let_5 _let_1) (tptp.base_2 _let_5 _let_6) (= _let_6 _let_3) (= _let_7 (tptp.fn_gene_amplification_2 X)) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_canine_tooth_5 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (let ((_let_3 (tptp.fn_canine_tooth_3 X))) (let ((_let_4 (tptp.fn_food_3 _let_3))) (let ((_let_5 (tptp.fn_canine_tooth_4 X))) (let ((_let_6 (tptp.fn_canine_tooth_1 X))) (=> (tptp.canine_tooth_1 X) (and (tptp.original_name_2 X |tptp.'Canine-Tooth'|) (tptp.user_description_2 X |tptp.'Relatively long, pointed tooth, located near the front of the mouth, specialized for holding, piercing and tearing food.'|) (tptp.concept2words_2 X |tptp.'tooth of canine'|) (tptp.concept2words_2 X |tptp.'canine tooth'|) (tptp.concept2words_2 X |tptp.'canine-tooth'|) (tptp.tooth_1 X) (tptp.shape_value_1 _let_6) (tptp.food_1 _let_3) (tptp.tangible_entity_1 _let_5) (tptp.shear_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.shape_2 X _let_6) (tptp.has_function_2 X _let_1) (tptp.the_categorical_value_2 _let_6 tptp.tapered_0) (tptp.plays_2 _let_5 _let_3) (tptp.object_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.canopy_1 X) (and (tptp.original_name_2 X |tptp.'Canopy'|) (tptp.user_description_2 X |tptp.'The topmost layers of vegetation in a biome.'|) (tptp.concept2words_2 X tptp.canopy) (tptp.ecosystem_1 X)))) (forall ((X $$unsorted)) (=> (tptp.capacity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Capacity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of capacity'|) (tptp.concept2words_2 X |tptp.'capacity constant'|) (tptp.concept2words_2 X |tptp.'capacity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.capacity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Capacity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of capacity'|) (tptp.concept2words_2 X |tptp.'capacity scale'|) (tptp.concept2words_2 X |tptp.'capacity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.capacity_value_1 X) (and (tptp.original_name_2 X |tptp.'Capacity-Value'|) (tptp.description_2 X |tptp.'the capacity (potential for storing or accomodating) of a Tangible-Entity'|) (tptp.concept2words_2 X tptp.capacity) (tptp.concept2words_2 X |tptp.'value of capacity'|) (tptp.concept2words_2 X |tptp.'capacity value'|) (tptp.concept2words_2 X |tptp.'capacity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_capillary_5 X))) (let ((_let_2 (tptp.fn_locomotion_1 _let_1))) (let ((_let_3 (tptp.fn_capillary_3 X))) (let ((_let_4 (tptp.fn_carry_1 _let_3))) (let ((_let_5 (tptp.fn_capillary_4 X))) (let ((_let_6 (tptp.fn_hold_1 _let_5))) (let ((_let_7 (tptp.fn_hold_2 _let_5))) (let ((_let_8 (tptp.fn_move_1 _let_3))) (let ((_let_9 (tptp.fn_capillary_6 X))) (let ((_let_10 (tptp.fn_capillary_1 X))) (=> (tptp.capillary_1 X) (and (tptp.original_name_2 X |tptp.'Capillary'|) (tptp.user_description_2 X |tptp.'The smallest blood vessel in the body, consisting of a single layer of epithelial cells. Capillaries enable the exchange of respiratory gases between body tissues and the blood stream.'|) (tptp.concept2words_2 X tptp.capillary) (tptp.substance_1 X) (tptp.blood_vessel_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.epithelium_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X)) (tptp.size_value_1 _let_10) (tptp.carry_1 _let_3) (tptp.hold_1 _let_5) (tptp.locomotion_1 _let_1) (tptp.blood_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.the_scalar_value_2 _let_10 tptp.microscopic_0) (tptp.scalar_unit_class_2 _let_10 tptp.blood_vessel_0) (tptp.size_2 X _let_10) (tptp.has_function_2 X _let_3) (tptp.first_subevent_2 _let_3 _let_5) (tptp.first_subevent_2 _let_3 _let_1) (tptp.subevent_2 _let_3 _let_5) (tptp.subevent_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_9) (tptp.object_2 _let_5 _let_9) (tptp.agent_2 _let_5 X) (tptp.agent_2 _let_3 X) (tptp.object_2 _let_1 X) (tptp.agent_2 _let_1 X) (= _let_9 _let_8) (= _let_9 _let_7) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.capillary_action_1 X) (and (tptp.original_name_2 X |tptp.'Capillary-Action'|) (tptp.user_description_2 X |tptp.'The movement of a liquid along the surface of a solid caused by the attraction of molecules of the liquid to the molecules of the solid.'|) (tptp.concept2words_2 X |tptp.'action of capillary'|) (tptp.concept2words_2 X |tptp.'capillary action'|) (tptp.concept2words_2 X |tptp.'capillary-action'|) (tptp.move_into_1 X) (not (tptp.take_in_1 X)) (not (tptp.load_1 X)) (not (tptp.enter_1 X)) (not (tptp.implant_1 X)) (not (tptp.package_recombinants_in_capsid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.capillary_bed_1 X) (and (tptp.original_name_2 X |tptp.'Capillary-Bed'|) (tptp.user_description_2 X |tptp.'A reticulated system of capillaries surrounding a tissue or organ.'|) (tptp.concept2words_2 X |tptp.'bed of capillary'|) (tptp.concept2words_2 X |tptp.'capillary bed'|) (tptp.concept2words_2 X |tptp.'capillary-bed'|) (tptp.ensemble_1 X)))) (forall ((X $$unsorted)) (=> (tptp.capillary_exchange_1 X) (and (tptp.original_name_2 X |tptp.'Capillary-Exchange'|) (tptp.user_description_2 X |tptp.'Exchange between capillaries and interstitial fluid.'|) (tptp.concept2words_2 X |tptp.'exchange of capillary'|) (tptp.concept2words_2 X |tptp.'capillary exchange'|) (tptp.concept2words_2 X |tptp.'capillary-exchange'|) (tptp.cardiovascular_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_capsid_1 X))) (=> (tptp.capsid_1 X) (and (tptp.original_name_2 X |tptp.'Capsid'|) (tptp.user_description_2 X |tptp.'The protein shell that encloses a viral genome. It may be rod-shaped, polyhedral, or more complex in shape.'|) (tptp.concept2words_2 X tptp.capsid) (tptp.coat_protein_1 X) (tptp.container_1 _let_1) (tptp.purpose_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.capsomere_1 X) (and (tptp.original_name_2 X |tptp.'Capsomere'|) (tptp.user_description_2 X |tptp.'The subunit of a capsid, which is the protein covering that protects the genetic material of a virus.'|) (tptp.concept2words_2 X tptp.capsomere) (tptp.protein_complex_1 X) (not (tptp.anaphase_promoting_complex_1 X)) (not (tptp.complement_system_1 X)) (not (tptp.light_harvesting_complex_1 X)) (not (tptp.membrane_attack_complex_1 X)) (not (tptp.myofibril_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_core_1 X)) (not (tptp.reaction_center_complex_1 X)) (not (tptp.rosette_cellulose_synthesizing_complex_1 X)) (not (tptp.thick_filament_1 X)) (not (tptp.thin_filament_1 X)) (not (tptp.troponin_complex_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_capsule_17 X))) (let ((_let_2 (tptp.fn_prokaryote_13 _let_1))) (let ((_let_3 (tptp.fn_capsule_7 X))) (let ((_let_4 (tptp.fn_atp_synthase_37 _let_3))) (let ((_let_5 (tptp.fn_prokaryote_6 _let_1))) (let ((_let_6 (tptp.fn_capsule_5 X))) (let ((_let_7 (tptp.fn_plasma_membrane_68 _let_6))) (let ((_let_8 (tptp.fn_prokaryote_7 _let_1))) (let ((_let_9 (tptp.fn_plasma_membrane_54 _let_6))) (let ((_let_10 (tptp.fn_prokaryote_17 _let_1))) (let ((_let_11 (tptp.fn_atp_synthase_11 _let_3))) (let ((_let_12 (tptp.fn_plasma_membrane_65 _let_6))) (let ((_let_13 (tptp.fn_biomembrane_41 _let_6))) (let ((_let_14 (tptp.fn_prokaryote_16 _let_1))) (let ((_let_15 (tptp.fn_plasma_membrane_66 _let_6))) (let ((_let_16 (tptp.fn_prokaryote_12 _let_1))) (let ((_let_17 (tptp.fn_cell_28 _let_1))) (let ((_let_18 (tptp.fn_plasma_membrane_3 _let_6))) (let ((_let_19 (tptp.fn_plasma_membrane_4 _let_6))) (let ((_let_20 (tptp.fn_capsule_6 X))) (let ((_let_21 (tptp.fn_capsule_3 X))) (let ((_let_22 (tptp.fn_capsule_16 X))) (let ((_let_23 (tptp.fn_prokaryote_14 _let_1))) (let ((_let_24 (tptp.fn_capsule_15 X))) (let ((_let_25 (tptp.fn_capsule_11 X))) (let ((_let_26 (tptp.fn_capsule_8 X))) (let ((_let_27 (tptp.fn_prokaryote_15 _let_1))) (let ((_let_28 (tptp.fn_capsule_12 X))) (let ((_let_29 (tptp.fn_prokaryote_1 _let_1))) (let ((_let_30 (tptp.fn_capsule_13 X))) (let ((_let_31 (tptp.fn_capsule_14 X))) (let ((_let_32 (tptp.fn_binary_fission_10 _let_31))) (let ((_let_33 (tptp.fn_capsule_4 X))) (let ((_let_34 (tptp.fn_capsule_9 X))) (let ((_let_35 (tptp.fn_passive_transport_of_solute_3 _let_34))) (let ((_let_36 (tptp.fn_capsule_10 X))) (let ((_let_37 (tptp.fn_capsule_1 X))) (let ((_let_38 (tptp.fn_capsule_2 X))) (=> (tptp.capsule_1 X) (and (tptp.original_name_2 X |tptp.'Capsule'|) (tptp.user_description_2 X |tptp.'Capsule is a layer present outside the cell wall of some prokaryotes. Its primary function is to protect the cell.'|) (tptp.concept2words_2 X |tptp.'bacterial capsule'|) (tptp.concept2words_2 X |tptp.'prokaryote capsule'|) (tptp.concept2words_2 X |tptp.'cell capsule'|) (tptp.concept2words_2 X tptp.capsule) (tptp.cellular_structure_1 X) (tptp.aqueous_solution_1 _let_37) (tptp.defense_1 _let_38) (tptp.tangible_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.spatial_entity_1 _let_21) (tptp.polymer_1 _let_21) (tptp.membrane_protein_1 _let_33) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.tangible_entity_1 _let_20) (tptp.membrane_protein_1 _let_20) (tptp.protein_1 _let_20) (tptp.atp_synthase_1 _let_3) (tptp.mixture_1 _let_26) (tptp.cytoplasm_1 _let_26) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_34) (tptp.membrane_potential_1 _let_36) (tptp.surface_1 _let_25) (tptp.cytoplasmic_side_1 _let_25) (tptp.negatively_charged_region_1 _let_28) (tptp.positively_charged_region_1 _let_30) (tptp.binary_fission_1 _let_31) (tptp.cell_wall_1 _let_24) (tptp.outside_face_1 _let_22) (tptp.extracellular_side_1 _let_22) (tptp.cell_1 _let_1) (tptp.unicellular_organism_1 _let_1) (tptp.prokaryote_1 _let_1) (tptp.gradient_1 _let_35) (tptp.concentration_gradient_1 _let_35) (tptp.unicellular_organism_1 _let_32) (tptp.positively_charged_region_1 _let_29) (tptp.negatively_charged_region_1 _let_27) (tptp.cell_wall_1 _let_23) (tptp.membrane_protein_1 _let_19) (tptp.membrane_protein_1 _let_18) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.mixture_1 _let_16) (tptp.cytoplasm_1 _let_16) (tptp.cytoplasmic_side_1 _let_15) (tptp.surface_1 _let_14) (tptp.cytoplasmic_side_1 _let_14) (tptp.outside_face_1 _let_13) (tptp.extracellular_side_1 _let_12) (tptp.outside_face_1 _let_11) (tptp.outside_face_1 _let_10) (tptp.extracellular_side_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.membrane_protein_1 _let_9) (tptp.protein_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.polymer_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.membrane_protein_1 _let_8) (tptp.protein_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.polymer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.membrane_protein_1 _let_7) (tptp.protein_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.membrane_protein_1 _let_5) (tptp.protein_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.plasma_membrane_1 _let_2) (tptp.agent_2 _let_38 X) (tptp.base_2 _let_38 _let_1) (tptp.is_between_2 _let_6 _let_30) (tptp.is_between_2 _let_6 _let_28) (not (= _let_20 _let_3)) (tptp.is_at_2 _let_3 _let_6) (not (= _let_3 _let_20)) (tptp.is_across_2 _let_36 _let_6) (tptp.is_inside_2 _let_24 X) (tptp.has_part_2 _let_1 X) (tptp.has_function_2 X _let_38) (tptp.has_part_2 X _let_37) (tptp.agent_2 _let_34 _let_36) (tptp.called_2 _let_20 |tptp.'MP1'|) (tptp.is_at_2 _let_33 _let_6) (tptp.base_2 _let_31 _let_1) (tptp.object_2 _let_31 _let_1) (tptp.is_across_2 _let_3 _let_6) (tptp.has_part_2 _let_6 _let_3) (tptp.has_region_2 _let_3 _let_22) (tptp.called_2 _let_21 |tptp.'MP1'|) (tptp.is_outside_2 _let_22 _let_6) (tptp.is_along_2 _let_30 _let_22) (tptp.is_along_2 _let_22 _let_30) (tptp.has_region_2 _let_26 _let_28) (tptp.is_along_2 _let_28 _let_25) (tptp.is_oriented_toward_2 _let_25 _let_26) (tptp.has_part_2 _let_1 _let_26) (tptp.is_along_2 _let_25 _let_28) (tptp.has_part_2 _let_1 _let_24) (tptp.is_inside_2 _let_6 _let_24) (tptp.has_region_2 _let_6 _let_25) (tptp.is_facing_2 _let_25 _let_26) (tptp.is_inside_2 _let_26 _let_6) (tptp.has_part_2 _let_1 _let_6) (tptp.has_part_2 _let_6 _let_20) (not (= _let_20 _let_21)) (tptp.has_part_2 _let_6 _let_21) (tptp.has_region_2 _let_6 _let_22) (not (= _let_21 _let_20)) (= _let_36 _let_35) (= _let_33 _let_19) (= _let_33 _let_18) (= _let_1 _let_32) (= _let_22 _let_11) (= _let_6 _let_4) (= _let_30 _let_29) (= _let_26 _let_17) (= _let_28 _let_27) (= _let_26 _let_16) (= _let_25 _let_15) (= _let_25 _let_14) (= _let_24 _let_23) (= _let_22 _let_13) (= _let_22 _let_12) (= _let_22 _let_10) (= _let_21 _let_9) (= _let_21 _let_8) (= _let_20 _let_7) (= _let_20 _let_5) (= _let_6 _let_2) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbohydrate_6 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_carbohydrate_33 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_carbohydrate_34 X))) (let ((_let_6 (tptp.fn_functional_group_1 _let_5))) (let ((_let_7 (tptp.fn_hydroxyl_group_6 _let_3))) (let ((_let_8 (tptp.fn_carbohydrate_36 X))) (let ((_let_9 (tptp.fn_polar_covalent_bond_18 _let_8))) (let ((_let_10 (tptp.fn_polar_covalent_bond_19 _let_8))) (let ((_let_11 (tptp.fn_carbohydrate_32 X))) (let ((_let_12 (tptp.fn_hydrogen_15 _let_11))) (let ((_let_13 (tptp.fn_polar_covalent_bond_13 _let_8))) (let ((_let_14 (tptp.fn_hydrogen_12 _let_11))) (let ((_let_15 (tptp.fn_polar_covalent_bond_11 _let_8))) (let ((_let_16 (tptp.fn_carbohydrate_28 X))) (let ((_let_17 (tptp.fn_first_electron_shell_5 _let_16))) (let ((_let_18 (tptp.fn_carbohydrate_40 X))) (let ((_let_19 (tptp.fn_attract_1 _let_18))) (let ((_let_20 (tptp.fn_hydrogen_14 _let_11))) (let ((_let_21 (tptp.fn_polar_covalent_bond_21 _let_8))) (let ((_let_22 (tptp.fn_hydrogen_13 _let_11))) (let ((_let_23 (tptp.fn_attract_2 _let_18))) (let ((_let_24 (tptp.fn_hydrogen_2 _let_11))) (let ((_let_25 (tptp.fn_polar_covalent_bond_2 _let_8))) (let ((_let_26 (tptp.fn_polar_covalent_bond_17 _let_8))) (let ((_let_27 (tptp.fn_carbon_skeleton_1 _let_1))) (let ((_let_28 (tptp.fn_polar_covalent_bond_16 _let_8))) (let ((_let_29 (tptp.fn_hydroxyl_group_5 _let_3))) (let ((_let_30 (tptp.fn_polar_covalent_bond_12 _let_8))) (let ((_let_31 (tptp.fn_hydroxyl_group_8 _let_3))) (let ((_let_32 (tptp.fn_carbohydrate_35 X))) (let ((_let_33 (tptp.fn_covalent_bond_18 _let_32))) (let ((_let_34 (tptp.fn_carbohydrate_24 X))) (let ((_let_35 (tptp.fn_electron_shell_2 _let_34))) (let ((_let_36 (tptp.fn_polar_covalent_bond_14 _let_8))) (let ((_let_37 (tptp.fn_covalent_bond_22 _let_32))) (let ((_let_38 (tptp.fn_hydroxyl_group_4 _let_3))) (let ((_let_39 (tptp.fn_covalent_bond_19 _let_32))) (let ((_let_40 (tptp.fn_covalent_bond_20 _let_32))) (let ((_let_41 (tptp.fn_carbonyl_group_9 _let_5))) (let ((_let_42 (tptp.fn_hydroxyl_group_9 _let_3))) (let ((_let_43 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_44 (tptp.fn_organic_molecule_2 X))) (let ((_let_45 (tptp.fn_hydroxyl_group_10 _let_3))) (let ((_let_46 (tptp.fn_covalent_bond_23 _let_32))) (let ((_let_47 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_48 (tptp.fn_organic_molecule_1 X))) (let ((_let_49 (tptp.fn_polar_covalent_bond_5 _let_8))) (let ((_let_50 (tptp.fn_covalent_bond_4 _let_32))) (let ((_let_51 (tptp.fn_first_electron_shell_4 _let_16))) (let ((_let_52 (tptp.fn_electron_shell_3 _let_34))) (let ((_let_53 (tptp.fn_carbohydrate_7 X))) (let ((_let_54 (tptp.fn_carbohydrate_10 X))) (let ((_let_55 (tptp.fn_carbohydrate_9 X))) (let ((_let_56 (tptp.fn_carbohydrate_8 X))) (let ((_let_57 (tptp.fn_carbohydrate_26 X))) (let ((_let_58 (tptp.fn_carbohydrate_29 X))) (let ((_let_59 (tptp.fn_hydrogen_16 _let_11))) (let ((_let_60 (tptp.fn_carbohydrate_27 X))) (let ((_let_61 (tptp.fn_carbohydrate_41 X))) (let ((_let_62 (tptp.fn_carbohydrate_12 X))) (let ((_let_63 (tptp.fn_hydrogen_1 _let_11))) (let ((_let_64 (tptp.fn_carbohydrate_37 X))) (let ((_let_65 (tptp.fn_carbohydrate_30 X))) (let ((_let_66 (tptp.fn_carbohydrate_31 X))) (let ((_let_67 (tptp.fn_carbohydrate_22 X))) (let ((_let_68 (tptp.fn_polar_covalent_bond_23 _let_8))) (let ((_let_69 (tptp.fn_carbohydrate_23 X))) (let ((_let_70 (tptp.fn_carbohydrate_39 X))) (let ((_let_71 (tptp.fn_carbohydrate_19 X))) (let ((_let_72 (tptp.fn_hydroxyl_group_11 _let_3))) (let ((_let_73 (tptp.fn_carbohydrate_17 X))) (let ((_let_74 (tptp.fn_carbohydrate_38 X))) (let ((_let_75 (tptp.fn_hydroxyl_group_7 _let_3))) (let ((_let_76 (tptp.fn_carbohydrate_18 X))) (let ((_let_77 (tptp.fn_carbohydrate_5 X))) (let ((_let_78 (tptp.fn_covalent_bond_21 _let_32))) (let ((_let_79 (tptp.fn_carbohydrate_20 X))) (let ((_let_80 (tptp.fn_covalent_bond_12 _let_32))) (let ((_let_81 (tptp.fn_carbohydrate_21 X))) (let ((_let_82 (tptp.fn_polar_covalent_bond_1 _let_8))) (let ((_let_83 (tptp.fn_carbohydrate_11 X))) (let ((_let_84 (tptp.fn_polar_covalent_bond_4 _let_8))) (let ((_let_85 (tptp.fn_polar_covalent_bond_22 _let_8))) (let ((_let_86 (tptp.fn_carbohydrate_25 X))) (let ((_let_87 (tptp.fn_covalent_bond_1 _let_32))) (let ((_let_88 (tptp.fn_carbohydrate_15 X))) (let ((_let_89 (tptp.fn_covalent_bond_16 _let_32))) (let ((_let_90 (tptp.fn_carbohydrate_16 X))) (let ((_let_91 (tptp.fn_covalent_bond_10 _let_32))) (let ((_let_92 (tptp.fn_carbohydrate_14 X))) (let ((_let_93 (tptp.fn_carbohydrate_13 X))) (let ((_let_94 (tptp.fn_carbohydrate_2 X))) (let ((_let_95 (tptp.fn_carbohydrate_3 X))) (let ((_let_96 (tptp.fn_carbohydrate_4 X))) (=> (tptp.carbohydrate_1 X) (and (tptp.original_name_2 X |tptp.'Carbohydrate'|) (tptp.user_description_2 X |tptp.'A class of organic molecules that consists of carbon, hydrogen, and oxygen. Simple sugars are the monomers for more complex carbohydrates such as disaccharides and polysaccharides. Carbohydrates have structural, energy-source, and energy-storage functions in cells.'|) (tptp.concept2words_2 X tptp.carbohydrate) (tptp.organic_molecule_1 X) (tptp.hydrophilic_region_1 _let_94) (tptp.second_electron_shell_1 _let_95) (tptp.charge_value_1 _let_96) (tptp.carbon_1 _let_77) (tptp.carbon_skeleton_1 _let_1) (tptp.kinetic_energy_1 _let_53) (tptp.constant_motion_1 _let_56) (tptp.speed_value_1 _let_55) (tptp.quantity_value_1 _let_54) (tptp.electronegativity_value_1 _let_83) (tptp.electronegativity_value_1 _let_62) (tptp.atomic_orbital_1 _let_93) (tptp.s_orbital_1 _let_93) (tptp.attract_1 _let_92) (tptp.asymmetrical_distribution_1 _let_88) (tptp.constant_motion_1 _let_90) (tptp.atomic_nucleus_1 _let_73) (tptp.center_1 _let_76) (tptp.atomic_nucleus_1 _let_71) (tptp.center_1 _let_79) (tptp.electron_shell_1 _let_81) (tptp.atomic_nucleus_1 _let_67) (tptp.center_1 _let_69) (tptp.electron_shell_1 _let_34) (tptp.proton_1 _let_86) (tptp.atomic_nucleus_1 _let_57) (tptp.center_1 _let_60) (tptp.electron_shell_1 _let_16) (tptp.first_electron_shell_1 _let_16) (tptp.entity_1 _let_58) (tptp.electron_1 _let_58) (tptp.valence_electron_1 _let_58) (tptp.unequal_sharing_1 _let_65) (tptp.electron_1 _let_66) (tptp.valence_electron_1 _let_66) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.hydroxyl_group_1 _let_3) (tptp.carbonyl_group_1 _let_5) (tptp.double_bond_1 _let_32) (tptp.polar_covalent_bond_1 _let_8) (tptp.hold_together_1 _let_64) (tptp.entity_1 _let_74) (tptp.atom_1 _let_74) (tptp.chemical_entity_1 _let_74) (tptp.oxygen_1 _let_74) (tptp.entity_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.atom_1 _let_70) (tptp.oxygen_1 _let_70) (tptp.attract_1 _let_18) (tptp.entity_1 _let_61) (tptp.proton_1 _let_61) (tptp.attract_1 _let_91) (tptp.constant_motion_1 _let_89) (tptp.asymmetrical_distribution_1 _let_87) (tptp.electron_shell_1 _let_85) (tptp.property_node_1 _let_84) (tptp.electronegativity_value_1 _let_82) (tptp.electron_shell_1 _let_80) (tptp.center_1 _let_78) (tptp.polar_covalent_bond_1 _let_75) (tptp.atomic_nucleus_1 _let_72) (tptp.center_1 _let_68) (tptp.property_node_1 _let_63) (tptp.electron_shell_1 _let_59) (tptp.first_electron_shell_1 _let_59) (tptp.atomic_orbital_1 _let_52) (tptp.s_orbital_1 _let_51) (tptp.proton_1 _let_50) (tptp.proton_1 _let_49) (tptp.carbon_1 _let_47) (tptp.center_1 _let_46) (tptp.center_1 _let_45) (tptp.atom_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atomic_nucleus_1 _let_42) (tptp.oxygen_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.oxygen_1 _let_38) (tptp.atomic_nucleus_1 _let_37) (tptp.atomic_nucleus_1 _let_36) (tptp.electron_1 _let_35) (tptp.valence_electron_1 _let_33) (tptp.electron_1 _let_31) (tptp.valence_electron_1 _let_31) (tptp.valence_electron_1 _let_30) (tptp.unequal_sharing_1 _let_29) (tptp.unequal_sharing_1 _let_28) (tptp.hold_together_1 _let_27) (tptp.hold_together_1 _let_26) (tptp.electronegativity_value_1 _let_25) (tptp.electronegativity_value_1 _let_24) (tptp.entity_1 _let_23) (tptp.proton_1 _let_22) (tptp.center_1 _let_21) (tptp.center_1 _let_20) (tptp.entity_1 _let_19) (tptp.electron_1 _let_17) (tptp.electron_1 _let_15) (tptp.valence_electron_1 _let_15) (tptp.valence_electron_1 _let_14) (tptp.atomic_nucleus_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.the_cardinal_value_2 _let_83 |"3.44"|) (tptp.cardinal_unit_class_2 _let_83 tptp.unity_0) (tptp.the_cardinal_value_2 _let_96 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_96 tptp.unity_0) (tptp.the_categorical_value_2 _let_96 tptp.partial_negative_0) (tptp.the_categorical_value_2 _let_96 tptp.partial_positive_0) (not (= _let_95 _let_81)) (not (= _let_81 _let_95)) (not (= _let_34 _let_16)) (not (= _let_16 _let_34)) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_70) (tptp.has_region_2 X _let_94) (tptp.possesses_2 X _let_8) (tptp.object_2 _let_18 _let_58) (tptp.agent_2 _let_18 _let_61) (tptp.possesses_2 X _let_32) (tptp.has_region_2 X _let_5) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_70 _let_5) (tptp.has_region_2 _let_34 _let_93) (tptp.is_inside_2 _let_66 _let_93) (tptp.has_region_2 _let_16 _let_93) (tptp.is_inside_2 _let_58 _let_93) (tptp.object_2 _let_88 _let_66) (tptp.causes_2 _let_90 _let_88) (tptp.object_2 _let_90 _let_66) (tptp.object_2 _let_92 _let_66) (tptp.agent_2 _let_92 _let_86) (not (= _let_70 _let_74)) (not (= _let_74 _let_70)) (tptp.has_part_2 _let_74 _let_86) (tptp.is_inside_2 _let_86 _let_67) (tptp.has_region_2 _let_74 _let_69) (tptp.has_region_2 _let_74 _let_34) (tptp.has_region_2 _let_74 _let_67) (tptp.object_2 _let_64 _let_11) (tptp.electronegativity_2 _let_74 _let_83) (not (= _let_83 _let_62)) (not (= _let_62 _let_83)) (tptp.has_part_2 X _let_74) (tptp.has_region_2 _let_70 _let_81) (tptp.is_between_2 _let_32 _let_70) (tptp.has_region_2 _let_70 _let_79) (tptp.is_at_2 _let_71 _let_79) (not (= _let_76 _let_79)) (not (= _let_79 _let_76)) (tptp.object_2 _let_64 _let_74) (tptp.is_inside_2 _let_77 _let_1) (tptp.has_part_2 X _let_77) (tptp.has_region_2 X _let_1) (not (= _let_74 _let_77)) (not (= _let_77 _let_74)) (tptp.has_part_2 _let_74 _let_66) (tptp.is_at_2 _let_73 _let_76) (tptp.is_inside_2 _let_74 _let_3) (tptp.agent_2 _let_65 _let_11) (tptp.agent_2 _let_65 _let_74) (not (= _let_74 _let_11)) (tptp.is_between_2 _let_8 _let_11) (tptp.is_between_2 _let_8 _let_74) (not (= _let_11 _let_74)) (tptp.is_inside_2 _let_11 _let_3) (not (= _let_11 _let_70)) (tptp.has_region_2 _let_70 _let_71) (not (= _let_70 _let_11)) (not (= _let_73 _let_71)) (not (= _let_71 _let_73)) (tptp.is_at_2 _let_67 _let_69) (not (= _let_60 _let_69)) (not (= _let_69 _let_60)) (tptp.object_2 _let_65 _let_66) (tptp.is_near_2 _let_67 _let_66) (not (= _let_57 _let_67)) (not (= _let_67 _let_57)) (tptp.is_near_2 _let_66 _let_67) (tptp.has_function_2 _let_8 _let_64) (tptp.agent_2 _let_64 _let_8) (tptp.result_2 _let_65 _let_8) (tptp.object_2 _let_65 _let_58) (not (= _let_58 _let_66)) (not (= _let_66 _let_58)) (tptp.has_part_2 _let_11 _let_58) (tptp.the_cardinal_value_2 _let_62 |"2.1"|) (tptp.cardinal_unit_class_2 _let_62 tptp.unity_0) (tptp.has_region_2 _let_11 _let_60) (tptp.is_at_2 _let_57 _let_60) (tptp.is_inside_2 _let_61 _let_57) (tptp.has_part_2 _let_11 _let_61) (tptp.electronegativity_2 _let_11 _let_62) (tptp.has_region_2 _let_11 _let_57) (tptp.is_inside_2 _let_57 _let_16) (tptp.has_region_2 _let_11 _let_16) (tptp.is_near_2 _let_58 _let_57) (tptp.is_near_2 _let_57 _let_58) (tptp.possesses_2 X _let_53) (tptp.quantity_2 _let_53 _let_54) (tptp.directly_proportional_2 _let_55 _let_54) (tptp.speed_2 _let_56 _let_55) (tptp.object_2 _let_56 X) (= _let_58 _let_19) (= _let_61 _let_23) (= _let_32 (tptp.fn_molecule_10 X)) (= X _let_6) (= X _let_4) (= _let_70 _let_41) (= _let_66 _let_35) (= _let_93 _let_52) (= _let_58 _let_17) (= _let_93 _let_51) (= _let_86 _let_50) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_86 _let_49) (= _let_34 _let_85) (= _let_74 _let_39) (= (tptp.fn_carbohydrate_45 X) _let_84) (= _let_62 _let_25) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_71 _let_37) (= _let_76 _let_46) (= _let_79 _let_78) (= _let_70 _let_40) (= _let_70 _let_39) (= _let_64 _let_27) (= X _let_2) (= _let_74 _let_44) (= _let_74 _let_43) (= _let_77 _let_48) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= _let_77 _let_47) (= _let_66 _let_31) (= _let_76 _let_45) (= _let_8 _let_75) (= _let_74 _let_9) (= _let_11 _let_10) (= _let_74 _let_10) (= _let_74 _let_38) (= _let_11 _let_9) (= _let_65 _let_29) (= _let_73 _let_72) (= _let_71 _let_42) (= _let_70 _let_38) (= _let_11 _let_7) (= _let_60 _let_21) (= _let_69 _let_68) (= _let_57 _let_13) (= _let_66 _let_33) (= _let_67 _let_37) (= _let_66 _let_15) (= _let_67 _let_13) (= _let_67 _let_36) (= _let_66 _let_30) (= _let_58 _let_15) (= _let_65 _let_28) (= _let_64 _let_26) (= (tptp.fn_carbohydrate_44 X) _let_63) (= _let_62 _let_24) (= _let_61 _let_22) (= _let_60 _let_20) (= _let_16 _let_59) (= _let_58 _let_14) (= _let_57 _let_12) (= (tptp.fn_carbohydrate_42 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_carbohydrate_43 X) (tptp.fn_molecule_1 X)) (= _let_56 (tptp.fn_molecule_8 X)) (= _let_55 (tptp.fn_molecule_3 X)) (= _let_54 (tptp.fn_molecule_4 X)) (= _let_53 (tptp.fn_molecule_12 X)) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_39) (= _let_9 _let_39) (= _let_39 _let_9) (= _let_10 _let_10) (= _let_44 _let_44) (= _let_44 _let_10) (= _let_10 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_38) (= _let_38 _let_37) (= _let_37 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_13) (= _let_13 _let_37) (= _let_37 _let_13) (= _let_36 _let_36) (= _let_36 _let_13) (= _let_13 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_15 _let_33) (= _let_33 _let_15) (= _let_31 _let_15) (= _let_15 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbohydrate_side_chain_33 X))) (let ((_let_2 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_3 (tptp.fn_oligosaccharide_4 X))) (let ((_let_4 (tptp.fn_carbohydrate_side_chain_25 X))) (let ((_let_5 (tptp.fn_hydrogen_12 _let_4))) (let ((_let_6 (tptp.fn_carbohydrate_31 X))) (let ((_let_7 (tptp.fn_hydrogen_15 _let_4))) (let ((_let_8 (tptp.fn_hydroxyl_group_11 _let_1))) (let ((_let_9 (tptp.fn_carbohydrate_22 X))) (let ((_let_10 (tptp.fn_hydrogen_13 _let_4))) (let ((_let_11 (tptp.fn_carbohydrate_25 X))) (let ((_let_12 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_13 (tptp.fn_oligosaccharide_9 X))) (let ((_let_14 (tptp.fn_oligosaccharide_3 X))) (let ((_let_15 (tptp.fn_carbohydrate_38 X))) (let ((_let_16 (tptp.fn_carbohydrate_39 X))) (let ((_let_17 (tptp.fn_carbohydrate_side_chain_31 X))) (let ((_let_18 (tptp.fn_carbon_skeleton_4 _let_17))) (let ((_let_19 (tptp.fn_carbohydrate_5 X))) (let ((_let_20 (tptp.fn_carbon_skeleton_2 _let_17))) (let ((_let_21 (tptp.fn_oligosaccharide_5 X))) (let ((_let_22 (tptp.fn_carbohydrate_side_chain_29 X))) (let ((_let_23 (tptp.fn_carbonyl_group_7 _let_22))) (let ((_let_24 (tptp.fn_carbonyl_group_9 _let_22))) (let ((_let_25 (tptp.fn_carbohydrate_side_chain_24 X))) (let ((_let_26 (tptp.fn_oxygen_13 _let_25))) (let ((_let_27 (tptp.fn_oxygen_7 _let_25))) (let ((_let_28 (tptp.fn_oxygen_18 _let_25))) (let ((_let_29 (tptp.fn_oxygen_8 _let_25))) (let ((_let_30 (tptp.fn_hydroxyl_group_8 _let_1))) (let ((_let_31 (tptp.fn_carbohydrate_29 X))) (let ((_let_32 (tptp.fn_carbonyl_group_6 _let_22))) (let ((_let_33 (tptp.fn_oxygen_1 _let_25))) (let ((_let_34 (tptp.fn_atom_14 _let_25))) (let ((_let_35 (tptp.fn_oxygen_9 _let_25))) (let ((_let_36 (tptp.fn_oxygen_11 _let_25))) (let ((_let_37 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_38 (tptp.fn_oligosaccharide_2 X))) (let ((_let_39 (tptp.fn_hydroxyl_group_9 _let_1))) (let ((_let_40 (tptp.fn_atom_18 _let_25))) (let ((_let_41 (tptp.fn_carbonyl_group_4 _let_22))) (let ((_let_42 (tptp.fn_carbohydrate_side_chain_26 X))) (let ((_let_43 (tptp.fn_atom_14 _let_42))) (let ((_let_44 (tptp.fn_carbon_skeleton_3 _let_17))) (let ((_let_45 (tptp.fn_carbohydrate_side_chain_30 X))) (let ((_let_46 (tptp.fn_attract_2 _let_45))) (let ((_let_47 (tptp.fn_functional_group_1 _let_1))) (let ((_let_48 (tptp.fn_oligosaccharide_6 X))) (let ((_let_49 (tptp.fn_carbohydrate_34 X))) (let ((_let_50 (tptp.fn_oligosaccharide_12 X))) (let ((_let_51 (tptp.fn_carbonyl_group_10 _let_22))) (let ((_let_52 (tptp.fn_oligosaccharide_10 X))) (let ((_let_53 (tptp.fn_carbohydrate_35 X))) (let ((_let_54 (tptp.fn_oligosaccharide_11 X))) (let ((_let_55 (tptp.fn_carbonyl_group_5 _let_22))) (let ((_let_56 (tptp.fn_oligosaccharide_7 X))) (let ((_let_57 (tptp.fn_carbohydrate_26 X))) (let ((_let_58 (tptp.fn_oligosaccharide_8 X))) (let ((_let_59 (tptp.fn_carbohydrate_27 X))) (let ((_let_60 (tptp.fn_carbohydrate_18 X))) (let ((_let_61 (tptp.fn_carbohydrate_24 X))) (let ((_let_62 (tptp.fn_atom_9 _let_25))) (let ((_let_63 (tptp.fn_atom_9 _let_42))) (let ((_let_64 (tptp.fn_carbohydrate_23 X))) (let ((_let_65 (tptp.fn_carbohydrate_20 X))) (let ((_let_66 (tptp.fn_carbohydrate_41 X))) (let ((_let_67 (tptp.fn_oxygen_18 _let_42))) (let ((_let_68 (tptp.fn_hydrogen_2 _let_4))) (let ((_let_69 (tptp.fn_carbohydrate_side_chain_37 X))) (let ((_let_70 (tptp.fn_hydrogen_1 _let_4))) (let ((_let_71 (tptp.fn_carbohydrate_side_chain_38 X))) (let ((_let_72 (tptp.fn_carbohydrate_side_chain_42 X))) (let ((_let_73 (tptp.fn_carbohydrate_side_chain_41 X))) (let ((_let_74 (tptp.fn_oxygen_17 _let_25))) (let ((_let_75 (tptp.fn_carbohydrate_side_chain_14 X))) (let ((_let_76 (tptp.fn_oxygen_14 _let_25))) (let ((_let_77 (tptp.fn_oxygen_21 _let_25))) (let ((_let_78 (tptp.fn_carbohydrate_side_chain_13 X))) (let ((_let_79 (tptp.fn_oxygen_10 _let_25))) (let ((_let_80 (tptp.fn_oxygen_20 _let_25))) (let ((_let_81 (tptp.fn_carbohydrate_side_chain_23 X))) (let ((_let_82 (tptp.fn_carbohydrate_side_chain_22 X))) (let ((_let_83 (tptp.fn_carbohydrate_side_chain_32 X))) (let ((_let_84 (tptp.fn_hydrophilic_region_2 _let_83))) (let ((_let_85 (tptp.fn_oxygen_19 _let_25))) (let ((_let_86 (tptp.fn_carbohydrate_side_chain_16 X))) (let ((_let_87 (tptp.fn_carbohydrate_side_chain_17 X))) (let ((_let_88 (tptp.fn_carbohydrate_side_chain_47 X))) (let ((_let_89 (tptp.fn_carbohydrate_side_chain_34 X))) (let ((_let_90 (tptp.fn_carbohydrate_side_chain_7 X))) (let ((_let_91 (tptp.fn_oxygen_5 _let_25))) (let ((_let_92 (tptp.fn_carbohydrate_side_chain_35 X))) (let ((_let_93 (tptp.fn_oxygen_12 _let_25))) (let ((_let_94 (tptp.fn_oxygen_6 _let_25))) (let ((_let_95 (tptp.fn_carbohydrate_side_chain_27 X))) (let ((_let_96 (tptp.fn_carbohydrate_side_chain_46 X))) (let ((_let_97 (tptp.fn_carbohydrate_side_chain_10 X))) (let ((_let_98 (tptp.fn_carbohydrate_side_chain_11 X))) (let ((_let_99 (tptp.fn_carbohydrate_side_chain_28 X))) (let ((_let_100 (tptp.fn_carbohydrate_side_chain_12 X))) (let ((_let_101 (tptp.fn_carbohydrate_side_chain_49 X))) (let ((_let_102 (tptp.fn_carbohydrate_side_chain_48 X))) (let ((_let_103 (tptp.fn_carbohydrate_side_chain_44 X))) (let ((_let_104 (tptp.fn_carbohydrate_side_chain_45 X))) (let ((_let_105 (tptp.fn_carbohydrate_side_chain_52 X))) (let ((_let_106 (tptp.fn_carbohydrate_side_chain_51 X))) (let ((_let_107 (tptp.fn_carbohydrate_side_chain_50 X))) (let ((_let_108 (tptp.fn_carbohydrate_side_chain_53 X))) (let ((_let_109 (tptp.fn_carbohydrate_side_chain_43 X))) (let ((_let_110 (tptp.fn_carbohydrate_side_chain_40 X))) (let ((_let_111 (tptp.fn_carbohydrate_side_chain_39 X))) (let ((_let_112 (tptp.fn_carbohydrate_side_chain_18 X))) (let ((_let_113 (tptp.fn_oxygen_5 _let_42))) (let ((_let_114 (tptp.fn_carbohydrate_side_chain_36 X))) (let ((_let_115 (tptp.fn_oxygen_6 _let_42))) (let ((_let_116 (tptp.fn_carbohydrate_side_chain_9 X))) (let ((_let_117 (tptp.fn_carbohydrate_side_chain_4 X))) (let ((_let_118 (tptp.fn_carbohydrate_side_chain_2 X))) (let ((_let_119 (tptp.fn_carbohydrate_side_chain_1 X))) (=> (tptp.carbohydrate_side_chain_1 X) (and (tptp.original_name_2 X |tptp.'Carbohydrate-Side-Chain'|) (tptp.user_description_2 X |tptp.'Carbohydrate side chain is a chain of carbohydrate attached to an entity. They are basically oligosaccharides.'|) (tptp.concept2words_2 X |tptp.'carbohydrate side chain'|) (tptp.concept2words_2 X |tptp.'carbohydrate-side-chain'|) (tptp.oligosaccharide_1 X) (tptp.extra_cellular_matrix_1 _let_119) (tptp.shape_value_1 _let_118) (tptp.organic_molecule_1 _let_117) (tptp.electron_shell_1 _let_116) (tptp.entity_1 _let_97) (tptp.electron_1 _let_97) (tptp.valence_electron_1 _let_97) (tptp.hold_together_1 _let_98) (tptp.share_1 _let_100) (tptp.system_1 _let_78) (tptp.atomic_number_value_1 _let_75) (tptp.quantity_value_1 _let_86) (tptp.quantity_value_1 _let_87) (tptp.entity_1 _let_112) (tptp.proton_1 _let_112) (tptp.entity_1 _let_82) (tptp.carbon_1 _let_82) (tptp.atom_1 _let_82) (tptp.chemical_entity_1 _let_82) (tptp.carbon_1 _let_81) (tptp.entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.oxygen_1 _let_25) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.hydrogen_1 _let_4) (tptp.entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.oxygen_1 _let_42) (tptp.polar_covalent_bond_1 _let_95) (tptp.double_bond_1 _let_99) (tptp.functional_group_1 _let_22) (tptp.carbonyl_group_1 _let_22) (tptp.attract_1 _let_45) (tptp.carbon_skeleton_1 _let_17) (tptp.hydrophilic_region_1 _let_83) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.entity_1 _let_89) (tptp.electron_1 _let_89) (tptp.valence_electron_1 _let_89) (tptp.electronegativity_value_1 _let_92) (tptp.electronegativity_value_1 _let_114) (tptp.electronegativity_value_1 _let_69) (tptp.electron_1 _let_71) (tptp.valence_electron_1 _let_71) (tptp.entity_1 _let_111) (tptp.electron_1 _let_111) (tptp.valence_electron_1 _let_111) (tptp.attract_1 _let_110) (tptp.proton_1 _let_73) (tptp.atomic_nucleus_1 _let_72) (tptp.atomic_orbital_1 _let_109) (tptp.s_orbital_1 _let_109) (tptp.electron_shell_1 _let_103) (tptp.center_1 _let_104) (tptp.atomic_nucleus_1 _let_96) (tptp.proton_1 _let_88) (tptp.center_1 _let_102) (tptp.atomic_nucleus_1 _let_101) (tptp.quantity_value_1 _let_107) (tptp.speed_value_1 _let_106) (tptp.constant_motion_1 _let_105) (tptp.kinetic_energy_1 _let_108) (tptp.property_node_1 _let_115) (tptp.electronegativity_value_1 _let_113) (tptp.property_node_1 _let_94) (tptp.property_node_1 _let_93) (tptp.electronegativity_value_1 _let_91) (tptp.quantity_value_1 _let_85) (tptp.attract_1 _let_84) (tptp.equation_set_1 _let_80) (tptp.equation_big_node_1 _let_79) (tptp.system_1 _let_77) (tptp.property_node_1 _let_76) (tptp.atomic_number_value_1 _let_74) (tptp.property_node_1 _let_70) (tptp.electronegativity_value_1 _let_68) (tptp.proton_1 _let_67) (tptp.electron_shell_1 _let_63) (tptp.electron_shell_1 _let_62) (tptp.share_1 _let_55) (tptp.hold_together_1 _let_51) (tptp.chemical_entity_1 _let_47) (tptp.entity_1 _let_46) (tptp.organic_molecule_1 _let_44) (tptp.electron_1 _let_43) (tptp.valence_electron_1 _let_41) (tptp.atomic_nucleus_1 _let_40) (tptp.atomic_nucleus_1 _let_39) (tptp.polar_covalent_bond_1 _let_37) (tptp.property_node_1 _let_36) (tptp.property_node_1 _let_35) (tptp.electron_1 _let_34) (tptp.valence_electron_1 _let_33) (tptp.valence_electron_1 _let_32) (tptp.electron_1 _let_30) (tptp.valence_electron_1 _let_30) (tptp.valence_electron_1 _let_29) (tptp.proton_1 _let_28) (tptp.quantity_value_1 _let_27) (tptp.quantity_value_1 _let_26) (tptp.oxygen_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.carbon_1 _let_18) (tptp.oxygen_1 _let_12) (tptp.proton_1 _let_10) (tptp.atomic_nucleus_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.valence_electron_1 _let_5) (tptp.hydrogen_1 _let_2) (not (= _let_116 _let_103)) (tptp.is_inside_2 _let_82 _let_17) (not (= _let_82 _let_4)) (not (= _let_4 _let_82)) (tptp.base_2 _let_45 _let_119) (tptp.has_function_2 X _let_45) (tptp.shape_2 X _let_118) (tptp.the_categorical_value_2 _let_118 tptp.branched_0) (tptp.has_part_2 _let_117 X) (not (= _let_92 _let_69)) (not (= _let_114 _let_69)) (not (= _let_69 _let_92)) (not (= _let_69 _let_114)) (not (= _let_103 _let_116)) (tptp.has_region_2 _let_42 _let_116) (tptp.has_region_2 _let_42 _let_103) (tptp.agent_2 _let_45 X) (tptp.has_part_2 _let_42 _let_112) (tptp.electronegativity_2 _let_42 _let_114) (tptp.the_cardinal_value_2 _let_114 |"3.44"|) (tptp.cardinal_unit_class_2 _let_114 tptp.unity_0) (tptp.object_2 _let_100 _let_97) (tptp.object_2 _let_98 _let_42) (tptp.is_inside_2 _let_82 _let_22) (tptp.has_part_2 _let_82 _let_111) (tptp.is_inside_2 _let_42 _let_22) (tptp.agent_2 _let_100 _let_42) (tptp.object_2 _let_100 _let_89) (tptp.is_between_2 _let_99 _let_25) (tptp.is_inside_2 _let_88 _let_96) (tptp.has_region_2 X _let_83) (tptp.is_inside_2 _let_112 _let_101) (tptp.is_inside_2 _let_71 _let_109) (not (= _let_71 _let_111)) (not (= _let_111 _let_71)) (not (= _let_101 _let_72)) (tptp.is_near_2 _let_97 _let_101) (tptp.is_near_2 _let_101 _let_97) (not (= _let_72 _let_101)) (tptp.has_region_2 _let_103 _let_109) (tptp.is_inside_2 _let_89 _let_109) (not (= _let_89 _let_71)) (tptp.object_2 _let_110 _let_71) (tptp.agent_2 _let_110 _let_73) (not (= _let_71 _let_89)) (tptp.object_2 _let_105 X) (tptp.speed_2 _let_105 _let_106) (tptp.directly_proportional_2 _let_106 _let_107) (tptp.quantity_2 _let_108 _let_107) (tptp.possesses_2 X _let_108) (tptp.has_region_2 _let_25 _let_104) (tptp.is_at_2 _let_96 _let_104) (not (= _let_96 _let_101)) (not (= _let_102 _let_104)) (not (= _let_104 _let_102)) (not (= _let_101 _let_96)) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_25 _let_1) (tptp.has_region_2 _let_25 _let_103) (not (= _let_81 _let_25)) (not (= _let_25 _let_81)) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_42) (tptp.has_part_2 X _let_82) (tptp.possesses_2 X _let_95) (tptp.has_region_2 _let_42 _let_101) (tptp.is_at_2 _let_101 _let_102) (tptp.has_region_2 _let_42 _let_102) (tptp.possesses_2 X _let_99) (tptp.has_part_2 X _let_25) (tptp.agent_2 _let_100 _let_25) (tptp.result_2 _let_100 _let_99) (tptp.has_function_2 _let_99 _let_98) (tptp.object_2 _let_98 _let_25) (tptp.agent_2 _let_98 _let_99) (tptp.is_between_2 _let_99 _let_42) (not (= _let_4 _let_42)) (not (= _let_42 _let_4)) (tptp.has_region_2 X _let_22) (tptp.is_inside_2 _let_25 _let_22) (not (= _let_25 _let_82)) (not (= _let_82 _let_42)) (not (= _let_42 _let_25)) (not (= _let_82 _let_25)) (not (= _let_42 _let_82)) (not (= _let_25 _let_42)) (tptp.has_region_2 X _let_17) (tptp.has_part_2 X _let_81) (tptp.has_part_2 _let_42 _let_97) (tptp.has_region_2 _let_25 _let_96) (tptp.is_near_2 _let_89 _let_96) (tptp.is_near_2 _let_96 _let_89) (not (= _let_72 _let_96)) (not (= _let_96 _let_72)) (tptp.is_between_2 _let_95 _let_42) (tptp.is_between_2 _let_95 _let_4) (tptp.is_inside_2 _let_4 _let_1) (not (= _let_25 _let_4)) (not (= _let_4 _let_25)) (tptp.called_2 _let_86 |tptp.'Number_Proton'|) (tptp.called_2 _let_75 |tptp.'Atomic_Number'|) (tptp.electronegativity_2 _let_25 _let_92) (tptp.the_cardinal_value_2 _let_92 |"3.44"|) (tptp.cardinal_unit_class_2 _let_92 tptp.unity_0) (tptp.called_2 _let_87 |tptp.'Number_Electron'|) (tptp.quantity_2 _let_88 _let_86) (tptp.has_part_2 _let_25 _let_88) (tptp.has_part_2 _let_25 _let_89) (tptp.quantity_2 _let_89 _let_87) (= _let_75 _let_86) (= _let_86 _let_75) (= _let_87 _let_86) (= _let_86 _let_87) (tptp.is_near_2 _let_71 _let_72) (tptp.is_near_2 _let_72 _let_71) (tptp.the_cardinal_value_2 _let_69 |"2.1"|) (tptp.cardinal_unit_class_2 _let_69 tptp.unity_0) (tptp.electronegativity_2 _let_4 _let_69) (tptp.has_part_2 _let_4 _let_73) (tptp.is_inside_2 _let_73 _let_72) (tptp.has_region_2 _let_4 _let_72) (tptp.has_part_2 _let_4 _let_71) (tptp.atomic_number_2 _let_25 _let_75) (not (= _let_81 _let_82)) (not (= _let_82 _let_81)) (tptp.is_inside_2 _let_81 _let_17) (tptp.is_inside_2 _let_42 _let_1) (tptp.site_2 _let_45 _let_83) (= _let_116 _let_63) (= _let_103 _let_63) (= X _let_46) (= (tptp.fn_carbohydrate_side_chain_19 X) _let_115) (= _let_112 _let_67) (= _let_114 _let_113) (= _let_97 _let_41) (= _let_98 _let_51) (= _let_111 _let_41) (= _let_82 _let_23) (= _let_89 _let_32) (= _let_100 _let_55) (= _let_42 _let_24) (= _let_99 _let_53) (= _let_88 _let_11) (= _let_83 (tptp.fn_carbohydrate_2 X)) (= (tptp.fn_carbohydrate_side_chain_54 X) (tptp.fn_carbohydrate_43 X)) (= _let_112 _let_66) (= (tptp.fn_carbohydrate_side_chain_55 X) (tptp.fn_carbohydrate_42 X)) (= _let_111 _let_31) (= _let_72 _let_9) (= _let_97 _let_31) (= _let_73 _let_11) (= _let_110 (tptp.fn_carbohydrate_14 X)) (= _let_71 _let_6) (= _let_89 _let_31) (= _let_109 (tptp.fn_carbohydrate_13 X)) (= _let_108 (tptp.fn_carbohydrate_7 X)) (= _let_107 (tptp.fn_carbohydrate_10 X)) (= _let_106 (tptp.fn_carbohydrate_9 X)) (= _let_105 (tptp.fn_carbohydrate_8 X)) (= _let_101 _let_57) (= _let_96 _let_9) (= _let_102 _let_60) (= _let_102 _let_59) (= _let_104 _let_65) (= _let_104 _let_64) (= _let_103 _let_62) (= _let_103 _let_61) (= _let_81 _let_19) (= _let_25 _let_15) (= X _let_47) (= _let_1 (tptp.fn_carbohydrate_33 X)) (= _let_95 _let_38) (= _let_102 _let_58) (= _let_101 _let_56) (= _let_100 _let_54) (= _let_42 _let_14) (= _let_4 _let_3) (= _let_99 _let_52) (= _let_98 _let_50) (= _let_25 _let_14) (= _let_42 _let_13) (= _let_82 _let_21) (= _let_25 _let_16) (= _let_25 _let_13) (= _let_22 _let_49) (= _let_22 _let_48) (= X _let_44) (= _let_97 _let_43) (= _let_97 _let_30) (= _let_72 _let_8) (= _let_89 _let_34) (= _let_89 _let_30) (= _let_96 _let_40) (= _let_96 _let_39) (= _let_25 _let_12) (= _let_4 _let_2) (= _let_95 _let_37) (= (tptp.fn_carbohydrate_side_chain_20 X) _let_94) (= (tptp.fn_carbohydrate_side_chain_6 X) _let_93) (= _let_92 _let_91) (= _let_90 _let_36) (= _let_90 _let_35) (= _let_87 _let_27) (= _let_89 _let_33) (= _let_89 _let_29) (= _let_88 _let_28) (= _let_87 _let_26) (= _let_86 _let_85) (= _let_45 _let_84) (= _let_42 _let_12) (= _let_82 _let_20) (= _let_81 _let_18) (= (tptp.fn_carbohydrate_side_chain_15 X) _let_80) (= (tptp.fn_carbohydrate_side_chain_5 X) _let_79) (= _let_78 _let_77) (= (tptp.fn_carbohydrate_side_chain_8 X) _let_76) (= _let_75 _let_74) (= _let_73 _let_10) (= _let_72 _let_7) (= _let_71 _let_5) (= (tptp.fn_carbohydrate_side_chain_21 X) _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_66 _let_41) (= _let_31 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_41) (= _let_41 _let_43) (= _let_43 _let_41) (= _let_41 _let_31) (= _let_30 _let_9) (= _let_9 _let_40) (= _let_40 _let_40) (= _let_40 _let_9) (= _let_9 _let_9) (= _let_9 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_11) (= _let_11 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_14) (= _let_14 _let_14) (= _let_12 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_18 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_4 (tptp.fn_atom_5 X))) (let ((_let_5 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_6 (tptp.fn_atom_17 X))) (let ((_let_7 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_8 (tptp.fn_carbon_10 X))) (let ((_let_9 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_10 (tptp.fn_carbon_17 X))) (let ((_let_11 (tptp.fn_carbon_19 X))) (let ((_let_12 (tptp.fn_carbon_16 X))) (let ((_let_13 (tptp.fn_atomic_nucleus_6 _let_1))) (let ((_let_14 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_15 (tptp.fn_carbon_11 X))) (let ((_let_16 (tptp.fn_carbon_12 X))) (let ((_let_17 (tptp.fn_carbon_15 X))) (let ((_let_18 (tptp.fn_carbon_2 X))) (let ((_let_19 (tptp.fn_carbon_4 X))) (let ((_let_20 (tptp.fn_carbon_5 X))) (let ((_let_21 (tptp.fn_carbon_3 X))) (=> (tptp.carbon_1 X) (and (tptp.original_name_2 X |tptp.'Carbon'|) (tptp.user_description_2 X |tptp.'Carbon is a non metal atom with atomic number 6. It is represented by the symbol C. It is tetravalent making four covalent chemical bonds.'|) (tptp.concept2words_2 X |tptp.'C'|) (tptp.concept2words_2 X tptp.carbon) (tptp.non_metal_atom_1 X) (not (tptp.copper_1 X)) (not (tptp.iron_1 X)) (not (tptp.magnesium_1 X)) (not (tptp.calcium_1 X)) (not (tptp.hydrogen_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.electronegativity_value_1 _let_18) (tptp.life_cycle_1 _let_21) (tptp.neutron_1 _let_19) (tptp.valence_value_1 _let_20) (tptp.electron_1 _let_8) (tptp.system_1 _let_15) (tptp.quantity_value_1 _let_16) (tptp.atomic_weight_value_1 _let_17) (tptp.atomic_number_value_1 _let_12) (tptp.proton_1 _let_10) (tptp.atomic_nucleus_1 _let_1) (tptp.quantity_value_1 _let_11) (tptp.property_node_1 _let_14) (tptp.property_node_1 _let_13) (tptp.proton_1 _let_9) (tptp.electron_1 _let_7) (tptp.atomic_number_value_1 _let_5) (tptp.quantity_value_1 _let_3) (tptp.atom_1 _let_2) (tptp.the_cardinal_value_2 _let_20 |"4.0e0"|) (tptp.cardinal_unit_class_2 _let_20 tptp.unity_0) (tptp.raw_material_2 _let_21 X) (tptp.electronegativity_2 X _let_18) (tptp.valence_2 X _let_20) (tptp.maxCardinality X tptp.has_part_0 |"8"| tptp.neutron_0) (tptp.minCardinality X tptp.has_part_0 |"6"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.electron_0) (tptp.has_part_2 X _let_19) (tptp.the_cardinal_value_2 _let_18 |"2.55"|) (tptp.cardinal_unit_class_2 _let_18 tptp.unity_0) (tptp.the_cardinal_value_2 _let_12 |"6"|) (tptp.cardinal_unit_class_2 _let_12 tptp.unity_0) (tptp.the_cardinal_value_2 _let_17 |"12.01"|) (tptp.cardinal_unit_class_2 _let_17 tptp.dalton_0) (tptp.called_2 _let_16 |tptp.'Number_Electron'|) (tptp.quantity_2 _let_8 _let_16) (tptp.atomic_weight_2 X _let_17) (= _let_11 _let_16) (= _let_16 _let_11) (tptp.is_inside_2 _let_10 _let_1) (tptp.called_2 _let_11 |tptp.'Number_Proton'|) (tptp.has_part_2 X _let_8) (tptp.atomic_number_2 X _let_12) (tptp.called_2 _let_12 |tptp.'Atomic_Number'|) (= _let_11 _let_12) (= _let_12 _let_11) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_10) (tptp.quantity_2 _let_10 _let_11) (tptp.is_near_2 _let_8 _let_1) (tptp.is_near_2 _let_1 _let_8) (= (tptp.fn_carbon_8 X) (tptp.fn_atom_10 X)) (= (tptp.fn_carbon_14 X) (tptp.fn_atom_13 X)) (= _let_17 (tptp.fn_atom_16 X)) (= _let_12 _let_6) (= (tptp.fn_carbon_7 X) (tptp.fn_atom_2 X)) (= _let_11 _let_4) (= _let_16 (tptp.fn_atom_11 X)) (= (tptp.fn_carbon_20 X) (tptp.fn_atom_4 X)) (= _let_15 (tptp.fn_atom_3 X)) (= (tptp.fn_carbon_13 X) _let_14) (= (tptp.fn_carbon_9 X) _let_13) (= _let_12 _let_5) (= _let_11 _let_3) (= _let_10 _let_9) (= X _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atom_11 X))) (let ((_let_2 (tptp.fn_atom_5 X))) (let ((_let_3 (tptp.fn_atom_17 X))) (let ((_let_4 (tptp.fn_carbon_isotope_8 X))) (let ((_let_5 (tptp.fn_carbon_12_13 X))) (let ((_let_6 (tptp.fn_carbon_12_12 X))) (let ((_let_7 (tptp.fn_carbon_12_11 X))) (let ((_let_8 (tptp.fn_carbon_12_15 X))) (let ((_let_9 (tptp.fn_carbon_12_16 X))) (let ((_let_10 (tptp.fn_carbon_12_10 X))) (let ((_let_11 (tptp.fn_carbon_12_2 X))) (let ((_let_12 (tptp.fn_carbon_12_3 X))) (=> (tptp.carbon_12_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-12'|) (tptp.user_description_2 X |tptp.'Isotope of Carbon having 6 neutrons and 6 protons.'|) (tptp.concept2words_2 X |tptp.'c 12'|) (tptp.concept2words_2 X |tptp.'c-12'|) (tptp.concept2words_2 X |tptp.'12 of carbon'|) (tptp.concept2words_2 X |tptp.'carbon 12'|) (tptp.concept2words_2 X |tptp.'carbon-12'|) (tptp.carbon_isotope_1 X) (tptp.atomic_mass_value_1 _let_11) (tptp.chemical_stability_value_1 _let_12) (tptp.atomic_weight_value_1 _let_10) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.proton_1 _let_5) (tptp.atomic_number_value_1 _let_8) (tptp.system_1 _let_9) (tptp.the_cardinal_value_2 _let_10 |"12.0e0"|) (tptp.cardinal_unit_class_2 _let_10 tptp.dalton_0) (tptp.called_2 _let_7 |tptp.'Number_Electron'|) (tptp.called_2 _let_6 |tptp.'Number_Proton'|) (tptp.the_categorical_value_2 _let_12 tptp.stable_0) (tptp.chemical_stability_2 X _let_12) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.neutron_0) (tptp.mass_number_2 X _let_11) (tptp.the_cardinal_value_2 _let_11 |"12.0e0"|) (tptp.cardinal_unit_class_2 _let_11 tptp.unity_0) (tptp.the_cardinal_value_2 _let_8 |"6"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.called_2 _let_8 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 X _let_8) (tptp.atomic_weight_2 X _let_10) (tptp.has_part_2 X _let_5) (tptp.quantity_2 _let_5 _let_6) (= _let_6 _let_8) (= _let_7 _let_6) (= _let_6 _let_7) (= _let_8 _let_6) (= (tptp.fn_carbon_12_9 X) (tptp.fn_atom_12 X)) (= (tptp.fn_carbon_12_8 X) (tptp.fn_atom_13 X)) (= (tptp.fn_carbon_12_6 X) (tptp.fn_atom_1 X)) (= _let_6 _let_2) (= (tptp.fn_carbon_12_7 X) (tptp.fn_atom_10 X)) (= _let_7 _let_1) (= (tptp.fn_carbon_12_5 X) (tptp.fn_atom_2 X)) (= _let_10 (tptp.fn_atom_16 X)) (= _let_8 _let_4) (= (tptp.fn_carbon_12_14 X) (tptp.fn_atom_4 X)) (= _let_9 (tptp.fn_atom_3 X)) (= _let_8 _let_3) (= _let_7 _let_2) (= _let_6 _let_1) (= _let_5 (tptp.fn_atom_8 X)) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_atom_11 X))) (let ((_let_2 (tptp.fn_atom_5 X))) (let ((_let_3 (tptp.fn_atom_17 X))) (let ((_let_4 (tptp.fn_carbon_isotope_8 X))) (let ((_let_5 (tptp.fn_carbon_13_10 X))) (let ((_let_6 (tptp.fn_carbon_13_13 X))) (let ((_let_7 (tptp.fn_carbon_13_12 X))) (let ((_let_8 (tptp.fn_carbon_13_16 X))) (let ((_let_9 (tptp.fn_carbon_13_17 X))) (let ((_let_10 (tptp.fn_carbon_13_11 X))) (let ((_let_11 (tptp.fn_carbon_13_14 X))) (let ((_let_12 (tptp.fn_carbon_13_3 X))) (let ((_let_13 (tptp.fn_carbon_13_1 X))) (=> (tptp.carbon_13_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-13'|) (tptp.user_description_2 X |tptp.'Isotope of Carbon having 7 neutrons and 6 protons.'|) (tptp.concept2words_2 X |tptp.'13 of carbon'|) (tptp.concept2words_2 X |tptp.'carbon 13'|) (tptp.concept2words_2 X |tptp.'carbon-13'|) (tptp.carbon_isotope_1 X) (tptp.chemical_stability_value_1 _let_13) (tptp.atomic_mass_value_1 _let_12) (tptp.proton_1 _let_5) (tptp.atomic_weight_value_1 _let_10) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.neutron_1 _let_11) (tptp.atomic_number_value_1 _let_8) (tptp.system_1 _let_9) (tptp.mass_number_2 X _let_12) (tptp.chemical_stability_2 X _let_13) (tptp.exactCardinality X tptp.has_part_0 |"7"| tptp.neutron_0) (tptp.the_categorical_value_2 _let_13 tptp.stable_0) (tptp.the_cardinal_value_2 _let_12 |"13.0e0"|) (tptp.cardinal_unit_class_2 _let_12 tptp.unity_0) (tptp.called_2 _let_6 |tptp.'Number_Proton'|) (tptp.called_2 _let_7 |tptp.'Number_Electron'|) (tptp.the_cardinal_value_2 _let_10 |"13.003e0"|) (tptp.cardinal_unit_class_2 _let_10 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_8 |"6"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.has_part_2 X _let_11) (tptp.called_2 _let_8 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 X _let_8) (tptp.atomic_weight_2 X _let_10) (tptp.has_part_2 X _let_5) (tptp.quantity_2 _let_5 _let_6) (= _let_6 _let_8) (= _let_7 _let_6) (= _let_6 _let_7) (= _let_8 _let_6) (= _let_11 (tptp.fn_carbon_isotope_6 X)) (= (tptp.fn_carbon_13_9 X) (tptp.fn_atom_12 X)) (= (tptp.fn_carbon_13_8 X) (tptp.fn_atom_13 X)) (= (tptp.fn_carbon_13_6 X) (tptp.fn_atom_1 X)) (= _let_6 _let_2) (= (tptp.fn_carbon_13_7 X) (tptp.fn_atom_10 X)) (= _let_7 _let_1) (= (tptp.fn_carbon_13_5 X) (tptp.fn_atom_2 X)) (= _let_10 (tptp.fn_atom_16 X)) (= _let_8 _let_4) (= (tptp.fn_carbon_13_15 X) (tptp.fn_atom_4 X)) (= _let_9 (tptp.fn_atom_3 X)) (= _let_8 _let_3) (= _let_7 _let_2) (= _let_6 _let_1) (= _let_5 (tptp.fn_atom_8 X)) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_14_15 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_carbon_isotope_10 X))) (let ((_let_4 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_5 (tptp.fn_carbon_isotope_8 X))) (let ((_let_6 (tptp.fn_atom_17 X))) (let ((_let_7 (tptp.fn_atom_8 X))) (let ((_let_8 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_9 (tptp.fn_atom_11 X))) (let ((_let_10 (tptp.fn_atom_5 X))) (let ((_let_11 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_12 (tptp.fn_carbon_14_22 X))) (let ((_let_13 (tptp.fn_carbon_14_21 X))) (let ((_let_14 (tptp.fn_carbon_14_19 X))) (let ((_let_15 (tptp.fn_carbon_14_17 X))) (let ((_let_16 (tptp.fn_carbon_14_20 X))) (let ((_let_17 (tptp.fn_carbon_14_12 X))) (let ((_let_18 (tptp.fn_carbon_14_13 X))) (let ((_let_19 (tptp.fn_carbon_14_11 X))) (let ((_let_20 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_21 (tptp.fn_carbon_14_16 X))) (let ((_let_22 (tptp.fn_carbon_14_18 X))) (let ((_let_23 (tptp.fn_carbon_14_4 X))) (let ((_let_24 (tptp.fn_carbon_14_3 X))) (let ((_let_25 (tptp.fn_carbon_14_2 X))) (=> (tptp.carbon_14_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-14'|) (tptp.user_description_2 X |tptp.'Isotope of Carbon having 8 neutrons and 6 protons.'|) (tptp.concept2words_2 X |tptp.'c 14'|) (tptp.concept2words_2 X |tptp.'c-14'|) (tptp.concept2words_2 X |tptp.'14 of carbon'|) (tptp.concept2words_2 X |tptp.'carbon 14'|) (tptp.concept2words_2 X |tptp.'carbon-14'|) (tptp.carbon_isotope_1 X) (tptp.radioactive_isotope_1 X) (tptp.chemical_stability_value_1 _let_25) (tptp.nitrogen_1 _let_24) (tptp.atomic_mass_value_1 _let_23) (tptp.atomic_weight_value_1 _let_19) (tptp.quantity_value_1 _let_17) (tptp.system_1 _let_18) (tptp.atomic_nucleus_1 _let_1) (tptp.center_1 _let_21) (tptp.proton_1 _let_15) (tptp.radioactivity_1 _let_22) (tptp.atomic_number_value_1 _let_14) (tptp.quantity_value_1 _let_16) (tptp.valence_electron_1 _let_13) (tptp.electron_1 _let_12) (tptp.valence_electron_1 _let_12) (tptp.center_1 _let_20) (tptp.quantity_value_1 _let_11) (tptp.proton_1 _let_8) (tptp.electron_1 _let_4) (tptp.atom_1 _let_2) (tptp.quantity_2 _let_12 _let_17) (tptp.is_near_2 _let_13 _let_1) (tptp.the_categorical_value_2 _let_25 tptp.unstable_0) (tptp.mass_number_2 X _let_23) (tptp.chemical_stability_2 X _let_25) (tptp.exactCardinality X tptp.has_part_0 |"8"| tptp.neutron_0) (tptp.result_2 _let_22 _let_24) (tptp.is_near_2 _let_1 _let_13) (tptp.called_2 _let_17 |tptp.'Number_Electron'|) (tptp.the_cardinal_value_2 _let_23 |"14.0e0"|) (tptp.cardinal_unit_class_2 _let_23 tptp.unity_0) (tptp.the_cardinal_value_2 _let_19 |"14.003e0"|) (tptp.cardinal_unit_class_2 _let_19 tptp.dalton_0) (tptp.called_2 _let_16 |tptp.'Number_Proton'|) (tptp.has_function_2 X _let_22) (tptp.object_2 _let_22 X) (tptp.is_inside_2 _let_15 _let_1) (tptp.is_at_2 _let_1 _let_21) (tptp.has_region_2 X _let_21) (tptp.is_near_2 _let_12 _let_1) (tptp.is_near_2 _let_1 _let_12) (tptp.atomic_weight_2 X _let_19) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_15) (tptp.quantity_2 _let_15 _let_16) (= _let_16 _let_14) (= _let_17 _let_16) (= _let_16 _let_17) (= _let_14 _let_16) (tptp.the_cardinal_value_2 _let_14 |"6"|) (tptp.cardinal_unit_class_2 _let_14 tptp.unity_0) (tptp.has_part_2 X _let_12) (not (= _let_12 _let_13)) (tptp.has_part_2 X _let_13) (tptp.atomic_number_2 X _let_14) (tptp.called_2 _let_14 |tptp.'Atomic_Number'|) (not (= _let_13 _let_12)) (= _let_22 (tptp.fn_radioactive_isotope_3 X)) (= _let_21 _let_20) (= _let_12 _let_4) (= (tptp.fn_carbon_14_8 X) (tptp.fn_atom_12 X)) (= (tptp.fn_carbon_14_9 X) (tptp.fn_atom_1 X)) (= _let_16 _let_10) (= (tptp.fn_carbon_14_7 X) (tptp.fn_atom_13 X)) (= _let_19 (tptp.fn_atom_16 X)) (= (tptp.fn_carbon_14_10 X) (tptp.fn_atom_10 X)) (= _let_17 _let_9) (= _let_1 (tptp.fn_atom_18 X)) (= _let_18 (tptp.fn_atom_3 X)) (= (tptp.fn_carbon_14_6 X) (tptp.fn_atom_2 X)) (= (tptp.fn_carbon_14_14 X) (tptp.fn_atom_4 X)) (= _let_17 _let_10) (= _let_16 _let_11) (= _let_16 _let_9) (= X _let_2) (= _let_15 _let_8) (= _let_15 _let_7) (= _let_14 _let_6) (= _let_14 _let_5) (= _let_13 (tptp.fn_carbon_isotope_9 X)) (= _let_12 _let_3) (= _let_9 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_cycle_43 X))) (let ((_let_2 (tptp.fn_gas_substance_1 _let_1))) (let ((_let_3 (tptp.fn_chemical_1 _let_1))) (let ((_let_4 (tptp.fn_gas_substance_2 _let_1))) (let ((_let_5 (tptp.fn_chemical_2 _let_1))) (let ((_let_6 (tptp.fn_co2_gas_1 _let_1))) (let ((_let_7 (tptp.fn_carbon_cycle_39 X))) (let ((_let_8 (tptp.fn_combustion_of_fossil_fuel_4 _let_7))) (let ((_let_9 (tptp.fn_biogeochemical_cycle_1 X))) (let ((_let_10 (tptp.fn_carbon_cycle_14 X))) (let ((_let_11 (tptp.fn_cellular_respiration_65 _let_10))) (let ((_let_12 (tptp.fn_carbon_cycle_15 X))) (let ((_let_13 (tptp.fn_glycolysis_78 _let_12))) (let ((_let_14 (tptp.fn_cellular_respiration_47 _let_10))) (let ((_let_15 (tptp.fn_glycolysis_81 _let_12))) (let ((_let_16 (tptp.fn_glycolysis_47 _let_12))) (let ((_let_17 (tptp.fn_cellular_respiration_46 _let_10))) (let ((_let_18 (tptp.fn_glycolysis_80 _let_12))) (let ((_let_19 (tptp.fn_glycolysis_48 _let_12))) (let ((_let_20 (tptp.fn_cellular_respiration_41 _let_10))) (let ((_let_21 (tptp.fn_glycolysis_97 _let_12))) (let ((_let_22 (tptp.fn_cellular_respiration_55 _let_10))) (let ((_let_23 (tptp.fn_glycolysis_55 _let_12))) (let ((_let_24 (tptp.fn_cellular_respiration_40 _let_10))) (let ((_let_25 (tptp.fn_glycolysis_9 _let_12))) (let ((_let_26 (tptp.fn_carbon_cycle_28 X))) (let ((_let_27 (tptp.fn_photosynthesis_40 _let_26))) (let ((_let_28 (tptp.fn_photosynthesis_1 _let_26))) (let ((_let_29 (tptp.fn_photosynthesis_44 _let_26))) (let ((_let_30 (tptp.fn_carbon_cycle_23 X))) (let ((_let_31 (tptp.fn_cell_wall_17 _let_30))) (let ((_let_32 (tptp.fn_photosynthesis_38 _let_26))) (let ((_let_33 (tptp.fn_carbon_cycle_26 X))) (let ((_let_34 (tptp.fn_cellular_respiration_61 _let_33))) (let ((_let_35 (tptp.fn_exergonic_reaction_11 _let_33))) (let ((_let_36 (tptp.fn_carbon_cycle_33 X))) (let ((_let_37 (tptp.fn_photosynthesis_38 _let_36))) (let ((_let_38 (tptp.fn_carbon_cycle_47 X))) (let ((_let_39 (tptp.fn_decomposition_2 _let_38))) (let ((_let_40 (tptp.fn_carbon_cycle_52 X))) (let ((_let_41 (tptp.fn_reduction_3 _let_40))) (let ((_let_42 (tptp.fn_decomposition_14 _let_38))) (let ((_let_43 (tptp.fn_carbon_cycle_44 X))) (let ((_let_44 (tptp.fn_decomposer_1 _let_43))) (let ((_let_45 (tptp.fn_combustion_of_fossil_fuel_2 _let_7))) (let ((_let_46 (tptp.fn_exergonic_reaction_11 _let_7))) (let ((_let_47 (tptp.fn_carbon_cycle_21 X))) (let ((_let_48 (tptp.fn_support_1 _let_47))) (let ((_let_49 (tptp.fn_carbon_cycle_55 X))) (let ((_let_50 (tptp.fn_consume_1 _let_49))) (let ((_let_51 (tptp.fn_carbon_cycle_42 X))) (let ((_let_52 (tptp.fn_carbon_cycle_60 X))) (let ((_let_53 (tptp.fn_carbon_cycle_40 X))) (let ((_let_54 (tptp.fn_exergonic_reaction_11 _let_12))) (let ((_let_55 (tptp.fn_carbon_cycle_17 X))) (let ((_let_56 (tptp.fn_cellular_respiration_60 _let_10))) (let ((_let_57 (tptp.fn_carbon_cycle_18 X))) (let ((_let_58 (tptp.fn_carbon_cycle_19 X))) (let ((_let_59 (tptp.fn_carbon_cycle_20 X))) (let ((_let_60 (tptp.fn_carbon_cycle_57 X))) (let ((_let_61 (tptp.fn_carbon_cycle_16 X))) (let ((_let_62 (tptp.fn_carbon_cycle_56 X))) (let ((_let_63 (tptp.fn_photosynthesis_34 _let_26))) (let ((_let_64 (tptp.fn_carbon_cycle_29 X))) (let ((_let_65 (tptp.fn_carbon_cycle_30 X))) (let ((_let_66 (tptp.fn_photosynthesis_35 _let_26))) (let ((_let_67 (tptp.fn_carbon_cycle_31 X))) (let ((_let_68 (tptp.fn_photosynthesis_30 _let_26))) (let ((_let_69 (tptp.fn_carbon_cycle_32 X))) (let ((_let_70 (tptp.fn_carbon_cycle_25 X))) (let ((_let_71 (tptp.fn_carbon_cycle_27 X))) (let ((_let_72 (tptp.fn_carbon_cycle_46 X))) (let ((_let_73 (tptp.fn_photosynthesis_50 _let_36))) (let ((_let_74 (tptp.fn_carbon_cycle_48 X))) (let ((_let_75 (tptp.fn_photosynthesis_51 _let_36))) (let ((_let_76 (tptp.fn_carbon_cycle_49 X))) (let ((_let_77 (tptp.fn_photosynthesis_52 _let_36))) (let ((_let_78 (tptp.fn_carbon_cycle_50 X))) (let ((_let_79 (tptp.fn_photosynthesis_53 _let_36))) (let ((_let_80 (tptp.fn_carbon_cycle_51 X))) (let ((_let_81 (tptp.fn_photosynthesis_37 _let_36))) (let ((_let_82 (tptp.fn_carbon_cycle_53 X))) (let ((_let_83 (tptp.fn_photosynthesis_29 _let_36))) (let ((_let_84 (tptp.fn_photosynthesis_55 _let_36))) (let ((_let_85 (tptp.fn_photosynthesis_56 _let_36))) (let ((_let_86 (tptp.fn_cell_wall_15 _let_30))) (let ((_let_87 (tptp.fn_carbon_cycle_24 X))) (let ((_let_88 (tptp.fn_carbon_cycle_45 X))) (let ((_let_89 (tptp.fn_plant_cell_wall_23 _let_30))) (let ((_let_90 (tptp.fn_carbon_cycle_22 X))) (let ((_let_91 (tptp.fn_carbon_cycle_41 X))) (let ((_let_92 (tptp.fn_carbon_cycle_38 X))) (let ((_let_93 (tptp.fn_plankton_1 _let_92))) (let ((_let_94 (tptp.fn_carbon_cycle_37 X))) (let ((_let_95 (tptp.fn_carbon_cycle_36 X))) (let ((_let_96 (tptp.fn_primary_consumer_3 _let_95))) (let ((_let_97 (tptp.fn_carbon_cycle_35 X))) (let ((_let_98 (tptp.fn_carbon_cycle_54 X))) (let ((_let_99 (tptp.fn_carbon_cycle_34 X))) (let ((_let_100 (tptp.fn_consume_1 _let_99))) (let ((_let_101 (tptp.fn_carbon_cycle_13 X))) (let ((_let_102 (tptp.fn_carbon_cycle_7 X))) (let ((_let_103 (tptp.fn_carbon_cycle_11 X))) (let ((_let_104 (tptp.fn_carbon_cycle_10 X))) (let ((_let_105 (tptp.fn_carbon_cycle_9 X))) (let ((_let_106 (tptp.fn_carbon_cycle_12 X))) (let ((_let_107 (tptp.fn_carbon_cycle_6 X))) (let ((_let_108 (tptp.fn_carbon_cycle_1 X))) (let ((_let_109 (tptp.fn_carbon_cycle_5 X))) (let ((_let_110 (tptp.fn_carbon_cycle_4 X))) (let ((_let_111 (tptp.fn_carbon_cycle_2 X))) (let ((_let_112 (tptp.fn_carbon_cycle_3 X))) (=> (tptp.carbon_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Cycle'|) (tptp.user_description_2 X |tptp.'Global biogeochemical processes which cycle carbon through biotic and abiotic components of ecosystems.'|) (tptp.concept2words_2 X |tptp.'undergo the carbon cycle'|) (tptp.concept2words_2 X |tptp.'cycle of carbon'|) (tptp.concept2words_2 X |tptp.'carbon cycle'|) (tptp.concept2words_2 X |tptp.'carbon-cycle'|) (tptp.global_biogeochemical_cycle_1 X) (not (tptp.nitrogen_cycle_1 X)) (tptp.cell_1 _let_108) (tptp.potential_energy_1 _let_111) (tptp.redox_reaction_1 _let_112) (tptp.cytoplasm_1 _let_110) (tptp.mitochondrion_1 _let_109) (tptp.biotic_factor_1 _let_107) (tptp.organism_1 _let_102) (tptp.unitless_value_1 _let_105) (tptp.abiotic_factor_1 _let_104) (tptp.biotic_factor_1 _let_103) (tptp.abiotic_factor_1 _let_106) (tptp.nutrient_1 _let_101) (tptp.cellular_respiration_1 _let_10) (tptp.glycolysis_1 _let_12) (tptp.exergonic_reaction_1 _let_12) (tptp.organic_molecule_1 _let_61) (tptp.pyruvate_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.water_molecule_1 _let_55) (tptp.spatial_entity_1 _let_57) (tptp.tangible_entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.organic_molecule_1 _let_57) (tptp.molecule_1 _let_57) (tptp.nad_plus_1 _let_57) (tptp.structural_complexity_value_1 _let_58) (tptp.structural_complexity_value_1 _let_59) (tptp.support_1 _let_47) (tptp.tangible_entity_1 _let_90) (tptp.microfibril_1 _let_90) (tptp.plant_cell_wall_1 _let_30) (tptp.membrane_1 _let_87) (tptp.spatial_entity_1 _let_87) (tptp.biomembrane_1 _let_87) (tptp.plasma_membrane_1 _let_87) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_70) (tptp.cellular_respiration_1 _let_33) (tptp.spatial_entity_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.hydrophobic_compound_1 _let_71) (tptp.molecule_1 _let_71) (tptp.carbon_dioxide_1 _let_71) (tptp.photosynthesis_1 _let_26) (tptp.visible_light_1 _let_64) (tptp.energy_1 _let_64) (tptp.chemical_energy_1 _let_65) (tptp.light_reaction_1 _let_67) (tptp.membrane_1 _let_69) (tptp.spatial_entity_1 _let_69) (tptp.biomembrane_1 _let_69) (tptp.thylakoid_membrane_1 _let_69) (tptp.photosynthesis_1 _let_36) (tptp.consume_1 _let_99) (tptp.organism_1 _let_97) (tptp.primary_consumer_1 _let_95) (tptp.cell_1 _let_94) (tptp.phytoplankton_1 _let_92) (tptp.combustion_of_fossil_fuel_1 _let_7) (tptp.tangible_entity_1 _let_53) (tptp.carbon_dioxide_1 _let_53) (tptp.chemical_entity_1 _let_91) (tptp.nitric_oxide_1 _let_91) (tptp.state_value_1 _let_51) (tptp.co2_gas_1 _let_1) (tptp.chemical_1 _let_1) (tptp.gas_substance_1 _let_1) (tptp.decomposer_1 _let_43) (tptp.living_entity_1 _let_88) (tptp.tangible_entity_1 _let_88) (tptp.organism_1 _let_88) (tptp.inorganic_molecule_1 _let_72) (tptp.spatial_entity_1 _let_72) (tptp.tangible_entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.hydrophobic_compound_1 _let_72) (tptp.molecule_1 _let_72) (tptp.carbon_dioxide_1 _let_72) (tptp.decomposition_1 _let_38) (tptp.free_energy_1 _let_74) (tptp.quantity_value_1 _let_76) (tptp.quantity_value_1 _let_78) (tptp.free_energy_1 _let_80) (tptp.reduction_1 _let_40) (tptp.tangible_entity_1 _let_82) (tptp.chemical_entity_1 _let_82) (tptp.sugar_1 _let_82) (tptp.plant_1 _let_98) (tptp.consume_1 _let_49) (tptp.entity_1 _let_100) (tptp.organism_1 _let_96) (tptp.cell_1 _let_93) (tptp.tangible_entity_1 _let_89) (tptp.microfibril_1 _let_89) (tptp.membrane_1 _let_86) (tptp.spatial_entity_1 _let_86) (tptp.biomembrane_1 _let_86) (tptp.plasma_membrane_1 _let_86) (tptp.property_node_1 _let_85) (tptp.property_node_1 _let_84) (tptp.co2_gas_1 _let_83) (tptp.tangible_entity_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.sugar_1 _let_81) (tptp.free_energy_1 _let_79) (tptp.quantity_value_1 _let_77) (tptp.quantity_value_1 _let_75) (tptp.free_energy_1 _let_73) (tptp.membrane_1 _let_68) (tptp.spatial_entity_1 _let_68) (tptp.biomembrane_1 _let_68) (tptp.thylakoid_membrane_1 _let_68) (tptp.light_reaction_1 _let_66) (tptp.visible_light_1 _let_63) (tptp.energy_1 _let_63) (tptp.glycolysis_1 _let_56) (tptp.chemical_entity_1 _let_54) (tptp.entity_1 _let_50) (tptp.tangible_entity_1 _let_48) (tptp.chemical_entity_1 _let_46) (tptp.nitric_oxide_1 _let_45) (tptp.organism_1 _let_44) (tptp.living_entity_1 _let_42) (tptp.tangible_entity_1 _let_42) (tptp.organism_1 _let_42) (tptp.chemical_entity_1 _let_41) (tptp.inorganic_molecule_1 _let_39) (tptp.spatial_entity_1 _let_37) (tptp.tangible_entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.hydrophobic_compound_1 _let_37) (tptp.molecule_1 _let_37) (tptp.carbon_dioxide_1 _let_37) (tptp.chemical_entity_1 _let_35) (tptp.tangible_entity_1 _let_34) (tptp.carbon_dioxide_1 _let_34) (tptp.spatial_entity_1 _let_32) (tptp.tangible_entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.hydrophobic_compound_1 _let_32) (tptp.molecule_1 _let_32) (tptp.carbon_dioxide_1 _let_32) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_31) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_29) (tptp.chemical_energy_1 _let_28) (tptp.chemical_energy_1 _let_27) (tptp.property_node_1 _let_25) (tptp.property_node_1 _let_24) (tptp.pyruvate_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.organic_molecule_1 _let_22) (tptp.pyruvate_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.property_node_1 _let_21) (tptp.property_node_1 _let_20) (tptp.structural_complexity_value_1 _let_19) (tptp.structural_complexity_value_1 _let_18) (tptp.structural_complexity_value_1 _let_17) (tptp.structural_complexity_value_1 _let_16) (tptp.structural_complexity_value_1 _let_15) (tptp.structural_complexity_value_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.organic_molecule_1 _let_13) (tptp.nad_plus_1 _let_13) (tptp.molecule_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.molecule_1 _let_11) (tptp.nad_plus_1 _let_11) (tptp.carbon_dioxide_1 _let_8) (tptp.carbon_dioxide_1 _let_6) (tptp.state_value_1 _let_5) (tptp.state_value_1 _let_4) (tptp.property_node_1 _let_3) (tptp.property_node_1 _let_2) (tptp.causes_2 _let_12 _let_112) (tptp.raw_material_2 _let_12 _let_111) (tptp.has_function_2 _let_90 _let_47) (tptp.is_inside_2 _let_87 _let_30) (tptp.is_between_2 _let_110 _let_87) (tptp.is_inside_2 _let_110 _let_87) (tptp.is_inside_2 _let_109 _let_110) (tptp.site_2 _let_33 _let_109) (tptp.agent_2 _let_99 _let_97) (tptp.has_part_2 _let_97 _let_108) (tptp.plays_2 _let_94 _let_107) (tptp.plays_2 _let_53 _let_106) (tptp.the_scalar_value_2 _let_105 tptp.high_0) (tptp.scalar_unit_class_2 _let_105 tptp.biogeochemical_cycle_0) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_38) (tptp.subevent_2 X _let_49) (tptp.subevent_2 X _let_36) (tptp.subevent_2 X _let_99) (tptp.subevent_2 X _let_10) (tptp.importance_2 X _let_105) (tptp.plays_2 _let_72 _let_104) (tptp.result_2 _let_40 _let_82) (tptp.plays_2 _let_98 _let_103) (tptp.agent_2 _let_49 _let_102) (tptp.in_event_2 _let_101 X) (tptp.object_2 _let_49 _let_98) (tptp.object_2 X _let_53) (tptp.object_2 _let_99 _let_92) (tptp.object_2 _let_47 _let_98) (tptp.recipient_2 _let_40 _let_72) (tptp.result_2 _let_38 _let_72) (tptp.plays_2 _let_97 _let_95) (tptp.has_part_2 _let_92 _let_94) (tptp.result_2 _let_7 _let_91) (tptp.result_2 _let_7 _let_53) (tptp.result_2 _let_33 _let_71) (tptp.plays_2 _let_88 _let_43) (tptp.has_part_2 _let_30 _let_90) (tptp.agent_2 _let_38 _let_88) (tptp.is_outside_2 _let_30 _let_87) (tptp.path_2 _let_70 _let_87) (tptp.structural_complexity_2 _let_61 _let_59) (tptp.called_2 _let_76 |tptp.'FE_r'|) (tptp.has_part_2 _let_1 _let_72) (tptp.quantity_2 _let_80 _let_78) (tptp.possesses_2 _let_82 _let_80) (tptp.raw_material_2 _let_36 _let_72) (tptp.possesses_2 _let_72 _let_74) (tptp.quantity_2 _let_74 _let_76) (tptp.greater_than_2 _let_78 _let_76) (tptp.called_2 _let_78 |tptp.'FE_p'|) (tptp.raw_material_2 _let_26 _let_71) (tptp.path_2 _let_70 _let_69) (tptp.result_2 _let_26 _let_65) (tptp.raw_material_2 _let_26 _let_64) (tptp.raw_material_2 _let_67 _let_64) (tptp.site_2 _let_67 _let_69) (not (= _let_65 _let_64)) (not (= _let_64 _let_65)) (tptp.first_subevent_2 _let_10 _let_12) (tptp.result_2 _let_12 _let_61) (tptp.subevent_2 _let_10 _let_12) (tptp.raw_material_2 _let_12 _let_57) (tptp.structural_complexity_2 _let_57 _let_58) (tptp.greater_than_2 _let_58 _let_59) (tptp.the_categorical_value_2 _let_51 tptp.gas_0) (tptp.physical_state_2 _let_1 _let_51) (tptp.has_part_2 _let_1 _let_53) (tptp.result_2 _let_12 _let_55) (= _let_98 _let_50) (= _let_53 _let_9) (= _let_92 _let_100) (= _let_98 _let_48) (= _let_72 _let_41) (= _let_72 _let_39) (= _let_97 _let_96) (= _let_94 _let_93) (= _let_91 _let_46) (= _let_91 _let_45) (= _let_53 _let_8) (= _let_71 _let_35) (= _let_71 _let_34) (= _let_88 _let_44) (= _let_90 _let_89) (= _let_88 _let_42) (= _let_70 _let_31) (= _let_87 _let_86) (= (tptp.fn_carbon_cycle_58 X) _let_85) (= (tptp.fn_carbon_cycle_59 X) _let_84) (= _let_1 _let_83) (= _let_82 _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_72 _let_37) (= _let_71 _let_32) (= _let_70 _let_29) (= _let_65 _let_28) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_27) (= _let_64 _let_63) (= _let_62 _let_25) (= _let_62 _let_24) (= _let_61 _let_23) (= _let_61 _let_22) (= _let_60 _let_21) (= _let_60 _let_20) (= _let_58 _let_16) (= _let_59 _let_19) (= _let_59 _let_18) (= _let_59 _let_17) (= _let_58 _let_15) (= _let_58 _let_14) (= _let_57 _let_13) (= _let_57 _let_11) (= _let_12 _let_56) (= _let_55 _let_54) (= _let_53 _let_6) (= _let_52 _let_3) (= _let_51 _let_5) (= _let_52 _let_2) (= _let_51 _let_4) (= _let_50 _let_48) (= _let_48 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.carbon_dating_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Dating'|) (tptp.user_description_2 X |tptp.'A method for determining the absolute ages of rocks and fossils, based on the half-life of carbon isotopes.'|) (tptp.concept2words_2 X |tptp.'dating of carbon'|) (tptp.concept2words_2 X |tptp.'carbon dating'|) (tptp.concept2words_2 X |tptp.'carbon-dating'|) (tptp.radiometric_dating_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_dioxide_2 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_4 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_5 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_6 (tptp.fn_carbon_dioxide_6 X))) (let ((_let_7 (tptp.fn_share_3 _let_6))) (let ((_let_8 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_10 (tptp.fn_molecule_7 X))) (let ((_let_11 (tptp.fn_share_1 _let_6))) (let ((_let_12 (tptp.fn_carbon_dioxide_7 X))) (let ((_let_13 (tptp.fn_carbon_dioxide_4 X))) (let ((_let_14 (tptp.fn_carbon_dioxide_3 X))) (let ((_let_15 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_16 (tptp.fn_carbon_dioxide_5 X))) (let ((_let_17 (tptp.fn_carbon_dioxide_1 X))) (=> (tptp.carbon_dioxide_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Dioxide'|) (tptp.user_description_2 X |tptp.'Carbon dioxide (chemical formula CO2) is an inorganic chemical compound composed of two oxygen atoms covalently bonded to a single carbon atom.'|) (tptp.concept2words_2 X tptp.co2) (tptp.concept2words_2 X |tptp.'dioxide of carbon'|) (tptp.concept2words_2 X |tptp.'carbon dioxide'|) (tptp.concept2words_2 X |tptp.'carbon-dioxide'|) (tptp.covalent_compound_1 X) (tptp.nonpolar_molecule_1 X) (tptp.inorganic_molecule_1 X) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.oxygen_1 _let_17) (tptp.double_bond_1 _let_1) (tptp.carbon_1 _let_14) (tptp.oxygen_1 _let_13) (tptp.share_1 _let_16) (tptp.equal_sharing_1 _let_6) (tptp.hold_together_1 _let_12) (tptp.share_1 _let_15) (tptp.entity_1 _let_11) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.hold_together_1 _let_3) (tptp.hold_together_1 _let_2) (tptp.has_part_2 X _let_13) (tptp.has_part_2 X _let_17) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.oxygen_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.exactCardinality X tptp.possesses_0 |"2"| tptp.double_bond_0) (tptp.result_2 _let_6 _let_1) (tptp.agent_2 _let_6 _let_13) (tptp.agent_2 _let_6 _let_14) (tptp.has_part_2 X _let_14) (tptp.possesses_2 X _let_1) (tptp.result_2 _let_16 _let_1) (tptp.is_between_2 _let_1 _let_14) (tptp.agent_2 _let_16 _let_14) (tptp.agent_2 _let_16 _let_13) (tptp.object_2 _let_12 _let_13) (tptp.has_function_2 _let_1 _let_12) (tptp.agent_2 _let_12 _let_1) (tptp.is_between_2 _let_1 _let_13) (not (= _let_13 _let_14)) (tptp.object_2 _let_12 _let_14) (not (= _let_14 _let_13)) (= _let_13 _let_7) (= _let_14 _let_11) (= _let_14 _let_10) (= _let_1 (tptp.fn_nonpolar_molecule_3 X)) (= _let_12 _let_3) (= _let_13 _let_5) (= _let_16 _let_15) (= _let_14 _let_9) (= _let_14 _let_8) (= _let_13 _let_4) (= _let_12 _let_2) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_fixation_4 X))) (let ((_let_2 (tptp.fn_carbon_source_2 _let_1))) (let ((_let_3 (tptp.fn_fixation_1 X))) (let ((_let_4 (tptp.fn_carbon_fixation_6 X))) (let ((_let_5 (tptp.fn_carbon_fixation_5 X))) (let ((_let_6 (tptp.fn_carbon_fixation_2 X))) (let ((_let_7 (tptp.fn_carbon_fixation_3 X))) (let ((_let_8 (tptp.fn_carbon_fixation_1 X))) (=> (tptp.carbon_fixation_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Fixation'|) (tptp.user_description_2 X |tptp.'A biochemical process which results in the incorporation of CO2 into an organic molecule by an autotrophic organism.'|) (tptp.concept2words_2 X tptp.fix) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'fixation of carbon'|) (tptp.concept2words_2 X |tptp.'carbon fixation'|) (tptp.concept2words_2 X |tptp.'carbon-fixation'|) (tptp.fixation_1 X) (tptp.cell_1 _let_8) (tptp.activation_energy_1 _let_6) (tptp.atp_1 _let_7) (tptp.carbon_source_1 _let_1) (tptp.organic_molecule_1 _let_5) (tptp.molecule_1 _let_4) (tptp.molecule_1 _let_2) (not (= _let_4 _let_7)) (not (= _let_7 _let_4)) (tptp.base_2 X _let_8) (tptp.raw_material_2 X _let_7) (tptp.raw_material_2 X _let_6) (tptp.in_event_2 _let_1 X) (tptp.result_2 X _let_5) (tptp.raw_material_2 X _let_4) (tptp.plays_2 _let_4 _let_1) (= _let_5 (tptp.fn_chemical_reaction_1 X)) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_isotope_7 X))) (let ((_let_2 (tptp.fn_second_electron_shell_13 _let_1))) (let ((_let_3 (tptp.fn_second_electron_shell_12 _let_1))) (let ((_let_4 (tptp.fn_carbon_isotope_10 X))) (let ((_let_5 (tptp.fn_second_electron_shell_11 _let_1))) (let ((_let_6 (tptp.fn_carbon_isotope_9 X))) (let ((_let_7 (tptp.fn_second_electron_shell_18 _let_1))) (let ((_let_8 (tptp.fn_carbon_isotope_8 X))) (let ((_let_9 (tptp.fn_carbon_isotope_3 X))) (let ((_let_10 (tptp.fn_carbon_isotope_2 X))) (let ((_let_11 (tptp.fn_carbon_isotope_1 X))) (let ((_let_12 (tptp.fn_carbon_isotope_6 X))) (=> (tptp.carbon_isotope_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Isotope'|) (tptp.user_description_2 X |tptp.'One of several atomic forms of carbon, each with the same number of protons but different number of neutrons, thus differing in atomic mass.'|) (tptp.concept2words_2 X |tptp.'isotope of carbon'|) (tptp.concept2words_2 X |tptp.'carbon isotope'|) (tptp.concept2words_2 X |tptp.'carbon-isotope'|) (tptp.non_metal_atom_1 X) (tptp.isotope_1 X) (tptp.carbon_1 _let_11) (tptp.valence_value_1 _let_10) (tptp.electronegativity_value_1 _let_9) (tptp.neutron_1 _let_12) (tptp.second_electron_shell_1 _let_1) (tptp.atomic_number_value_1 _let_8) (tptp.valence_electron_1 _let_6) (tptp.valence_electron_1 _let_4) (tptp.atomic_number_value_1 _let_7) (tptp.electron_1 _let_5) (tptp.electron_1 _let_3) (tptp.atom_1 _let_2) (tptp.valence_2 X _let_10) (tptp.electronegativity_2 X _let_9) (tptp.maxCardinality X tptp.has_part_0 |"8"| tptp.neutron_0) (tptp.minCardinality X tptp.has_part_0 |"6"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.proton_0) (tptp.has_part_2 X _let_12) (tptp.has_state_2 _let_11 X) (tptp.has_isotope_2 _let_11 X) (tptp.the_cardinal_value_2 _let_8 |"6"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_10 |"4.0e0"|) (tptp.cardinal_unit_class_2 _let_10 tptp.unity_0) (tptp.the_cardinal_value_2 _let_9 |"2.55e0"|) (tptp.cardinal_unit_class_2 _let_9 tptp.unity_0) (tptp.called_2 _let_8 |tptp.'Atomic_Number'|) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_4) (not (= _let_4 _let_6)) (tptp.has_part_2 X _let_6) (tptp.atomic_number_2 X _let_8) (not (= _let_6 _let_4)) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.carbon_monoxide_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Monoxide'|) (tptp.user_description_2 X |tptp.'A colorless, odorless gas with the chemical formula CO.'|) (tptp.concept2words_2 X |tptp.'monoxide of carbon'|) (tptp.concept2words_2 X |tptp.'carbon monoxide'|) (tptp.concept2words_2 X |tptp.'carbon-monoxide'|) (tptp.covalent_compound_1 X) (tptp.inorganic_molecule_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_skeleton_5 X))) (let ((_let_2 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_3 (tptp.fn_carbon_skeleton_3 X))) (let ((_let_4 (tptp.fn_molecule_7 _let_3))) (let ((_let_5 (tptp.fn_chemical_bond_1 _let_1))) (let ((_let_6 (tptp.fn_molecule_11 _let_3))) (let ((_let_7 (tptp.fn_carbon_skeleton_4 X))) (let ((_let_8 (tptp.fn_chemical_bond_3 _let_1))) (let ((_let_9 (tptp.fn_carbon_skeleton_1 X))) (let ((_let_10 (tptp.fn_carbon_skeleton_2 X))) (let ((_let_11 (tptp.fn_molecule_10 _let_3))) (=> (tptp.carbon_skeleton_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Skeleton'|) (tptp.user_description_2 X |tptp.'Carbon skeleton of an organic compound is, the chains, branches and/or rings of carbon atoms that form the basis of the structure of an organic molecule'|) (tptp.concept2words_2 X |tptp.'skeleton of carbon'|) (tptp.concept2words_2 X |tptp.'carbon skeleton'|) (tptp.concept2words_2 X |tptp.'carbon-skeleton'|) (tptp.molecular_region_1 X) (tptp.hold_together_1 _let_9) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.organic_molecule_1 _let_3) (tptp.carbon_1 _let_7) (tptp.chemical_bond_1 _let_1) (tptp.chemical_bond_1 _let_11) (tptp.hold_together_1 _let_8) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_4) (tptp.chemical_entity_1 _let_2) (not (= _let_7 _let_10)) (tptp.is_inside_2 _let_7 X) (tptp.minCardinality _let_3 tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.has_region_2 _let_3 X) (not (= _let_10 _let_7)) (tptp.has_part_2 _let_3 _let_7) (tptp.possesses_2 _let_3 _let_1) (tptp.is_between_2 _let_1 _let_10) (tptp.object_2 _let_9 _let_10) (tptp.object_2 _let_9 _let_7) (tptp.is_between_2 _let_1 _let_7) (= _let_7 _let_4) (= _let_10 _let_6) (= _let_1 _let_11) (= _let_10 _let_5) (= _let_9 _let_8) (= _let_7 _let_2) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbon_source_8 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_carbon_source_2 X))) (let ((_let_4 (tptp.fn_molecule_7 _let_3))) (let ((_let_5 (tptp.fn_carbon_source_3 X))) (let ((_let_6 (tptp.fn_carbon_18 _let_5))) (let ((_let_7 (tptp.fn_atom_18 _let_5))) (let ((_let_8 (tptp.fn_carbon_10 _let_5))) (let ((_let_9 (tptp.fn_atom_14 _let_5))) (let ((_let_10 (tptp.fn_carbon_17 _let_5))) (let ((_let_11 (tptp.fn_atom_8 _let_5))) (let ((_let_12 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_13 (tptp.fn_carbon_source_5 X))) (let ((_let_14 (tptp.fn_carbon_source_6 X))) (let ((_let_15 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_16 (tptp.fn_carbon_source_4 X))) (let ((_let_17 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_18 (tptp.fn_carbon_source_7 X))) (let ((_let_19 (tptp.fn_carbon_source_1 X))) (=> (tptp.carbon_source_1 X) (and (tptp.original_name_2 X |tptp.'Carbon-Source'|) (tptp.user_description_2 X |tptp.'A carbon-source is the chemical entity which provide carbon.'|) (tptp.concept2words_2 X |tptp.'source of carbon'|) (tptp.concept2words_2 X |tptp.'carbon source'|) (tptp.concept2words_2 X |tptp.'carbon-source'|) (tptp.resource_1 X) (tptp.atom_1 _let_19) (tptp.molecule_1 _let_3) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.valence_electron_1 _let_16) (tptp.electron_1 _let_13) (tptp.proton_1 _let_14) (tptp.center_1 _let_18) (tptp.atomic_nucleus_1 _let_1) (tptp.center_1 _let_17) (tptp.electron_1 _let_15) (tptp.proton_1 _let_12) (tptp.proton_1 _let_11) (tptp.proton_1 _let_10) (tptp.electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.atom_1 _let_4) (tptp.atom_1 _let_2) (not (= _let_13 _let_16)) (not (= _let_16 _let_13)) (not (= _let_5 _let_19)) (tptp.plays_2 _let_3 X) (not (= _let_19 _let_5)) (tptp.has_part_2 _let_3 _let_5) (tptp.is_at_2 _let_1 _let_18) (tptp.has_region_2 _let_5 _let_18) (tptp.has_part_2 _let_5 _let_16) (tptp.is_near_2 _let_16 _let_1) (tptp.is_near_2 _let_1 _let_16) (tptp.has_part_2 _let_5 _let_13) (tptp.has_region_2 _let_5 _let_1) (tptp.is_inside_2 _let_14 _let_1) (tptp.has_part_2 _let_5 _let_14) (tptp.is_near_2 _let_13 _let_1) (tptp.is_near_2 _let_1 _let_13) (= _let_5 _let_4) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_11) (= _let_14 _let_12) (= _let_14 _let_10) (= _let_13 _let_9) (= _let_13 _let_8) (= _let_5 _let_2) (= _let_1 _let_7) (= _let_1 _let_6) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbonate_ion_2 X))) (=> (tptp.carbonate_ion_1 X) (and (tptp.original_name_2 X |tptp.'Carbonate-Ion'|) (tptp.user_description_2 X |tptp.'Polyatomic ion with a minus 2 charge, most commonly formed when carbon dioxide gas dissolves in water.'|) (tptp.concept2words_2 X |tptp.'ion of carbonate'|) (tptp.concept2words_2 X |tptp.'carbonate ion'|) (tptp.concept2words_2 X |tptp.'carbonate-ion'|) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (not (tptp.malonate_1 X)) (not (tptp.benzoate_1 X)) (not (tptp.cl_minus_1 X)) (not (tptp.azide_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.bicarbonate_ion_1 X)) (not (tptp.organic_anion_1 X)) (not (tptp.phosphate_ion_1 X)) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-2"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_carbonate_ion_1 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbonic_acid_3 X))) (let ((_let_2 (tptp.fn_carbonic_acid_2 X))) (=> (tptp.carbonic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Carbonic-Acid'|) (tptp.user_description_2 X |tptp.'A weak organic acid with the chemical formula H2CO3. Carbonic acid is a key player in the regulation of blood pH, and carbonate equilibrium in aquatic ecosystems.'|) (tptp.concept2words_2 X |tptp.'carbonic acid'|) (tptp.concept2words_2 X |tptp.'carbonic-acid'|) (tptp.weak_acid_1 X) (tptp.carbonic_acid_compound_1 _let_2) (tptp.state_value_1 _let_1) (tptp.the_categorical_value_2 _let_1 tptp.liquid_0) (tptp.has_part_2 X _let_2) (tptp.physical_state_2 X _let_1) (= _let_2 (tptp.fn_chemical_3 X)) (= (tptp.fn_carbonic_acid_1 X) (tptp.fn_chemical_1 X)) (= _let_1 (tptp.fn_chemical_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbonic_acid_bicarbonate_buffer_1 X))) (let ((_let_2 (tptp.fn_carbonic_acid_bicarbonate_buffer_3 X))) (let ((_let_3 (tptp.fn_chemical_3 _let_1))) (let ((_let_4 (tptp.fn_carbonic_acid_bicarbonate_buffer_2 X))) (=> (tptp.carbonic_acid_bicarbonate_buffer_1 X) (and (tptp.original_name_2 X |tptp.'Carbonic-Acid-Bicarbonate-Buffer'|) (tptp.user_description_2 X |tptp.'One of the buffers in human blood that regulates the pH of the blood.'|) (tptp.concept2words_2 X |tptp.'carbonic acid bicarbonate'|) (tptp.concept2words_2 X |tptp.'carbonic acid bicarbonate buffer'|) (tptp.concept2words_2 X |tptp.'carbonic-acid-bicarbonate-buffer'|) (tptp.buffer_1 X) (tptp.chemical_1 _let_1) (tptp.base_1 _let_1) (tptp.bicarbonate_ion_1 _let_4) (tptp.carbonic_acid_1 _let_2) (tptp.chemical_entity_1 _let_3) (tptp.has_part_2 _let_1 _let_4) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_4 _let_3) (= _let_2 (tptp.fn_buffer_1 X)) (= _let_1 (tptp.fn_buffer_2 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbonic_acid_compound_3 X))) (let ((_let_2 (tptp.fn_carbonic_acid_compound_2 X))) (let ((_let_3 (tptp.fn_carbonic_acid_compound_1 X))) (=> (tptp.carbonic_acid_compound_1 X) (and (tptp.original_name_2 X |tptp.'Carbonic-Acid-Compound'|) (tptp.user_description_2 X |tptp.'It is an organic compound with molecular formula H2CO3.'|) (tptp.concept2words_2 X |tptp.'carbonic acid compound'|) (tptp.concept2words_2 X |tptp.'carbonic-acid-compound'|) (tptp.acid_compound_1 X) (tptp.carbon_1 _let_3) (tptp.hydrogen_1 _let_2) (tptp.oxygen_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.hydrogen_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.oxygen_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carbonyl_group_7 X))) (let ((_let_2 (tptp.fn_carbon_17 _let_1))) (let ((_let_3 (tptp.fn_atom_8 _let_1))) (let ((_let_4 (tptp.fn_carbon_19 _let_1))) (let ((_let_5 (tptp.fn_atom_11 _let_1))) (let ((_let_6 (tptp.fn_carbon_16 _let_1))) (let ((_let_7 (tptp.fn_atom_17 _let_1))) (let ((_let_8 (tptp.fn_carbon_10 _let_1))) (let ((_let_9 (tptp.fn_atom_14 _let_1))) (let ((_let_10 (tptp.fn_carbonyl_group_14 X))) (let ((_let_11 (tptp.fn_carbonyl_group_11 X))) (let ((_let_12 (tptp.fn_carbonyl_group_12 X))) (let ((_let_13 (tptp.fn_carbon_13 _let_1))) (let ((_let_14 (tptp.fn_carbon_9 _let_1))) (let ((_let_15 (tptp.fn_carbonyl_group_13 X))) (let ((_let_16 (tptp.fn_carbonyl_group_8 X))) (let ((_let_17 (tptp.fn_covalent_bond_19 _let_16))) (let ((_let_18 (tptp.fn_carbonyl_group_9 X))) (let ((_let_19 (tptp.fn_covalent_bond_18 _let_16))) (let ((_let_20 (tptp.fn_carbonyl_group_6 X))) (let ((_let_21 (tptp.fn_covalent_bond_17 _let_16))) (let ((_let_22 (tptp.fn_carbonyl_group_5 X))) (let ((_let_23 (tptp.fn_covalent_bond_14 _let_16))) (let ((_let_24 (tptp.fn_carbonyl_group_10 X))) (let ((_let_25 (tptp.fn_covalent_bond_15 _let_16))) (let ((_let_26 (tptp.fn_carbonyl_group_4 X))) (let ((_let_27 (tptp.fn_covalent_bond_20 _let_16))) (let ((_let_28 (tptp.fn_carbonyl_group_1 X))) (=> (tptp.carbonyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Carbonyl-Group'|) (tptp.user_description_2 X |tptp.'A carbonyl group is a functional group composed of a carbon atom double-bonded to an oxygen atom: C=O.'|) (tptp.concept2words_2 X |tptp.'CO'|) (tptp.concept2words_2 X |tptp.'co group'|) (tptp.concept2words_2 X |tptp.'co-group'|) (tptp.concept2words_2 X |tptp.'group of carbonyl'|) (tptp.concept2words_2 X |tptp.'carbonyl group'|) (tptp.concept2words_2 X |tptp.'carbonyl-group'|) (tptp.functional_group_1 X) (not (tptp.acetyl_group_1 X)) (not (tptp.amino_group_1 X)) (not (tptp.carboxyl_group_1 X)) (not (tptp.hydroxyl_group_1 X)) (not (tptp.methyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.hydrophilic_region_1 _let_28) (tptp.valence_electron_1 _let_26) (tptp.share_1 _let_22) (tptp.valence_electron_1 _let_20) (tptp.entity_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.atom_1 _let_1) (tptp.carbon_1 _let_1) (tptp.double_bond_1 _let_16) (tptp.oxygen_1 _let_18) (tptp.hold_together_1 _let_24) (tptp.quantity_value_1 _let_11) (tptp.atomic_number_value_1 _let_12) (tptp.electron_1 _let_15) (tptp.proton_1 _let_10) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.valence_electron_1 _let_25) (tptp.hold_together_1 _let_23) (tptp.share_1 _let_21) (tptp.valence_electron_1 _let_19) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.property_node_1 _let_14) (tptp.property_node_1 _let_13) (tptp.electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.atomic_number_value_1 _let_7) (tptp.atomic_number_value_1 _let_6) (tptp.quantity_value_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.proton_1 _let_3) (tptp.proton_1 _let_2) (not (= _let_15 _let_26)) (tptp.is_inside_2 _let_28 X) (tptp.is_inside_2 _let_18 X) (tptp.has_region_2 X _let_28) (tptp.is_inside_2 _let_1 X) (not (= _let_20 _let_26)) (not (= _let_26 _let_20)) (not (= _let_26 _let_15)) (tptp.is_between_2 _let_16 _let_1) (not (= _let_1 _let_18)) (tptp.has_part_2 _let_1 _let_26) (not (= _let_18 _let_1)) (tptp.is_between_2 _let_16 _let_18) (tptp.has_part_2 _let_18 _let_20) (tptp.has_part_2 _let_1 _let_15) (tptp.called_2 _let_12 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 _let_1 _let_12) (tptp.the_cardinal_value_2 _let_12 |"6"|) (tptp.cardinal_unit_class_2 _let_12 tptp.unity_0) (tptp.has_part_2 _let_1 _let_10) (tptp.quantity_2 _let_10 _let_11) (tptp.called_2 _let_11 |tptp.'Number_Proton'|) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_1 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_15 _let_9) (= _let_15 _let_8) (= (tptp.fn_carbonyl_group_3 X) _let_14) (= (tptp.fn_carbonyl_group_2 X) _let_13) (= _let_12 _let_7) (= _let_12 _let_6) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxyl_end_1 X))) (=> (tptp.carboxyl_end_1 X) (and (tptp.original_name_2 X |tptp.'Carboxyl-End'|) (tptp.user_description_2 X |tptp.'The carboxyl end of a protein or polypeptide is the end of the amino acid chain terminated by a free carboxyl group.'|) (tptp.concept2words_2 X |tptp.'c terminus'|) (tptp.concept2words_2 X |tptp.'c-terminus'|) (tptp.concept2words_2 X |tptp.'carboxyl terminus'|) (tptp.concept2words_2 X |tptp.'carboxyl-terminus'|) (tptp.concept2words_2 X |tptp.'carboxy terminus'|) (tptp.concept2words_2 X |tptp.'carboxy-terminus'|) (tptp.concept2words_2 X |tptp.'c terminal'|) (tptp.concept2words_2 X |tptp.'c-terminal'|) (tptp.concept2words_2 X |tptp.'c terminal end'|) (tptp.concept2words_2 X |tptp.'c-terminal-end'|) (tptp.concept2words_2 X |tptp.'cooh terminus'|) (tptp.concept2words_2 X |tptp.'cooh-terminus'|) (tptp.concept2words_2 X |tptp.'end of carboxyl'|) (tptp.concept2words_2 X |tptp.'carboxyl end'|) (tptp.concept2words_2 X |tptp.'carboxyl-end'|) (tptp.molecular_region_1 X) (tptp.end_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.hydrophilic_end_1 X)) (not (tptp.hydrophobic_end_1 X)) (tptp.carboxyl_group_1 _let_1) (tptp.is_at_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxyl_group_65 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_3 (tptp.fn_carboxyl_group_25 X))) (let ((_let_4 (tptp.fn_hydrogen_13 _let_3))) (let ((_let_5 (tptp.fn_carboxyl_group_70 X))) (let ((_let_6 (tptp.fn_covalent_bond_24 _let_5))) (let ((_let_7 (tptp.fn_hydrogen_15 _let_3))) (let ((_let_8 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_9 (tptp.fn_hydrogen_10 _let_3))) (let ((_let_10 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_11 (tptp.fn_covalent_bond_23 _let_5))) (let ((_let_12 (tptp.fn_hydrogen_14 _let_3))) (let ((_let_13 (tptp.fn_covalent_bond_18 _let_5))) (let ((_let_14 (tptp.fn_carboxyl_group_68 X))) (let ((_let_15 (tptp.fn_polar_covalent_bond_12 _let_14))) (let ((_let_16 (tptp.fn_covalent_bond_18 _let_14))) (let ((_let_17 (tptp.fn_carboxyl_group_52 X))) (let ((_let_18 (tptp.fn_attract_1 _let_17))) (let ((_let_19 (tptp.fn_covalent_bond_22 _let_5))) (let ((_let_20 (tptp.fn_polar_covalent_bond_13 _let_14))) (let ((_let_21 (tptp.fn_covalent_bond_21 _let_5))) (let ((_let_22 (tptp.fn_polar_covalent_bond_21 _let_14))) (let ((_let_23 (tptp.fn_covalent_bond_21 _let_14))) (let ((_let_24 (tptp.fn_carboxyl_group_69 X))) (let ((_let_25 (tptp.fn_covalent_bond_21 _let_24))) (let ((_let_26 (tptp.fn_carboxyl_group_19 X))) (let ((_let_27 (tptp.fn_carbon_18 _let_26))) (let ((_let_28 (tptp.fn_covalent_bond_24 _let_24))) (let ((_let_29 (tptp.fn_polar_covalent_bond_14 _let_14))) (let ((_let_30 (tptp.fn_atom_18 _let_26))) (let ((_let_31 (tptp.fn_covalent_bond_15 _let_5))) (let ((_let_32 (tptp.fn_polar_covalent_bond_11 _let_14))) (let ((_let_33 (tptp.fn_covalent_bond_18 _let_24))) (let ((_let_34 (tptp.fn_carbon_10 _let_26))) (let ((_let_35 (tptp.fn_carboxyl_group_53 X))) (let ((_let_36 (tptp.fn_constant_motion_1 _let_35))) (let ((_let_37 (tptp.fn_carboxyl_group_30 X))) (let ((_let_38 (tptp.fn_attract_1 _let_37))) (let ((_let_39 (tptp.fn_covalent_bond_22 _let_14))) (let ((_let_40 (tptp.fn_covalent_bond_4 _let_5))) (let ((_let_41 (tptp.fn_polar_covalent_bond_5 _let_14))) (let ((_let_42 (tptp.fn_covalent_bond_6 _let_5))) (let ((_let_43 (tptp.fn_polar_covalent_bond_7 _let_14))) (let ((_let_44 (tptp.fn_carboxyl_group_14 X))) (let ((_let_45 (tptp.fn_constant_motion_1 _let_44))) (let ((_let_46 (tptp.fn_covalent_bond_13 _let_5))) (let ((_let_47 (tptp.fn_polar_covalent_bond_15 _let_14))) (let ((_let_48 (tptp.fn_covalent_bond_12 _let_5))) (let ((_let_49 (tptp.fn_covalent_bond_12 _let_14))) (let ((_let_50 (tptp.fn_polar_covalent_bond_20 _let_14))) (let ((_let_51 (tptp.fn_covalent_bond_11 _let_5))) (let ((_let_52 (tptp.fn_polar_covalent_bond_22 _let_14))) (let ((_let_53 (tptp.fn_atom_9 _let_3))) (let ((_let_54 (tptp.fn_covalent_bond_9 _let_5))) (let ((_let_55 (tptp.fn_polar_covalent_bond_10 _let_14))) (let ((_let_56 (tptp.fn_atom_9 _let_26))) (let ((_let_57 (tptp.fn_covalent_bond_12 _let_24))) (let ((_let_58 (tptp.fn_covalent_bond_19 _let_5))) (let ((_let_59 (tptp.fn_covalent_bond_19 _let_24))) (let ((_let_60 (tptp.fn_covalent_bond_20 _let_24))) (let ((_let_61 (tptp.fn_covalent_bond_20 _let_5))) (let ((_let_62 (tptp.fn_carbon_17 _let_26))) (let ((_let_63 (tptp.fn_atom_8 _let_26))) (let ((_let_64 (tptp.fn_covalent_bond_4 _let_24))) (let ((_let_65 (tptp.fn_attract_2 _let_37))) (let ((_let_66 (tptp.fn_carbon_16 _let_26))) (let ((_let_67 (tptp.fn_atom_17 _let_26))) (let ((_let_68 (tptp.fn_carbon_19 _let_26))) (let ((_let_69 (tptp.fn_atom_11 _let_26))) (let ((_let_70 (tptp.fn_covalent_bond_8 _let_5))) (let ((_let_71 (tptp.fn_carbon_12 _let_26))) (let ((_let_72 (tptp.fn_carbon_13 _let_26))) (let ((_let_73 (tptp.fn_atom_12 _let_26))) (let ((_let_74 (tptp.fn_polar_covalent_bond_17 _let_14))) (let ((_let_75 (tptp.fn_covalent_bond_14 _let_14))) (let ((_let_76 (tptp.fn_polar_covalent_bond_16 _let_14))) (let ((_let_77 (tptp.fn_covalent_bond_17 _let_24))) (let ((_let_78 (tptp.fn_atom_14 _let_26))) (let ((_let_79 (tptp.fn_covalent_bond_15 _let_24))) (let ((_let_80 (tptp.fn_covalent_bond_4 _let_14))) (let ((_let_81 (tptp.fn_attract_2 _let_17))) (let ((_let_82 (tptp.fn_covalent_bond_6 _let_14))) (let ((_let_83 (tptp.fn_hydrogen_12 _let_3))) (let ((_let_84 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_85 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_86 (tptp.fn_polar_covalent_bond_19 _let_14))) (let ((_let_87 (tptp.fn_hydrogen_2 _let_3))) (let ((_let_88 (tptp.fn_polar_covalent_bond_1 _let_14))) (let ((_let_89 (tptp.fn_covalent_bond_14 _let_24))) (let ((_let_90 (tptp.fn_covalent_bond_19 _let_14))) (let ((_let_91 (tptp.fn_polar_covalent_bond_18 _let_14))) (let ((_let_92 (tptp.fn_carboxyl_group_10 X))) (let ((_let_93 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_94 (tptp.fn_carboxyl_group_12 X))) (let ((_let_95 (tptp.fn_carboxyl_group_11 X))) (let ((_let_96 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_97 (tptp.fn_atomic_nucleus_6 _let_1))) (let ((_let_98 (tptp.fn_carboxyl_group_64 X))) (let ((_let_99 (tptp.fn_covalent_bond_17 _let_5))) (let ((_let_100 (tptp.fn_carboxyl_group_49 X))) (let ((_let_101 (tptp.fn_carboxyl_group_21 X))) (let ((_let_102 (tptp.fn_carboxyl_group_48 X))) (let ((_let_103 (tptp.fn_carboxyl_group_18 X))) (let ((_let_104 (tptp.fn_carboxyl_group_20 X))) (let ((_let_105 (tptp.fn_carboxyl_group_46 X))) (let ((_let_106 (tptp.fn_carboxyl_group_17 X))) (let ((_let_107 (tptp.fn_carboxyl_group_57 X))) (let ((_let_108 (tptp.fn_carboxyl_group_59 X))) (let ((_let_109 (tptp.fn_carboxyl_group_43 X))) (let ((_let_110 (tptp.fn_carboxyl_group_15 X))) (let ((_let_111 (tptp.fn_carboxyl_group_39 X))) (let ((_let_112 (tptp.fn_covalent_bond_10 _let_5))) (let ((_let_113 (tptp.fn_carboxyl_group_13 X))) (let ((_let_114 (tptp.fn_carboxyl_group_58 X))) (let ((_let_115 (tptp.fn_carboxyl_group_31 X))) (let ((_let_116 (tptp.fn_carboxyl_group_16 X))) (let ((_let_117 (tptp.fn_carboxyl_group_63 X))) (let ((_let_118 (tptp.fn_covalent_bond_1 _let_5))) (let ((_let_119 (tptp.fn_carboxyl_group_51 X))) (let ((_let_120 (tptp.fn_covalent_bond_16 _let_5))) (let ((_let_121 (tptp.fn_carboxyl_group_50 X))) (let ((_let_122 (tptp.fn_carboxyl_group_35 X))) (let ((_let_123 (tptp.fn_covalent_bond_14 _let_5))) (let ((_let_124 (tptp.fn_carboxyl_group_47 X))) (let ((_let_125 (tptp.fn_carboxyl_group_22 X))) (let ((_let_126 (tptp.fn_carboxyl_group_56 X))) (let ((_let_127 (tptp.fn_carboxyl_group_42 X))) (let ((_let_128 (tptp.fn_carboxyl_group_41 X))) (let ((_let_129 (tptp.fn_carboxyl_group_44 X))) (let ((_let_130 (tptp.fn_carboxyl_group_27 X))) (let ((_let_131 (tptp.fn_carboxyl_group_77 X))) (let ((_let_132 (tptp.fn_carbon_8 _let_26))) (let ((_let_133 (tptp.fn_carbon_9 _let_26))) (let ((_let_134 (tptp.fn_carboxyl_group_67 X))) (let ((_let_135 (tptp.fn_carboxyl_group_66 X))) (let ((_let_136 (tptp.fn_carboxyl_group_40 X))) (let ((_let_137 (tptp.fn_carboxyl_group_45 X))) (let ((_let_138 (tptp.fn_carboxyl_group_38 X))) (let ((_let_139 (tptp.fn_polar_covalent_bond_9 _let_14))) (let ((_let_140 (tptp.fn_carboxyl_group_36 X))) (let ((_let_141 (tptp.fn_carboxyl_group_37 X))) (let ((_let_142 (tptp.fn_carboxyl_group_62 X))) (let ((_let_143 (tptp.fn_carboxyl_group_61 X))) (let ((_let_144 (tptp.fn_hydrogen_1 _let_3))) (let ((_let_145 (tptp.fn_covalent_bond_16 _let_24))) (let ((_let_146 (tptp.fn_carboxyl_group_28 X))) (let ((_let_147 (tptp.fn_covalent_bond_1 _let_24))) (let ((_let_148 (tptp.fn_carboxyl_group_29 X))) (let ((_let_149 (tptp.fn_covalent_bond_9 _let_24))) (let ((_let_150 (tptp.fn_covalent_bond_13 _let_24))) (let ((_let_151 (tptp.fn_carboxyl_group_26 X))) (let ((_let_152 (tptp.fn_covalent_bond_10 _let_24))) (let ((_let_153 (tptp.fn_carboxyl_group_54 X))) (let ((_let_154 (tptp.fn_carboxyl_group_55 X))) (let ((_let_155 (tptp.fn_carboxyl_group_24 X))) (let ((_let_156 (tptp.fn_carboxyl_group_23 X))) (let ((_let_157 (tptp.fn_covalent_bond_16 _let_14))) (let ((_let_158 (tptp.fn_carboxyl_group_32 X))) (let ((_let_159 (tptp.fn_covalent_bond_1 _let_14))) (let ((_let_160 (tptp.fn_carboxyl_group_33 X))) (let ((_let_161 (tptp.fn_covalent_bond_10 _let_14))) (let ((_let_162 (tptp.fn_carboxyl_group_34 X))) (let ((_let_163 (tptp.fn_covalent_bond_17 _let_14))) (let ((_let_164 (tptp.fn_polar_covalent_bond_2 _let_14))) (let ((_let_165 (tptp.fn_carboxyl_group_60 X))) (let ((_let_166 (tptp.fn_polar_covalent_bond_3 _let_14))) (let ((_let_167 (tptp.fn_carboxyl_group_7 X))) (let ((_let_168 (tptp.fn_carboxyl_group_8 X))) (let ((_let_169 (tptp.fn_carboxyl_group_9 X))) (=> (tptp.carboxyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Carboxyl-Group'|) (tptp.user_description_2 X |tptp.'A carboxyl group is a group of atoms found in some organic molecules such as organic acids which contains one carbon atom double-bonded to one oxygen atom and single bonded to a second oxygen atom which is part of a hydroxyl group.'|) (tptp.concept2words_2 X tptp.cooh) (tptp.concept2words_2 X |tptp.'-cooh'|) (tptp.concept2words_2 X |tptp.'group of carboxyl'|) (tptp.concept2words_2 X |tptp.'carboxyl group'|) (tptp.concept2words_2 X |tptp.'carboxyl-group'|) (tptp.functional_group_1 X) (not (tptp.acetyl_group_1 X)) (not (tptp.amino_group_1 X)) (not (tptp.carbonyl_group_1 X)) (not (tptp.hydroxyl_group_1 X)) (not (tptp.methyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.asymmetrical_distribution_1 _let_167) (tptp.hydrophilic_region_1 _let_168) (tptp.asymmetrical_distribution_1 _let_169) (tptp.proton_1 _let_92) (tptp.atomic_number_value_1 _let_95) (tptp.quantity_value_1 _let_94) (tptp.attract_1 _let_113) (tptp.constant_motion_1 _let_44) (tptp.quantity_value_1 _let_110) (tptp.electron_shell_1 _let_116) (tptp.entity_1 _let_106) (tptp.tangible_entity_1 _let_106) (tptp.electron_1 _let_106) (tptp.valence_electron_1 _let_106) (tptp.center_1 _let_103) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.carbon_1 _let_26) (tptp.center_1 _let_104) (tptp.entity_1 _let_101) (tptp.valence_electron_1 _let_101) (tptp.electron_shell_1 _let_125) (tptp.oxygen_1 _let_156) (tptp.oxygen_1 _let_155) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.hydrogen_1 _let_3) (tptp.atomic_orbital_1 _let_151) (tptp.quantity_value_1 _let_130) 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(tptp.property_node_1 _let_144) (tptp.quantity_value_1 _let_139) (tptp.property_node_1 _let_133) (tptp.property_node_1 _let_132) (tptp.hold_together_1 _let_123) (tptp.constant_motion_1 _let_120) (tptp.asymmetrical_distribution_1 _let_118) (tptp.attract_1 _let_112) (tptp.share_1 _let_99) (tptp.property_node_1 _let_97) (tptp.property_node_1 _let_96) (tptp.quantity_value_1 _let_93) (tptp.entity_1 _let_91) (tptp.chemical_entity_1 _let_91) (tptp.atom_1 _let_91) (tptp.entity_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.atom_1 _let_90) (tptp.hold_together_1 _let_89) (tptp.electronegativity_value_1 _let_88) (tptp.electronegativity_value_1 _let_87) (tptp.entity_1 _let_86) (tptp.chemical_entity_1 _let_86) (tptp.atom_1 _let_86) (tptp.atom_1 _let_85) (tptp.electron_1 _let_84) (tptp.valence_electron_1 _let_83) (tptp.atomic_number_value_1 _let_82) (tptp.entity_1 _let_81) (tptp.proton_1 _let_80) (tptp.valence_electron_1 _let_79) (tptp.electron_1 _let_78) (tptp.share_1 _let_77) (tptp.unequal_sharing_1 _let_76) (tptp.hold_together_1 _let_75) (tptp.hold_together_1 _let_74) (tptp.property_node_1 _let_73) (tptp.property_node_1 _let_72) (tptp.quantity_value_1 _let_71) (tptp.quantity_value_1 _let_70) (tptp.quantity_value_1 _let_69) (tptp.quantity_value_1 _let_68) (tptp.atomic_number_value_1 _let_67) (tptp.atomic_number_value_1 _let_66) (tptp.entity_1 _let_65) (tptp.proton_1 _let_64) (tptp.proton_1 _let_63) (tptp.proton_1 _let_62) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.atom_1 _let_59) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.electron_shell_1 _let_57) (tptp.electron_shell_1 _let_56) (tptp.quantity_value_1 _let_55) (tptp.quantity_value_1 _let_54) (tptp.electron_shell_1 _let_53) (tptp.electron_shell_1 _let_52) (tptp.electron_shell_1 _let_51) (tptp.electron_shell_1 _let_50) (tptp.electron_shell_1 _let_49) (tptp.electron_shell_1 _let_48) (tptp.atomic_orbital_1 _let_47) (tptp.atomic_orbital_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.atomic_number_value_1 _let_43) (tptp.atomic_number_value_1 _let_42) (tptp.proton_1 _let_41) (tptp.proton_1 _let_40) (tptp.atomic_nucleus_1 _let_39) (tptp.entity_1 _let_38) (tptp.tangible_entity_1 _let_36) (tptp.electron_1 _let_34) (tptp.valence_electron_1 _let_33) (tptp.electron_1 _let_32) (tptp.valence_electron_1 _let_32) (tptp.valence_electron_1 _let_31) (tptp.atomic_nucleus_1 _let_30) (tptp.atomic_nucleus_1 _let_29) (tptp.atomic_nucleus_1 _let_28) (tptp.atomic_nucleus_1 _let_27) (tptp.center_1 _let_25) (tptp.center_1 _let_23) (tptp.center_1 _let_22) (tptp.center_1 _let_21) (tptp.atomic_nucleus_1 _let_20) (tptp.atomic_nucleus_1 _let_19) (tptp.entity_1 _let_18) (tptp.valence_electron_1 _let_16) (tptp.valence_electron_1 _let_15) (tptp.valence_electron_1 _let_13) (tptp.center_1 _let_12) (tptp.center_1 _let_11) (tptp.center_1 _let_10) (tptp.atomic_number_value_1 _let_9) (tptp.atomic_number_value_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.proton_1 _let_4) (tptp.proton_1 _let_2) (tptp.object_2 _let_169 _let_114) (tptp.causes_2 _let_44 _let_169) (tptp.is_inside_2 _let_168 X) (tptp.has_region_2 X _let_168) (tptp.is_inside_2 _let_26 X) (not (= _let_26 _let_156)) (tptp.is_inside_2 _let_156 X) (not (= _let_156 _let_26)) (not (= _let_156 _let_155)) (tptp.is_inside_2 _let_155 X) (not (= _let_155 _let_156)) (tptp.is_inside_2 _let_3 X) (not (= _let_100 _let_135)) (tptp.causes_2 _let_35 _let_167) (tptp.object_2 _let_167 _let_106) (not (= _let_154 _let_134)) (not (= _let_126 _let_135)) (not (= _let_135 _let_100)) (not (= _let_135 _let_126)) (not (= _let_134 _let_154)) (not (= _let_14 _let_5)) (not (= _let_14 _let_24)) (tptp.called_2 _let_14 |tptp.'O-H'|) (tptp.is_between_2 _let_24 _let_155) (not (= _let_24 _let_14)) (not (= _let_24 _let_5)) (tptp.called_2 _let_24 |tptp.'C-O'|) (tptp.is_between_2 _let_5 _let_156) (not (= _let_5 _let_14)) (not (= _let_5 _let_24)) (tptp.called_2 _let_5 |tptp.'C=O'|) (tptp.object_2 _let_37 _let_106) (tptp.object_2 _let_17 _let_101) (tptp.agent_2 _let_37 _let_127) (tptp.agent_2 _let_17 _let_138) (tptp.object_2 _let_44 _let_114) (tptp.object_2 _let_35 _let_106) (tptp.result_2 _let_135 _let_24) (tptp.object_2 _let_124 _let_156) (tptp.has_region_2 _let_156 _let_102) (tptp.agent_2 _let_124 _let_5) (tptp.has_part_2 _let_155 _let_136) (tptp.agent_2 _let_126 _let_155) (tptp.is_between_2 _let_5 _let_26) (not (= _let_155 _let_26)) (not (= _let_26 _let_155)) (tptp.has_region_2 _let_3 _let_117) (tptp.atomic_number_2 _let_155 _let_111) (tptp.object_2 _let_154 _let_155) (tptp.has_part_2 _let_155 _let_114) (tptp.agent_2 _let_135 _let_155) (tptp.has_part_2 _let_155 _let_108) (tptp.object_2 _let_134 _let_3) (tptp.has_region_2 _let_155 _let_116) (tptp.has_region_2 _let_155 _let_103) (tptp.agent_2 _let_135 _let_3) (tptp.object_2 _let_135 _let_114) (not (= _let_114 _let_136)) (not (= _let_136 _let_142)) (tptp.is_inside_2 _let_142 _let_115) (not (= _let_136 _let_114)) (not (= _let_142 _let_136)) (tptp.is_between_2 _let_14 _let_3) (not (= _let_3 _let_155)) (tptp.electronegativity_2 _let_155 _let_165) (not (= _let_155 _let_3)) (not (= _let_143 _let_165)) (not (= _let_165 _let_143)) (tptp.object_2 _let_154 _let_26) (tptp.agent_2 _let_100 _let_26) (tptp.agent_2 _let_154 _let_24) (tptp.object_2 _let_134 _let_155) (tptp.atomic_number_2 _let_156 _let_141) (tptp.agent_2 _let_100 _let_156) (tptp.object_2 _let_100 _let_137) (tptp.has_part_2 _let_156 _let_138) (tptp.agent_2 _let_162 _let_138) (tptp.has_part_2 _let_156 _let_101) (tptp.object_2 _let_158 _let_101) (tptp.causes_2 _let_158 _let_160) (tptp.object_2 _let_160 _let_101) (tptp.object_2 _let_162 _let_101) (tptp.is_between_2 _let_14 _let_155) (tptp.has_region_2 _let_155 _let_107) (tptp.has_region_2 _let_156 _let_103) (tptp.has_region_2 _let_156 _let_116) (tptp.has_part_2 _let_26 _let_137) (tptp.object_2 _let_124 _let_26) (tptp.has_function_2 _let_24 _let_154) (tptp.has_region_2 _let_26 _let_104) (tptp.object_2 _let_153 _let_106) (tptp.agent_2 _let_153 _let_127) (tptp.is_inside_2 _let_106 _let_151) (tptp.has_region_2 _let_125 _let_151) (tptp.agent_2 _let_126 _let_26) (tptp.object_2 _let_126 _let_114) (tptp.quantity_2 _let_114 _let_110) (tptp.called_2 _let_110 |tptp.'Number_Electron'|) (tptp.is_between_2 _let_24 _let_26) (tptp.has_part_2 _let_26 _let_106) (tptp.object_2 _let_146 _let_106) (tptp.causes_2 _let_146 _let_148) (tptp.object_2 _let_148 _let_106) (tptp.has_region_2 _let_26 _let_125) (tptp.atomic_number_2 _let_3 _let_95) (tptp.has_part_2 _let_3 _let_92) (tptp.has_region_2 _let_3 _let_98) (tptp.has_part_2 _let_3 _let_142) (tptp.is_near_2 _let_142 _let_1) (tptp.has_region_2 _let_3 _let_1) (tptp.electronegativity_2 _let_3 _let_143) (tptp.is_near_2 _let_1 _let_142) (tptp.has_region_2 _let_117 _let_115) (tptp.called_2 _let_141 |tptp.'Atomic_Number'|) (tptp.object_2 _let_135 _let_142) (tptp.quantity_2 _let_106 _let_130) (tptp.is_near_2 _let_107 _let_136) (tptp.is_at_2 _let_107 _let_103) (tptp.is_near_2 _let_136 _let_107) (tptp.called_2 _let_140 |tptp.'Number_Proton'|) (= _let_141 _let_140) (= _let_140 _let_141) (not (= _let_102 _let_105)) (tptp.is_inside_2 _let_138 _let_102) (tptp.quantity_2 _let_138 _let_140) (not (= _let_105 _let_102)) (= _let_122 _let_140) (= _let_140 _let_122) (tptp.is_inside_2 _let_101 _let_115) (not (= _let_101 _let_106)) (not (= _let_106 _let_137)) (not (= _let_106 _let_101)) (not (= _let_137 _let_106)) (tptp.is_near_2 _let_105 _let_137) (tptp.is_near_2 _let_137 _let_105) (tptp.has_function_2 _let_14 _let_134) (tptp.agent_2 _let_134 _let_14) (tptp.result_2 _let_135 _let_14) (tptp.object_2 _let_135 _let_136) (tptp.is_inside_2 _let_136 _let_115) (tptp.called_2 _let_128 |tptp.'Atomic_Number'|) (tptp.called_2 _let_130 |tptp.'Number_Electron'|) (tptp.quantity_2 _let_127 _let_129) (tptp.called_2 _let_129 |tptp.'Number_Proton'|) (= _let_130 _let_129) (= _let_129 _let_130) (tptp.has_part_2 _let_26 _let_127) (tptp.is_inside_2 _let_127 _let_105) (tptp.has_region_2 _let_26 _let_105) (tptp.atomic_number_2 _let_26 _let_128) (= _let_128 _let_129) (= _let_129 _let_128) (tptp.called_2 _let_109 |tptp.'Number_Proton'|) (tptp.called_2 _let_111 |tptp.'Atomic_Number'|) (tptp.object_2 _let_126 _let_106) (not (= _let_125 _let_116)) (not (= _let_116 _let_125)) (tptp.has_function_2 _let_5 _let_124) (tptp.is_near_2 _let_107 _let_114) (not (= _let_107 _let_1)) (tptp.is_near_2 _let_114 _let_107) (not (= _let_1 _let_107)) (tptp.object_2 _let_119 _let_101) (tptp.causes_2 _let_121 _let_119) (tptp.object_2 _let_121 _let_101) (tptp.quantity_2 _let_101 _let_122) (tptp.called_2 _let_122 |tptp.'Number_Electron'|) (tptp.agent_2 _let_113 _let_108) (tptp.object_2 _let_113 _let_114) (tptp.is_inside_2 _let_114 _let_115) (tptp.has_region_2 _let_116 _let_115) (not (= _let_116 _let_117)) (not (= _let_117 _let_116)) (tptp.is_inside_2 _let_108 _let_107) (tptp.quantity_2 _let_108 _let_109) (= _let_109 _let_111) (= _let_110 _let_109) (= _let_109 _let_110) (= _let_111 _let_109) (not (= _let_104 _let_103)) (tptp.is_at_2 _let_105 _let_104) (not (= _let_105 _let_107)) (not (= _let_103 _let_104)) (tptp.is_near_2 _let_106 _let_105) (tptp.is_near_2 _let_105 _let_106) (not (= _let_107 _let_105)) (tptp.result_2 _let_100 _let_5) (tptp.object_2 _let_100 _let_101) (tptp.is_near_2 _let_101 _let_102) (tptp.is_at_2 _let_102 _let_103) (not (= _let_103 _let_98)) (tptp.is_near_2 _let_102 _let_101) (not (= _let_98 _let_103)) (tptp.is_at_2 _let_1 _let_98) (tptp.called_2 _let_95 |tptp.'Atomic_Number'|) (tptp.is_inside_2 _let_92 _let_1) (tptp.quantity_2 _let_92 _let_94) (tptp.called_2 _let_94 |tptp.'Number_Proton'|) (= _let_95 _let_94) (= _let_94 _let_95) (= _let_106 _let_38) (= _let_101 _let_18) (= _let_127 _let_65) (= _let_138 _let_81) (= _let_114 _let_45) (= _let_106 _let_36) (= _let_135 _let_77) (= _let_156 _let_58) (= _let_136 _let_31) (= _let_155 _let_61) (= _let_117 _let_53) (= _let_117 _let_52) (= _let_111 _let_43) (= _let_154 _let_74) (= _let_108 _let_41) (= _let_116 _let_50) (= (tptp.fn_carboxyl_group_76 X) _let_166) (= _let_142 _let_32) (= _let_136 _let_15) (= _let_114 _let_32) (= _let_143 _let_88) (= _let_165 _let_164) (= _let_155 _let_91) (= _let_3 _let_86) (= _let_134 _let_75) (= _let_141 _let_82) (= _let_100 _let_77) (= _let_137 _let_16) (= _let_100 _let_163) (= _let_138 _let_80) (= _let_162 _let_161) (= _let_160 _let_159) (= _let_158 _let_157) (= _let_101 _let_16) (= _let_116 _let_49) (= _let_156 _let_90) (= _let_155 _let_90) (= _let_26 _let_61) (= _let_124 _let_89) (= _let_154 _let_89) (= _let_104 _let_25) (= _let_127 _let_64) (= _let_153 _let_152) (= _let_125 _let_57) (= _let_151 _let_150) (= _let_110 _let_149) (= _let_114 _let_33) (= _let_126 _let_77) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_106 _let_33) (= _let_26 _let_60) (= _let_26 _let_59) (= _let_125 _let_56) (= _let_95 _let_9) (= _let_92 _let_4) (= _let_98 _let_12) (= (tptp.fn_carboxyl_group_74 X) _let_144) (= _let_143 _let_87) (= _let_1 _let_7) (= _let_3 _let_85) (= _let_142 _let_84) (= _let_142 _let_83) (= _let_117 _let_50) (= _let_142 _let_15) (= _let_130 _let_55) (= _let_107 _let_39) (= _let_103 _let_23) (= _let_103 _let_22) (= _let_107 _let_20) (= _let_141 _let_43) (= _let_122 _let_55) (= _let_140 _let_139) (= _let_138 _let_41) (= _let_102 _let_20) (= _let_137 _let_79) (= _let_105 _let_28) (= _let_137 _let_78) (= _let_105 _let_29) (= _let_137 _let_15) (= _let_106 _let_32) (= _let_101 _let_15) (= _let_115 _let_47) (= _let_136 _let_32) (= _let_135 _let_76) (= _let_134 _let_74) (= (tptp.fn_carboxyl_group_72 X) _let_133) (= (tptp.fn_carboxyl_group_73 X) _let_132) (= _let_131 _let_73) (= _let_131 _let_72) (= _let_130 _let_71) (= _let_129 _let_70) (= _let_129 _let_69) (= _let_129 _let_68) (= _let_26 _let_58) (= _let_128 _let_42) (= _let_128 _let_67) (= _let_128 _let_66) (= _let_105 _let_30) (= _let_127 _let_63) (= _let_127 _let_62) (= _let_126 _let_99) (= _let_125 _let_51) (= _let_124 _let_123) (= _let_1 _let_6) (= _let_122 _let_54) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_51) (= _let_116 _let_48) (= _let_115 _let_46) (= _let_114 _let_13) (= _let_113 _let_112) (= _let_111 _let_42) (= _let_110 _let_54) (= _let_109 _let_70) (= _let_108 _let_40) (= _let_107 _let_19) (= _let_105 _let_27) (= _let_106 _let_34) (= _let_106 _let_31) (= _let_105 _let_6) (= _let_104 _let_11) (= _let_98 _let_11) (= _let_103 _let_21) (= _let_102 _let_19) (= _let_101 _let_13) (= _let_100 _let_99) (= _let_98 _let_10) (= (tptp.fn_carboxyl_group_71 X) _let_97) (= (tptp.fn_carboxyl_group_75 X) _let_96) (= _let_95 _let_8) (= _let_94 _let_93) (= _let_92 _let_2) (= _let_61 _let_61) (= _let_61 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_74) (= _let_74 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_32) (= _let_32 _let_84) (= _let_84 _let_84) (= _let_84 _let_32) (= _let_32 _let_83) (= _let_83 _let_83) (= _let_83 _let_15) (= _let_15 _let_82) (= _let_82 _let_43) (= _let_43 _let_43) (= _let_43 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_41) (= _let_41 _let_41) (= _let_41 _let_79) (= _let_16 _let_79) (= _let_79 _let_79) (= _let_79 _let_16) (= _let_16 _let_78) (= _let_78 _let_78) (= _let_15 _let_78) (= _let_78 _let_15) (= _let_15 _let_31) (= _let_31 _let_15) (= _let_15 _let_32) (= _let_32 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_55) (= _let_55 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_68 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_42) (= _let_42 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_62 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_58) (= _let_58 _let_58) (= _let_58 _let_61) (= _let_61 _let_58) (= _let_58 _let_60) (= _let_60 _let_60) (= _let_60 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_51) (= _let_51 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_32) (= _let_32 _let_33) (= _let_33 _let_13) (= _let_13 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_20) (= _let_19 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_6 _let_27) (= _let_27 _let_6) (= _let_6 _let_6) (= _let_6 _let_25) (= _let_25 _let_11) (= _let_11 _let_22) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxylate_ion_3 X))) (let ((_let_2 (tptp.fn_carboxylate_ion_2 X))) (let ((_let_3 (tptp.fn_carboxylate_ion_1 X))) (=> (tptp.carboxylate_ion_1 X) (and (tptp.original_name_2 X |tptp.'Carboxylate-Ion'|) (tptp.user_description_2 X |tptp.'Polyatomic ion with a minus 1 charge, ionized form of carboxylic acid'|) (tptp.concept2words_2 X |tptp.'carboxylate ion'|) (tptp.concept2words_2 X |tptp.'carboxylate-ion'|) (tptp.anion_1 X) (tptp.polyatomic_ion_1 X) (tptp.hydrogen_1 _let_3) (tptp.carbon_1 _let_2) (tptp.oxygen_1 _let_1) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_polyatomic_ion_1 X)) (= _let_1 (tptp.fn_polyatomic_ion_2 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxylic_acid_6 X))) (let ((_let_2 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_3 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_4 (tptp.fn_organic_acid_13 X))) (let ((_let_5 (tptp.fn_carboxylic_acid_19 X))) (let ((_let_6 (tptp.fn_hold_2 _let_5))) (let ((_let_7 (tptp.fn_carboxylic_acid_16 X))) (let ((_let_8 (tptp.fn_share_1 _let_7))) (let ((_let_9 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_10 (tptp.fn_organic_acid_14 X))) (let ((_let_11 (tptp.fn_organic_acid_10 X))) (let ((_let_12 (tptp.fn_share_3 _let_7))) (let ((_let_13 (tptp.fn_carboxyl_group_47 _let_1))) (let ((_let_14 (tptp.fn_carboxyl_group_67 _let_1))) (let ((_let_15 (tptp.fn_carboxyl_group_49 _let_1))) (let ((_let_16 (tptp.fn_carboxyl_group_56 _let_1))) (let ((_let_17 (tptp.fn_organic_acid_15 X))) (let ((_let_18 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_19 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_20 (tptp.fn_carboxyl_group_58 _let_1))) (let ((_let_21 (tptp.fn_carboxyl_group_48 _let_1))) (let ((_let_22 (tptp.fn_carboxyl_group_57 _let_1))) (let ((_let_23 (tptp.fn_carboxyl_group_55 _let_1))) (let ((_let_24 (tptp.fn_organic_acid_1 X))) (let ((_let_25 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_26 (tptp.fn_organic_acid_2 X))) (let ((_let_27 (tptp.fn_share_2 _let_7))) (let ((_let_28 (tptp.fn_carboxyl_group_63 _let_1))) (let ((_let_29 (tptp.fn_carboxyl_group_22 _let_1))) (let ((_let_30 (tptp.fn_functional_group_1 _let_1))) (let ((_let_31 (tptp.fn_carboxylic_acid_8 X))) (let ((_let_32 (tptp.fn_exergonic_reaction_10 _let_31))) (let ((_let_33 (tptp.fn_carboxylic_acid_4 X))) (let ((_let_34 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_35 (tptp.fn_carboxylic_acid_5 X))) (let ((_let_36 (tptp.fn_carboxylic_acid_25 X))) (let ((_let_37 (tptp.fn_carboxylic_acid_3 X))) (let ((_let_38 (tptp.fn_carboxylic_acid_15 X))) (let ((_let_39 (tptp.fn_carboxylic_acid_13 X))) (let ((_let_40 (tptp.fn_carboxylic_acid_2 X))) (let ((_let_41 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_42 (tptp.fn_carboxylic_acid_11 X))) (let ((_let_43 (tptp.fn_carboxylic_acid_24 X))) (let ((_let_44 (tptp.fn_carboxylic_acid_18 X))) (let ((_let_45 (tptp.fn_carboxyl_group_16 _let_1))) (let ((_let_46 (tptp.fn_carboxylic_acid_14 X))) (let ((_let_47 (tptp.fn_carboxylic_acid_17 X))) (let ((_let_48 (tptp.fn_carboxyl_group_18 _let_1))) (let ((_let_49 (tptp.fn_carboxylic_acid_12 X))) (let ((_let_50 (tptp.fn_carboxylic_acid_10 X))) (let ((_let_51 (tptp.fn_carboxylic_acid_23 X))) (let ((_let_52 (tptp.fn_carboxylic_acid_20 X))) (let ((_let_53 (tptp.fn_carboxylic_acid_21 X))) (let ((_let_54 (tptp.fn_carboxylic_acid_22 X))) (let ((_let_55 (tptp.fn_exergonic_reaction_11 _let_31))) (let ((_let_56 (tptp.fn_carboxylic_acid_7 X))) (let ((_let_57 (tptp.fn_carboxylic_acid_1 X))) (=> (tptp.carboxylic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Carboxylic-Acid'|) (tptp.user_description_2 X |tptp.'Carboxylic acids are organic acids characterized by the presence of at least one carboxyl group.'|) (tptp.concept2words_2 X |tptp.'carboxylic acid'|) (tptp.concept2words_2 X |tptp.'carboxylic-acid'|) (tptp.organic_acid_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.ddt_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.carboxylate_ion_1 _let_57) (tptp.hold_1 _let_40) (tptp.hold_together_1 _let_40) (tptp.share_1 _let_37) (tptp.entity_1 _let_33) (tptp.tangible_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.oxygen_1 _let_33) (tptp.entity_1 _let_35) (tptp.tangible_entity_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.hydrogen_ion_1 _let_56) (tptp.chemical_dissociation_reaction_1 _let_31) (tptp.entity_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.atom_1 _let_34) (tptp.carbon_1 _let_34) (tptp.carbon_skeleton_1 _let_50) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.hydrogen_1 _let_42) (tptp.center_1 _let_49) (tptp.atomic_nucleus_1 _let_39) (tptp.electron_shell_1 _let_46) (tptp.tangible_entity_1 _let_38) (tptp.electron_1 _let_38) (tptp.entity_1 _let_38) (tptp.valence_electron_1 _let_38) (tptp.share_1 _let_7) (tptp.electron_shell_1 _let_47) (tptp.entity_1 _let_44) (tptp.tangible_entity_1 _let_44) (tptp.electron_1 _let_44) (tptp.valence_electron_1 _let_44) (tptp.hold_1 _let_5) (tptp.hold_together_1 _let_5) (tptp.quantity_value_1 _let_52) (tptp.speed_value_1 _let_53) (tptp.constant_motion_1 _let_54) (tptp.kinetic_energy_1 _let_51) (tptp.share_1 _let_43) (tptp.hold_together_1 _let_36) (tptp.chemical_entity_1 _let_55) (tptp.center_1 _let_48) (tptp.electron_shell_1 _let_45) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.hydrogen_1 _let_41) (tptp.chemical_entity_1 _let_32) (tptp.chemical_entity_1 _let_30) (tptp.electron_shell_1 _let_29) (tptp.electron_shell_1 _let_28) (tptp.entity_1 _let_27) (tptp.entity_1 _let_25) (tptp.tangible_entity_1 _let_25) (tptp.electron_1 _let_25) (tptp.valence_electron_1 _let_25) (tptp.hold_together_1 _let_23) (tptp.atomic_nucleus_1 _let_22) (tptp.atomic_nucleus_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.electron_1 _let_20) (tptp.valence_electron_1 _let_20) (tptp.electron_1 _let_19) (tptp.valence_electron_1 _let_19) (tptp.entity_1 _let_18) (tptp.valence_electron_1 _let_18) (tptp.share_1 _let_16) (tptp.share_1 _let_15) (tptp.hold_together_1 _let_14) (tptp.hold_together_1 _let_13) (tptp.entity_1 _let_12) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.carbon_1 _let_9) (tptp.entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.oxygen_1 _let_3) (tptp.oxygen_1 _let_2) (tptp.has_part_2 X _let_42) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.oxygen_0) (tptp.has_ion_2 X _let_57) (not (= _let_34 _let_42)) (not (= _let_42 _let_34)) (tptp.object_2 _let_7 _let_44) (tptp.agent_2 _let_7 _let_35) (tptp.agent_2 _let_7 _let_33) (tptp.object_2 _let_5 _let_33) (tptp.result_2 _let_31 _let_56) (tptp.raw_material_2 _let_31 X) (tptp.object_2 _let_43 _let_44) (tptp.has_part_2 X _let_35) (tptp.has_region_2 X _let_1) (tptp.agent_2 _let_43 _let_33) (tptp.agent_2 _let_43 _let_35) (tptp.object_2 _let_5 _let_35) (tptp.object_2 _let_5 _let_34) (tptp.agent_2 _let_37 _let_34) (tptp.possesses_2 X _let_51) (tptp.quantity_2 _let_51 _let_52) (tptp.directly_proportional_2 _let_53 _let_52) (tptp.speed_2 _let_54 _let_53) (tptp.object_2 _let_54 X) (tptp.has_part_2 X _let_34) (tptp.is_inside_2 _let_34 _let_50) (tptp.has_region_2 X _let_50) (tptp.has_part_2 X _let_33) (tptp.object_2 _let_40 _let_33) (tptp.has_region_2 _let_34 _let_47) (tptp.is_inside_2 _let_42 _let_1) (tptp.has_region_2 _let_35 _let_39) (tptp.object_2 _let_36 _let_35) (tptp.agent_2 _let_7 _let_34) (tptp.object_2 _let_7 _let_38) (tptp.is_at_2 _let_39 _let_49) (tptp.has_region_2 _let_35 _let_49) (tptp.is_inside_2 _let_35 _let_1) (tptp.is_inside_2 _let_34 _let_1) (tptp.has_part_2 _let_34 _let_44) (tptp.object_2 _let_37 _let_44) (tptp.agent_2 _let_37 _let_35) (tptp.has_region_2 _let_35 _let_46) (not (= _let_47 _let_46)) (not (= _let_46 _let_47)) (tptp.agent_2 _let_43 _let_34) (tptp.object_2 _let_43 _let_38) (tptp.has_part_2 _let_35 _let_38) (not (= _let_44 _let_38)) (not (= _let_38 _let_44)) (tptp.object_2 _let_40 _let_34) (tptp.object_2 _let_40 _let_35) (not (= _let_35 _let_34)) (not (= _let_42 _let_35)) (not (= _let_35 _let_42)) (not (= _let_34 _let_35)) (tptp.object_2 _let_36 _let_34) (tptp.object_2 _let_36 _let_33) (tptp.agent_2 _let_37 _let_33) (tptp.object_2 _let_37 _let_38) (tptp.is_near_2 _let_38 _let_39) (tptp.is_near_2 _let_39 _let_38) (tptp.is_inside_2 _let_33 _let_1) (not (= _let_34 _let_33)) (not (= _let_33 _let_34)) (not (= _let_35 _let_33)) (not (= _let_33 _let_35)) (= _let_44 _let_27) (= _let_35 _let_12) (= _let_33 _let_8) (= _let_33 _let_6) (= _let_56 _let_55) (= X _let_32) (= (tptp.fn_carboxylic_acid_26 X) (tptp.fn_organic_acid_20 X)) (= _let_44 _let_26) (= (tptp.fn_carboxylic_acid_27 X) (tptp.fn_organic_acid_21 X)) (= X _let_30) (= _let_1 (tptp.fn_organic_acid_11 X)) (= _let_37 _let_17) (= _let_5 _let_24) (= _let_35 _let_11) (= _let_43 _let_17) (= _let_54 (tptp.fn_organic_acid_19 X)) (= _let_53 (tptp.fn_organic_acid_16 X)) (= _let_52 (tptp.fn_organic_acid_17 X)) (= _let_51 (tptp.fn_organic_acid_18 X)) (= _let_40 _let_24) (= _let_33 _let_4) (= _let_50 (tptp.fn_organic_acid_12 X)) (= _let_34 _let_10) (= _let_47 _let_29) (= _let_39 _let_22) (= _let_36 _let_14) (= _let_38 _let_20) (= _let_7 _let_16) (= _let_49 _let_48) (= _let_47 _let_28) (= _let_46 _let_45) (= _let_37 _let_16) (= _let_44 _let_25) (= _let_38 _let_19) (= _let_43 _let_15) (= _let_42 _let_41) (= _let_35 _let_3) (= _let_40 _let_23) (= _let_39 _let_21) (= _let_38 _let_18) (= _let_37 _let_15) (= _let_36 _let_13) (= _let_35 _let_2) (= _let_33 _let_3) (= _let_34 _let_9) (= _let_33 _let_2) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_3) (= _let_2 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxypeptidase_5 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (let ((_let_3 (tptp.fn_carboxypeptidase_1 X))) (let ((_let_4 (tptp.fn_catalyst_2 _let_3))) (let ((_let_5 (tptp.fn_protease_17 X))) (let ((_let_6 (tptp.fn_hydrolase_1 X))) (let ((_let_7 (tptp.fn_carboxypeptidase_2 X))) (let ((_let_8 (tptp.fn_carboxypeptidase_3 X))) (let ((_let_9 (tptp.fn_cofactor_1 _let_8))) (let ((_let_10 (tptp.fn_carboxypeptidase_4 X))) (=> (tptp.carboxypeptidase_1 X) (and (tptp.original_name_2 X |tptp.'Carboxypeptidase'|) (tptp.user_description_2 X |tptp.'An enzyme that digests proteins by removing one amino acid at a time.'|) (tptp.concept2words_2 X tptp.carboxypeptidase) (tptp.protease_1 X) (tptp.catalyst_1 _let_3) (tptp.exergonic_reaction_1 _let_7) (tptp.hydrolysis_1 _let_7) (tptp.chemical_reaction_1 _let_7) (tptp.cofactor_1 _let_8) (tptp.magnesium_1 _let_10) (tptp.disulfide_bond_1 _let_1) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_4) (tptp.protein_1 _let_2) (tptp.in_event_2 _let_8 _let_7) (tptp.plays_2 _let_10 _let_8) (tptp.has_function_2 X _let_7) (tptp.plays_2 X _let_3) (tptp.possesses_2 X _let_1) (= _let_10 _let_9) (= _let_7 _let_6) (= _let_7 _let_5) (= X _let_4) (= X _let_2) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cardiac_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Cardiac-Cycle'|) (tptp.user_description_2 X |tptp.'Any or all of the events pertaining to the flow of blood from the beginning of one heartbeat to the beginning of the next.'|) (tptp.concept2words_2 X |tptp.'cardiac cycle'|) (tptp.concept2words_2 X |tptp.'cardiac-cycle'|) (tptp.cardiovascular_process_1 X) (not (tptp.countercurrent_multiplier_system_1 X)) (not (tptp.diastole_1 X)) (not (tptp.heart_attack_1 X)) (not (tptp.heart_murmur_1 X)) (not (tptp.hypertension_1 X)) (not (tptp.pulse_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cardiac_muscle_14 X))) (let ((_let_2 (tptp.fn_gap_junction_10 _let_1))) (let ((_let_3 (tptp.fn_tissue_1 X))) (let ((_let_4 (tptp.fn_cardiac_muscle_4 X))) (let ((_let_5 (tptp.fn_metabolic_pathway_1 _let_4))) (let ((_let_6 (tptp.fn_cardiac_muscle_12 X))) (let ((_let_7 (tptp.fn_cell_25 _let_6))) (let ((_let_8 (tptp.fn_animal_cell_52 _let_6))) (let ((_let_9 (tptp.fn_gap_junction_9 _let_1))) (let ((_let_10 (tptp.fn_cardiac_muscle_15 X))) (let ((_let_11 (tptp.fn_communicate_1 _let_10))) (let ((_let_12 (tptp.fn_cardiac_muscle_10 X))) (let ((_let_13 (tptp.fn_interpret_2 _let_12))) (let ((_let_14 (tptp.fn_cardiac_muscle_11 X))) (let ((_let_15 (tptp.fn_convey_1 _let_14))) (let ((_let_16 (tptp.fn_cell_2 _let_6))) (let ((_let_17 (tptp.fn_cardiac_muscle_6 X))) (let ((_let_18 (tptp.fn_cell_11 _let_6))) (let ((_let_19 (tptp.fn_cardiac_muscle_9 X))) (let ((_let_20 (tptp.fn_cell_10 _let_6))) (let ((_let_21 (tptp.fn_cardiac_muscle_8 X))) (let ((_let_22 (tptp.fn_cardiac_muscle_13 X))) (let ((_let_23 (tptp.fn_animal_cell_78 _let_6))) (let ((_let_24 (tptp.fn_cardiac_muscle_7 X))) (let ((_let_25 (tptp.fn_animal_cell_20 _let_6))) (let ((_let_26 (tptp.fn_cardiac_muscle_5 X))) (let ((_let_27 (tptp.fn_cardiac_muscle_1 X))) (let ((_let_28 (tptp.fn_cardiac_muscle_2 X))) (=> (tptp.cardiac_muscle_1 X) (and (tptp.original_name_2 X |tptp.'Cardiac-Muscle'|) (tptp.user_description_2 X |tptp.'A type of contractile striated muscle found in the walls of the heart. Cells of cardiac muscle are connected by intercalated discs, which allow impulses to travel between them for coordinated contraction.'|) (tptp.concept2words_2 X |tptp.'cardiac muscle'|) (tptp.concept2words_2 X |tptp.'cardiac-muscle'|) (tptp.striated_muscle_1 X) (not (tptp.skeletal_muscle_1 X)) (tptp.protein_enzyme_1 _let_27) (tptp.exchange_1 _let_28) (tptp.synthesis_of_lipid_1 _let_4) (tptp.metabolic_pathway_1 _let_26) (tptp.endergonic_process_1 _let_26) (tptp.chemical_reaction_1 _let_26) (tptp.synthesis_of_organic_molecule_1 _let_26) (tptp.anabolic_pathway_1 _let_26) (tptp.synthesis_of_atp_1 _let_26) (tptp.cytoskeleton_1 _let_17) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.eukaryotic_chromosome_1 _let_21) (tptp.chromosome_1 _let_21) (tptp.size_value_1 _let_19) (tptp.interpret_1 _let_12) (tptp.convey_1 _let_14) (tptp.eukaryotic_cell_1 _let_6) (tptp.animal_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.tangible_entity_1 _let_22) (tptp.animal_cell_1 _let_22) (tptp.gap_junction_1 _let_1) (tptp.communicate_1 _let_10) (tptp.metabolic_pathway_1 _let_25) (tptp.endergonic_process_1 _let_25) (tptp.chemical_reaction_1 _let_25) (tptp.synthesis_of_organic_molecule_1 _let_25) (tptp.anabolic_pathway_1 _let_25) (tptp.synthesis_of_atp_1 _let_25) (tptp.tangible_entity_1 _let_23) (tptp.nucleus_1 _let_23) (tptp.property_node_1 _let_20) (tptp.size_value_1 _let_18) (tptp.cytoskeleton_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.animal_cell_1 _let_9) (tptp.eukaryotic_chromosome_1 _let_8) (tptp.chromosome_1 _let_8) (tptp.chromosome_1 _let_7) (tptp.cell_1 _let_5) (tptp.animal_cell_1 _let_2) (tptp.instrument_2 _let_10 _let_1) (tptp.subevent_2 _let_10 _let_14) (tptp.subevent_2 _let_10 _let_12) (tptp.agent_2 _let_28 _let_22) (tptp.base_2 _let_28 _let_6) (tptp.has_function_2 _let_1 _let_28) (tptp.has_function_2 _let_1 _let_10) (tptp.next_event_2 _let_14 _let_12) (tptp.the_scalar_value_2 _let_19 tptp.big_0) (tptp.scalar_unit_class_2 _let_19 tptp.prokaryote_0) (tptp.agent_2 _let_26 _let_27) (tptp.agent_2 _let_4 _let_27) (tptp.recipient_2 _let_14 _let_22) (tptp.agent_2 _let_12 _let_22) (tptp.recipient_2 _let_10 _let_22) (tptp.base_2 _let_4 _let_6) (tptp.has_part_2 X _let_6) (tptp.base_2 _let_26 _let_6) (tptp.has_part_2 _let_6 _let_24) (tptp.is_inside_2 _let_21 _let_24) (tptp.is_between_2 _let_1 _let_22) (tptp.is_between_2 _let_1 _let_6) (not (= _let_22 _let_6)) (not (= _let_6 _let_22)) (tptp.abuts_2 _let_22 _let_6) (tptp.abuts_2 _let_6 _let_22) (tptp.size_2 _let_6 _let_19) (tptp.has_part_2 _let_6 _let_21) (= _let_22 _let_15) (= _let_22 _let_13) (= _let_22 _let_11) (= _let_6 _let_5) (= _let_6 _let_3) (= _let_26 _let_25) (= _let_21 _let_8) (= _let_24 _let_23) (= _let_22 _let_9) (= _let_6 _let_2) (= _let_21 _let_7) (= (tptp.fn_cardiac_muscle_3 X) _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cardinal_1 X) (and (tptp.original_name_2 X |tptp.'Cardinal'|) (tptp.concept2words_2 X tptp.cardinal) (tptp.property_group_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cardinality_1 X) (and (tptp.original_name_2 X |tptp.'Cardinality'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cardiovascular_disease_1 X) (and (tptp.original_name_2 X |tptp.'Cardiovascular-Disease'|) (tptp.user_description_2 X |tptp.'Any disease affecting the cardiovascular system.'|) (tptp.concept2words_2 X |tptp.'heart disease'|) (tptp.concept2words_2 X |tptp.'heart-disease'|) (tptp.concept2words_2 X |tptp.'cardiovascular disease'|) (tptp.concept2words_2 X |tptp.'cardiovascular-disease'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cardiovascular_process_1 X) (and (tptp.original_name_2 X |tptp.'Cardiovascular-Process'|) (tptp.user_description_2 X |tptp.'Any process related to the cardiovascular system.'|) (tptp.concept2words_2 X |tptp.'cardiovascular process'|) (tptp.concept2words_2 X |tptp.'cardiovascular-process'|) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cardiovascular_related_intercellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Cardiovascular-Related-Intercellular-Process'|) (tptp.user_description_2 X |tptp.'Intercellular process related to the cardiovascular system and its components.'|) (tptp.concept2words_2 X |tptp.'undergo cardiovascular related intercellular process'|) (tptp.concept2words_2 X |tptp.'cardiovascular related intercellular process'|) (tptp.concept2words_2 X |tptp.'cardiovascular-related-intercellular-process'|) (tptp.intercellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cardiovascular_system_1 X) (and (tptp.original_name_2 X |tptp.'Cardiovascular-System'|) (tptp.user_description_2 X |tptp.'A closed circulatory system consisting of a heart and blood vessels (veins, capillaries, and arteries).'|) (tptp.concept2words_2 X |tptp.'cardiovascular system'|) (tptp.concept2words_2 X |tptp.'cardiovascular-system'|) (tptp.closed_circulatory_system_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carnivore_9 X))) (let ((_let_2 (tptp.fn_animal_18 _let_1))) (let ((_let_3 (tptp.fn_carnivore_2 X))) (let ((_let_4 (tptp.fn_food_1 _let_3))) (let ((_let_5 (tptp.fn_animal_19 _let_1))) (let ((_let_6 (tptp.fn_animal_6 _let_1))) (let ((_let_7 (tptp.fn_carnivore_14 X))) (let ((_let_8 (tptp.fn_organic_molecule_1 _let_7))) (let ((_let_9 (tptp.fn_organic_molecule_2 _let_7))) (let ((_let_10 (tptp.fn_carnivore_5 X))) (let ((_let_11 (tptp.fn_eat_2 _let_10))) (let ((_let_12 (tptp.fn_food_3 _let_3))) (let ((_let_13 (tptp.fn_organism_5 _let_1))) (let ((_let_14 (tptp.fn_carnivore_12 X))) (let ((_let_15 (tptp.fn_organism_6 _let_1))) (let ((_let_16 (tptp.fn_organism_2 _let_1))) (let ((_let_17 (tptp.fn_carnivore_11 X))) (let ((_let_18 (tptp.fn_organism_4 _let_1))) (let ((_let_19 (tptp.fn_carnivore_10 X))) (let ((_let_20 (tptp.fn_organism_1 _let_1))) (let ((_let_21 (tptp.fn_carnivore_13 X))) (let ((_let_22 (tptp.fn_food_2 _let_3))) (let ((_let_23 (tptp.fn_carnivore_1 X))) (let ((_let_24 (tptp.fn_carnivore_4 X))) (let ((_let_25 (tptp.fn_barrier_1 _let_24))) (let ((_let_26 (tptp.fn_food_4 _let_3))) (let ((_let_27 (tptp.fn_animal_9 _let_1))) (let ((_let_28 (tptp.fn_carnivore_3 X))) (let ((_let_29 (tptp.fn_move_into_2 _let_10))) (let ((_let_30 (tptp.fn_carnivore_6 X))) (let ((_let_31 (tptp.fn_eat_1 _let_10))) (=> (tptp.carnivore_1 X) (and (tptp.original_name_2 X |tptp.'Carnivore'|) (tptp.user_description_2 X |tptp.'An animal which primarily consumes other animals as a source of energy and nutrients.'|) (tptp.concept2words_2 X tptp.carnivore) (tptp.heterotroph_1 X) (tptp.polymer_1 _let_23) (tptp.food_1 _let_3) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.container_1 _let_24) (tptp.barrier_1 _let_24) (tptp.eat_1 _let_10) (tptp.move_into_1 _let_10) (tptp.take_in_1 _let_10) (tptp.animal_1 _let_30) (tptp.animal_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.organism_1 _let_1) (tptp.water_1 _let_19) (tptp.temperature_value_1 _let_17) (tptp.specific_heat_value_1 _let_14) (tptp.nutrition_1 _let_21) (tptp.organic_molecule_1 _let_7) (tptp.food_1 _let_31) (tptp.container_1 _let_29) (tptp.take_in_1 _let_27) (tptp.organic_molecule_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.polymer_1 _let_22) (tptp.property_node_1 _let_20) (tptp.water_1 _let_18) (tptp.temperature_value_1 _let_16) (tptp.property_node_1 _let_15) (tptp.specific_heat_value_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.carbon_1 _let_8) (tptp.atom_1 _let_6) (tptp.carbon_1 _let_6) (tptp.nutrition_1 _let_5) (tptp.nutrition_1 _let_4) (tptp.heterotroph_1 _let_2) (tptp.by_means_of_2 _let_21 _let_10) (tptp.has_part_2 _let_30 _let_23) (tptp.has_part_2 _let_30 _let_7) (tptp.object_2 _let_10 _let_30) (tptp.plays_2 _let_30 _let_3) (tptp.has_part_2 _let_7 _let_28) (tptp.raw_material_2 _let_21 _let_28) (tptp.plays_2 _let_1 X) (tptp.in_event_2 X _let_21) (tptp.agent_2 _let_21 _let_1) (tptp.agent_2 _let_10 _let_1) (tptp.base_2 _let_10 _let_1) (tptp.raw_material_2 _let_21 _let_7) (tptp.raw_material_2 _let_21 _let_23) (tptp.in_event_2 _let_3 _let_21) (= _let_30 _let_12) (= _let_3 _let_31) (= _let_30 _let_11) (= _let_28 _let_9) (= _let_28 _let_8) (= _let_24 _let_29) (= _let_28 _let_6) (= _let_10 _let_27) (= _let_21 _let_5) (= X _let_2) (= _let_7 _let_26) (= _let_1 _let_25) (= _let_23 _let_22) (= _let_21 _let_4) (= (tptp.fn_carnivore_8 X) _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= (tptp.fn_carnivore_7 X) _let_15) (= _let_14 _let_13) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carotenoid_14 X))) (let ((_let_2 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_3 (tptp.fn_chemical_bond_1 _let_1))) (let ((_let_4 (tptp.fn_phytochemical_4 X))) (let ((_let_5 (tptp.fn_phytochemical_5 X))) (let ((_let_6 (tptp.fn_molecule_11 X))) (let ((_let_7 (tptp.fn_pigment_2 X))) (let ((_let_8 (tptp.fn_carotenoid_15 X))) (let ((_let_9 (tptp.fn_violet_light_8 _let_8))) (let ((_let_10 (tptp.fn_carotenoid_16 X))) (let ((_let_11 (tptp.fn_carotenoid_9 X))) (let ((_let_12 (tptp.fn_carotenoid_12 X))) (let ((_let_13 (tptp.fn_carotenoid_11 X))) (let ((_let_14 (tptp.fn_carotenoid_10 X))) (let ((_let_15 (tptp.fn_carotenoid_13 X))) (let ((_let_16 (tptp.fn_carotenoid_17 X))) (let ((_let_17 (tptp.fn_carotenoid_18 X))) (let ((_let_18 (tptp.fn_carotenoid_19 X))) (let ((_let_19 (tptp.fn_carotenoid_4 X))) (let ((_let_20 (tptp.fn_carotenoid_3 X))) (let ((_let_21 (tptp.fn_carotenoid_2 X))) (let ((_let_22 (tptp.fn_carotenoid_6 X))) (=> (tptp.carotenoid_1 X) (and (tptp.original_name_2 X |tptp.'Carotenoid'|) (tptp.user_description_2 X |tptp.'A light-absorbing pigment, usually colored yellow or orange. Carotenoids broaden the wavelengths of light capable of providing energy for photosynthesis as well a absorbing excess light energy that would harm chlorophyll molecules.'|) (tptp.concept2words_2 X tptp.carotenoid) (tptp.phytochemical_1 X) (tptp.accessory_pigment_1 X) (not (tptp.chlorophyll_1 X)) (tptp.color_value_1 _let_21) (tptp.photoprotection_1 _let_20) (tptp.shape_value_1 _let_19) (tptp.molecular_region_1 _let_22) (tptp.kinetic_energy_1 _let_11) (tptp.constant_motion_1 _let_14) (tptp.speed_value_1 _let_13) (tptp.quantity_value_1 _let_12) (tptp.atom_1 _let_15) (tptp.carbon_1 _let_15) (tptp.chemical_bond_1 _let_1) (tptp.violet_light_1 _let_8) (tptp.magnesium_1 _let_10) (tptp.carbon_skeleton_1 _let_16) (tptp.move_1 _let_17) (tptp.absorb_1 _let_17) (tptp.blue_green_light_1 _let_18) (tptp.move_1 _let_9) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.path_2 _let_17 _let_16) (tptp.has_region_2 X _let_22) (tptp.shape_2 X _let_19) (tptp.has_function_2 X _let_20) (tptp.color_2 X _let_21) (tptp.agent_2 _let_20 X) (tptp.the_categorical_value_2 _let_19 tptp.hollow_volume_0) (tptp.object_2 _let_17 _let_8) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_15) (tptp.has_part_2 X _let_10) (not (= _let_15 _let_10)) (not (= _let_10 _let_15)) (tptp.has_function_2 X _let_17) (tptp.base_2 _let_17 X) (tptp.agent_2 _let_17 X) (tptp.object_2 _let_17 _let_18) (tptp.has_part_2 X _let_15) (tptp.is_inside_2 _let_15 _let_16) (tptp.has_region_2 X _let_16) (tptp.is_between_2 _let_1 _let_10) (= _let_17 _let_9) (= _let_15 _let_6) (= _let_1 (tptp.fn_molecule_10 X)) (= _let_10 _let_4) (= _let_18 (tptp.fn_pigment_1 X)) (= _let_17 _let_7) (= (tptp.fn_carotenoid_7 X) (tptp.fn_phytochemical_2 X)) (= (tptp.fn_carotenoid_8 X) (tptp.fn_phytochemical_1 X)) (= _let_16 (tptp.fn_phytochemical_7 X)) (= _let_15 _let_5) (= _let_14 (tptp.fn_phytochemical_3 X)) (= _let_13 (tptp.fn_phytochemical_10 X)) (= _let_12 (tptp.fn_phytochemical_9 X)) (= _let_11 (tptp.fn_phytochemical_6 X)) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carpel_3 X))) (let ((_let_2 (tptp.fn_carpel_4 X))) (let ((_let_3 (tptp.fn_carpel_1 X))) (=> (tptp.carpel_1 X) (and (tptp.original_name_2 X |tptp.'Carpel'|) (tptp.user_description_2 X |tptp.'The ovule-producing reproductive organ of a flower, consisting of the stigma, style, and ovary.'|) (tptp.concept2words_2 X tptp.carpel) (tptp.flower_organ_1 X) (tptp.egg_1 _let_3) (tptp.sex_value_1 _let_1) (tptp.ovule_1 _let_2) (tptp.has_part_2 _let_2 _let_3) (tptp.sex_2 X _let_1) (tptp.has_part_2 X _let_2) (tptp.the_categorical_value_2 _let_1 tptp.female_0))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carrier_1 X))) (=> (tptp.carrier_1 X) (and (tptp.original_name_2 X |tptp.'Carrier'|) (tptp.concept2words_2 X tptp.carrier) (tptp.role_1 X) (tptp.entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carrier_as_genotype_1 X))) (=> (tptp.carrier_as_genotype_1 X) (and (tptp.original_name_2 X |tptp.'Carrier-As-Genotype'|) (tptp.user_description_2 X |tptp.'A heterozygote; one possessing both the dominant and recessive allele for a given trait.'|) (tptp.concept2words_2 X |tptp.'carrier genotype'|) (tptp.concept2words_2 X |tptp.'heterozygote genotype'|) (tptp.concept2words_2 X tptp.carrier) (tptp.concept2words_2 X |tptp.'carrier as genotype'|) (tptp.concept2words_2 X |tptp.'carrier-as-genotype'|) (tptp.eukaryote_1 X) (tptp.heterozygous_1 X) (tptp.complete_dominance_1 _let_1) (tptp.agent_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carrier_protein_7 X))) (let ((_let_2 (tptp.fn_facilitated_diffusion_using_carrier_protein_33 _let_1))) (let ((_let_3 (tptp.fn_transport_protein_8 X))) (let ((_let_4 (tptp.fn_carrier_protein_35 X))) (let ((_let_5 (tptp.fn_polypeptide_82 _let_4))) (let ((_let_6 (tptp.fn_polypeptide_83 _let_4))) (let ((_let_7 (tptp.fn_transport_protein_34 X))) (let ((_let_8 (tptp.fn_facilitated_diffusion_using_carrier_protein_34 _let_1))) (let ((_let_9 (tptp.fn_transport_protein_10 X))) (let ((_let_10 (tptp.fn_transport_protein_35 X))) (let ((_let_11 (tptp.fn_facilitated_diffusion_using_carrier_protein_40 _let_1))) (let ((_let_12 (tptp.fn_integral_protein_24 X))) (let ((_let_13 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_14 (tptp.fn_transport_protein_16 X))) (let ((_let_15 (tptp.fn_transport_protein_33 X))) (let ((_let_16 (tptp.fn_transport_protein_9 X))) (let ((_let_17 (tptp.fn_facilitated_diffusion_using_carrier_protein_28 _let_1))) (let ((_let_18 (tptp.fn_protein_6 X))) (let ((_let_19 (tptp.fn_polymer_1 X))) (let ((_let_20 (tptp.fn_transport_protein_31 X))) (let ((_let_21 (tptp.fn_integral_protein_25 X))) (let ((_let_22 (tptp.fn_transport_protein_20 X))) (let ((_let_23 (tptp.fn_integral_protein_16 X))) (let ((_let_24 (tptp.fn_polypeptide_130 _let_4))) (let ((_let_25 (tptp.fn_polymer_1 _let_4))) (let ((_let_26 (tptp.fn_polypeptide_91 _let_4))) (let ((_let_27 (tptp.fn_polypeptide_125 _let_4))) (let ((_let_28 (tptp.fn_carrier_protein_20 X))) (let ((_let_29 (tptp.fn_hydrophilic_compound_1 _let_28))) (let ((_let_30 (tptp.fn_carrier_protein_28 X))) (let ((_let_31 (tptp.fn_attract_2 _let_30))) (let ((_let_32 (tptp.fn_carrier_protein_25 X))) (let ((_let_33 (tptp.fn_carrier_protein_27 X))) (let ((_let_34 (tptp.fn_carrier_protein_24 X))) (let ((_let_35 (tptp.fn_carrier_protein_42 X))) (let ((_let_36 (tptp.fn_carrier_protein_37 X))) (let ((_let_37 (tptp.fn_carrier_protein_38 X))) (let ((_let_38 (tptp.fn_carrier_protein_41 X))) (let ((_let_39 (tptp.fn_carrier_protein_4 X))) (let ((_let_40 (tptp.fn_carrier_protein_18 X))) (let ((_let_41 (tptp.fn_carrier_protein_23 X))) (let ((_let_42 (tptp.fn_carrier_protein_22 X))) (let ((_let_43 (tptp.fn_carrier_protein_34 X))) (let ((_let_44 (tptp.fn_carrier_protein_32 X))) (let ((_let_45 (tptp.fn_carrier_protein_5 X))) (let ((_let_46 (tptp.fn_carrier_protein_21 X))) (let ((_let_47 (tptp.fn_carrier_protein_36 X))) (let ((_let_48 (tptp.fn_carrier_protein_16 X))) (let ((_let_49 (tptp.fn_carrier_protein_6 X))) (let ((_let_50 (tptp.fn_carrier_protein_31 X))) (let ((_let_51 (tptp.fn_carrier_protein_33 X))) (let ((_let_52 (tptp.fn_carrier_protein_39 X))) (let ((_let_53 (tptp.fn_carrier_protein_17 X))) (let ((_let_54 (tptp.fn_carrier_protein_40 X))) (let ((_let_55 (tptp.fn_carrier_protein_30 X))) (let ((_let_56 (tptp.fn_carrier_protein_19 X))) (let ((_let_57 (tptp.fn_carrier_protein_14 X))) (let ((_let_58 (tptp.fn_polypeptide_126 _let_4))) (let ((_let_59 (tptp.fn_carrier_protein_26 X))) (let ((_let_60 (tptp.fn_carrier_protein_15 X))) (let ((_let_61 (tptp.fn_facilitated_diffusion_using_carrier_protein_4 _let_1))) (let ((_let_62 (tptp.fn_carrier_protein_13 X))) (let ((_let_63 (tptp.fn_facilitated_diffusion_using_carrier_protein_2 _let_1))) (let ((_let_64 (tptp.fn_facilitated_diffusion_using_carrier_protein_7 _let_1))) (let ((_let_65 (tptp.fn_carrier_protein_3 X))) (let ((_let_66 (tptp.fn_carrier_protein_29 X))) (let ((_let_67 (tptp.fn_hydrophilic_compound_2 _let_28))) (let ((_let_68 (tptp.fn_block_1 _let_53))) (let ((_let_69 (tptp.fn_carrier_protein_2 X))) (=> (tptp.carrier_protein_1 X) (and (tptp.original_name_2 X |tptp.'Carrier-Protein'|) (tptp.user_description_2 X |tptp.'Carrier proteins are proteins involved in the movement of ions, small molecules, or macromolecules, such as another protein, across a biological membrane.'|) (tptp.concept2words_2 X |tptp.'protein of carrier'|) (tptp.concept2words_2 X |tptp.'carrier protein'|) (tptp.concept2words_2 X |tptp.'carrier-protein'|) (tptp.transport_protein_1 X) (tptp.quantity_value_1 _let_69) (tptp.binding_site_1 _let_65) (tptp.move_through_1 _let_39) (tptp.attract_1 _let_45) (tptp.repel_1 _let_49) (tptp.facilitated_diffusion_1 _let_1) (tptp.facilitated_diffusion_using_carrier_protein_1 _let_1) (tptp.shape_value_1 _let_62) (tptp.chemical_bond_1 _let_57) (tptp.covalent_bond_1 _let_57) (tptp.peptide_bond_1 _let_57) (tptp.tangible_entity_1 _let_60) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.nitrogen_1 _let_60) (tptp.tangible_entity_1 _let_48) (tptp.phospholipid_bilayer_1 _let_48) (tptp.block_1 _let_53) (tptp.membrane_1 _let_40) (tptp.spatial_entity_1 _let_40) (tptp.biomembrane_1 _let_40) (tptp.hydrophobic_compound_1 _let_56) (tptp.spatial_entity_1 _let_28) (tptp.hydrophilic_compound_1 _let_28) (tptp.hydrophobic_region_1 _let_46) (tptp.hydrophilic_region_1 _let_42) (tptp.hydrophilic_end_1 _let_42) (tptp.hydrophilic_region_1 _let_41) (tptp.hydrophilic_end_1 _let_41) (tptp.carbon_skeleton_1 _let_34) (tptp.protein_domain_1 _let_32) (tptp.entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.atom_1 _let_59) (tptp.carbon_1 _let_59) (tptp.spatial_entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.monomer_1 _let_33) (tptp.molecule_1 _let_33) (tptp.amino_acid_1 _let_33) (tptp.attract_1 _let_30) (tptp.entity_1 _let_66) (tptp.hydrophilic_region_1 _let_66) (tptp.polar_amino_acid_1 _let_55) (tptp.hydrophobic_amino_acid_1 _let_50) (tptp.entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.monomer_1 _let_51) (tptp.carbon_1 _let_43) (tptp.polymer_1 _let_4) (tptp.polypeptide_1 _let_4) (tptp.covalent_bond_1 _let_47) (tptp.peptide_bond_1 _let_47) (tptp.speed_value_1 _let_36) (tptp.quantity_value_1 _let_37) (tptp.size_value_1 _let_52) (tptp.size_value_1 _let_54) (tptp.kinetic_energy_1 _let_38) (tptp.constant_motion_1 _let_35) (tptp.spatial_entity_1 _let_68) (tptp.attract_1 _let_67) (tptp.binding_site_1 _let_64) (tptp.property_node_1 _let_63) (tptp.shape_value_1 _let_61) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.carbon_1 _let_58) (tptp.entity_1 _let_31) (tptp.hydrophilic_region_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.nitrogen_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.nitrogen_1 _let_26) (tptp.covalent_bond_1 _let_25) (tptp.chemical_bond_1 _let_24) (tptp.covalent_bond_1 _let_24) (tptp.peptide_bond_1 _let_24) (tptp.covalent_bond_1 _let_17) (tptp.peptide_bond_1 _let_17) (tptp.spatial_entity_1 _let_11) (tptp.membrane_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.move_through_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.monomer_1 _let_6) (tptp.molecule_1 _let_6) (tptp.amino_acid_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.monomer_1 _let_5) (tptp.molecule_1 _let_5) (tptp.amino_acid_1 _let_5) (tptp.carrier_protein_1 _let_2) (not (= _let_28 _let_56)) (not (= _let_56 _let_28)) (tptp.quantity_2 X _let_69) (tptp.object_2 _let_53 _let_28) (tptp.agent_2 _let_30 _let_66) (tptp.has_region_2 _let_28 _let_66) (tptp.site_2 _let_30 _let_66) (tptp.has_function_2 _let_28 _let_30) (tptp.possesses_2 X _let_47) (tptp.path_2 _let_1 _let_40) (tptp.has_function_2 X _let_1) (tptp.subevent_2 _let_1 _let_39) (tptp.instrument_2 _let_1 X) (tptp.is_between_2 _let_57 _let_60) (tptp.possesses_2 _let_4 _let_57) (tptp.is_between_2 _let_57 _let_59) (not (= _let_60 _let_59)) (not (= _let_59 _let_60)) (tptp.object_2 _let_53 _let_56) (tptp.called_2 _let_53 |"1"|) (tptp.the_scalar_value_2 _let_54 tptp.big_0) (tptp.scalar_unit_class_2 _let_54 tptp.polypeptide_0) (tptp.greater_than_2 _let_54 _let_52) (tptp.size_2 X _let_54) (tptp.has_part_2 X _let_55) (tptp.is_at_2 _let_55 _let_41) (tptp.facilitates_2 X _let_39) (tptp.has_function_2 _let_40 _let_39) (tptp.has_function_2 _let_40 _let_53) (tptp.instrument_2 _let_53 _let_40) (tptp.is_inside_2 _let_46 _let_40) (tptp.is_inside_2 _let_50 _let_46) (tptp.has_part_2 X _let_50) (tptp.has_part_2 X _let_51) (tptp.size_2 _let_51 _let_52) (tptp.agent_2 _let_49 X) (tptp.site_2 _let_49 _let_46) (tptp.facilitates_2 _let_46 _let_49) (tptp.has_function_2 X _let_49) (tptp.is_across_2 X _let_40) (tptp.is_between_2 _let_47 _let_43) (tptp.is_between_2 _let_47 _let_44) (tptp.has_part_2 X _let_44) (tptp.is_inside_2 X _let_48) (tptp.has_part_2 _let_40 _let_48) (tptp.agent_2 _let_45 X) (tptp.site_2 _let_45 _let_41) (tptp.facilitates_2 _let_41 _let_45) (tptp.has_function_2 X _let_45) (tptp.has_region_2 X _let_46) (tptp.is_inside_2 _let_43 _let_34) (tptp.has_part_2 X _let_43) (tptp.has_region_2 X _let_42) (not (= _let_44 _let_43)) (not (= _let_43 _let_44)) (tptp.agent_2 _let_39 X) (tptp.base_2 _let_39 _let_40) (tptp.has_part_2 _let_40 X) (tptp.has_region_2 X _let_41) (tptp.is_opposite_2 _let_41 _let_42) (tptp.is_opposite_2 _let_42 _let_41) (tptp.object_2 _let_35 X) (tptp.speed_2 _let_35 _let_36) (tptp.directly_proportional_2 _let_36 _let_37) (tptp.quantity_2 _let_38 _let_37) (tptp.possesses_2 X _let_38) (tptp.has_region_2 X _let_32) (tptp.is_at_2 _let_33 _let_32) (tptp.has_part_2 _let_4 _let_33) (tptp.has_part_2 X _let_4) (tptp.has_region_2 X _let_34) (= _let_28 _let_68) (= _let_66 _let_31) (= _let_30 _let_67) (= _let_66 _let_29) (= _let_65 _let_64) (= _let_47 _let_19) (= _let_47 _let_18) (= _let_47 _let_17) (= _let_40 _let_11) (= _let_39 _let_8) (= (tptp.fn_carrier_protein_8 X) _let_63) (= _let_62 _let_61) (= _let_1 (tptp.fn_transport_protein_28 X)) (= X _let_2) (= _let_60 _let_27) (= _let_60 _let_26) (= _let_59 _let_58) (= _let_57 _let_25) (= _let_57 _let_24) (= _let_56 (tptp.fn_transport_protein_11 X)) (= (tptp.fn_carrier_protein_12 X) (tptp.fn_transport_protein_29 X)) (= (tptp.fn_carrier_protein_11 X) (tptp.fn_transport_protein_30 X)) (= (tptp.fn_carrier_protein_9 X) (tptp.fn_transport_protein_22 X)) (= _let_55 (tptp.fn_transport_protein_32 X)) (= _let_54 _let_23) (= _let_54 _let_22) (= _let_53 _let_21) (= _let_53 _let_20) (= (tptp.fn_carrier_protein_10 X) (tptp.fn_transport_protein_23 X)) (= _let_52 (tptp.fn_transport_protein_19 X)) (= _let_51 (tptp.fn_transport_protein_21 X)) (= _let_50 (tptp.fn_transport_protein_13 X)) (= _let_49 (tptp.fn_transport_protein_5 X)) (= _let_48 (tptp.fn_transport_protein_12 X)) (= _let_47 _let_16) (= _let_46 (tptp.fn_transport_protein_15 X)) (= _let_41 _let_15) (= _let_45 (tptp.fn_transport_protein_4 X)) (= _let_44 (tptp.fn_transport_protein_17 X)) (= _let_43 (tptp.fn_transport_protein_14 X)) (= _let_42 _let_15) (= _let_41 _let_14) (= _let_40 _let_13) (= _let_40 _let_12) (= _let_39 _let_9) (= _let_40 _let_10) (= _let_39 _let_7) (= _let_38 (tptp.fn_transport_protein_27 X)) (= _let_37 (tptp.fn_transport_protein_24 X)) (= _let_36 (tptp.fn_transport_protein_25 X)) (= _let_35 (tptp.fn_transport_protein_26 X)) (= _let_34 (tptp.fn_transport_protein_18 X)) (= _let_33 _let_6) (= _let_33 _let_5) (= _let_4 (tptp.fn_transport_protein_7 X)) (= _let_33 _let_3) (= _let_32 (tptp.fn_transport_protein_6 X)) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.carrot_1 X) (and (tptp.original_name_2 X |tptp.'Carrot'|) (tptp.user_description_2 X |tptp.'Deep orange edible root of the cultivatedcarrot plant.'|) (tptp.concept2words_2 X tptp.carrot) (tptp.root_1 X) (not (tptp.adventitious_root_1 X)) (not (tptp.fibrous_root_1 X)) (not (tptp.lateral_root_1 X)) (not (tptp.radicle_1 X)) (not (tptp.taproot_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carrot_plant_33 X))) (let ((_let_2 (tptp.fn_plant_cell_63 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_4 (tptp.fn_carrot_plant_43 X))) (let ((_let_5 (tptp.fn_eukaryotic_cellular_respiration_62 _let_4))) (let ((_let_6 (tptp.fn_carrot_plant_36 X))) (let ((_let_7 (tptp.fn_photosynthesis_38 _let_6))) (let ((_let_8 (tptp.fn_carrot_plant_48 X))) (let ((_let_9 (tptp.fn_photosynthesis_38 _let_8))) (let ((_let_10 (tptp.fn_cellular_respiration_61 _let_4))) (let ((_let_11 (tptp.fn_eukaryotic_cellular_respiration_68 _let_4))) (let ((_let_12 (tptp.fn_cellular_respiration_43 _let_4))) (let ((_let_13 (tptp.fn_exergonic_reaction_6 _let_4))) (let ((_let_14 (tptp.fn_eukaryotic_cellular_respiration_111 _let_4))) (let ((_let_15 (tptp.fn_eukaryotic_cellular_respiration_42 _let_4))) (let ((_let_16 (tptp.fn_cellular_respiration_56 _let_4))) (let ((_let_17 (tptp.fn_carrot_plant_37 X))) (let ((_let_18 (tptp.fn_starch_storage_by_plant_3 _let_17))) (let ((_let_19 (tptp.fn_store_2 _let_17))) (let ((_let_20 (tptp.fn_carrot_plant_40 X))) (let ((_let_21 (tptp.fn_store_2 _let_20))) (let ((_let_22 (tptp.fn_seed_plant_13 X))) (let ((_let_23 (tptp.fn_metabolic_pathway_1 _let_6))) (let ((_let_24 (tptp.fn_metabolic_pathway_1 _let_4))) (let ((_let_25 (tptp.fn_seed_plant_4 X))) (let ((_let_26 (tptp.fn_starch_storage_by_plant_6 _let_17))) (let ((_let_27 (tptp.fn_starch_storage_by_plant_5 _let_17))) (let ((_let_28 (tptp.fn_seed_plant_9 X))) (let ((_let_29 (tptp.fn_dicot_3 X))) (let ((_let_30 (tptp.fn_photosynthesis_25 _let_6))) (let ((_let_31 (tptp.fn_carrot_plant_14 X))) (let ((_let_32 (tptp.fn_glucose_2 _let_31))) (let ((_let_33 (tptp.fn_anabolic_pathway_3 _let_6))) (let ((_let_34 (tptp.fn_cellular_respiration_59 _let_4))) (let ((_let_35 (tptp.fn_cellular_respiration_58 _let_4))) (let ((_let_36 (tptp.fn_seed_plant_3 X))) (let ((_let_37 (tptp.fn_carrot_plant_38 X))) (let ((_let_38 (tptp.fn_root_28 _let_37))) (let ((_let_39 (tptp.fn_carrot_plant_42 X))) (let ((_let_40 (tptp.fn_root_28 _let_39))) (let ((_let_41 (tptp.fn_root_33 _let_37))) (let ((_let_42 (tptp.fn_root_33 _let_39))) (let ((_let_43 (tptp.fn_anabolic_pathway_5 _let_6))) (let ((_let_44 (tptp.fn_photosynthesis_37 _let_6))) (let ((_let_45 (tptp.fn_carrot_plant_44 X))) (let ((_let_46 (tptp.fn_carrot_plant_20 X))) (let ((_let_47 (tptp.fn_eukaryotic_cellular_respiration_97 _let_4))) (let ((_let_48 (tptp.fn_carrot_plant_23 X))) (let ((_let_49 (tptp.fn_carrot_plant_25 X))) (let ((_let_50 (tptp.fn_carrot_plant_55 X))) (let ((_let_51 (tptp.fn_carrot_plant_6 X))) (let ((_let_52 (tptp.fn_carrot_plant_56 X))) (let ((_let_53 (tptp.fn_carrot_plant_53 X))) (let ((_let_54 (tptp.fn_carrot_plant_54 X))) (let ((_let_55 (tptp.fn_carrot_plant_34 X))) (let ((_let_56 (tptp.fn_carrot_plant_7 X))) (let ((_let_57 (tptp.fn_carrot_plant_30 X))) (let ((_let_58 (tptp.fn_carrot_plant_35 X))) (let ((_let_59 (tptp.fn_carrot_plant_41 X))) (let ((_let_60 (tptp.fn_photosynthesis_50 _let_6))) (let ((_let_61 (tptp.fn_carrot_plant_21 X))) (let ((_let_62 (tptp.fn_photosynthesis_51 _let_6))) (let ((_let_63 (tptp.fn_carrot_plant_27 X))) (let ((_let_64 (tptp.fn_photosynthesis_52 _let_6))) (let ((_let_65 (tptp.fn_carrot_plant_28 X))) (let ((_let_66 (tptp.fn_photosynthesis_47 _let_6))) (let ((_let_67 (tptp.fn_carrot_plant_31 X))) (let ((_let_68 (tptp.fn_photosynthesis_24 _let_6))) (let ((_let_69 (tptp.fn_carrot_plant_18 X))) (let ((_let_70 (tptp.fn_carrot_plant_17 X))) (let ((_let_71 (tptp.fn_photosynthesis_57 _let_6))) (let ((_let_72 (tptp.fn_photosynthesis_46 _let_6))) (let ((_let_73 (tptp.fn_carrot_plant_32 X))) (let ((_let_74 (tptp.fn_photosynthesis_3 _let_6))) (let ((_let_75 (tptp.fn_carrot_plant_22 X))) (let ((_let_76 (tptp.fn_photosynthesis_4 _let_6))) (let ((_let_77 (tptp.fn_carrot_plant_16 X))) (let ((_let_78 (tptp.fn_photosynthesis_6 _let_6))) (let ((_let_79 (tptp.fn_photosynthesis_56 _let_6))) (let ((_let_80 (tptp.fn_photosynthesis_53 _let_6))) (let ((_let_81 (tptp.fn_carrot_plant_15 X))) (let ((_let_82 (tptp.fn_photosynthesis_55 _let_6))) (let ((_let_83 (tptp.fn_photosynthesis_54 _let_6))) (let ((_let_84 (tptp.fn_photosynthesis_5 _let_6))) (let ((_let_85 (tptp.fn_carrot_plant_47 X))) (let ((_let_86 (tptp.fn_plasmodesmata_3 _let_85))) (let ((_let_87 (tptp.fn_carrot_plant_45 X))) (let ((_let_88 (tptp.fn_plasmodesmata_10 _let_85))) (let ((_let_89 (tptp.fn_carrot_plant_50 X))) (let ((_let_90 (tptp.fn_plasmodesmata_9 _let_85))) (let ((_let_91 (tptp.fn_carrot_plant_49 X))) (let ((_let_92 (tptp.fn_plant_cell_59 _let_1))) (let ((_let_93 (tptp.fn_carrot_plant_26 X))) (let ((_let_94 (tptp.fn_carrot_plant_19 X))) (let ((_let_95 (tptp.fn_carrot_plant_39 X))) (let ((_let_96 (tptp.fn_starch_storage_by_plant_9 _let_17))) (let ((_let_97 (tptp.fn_carrot_plant_29 X))) (let ((_let_98 (tptp.fn_starch_storage_by_plant_2 _let_17))) (let ((_let_99 (tptp.fn_photosynthesis_47 _let_8))) (let ((_let_100 (tptp.fn_carrot_plant_51 X))) (let ((_let_101 (tptp.fn_exergonic_reaction_11 _let_4))) (let ((_let_102 (tptp.fn_carrot_plant_24 X))) (let ((_let_103 (tptp.fn_anabolic_pathway_5 _let_8))) (let ((_let_104 (tptp.fn_carrot_plant_52 X))) (let ((_let_105 (tptp.fn_move_1 _let_87))) (let ((_let_106 (tptp.fn_carrot_plant_46 X))) (let ((_let_107 (tptp.fn_carrot_plant_2 X))) (let ((_let_108 (tptp.fn_carrot_plant_1 X))) (let ((_let_109 (tptp.fn_carrot_plant_3 X))) (let ((_let_110 (tptp.fn_carrot_plant_5 X))) (let ((_let_111 (tptp.fn_carrot_plant_4 X))) (=> (tptp.carrot_plant_1 X) (and (tptp.original_name_2 X |tptp.'Carrot-Plant'|) (tptp.user_description_2 X |tptp.'Carrot is a herbaceous, generally biennial plant of the Apiaceae family that produces an edible taproot. Among common varieties root shapes range from globular to long, with lower ends blunt to long-pointed.'|) (tptp.concept2words_2 X |tptp.'plant of carrot'|) (tptp.concept2words_2 X |tptp.'carrot plant'|) (tptp.concept2words_2 X |tptp.'carrot-plant'|) (tptp.dicot_1 X) (tptp.food_plant_1 X) (tptp.biennial_1 X) (tptp.oxygen_1 _let_108) (tptp.break_1 _let_107) (tptp.protein_enzyme_1 _let_109) (tptp.environment_1 _let_111) (tptp.cellulose_synthase_1 _let_110) (tptp.shoot_1 _let_51) (tptp.tuber_1 _let_56) (tptp.tangible_entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.sugar_1 _let_31) (tptp.glucose_1 _let_31) (tptp.free_energy_1 _let_81) (tptp.size_value_1 _let_77) (tptp.structural_complexity_value_1 _let_70) (tptp.structural_complexity_value_1 _let_69) (tptp.waste_product_1 _let_94) (tptp.chemical_energy_1 _let_46) (tptp.free_energy_1 _let_61) (tptp.size_value_1 _let_75) (tptp.organic_molecule_1 _let_48) (tptp.molecule_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.ribonucleotide_1 _let_48) (tptp.nucleoside_triphosphate_1 _let_48) (tptp.atp_1 _let_48) (tptp.pyruvate_1 _let_102) (tptp.chemical_entity_1 _let_49) (tptp.organic_molecule_1 _let_49) (tptp.molecule_1 _let_49) (tptp.entity_1 _let_49) (tptp.nadh_1 _let_49) (tptp.organelle_1 _let_93) (tptp.mitochondrion_1 _let_93) (tptp.semiautonomous_organelle_1 _let_93) (tptp.quantity_value_1 _let_63) (tptp.quantity_value_1 _let_65) (tptp.starch_1 _let_97) (tptp.store_1 _let_57) (tptp.chemical_entity_1 _let_67) (tptp.oxidation_1 _let_73) (tptp.plant_cell_1 _let_1) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.nutrition_1 _let_55) (tptp.photoautotroph_1 _let_58) (tptp.photosynthesis_1 _let_6) (tptp.anabolic_pathway_1 _let_6) (tptp.metabolic_pathway_1 _let_6) (tptp.store_1 _let_17) (tptp.starch_storage_by_plant_1 _let_17) (tptp.lateral_root_1 _let_37) (tptp.taproot_1 _let_95) (tptp.store_1 _let_20) (tptp.root_system_1 _let_59) (tptp.carrot_1 _let_39) (tptp.exergonic_reaction_1 _let_4) (tptp.cellular_respiration_1 _let_4) (tptp.metabolic_pathway_1 _let_4) (tptp.eukaryotic_cellular_respiration_1 _let_4) (tptp.spatial_entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.hydrophobic_compound_1 _let_45) (tptp.molecule_1 _let_45) (tptp.tangible_entity_1 _let_45) (tptp.carbon_dioxide_1 _let_45) (tptp.move_1 _let_87) (tptp.move_through_1 _let_87) (tptp.cytoplasm_1 _let_106) (tptp.plasmodesmata_1 _let_85) (tptp.photosynthesis_1 _let_8) (tptp.membrane_1 _let_91) (tptp.spatial_entity_1 _let_91) (tptp.biomembrane_1 _let_91) (tptp.plasma_membrane_1 _let_91) (tptp.plant_cell_wall_1 _let_89) (tptp.electron_1 _let_100) (tptp.oxygen_molecule_1 _let_104) (tptp.specific_heat_value_1 _let_53) (tptp.temperature_value_1 _let_54) (tptp.shoot_system_1 _let_50) (tptp.water_1 _let_52) (tptp.spatial_entity_1 _let_105) (tptp.chemical_entity_1 _let_103) (tptp.chemical_entity_1 _let_101) (tptp.chemical_entity_1 _let_99) (tptp.root_1 _let_98) (tptp.starch_1 _let_96) (tptp.organelle_1 _let_92) (tptp.mitochondrion_1 _let_92) (tptp.semiautonomous_organelle_1 _let_92) (tptp.membrane_1 _let_90) (tptp.spatial_entity_1 _let_90) (tptp.biomembrane_1 _let_90) (tptp.plasma_membrane_1 _let_90) (tptp.plant_cell_wall_1 _let_88) (tptp.move_through_1 _let_86) (tptp.property_node_1 _let_84) (tptp.property_node_1 _let_83) (tptp.property_node_1 _let_82) (tptp.free_energy_1 _let_80) (tptp.property_node_1 _let_79) (tptp.property_node_1 _let_78) (tptp.size_value_1 _let_76) (tptp.size_value_1 _let_74) (tptp.oxidation_1 _let_72) (tptp.property_node_1 _let_71) (tptp.structural_complexity_value_1 _let_68) (tptp.chemical_entity_1 _let_66) (tptp.quantity_value_1 _let_64) (tptp.quantity_value_1 _let_62) (tptp.free_energy_1 _let_60) (tptp.organic_molecule_1 _let_47) (tptp.molecule_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.ribonucleotide_1 _let_47) (tptp.nucleoside_triphosphate_1 _let_47) (tptp.atp_1 _let_47) (tptp.tangible_entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.sugar_1 _let_44) (tptp.chemical_entity_1 _let_43) (tptp.store_1 _let_42) (tptp.store_1 _let_41) (tptp.store_1 _let_40) (tptp.store_1 _let_38) (tptp.waste_product_1 _let_35) (tptp.waste_product_1 _let_34) (tptp.structural_complexity_value_1 _let_33) (tptp.structural_complexity_value_1 _let_32) (tptp.structural_complexity_value_1 _let_30) (tptp.store_1 _let_27) (tptp.store_1 _let_26) (tptp.cell_1 _let_24) (tptp.cell_1 _let_23) (tptp.spatial_entity_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.plant_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.organic_molecule_1 _let_16) (tptp.molecule_1 _let_16) (tptp.nadh_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.organic_molecule_1 _let_15) (tptp.molecule_1 _let_15) (tptp.nadh_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.organic_molecule_1 _let_14) (tptp.molecule_1 _let_14) (tptp.entity_1 _let_14) (tptp.nadh_1 _let_14) (tptp.chemical_energy_1 _let_13) (tptp.chemical_energy_1 _let_12) (tptp.chemical_energy_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.carbon_dioxide_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.hydrophobic_compound_1 _let_9) (tptp.molecule_1 _let_9) (tptp.carbon_dioxide_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.hydrophobic_compound_1 _let_7) (tptp.molecule_1 _let_7) (tptp.carbon_dioxide_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.carbon_dioxide_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.metabolic_pathway_1 _let_2) (tptp.eukaryotic_cellular_respiration_1 _let_2) (not (= _let_110 _let_109)) (tptp.is_inside_2 _let_37 _let_59) (tptp.is_outside_2 _let_111 X) (tptp.site_2 _let_4 _let_106) (tptp.has_function_2 _let_45 _let_73) (not (= _let_109 _let_110)) (tptp.is_between_2 _let_106 _let_91) (tptp.is_inside_2 _let_106 _let_91) (tptp.agent_2 _let_8 _let_109) (tptp.site_2 _let_8 _let_106) (tptp.causes_2 _let_8 _let_107) (tptp.result_2 _let_107 _let_108) (tptp.result_2 _let_107 _let_100) (tptp.object_2 _let_87 _let_106) (tptp.result_2 _let_8 _let_104) (tptp.site_2 _let_17 _let_39) (tptp.site_2 _let_17 _let_37) (tptp.possesses_2 _let_31 _let_81) (tptp.result_2 _let_6 _let_31) (tptp.size_2 _let_31 _let_77) (tptp.result_2 _let_4 _let_102) (tptp.possesses_2 _let_102 _let_46) (tptp.base_2 _let_20 X) (tptp.structural_complexity_2 _let_31 _let_70) (tptp.raw_material_2 _let_8 _let_45) (not (= _let_100 _let_45)) (not (= _let_45 _let_100)) (tptp.has_function_2 X _let_17) (tptp.base_2 _let_17 X) (tptp.object_2 _let_17 _let_97) (tptp.object_2 _let_57 _let_97) (tptp.subevent_2 _let_17 _let_57) (tptp.agent_2 _let_17 X) (tptp.has_part_2 X _let_37) (tptp.has_part_2 X _let_95) (tptp.has_part_2 X _let_39) (tptp.is_inside_2 _let_95 _let_59) (tptp.is_inside_2 _let_39 _let_59) (not (= _let_95 _let_39)) (not (= _let_39 _let_95)) (tptp.in_event_2 _let_94 _let_4) (tptp.plays_2 _let_45 _let_94) (tptp.has_part_2 _let_1 _let_93) (tptp.has_function_2 _let_93 _let_4) (tptp.base_2 _let_4 _let_1) (tptp.has_function_2 _let_1 _let_4) (tptp.has_function_2 _let_85 _let_87) (tptp.base_2 _let_87 _let_85) (tptp.quantity_2 _let_81 _let_65) (tptp.called_2 _let_63 |tptp.'FE_r'|) (tptp.donor_2 _let_73 _let_67) (tptp.recipient_2 _let_73 _let_45) (tptp.size_2 _let_45 _let_75) (tptp.greater_than_2 _let_77 _let_75) (tptp.structural_complexity_2 _let_45 _let_69) (tptp.greater_than_2 _let_70 _let_69) (not (= _let_67 _let_45)) (not (= _let_45 _let_67)) (tptp.raw_material_2 _let_6 _let_45) (tptp.possesses_2 _let_45 _let_61) (tptp.quantity_2 _let_61 _let_63) (tptp.greater_than_2 _let_65 _let_63) (tptp.called_2 _let_65 |tptp.'FE_p'|) (tptp.in_event_2 _let_58 _let_55) (tptp.plays_2 X _let_58) (tptp.has_region_2 X _let_59) (tptp.agent_2 _let_55 X) (tptp.by_means_of_2 _let_55 _let_6) (tptp.has_function_2 X _let_6) (tptp.has_part_2 X _let_56) (tptp.site_2 _let_57 _let_56) (tptp.correspondence_2 _let_54 _let_53) (tptp.temperature_2 X _let_54) (tptp.has_part_2 X _let_1) (tptp.base_2 _let_6 _let_1) (tptp.experiencer_2 _let_6 X) (tptp.has_region_2 X _let_50) (tptp.is_inside_2 _let_51 _let_50) (tptp.has_part_2 X _let_51) (tptp.has_part_2 X _let_52) (tptp.specific_heat_2 _let_52 _let_53) (tptp.possesses_2 _let_49 _let_46) (tptp.result_2 _let_4 _let_45) (tptp.possesses_2 _let_45 _let_46) (tptp.possesses_2 _let_48 _let_46) (tptp.result_2 _let_4 _let_48) (tptp.result_2 _let_4 _let_49) (= _let_106 _let_105) (= _let_104 _let_103) (= _let_17 _let_42) (= _let_17 _let_40) (= _let_17 _let_41) (= _let_17 _let_38) (= _let_31 _let_44) (= _let_46 _let_13) (= _let_102 _let_101) (= X _let_21) (= _let_31 _let_43) (= _let_70 _let_33) (= _let_70 _let_32) (= _let_100 _let_99) (= _let_45 _let_9) (= X _let_19) (= _let_37 _let_98) (= X _let_18) (= _let_57 _let_27) (= _let_17 _let_36) (= _let_57 _let_26) (= _let_97 _let_96) (= _let_59 _let_29) (= _let_95 (tptp.fn_dicot_2 X)) (= _let_39 (tptp.fn_dicot_1 X)) (= _let_94 _let_35) (= _let_94 _let_34) (= _let_1 _let_24) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= (tptp.fn_carrot_plant_10 X) _let_84) (= (tptp.fn_carrot_plant_11 X) _let_83) (= (tptp.fn_carrot_plant_9 X) _let_82) (= _let_81 _let_80) (= (tptp.fn_carrot_plant_8 X) _let_79) (= (tptp.fn_carrot_plant_13 X) _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= (tptp.fn_carrot_plant_12 X) _let_71) (= _let_70 _let_30) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_45 _let_7) (= (tptp.fn_carrot_plant_58 X) (tptp.fn_seed_plant_17 X)) (= (tptp.fn_carrot_plant_57 X) (tptp.fn_seed_plant_16 X)) (= _let_59 _let_28) (= _let_58 (tptp.fn_seed_plant_11 X)) (= _let_57 _let_25) (= _let_56 (tptp.fn_seed_plant_1 X)) (= _let_55 (tptp.fn_seed_plant_10 X)) (= _let_1 _let_23) (= _let_6 (tptp.fn_seed_plant_7 X)) (= _let_1 _let_22) (= _let_54 (tptp.fn_seed_plant_12 X)) (= _let_53 (tptp.fn_seed_plant_6 X)) (= _let_52 (tptp.fn_seed_plant_14 X)) (= _let_51 (tptp.fn_seed_plant_2 X)) (= _let_50 (tptp.fn_seed_plant_8 X)) (= _let_49 _let_16) (= _let_49 _let_15) (= _let_49 _let_14) (= _let_48 _let_47) (= _let_45 _let_10) (= _let_46 _let_12) (= _let_46 _let_11) (= _let_45 _let_5) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_38) (= _let_38 _let_40) (= _let_40 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_7) (= _let_7 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carry_1 X))) (=> (tptp.carry_1 X) (and (tptp.original_name_2 X |tptp.'Carry'|) (tptp.concept2words_2 X tptp.carry) (tptp.concept2words_2 X tptp.pack) (tptp.concept2words_2 X tptp.take) (tptp.concept2words_2 X tptp.transport) (tptp.move_1 X) (tptp.tangible_entity_1 _let_1) (tptp.agent_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.cartilage_1 X) (and (tptp.original_name_2 X |tptp.'Cartilage'|) (tptp.user_description_2 X |tptp.'A strong yet somewhat flexible type of connective tissue comprised of collagenous fibers embedded in a rubbery protein-carbohydrate complex.'|) (tptp.concept2words_2 X tptp.cartilage) (tptp.connective_tissue_1 X) (not (tptp.adipose_tissue_1 X)) (not (tptp.av_valve_1 X)) (not (tptp.bone_1 X)) (not (tptp.fibrous_connective_tissue_1 X)) (not (tptp.loose_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cartilaginous_fish_1 X) (and (tptp.original_name_2 X |tptp.'Cartilaginous-Fish'|) (tptp.user_description_2 X |tptp.'A fish from the clade Chondrichthyes, characterized by a skeleton made of cartilage rather than bone.'|) (tptp.concept2words_2 X tptp.chondrichthyan) (tptp.concept2words_2 X tptp.chondrichthyes) (tptp.concept2words_2 X |tptp.'cartilaginous fish'|) (tptp.concept2words_2 X |tptp.'cartilaginous-fish'|) (tptp.fish_1 X) (not (tptp.bony_fish_1 X)) (not (tptp.lobe_fin_fish_1 X)) (not (tptp.tetrapod_fish_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cascade_1 X))) (let ((_let_2 (tptp.fn_chemical_reaction_1 _let_1))) (let ((_let_3 (tptp.fn_cascade_3 X))) (let ((_let_4 (tptp.fn_cascade_2 X))) (let ((_let_5 (tptp.fn_chemical_reaction_1 _let_4))) (let ((_let_6 (tptp.fn_cascade_4 X))) (=> (tptp.cascade_1 X) (and (tptp.original_name_2 X |tptp.'Cascade'|) (tptp.user_description_2 X |tptp.'A series of reactions triggered by a single stimulus.'|) (tptp.concept2words_2 X |tptp.'signaling cascade'|) (tptp.concept2words_2 X tptp.cascade) (tptp.multi_step_reaction_1 X) (tptp.chemical_reaction_1 _let_1) (tptp.chemical_reaction_1 _let_4) (tptp.molecule_1 _let_3) (tptp.molecule_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_2) (tptp.next_event_2 _let_1 _let_4) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.first_subevent_2 X _let_1) (tptp.result_2 _let_4 _let_6) (tptp.result_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_casparian_strip_7 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_casparian_strip_4 X))) (let ((_let_4 (tptp.fn_endodermal_cell_28 _let_3))) (let ((_let_5 (tptp.fn_casparian_strip_3 X))) (let ((_let_6 (tptp.fn_casparian_strip_6 X))) (let ((_let_7 (tptp.fn_block_1 _let_6))) (let ((_let_8 (tptp.fn_casparian_strip_5 X))) (let ((_let_9 (tptp.fn_casparian_strip_1 X))) (let ((_let_10 (tptp.fn_casparian_strip_2 X))) (=> (tptp.casparian_strip_1 X) (and (tptp.original_name_2 X |tptp.'Casparian-Strip'|) (tptp.user_description_2 X |tptp.'A ring of water-impermeable wax in the endodermal cells of plants. The Casparian strip blocks the passive flow of water and solutes into the stele.'|) (tptp.concept2words_2 X |tptp.'casparian strip'|) (tptp.concept2words_2 X |tptp.'casparian-strip'|) (tptp.plant_structure_1 X) (not (tptp.cuticle_plant_1 X)) (tptp.suberin_1 _let_9) (tptp.water_1 _let_10) (tptp.cell_wall_1 _let_5) (tptp.plant_cell_wall_1 _let_5) (tptp.endodermal_cell_1 _let_3) (tptp.mineral_1 _let_8) (tptp.block_1 _let_6) (tptp.barrier_1 _let_1) (tptp.spatial_entity_1 _let_7) (tptp.cell_wall_1 _let_4) (tptp.plant_cell_wall_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.in_event_2 _let_1 _let_6) (tptp.object_2 _let_6 _let_10) (tptp.instrument_2 _let_6 X) (tptp.is_inside_2 X _let_5) (tptp.has_part_2 X _let_9) (tptp.object_2 _let_6 _let_8) (tptp.has_part_2 _let_3 _let_5) (tptp.plays_2 X _let_1) (= _let_8 _let_7) (= _let_5 _let_4) (= X _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.caspase_1 X) (and (tptp.original_name_2 X |tptp.'Caspase'|) (tptp.user_description_2 X |tptp.'Caspases are a type of protease enzyme which play essential roles in apoptosis (programmed cell death).'|) (tptp.concept2words_2 X tptp.caspase) (tptp.protease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_catabolic_pathway_11 X))) (let ((_let_2 (tptp.fn_free_energy_1 _let_1))) (let ((_let_3 (tptp.fn_catabolic_pathway_7 X))) (let ((_let_4 (tptp.fn_free_energy_2 _let_1))) (let ((_let_5 (tptp.fn_catabolic_pathway_8 X))) (let ((_let_6 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_7 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_8 (tptp.fn_catabolic_pathway_2 X))) (let ((_let_9 (tptp.fn_catabolic_pathway_4 X))) (let ((_let_10 (tptp.fn_catabolic_pathway_6 X))) (let ((_let_11 (tptp.fn_catabolic_pathway_3 X))) (=> (tptp.catabolic_pathway_1 X) (and (tptp.original_name_2 X |tptp.'Catabolic-Pathway'|) (tptp.user_description_2 X |tptp.'A sequence of degradative chemical reactions that break down complex molecules into smaller units, usually releasing energy in the process.'|) (tptp.concept2words_2 X |tptp.'catabolic reactions'|) (tptp.concept2words_2 X |tptp.'breakdown pathway'|) (tptp.concept2words_2 X |tptp.'breakdown-pathway'|) (tptp.concept2words_2 X |tptp.'take part in a catabolic pathway'|) (tptp.concept2words_2 X |tptp.'catabolic pathway'|) (tptp.concept2words_2 X |tptp.'catabolic-pathway'|) (tptp.exergonic_reaction_1 X) (tptp.metabolic_pathway_1 X) (not (tptp.anabolic_pathway_1 X)) (not (tptp.polymer_synthesis_1 X)) (not (tptp.renin_angiotensin_aldosterone_system_1 X)) (not (tptp.synthesis_of_atp_1 X)) (tptp.structural_complexity_value_1 _let_8) (tptp.potential_energy_1 _let_11) (tptp.structural_complexity_value_1 _let_9) (tptp.activation_energy_1 _let_10) (tptp.role_1 _let_3) (tptp.work_1 _let_5) (tptp.organic_molecule_1 _let_6) (tptp.organic_molecule_1 _let_7) (tptp.free_energy_1 _let_1) (tptp.work_1 _let_4) (tptp.role_1 _let_2) (tptp.greater_than_2 _let_9 _let_8) (tptp.has_part_2 _let_1 _let_11) (tptp.raw_material_2 X _let_10) (tptp.structural_complexity_2 _let_7 _let_9) (tptp.structural_complexity_2 _let_6 _let_8) (tptp.raw_material_2 X _let_7) (tptp.result_2 X _let_6) (tptp.result_2 X _let_1) (= _let_7 (tptp.fn_exergonic_reaction_10 X)) (= _let_6 (tptp.fn_exergonic_reaction_11 X)) (= _let_1 (tptp.fn_exergonic_process_3 X)) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_catabolism_6 X))) (let ((_let_2 (tptp.fn_cellular_work_10 _let_1))) (let ((_let_3 (tptp.fn_catabolism_7 X))) (let ((_let_4 (tptp.fn_catabolism_4 X))) (let ((_let_5 (tptp.fn_catabolism_5 X))) (let ((_let_6 (tptp.fn_catabolism_3 X))) (let ((_let_7 (tptp.fn_catabolism_2 X))) (let ((_let_8 (tptp.fn_catabolism_1 X))) (=> (tptp.catabolism_1 X) (and (tptp.original_name_2 X |tptp.'Catabolism'|) (tptp.user_description_2 X |tptp.'The class of chemical reactions that release energy by breaking down larger molecules into smaller subunits.'|) (tptp.concept2words_2 X |tptp.'undergo catabolism'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.catabolize) (tptp.concept2words_2 X tptp.catabolism) (tptp.exergonic_process_1 X) (tptp.metabolism_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.protein_folding_1 X)) (tptp.molecule_1 _let_8) (tptp.molecule_1 _let_7) (tptp.thermal_energy_1 _let_6) (tptp.chemical_energy_1 _let_4) (tptp.decrease_1 _let_5) (tptp.cellular_work_utilizing_atp_1 _let_1) (tptp.atp_1 _let_3) (tptp.organic_molecule_1 _let_2) (tptp.raw_material_2 X _let_8) (tptp.causes_2 X _let_5) (tptp.result_2 X _let_7) (tptp.result_2 X _let_3) (tptp.result_2 X _let_6) (tptp.object_2 _let_5 _let_4) (tptp.raw_material_2 _let_1 _let_3) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_catalase_6 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_4 (tptp.fn_oxidoreductase_5 X))) (let ((_let_5 (tptp.fn_oxidoreductase_4 X))) (let ((_let_6 (tptp.fn_protein_enzyme_9 X))) (let ((_let_7 (tptp.fn_oxidoreductase_6 X))) (let ((_let_8 (tptp.fn_protein_enzyme_3 X))) (let ((_let_9 (tptp.fn_oxidoreductase_11 X))) (let ((_let_10 (tptp.fn_enzyme_4 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_12 (tptp.fn_catalase_12 X))) (let ((_let_13 (tptp.fn_catalase_5 X))) (let ((_let_14 (tptp.fn_catalase_4 X))) (let ((_let_15 (tptp.fn_catalase_14 X))) (let ((_let_16 (tptp.fn_catalase_8 X))) (let ((_let_17 (tptp.fn_catalase_11 X))) (let ((_let_18 (tptp.fn_catalase_7 X))) (let ((_let_19 (tptp.fn_catalase_9 X))) (let ((_let_20 (tptp.fn_catalase_10 X))) (let ((_let_21 (tptp.fn_catalase_3 X))) (let ((_let_22 (tptp.fn_catalase_13 X))) (let ((_let_23 (tptp.fn_amino_acid_2 _let_22))) (let ((_let_24 (tptp.fn_catalase_15 X))) (=> (tptp.catalase_1 X) (and (tptp.original_name_2 X |tptp.'Catalase'|) (tptp.user_description_2 X |tptp.'Catalase is an enzyme which catalyses the synthesis of Hydrogen peroxide'|) (tptp.concept2words_2 X tptp.peroxidase) (tptp.concept2words_2 X tptp.catalase) (tptp.oxidoreductase_1 X) (tptp.polypeptide_1 _let_21) (tptp.monomer_1 _let_14) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.carbon_skeleton_1 _let_1) (tptp.active_site_1 _let_18) (tptp.size_value_1 _let_16) (tptp.catalyst_1 _let_19) (tptp.decrease_1 _let_20) (tptp.chemical_reaction_1 _let_17) (tptp.carbon_1 _let_12) (tptp.spatial_entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.monomer_1 _let_22) (tptp.molecule_1 _let_22) (tptp.amino_acid_1 _let_22) (tptp.size_value_1 _let_15) (tptp.r_group_1 _let_24) (tptp.r_group_1 _let_23) (tptp.carbon_1 _let_11) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_2) (tptp.is_inside_2 _let_24 _let_18) (tptp.has_region_2 _let_22 _let_24) (tptp.has_part_2 X _let_21) (tptp.has_part_2 _let_21 _let_22) (tptp.site_2 _let_17 _let_18) (tptp.enables_2 _let_20 _let_17) (tptp.has_region_2 X _let_18) (tptp.facilitates_2 _let_18 _let_17) (tptp.in_event_2 _let_19 _let_17) (tptp.plays_2 X _let_19) (tptp.has_function_2 X _let_20) (tptp.the_scalar_value_2 _let_16 tptp.big_0) (tptp.scalar_unit_class_2 _let_16 tptp.polypeptide_0) (tptp.has_part_2 X _let_13) (tptp.has_part_2 X _let_14) (tptp.size_2 _let_14 _let_15) (tptp.greater_than_2 _let_16 _let_15) (tptp.size_2 X _let_16) (tptp.has_function_2 X _let_17) (tptp.is_inside_2 _let_12 _let_1) (tptp.has_part_2 X _let_12) (tptp.has_region_2 X _let_1) (not (= _let_13 _let_12)) (not (= _let_12 _let_13)) (= _let_24 _let_23) (= _let_22 (tptp.fn_protein_14 X)) (= _let_21 (tptp.fn_protein_8 X)) (= _let_20 (tptp.fn_enzyme_5 X)) (= _let_19 (tptp.fn_enzyme_6 X)) (= _let_17 _let_10) (= _let_18 (tptp.fn_enzyme_2 X)) (= (tptp.fn_catalase_2 X) (tptp.fn_oxidoreductase_1 X)) (= _let_13 _let_4) (= (tptp.fn_catalase_1 X) (tptp.fn_oxidoreductase_2 X)) (= _let_17 _let_9) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 (tptp.fn_oxidoreductase_8 X)) (= _let_14 _let_6) (= _let_14 _let_5) (= X _let_2) (= _let_13 _let_3) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_catalyst_1 X))) (let ((_let_2 (tptp.fn_catalyst_2 X))) (=> (tptp.catalyst_1 X) (and (tptp.original_name_2 X |tptp.'Catalyst'|) (tptp.user_description_2 X |tptp.'A chemical compound that increases the rate of a biochemical reaction by lowering the required activation energy. Catalysts are not consumed by the reactions that they catalyze.'|) (tptp.concept2words_2 X tptp.catalyst) (tptp.role_1 X) (tptp.chemical_reaction_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.has_function_2 _let_2 _let_1) (tptp.plays_2 _let_2 X) (tptp.in_event_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.catastrophism_1 X) (and (tptp.original_name_2 X |tptp.'Catastrophism'|) (tptp.user_description_2 X |tptp.'The theory that the Earth has been affected throughout its history by sudden, violent events that had potentially world-wide effects, rather than by slow, incremental change.'|) (tptp.concept2words_2 X tptp.catastrophism) (tptp.geologic_process_1 X) (not (tptp.biogeochemical_cycle_1 X)) (not (tptp.climate_1 X)) (not (tptp.continental_drift_1 X)) (not (tptp.plate_tectonics_1 X)) (not (tptp.uniformitarianism_1 X))))) (forall ((X $$unsorted)) (=> (tptp.catecholamine_1 X) (and (tptp.original_name_2 X |tptp.'Catecholamine'|) (tptp.user_description_2 X |tptp.'A class of hormones and neurotransmitters that are synthesized biochemically from the amino acids phenylalanine or tyrosine. Epinephrine, norepinephrine, and dopamine are examples of catecholamines.'|) (tptp.concept2words_2 X tptp.catecholamine) (tptp.amino_acid_hormone_1 X) (tptp.biogenic_amine_1 X) (not (tptp.melatonin_1 X)) (not (tptp.t3_1 X)) (not (tptp.t4_1 X)) (not (tptp.acetylcholine_1 X)) (not (tptp.aspartic_acid_1 X)) (not (tptp.neuropeptide_1 X)) (not (tptp.serotonin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.categorical_1 X) (and (tptp.original_name_2 X |tptp.'Categorical'|) (tptp.concept2words_2 X tptp.categorical) (tptp.property_group_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_caterpillar_14 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_caterpillar_15 X))) (let ((_let_4 (tptp.fn_agent_role_1 _let_3))) (let ((_let_5 (tptp.fn_insect_20 X))) (let ((_let_6 (tptp.fn_caterpillar_34 X))) (let ((_let_7 (tptp.fn_feed_4 _let_6))) (let ((_let_8 (tptp.fn_caterpillar_26 X))) (let ((_let_9 (tptp.fn_caterpillar_11 X))) (let ((_let_10 (tptp.fn_caterpillar_25 X))) (let ((_let_11 (tptp.fn_caterpillar_18 X))) (let ((_let_12 (tptp.fn_caterpillar_35 X))) (let ((_let_13 (tptp.fn_caterpillar_36 X))) (let ((_let_14 (tptp.fn_caterpillar_23 X))) (let ((_let_15 (tptp.fn_caterpillar_24 X))) (let ((_let_16 (tptp.fn_caterpillar_21 X))) (let ((_let_17 (tptp.fn_caterpillar_22 X))) (let ((_let_18 (tptp.fn_caterpillar_13 X))) (let ((_let_19 (tptp.fn_caterpillar_27 X))) (let ((_let_20 (tptp.fn_caterpillar_19 X))) (let ((_let_21 (tptp.fn_caterpillar_17 X))) (let ((_let_22 (tptp.fn_caterpillar_16 X))) (let ((_let_23 (tptp.fn_caterpillar_29 X))) (let ((_let_24 (tptp.fn_caterpillar_28 X))) (let ((_let_25 (tptp.fn_caterpillar_33 X))) (let ((_let_26 (tptp.fn_caterpillar_8 X))) (let ((_let_27 (tptp.fn_caterpillar_9 X))) (let ((_let_28 (tptp.fn_caterpillar_7 X))) (let ((_let_29 (tptp.fn_caterpillar_10 X))) (let ((_let_30 (tptp.fn_caterpillar_20 X))) (let ((_let_31 (tptp.fn_caterpillar_32 X))) (let ((_let_32 (tptp.fn_chemical_digestion_1 _let_31))) (let ((_let_33 (tptp.fn_caterpillar_30 X))) (let ((_let_34 (tptp.fn_caterpillar_12 X))) (let ((_let_35 (tptp.fn_chemical_3 _let_34))) (let ((_let_36 (tptp.fn_caterpillar_31 X))) (let ((_let_37 (tptp.fn_caterpillar_1 X))) (let ((_let_38 (tptp.fn_caterpillar_2 X))) (let ((_let_39 (tptp.fn_caterpillar_3 X))) (let ((_let_40 (tptp.fn_caterpillar_4 X))) (=> (tptp.caterpillar_1 X) (and (tptp.original_name_2 X |tptp.'Caterpillar'|) (tptp.user_description_2 X |tptp.'Larval form of insect from the order Lepidoptera (moths and butterflies.)'|) (tptp.concept2words_2 X tptp.caterpillar) (tptp.lepidoptera_1 X) (tptp.time_interval_1 _let_37) (tptp.time_interval_1 _let_38) (tptp.water_molecule_1 _let_39) (tptp.substrate_feeder_1 _let_40) (tptp.exoskeleton_1 _let_28) (tptp.locomotion_1 _let_26) (tptp.take_in_1 _let_27) (tptp.support_1 _let_29) (tptp.alimentary_canal_1 _let_9) (tptp.chemical_1 _let_34) (tptp.heterotroph_1 _let_18) (tptp.container_1 _let_1) (tptp.agent_role_1 _let_3) (tptp.specific_heat_value_1 _let_22) (tptp.temperature_value_1 _let_21) (tptp.anus_1 _let_11) (tptp.gastric_cecum_1 _let_20) (tptp.substance_1 _let_30) (tptp.mouth_1 _let_16) (tptp.water_1 _let_17) (tptp.foregut_1 _let_14) (tptp.midgut_1 _let_15) (tptp.hindgut_1 _let_10) (tptp.digestive_system_1 _let_8) (tptp.nutrition_1 _let_19) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.carbon_1 _let_24) (tptp.carbohydrate_1 _let_23) (tptp.activation_energy_1 _let_33) (tptp.protein_1 _let_36) (tptp.chemical_digestion_1 _let_31) (tptp.animal_nutritional_requirement_1 _let_25) (tptp.feed_1 _let_6) (tptp.rectum_1 _let_12) (tptp.esophagus_1 _let_13) (tptp.chemical_entity_1 _let_35) (tptp.tangible_entity_1 _let_32) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 _let_30 _let_34) (tptp.plays_2 X _let_40) (not (= _let_39 _let_36)) (not (= _let_36 _let_39)) (tptp.raw_material_2 _let_31 _let_39) (tptp.time_during_2 _let_31 _let_37) (tptp.time_before_2 _let_38 _let_37) (tptp.object_2 _let_6 _let_30) (tptp.has_part_2 _let_34 _let_36) (tptp.raw_material_2 _let_31 _let_33) (tptp.plays_2 X _let_3) (tptp.plays_2 X _let_1) (tptp.has_part_2 X _let_30) (tptp.is_inside_2 _let_30 _let_14) (tptp.has_part_2 X _let_28) (tptp.has_function_2 _let_28 _let_29) (tptp.object_2 _let_29 X) (tptp.agent_2 _let_26 X) (tptp.object_2 _let_26 X) (tptp.agent_2 _let_27 X) (tptp.base_2 _let_27 X) (tptp.temperature_2 X _let_21) (tptp.correspondence_2 _let_21 _let_22) (tptp.specific_heat_2 _let_17 _let_22) (tptp.element_2 _let_8 _let_14) (tptp.element_2 _let_8 _let_15) (tptp.next_element_2 _let_15 _let_10) (tptp.element_2 _let_8 _let_10) (tptp.plays_2 X _let_18) (tptp.in_event_2 _let_18 _let_19) (tptp.agent_2 _let_19 X) (tptp.has_part_2 X _let_20) (tptp.is_inside_2 _let_20 _let_15) (tptp.is_inside_2 _let_16 _let_14) (tptp.has_part_2 X _let_16) (tptp.has_part_2 X _let_17) (tptp.is_inside_2 _let_12 _let_10) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_13) (tptp.is_inside_2 _let_13 _let_14) (tptp.next_element_2 _let_14 _let_15) (tptp.has_region_2 X _let_8) (tptp.is_inside_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (= _let_30 _let_7) (= _let_36 _let_35) (= _let_33 _let_32) (= X _let_4) (= X _let_2) (= _let_30 _let_5) (= _let_29 (tptp.fn_arthropod_7 X)) (= _let_28 (tptp.fn_arthropod_8 X)) (= _let_27 (tptp.fn_animal_9 X)) (= _let_26 (tptp.fn_animal_22 X)) (= _let_25 (tptp.fn_insect_16 X)) (= _let_24 (tptp.fn_insect_15 X)) (= _let_23 (tptp.fn_insect_22 X)) (= _let_22 (tptp.fn_insect_23 X)) (= _let_21 (tptp.fn_insect_25 X)) (= _let_20 (tptp.fn_insect_5 X)) (= _let_19 (tptp.fn_insect_17 X)) (= _let_18 (tptp.fn_insect_21 X)) (= _let_17 (tptp.fn_insect_18 X)) (= _let_16 (tptp.fn_insect_11 X)) (= _let_15 (tptp.fn_insect_13 X)) (= _let_14 (tptp.fn_insect_12 X)) (= _let_13 (tptp.fn_insect_6 X)) (= _let_12 (tptp.fn_insect_3 X)) (= _let_11 (tptp.fn_insect_4 X)) (= _let_10 (tptp.fn_insect_14 X)) (= _let_9 (tptp.fn_insect_9 X)) (= _let_8 (tptp.fn_insect_19 X)) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_5 X))) (let ((_let_2 (tptp.fn_cation_8 X))) (let ((_let_3 (tptp.fn_atom_7 _let_2))) (let ((_let_4 (tptp.fn_cation_3 X))) (let ((_let_5 (tptp.fn_atom_6 _let_2))) (let ((_let_6 (tptp.fn_cation_7 X))) (let ((_let_7 (tptp.fn_lose_1 _let_6))) (let ((_let_8 (tptp.fn_transfer_1 _let_6))) (let ((_let_9 (tptp.fn_cation_6 X))) (let ((_let_10 (tptp.fn_cation_1 X))) (=> (tptp.cation_1 X) (and (tptp.original_name_2 X |tptp.'Cation'|) (tptp.user_description_2 X |tptp.'An ion that carries a positive charge due to a shortage of electrons.'|) (tptp.concept2words_2 X tptp.cation) (tptp.ion_1 X) (tptp.proton_1 _let_10) (tptp.charge_value_1 _let_4) (tptp.charge_value_1 _let_1) (tptp.electron_1 _let_9) (tptp.lose_1 _let_6) (tptp.tangible_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.entity_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.property_node_1 _let_5) (tptp.charge_value_1 _let_3) (tptp.has_part_2 X _let_10) (tptp.result_2 _let_6 X) (tptp.greater_than_or_equal_to_2 _let_1 _let_4) (tptp.greater_than_2 _let_1 _let_4) (tptp.object_2 _let_6 _let_9) (tptp.donor_2 _let_6 _let_2) (tptp.charge_2 _let_2 _let_4) (tptp.the_cardinal_value_2 _let_4 |"0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.charge_2 X _let_1) (= _let_9 _let_8) (= _let_2 _let_7) (= (tptp.fn_cation_2 X) _let_5) (= _let_4 _let_3) (= (tptp.fn_cation_4 X) (tptp.fn_ion_1 X)) (= _let_1 (tptp.fn_ion_2 X))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_substance_1 X))) (=> (tptp.cation_substance_1 X) (and (tptp.original_name_2 X |tptp.'Cation-Substance'|) (tptp.concept2words_2 X |tptp.'substance of cation'|) (tptp.concept2words_2 X |tptp.'cation substance'|) (tptp.concept2words_2 X |tptp.'cation-substance'|) (tptp.ionic_substance_1 X) (not (tptp.anion_substance_1 X)) (tptp.cation_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.causal_relation_1 X) (and (tptp.original_name_2 X |tptp.'Causal-Relation'|) (tptp.user_description_2 X |tptp.'A causal relation is a relation between two events, where one event enables or opposes the other. If a relation is a causal relation, then its inverse is also a causal relation.'|) (tptp.concept2words_2 X |tptp.'causal relation'|) (tptp.concept2words_2 X |tptp.'causal-relation'|) (tptp.relation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cavitation_10 X))) (let ((_let_2 (tptp.fn_root_30 _let_1))) (let ((_let_3 (tptp.fn_root_27 _let_1))) (let ((_let_4 (tptp.fn_cavitation_9 X))) (let ((_let_5 (tptp.fn_plant_vein_1 _let_4))) (let ((_let_6 (tptp.fn_cavitation_4 X))) (let ((_let_7 (tptp.fn_block_1 _let_6))) (let ((_let_8 (tptp.fn_root_13 _let_1))) (let ((_let_9 (tptp.fn_cavitation_7 X))) (let ((_let_10 (tptp.fn_cavitation_8 X))) (let ((_let_11 (tptp.fn_root_5 _let_1))) (let ((_let_12 (tptp.fn_cavitation_6 X))) (let ((_let_13 (tptp.fn_cavitation_3 X))) (let ((_let_14 (tptp.fn_water_transport_in_plant_6 _let_13))) (let ((_let_15 (tptp.fn_cavitation_5 X))) (let ((_let_16 (tptp.fn_water_transport_in_plant_5 _let_13))) (let ((_let_17 (tptp.fn_cavitation_1 X))) (let ((_let_18 (tptp.fn_cavitation_2 X))) (=> (tptp.cavitation_1 X) (and (tptp.original_name_2 X |tptp.'Cavitation'|) (tptp.user_description_2 X |tptp.'The blocking of flow of xylem sap in vascular plants due to formation of bubbles in the xylem caused by drought or freezing.'|) (tptp.concept2words_2 X |tptp.'form a cavity'|) (tptp.concept2words_2 X tptp.cavitation) (tptp.physical_process_1 X) (tptp.barrier_1 _let_17) (tptp.air_space_1 _let_18) (tptp.water_transport_in_plant_1 _let_13) (tptp.block_1 _let_6) (tptp.vascular_plant_1 _let_15) (tptp.spatial_entity_1 _let_12) (tptp.xylem_1 _let_12) (tptp.cortex_1 _let_9) (tptp.tissue_1 _let_10) (tptp.epidermis_1 _let_10) (tptp.plant_vein_1 _let_4) (tptp.tangible_entity_1 _let_1) (tptp.root_1 _let_1) (tptp.tangible_entity_1 _let_16) (tptp.root_1 _let_16) (tptp.vascular_plant_1 _let_14) (tptp.plant_vein_1 _let_11) (tptp.cortex_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.xylem_1 _let_5) (tptp.tissue_1 _let_3) (tptp.epidermis_1 _let_2) (tptp.in_event_2 _let_17 _let_6) (tptp.prevents_2 _let_6 _let_13) (tptp.site_2 X _let_12) (tptp.base_2 X _let_15) (tptp.result_2 X _let_18) (tptp.plays_2 _let_18 _let_17) (tptp.object_2 _let_6 _let_12) (tptp.base_2 _let_13 _let_15) (tptp.has_part_2 _let_15 _let_1) (tptp.has_part_2 _let_1 _let_4) (tptp.has_part_2 _let_1 _let_10) (tptp.is_between_2 _let_9 _let_10) (tptp.has_part_2 _let_1 _let_9) (tptp.is_above_2 _let_10 _let_9) (tptp.has_part_2 _let_4 _let_12) (= _let_12 _let_7) (= _let_1 _let_16) (= _let_15 _let_14) (= _let_12 _let_5) (= _let_4 _let_11) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cavity_1 X) (and (tptp.original_name_2 X |tptp.'Cavity'|) (tptp.user_description_2 X |tptp.'An empty space within a solid object. In some cases a cavity is completely enclosed, and in other cases it may be open on one side.'|) (tptp.concept2words_2 X tptp.pit) (tptp.concept2words_2 X tptp.groove) (tptp.concept2words_2 X tptp.pocket) (tptp.concept2words_2 X tptp.cavity) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cd4_1 X) (and (tptp.original_name_2 X |tptp.'CD4'|) (tptp.user_description_2 X |tptp.'A surface protein, present on most helper T cells, that binds to class II MHC molecules, enhancing the interaction between the T cell and an antigen-presenting cell.'|) (tptp.concept2words_2 X tptp.cd4) (tptp.antigen_receptor_1 X) (not (tptp.cd8_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cd8_1 X) (and (tptp.original_name_2 X |tptp.'CD8'|) (tptp.user_description_2 X |tptp.'A surface protein, present on most cytotoxic T cells, that binds to class I MHC molecules, enhancing the interaction between the T cell and a target cell.'|) (tptp.concept2words_2 X tptp.cd8) (tptp.antigen_receptor_1 X) (not (tptp.cd4_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cdna_1 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_cdna_3 X))) (let ((_let_4 (tptp.fn_hold_2 _let_3))) (let ((_let_5 (tptp.fn_cdna_2 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (=> (tptp.cdna_1 X) (and (tptp.original_name_2 X |tptp.'CDNA'|) (tptp.user_description_2 X |tptp.'DNA that is synthesized from an RNA transcript by the action of the enzyme Reverse Transcriptase. CDNA corresponds to the exons of a gene.'|) (tptp.concept2words_2 X |tptp.'complementary dna'|) (tptp.concept2words_2 X |tptp.'eukaryotic dna without introns'|) (tptp.concept2words_2 X |tptp.'dna without introns'|) (tptp.concept2words_2 X |tptp.'coding dna'|) (tptp.concept2words_2 X |tptp.'coding sequence of dna'|) (tptp.concept2words_2 X |tptp.'coding sequence'|) (tptp.concept2words_2 X |tptp.'complementary-dna'|) (tptp.concept2words_2 X |tptp.'complementary dna strand'|) (tptp.concept2words_2 X |tptp.'complementary-dna-strand'|) (tptp.concept2words_2 X tptp.cdna) (tptp.dna_1 X) (tptp.attach_1 _let_1) (tptp.carry_1 _let_5) (tptp.hold_1 _let_3) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 _let_5 _let_3) (tptp.first_subevent_2 _let_5 _let_3) (tptp.object_2 _let_5 X) (tptp.object_2 _let_3 X) (tptp.object_2 _let_1 X) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cdna_library_4 X))) (let ((_let_2 (tptp.fn_polymer_synthesis_23 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_create_1 _let_1))) (let ((_let_5 (tptp.fn_cdna_library_8 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_cdna_library_6 X))) (let ((_let_8 (tptp.fn_scientist_2 _let_7))) (let ((_let_9 (tptp.fn_cdna_library_7 X))) (let ((_let_10 (tptp.fn_cdna_library_5 X))) (let ((_let_11 (tptp.fn_cdna_library_1 X))) (let ((_let_12 (tptp.fn_cdna_library_2 X))) (let ((_let_13 (tptp.fn_cdna_library_3 X))) (=> (tptp.cdna_library_1 X) (and (tptp.original_name_2 X |tptp.'CDNA-Library'|) (tptp.user_description_2 X |tptp.'A gene library containing clones that carry complementary DNA (cDNA) inserts. The library includes only the genes that were transcribed in the cells whose mRNA was isolated to make the cDNA.'|) (tptp.concept2words_2 X |tptp.'library of cdna'|) (tptp.concept2words_2 X |tptp.'cdna library'|) (tptp.concept2words_2 X |tptp.'cdna-library'|) (tptp.dna_library_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (tptp.gene_expression_1 _let_11) (tptp.event_1 _let_12) (tptp.cell_1 _let_13) (tptp.reverse_transcription_1 _let_1) (tptp.cdna_1 _let_10) (tptp.scientist_1 _let_7) (tptp.study_1 _let_9) (tptp.create_1 _let_5) (tptp.study_1 _let_8) (tptp.entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.polymer_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.element_2 X _let_10) (tptp.enables_2 _let_12 _let_9) (tptp.object_2 _let_11 _let_13) (tptp.causes_2 _let_11 _let_12) (tptp.enables_2 _let_11 _let_9) (tptp.agent_2 _let_5 _let_7) (tptp.result_2 _let_5 _let_10) (tptp.result_2 _let_1 _let_10) (tptp.agent_2 _let_9 _let_7) (= _let_10 _let_6) (= _let_10 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cecum_1 X) (and (tptp.original_name_2 X |tptp.'Cecum'|) (tptp.user_description_2 X |tptp.'A blind-ending sac at the proximal end of the large intestine.'|) (tptp.concept2words_2 X tptp.ceca) (tptp.concept2words_2 X tptp.cecum) (tptp.digestive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ced_3_1 X) (and (tptp.original_name_2 X |tptp.'Ced-3'|) (tptp.user_description_2 X |tptp.'Programmed cell death in the nematode C.elegans require ced-3 caspase activity.'|) (tptp.concept2words_2 X |tptp.'ced 3 caspase'|) (tptp.concept2words_2 X |tptp.'ced-3 caspase'|) (tptp.concept2words_2 X |tptp.'ced 3'|) (tptp.concept2words_2 X |tptp.'ced-3'|) (tptp.caspase_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ced_3_gene_1 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_ced_3_gene_2 X))) (=> (tptp.ced_3_gene_1 X) (and (tptp.original_name_2 X |tptp.'Ced-3-Gene'|) (tptp.user_description_2 X |tptp.'Gene, first identified in C. elegans, which encodes the enzyme Caspase 3 (CED-3).'|) (tptp.concept2words_2 X |tptp.'ced 3 gene'|) (tptp.concept2words_2 X |tptp.'ced-3-gene'|) (tptp.gene_1 X) (tptp.code_for_1 _let_1) (tptp.ced_3_1 _let_3) (tptp.entity_1 _let_2) (tptp.donor_2 _let_1 X) (tptp.result_2 _let_1 _let_3) (tptp.agent_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_gene_13 X)))))))) (forall ((X $$unsorted)) (=> (tptp.ced_4_1 X) (and (tptp.original_name_2 X |tptp.'Ced-4'|) (tptp.user_description_2 X |tptp.'Protein, first identified in C. elegans, which functions in signal transduction in the apoptosis pathway.'|) (tptp.concept2words_2 X |tptp.'ced 4'|) (tptp.concept2words_2 X |tptp.'ced-4'|) (tptp.caspase_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ced_4_gene_1 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_ced_4_gene_2 X))) (=> (tptp.ced_4_gene_1 X) (and (tptp.original_name_2 X |tptp.'Ced-4-Gene'|) (tptp.user_description_2 X |tptp.'Gene, first identified in C. elegans, which encodes the enzyme Caspase 4 (CED-4).'|) (tptp.concept2words_2 X |tptp.'ced 4 gene'|) (tptp.concept2words_2 X |tptp.'ced-4-gene'|) (tptp.gene_1 X) (tptp.code_for_1 _let_1) (tptp.ced_4_1 _let_3) (tptp.entity_1 _let_2) (tptp.donor_2 _let_1 X) (tptp.result_2 _let_1 _let_3) (tptp.agent_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_gene_13 X)))))))) (forall ((X $$unsorted)) (=> (tptp.ced_9_1 X) (and (tptp.original_name_2 X |tptp.'Ced-9'|) (tptp.user_description_2 X |tptp.'Protein, first identified in C. elegans, which functions as a master switch in signal transduction of the apoptosis pathway.'|) (tptp.concept2words_2 X |tptp.'ced 9'|) (tptp.concept2words_2 X |tptp.'ced-9'|) (tptp.caspase_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ceiling_4 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_ceiling_2 X))) (let ((_let_4 (tptp.fn_ceiling_3 X))) (=> (tptp.ceiling_1 X) (and (tptp.original_name_2 X |tptp.'Ceiling'|) (tptp.description_2 X |tptp.'a horizontal architectural structure covering a room'|) (tptp.concept2words_2 X tptp.ceiling) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X)) (not (tptp.laboratory_1 X)) (tptp.angle_value_1 _let_3) (tptp.room_1 _let_4) (tptp.cover_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.is_above_2 X _let_4) (tptp.orientation_2 X _let_3) (tptp.has_part_2 _let_4 X) (tptp.the_scalar_value_2 _let_3 tptp.horizontal_0) (tptp.scalar_unit_class_2 _let_3 tptp.entity_0) (tptp.plays_2 X _let_1) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.celestial_body_1 X) (and (tptp.original_name_2 X |tptp.'Celestial-Body'|) (tptp.user_description_2 X |tptp.'Objects of or relating to the sky.'|) (tptp.concept2words_2 X |tptp.'heavenly body'|) (tptp.concept2words_2 X |tptp.'heavenly-body'|) (tptp.concept2words_2 X |tptp.'celestial body'|) (tptp.concept2words_2 X |tptp.'celestial-body'|) (tptp.tangible_entity_1 X)))) _let_5 (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_integral_protein_13 X))) (let ((_let_2 (tptp.fn_integral_protein_30 X))) (let ((_let_3 (tptp.fn_glycoprotein_3 X))) (let ((_let_4 (tptp.fn_glycoprotein_2 X))) (let ((_let_5 (tptp.fn_cell_adhesion_molecule_16 X))) (let ((_let_6 (tptp.fn_polypeptide_130 _let_5))) (let ((_let_7 (tptp.fn_polymer_1 _let_5))) (let ((_let_8 (tptp.fn_polypeptide_126 _let_5))) (let ((_let_9 (tptp.fn_organic_molecule_1 _let_5))) (let ((_let_10 (tptp.fn_organic_molecule_2 _let_5))) (let ((_let_11 (tptp.fn_cell_adhesion_molecule_21 X))) (let ((_let_12 (tptp.fn_carbohydrate_side_chain_31 _let_11))) (let ((_let_13 (tptp.fn_glycoprotein_1 X))) (let ((_let_14 (tptp.fn_integral_protein_32 X))) (let ((_let_15 (tptp.fn_carbohydrate_side_chain_22 _let_11))) (let ((_let_16 (tptp.fn_glycoprotein_5 X))) (let ((_let_17 (tptp.fn_carbohydrate_side_chain_23 _let_11))) (let ((_let_18 (tptp.fn_integral_protein_31 X))) (let ((_let_19 (tptp.fn_integral_protein_33 X))) (let ((_let_20 (tptp.fn_glycoprotein_4 X))) (let ((_let_21 (tptp.fn_carbohydrate_side_chain_4 _let_11))) (let ((_let_22 (tptp.fn_cell_adhesion_molecule_31 X))) (let ((_let_23 (tptp.fn_hold_1 _let_22))) (let ((_let_24 (tptp.fn_polypeptide_82 _let_5))) (let ((_let_25 (tptp.fn_glycoprotein_19 X))) (let ((_let_26 (tptp.fn_polypeptide_83 _let_5))) (let ((_let_27 (tptp.fn_integral_protein_21 X))) (let ((_let_28 (tptp.fn_polymer_8 _let_5))) (let ((_let_29 (tptp.fn_glycoprotein_12 X))) (let ((_let_30 (tptp.fn_integral_protein_20 X))) (let ((_let_31 (tptp.fn_polymer_9 _let_5))) (let ((_let_32 (tptp.fn_integral_protein_34 X))) (let ((_let_33 (tptp.fn_glycoprotein_9 X))) (let ((_let_34 (tptp.fn_glycoprotein_24 X))) (let ((_let_35 (tptp.fn_integral_protein_8 X))) (let ((_let_36 (tptp.fn_glycoprotein_25 X))) (let ((_let_37 (tptp.fn_integral_protein_7 X))) (let ((_let_38 (tptp.fn_glycoprotein_10 X))) (let ((_let_39 (tptp.fn_integral_protein_14 X))) (let ((_let_40 (tptp.fn_glycoprotein_26 X))) (let ((_let_41 (tptp.fn_integral_protein_28 X))) (let ((_let_42 (tptp.fn_glycoprotein_23 X))) (let ((_let_43 (tptp.fn_integral_protein_17 X))) (let ((_let_44 (tptp.fn_glycoprotein_20 X))) (let ((_let_45 (tptp.fn_integral_protein_18 X))) (let ((_let_46 (tptp.fn_glycoprotein_21 X))) (let ((_let_47 (tptp.fn_integral_protein_19 X))) (let ((_let_48 (tptp.fn_glycoprotein_22 X))) (let ((_let_49 (tptp.fn_integral_protein_15 X))) (let ((_let_50 (tptp.fn_glycoprotein_11 X))) (let ((_let_51 (tptp.fn_integral_protein_16 X))) (let ((_let_52 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_53 (tptp.fn_integral_protein_24 X))) (let ((_let_54 (tptp.fn_transmembrane_protein_3 X))) (let ((_let_55 (tptp.fn_integral_protein_23 X))) (let ((_let_56 (tptp.fn_glycoprotein_18 X))) (let ((_let_57 (tptp.fn_integral_protein_29 X))) (let ((_let_58 (tptp.fn_glycoprotein_14 X))) (let ((_let_59 (tptp.fn_cell_adhesion_molecule_4 X))) (let ((_let_60 (tptp.fn_cell_adhesion_molecule_3 X))) (let ((_let_61 (tptp.fn_cell_adhesion_molecule_13 X))) (let ((_let_62 (tptp.fn_cell_adhesion_molecule_20 X))) (let ((_let_63 (tptp.fn_cell_adhesion_molecule_17 X))) (let ((_let_64 (tptp.fn_cell_adhesion_molecule_28 X))) (let ((_let_65 (tptp.fn_cell_adhesion_molecule_29 X))) (let ((_let_66 (tptp.fn_cell_adhesion_molecule_5 X))) (let ((_let_67 (tptp.fn_cell_adhesion_molecule_2 X))) (let ((_let_68 (tptp.fn_cell_adhesion_molecule_1 X))) (let ((_let_69 (tptp.fn_cell_adhesion_molecule_9 X))) (let ((_let_70 (tptp.fn_cell_adhesion_molecule_12 X))) (let ((_let_71 (tptp.fn_cell_adhesion_molecule_23 X))) (let ((_let_72 (tptp.fn_cell_adhesion_molecule_26 X))) (let ((_let_73 (tptp.fn_cell_adhesion_molecule_27 X))) (let ((_let_74 (tptp.fn_cell_adhesion_molecule_22 X))) (let ((_let_75 (tptp.fn_cell_adhesion_molecule_15 X))) (let ((_let_76 (tptp.fn_cell_adhesion_molecule_25 X))) (let ((_let_77 (tptp.fn_cell_adhesion_molecule_14 X))) (let ((_let_78 (tptp.fn_cell_adhesion_molecule_10 X))) (let ((_let_79 (tptp.fn_cell_adhesion_molecule_24 X))) (let ((_let_80 (tptp.fn_cell_adhesion_molecule_18 X))) (let ((_let_81 (tptp.fn_cell_adhesion_molecule_19 X))) (let ((_let_82 (tptp.fn_cell_adhesion_molecule_11 X))) (let ((_let_83 (tptp.fn_hold_2 _let_22))) (let ((_let_84 (tptp.fn_cell_adhesion_molecule_30 X))) (=> (tptp.cell_adhesion_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Adhesion-Molecule'|) (tptp.user_description_2 X |tptp.'A transmembrane, cell-surface glycoprotein that binds to CAMs on other cells. The resulting cell-to-cell attachments contribute to stable tissue structure.'|) (tptp.concept2words_2 X tptp.cam) (tptp.concept2words_2 X |tptp.'cell adhesion molecule'|) (tptp.concept2words_2 X |tptp.'cell-adhesion-molecule'|) (tptp.transmembrane_protein_1 X) (tptp.glycoprotein_1 X) (not (tptp.collagen_1 X)) (not (tptp.fibronectin_1 X)) (not (tptp.glycoprotein_hormone_1 X)) (not (tptp.peptidoglycan_1 X)) (not (tptp.proteoglycan_1 X)) (tptp.attract_1 _let_68) (tptp.repel_1 _let_67) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.carbon_1 _let_60) (tptp.chemical_bond_1 _let_59) (tptp.covalent_bond_1 _let_59) (tptp.peptide_bond_1 _let_59) (tptp.protein_domain_1 _let_69) (tptp.hydrophilic_region_1 _let_78) (tptp.hydrophilic_end_1 _let_78) (tptp.outside_face_1 _let_82) (tptp.hydrophobic_region_1 _let_70) (tptp.carbon_skeleton_1 _let_61) (tptp.hydrophilic_end_1 _let_77) (tptp.size_value_1 _let_75) (tptp.monomer_1 _let_5) (tptp.polymer_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.polypeptide_1 _let_5) (tptp.atom_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.carbon_1 _let_63) (tptp.hydrophobic_amino_acid_1 _let_80) (tptp.polar_amino_acid_1 _let_81) (tptp.entity_1 _let_62) (tptp.carbon_1 _let_62) (tptp.atom_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.carbohydrate_side_chain_1 _let_11) (tptp.constant_motion_1 _let_74) (tptp.kinetic_energy_1 _let_71) (tptp.tangible_entity_1 _let_79) (tptp.phospholipid_bilayer_1 _let_79) (tptp.biomembrane_1 _let_76) (tptp.quantity_value_1 _let_72) (tptp.speed_value_1 _let_73) (tptp.spatial_entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.monomer_1 _let_64) (tptp.molecule_1 _let_64) (tptp.amino_acid_1 _let_64) (tptp.size_value_1 _let_65) (tptp.tissue_1 _let_84) (tptp.hold_together_1 _let_22) (tptp.tangible_entity_1 _let_83) (tptp.property_node_1 _let_31) (tptp.size_value_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.monomer_1 _let_26) (tptp.molecule_1 _let_26) (tptp.amino_acid_1 _let_26) (tptp.chemical_entity_1 _let_24) (tptp.monomer_1 _let_24) (tptp.molecule_1 _let_24) (tptp.amino_acid_1 _let_24) (tptp.tangible_entity_1 _let_23) (tptp.organic_molecule_1 _let_21) (tptp.carbon_1 _let_17) (tptp.entity_1 _let_15) (tptp.carbon_1 _let_15) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_skeleton_1 _let_12) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.carbon_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.covalent_bond_1 _let_7) (tptp.chemical_bond_1 _let_6) (tptp.covalent_bond_1 _let_6) (tptp.peptide_bond_1 _let_6) (tptp.has_function_2 X _let_22) (tptp.object_2 _let_22 _let_84) (tptp.has_part_2 X _let_5) (tptp.agent_2 _let_22 X) (tptp.is_at_2 _let_11 _let_82) (tptp.has_region_2 X _let_82) (tptp.is_at_2 _let_78 _let_82) (tptp.facilitates_2 _let_78 _let_68) (tptp.site_2 _let_68 _let_78) (tptp.is_at_2 _let_81 _let_78) (tptp.has_part_2 X _let_63) (tptp.has_part_2 X _let_81) (tptp.has_part_2 X _let_80) (tptp.is_inside_2 _let_80 _let_70) (tptp.is_inside_2 X _let_79) (tptp.has_part_2 _let_76 _let_79) (tptp.has_region_2 X _let_78) (tptp.is_across_2 X _let_76) (tptp.has_part_2 _let_76 X) (tptp.has_region_2 X _let_77) (tptp.is_opposite_2 _let_78 _let_77) (tptp.is_opposite_2 _let_77 _let_78) (tptp.the_scalar_value_2 _let_75 tptp.big_0) (tptp.scalar_unit_class_2 _let_75 tptp.polypeptide_0) (tptp.facilitates_2 _let_70 _let_67) (tptp.is_at_2 _let_64 _let_69) (tptp.has_region_2 X _let_61) (tptp.has_part_2 X _let_62) (tptp.speed_2 _let_74 _let_73) (tptp.object_2 _let_74 X) (tptp.size_2 X _let_75) (tptp.greater_than_2 _let_75 _let_65) (tptp.site_2 _let_67 _let_70) (tptp.has_region_2 X _let_70) (tptp.possesses_2 X _let_71) (tptp.quantity_2 _let_71 _let_72) (tptp.directly_proportional_2 _let_73 _let_72) (tptp.has_function_2 X _let_67) (tptp.agent_2 _let_67 X) (tptp.has_function_2 X _let_68) (tptp.agent_2 _let_68 X) (tptp.has_region_2 X _let_69) (tptp.size_2 _let_5 _let_65) (tptp.has_part_2 _let_5 _let_64) (tptp.has_part_2 X _let_11) (tptp.is_inside_2 _let_62 _let_61) (not (= _let_62 _let_63)) (tptp.is_inside_2 _let_63 _let_61) (not (= _let_63 _let_62)) (tptp.is_between_2 _let_59 _let_60) (tptp.possesses_2 _let_5 _let_59) (tptp.has_part_2 _let_5 _let_60) (tptp.has_region_2 _let_11 _let_61) (= _let_84 _let_83) (= X _let_23) (= _let_11 (tptp.fn_glycoprotein_17 X)) (= _let_78 _let_55) (= _let_82 _let_58) (= _let_82 _let_57) (= _let_63 _let_20) (= _let_63 _let_19) (= _let_63 _let_18) (= _let_81 (tptp.fn_integral_protein_6 X)) (= _let_80 (tptp.fn_integral_protein_5 X)) (= _let_79 (tptp.fn_integral_protein_27 X)) (= _let_78 _let_56) (= _let_78 _let_54) (= _let_77 (tptp.fn_transmembrane_protein_2 X)) (= _let_76 _let_53) (= _let_76 _let_52) (= (tptp.fn_cell_adhesion_molecule_8 X) (tptp.fn_glycoprotein_8 X)) (= _let_61 _let_14) (= _let_61 _let_13) (= (tptp.fn_cell_adhesion_molecule_7 X) (tptp.fn_glycoprotein_7 X)) (= _let_62 _let_16) (= (tptp.fn_cell_adhesion_molecule_6 X) (tptp.fn_glycoprotein_6 X)) (= _let_75 _let_51) (= _let_75 _let_50) (= _let_74 _let_49) (= _let_74 _let_48) (= _let_73 _let_47) (= _let_73 _let_46) (= _let_72 _let_45) (= _let_72 _let_44) (= _let_71 _let_43) (= _let_71 _let_42) (= _let_70 _let_41) (= _let_70 _let_40) (= _let_69 _let_39) (= _let_69 _let_38) (= _let_68 _let_37) (= _let_68 _let_36) (= _let_67 _let_35) (= _let_67 _let_34) (= _let_66 _let_33) (= _let_66 _let_32) (= _let_66 _let_31) (= _let_5 _let_3) (= _let_65 _let_29) (= _let_5 _let_2) (= _let_65 _let_30) (= _let_65 _let_28) (= _let_5 _let_4) (= _let_64 _let_25) (= _let_5 _let_1) (= _let_64 _let_27) (= _let_64 _let_26) (= _let_64 _let_24) (= X _let_21) (= _let_63 _let_17) (= _let_62 _let_15) (= _let_61 _let_12) (= _let_60 _let_10) (= _let_60 _let_9) (= _let_60 _let_8) (= _let_59 _let_7) (= _let_59 _let_6) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_body_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Body'|) (tptp.user_description_2 X |tptp.'The portion of a neuron that houses the nucleus and other organelles but does not transmit nerve impulses.'|) (tptp.concept2words_2 X |tptp.'body of cell'|) (tptp.concept2words_2 X |tptp.'cell body'|) (tptp.concept2words_2 X |tptp.'cell-body'|) (tptp.neuron_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_cell_recognition_14 X))) (let ((_let_2 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_5 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_6 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_7 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_8 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_9 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_10 (tptp.fn_cell_cell_recognition_16 X))) (let ((_let_11 (tptp.fn_cell_26 _let_10))) (let ((_let_12 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_13 (tptp.fn_cell_cell_recognition_13 X))) (let ((_let_14 (tptp.fn_target_cell_3 _let_13))) (let ((_let_15 (tptp.fn_cell_cell_recognition_15 X))) (let ((_let_16 (tptp.fn_make_contact_1 _let_15))) (let ((_let_17 (tptp.fn_cell_cell_recognition_20 X))) (let ((_let_18 (tptp.fn_plasma_membrane_88 _let_17))) (let ((_let_19 (tptp.fn_cell_cell_recognition_17 X))) (let ((_let_20 (tptp.fn_chemical_marker_2 _let_19))) (let ((_let_21 (tptp.fn_plasma_membrane_65 _let_17))) (let ((_let_22 (tptp.fn_biomembrane_41 _let_17))) (let ((_let_23 (tptp.fn_plasma_membrane_71 _let_17))) (let ((_let_24 (tptp.fn_biomembrane_63 _let_17))) (let ((_let_25 (tptp.fn_target_cell_1 _let_13))) (let ((_let_26 (tptp.fn_make_contact_2 _let_15))) (let ((_let_27 (tptp.fn_cell_cell_recognition_24 X))) (let ((_let_28 (tptp.fn_plasma_membrane_88 _let_1))) (let ((_let_29 (tptp.fn_cell_cell_recognition_23 X))) (let ((_let_30 (tptp.fn_cell_cell_recognition_26 X))) (let ((_let_31 (tptp.fn_cell_cell_recognition_27 X))) (let ((_let_32 (tptp.fn_plasma_membrane_6 _let_1))) (let ((_let_33 (tptp.fn_cell_cell_recognition_25 X))) (let ((_let_34 (tptp.fn_plasma_membrane_57 _let_1))) (let ((_let_35 (tptp.fn_cell_cell_recognition_28 X))) (let ((_let_36 (tptp.fn_cell_cell_recognition_11 X))) (let ((_let_37 (tptp.fn_cell_11 _let_10))) (let ((_let_38 (tptp.fn_cell_cell_recognition_10 X))) (let ((_let_39 (tptp.fn_cell_10 _let_10))) (let ((_let_40 (tptp.fn_cell_29 _let_10))) (let ((_let_41 (tptp.fn_cell_cell_recognition_12 X))) (let ((_let_42 (tptp.fn_cell_28 _let_10))) (let ((_let_43 (tptp.fn_cell_cell_recognition_6 X))) (let ((_let_44 (tptp.fn_cell_22 _let_10))) (let ((_let_45 (tptp.fn_cell_cell_recognition_8 X))) (let ((_let_46 (tptp.fn_cell_23 _let_10))) (let ((_let_47 (tptp.fn_cell_4 _let_10))) (let ((_let_48 (tptp.fn_cell_cell_recognition_9 X))) (let ((_let_49 (tptp.fn_cell_30 _let_10))) (let ((_let_50 (tptp.fn_cell_14 _let_10))) (let ((_let_51 (tptp.fn_cell_cell_recognition_7 X))) (let ((_let_52 (tptp.fn_cell_cell_recognition_18 X))) (let ((_let_53 (tptp.fn_cell_cell_recognition_21 X))) (let ((_let_54 (tptp.fn_cell_cell_recognition_22 X))) (let ((_let_55 (tptp.fn_cell_cell_recognition_19 X))) (let ((_let_56 (tptp.fn_cell_30 _let_55))) (let ((_let_57 (tptp.fn_cell_cell_recognition_3 X))) (let ((_let_58 (tptp.fn_cell_cell_recognition_2 X))) (let ((_let_59 (tptp.fn_cell_cell_recognition_1 X))) (=> (tptp.cell_cell_recognition_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Cell-Recognition'|) (tptp.user_description_2 X |tptp.'Process in which a cell recognizes another cell through direct contact between outer cell structures that initiates a signal transduction event resulting in recognition of the cell being perceived.'|) (tptp.concept2words_2 X |tptp.'cell cell recognition'|) (tptp.concept2words_2 X |tptp.'cell-cell recognition'|) (tptp.concept2words_2 X tptp.recognize) (tptp.concept2words_2 X |tptp.'cell-cell-recognition'|) (tptp.intercellular_process_1 X) (tptp.distinguishing_1 _let_59) (tptp.phospholipid_1 _let_58) (tptp.extra_cellular_matrix_1 _let_57) (tptp.mixture_1 _let_43) (tptp.cytoplasm_1 _let_43) (tptp.ribosome_1 _let_51) (tptp.volume_value_1 _let_45) (tptp.surface_1 _let_48) (tptp.size_value_1 _let_38) (tptp.tangible_entity_1 _let_36) (tptp.phospholipid_bilayer_1 _let_36) (tptp.substance_1 _let_41) (tptp.cytosol_1 _let_41) (tptp.target_cell_1 _let_13) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.make_contact_1 _let_15) (tptp.spatial_entity_1 _let_10) (tptp.cell_1 _let_10) (tptp.chemical_marker_1 _let_19) (tptp.spatial_entity_1 _let_52) (tptp.carbohydrate_side_chain_1 _let_52) (tptp.spatial_entity_1 _let_55) (tptp.cell_1 _let_55) (tptp.biomembrane_1 _let_17) (tptp.plasma_membrane_1 _let_17) (tptp.outside_face_1 _let_53) (tptp.extracellular_side_1 _let_53) (tptp.tangible_entity_1 _let_54) (tptp.phospholipid_bilayer_1 _let_54) (tptp.carbohydrate_side_chain_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.membrane_protein_1 _let_27) (tptp.protein_1 _let_27) (tptp.spatial_entity_1 _let_27) (tptp.polymer_1 _let_27) (tptp.hydrophobic_core_1 _let_33) (tptp.outside_face_1 _let_30) (tptp.extracellular_side_1 _let_30) (tptp.membrane_protein_1 _let_31) (tptp.tangible_entity_1 _let_31) (tptp.transmembrane_protein_1 _let_31) (tptp.integral_protein_1 _let_31) (tptp.transport_protein_1 _let_31) (tptp.carbon_skeleton_1 _let_35) (tptp.plasma_membrane_1 _let_56) (tptp.ribosome_1 _let_50) (tptp.plasma_membrane_1 _let_49) (tptp.surface_1 _let_47) (tptp.property_node_1 _let_46) (tptp.volume_value_1 _let_44) (tptp.mixture_1 _let_42) (tptp.cytoplasm_1 _let_42) (tptp.substance_1 _let_40) (tptp.cytosol_1 _let_40) (tptp.property_node_1 _let_39) (tptp.size_value_1 _let_37) (tptp.carbon_skeleton_1 _let_34) (tptp.hydrophobic_core_1 _let_32) (tptp.carbohydrate_side_chain_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.cell_1 _let_25) (tptp.tangible_entity_1 _let_24) (tptp.phospholipid_bilayer_1 _let_24) (tptp.tangible_entity_1 _let_23) (tptp.phospholipid_bilayer_1 _let_23) (tptp.outside_face_1 _let_22) (tptp.extracellular_side_1 _let_21) (tptp.spatial_entity_1 _let_20) (tptp.carbohydrate_side_chain_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.cell_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.outside_face_1 _let_8) (tptp.extracellular_side_1 _let_7) (tptp.membrane_protein_1 _let_6) (tptp.membrane_protein_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.transmembrane_protein_1 _let_4) (tptp.integral_protein_1 _let_4) (tptp.transport_protein_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.protein_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.polymer_1 _let_2) (tptp.in_event_2 _let_13 X) (tptp.abuts_2 _let_10 _let_55) (tptp.in_event_2 _let_19 X) (tptp.agent_2 X _let_55) (tptp.subevent_2 X _let_59) (tptp.subevent_2 X _let_15) (tptp.base_2 X _let_17) (tptp.object_2 X _let_10) (tptp.facilitates_2 _let_52 X) (not (= _let_52 _let_29)) (tptp.is_at_2 _let_52 _let_53) (tptp.abuts_2 _let_55 _let_10) (tptp.object_2 _let_59 _let_10) (tptp.agent_2 _let_59 _let_55) (tptp.has_function_2 _let_17 X) (tptp.has_part_2 _let_17 _let_58) (tptp.is_outside_2 _let_57 _let_55) (tptp.is_outside_2 _let_57 _let_17) (tptp.is_at_2 _let_54 _let_55) (tptp.facilitates_2 _let_29 X) (not (= _let_29 _let_52)) (tptp.plays_2 _let_52 _let_19) (tptp.object_2 _let_15 _let_10) (tptp.base_2 _let_15 _let_55) (tptp.plays_2 _let_10 _let_13) (not (= _let_55 _let_10)) (not (= _let_10 _let_55)) (tptp.is_across_2 _let_31 _let_33) (tptp.has_part_2 _let_1 _let_31) (tptp.is_across_2 _let_31 _let_1) (tptp.is_inside_2 _let_31 _let_36) (tptp.has_part_2 _let_1 _let_36) (not (= _let_31 _let_27)) (not (= _let_27 _let_31)) (tptp.has_part_2 _let_1 _let_27) (tptp.is_at_2 _let_31 _let_1) (tptp.has_region_2 _let_31 _let_35) (tptp.is_inside_2 _let_35 _let_1) (tptp.has_region_2 _let_1 _let_33) (tptp.is_outside_2 _let_30 _let_1) (tptp.has_region_2 _let_1 _let_30) (tptp.has_region_2 _let_31 _let_30) (tptp.is_outside_2 _let_29 _let_1) (tptp.called_2 _let_27 |tptp.'MP2'|) (tptp.is_inside_2 _let_51 _let_41) (tptp.has_part_2 _let_10 _let_51) (tptp.has_part_2 _let_10 _let_1) (tptp.is_inside_2 _let_43 _let_1) (tptp.has_part_2 _let_10 _let_43) (tptp.is_at_2 _let_36 _let_48) (tptp.has_region_2 _let_10 _let_48) (tptp.volume_2 _let_10 _let_45) (tptp.directly_proportional_2 _let_38 _let_45) (tptp.size_2 _let_10 _let_38) (tptp.has_part_2 _let_43 _let_41) (tptp.has_part_2 _let_17 _let_54) (tptp.is_outside_2 _let_53 _let_17) (tptp.has_region_2 _let_17 _let_53) (tptp.is_outside_2 _let_52 _let_17) (tptp.has_part_2 _let_55 _let_17) (= _let_52 _let_20) (= _let_10 _let_16) (= _let_55 _let_26) (= _let_55 _let_25) (= _let_10 _let_14) (= _let_17 _let_56) (= _let_54 _let_24) (= _let_54 _let_23) (= _let_53 _let_22) (= _let_53 _let_21) (= _let_52 _let_18) (= _let_51 _let_50) (= _let_1 _let_49) (= _let_36 _let_11) (= _let_48 _let_47) (= (tptp.fn_cell_cell_recognition_4 X) _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= (tptp.fn_cell_cell_recognition_5 X) _let_39) (= _let_38 _let_37) (= _let_36 _let_12) (= _let_36 _let_9) (= _let_27 _let_3) (= _let_31 _let_6) (= _let_31 _let_5) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_30 _let_8) (= _let_31 _let_4) (= _let_30 _let_7) (= _let_29 _let_28) (= _let_27 _let_2) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_5 X))) (let ((_let_2 (tptp.fn_signal_generation_5 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_2 X))) (let ((_let_4 (tptp.fn_cell_signaling_5 _let_3))) (let ((_let_5 (tptp.fn_signal_generation_4 _let_1))) (let ((_let_6 (tptp.fn_cell_communication_3 X))) (let ((_let_7 (tptp.fn_cell_communication_4 X))) (let ((_let_8 (tptp.fn_cell_communication_1 X))) (=> (tptp.cell_communication_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of a chemical or electrical signal and the series of events leading to a response to that signal.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communication of cell'|) (tptp.concept2words_2 X |tptp.'cell communication'|) (tptp.concept2words_2 X |tptp.'cell-communication'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_8) (tptp.cell_signaling_1 _let_3) (tptp.cell_1 _let_6) (tptp.chemical_entity_1 _let_7) (tptp.signal_generation_1 _let_1) (tptp.cell_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.instrument_2 X _let_7) (tptp.agent_2 X _let_6) (tptp.object_2 X _let_8) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.agent_2 _let_3 _let_7) (tptp.result_2 _let_1 _let_7) (tptp.agent_2 _let_1 _let_6) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_between_neurons_8 X))) (let ((_let_2 (tptp.fn_animal_plasma_membrane_56 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_neurotransmitter_10 X))) (let ((_let_4 (tptp.fn_local_cell_communication_7 X))) (let ((_let_5 (tptp.fn_cell_communication_between_neurons_3 X))) (let ((_let_6 (tptp.fn_cell_signaling_4 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_between_neurons_4 X))) (let ((_let_8 (tptp.fn_electrical_signaling_2 _let_7))) (let ((_let_9 (tptp.fn_animal_plasma_membrane_53 _let_1))) (let ((_let_10 (tptp.fn_animal_plasma_membrane_62 _let_1))) (let ((_let_11 (tptp.fn_animal_plasma_membrane_47 _let_1))) (let ((_let_12 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_13 (tptp.fn_cell_signaling_with_ion_channel_receptor_20 _let_5))) (let ((_let_14 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 _let_5))) (let ((_let_15 (tptp.fn_electrical_signaling_1 _let_7))) (let ((_let_16 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_17 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_18 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_19 (tptp.fn_electrical_signaling_8 _let_7))) (let ((_let_20 (tptp.fn_cell_signaling_with_ion_channel_receptor_16 _let_5))) (let ((_let_21 (tptp.fn_local_cell_communication_5 X))) (let ((_let_22 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 _let_5))) (let ((_let_23 (tptp.fn_electrical_signaling_5 _let_7))) (let ((_let_24 (tptp.fn_cell_communication_with_neurotransmitter_16 X))) (let ((_let_25 (tptp.fn_local_cell_communication_4 X))) (let ((_let_26 (tptp.fn_cell_signaling_3 _let_5))) (let ((_let_27 (tptp.fn_electrical_signaling_4 _let_7))) (let ((_let_28 (tptp.fn_cell_communication_with_neurotransmitter_20 X))) (let ((_let_29 (tptp.fn_local_cell_communication_3 X))) (let ((_let_30 (tptp.fn_cell_signaling_1 _let_5))) (let ((_let_31 (tptp.fn_cell_communication_with_neurotransmitter_9 X))) (let ((_let_32 (tptp.fn_cell_signaling_with_ion_channel_receptor_32 _let_5))) (let ((_let_33 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 _let_5))) (let ((_let_34 (tptp.fn_electrical_signaling_9 _let_7))) (let ((_let_35 (tptp.fn_cell_communication_with_neurotransmitter_15 X))) (let ((_let_36 (tptp.fn_local_cell_communication_6 X))) (let ((_let_37 (tptp.fn_cell_communication_between_neurons_9 X))) (let ((_let_38 (tptp.fn_cell_communication_between_neurons_2 X))) (let ((_let_39 (tptp.fn_cell_communication_between_neurons_5 X))) (let ((_let_40 (tptp.fn_cell_communication_between_neurons_6 X))) (let ((_let_41 (tptp.fn_cell_communication_between_neurons_7 X))) (let ((_let_42 (tptp.fn_cell_communication_between_neurons_13 X))) (let ((_let_43 (tptp.fn_cell_communication_between_neurons_1 X))) (let ((_let_44 (tptp.fn_cell_communication_between_neurons_12 X))) (let ((_let_45 (tptp.fn_cell_communication_between_neurons_10 X))) (let ((_let_46 (tptp.fn_cell_communication_between_neurons_11 X))) (let ((_let_47 (tptp.fn_cell_signaling_with_ion_channel_receptor_29 _let_5))) (=> (tptp.cell_communication_between_neurons_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Between-Neurons'|) (tptp.user_description_2 X |tptp.'Transmission of a stimulus from one neuron to another through a synapse.'|) (tptp.concept2words_2 X |tptp.'synaptic signaling between neurons'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication between neuron'|) (tptp.concept2words_2 X |tptp.'cell-communication-between-neuron'|) (tptp.cell_communication_with_neurotransmitter_1 X) (tptp.chemical_entity_1 _let_43) (tptp.neurotransmitter_1 _let_43) (tptp.receptor_1 _let_38) (tptp.receptor_protein_1 _let_38) (tptp.cell_surface_receptor_1 _let_38) (tptp.gated_channel_1 _let_38) (tptp.ligand_gated_ion_channel_1 _let_38) (tptp.protein_1 _let_38) (tptp.organic_molecule_1 _let_38) (tptp.polymer_1 _let_38) (tptp.spatial_entity_1 _let_38) (tptp.membrane_protein_1 _let_38) (tptp.tangible_entity_1 _let_38) (tptp.transmembrane_protein_1 _let_38) (tptp.integral_protein_1 _let_38) (tptp.transport_protein_1 _let_38) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_5) (tptp.cell_signaling_1 _let_5) (tptp.cell_signaling_with_ion_channel_receptor_1 _let_5) (tptp.electrical_signaling_1 _let_7) (tptp.signal_reception_1 _let_39) (tptp.signal_transduction_1 _let_40) (tptp.cellular_response_1 _let_41) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.animal_plasma_membrane_1 _let_1) (tptp.nerve_cell_1 _let_37) (tptp.synapse_1 _let_45) (tptp.facilitated_diffusion_of_ion_1 _let_46) (tptp.living_entity_1 _let_44) (tptp.cell_1 _let_44) (tptp.nerve_cell_1 _let_44) (tptp.signal_transmission_1 _let_42) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.plasma_membrane_1 _let_47) (tptp.chemical_entity_1 _let_34) (tptp.chemical_entity_1 _let_33) (tptp.chemical_entity_1 _let_32) (tptp.cellular_response_1 _let_30) (tptp.cellular_response_1 _let_27) (tptp.signal_transduction_1 _let_26) (tptp.signal_transduction_1 _let_23) (tptp.signal_reception_1 _let_22) (tptp.signal_reception_1 _let_20) (tptp.signal_reception_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.protein_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.polymer_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.transmembrane_protein_1 _let_16) (tptp.integral_protein_1 _let_16) (tptp.transport_protein_1 _let_16) (tptp.receptor_1 _let_15) (tptp.cell_surface_receptor_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.receptor_protein_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.membrane_protein_1 _let_13) (tptp.cell_surface_receptor_1 _let_13) (tptp.gated_channel_1 _let_13) (tptp.ligand_gated_ion_channel_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.transmembrane_protein_1 _let_13) (tptp.integral_protein_1 _let_13) (tptp.transport_protein_1 _let_13) (tptp.membrane_protein_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.protein_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.transmembrane_protein_1 _let_10) (tptp.integral_protein_1 _let_10) (tptp.transport_protein_1 _let_10) (tptp.polymer_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.membrane_protein_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.transmembrane_protein_1 _let_9) (tptp.integral_protein_1 _let_9) (tptp.transport_protein_1 _let_9) (tptp.living_entity_1 _let_8) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.animal_cell_1 _let_2) (tptp.has_part_2 _let_38 _let_43) (tptp.base_2 _let_7 _let_37) (tptp.causes_2 _let_41 _let_7) (tptp.path_2 _let_41 _let_1) (tptp.agent_2 _let_7 _let_37) (tptp.base_2 _let_5 _let_37) (tptp.base_2 _let_40 _let_37) (tptp.base_2 _let_41 _let_37) (tptp.base_2 _let_39 _let_37) (tptp.object_2 _let_39 _let_43) (tptp.complement_2 _let_43 _let_38) (tptp.has_part_2 _let_1 _let_38) (not (= _let_38 _let_43)) (not (= _let_43 _let_38)) (tptp.complement_2 _let_38 _let_43) (tptp.destination_2 _let_42 _let_37) (tptp.base_2 _let_46 _let_37) (tptp.object_2 X _let_37) (tptp.is_between_2 _let_45 _let_37) (tptp.is_near_2 _let_44 _let_37) (tptp.is_near_2 _let_37 _let_44) (tptp.first_subevent_2 _let_5 _let_39) (tptp.instrument_2 _let_39 _let_38) (tptp.has_function_2 _let_38 _let_39) (tptp.subevent_2 _let_5 _let_39) (tptp.subevent_2 _let_41 _let_46) (tptp.subevent_2 _let_5 _let_40) (tptp.agent_2 X _let_44) (tptp.is_between_2 _let_45 _let_44) (tptp.site_2 _let_42 _let_45) (tptp.next_event_2 _let_42 _let_5) (tptp.subevent_2 _let_5 _let_41) (tptp.subevent_2 X _let_42) (tptp.object_2 _let_42 _let_43) (tptp.instrument_2 X _let_43) (tptp.subevent_2 X _let_5) (tptp.agent_2 _let_5 _let_43) (tptp.first_subevent_2 _let_7 _let_39) (tptp.subevent_2 _let_7 _let_39) (tptp.next_event_2 _let_39 _let_40) (tptp.next_event_2 _let_40 _let_41) (tptp.subevent_2 _let_7 _let_41) (tptp.subevent_2 _let_7 _let_40) (tptp.is_across_2 _let_38 _let_1) (tptp.has_part_2 _let_37 _let_1) (tptp.called_2 _let_38 |tptp.'MP1'|) (tptp.is_at_2 _let_38 _let_1) (= _let_40 _let_25) (= _let_37 _let_8) (= _let_37 _let_6) (= _let_37 _let_4) (= _let_38 _let_18) (= _let_38 _let_17) (= _let_1 _let_47) (= _let_43 _let_34) (= _let_43 _let_33) (= _let_37 _let_3) (= _let_38 _let_15) (= _let_38 _let_14) (= _let_38 _let_13) (= _let_39 _let_22) (= _let_39 _let_21) (= _let_39 _let_20) (= _let_46 (tptp.fn_cell_communication_with_neurotransmitter_19 X)) (= _let_40 _let_26) (= _let_40 _let_24) (= _let_41 _let_30) (= _let_41 _let_29) (= _let_41 _let_28) (= _let_45 (tptp.fn_cell_communication_with_neurotransmitter_11 X)) (= _let_44 (tptp.fn_cell_communication_with_neurotransmitter_8 X)) (= _let_43 _let_32) (= _let_5 _let_36) (= _let_5 _let_35) (= _let_43 _let_31) (= _let_42 (tptp.fn_cell_communication_with_neurotransmitter_13 X)) (= _let_41 _let_27) (= _let_40 _let_23) (= _let_39 _let_19) (= _let_38 _let_16) (= _let_38 _let_12) (= _let_38 _let_11) (= _let_38 _let_10) (= _let_38 _let_9) (= _let_37 _let_2) (= _let_35 _let_35) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_24 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_33 X))) (let ((_let_4 (tptp.fn_gated_channel_21 _let_3))) (let ((_let_5 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_6 (tptp.fn_gated_channel_19 _let_3))) (let ((_let_7 (tptp.fn_carbon_skeleton_5 _let_1))) (let ((_let_8 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_11 X))) (let ((_let_9 (tptp.fn_facilitated_diffusion_31 _let_8))) (let ((_let_10 (tptp.fn_polymer_1 _let_3))) (let ((_let_11 (tptp.fn_molecule_10 _let_3))) (let ((_let_12 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_41 X))) (let ((_let_13 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_12))) (let ((_let_14 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_3 X))) (let ((_let_15 (tptp.fn_nerve_cell_51 _let_14))) (let ((_let_16 (tptp.fn_eukaryotic_cell_26 _let_14))) (let ((_let_17 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_12))) (let ((_let_18 (tptp.fn_facilitated_diffusion_of_ion_23 _let_8))) (let ((_let_19 (tptp.fn_cell_29 _let_14))) (let ((_let_20 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_12))) (let ((_let_21 (tptp.fn_eukaryotic_cell_24 _let_14))) (let ((_let_22 (tptp.fn_cell_communication_between_neurons_11 X))) (let ((_let_23 (tptp.fn_cell_communication_with_neurotransmitter_19 X))) (let ((_let_24 (tptp.fn_transport_protein_28 _let_3))) (let ((_let_25 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_13 X))) (let ((_let_26 (tptp.fn_electrical_signaling_4 _let_25))) (let ((_let_27 (tptp.fn_cell_communication_between_neurons_7 X))) (let ((_let_28 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_2 X))) (let ((_let_29 (tptp.fn_chemical_signaling_6 _let_28))) (let ((_let_30 (tptp.fn_cell_communication_with_neurotransmitter_20 X))) (let ((_let_31 (tptp.fn_cell_signaling_1 _let_28))) (let ((_let_32 (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_8 X))) (let ((_let_33 (tptp.fn_cellular_response_1 _let_32))) (let ((_let_34 (tptp.fn_eukaryotic_cell_4 _let_14))) (let ((_let_35 (tptp.fn_cell_communication_between_neurons_9 X))) (let ((_let_36 (tptp.fn_cell_signaling_4 _let_28))) (let ((_let_37 (tptp.fn_electrical_signaling_2 _let_25))) (let ((_let_38 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_12))) (let ((_let_39 (tptp.fn_cellular_response_3 _let_32))) (let ((_let_40 (tptp.fn_intracellular_process_1 _let_32))) (let ((_let_41 (tptp.fn_passive_transport_1 _let_8))) (let ((_let_42 (tptp.fn_nerve_cell_43 _let_14))) (let ((_let_43 (tptp.fn_cell_28 _let_14))) (let ((_let_44 (tptp.fn_nerve_cell_35 _let_14))) (let ((_let_45 (tptp.fn_cell_communication_between_neurons_8 X))) (let ((_let_46 (tptp.fn_cell_signaling_with_ion_channel_receptor_29 _let_28))) (let ((_let_47 (tptp.fn_transport_protein_35 _let_3))) (let ((_let_48 (tptp.fn_animal_cell_73 _let_14))) (let ((_let_49 (tptp.fn_passive_transport_25 _let_8))) (let ((_let_50 (tptp.fn_facilitated_diffusion_49 _let_8))) (let ((_let_51 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_23 _let_28))) (let ((_let_52 (tptp.fn_gated_channel_16 _let_3))) (let ((_let_53 (tptp.fn_transmembrane_protein_4 _let_3))) (let ((_let_54 (tptp.fn_cell_surface_receptor_1 _let_3))) (let ((_let_55 (tptp.fn_nerve_cell_31 _let_14))) (let ((_let_56 (tptp.fn_cell_signaling_with_ion_channel_receptor_10 _let_28))) (let ((_let_57 (tptp.fn_facilitated_diffusion_48 _let_8))) (let ((_let_58 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_22 _let_28))) (let ((_let_59 (tptp.fn_transport_protein_12 _let_3))) (let ((_let_60 (tptp.fn_gated_channel_13 _let_3))) (let ((_let_61 (tptp.fn_nerve_cell_22 _let_14))) (let ((_let_62 (tptp.fn_cell_signaling_with_ion_channel_receptor_28 _let_28))) (let ((_let_63 (tptp.fn_transmembrane_protein_5 _let_3))) (let ((_let_64 (tptp.fn_integral_protein_29 _let_3))) (let ((_let_65 (tptp.fn_nerve_cell_24 _let_14))) (let ((_let_66 (tptp.fn_cell_signaling_with_ion_channel_receptor_8 _let_28))) (let ((_let_67 (tptp.fn_cell_signaling_with_ion_channel_receptor_9 _let_28))) (let ((_let_68 (tptp.fn_animal_cell_60 _let_14))) (let ((_let_69 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_20 _let_28))) (let ((_let_70 (tptp.fn_nerve_cell_50 _let_14))) (let ((_let_71 (tptp.fn_animal_cell_59 _let_14))) (let ((_let_72 (tptp.fn_cell_communication_between_neurons_3 X))) (let ((_let_73 (tptp.fn_cell_communication_with_neurotransmitter_15 X))) (let ((_let_74 (tptp.fn_cell_signaling_with_ion_channel_receptor_16 _let_28))) (let ((_let_75 (tptp.fn_electrical_signaling_8 _let_25))) (let ((_let_76 (tptp.fn_cell_communication_between_neurons_5 X))) (let ((_let_77 (tptp.fn_chemical_signaling_7 _let_28))) (let ((_let_78 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 _let_28))) (let ((_let_79 (tptp.fn_cell_signaling_2 _let_28))) (let ((_let_80 (tptp.fn_cell_signaling_with_ion_channel_receptor_20 _let_28))) (let ((_let_81 (tptp.fn_cell_communication_between_neurons_2 X))) (let ((_let_82 (tptp.fn_facilitated_diffusion_25 _let_8))) (let ((_let_83 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 _let_28))) (let ((_let_84 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_85 (tptp.fn_cell_signaling_with_ion_channel_receptor_17 _let_28))) (let ((_let_86 (tptp.fn_cell_communication_with_neurotransmitter_17 X))) (let ((_let_87 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 _let_28))) (let ((_let_88 (tptp.fn_cell_signaling_with_ion_channel_receptor_31 _let_28))) (let ((_let_89 (tptp.fn_gated_channel_20 _let_3))) (let ((_let_90 (tptp.fn_cell_signaling_with_ion_channel_receptor_30 _let_28))) (let ((_let_91 (tptp.fn_ligand_gated_ion_channel_9 _let_3))) (let ((_let_92 (tptp.fn_transport_protein_21 _let_3))) (let ((_let_93 (tptp.fn_facilitated_diffusion_37 _let_8))) (let ((_let_94 (tptp.fn_cell_communication_between_neurons_4 X))) (let ((_let_95 (tptp.fn_cell_communication_with_neurotransmitter_1 X))) (let ((_let_96 (tptp.fn_electrical_signaling_5 _let_25))) (let ((_let_97 (tptp.fn_cell_communication_between_neurons_6 X))) (let ((_let_98 (tptp.fn_chemical_signaling_8 _let_28))) (let ((_let_99 (tptp.fn_cell_communication_with_neurotransmitter_16 X))) (let ((_let_100 (tptp.fn_cell_signaling_3 _let_28))) (let ((_let_101 (tptp.fn_cell_communication_between_neurons_12 X))) (let ((_let_102 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|tptp.'cell-communication-between-neurons-leading-to-ion-inflow'|) (tptp.cell_communication_between_neurons_1 X) (tptp.signal_generation_1 _let_153) (tptp.chemical_signaling_1 _let_28) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_28) (tptp.cell_signaling_1 _let_28) (tptp.cell_signaling_with_ion_channel_receptor_1 _let_28) (tptp.eukaryotic_cell_1 _let_14) (tptp.living_entity_1 _let_14) (tptp.animal_cell_1 _let_14) (tptp.cell_1 _let_14) (tptp.nerve_cell_1 _let_14) (tptp.secretion_1 _let_154) (tptp.membrane_1 _let_135) (tptp.tangible_entity_1 _let_135) (tptp.spatial_entity_1 _let_135) (tptp.biomembrane_1 _let_135) (tptp.plasma_membrane_1 _let_135) (tptp.animal_plasma_membrane_1 _let_135) (tptp.signal_transduction_1 _let_148) (tptp.container_1 _let_103) (tptp.intracellular_process_1 _let_32) (tptp.cellular_response_1 _let_32) (tptp.tangible_entity_1 _let_149) (tptp.living_entity_1 _let_149) (tptp.cell_1 _let_149) (tptp.nerve_cell_1 _let_149) (tptp.synapse_1 _let_150) (tptp.passive_transport_1 _let_8) (tptp.facilitated_diffusion_1 _let_8) (tptp.facilitated_diffusion_of_ion_1 _let_8) (tptp.aqueous_solution_1 _let_132) (tptp.hypertonic_solution_1 _let_132) (tptp.electrical_signaling_1 _let_25) (tptp.spatial_entity_1 _let_165) (tptp.chemical_entity_1 _let_165) (tptp.monomer_1 _let_165) (tptp.molecule_1 _let_165) (tptp.amino_acid_1 _let_165) (tptp.size_value_1 _let_161) (tptp.dna_polymerase_i_1 _let_133) (tptp.protein_1 _let_133) (tptp.aqueous_solution_1 _let_128) (tptp.hypotonic_solution_1 _let_128) (tptp.substance_1 _let_128) (tptp.cytosol_1 _let_128) (tptp.move_through_1 _let_171) (tptp.covalent_bond_1 _let_127) (tptp.chemical_bond_1 _let_127) (tptp.expose_1 _let_159) (tptp.size_value_1 _let_160) (tptp.tangible_entity_1 _let_136) (tptp.phospholipid_bilayer_1 _let_136) (tptp.hydrophilic_end_1 _let_157) (tptp.carbon_skeleton_1 _let_1) (tptp.hydrophilic_region_1 _let_155) (tptp.hydrophilic_end_1 _let_155) (tptp.protein_domain_1 _let_167) (tptp.carbon_1 _let_125) (tptp.entity_1 _let_126) (tptp.atom_1 _let_126) (tptp.chemical_entity_1 _let_126) (tptp.polypeptide_1 _let_163) (tptp.outside_face_1 _let_139) (tptp.extracellular_side_1 _let_139) (tptp.surface_1 _let_139) (tptp.monomer_1 _let_146) (tptp.monomer_1 _let_147) (tptp.molecule_1 _let_3) (tptp.receptor_1 _let_3) (tptp.receptor_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.polymer_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.cell_surface_receptor_1 _let_3) (tptp.gated_channel_1 _let_3) (tptp.ligand_gated_ion_channel_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.transmembrane_protein_1 _let_3) (tptp.integral_protein_1 _let_3) (tptp.transport_protein_1 _let_3) (tptp.signal_reception_1 _let_144) (tptp.attach_1 _let_145) (tptp.ligand_binding_1 _let_145) (tptp.chemical_entity_1 _let_151) (tptp.neurotransmitter_1 _let_151) (tptp.surface_1 _let_138) (tptp.mixture_1 _let_134) (tptp.cytoplasm_1 _let_134) (tptp.smooth_endoplasmic_reticulum_1 _let_12) (tptp.semiautonomous_organelle_1 _let_141) (tptp.organelle_1 _let_141) (tptp.mitochondrion_1 _let_141) (tptp.golgi_apparatus_1 _let_130) (tptp.tangible_entity_1 _let_129) (tptp.nucleus_1 _let_129) (tptp.ribosome_1 _let_173) (tptp.hydrophobic_core_1 _let_143) (tptp.tangible_entity_1 _let_140) (tptp.membrane_protein_1 _let_140) (tptp.spatial_entity_1 _let_140) (tptp.polymer_1 _let_140) (tptp.protein_1 _let_140) (tptp.organic_molecule_1 _let_140) (tptp.signal_transmission_1 _let_152) (tptp.smooth_endoplasmic_reticulum_1 _let_174) (tptp.ribosome_1 _let_172) (tptp.carbon_skeleton_1 _let_170) (tptp.property_node_1 _let_169) (tptp.property_node_1 _let_168) (tptp.protein_domain_1 _let_166) (tptp.spatial_entity_1 _let_164) (tptp.chemical_entity_1 _let_164) (tptp.monomer_1 _let_164) (tptp.molecule_1 _let_164) (tptp.amino_acid_1 _let_164) (tptp.polypeptide_1 _let_162) (tptp.expose_1 _let_158) (tptp.hydrophilic_end_1 _let_156) (tptp.hydrophobic_core_1 _let_142) (tptp.surface_1 _let_137) (tptp.aqueous_solution_1 _let_131) (tptp.hypertonic_solution_1 _let_131) (tptp.move_through_1 _let_124) (tptp.move_through_1 _let_123) (tptp.move_through_1 _let_122) (tptp.size_value_1 _let_121) (tptp.size_value_1 _let_120) (tptp.size_value_1 _let_119) (tptp.size_value_1 _let_118) (tptp.size_value_1 _let_117) (tptp.size_value_1 _let_116) (tptp.size_value_1 _let_115) (tptp.size_value_1 _let_114) (tptp.size_value_1 _let_113) (tptp.hydrophilic_region_1 _let_112) (tptp.hydrophilic_region_1 _let_111) (tptp.hydrophilic_end_1 _let_111) (tptp.chemical_entity_1 _let_108) (tptp.chemical_entity_1 _let_107) (tptp.tangible_entity_1 _let_104) (tptp.signal_transduction_1 _let_100) (tptp.signal_transduction_1 _let_98) (tptp.signal_transduction_1 _let_96) (tptp.monomer_1 _let_93) (tptp.monomer_1 _let_92) (tptp.monomer_1 _let_91) (tptp.monomer_1 _let_90) (tptp.monomer_1 _let_89) (tptp.monomer_1 _let_88) (tptp.ligand_binding_1 _let_87) (tptp.attach_1 _let_85) (tptp.ligand_binding_1 _let_85) (tptp.organic_molecule_1 _let_84) (tptp.cell_surface_receptor_1 _let_83) (tptp.spatial_entity_1 _let_83) (tptp.polymer_1 _let_83) (tptp.receptor_protein_1 _let_83) (tptp.transport_protein_1 _let_82) (tptp.spatial_entity_1 _let_80) (tptp.membrane_protein_1 _let_80) (tptp.cell_surface_receptor_1 _let_80) (tptp.gated_channel_1 _let_80) (tptp.ligand_gated_ion_channel_1 _let_80) (tptp.tangible_entity_1 _let_80) (tptp.transmembrane_protein_1 _let_80) (tptp.integral_protein_1 _let_80) (tptp.transport_protein_1 _let_80) (tptp.signal_reception_1 _let_79) (tptp.signal_reception_1 _let_78) (tptp.signal_reception_1 _let_77) (tptp.signal_reception_1 _let_75) (tptp.signal_reception_1 _let_74) (tptp.semiautonomous_organelle_1 _let_71) (tptp.organelle_1 _let_71) (tptp.mitochondrion_1 _let_71) (tptp.semiautonomous_organelle_1 _let_70) (tptp.organelle_1 _let_70) (tptp.mitochondrion_1 _let_70) (tptp.tangible_entity_1 _let_69) (tptp.membrane_protein_1 _let_69) (tptp.protein_1 _let_69) (tptp.spatial_entity_1 _let_69) (tptp.polymer_1 _let_69) (tptp.spatial_entity_1 _let_68) (tptp.polymer_1 _let_68) (tptp.organic_molecule_1 _let_68) (tptp.tangible_entity_1 _let_68) (tptp.membrane_protein_1 _let_68) (tptp.protein_1 _let_68) (tptp.tangible_entity_1 _let_67) (tptp.membrane_protein_1 _let_67) (tptp.protein_1 _let_67) (tptp.spatial_entity_1 _let_67) (tptp.polymer_1 _let_67) (tptp.spatial_entity_1 _let_66) (tptp.polymer_1 _let_66) (tptp.tangible_entity_1 _let_66) (tptp.membrane_protein_1 _let_66) (tptp.protein_1 _let_66) (tptp.tangible_entity_1 _let_65) (tptp.membrane_protein_1 _let_65) (tptp.spatial_entity_1 _let_65) (tptp.polymer_1 _let_65) (tptp.protein_1 _let_65) (tptp.organic_molecule_1 _let_65) (tptp.surface_1 _let_64) (tptp.surface_1 _let_63) (tptp.outside_face_1 _let_63) (tptp.surface_1 _let_62) (tptp.outside_face_1 _let_62) (tptp.extracellular_side_1 _let_62) (tptp.outside_face_1 _let_61) (tptp.extracellular_side_1 _let_61) (tptp.surface_1 _let_61) (tptp.tangible_entity_1 _let_60) (tptp.phospholipid_bilayer_1 _let_60) (tptp.tangible_entity_1 _let_59) (tptp.phospholipid_bilayer_1 _let_59) (tptp.tangible_entity_1 _let_58) (tptp.phospholipid_bilayer_1 _let_58) (tptp.tangible_entity_1 _let_57) (tptp.phospholipid_bilayer_1 _let_57) (tptp.tangible_entity_1 _let_56) (tptp.phospholipid_bilayer_1 _let_56) (tptp.tangible_entity_1 _let_55) (tptp.phospholipid_bilayer_1 _let_55) (tptp.plasma_membrane_1 _let_54) (tptp.biomembrane_1 _let_53) (tptp.spatial_entity_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.biomembrane_1 _let_51) (tptp.plasma_membrane_1 _let_51) (tptp.spatial_entity_1 _let_50) (tptp.biomembrane_1 _let_50) (tptp.spatial_entity_1 _let_49) (tptp.biomembrane_1 _let_49) (tptp.tangible_entity_1 _let_48) (tptp.spatial_entity_1 _let_48) (tptp.biomembrane_1 _let_48) (tptp.animal_plasma_membrane_1 _let_48) (tptp.plasma_membrane_1 _let_48) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.membrane_1 _let_44) (tptp.tangible_entity_1 _let_44) (tptp.spatial_entity_1 _let_44) (tptp.biomembrane_1 _let_44) (tptp.plasma_membrane_1 _let_44) (tptp.animal_plasma_membrane_1 _let_44) (tptp.mixture_1 _let_43) (tptp.cytoplasm_1 _let_43) (tptp.mixture_1 _let_42) (tptp.cytoplasm_1 _let_42) (tptp.cell_1 _let_41) (tptp.cell_1 _let_40) (tptp.cell_1 _let_39) (tptp.eukaryotic_cell_1 _let_38) (tptp.cell_1 _let_38) (tptp.living_entity_1 _let_37) (tptp.cell_1 _let_37) (tptp.cell_1 _let_36) (tptp.dna_polymerase_i_1 _let_34) (tptp.protein_1 _let_33) (tptp.cellular_response_1 _let_31) (tptp.cellular_response_1 _let_29) (tptp.cellular_response_1 _let_26) (tptp.facilitated_diffusion_1 _let_24) (tptp.golgi_apparatus_1 _let_21) (tptp.golgi_apparatus_1 _let_20) (tptp.substance_1 _let_19) (tptp.cytosol_1 _let_19) (tptp.aqueous_solution_1 _let_18) (tptp.hypotonic_solution_1 _let_18) (tptp.substance_1 _let_17) (tptp.cytosol_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.nucleus_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.nucleus_1 _let_15) (tptp.nucleus_1 _let_13) (tptp.chemical_bond_1 _let_11) (tptp.covalent_bond_1 _let_10) (tptp.covalent_bond_1 _let_9) (tptp.chemical_bond_1 _let_9) (tptp.chemical_bond_1 _let_7) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.carbon_1 _let_4) (tptp.carbon_1 _let_2) (tptp.is_inside_2 _let_132 _let_150) (tptp.origin_2 _let_171 _let_132) (tptp.destination_2 _let_171 _let_128) (tptp.is_across_2 _let_3 _let_143) (tptp.plays_2 _let_149 _let_103) (tptp.is_at_2 _let_155 _let_139) (tptp.has_part_2 _let_14 _let_12) (tptp.has_part_2 _let_14 _let_133) (tptp.has_part_2 _let_14 _let_130) (tptp.has_part_2 _let_14 _let_129) (tptp.recipient_2 _let_144 _let_14) (tptp.possesses_2 _let_3 _let_127) (tptp.has_part_2 _let_14 _let_173) (tptp.is_inside_2 _let_173 _let_128) (tptp.has_part_2 _let_134 _let_128) (tptp.has_part_2 _let_135 _let_3) (tptp.has_function_2 _let_135 _let_171) (tptp.base_2 _let_171 _let_135) (tptp.path_2 _let_8 _let_135) (tptp.subevent_2 _let_8 _let_171) (tptp.is_at_2 _let_151 _let_139) (not (= _let_151 _let_147)) (not (= _let_147 _let_151)) (not (= _let_146 _let_151)) (not (= _let_151 _let_146)) (tptp.has_region_2 _let_3 _let_167) (tptp.has_part_2 _let_3 _let_126) (tptp.has_region_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_125) (tptp.has_region_2 _let_3 _let_157) (tptp.the_scalar_value_2 _let_160 tptp.big_0) (tptp.scalar_unit_class_2 _let_160 tptp.polypeptide_0) (tptp.object_2 _let_159 _let_3) (tptp.has_part_2 _let_3 _let_163) (tptp.has_part_2 _let_163 _let_165) (tptp.is_at_2 _let_165 _let_167) (tptp.size_2 _let_3 _let_160) (tptp.greater_than_2 _let_160 _let_161) (tptp.size_2 _let_147 _let_161) (tptp.has_region_2 _let_3 _let_155) (tptp.site_2 _let_159 _let_155) (tptp.is_opposite_2 _let_157 _let_155) (tptp.is_opposite_2 _let_155 _let_157) (tptp.result_2 _let_153 _let_151) (tptp.agent_2 _let_154 _let_149) (tptp.next_event_2 _let_153 _let_152) (tptp.base_2 _let_154 _let_149) (tptp.agent_2 _let_153 _let_149) (tptp.first_subevent_2 X _let_153) (tptp.causes_2 _let_25 X) (tptp.causes_2 _let_8 _let_25) (tptp.subevent_2 X _let_153) (tptp.subevent_2 _let_153 _let_154) (tptp.object_2 _let_154 _let_151) (tptp.has_function_2 _let_151 _let_145) (tptp.object_2 _let_145 _let_151) (tptp.site_2 _let_152 _let_150) (tptp.causes_2 _let_32 _let_25) (tptp.is_at_2 _let_3 _let_135) (tptp.called_2 _let_3 |tptp.'MP1'|) (tptp.path_2 _let_32 _let_135) (tptp.is_across_2 _let_3 _let_135) (tptp.has_part_2 _let_3 _let_151) (tptp.instrument_2 X _let_151) (tptp.subevent_2 X _let_28) (tptp.destination_2 _let_152 _let_14) (tptp.subevent_2 X _let_152) (tptp.object_2 X _let_14) (tptp.base_2 _let_144 _let_14) (tptp.object_2 _let_144 _let_151) (tptp.subevent_2 _let_28 _let_32) (tptp.subevent_2 _let_32 _let_8) (tptp.base_2 _let_8 _let_14) (tptp.base_2 _let_25 _let_14) (tptp.agent_2 _let_25 _let_14) (tptp.object_2 _let_152 _let_151) (tptp.next_event_2 _let_152 _let_28) (tptp.subevent_2 _let_28 _let_148) (tptp.base_2 _let_148 _let_14) (tptp.base_2 _let_32 _let_14) (tptp.base_2 _let_28 _let_14) (tptp.agent_2 _let_28 _let_151) (tptp.complement_2 _let_151 _let_3) (not (= _let_3 _let_151)) (not (= _let_151 _let_3)) (tptp.complement_2 _let_3 _let_151) (tptp.agent_2 X _let_149) (tptp.is_between_2 _let_150 _let_149) (tptp.is_between_2 _let_150 _let_14) (tptp.is_near_2 _let_14 _let_149) (tptp.is_near_2 _let_149 _let_14) (tptp.first_subevent_2 _let_25 _let_144) (tptp.subevent_2 _let_25 _let_144) (tptp.next_event_2 _let_144 _let_148) (tptp.next_event_2 _let_148 _let_32) (tptp.subevent_2 _let_25 _let_32) (tptp.subevent_2 _let_25 _let_148) (tptp.has_part_2 _let_3 _let_147) (tptp.has_part_2 _let_3 _let_146) (tptp.first_subevent_2 _let_28 _let_144) (tptp.base_2 _let_145 _let_3) (tptp.subevent_2 _let_144 _let_145) (tptp.has_function_2 _let_3 _let_144) (tptp.has_region_2 _let_3 _let_139) (tptp.subevent_2 _let_28 _let_144) (tptp.instrument_2 _let_144 _let_3) (tptp.is_inside_2 _let_3 _let_136) (not (= _let_140 _let_3)) (not (= _let_3 _let_140)) (tptp.has_region_2 _let_135 _let_143) (tptp.has_part_2 _let_14 _let_141) (tptp.is_inside_2 _let_134 _let_135) (tptp.is_between_2 _let_134 _let_129) (tptp.has_part_2 _let_14 _let_135) (tptp.has_region_2 _let_135 _let_139) (tptp.is_outside_2 _let_139 _let_135) (tptp.has_part_2 _let_135 _let_140) (tptp.called_2 _let_140 |tptp.'MP1'|) (tptp.has_part_2 _let_14 _let_134) (tptp.is_between_2 _let_134 _let_135) (tptp.has_part_2 _let_135 _let_136) (tptp.is_at_2 _let_136 _let_138) (tptp.has_region_2 _let_14 _let_138) (not (= _let_125 _let_126)) (not (= _let_126 _let_125)) (tptp.is_between_2 _let_127 _let_126) (tptp.is_between_2 _let_127 _let_125) (tptp.is_inside_2 _let_125 _let_1) (tptp.is_inside_2 _let_130 _let_128) (tptp.is_inside_2 _let_12 _let_128) (tptp.is_inside_2 _let_129 _let_128) (tptp.is_hypertonic_to_2 _let_132 _let_128) (tptp.origin_2 _let_8 _let_132) (tptp.is_hypotonic_to_2 _let_128 _let_132) (tptp.destination_2 _let_8 _let_128) (tptp.instrument_2 _let_32 _let_133) (= _let_149 _let_104) (= _let_155 _let_112) (= _let_12 _let_174) (= _let_133 _let_34) (= _let_130 _let_21) (= _let_14 _let_38) (= _let_129 _let_16) (= _let_127 _let_11) (= _let_127 _let_10) (= _let_127 _let_9) (= _let_134 _let_43) (= _let_128 _let_19) (= _let_173 _let_172) (= _let_8 _let_24) (= _let_171 _let_124) (= _let_135 _let_49) (= _let_171 _let_123) (= _let_171 _let_122) (= _let_147 _let_88) (= _let_126 _let_6) (= _let_1 _let_170) (= _let_3 _let_84) (= _let_125 _let_4) (= (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_37 X) _let_169) (= (tptp.fn_cell_communication_between_neurons_leading_to_ion_inflow_38 X) _let_168) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_163 _let_162) (= _let_161 _let_121) (= _let_147 _let_89) (= _let_160 _let_115) (= _let_161 _let_120) (= _let_161 _let_119) (= _let_161 _let_118) (= _let_160 _let_117) (= _let_160 _let_116) (= _let_160 _let_114) (= _let_160 _let_113) (= _let_159 _let_158) (= _let_157 _let_156) (= _let_155 _let_111) (= _let_152 _let_110) (= _let_8 _let_23) (= _let_25 _let_95) (= _let_149 _let_102) (= _let_145 _let_86) (= _let_154 (tptp.fn_cell_communication_with_neurotransmitter_7 X)) (= _let_153 (tptp.fn_cell_communication_with_neurotransmitter_14 X)) (= _let_135 _let_54) (= _let_135 _let_46) (= _let_135 _let_45) (= _let_151 _let_108) (= _let_144 _let_79) (= _let_144 _let_76) (= _let_25 _let_94) (= _let_14 _let_41) (= _let_8 _let_22) (= _let_14 _let_40) (= _let_14 _let_39) (= _let_32 _let_31) (= _let_32 _let_27) (= _let_14 _let_37) (= _let_148 _let_100) (= _let_148 _let_97) (= _let_152 _let_109) (= _let_3 _let_81) (= _let_151 _let_107) (= _let_28 _let_73) (= _let_151 _let_106) (= _let_151 _let_105) (= _let_14 _let_36) (= _let_28 _let_72) (= _let_150 (tptp.fn_cell_communication_between_neurons_10 X)) (= _let_14 _let_35) (= _let_149 _let_101) (= _let_148 _let_99) (= _let_32 _let_30) (= _let_32 _let_29) (= _let_32 _let_26) (= _let_144 _let_77) (= _let_148 _let_98) (= _let_148 _let_96) (= _let_144 _let_75) (= _let_147 _let_93) (= _let_147 _let_92) (= _let_147 _let_91) (= _let_147 _let_90) (= _let_146 _let_89) (= _let_146 _let_88) (= _let_139 _let_64) (= _let_139 _let_62) (= _let_145 _let_87) (= _let_145 _let_85) (= _let_3 _let_82) (= _let_136 _let_56) (= _let_140 _let_67) (= _let_140 _let_66) (= _let_3 _let_83) (= _let_3 _let_80) (= _let_144 _let_78) (= _let_144 _let_74) (= _let_143 _let_142) (= _let_141 _let_71) (= _let_141 _let_70) (= _let_129 _let_15) (= _let_140 _let_69) (= _let_140 _let_68) (= _let_140 _let_65) (= _let_135 _let_53) (= _let_139 _let_63) (= _let_139 _let_61) (= _let_135 _let_48) (= _let_138 _let_137) (= _let_135 _let_52) (= _let_136 _let_60) (= _let_135 _let_47) (= _let_136 _let_59) (= _let_135 _let_51) (= _let_136 _let_58) (= _let_135 _let_50) (= _let_136 _let_57) (= _let_136 _let_55) (= _let_135 _let_44) (= _let_134 _let_42) (= _let_133 _let_33) (= _let_132 _let_131) (= _let_128 _let_18) (= _let_130 _let_20) (= _let_129 _let_13) (= _let_128 _let_17) (= _let_127 _let_7) (= _let_126 _let_5) (= _let_125 _let_2) (= _let_123 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_122 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_120) (= _let_119 _let_120) (= _let_120 _let_119) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_117 _let_116) (= _let_115 _let_115) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_111) (= _let_111 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_107) (= _let_107 _let_108) (= _let_108 _let_107) (= _let_106 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_105 _let_105) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_104) (= _let_104 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_98) (= _let_98 _let_98) (= _let_98 _let_96) (= _let_96 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_88) (= _let_88 _let_93) (= _let_93 _let_93) (= _let_93 _let_88) (= _let_88 _let_92) (= _let_92 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_89 _let_91) (= _let_91 _let_89) (= _let_89 _let_90) (= _let_90 _let_88) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_81 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_78) (= _let_78 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_76 _let_77) (= _let_77 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_67 _let_67) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_24 X))) (let ((_let_2 (tptp.fn_animal_plasma_membrane_56 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_between_neurons_9 X))) (let ((_let_4 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_19 X))) (let ((_let_5 (tptp.fn_passive_transport_1 _let_4))) (let ((_let_6 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_17 X))) (let ((_let_7 (tptp.fn_animal_cell_79 _let_6))) (let ((_let_8 (tptp.fn_eukaryotic_cell_31 _let_6))) (let ((_let_9 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_22 X))) (let ((_let_10 (tptp.fn_cytosol_1 _let_9))) (let ((_let_11 (tptp.fn_animal_cell_73 _let_6))) (let ((_let_12 (tptp.fn_passive_transport_25 _let_4))) (let ((_let_13 (tptp.fn_facilitated_diffusion_49 _let_4))) (let ((_let_14 (tptp.fn_eukaryotic_cell_29 _let_6))) (let ((_let_15 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_9 X))) (let ((_let_16 (tptp.fn_gated_channel_16 _let_15))) (let ((_let_17 (tptp.fn_cell_communication_between_neurons_8 X))) (let ((_let_18 (tptp.fn_transport_protein_35 _let_15))) (let ((_let_19 (tptp.fn_cell_surface_receptor_1 _let_15))) (let ((_let_20 (tptp.fn_transmembrane_protein_4 _let_15))) (let ((_let_21 (tptp.fn_animal_cell_62 _let_6))) (let ((_let_22 (tptp.fn_cell_29 _let_6))) (let ((_let_23 (tptp.fn_plasma_membrane_77 _let_1))) (let ((_let_24 (tptp.fn_passive_transport_12 _let_4))) (let ((_let_25 (tptp.fn_plasma_membrane_70 _let_1))) (let ((_let_26 (tptp.fn_cell_communication_between_neurons_11 X))) (let ((_let_27 (tptp.fn_cell_communication_with_neurotransmitter_19 X))) (let ((_let_28 (tptp.fn_transport_protein_28 _let_15))) (let ((_let_29 (tptp.fn_passive_transport_11 _let_4))) (let ((_let_30 (tptp.fn_passive_transport_24 _let_4))) (let ((_let_31 (tptp.fn_ligand_gated_ion_channel_7 _let_15))) (let ((_let_32 (tptp.fn_facilitated_diffusion_55 _let_4))) (let ((_let_33 (tptp.fn_gated_channel_3 _let_15))) (let ((_let_34 (tptp.fn_gated_ion_channel_5 _let_15))) (let ((_let_35 (tptp.fn_channel_protein_5 _let_15))) (let ((_let_36 (tptp.fn_animal_plasma_membrane_50 _let_1))) (let ((_let_37 (tptp.fn_transport_protein_10 _let_15))) (let ((_let_38 (tptp.fn_transport_protein_34 _let_15))) (let ((_let_39 (tptp.fn_facilitated_diffusion_25 _let_4))) (let ((_let_40 (tptp.fn_cell_communication_between_neurons_2 X))) (let ((_let_41 (tptp.fn_animal_plasma_membrane_47 _let_1))) (let ((_let_42 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_43 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_44 (tptp.fn_animal_plasma_membrane_53 _let_1))) (let ((_let_45 (tptp.fn_animal_plasma_membrane_62 _let_1))) (let ((_let_46 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_47 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_48 (tptp.fn_solution_5 _let_9))) (let ((_let_49 (tptp.fn_solution_6 _let_9))) (let ((_let_50 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_10 X))) (let ((_let_51 (tptp.fn_thermal_motion_5 _let_50))) (let ((_let_52 (tptp.fn_facilitated_diffusion_of_ion_26 _let_4))) (let ((_let_53 (tptp.fn_passive_transport_26 _let_4))) (let ((_let_54 (tptp.fn_cell_communication_between_neurons_12 X))) (let ((_let_55 (tptp.fn_cell_communication_with_neurotransmitter_8 X))) (let ((_let_56 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_25 X))) (let ((_let_57 (tptp.fn_barrier_1 _let_56))) (let ((_let_58 (tptp.fn_cell_communication_between_neurons_13 X))) (let ((_let_59 (tptp.fn_cell_communication_with_neurotransmitter_13 X))) (let ((_let_60 (tptp.fn_cell_communication_between_neurons_6 X))) (let ((_let_61 (tptp.fn_cell_communication_with_neurotransmitter_16 X))) (let ((_let_62 (tptp.fn_cell_communication_between_neurons_7 X))) (let ((_let_63 (tptp.fn_cell_communication_with_neurotransmitter_20 X))) (let ((_let_64 (tptp.fn_cell_communication_between_neurons_4 X))) (let ((_let_65 (tptp.fn_cell_communication_with_neurotransmitter_1 X))) (let ((_let_66 (tptp.fn_cell_communication_between_neurons_3 X))) (let ((_let_67 (tptp.fn_cell_communication_with_neurotransmitter_15 X))) (let ((_let_68 (tptp.fn_animal_cell_78 _let_6))) (let ((_let_69 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_6 X))) (let ((_let_70 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_4 X))) (let ((_let_71 (tptp.fn_passive_transport_29 _let_4))) (let ((_let_72 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_11 X))) (let ((_let_73 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_12 X))) (let ((_let_74 (tptp.fn_passive_transport_22 _let_4))) (let ((_let_75 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_23 X))) (let ((_let_76 (tptp.fn_cell_14 _let_6))) (let ((_let_77 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_5 X))) (let ((_let_78 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_20 X))) (let ((_let_79 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_21 X))) (let ((_let_80 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_13 X))) (let ((_let_81 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_18 X))) (let ((_let_82 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_1 X))) (let ((_let_83 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_15 X))) (let ((_let_84 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_3 X))) (let ((_let_85 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_8 X))) (let ((_let_86 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_7 X))) (let ((_let_87 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_16 X))) (let ((_let_88 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_14 X))) (let ((_let_89 (tptp.fn_cell_communication_between_neurons_leading_to_ion_outflow_2 X))) (=> (tptp.cell_communication_between_neurons_leading_to_ion_outflow_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Between-Neurons-Leading-to-Ion-Outflow'|) (tptp.user_description_2 X |tptp.'Transmission of a stimulus from one neuron to another through a synapse resulting in the outflow of ions from the receiving neuron.'|) (tptp.concept2words_2 X |tptp.'synaptic signaling between neurons leading to ion outflow'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication between neurons leading to ion outflow'|) (tptp.concept2words_2 X |tptp.'cell-communication-between-neurons-leading-to-ion-outflow'|) (tptp.cell_communication_between_neurons_1 X) (tptp.signal_reception_1 _let_82) (tptp.secretion_1 _let_89) (tptp.signal_transduction_1 _let_84) (tptp.mixture_1 _let_70) (tptp.cytoplasm_1 _let_70) (tptp.ribosome_1 _let_77) (tptp.tangible_entity_1 _let_69) (tptp.nucleus_1 _let_69) (tptp.electrical_signaling_1 _let_86) (tptp.cellular_response_1 _let_85) (tptp.receptor_1 _let_15) (tptp.receptor_protein_1 _let_15) (tptp.cell_surface_receptor_1 _let_15) (tptp.protein_1 _let_15) (tptp.organic_molecule_1 _let_15) (tptp.polymer_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.membrane_protein_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.transmembrane_protein_1 _let_15) (tptp.integral_protein_1 _let_15) (tptp.channel_protein_1 _let_15) (tptp.gated_ion_channel_1 _let_15) (tptp.gated_channel_1 _let_15) (tptp.transport_protein_1 _let_15) (tptp.ligand_gated_ion_channel_1 _let_15) (tptp.thermal_motion_1 _let_50) (tptp.symmetrical_distribution_1 _let_72) (tptp.substance_1 _let_73) (tptp.aqueous_solution_1 _let_73) (tptp.tangible_entity_1 _let_80) (tptp.living_entity_1 _let_80) (tptp.cell_1 _let_80) (tptp.nerve_cell_1 _let_80) (tptp.signal_generation_1 _let_88) (tptp.signal_transmission_1 _let_83) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_87) (tptp.cell_signaling_1 _let_87) (tptp.cell_signaling_with_ion_channel_receptor_1 _let_87) (tptp.nerve_cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.animal_cell_1 _let_6) (tptp.synapse_1 _let_81) (tptp.facilitated_diffusion_of_ion_1 _let_4) (tptp.facilitated_diffusion_1 _let_4) (tptp.passive_transport_1 _let_4) (tptp.spatial_entity_1 _let_78) (tptp.tangible_entity_1 _let_78) (tptp.chemical_1 _let_78) (tptp.gradient_1 _let_79) (tptp.concentration_gradient_1 _let_79) (tptp.aqueous_solution_1 _let_9) (tptp.solution_1 _let_9) (tptp.substance_1 _let_9) (tptp.cytosol_1 _let_9) (tptp.move_1 _let_75) (tptp.move_through_1 _let_75) (tptp.tangible_entity_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.animal_plasma_membrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.container_1 _let_56) (tptp.ribosome_1 _let_76) (tptp.thermal_motion_1 _let_74) (tptp.symmetrical_distribution_1 _let_71) (tptp.tangible_entity_1 _let_68) (tptp.nucleus_1 _let_68) (tptp.tangible_entity_1 _let_57) (tptp.gradient_1 _let_53) (tptp.concentration_gradient_1 _let_53) (tptp.gradient_1 _let_52) (tptp.concentration_gradient_1 _let_52) (tptp.spatial_entity_1 _let_51) (tptp.tangible_entity_1 _let_51) (tptp.chemical_1 _let_49) (tptp.chemical_1 _let_48) (tptp.membrane_protein_1 _let_47) (tptp.tangible_entity_1 _let_46) (tptp.membrane_protein_1 _let_46) (tptp.protein_1 _let_46) (tptp.spatial_entity_1 _let_46) (tptp.polymer_1 _let_46) (tptp.spatial_entity_1 _let_45) (tptp.tangible_entity_1 _let_45) (tptp.transmembrane_protein_1 _let_45) (tptp.integral_protein_1 _let_45) (tptp.transport_protein_1 _let_45) (tptp.polymer_1 _let_44) (tptp.spatial_entity_1 _let_44) (tptp.membrane_protein_1 _let_44) (tptp.tangible_entity_1 _let_44) (tptp.transmembrane_protein_1 _let_44) (tptp.integral_protein_1 _let_44) (tptp.transport_protein_1 _let_44) (tptp.tangible_entity_1 _let_43) (tptp.membrane_protein_1 _let_43) (tptp.protein_1 _let_43) (tptp.tangible_entity_1 _let_42) (tptp.transmembrane_protein_1 _let_42) (tptp.integral_protein_1 _let_42) (tptp.transport_protein_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.membrane_protein_1 _let_41) (tptp.spatial_entity_1 _let_41) (tptp.polymer_1 _let_41) (tptp.protein_1 _let_41) (tptp.organic_molecule_1 _let_41) (tptp.transport_protein_1 _let_39) (tptp.move_through_1 _let_38) (tptp.move_through_1 _let_37) (tptp.move_1 _let_36) (tptp.move_through_1 _let_36) (tptp.move_1 _let_35) (tptp.move_through_1 _let_35) (tptp.move_1 _let_34) (tptp.move_through_1 _let_34) (tptp.move_1 _let_33) (tptp.move_through_1 _let_33) (tptp.move_through_1 _let_32) (tptp.move_1 _let_31) (tptp.move_through_1 _let_31) (tptp.move_through_1 _let_30) (tptp.aqueous_solution_1 _let_29) (tptp.facilitated_diffusion_1 _let_28) (tptp.substance_1 _let_25) (tptp.aqueous_solution_1 _let_25) (tptp.aqueous_solution_1 _let_24) (tptp.aqueous_solution_1 _let_23) (tptp.substance_1 _let_22) (tptp.cytosol_1 _let_22) (tptp.substance_1 _let_21) (tptp.cytosol_1 _let_21) (tptp.biomembrane_1 _let_20) (tptp.plasma_membrane_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.biomembrane_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.biomembrane_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.plasma_membrane_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.animal_plasma_membrane_1 _let_11) (tptp.plasma_membrane_1 _let_11) (tptp.cytoplasm_1 _let_10) (tptp.mixture_1 _let_8) (tptp.cytoplasm_1 _let_8) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.cell_1 _let_5) (tptp.animal_cell_1 _let_2) (tptp.recipient_2 _let_82 _let_6) (tptp.object_2 _let_72 _let_78) (tptp.is_inside_2 _let_73 _let_81) (tptp.base_2 _let_83 _let_80) (tptp.object_2 _let_4 _let_78) (tptp.destination_2 _let_75 _let_9) (tptp.origin_2 _let_75 _let_9) (tptp.plays_2 _let_80 _let_56) (tptp.has_part_2 _let_1 _let_15) (tptp.first_subevent_2 X _let_88) (tptp.base_2 _let_89 _let_80) (tptp.causes_2 _let_86 X) (tptp.causes_2 _let_4 _let_86) (tptp.subevent_2 X _let_88) (tptp.agent_2 _let_88 _let_80) (tptp.agent_2 _let_89 _let_80) (tptp.subevent_2 _let_88 _let_89) (tptp.next_event_2 _let_88 _let_83) (tptp.subevent_2 X _let_87) (tptp.next_event_2 _let_83 _let_87) (tptp.site_2 _let_83 _let_81) (tptp.subevent_2 _let_87 _let_85) (tptp.path_2 _let_85 _let_1) (tptp.first_subevent_2 _let_86 _let_82) (tptp.first_subevent_2 _let_87 _let_82) (tptp.base_2 _let_87 _let_6) (tptp.agent_2 _let_86 _let_6) (tptp.base_2 _let_86 _let_6) (tptp.base_2 _let_4 _let_6) (tptp.subevent_2 _let_85 _let_4) (tptp.causes_2 _let_85 _let_86) (tptp.subevent_2 _let_86 _let_85) (tptp.base_2 _let_85 _let_6) (tptp.next_event_2 _let_82 _let_84) (tptp.subevent_2 _let_86 _let_82) (tptp.subevent_2 _let_86 _let_84) (tptp.subevent_2 _let_87 _let_84) (tptp.subevent_2 _let_87 _let_82) (tptp.object_2 X _let_6) (tptp.subevent_2 X _let_83) (tptp.destination_2 _let_83 _let_6) (tptp.base_2 _let_84 _let_6) (tptp.next_event_2 _let_84 _let_85) (tptp.base_2 _let_82 _let_6) (tptp.instrument_2 _let_82 _let_15) (tptp.is_across_2 _let_15 _let_1) (tptp.is_at_2 _let_15 _let_1) (tptp.called_2 _let_15 |tptp.'MP1'|) (tptp.agent_2 X _let_80) (tptp.is_between_2 _let_81 _let_80) (tptp.is_between_2 _let_81 _let_6) (tptp.is_near_2 _let_6 _let_80) (tptp.is_near_2 _let_80 _let_6) (tptp.has_part_2 _let_70 _let_9) (tptp.is_inside_2 _let_69 _let_9) (tptp.is_between_2 _let_70 _let_69) (tptp.is_inside_2 _let_70 _let_1) (tptp.has_part_2 _let_6 _let_1) (tptp.is_between_2 _let_70 _let_1) (tptp.has_part_2 _let_6 _let_70) (tptp.has_part_2 _let_6 _let_69) (tptp.subevent_2 _let_4 _let_75) (tptp.has_function_2 _let_1 _let_75) (tptp.base_2 _let_75 _let_1) (tptp.causes_2 _let_50 _let_75) (tptp.by_means_of_2 _let_4 _let_50) (tptp.origin_2 _let_4 _let_73) (tptp.objective_2 _let_4 _let_72) (tptp.agent_2 _let_75 _let_15) (tptp.facilitates_2 _let_15 _let_75) (tptp.is_inside_2 _let_77 _let_9) (tptp.has_part_2 _let_6 _let_77) (tptp.path_2 _let_4 _let_1) (tptp.has_part_2 _let_9 _let_78) (tptp.has_solute_2 _let_9 _let_78) (tptp.agent_2 _let_4 _let_79) (not (= _let_9 _let_73)) (not (= _let_73 _let_9)) (tptp.is_between_2 _let_1 _let_9) (tptp.is_between_2 _let_79 _let_9) (tptp.destination_2 _let_4 _let_9) (tptp.object_2 _let_50 _let_78) (= _let_80 _let_57) (= _let_15 _let_46) (= _let_1 _let_20) (= _let_4 _let_27) (= _let_86 _let_65) (= _let_83 _let_59) (= _let_89 (tptp.fn_cell_communication_with_neurotransmitter_7 X)) (= _let_80 _let_55) (= _let_88 (tptp.fn_cell_communication_with_neurotransmitter_14 X)) (= _let_6 _let_5) (= _let_4 _let_26) (= _let_87 _let_67) (= _let_87 _let_66) (= _let_86 _let_64) (= _let_84 _let_61) (= _let_85 _let_63) (= _let_85 _let_62) (= _let_84 _let_60) (= _let_83 _let_58) (= _let_15 _let_45) (= _let_15 _let_44) (= _let_15 _let_43) (= _let_15 _let_47) (= _let_1 _let_19) (= _let_15 _let_42) (= _let_1 _let_17) (= _let_15 _let_40) (= _let_82 (tptp.fn_cell_communication_between_neurons_5 X)) (= _let_81 (tptp.fn_cell_communication_between_neurons_10 X)) (= _let_6 _let_3) (= _let_80 _let_54) (= _let_78 _let_51) (= _let_79 _let_53) (= _let_9 _let_24) (= _let_73 _let_25) (= _let_9 _let_25) (= _let_9 _let_23) (= _let_79 _let_52) (= _let_78 _let_49) (= _let_78 _let_48) (= _let_9 _let_22) (= _let_77 _let_76) (= _let_15 _let_41) (= _let_75 _let_35) (= _let_75 _let_34) (= _let_15 _let_39) (= _let_75 _let_31) (= _let_4 _let_28) (= _let_75 _let_38) (= _let_75 _let_37) (= _let_1 _let_18) (= _let_75 _let_36) (= _let_75 _let_33) (= _let_1 _let_16) (= _let_75 _let_32) (= _let_1 _let_13) (= _let_1 _let_12) (= _let_75 _let_30) (= _let_50 _let_74) (= _let_73 _let_29) (= _let_72 _let_71) (= _let_70 _let_10) (= _let_9 _let_21) (= _let_70 _let_8) (= _let_6 _let_2) (= _let_1 _let_14) (= _let_1 _let_11) (= _let_70 _let_7) (= _let_69 _let_68) (= _let_66 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_25) (= _let_25 _let_25) (= _let_25 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_communication_event_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Event'|) (tptp.user_description_2 X |tptp.'Event which occurs during the process of cell communication.'|) (tptp.concept2words_2 X |tptp.'cell communication event'|) (tptp.concept2words_2 X |tptp.'cell-communication-event'|) (tptp.cellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_in_damaged_cell_leading_to_apoptosis_1 X))) (=> (tptp.cell_communication_in_damaged_cell_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-In-Damaged-Cell-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of a signal and the series of events leading to apoptosis of a damaged cell.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication in damaged cell leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-in-damaged-cell-leading-to-apoptosis'|) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.damaged_cell_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_cell_communication_leading_to_apoptosis_4 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_in_infected_cell_leading_to_apoptosis_1 X))) (=> (tptp.cell_communication_in_infected_cell_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-In-Infected-Cell-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of a signal and the series of events leading to apoptosis of an infected cell.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication in infected cell leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-in-infected-cell-leading-to-apoptosis'|) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.infected_cell_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_cell_communication_leading_to_apoptosis_4 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_in_plant_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_1 X))) (let ((_let_4 (tptp.fn_cell_communication_in_plant_3 X))) (let ((_let_5 (tptp.fn_cell_communication_in_plant_1 X))) (=> (tptp.cell_communication_in_plant_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-In-Plant'|) (tptp.user_description_2 X |tptp.'Process of communication between and within plant cells which involves generation and delivery of a chemical or elictrical signal and the series of events leading to a response to that signal.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication in plant'|) (tptp.concept2words_2 X |tptp.'cell-communication-in-plant'|) (tptp.cell_communication_1 X) (tptp.plant_cell_1 _let_5) (tptp.cell_signaling_1 _let_1) (tptp.plant_cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.agent_2 X _let_5) (tptp.object_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.base_2 _let_1 _let_4) (= _let_5 (tptp.fn_cell_communication_3 X)) (= _let_4 _let_3) (= _let_1 (tptp.fn_cell_communication_2 X)) (= _let_4 _let_2) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_in_senescent_cell_leading_to_apoptosis_1 X))) (=> (tptp.cell_communication_in_senescent_cell_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-In-Senescent-Cell-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of a signal and the series of events leading to apoptosis of an old cell.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication in senescent cell leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-in-senescent-cell-leading-to-apoptosis'|) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.senescent_cell_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_cell_communication_leading_to_apoptosis_4 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_leading_to_apoptosis_6 X))) (let ((_let_2 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_1 X))) (let ((_let_4 (tptp.fn_cell_signaling_5 _let_1))) (let ((_let_5 (tptp.fn_cell_communication_4 X))) (let ((_let_6 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_7 (tptp.fn_cell_communication_leading_to_apoptosis_3 X))) (let ((_let_8 (tptp.fn_cell_signaling_3 _let_1))) (let ((_let_9 (tptp.fn_cell_communication_leading_to_apoptosis_5 X))) (let ((_let_10 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_11 (tptp.fn_cell_communication_leading_to_apoptosis_2 X))) (let ((_let_12 (tptp.fn_cell_communication_leading_to_apoptosis_1 X))) (=> (tptp.cell_communication_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of a signal and the series of events leading to apoptosis, the response to the signal.'|) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-leading-to-apoptosis'|) (tptp.cell_communication_1 X) (tptp.death_signal_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.apoptosis_1 _let_7) (tptp.cell_1 _let_10) (tptp.signal_transduction_1 _let_9) (tptp.cell_signaling_1 _let_1) (tptp.signal_transduction_1 _let_8) (tptp.cellular_response_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.cell_1 _let_2) (tptp.plays_2 _let_11 _let_12) (tptp.instrument_2 X _let_11) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_10) (tptp.agent_2 _let_1 _let_11) (tptp.subevent_2 _let_1 _let_9) (tptp.base_2 _let_9 _let_10) (tptp.base_2 _let_7 _let_10) (tptp.subevent_2 _let_1 _let_7) (tptp.base_2 _let_1 _let_10) (tptp.next_event_2 _let_9 _let_7) (= _let_11 _let_5) (= _let_1 (tptp.fn_cell_communication_2 X)) (= _let_10 _let_3) (= _let_11 _let_4) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_35 X))) (let ((_let_2 (tptp.fn_protease_35 _let_1))) (let ((_let_3 (tptp.fn_protein_enzyme_3 _let_1))) (let ((_let_4 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_71 X))) (let ((_let_5 (tptp.fn_apoptosis_65 _let_4))) (let ((_let_6 (tptp.fn_apoptosis_3 _let_4))) (let ((_let_7 (tptp.fn_protease_17 _let_1))) (let ((_let_8 (tptp.fn_apoptosis_46 _let_4))) (let ((_let_9 (tptp.fn_hydrolase_1 _let_1))) (let ((_let_10 (tptp.fn_protease_19 _let_1))) (let ((_let_11 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_58 X))) (let ((_let_12 (tptp.fn_polypeptide_82 _let_11))) (let ((_let_13 (tptp.fn_polypeptide_83 _let_11))) (let ((_let_14 (tptp.fn_protease_27 _let_1))) (let ((_let_15 (tptp.fn_protein_enzyme_9 _let_1))) (let ((_let_16 (tptp.fn_cell_communication_leading_to_apoptosis_3 X))) (let ((_let_17 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_43 X))) (let ((_let_18 (tptp.fn_cell_signaling_1 _let_17))) (let ((_let_19 (tptp.fn_apoptosis_47 _let_4))) (let ((_let_20 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_38 X))) (let ((_let_21 (tptp.fn_nuclease_1 _let_20))) (let ((_let_22 (tptp.fn_apoptosis_28 _let_4))) (let ((_let_23 (tptp.fn_nuclease_5 _let_20))) (let ((_let_24 (tptp.fn_polypeptide_130 _let_11))) (let ((_let_25 (tptp.fn_polymer_1 _let_11))) (let ((_let_26 (tptp.fn_polypeptide_126 _let_11))) (let ((_let_27 (tptp.fn_polypeptide_119 _let_11))) (let ((_let_28 (tptp.fn_organic_molecule_1 _let_11))) (let ((_let_29 (tptp.fn_organic_molecule_2 _let_11))) (let ((_let_30 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_39 X))) (let ((_let_31 (tptp.fn_protein_enzyme_3 _let_30))) (let ((_let_32 (tptp.fn_protein_9 _let_30))) (let ((_let_33 (tptp.fn_protein_enzyme_9 _let_30))) (let ((_let_34 (tptp.fn_polymer_4 _let_30))) (let ((_let_35 (tptp.fn_cell_signaling_5 _let_17))) (let ((_let_36 (tptp.fn_cell_communication_leading_to_apoptosis_2 X))) (let ((_let_37 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_48 X))) (let ((_let_38 (tptp.fn_ligand_binding_3 _let_37))) (let ((_let_39 (tptp.fn_cell_signaling_4 _let_17))) (let ((_let_40 (tptp.fn_apoptosis_7 _let_4))) (let ((_let_41 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_44 X))) (let ((_let_42 (tptp.fn_cell_signaling_event_1 _let_41))) (let ((_let_43 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_53 X))) (let ((_let_44 (tptp.fn_nematode_4 _let_43))) (let ((_let_45 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_46 (tptp.fn_cellular_response_3 _let_4))) (let ((_let_47 (tptp.fn_intracellular_process_1 _let_4))) (let ((_let_48 (tptp.fn_cell_signaling_3 _let_17))) (let ((_let_49 (tptp.fn_cell_communication_leading_to_apoptosis_5 X))) (let ((_let_50 (tptp.fn_nuclease_4 _let_20))) (let ((_let_51 (tptp.fn_nuclease_7 _let_20))) (let ((_let_52 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_45 X))) (let ((_let_53 (tptp.fn_make_accessible_1 _let_52))) (let ((_let_54 (tptp.fn_nematode_3 _let_43))) (let ((_let_55 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_65 X))) (let ((_let_56 (tptp.fn_ced_3_gene_2 _let_55))) (let ((_let_57 (tptp.fn_cellular_response_1 _let_4))) (let ((_let_58 (tptp.fn_nematode_1 _let_43))) (let ((_let_59 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_67 X))) (let ((_let_60 (tptp.fn_ced_4_gene_2 _let_59))) (let ((_let_61 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_46 X))) (let ((_let_62 (tptp.fn_make_accessible_1 _let_61))) (let ((_let_63 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_56 X))) (let ((_let_64 (tptp.fn_protease_2 _let_1))) (let ((_let_65 (tptp.fn_protease_31 _let_1))) (let ((_let_66 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_54 X))) (let ((_let_67 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_84 X))) (let ((_let_68 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_55 X))) (let ((_let_69 (tptp.fn_protease_5 _let_1))) (let ((_let_70 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_57 X))) (let ((_let_71 (tptp.fn_protease_1 _let_1))) (let ((_let_72 (tptp.fn_protease_22 _let_1))) (let ((_let_73 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_60 X))) (let ((_let_74 (tptp.fn_protease_18 _let_1))) (let ((_let_75 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_31 X))) (let ((_let_76 (tptp.fn_protease_23 _let_1))) (let ((_let_77 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_59 X))) (let ((_let_78 (tptp.fn_apoptosis_64 _let_4))) (let ((_let_79 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_81 X))) (let ((_let_80 (tptp.fn_apoptosis_31 _let_4))) (let ((_let_81 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_85 X))) (let ((_let_82 (tptp.fn_apoptosis_32 _let_4))) (let ((_let_83 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_74 X))) (let ((_let_84 (tptp.fn_apoptosis_33 _let_4))) (let ((_let_85 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_73 X))) (let ((_let_86 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(tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_27 X))) (let ((_let_99 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_61 X))) (let ((_let_100 (tptp.fn_protein_enzyme_10 _let_30))) (let ((_let_101 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_62 X))) (let ((_let_102 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_70 X))) (let ((_let_103 (tptp.fn_protein_enzyme_4 _let_30))) (let ((_let_104 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_69 X))) (let ((_let_105 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_50 X))) (let ((_let_106 (tptp.fn_cell_signaling_2 _let_17))) (let ((_let_107 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_72 X))) (let ((_let_108 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_42 X))) (let ((_let_109 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_79 X))) (let ((_let_110 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_83 X))) (let ((_let_111 (tptp.fn_protein_10 _let_30))) (let ((_let_112 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_76 X))) (let ((_let_113 (tptp.fn_protein_enzyme_10 _let_20))) (let ((_let_114 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_64 X))) (let ((_let_115 (tptp.fn_nuclease_1 _let_30))) (let ((_let_116 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_63 X))) (let ((_let_117 (tptp.fn_signal_transduction_6 _let_41))) (let ((_let_118 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_47 X))) (let ((_let_119 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_49 X))) (let ((_let_120 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_37 X))) (let ((_let_121 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(tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_52 X))) (let ((_let_134 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_26 X))) (let ((_let_135 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_23 X))) (let ((_let_136 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_21 X))) (let ((_let_137 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_22 X))) (let ((_let_138 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_20 X))) (let ((_let_139 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_19 X))) (let ((_let_140 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_18 X))) (let ((_let_141 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_17 X))) (let ((_let_142 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_10 X))) (let ((_let_143 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_14 X))) (let ((_let_144 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_13 X))) (let ((_let_145 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_12 X))) (let ((_let_146 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_11 X))) (let ((_let_147 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_9 X))) (let ((_let_148 (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_8 X))) (=> (tptp.cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Leading-To-Apoptosis-In-Caenorhabditis-Elegans'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells of C. elegans which involves generation and delivery of a signal and the series of events leading to apoptosis, the response to the signal.'|) 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(tptp.signal_reception_1 _let_107) (tptp.eukaryotic_cell_1 _let_85) (tptp.damage_1 _let_83) (tptp.break_1 _let_94) (tptp.break_1 _let_112) (tptp.nucleic_acid_1 _let_92) (tptp.dna_1 _let_92) (tptp.food_vacuole_1 _let_89) (tptp.food_vacuole_1 _let_109) (tptp.entity_1 _let_87) (tptp.tangible_entity_1 _let_87) (tptp.vesicle_1 _let_87) (tptp.tangible_entity_1 _let_79) (tptp.cell_1 _let_79) (tptp.phagocyte_1 _let_91) (tptp.phagocyte_1 _let_110) (tptp.decomposition_reaction_1 _let_67) (tptp.exergonic_reaction_1 _let_67) (tptp.hydrolysis_1 _let_67) (tptp.chemical_reaction_1 _let_67) (tptp.chemical_reaction_1 _let_81) (tptp.decomposition_reaction_1 _let_81) (tptp.exergonic_reaction_1 _let_81) (tptp.hydrolysis_1 _let_81) (tptp.entity_1 _let_132) (tptp.entity_1 _let_130) (tptp.entity_1 _let_127) (tptp.code_for_1 _let_123) (tptp.code_for_1 _let_121) (tptp.activate_1 _let_117) (tptp.chemical_reaction_1 _let_115) (tptp.exergonic_reaction_1 _let_115) (tptp.hydrolysis_1 _let_115) (tptp.active_site_1 _let_113) (tptp.property_node_1 _let_111) (tptp.signal_reception_1 _let_106) (tptp.size_value_1 _let_103) (tptp.active_site_1 _let_100) (tptp.tangible_entity_1 _let_97) (tptp.entity_1 _let_97) (tptp.chemical_entity_1 _let_97) (tptp.atom_1 _let_97) (tptp.nitrogen_1 _let_97) (tptp.break_1 _let_93) (tptp.phagocyte_1 _let_90) (tptp.food_vacuole_1 _let_88) (tptp.entity_1 _let_86) (tptp.tangible_entity_1 _let_86) (tptp.vesicle_1 _let_86) (tptp.eukaryotic_cell_1 _let_84) (tptp.damage_1 _let_82) (tptp.nuclease_1 _let_80) (tptp.tangible_entity_1 _let_78) (tptp.cell_1 _let_78) (tptp.active_site_1 _let_76) (tptp.r_group_1 _let_74) (tptp.protein_domain_1 _let_72) (tptp.property_node_1 _let_71) (tptp.polypeptide_1 _let_69) (tptp.size_value_1 _let_65) (tptp.property_node_1 _let_64) (tptp.entity_1 _let_62) (tptp.ced_4_1 _let_60) (tptp.ced_4_1 _let_58) (tptp.protein_1 _let_57) (tptp.ced_3_1 _let_56) (tptp.ced_3_1 _let_54) (tptp.entity_1 _let_53) (tptp.break_1 _let_51) (tptp.break_1 _let_50) (tptp.signal_transduction_1 _let_48) (tptp.cell_1 _let_47) (tptp.cell_1 _let_46) (tptp.animal_cell_1 _let_44) (tptp.cell_1 _let_42) (tptp.eukaryotic_cell_1 _let_40) (tptp.cell_1 _let_39) (tptp.chemical_entity_1 _let_38) (tptp.chemical_entity_1 _let_35) (tptp.monomer_1 _let_34) (tptp.monomer_1 _let_33) (tptp.size_value_1 _let_32) (tptp.size_value_1 _let_31) (tptp.atom_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.carbon_1 _let_28) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.carbon_1 _let_26) (tptp.covalent_bond_1 _let_25) (tptp.chemical_bond_1 _let_24) (tptp.covalent_bond_1 _let_24) (tptp.peptide_bond_1 _let_24) (tptp.nucleic_acid_1 _let_23) (tptp.dna_1 _let_22) (tptp.chemical_reaction_1 _let_21) (tptp.exergonic_reaction_1 _let_21) (tptp.hydrolysis_1 _let_21) (tptp.chemical_reaction_1 _let_19) (tptp.decomposition_reaction_1 _let_19) (tptp.exergonic_reaction_1 _let_19) (tptp.hydrolysis_1 _let_19) (tptp.cellular_response_1 _let_18) (tptp.monomer_1 _let_15) (tptp.monomer_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_13) (tptp.molecule_1 _let_13) (tptp.amino_acid_1 _let_13) (tptp.chemical_entity_1 _let_12) (tptp.monomer_1 _let_12) (tptp.molecule_1 _let_12) (tptp.amino_acid_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.monomer_1 _let_10) (tptp.molecule_1 _let_10) (tptp.amino_acid_1 _let_10) (tptp.hydrolysis_1 _let_9) (tptp.decomposition_reaction_1 _let_8) (tptp.exergonic_reaction_1 _let_8) (tptp.hydrolysis_1 _let_8) (tptp.chemical_reaction_1 _let_8) (tptp.exergonic_reaction_1 _let_7) (tptp.hydrolysis_1 _let_7) (tptp.chemical_reaction_1 _let_7) (tptp.hydrolase_1 _let_6) (tptp.protease_1 _let_5) (tptp.size_value_1 _let_3) (tptp.size_value_1 _let_2) (tptp.result_2 _let_131 _let_135) (tptp.time_during_2 _let_131 _let_141) (tptp.next_event_2 _let_131 _let_61) (tptp.causes_2 _let_131 _let_61) (tptp.activation_2 _let_1 _let_147) (tptp.has_state_2 _let_128 _let_1) (tptp.activation_2 _let_128 _let_148) (tptp.the_categorical_value_2 _let_148 tptp.inactive_0) (tptp.the_categorical_value_2 _let_147 tptp.active_0) (tptp.activation_2 _let_120 _let_145) (tptp.has_state_2 _let_120 _let_142) (tptp.activation_2 _let_142 _let_146) (tptp.the_categorical_value_2 _let_146 tptp.active_0) (tptp.the_categorical_value_2 _let_145 tptp.inactive_0) (tptp.activation_2 _let_20 _let_143) (tptp.has_state_2 _let_30 _let_20) (tptp.activation_2 _let_30 _let_144) (tptp.the_categorical_value_2 _let_144 tptp.inactive_0) (tptp.the_categorical_value_2 _let_143 tptp.active_0) (tptp.result_2 _let_126 _let_1) (tptp.agent_2 _let_126 _let_140) (tptp.time_during_2 _let_126 _let_141) (not (= _let_126 _let_61)) (not (= _let_126 _let_52)) (not (= _let_126 _let_129)) (tptp.called_2 _let_126 |"3"|) (tptp.result_2 _let_129 _let_20) (not (= _let_129 _let_126)) (not (= _let_129 _let_61)) (not (= _let_129 _let_52)) (tptp.agent_2 _let_129 _let_140) (tptp.time_during_2 _let_129 _let_141) (tptp.called_2 _let_129 |"4"|) (tptp.has_part_2 _let_108 _let_128) (tptp.has_part_2 _let_108 _let_30) (not (= _let_108 _let_91)) (not (= _let_108 _let_125)) (tptp.subevent_2 _let_41 _let_61) (tptp.subevent_2 _let_41 _let_126) (tptp.subevent_2 _let_41 _let_129) (tptp.subevent_2 _let_41 _let_131) (tptp.agent_2 _let_41 _let_108) (not (= _let_52 _let_126)) (not (= _let_52 _let_129)) (not (= _let_52 _let_61)) (tptp.next_event_2 _let_52 _let_126) (tptp.next_event_2 _let_52 _let_129) (tptp.result_2 _let_52 _let_140) (tptp.time_during_2 _let_52 _let_141) (tptp.called_2 _let_52 |"2"|) (tptp.result_2 _let_61 _let_142) (not (= _let_61 _let_126)) (not (= _let_61 _let_129)) (not (= _let_61 _let_52)) (tptp.time_during_2 _let_61 _let_141) (tptp.called_2 _let_61 |"1"|) (tptp.time_before_2 _let_141 _let_141) (tptp.activation_2 _let_118 _let_138) (tptp.has_state_2 _let_118 _let_140) (tptp.has_function_2 _let_140 _let_126) (tptp.has_function_2 _let_140 _let_129) (tptp.activation_2 _let_140 _let_139) (tptp.the_categorical_value_2 _let_139 tptp.active_0) (tptp.the_categorical_value_2 _let_138 tptp.inactive_0) (tptp.experiencer_2 X _let_43) (tptp.causes_2 _let_37 _let_131) (not (= _let_125 _let_108)) (tptp.the_categorical_value_2 _let_136 tptp.active_0) (tptp.the_categorical_value_2 _let_137 tptp.inactive_0) (tptp.activation_2 _let_135 _let_137) (tptp.activation_2 _let_133 _let_136) (tptp.has_state_2 _let_133 _let_135) (tptp.has_part_2 _let_43 _let_125) (tptp.facilitates_2 _let_101 _let_116) (tptp.site_2 _let_116 _let_101) (tptp.site_2 _let_134 _let_114) (tptp.recipient_2 _let_107 _let_108) (not (= _let_91 _let_108)) (tptp.object_2 _let_61 _let_120) (tptp.object_2 _let_131 _let_133) (tptp.object_2 _let_129 _let_30) (tptp.object_2 _let_126 _let_128) (tptp.agent_2 X _let_125) (tptp.instrument_2 _let_4 _let_118) (tptp.object_2 _let_37 _let_105) (tptp.base_2 _let_4 _let_108) (tptp.object_2 X _let_108) (tptp.donor_2 _let_124 _let_59) (tptp.agent_2 _let_124 _let_59) (tptp.result_2 _let_124 _let_120) (tptp.donor_2 _let_122 _let_55) (tptp.agent_2 _let_122 _let_55) (tptp.result_2 _let_122 _let_118) (tptp.has_part_2 _let_108 _let_120) (tptp.has_part_2 _let_43 _let_108) (tptp.has_part_2 _let_108 _let_118) (tptp.instrument_2 X _let_105) (tptp.subevent_2 X _let_17) (tptp.subevent_2 _let_17 _let_4) (tptp.next_event_2 _let_41 _let_4) (tptp.agent_2 _let_17 _let_105) (tptp.subevent_2 _let_17 _let_41) (tptp.has_region_2 _let_1 _let_77) (tptp.is_inside_2 _let_75 _let_77) (tptp.has_region_2 _let_68 _let_75) (tptp.is_at_2 _let_68 _let_73) (tptp.has_region_2 _let_1 _let_73) (tptp.size_2 _let_70 _let_66) (tptp.has_part_2 _let_1 _let_70) (tptp.has_part_2 _let_1 _let_11) (tptp.has_part_2 _let_11 _let_68) (tptp.has_function_2 _let_1 _let_67) (tptp.size_2 _let_1 _let_63) (tptp.greater_than_2 _let_63 _let_66) (tptp.the_scalar_value_2 _let_63 tptp.big_0) (tptp.scalar_unit_class_2 _let_63 tptp.polypeptide_0) (tptp.has_function_2 _let_20 _let_81) (tptp.agent_2 _let_94 _let_20) (tptp.object_2 _let_94 _let_92) (tptp.raw_material_2 _let_81 _let_92) (tptp.subevent_2 _let_4 _let_81) (tptp.has_part_2 _let_91 _let_89) (tptp.is_inside_2 _let_87 _let_89) (tptp.has_part_2 _let_79 _let_87) (tptp.base_2 _let_67 _let_79) (tptp.subevent_2 _let_4 _let_67) (tptp.object_2 _let_83 _let_85) (tptp.prevents_2 _let_4 _let_83) (tptp.next_event_2 _let_81 _let_67) (tptp.first_subevent_2 _let_4 _let_81) (tptp.has_part_2 _let_79 _let_20) (tptp.has_part_2 _let_79 _let_1) (not (= _let_98 _let_95)) (not (= _let_95 _let_98)) (tptp.is_between_2 _let_96 _let_98) (tptp.possesses_2 _let_11 _let_96) (tptp.is_between_2 _let_96 _let_95) (tptp.the_scalar_value_2 _let_99 tptp.big_0) (tptp.scalar_unit_class_2 _let_99 tptp.polypeptide_0) (tptp.greater_than_2 _let_99 _let_104) (tptp.size_2 _let_102 _let_104) (tptp.has_part_2 _let_30 _let_102) (tptp.has_region_2 _let_30 _let_101) (tptp.size_2 _let_30 _let_99) (tptp.first_subevent_2 _let_17 _let_107) (tptp.subevent_2 _let_17 _let_107) (tptp.next_event_2 _let_107 _let_41) (tptp.base_2 _let_41 _let_108) (tptp.base_2 _let_17 _let_108) (tptp.object_2 _let_107 _let_105) (not (= _let_108 _let_110)) (not (= _let_110 _let_108)) (tptp.has_state_2 _let_108 _let_79) (tptp.object_2 _let_4 _let_108) (tptp.is_inside_2 _let_87 _let_109) (tptp.has_part_2 _let_110 _let_109) (tptp.is_near_2 _let_85 _let_108) (tptp.is_near_2 _let_108 _let_85) (tptp.base_2 _let_81 _let_108) (tptp.object_2 _let_112 _let_92) (tptp.agent_2 _let_112 _let_20) (tptp.has_region_2 _let_20 _let_114) (tptp.has_part_2 _let_11 _let_95) (tptp.has_function_2 _let_30 _let_116) (tptp.subevent_2 _let_41 _let_52) (tptp.object_2 _let_52 _let_118) (= _let_120 _let_62) (= _let_133 _let_132) (= _let_30 _let_130) (= _let_128 _let_127) (= _let_125 (tptp.fn_cell_communication_3 X)) (= _let_105 _let_38) (= _let_108 _let_47) (= _let_120 _let_60) (= _let_124 _let_123) (= _let_118 _let_56) (= _let_122 _let_121) (= _let_120 _let_58) (= _let_108 _let_46) (= _let_118 _let_57) (= _let_118 _let_54) (= _let_108 _let_44) (= _let_119 (tptp.fn_cell_communication_leading_to_apoptosis_1 X)) (= _let_4 _let_18) (= _let_4 _let_16) (= _let_17 (tptp.fn_cell_communication_leading_to_apoptosis_6 X)) (= _let_105 _let_36) (= _let_118 _let_53) (= _let_52 _let_117) (= _let_116 _let_115) (= _let_95 _let_29) (= _let_95 _let_28) (= _let_114 _let_113) (= _let_112 _let_51) (= _let_112 _let_50) (= (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_29 X) _let_111) (= _let_110 _let_90) (= _let_109 _let_88) (= _let_108 _let_40) (= _let_41 _let_49) (= _let_108 _let_45) (= _let_108 _let_42) (= _let_41 _let_48) (= _let_108 _let_39) (= _let_107 _let_106) (= _let_105 _let_35) (= _let_104 _let_103) (= _let_102 _let_34) (= _let_102 _let_33) (= _let_101 _let_100) (= _let_99 _let_32) (= _let_99 _let_31) (= _let_95 _let_27) (= _let_98 _let_97) (= _let_96 _let_25) (= _let_96 _let_24) (= _let_95 _let_26) (= _let_94 _let_93) (= _let_81 _let_21) (= _let_92 _let_23) (= _let_92 _let_22) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= _let_85 _let_84) (= _let_83 _let_82) (= _let_67 _let_8) (= _let_81 _let_19) (= _let_20 _let_80) (= _let_1 _let_6) (= _let_79 _let_78) (= _let_1 _let_5) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_30 X) _let_71) (= _let_70 _let_15) (= _let_70 _let_14) (= _let_68 _let_13) (= _let_68 _let_12) (= _let_11 _let_69) (= _let_68 _let_10) (= _let_67 _let_9) (= _let_67 _let_7) (= _let_66 _let_65) (= _let_63 _let_3) (= (tptp.fn_cell_communication_leading_to_apoptosis_in_caenorhabditis_elegans_28 X) _let_64) (= _let_63 _let_2) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_49 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_40 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_19) (= _let_19 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_16) (= _let_16 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_10 _let_10) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_2 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_4 X))) (let ((_let_3 (tptp.fn_cellular_response_3 _let_2))) (let ((_let_4 (tptp.fn_intracellular_process_1 _let_2))) (let ((_let_5 (tptp.fn_apoptosis_7 _let_2))) (let ((_let_6 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_5 X))) (let ((_let_7 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_6 X))) (let ((_let_8 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_2 X))) (let ((_let_9 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_3 X))) (let ((_let_10 (tptp.fn_cell_communication_leading_to_apoptosis_in_mammal_1 X))) (=> (tptp.cell_communication_leading_to_apoptosis_in_mammal_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Leading-To-Apoptosis-In-Mammal'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells of mammals which involves generation and delivery of a signal and the series of events leading to apoptosis, the response to the signal.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication leading to apoptosis in mammal'|) (tptp.concept2words_2 X |tptp.'cell-communication-leading-to-apoptosis-in-mammal'|) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.caspase_1 _let_10) (tptp.mammalian_cell_1 _let_8) (tptp.mammalian_cell_1 _let_9) (tptp.intracellular_process_1 _let_2) (tptp.cellular_response_1 _let_2) (tptp.apoptosis_1 _let_2) (tptp.mammalian_cell_1 _let_6) (tptp.cell_signaling_1 _let_7) (tptp.eukaryotic_cell_1 _let_5) (tptp.cell_1 _let_4) (tptp.cell_1 _let_3) (tptp.has_part_2 _let_6 _let_10) (tptp.minCardinality _let_6 tptp.has_part_0 |"1"| tptp.caspase_0) (tptp.agent_2 X _let_9) (tptp.base_2 _let_7 _let_8) (tptp.object_2 X _let_8) (tptp.base_2 _let_2 _let_8) (tptp.subevent_2 X _let_7) (tptp.subevent_2 _let_7 _let_2) (tptp.object_2 _let_2 _let_6) (= _let_9 (tptp.fn_cell_communication_3 X)) (= _let_8 _let_4) (= _let_8 _let_3) (= _let_8 _let_1) (= _let_2 (tptp.fn_cell_communication_leading_to_apoptosis_3 X)) (= _let_7 (tptp.fn_cell_communication_leading_to_apoptosis_6 X)) (= _let_6 _let_5) (= _let_4 _let_3) (= _let_1 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_communication_leading_to_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-Leading-To-Cell-Division'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which leads to cell division as cellular response.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication leading to cell division'|) (tptp.concept2words_2 X |tptp.'cell-communication-leading-to-cell-division'|) (tptp.cell_communication_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_endocrine_hormone_5 X))) (let ((_let_2 (tptp.fn_secretion_2 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_3 X))) (let ((_let_4 (tptp.fn_cell_communication_with_endocrine_hormone_9 X))) (let ((_let_5 (tptp.fn_target_cell_1 _let_4))) (let ((_let_6 (tptp.fn_cell_communication_with_endocrine_hormone_14 X))) (let ((_let_7 (tptp.fn_signal_transmission_5 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_with_endocrine_hormone_13 X))) (let ((_let_9 (tptp.fn_cell_signaling_4 _let_8))) (let ((_let_10 (tptp.fn_cell_communication_1 X))) (let ((_let_11 (tptp.fn_target_cell_3 _let_4))) (let ((_let_12 (tptp.fn_long_distance_cell_communication_8 X))) (let ((_let_13 (tptp.fn_cell_communication_2 X))) (let ((_let_14 (tptp.fn_secretion_1 _let_1))) (let ((_let_15 (tptp.fn_signal_transmission_3 _let_6))) (let ((_let_16 (tptp.fn_cell_communication_4 X))) (let ((_let_17 (tptp.fn_cell_signaling_5 _let_8))) (let ((_let_18 (tptp.fn_cell_communication_with_endocrine_hormone_8 X))) (let ((_let_19 (tptp.fn_move_1 _let_18))) (let ((_let_20 (tptp.fn_cell_communication_with_endocrine_hormone_6 X))) (let ((_let_21 (tptp.fn_move_1 _let_20))) (let ((_let_22 (tptp.fn_signal_transmission_2 _let_6))) (let ((_let_23 (tptp.fn_transmit_1 _let_20))) (let ((_let_24 (tptp.fn_long_distance_cell_communication_3 X))) (let ((_let_25 (tptp.fn_cell_communication_5 X))) (let ((_let_26 (tptp.fn_secretion_3 _let_1))) (let ((_let_27 (tptp.fn_cell_communication_with_endocrine_hormone_3 X))) (let ((_let_28 (tptp.fn_cell_communication_with_endocrine_hormone_12 X))) (let ((_let_29 (tptp.fn_cell_communication_with_endocrine_hormone_16 X))) (let ((_let_30 (tptp.fn_cell_communication_with_endocrine_hormone_11 X))) (let ((_let_31 (tptp.fn_signal_transmission_1 _let_6))) (let ((_let_32 (tptp.fn_cell_communication_with_endocrine_hormone_4 X))) (let ((_let_33 (tptp.fn_cell_communication_with_endocrine_hormone_7 X))) (let ((_let_34 (tptp.fn_cell_communication_with_endocrine_hormone_10 X))) (let ((_let_35 (tptp.fn_secretory_cell_88 _let_28))) (let ((_let_36 (tptp.fn_cell_communication_with_endocrine_hormone_15 X))) (let ((_let_37 (tptp.fn_cell_communication_with_endocrine_hormone_2 X))) (let ((_let_38 (tptp.fn_cell_communication_with_endocrine_hormone_1 X))) (=> (tptp.cell_communication_with_endocrine_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Endocrine-Hormone'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animal cells in which the signal molecule is an endocrine hormone.'|) (tptp.concept2words_2 X |tptp.'hormone signaling'|) (tptp.concept2words_2 X |tptp.'endocrine signaling'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with endocrine hormone'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-endocrine-hormone'|) (tptp.long_distance_cell_communication_1 X) (tptp.circulatory_system_1 _let_38) (tptp.protein_enzyme_1 _let_37) (tptp.secretor_1 _let_27) (tptp.biological_region_1 _let_32) (tptp.secretion_1 _let_1) (tptp.transmit_1 _let_20) (tptp.signal_1 _let_33) (tptp.move_1 _let_18) (tptp.target_cell_1 _let_4) (tptp.signal_generation_1 _let_34) (tptp.hormone_1 _let_30) (tptp.endocrine_cell_1 _let_28) (tptp.cell_signaling_1 _let_8) (tptp.signal_transmission_1 _let_6) (tptp.metabolic_pathway_1 _let_36) (tptp.endergonic_process_1 _let_36) (tptp.chemical_reaction_1 _let_36) (tptp.synthesis_of_organic_molecule_1 _let_36) (tptp.anabolic_pathway_1 _let_36) (tptp.synthesis_of_atp_1 _let_36) (tptp.animal_cell_1 _let_29) (tptp.metabolic_pathway_1 _let_35) (tptp.endergonic_process_1 _let_35) (tptp.chemical_reaction_1 _let_35) (tptp.synthesis_of_organic_molecule_1 _let_35) (tptp.anabolic_pathway_1 _let_35) (tptp.synthesis_of_atp_1 _let_35) (tptp.biological_region_1 _let_31) (tptp.secretor_1 _let_26) (tptp.signal_1 _let_23) (tptp.signal_1 _let_22) (tptp.spatial_entity_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.cell_1 _let_11) (tptp.cell_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.cell_1 _let_7) (tptp.cell_1 _let_5) (tptp.living_entity_1 _let_2) (tptp.is_outside_2 _let_32 _let_28) (tptp.path_2 _let_18 _let_38) (tptp.in_event_2 _let_4 X) (tptp.by_means_of_2 _let_6 _let_18) (tptp.agent_2 _let_36 _let_37) (tptp.object_2 _let_20 _let_30) (tptp.object_2 _let_18 _let_30) (tptp.plays_2 _let_29 _let_4) (not (= _let_28 _let_29)) (not (= _let_29 _let_28)) (tptp.in_event_2 _let_33 _let_20) (tptp.base_2 _let_36 _let_28) (tptp.agent_2 _let_8 _let_30) (tptp.instrument_2 X _let_30) (tptp.result_2 _let_34 _let_30) (tptp.agent_2 _let_34 _let_28) (tptp.agent_2 X _let_28) (tptp.object_2 X _let_29) (tptp.first_subevent_2 X _let_34) (tptp.subevent_2 _let_34 _let_1) (tptp.subevent_2 X _let_6) (tptp.next_event_2 _let_6 _let_8) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_34) (tptp.next_event_2 _let_34 _let_6) (tptp.plays_2 _let_30 _let_33) (tptp.origin_2 _let_6 _let_32) (tptp.in_event_2 _let_27 _let_1) (tptp.plays_2 _let_28 _let_27) (tptp.base_2 _let_1 _let_28) (tptp.destination_2 _let_6 _let_29) (tptp.base_2 _let_8 _let_29) (tptp.object_2 _let_1 _let_30) (tptp.object_2 _let_6 _let_30) (= _let_30 _let_21) (= _let_30 _let_19) (= _let_28 _let_5) (= _let_29 _let_11) (= _let_33 _let_23) (= _let_36 _let_35) (= _let_30 _let_17) (= _let_8 _let_13) (= _let_29 _let_10) (= _let_28 _let_3) (= _let_34 _let_25) (= _let_30 _let_16) (= _let_1 (tptp.fn_long_distance_cell_communication_6 X)) (= _let_34 _let_24) (= _let_8 _let_12) (= _let_6 (tptp.fn_long_distance_cell_communication_5 X)) (= _let_33 _let_22) (= _let_32 _let_31) (= _let_30 _let_15) (= _let_30 _let_14) (= _let_29 _let_9) (= _let_29 _let_7) (= _let_28 _let_2) (= _let_27 _let_26) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_endocrine_hormone_leading_to_cell_division_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_endocrine_hormone_leading_to_cell_division_1 X))) (=> (tptp.cell_communication_with_endocrine_hormone_leading_to_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Endocrine-Hormone-Leading-To-Cell-Division'|) (tptp.user_description_2 X |tptp.'Process of cellular communication with endocrine hormone messengers between and within cells which leads to cell division as cellular response.'|) (tptp.concept2words_2 X |tptp.'endocrine signaling leading to cell division'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with endocrine hormone leading to cell division'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-endocrine-hormone-leading-to-cell-division'|) (tptp.cell_communication_with_endocrine_hormone_1 X) (tptp.cell_division_1 _let_3) (tptp.cell_signaling_1 _let_1) (tptp.cellular_response_1 _let_2) (tptp.subevent_2 _let_1 _let_3) (tptp.subevent_2 X _let_1) (= _let_3 _let_2) (= _let_1 (tptp.fn_cell_communication_with_endocrine_hormone_13 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_3 X))) (let ((_let_2 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_3 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_5 X))) (let ((_let_4 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_4 X))) (let ((_let_5 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_6 X))) (let ((_let_6 (tptp.fn_eukaryotic_cell_19 _let_4))) (let ((_let_7 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_3 X))) (let ((_let_8 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_7 X))) (let ((_let_9 (tptp.fn_create_1 _let_8))) (let ((_let_10 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_8 X))) (let ((_let_11 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_1 X))) (let ((_let_12 (tptp.fn_cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_2 X))) (=> (tptp.cell_communication_with_endoplasmic_reticulum_signal_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Endoplasmic-Reticulum-Signal-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Series of events which leads to programmed cell death (apoptosis) in a cell; in this case, the signal for apoptosis is generated internally by the endoplasmic reticulum.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication with endoplasmic reticulum signal leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-endoplasmic-reticulum-signal-leading-to-apoptosis'|) (tptp.intracellular_process_1 X) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.death_signal_1 _let_11) (tptp.eukaryotic_cell_1 _let_12) (tptp.rough_endoplasmic_reticulum_1 _let_7) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.signal_generation_1 _let_3) (tptp.chemical_entity_1 _let_5) (tptp.produce_1 _let_8) (tptp.misfolded_protein_1 _let_10) (tptp.entity_1 _let_9) (tptp.rough_endoplasmic_reticulum_1 _let_6) (tptp.has_state_2 _let_4 _let_12) (tptp.site_2 _let_3 _let_7) (tptp.plays_2 _let_5 _let_11) (tptp.causes_2 _let_8 _let_3) (tptp.base_2 _let_8 _let_7) (tptp.result_2 _let_8 _let_10) (tptp.object_2 X _let_4) (tptp.has_part_2 _let_4 _let_7) (tptp.first_subevent_2 X _let_3) (tptp.agent_2 _let_3 _let_4) (tptp.agent_2 X _let_4) (tptp.subevent_2 X _let_3) (tptp.result_2 _let_3 _let_5) (= _let_10 _let_9) (= _let_4 _let_2) (= _let_7 _let_6) (= _let_5 (tptp.fn_cell_communication_4 X)) (= _let_4 _let_1) (= _let_3 (tptp.fn_cell_communication_5 X)) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_epinephrine_26 X))) (let ((_let_2 (tptp.fn_protein_enzyme_3 _let_1))) (let ((_let_3 (tptp.fn_protein_9 _let_1))) (let ((_let_4 (tptp.fn_protein_enzyme_9 _let_1))) (let ((_let_5 (tptp.fn_polymer_4 _let_1))) (let ((_let_6 (tptp.fn_cell_communication_with_epinephrine_21 X))) (let ((_let_7 (tptp.fn_cell_signaling_event_1 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_with_endocrine_hormone_16 X))) (let ((_let_9 (tptp.fn_cell_communication_with_epinephrine_43 X))) (let ((_let_10 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_67 _let_9))) (let ((_let_11 (tptp.fn_cell_communication_with_epinephrine_18 X))) (let ((_let_12 (tptp.fn_solution_5 _let_11))) (let ((_let_13 (tptp.fn_solution_6 _let_11))) (let ((_let_14 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_59 _let_9))) (let ((_let_15 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_64 _let_9))) (let ((_let_16 (tptp.fn_cell_communication_with_epinephrine_47 X))) (let ((_let_17 (tptp.fn_chemical_3 _let_16))) (let ((_let_18 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_66 _let_9))) (let ((_let_19 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_64 _let_9))) (let ((_let_20 (tptp.fn_signal_transduction_6 _let_6))) (let ((_let_21 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_67 _let_9))) (let ((_let_22 (tptp.fn_adenylyl_cyclase_4 _let_1))) (let ((_let_23 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_32 _let_9))) (let ((_let_24 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_101 _let_9))) (let ((_let_25 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_82 _let_9))) (let ((_let_26 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_99 _let_9))) (let ((_let_27 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_79 _let_9))) (let ((_let_28 (tptp.fn_cell_communication_with_epinephrine_38 X))) (let ((_let_29 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_28))) (let ((_let_30 (tptp.fn_cell_communication_with_endocrine_hormone_10 X))) (let ((_let_31 (tptp.fn_long_distance_cell_communication_3 X))) (let ((_let_32 (tptp.fn_cell_communication_with_endocrine_hormone_12 X))) (let ((_let_33 (tptp.fn_long_distance_cell_communication_4 X))) (let ((_let_34 (tptp.fn_cell_communication_with_epinephrine_36 X))) (let ((_let_35 (tptp.fn_polymer_7 _let_34))) (let ((_let_36 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_2 _let_9))) (let ((_let_37 (tptp.fn_polymer_10 _let_34))) (let ((_let_38 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_1 _let_9))) (let ((_let_39 (tptp.fn_cell_communication_with_endocrine_hormone_11 X))) (let ((_let_40 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(tptp.fn_cell_communication_with_epinephrine_19 X))) (let ((_let_57 (tptp.fn_cell_communication_with_epinephrine_39 X))) (let ((_let_58 (tptp.fn_cell_communication_with_epinephrine_24 X))) (let ((_let_59 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_44 _let_9))) (let ((_let_60 (tptp.fn_cell_communication_with_epinephrine_28 X))) (let ((_let_61 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_60 _let_9))) (let ((_let_62 (tptp.fn_cell_communication_with_epinephrine_27 X))) (let ((_let_63 (tptp.fn_cell_communication_with_epinephrine_25 X))) (let ((_let_64 (tptp.fn_cell_communication_with_epinephrine_23 X))) (let ((_let_65 (tptp.fn_cell_communication_with_epinephrine_37 X))) (let ((_let_66 (tptp.fn_cell_communication_with_epinephrine_14 X))) (let ((_let_67 (tptp.fn_cell_communication_with_epinephrine_44 X))) (let ((_let_68 (tptp.fn_cell_communication_with_epinephrine_16 X))) (let ((_let_69 (tptp.fn_cell_communication_with_epinephrine_10 X))) (let 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(tptp.fn_cell_communication_with_epinephrine_33 X))) (let ((_let_86 (tptp.fn_attach_2 _let_85))) (let ((_let_87 (tptp.fn_cell_communication_with_epinephrine_8 X))) (let ((_let_88 (tptp.fn_cell_communication_with_epinephrine_7 X))) (let ((_let_89 (tptp.fn_cell_communication_with_epinephrine_6 X))) (=> (tptp.cell_communication_with_epinephrine_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Epinephrine'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animal cells in which the signal molecule is the hormone epinepherine.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with epinepherine'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with epinephrine'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-epinephrine'|) (tptp.cell_communication_with_endocrine_hormone_1 X) (tptp.system_1 (tptp.fn_cell_communication_with_epinephrine_3 X)) 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(tptp.activate_1 _let_58) (tptp.attach_1 _let_63) (tptp.spatial_entity_1 _let_1) (tptp.enzyme_1 _let_1) (tptp.adenylyl_cyclase_1 _let_1) (tptp.polymer_1 _let_1) (tptp.protein_1 _let_1) (tptp.protein_enzyme_1 _let_1) (tptp.cell_1 _let_62) (tptp.synthesis_reaction_1 _let_60) (tptp.chemical_reaction_1 _let_60) (tptp.synthesis_of_organic_molecule_1 _let_60) (tptp.metabolic_pathway_1 _let_60) (tptp.synthesis_of_camp_1 _let_60) (tptp.monomer_1 _let_42) (tptp.size_value_1 _let_41) (tptp.size_value_1 _let_44) (tptp.epinephrine_1 _let_83) (tptp.attach_1 _let_85) (tptp.ligand_binding_1 _let_85) (tptp.size_value_1 _let_73) (tptp.size_value_1 _let_74) (tptp.receptor_protein_1 _let_34) (tptp.membrane_1 _let_65) (tptp.spatial_entity_1 _let_65) (tptp.biomembrane_1 _let_65) (tptp.plasma_membrane_1 _let_65) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_28) (tptp.amp_1 _let_57) (tptp.organic_molecule_1 _let_57) (tptp.cyclic_amp_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.substance_1 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_let_59) (tptp.enzyme_1 _let_59) (tptp.adenylyl_cyclase_1 _let_59) (tptp.chemical_entity_1 _let_55) (tptp.chemical_1 _let_52) (tptp.chemical_1 _let_51) (tptp.property_node_1 _let_49) (tptp.substance_1 _let_48) (tptp.cytosol_1 _let_48) (tptp.golgi_apparatus_1 _let_46) (tptp.size_value_1 _let_43) (tptp.chemical_entity_1 _let_40) (tptp.property_node_1 _let_38) (tptp.property_node_1 _let_37) (tptp.size_value_1 _let_36) (tptp.size_value_1 _let_35) (tptp.membrane_1 _let_29) (tptp.spatial_entity_1 _let_29) (tptp.biomembrane_1 _let_29) (tptp.biomembrane_1 _let_27) (tptp.plasma_membrane_1 _let_27) (tptp.spatial_entity_1 _let_26) (tptp.polymer_1 _let_26) (tptp.protein_1 _let_26) (tptp.molecule_1 _let_26) (tptp.organic_molecule_1 _let_26) (tptp.g_protein_1 _let_26) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.polymer_1 _let_25) (tptp.organic_molecule_1 _let_25) (tptp.protein_1 _let_25) (tptp.molecule_1 _let_25) (tptp.g_protein_1 _let_25) (tptp.attach_1 _let_24) 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(tptp.complement_2 _let_83 _let_34) (tptp.is_outside_2 _let_83 _let_88) (tptp.site_2 _let_85 _let_88) (tptp.complement_2 _let_34 _let_83) (tptp.called_2 _let_87 |tptp.'Concentration_cAMP_SignalingCell'|) (tptp.concentration_2 _let_57 _let_87) (tptp.base_2 _let_85 _let_34) (tptp.path_2 _let_28 _let_65) (tptp.has_function_2 _let_83 _let_85) (tptp.object_2 _let_85 _let_83) (tptp.size_2 _let_83 _let_74) (tptp.instrument_2 X _let_83) (tptp.result_2 _let_66 _let_83) (tptp.subevent_2 X _let_9) (tptp.agent_2 _let_9 _let_83) (tptp.object_2 _let_70 _let_83) (tptp.next_event_2 _let_70 _let_9) (tptp.has_part_2 _let_79 _let_81) (tptp.is_inside_2 _let_81 _let_50) (tptp.agent_2 _let_6 _let_45) (tptp.base_2 _let_9 _let_45) (tptp.has_part_2 _let_45 _let_78) (tptp.has_state_2 _let_78 _let_64) (tptp.size_2 _let_34 _let_73) (tptp.greater_than_2 _let_73 _let_74) (tptp.is_outside_2 _let_71 _let_68) (tptp.subevent_2 X _let_70) (tptp.next_event_2 _let_66 _let_70) (tptp.first_subevent_2 X _let_66) (tptp.in_event_2 _let_69 X) (tptp.agent_2 _let_66 _let_68) (tptp.agent_2 X _let_68) (tptp.object_2 X _let_45) (tptp.destination_2 _let_70 _let_45) (tptp.origin_2 _let_70 _let_71) (tptp.subevent_2 X _let_66) (tptp.subevent_2 _let_66 _let_67) (tptp.base_2 _let_67 _let_68) (not (= _let_68 _let_45)) (tptp.plays_2 _let_45 _let_69) (not (= _let_45 _let_68)) (tptp.has_part_2 _let_62 _let_65) (tptp.subevent_2 _let_6 _let_63) (tptp.object_2 _let_63 _let_64) (tptp.subevent_2 _let_6 _let_60) (tptp.result_2 _let_60 _let_57) (tptp.subevent_2 _let_9 _let_6) (tptp.subevent_2 _let_6 _let_58) (tptp.result_2 _let_58 _let_1) (tptp.has_function_2 _let_1 _let_60) (tptp.base_2 _let_60 _let_62) (tptp.the_scalar_value_2 _let_41 tptp.big_0) (tptp.scalar_unit_class_2 _let_41 tptp.polypeptide_0) (tptp.greater_than_2 _let_41 _let_44) (tptp.size_2 _let_42 _let_44) (tptp.has_part_2 _let_1 _let_42) (tptp.size_2 _let_1 _let_41) (tptp.is_inside_2 _let_47 _let_11) (tptp.has_part_2 _let_45 _let_47) (not (= _let_16 _let_53)) (not (= _let_53 _let_16)) (tptp.has_part_2 _let_50 _let_53) (tptp.has_part_2 _let_50 _let_16) (tptp.has_solute_2 _let_50 _let_16) (tptp.has_solute_2 _let_11 _let_54) (tptp.has_part_2 _let_11 _let_54) (tptp.has_solvent_2 _let_50 _let_53) (tptp.base_2 _let_6 _let_45) (tptp.has_part_2 _let_54 _let_56) (tptp.has_part_2 _let_16 _let_57) (= _let_34 _let_86) (= _let_65 _let_29) (= _let_85 _let_84) (= _let_83 _let_40) (= _let_83 _let_39) (= _let_50 _let_82) (= _let_81 _let_80) (= _let_78 _let_77) (= _let_9 (tptp.fn_cell_communication_with_endocrine_hormone_13 X)) (= _let_45 _let_10) (= (tptp.fn_cell_communication_with_epinephrine_12 X) _let_76) (= _let_75 _let_38) (= _let_74 _let_36) (= _let_75 _let_37) (= _let_74 _let_35) (= _let_73 _let_72) (= _let_71 (tptp.fn_cell_communication_with_endocrine_hormone_4 X)) (= _let_70 (tptp.fn_cell_communication_with_endocrine_hormone_14 X)) (= _let_66 _let_31) (= _let_68 _let_33) (= _let_69 (tptp.fn_cell_communication_with_endocrine_hormone_9 X)) (= _let_45 _let_8) (= _let_68 _let_32) (= _let_67 (tptp.fn_cell_communication_with_endocrine_hormone_5 X)) (= _let_66 _let_30) (= _let_65 _let_27) (= _let_64 _let_26) (= _let_64 _let_25) (= _let_6 _let_15) (= _let_63 _let_24) (= _let_63 _let_23) (= _let_57 _let_18) (= _let_62 _let_61) (= _let_60 _let_22) (= _let_60 _let_21) (= _let_1 _let_59) (= _let_58 _let_20) (= _let_58 _let_19) (= _let_6 _let_14) (= _let_57 _let_17) (= _let_56 _let_55) (= _let_45 _let_7) (= _let_54 _let_13) (= _let_54 _let_12) (= _let_53 _let_52) (= _let_16 _let_51) (= (tptp.fn_cell_communication_with_epinephrine_13 X) _let_49) (= _let_11 _let_48) (= _let_47 _let_46) (= _let_44 _let_43) (= _let_42 _let_5) (= _let_42 _let_4) (= _let_41 _let_3) (= _let_41 _let_2) (= _let_40 _let_40) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_epinephrine_16 X))) (let ((_let_2 (tptp.fn_cell_communication_with_endocrine_hormone_12 X))) (let ((_let_3 (tptp.fn_cell_communication_with_epinephrine_14 X))) (let ((_let_4 (tptp.fn_cell_communication_with_endocrine_hormone_10 X))) (let ((_let_5 (tptp.fn_cell_communication_with_epinephrine_19 X))) (let ((_let_6 (tptp.fn_cell_communication_with_epinephrine_39 X))) (let ((_let_7 (tptp.fn_cell_communication_with_epinephrine_18 X))) (let ((_let_8 (tptp.fn_cell_communication_with_epinephrine_40 X))) (let ((_let_9 (tptp.fn_cell_communication_with_epinephrine_20 X))) (let ((_let_10 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_19 X))) (let ((_let_11 (tptp.fn_gap_junction_9 _let_10))) (let ((_let_12 (tptp.fn_gap_junction_10 _let_10))) (let ((_let_13 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_18 X))) (let ((_let_14 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_21 X))) (let ((_let_15 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(tptp.fn_cell_communication_with_epinephrine_in_heart_cell_22 X))) (let ((_let_28 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_24 X))) (let ((_let_29 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_13 X))) (let ((_let_30 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_25 X))) (let ((_let_31 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_14 X))) (let ((_let_32 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_16 X))) (let ((_let_33 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_8 X))) (let ((_let_34 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_9 X))) (let ((_let_35 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_31 X))) (let ((_let_36 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_6 X))) (let ((_let_37 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_7 X))) (let ((_let_38 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_3 X))) (let ((_let_39 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_4 X))) (let ((_let_40 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_2 X))) (let ((_let_41 (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_1 X))) (=> (tptp.cell_communication_with_epinephrine_in_heart_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Epinephrine-In-Heart-Cell'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animals in which the signal molecule is the hormone epinepherine and the target cell is a heart cell.'|) (tptp.concept2words_2 X |tptp.'endocrine signaling with epinepherine in heart cell'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with epinephrine in heart cell'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-epinephrine-in-heart-cell'|) (tptp.cell_communication_with_epinephrine_1 X) (tptp.cellular_response_1 _let_41) (tptp.rate_value_1 _let_40) (tptp.heart_beat_1 _let_38) (tptp.muscle_contraction_1 _let_39) (tptp.time_interval_1 _let_36) (tptp.time_interval_1 _let_37) (tptp.animal_cell_1 _let_33) (tptp.ribosome_1 _let_34) (tptp.eukaryotic_ribosome_1 _let_34) (tptp.solution_1 _let_25) (tptp.substance_1 _let_25) (tptp.cytosol_1 _let_25) (tptp.chemical_1 _let_24) (tptp.amp_1 _let_23) (tptp.organic_molecule_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.cyclic_amp_1 _let_23) (tptp.synthesis_reaction_1 _let_29) (tptp.chemical_reaction_1 _let_29) (tptp.synthesis_of_organic_molecule_1 _let_29) (tptp.metabolic_pathway_1 _let_29) (tptp.synthesis_of_camp_1 _let_29) (tptp.target_cell_1 _let_31) (tptp.signal_transduction_1 _let_17) (tptp.cell_signaling_event_1 _let_17) (tptp.heart_cell_1 _let_32) (tptp.signal_transmission_1 _let_15) (tptp.living_entity_1 _let_13) (tptp.cell_1 _let_13) (tptp.endocrine_cell_1 _let_13) (tptp.gap_junction_1 _let_10) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_16) (tptp.cell_signaling_1 _let_16) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_16) (tptp.cell_signaling_with_camp_and_g_protein_coupled_receptor_1 _let_16) (tptp.signal_generation_1 _let_14) (tptp.spatial_entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.polymer_1 _let_27) (tptp.organic_molecule_1 _let_27) (tptp.protein_1 _let_27) (tptp.molecule_1 _let_27) (tptp.g_protein_1 _let_27) (tptp.attach_1 _let_26) (tptp.spatial_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.polymer_1 _let_28) (tptp.organic_molecule_1 _let_28) (tptp.protein_1 _let_28) (tptp.molecule_1 _let_28) (tptp.g_protein_1 _let_28) (tptp.substance_1 _let_30) (tptp.cytosol_1 _let_30) (tptp.solution_1 _let_30) (tptp.chemical_1 _let_21) (tptp.amp_1 _let_20) (tptp.organic_molecule_1 _let_20) (tptp.cyclic_amp_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.concentration_value_1 _let_19) (tptp.concentration_value_1 _let_22) (tptp.golgi_apparatus_1 _let_35) (tptp.system_1 _let_18) (tptp.animal_cell_1 _let_12) (tptp.animal_cell_1 _let_11) (tptp.called_2 _let_22 |tptp.'Concentration_cAMP_SignalingCell'|) (tptp.called_2 _let_19 |tptp.'Concentration_cAMP_NormalCell'|) (tptp.time_during_2 _let_14 _let_37) (tptp.base_2 _let_15 _let_13) (tptp.time_during_2 _let_15 _let_36) (tptp.next_event_2 _let_17 _let_41) (tptp.subevent_2 _let_41 _let_39) (tptp.the_scalar_value_2 _let_40 tptp.fast_0) (tptp.scalar_unit_class_2 _let_40 tptp.cardiovascular_process_0) (tptp.rate_2 _let_38 _let_40) (tptp.causes_2 _let_39 _let_38) (tptp.time_before_2 _let_37 _let_36) (tptp.is_between_2 _let_10 _let_32) (tptp.plays_2 _let_32 _let_31) (tptp.has_part_2 _let_32 _let_28) (tptp.agent_2 _let_17 _let_32) (tptp.destination_2 _let_15 _let_32) (tptp.base_2 _let_17 _let_32) (tptp.base_2 _let_16 _let_32) (tptp.is_inside_2 _let_34 _let_25) (tptp.has_part_2 _let_32 _let_35) (tptp.is_inside_2 _let_35 _let_30) (tptp.object_2 X _let_32) (tptp.has_state_2 _let_32 _let_33) (tptp.has_part_2 _let_33 _let_34) (not (= _let_13 _let_32)) (not (= _let_32 _let_13)) (tptp.subevent_2 X _let_15) (tptp.in_event_2 _let_31 X) (tptp.has_part_2 _let_30 _let_21) (tptp.has_solute_2 _let_30 _let_21) (tptp.subevent_2 _let_17 _let_29) (tptp.result_2 _let_29 _let_23) (tptp.subevent_2 _let_17 _let_26) (tptp.object_2 _let_26 _let_27) (tptp.has_state_2 _let_28 _let_27) (tptp.subevent_2 X _let_14) (tptp.first_subevent_2 X _let_14) (tptp.subevent_2 X _let_16) (tptp.concentration_2 _let_23 _let_22) (tptp.has_part_2 _let_24 _let_23) (tptp.has_solute_2 _let_25 _let_24) (tptp.has_part_2 _let_25 _let_24) (tptp.concentration_2 _let_20 _let_19) (tptp.has_part_2 _let_21 _let_20) (tptp.agent_2 X _let_13) (tptp.agent_2 _let_14 _let_13) (tptp.next_event_2 _let_14 _let_15) (tptp.next_event_2 _let_15 _let_16) (tptp.subevent_2 _let_16 _let_17) (= _let_32 _let_12) (= _let_32 _let_11) (= _let_25 _let_8) (= _let_30 _let_7) (= _let_35 (tptp.fn_cell_communication_with_epinephrine_17 X)) (= _let_34 (tptp.fn_cell_communication_with_epinephrine_41 X)) (= _let_33 (tptp.fn_cell_communication_with_epinephrine_42 X)) (= _let_32 _let_9) (= (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_33 X) (tptp.fn_cell_communication_with_epinephrine_5 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_35 X) (tptp.fn_cell_communication_with_epinephrine_9 X)) (= _let_31 (tptp.fn_cell_communication_with_epinephrine_10 X)) (= _let_30 _let_8) (= _let_23 _let_6) (= _let_29 (tptp.fn_cell_communication_with_epinephrine_28 X)) (= _let_28 (tptp.fn_cell_communication_with_epinephrine_22 X)) (= _let_27 (tptp.fn_cell_communication_with_epinephrine_23 X)) (= _let_26 (tptp.fn_cell_communication_with_epinephrine_25 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_34 X) (tptp.fn_cell_communication_with_epinephrine_2 X)) (= _let_25 _let_7) (= _let_24 (tptp.fn_cell_communication_with_epinephrine_48 X)) (= _let_23 _let_5) (= _let_22 (tptp.fn_cell_communication_with_epinephrine_6 X)) (= _let_21 (tptp.fn_cell_communication_with_epinephrine_47 X)) (= _let_20 _let_6) (= _let_19 (tptp.fn_cell_communication_with_epinephrine_8 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_heart_cell_29 X) (tptp.fn_cell_communication_with_epinephrine_4 X)) (= _let_18 (tptp.fn_cell_communication_with_epinephrine_3 X)) (= _let_17 (tptp.fn_cell_communication_with_epinephrine_21 X)) (= _let_16 (tptp.fn_cell_communication_with_epinephrine_43 X)) (= _let_15 (tptp.fn_cell_communication_with_epinephrine_15 X)) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_13 _let_2) (= _let_13 _let_1) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_epinephrine_16 X))) (let ((_let_2 (tptp.fn_cell_communication_with_endocrine_hormone_12 X))) (let ((_let_3 (tptp.fn_cell_communication_with_epinephrine_14 X))) (let ((_let_4 (tptp.fn_cell_communication_with_endocrine_hormone_10 X))) (let ((_let_5 (tptp.fn_cell_communication_with_epinephrine_32 X))) (let ((_let_6 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_74 X))) (let ((_let_7 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 _let_6))) (let ((_let_8 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_57 _let_6))) (let ((_let_9 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_50 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_49 X))) (let ((_let_12 (tptp.fn_move_1 _let_11))) (let ((_let_13 (tptp.fn_cell_communication_with_epinephrine_33 X))) (let ((_let_14 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_30 _let_6))) (let ((_let_15 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 _let_6))) (let ((_let_16 (tptp.fn_cell_communication_with_epinephrine_39 X))) (let ((_let_17 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_66 _let_6))) (let ((_let_18 (tptp.fn_cell_communication_with_epinephrine_35 X))) (let ((_let_19 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_95 X))) (let ((_let_20 (tptp.fn_plasma_membrane_84 _let_19))) (let ((_let_21 (tptp.fn_cell_communication_with_epinephrine_34 X))) (let ((_let_22 (tptp.fn_plasma_membrane_85 _let_19))) (let ((_let_23 (tptp.fn_cell_communication_with_epinephrine_15 X))) (let ((_let_24 (tptp.fn_cell_communication_with_endocrine_hormone_14 X))) (let ((_let_25 (tptp.fn_cell_communication_with_epinephrine_21 X))) (let ((_let_26 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_59 _let_6))) (let ((_let_27 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_64 _let_6))) (let ((_let_28 (tptp.fn_chemical_signaling_8 _let_6))) (let ((_let_29 (tptp.fn_cell_communication_with_epinephrine_28 X))) (let ((_let_30 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_67 _let_6))) (let ((_let_31 (tptp.fn_cell_communication_with_epinephrine_26 X))) (let ((_let_32 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_62 _let_6))) (let ((_let_33 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_44 _let_6))) (let ((_let_34 (tptp.fn_cell_communication_with_epinephrine_25 X))) (let ((_let_35 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_63 _let_6))) (let ((_let_36 (tptp.fn_cell_communication_with_epinephrine_24 X))) (let ((_let_37 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_43 _let_6))) (let ((_let_38 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_64 _let_6))) (let ((_let_39 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_103 _let_6))) (let ((_let_40 (tptp.fn_cell_communication_with_epinephrine_23 X))) (let ((_let_41 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_99 _let_6))) (let ((_let_42 (tptp.fn_cell_communication_with_epinephrine_22 X))) (let ((_let_43 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_82 _let_6))) (let ((_let_44 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_63 _let_6))) (let ((_let_45 (tptp.fn_cell_communication_with_epinephrine_11 X))) (let ((_let_46 (tptp.fn_plasma_membrane_91 _let_19))) (let ((_let_47 (tptp.fn_cell_communication_with_epinephrine_10 X))) (let ((_let_48 (tptp.fn_cell_communication_with_endocrine_hormone_9 X))) (let ((_let_49 (tptp.fn_cell_communication_with_epinephrine_17 X))) (let ((_let_50 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_69 X))) (let ((_let_51 (tptp.fn_liver_cell_79 _let_50))) (let ((_let_52 (tptp.fn_liver_cell_56 _let_50))) (let ((_let_53 (tptp.fn_animal_cell_73 _let_50))) (let ((_let_54 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_94 X))) (let ((_let_55 (tptp.fn_electrogenic_pump_30 _let_54))) (let ((_let_56 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_102 X))) (let ((_let_57 (tptp.fn_transport_protein_35 _let_56))) (let ((_let_58 (tptp.fn_transport_protein_35 _let_54))) (let ((_let_59 (tptp.fn_carrier_protein_18 _let_54))) (let ((_let_60 (tptp.fn_eukaryotic_cell_29 _let_50))) (let ((_let_61 (tptp.fn_sodium_potassium_pump_41 _let_54))) (let ((_let_62 (tptp.fn_protein_pump_3 _let_54))) (let ((_let_63 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_109 _let_6))) (let ((_let_64 (tptp.fn_integral_protein_24 _let_54))) (let ((_let_65 (tptp.fn_integral_protein_24 _let_56))) (let ((_let_66 (tptp.fn_transmembrane_protein_4 _let_56))) (let ((_let_67 (tptp.fn_animal_plasma_membrane_54 _let_19))) (let ((_let_68 (tptp.fn_liver_cell_41 _let_50))) (let ((_let_69 (tptp.fn_animal_cell_58 _let_50))) (let ((_let_70 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_29 _let_6))) (let ((_let_71 (tptp.fn_sodium_potassium_pump_22 _let_54))) (let ((_let_72 (tptp.fn_electrogenic_pump_19 _let_54))) (let ((_let_73 (tptp.fn_transport_protein_12 _let_56))) (let ((_let_74 (tptp.fn_carrier_protein_16 _let_54))) (let ((_let_75 (tptp.fn_eukaryotic_cell_41 _let_50))) (let ((_let_76 (tptp.fn_integral_protein_27 _let_54))) (let ((_let_77 (tptp.fn_integral_protein_27 _let_56))) (let ((_let_78 (tptp.fn_plasma_membrane_71 _let_19))) (let ((_let_79 (tptp.fn_biomembrane_63 _let_19))) (let ((_let_80 (tptp.fn_animal_plasma_membrane_53 _let_19))) (let ((_let_81 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_42 _let_6))) (let ((_let_82 (tptp.fn_animal_plasma_membrane_62 _let_19))) (let ((_let_83 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_27 _let_6))) (let ((_let_84 (tptp.fn_eukaryotic_cell_15 _let_50))) (let ((_let_85 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_21 _let_6))) (let ((_let_86 (tptp.fn_plasma_membrane_3 _let_19))) (let ((_let_87 (tptp.fn_plasma_membrane_4 _let_19))) (let ((_let_88 (tptp.fn_animal_plasma_membrane_55 _let_19))) (let ((_let_89 (tptp.fn_liver_cell_80 _let_50))) (let ((_let_90 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_8 _let_6))) (let ((_let_91 (tptp.fn_plasma_membrane_65 _let_19))) (let ((_let_92 (tptp.fn_transmembrane_protein_5 _let_56))) (let ((_let_93 (tptp.fn_electrogenic_pump_4 _let_54))) (let ((_let_94 (tptp.fn_animal_plasma_membrane_58 _let_19))) (let ((_let_95 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_76 _let_6))) (let ((_let_96 (tptp.fn_plasma_membrane_66 _let_19))) (let ((_let_97 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_73 X))) (let ((_let_98 (tptp.fn_g_protein_1 _let_97))) (let ((_let_99 (tptp.fn_animal_plasma_membrane_50 _let_19))) (let ((_let_100 (tptp.fn_sodium_potassium_pump_50 _let_54))) (let ((_let_101 (tptp.fn_transport_protein_34 _let_54))) (let ((_let_102 (tptp.fn_transport_protein_34 _let_56))) (let ((_let_103 (tptp.fn_electrogenic_pump_5 _let_54))) (let ((_let_104 (tptp.fn_transport_protein_10 _let_56))) (let ((_let_105 (tptp.fn_carrier_protein_4 _let_54))) (let ((_let_106 (tptp.fn_sodium_potassium_pump_39 _let_54))) (let ((_let_107 (tptp.fn_protein_pump_1 _let_54))) (let ((_let_108 (tptp.fn_cell_communication_with_endocrine_hormone_16 X))) (let ((_let_109 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_67 _let_6))) (let ((_let_110 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_60 _let_6))) (let ((_let_111 (tptp.fn_animal_plasma_membrane_56 _let_19))) (let ((_let_112 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_82 X))) (let ((_let_113 (tptp.fn_metabolic_pathway_1 _let_112))) (let ((_let_114 (tptp.fn_liver_cell_74 _let_50))) (let ((_let_115 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_58 _let_6))) (let ((_let_116 (tptp.fn_vertebrate_cell_27 _let_50))) (let ((_let_117 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_let_216) (tptp.spatial_entity_1 _let_216) (tptp.membrane_protein_1 _let_216) (tptp.tangible_entity_1 _let_216) (tptp.transmembrane_protein_1 _let_216) (tptp.integral_protein_1 _let_216) (tptp.transport_protein_1 _let_216) (tptp.sodium_potassium_pump_1 _let_216) (tptp.protein_pump_1 _let_54) (tptp.carrier_protein_1 _let_54) (tptp.electrogenic_pump_1 _let_54) (tptp.protein_1 _let_54) (tptp.organic_molecule_1 _let_54) (tptp.polymer_1 _let_54) (tptp.spatial_entity_1 _let_54) (tptp.membrane_protein_1 _let_54) (tptp.tangible_entity_1 _let_54) (tptp.transmembrane_protein_1 _let_54) (tptp.integral_protein_1 _let_54) (tptp.transport_protein_1 _let_54) (tptp.sodium_potassium_pump_1 _let_54) (tptp.membrane_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.spatial_entity_1 _let_19) (tptp.biomembrane_1 _let_19) (tptp.plasma_membrane_1 _let_19) (tptp.animal_plasma_membrane_1 _let_19) (tptp.synthesis_reaction_1 _let_200) (tptp.chemical_reaction_1 _let_200) (tptp.synthesis_of_organic_molecule_1 _let_200) (tptp.metabolic_pathway_1 _let_200) (tptp.synthesis_of_camp_1 _let_200) (tptp.signal_transduction_1 _let_199) (tptp.cell_signaling_event_1 _let_199) (tptp.chemical_entity_1 _let_159) (tptp.molecule_1 _let_159) (tptp.polymer_1 _let_159) (tptp.glycogen_phosphorylase_1 _let_159) (tptp.chemical_entity_1 _let_285) (tptp.glucose_1_phosphate_1 _let_285) (tptp.surface_1 _let_213) (tptp.inside_face_1 _let_213) (tptp.cytoplasmic_side_1 _let_213) (tptp.move_1 _let_214) (tptp.move_through_1 _let_214) (tptp.polymer_1 _let_56) (tptp.spatial_entity_1 _let_56) (tptp.membrane_protein_1 _let_56) (tptp.tangible_entity_1 _let_56) (tptp.transmembrane_protein_1 _let_56) (tptp.integral_protein_1 _let_56) (tptp.transport_protein_1 _let_56) (tptp.phosphorylation_1 _let_177) (tptp.living_entity_1 _let_183) (tptp.cell_1 _let_183) (tptp.endocrine_cell_1 _let_183) (tptp.system_1 _let_186) (tptp.spatial_entity_1 _let_165) (tptp.neurotransmitter_1 _let_165) (tptp.chemical_entity_1 _let_165) (tptp.epinephrine_1 _let_165) (tptp.spatial_entity_1 _let_207) (tptp.chemical_entity_1 _let_207) (tptp.polymer_1 _let_207) (tptp.organic_molecule_1 _let_207) (tptp.protein_1 _let_207) (tptp.molecule_1 _let_207) (tptp.g_protein_1 _let_207) (tptp.solution_1 _let_197) (tptp.substance_1 _let_197) (tptp.cytosol_1 _let_197) (tptp.chemical_1 _let_196) (tptp.cyclic_amp_1 _let_195) (tptp.size_value_1 _let_222) (tptp.surface_1 _let_218) (tptp.volume_value_1 _let_220) (tptp.ribosome_1 _let_275) (tptp.spatial_entity_1 _let_261) (tptp.chemical_entity_1 _let_261) (tptp.monomer_1 _let_261) (tptp.molecule_1 _let_261) (tptp.amino_acid_1 _let_261) (tptp.size_value_1 _let_245) (tptp.speed_value_1 _let_253) (tptp.quantity_value_1 _let_251) (tptp.kinetic_energy_1 _let_249) (tptp.size_value_1 _let_247) (tptp.monomer_1 _let_243) (tptp.atom_1 _let_269) (tptp.chemical_entity_1 _let_269) (tptp.carbon_1 _let_269) (tptp.polypeptide_1 _let_263) (tptp.carbon_skeleton_1 _let_268) (tptp.surface_1 _let_267) (tptp.hydrophilic_region_1 _let_265) (tptp.protein_domain_1 _let_259) (tptp.constant_motion_1 _let_255) (tptp.detach_1 _let_271) (tptp.attach_1 _let_273) (tptp.chemical_reaction_1 _let_238) (tptp.decomposition_reaction_1 _let_238) (tptp.dephosphorylation_1 _let_238) (tptp.detach_1 _let_236) (tptp.substance_1 _let_223) (tptp.cytosol_1 _let_223) (tptp.attach_1 _let_231) (tptp.make_accessible_1 _let_230) (tptp.activate_1 _let_230) (tptp.detach_1 _let_234) (tptp.replace_1 _let_233) (tptp.move_1 _let_232) (tptp.outside_face_1 _let_212) (tptp.extracellular_side_1 _let_212) (tptp.surface_1 _let_212) (tptp.signal_reception_1 _let_226) (tptp.chemical_entity_1 _let_290) (tptp.chemical_entity_1 _let_287) (tptp.active_site_1 _let_283) (tptp.entity_1 _let_278) (tptp.chemical_entity_1 _let_278) (tptp.atom_1 _let_278) (tptp.facilitated_diffusion_1 _let_276) (tptp.attach_1 _let_272) (tptp.detach_1 _let_270) (tptp.surface_1 _let_266) (tptp.hydrophilic_region_1 _let_264) (tptp.polypeptide_1 _let_262) (tptp.spatial_entity_1 _let_260) (tptp.chemical_entity_1 _let_260) (tptp.monomer_1 _let_260) (tptp.molecule_1 _let_260) (tptp.amino_acid_1 _let_260) (tptp.protein_domain_1 _let_258) (tptp.property_node_1 _let_257) (tptp.property_node_1 _let_256) (tptp.constant_motion_1 _let_254) (tptp.speed_value_1 _let_252) (tptp.quantity_value_1 _let_250) (tptp.kinetic_energy_1 _let_248) (tptp.size_value_1 _let_246) (tptp.size_value_1 _let_244) (tptp.property_node_1 _let_242) (tptp.protein_kinase_a_1 _let_239) (tptp.chemical_reaction_1 _let_237) (tptp.decomposition_reaction_1 _let_237) (tptp.dephosphorylation_1 _let_237) (tptp.detach_1 _let_235) (tptp.property_node_1 _let_225) (tptp.property_node_1 _let_224) (tptp.size_value_1 _let_221) (tptp.volume_value_1 _let_219) (tptp.surface_1 _let_217) (tptp.chemical_entity_1 _let_182) (tptp.molecule_1 _let_181) (tptp.chemical_entity_1 _let_179) (tptp.molecule_1 _let_178) (tptp.chemical_entity_1 _let_176) (tptp.glucose_1_phosphate_1 _let_175) (tptp.catabolic_pathway_1 _let_174) (tptp.glycogen_breakdown_1 _let_173) (tptp.chemical_entity_1 _let_172) (tptp.glycogen_phosphorylase_1 _let_171) (tptp.chemical_entity_1 _let_170) (tptp.molecule_1 _let_169) (tptp.signal_1 _let_167) (tptp.signal_1 _let_166) (tptp.atom_1 _let_164) (tptp.chemical_entity_1 _let_164) (tptp.entity_1 _let_163) (tptp.chemical_entity_1 _let_163) (tptp.atom_1 _let_163) (tptp.chemical_bond_1 _let_161) (tptp.covalent_bond_1 _let_160) (tptp.ribosome_1 _let_158) (tptp.ribosome_1 _let_157) (tptp.cellular_response_1 _let_156) (tptp.cellular_response_1 _let_155) (tptp.atom_1 _let_154) (tptp.chemical_entity_1 _let_154) (tptp.carbon_1 _let_153) (tptp.atom_1 _let_152) (tptp.chemical_entity_1 _let_152) (tptp.carbon_1 _let_152) (tptp.carbon_skeleton_1 _let_151) (tptp.carbon_skeleton_1 _let_150) (tptp.phosphorylation_1 _let_149) (tptp.phosphorylation_1 _let_147) (tptp.monomer_1 _let_146) (tptp.monomer_1 _let_145) (tptp.shape_value_1 _let_144) (tptp.shape_value_1 _let_143) (tptp.detach_1 _let_142) (tptp.detach_1 _let_141) (tptp.replace_1 _let_140) (tptp.replace_1 _let_139) (tptp.move_1 _let_138) (tptp.move_1 _let_137) (tptp.attach_1 _let_136) (tptp.make_accessible_1 _let_135) (tptp.activate_1 _let_135) (tptp.tangible_entity_1 _let_134) (tptp.membrane_protein_1 _let_134) (tptp.protein_1 _let_134) (tptp.spatial_entity_1 _let_134) (tptp.polymer_1 _let_134) (tptp.spatial_entity_1 _let_133) (tptp.polymer_1 _let_133) (tptp.tangible_entity_1 _let_133) (tptp.membrane_protein_1 _let_133) (tptp.protein_1 _let_133) (tptp.cell_surface_receptor_1 _let_132) (tptp.spatial_entity_1 _let_132) (tptp.polymer_1 _let_132) (tptp.receptor_protein_1 _let_132) (tptp.tangible_entity_1 _let_131) (tptp.membrane_protein_1 _let_131) (tptp.spatial_entity_1 _let_131) (tptp.polymer_1 _let_131) (tptp.protein_1 _let_131) (tptp.organic_molecule_1 _let_131) (tptp.tangible_entity_1 _let_130) (tptp.membrane_protein_1 _let_130) (tptp.protein_1 _let_130) (tptp.spatial_entity_1 _let_130) (tptp.polymer_1 _let_130) (tptp.g_protein_coupled_receptor_1 _let_129) (tptp.g_protein_coupled_receptor_1 _let_128) (tptp.cell_surface_receptor_1 _let_127) (tptp.spatial_entity_1 _let_127) (tptp.polymer_1 _let_127) (tptp.receptor_protein_1 _let_127) (tptp.g_protein_coupled_receptor_1 _let_127) (tptp.signal_reception_1 _let_126) (tptp.signal_reception_1 _let_125) (tptp.signal_reception_1 _let_124) (tptp.substance_1 _let_123) (tptp.cytosol_1 _let_123) (tptp.substance_1 _let_122) (tptp.cytosol_1 _let_122) (tptp.substance_1 _let_121) (tptp.cytosol_1 _let_121) (tptp.tangible_entity_1 _let_120) (tptp.membrane_protein_1 _let_120) (tptp.protein_1 _let_120) (tptp.tangible_entity_1 _let_119) (tptp.transmembrane_protein_1 _let_119) (tptp.integral_protein_1 _let_119) (tptp.transport_protein_1 _let_119) (tptp.protein_1 _let_118) (tptp.organic_molecule_1 _let_118) (tptp.polymer_1 _let_118) (tptp.spatial_entity_1 _let_118) (tptp.membrane_protein_1 _let_118) (tptp.tangible_entity_1 _let_118) (tptp.transmembrane_protein_1 _let_118) (tptp.integral_protein_1 _let_118) (tptp.transport_protein_1 _let_118) (tptp.sodium_potassium_pump_1 _let_118) (tptp.protein_1 _let_117) (tptp.organic_molecule_1 _let_117) (tptp.polymer_1 _let_117) (tptp.spatial_entity_1 _let_117) (tptp.membrane_protein_1 _let_117) (tptp.tangible_entity_1 _let_117) (tptp.transmembrane_protein_1 _let_117) (tptp.integral_protein_1 _let_117) (tptp.transport_protein_1 _let_117) (tptp.sodium_potassium_pump_1 _let_117) (tptp.mixture_1 _let_116) (tptp.cytoplasm_1 _let_116) (tptp.mixture_1 _let_115) (tptp.cytoplasm_1 _let_115) (tptp.mixture_1 _let_114) (tptp.cytoplasm_1 _let_114) (tptp.cell_1 _let_113) (tptp.animal_cell_1 _let_111) (tptp.cell_1 _let_110) (tptp.cell_1 _let_109) (tptp.move_through_1 _let_107) (tptp.move_1 _let_107) (tptp.move_1 _let_106) (tptp.move_through_1 _let_106) (tptp.move_through_1 _let_105) (tptp.move_through_1 _let_104) (tptp.move_through_1 _let_103) (tptp.move_through_1 _let_102) (tptp.move_through_1 _let_101) (tptp.move_1 _let_100) (tptp.move_through_1 _let_100) (tptp.move_1 _let_99) (tptp.move_through_1 _let_99) (tptp.cytoplasmic_side_1 _let_98) (tptp.cytoplasmic_side_1 _let_96) (tptp.surface_1 _let_95) (tptp.cytoplasmic_side_1 _let_95) (tptp.inside_face_1 _let_94) (tptp.cytoplasmic_side_1 _let_94) (tptp.surface_1 _let_93) (tptp.surface_1 _let_92) (tptp.outside_face_1 _let_92) (tptp.extracellular_side_1 _let_91) (tptp.outside_face_1 _let_90) (tptp.extracellular_side_1 _let_90) (tptp.outside_face_1 _let_89) (tptp.extracellular_side_1 _let_89) (tptp.surface_1 _let_89) (tptp.outside_face_1 _let_88) (tptp.extracellular_side_1 _let_88) (tptp.surface_1 _let_88) (tptp.membrane_protein_1 _let_87) (tptp.membrane_protein_1 _let_86) (tptp.membrane_protein_1 _let_85) (tptp.tangible_entity_1 _let_85) (tptp.transmembrane_protein_1 _let_85) (tptp.integral_protein_1 _let_85) (tptp.transport_protein_1 _let_85) (tptp.spatial_entity_1 _let_84) (tptp.membrane_protein_1 _let_84) (tptp.tangible_entity_1 _let_84) (tptp.transmembrane_protein_1 _let_84) (tptp.integral_protein_1 _let_84) (tptp.transport_protein_1 _let_84) (tptp.membrane_protein_1 _let_83) (tptp.tangible_entity_1 _let_83) (tptp.transmembrane_protein_1 _let_83) (tptp.integral_protein_1 _let_83) (tptp.transport_protein_1 _let_83) (tptp.spatial_entity_1 _let_82) (tptp.tangible_entity_1 _let_82) (tptp.transmembrane_protein_1 _let_82) (tptp.integral_protein_1 _let_82) (tptp.transport_protein_1 _let_82) (tptp.membrane_protein_1 _let_81) (tptp.tangible_entity_1 _let_81) (tptp.transmembrane_protein_1 _let_81) (tptp.integral_protein_1 _let_81) (tptp.transport_protein_1 _let_81) (tptp.polymer_1 _let_80) (tptp.spatial_entity_1 _let_80) (tptp.membrane_protein_1 _let_80) (tptp.tangible_entity_1 _let_80) (tptp.transmembrane_protein_1 _let_80) (tptp.integral_protein_1 _let_80) (tptp.transport_protein_1 _let_80) (tptp.tangible_entity_1 _let_79) (tptp.phospholipid_bilayer_1 _let_79) (tptp.tangible_entity_1 _let_78) (tptp.phospholipid_bilayer_1 _let_78) (tptp.tangible_entity_1 _let_77) (tptp.phospholipid_bilayer_1 _let_77) (tptp.tangible_entity_1 _let_76) (tptp.phospholipid_bilayer_1 _let_76) (tptp.tangible_entity_1 _let_75) (tptp.phospholipid_bilayer_1 _let_75) (tptp.tangible_entity_1 _let_74) (tptp.phospholipid_bilayer_1 _let_74) (tptp.tangible_entity_1 _let_73) (tptp.phospholipid_bilayer_1 _let_73) (tptp.tangible_entity_1 _let_72) (tptp.phospholipid_bilayer_1 _let_72) (tptp.tangible_entity_1 _let_71) (tptp.phospholipid_bilayer_1 _let_71) (tptp.tangible_entity_1 _let_70) (tptp.phospholipid_bilayer_1 _let_70) (tptp.tangible_entity_1 _let_69) (tptp.phospholipid_bilayer_1 _let_69) (tptp.tangible_entity_1 _let_68) (tptp.phospholipid_bilayer_1 _let_68) (tptp.tangible_entity_1 _let_67) (tptp.phospholipid_bilayer_1 _let_67) (tptp.biomembrane_1 _let_66) (tptp.biomembrane_1 _let_65) (tptp.biomembrane_1 _let_64) (tptp.biomembrane_1 _let_63) (tptp.plasma_membrane_1 _let_63) (tptp.spatial_entity_1 _let_62) (tptp.biomembrane_1 _let_62) (tptp.spatial_entity_1 _let_61) (tptp.membrane_1 _let_61) (tptp.biomembrane_1 _let_61) (tptp.spatial_entity_1 _let_60) (tptp.biomembrane_1 _let_60) (tptp.plasma_membrane_1 _let_60) (tptp.membrane_1 _let_59) (tptp.spatial_entity_1 _let_59) (tptp.biomembrane_1 _let_59) (tptp.spatial_entity_1 _let_58) (tptp.biomembrane_1 _let_58) (tptp.spatial_entity_1 _let_57) (tptp.biomembrane_1 _let_57) (tptp.membrane_1 _let_55) (tptp.spatial_entity_1 _let_55) (tptp.biomembrane_1 _let_55) (tptp.tangible_entity_1 _let_53) (tptp.spatial_entity_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.animal_plasma_membrane_1 _let_53) (tptp.plasma_membrane_1 _let_53) (tptp.tangible_entity_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.animal_plasma_membrane_1 _let_52) (tptp.plasma_membrane_1 _let_52) (tptp.golgi_apparatus_1 _let_51) (tptp.property_node_1 _let_46) (tptp.spatial_entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.polymer_1 _let_44) (tptp.organic_molecule_1 _let_44) (tptp.protein_1 _let_44) (tptp.molecule_1 _let_44) (tptp.g_protein_1 _let_44) (tptp.spatial_entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.polymer_1 _let_43) (tptp.organic_molecule_1 _let_43) (tptp.protein_1 _let_43) (tptp.molecule_1 _let_43) (tptp.g_protein_1 _let_43) (tptp.spatial_entity_1 _let_41) (tptp.polymer_1 _let_41) (tptp.protein_1 _let_41) (tptp.molecule_1 _let_41) (tptp.organic_molecule_1 _let_41) (tptp.g_protein_1 _let_41) (tptp.activate_1 _let_39) (tptp.make_accessible_1 _let_38) (tptp.activate_1 _let_38) (tptp.make_accessible_1 _let_37) (tptp.activate_1 _let_37) (tptp.attach_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.enzyme_1 _let_33) (tptp.adenylyl_cyclase_1 _let_33) (tptp.adenylyl_cyclase_1 _let_32) (tptp.synthesis_reaction_1 _let_30) (tptp.chemical_reaction_1 _let_30) (tptp.synthesis_of_organic_molecule_1 _let_30) (tptp.metabolic_pathway_1 _let_30) (tptp.synthesis_of_camp_1 _let_30) (tptp.signal_transduction_1 _let_28) (tptp.cell_signaling_event_1 _let_27) (tptp.signal_transduction_1 _let_27) (tptp.cell_signaling_event_1 _let_26) (tptp.signal_transduction_1 _let_26) (tptp.size_value_1 _let_22) (tptp.size_value_1 _let_20) (tptp.amp_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.organic_molecule_1 _let_17) (tptp.cyclic_amp_1 _let_17) (tptp.ligand_binding_1 _let_15) (tptp.ligand_binding_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.has_part_2 _let_215 _let_159) (tptp.has_state_2 _let_50 _let_206) (tptp.has_part_2 _let_50 _let_286) (tptp.has_part_2 _let_50 _let_298) (tptp.activation_2 _let_286 _let_305) (tptp.has_state_2 _let_286 _let_288) (tptp.activation_2 _let_288 _let_306) (tptp.the_categorical_value_2 _let_306 tptp.active_0) (tptp.the_categorical_value_2 _let_305 tptp.inactive_0) (tptp.is_across_2 _let_228 _let_19) (tptp.quantity_2 _let_97 _let_300) (= _let_300 _let_297) (tptp.called_2 _let_300 |tptp.'Quantity_GProtein'|) (tptp.called_2 _let_304 |tptp.'Quantity_PhosphorylaseKinase'|) (not (= _let_180 _let_177)) (not (= _let_180 _let_168)) (tptp.activation_2 _let_289 _let_302) (tptp.has_state_2 _let_289 _let_148) (tptp.quantity_2 _let_148 _let_304) (tptp.activation_2 _let_148 _let_303) (tptp.the_categorical_value_2 _let_303 tptp.active_0) (tptp.the_categorical_value_2 _let_302 tptp.inactive_0) (= _let_296 _let_301) (tptp.called_2 _let_296 |tptp.'Quantity_cAMP'|) (= _let_301 _let_296) (tptp.called_2 _let_301 |tptp.'Quantity_ProteinKinaseA'|) (tptp.quantity_2 _let_240 _let_301) (not (= _let_282 _let_159)) (tptp.called_2 _let_295 |tptp.'Quantity_GlycogenPhosphorylase'|) (tptp.site_2 _let_274 _let_215) (tptp.subevent_2 _let_274 _let_112) (tptp.agent_2 _let_112 _let_50) (= _let_297 _let_300) (tptp.called_2 _let_297 |tptp.'Quantity_AdenylylCyclase'|) (tptp.the_categorical_value_2 _let_294 tptp.active_0) (tptp.the_categorical_value_2 _let_299 tptp.inactive_0) (tptp.activation_2 _let_298 _let_299) (tptp.has_state_2 _let_298 _let_159) (not (= _let_168 _let_180)) (not (= _let_168 _let_177)) (tptp.raw_material_2 _let_168 _let_298) (tptp.quantity_2 _let_201 _let_297) (tptp.quantity_2 _let_189 _let_296) (tptp.agent_2 _let_277 _let_216) (not (= _let_216 _let_165)) (not (= _let_216 _let_56)) (not (= _let_216 _let_54)) (not (= _let_54 _let_216)) (not (= _let_54 _let_165)) (tptp.site_2 _let_200 _let_284) (tptp.minCardinality _let_199 tptp.subevent_0 |"1"| tptp.phosphorylation_0) (not (= _let_159 _let_282)) (tptp.quantity_2 _let_159 _let_295) (tptp.activation_2 _let_159 _let_294) (tptp.has_part_2 _let_159 _let_279) (tptp.quantity_2 _let_285 _let_292) (tptp.result_2 _let_293 _let_285) (not (= _let_56 _let_216)) (not (= _let_177 _let_180)) (not (= _let_177 _let_168)) (tptp.called_2 _let_292 |tptp.'Quantity_Glucose1Phosphate'|) (tptp.called_2 _let_291 |tptp.'Quantity_Epinephrine'|) (not (= _let_165 _let_216)) (not (= _let_165 _let_54)) (tptp.quantity_2 _let_165 _let_291) (tptp.object_2 _let_11 _let_165) (tptp.object_2 _let_9 _let_165) (tptp.result_2 _let_180 _let_148) (tptp.raw_material_2 _let_180 _let_289) (tptp.result_2 _let_177 _let_288) (tptp.result_2 _let_168 _let_159) (tptp.raw_material_2 _let_177 _let_286) (tptp.base_2 _let_112 _let_50) (tptp.has_part_2 _let_159 _let_280) (tptp.possesses_2 _let_159 _let_162) (tptp.result_2 _let_112 _let_285) (tptp.has_function_2 _let_148 _let_168) (tptp.has_region_2 _let_201 _let_284) (tptp.has_function_2 _let_159 _let_112) (tptp.raw_material_2 _let_168 _let_282) (tptp.in_event_2 _let_281 _let_11) (tptp.plays_2 _let_165 _let_281) (tptp.is_between_2 _let_162 _let_279) (not (= _let_279 _let_280)) (tptp.is_between_2 _let_162 _let_280) (not (= _let_280 _let_279)) (tptp.complement_2 _let_227 _let_165) (tptp.complement_2 _let_165 _let_227) (not (= _let_165 _let_227)) (not (= _let_227 _let_165)) (tptp.has_part_2 _let_19 _let_227) (tptp.is_at_2 _let_165 _let_212) (not (= _let_56 _let_165)) (not (= _let_165 _let_56)) (tptp.object_2 _let_226 _let_165) (tptp.is_at_2 _let_54 _let_211) (tptp.has_part_2 _let_19 _let_228) (not (= _let_228 _let_56)) (not (= _let_56 _let_54)) (not (= _let_227 _let_54)) (tptp.is_across_2 _let_227 _let_19) (not (= _let_56 _let_228)) (not (= _let_54 _let_56)) (not (= _let_54 _let_227)) (tptp.path_2 _let_277 _let_19) (tptp.has_part_2 _let_19 _let_54) (not (= _let_216 _let_227)) (tptp.size_2 _let_227 _let_193) (not (= _let_227 _let_216)) (tptp.facilitates_2 _let_56 _let_214) (tptp.agent_2 _let_214 _let_56) (tptp.base_2 _let_200 _let_50) (not (= _let_50 _let_228)) (not (= _let_228 _let_50)) (tptp.agent_2 _let_199 _let_50) (tptp.has_part_2 _let_50 _let_275) (tptp.next_event_2 _let_199 _let_274) (tptp.subevent_2 _let_199 _let_177) (tptp.subevent_2 _let_6 _let_274) (tptp.base_2 _let_274 _let_50) (tptp.is_inside_2 _let_275 _let_223) (tptp.object_2 _let_234 _let_207) (tptp.base_2 _let_199 _let_50) (tptp.object_2 _let_232 _let_207) (not (= _let_50 _let_227)) (not (= _let_227 _let_50)) (tptp.base_2 _let_226 _let_50) (tptp.base_2 _let_273 _let_97) (tptp.called_2 _let_273 |tptp.'AttachNew'|) (tptp.first_subevent_2 _let_233 _let_271) (tptp.subevent_2 _let_233 _let_271) (tptp.called_2 _let_271 |tptp.'RemoveOld'|) (tptp.base_2 _let_271 _let_97) (tptp.next_event_2 _let_271 _let_273) (tptp.subevent_2 _let_233 _let_273) (tptp.result_2 _let_233 _let_207) (tptp.agent_2 _let_203 _let_207) (tptp.base_2 _let_6 _let_50) (tptp.has_part_2 _let_50 _let_97) (tptp.has_region_2 _let_97 _let_268) (tptp.is_inside_2 _let_269 _let_268) (tptp.has_part_2 _let_97 _let_269) (tptp.subevent_2 _let_199 _let_168) (tptp.plays_2 _let_50 _let_209) (tptp.object_2 X _let_50) (tptp.destination_2 _let_198 _let_50) (tptp.by_means_of_2 _let_198 _let_9) (not (= _let_183 _let_50)) (not (= _let_50 _let_183)) (tptp.facilitates_2 _let_54 _let_214) (tptp.agent_2 _let_214 _let_54) (tptp.is_inside_2 _let_54 _let_211) (tptp.has_region_2 _let_97 _let_267) (tptp.is_at_2 _let_265 _let_267) (tptp.has_region_2 _let_97 _let_259) (tptp.is_at_2 _let_261 _let_259) (tptp.has_part_2 _let_263 _let_261) (tptp.has_part_2 _let_97 _let_263) (tptp.has_region_2 _let_97 _let_265) (tptp.shape_2 _let_227 _let_241) (tptp.base_2 _let_185 _let_227) (tptp.object_2 _let_255 _let_97) (tptp.possesses_2 _let_97 _let_249) (tptp.quantity_2 _let_249 _let_251) (tptp.directly_proportional_2 _let_253 _let_251) (tptp.speed_2 _let_255 _let_253) (tptp.size_2 _let_97 _let_247) (tptp.has_part_2 _let_97 _let_243) (tptp.size_2 _let_243 _let_245) (tptp.greater_than_2 _let_247 _let_245) (tptp.the_scalar_value_2 _let_247 tptp.big_0) (tptp.scalar_unit_class_2 _let_247 tptp.polypeptide_0) (tptp.called_2 _let_216 |tptp.'MP1'|) (tptp.is_at_2 _let_216 _let_19) (tptp.is_across_2 _let_216 _let_19) (tptp.called_2 _let_203 |tptp.'Acyclase'|) (tptp.object_2 _let_203 _let_228) (tptp.subevent_2 _let_199 _let_231) (tptp.called_2 _let_229 |tptp.'GPCR'|) (tptp.is_oriented_toward_2 _let_213 _let_215) (tptp.subevent_2 _let_199 _let_230) (tptp.called_2 _let_230 |tptp.'PKA'|) (tptp.first_subevent_2 _let_199 _let_229) (tptp.agent_2 _let_229 _let_189) (tptp.shape_2 _let_201 _let_241) (tptp.subevent_2 _let_199 _let_234) (tptp.subevent_2 _let_199 _let_180) (tptp.has_function_2 _let_240 _let_180) (tptp.next_event_2 _let_202 _let_203) (tptp.causes_2 _let_203 _let_238) (tptp.causes_2 _let_238 _let_236) (not (= _let_230 _let_203)) (not (= _let_203 _let_230)) (tptp.next_event_2 _let_234 _let_232) (tptp.subevent_2 _let_199 _let_232) (tptp.subevent_2 _let_199 _let_233) (tptp.next_event_2 _let_231 _let_233) (tptp.object_2 _let_231 _let_97) (tptp.base_2 _let_202 _let_228) (tptp.has_state_2 _let_228 _let_201) (tptp.base_2 _let_236 _let_201) (tptp.object_2 _let_236 _let_97) (tptp.result_2 _let_238 _let_97) (tptp.next_event_2 _let_233 _let_234) (tptp.base_2 _let_233 _let_97) (tptp.is_at_2 _let_97 _let_213) (tptp.is_facing_2 _let_213 _let_215) (tptp.site_2 _let_200 _let_215) (tptp.object_2 _let_229 _let_227) (tptp.has_function_2 _let_227 _let_226) (tptp.first_subevent_2 _let_6 _let_226) (not (= _let_201 _let_227)) (not (= _let_227 _let_201)) (tptp.next_event_2 _let_232 _let_202) (not (= _let_232 _let_233)) (not (= _let_233 _let_234)) (not (= _let_234 _let_232)) (not (= _let_232 _let_234)) (not (= _let_233 _let_232)) (not (= _let_234 _let_233)) (tptp.next_event_2 _let_229 _let_231) (not (= _let_231 _let_202)) (not (= _let_202 _let_233)) (not (= _let_202 _let_231)) (not (= _let_232 _let_202)) (not (= _let_202 _let_232)) (not (= _let_233 _let_202)) (tptp.next_event_2 _let_226 _let_199) (tptp.subevent_2 _let_199 _let_229) (not (= _let_229 _let_203)) (not (= _let_230 _let_229)) (not (= _let_229 _let_230)) (not (= _let_203 _let_229)) (tptp.subevent_2 _let_6 _let_226) (tptp.instrument_2 _let_226 _let_227) (not (= _let_227 _let_56)) (not (= _let_228 _let_227)) (not (= _let_227 _let_228)) (not (= _let_56 _let_227)) (tptp.has_region_2 _let_54 _let_212) (tptp.is_at_2 _let_216 _let_211) (tptp.called_2 _let_54 |tptp.'MP1'|) (tptp.has_region_2 _let_50 _let_218) (tptp.has_part_2 _let_50 _let_210) (tptp.size_2 _let_50 _let_222) (tptp.is_inside_2 _let_215 _let_19) (tptp.has_part_2 _let_215 _let_223) (tptp.is_across_2 _let_54 _let_19) (tptp.is_at_2 _let_54 _let_19) (tptp.has_part_2 _let_50 _let_19) (tptp.volume_2 _let_50 _let_220) (tptp.directly_proportional_2 _let_222 _let_220) (tptp.has_part_2 _let_50 _let_215) (tptp.is_between_2 _let_215 _let_19) (tptp.has_part_2 _let_19 _let_216) (tptp.is_inside_2 _let_216 _let_211) (tptp.is_at_2 _let_211 _let_218) (tptp.has_function_2 _let_19 _let_214) (tptp.is_across_2 _let_56 _let_19) (tptp.called_2 _let_56 |tptp.'MP2'|) (tptp.is_outside_2 _let_212 _let_19) (tptp.has_region_2 _let_19 _let_212) (tptp.has_region_2 _let_19 _let_213) (tptp.path_2 _let_214 _let_213) (tptp.base_2 _let_214 _let_19) (tptp.has_part_2 _let_19 _let_211) (tptp.is_inside_2 _let_56 _let_211) (tptp.is_at_2 _let_56 _let_19) (tptp.has_part_2 _let_19 _let_56) (tptp.is_at_2 _let_56 _let_211) (tptp.called_2 _let_188 |tptp.'Concentration_cAMP_SignalingCell'|) (tptp.is_inside_2 _let_210 _let_197) (tptp.called_2 _let_194 |tptp.'Concentration_cAMP_NormalCell'|) (tptp.result_2 _let_200 _let_189) (tptp.instrument_2 X _let_165) (tptp.in_event_2 _let_209 X) (tptp.has_part_2 _let_204 _let_190) (tptp.object_2 _let_202 _let_207) (tptp.has_state_2 _let_97 _let_207) (tptp.has_solute_2 _let_204 _let_190) (tptp.is_inside_2 _let_205 _let_204) (tptp.has_part_2 _let_206 _let_205) (tptp.has_function_2 _let_201 _let_200) (tptp.result_2 _let_202 _let_201) (tptp.subevent_2 _let_199 _let_202) (tptp.subevent_2 _let_199 _let_203) (tptp.result_2 _let_203 _let_201) (tptp.first_subevent_2 X _let_184) (tptp.subevent_2 X _let_198) (tptp.next_event_2 _let_198 _let_6) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_184) (tptp.next_event_2 _let_184 _let_198) (tptp.object_2 _let_198 _let_165) (tptp.agent_2 _let_6 _let_165) (tptp.subevent_2 _let_6 _let_199) (tptp.subevent_2 _let_199 _let_200) (tptp.concentration_2 _let_195 _let_194) (tptp.has_part_2 _let_196 _let_195) (tptp.has_solute_2 _let_197 _let_196) (tptp.has_part_2 _let_197 _let_196) (tptp.site_2 _let_185 _let_191) (tptp.is_outside_2 _let_165 _let_191) (tptp.size_2 _let_165 _let_192) (tptp.greater_than_2 _let_193 _let_192) (tptp.concentration_2 _let_189 _let_188) (tptp.has_part_2 _let_190 _let_189) (tptp.agent_2 X _let_183) (tptp.agent_2 _let_184 _let_183) (tptp.result_2 _let_184 _let_165) (tptp.has_function_2 _let_165 _let_185) (tptp.object_2 _let_185 _let_165) (= _let_165 _let_12) (= _let_165 _let_10) (= _let_148 _let_290) (= _let_289 _let_182) (= _let_289 _let_181) (= _let_288 _let_287) (= _let_159 _let_172) (= _let_286 _let_179) (= _let_286 _let_178) (= _let_50 _let_113) (= _let_112 _let_174) (= _let_280 _let_164) (= _let_162 _let_161) (= _let_162 _let_160) (= _let_285 _let_176) (= _let_285 _let_175) (= _let_168 _let_149) (= _let_284 _let_283) (= _let_159 _let_171) (= _let_112 _let_173) (= _let_282 _let_170) (= _let_282 _let_169) (= _let_281 _let_167) (= _let_281 _let_166) (= _let_280 _let_163) (= _let_279 _let_278) (= _let_212 _let_90) (= _let_165 _let_8) (= _let_226 _let_126) (= _let_227 _let_131) (= _let_54 _let_80) (= _let_56 _let_85) (= _let_228 _let_131) (= _let_277 _let_276) (= _let_227 _let_130) (= _let_214 _let_102) (= _let_177 _let_147) (= _let_199 _let_28) (= _let_275 _let_158) (= _let_223 _let_123) (= _let_275 _let_157) (= _let_274 _let_156) (= _let_274 _let_155) (= _let_234 _let_142) (= _let_199 _let_27) (= _let_232 _let_138) (= _let_203 _let_39) (= _let_207 _let_41) (= _let_233 _let_140) (= _let_273 _let_272) (= _let_271 _let_270) (= _let_269 _let_154) (= _let_269 _let_153) (= _let_269 _let_152) (= _let_268 _let_151) (= _let_268 _let_150) (= _let_97 _let_44) (= _let_50 _let_109) (= _let_168 _let_147) (= _let_209 _let_48) (= _let_9 (tptp.fn_cell_communication_with_endocrine_hormone_8 X)) (= _let_198 _let_24) (= _let_50 _let_108) (= _let_214 _let_103) (= _let_214 _let_100) (= _let_267 _let_266) (= _let_265 _let_264) (= _let_263 _let_262) (= _let_261 _let_260) (= _let_259 _let_258) (= _let_241 _let_144) (= _let_185 _let_14) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_145 X) _let_257) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_146 X) _let_256) (= _let_255 _let_254) (= _let_253 _let_252) (= _let_251 _let_250) (= _let_249 _let_248) (= _let_247 _let_246) (= _let_245 _let_244) (= _let_243 _let_146) (= _let_243 _let_145) (= _let_231 _let_35) (= _let_189 _let_17) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_105 X) _let_242) (= _let_241 _let_143) (= _let_240 _let_239) (= _let_180 _let_147) (= _let_230 _let_135) (= _let_203 _let_38) (= _let_238 _let_237) (= _let_236 _let_235) (= _let_228 _let_32) (= _let_213 _let_98) (= _let_213 _let_95) (= _let_97 _let_43) (= _let_201 _let_32) (= _let_234 _let_141) (= _let_233 _let_139) (= _let_232 _let_137) (= _let_202 _let_35) (= _let_231 _let_136) (= _let_203 _let_37) (= _let_229 _let_38) (= _let_230 _let_37) (= _let_229 _let_135) (= _let_227 _let_133) (= _let_56 _let_81) (= _let_227 _let_132) (= _let_228 _let_134) (= _let_227 _let_129) (= _let_228 _let_33) (= _let_227 _let_128) (= _let_227 _let_127) (= _let_226 _let_125) (= _let_226 _let_124) (= _let_212 _let_93) (= _let_54 _let_119) (= _let_212 _let_89) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_147 X) _let_225) (= _let_210 _let_51) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_148 X) _let_224) (= _let_223 _let_122) (= _let_223 _let_121) (= _let_222 _let_221) (= _let_220 _let_219) (= _let_50 _let_111) (= _let_54 _let_117) (= _let_218 _let_217) (= _let_216 _let_84) (= _let_211 _let_72) (= _let_211 _let_69) (= _let_211 _let_68) (= _let_216 _let_120) (= _let_216 _let_119) (= _let_19 _let_55) (= _let_19 _let_53) (= _let_216 _let_118) (= _let_216 _let_117) (= _let_19 _let_52) (= _let_215 _let_116) (= _let_50 _let_110) (= _let_215 _let_115) (= _let_215 _let_114) (= _let_214 _let_104) (= _let_214 _let_105) (= _let_214 _let_107) (= _let_19 _let_62) (= _let_214 _let_101) (= _let_19 _let_58) (= _let_214 _let_106) (= _let_214 _let_99) (= _let_213 _let_96) (= _let_213 _let_94) (= _let_212 _let_92) (= _let_212 _let_91) (= _let_212 _let_88) (= _let_19 _let_66) (= _let_56 _let_84) (= _let_56 _let_87) (= _let_56 _let_86) (= _let_19 _let_63) (= _let_56 _let_83) (= _let_211 _let_70) (= _let_56 _let_82) (= _let_56 _let_80) (= _let_211 _let_79) (= _let_211 _let_78) (= _let_19 _let_65) (= _let_211 _let_77) (= _let_19 _let_64) (= _let_211 _let_76) (= _let_19 _let_61) (= _let_211 _let_71) (= _let_19 _let_60) (= _let_211 _let_75) (= _let_19 _let_59) (= _let_211 _let_74) (= _let_19 _let_57) (= _let_211 _let_73) (= _let_211 _let_67) (= _let_210 _let_49) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_60 X) (tptp.fn_cell_communication_with_epinephrine_9 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_59 X) (tptp.fn_cell_communication_with_epinephrine_5 X)) (= _let_209 _let_47) (= _let_208 _let_46) (= _let_208 _let_45) (= _let_97 _let_42) (= _let_207 _let_40) (= _let_206 (tptp.fn_cell_communication_with_epinephrine_42 X)) (= _let_205 (tptp.fn_cell_communication_with_epinephrine_41 X)) (= _let_204 (tptp.fn_cell_communication_with_epinephrine_40 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_108 X) _let_187) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_109 X) (tptp.fn_cell_communication_with_epinephrine_2 X)) (= _let_203 _let_36) (= _let_202 _let_34) (= _let_201 _let_33) (= _let_201 _let_31) (= _let_200 _let_30) (= _let_200 _let_29) (= _let_199 _let_26) (= _let_199 _let_25) (= _let_6 (tptp.fn_cell_communication_with_epinephrine_43 X)) (= _let_198 _let_23) (= _let_197 (tptp.fn_cell_communication_with_epinephrine_18 X)) (= _let_196 (tptp.fn_cell_communication_with_epinephrine_48 X)) (= _let_195 (tptp.fn_cell_communication_with_epinephrine_19 X)) (= _let_194 (tptp.fn_cell_communication_with_epinephrine_6 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_45 X) (tptp.fn_cell_communication_with_epinephrine_12 X)) (= _let_193 _let_22) (= _let_192 _let_20) (= _let_193 _let_21) (= _let_192 _let_18) (= _let_191 (tptp.fn_cell_communication_with_epinephrine_7 X)) (= _let_190 (tptp.fn_cell_communication_with_epinephrine_47 X)) (= _let_189 _let_16) (= _let_188 (tptp.fn_cell_communication_with_epinephrine_8 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_106 X) _let_187) (= _let_186 (tptp.fn_cell_communication_with_epinephrine_3 X)) (= _let_165 _let_7) (= _let_185 _let_15) (= _let_185 _let_13) (= _let_165 _let_5) (= _let_184 _let_4) (= _let_184 _let_3) (= _let_183 _let_2) (= _let_183 _let_1) (= _let_182 _let_181) (= _let_181 _let_179) (= _let_179 _let_178) (= _let_178 _let_176) (= _let_176 _let_175) (= _let_175 _let_174) (= _let_174 _let_173) (= _let_173 _let_172) (= _let_172 _let_171) (= _let_171 _let_170) (= _let_170 _let_169) (= _let_169 _let_167) (= _let_167 _let_166) (= _let_166 _let_164) (= _let_164 _let_163) (= _let_163 _let_163) (= _let_163 _let_161) (= _let_161 _let_160) (= _let_160 _let_158) (= _let_157 _let_158) (= _let_158 _let_157) (= _let_157 _let_156) (= _let_155 _let_155) (= _let_155 _let_156) (= _let_156 _let_155) (= _let_155 _let_154) (= _let_154 _let_153) (= _let_153 _let_153) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_152 _let_151) (= _let_150 _let_151) (= _let_151 _let_150) (= _let_150 _let_149) (= _let_149 _let_147) (= _let_147 _let_145) (= _let_145 _let_146) (= _let_146 _let_145) (= _let_145 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_143 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_139 _let_139) (= _let_139 _let_138) (= _let_138 _let_137) (= _let_137 _let_137) (= _let_137 _let_35) (= _let_35 _let_136) (= _let_136 _let_136) (= _let_136 _let_37) (= _let_135 _let_37) (= _let_37 _let_135) (= _let_135 _let_38) (= _let_38 _let_135) (= _let_135 _let_135) (= _let_135 _let_134) (= _let_131 _let_134) (= _let_134 _let_131) (= _let_131 _let_32) (= _let_33 _let_133) (= _let_132 _let_133) (= _let_133 _let_132) (= _let_132 _let_131) (= _let_131 _let_132) (= _let_132 _let_132) (= _let_132 _let_130) (= _let_130 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_128 _let_128) (= _let_127 _let_127) (= _let_127 _let_128) (= _let_128 _let_127) (= _let_127 _let_125) (= _let_125 _let_126) (= _let_126 _let_125) (= _let_125 _let_125) (= _let_124 _let_124) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_121) (= _let_121 _let_80) (= _let_80 _let_119) (= _let_119 _let_80) (= _let_80 _let_117) (= _let_117 _let_117) (= _let_117 _let_120) (= _let_120 _let_84) (= _let_84 _let_120) (= _let_120 _let_119) (= _let_119 _let_84) (= _let_84 _let_84) (= _let_84 _let_119) (= _let_119 _let_119) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_115) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_114 _let_114) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_111) (= _let_110 _let_111) (= _let_111 _let_110) (= _let_110 _let_110) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_105) (= _let_105 _let_103) (= _let_103 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_103 _let_103) (= _let_103 _let_101) (= _let_101 _let_102) (= _let_102 _let_102) (= _let_102 _let_100) (= _let_100 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_96) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_90 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_81 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_75 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_71) (= _let_71 _let_69) (= _let_69 _let_70) (= _let_70 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_67 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_64) (= _let_64 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_63) (= _let_63 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_59) (= _let_59 _let_57) (= _let_58 _let_58) (= _let_58 _let_55) (= _let_55 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_53) (= _let_53 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_18 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_27 X))) (let ((_let_2 (tptp.fn_glycogen_breakdown_16 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_34 X))) (let ((_let_4 (tptp.fn_phosphorylation_2 _let_3))) (let ((_let_5 (tptp.fn_glycogen_breakdown_18 _let_1))) (let ((_let_6 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_7 (tptp.fn_phosphorylation_1 _let_3))) (let ((_let_8 (tptp.fn_phosphorylation_5 _let_3))) (let ((_let_9 (tptp.fn_cell_communication_with_epinephrine_21 X))) (let ((_let_10 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_24 X))) (let ((_let_11 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_59 _let_10))) (let ((_let_12 (tptp.fn_chemical_signaling_8 _let_10))) (let ((_let_13 (tptp.fn_cell_communication_with_epinephrine_8 X))) (let ((_let_14 (tptp.fn_cell_communication_with_epinephrine_6 X))) (let ((_let_15 (tptp.fn_cell_communication_with_epinephrine_20 X))) (let ((_let_16 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_25 X))) (let ((_let_17 (tptp.fn_cellular_response_3 _let_16))) (let ((_let_18 (tptp.fn_intracellular_process_1 _let_16))) (let ((_let_19 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_87 _let_10))) (let ((_let_20 (tptp.fn_chemical_signaling_6 _let_10))) (let ((_let_21 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_33 X))) (let ((_let_22 (tptp.fn_glycogen_phosphorylase_16 _let_21))) (let ((_let_23 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_28 X))) (let ((_let_24 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_32 X))) (let ((_let_25 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_10 X))) (let ((_let_26 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_30 X))) (let ((_let_27 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_39 X))) (let ((_let_28 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_38 X))) (let ((_let_29 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_36 X))) (let ((_let_30 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_17 X))) (let ((_let_31 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_15 X))) (let ((_let_32 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_14 X))) (let ((_let_33 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_31 X))) (let ((_let_34 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_16 X))) (let ((_let_35 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_22 X))) (let ((_let_36 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_23 X))) (let ((_let_37 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_11 X))) (let ((_let_38 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_37 X))) (let ((_let_39 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_19 X))) (let ((_let_40 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_21 X))) (let ((_let_41 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_12 X))) (let ((_let_42 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_13 X))) (let ((_let_43 (tptp.fn_cell_communication_with_epinephrine_24 X))) (let ((_let_44 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_20 X))) (let ((_let_45 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_26 X))) (let ((_let_46 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_18 X))) (let ((_let_47 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_56 _let_10))) (let ((_let_48 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_35 X))) (let ((_let_49 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_1 X))) (let ((_let_50 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_2 X))) (=> (tptp.cell_communication_with_epinephrine_in_muscle_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Epinephrine-In-Muscle-Cell'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animals in which the signal molecule is the hormone epinepherine and the target cell is a muscle cell.'|) (tptp.concept2words_2 X |tptp.'endocrine signaling with epinepherine in muscle cell'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with epinephrine in muscle cell'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-epinephrine-in-muscle-cell'|) (tptp.cell_communication_with_epinephrine_1 X) (tptp.quantity_value_1 _let_49) (tptp.quantity_value_1 _let_50) (tptp.signal_transmission_1 _let_25) (tptp.animal_cell_1 _let_37) (tptp.spatial_entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.polymer_1 _let_41) (tptp.organic_molecule_1 _let_41) (tptp.protein_1 _let_41) (tptp.molecule_1 _let_41) (tptp.g_protein_1 _let_41) (tptp.concentration_value_1 _let_42) (tptp.concentration_value_1 _let_32) (tptp.amp_1 _let_31) (tptp.organic_molecule_1 _let_31) (tptp.cyclic_amp_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.chemical_1 _let_34) (tptp.synthesis_reaction_1 _let_30) (tptp.chemical_reaction_1 _let_30) (tptp.synthesis_of_organic_molecule_1 _let_30) (tptp.metabolic_pathway_1 _let_30) (tptp.synthesis_of_camp_1 _let_30) (tptp.make_accessible_1 _let_46) (tptp.activate_1 _let_46) (tptp.attach_1 _let_39) (tptp.make_accessible_1 _let_44) (tptp.activate_1 _let_44) (tptp.spatial_entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.polymer_1 _let_40) (tptp.organic_molecule_1 _let_40) (tptp.protein_1 _let_40) (tptp.molecule_1 _let_40) (tptp.g_protein_1 _let_40) (tptp.substance_1 _let_35) (tptp.cytosol_1 _let_35) (tptp.solution_1 _let_35) (tptp.ribosome_1 _let_36) (tptp.eukaryotic_ribosome_1 _let_36) (tptp.chemical_signaling_1 _let_10) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_10) (tptp.cell_signaling_1 _let_10) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_10) (tptp.cell_signaling_with_camp_and_g_protein_coupled_receptor_1 _let_10) (tptp.cytoplasmic_response_1 _let_16) (tptp.muscle_cell_1 _let_45) (tptp.exergonic_reaction_1 _let_1) (tptp.glycogen_breakdown_1 _let_1) (tptp.chemical_entity_1 _let_23) (tptp.glucose_1_phosphate_1 _let_23) (tptp.epinephrine_1 _let_26) (tptp.system_1 _let_33) (tptp.glycogen_phosphorylase_1 _let_24) (tptp.chemical_entity_1 _let_21) (tptp.glycogen_phosphorylase_1 _let_21) (tptp.phosphorylation_1 _let_3) (tptp.phosphorylation_1 _let_48) (tptp.signal_transduction_1 _let_29) (tptp.cell_signaling_event_1 _let_29) (tptp.size_value_1 _let_38) (tptp.size_value_1 _let_28) (tptp.receptor_protein_1 _let_27) (tptp.phosphorylation_1 _let_47) (tptp.glycogen_breakdown_1 _let_22) (tptp.cellular_response_1 _let_20) (tptp.cellular_response_1 _let_19) (tptp.cell_1 _let_18) (tptp.cell_1 _let_17) (tptp.signal_transduction_1 _let_12) (tptp.cell_signaling_event_1 _let_11) (tptp.signal_transduction_1 _let_11) (tptp.chemical_entity_1 _let_8) (tptp.molecule_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.glucose_1_phosphate_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.glycogen_phosphorylase_1 _let_2) (tptp.subevent_2 _let_29 _let_3) (not (= _let_48 _let_3)) (not (= _let_3 _let_48)) (tptp.has_state_2 _let_24 _let_21) (tptp.quantity_2 _let_26 _let_50) (tptp.called_2 _let_50 |tptp.'Quantity_Epinephrine'|) (tptp.quantity_2 _let_23 _let_49) (tptp.called_2 _let_49 |tptp.'Quantity_Glucose1Phosphate'|) (tptp.subevent_2 _let_16 _let_1) (not (= _let_44 _let_46)) (not (= _let_46 _let_44)) (tptp.called_2 _let_32 |tptp.'Concentration_cAMP_SignalingCell'|) (tptp.called_2 _let_42 |tptp.'Concentration_cAMP_NormalCell'|) (tptp.base_2 _let_16 _let_45) (tptp.subevent_2 _let_10 _let_16) (tptp.next_event_2 _let_29 _let_16) (tptp.subevent_2 _let_29 _let_48) (tptp.base_2 _let_10 _let_45) (tptp.has_state_2 _let_45 _let_37) (tptp.destination_2 _let_25 _let_45) (tptp.subevent_2 _let_29 _let_46) (tptp.object_2 X _let_45) (tptp.agent_2 _let_29 _let_45) (tptp.base_2 _let_29 _let_45) (tptp.has_part_2 _let_45 _let_41) (tptp.subevent_2 _let_29 _let_44) (tptp.has_part_2 _let_35 _let_34) (tptp.subevent_2 _let_29 _let_39) (tptp.object_2 _let_39 _let_40) (tptp.has_state_2 _let_41 _let_40) (tptp.agent_2 _let_10 _let_26) (tptp.instrument_2 X _let_26) (tptp.subevent_2 X _let_10) (tptp.has_part_2 _let_34 _let_31) (tptp.has_solute_2 _let_35 _let_34) (tptp.is_inside_2 _let_36 _let_35) (tptp.has_part_2 _let_37 _let_36) (tptp.next_event_2 _let_25 _let_10) (tptp.subevent_2 _let_10 _let_29) (tptp.subevent_2 _let_29 _let_30) (tptp.result_2 _let_30 _let_31) (tptp.concentration_2 _let_31 _let_32) (tptp.subevent_2 X _let_25) (tptp.object_2 _let_25 _let_26) (tptp.has_function_2 _let_21 _let_1) (tptp.result_2 _let_1 _let_23) (tptp.raw_material_2 _let_3 _let_24) (tptp.result_2 _let_3 _let_21) (= _let_45 _let_18) (= _let_45 _let_17) (= _let_48 _let_47) (= _let_29 _let_12) (= _let_29 _let_11) (= _let_16 _let_20) (= _let_16 _let_19) (= _let_46 _let_43) (= _let_45 _let_15) (= _let_44 _let_43) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_41 X) (tptp.fn_cell_communication_with_epinephrine_12 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_9 X) (tptp.fn_cell_communication_with_epinephrine_9 X)) (= _let_42 _let_13) (= _let_41 (tptp.fn_cell_communication_with_epinephrine_22 X)) (= _let_40 (tptp.fn_cell_communication_with_epinephrine_23 X)) (= _let_39 (tptp.fn_cell_communication_with_epinephrine_25 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_40 X) (tptp.fn_cell_communication_with_epinephrine_11 X)) (= _let_38 (tptp.fn_cell_communication_with_epinephrine_34 X)) (= _let_37 (tptp.fn_cell_communication_with_epinephrine_42 X)) (= _let_36 (tptp.fn_cell_communication_with_epinephrine_41 X)) (= _let_35 (tptp.fn_cell_communication_with_epinephrine_40 X)) (= _let_34 (tptp.fn_cell_communication_with_epinephrine_47 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_8 X) (tptp.fn_cell_communication_with_epinephrine_5 X)) (= _let_32 _let_14) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_29 X) (tptp.fn_cell_communication_with_epinephrine_4 X)) (= (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_7 X) (tptp.fn_cell_communication_with_epinephrine_2 X)) (= _let_33 (tptp.fn_cell_communication_with_epinephrine_3 X)) (= _let_32 _let_13) (= _let_31 (tptp.fn_cell_communication_with_epinephrine_39 X)) (= _let_30 (tptp.fn_cell_communication_with_epinephrine_28 X)) (= _let_29 _let_9) (= _let_10 (tptp.fn_cell_communication_with_epinephrine_43 X)) (= _let_28 (tptp.fn_cell_communication_with_epinephrine_35 X)) (= _let_27 (tptp.fn_cell_communication_with_epinephrine_36 X)) (= _let_26 (tptp.fn_cell_communication_with_epinephrine_32 X)) (= _let_25 (tptp.fn_cell_communication_with_epinephrine_15 X)) (= _let_21 _let_4) (= _let_24 _let_8) (= _let_24 _let_7) (= _let_23 _let_6) (= _let_23 _let_5) (= _let_21 _let_2) (= _let_1 _let_22) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_estrogen_receptor_leading_to_cell_division_2 X))) (let ((_let_2 (tptp.fn_signal_reception_5 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_estrogen_receptor_leading_to_cell_division_4 X))) (let ((_let_4 (tptp.fn_signal_generation_5 _let_3))) (let ((_let_5 (tptp.fn_signal_reception_4 _let_1))) (let ((_let_6 (tptp.fn_cell_communication_with_estrogen_receptor_leading_to_cell_division_1 X))) (let ((_let_7 (tptp.fn_cell_communication_with_estrogen_receptor_leading_to_cell_division_3 X))) (=> (tptp.cell_communication_with_estrogen_receptor_leading_to_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Estrogen-Receptor-Leading-To-Cell-Division'|) (tptp.user_description_2 X |tptp.'Process of communication between and within cells which involves generation and delivery of an estrogen signal and the series of events leading to cell division as a response to that signal.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with estrogen receptor leading to cell division'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-estrogen-receptor-leading-to-cell-division'|) (tptp.cell_communication_leading_to_cell_division_1 X) (tptp.estrogen_receptor_1 _let_6) (tptp.signal_reception_1 _let_1) (tptp.estrogen_1 _let_7) (tptp.signal_generation_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.polymer_1 _let_5) (tptp.receptor_protein_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.result_2 _let_3 _let_7) (tptp.object_2 _let_1 _let_7) (tptp.instrument_2 _let_1 _let_6) (tptp.subevent_2 X _let_3) (tptp.first_subevent_2 X _let_3) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_3 (tptp.fn_cell_communication_5 X)) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_ethylene_5 X))) (let ((_let_2 (tptp.fn_cell_signaling_2 _let_1))) (let ((_let_3 (tptp.fn_hormonal_signaling_in_plant_8 X))) (let ((_let_4 (tptp.fn_cell_signaling_3 _let_1))) (let ((_let_5 (tptp.fn_hormonal_signaling_in_plant_11 X))) (let ((_let_6 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_7 (tptp.fn_hormonal_signaling_in_plant_12 X))) (let ((_let_8 (tptp.fn_cell_communication_with_ethylene_10 X))) (let ((_let_9 (tptp.fn_plant_20 _let_8))) (let ((_let_10 (tptp.fn_hormonal_signaling_in_plant_4 X))) (let ((_let_11 (tptp.fn_cell_communication_with_ethylene_15 X))) (let ((_let_12 (tptp.fn_release_2 _let_11))) (let ((_let_13 (tptp.fn_cell_communication_with_ethylene_11 X))) (let ((_let_14 (tptp.fn_signal_reception_4 _let_13))) (let ((_let_15 (tptp.fn_hormonal_signaling_in_plant_17 X))) (let ((_let_16 (tptp.fn_signal_reception_6 _let_13))) (let ((_let_17 (tptp.fn_hormonal_signaling_in_plant_16 X))) (let ((_let_18 (tptp.fn_signal_reception_7 _let_13))) (let ((_let_19 (tptp.fn_hormonal_signaling_in_plant_14 X))) (let ((_let_20 (tptp.fn_signal_reception_8 _let_13))) (let ((_let_21 (tptp.fn_hormonal_signaling_in_plant_15 X))) (let ((_let_22 (tptp.fn_hormonal_signaling_in_plant_10 X))) (let ((_let_23 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_24 (tptp.fn_cell_communication_with_ethylene_14 X))) (let ((_let_25 (tptp.fn_signal_transmission_5 _let_24))) (let ((_let_26 (tptp.fn_signal_reception_3 _let_13))) (let ((_let_27 (tptp.fn_hormonal_signaling_in_plant_3 X))) (let ((_let_28 (tptp.fn_cell_signaling_5 _let_1))) (let ((_let_29 (tptp.fn_signal_reception_5 _let_13))) (let ((_let_30 (tptp.fn_signal_transmission_3 _let_24))) (let ((_let_31 (tptp.fn_release_1 _let_11))) (let ((_let_32 (tptp.fn_cell_communication_with_ethylene_17 X))) (let ((_let_33 (tptp.fn_move_1 _let_32))) (let ((_let_34 (tptp.fn_hormonal_signaling_in_plant_6 X))) (let ((_let_35 (tptp.fn_signal_reception_1 _let_13))) (let ((_let_36 (tptp.fn_cell_communication_with_ethylene_9 X))) (let ((_let_37 (tptp.fn_cell_communication_with_ethylene_8 X))) (let ((_let_38 (tptp.fn_cell_communication_with_ethylene_13 X))) (let ((_let_39 (tptp.fn_cell_communication_with_ethylene_18 X))) (let ((_let_40 (tptp.fn_cell_communication_with_ethylene_21 X))) (let ((_let_41 (tptp.fn_cell_communication_with_ethylene_19 X))) (let ((_let_42 (tptp.fn_cell_communication_with_ethylene_20 X))) (let ((_let_43 (tptp.fn_cell_communication_with_ethylene_4 X))) (let ((_let_44 (tptp.fn_cell_communication_with_ethylene_3 X))) (let ((_let_45 (tptp.fn_cell_communication_with_ethylene_2 X))) (let ((_let_46 (tptp.fn_cell_communication_with_ethylene_16 X))) (let ((_let_47 (tptp.fn_cell_communication_with_ethylene_12 X))) (let ((_let_48 (tptp.fn_cell_communication_with_ethylene_7 X))) (let ((_let_49 (tptp.fn_cell_communication_with_ethylene_6 X))) (let ((_let_50 (tptp.fn_release_3 _let_11))) (let ((_let_51 (tptp.fn_cell_communication_with_ethylene_22 X))) (let ((_let_52 (tptp.fn_cell_communication_with_ethylene_1 X))) (=> (tptp.cell_communication_with_ethylene_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Ethylene'|) (tptp.user_description_2 X |tptp.'Process of communication between plant cells which uses ethylene as the signaling molecule.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with ethylene'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-ethylene'|) (tptp.hormonal_signaling_in_plant_1 X) (tptp.air_1 _let_52) (tptp.secretion_1 _let_45) (tptp.secretor_1 _let_44) (tptp.signal_generation_1 _let_43) (tptp.cell_signaling_1 _let_1) (tptp.transmit_1 _let_49) (tptp.signal_1 _let_48) (tptp.cellular_response_1 _let_37) (tptp.signal_transduction_1 _let_36) (tptp.plant_1 _let_8) (tptp.signal_reception_1 _let_13) (tptp.ethylene_1 _let_47) (tptp.tangible_entity_1 _let_38) (tptp.living_entity_1 _let_38) (tptp.plant_cell_1 _let_38) (tptp.cell_1 _let_38) (tptp.eukaryotic_cell_1 _let_38) (tptp.signal_transmission_1 _let_24) (tptp.release_1 _let_11) (tptp.tangible_entity_1 _let_46) (tptp.eukaryotic_cell_1 _let_46) (tptp.cell_1 _let_46) (tptp.plant_cell_1 _let_46) (tptp.move_1 _let_32) (tptp.spatial_entity_1 _let_39) (tptp.polymer_1 _let_39) (tptp.receptor_protein_1 _let_39) (tptp.monomer_1 _let_41) (tptp.monomer_1 _let_42) (tptp.ligand_binding_1 _let_40) (tptp.container_1 _let_51) (tptp.container_1 _let_50) (tptp.signal_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_28) (tptp.cell_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.cell_1 _let_25) (tptp.cell_1 _let_23) (tptp.monomer_1 _let_20) (tptp.monomer_1 _let_18) (tptp.ligand_binding_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.receptor_protein_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.plant_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.eukaryotic_cell_1 _let_9) (tptp.cellular_response_1 _let_6) (tptp.signal_transduction_1 _let_4) (tptp.signal_reception_1 _let_2) (tptp.next_event_2 _let_43 _let_24) (tptp.is_inside_2 _let_52 _let_8) (tptp.subevent_2 X _let_24) (tptp.base_2 X _let_38) (tptp.next_event_2 _let_24 _let_1) (tptp.subevent_2 _let_24 _let_32) (tptp.subevent_2 _let_24 _let_11) (tptp.next_event_2 _let_11 _let_32) (tptp.path_2 _let_32 _let_52) (tptp.destination_2 _let_32 _let_46) (tptp.object_2 _let_32 _let_47) (tptp.object_2 _let_11 _let_47) (tptp.object_2 _let_24 _let_47) (tptp.destination_2 _let_24 _let_46) (tptp.base_2 _let_11 _let_38) (tptp.plays_2 _let_38 _let_51) (tptp.in_event_2 _let_51 _let_11) (tptp.object_2 _let_13 _let_47) (tptp.object_2 _let_49 _let_47) (tptp.complement_2 _let_39 _let_47) (tptp.complement_2 _let_47 _let_39) (tptp.agent_2 _let_1 _let_47) (not (= _let_41 _let_47)) (not (= _let_47 _let_41)) (tptp.result_2 _let_43 _let_47) (not (= _let_42 _let_47)) (not (= _let_47 _let_42)) (tptp.object_2 _let_45 _let_47) (tptp.instrument_2 X _let_47) (tptp.has_function_2 _let_47 _let_40) (tptp.object_2 _let_40 _let_47) (tptp.plays_2 _let_47 _let_48) (tptp.in_event_2 _let_48 _let_49) (tptp.base_2 _let_36 _let_46) (tptp.base_2 _let_13 _let_46) (tptp.object_2 X _let_46) (tptp.base_2 _let_37 _let_46) (tptp.first_subevent_2 X _let_43) (tptp.experiencer_2 X _let_8) (tptp.has_part_2 _let_8 _let_46) (tptp.base_2 _let_1 _let_46) (tptp.base_2 _let_43 _let_38) (tptp.agent_2 X _let_38) (tptp.subevent_2 X _let_1) (not (= _let_46 _let_38)) (not (= _let_38 _let_46)) (tptp.subevent_2 X _let_43) (tptp.agent_2 _let_43 _let_38) (tptp.plays_2 _let_38 _let_44) (tptp.in_event_2 _let_44 _let_45) (tptp.base_2 _let_45 _let_38) (tptp.has_part_2 _let_39 _let_42) (tptp.instrument_2 _let_13 _let_39) (tptp.has_function_2 _let_39 _let_13) (tptp.subevent_2 _let_13 _let_40) (tptp.base_2 _let_40 _let_39) (tptp.has_part_2 _let_39 _let_41) (tptp.subevent_2 _let_1 _let_36) (tptp.subevent_2 _let_1 _let_37) (tptp.next_event_2 _let_36 _let_37) (tptp.next_event_2 _let_13 _let_36) (tptp.subevent_2 _let_1 _let_13) (tptp.first_subevent_2 _let_1 _let_13) (tptp.has_part_2 _let_8 _let_38) (= _let_47 _let_33) (= _let_47 _let_31) (= _let_47 _let_30) (= _let_46 _let_25) (= _let_38 _let_12) (= _let_51 _let_50) (= _let_39 _let_15) (= _let_47 _let_28) (= _let_41 _let_19) (= _let_42 _let_21) (= _let_49 (tptp.fn_hormonal_signaling_in_plant_7 X)) (= _let_48 _let_35) (= _let_48 _let_34) (= _let_47 _let_29) (= _let_40 _let_17) (= _let_47 _let_27) (= _let_36 _let_5) (= _let_46 _let_26) (= _let_13 _let_3) (= _let_37 _let_7) (= _let_46 _let_23) (= _let_8 (tptp.fn_hormonal_signaling_in_plant_1 X)) (= _let_1 (tptp.fn_hormonal_signaling_in_plant_9 X)) (= _let_46 _let_22) (= _let_45 (tptp.fn_hormonal_signaling_in_plant_5 X)) (= _let_44 (tptp.fn_hormonal_signaling_in_plant_13 X)) (= _let_38 _let_10) (= _let_43 (tptp.fn_hormonal_signaling_in_plant_2 X)) (= _let_42 _let_20) (= _let_41 _let_18) (= _let_40 _let_16) (= _let_39 _let_14) (= _let_38 _let_9) (= _let_37 _let_6) (= _let_36 _let_4) (= _let_13 _let_2) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_11 X))) (let ((_let_2 (tptp.fn_signal_reception_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_ethylene_18 X))) (let ((_let_4 (tptp.fn_signal_reception_7 _let_1))) (let ((_let_5 (tptp.fn_cell_communication_with_ethylene_19 X))) (let ((_let_6 (tptp.fn_cell_communication_with_ethylene_11 X))) (let ((_let_7 (tptp.fn_hormonal_signaling_in_plant_8 X))) (let ((_let_8 (tptp.fn_signal_reception_8 _let_1))) (let ((_let_9 (tptp.fn_cell_communication_with_ethylene_20 X))) (let ((_let_10 (tptp.fn_cell_communication_with_ethylene_12 X))) (let ((_let_11 (tptp.fn_signal_reception_5 _let_1))) (let ((_let_12 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_7 X))) (let ((_let_13 (tptp.fn_move_1 _let_12))) (let ((_let_14 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_16 X))) (let ((_let_15 (tptp.fn_create_1 _let_14))) (let ((_let_16 (tptp.fn_cell_communication_with_ethylene_16 X))) (let ((_let_17 (tptp.fn_hormonal_signaling_in_plant_10 X))) (let ((_let_18 (tptp.fn_signal_reception_3 _let_1))) (let ((_let_19 (tptp.fn_cell_communication_with_ethylene_5 X))) (let ((_let_20 (tptp.fn_hormonal_signaling_in_plant_9 X))) (let ((_let_21 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_5 X))) (let ((_let_22 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_19 X))) (let ((_let_23 (tptp.fn_signal_reception_6 _let_1))) (let ((_let_24 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_13 X))) (let ((_let_25 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_4 X))) (let ((_let_26 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_8 X))) (let ((_let_27 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_10 X))) (let ((_let_28 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_6 X))) (let ((_let_29 (tptp.fn_cell_communication_with_ethylene_17 X))) (let ((_let_30 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_22 X))) (let ((_let_31 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_20 X))) (let ((_let_32 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_15 X))) (let ((_let_33 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_14 X))) (let ((_let_34 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_9 X))) (let ((_let_35 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_18 X))) (let ((_let_36 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_21 X))) (let ((_let_37 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_12 X))) (let ((_let_38 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_17 X))) (let ((_let_39 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_2 X))) (let ((_let_40 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_1 X))) (let ((_let_41 (tptp.fn_cell_communication_with_ethylene_in_vascular_plants_3 X))) (=> (tptp.cell_communication_with_ethylene_in_vascular_plants_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Ethylene-In-Vascular-Plants'|) (tptp.user_description_2 X |tptp.'Process of communication between vascular plant cells which uses ethylene as the signaling molecule.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with ethylene in vascular plant'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-ethylene-in-vascular-plant'|) (tptp.cell_communication_with_ethylene_1 X) (tptp.time_interval_1 _let_40) (tptp.time_interval_1 _let_39) (tptp.vascular_tissue_1 _let_41) (tptp.monomer_1 _let_25) (tptp.monomer_1 _let_21) (tptp.signal_transmission_1 _let_28) (tptp.move_1 _let_12) (tptp.signal_generation_1 _let_26) (tptp.cell_signaling_1 _let_34) (tptp.entity_1 _let_27) (tptp.spatial_entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.ethylene_1 _let_27) (tptp.signal_reception_1 _let_1) (tptp.secretion_1 _let_37) (tptp.ligand_binding_1 _let_24) (tptp.transmit_1 _let_33) (tptp.signal_1 _let_32) (tptp.produce_1 _let_14) (tptp.vascular_plant_1 _let_38) (tptp.signal_transduction_1 _let_35) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.receptor_protein_1 _let_22) (tptp.release_1 _let_31) (tptp.move_1 _let_36) (tptp.tangible_entity_1 _let_30) (tptp.eukaryotic_cell_1 _let_30) (tptp.cell_1 _let_30) (tptp.plant_cell_1 _let_30) (tptp.ligand_binding_1 _let_23) (tptp.cell_1 _let_18) (tptp.entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.monomer_1 _let_8) (tptp.monomer_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.polymer_1 _let_2) (tptp.receptor_protein_1 _let_2) (tptp.destination_2 _let_36 _let_30) (tptp.path_2 _let_36 _let_41) (not (= _let_36 _let_12)) (tptp.time_during_2 _let_35 _let_39) (tptp.has_part_2 _let_38 _let_41) (tptp.subevent_2 _let_37 _let_14) (tptp.time_during_2 _let_1 _let_40) (tptp.time_before_2 _let_40 _let_39) (not (= _let_12 _let_36)) (tptp.subevent_2 _let_28 _let_36) (tptp.result_2 _let_14 _let_27) (tptp.object_2 _let_12 _let_27) (tptp.has_function_2 _let_27 _let_24) (tptp.object_2 _let_24 _let_27) (tptp.experiencer_2 X _let_38) (tptp.has_part_2 _let_38 _let_30) (tptp.base_2 _let_1 _let_30) (tptp.subevent_2 X _let_28) (tptp.object_2 _let_31 _let_27) (tptp.object_2 _let_37 _let_27) (tptp.object_2 _let_36 _let_27) (tptp.subevent_2 _let_34 _let_35) (tptp.base_2 _let_34 _let_30) (tptp.base_2 _let_35 _let_30) (tptp.next_event_2 _let_1 _let_35) (tptp.first_subevent_2 _let_34 _let_1) (tptp.subevent_2 X _let_34) (tptp.first_subevent_2 X _let_26) (tptp.agent_2 _let_34 _let_27) (tptp.subevent_2 _let_34 _let_1) (tptp.object_2 _let_1 _let_27) (tptp.instrument_2 X _let_27) (tptp.object_2 X _let_30) (tptp.plays_2 _let_27 _let_32) (tptp.in_event_2 _let_32 _let_33) (tptp.object_2 _let_33 _let_27) (tptp.complement_2 _let_27 _let_22) (tptp.complement_2 _let_22 _let_27) (tptp.object_2 _let_28 _let_27) (tptp.subevent_2 _let_28 _let_12) (tptp.destination_2 _let_12 _let_30) (tptp.destination_2 _let_28 _let_30) (tptp.subevent_2 _let_28 _let_31) (tptp.subevent_2 X _let_26) (tptp.result_2 _let_26 _let_27) (not (= _let_27 _let_21)) (not (= _let_25 _let_27)) (not (= _let_27 _let_25)) (not (= _let_21 _let_27)) (tptp.has_part_2 _let_22 _let_25) (tptp.base_2 _let_24 _let_22) (tptp.subevent_2 _let_1 _let_24) (tptp.has_function_2 _let_22 _let_1) (tptp.instrument_2 _let_1 _let_22) (tptp.has_part_2 _let_22 _let_21) (= _let_27 _let_15) (= _let_27 _let_13) (= _let_30 _let_18) (= _let_38 (tptp.fn_hormonal_signaling_in_plant_1 X)) (= _let_37 (tptp.fn_cell_communication_with_ethylene_2 X)) (= _let_36 _let_29) (= _let_30 _let_17) (= _let_35 (tptp.fn_cell_communication_with_ethylene_9 X)) (= _let_34 _let_20) (= _let_1 _let_7) (= _let_1 _let_6) (= _let_34 _let_19) (= _let_33 (tptp.fn_cell_communication_with_ethylene_6 X)) (= _let_32 (tptp.fn_cell_communication_with_ethylene_7 X)) (= _let_22 _let_3) (= _let_31 (tptp.fn_cell_communication_with_ethylene_15 X)) (= _let_30 _let_16) (= _let_12 _let_29) (= _let_28 (tptp.fn_cell_communication_with_ethylene_14 X)) (= _let_21 _let_5) (= _let_27 _let_11) (= _let_25 _let_4) (= _let_25 _let_9) (= _let_27 _let_10) (= _let_26 (tptp.fn_cell_communication_with_ethylene_4 X)) (= _let_25 _let_8) (= _let_24 _let_23) (= _let_22 _let_2) (= _let_21 _let_4) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_4) (= _let_9 _let_4) (= _let_4 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_18 X))) (let ((_let_2 (tptp.fn_cell_signaling_3 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_leading_to_apoptosis_5 X))) (let ((_let_4 (tptp.fn_cell_signaling_5 _let_1))) (let ((_let_5 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_26 X))) (let ((_let_6 (tptp.fn_signal_reception_5 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_34 X))) (let ((_let_8 (tptp.fn_signal_generation_5 _let_7))) (let ((_let_9 (tptp.fn_cell_communication_leading_to_apoptosis_2 X))) (let ((_let_10 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_28 X))) (let ((_let_11 (tptp.fn_ligand_binding_3 _let_10))) (let ((_let_12 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_31 X))) (let ((_let_13 (tptp.fn_transmit_2 _let_12))) (let ((_let_14 (tptp.fn_signal_reception_4 _let_5))) (let ((_let_15 (tptp.fn_attach_2 _let_10))) (let ((_let_16 (tptp.fn_signal_reception_3 _let_5))) (let ((_let_17 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_18 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_19 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_25 X))) (let ((_let_20 (tptp.fn_cell_signaling_event_1 _let_19))) (let ((_let_21 (tptp.fn_signal_generation_4 _let_7))) (let ((_let_22 (tptp.fn_cell_communication_3 X))) (let ((_let_23 (tptp.fn_cell_communication_leading_to_apoptosis_1 X))) (let ((_let_24 (tptp.fn_transmit_1 _let_12))) (let ((_let_25 (tptp.fn_cell_signaling_2 _let_1))) (let ((_let_26 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_33 X))) (let ((_let_27 (tptp.fn_signal_reception_6 _let_5))) (let ((_let_28 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_27 X))) (let ((_let_29 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_30 X))) (let ((_let_30 (tptp.fn_signal_transduction_6 _let_19))) (let ((_let_31 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_19 X))) (let ((_let_32 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_29 X))) (let ((_let_33 (tptp.fn_make_accessible_1 _let_31))) (let ((_let_34 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_22 X))) (let ((_let_35 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_32 X))) (let ((_let_36 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_20 X))) (let ((_let_37 (tptp.fn_make_accessible_1 _let_36))) (let ((_let_38 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_21 X))) (let ((_let_39 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_24 X))) (let ((_let_40 (tptp.fn_make_accessible_1 _let_39))) (let ((_let_41 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_23 X))) (let ((_let_42 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_16 X))) (let ((_let_43 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_17 X))) (let ((_let_44 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_13 X))) (let ((_let_45 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_8 X))) (let ((_let_46 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_5 X))) (let ((_let_47 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_15 X))) (let ((_let_48 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_14 X))) (let ((_let_49 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_10 X))) (let ((_let_50 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_9 X))) (let ((_let_51 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_7 X))) (let ((_let_52 (tptp.fn_cell_communication_with_external_signal_leading_to_apoptosis_6 X))) (=> (tptp.cell_communication_with_external_signal_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-External-Signal-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Series of events which leads to programmed cell death (apoptosis) in a cell; in this case, the signal for apoptosis is generated externally by another cell.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication with external signal leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-external-signal-leading-to-apoptosis'|) (tptp.intercellular_process_1 X) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.protease_1 _let_46) (tptp.activation_value_1 _let_52) (tptp.activation_value_1 _let_51) (tptp.nuclease_1 _let_45) (tptp.activation_value_1 _let_50) (tptp.activation_value_1 _let_49) (tptp.caspase_1 _let_44) (tptp.activation_value_1 _let_48) (tptp.activation_value_1 _let_47) (tptp.organelle_1 _let_42) (tptp.eukaryotic_cell_1 _let_43) (tptp.cell_signaling_1 _let_1) (tptp.make_accessible_1 _let_31) (tptp.activate_1 _let_31) (tptp.activate_1 _let_36) (tptp.protease_1 _let_38) (tptp.nuclease_1 _let_34) (tptp.caspase_1 _let_41) (tptp.activate_1 _let_39) (tptp.cell_signaling_event_1 _let_19) (tptp.signal_transduction_1 _let_19) (tptp.signal_reception_1 _let_5) (tptp.cell_surface_receptor_1 _let_28) (tptp.attach_1 _let_10) (tptp.ligand_binding_1 _let_10) (tptp.eukaryotic_cell_1 _let_32) (tptp.eukaryotic_cell_1 _let_29) (tptp.transmit_1 _let_12) (tptp.signal_1 _let_35) (tptp.death_signal_1 _let_35) (tptp.tangible_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.signal_generation_1 _let_7) (tptp.entity_1 _let_40) (tptp.entity_1 _let_37) (tptp.entity_1 _let_33) (tptp.activate_1 _let_30) (tptp.ligand_binding_1 _let_27) (tptp.signal_reception_1 _let_25) (tptp.signal_1 _let_24) (tptp.cell_1 _let_21) (tptp.cell_1 _let_20) (tptp.cell_1 _let_18) (tptp.cell_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.receptor_protein_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.signal_transduction_1 _let_2) (not (= _let_31 _let_39)) (not (= _let_31 _let_36)) (tptp.result_2 _let_31 _let_45) (not (= _let_36 _let_31)) (not (= _let_36 _let_39)) (tptp.result_2 _let_36 _let_46) (tptp.activation_2 _let_46 _let_51) (tptp.has_state_2 _let_38 _let_46) (tptp.activation_2 _let_38 _let_52) (tptp.the_categorical_value_2 _let_52 tptp.inactive_0) (tptp.the_categorical_value_2 _let_51 tptp.active_0) (tptp.activation_2 _let_34 _let_49) (tptp.has_state_2 _let_34 _let_45) (tptp.activation_2 _let_45 _let_50) (tptp.the_categorical_value_2 _let_50 tptp.active_0) (tptp.the_categorical_value_2 _let_49 tptp.inactive_0) (tptp.activation_2 _let_41 _let_47) (tptp.has_state_2 _let_41 _let_44) (tptp.activation_2 _let_44 _let_48) (tptp.the_categorical_value_2 _let_48 tptp.active_0) (tptp.the_categorical_value_2 _let_47 tptp.inactive_0) (not (= _let_39 _let_31)) (not (= _let_39 _let_36)) (tptp.result_2 _let_39 _let_44) (tptp.subevent_2 _let_19 _let_36) (tptp.subevent_2 _let_19 _let_39) (tptp.agent_2 _let_19 _let_29) (tptp.recipient_2 _let_5 _let_29) (tptp.causes_2 _let_10 _let_39) (tptp.is_near_2 _let_32 _let_29) (tptp.has_part_2 _let_29 _let_38) (tptp.has_part_2 _let_29 _let_34) (tptp.has_part_2 _let_29 _let_41) (tptp.is_near_2 _let_29 _let_32) (tptp.has_state_2 _let_29 _let_43) (tptp.base_2 X _let_32) (tptp.has_part_2 _let_43 _let_46) (tptp.has_part_2 _let_43 _let_45) (tptp.has_part_2 _let_43 _let_44) (tptp.has_part_2 _let_43 _let_42) (tptp.object_2 _let_39 _let_41) (tptp.object_2 _let_36 _let_38) (tptp.object_2 _let_12 _let_26) (tptp.in_event_2 _let_35 _let_12) (tptp.first_subevent_2 X _let_7) (tptp.agent_2 _let_7 _let_32) (tptp.agent_2 X _let_32) (tptp.subevent_2 X _let_7) (tptp.base_2 _let_19 _let_29) (tptp.subevent_2 X _let_1) (tptp.base_2 _let_1 _let_29) (tptp.object_2 X _let_29) (tptp.instrument_2 X _let_26) (tptp.plays_2 _let_26 _let_35) (tptp.result_2 _let_7 _let_26) (tptp.subevent_2 _let_1 _let_5) (tptp.agent_2 _let_1 _let_26) (tptp.object_2 _let_5 _let_26) (tptp.next_event_2 _let_5 _let_19) (tptp.subevent_2 _let_1 _let_19) (tptp.first_subevent_2 _let_1 _let_5) (tptp.complement_2 _let_28 _let_26) (tptp.base_2 _let_5 _let_29) (tptp.instrument_2 _let_5 _let_28) (tptp.complement_2 _let_26 _let_28) (tptp.object_2 _let_10 _let_26) (tptp.subevent_2 _let_5 _let_10) (tptp.subevent_2 _let_19 _let_31) (tptp.base_2 _let_7 _let_32) (tptp.base_2 _let_10 _let_28) (tptp.object_2 _let_31 _let_34) (= _let_41 _let_40) (= _let_38 _let_37) (= _let_26 _let_13) (= _let_35 _let_24) (= _let_32 _let_22) (= _let_7 (tptp.fn_cell_communication_5 X)) (= _let_29 _let_20) (= _let_19 _let_3) (= _let_35 _let_23) (= _let_26 _let_9) (= _let_29 _let_18) (= _let_29 _let_17) (= _let_1 (tptp.fn_cell_communication_leading_to_apoptosis_6 X)) (= _let_26 _let_8) (= _let_34 _let_33) (= _let_28 _let_15) (= _let_32 _let_21) (= _let_31 _let_30) (= _let_29 _let_16) (= _let_28 _let_14) (= _let_26 _let_11) (= _let_10 _let_27) (= _let_26 _let_6) (= _let_26 _let_4) (= _let_19 _let_2) (= _let_5 _let_25) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_growth_factor_36 X))) (let ((_let_2 (tptp.fn_chemical_signaling_8 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_3 _let_1))) (let ((_let_4 (tptp.fn_local_cell_communication_4 X))) (let ((_let_5 (tptp.fn_cell_communication_with_growth_factor_38 X))) (let ((_let_6 (tptp.fn_signal_transduction_with_phosphorylation_cascade_97 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_with_growth_factor_25 X))) (let ((_let_8 (tptp.fn_phosphorylation_cascade_3 _let_7))) (let ((_let_9 (tptp.fn_phosphorylation_cascade_2 _let_7))) (let ((_let_10 (tptp.fn_signal_transduction_with_phosphorylation_cascade_104 _let_5))) (let ((_let_11 (tptp.fn_signal_transduction_with_phosphorylation_cascade_67 _let_5))) (let ((_let_12 (tptp.fn_signal_transduction_with_phosphorylation_cascade_69 _let_5))) (let ((_let_13 (tptp.fn_signal_transduction_with_phosphorylation_cascade_83 _let_5))) (let ((_let_14 (tptp.fn_signal_transduction_with_phosphorylation_cascade_107 _let_5))) (let ((_let_15 (tptp.fn_signal_transduction_with_phosphorylation_cascade_105 _let_5))) (let ((_let_16 (tptp.fn_cell_communication_with_growth_factor_22 X))) (let ((_let_17 (tptp.fn_move_1 _let_16))) (let ((_let_18 (tptp.fn_local_cell_communication_6 X))) (let ((_let_19 (tptp.fn_cell_communication_with_local_regulator_7 X))) (let ((_let_20 (tptp.fn_chemical_signaling_6 _let_1))) (let ((_let_21 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_22 (tptp.fn_local_cell_communication_3 X))) (let ((_let_23 (tptp.fn_chemical_signaling_7 _let_1))) (let ((_let_24 (tptp.fn_cell_signaling_2 _let_1))) (let ((_let_25 (tptp.fn_local_cell_communication_5 X))) (let ((_let_26 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_27 (tptp.fn_local_cell_communication_7 X))) (let ((_let_28 (tptp.fn_cell_communication_with_growth_factor_37 X))) (let ((_let_29 (tptp.fn_signal_transmission_5 _let_28))) (let ((_let_30 (tptp.fn_cell_signaling_event_1 _let_5))) (let ((_let_31 (tptp.fn_cell_communication_with_local_regulator_4 X))) (let ((_let_32 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 _let_1))) (let ((_let_33 (tptp.fn_cell_communication_with_growth_factor_46 X))) (let ((_let_34 (tptp.fn_transmit_2 _let_33))) (let ((_let_35 (tptp.fn_cell_communication_with_local_regulator_5 X))) (let ((_let_36 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_10 _let_1))) (let ((_let_37 (tptp.fn_transmit_1 _let_33))) (let ((_let_38 (tptp.fn_signal_transduction_with_phosphorylation_cascade_106 _let_5))) (let ((_let_39 (tptp.fn_cell_communication_with_growth_factor_23 X))) (let ((_let_40 (tptp.fn_cell_communication_with_growth_factor_30 X))) (let ((_let_41 (tptp.fn_cell_communication_with_growth_factor_44 X))) (let ((_let_42 (tptp.fn_signal_transduction_with_phosphorylation_cascade_70 _let_5))) (let ((_let_43 (tptp.fn_cell_communication_with_growth_factor_31 X))) (let ((_let_44 (tptp.fn_cell_communication_with_growth_factor_32 X))) (let ((_let_45 (tptp.fn_cell_communication_with_growth_factor_28 X))) (let ((_let_46 (tptp.fn_signal_transduction_with_phosphorylation_cascade_121 _let_5))) (let ((_let_47 (tptp.fn_cell_communication_with_growth_factor_26 X))) (let ((_let_48 (tptp.fn_signal_transduction_with_phosphorylation_cascade_115 _let_5))) (let ((_let_49 (tptp.fn_cell_communication_with_growth_factor_27 X))) (let ((_let_50 (tptp.fn_signal_transduction_with_phosphorylation_cascade_64 _let_5))) (let ((_let_51 (tptp.fn_signal_transduction_with_phosphorylation_cascade_77 _let_5))) (let ((_let_52 (tptp.fn_cell_communication_with_growth_factor_29 X))) (let ((_let_53 (tptp.fn_chemical_reaction_1 _let_7))) (let ((_let_54 (tptp.fn_cell_communication_with_growth_factor_43 X))) (let ((_let_55 (tptp.fn_make_accessible_1 _let_39))) (let ((_let_56 (tptp.fn_cell_communication_with_growth_factor_24 X))) (let ((_let_57 (tptp.fn_cell_communication_with_growth_factor_35 X))) (let ((_let_58 (tptp.fn_cell_communication_with_growth_factor_42 X))) (let ((_let_59 (tptp.fn_cell_communication_with_growth_factor_40 X))) (let ((_let_60 (tptp.fn_chemical_signaling_5 _let_1))) (let ((_let_61 (tptp.fn_cell_communication_with_growth_factor_20 X))) (let ((_let_62 (tptp.fn_chemical_signaling_4 _let_1))) (let ((_let_63 (tptp.fn_cell_communication_with_growth_factor_19 X))) (let ((_let_64 (tptp.fn_cell_communication_with_growth_factor_18 X))) (let ((_let_65 (tptp.fn_cell_communication_with_growth_factor_41 X))) (let ((_let_66 (tptp.fn_eukaryotic_cell_26 _let_65))) (let ((_let_67 (tptp.fn_cell_communication_with_growth_factor_33 X))) (let ((_let_68 (tptp.fn_eukaryotic_cell_37 _let_65))) (let ((_let_69 (tptp.fn_cell_communication_with_growth_factor_21 X))) (let ((_let_70 (tptp.fn_eukaryotic_cell_31 _let_65))) (let ((_let_71 (tptp.fn_cell_communication_with_growth_factor_34 X))) (let ((_let_72 (tptp.fn_cell_communication_with_growth_factor_39 X))) (let ((_let_73 (tptp.fn_cell_communication_with_growth_factor_45 X))) (let ((_let_74 (tptp.fn_cell_communication_with_growth_factor_15 X))) (let ((_let_75 (tptp.fn_cell_communication_with_growth_factor_16 X))) (let ((_let_76 (tptp.fn_cell_communication_with_growth_factor_8 X))) (let ((_let_77 (tptp.fn_cell_communication_with_growth_factor_12 X))) (let ((_let_78 (tptp.fn_cell_communication_with_growth_factor_9 X))) (let ((_let_79 (tptp.fn_cell_communication_with_growth_factor_10 X))) (let ((_let_80 (tptp.fn_cell_communication_with_growth_factor_11 X))) (let ((_let_81 (tptp.fn_cell_communication_with_growth_factor_13 X))) (let ((_let_82 (tptp.fn_cell_communication_with_growth_factor_14 X))) (let ((_let_83 (tptp.fn_cell_communication_with_growth_factor_2 X))) (let ((_let_84 (tptp.fn_cell_communication_with_growth_factor_1 X))) (let ((_let_85 (tptp.fn_cell_communication_with_growth_factor_7 X))) (let ((_let_86 (tptp.fn_cell_communication_with_growth_factor_6 X))) (let ((_let_87 (tptp.fn_cell_communication_with_growth_factor_5 X))) (=> (tptp.cell_communication_with_growth_factor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Growth-Factor'|) (tptp.user_description_2 X |tptp.'A type of local cellular communication in which a secretory cell releases paracrine hormones, which act only on nearby cells, in order to initiate a cellular response.'|) (tptp.concept2words_2 X |tptp.'gf based signaling'|) (tptp.concept2words_2 X |tptp.'gf-based-signaling'|) (tptp.concept2words_2 X |tptp.'paracrine signaling with growth factor'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with growth factor'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-growth-factor'|) (tptp.cell_communication_with_local_regulator_1 X) (tptp.time_interval_1 _let_84) (tptp.time_interval_1 _let_83) (tptp.gene_1 _let_87) (tptp.activation_value_1 _let_86) (tptp.activation_value_1 _let_85) (tptp.synthesis_of_protein_1 _let_76) (tptp.daughter_cell_1 _let_78) (tptp.cell_1 _let_79) (tptp.parent_cell_1 _let_80) (tptp.transcription_1 _let_77) (tptp.cell_growth_1 _let_81) (tptp.cell_division_1 _let_82) (tptp.activation_value_1 _let_74) (tptp.transcription_factor_1 _let_75) (tptp.signal_reception_1 _let_64) (tptp.time_interval_1 _let_63) (tptp.time_interval_1 _let_61) (tptp.nuclear_membrane_1 _let_69) (tptp.biomembrane_1 _let_69) (tptp.move_through_1 _let_16) (tptp.make_accessible_1 _let_39) (tptp.activate_1 _let_39) (tptp.gene_1 _let_56) (tptp.chemical_reaction_1 _let_7) (tptp.phosphorylation_cascade_1 _let_7) (tptp.activate_1 _let_47) (tptp.active_site_1 _let_49) (tptp.spatial_entity_1 _let_45) (tptp.protein_kinase_1 _let_45) (tptp.protein_domain_1 _let_52) (tptp.protein_kinase_1 _let_40) (tptp.r_group_1 _let_43) (tptp.spatial_entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.monomer_1 _let_44) (tptp.molecule_1 _let_44) (tptp.amino_acid_1 _let_44) (tptp.tangible_entity_1 _let_67) (tptp.nucleus_1 _let_67) (tptp.mixture_1 _let_71) (tptp.cytoplasm_1 _let_71) (tptp.signal_generation_1 _let_57) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_1) (tptp.cell_signaling_1 _let_1) (tptp.chemical_signaling_1 _let_1) (tptp.signal_transmission_1 _let_28) (tptp.cell_signaling_event_1 _let_5) (tptp.signal_transduction_1 _let_5) (tptp.signal_transduction_with_phosphorylation_cascade_1 _let_5) (tptp.growth_factor_1 _let_72) (tptp.cellular_response_1 _let_59) (tptp.tangible_entity_1 _let_65) (tptp.eukaryotic_cell_1 _let_65) (tptp.cell_1 _let_65) (tptp.secretory_cell_1 _let_58) (tptp.transcription_factor_1 _let_54) (tptp.chemical_reaction_1 _let_41) (tptp.phosphorylation_1 _let_41) (tptp.signal_1 _let_73) (tptp.messenger_1 _let_73) (tptp.local_regulator_1 _let_73) (tptp.transmit_1 _let_33) (tptp.mixture_1 _let_70) (tptp.cytoplasm_1 _let_70) (tptp.nuclear_membrane_1 _let_68) (tptp.biomembrane_1 _let_68) (tptp.tangible_entity_1 _let_66) (tptp.nucleus_1 _let_66) (tptp.time_interval_1 _let_62) (tptp.time_interval_1 _let_60) (tptp.entity_1 _let_55) (tptp.chemical_entity_1 _let_53) (tptp.protein_domain_1 _let_51) (tptp.phosphorylation_cascade_1 _let_50) (tptp.active_site_1 _let_48) (tptp.activate_1 _let_46) (tptp.r_group_1 _let_42) (tptp.activate_1 _let_38) (tptp.signal_1 _let_37) (tptp.messenger_1 _let_36) (tptp.tangible_entity_1 _let_34) (tptp.chemical_entity_1 _let_32) (tptp.cell_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.cell_1 _let_29) (tptp.cell_1 _let_26) (tptp.signal_reception_1 _let_24) (tptp.signal_reception_1 _let_23) (tptp.cellular_response_1 _let_21) (tptp.cellular_response_1 _let_20) (tptp.spatial_entity_1 _let_17) (tptp.protein_kinase_1 _let_15) (tptp.protein_kinase_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_13) (tptp.molecule_1 _let_13) (tptp.amino_acid_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.monomer_1 _let_12) (tptp.molecule_1 _let_12) (tptp.amino_acid_1 _let_12) (tptp.protein_kinase_1 _let_11) (tptp.protein_kinase_1 _let_10) (tptp.chemical_reaction_1 _let_9) (tptp.phosphorylation_1 _let_8) (tptp.chemical_reaction_1 _let_6) (tptp.phosphorylation_1 _let_6) (tptp.signal_transduction_1 _let_3) (tptp.signal_transduction_1 _let_2) (tptp.time_before_2 _let_84 _let_83) (tptp.path_2 _let_16 _let_69) (tptp.site_2 _let_39 _let_67) (not (= _let_39 _let_47)) (tptp.result_2 _let_39 _let_87) (tptp.activation_2 _let_56 _let_85) (tptp.has_state_2 _let_56 _let_87) (tptp.activation_2 _let_87 _let_86) (tptp.the_categorical_value_2 _let_86 tptp.active_0) (tptp.the_categorical_value_2 _let_85 tptp.inactive_0) (tptp.subevent_2 _let_7 _let_16) (tptp.next_event_2 _let_7 _let_39) (not (= _let_47 _let_39)) (tptp.time_during_2 _let_57 _let_84) (tptp.time_during_2 _let_28 _let_83) (tptp.base_2 _let_28 _let_58) (tptp.site_2 _let_5 _let_71) (tptp.agent_2 _let_5 _let_65) (tptp.subevent_2 _let_59 _let_77) (tptp.subevent_2 _let_59 _let_76) (tptp.subevent_2 _let_59 _let_82) (tptp.subevent_2 _let_59 _let_81) (tptp.site_2 _let_59 _let_67) (tptp.result_2 _let_59 _let_79) (tptp.object_2 _let_59 _let_65) (tptp.agent_2 _let_59 _let_65) (tptp.plays_2 _let_65 _let_80) (tptp.plays_2 _let_79 _let_78) (tptp.next_event_2 _let_77 _let_76) (tptp.the_categorical_value_2 _let_74 tptp.active_0) (tptp.has_state_2 _let_75 _let_54) (tptp.activation_2 _let_54 _let_74) (tptp.enables_2 _let_41 _let_16) (tptp.object_2 _let_16 _let_45) (tptp.object_2 _let_33 _let_72) (tptp.in_event_2 _let_73 _let_33) (tptp.agent_2 _let_1 _let_72) (tptp.base_2 _let_1 _let_65) (tptp.destination_2 _let_28 _let_65) (tptp.instrument_2 X _let_72) (tptp.result_2 _let_57 _let_72) (tptp.next_event_2 _let_28 _let_1) (tptp.object_2 _let_28 _let_72) (tptp.plays_2 _let_72 _let_73) (tptp.has_part_2 _let_65 _let_71) (tptp.has_part_2 _let_65 _let_67) (tptp.has_part_2 _let_67 _let_69) (tptp.object_2 X _let_65) (tptp.subevent_2 X _let_1) (tptp.base_2 _let_59 _let_65) (tptp.first_subevent_2 _let_1 _let_64) (tptp.base_2 _let_64 _let_65) (tptp.base_2 _let_5 _let_65) (tptp.subevent_2 _let_1 _let_5) (tptp.subevent_2 _let_1 _let_64) (tptp.next_event_2 _let_64 _let_5) (tptp.subevent_2 _let_1 _let_59) (tptp.time_during_2 _let_59 _let_61) (tptp.time_before_2 _let_63 _let_61) (tptp.time_during_2 _let_5 _let_63) (tptp.next_event_2 _let_5 _let_59) (tptp.first_subevent_2 X _let_57) (tptp.subevent_2 X _let_28) (tptp.next_event_2 _let_57 _let_28) (tptp.agent_2 _let_57 _let_58) (tptp.agent_2 X _let_58) (tptp.subevent_2 X _let_57) (tptp.is_at_2 _let_44 _let_52) (tptp.has_region_2 _let_45 _let_52) (tptp.result_2 _let_41 _let_45) (tptp.subevent_2 _let_7 _let_41) (tptp.subevent_2 _let_5 _let_7) (tptp.is_inside_2 _let_43 _let_49) (tptp.has_region_2 _let_45 _let_49) (tptp.has_state_2 _let_40 _let_45) (tptp.object_2 _let_47 _let_40) (tptp.subevent_2 _let_5 _let_47) (tptp.result_2 _let_47 _let_45) (tptp.called_2 _let_41 |"2"|) (tptp.has_region_2 _let_44 _let_43) (tptp.raw_material_2 _let_41 _let_40) (tptp.subevent_2 _let_5 _let_39) (tptp.result_2 _let_7 _let_54) (tptp.object_2 _let_39 _let_56) (= _let_45 _let_17) (= _let_72 _let_34) (= _let_73 _let_37) (= _let_65 _let_29) (= _let_72 _let_32) (= _let_73 _let_36) (= _let_73 _let_35) (= _let_72 _let_31) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_1 _let_19) (= _let_59 _let_21) (= _let_65 _let_30) (= _let_5 _let_3) (= _let_65 _let_27) (= _let_65 _let_26) (= _let_64 _let_24) (= _let_64 _let_25) (= _let_5 _let_4) (= _let_64 _let_23) (= _let_5 _let_2) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_1 _let_18) (= _let_59 _let_22) (= _let_59 _let_20) (= _let_58 (tptp.fn_cell_communication_with_local_regulator_3 X)) (= _let_57 (tptp.fn_cell_communication_with_local_regulator_8 X)) (= _let_28 (tptp.fn_cell_communication_with_local_regulator_6 X)) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_44 _let_13) (= _let_52 _let_51) (= _let_45 _let_15) (= _let_41 _let_9) (= _let_41 _let_8) (= _let_7 _let_50) (= _let_49 _let_48) (= _let_40 _let_11) (= _let_47 _let_46) (= _let_45 _let_14) (= _let_44 _let_12) (= _let_43 _let_42) (= _let_41 _let_6) (= _let_40 _let_10) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_4 X))) (let ((_let_2 (tptp.fn_cell_communication_with_local_regulator_5 X))) (let ((_let_3 (tptp.fn_local_regulator_2 _let_2))) (let ((_let_4 (tptp.fn_cell_communication_with_local_regulator_6 X))) (let ((_let_5 (tptp.fn_signal_transmission_3 _let_4))) (let ((_let_6 (tptp.fn_cell_communication_with_local_regulator_7 X))) (let ((_let_7 (tptp.fn_cell_communication_with_local_regulator_4 X))) (let ((_let_8 (tptp.fn_cell_communication_with_local_regulator_8 X))) (let ((_let_9 (tptp.fn_cell_communication_with_local_regulator_3 X))) (let ((_let_10 (tptp.fn_cell_communication_with_local_regulator_2 X))) (=> (tptp.cell_communication_with_local_regulator_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Local-Regulator'|) (tptp.user_description_2 X |tptp.'Local signaing among cells where the messenger molecules travel only a short distance to affect cells in their immediate vicinity.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'paracrine signaling'|) (tptp.concept2words_2 X |tptp.'cell communication with local regulator'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-local-regulator'|) (tptp.local_cell_communication_1 X) (tptp.length_value_1 _let_10) (tptp.secretory_cell_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.local_regulator_1 _let_2) (tptp.signal_transmission_1 _let_4) (tptp.cell_signaling_1 _let_6) (tptp.signal_generation_1 _let_8) (tptp.tangible_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.next_event_2 _let_8 _let_4) (tptp.next_event_2 _let_4 _let_6) (tptp.distance_2 _let_4 _let_10) (tptp.subevent_2 X _let_4) (tptp.the_scalar_value_2 _let_10 tptp.short_0) (tptp.scalar_unit_class_2 _let_10 tptp.cell_communication_event_0) (tptp.object_2 _let_4 _let_7) (tptp.agent_2 X _let_9) (tptp.agent_2 _let_8 _let_9) (tptp.plays_2 _let_7 _let_2) (tptp.first_subevent_2 X _let_8) (tptp.subevent_2 X _let_6) (tptp.agent_2 _let_6 _let_7) (tptp.instrument_2 X _let_7) (tptp.subevent_2 X _let_8) (tptp.result_2 _let_8 _let_7) (= _let_7 _let_5) (= _let_9 (tptp.fn_cell_communication_3 X)) (= _let_7 _let_3) (= _let_8 (tptp.fn_cell_communication_5 X)) (= _let_7 _let_1) (= _let_6 (tptp.fn_cell_communication_2 X)) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_mating_factor_a_6 X))) (let ((_let_2 (tptp.fn_shmoo_formation_2 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_1 X))) (let ((_let_4 (tptp.fn_cell_communication_4 X))) (let ((_let_5 (tptp.fn_cell_communication_with_mating_factor_a_5 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_mating_factor_62 _let_5))) (let ((_let_7 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_57 _let_5))) (let ((_let_8 (tptp.fn_cell_communication_with_mating_factor_a_3 X))) (let ((_let_9 (tptp.fn_cell_communication_with_mating_factor_a_4 X))) (let ((_let_10 (tptp.fn_shmoo_formation_1 _let_1))) (let ((_let_11 (tptp.fn_cell_communication_with_mating_factor_a_7 X))) (let ((_let_12 (tptp.fn_cell_communication_with_mating_factor_a_8 X))) (let ((_let_13 (tptp.fn_cell_communication_with_mating_factor_a_2 X))) (let ((_let_14 (tptp.fn_cell_signaling_with_mating_factor_85 _let_5))) (let ((_let_15 (tptp.fn_cell_communication_with_mating_factor_a_1 X))) (=> (tptp.cell_communication_with_mating_factor_a_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Mating-Factor-A'|) (tptp.user_description_2 X |tptp.'Process of communication between yeast cells which uses mating factor A as the signaling molecule.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with mating factor a'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-mating-factor-a'|) (tptp.intercellular_process_1 X) (tptp.cell_communication_1 X) (tptp.microfilament_elongation_1 _let_15) (tptp.mating_type_a_1 _let_13) (tptp.signal_generation_1 _let_8) (tptp.mating_type_alpha_1 _let_9) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_5) (tptp.cell_signaling_with_mating_factor_1 _let_5) (tptp.cell_signaling_1 _let_5) (tptp.intracellular_process_1 _let_1) (tptp.cellular_response_1 _let_1) (tptp.shmoo_formation_1 _let_1) (tptp.grow_1 _let_11) (tptp.mating_factor_a_1 _let_12) (tptp.intracellular_process_1 _let_14) (tptp.cellular_response_1 _let_14) (tptp.grow_1 _let_10) (tptp.chemical_entity_1 _let_7) (tptp.mating_factor_1 _let_6) (tptp.yeast_1 _let_2) (not (= _let_11 _let_15)) (not (= _let_15 _let_11)) (tptp.by_means_of_2 _let_1 _let_15) (tptp.is_near_2 _let_9 _let_13) (tptp.is_near_2 _let_13 _let_9) (tptp.object_2 X _let_9) (tptp.instrument_2 X _let_12) (tptp.subevent_2 _let_5 _let_1) (tptp.subevent_2 X _let_5) (tptp.agent_2 _let_5 _let_12) (tptp.result_2 _let_8 _let_12) (tptp.agent_2 _let_8 _let_13) (tptp.agent_2 X _let_13) (tptp.agent_2 _let_1 _let_9) (tptp.agent_2 _let_11 _let_9) (tptp.by_means_of_2 _let_1 _let_11) (tptp.subevent_2 X _let_8) (tptp.first_subevent_2 X _let_8) (= _let_9 _let_3) (= _let_1 _let_14) (= _let_13 (tptp.fn_cell_communication_3 X)) (= _let_12 _let_7) (= _let_12 _let_6) (= _let_12 _let_4) (= _let_5 (tptp.fn_cell_communication_2 X)) (= _let_11 _let_10) (= _let_9 _let_2) (= _let_8 (tptp.fn_cell_communication_5 X)) (= _let_7 _let_6) (= _let_4 _let_4) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_mating_factor_alpha_15 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_mating_factor_61 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_66 _let_1))) (let ((_let_4 (tptp.fn_cell_signaling_with_mating_factor_87 _let_1))) (let ((_let_5 (tptp.fn_cell_communication_with_mating_factor_alpha_13 X))) (let ((_let_6 (tptp.fn_shmoo_formation_2 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_1 X))) (let ((_let_8 (tptp.fn_cell_signaling_with_mating_factor_95 _let_1))) (let ((_let_9 (tptp.fn_cellular_response_1 _let_5))) (let ((_let_10 (tptp.fn_cell_signaling_with_mating_factor_1 _let_1))) (let ((_let_11 (tptp.fn_cell_communication_with_mating_factor_alpha_9 X))) (let ((_let_12 (tptp.fn_attach_2 _let_11))) (let ((_let_13 (tptp.fn_cell_communication_with_mating_factor_alpha_11 X))) (let ((_let_14 (tptp.fn_make_accessible_1 _let_13))) (let ((_let_15 (tptp.fn_cell_signaling_with_mating_factor_62 _let_1))) (let ((_let_16 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_57 _let_1))) (let ((_let_17 (tptp.fn_cell_communication_4 X))) (let ((_let_18 (tptp.fn_cell_communication_with_mating_factor_alpha_2 X))) (let ((_let_19 (tptp.fn_cell_communication_with_mating_factor_alpha_14 X))) (let ((_let_20 (tptp.fn_cell_communication_with_mating_factor_alpha_3 X))) (let ((_let_21 (tptp.fn_cell_signaling_with_mating_factor_60 _let_1))) (let ((_let_22 (tptp.fn_cell_communication_with_mating_factor_alpha_7 X))) (let ((_let_23 (tptp.fn_cell_signaling_with_mating_factor_93 _let_1))) (let ((_let_24 (tptp.fn_cell_communication_with_mating_factor_alpha_10 X))) (let ((_let_25 (tptp.fn_cell_signaling_with_mating_factor_59 _let_1))) (let ((_let_26 (tptp.fn_cell_communication_with_mating_factor_alpha_5 X))) (let ((_let_27 (tptp.fn_cell_signaling_with_mating_factor_94 _let_1))) (let ((_let_28 (tptp.fn_cell_communication_with_mating_factor_alpha_6 X))) (let ((_let_29 (tptp.fn_cell_signaling_with_mating_factor_91 _let_1))) (let ((_let_30 (tptp.fn_cell_signaling_with_mating_factor_92 _let_1))) (let ((_let_31 (tptp.fn_cell_signaling_with_mating_factor_90 _let_1))) (let ((_let_32 (tptp.fn_cell_communication_with_mating_factor_alpha_8 X))) (let ((_let_33 (tptp.fn_cell_communication_with_mating_factor_alpha_4 X))) (let ((_let_34 (tptp.fn_cell_communication_with_mating_factor_alpha_17 X))) (let ((_let_35 (tptp.fn_shmoo_formation_1 _let_5))) (let ((_let_36 (tptp.fn_cell_communication_with_mating_factor_alpha_12 X))) (let ((_let_37 (tptp.fn_cell_signaling_with_mating_factor_85 _let_1))) (let ((_let_38 (tptp.fn_cell_communication_with_mating_factor_alpha_16 X))) (let ((_let_39 (tptp.fn_cell_communication_with_mating_factor_alpha_1 X))) (=> (tptp.cell_communication_with_mating_factor_alpha_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Mating-Factor-Alpha'|) (tptp.user_description_2 X |tptp.'Process of communication between yeast cells which uses mating factor Alpha as the signaling molecule.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with mating factor alpha'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-mating-factor-alpha'|) (tptp.intercellular_process_1 X) (tptp.cell_communication_1 X) (tptp.microfilament_elongation_1 _let_39) (tptp.signal_reception_1 _let_18) (tptp.spatial_entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.polymer_1 _let_20) (tptp.organic_molecule_1 _let_20) (tptp.protein_1 _let_20) (tptp.molecule_1 _let_20) (tptp.g_protein_1 _let_20) (tptp.entity_1 _let_33) (tptp.spatial_entity_1 _let_33) (tptp.protein_enzyme_1 _let_33) (tptp.entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.g_protein_coupled_receptor_1 _let_26) (tptp.make_accessible_1 _let_28) (tptp.activate_1 _let_28) (tptp.attach_1 _let_22) (tptp.detach_1 _let_32) (tptp.attach_1 _let_11) (tptp.replace_1 _let_24) (tptp.make_accessible_1 _let_13) (tptp.activate_1 _let_13) (tptp.grow_1 _let_36) (tptp.intracellular_process_1 _let_5) (tptp.cellular_response_1 _let_5) (tptp.shmoo_formation_1 _let_5) (tptp.mating_type_a_1 _let_19) (tptp.cell_signaling_1 _let_1) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_1) (tptp.cell_signaling_with_mating_factor_1 _let_1) (tptp.mating_type_alpha_1 _let_38) (tptp.mating_factor_alpha_1 _let_34) (tptp.intracellular_process_1 _let_37) (tptp.cellular_response_1 _let_37) (tptp.grow_1 _let_35) (tptp.detach_1 _let_31) (tptp.attach_1 _let_30) (tptp.activate_1 _let_29) (tptp.make_accessible_1 _let_27) (tptp.activate_1 _let_27) (tptp.entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.g_protein_coupled_receptor_1 _let_25) (tptp.replace_1 _let_23) (tptp.attach_1 _let_21) (tptp.chemical_entity_1 _let_16) (tptp.mating_factor_1 _let_15) (tptp.entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.protein_enzyme_1 _let_10) (tptp.protein_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.polymer_1 _let_8) (tptp.organic_molecule_1 _let_8) (tptp.protein_1 _let_8) (tptp.molecule_1 _let_8) (tptp.g_protein_1 _let_8) (tptp.yeast_1 _let_6) (tptp.saccharomyces_cerevisiae_1 _let_4) (tptp.signal_reception_1 _let_3) (tptp.signal_reception_1 _let_2) (tptp.next_event_2 _let_22 _let_32) (not (= _let_36 _let_39)) (tptp.by_means_of_2 _let_5 _let_39) (not (= _let_39 _let_36)) (tptp.is_near_2 _let_19 _let_38) (tptp.is_near_2 _let_38 _let_19) (tptp.agent_2 X _let_38) (tptp.object_2 X _let_19) (tptp.object_2 _let_13 _let_33) (tptp.base_2 _let_11 _let_33) (tptp.instrument_2 X _let_34) (tptp.subevent_2 X _let_1) (tptp.instrument_2 _let_5 _let_20) (tptp.subevent_2 _let_1 _let_5) (tptp.by_means_of_2 _let_5 _let_36) (tptp.agent_2 _let_36 _let_19) (tptp.agent_2 _let_5 _let_19) (tptp.agent_2 _let_1 _let_34) (tptp.object_2 _let_18 _let_34) (tptp.next_event_2 _let_11 _let_13) (not (= _let_33 _let_19)) (not (= _let_19 _let_33)) (tptp.first_subevent_2 _let_1 _let_18) (not (= _let_22 _let_11)) (not (= _let_11 _let_24)) (tptp.base_2 _let_24 _let_20) (not (= _let_11 _let_22)) (not (= _let_24 _let_11)) (not (= _let_32 _let_24)) (not (= _let_24 _let_32)) (not (= _let_19 _let_26)) (tptp.object_2 _let_28 _let_26) (tptp.next_event_2 _let_28 _let_22) (not (= _let_26 _let_19)) (not (= _let_13 _let_28)) (not (= _let_28 _let_13)) (tptp.subevent_2 _let_1 _let_18) (tptp.base_2 _let_18 _let_19) (tptp.has_part_2 _let_19 _let_20) (tptp.object_2 _let_22 _let_20) (tptp.next_event_2 _let_22 _let_24) (= _let_38 (tptp.fn_cell_communication_3 X)) (= _let_19 _let_7) (= _let_33 _let_14) (= _let_33 _let_12) (= _let_34 _let_17) (= _let_1 (tptp.fn_cell_communication_2 X)) (= _let_20 _let_9) (= _let_5 _let_37) (= _let_19 _let_6) (= _let_36 _let_35) (= _let_34 _let_16) (= _let_34 _let_15) (= _let_33 _let_10) (= _let_32 _let_31) (= _let_11 _let_30) (= _let_13 _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_8) (= _let_19 _let_4) (= _let_18 _let_3) (= _let_18 _let_2) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_38 X))) (let ((_let_2 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_40 X))) (let ((_let_4 (tptp.fn_apoptosis_64 _let_3))) (let ((_let_5 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_37 X))) (let ((_let_6 (tptp.fn_signal_generation_4 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_27 X))) (let ((_let_8 (tptp.fn_oxidative_phosphorylation_15 _let_7))) (let ((_let_9 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_10 (tptp.fn_cell_communication_3 X))) (let ((_let_11 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X))) (let ((_let_92 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_8 X))) (let ((_let_93 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_7 X))) (let ((_let_94 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_6 X))) (let ((_let_95 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_11 X))) (let ((_let_96 (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_12 X))) (=> (tptp.cell_communication_with_mitochondrial_signal_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Mitochondrial-Signal-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Series of events which leads to programmed cell death (apoptosis) in a cell; in this case, the signal for apoptosis is generated internally by the mitochondria.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication with 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(tptp.in_event_2 _let_95 X) (tptp.time_before_2 _let_92 _let_93) (not (= _let_58 _let_80)) (not (= _let_80 _let_58)) (tptp.causes_2 _let_80 _let_26) (tptp.causes_2 _let_80 _let_28) (tptp.agent_2 _let_80 _let_66) (tptp.site_2 _let_80 _let_84) (tptp.site_2 _let_24 _let_22) (tptp.called_2 _let_26 |"1"|) (not (= _let_26 _let_28)) (tptp.origin_2 _let_26 _let_22) (tptp.plays_2 _let_88 _let_96) (tptp.facilitates_2 _let_88 _let_3) (tptp.is_inside_2 _let_88 _let_61) (tptp.called_2 _let_28 |"2"|) (not (= _let_28 _let_26)) (tptp.origin_2 _let_28 _let_22) (tptp.plays_2 _let_86 _let_95) (tptp.facilitates_2 _let_86 _let_3) (tptp.is_inside_2 _let_86 _let_61) (tptp.base_2 X _let_30) (tptp.the_categorical_value_2 _let_94 tptp.inactive_0) (tptp.activation_2 _let_68 _let_94) (not (= _let_68 _let_66)) (tptp.has_state_2 _let_68 _let_66) (tptp.result_2 _let_33 _let_66) (tptp.time_during_2 _let_13 _let_93) (tptp.agent_2 _let_13 _let_30) (tptp.subevent_2 _let_3 _let_28) (tptp.subevent_2 _let_3 _let_26) (tptp.subevent_2 _let_3 _let_80) (tptp.agent_2 _let_3 _let_30) (tptp.time_during_2 _let_56 _let_92) (tptp.recipient_2 _let_56 _let_30) (tptp.site_2 _let_5 _let_35) (not (= _let_78 _let_41)) (tptp.the_scalar_value_2 _let_44 tptp.big_0) (tptp.scalar_unit_class_2 _let_44 tptp.prokaryote_0) (not (= _let_41 _let_78)) (tptp.the_categorical_value_2 _let_91 tptp.active_0) (tptp.activation_2 _let_66 _let_91) (not (= _let_66 _let_68)) (tptp.agent_2 _let_38 _let_84) (tptp.object_2 _let_38 _let_22) (tptp.has_function_2 _let_84 _let_38) (tptp.has_region_2 _let_84 _let_82) (tptp.area_2 _let_84 _let_89) (tptp.has_function_2 _let_35 _let_41) (not (= _let_35 _let_22)) (not (= _let_30 _let_61)) (tptp.greater_than_2 _let_90 _let_89) (not (= _let_22 _let_35)) (tptp.has_function_2 _let_22 _let_24) (not (= _let_61 _let_30)) (tptp.object_2 _let_26 _let_88) (tptp.object_2 _let_28 _let_86) (tptp.base_2 _let_28 _let_61) (tptp.object_2 _let_38 _let_35) (tptp.base_2 _let_26 _let_61) (tptp.base_2 _let_38 _let_84) (tptp.result_2 _let_80 _let_82) (tptp.base_2 _let_24 _let_61) (tptp.base_2 _let_11 _let_30) (tptp.subevent_2 _let_78 _let_7) (tptp.subevent_2 _let_41 _let_11) (tptp.rate_2 _let_41 _let_74) (tptp.has_part_2 _let_35 _let_68) (tptp.quantity_2 _let_35 _let_73) (tptp.directly_proportional_2 _let_73 _let_74) (tptp.first_subevent_2 X _let_5) (tptp.agent_2 _let_5 _let_30) (tptp.agent_2 X _let_30) (tptp.subevent_2 X _let_5) (tptp.next_event_2 _let_13 _let_3) (tptp.subevent_2 X _let_1) (tptp.subevent_2 _let_1 _let_3) (tptp.base_2 _let_3 _let_30) (tptp.object_2 X _let_30) (tptp.has_part_2 _let_30 _let_35) (tptp.has_function_2 _let_30 _let_41) (tptp.base_2 _let_41 _let_30) (tptp.has_part_2 _let_30 _let_71) (tptp.is_inside_2 _let_71 _let_64) (tptp.has_part_2 _let_54 _let_52) (tptp.has_part_2 _let_30 _let_54) (tptp.size_2 _let_30 _let_44) (tptp.directly_proportional_2 _let_44 _let_47) (tptp.volume_2 _let_30 _let_47) (tptp.is_at_2 _let_52 _let_50) (tptp.has_region_2 _let_30 _let_50) (tptp.subevent_2 _let_1 _let_56) (tptp.subevent_2 _let_1 _let_13) (tptp.next_event_2 _let_56 _let_13) (tptp.base_2 _let_56 _let_30) (tptp.base_2 _let_1 _let_30) (tptp.base_2 _let_13 _let_30) (tptp.first_subevent_2 _let_1 _let_56) (tptp.next_event_2 _let_60 _let_58) (tptp.base_2 _let_60 _let_30) (tptp.has_state_2 _let_30 _let_61) (tptp.result_2 _let_60 _let_61) (tptp.subevent_2 _let_3 _let_60) (tptp.subevent_2 _let_3 _let_58) (tptp.is_inside_2 _let_63 _let_64) (tptp.has_part_2 _let_30 _let_63) (tptp.has_part_2 _let_61 _let_22) (tptp.has_part_2 _let_22 _let_66) (tptp.subevent_2 _let_13 _let_33) (tptp.base_2 _let_5 _let_30) (tptp.base_2 _let_7 _let_30) (tptp.object_2 _let_33 _let_68) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_61 _let_29) (= _let_35 _let_39) (= _let_61 _let_27) (= _let_84 _let_83) (= _let_82 _let_81) (= _let_61 _let_25) (= _let_30 _let_12) (= _let_7 _let_79) (= _let_11 _let_77) (= _let_74 _let_42) (= _let_68 _let_36) (= (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_16 X) _let_76) (= (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_17 X) _let_75) (= _let_74 _let_40) (= _let_73 _let_72) (= _let_30 _let_10) (= _let_5 (tptp.fn_cell_communication_5 X)) (= _let_13 _let_18) (= _let_30 _let_16) (= _let_30 _let_15) (= _let_30 _let_9) (= _let_3 _let_20) (= _let_3 _let_19) (= _let_1 (tptp.fn_cell_communication_leading_to_apoptosis_6 X)) (= _let_35 _let_37) (= _let_64 _let_32) (= _let_71 _let_70) (= _let_41 _let_69) (= _let_68 _let_34) (= _let_30 _let_8) (= _let_30 _let_6) (= _let_33 _let_67) (= _let_66 _let_65) (= _let_61 _let_23) (= _let_64 _let_31) (= _let_63 _let_62) (= _let_30 _let_4) (= _let_61 _let_21) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_30 _let_14) (= _let_13 _let_17) (= _let_30 _let_2) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_14 X) _let_48) (= _let_47 _let_46) (= (tptp.fn_cell_communication_with_mitochondrial_signal_leading_to_apoptosis_15 X) _let_45) (= _let_44 _let_43) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_12 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_4 X))) (let ((_let_2 (tptp.fn_cell_communication_with_neurotransmitter_14 X))) (let ((_let_3 (tptp.fn_signal_generation_5 _let_2))) (let ((_let_4 (tptp.fn_cell_communication_with_neurotransmitter_17 X))) (let ((_let_5 (tptp.fn_ligand_binding_3 _let_4))) (let ((_let_6 (tptp.fn_cell_communication_with_neurotransmitter_15 X))) (let ((_let_7 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_with_neurotransmitter_5 X))) (let ((_let_9 (tptp.fn_transmit_2 _let_8))) (let ((_let_10 (tptp.fn_cell_communication_with_neurotransmitter_13 X))) (let ((_let_11 (tptp.fn_signal_transmission_3 _let_10))) (let ((_let_12 (tptp.fn_cell_communication_with_neurotransmitter_7 X))) (let ((_let_13 (tptp.fn_secretion_1 _let_12))) (let ((_let_14 (tptp.fn_cell_communication_with_neurotransmitter_18 X))) (let ((_let_15 (tptp.fn_move_1 _let_14))) (let ((_let_16 (tptp.fn_cell_communication_with_neurotransmitter_11 X))) (let ((_let_17 (tptp.fn_synapse_3 _let_16))) (let ((_let_18 (tptp.fn_cell_communication_3 X))) (let ((_let_19 (tptp.fn_signal_generation_4 _let_2))) (let ((_let_20 (tptp.fn_secretion_2 _let_12))) (let ((_let_21 (tptp.fn_synapse_4 _let_16))) (let ((_let_22 (tptp.fn_cell_communication_with_neurotransmitter_19 X))) (let ((_let_23 (tptp.fn_passive_transport_1 _let_22))) (let ((_let_24 (tptp.fn_local_cell_communication_7 X))) (let ((_let_25 (tptp.fn_signal_transmission_5 _let_10))) (let ((_let_26 (tptp.fn_signal_generation_1 _let_2))) (let ((_let_27 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_10 _let_6))) (let ((_let_28 (tptp.fn_transmit_1 _let_8))) (let ((_let_29 (tptp.fn_cell_communication_with_neurotransmitter_9 X))) (let ((_let_30 (tptp.fn_chemical_signaling_6 _let_6))) (let ((_let_31 (tptp.fn_cell_communication_with_neurotransmitter_20 X))) (let ((_let_32 (tptp.fn_chemical_signaling_8 _let_6))) (let ((_let_33 (tptp.fn_cell_communication_with_neurotransmitter_16 X))) (let ((_let_34 (tptp.fn_cell_communication_with_neurotransmitter_8 X))) (let ((_let_35 (tptp.fn_cell_communication_with_neurotransmitter_10 X))) (let ((_let_36 (tptp.fn_signal_generation_2 _let_2))) (let ((_let_37 (tptp.fn_cell_communication_with_neurotransmitter_6 X))) (let ((_let_38 (tptp.fn_cell_communication_with_neurotransmitter_12 X))) (let ((_let_39 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 _let_6))) (let ((_let_40 (tptp.fn_cell_communication_with_neurotransmitter_3 X))) (let ((_let_41 (tptp.fn_cell_communication_with_neurotransmitter_2 X))) (let ((_let_42 (tptp.fn_cell_communication_with_neurotransmitter_1 X))) (=> (tptp.cell_communication_with_neurotransmitter_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Neurotransmitter'|) (tptp.user_description_2 X |tptp.'Communication between two neurons or a neuron and a different effector cell via neurotransmitter molecules that diffuse across the synaptic gap between one cell and the other.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'synaptic signaling'|) (tptp.concept2words_2 X |tptp.'cell communication with neurotransmitter'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-neurotransmitter'|) (tptp.local_cell_communication_1 X) (not (tptp.microbial_cell_to_cell_communication_1 X)) (tptp.electrical_signaling_1 _let_42) (tptp.open_1 _let_41) (tptp.length_value_1 _let_40) (tptp.transmit_1 _let_8) (tptp.synthesis_reaction_1 _let_37) (tptp.secretion_1 _let_12) (tptp.living_entity_1 _let_34) (tptp.cell_1 _let_34) (tptp.nerve_cell_1 _let_34) (tptp.neurotransmitter_1 _let_29) (tptp.animal_cell_1 _let_35) (tptp.synapse_1 _let_16) (tptp.local_regulator_1 _let_38) (tptp.signal_transmission_1 _let_10) (tptp.signal_generation_1 _let_2) (tptp.cell_signaling_with_ion_channel_receptor_1 _let_6) (tptp.signal_transduction_1 _let_33) (tptp.ligand_binding_1 _let_4) (tptp.move_1 _let_14) (tptp.facilitated_diffusion_of_ion_1 _let_22) (tptp.cellular_response_1 _let_31) (tptp.ligand_binding_1 _let_39) (tptp.synthesis_reaction_1 _let_36) (tptp.signal_transduction_1 _let_32) (tptp.cellular_response_1 _let_30) (tptp.signal_1 _let_28) (tptp.messenger_1 _let_27) (tptp.signal_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.cell_1 _let_25) (tptp.cell_1 _let_23) (tptp.cell_1 _let_21) (tptp.living_entity_1 _let_20) (tptp.cell_1 _let_19) (tptp.nerve_cell_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.subevent_2 _let_31 _let_22) (tptp.causes_2 _let_22 _let_42) (tptp.the_scalar_value_2 _let_40 tptp.short_0) (tptp.scalar_unit_class_2 _let_40 tptp.cellular_process_0) (tptp.path_2 _let_14 _let_16) (tptp.causes_2 _let_42 X) (tptp.causes_2 _let_4 _let_41) (tptp.subevent_2 _let_33 _let_41) (tptp.subevent_2 X _let_10) (tptp.next_event_2 _let_2 _let_10) (tptp.subevent_2 _let_2 _let_12) (tptp.next_event_2 _let_10 _let_6) (tptp.subevent_2 _let_10 _let_14) (tptp.distance_2 _let_10 _let_40) (tptp.site_2 _let_10 _let_16) (tptp.agent_2 _let_12 _let_34) (tptp.next_event_2 _let_37 _let_12) (tptp.object_2 _let_14 _let_29) (tptp.base_2 _let_12 _let_34) (tptp.object_2 _let_12 _let_29) (tptp.object_2 _let_10 _let_29) (tptp.destination_2 _let_10 _let_35) (tptp.object_2 X _let_35) (tptp.is_between_2 _let_16 _let_35) (tptp.base_2 _let_22 _let_35) (tptp.object_2 _let_8 _let_29) (tptp.in_event_2 _let_38 _let_8) (tptp.instrument_2 X _let_29) (tptp.agent_2 X _let_34) (tptp.agent_2 _let_2 _let_34) (tptp.object_2 _let_4 _let_29) (tptp.has_function_2 _let_29 _let_4) (tptp.subevent_2 _let_2 _let_37) (tptp.result_2 _let_37 _let_29) (tptp.plays_2 _let_29 _let_38) (tptp.is_between_2 _let_16 _let_34) (tptp.is_near_2 _let_35 _let_34) (tptp.is_near_2 _let_34 _let_35) (tptp.subevent_2 _let_6 _let_33) (tptp.subevent_2 _let_6 _let_31) (tptp.next_event_2 _let_33 _let_31) (tptp.first_subevent_2 X _let_2) (tptp.result_2 _let_2 _let_29) (tptp.agent_2 _let_6 _let_29) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_2) (= _let_29 _let_15) (= _let_34 _let_20) (= _let_29 _let_13) (= _let_29 _let_11) (= _let_35 _let_25) (= _let_35 _let_24) (= _let_35 _let_23) (= _let_34 _let_19) (= _let_34 _let_18) (= _let_4 _let_39) (= _let_29 _let_5) (= _let_29 _let_9) (= _let_38 _let_28) (= _let_38 _let_27) (= _let_38 _let_26) (= _let_37 _let_36) (= _let_35 _let_21) (= _let_34 _let_17) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_7) (= _let_6 (tptp.fn_cell_communication_2 X)) (= _let_29 _let_3) (= _let_29 _let_1) (= _let_2 (tptp.fn_cell_communication_5 X)) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_21 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_5 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_1 _let_3) (= _let_3 _let_1)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_5 X))) (let ((_let_2 (tptp.fn_signal_generation_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_3 X))) (let ((_let_4 (tptp.fn_cell_communication_leading_to_apoptosis_4 X))) (let ((_let_5 (tptp.fn_intracellular_process_1 X))) (let ((_let_6 (tptp.fn_cell_communication_2 X))) (let ((_let_7 (tptp.fn_cell_communication_leading_to_apoptosis_6 X))) (let ((_let_8 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_4 X))) (let ((_let_9 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_6 X))) (let ((_let_10 (tptp.fn_eukaryotic_cell_26 _let_8))) (let ((_let_11 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_3 X))) (let ((_let_12 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_1 X))) (let ((_let_13 (tptp.fn_cell_communication_with_nuclear_signal_leading_to_apoptosis_2 X))) (=> (tptp.cell_communication_with_nuclear_signal_leading_to_apoptosis_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Nuclear-Signal-Leading-To-Apoptosis'|) (tptp.user_description_2 X |tptp.'Series of events which leads to programmed cell death (apoptosis) in a cell; in this case, the signal for apoptosis is generated internally by the nucleus.'|) (tptp.concept2words_2 X |tptp.'communicate a death signal'|) (tptp.concept2words_2 X |tptp.'cell communication with nuclear signal leading to apoptosis'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-nuclear-signal-leading-to-apoptosis'|) (tptp.intracellular_process_1 X) (tptp.cell_communication_leading_to_apoptosis_1 X) (tptp.irreparable_dna_damage_1 _let_12) (tptp.eukaryotic_cell_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.nucleus_1 _let_11) (tptp.eukaryotic_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.signal_generation_1 _let_1) (tptp.cell_signaling_1 _let_9) (tptp.tangible_entity_1 _let_10) (tptp.nucleus_1 _let_10) (tptp.cell_1 _let_2) (tptp.has_state_2 _let_8 _let_13) (tptp.site_2 _let_1 _let_11) (tptp.causes_2 _let_12 _let_1) (tptp.site_2 _let_12 _let_11) (tptp.base_2 X _let_8) (tptp.has_part_2 _let_8 _let_11) (tptp.object_2 X _let_8) (tptp.base_2 _let_9 _let_8) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_1) (tptp.agent_2 _let_1 _let_8) (tptp.agent_2 X _let_8) (tptp.subevent_2 X _let_9) (tptp.base_2 _let_1 _let_8) (= _let_8 _let_5) (= _let_11 _let_10) (= _let_9 _let_7) (= _let_8 _let_4) (= _let_9 _let_6) (= _let_8 _let_3) (= _let_1 (tptp.fn_cell_communication_5 X)) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_steroid_hormone_16 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_intracellular_receptor_14 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_steroid_hormone_4 X))) (let ((_let_4 (tptp.fn_signal_reception_4 _let_3))) (let ((_let_5 (tptp.fn_cell_signaling_with_intracellular_receptor_9 _let_1))) (let ((_let_6 (tptp.fn_signal_reception_6 _let_3))) (let ((_let_7 (tptp.fn_signal_reception_5 _let_3))) (let ((_let_8 (tptp.fn_cell_signaling_with_intracellular_receptor_7 _let_1))) (let ((_let_9 (tptp.fn_cell_communication_with_steroid_hormone_21 X))) (let ((_let_10 (tptp.fn_chemical_reaction_1 _let_9))) (let ((_let_11 (tptp.fn_cell_communication_with_steroid_hormone_5 X))) (let ((_let_12 (tptp.fn_move_1 _let_11))) (let ((_let_13 (tptp.fn_cell_communication_with_steroid_hormone_8 X))) (let ((_let_14 (tptp.fn_move_1 _let_13))) (let ((_let_15 (tptp.fn_cell_communication_with_endocrine_hormone_11 X))) (let ((_let_16 (tptp.fn_signal_reception_1 _let_3))) (let ((_let_17 (tptp.fn_transmit_1 _let_13))) (let ((_let_18 (tptp.fn_cell_communication_with_endocrine_hormone_10 X))) (let ((_let_19 (tptp.fn_long_distance_cell_communication_3 X))) (let ((_let_20 (tptp.fn_cell_communication_with_endocrine_hormone_5 X))) (let ((_let_21 (tptp.fn_long_distance_cell_communication_6 X))) (let ((_let_22 (tptp.fn_cell_communication_with_endocrine_hormone_12 X))) (let ((_let_23 (tptp.fn_long_distance_cell_communication_4 X))) (let ((_let_24 (tptp.fn_cell_communication_with_steroid_hormone_19 X))) (let ((_let_25 (tptp.fn_medium_1 _let_24))) (let ((_let_26 (tptp.fn_cell_communication_with_endocrine_hormone_16 X))) (let ((_let_27 (tptp.fn_cell_signaling_with_intracellular_receptor_15 _let_1))) (let ((_let_28 (tptp.fn_cell_communication_with_steroid_hormone_6 X))) (let ((_let_29 (tptp.fn_cell_signaling_with_intracellular_receptor_13 _let_1))) (let ((_let_30 (tptp.fn_cell_signaling_with_intracellular_receptor_10 _let_1))) (let ((_let_31 (tptp.fn_cell_communication_with_steroid_hormone_7 X))) (let ((_let_32 (tptp.fn_cell_communication_with_steroid_hormone_15 X))) (let ((_let_33 (tptp.fn_signal_reception_7 _let_3))) (let ((_let_34 (tptp.fn_cell_communication_with_steroid_hormone_10 X))) (let ((_let_35 (tptp.fn_signal_reception_8 _let_3))) (let ((_let_36 (tptp.fn_cell_communication_with_steroid_hormone_11 X))) (let ((_let_37 (tptp.fn_cell_communication_with_steroid_hormone_9 X))) (let ((_let_38 (tptp.fn_cell_communication_with_steroid_hormone_17 X))) (let ((_let_39 (tptp.fn_cell_communication_with_steroid_hormone_22 X))) (let ((_let_40 (tptp.fn_cell_communication_with_steroid_hormone_18 X))) (let ((_let_41 (tptp.fn_cell_communication_with_steroid_hormone_14 X))) (let ((_let_42 (tptp.fn_cell_communication_with_steroid_hormone_20 X))) (let ((_let_43 (tptp.fn_cell_communication_with_steroid_hormone_13 X))) (let ((_let_44 (tptp.fn_cell_communication_with_steroid_hormone_12 X))) (let ((_let_45 (tptp.fn_cell_communication_with_steroid_hormone_1 X))) (let ((_let_46 (tptp.fn_cell_communication_with_steroid_hormone_2 X))) (let ((_let_47 (tptp.fn_cell_communication_with_steroid_hormone_3 X))) (=> (tptp.cell_communication_with_steroid_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Steroid-Hormone'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animals in which the signal molecule is a steroid hormone.'|) (tptp.concept2words_2 X |tptp.'endocrine signaling with steroid hormone'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with steroid hormone'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-steroid-hormone'|) (tptp.cell_communication_with_endocrine_hormone_1 X) (tptp.time_interval_1 _let_45) (tptp.time_interval_1 _let_46) (tptp.time_interval_1 _let_47) (tptp.signal_reception_1 _let_3) (tptp.move_1 _let_11) (tptp.move_into_1 _let_11) (tptp.spatial_entity_1 _let_28) (tptp.polymer_1 _let_28) (tptp.receptor_protein_1 _let_28) (tptp.intracellular_receptor_1 _let_28) (tptp.ligand_binding_1 _let_31) (tptp.transmit_1 _let_13) (tptp.signal_1 _let_37) (tptp.monomer_1 _let_34) (tptp.monomer_1 _let_36) (tptp.move_1 _let_44) (tptp.biological_region_1 _let_43) (tptp.tangible_entity_1 _let_41) (tptp.cell_1 _let_41) (tptp.animal_cell_1 _let_41) (tptp.steroid_hormone_1 _let_32) (tptp.cell_signaling_1 _let_1) (tptp.cell_signaling_with_intracellular_receptor_1 _let_1) (tptp.signal_generation_1 _let_38) (tptp.tangible_entity_1 _let_40) (tptp.living_entity_1 _let_40) (tptp.cell_1 _let_40) (tptp.endocrine_cell_1 _let_40) (tptp.medium_1 _let_24) (tptp.signal_transmission_1 _let_42) (tptp.synthesis_reaction_1 _let_9) (tptp.chemical_reaction_1 _let_9) (tptp.secretion_1 _let_39) (tptp.monomer_1 _let_35) (tptp.monomer_1 _let_33) (tptp.move_into_1 _let_30) (tptp.signal_reception_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.cell_1 _let_27) (tptp.tangible_entity_1 _let_25) (tptp.signal_1 _let_17) (tptp.signal_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.ligand_binding_1 _let_6) (tptp.ligand_binding_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.polymer_1 _let_4) (tptp.receptor_protein_1 _let_4) (tptp.intracellular_receptor_1 _let_2) (tptp.time_during_2 _let_42 _let_46) (tptp.time_during_2 _let_38 _let_47) (tptp.time_during_2 _let_1 _let_45) (tptp.time_before_2 _let_47 _let_46) (tptp.time_before_2 _let_46 _let_45) (tptp.object_2 _let_13 _let_32) (tptp.plays_2 _let_40 _let_24) (tptp.in_event_2 _let_37 _let_13) (tptp.base_2 _let_1 _let_41) (tptp.instrument_2 X _let_32) (tptp.result_2 _let_38 _let_32) (tptp.object_2 _let_44 _let_32) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_42 _let_1) (tptp.object_2 _let_42 _let_32) (tptp.object_2 _let_39 _let_32) (tptp.next_event_2 _let_9 _let_39) (tptp.subevent_2 _let_38 _let_9) (tptp.agent_2 _let_38 _let_40) (tptp.object_2 X _let_41) (tptp.first_subevent_2 X _let_38) (tptp.next_event_2 _let_38 _let_42) (tptp.by_means_of_2 _let_42 _let_44) (tptp.destination_2 _let_42 _let_41) (tptp.origin_2 _let_42 _let_43) (tptp.is_outside_2 _let_43 _let_40) (tptp.agent_2 X _let_40) (tptp.subevent_2 X _let_42) (tptp.subevent_2 X _let_38) (tptp.subevent_2 _let_38 _let_39) (tptp.base_2 _let_39 _let_40) (not (= _let_41 _let_40)) (not (= _let_40 _let_41)) (tptp.plays_2 _let_32 _let_37) (tptp.subevent_2 _let_3 _let_11) (tptp.has_function_2 _let_28 _let_3) (tptp.base_2 _let_31 _let_28) (tptp.subevent_2 _let_3 _let_31) (tptp.subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_11 _let_31) (tptp.first_subevent_2 _let_3 _let_11) (tptp.first_subevent_2 _let_1 _let_3) (tptp.instrument_2 _let_3 _let_28) (not (= _let_32 _let_36)) (tptp.complement_2 _let_28 _let_32) (tptp.has_function_2 _let_32 _let_31) (not (= _let_36 _let_32)) (tptp.has_part_2 _let_28 _let_36) (tptp.complement_2 _let_32 _let_28) (tptp.object_2 _let_3 _let_32) (tptp.has_part_2 _let_28 _let_34) (tptp.object_2 _let_31 _let_32) (not (= _let_32 _let_34)) (not (= _let_34 _let_32)) (tptp.agent_2 _let_1 _let_32) (tptp.result_2 _let_9 _let_32) (tptp.object_2 _let_11 _let_32) (= _let_32 _let_14) (= _let_40 _let_25) (= _let_37 _let_17) (= _let_41 _let_27) (= _let_32 _let_15) (= _let_1 (tptp.fn_cell_communication_with_endocrine_hormone_13 X)) (= _let_9 (tptp.fn_long_distance_cell_communication_7 X)) (= _let_38 _let_19) (= _let_44 (tptp.fn_cell_communication_with_endocrine_hormone_8 X)) (= _let_43 (tptp.fn_cell_communication_with_endocrine_hormone_4 X)) (= _let_42 (tptp.fn_cell_communication_with_endocrine_hormone_14 X)) (= _let_41 _let_26) (= _let_39 _let_21) (= _let_40 _let_23) (= _let_40 _let_22) (= _let_39 _let_20) (= _let_38 _let_18) (= _let_37 _let_16) (= _let_32 _let_12) (= _let_32 _let_10) (= _let_36 _let_35) (= _let_32 _let_8) (= _let_34 _let_33) (= _let_32 _let_7) (= _let_31 _let_6) (= _let_31 _let_5) (= _let_11 _let_30) (= _let_28 _let_4) (= _let_3 _let_29) (= _let_28 _let_2) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_12) (= _let_12 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_testosterone_12 X))) (let ((_let_2 (tptp.fn_signal_reception_with_testosterone_13 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_steroid_hormone_15 X))) (let ((_let_4 (tptp.fn_cell_communication_with_testosterone_41 X))) (let ((_let_5 (tptp.fn_cell_signaling_with_intracellular_receptor_7 _let_4))) (let ((_let_6 (tptp.fn_cell_communication_with_testosterone_29 X))) (let ((_let_7 (tptp.fn_transmit_2 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_with_testosterone_14 X))) (let 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(tptp.living_entity_1 _let_92) (tptp.atom_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.carbon_1 _let_55) (tptp.carbon_skeleton_1 _let_56) (tptp.activate_1 _let_36) (tptp.testosterone_receptor_1 _let_90) (tptp.entity_1 _let_68) (tptp.spatial_entity_1 _let_68) (tptp.polymer_1 _let_68) (tptp.receptor_protein_1 _let_68) (tptp.intracellular_receptor_1 _let_68) (tptp.testosterone_receptor_1 _let_68) (tptp.protein_1 _let_68) (tptp.size_value_1 _let_81) (tptp.mrna_1 _let_85) (tptp.transcription_1 _let_27) (tptp.blood_1 _let_79) (tptp.entity_1 _let_12) (tptp.tangible_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.steroid_hormone_1 _let_12) (tptp.steroid_1 _let_12) (tptp.hormone_1 _let_12) (tptp.testosterone_1 _let_12) (tptp.cellular_response_1 _let_31) (tptp.produce_1 _let_10) (tptp.move_1 _let_76) (tptp.transmit_1 _let_6) (tptp.signal_1 _let_57) (tptp.chemical_messenger_1 _let_57) (tptp.blood_vessel_1 _let_51) (tptp.sex_linked_gene_1 _let_67) (tptp.gene_related_aggregates_1 _let_65) (tptp.genome_1 _let_65) (tptp.tangible_entity_1 _let_63) (tptp.living_entity_1 _let_63) (tptp.endocrine_cell_1 _let_63) (tptp.cell_1 _let_63) (tptp.tangible_entity_1 _let_61) (tptp.cell_1 _let_61) (tptp.animal_cell_1 _let_61) (tptp.signal_transmission_1 _let_75) (tptp.sex_linked_gene_1 _let_69) (tptp.attach_1 _let_71) (tptp.ligand_binding_1 _let_71) (tptp.move_into_1 _let_70) (tptp.cell_signaling_1 _let_4) (tptp.cell_signaling_with_intracellular_receptor_1 _let_4) (tptp.attach_1 _let_38) (tptp.transcription_unit_1 _let_84) (tptp.tangible_entity_1 _let_91) (tptp.transcription_factor_1 _let_89) (tptp.lumen_1 _let_87) (tptp.transcription_unit_1 _let_83) (tptp.property_node_1 _let_82) (tptp.size_value_1 _let_80) (tptp.gene_1 _let_66) (tptp.genome_1 _let_64) (tptp.attach_1 _let_62) (tptp.cellular_response_1 _let_60) (tptp.signal_transduction_1 _let_59) (tptp.signal_reception_1 _let_58) (tptp.rna_1 _let_54) (tptp.rna_1 _let_53) (tptp.blood_1 _let_52) (tptp.blood_1 _let_50) (tptp.monomer_1 _let_49) (tptp.monomer_1 _let_47) (tptp.attach_1 _let_44) (tptp.ligand_binding_1 _let_44) (tptp.ligand_binding_1 _let_43) (tptp.move_into_1 _let_42) (tptp.move_into_1 _let_41) (tptp.gene_1 _let_40) (tptp.spatial_entity_1 _let_39) (tptp.entity_1 _let_37) (tptp.intracellular_receptor_1 _let_35) (tptp.testosterone_receptor_1 _let_33) (tptp.protein_1 _let_32) (tptp.cell_1 _let_28) (tptp.tangible_entity_1 _let_26) (tptp.cell_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.cell_1 _let_24) (tptp.animal_cell_1 _let_24) (tptp.cell_1 _let_22) (tptp.animal_cell_1 _let_22) (tptp.signal_1 _let_20) (tptp.chemical_messenger_1 _let_19) (tptp.carbon_skeleton_1 _let_18) (tptp.carbon_skeleton_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_1 _let_14) (tptp.carbon_1 _let_13) (tptp.entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.testosterone_1 _let_2) (tptp.time_during_2 _let_8 _let_94) (tptp.result_2 _let_36 _let_90) (tptp.element_2 _let_96 _let_90) (tptp.has_state_2 _let_68 _let_90) (tptp.has_state_2 _let_93 _let_96) (tptp.element_2 _let_93 _let_68) (tptp.the_scalar_value_2 _let_81 tptp.big_0) (tptp.scalar_unit_class_2 _let_81 tptp.polypeptide_0) (tptp.is_inside_2 _let_12 _let_92) (tptp.subevent_2 _let_31 _let_27) (tptp.agent_2 _let_31 _let_61) (tptp.next_event_2 _let_10 _let_8) (tptp.time_during_2 _let_10 _let_95) (tptp.instrument_2 _let_76 _let_79) (tptp.path_2 _let_76 _let_51) (tptp.has_part_2 _let_61 _let_96) (tptp.subevent_2 _let_75 _let_76) (tptp.time_before_2 _let_95 _let_94) (tptp.result_2 _let_71 _let_93) (tptp.result_2 _let_10 _let_12) (tptp.object_2 _let_8 _let_12) (tptp.object_2 _let_36 _let_68) (tptp.object_2 _let_6 _let_12) (tptp.base_2 _let_8 _let_92) (tptp.experiencer_2 _let_27 _let_61) (tptp.base_2 _let_27 _let_61) (tptp.agent_2 _let_27 _let_90) (tptp.result_2 _let_73 _let_12) (tptp.object_2 _let_76 _let_12) (tptp.object_2 _let_74 _let_12) (tptp.object_2 _let_75 _let_12) (tptp.result_2 _let_72 _let_12) (tptp.agent_2 _let_4 _let_12) (tptp.instrument_2 X _let_12) (tptp.has_region_2 _let_51 _let_88) (tptp.is_inside_2 _let_79 _let_88) (tptp.in_event_2 _let_86 X) (tptp.plays_2 _let_61 _let_86) (tptp.object_2 _let_27 _let_69) (tptp.has_part_2 _let_84 _let_69) (tptp.base_2 _let_27 _let_84) (tptp.result_2 _let_27 _let_85) (tptp.base_2 _let_70 _let_61) (tptp.base_2 _let_71 _let_68) (tptp.object_2 _let_71 _let_12) (tptp.has_function_2 _let_12 _let_71) (tptp.object_2 _let_1 _let_12) (tptp.has_function_2 _let_68 _let_1) (tptp.size_2 _let_68 _let_81) (tptp.complement_2 _let_12 _let_68) (tptp.complement_2 _let_68 _let_12) (tptp.object_2 _let_70 _let_12) (tptp.origin_2 _let_70 _let_79) (tptp.is_outside_2 _let_79 _let_61) (tptp.has_part_2 _let_61 _let_68) (tptp.has_part_2 _let_68 _let_78) (tptp.instrument_2 _let_1 _let_68) (tptp.has_part_2 _let_68 _let_77) (not (= _let_77 _let_12)) (not (= _let_12 _let_77)) (not (= _let_78 _let_12)) (not (= _let_12 _let_78)) (tptp.first_subevent_2 X _let_72) (tptp.next_event_2 _let_73 _let_74) (tptp.next_event_2 _let_75 _let_4) (tptp.next_event_2 _let_72 _let_75) (tptp.destination_2 _let_75 _let_61) (tptp.object_2 X _let_61) (tptp.subevent_2 X _let_75) (tptp.by_means_of_2 _let_75 _let_76) (tptp.base_2 _let_4 _let_61) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_72) (tptp.subevent_2 _let_72 _let_74) (tptp.base_2 _let_74 _let_63) (tptp.agent_2 X _let_63) (tptp.agent_2 _let_72 _let_63) (tptp.subevent_2 _let_72 _let_73) (not (= _let_61 _let_63)) (not (= _let_63 _let_61)) (tptp.subevent_2 _let_1 _let_71) (tptp.subevent_2 _let_1 _let_70) (tptp.first_subevent_2 _let_1 _let_70) (tptp.next_event_2 _let_70 _let_71) (tptp.has_region_2 _let_12 _let_56) (tptp.is_inside_2 _let_55 _let_56) (tptp.has_part_2 _let_12 _let_55) (tptp.plays_2 _let_12 _let_57) (tptp.next_event_2 _let_21 _let_31) (tptp.next_event_2 _let_1 _let_21) (tptp.subevent_2 _let_4 _let_1) (tptp.subevent_2 _let_21 _let_38) (tptp.base_2 _let_21 _let_61) (tptp.has_part_2 _let_63 _let_65) (tptp.first_subevent_2 _let_4 _let_1) (tptp.element_2 _let_65 _let_67) (tptp.in_event_2 _let_57 _let_6) (tptp.instrument_2 _let_31 _let_68) (tptp.base_2 _let_38 _let_69) (= _let_12 _let_11) (= _let_12 _let_9) (= _let_68 _let_37) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_61 _let_28) (= _let_79 _let_52) (= _let_88 _let_87) (= _let_61 _let_25) (= _let_86 (tptp.fn_cell_communication_with_endocrine_hormone_9 X)) (= _let_85 _let_54) (= _let_85 _let_53) (= _let_84 _let_83) (= _let_69 _let_40) (= (tptp.fn_cell_communication_with_testosterone_37 X) _let_82) (= _let_81 _let_80) (= _let_12 _let_5) (= _let_61 _let_24) (= _let_79 _let_50) (= _let_12 _let_3) (= _let_78 _let_48) (= _let_78 _let_49) (= _let_12 _let_2) (= _let_68 _let_34) (= _let_77 _let_48) (= _let_77 _let_47) (= _let_68 _let_35) (= _let_68 _let_33) (= _let_76 (tptp.fn_cell_communication_with_steroid_hormone_12 X)) (= _let_75 (tptp.fn_cell_communication_with_steroid_hormone_20 X)) (= _let_74 (tptp.fn_cell_communication_with_steroid_hormone_22 X)) (= _let_61 _let_26) (= _let_4 (tptp.fn_cell_communication_with_steroid_hormone_16 X)) (= _let_73 (tptp.fn_cell_communication_with_steroid_hormone_21 X)) (= _let_72 _let_46) (= _let_72 _let_45) (= _let_61 _let_23) (= _let_63 _let_30) (= _let_63 _let_29) (= _let_71 _let_44) (= _let_71 _let_43) (= _let_70 _let_42) (= _let_70 _let_41) (= _let_69 _let_39) (= _let_68 _let_32) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_38 _let_62) (= _let_61 _let_22) (= _let_31 _let_60) (= _let_21 _let_59) (= _let_1 _let_58) (= _let_12 _let_7) (= _let_57 _let_20) (= _let_57 _let_19) (= _let_56 _let_18) (= _let_56 _let_17) (= _let_55 _let_16) (= _let_55 _let_15) (= _let_55 _let_14) (= _let_55 _let_13) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_29) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_7) (= _let_7 _let_3) (= _let_5 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_with_thyroid_hormone_24 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_intracellular_receptor_9 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_thyroid_hormone_22 X))) (let ((_let_4 (tptp.fn_signal_reception_6 _let_3))) (let ((_let_5 (tptp.fn_cell_communication_with_thyroid_hormone_19 X))) (let ((_let_6 (tptp.fn_transmit_1 _let_5))) (let ((_let_7 (tptp.fn_cell_communication_with_thyroid_hormone_21 X))) (let 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(let ((_let_53 (tptp.fn_cell_communication_with_thyroid_hormone_10 X))) (let ((_let_54 (tptp.fn_animal_cell_78 _let_40))) (let ((_let_55 (tptp.fn_cell_communication_with_thyroid_hormone_2 X))) (let ((_let_56 (tptp.fn_cell_communication_with_thyroid_hormone_1 X))) (=> (tptp.cell_communication_with_thyroid_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Communication-With-Thyroid-Hormone'|) (tptp.user_description_2 X |tptp.'The process of cellular communication in animals in which the signal molecule is thyroid hormone.'|) (tptp.concept2words_2 X |tptp.'endocrine signaling with thyroid hormone'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'cell communication with thyroid hormone'|) (tptp.concept2words_2 X |tptp.'cell-communication-with-thyroid-hormone'|) (tptp.cell_communication_with_endocrine_hormone_1 X) (tptp.time_interval_1 _let_56) (tptp.time_interval_1 _let_55) (tptp.secretion_1 _let_38) (tptp.move_1 _let_44) (tptp.receptor_site_1 _let_36) (tptp.biological_region_1 _let_43) (tptp.ligand_binding_1 _let_26) (tptp.aqueous_solution_1 _let_53) (tptp.thyroid_hormone_receptor_1 _let_10) (tptp.size_value_1 _let_46) (tptp.size_value_1 _let_48) (tptp.signal_transmission_1 _let_42) (tptp.living_entity_1 _let_39) (tptp.cell_1 _let_39) (tptp.endocrine_cell_1 _let_39) (tptp.tangible_entity_1 _let_40) (tptp.cell_1 _let_40) (tptp.animal_cell_1 _let_40) (tptp.tangible_entity_1 _let_51) (tptp.nucleus_1 _let_51) (tptp.tangible_entity_1 _let_34) (tptp.transmit_1 _let_5) (tptp.chemical_messenger_1 _let_35) (tptp.signal_1 _let_35) (tptp.thyroid_hormone_1 _let_7) (tptp.signal_reception_1 _let_3) (tptp.move_1 _let_23) (tptp.move_into_1 _let_23) (tptp.cell_signaling_1 _let_1) (tptp.cell_signaling_with_intracellular_receptor_1 _let_1) (tptp.cellular_response_1 _let_32) (tptp.signal_transduction_1 _let_30) (tptp.signal_generation_1 _let_37) (tptp.target_cell_1 _let_41) (tptp.tangible_entity_1 _let_54) (tptp.nucleus_1 _let_54) (tptp.aqueous_solution_1 _let_52) (tptp.property_node_1 _let_50) (tptp.property_node_1 _let_49) (tptp.size_value_1 _let_47) (tptp.size_value_1 _let_45) (tptp.tangible_entity_1 _let_33) (tptp.cellular_response_1 _let_31) (tptp.signal_transduction_1 _let_29) (tptp.move_into_1 _let_28) (tptp.signal_reception_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_24) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.polymer_1 _let_19) (tptp.receptor_protein_1 _let_19) (tptp.intracellular_receptor_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.cell_1 _let_17) (tptp.receptor_site_1 _let_11) (tptp.receptor_site_1 _let_9) (tptp.chemical_messenger_1 _let_8) (tptp.signal_1 _let_6) (tptp.ligand_binding_1 _let_4) (tptp.ligand_binding_1 _let_2) (tptp.time_before_2 _let_56 _let_55) (tptp.is_inside_2 _let_10 _let_53) (tptp.time_during_2 _let_42 _let_56) (tptp.is_inside_2 _let_51 _let_34) (tptp.size_2 _let_7 _let_48) (tptp.recipient_2 _let_3 _let_40) (tptp.destination_2 _let_23 _let_51) (tptp.time_during_2 _let_1 _let_55) (tptp.agent_2 _let_32 _let_40) (tptp.site_2 _let_32 _let_51) (tptp.object_2 _let_5 _let_7) (tptp.object_2 _let_23 _let_7) (tptp.base_2 _let_30 _let_40) (tptp.base_2 _let_32 _let_40) (tptp.plays_2 _let_7 _let_35) (tptp.has_part_2 _let_40 _let_51) (tptp.has_part_2 _let_51 _let_53) (tptp.has_function_2 _let_7 _let_26) (tptp.has_region_2 _let_10 _let_36) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_26 _let_7) (tptp.complement_2 _let_7 _let_10) (tptp.has_function_2 _let_10 _let_3) (tptp.instrument_2 _let_3 _let_10) (tptp.base_2 _let_26 _let_10) (tptp.complement_2 _let_10 _let_7) (tptp.instrument_2 X _let_7) (tptp.result_2 _let_37 _let_7) (tptp.object_2 _let_44 _let_7) (tptp.subevent_2 X _let_1) (tptp.agent_2 _let_1 _let_7) (tptp.object_2 _let_42 _let_7) (tptp.next_event_2 _let_42 _let_1) (tptp.base_2 _let_1 _let_40) (tptp.size_2 _let_10 _let_46) (tptp.greater_than_2 _let_46 _let_48) (tptp.by_means_of_2 _let_42 _let_44) (tptp.first_subevent_2 X _let_37) (tptp.subevent_2 X _let_42) (tptp.next_event_2 _let_37 _let_42) (tptp.agent_2 _let_37 _let_39) (tptp.agent_2 X _let_39) (tptp.object_2 X _let_40) (tptp.in_event_2 _let_41 X) (tptp.plays_2 _let_40 _let_41) (tptp.destination_2 _let_42 _let_40) (tptp.origin_2 _let_42 _let_43) (tptp.is_outside_2 _let_43 _let_39) (tptp.subevent_2 X _let_37) (tptp.subevent_2 _let_37 _let_38) (tptp.base_2 _let_38 _let_39) (not (= _let_40 _let_39)) (not (= _let_39 _let_40)) (tptp.site_2 _let_26 _let_36) (tptp.facilitates_2 _let_36 _let_3) (tptp.subevent_2 _let_1 _let_30) (tptp.subevent_2 _let_1 _let_32) (tptp.next_event_2 _let_30 _let_32) (tptp.next_event_2 _let_3 _let_30) (tptp.subevent_2 _let_1 _let_3) (tptp.subevent_2 _let_3 _let_23) (tptp.first_subevent_2 _let_1 _let_3) (tptp.subevent_2 _let_3 _let_26) (tptp.base_2 _let_23 _let_34) (tptp.in_event_2 _let_35 _let_5) (= _let_7 _let_25) (= _let_7 _let_24) (= _let_35 _let_8) (= _let_51 _let_54) (= _let_53 _let_52) (= _let_36 _let_11) (= _let_7 _let_22) (= _let_10 _let_19) (= _let_10 _let_18) (= _let_40 _let_17) (= _let_7 _let_21) (= _let_7 _let_20) (= _let_1 (tptp.fn_cell_communication_with_endocrine_hormone_13 X)) (= (tptp.fn_cell_communication_with_thyroid_hormone_4 X) _let_50) (= (tptp.fn_cell_communication_with_thyroid_hormone_3 X) _let_49) (= _let_48 _let_47) (= _let_46 _let_45) (= _let_44 (tptp.fn_cell_communication_with_endocrine_hormone_8 X)) (= _let_43 (tptp.fn_cell_communication_with_endocrine_hormone_4 X)) (= _let_42 (tptp.fn_cell_communication_with_endocrine_hormone_14 X)) (= _let_41 (tptp.fn_cell_communication_with_endocrine_hormone_9 X)) (= _let_40 _let_16) (= _let_38 _let_13) (= _let_39 _let_15) (= _let_39 _let_14) (= _let_38 _let_12) (= _let_37 (tptp.fn_cell_communication_with_endocrine_hormone_10 X)) (= _let_36 _let_9) (= _let_35 _let_6) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_23 _let_28) (= _let_26 _let_4) (= _let_3 _let_27) (= _let_26 _let_2) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_crawling_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Crawling'|) (tptp.user_description_2 X |tptp.'The movement of cells from one location to another during embryonic development, wound healing, and the immune response.'|) (tptp.concept2words_2 X tptp.crawl) (tptp.concept2words_2 X |tptp.'crawling of cell'|) (tptp.concept2words_2 X |tptp.'cell crawling'|) (tptp.concept2words_2 X |tptp.'cell-crawling'|) (tptp.development_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_cycle_6 X))) (let ((_let_2 (tptp.fn_cell_division_3 _let_1))) (let ((_let_3 (tptp.fn_cell_cycle_5 X))) (let ((_let_4 (tptp.fn_cell_cycle_3 X))) (let ((_let_5 (tptp.fn_cell_cycle_4 X))) (=> (tptp.cell_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Cycle'|) (tptp.user_description_2 X |tptp.'The ordered series of events that occur in the life of a cell leading to its division.'|) (tptp.concept2words_2 X |tptp.'cycle of cell'|) (tptp.concept2words_2 X |tptp.'cell cycle'|) (tptp.concept2words_2 X |tptp.'cell-cycle'|) (tptp.life_cycle_process_1 X) (tptp.system_1 (tptp.fn_cell_cycle_1 X)) (tptp.duration_value_1 _let_4) (tptp.cell_1 _let_5) (tptp.cell_1 _let_3) (tptp.cell_division_1 _let_1) (tptp.cell_1 _let_2) (tptp.duration_2 _let_1 _let_4) (tptp.object_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.has_state_2 _let_5 _let_3) (tptp.the_scalar_value_2 _let_4 tptp.brief_0) (tptp.scalar_unit_class_2 _let_4 tptp.interphase_0) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_cycle_process_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Cycle-Process'|) (tptp.user_description_2 X |tptp.'Cellular process which relates to the cycle of a cell_'s growth and division (the cell cycle)'|) (tptp.concept2words_2 X |tptp.'undergo the cell cycle process'|) (tptp.concept2words_2 X |tptp.'cell cycle process'|) (tptp.concept2words_2 X |tptp.'cell-cycle-process'|) (tptp.cellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_determination_14 X))) (let ((_let_2 (tptp.fn_gene_expression_2 _let_1))) (let ((_let_3 (tptp.fn_cell_determination_9 X))) (let ((_let_4 (tptp.fn_gene_expression_4 _let_3))) (let ((_let_5 (tptp.fn_cell_determination_11 X))) (let ((_let_6 (tptp.fn_embryo_1 _let_5))) (let ((_let_7 (tptp.fn_cell_determination_12 X))) (let ((_let_8 (tptp.fn_gene_expression_4 _let_1))) (let ((_let_9 (tptp.fn_cell_determination_13 X))) (let ((_let_10 (tptp.fn_cell_determination_15 X))) (let ((_let_11 (tptp.fn_gene_expression_6 _let_3))) (let ((_let_12 (tptp.fn_cell_determination_10 X))) (let ((_let_13 (tptp.fn_cell_determination_8 X))) (let ((_let_14 (tptp.fn_agent_role_1 _let_13))) (let ((_let_15 (tptp.fn_cell_determination_1 X))) (let ((_let_16 (tptp.fn_cell_determination_4 X))) (let ((_let_17 (tptp.fn_cell_determination_6 X))) (let ((_let_18 (tptp.fn_cell_determination_5 X))) (let ((_let_19 (tptp.fn_cell_determination_7 X))) (=> (tptp.cell_determination_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Determination'|) (tptp.user_description_2 X |tptp.'The progressive restriction of developmental potential in which the possible fate of each cell becomes more limited as an embryo develops. At the end of determination, a cell is committed to its fate.'|) (tptp.concept2words_2 X tptp.determination) (tptp.concept2words_2 X tptp.determine) (tptp.concept2words_2 X |tptp.'determination of cell'|) (tptp.concept2words_2 X |tptp.'cell determination'|) (tptp.concept2words_2 X |tptp.'cell-determination'|) (tptp.embryonic_process_1 X) (not (tptp.childbirth_1 X)) (not (tptp.compaction_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.gestation_1 X)) (not (tptp.molting_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.organogenesis_1 X)) (not (tptp.oviparous_1 X)) (not (tptp.ovoviviparous_1 X)) (not (tptp.ovulation_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.pattern_formation_1 X)) (not (tptp.phase_change_1 X)) (not (tptp.primary_growth_1 X)) (not (tptp.protostome_development_1 X)) (not (tptp.radial_cleavage_1 X)) (not (tptp.senescence_1 X)) (not (tptp.torsion_1 X)) (not (tptp.viviparous_1 X)) (tptp.regulation_1 _let_15) (tptp.differentiated_embryonic_cell_1 _let_16) (tptp.quantity_value_1 _let_18) (tptp.quantity_value_1 _let_17) (tptp.undifferentiated_cell_1 _let_19) (tptp.participant_1 _let_13) (tptp.gene_expression_1 _let_3) (tptp.master_control_gene_1 _let_12) (tptp.entity_1 _let_5) (tptp.embryo_1 _let_5) (tptp.undifferentiated_embryonic_cell_1 _let_7) (tptp.tissue_specific_protein_1 _let_9) (tptp.gene_expression_1 _let_1) (tptp.amphipathic_molecule_1 _let_10) (tptp.entity_1 _let_14) (tptp.gene_1 _let_11) (tptp.chemical_entity_1 _let_8) (tptp.protein_1 _let_8) (tptp.eukaryotic_cell_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.protein_1 _let_4) (tptp.transcription_factor_1 _let_2) (tptp.called_2 _let_10 |tptp.'Transcription Factor I'|) (tptp.called_2 _let_1 |tptp.'Gene Expression 2'|) (tptp.subevent_2 X _let_3) (tptp.object_2 X _let_19) (tptp.greater_than_2 _let_17 _let_18) (tptp.quantity_2 _let_7 _let_18) (tptp.quantity_2 _let_16 _let_17) (tptp.has_part_2 _let_5 _let_16) (tptp.called_2 _let_3 |tptp.'Gene Expression 1'|) (tptp.causes_2 _let_3 _let_15) (tptp.in_event_2 _let_13 X) (tptp.supports_2 _let_15 X) (tptp.plays_2 _let_5 _let_13) (tptp.result_2 _let_3 _let_10) (tptp.object_2 _let_3 _let_12) (tptp.agent_2 _let_1 _let_10) (tptp.result_2 _let_1 _let_9) (tptp.has_part_2 _let_5 _let_7) (= _let_5 _let_14) (= _let_10 _let_4) (= _let_12 _let_11) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_differentiation_20 X))) (let ((_let_2 (tptp.fn_gene_expression_4 _let_1))) (let ((_let_3 (tptp.fn_cell_differentiation_16 X))) (let ((_let_4 (tptp.fn_create_1 _let_3))) (let ((_let_5 (tptp.fn_cell_differentiation_13 X))) (let ((_let_6 (tptp.fn_chromosome_4 _let_5))) (let ((_let_7 (tptp.fn_cell_differentiation_28 X))) (let ((_let_8 (tptp.fn_chromosome_5 _let_5))) (let ((_let_9 (tptp.fn_cell_differentiation_27 X))) (let ((_let_10 (tptp.fn_dna_strand_14 _let_9))) (let ((_let_11 (tptp.fn_cell_differentiation_25 X))) (let ((_let_12 (tptp.fn_gene_13 _let_11))) (let ((_let_13 (tptp.fn_cell_differentiation_24 X))) (let ((_let_14 (tptp.fn_cell_differentiation_19 X))) (let ((_let_15 (tptp.fn_eukaryotic_cell_26 _let_14))) (let ((_let_16 (tptp.fn_cell_differentiation_18 X))) (let ((_let_17 (tptp.fn_eukaryotic_cell_30 _let_14))) (let ((_let_18 (tptp.fn_cell_differentiation_15 X))) (let ((_let_19 (tptp.fn_cell_signaling_1 _let_18))) (let ((_let_20 (tptp.fn_cell_differentiation_14 X))) (let ((_let_21 (tptp.fn_cell_differentiation_26 X))) (let ((_let_22 (tptp.fn_gene_13 _let_21))) (let ((_let_23 (tptp.fn_cell_differentiation_23 X))) (let ((_let_24 (tptp.fn_cell_differentiation_17 X))) (let ((_let_25 (tptp.fn_cell_differentiation_22 X))) (let ((_let_26 (tptp.fn_create_1 _let_25))) (let ((_let_27 (tptp.fn_cell_differentiation_21 X))) (let ((_let_28 (tptp.fn_cell_differentiation_12 X))) (let ((_let_29 (tptp.fn_cell_differentiation_11 X))) (let ((_let_30 (tptp.fn_cell_differentiation_7 X))) (let ((_let_31 (tptp.fn_cell_differentiation_10 X))) (let ((_let_32 (tptp.fn_cell_differentiation_1 X))) (let ((_let_33 (tptp.fn_cell_differentiation_5 X))) (let ((_let_34 (tptp.fn_cell_differentiation_2 X))) (let ((_let_35 (tptp.fn_cell_differentiation_9 X))) (let ((_let_36 (tptp.fn_cell_differentiation_8 X))) (let ((_let_37 (tptp.fn_cell_differentiation_6 X))) (let ((_let_38 (tptp.fn_cell_differentiation_3 X))) (let ((_let_39 (tptp.fn_cell_differentiation_4 X))) (=> (tptp.cell_differentiation_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Differentiation'|) (tptp.user_description_2 X |tptp.'The sum of processes by which cells become structurally and functionally diverse during the development of a multicellular organism.'|) (tptp.concept2words_2 X |tptp.'cellular differentiation'|) (tptp.concept2words_2 X tptp.differentiation) (tptp.concept2words_2 X tptp.differentiate) (tptp.concept2words_2 X |tptp.'differentiation of cell'|) (tptp.concept2words_2 X |tptp.'cell differentiation'|) (tptp.concept2words_2 X |tptp.'cell-differentiation'|) (tptp.cellular_process_1 X) (not (tptp.neural_signaling_1 X)) (tptp.transcriptional_regulation_1 _let_32) (tptp.change_1 _let_34) (tptp.cell_1 _let_38) (tptp.tissue_1 _let_39) (tptp.change_1 _let_33) (tptp.chromosome_1 _let_37) (tptp.differentiated_cell_1 _let_30) (tptp.structural_role_1 _let_36) (tptp.role_1 _let_35) (tptp.event_1 _let_31) (tptp.environment_1 _let_29) (tptp.action_1 _let_28) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.chromosome_1 _let_5) (tptp.cellular_response_1 _let_20) (tptp.cell_signaling_1 _let_18) (tptp.produce_1 _let_3) (tptp.tissue_specific_protein_1 _let_24) (tptp.tangible_entity_1 _let_16) (tptp.nucleus_1 _let_16) (tptp.eukaryotic_cell_1 _let_14) (tptp.gene_expression_1 _let_1) (tptp.tissue_specific_protein_1 _let_27) (tptp.produce_1 _let_25) (tptp.code_for_1 _let_23) (tptp.code_for_1 _let_13) (tptp.gene_1 _let_11) (tptp.gene_1 _let_21) (tptp.dna_strand_1 _let_9) (tptp.entity_1 _let_7) (tptp.dna_1 _let_7) (tptp.entity_1 _let_26) (tptp.code_for_1 _let_22) (tptp.cellular_response_1 _let_19) (tptp.eukaryotic_chromosome_1 _let_17) (tptp.chromosome_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.nucleus_1 _let_15) (tptp.code_for_1 _let_12) (tptp.gene_1 _let_10) (tptp.dna_strand_1 _let_8) (tptp.entity_1 _let_6) (tptp.dna_1 _let_6) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.protein_1 _let_2) (tptp.causes_2 _let_20 X) (tptp.base_2 _let_3 _let_39) (tptp.object_2 _let_34 _let_38) (tptp.site_2 _let_33 _let_16) (tptp.object_2 _let_33 _let_37) (tptp.purpose_2 _let_30 _let_35) (tptp.purpose_2 _let_30 _let_36) (tptp.in_event_2 _let_35 _let_31) (tptp.object_2 X _let_14) (tptp.result_2 X _let_30) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_34) (tptp.subevent_2 X _let_33) (tptp.subevent_2 X _let_32) (tptp.next_event_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_30) (tptp.agent_2 _let_31 _let_27) (tptp.base_2 _let_25 _let_30) (tptp.donor_2 _let_23 _let_21) (tptp.base_2 _let_28 _let_29) (tptp.inhibits_2 _let_28 _let_23) (tptp.enables_2 _let_28 _let_13) (tptp.donor_2 _let_13 _let_11) (tptp.has_part_2 _let_9 _let_21) (tptp.result_2 _let_3 _let_24) (tptp.result_2 _let_25 _let_27) (tptp.result_2 _let_1 _let_24) (tptp.agent_2 _let_23 _let_21) (tptp.subevent_2 _let_18 _let_20) (tptp.has_part_2 _let_14 _let_16) (tptp.is_inside_2 _let_5 _let_16) (tptp.has_part_2 _let_14 _let_5) (tptp.has_part_2 _let_7 _let_9) (tptp.has_part_2 _let_5 _let_7) (tptp.has_part_2 _let_9 _let_11) (tptp.agent_2 _let_13 _let_11) (= _let_24 _let_4) (= _let_27 _let_26) (= _let_24 _let_2) (= _let_23 _let_22) (= _let_20 _let_19) (= _let_5 _let_17) (= _let_16 _let_15) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_differentiation_for_tissue_formation_3 X))) (let ((_let_2 (tptp.fn_cell_differentiation_for_tissue_formation_2 X))) (let ((_let_3 (tptp.fn_cell_differentiation_for_tissue_formation_1 X))) (=> (tptp.cell_differentiation_for_tissue_formation_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Differentiation-For-Tissue-Formation'|) (tptp.user_description_2 X |tptp.'The process of differentiation in cells which occurs resulting in tissue formation is called cell differentiation for tissue formation.'|) (tptp.concept2words_2 X tptp.differentiate) (tptp.concept2words_2 X |tptp.'cell differentiation for tissue formation'|) (tptp.concept2words_2 X |tptp.'cell-differentiation-for-tissue-formation'|) (tptp.cell_differentiation_1 X) (not (tptp.muscle_cell_differentiation_1 X)) (not (tptp.stem_cell_differentiation_1 X)) (tptp.cell_1 _let_3) (tptp.produce_1 _let_2) (tptp.produce_1 _let_1) (tptp.base_2 _let_1 _let_3) (tptp.causes_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_cell_differentiation_16 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_1 X))) (let ((_let_2 (tptp.fn_cell_differentiation_induction_2 X))) (let ((_let_3 (tptp.fn_cell_differentiation_14 _let_2))) (let ((_let_4 (tptp.fn_cell_differentiation_induction_3 X))) (let ((_let_5 (tptp.fn_cell_differentiation_induction_5 X))) (let ((_let_6 (tptp.fn_cell_differentiation_induction_4 X))) (let ((_let_7 (tptp.fn_cell_differentiation_induction_1 X))) (=> (tptp.cell_differentiation_induction_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Differentiation-Induction'|) (tptp.user_description_2 X |tptp.'Induction, signaling from one group of cells to an adjacent group, that brings about differentiation.'|) (tptp.concept2words_2 X |tptp.'induce cell differentiation'|) (tptp.concept2words_2 X |tptp.'cell differentiation induction'|) (tptp.concept2words_2 X |tptp.'cell-differentiation-induction'|) (tptp.chemical_signaling_1 X) (tptp.transcriptional_regulation_1 _let_7) (tptp.cell_differentiation_1 _let_2) (tptp.signal_reception_1 _let_4) (tptp.cellular_response_1 _let_6) (tptp.eukaryotic_cell_1 _let_5) (tptp.cellular_response_1 _let_3) (tptp.base_2 _let_7 _let_5) (tptp.subevent_2 _let_6 _let_7) (tptp.recipient_2 _let_4 _let_5) (tptp.base_2 X _let_5) (tptp.causes_2 _let_6 _let_2) (tptp.first_subevent_2 X _let_4) (tptp.base_2 _let_4 _let_5) (tptp.base_2 _let_6 _let_5) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_4) (= _let_6 _let_3) (= _let_6 _let_1) (= _let_5 (tptp.fn_cell_signaling_4 X)) (= _let_4 (tptp.fn_cell_signaling_2 X)) (= _let_3 _let_1) (= _let_1 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_6 X))) (let ((_let_2 (tptp.fn_cell_division_5 X))) (let ((_let_3 (tptp.fn_cell_division_1 X))) (let ((_let_4 (tptp.fn_cell_division_4 X))) (let ((_let_5 (tptp.fn_cell_division_2 X))) (let ((_let_6 (tptp.fn_cell_division_3 X))) (=> (tptp.cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Division'|) (tptp.user_description_2 X |tptp.'A process by which the parent cell divides into two or more daughter cells.'|) (tptp.concept2words_2 X |tptp.'cell reproduction'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'division of cell'|) (tptp.concept2words_2 X |tptp.'cell division'|) (tptp.concept2words_2 X |tptp.'cell-division'|) (tptp.cell_cycle_process_1 X) (tptp.resource_1 _let_3) (tptp.cell_1 _let_5) (tptp.cell_1 _let_6) (tptp.atp_1 _let_4) (tptp.daughter_cell_1 _let_2) (tptp.parent_cell_1 _let_1) (tptp.in_event_2 _let_3 X) (tptp.plays_2 _let_5 _let_2) (tptp.plays_2 _let_6 _let_1) (tptp.object_2 X _let_6) (tptp.result_2 X _let_5) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.cell_0) (tptp.raw_material_2 X _let_4) (tptp.plays_2 _let_4 _let_3) (tptp.in_event_2 _let_2 X) (tptp.in_event_2 _let_1 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_in_diatom_2 X))) (let ((_let_2 (tptp.fn_diatom_44 _let_1))) (let ((_let_3 (tptp.fn_cell_division_in_diatom_5 X))) (let ((_let_4 (tptp.fn_nuclear_division_2 _let_3))) (let ((_let_5 (tptp.fn_cell_division_in_diatom_14 X))) (let ((_let_6 (tptp.fn_diatom_41 _let_5))) (let ((_let_7 (tptp.fn_cell_division_in_diatom_15 X))) (let ((_let_8 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_7))) (let ((_let_9 (tptp.fn_cell_25 _let_5))) (let ((_let_10 (tptp.fn_cell_division_in_diatom_7 X))) (let ((_let_11 (tptp.fn_move_apart_1 _let_10))) (let ((_let_12 (tptp.fn_cell_division_in_diatom_9 X))) (let ((_let_13 (tptp.fn_move_1 _let_12))) (let ((_let_14 (tptp.fn_move_apart_2 _let_10))) (let ((_let_15 (tptp.fn_cell_division_in_diatom_8 X))) (let ((_let_16 (tptp.fn_move_1 _let_15))) (let ((_let_17 (tptp.fn_cell_division_in_diatom_3 X))) (let ((_let_18 (tptp.fn_cell_division_in_diatom_4 X))) (let ((_let_19 (tptp.fn_diatom_44 _let_18))) (let ((_let_20 (tptp.fn_cell_division_in_diatom_6 X))) (let ((_let_21 (tptp.fn_cell_division_in_diatom_16 X))) (let ((_let_22 (tptp.fn_cell_division_in_diatom_11 X))) (let ((_let_23 (tptp.fn_cell_division_in_diatom_10 X))) (let ((_let_24 (tptp.fn_cell_division_in_diatom_12 X))) (let ((_let_25 (tptp.fn_create_1 _let_24))) (let ((_let_26 (tptp.fn_cell_division_in_diatom_13 X))) (let ((_let_27 (tptp.fn_cell_division_in_diatom_1 X))) (=> (tptp.cell_division_in_diatom_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Division-In-Diatom'|) (tptp.user_description_2 X |tptp.'The process in diatoms by which the parent cell divides into two daughter cells.'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'cell division in diatom'|) (tptp.concept2words_2 X |tptp.'cell-division-in-diatom'|) (tptp.cell_division_1 X) (tptp.microtubule_1 _let_27) (tptp.cell_1 _let_1) (tptp.diatom_1 _let_1) (tptp.tangible_entity_1 _let_17) (tptp.nucleus_1 _let_17) (tptp.diatom_1 _let_18) (tptp.nuclear_division_1 _let_3) (tptp.tangible_entity_1 _let_20) (tptp.nucleus_1 _let_20) (tptp.move_apart_1 _let_10) (tptp.move_1 _let_15) (tptp.move_1 _let_12) (tptp.chromosome_1 _let_23) (tptp.spatial_entity_1 _let_22) (tptp.chromosome_1 _let_22) (tptp.produce_1 _let_24) (tptp.spindle_1 _let_26) (tptp.cell_1 _let_5) (tptp.diatom_1 _let_5) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_7) (tptp.membrane_1 _let_21) (tptp.spatial_entity_1 _let_21) (tptp.biomembrane_1 _let_21) (tptp.plasma_membrane_1 _let_21) (tptp.entity_1 _let_25) (tptp.tangible_entity_1 _let_19) (tptp.nucleus_1 _let_19) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.chromosome_1 _let_9) (tptp.membrane_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.nucleus_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.nucleus_1 _let_2) (tptp.result_2 X _let_18) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_3) (tptp.has_part_2 _let_5 _let_23) (not (= _let_1 _let_18)) (not (= _let_22 _let_23)) (not (= _let_23 _let_22)) (tptp.agent_2 _let_10 _let_27) (tptp.first_subevent_2 _let_10 _let_15) (tptp.first_subevent_2 _let_10 _let_12) (tptp.subevent_2 _let_10 _let_15) (tptp.subevent_2 _let_10 _let_12) (not (= _let_20 _let_17)) (not (= _let_17 _let_20)) (tptp.result_2 _let_3 _let_20) (not (= _let_18 _let_1)) (tptp.object_2 X _let_5) (tptp.result_2 X _let_1) (tptp.result_2 _let_24 _let_26) (tptp.object_2 _let_15 _let_23) (tptp.object_2 _let_12 _let_22) (tptp.object_2 _let_10 _let_23) (tptp.object_2 _let_10 _let_22) (tptp.path_2 _let_7 _let_21) (tptp.has_part_2 _let_5 _let_22) (tptp.has_part_2 _let_5 _let_21) (tptp.result_2 _let_3 _let_17) (tptp.has_part_2 _let_18 _let_20) (tptp.has_part_2 _let_1 _let_17) (= _let_5 (tptp.fn_cell_division_3 X)) (= _let_1 (tptp.fn_cell_division_2 X)) (= _let_26 _let_25) (= _let_23 _let_16) (= _let_22 _let_13) (= _let_23 _let_14) (= _let_22 _let_11) (= _let_21 _let_8) (= _let_22 _let_9) (= _let_21 _let_6) (= _let_17 _let_4) (= _let_20 _let_19) (= _let_17 _let_2) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_in_dinoflagellate_20 X))) (let ((_let_2 (tptp.fn_dinoflagellate_10 _let_1))) (let ((_let_3 (tptp.fn_cell_division_in_dinoflagellate_8 X))) (let ((_let_4 (tptp.fn_nuclear_division_3 _let_3))) (let ((_let_5 (tptp.fn_cell_division_in_dinoflagellate_15 X))) (let ((_let_6 (tptp.fn_hold_2 _let_5))) (let ((_let_7 (tptp.fn_cell_division_in_dinoflagellate_13 X))) (let ((_let_8 (tptp.fn_nucleus_13 _let_7))) (let ((_let_9 (tptp.fn_cell_division_in_dinoflagellate_11 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_nucleus_6 _let_7))) (let ((_let_12 (tptp.fn_dinoflagellate_9 _let_1))) (let ((_let_13 (tptp.fn_attach_1 _let_9))) (let ((_let_14 (tptp.fn_cell_division_in_dinoflagellate_12 X))) (let ((_let_15 (tptp.fn_cytoskeleton_6 _let_14))) (let ((_let_16 (tptp.fn_cell_division_3 X))) (let ((_let_17 (tptp.fn_dinoflagellate_17 _let_1))) (let ((_let_18 (tptp.fn_cytoskeleton_7 _let_14))) (let ((_let_19 (tptp.fn_dinoflagellate_11 _let_1))) (let ((_let_20 (tptp.fn_cytoskeleton_9 _let_14))) (let ((_let_21 (tptp.fn_dinoflagellate_8 _let_1))) (let ((_let_22 (tptp.fn_cytoskeleton_8 _let_14))) (let ((_let_23 (tptp.fn_cell_division_in_dinoflagellate_14 X))) (let ((_let_24 (tptp.fn_biomembrane_71 _let_23))) (let ((_let_25 (tptp.fn_cell_division_in_dinoflagellate_17 X))) (let ((_let_26 (tptp.fn_glycolipid_4 _let_25))) (let ((_let_27 (tptp.fn_lipid_14 _let_25))) (let ((_let_28 (tptp.fn_cytoskeleton_3 _let_14))) (let ((_let_29 (tptp.fn_hold_1 _let_5))) (let ((_let_30 (tptp.fn_nucleus_14 _let_7))) (let ((_let_31 (tptp.fn_cell_division_in_dinoflagellate_36 X))) (let ((_let_32 (tptp.fn_nucleus_17 _let_7))) (let ((_let_33 (tptp.fn_cell_division_in_dinoflagellate_34 X))) (let ((_let_34 (tptp.fn_nucleus_16 _let_7))) (let ((_let_35 (tptp.fn_cell_division_in_dinoflagellate_25 X))) (let ((_let_36 (tptp.fn_nucleus_5 _let_7))) (let ((_let_37 (tptp.fn_cell_division_in_dinoflagellate_35 X))) (let ((_let_38 (tptp.fn_nucleus_18 _let_7))) (let ((_let_39 (tptp.fn_cell_division_in_dinoflagellate_23 X))) (let ((_let_40 (tptp.fn_nucleus_11 _let_7))) (let ((_let_41 (tptp.fn_cell_division_in_dinoflagellate_33 X))) (let ((_let_42 (tptp.fn_nucleus_15 _let_7))) (let ((_let_43 (tptp.fn_cell_division_in_dinoflagellate_26 X))) (let ((_let_44 (tptp.fn_nucleus_9 _let_7))) (let ((_let_45 (tptp.fn_cell_division_in_dinoflagellate_24 X))) (let ((_let_46 (tptp.fn_nucleus_3 _let_7))) (let ((_let_47 (tptp.fn_cell_division_in_dinoflagellate_32 X))) (let ((_let_48 (tptp.fn_cell_division_in_dinoflagellate_51 X))) (let ((_let_49 (tptp.fn_dinoflagellate_26 _let_1))) (let ((_let_50 (tptp.fn_cell_division_in_dinoflagellate_55 X))) (let ((_let_51 (tptp.fn_dinoflagellate_25 _let_1))) (let ((_let_52 (tptp.fn_cell_division_in_dinoflagellate_21 X))) (let ((_let_53 (tptp.fn_dinoflagellate_18 _let_1))) (let ((_let_54 (tptp.fn_cell_division_in_dinoflagellate_53 X))) (let ((_let_55 (tptp.fn_cell_division_in_dinoflagellate_54 X))) (let ((_let_56 (tptp.fn_cell_division_in_dinoflagellate_38 X))) (let ((_let_57 (tptp.fn_dinoflagellate_31 _let_1))) (let ((_let_58 (tptp.fn_cell_division_in_dinoflagellate_46 X))) (let ((_let_59 (tptp.fn_dinoflagellate_28 _let_1))) (let ((_let_60 (tptp.fn_cell_division_in_dinoflagellate_41 X))) (let ((_let_61 (tptp.fn_cell_division_in_dinoflagellate_52 X))) (let ((_let_62 (tptp.fn_dinoflagellate_32 _let_1))) (let ((_let_63 (tptp.fn_cell_division_in_dinoflagellate_47 X))) (let ((_let_64 (tptp.fn_dinoflagellate_33 _let_1))) (let ((_let_65 (tptp.fn_cell_division_in_dinoflagellate_48 X))) (let ((_let_66 (tptp.fn_dinoflagellate_34 _let_1))) (let ((_let_67 (tptp.fn_cell_division_in_dinoflagellate_49 X))) (let ((_let_68 (tptp.fn_dinoflagellate_27 _let_1))) (let ((_let_69 (tptp.fn_cell_division_in_dinoflagellate_39 X))) (let ((_let_70 (tptp.fn_dinoflagellate_29 _let_1))) 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(tptp.fn_chromosome_3 _let_48))) (let ((_let_89 (tptp.fn_cell_division_in_dinoflagellate_30 X))) (let ((_let_90 (tptp.fn_chromosome_8 _let_48))) (let ((_let_91 (tptp.fn_cell_division_in_dinoflagellate_22 X))) (let ((_let_92 (tptp.fn_chromosome_4 _let_48))) (let ((_let_93 (tptp.fn_cell_division_in_dinoflagellate_31 X))) (let ((_let_94 (tptp.fn_chromosome_6 _let_48))) (let ((_let_95 (tptp.fn_cell_division_in_dinoflagellate_28 X))) (let ((_let_96 (tptp.fn_eukaryotic_chromosome_5 _let_48))) (let ((_let_97 (tptp.fn_cell_division_in_dinoflagellate_27 X))) (let ((_let_98 (tptp.fn_eukaryotic_chromosome_4 _let_48))) (let ((_let_99 (tptp.fn_cell_division_in_dinoflagellate_29 X))) (let ((_let_100 (tptp.fn_cell_division_in_dinoflagellate_6 X))) (let ((_let_101 (tptp.fn_cell_division_in_dinoflagellate_19 X))) (let ((_let_102 (tptp.fn_biomembrane_29 _let_23))) (let ((_let_103 (tptp.fn_cell_division_in_dinoflagellate_18 X))) (let ((_let_104 (tptp.fn_cell_division_in_dinoflagellate_16 X))) (let ((_let_105 (tptp.fn_cell_1 _let_1))) (let ((_let_106 (tptp.fn_cell_division_in_dinoflagellate_9 X))) (let ((_let_107 (tptp.fn_cell_2 _let_1))) (let ((_let_108 (tptp.fn_cell_division_in_dinoflagellate_7 X))) (let ((_let_109 (tptp.fn_move_1 _let_108))) (let ((_let_110 (tptp.fn_cell_division_in_dinoflagellate_10 X))) (let ((_let_111 (tptp.fn_cell_division_in_dinoflagellate_4 X))) (let ((_let_112 (tptp.fn_cell_division_in_dinoflagellate_5 X))) (let ((_let_113 (tptp.fn_cell_division_in_dinoflagellate_3 X))) (let ((_let_114 (tptp.fn_cell_division_in_dinoflagellate_1 X))) (let ((_let_115 (tptp.fn_cell_division_in_dinoflagellate_2 X))) (=> (tptp.cell_division_in_dinoflagellate_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Division-In-Dinoflagellate'|) (tptp.user_description_2 X |tptp.'A process by which the parent dinoflagellate cell divides into two dinoflagellate daughter cells.'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'cell division in dinoflagellate'|) (tptp.concept2words_2 X |tptp.'cell-division-in-dinoflagellate'|) (tptp.cell_division_1 X) (tptp.chromosome_arm_1 _let_114) (tptp.chromosome_arm_1 _let_115) (tptp.er_membrane_1 _let_113) (tptp.cell_pole_1 _let_111) (tptp.pore_1 _let_112) (tptp.parent_cell_1 _let_100) (tptp.move_through_1 _let_108) (tptp.nuclear_division_1 _let_3) (tptp.cell_pole_1 _let_106) (tptp.microtubule_1 _let_110) (tptp.attach_1 _let_9) (tptp.cytoskeleton_1 _let_14) (tptp.tangible_entity_1 _let_7) (tptp.nucleus_1 _let_7) (tptp.spatial_entity_1 _let_23) (tptp.nuclear_membrane_1 _let_23) (tptp.biomembrane_1 _let_23) (tptp.hold_1 _let_5) (tptp.tangible_entity_1 _let_104) (tptp.intermediate_filament_1 _let_104) (tptp.lipid_1 _let_25) (tptp.glycolipid_1 _let_25) (tptp.carbon_skeleton_1 _let_103) (tptp.dinoflagellate_1 _let_101) (tptp.tangible_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.dinoflagellate_1 _let_1) (tptp.tangible_entity_1 _let_52) (tptp.phospholipid_bilayer_1 _let_52) (tptp.coil_1 _let_91) (tptp.dna_polymerase_iii_1 _let_39) (tptp.hydrophilic_face_1 _let_45) (tptp.aqueous_solution_1 _let_35) (tptp.hydrophilic_face_1 _let_43) (tptp.end_1 _let_97) (tptp.centromere_1 _let_95) (tptp.telomere_1 _let_99) (tptp.protein_1 _let_89) (tptp.entity_1 _let_93) (tptp.dna_1 _let_93) (tptp.synthesis_of_rna_1 _let_47) (tptp.dna_replication_in_eukaryotes_1 _let_41) (tptp.aqueous_solution_1 _let_33) (tptp.nucleolus_1 _let_37) (tptp.nuclear_lamina_1 _let_31) (tptp.protein_enzyme_1 _let_85) (tptp.substance_1 _let_56) (tptp.cytosol_1 _let_56) (tptp.specific_heat_value_1 _let_69) (tptp.temperature_value_1 _let_71) (tptp.synthesis_reaction_1 _let_60) (tptp.chemical_reaction_1 _let_60) (tptp.anabolic_pathway_1 _let_60) (tptp.synthesis_of_lipid_1 _let_60) (tptp.catabolic_pathway_1 _let_81) (tptp.eukaryotic_cellular_respiration_1 _let_81) (tptp.cellular_work_1 _let_79) (tptp.volume_value_1 _let_77) (tptp.size_value_1 _let_75) (tptp.smooth_endoplasmic_reticulum_1 _let_58) (tptp.golgi_apparatus_1 _let_63) (tptp.rough_endoplasmic_reticulum_1 _let_65) (tptp.water_1 _let_67) (tptp.semiautonomous_organelle_1 _let_73) (tptp.organelle_1 _let_73) (tptp.mitochondrion_1 _let_73) (tptp.spatial_entity_1 _let_48) (tptp.chromosome_1 _let_48) (tptp.eukaryotic_chromosome_1 _let_48) (tptp.ribosome_1 _let_61) (tptp.eukaryotic_ribosome_1 _let_61) (tptp.spatial_entity_1 _let_54) (tptp.biomembrane_1 _let_54) (tptp.plasma_membrane_1 _let_54) (tptp.mixture_1 _let_55) (tptp.cytoplasm_1 _let_55) (tptp.surface_1 _let_50) (tptp.spatial_entity_1 _let_109) (tptp.cytoskeleton_1 _let_107) (tptp.cell_pole_1 _let_105) (tptp.glycolipid_1 _let_102) (tptp.telomere_1 _let_98) (tptp.end_1 _let_96) (tptp.centromere_1 _let_94) (tptp.entity_1 _let_92) (tptp.dna_1 _let_92) (tptp.coil_1 _let_90) (tptp.protein_1 _let_88) (tptp.property_node_1 _let_87) (tptp.property_node_1 _let_86) (tptp.protein_enzyme_1 _let_84) (tptp.property_node_1 _let_83) (tptp.property_node_1 _let_82) (tptp.catabolic_pathway_1 _let_80) (tptp.eukaryotic_cellular_respiration_1 _let_80) (tptp.cellular_work_1 _let_78) (tptp.volume_value_1 _let_76) (tptp.size_value_1 _let_74) (tptp.semiautonomous_organelle_1 _let_72) (tptp.organelle_1 _let_72) (tptp.mitochondrion_1 _let_72) (tptp.temperature_value_1 _let_70) (tptp.specific_heat_value_1 _let_68) (tptp.water_1 _let_66) (tptp.rough_endoplasmic_reticulum_1 _let_64) (tptp.golgi_apparatus_1 _let_62) (tptp.synthesis_reaction_1 _let_59) (tptp.chemical_reaction_1 _let_59) (tptp.anabolic_pathway_1 _let_59) (tptp.synthesis_of_lipid_1 _let_59) (tptp.smooth_endoplasmic_reticulum_1 _let_57) (tptp.spatial_entity_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.plasma_membrane_1 _let_53) (tptp.tangible_entity_1 _let_51) (tptp.phospholipid_bilayer_1 _let_51) (tptp.surface_1 _let_49) (tptp.synthesis_of_rna_1 _let_46) (tptp.hydrophilic_face_1 _let_44) (tptp.hydrophilic_face_1 _let_42) (tptp.dna_replication_in_eukaryotes_1 _let_40) (tptp.dna_polymerase_iii_1 _let_38) (tptp.nucleolus_1 _let_36) (tptp.aqueous_solution_1 _let_34) (tptp.aqueous_solution_1 _let_32) (tptp.nuclear_lamina_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.intermediate_filament_1 _let_28) (tptp.carbon_skeleton_1 _let_27) (tptp.carbon_skeleton_1 _let_26) (tptp.carbon_skeleton_1 _let_24) (tptp.ribosome_1 _let_22) (tptp.eukaryotic_ribosome_1 _let_21) (tptp.substance_1 _let_20) (tptp.cytosol_1 _let_20) (tptp.substance_1 _let_19) (tptp.cytosol_1 _let_19) (tptp.mixture_1 _let_18) (tptp.cytoplasm_1 _let_18) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.cell_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.chromosome_1 _let_12) (tptp.eukaryotic_chromosome_1 _let_12) (tptp.eukaryotic_chromosome_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.nuclear_membrane_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.nucleus_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.nucleus_1 _let_2) (tptp.has_part_2 _let_48 _let_114) (tptp.has_part_2 _let_48 _let_115) (tptp.is_inside_2 _let_85 _let_113) (tptp.is_between_2 _let_95 _let_115) (tptp.is_between_2 _let_95 _let_114) (tptp.abuts_2 _let_113 _let_23) (tptp.has_region_2 _let_1 _let_111) (tptp.first_subevent_2 X _let_9) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_108) (tptp.subevent_2 X _let_9) (tptp.experiencer_2 X _let_1) (tptp.abuts_2 _let_23 _let_113) (tptp.is_opposite_2 _let_111 _let_106) (tptp.next_event_2 _let_9 _let_108) (tptp.is_across_2 _let_112 _let_7) (tptp.is_opposite_2 _let_106 _let_111) (tptp.origin_2 _let_108 _let_106) (tptp.path_2 _let_108 _let_112) (tptp.base_2 _let_108 _let_7) (tptp.destination_2 _let_108 _let_111) (tptp.agent_2 _let_5 _let_104) (tptp.base_2 _let_9 _let_23) (tptp.object_2 _let_9 _let_48) (tptp.object_2 _let_5 _let_7) (tptp.object_2 _let_108 _let_110) (tptp.has_part_2 _let_1 _let_14) (tptp.has_region_2 _let_1 _let_106) (tptp.has_region_2 _let_25 _let_103) (tptp.has_part_2 _let_14 _let_104) (tptp.is_inside_2 _let_103 _let_23) (tptp.has_part_2 _let_23 _let_25) (tptp.object_2 _let_3 _let_7) (tptp.object_2 X _let_1) (tptp.plays_2 _let_1 _let_100) (tptp.in_event_2 _let_100 X) (tptp.result_2 X _let_101) (tptp.has_region_2 _let_48 _let_97) (tptp.is_at_2 _let_99 _let_97) (tptp.has_part_2 _let_48 _let_99) (tptp.has_part_2 _let_48 _let_89) (tptp.agent_2 _let_91 _let_89) (tptp.object_2 _let_91 _let_93) (tptp.has_part_2 _let_48 _let_93) (tptp.has_region_2 _let_48 _let_95) (tptp.has_part_2 _let_55 _let_85) (tptp.is_between_2 _let_55 _let_54) (tptp.the_scalar_value_2 _let_75 tptp.big_0) (tptp.scalar_unit_class_2 _let_75 tptp.prokaryote_0) (tptp.base_2 _let_81 _let_1) (tptp.has_function_2 _let_1 _let_81) (tptp.has_part_2 _let_1 _let_65) (tptp.size_2 _let_1 _let_75) (tptp.directly_proportional_2 _let_75 _let_77) (tptp.volume_2 _let_1 _let_77) (tptp.has_function_2 _let_1 _let_79) (tptp.base_2 _let_79 _let_1) (tptp.is_inside_2 _let_73 _let_56) (tptp.has_part_2 _let_1 _let_73) (tptp.has_part_2 _let_1 _let_58) (tptp.site_2 _let_60 _let_58) (tptp.base_2 _let_60 _let_1) (tptp.has_part_2 _let_1 _let_67) (tptp.specific_heat_2 _let_67 _let_69) (tptp.correspondence_2 _let_71 _let_69) (tptp.temperature_2 _let_1 _let_71) (tptp.has_part_2 _let_1 _let_48) (tptp.has_part_2 _let_55 _let_56) (tptp.is_inside_2 _let_65 _let_56) (not (= _let_65 _let_58)) (tptp.abuts_2 _let_58 _let_65) (tptp.abuts_2 _let_65 _let_58) (not (= _let_58 _let_65)) (tptp.has_part_2 _let_1 _let_55) (tptp.has_part_2 _let_1 _let_61) (tptp.is_inside_2 _let_61 _let_56) (tptp.is_inside_2 _let_63 _let_56) (tptp.has_part_2 _let_1 _let_63) (tptp.is_inside_2 _let_55 _let_54) (tptp.is_between_2 _let_55 _let_7) (tptp.is_inside_2 _let_7 _let_56) (tptp.is_inside_2 _let_58 _let_56) (tptp.has_function_2 _let_58 _let_60) (tptp.has_region_2 _let_1 _let_50) (tptp.is_at_2 _let_52 _let_50) (tptp.has_part_2 _let_54 _let_52) (tptp.has_part_2 _let_1 _let_54) (tptp.has_part_2 _let_1 _let_7) (tptp.is_inside_2 _let_48 _let_7) (tptp.has_function_2 _let_7 _let_47) (tptp.site_2 _let_47 _let_7) (tptp.site_2 _let_41 _let_7) (tptp.is_inside_2 _let_45 _let_33) (tptp.is_outside_2 _let_45 _let_23) (tptp.has_region_2 _let_23 _let_45) (not (= _let_43 _let_45)) (not (= _let_45 _let_43)) (tptp.has_part_2 _let_7 _let_23) (tptp.is_between_2 _let_23 _let_35) (tptp.is_outside_2 _let_43 _let_35) (tptp.is_inside_2 _let_43 _let_23) (tptp.has_region_2 _let_23 _let_43) (tptp.is_inside_2 _let_37 _let_7) (tptp.has_part_2 _let_7 _let_37) (tptp.has_part_2 _let_7 _let_33) (tptp.is_inside_2 _let_39 _let_33) (tptp.agent_2 _let_41 _let_39) (tptp.has_part_2 _let_7 _let_31) (tptp.is_along_2 _let_31 _let_23) (tptp.is_between_2 _let_23 _let_33) (tptp.is_along_2 _let_23 _let_31) (not (= _let_35 _let_33)) (not (= _let_33 _let_35)) (= _let_104 _let_29) (= _let_23 _let_10) (= _let_48 _let_13) (= _let_7 _let_6) (= _let_110 _let_109) (= _let_14 _let_107) (= _let_106 _let_105) (= _let_103 _let_27) (= _let_103 _let_26) (= _let_104 _let_28) (= _let_103 _let_24) (= _let_25 _let_102) (= _let_7 _let_4) (= _let_101 (tptp.fn_cell_division_2 X)) (= _let_100 (tptp.fn_cell_division_6 X)) (= _let_1 _let_16) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= (tptp.fn_cell_division_in_dinoflagellate_56 X) _let_87) (= (tptp.fn_cell_division_in_dinoflagellate_57 X) _let_86) (= _let_85 _let_84) (= (tptp.fn_cell_division_in_dinoflagellate_58 X) _let_83) (= (tptp.fn_cell_division_in_dinoflagellate_59 X) _let_82) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_48 _let_12) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_56 _let_20) (= _let_61 _let_22) (= _let_61 _let_21) (= _let_1 _let_15) (= _let_55 _let_18) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_56 _let_19) (= _let_55 _let_17) (= _let_7 _let_2) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_11) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_23 _let_8) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_3 X))) (let ((_let_2 (tptp.fn_asexual_reproduction_1 X))) (let ((_let_3 (tptp.fn_cell_division_in_unicellular_organism_1 X))) (let ((_let_4 (tptp.fn_cell_division_in_unicellular_organism_2 X))) (=> (tptp.cell_division_in_unicellular_organism_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Division-In-Unicellular-Organism'|) (tptp.user_description_2 X |tptp.'The process in unicellular organisms by which the parent cell divides into two daughter cells.'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'cell division in unicellular organism'|) (tptp.concept2words_2 X |tptp.'cell-division-in-unicellular-organism'|) (tptp.asexual_reproduction_1 X) (tptp.cell_division_1 X) (tptp.unicellular_organism_1 _let_3) (tptp.unicellular_organism_1 _let_4) (tptp.base_2 X _let_4) (tptp.object_2 X _let_4) (tptp.result_2 X _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_3 (tptp.fn_cell_division_2 X)) (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_in_yeast_1 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_cell_division_in_yeast_2 X))) (let ((_let_4 (tptp.fn_attach_2 _let_1))) (let ((_let_5 (tptp.fn_cell_division_in_yeast_3 X))) (let ((_let_6 (tptp.fn_cell_division_in_yeast_5 X))) (let ((_let_7 (tptp.fn_cell_division_in_yeast_4 X))) (=> (tptp.cell_division_in_yeast_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Division-In-Yeast'|) (tptp.user_description_2 X |tptp.'The process in yeast by which the parent cell divides into two daughter cells.'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'cell division in yeast'|) (tptp.concept2words_2 X |tptp.'cell-division-in-yeast'|) (tptp.cell_division_1 X) (tptp.attach_1 _let_1) (tptp.microtubule_1 _let_3) (tptp.kinetochore_1 _let_5) (tptp.yeast_1 _let_7) (tptp.yeast_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.yeast_0) (tptp.object_2 X _let_7) (tptp.result_2 X _let_6) (tptp.base_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_7 (tptp.fn_cell_division_3 X)) (= _let_6 (tptp.fn_cell_division_2 X)) (= _let_5 _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.elongation_1 X) (tptp.cell_1 X1)) (and (tptp.cell_elongation_1 X) (= (tptp.fn_cell_elongation_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_elongation_4 X))) (let ((_let_2 (tptp.fn_cell_elongation_1 X))) (let ((_let_3 (tptp.fn_cell_elongation_2 X))) (let ((_let_4 (tptp.fn_cell_elongation_3 X))) (=> (tptp.cell_elongation_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Elongation'|) (tptp.user_description_2 X |tptp.'During cell division, the process in which the cytoskeletal elements of the cell cause the cell to elongate in preparation for division of the cytoplasm.'|) (tptp.concept2words_2 X |tptp.'cell expansion'|) (tptp.concept2words_2 X |tptp.'elongation of cell'|) (tptp.concept2words_2 X |tptp.'cell elongation'|) (tptp.concept2words_2 X |tptp.'cell-elongation'|) (tptp.elongation_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.expand_1 X)) (not (tptp.condense_1 X)) (not (tptp.brighten_1 X)) (not (tptp.increase_in_cell_size_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.nonkinetochore_microtubule_1 _let_2) (tptp.mitotic_spindle_1 _let_3) (tptp.cell_1 _let_4) (tptp.microtubule_elongation_1 _let_1) (tptp.object_2 X _let_4) (tptp.agent_2 X _let_3) (tptp.agent_2 X _let_2) (tptp.by_means_of_2 X _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_elongation_during_anaphase_18 X))) (let ((_let_2 (tptp.fn_cell_elongation_3 _let_1))) (let ((_let_3 (tptp.fn_mitotic_event_1 X))) (let ((_let_4 (tptp.fn_cell_elongation_during_anaphase_13 X))) (let ((_let_5 (tptp.fn_move_1 _let_4))) (let ((_let_6 (tptp.fn_cell_elongation_during_anaphase_10 X))) (let ((_let_7 (tptp.fn_cytoskeleton_1 _let_6))) (let ((_let_8 (tptp.fn_cell_elongation_during_anaphase_19 X))) (let ((_let_9 (tptp.fn_microtubule_elongation_2 _let_8))) (let ((_let_10 (tptp.fn_cell_elongation_during_anaphase_24 X))) (let ((_let_11 (tptp.fn_kinetic_energy_2 _let_10))) (let ((_let_12 (tptp.fn_cell_elongation_during_anaphase_27 X))) (let ((_let_13 (tptp.fn_add_2 _let_12))) (let ((_let_14 (tptp.fn_cell_elongation_during_anaphase_16 X))) (let ((_let_15 (tptp.fn_nonkinetochore_microtubule_1 _let_14))) (let ((_let_16 (tptp.fn_nonkinetochore_microtubule_2 _let_14))) (let ((_let_17 (tptp.fn_cell_elongation_during_anaphase_17 X))) (let ((_let_18 (tptp.fn_nonkinetochore_microtubule_1 _let_17))) (let ((_let_19 (tptp.fn_nonkinetochore_microtubule_2 _let_17))) (let ((_let_20 (tptp.fn_microtubule_7 _let_14))) (let ((_let_21 (tptp.fn_cell_elongation_during_anaphase_28 X))) (let ((_let_22 (tptp.fn_increase_3 _let_21))) (let ((_let_23 (tptp.fn_cell_elongation_during_anaphase_21 X))) (let ((_let_24 (tptp.fn_cell_11 _let_23))) (let ((_let_25 (tptp.fn_cell_elongation_during_anaphase_38 X))) (let ((_let_26 (tptp.fn_cell_10 _let_23))) (let ((_let_27 (tptp.fn_cell_22 _let_23))) (let ((_let_28 (tptp.fn_cell_elongation_during_anaphase_37 X))) (let ((_let_29 (tptp.fn_cell_23 _let_23))) (let ((_let_30 (tptp.fn_cell_1 _let_23))) (let ((_let_31 (tptp.fn_cell_elongation_during_anaphase_31 X))) (let ((_let_32 (tptp.fn_cell_30 _let_23))) (let ((_let_33 (tptp.fn_cell_elongation_during_anaphase_41 X))) (let ((_let_34 (tptp.fn_cell_28 _let_23))) (let ((_let_35 (tptp.fn_cell_elongation_during_anaphase_42 X))) (let ((_let_36 (tptp.fn_cell_26 _let_23))) (let ((_let_37 (tptp.fn_cell_elongation_during_anaphase_36 X))) (let ((_let_38 (tptp.fn_cell_4 _let_23))) (let ((_let_39 (tptp.fn_cell_elongation_during_anaphase_39 X))) (let ((_let_40 (tptp.fn_cell_29 _let_23))) (let ((_let_41 (tptp.fn_cell_elongation_during_anaphase_35 X))) (let ((_let_42 (tptp.fn_cell_14 _let_23))) (let ((_let_43 (tptp.fn_cell_elongation_during_anaphase_40 X))) (let ((_let_44 (tptp.fn_cell_2 _let_23))) (let ((_let_45 (tptp.fn_cell_elongation_during_anaphase_30 X))) (let ((_let_46 (tptp.fn_cell_elongation_during_anaphase_22 X))) (let ((_let_47 (tptp.fn_microtubule_4 _let_14))) (let ((_let_48 (tptp.fn_cell_elongation_during_anaphase_26 X))) (let ((_let_49 (tptp.fn_cell_elongation_during_anaphase_25 X))) (let ((_let_50 (tptp.fn_microtubule_10 _let_14))) (let ((_let_51 (tptp.fn_cytoskeleton_5 _let_6))) (let ((_let_52 (tptp.fn_cell_elongation_during_anaphase_9 X))) (let ((_let_53 (tptp.fn_increase_3 _let_1))) (let ((_let_54 (tptp.fn_cell_elongation_during_anaphase_34 X))) (let ((_let_55 (tptp.fn_increase_4 _let_1))) (let ((_let_56 (tptp.fn_cell_elongation_during_anaphase_33 X))) (let ((_let_57 (tptp.fn_increase_1 _let_1))) (let ((_let_58 (tptp.fn_increase_2 _let_1))) (let ((_let_59 (tptp.fn_microtubule_elongation_1 _let_8))) (let ((_let_60 (tptp.fn_cell_elongation_during_anaphase_15 X))) (let ((_let_61 (tptp.fn_cell_elongation_during_anaphase_14 X))) (let ((_let_62 (tptp.fn_motor_protein_14 _let_61))) (let ((_let_63 (tptp.fn_kinetic_energy_1 _let_10))) (let ((_let_64 (tptp.fn_cell_elongation_during_anaphase_29 X))) (let ((_let_65 (tptp.fn_cell_elongation_during_anaphase_20 X))) (let ((_let_66 (tptp.fn_microtubule_elongation_2 _let_65))) (let ((_let_67 (tptp.fn_cell_elongation_during_anaphase_11 X))) (let ((_let_68 (tptp.fn_move_1 _let_67))) (let ((_let_69 (tptp.fn_cell_elongation_during_anaphase_12 X))) (let ((_let_70 (tptp.fn_add_1 _let_12))) (let ((_let_71 (tptp.fn_cell_elongation_during_anaphase_23 X))) (let ((_let_72 (tptp.fn_cell_elongation_during_anaphase_6 X))) (let ((_let_73 (tptp.fn_cell_elongation_during_anaphase_3 X))) (let ((_let_74 (tptp.fn_cell_elongation_during_anaphase_4 X))) (let ((_let_75 (tptp.fn_cell_elongation_during_anaphase_1 X))) (let ((_let_76 (tptp.fn_cell_elongation_during_anaphase_5 X))) (let ((_let_77 (tptp.fn_cell_elongation_during_anaphase_2 X))) (=> (tptp.cell_elongation_during_anaphase_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Elongation-During-Anaphase'|) (tptp.user_description_2 X |tptp.'During anaphase, the process in which a cell grows in length as preparation to dividing the cytoplasm, resulting in daughter cells.'|) (tptp.concept2words_2 X tptp.elongate) (tptp.concept2words_2 X |tptp.'cell elongation during anaphase'|) (tptp.concept2words_2 X |tptp.'cell-elongation-during-anaphase'|) (tptp.mitotic_event_1 X) (tptp.centrosome_1 _let_75) (tptp.atp_1 _let_77) (tptp.speed_value_1 _let_73) (tptp.quantity_value_1 _let_74) (tptp.monomer_1 _let_76) (tptp.tubulin_1 _let_76) (tptp.cell_pole_1 _let_72) (tptp.support_1 _let_52) (tptp.cytoskeleton_1 _let_6) (tptp.move_1 _let_67) (tptp.centrosome_1 _let_69) (tptp.move_1 _let_4) (tptp.motor_protein_1 _let_61) (tptp.attach_1 _let_60) (tptp.tangible_entity_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.microtubule_1 _let_14) (tptp.nonkinetochore_microtubule_1 _let_14) (tptp.microtubule_1 _let_17) (tptp.nonkinetochore_microtubule_1 _let_17) (tptp.cell_elongation_1 _let_1) (tptp.microtubule_elongation_1 _let_8) (tptp.microtubule_elongation_1 _let_65) (tptp.cell_1 _let_23) (tptp.end_1 _let_46) (tptp.tubulin_1 _let_71) (tptp.kinetic_energy_1 _let_10) (tptp.property_value_1 _let_49) (tptp.length_value_1 _let_49) (tptp.tubulin_1 _let_48) (tptp.add_1 _let_12) (tptp.grow_1 _let_21) (tptp.constant_motion_1 _let_64) (tptp.end_1 _let_45) (tptp.cell_pole_1 _let_31) (tptp.property_value_1 _let_56) (tptp.property_value_1 _let_54) (tptp.substance_1 _let_41) (tptp.cytosol_1 _let_41) (tptp.tangible_entity_1 _let_37) (tptp.phospholipid_bilayer_1 _let_37) (tptp.volume_value_1 _let_28) (tptp.size_value_1 _let_25) (tptp.surface_1 _let_39) (tptp.ribosome_1 _let_43) (tptp.plasma_membrane_1 _let_33) (tptp.mixture_1 _let_35) (tptp.cytoplasm_1 _let_35) (tptp.spatial_entity_1 _let_70) (tptp.spatial_entity_1 _let_68) (tptp.microtubule_1 _let_66) (tptp.constant_motion_1 _let_63) (tptp.move_1 _let_62) (tptp.attach_1 _let_59) (tptp.property_node_1 _let_58) (tptp.property_node_1 _let_57) (tptp.property_value_1 _let_55) (tptp.property_value_1 _let_53) (tptp.support_1 _let_51) (tptp.property_node_1 _let_50) (tptp.tubulin_1 _let_47) (tptp.cytoskeleton_1 _let_44) (tptp.ribosome_1 _let_42) (tptp.substance_1 _let_40) (tptp.cytosol_1 _let_40) (tptp.surface_1 _let_38) (tptp.tangible_entity_1 _let_36) (tptp.phospholipid_bilayer_1 _let_36) (tptp.mixture_1 _let_34) (tptp.cytoplasm_1 _let_34) (tptp.plasma_membrane_1 _let_32) (tptp.cell_pole_1 _let_30) (tptp.property_node_1 _let_29) (tptp.volume_value_1 _let_27) (tptp.property_node_1 _let_26) (tptp.size_value_1 _let_24) (tptp.property_value_1 _let_22) (tptp.length_value_1 _let_20) (tptp.end_1 _let_19) (tptp.end_1 _let_18) (tptp.end_1 _let_16) (tptp.end_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.microtubule_1 _let_9) (tptp.microtubule_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.cell_1 _let_2) (tptp.has_part_2 _let_6 _let_17) (tptp.away_from_2 _let_67 _let_75) (tptp.is_at_2 _let_69 _let_72) (tptp.is_at_2 _let_75 _let_31) (tptp.enables_2 _let_4 _let_67) (tptp.enables_2 _let_4 _let_1) (tptp.away_from_2 _let_4 _let_17) (tptp.raw_material_2 _let_4 _let_77) (tptp.has_part_2 _let_14 _let_76) (tptp.has_function_2 _let_14 _let_52) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_65) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_67) (tptp.first_subevent_2 X _let_4) (tptp.first_subevent_2 X _let_8) (tptp.first_subevent_2 X _let_65) (tptp.enables_2 _let_8 _let_1) (tptp.enables_2 _let_65 _let_1) (tptp.has_part_2 _let_23 _let_69) (tptp.has_part_2 _let_23 _let_75) (tptp.has_region_2 _let_23 _let_72) (tptp.is_at_2 _let_46 _let_31) (not (= _let_71 _let_48)) (tptp.directly_proportional_2 _let_73 _let_74) (tptp.quantity_2 _let_10 _let_74) (tptp.agent_2 _let_52 _let_14) (not (= _let_48 _let_71)) (tptp.base_2 _let_21 _let_14) (tptp.by_means_of_2 _let_21 _let_12) (tptp.speed_2 _let_64 _let_73) (tptp.is_at_2 _let_45 _let_72) (tptp.object_2 _let_12 _let_71) (tptp.base_2 _let_12 _let_14) (tptp.object_2 _let_67 _let_69) (tptp.from_value_2 _let_21 _let_49) (tptp.object_2 _let_65 _let_17) (tptp.possesses_2 _let_14 _let_10) (tptp.object_2 _let_64 _let_14) (tptp.agent_2 _let_4 _let_61) (tptp.base_2 X _let_23) (tptp.object_2 _let_1 _let_23) (tptp.object_2 _let_8 _let_14) (tptp.base_2 _let_60 _let_14) (tptp.subevent_2 _let_8 _let_60) (tptp.has_part_2 _let_6 _let_14) (tptp.facilitates_2 _let_14 _let_52) (tptp.agent_2 _let_52 _let_6) (tptp.has_function_2 _let_6 _let_52) (tptp.instrument_2 _let_52 _let_14) (tptp.has_part_2 _let_23 _let_6) (tptp.has_part_2 _let_23 _let_43) (tptp.is_inside_2 _let_43 _let_41) (tptp.has_part_2 _let_35 _let_41) (tptp.has_part_2 _let_23 _let_35) (tptp.has_part_2 _let_23 _let_33) (tptp.has_region_2 _let_23 _let_39) (tptp.is_at_2 _let_37 _let_39) (tptp.has_part_2 _let_33 _let_37) (tptp.is_inside_2 _let_35 _let_33) (tptp.has_region_2 _let_23 _let_31) (tptp.volume_2 _let_23 _let_28) (tptp.directly_proportional_2 _let_25 _let_28) (tptp.size_2 _let_23 _let_25) (tptp.called_2 _let_45 |tptp.'E1'|) (tptp.has_region_2 _let_14 _let_45) (tptp.called_2 _let_46 |tptp.'E1'|) (tptp.has_region_2 _let_17 _let_46) (tptp.length_2 _let_14 _let_49) (tptp.has_part_2 _let_14 _let_48) (tptp.object_2 _let_4 _let_14) (= _let_71 _let_70) (= _let_14 _let_13) (= _let_69 _let_68) (= _let_49 _let_22) (= _let_17 _let_66) (= _let_64 _let_63) (= _let_14 _let_11) (= _let_4 _let_62) (= _let_23 _let_3) (= _let_23 _let_2) (= _let_60 _let_59) (= _let_14 _let_9) (= (tptp.fn_cell_elongation_during_anaphase_45 X) _let_58) (= (tptp.fn_cell_elongation_during_anaphase_46 X) _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_14 _let_7) (= _let_14 _let_5) (= (tptp.fn_cell_elongation_during_anaphase_32 X) _let_50) (= _let_49 _let_20) (= _let_48 _let_47) (= _let_46 _let_19) (= _let_46 _let_18) (= _let_45 _let_16) (= _let_45 _let_15) (= _let_6 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= (tptp.fn_cell_elongation_during_anaphase_44 X) _let_29) (= _let_28 _let_27) (= (tptp.fn_cell_elongation_during_anaphase_43 X) _let_26) (= _let_25 _let_24) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_equator_1 X))) (=> (tptp.cell_equator_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Equator'|) (tptp.user_description_2 X |tptp.'Cell-Equator is the middle region of a cell. Here the chromosomes come together at the metaphase'|) (tptp.concept2words_2 X |tptp.'cell equator'|) (tptp.concept2words_2 X |tptp.'cell_'s equator'|) (tptp.concept2words_2 X |tptp.'cell_'s-equator'|) (tptp.concept2words_2 X |tptp.'cell-equator'|) (tptp.concept2words_2 X |tptp.'equator of cell'|) (tptp.concept2words_2 X |tptp.'middle region of cell'|) (tptp.concept2words_2 X |tptp.'mid region of cell'|) (tptp.concept2words_2 X |tptp.'middle of cell'|) (tptp.cellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.cell_1 _let_1) (tptp.has_region_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cell_fate_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Fate'|) (tptp.user_description_2 X |tptp.'The resulting form and function of a cell depending on its cytoplasmic contents, genotype, or position in the embryo.'|) (tptp.concept2words_2 X |tptp.'fate of cell'|) (tptp.concept2words_2 X |tptp.'cell fate'|) (tptp.concept2words_2 X |tptp.'cell-fate'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_fractionation_8 X))) (let ((_let_2 (tptp.fn_remove_1 _let_1))) (let ((_let_3 (tptp.fn_segregate_1 X))) (let ((_let_4 (tptp.fn_cell_fractionation_14 X))) (let ((_let_5 (tptp.fn_move_1 _let_4))) (let ((_let_6 (tptp.fn_cell_fractionation_11 X))) (let ((_let_7 (tptp.fn_remove_1 _let_6))) (let ((_let_8 (tptp.fn_cell_fractionation_15 X))) (let ((_let_9 (tptp.fn_centrifugation_1 _let_8))) (let ((_let_10 (tptp.fn_cell_fractionation_16 X))) (let ((_let_11 (tptp.fn_cell_fractionation_17 X))) (let ((_let_12 (tptp.fn_cell_fractionation_13 X))) (let ((_let_13 (tptp.fn_cell_fractionation_7 X))) (let ((_let_14 (tptp.fn_remove_1 _let_13))) (let ((_let_15 (tptp.fn_cell_fractionation_10 X))) (let ((_let_16 (tptp.fn_remove_2 _let_6))) (let ((_let_17 (tptp.fn_cell_fractionation_12 X))) (let ((_let_18 (tptp.fn_remove_2 _let_13))) (let ((_let_19 (tptp.fn_remove_2 _let_1))) (let ((_let_20 (tptp.fn_cell_fractionation_9 X))) (let ((_let_21 (tptp.fn_cell_fractionation_1 X))) (let ((_let_22 (tptp.fn_cell_fractionation_2 X))) (let ((_let_23 (tptp.fn_cell_fractionation_3 X))) (let ((_let_24 (tptp.fn_cell_fractionation_4 X))) (let ((_let_25 (tptp.fn_cell_fractionation_5 X))) (let ((_let_26 (tptp.fn_cell_fractionation_6 X))) (=> (tptp.cell_fractionation_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Fractionation'|) (tptp.user_description_2 X |tptp.'A process by which a collection of cells is homogenized and then centrifuged to separate the different components by density.'|) (tptp.concept2words_2 X tptp.fractionate) (tptp.concept2words_2 X |tptp.'fractionation of cell'|) (tptp.concept2words_2 X |tptp.'cell fractionation'|) (tptp.concept2words_2 X |tptp.'cell-fractionation'|) (tptp.segregate_1 X) (tptp.protein_enzyme_1 _let_21) (tptp.test_tube_1 _let_22) (tptp.pellet_1 _let_23) (tptp.pellet_1 _let_24) (tptp.homogenization_1 _let_25) (tptp.cell_1 _let_26) (tptp.remove_1 _let_13) (tptp.remove_1 _let_1) (tptp.test_tube_1 _let_20) (tptp.supernatant_1 _let_15) (tptp.remove_1 _let_6) (tptp.test_tube_1 _let_17) (tptp.supernatant_1 _let_12) (tptp.rotate_1 _let_4) (tptp.centrifugation_1 _let_8) (tptp.rotate_1 _let_10) (tptp.organelle_1 _let_11) (tptp.spatial_entity_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.rotate_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_25) (tptp.first_subevent_2 X _let_25) (tptp.object_2 X _let_21) (tptp.base_2 X _let_26) (tptp.next_event_2 _let_25 _let_8) (tptp.result_2 _let_10 _let_12) (tptp.result_2 _let_10 _let_24) (tptp.next_event_2 _let_10 _let_6) (tptp.next_event_2 _let_8 _let_1) (tptp.minCardinality _let_8 tptp.subevent_0 |"1"| tptp.rotate_0) (tptp.minCardinality _let_8 tptp.subevent_0 |"1"| tptp.remove_0) (tptp.subevent_2 _let_8 _let_13) (tptp.subevent_2 _let_8 _let_6) (tptp.subevent_2 _let_8 _let_4) (tptp.result_2 _let_4 _let_15) (tptp.result_2 _let_4 _let_23) (tptp.next_event_2 _let_4 _let_13) (tptp.next_event_2 _let_6 _let_4) (tptp.destination_2 _let_6 _let_22) (tptp.object_2 _let_1 _let_21) (tptp.destination_2 _let_13 _let_20) (tptp.next_event_2 _let_13 _let_4) (tptp.base_2 _let_1 _let_20) (tptp.base_2 _let_13 _let_17) (tptp.base_2 _let_6 _let_17) (tptp.object_2 _let_13 _let_15) (tptp.object_2 _let_6 _let_12) (tptp.object_2 _let_4 _let_12) (tptp.object_2 X _let_11) (tptp.object_2 _let_1 _let_11) (tptp.first_subevent_2 _let_8 _let_10) (tptp.subevent_2 _let_8 _let_10) (= _let_20 _let_19) (= _let_17 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_12 _let_7) (= _let_12 _let_5) (= _let_11 _let_3) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_growth_2 X))) (let ((_let_2 (tptp.fn_cell_growth_1 X))) (=> (tptp.cell_growth_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Growth'|) (tptp.user_description_2 X |tptp.'The enlarging of the cell during interphase of the cell cycle in preparation for cell division where the cell produces proteins and cytoplasmic organelles and copies its chromosomes.'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X |tptp.'growth of cell'|) (tptp.concept2words_2 X |tptp.'cell growth'|) (tptp.concept2words_2 X |tptp.'cell-growth'|) (tptp.cell_cycle_process_1 X) (tptp.grow_1 _let_2) (tptp.cell_1 _let_1) (tptp.object_2 X _let_1) (tptp.subevent_2 X _let_2) (tptp.object_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_lineage_4 X))) (let ((_let_2 (tptp.fn_organismal_development_1 _let_1))) (let ((_let_3 (tptp.fn_cell_lineage_5 X))) (let ((_let_4 (tptp.fn_scientist_1 _let_3))) (let ((_let_5 (tptp.fn_cell_lineage_3 X))) (let ((_let_6 (tptp.fn_scientist_2 _let_3))) (let ((_let_7 (tptp.fn_cell_lineage_6 X))) (let ((_let_8 (tptp.fn_cell_lineage_2 X))) (let ((_let_9 (tptp.fn_cell_lineage_1 X))) (=> (tptp.cell_lineage_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Lineage'|) (tptp.user_description_2 X |tptp.'The developmental history of blastomeres formed during cleavage.'|) (tptp.concept2words_2 X |tptp.'lineage of cell'|) (tptp.concept2words_2 X |tptp.'cell lineage'|) (tptp.concept2words_2 X |tptp.'cell-lineage'|) (tptp.representation_of_data_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X)) (tptp.microscope_1 _let_9) (tptp.embryogenesis_1 _let_8) (tptp.entity_1 _let_5) (tptp.multicellular_organism_1 _let_5) (tptp.organismal_development_1 _let_1) (tptp.scientist_1 _let_3) (tptp.study_1 _let_7) (tptp.study_1 _let_6) (tptp.entity_1 _let_4) (tptp.multicellular_organism_1 _let_2) (tptp.instrument_2 _let_7 _let_9) (tptp.result_2 _let_7 X) (tptp.supports_2 _let_1 _let_7) (tptp.subevent_2 _let_1 _let_8) (tptp.agent_2 _let_7 _let_3) (tptp.object_2 _let_7 _let_5) (tptp.experiencer_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_7 _let_6) (= _let_5 _let_2) (= _let_4 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_mediated_immune_response_2 X))) (let ((_let_2 (tptp.fn_cell_mediated_immune_response_3 X))) (=> (tptp.cell_mediated_immune_response_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Mediated-Immune-Response'|) (tptp.user_description_2 X |tptp.'An immune response that does not involve antibodies or complement, but instead responds to an antigen by activating macrophages, natural killer cells, and antigen-specific cytotoxic T-lymphocytes, and by releasing various cytokines.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'cell mediated immune response'|) (tptp.concept2words_2 X |tptp.'cell-mediated-immune-response'|) (tptp.immune_related_intercellular_process_1 X) (tptp.immune_response_1 X) (tptp.apoptosis_1 _let_1) (tptp.unitless_value_1 _let_2) (tptp.importance_2 _let_1 _let_2) (tptp.the_scalar_value_2 _let_2 tptp.high_0) (tptp.scalar_unit_class_2 _let_2 tptp.cellular_response_0) (tptp.subevent_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.cell_opposite_pole_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Opposite-Pole'|) (tptp.user_description_2 X |tptp.'The cell has two poles equidistant from the equator. The poles are opposite to each other.'|) (tptp.concept2words_2 X |tptp.'cell opposite pole'|) (tptp.concept2words_2 X |tptp.'cell-opposite-pole'|) (tptp.cell_pole_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_plate_1 X))) (let ((_let_2 (tptp.fn_cell_plate_3 X))) (let ((_let_3 (tptp.fn_cell_plate_2 X))) (=> (tptp.cell_plate_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Plate'|) (tptp.user_description_2 X |tptp.'Cell-plate is a structure which forms at equatorial plane of a plant cell during cytokinesis. It helps in the division of the cytoplasm by forming a partition in the center of the dividing plant cell to eventually form two daughter cells'|) (tptp.concept2words_2 X |tptp.'plate of cell'|) (tptp.concept2words_2 X |tptp.'cell plate'|) (tptp.concept2words_2 X |tptp.'cell-plate'|) (tptp.cellular_structure_1 X) (tptp.membrane_1 _let_1) (tptp.plant_cell_1 _let_3) (tptp.cell_equator_1 _let_2) (tptp.is_inside_2 X _let_3) (tptp.is_at_2 X _let_2) (tptp.has_part_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_plate_growth_8 X))) (let ((_let_2 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_5 (tptp.fn_plasma_membrane_70 _let_1))) (let ((_let_6 (tptp.fn_plasma_membrane_77 _let_1))) (let ((_let_7 (tptp.fn_plasma_membrane_69 _let_1))) (let ((_let_8 (tptp.fn_cell_plate_growth_7 X))) (let ((_let_9 (tptp.fn_plant_cell_91 _let_8))) (let ((_let_10 (tptp.fn_eukaryotic_cell_42 _let_8))) (let ((_let_11 (tptp.fn_plant_cell_100 _let_8))) (let ((_let_12 (tptp.fn_eukaryotic_cell_24 _let_8))) (let ((_let_13 (tptp.fn_cell_plate_growth_6 X))) (let ((_let_14 (tptp.fn_cell_plate_growth_4 X))) (let ((_let_15 (tptp.fn_cell_plate_growth_3 X))) (let ((_let_16 (tptp.fn_cell_plate_growth_11 X))) (let ((_let_17 (tptp.fn_cell_plate_1 _let_16))) (let ((_let_18 (tptp.fn_cell_plate_growth_9 X))) (let ((_let_19 (tptp.fn_cell_plate_growth_2 X))) (let ((_let_20 (tptp.fn_plant_cell_97 _let_8))) (let ((_let_21 (tptp.fn_cell_plate_growth_10 X))) (let ((_let_22 (tptp.fn_add_1 _let_21))) (let ((_let_23 (tptp.fn_cell_plate_growth_5 X))) (let ((_let_24 (tptp.fn_add_2 _let_21))) (let ((_let_25 (tptp.fn_cell_plate_growth_1 X))) (=> (tptp.cell_plate_growth_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Plate-Growth'|) (tptp.user_description_2 X |tptp.'During mitosis in plant cells, the process of generating a new cell wall, which results in separation of the two daughter cells.'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X |tptp.'cell plate growth'|) (tptp.concept2words_2 X |tptp.'cell-plate-growth'|) (tptp.mitotic_event_1 X) (tptp.grow_1 _let_25) (tptp.golgi_apparatus_1 _let_19) (tptp.aqueous_solution_1 _let_15) (tptp.liquid_substance_1 _let_15) (tptp.solution_1 _let_15) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.substance_1 _let_14) (tptp.aqueous_solution_1 _let_14) (tptp.vesicle_1 _let_23) (tptp.proton_pump_1 _let_13) (tptp.plant_cell_1 _let_8) (tptp.membrane_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.biomembrane_1 _let_18) (tptp.fusion_1 _let_21) (tptp.spatial_entity_1 _let_16) (tptp.cell_plate_1 _let_16) (tptp.spatial_entity_1 _let_24) (tptp.spatial_entity_1 _let_22) (tptp.membrane_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.biomembrane_1 _let_20) (tptp.plasma_membrane_1 _let_20) (tptp.membrane_1 _let_17) (tptp.golgi_apparatus_1 _let_12) (tptp.golgi_apparatus_1 _let_11) (tptp.substance_1 _let_10) (tptp.cytosol_1 _let_10) (tptp.aqueous_solution_1 _let_9) (tptp.liquid_substance_1 _let_9) (tptp.solution_1 _let_9) (tptp.substance_1 _let_9) (tptp.cytosol_1 _let_9) (tptp.cytosol_1 _let_7) (tptp.aqueous_solution_1 _let_6) (tptp.substance_1 _let_5) (tptp.aqueous_solution_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.membrane_protein_1 _let_4) (tptp.protein_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.polymer_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.transmembrane_protein_1 _let_2) (tptp.integral_protein_1 _let_2) (tptp.transport_protein_1 _let_2) (tptp.object_2 _let_25 _let_16) (tptp.toward_2 _let_25 _let_1) (tptp.enables_2 _let_21 _let_25) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_25) (tptp.object_2 X _let_16) (tptp.base_2 _let_21 _let_16) (tptp.object_2 _let_21 _let_23) (tptp.has_part_2 _let_8 _let_1) (tptp.has_part_2 _let_8 _let_19) (tptp.is_inside_2 _let_19 _let_15) (tptp.has_part_2 _let_15 _let_14) (tptp.is_between_2 _let_1 _let_14) (tptp.is_across_2 _let_13 _let_1) (tptp.has_part_2 _let_1 _let_13) (tptp.has_part_2 _let_16 _let_18) (= _let_16 _let_24) (= _let_23 _let_22) (= _let_1 _let_20) (= _let_15 _let_10) (= _let_15 _let_9) (= _let_19 _let_12) (= _let_19 _let_11) (= _let_18 _let_17) (= _let_15 _let_7) (= _let_14 _let_6) (= _let_14 _let_5) (= _let_13 _let_4) (= _let_13 _let_3) (= _let_13 _let_2) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_pole_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Pole'|) (tptp.user_description_2 X |tptp.'The cell has two poles equidistant from the equator. The poles are opposite to each other'|) (tptp.concept2words_2 X |tptp.'pole of cell'|) (tptp.concept2words_2 X |tptp.'cell pole'|) (tptp.concept2words_2 X |tptp.'cell-pole'|) (tptp.cellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_preparation_for_next_signal_reception_4 X))) (let ((_let_2 (tptp.fn_cell_signaling_2 _let_1))) (let ((_let_3 (tptp.fn_cell_preparation_for_next_signal_reception_5 X))) (let ((_let_4 (tptp.fn_cell_preparation_for_next_signal_reception_3 X))) (let ((_let_5 (tptp.fn_cell_signaling_4 _let_4))) (let ((_let_6 (tptp.fn_cell_preparation_for_next_signal_reception_2 X))) (let ((_let_7 (tptp.fn_cell_preparation_for_next_signal_reception_1 X))) (=> (tptp.cell_preparation_for_next_signal_reception_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Preparation-For-Next-Signal-Reception'|) (tptp.user_description_2 X |tptp.'The decrease in the number of active receptors as the concentration of the signaling molecules decreases and the unbound receptors return to their inactive state.'|) (tptp.concept2words_2 X |tptp.'termination of cell signal'|) (tptp.concept2words_2 X |tptp.'cell preparation for next signal reception'|) (tptp.concept2words_2 X |tptp.'cell-preparation-for-next-signal-reception'|) (tptp.cell_signaling_event_1 X) (tptp.cell_1 _let_7) (tptp.cell_1 _let_6) (tptp.cell_signaling_1 _let_4) (tptp.cell_signaling_1 _let_1) (tptp.signal_reception_1 _let_3) (tptp.cell_1 _let_5) (tptp.signal_reception_1 _let_2) (not (= _let_6 _let_7)) (not (= _let_7 _let_6)) (tptp.next_event_2 _let_4 X) (tptp.causes_2 X _let_3) (tptp.next_event_2 X _let_1) (tptp.base_2 _let_4 _let_6) (tptp.first_subevent_2 _let_1 _let_3) (tptp.subevent_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_sap_4 X))) (let ((_let_2 (tptp.fn_vacuole_2 _let_1))) (let ((_let_3 (tptp.fn_vesicle_10 _let_1))) (let ((_let_4 (tptp.fn_cell_sap_1 X))) (let ((_let_5 (tptp.fn_cell_sap_2 X))) (let ((_let_6 (tptp.fn_cell_sap_3 X))) (=> (tptp.cell_sap_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Sap'|) (tptp.user_description_2 X |tptp.'Cell sap is the solution inside the central vacuole and it differs in composition from the cytosol.'|) (tptp.concept2words_2 X |tptp.'sap of cell'|) (tptp.concept2words_2 X |tptp.'cell sap'|) (tptp.concept2words_2 X |tptp.'cell-sap'|) (tptp.sap_1 X) (tptp.inorganic_ion_1 _let_4) (tptp.potassium_ion_1 _let_5) (tptp.cl_minus_1 _let_6) (tptp.central_vacuole_1 _let_1) (tptp.aqueous_solution_1 _let_3) (tptp.aqueous_solution_1 _let_2) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_5) (tptp.has_part_2 X _let_4) (tptp.has_part_2 _let_1 X) (= X _let_3) (= X _let_2) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_shape_change_3 X))) (let ((_let_2 (tptp.fn_shape_changing_cell_1 _let_1))) (let ((_let_3 (tptp.fn_shape_changing_cell_6 _let_1))) (let ((_let_4 (tptp.fn_cell_shape_change_2 X))) (let ((_let_5 (tptp.fn_cell_shape_change_1 X))) (=> (tptp.cell_shape_change_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Shape-Change'|) (tptp.user_description_2 X |tptp.'Many cells move or change their shapes.'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'change shape'|) (tptp.concept2words_2 X |tptp.'cell shape change'|) (tptp.concept2words_2 X |tptp.'cell-shape-change'|) (tptp.cellular_process_1 X) (tptp.cytoskeleton_1 _let_5) (tptp.cell_1 _let_4) (tptp.shape_changing_cell_1 _let_1) (tptp.cell_1 _let_3) (tptp.cell_shape_change_1 _let_2) (tptp.agent_2 X _let_5) (tptp.has_function_2 _let_5 X) (tptp.has_state_2 _let_1 _let_4) (tptp.result_2 X _let_4) (tptp.object_2 X _let_1) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_2 X))) (let ((_let_2 (tptp.fn_signal_reception_3 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_3 X))) (let ((_let_4 (tptp.fn_cell_signaling_event_1 _let_3))) (let ((_let_5 (tptp.fn_cell_signaling_1 X))) (let ((_let_6 (tptp.fn_cellular_response_3 _let_5))) (let ((_let_7 (tptp.fn_intracellular_process_1 _let_5))) (let ((_let_8 (tptp.fn_signal_reception_5 _let_1))) (let ((_let_9 (tptp.fn_cell_signaling_5 X))) (let ((_let_10 (tptp.fn_cell_signaling_4 X))) (=> (tptp.cell_signaling_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling'|) (tptp.user_description_2 X |tptp.'A series of events associated with a cellular signal which includes reception of the signal, transduction (relay) of the signal, and a cellular response to the signal.'|) (tptp.concept2words_2 X |tptp.'cell cell communication'|) (tptp.concept2words_2 X |tptp.'cell communication'|) (tptp.concept2words_2 X |tptp.'cell signalling'|) (tptp.concept2words_2 X |tptp.'cell to cell communication'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'signaling of cell'|) (tptp.concept2words_2 X |tptp.'cell signaling'|) (tptp.concept2words_2 X |tptp.'cell-signaling'|) (tptp.cell_communication_event_1 X) (not (tptp.speech_1 X)) (tptp.cellular_response_1 _let_5) (tptp.signal_reception_1 _let_1) (tptp.signal_transduction_1 _let_3) (tptp.cell_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.cell_1 _let_7) (tptp.cell_1 _let_6) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.base_2 X _let_10) (tptp.first_subevent_2 X _let_1) (tptp.agent_2 X _let_9) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_3 _let_5) (tptp.next_event_2 _let_1 _let_3) (tptp.base_2 _let_5 _let_10) (tptp.base_2 _let_3 _let_10) (tptp.base_2 _let_1 _let_10) (tptp.object_2 _let_1 _let_9) (= _let_10 _let_7) (= _let_10 _let_6) (= _let_10 _let_4) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_event_1 X))) (=> (tptp.cell_signaling_event_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-Event'|) (tptp.user_description_2 X |tptp.'stage in cell signaling process.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling event'|) (tptp.concept2words_2 X |tptp.'cell-signaling-event'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_in_plant_cell_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_in_plant_cell_1 X))) (=> (tptp.cell_signaling_in_plant_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-In-Plant-Cell'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response to a chemical or electrical signal in plant cells.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling in plant cell'|) (tptp.concept2words_2 X |tptp.'cell-signaling-in-plant-cell'|) (tptp.chemical_signaling_1 X) (tptp.plant_cell_1 _let_2) (tptp.signal_reception_1 _let_1) (tptp.recipient_2 _let_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.base_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cell_signaling_4 X)) (= _let_1 (tptp.fn_cell_signaling_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_signaling_7 X))) (let ((_let_2 (tptp.fn_cell_signaling_2 X))) (let ((_let_3 (tptp.fn_chemical_signaling_8 X))) (let ((_let_4 (tptp.fn_cell_signaling_3 X))) (let ((_let_5 (tptp.fn_cell_signaling_4 X))) (let ((_let_6 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_6 X))) (let ((_let_7 (tptp.fn_tissue_1 _let_6))) (let ((_let_8 (tptp.fn_cell_signaling_1 X))) (let ((_let_9 (tptp.fn_chemical_signaling_6 X))) (let ((_let_10 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_8 X))) (let ((_let_11 (tptp.fn_eukaryotic_cell_32 _let_10))) (let ((_let_12 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_4 X))) (let ((_let_13 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_5 X))) (let ((_let_14 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_9 X))) (let ((_let_15 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_3 X))) (let ((_let_16 (tptp.fn_artery_1 _let_15))) (let ((_let_17 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_2 X))) (let ((_let_18 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_7 X))) (let ((_let_19 (tptp.fn_cell_signaling_leading_to_arterial_muscle_relaxation_1 X))) (=> (tptp.cell_signaling_leading_to_arterial_muscle_relaxation_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-Leading-To-Arterial-Muscle-Relaxation'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which leads to arterial muscle cell relaxation as cellular response.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling leading to arterial muscle relaxation'|) (tptp.concept2words_2 X |tptp.'cell-signaling-leading-to-arterial-muscle-relaxation'|) (tptp.chemical_signaling_1 X) (tptp.muscle_tissue_1 _let_19) (tptp.artery_wall_1 _let_17) (tptp.artery_1 _let_15) (tptp.signal_reception_1 _let_12) (tptp.signal_transduction_1 _let_13) (tptp.smooth_muscle_1 _let_6) (tptp.cyclic_gmp_1 _let_18) (tptp.muscle_cell_1 _let_10) (tptp.muscle_relaxation_1 _let_14) (tptp.artery_wall_1 _let_16) (tptp.cellular_work_1 _let_11) (tptp.eukaryotic_cell_1 _let_7) (tptp.is_inside_2 _let_6 _let_17) (tptp.recipient_2 _let_12 _let_10) (tptp.has_part_2 _let_17 _let_19) (tptp.has_function_2 _let_10 _let_14) (tptp.subevent_2 X _let_14) (tptp.has_part_2 _let_6 _let_10) (tptp.agent_2 X _let_18) (tptp.object_2 _let_12 _let_18) (tptp.has_part_2 _let_15 _let_17) (tptp.base_2 X _let_10) (tptp.base_2 _let_14 _let_10) (tptp.next_event_2 _let_13 _let_14) (tptp.base_2 _let_13 _let_10) (tptp.base_2 _let_12 _let_10) (tptp.first_subevent_2 X _let_12) (tptp.next_event_2 _let_12 _let_13) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_12) (= _let_14 _let_11) (= _let_14 _let_9) (= _let_10 _let_7) (= _let_18 (tptp.fn_cell_signaling_5 X)) (= _let_17 _let_16) (= _let_12 _let_2) (= _let_13 _let_4) (= _let_14 _let_8) (= _let_10 _let_5) (= _let_13 _let_3) (= _let_12 _let_1) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_using_testosterone_receptor_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_using_testosterone_receptor_1 X))) (=> (tptp.cell_signaling_using_testosterone_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-Using-Testosterone-Receptor'|) (tptp.user_description_2 X |tptp.'Testosterone receptors are found only in certain cells and is activated when testosterone binds to it. Once active, the receptor enters the nucleus and turns on specific genes that control male sex characteristics.'|) (tptp.concept2words_2 X |tptp.'testosterone induced cell signaling'|) (tptp.concept2words_2 X |tptp.'testosterone-induced cell signaling'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling using testosterone receptor'|) (tptp.concept2words_2 X |tptp.'cell-signaling-using-testosterone-receptor'|) (tptp.chemical_signaling_1 X) (tptp.testosterone_receptor_1 _let_2) (tptp.testosterone_1 _let_1) (tptp.complement_2 _let_1 _let_2) (tptp.complement_2 _let_2 _let_1) (tptp.agent_2 X _let_1) (= _let_1 (tptp.fn_cell_signaling_5 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ca2_plus_1 X))) (=> (tptp.cell_signaling_with_ca2_plus_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which uses calcium ions as second messengers 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_let_108) (tptp.subevent_2 _let_62 _let_90) (tptp.subevent_2 _let_62 _let_13) (tptp.subevent_2 _let_62 _let_113) (tptp.subevent_2 _let_62 _let_36) (tptp.subevent_2 _let_62 _let_19) (tptp.subevent_2 _let_62 _let_17) (tptp.next_event_2 _let_113 _let_36) (tptp.time_during_2 _let_113 _let_121) (tptp.time_during_2 _let_36 _let_120) (tptp.next_event_2 _let_36 _let_108) (tptp.base_2 _let_36 _let_40) (tptp.destination_2 _let_36 _let_28) (tptp.origin_2 _let_36 _let_26) (not (= _let_40 _let_98)) (not (= _let_40 _let_42)) (tptp.agent_2 _let_103 _let_24) (tptp.is_between_2 _let_102 _let_46) (tptp.has_state_2 _let_102 _let_106) (tptp.path_2 _let_19 _let_28) (tptp.time_during_2 _let_19 _let_123) (tptp.next_event_2 _let_19 _let_17) (tptp.concentration_2 _let_89 _let_122) (tptp.has_state_2 _let_89 _let_88) (not (= _let_42 _let_40)) (tptp.time_before_2 _let_121 _let_120) (tptp.concentration_2 _let_88 _let_110) (tptp.causes_2 _let_99 _let_90) (not (= _let_99 _let_17)) (tptp.base_2 _let_17 _let_40) (tptp.object_2 _let_117 _let_119) (tptp.object_2 _let_36 _let_89) (tptp.has_part_2 _let_70 _let_31) (tptp.object_2 _let_19 _let_77) (tptp.object_2 _let_17 _let_77) (tptp.base_2 _let_62 _let_24) (tptp.has_part_2 _let_46 _let_42) (tptp.in_event_2 _let_11 _let_13) (tptp.raw_material_2 _let_13 _let_80) (tptp.plays_2 _let_80 _let_11) (tptp.has_solute_2 _let_31 _let_84) (tptp.has_part_2 _let_31 _let_84) (tptp.subevent_2 _let_62 _let_117) (tptp.has_function_2 _let_8 _let_13) (tptp.in_event_2 _let_34 _let_62) (tptp.has_part_2 _let_24 _let_26) (tptp.is_inside_2 _let_26 _let_28) (tptp.object_2 _let_113 _let_40) (tptp.is_inside_2 _let_40 _let_97) (not (= _let_95 _let_40)) (not (= _let_40 _let_95)) (tptp.has_region_2 _let_40 _let_94) (tptp.has_part_2 _let_46 _let_40) (tptp.is_across_2 _let_40 _let_46) (tptp.is_at_2 _let_40 _let_46) (not (= _let_40 _let_96)) (not (= _let_96 _let_40)) (tptp.from_value_2 _let_108 _let_110) (tptp.has_part_2 _let_104 _let_106) (tptp.has_part_2 _let_106 _let_70) (tptp.subevent_2 X _let_62) (tptp.next_event_2 _let_62 _let_103) (tptp.base_2 _let_103 _let_24) (tptp.base_2 X _let_24) (tptp.subevent_2 X _let_103) (tptp.has_part_2 _let_24 _let_102) (tptp.has_part_2 _let_24 _let_101) (tptp.is_inside_2 _let_101 _let_28) (tptp.has_part_2 _let_102 _let_28) (tptp.is_inside_2 _let_102 _let_46) (tptp.has_part_2 _let_24 _let_46) (tptp.is_at_2 _let_98 _let_94) (tptp.is_across_2 _let_42 _let_46) (tptp.called_2 _let_96 |tptp.'MP2'|) (tptp.object_2 _let_99 _let_98) (tptp.called_2 _let_95 |tptp.'MP1'|) (not (= _let_98 _let_95)) (tptp.complement_2 _let_42 _let_98) (tptp.complement_2 _let_98 _let_42) (not (= _let_95 _let_98)) (not (= _let_42 _let_98)) (not (= _let_95 _let_42)) (not (= _let_42 _let_95)) (not (= _let_98 _let_42)) (not (= _let_96 _let_98)) (not (= _let_98 _let_96)) (tptp.agent_2 X _let_98) (tptp.has_function_2 _let_98 _let_99) (tptp.base_2 _let_99 _let_42) (not (= _let_96 _let_42)) (not (= _let_42 _let_96)) (tptp.has_part_2 _let_46 _let_96) (tptp.has_part_2 _let_46 _let_97) (tptp.has_region_2 _let_46 _let_94) (tptp.is_outside_2 _let_94 _let_46) (tptp.has_part_2 _let_46 _let_95) (not (= _let_96 _let_95)) (not (= _let_95 _let_96)) (tptp.site_2 _let_13 _let_73) (tptp.has_region_2 _let_8 _let_73) (tptp.has_region_2 _let_8 _let_93) (tptp.is_at_2 _let_76 _let_93) (tptp.has_region_2 _let_76 _let_75) (tptp.is_inside_2 _let_75 _let_73) (tptp.has_region_2 _let_1 _let_73) (tptp.has_part_2 _let_80 _let_82) (tptp.has_part_2 _let_80 _let_79) (tptp.has_state_2 _let_79 _let_77) (tptp.result_2 _let_13 _let_77) (tptp.has_solute_2 _let_28 _let_83) (tptp.has_part_2 _let_28 _let_83) (tptp.has_function_2 _let_1 _let_13) (tptp.has_part_2 _let_84 _let_86) (tptp.has_part_2 _let_83 _let_88) (tptp.plays_2 _let_89 _let_34) (tptp.object_2 _let_90 _let_1) (= _let_40 _let_69) (= _let_119 _let_118) (= _let_89 _let_37) (= _let_31 _let_72) (= _let_31 _let_71) (= _let_77 _let_20) (= _let_77 _let_18) (= _let_24 _let_63) (= _let_46 _let_43) (= _let_80 _let_23) (= _let_80 _let_22) (= _let_13 _let_12) (= _let_84 _let_33) (= _let_84 _let_32) (= _let_117 _let_116) (= _let_13 _let_10) (= _let_13 _let_9) (= _let_34 _let_115) (= _let_26 _let_114) (= _let_24 _let_61) (= _let_28 _let_27) (= _let_113 _let_112) (= _let_97 _let_59) (= _let_94 _let_51) (= _let_40 _let_68) (= _let_40 _let_67) (= _let_46 _let_45) (= _let_40 _let_66) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_52 X) _let_111) (= _let_110 _let_109) (= _let_70 _let_107) (= _let_106 _let_105) (= _let_24 _let_60) (= _let_103 (tptp.fn_cell_signaling_1 X)) (= _let_62 (tptp.fn_cell_signaling_3 X)) (= _let_46 _let_39) (= _let_102 _let_65) (= _let_102 _let_64) (= _let_28 _let_25) (= _let_101 _let_100) (= _let_94 _let_48) (= _let_46 _let_38) (= _let_96 _let_52) (= _let_95 _let_53) (= _let_96 _let_55) (= _let_42 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 X)) (= _let_99 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 X)) (= _let_98 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 X)) (= _let_46 _let_41) (= _let_97 _let_58) (= _let_97 _let_57) (= _let_97 _let_56) (= _let_96 _let_54) (= _let_95 _let_52) (= _let_94 _let_50) (= _let_46 _let_44) (= _let_94 _let_49) (= _let_94 _let_47) (= _let_76 _let_5) (= _let_93 _let_92) (= _let_73 _let_3) (= _let_1 _let_91) (= _let_89 _let_35) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_13 _let_7) (= _let_13 _let_6) (= _let_83 _let_30) (= _let_83 _let_29) (= _let_82 _let_81) (= _let_80 _let_21) (= _let_79 _let_78) (= _let_77 _let_16) (= _let_77 _let_15) (= _let_77 _let_14) (= _let_76 _let_4) (= _let_75 _let_74) (= _let_73 _let_2) (= _let_72 _let_71) (= _let_71 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_52) (= _let_52 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_41) (= _let_41 _let_41) (= _let_41 _let_44) (= _let_44 _let_43) (= _let_43 _let_41) (= _let_39 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_35) (= _let_35 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= 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(tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_gpcr_4 X))) (let ((_let_109 (tptp.fn_detach_2 _let_13))) (let ((_let_110 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_gpcr_5 X))) (let ((_let_111 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_gpcr_2 X))) (=> (tptp.cell_signaling_with_ca2_plus_and_ip3_and_gpcr_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus-And-IP3-And-GPCR'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which uses G-Protein Coupled Receptor as the cellular receptor during signal reception, and calcium ions and IP3 as second messengers during signal transduction.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ca2 plus and ip3 and gpcr'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-ca2-plus-and-ip3-and-gpcr'|) (tptp.cell_signaling_with_ca2_plus_and_ip3_1 X) (tptp.activation_value_1 _let_111) (tptp.inositol_trisphosphate_1 _let_86) (tptp.g_protein_1 _let_108) (tptp.g_protein_coupled_receptor_1 _let_110) (tptp.make_accessible_1 _let_88) (tptp.activate_1 _let_88) (tptp.g_protein_coupled_receptor_1 _let_105) (tptp.membrane_protein_1 _let_92) (tptp.tangible_entity_1 _let_92) (tptp.transmembrane_protein_1 _let_92) (tptp.integral_protein_1 _let_92) (tptp.transport_protein_1 _let_92) (tptp.ip3_gated_calcium_ion_channel_1 _let_92) (tptp.eukaryotic_cell_1 _let_94) (tptp.cell_1 _let_94) (tptp.detach_1 _let_64) (tptp.attach_1 _let_61) (tptp.signal_reception_1 _let_32) (tptp.cell_signaling_event_1 _let_47) (tptp.signal_transduction_1 _let_47) (tptp.signal_transduction_with_ca2_plus_1 _let_47) (tptp.attach_1 _let_87) (tptp.make_accessible_1 _let_89) (tptp.activate_1 _let_89) (tptp.replace_1 _let_59) (tptp.detach_1 _let_13) (tptp.g_protein_coupled_receptor_1 _let_17) (tptp.gdp_1 _let_107) (tptp.activation_value_1 _let_102) (tptp.g_protein_1 _let_76) (tptp.gtp_1 _let_106) (tptp.move_1 _let_85) (tptp.move_through_1 _let_93) (tptp.attach_1 _let_11) (tptp.move_1 _let_9) (tptp.biomembrane_1 _let_19) (tptp.plasma_membrane_1 _let_19) (tptp.atom_1 _let_97) (tptp.phosphatidylinositol_bisphosphate_1 _let_91) (tptp.chemical_reaction_1 _let_72) (tptp.decomposition_reaction_1 _let_72) (tptp.exergonic_reaction_1 _let_72) (tptp.hydrolysis_1 _let_72) (tptp.hydrolase_1 _let_90) (tptp.phospholipase_c_1 _let_90) (tptp.diacylglycerol_1 _let_95) (tptp.chemical_entity_1 _let_96) (tptp.time_interval_1 _let_99) (tptp.time_interval_1 _let_100) (tptp.ligand_binding_1 _let_84) (tptp.monomer_1 _let_83) (tptp.monomer_1 _let_82) (tptp.surface_1 _let_78) (tptp.outside_face_1 _let_78) (tptp.extracellular_side_1 _let_78) (tptp.chemical_entity_1 _let_81) (tptp.decrease_1 _let_75) (tptp.active_site_1 _let_73) (tptp.entity_1 _let_1) (tptp.protein_enzyme_1 _let_1) (tptp.hydrolase_1 _let_1) (tptp.phospholipase_c_1 _let_1) (tptp.substance_1 _let_77) (tptp.aqueous_solution_1 _let_77) (tptp.tangible_entity_1 _let_79) (tptp.membrane_protein_1 _let_79) 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(tptp.has_state_2 _let_96 _let_95) (tptp.is_at_2 _let_81 _let_78) (tptp.has_region_2 _let_92 _let_78) (tptp.is_at_2 _let_92 _let_19) (tptp.is_across_2 _let_92 _let_19) (tptp.base_2 _let_93 _let_92) (tptp.next_event_2 _let_88 _let_72) (tptp.next_event_2 _let_72 _let_85) (tptp.next_event_2 _let_85 _let_87) (tptp.base_2 _let_87 _let_92) (not (= _let_92 _let_79)) (not (= _let_79 _let_92)) (not (= _let_80 _let_92)) (not (= _let_80 _let_81)) (not (= _let_81 _let_79)) (not (= _let_92 _let_80)) (not (= _let_81 _let_80)) (not (= _let_92 _let_81)) (not (= _let_81 _let_92)) (not (= _let_79 _let_81)) (tptp.result_2 _let_88 _let_90) (tptp.has_function_2 _let_90 _let_72) (tptp.raw_material_2 _let_72 _let_91) (tptp.is_across_2 _let_91 _let_19) (tptp.has_part_2 _let_19 _let_92) (tptp.causes_2 _let_84 _let_88) (tptp.object_2 _let_88 _let_1) (tptp.has_region_2 _let_1 _let_73) (not (= _let_89 _let_88)) (not (= _let_88 _let_89)) (tptp.subevent_2 X _let_47) (tptp.subevent_2 _let_47 _let_85) (tptp.object_2 _let_85 _let_86) (tptp.object_2 _let_87 _let_86) (not (= _let_87 _let_84)) (not (= _let_84 _let_87)) (tptp.subevent_2 _let_32 _let_84) (tptp.object_2 _let_84 _let_81) (tptp.has_function_2 _let_81 _let_84) (tptp.object_2 _let_32 _let_81) (not (= _let_82 _let_81)) (not (= _let_81 _let_82)) (not (= _let_83 _let_81)) (not (= _let_81 _let_83)) (tptp.has_region_2 _let_19 _let_78) (tptp.has_part_2 _let_19 _let_80) (tptp.is_between_2 _let_19 _let_77) (tptp.is_inside_2 _let_78 _let_77) (tptp.is_outside_2 _let_78 _let_19) (tptp.has_part_2 _let_19 _let_79) (not (= _let_79 _let_80)) (not (= _let_80 _let_79)) (tptp.enables_2 _let_75 _let_72) (tptp.has_function_2 _let_90 _let_75) (tptp.has_region_2 _let_90 _let_73) (tptp.site_2 _let_72 _let_73) (tptp.has_function_2 _let_1 _let_72) (tptp.is_at_2 _let_71 _let_70) (tptp.has_region_2 _let_90 _let_70) (tptp.object_2 _let_9 _let_76) (= _let_110 _let_109) (= _let_108 _let_68) (= _let_76 _let_14) (= _let_108 _let_67) (= _let_76 _let_12) (= _let_108 _let_66) (= _let_106 _let_62) (= _let_107 _let_65) (= _let_107 _let_63) (= _let_106 _let_60) (= _let_19 _let_18) (= _let_105 _let_104) (= _let_94 _let_54) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_gpcr_13 X) _let_103) (= _let_102 _let_101) (= _let_17 _let_57) (= _let_100 (tptp.fn_chemical_signaling_3 X)) (= _let_99 (tptp.fn_chemical_signaling_4 X)) (= _let_19 _let_16) (= _let_83 _let_39) (= _let_84 _let_42) (= _let_82 _let_37) (= _let_80 _let_29) (= _let_79 _let_27) (= _let_81 _let_35) (= _let_17 _let_58) (= _let_17 _let_56) (= _let_32 _let_31) (= _let_32 _let_30) (= _let_89 _let_48) (= _let_89 _let_45) (= _let_71 _let_3) (= _let_98 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_57 X)) (= _let_97 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_39 X)) (= _let_88 _let_46) (= _let_96 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_40 X)) (= _let_95 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_3 X)) (= _let_94 _let_55) (= _let_94 _let_53) (= _let_93 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_30 X)) (= _let_92 _let_52) (= _let_92 _let_51) (= _let_78 _let_23) (= _let_79 _let_26) (= _let_81 _let_34) (= _let_80 _let_25) (= _let_80 _let_26) (= _let_92 _let_50) (= _let_92 _let_49) (= _let_19 _let_15) (= _let_91 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_42 X)) (= _let_72 _let_6) (= _let_90 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_53 X)) (= _let_73 _let_8) (= _let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_34 X)) (= _let_89 _let_46) (= _let_88 _let_45) (= _let_84 _let_41) (= _let_87 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_59 X)) (= _let_86 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_35 X)) (= _let_85 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_25 X)) (= _let_47 _let_44) (= _let_47 _let_43) (= _let_84 _let_40) (= _let_83 _let_38) (= _let_82 _let_36) (= _let_81 _let_33) (= _let_78 _let_24) (= _let_80 _let_28) (= _let_79 _let_25) (= _let_78 _let_22) (= _let_77 _let_21) (= _let_77 _let_20) (= _let_76 _let_10) (= _let_75 _let_74) (= _let_73 _let_7) (= _let_72 _let_5) (= _let_72 _let_4) (= _let_71 _let_2) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_57) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_43) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_30 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_25) (= _let_25 _let_29) (= _let_29 _let_26) (= _let_26 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_34 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_12 X))) (let ((_let_3 (tptp.fn_attach_1 _let_2))) (let ((_let_4 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_14 X))) (let ((_let_5 (tptp.fn_phospholipase_c_9 _let_4))) (let ((_let_6 (tptp.fn_hydrolase_1 _let_4))) (let ((_let_7 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_37 X))) (let ((_let_8 (tptp.fn_phospholipase_c_15 _let_4))) (let ((_let_9 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_38 X))) (let ((_let_10 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_53 X))) (let ((_let_11 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_29 X))) (let ((_let_12 (tptp.fn_phosphate_group_41 _let_11))) (let ((_let_13 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_19 X))) (let ((_let_14 (tptp.fn_molecule_10 _let_13))) (let ((_let_15 (tptp.fn_phosphate_group_5 _let_11))) (let ((_let_16 (tptp.fn_organic_molecule_2 _let_13))) (let ((_let_17 (tptp.fn_phosphate_group_22 _let_11))) (let ((_let_18 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_54 X))) (let ((_let_19 (tptp.fn_phosphorylation_1 _let_18))) (let ((_let_20 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_59 X))) (let ((_let_21 (tptp.fn_chemical_reaction_1 _let_20))) (let ((_let_22 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_61 X))) (let ((_let_23 (tptp.fn_receptor_tyrosine_kinase_9 _let_22))) (let ((_let_24 (tptp.fn_cell_surface_receptor_1 _let_22))) (let ((_let_25 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_43 X))) (let ((_let_26 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_64 X))) (let ((_let_27 (tptp.fn_signal_reception_5 _let_26))) (let ((_let_28 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_61 X))) (let ((_let_29 (tptp.fn_chemical_signaling_7 X))) (let ((_let_30 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_31 (tptp.fn_signal_reception_6 _let_26))) (let ((_let_32 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_20 X))) (let ((_let_33 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_58 X))) (let ((_let_34 (tptp.fn_ligand_binding_3 _let_33))) (let ((_let_35 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_68 X))) (let ((_let_36 (tptp.fn_plasma_membrane_66 _let_35))) (let ((_let_37 (tptp.fn_biomembrane_47 _let_35))) (let ((_let_38 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_37 X))) (let ((_let_39 (tptp.fn_cytoplasmic_side_1 _let_38))) (let ((_let_40 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_26 X))) (let ((_let_41 (tptp.fn_signal_reception_3 _let_26))) (let ((_let_42 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_33 X))) (let ((_let_43 (tptp.fn_receptor_tyrosine_kinase_10 _let_22))) (let ((_let_44 (tptp.fn_plasma_membrane_65 _let_35))) (let ((_let_45 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_64 X))) (let ((_let_46 (tptp.fn_plasma_membrane_54 _let_35))) (let ((_let_47 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_66 X))) (let ((_let_48 (tptp.fn_plasma_membrane_68 _let_35))) (let ((_let_49 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_65 X))) (let ((_let_50 (tptp.fn_plasma_membrane_70 _let_35))) (let ((_let_51 (tptp.fn_plasma_membrane_77 _let_35))) (let ((_let_52 (tptp.fn_plasma_membrane_71 _let_35))) (let ((_let_53 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_63 X))) (let ((_let_54 (tptp.fn_biomembrane_63 _let_35))) (let ((_let_55 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_32 X))) (let ((_let_56 (tptp.fn_chemical_signaling_8 X))) (let ((_let_57 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_29 X))) (let ((_let_58 (tptp.fn_plasma_membrane_55 _let_35))) (let ((_let_59 (tptp.fn_plasma_membrane_3 _let_35))) (let ((_let_60 (tptp.fn_plasma_membrane_4 _let_35))) (let ((_let_61 (tptp.fn_phosphorylation_2 _let_18))) (let ((_let_62 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_20 X))) (let ((_let_63 (tptp.fn_phosphorylation_2 _let_62))) (let ((_let_64 (tptp.fn_functional_group_1 _let_11))) (let ((_let_65 (tptp.fn_attach_2 _let_2))) (let ((_let_66 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_52 X))) (let ((_let_67 (tptp.fn_perceive_1 _let_66))) (let ((_let_68 (tptp.fn_phosphorylation_1 _let_62))) (let ((_let_69 (tptp.fn_phosphorylation_5 _let_62))) (let ((_let_70 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_65 X))) (let ((_let_71 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_15 X))) (let ((_let_72 (tptp.fn_phospholipase_c_8 _let_4))) (let ((_let_73 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_16 X))) (let ((_let_74 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_25 X))) (let ((_let_75 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_22 X))) (let ((_let_76 (tptp.fn_phosphate_group_6 _let_11))) (let ((_let_77 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_26 X))) (let ((_let_78 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_27 X))) (let ((_let_79 (tptp.fn_phosphate_group_37 _let_11))) (let ((_let_80 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_23 X))) (let ((_let_81 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_57 X))) (let ((_let_82 (tptp.fn_organic_molecule_3 _let_81))) (let ((_let_83 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_73 X))) (let ((_let_84 (tptp.fn_organic_molecule_2 _let_81))) (let ((_let_85 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_77 X))) (let ((_let_86 (tptp.fn_organic_molecule_1 _let_81))) (let ((_let_87 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_76 X))) (let ((_let_88 (tptp.fn_molecule_4 _let_81))) (let ((_let_89 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_72 X))) (let ((_let_90 (tptp.fn_molecule_2 _let_81))) (let ((_let_91 (tptp.fn_molecule_8 _let_81))) (let ((_let_92 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_75 X))) (let ((_let_93 (tptp.fn_molecule_3 _let_81))) (let ((_let_94 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_71 X))) (let ((_let_95 (tptp.fn_molecule_1 _let_81))) (let ((_let_96 (tptp.fn_molecule_12 _let_81))) (let ((_let_97 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_74 X))) (let ((_let_98 (tptp.fn_signal_reception_4 _let_26))) (let ((_let_99 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_46 X))) (let ((_let_100 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_60 X))) (let ((_let_101 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_48 X))) (let ((_let_102 (tptp.fn_receptor_tyrosine_kinase_dimer_2 _let_81))) (let ((_let_103 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_47 X))) (let ((_let_104 (tptp.fn_receptor_tyrosine_kinase_dimer_1 _let_81))) (let ((_let_105 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_45 X))) (let ((_let_106 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_42 X))) (let ((_let_107 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_62 X))) (let ((_let_108 (tptp.fn_attach_2 _let_33))) (let ((_let_109 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_49 X))) (let ((_let_110 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_39 X))) (let ((_let_111 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_35 X))) (let ((_let_112 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_34 X))) (let ((_let_113 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_38 X))) (let ((_let_114 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_36 X))) (let ((_let_115 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_63 X))) (let ((_let_116 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_50 X))) (let ((_let_117 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_66 X))) (let ((_let_118 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_67 X))) (let ((_let_119 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_70 X))) (let ((_let_120 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_43 X))) (let ((_let_121 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_44 X))) (let ((_let_122 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_69 X))) (let ((_let_123 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_13 X))) (let ((_let_124 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_51 X))) (let ((_let_125 (tptp.fn_molecule_12 _let_13))) (let ((_let_126 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_24 X))) (let ((_let_127 (tptp.fn_molecule_4 _let_13))) (let ((_let_128 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_33 X))) (let ((_let_129 (tptp.fn_molecule_3 _let_13))) (let ((_let_130 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_32 X))) (let ((_let_131 (tptp.fn_molecule_1 _let_13))) (let ((_let_132 (tptp.fn_molecule_8 _let_13))) (let ((_let_133 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_31 X))) (let ((_let_134 (tptp.fn_molecule_2 _let_13))) (let ((_let_135 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_40 X))) (let ((_let_136 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_41 X))) (let ((_let_137 (tptp.fn_organic_molecule_1 _let_13))) (let ((_let_138 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_28 X))) (let ((_let_139 (tptp.fn_organic_molecule_3 _let_13))) (let ((_let_140 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_30 X))) (let ((_let_141 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_21 X))) (let ((_let_142 (tptp.fn_phosphorylation_3 _let_18))) (let ((_let_143 (tptp.fn_phosphorylation_3 _let_62))) (let ((_let_144 (tptp.fn_phosphorylation_5 _let_18))) (let ((_let_145 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_53 X))) (let ((_let_146 (tptp.fn_dimerization_1 _let_20))) (let ((_let_147 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_55 X))) (let ((_let_148 (tptp.fn_dimerization_2 _let_20))) (let ((_let_149 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_56 X))) (let ((_let_150 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_5 X))) (let ((_let_151 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_1 X))) (let ((_let_152 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_3 X))) (let ((_let_153 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_4 X))) (let ((_let_154 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_9 X))) (let ((_let_155 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_6 X))) (let ((_let_156 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_8 X))) (=> (tptp.cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus-And-IP3-And-Receptor-Tyrosine-Kinase'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which uses tyrosine kinase to phosphorylate proteins and calcium ions and IP3 as second messengers during signal transduction.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ca2 plus and ip3 and receptor tyrosine kinase'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-ca2-plus-and-ip3-and-receptor-tyrosine-kinase'|) (tptp.cell_signaling_with_ca2_plus_and_ip3_1 X) (tptp.tyrosine_1 _let_151) (tptp.activation_value_1 _let_152) (tptp.activation_value_1 _let_153) (tptp.tyrosine_1 _let_150) (tptp.adp_1 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(tptp.chemical_entity_1 _let_64) (tptp.chemical_entity_1 _let_63) (tptp.chemical_entity_1 _let_61) (tptp.membrane_protein_1 _let_60) (tptp.membrane_protein_1 _let_59) (tptp.tangible_entity_1 _let_58) (tptp.transmembrane_protein_1 _let_58) (tptp.integral_protein_1 _let_58) (tptp.transport_protein_1 _let_58) (tptp.tangible_entity_1 _let_54) (tptp.phospholipid_bilayer_1 _let_54) (tptp.tangible_entity_1 _let_52) (tptp.phospholipid_bilayer_1 _let_52) (tptp.aqueous_solution_1 _let_51) (tptp.substance_1 _let_50) (tptp.aqueous_solution_1 _let_50) (tptp.tangible_entity_1 _let_48) (tptp.membrane_protein_1 _let_48) (tptp.protein_1 _let_48) (tptp.tangible_entity_1 _let_46) (tptp.membrane_protein_1 _let_46) (tptp.protein_1 _let_46) (tptp.spatial_entity_1 _let_46) (tptp.polymer_1 _let_46) (tptp.extracellular_side_1 _let_44) (tptp.extracellular_side_1 _let_43) (tptp.surface_1 _let_43) (tptp.outside_face_1 _let_43) (tptp.cell_1 _let_41) (tptp.cytoplasm_1 _let_39) (tptp.surface_1 _let_37) (tptp.cytoplasmic_side_1 _let_36) (tptp.chemical_entity_1 _let_34) (tptp.ligand_binding_1 _let_31) (tptp.chemical_entity_1 _let_27) (tptp.plasma_membrane_1 _let_24) (tptp.plasma_membrane_1 _let_23) (tptp.biomembrane_1 _let_23) (tptp.chemical_entity_1 _let_21) (tptp.molecule_1 _let_19) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.oxygen_1 _let_15) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.chemical_bond_1 _let_14) (tptp.double_bond_1 _let_12) (tptp.active_site_1 _let_8) (tptp.hydrolysis_1 _let_6) (tptp.hydrolysis_1 _let_5) (tptp.spatial_entity_1 _let_3) (not (= _let_119 _let_22)) (not (= _let_122 _let_121)) (not (= _let_122 _let_4)) (tptp.the_categorical_value_2 _let_154 tptp.inactive_0) (tptp.the_categorical_value_2 _let_156 tptp.inactive_0) (tptp.recipient_2 _let_26 _let_107) (tptp.first_subevent_2 _let_26 _let_100) (tptp.first_subevent_2 _let_26 _let_33) (tptp.instrument_2 _let_26 _let_109) (tptp.first_subevent_2 _let_115 _let_20) (tptp.subevent_2 _let_115 _let_2) (tptp.subevent_2 _let_115 _let_18) (tptp.subevent_2 _let_115 _let_66) (tptp.subevent_2 _let_115 _let_20) (tptp.activation_2 _let_22 _let_156) (tptp.has_state_2 _let_22 _let_147) (not (= _let_22 _let_119)) (not (= _let_22 _let_99)) (not (= _let_22 _let_111)) (not (= _let_22 _let_112)) (tptp.causes_2 _let_100 _let_20) (tptp.next_event_2 _let_20 _let_18) (tptp.causes_2 _let_33 _let_20) (tptp.activation_2 _let_81 _let_153) (tptp.has_state_2 _let_81 _let_13) (not (= _let_81 _let_155)) (not (= _let_81 _let_13)) (tptp.has_state_2 _let_149 _let_103) (tptp.has_state_2 _let_147 _let_105) (tptp.exactCardinality _let_18 tptp.raw_material_0 |"6"| tptp.atp_0) (tptp.next_event_2 _let_18 _let_66) (tptp.exactCardinality _let_18 tptp.result_0 |"6"| tptp.adp_0) (tptp.result_2 _let_18 _let_155) (tptp.site_2 _let_18 _let_150) (tptp.site_2 _let_18 _let_151) (not (= _let_145 _let_13)) (not (= _let_155 _let_81)) (not (= _let_150 _let_151)) (tptp.agent_2 _let_66 _let_4) (tptp.next_event_2 _let_66 _let_2) (not (= _let_116 _let_2)) (tptp.has_state_2 _let_109 _let_149) (tptp.activation_2 _let_109 _let_154) (not (= _let_101 _let_99)) (tptp.the_categorical_value_2 _let_153 tptp.active_0) (not (= _let_99 _let_101)) (not (= _let_99 _let_22)) (not (= _let_121 _let_122)) (tptp.is_oriented_toward_2 _let_38 _let_106) (not (= _let_111 _let_22)) (not (= _let_112 _let_22)) (tptp.the_categorical_value_2 _let_152 tptp.active_0) (tptp.greater_than_2 _let_152 _let_153) (not (= _let_141 _let_13)) (tptp.raw_material_2 _let_62 _let_145) (tptp.possesses_2 _let_13 _let_80) (tptp.has_part_2 _let_13 _let_77) (tptp.has_part_2 _let_13 _let_78) (tptp.activation_2 _let_13 _let_152) (not (= _let_13 _let_141)) (not (= _let_13 _let_145)) (not (= _let_13 _let_81)) (tptp.has_function_2 _let_4 _let_73) (not (= _let_4 _let_122)) (not (= _let_2 _let_116)) (tptp.next_event_2 _let_2 _let_124) (not (= _let_151 _let_150)) (tptp.raw_material_2 _let_20 _let_149) (tptp.raw_material_2 _let_20 _let_147) (tptp.object_2 _let_66 _let_13) (tptp.object_2 _let_2 _let_4) (tptp.base_2 _let_2 _let_13) (tptp.raw_material_2 _let_18 _let_145) (tptp.result_2 _let_20 _let_81) (tptp.raw_material_2 _let_18 _let_81) (tptp.possesses_2 _let_13 _let_75) (tptp.has_part_2 _let_13 _let_74) (tptp.result_2 _let_62 _let_13) (tptp.result_2 _let_18 _let_13) (tptp.has_region_2 _let_13 _let_11) (tptp.raw_material_2 _let_62 _let_141) (tptp.called_2 _let_112 |tptp.'MP2'|) (tptp.called_2 _let_111 |tptp.'MP1'|) (tptp.has_part_2 _let_13 _let_138) (tptp.is_inside_2 _let_138 _let_140) (tptp.has_region_2 _let_13 _let_140) (not (= _let_78 _let_138)) (not (= _let_138 _let_78)) (tptp.first_subevent_2 X _let_26) (tptp.subevent_2 X _let_26) (tptp.time_during_2 _let_26 _let_135) (tptp.time_before_2 _let_135 _let_136) (tptp.time_during_2 _let_115 _let_136) (tptp.next_event_2 _let_26 _let_115) (tptp.object_2 _let_133 _let_13) (tptp.speed_2 _let_133 _let_130) (tptp.possesses_2 _let_13 _let_126) (tptp.quantity_2 _let_126 _let_128) (tptp.directly_proportional_2 _let_130 _let_128) (tptp.has_part_2 _let_107 _let_35) (tptp.has_part_2 _let_107 _let_106) (tptp.base_2 X _let_107) (tptp.raw_material_2 _let_70 _let_120) (tptp.has_region_2 _let_4 _let_71) (tptp.is_inside_2 _let_119 _let_114) (tptp.object_2 _let_124 _let_4) (tptp.has_state_2 _let_4 _let_123) (tptp.result_2 _let_124 _let_123) (tptp.causes_2 _let_100 _let_124) (tptp.object_2 _let_117 _let_119) (tptp.subevent_2 _let_115 _let_117) (tptp.base_2 _let_115 _let_107) (tptp.agent_2 _let_115 _let_107) (tptp.subevent_2 _let_115 _let_118) (tptp.has_function_2 _let_123 _let_70) (tptp.subevent_2 _let_115 _let_70) (tptp.subevent_2 _let_115 _let_124) (tptp.next_event_2 _let_124 _let_70) (tptp.result_2 _let_70 _let_122) (tptp.is_across_2 _let_119 _let_35) (tptp.base_2 _let_116 _let_119) (tptp.object_2 _let_116 _let_122) (not (= _let_123 _let_122)) (not (= _let_122 _let_123)) (tptp.is_inside_2 _let_106 _let_35) (tptp.is_between_2 _let_106 _let_35) (tptp.is_across_2 _let_120 _let_35) (tptp.has_part_2 _let_120 _let_121) (tptp.has_state_2 _let_121 _let_122) (tptp.is_at_2 _let_119 _let_35) (tptp.has_part_2 _let_35 _let_119) (tptp.has_region_2 _let_119 _let_110) (tptp.is_at_2 _let_99 _let_110) (tptp.agent_2 X _let_99) (not (= _let_112 _let_99)) (not (= _let_99 _let_112)) (not (= _let_111 _let_99)) (not (= _let_99 _let_111)) (not (= _let_119 _let_99)) (not (= _let_99 _let_119)) (tptp.next_event_2 _let_117 _let_118) (tptp.base_2 _let_118 _let_119) (not (= _let_119 _let_112)) (not (= _let_111 _let_119)) (not (= _let_119 _let_111)) (not (= _let_112 _let_119)) (tptp.subevent_2 X _let_115) (tptp.subevent_2 _let_115 _let_116) (tptp.next_event_2 _let_116 _let_117) (not (= _let_100 _let_116)) (not (= _let_116 _let_100)) (tptp.has_region_2 _let_35 _let_38) (tptp.has_part_2 _let_35 _let_114) (tptp.has_part_2 _let_35 _let_111) (not (= _let_111 _let_112)) (tptp.has_part_2 _let_35 _let_112) (tptp.is_between_2 _let_35 _let_113) (tptp.is_inside_2 _let_110 _let_113) (not (= _let_112 _let_111)) (tptp.object_2 _let_26 _let_99) (tptp.subevent_2 _let_26 _let_33) (tptp.object_2 _let_33 _let_101) (tptp.has_function_2 _let_101 _let_33) (tptp.is_outside_2 _let_110 _let_35) (tptp.has_region_2 _let_35 _let_110) (tptp.object_2 _let_100 _let_99) (tptp.has_function_2 _let_99 _let_100) (tptp.enables_2 _let_73 _let_70) (tptp.has_function_2 _let_123 _let_73) (tptp.has_region_2 _let_123 _let_71) (tptp.site_2 _let_70 _let_71) (tptp.has_function_2 _let_4 _let_70) (not (= _let_74 _let_77)) (not (= _let_77 _let_74)) (not (= _let_74 _let_78)) (not (= _let_78 _let_74)) (tptp.is_inside_2 _let_74 _let_11) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (tptp.is_between_2 _let_80 _let_77) (tptp.is_between_2 _let_80 _let_78) (tptp.is_inside_2 _let_78 _let_11) (tptp.is_inside_2 _let_77 _let_11) (tptp.is_between_2 _let_75 _let_77) (tptp.is_between_2 _let_75 _let_74) (not (= _let_87 _let_85)) (not (= _let_85 _let_87)) (tptp.is_inside_2 _let_87 _let_83) (tptp.has_part_2 _let_81 _let_87) (tptp.has_part_2 _let_81 _let_85) (tptp.has_region_2 _let_81 _let_83) (tptp.speed_2 _let_92 _let_94) (tptp.directly_proportional_2 _let_94 _let_89) (tptp.quantity_2 _let_97 _let_89) (tptp.possesses_2 _let_81 _let_97) (tptp.object_2 _let_92 _let_81) (tptp.has_part_2 _let_35 _let_22) (tptp.is_across_2 _let_22 _let_35) (tptp.object_2 _let_26 _let_101) (tptp.subevent_2 _let_26 _let_100) (tptp.base_2 _let_100 _let_22) (tptp.instrument_2 _let_26 _let_22) (tptp.has_function_2 _let_22 _let_26) (tptp.complement_2 _let_22 _let_99) (tptp.complement_2 _let_99 _let_22) (tptp.element_2 _let_81 _let_105) (tptp.element_2 _let_81 _let_103) (tptp.is_facing_2 _let_38 _let_106) (tptp.base_2 _let_26 _let_107) (tptp.base_2 _let_33 _let_109) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_13 _let_67) (= _let_4 _let_3) (= _let_13 _let_65) (= _let_145 _let_144) (= _let_81 _let_21) (= _let_81 _let_19) (= _let_75 _let_14) (= _let_74 _let_16) (= _let_13 _let_64) (= _let_13 _let_63) (= _let_11 _let_143) (= _let_11 _let_142) (= _let_13 _let_61) (= _let_141 _let_69) (= _let_141 _let_68) (= _let_140 _let_139) (= _let_78 _let_16) (= _let_138 _let_137) (= _let_136 (tptp.fn_chemical_signaling_4 X)) (= _let_135 (tptp.fn_chemical_signaling_3 X)) (= _let_26 _let_30) (= _let_26 _let_29) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_18 X) _let_134) (= _let_133 _let_132) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_17 X) _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_71 _let_9) (= _let_114 _let_53) (= _let_123 _let_10) (= _let_4 _let_1) (= _let_107 _let_42) (= _let_124 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_36 X)) (= _let_70 _let_7) (= _let_123 _let_1) (= _let_122 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_35 X)) (= _let_121 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_39 X)) (= _let_120 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_42 X)) (= _let_106 _let_40) (= _let_110 _let_45) (= _let_119 _let_60) (= _let_119 _let_59) (= _let_35 _let_25) (= _let_99 _let_28) (= _let_119 _let_58) (= _let_112 _let_49) (= _let_111 _let_47) (= _let_119 _let_57) (= _let_118 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_30 X)) (= _let_117 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_31 X)) (= _let_100 _let_32) (= _let_116 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_59 X)) (= _let_115 _let_56) (= _let_115 _let_55) (= _let_38 _let_37) (= _let_38 _let_36) (= _let_114 _let_54) (= _let_114 _let_52) (= _let_110 _let_44) (= _let_113 _let_51) (= _let_113 _let_50) (= _let_111 _let_48) (= _let_112 _let_46) (= _let_112 _let_48) (= _let_111 _let_46) (= _let_101 _let_34) (= _let_33 _let_31) (= _let_110 _let_43) (= _let_109 _let_108) (= _let_107 _let_41) (= _let_106 _let_39) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_27) (= _let_100 _let_31) (= _let_99 _let_27) (= _let_22 _let_98) (= _let_35 _let_24) (= _let_35 _let_23) (= _let_97 _let_96) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_79 X) _let_95) (= _let_94 _let_93) (= _let_92 _let_91) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_and_receptor_tyrosine_kinase_78 X) _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= _let_85 _let_84) (= _let_83 _let_82) (= _let_80 _let_79) (= _let_78 _let_17) (= _let_77 _let_76) (= _let_75 _let_12) (= _let_74 _let_15) (= _let_73 _let_72) (= _let_71 _let_8) (= _let_70 _let_6) (= _let_70 _let_5) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_46) (= _let_49 _let_46) (= _let_46 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_27 _let_34) (= _let_34 _let_27) (= _let_27 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_1) (= _let_1 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_3 X))) (let ((_let_2 (tptp.fn_animal_cell_division_9 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_2 X))) (let ((_let_4 (tptp.fn_signal_reception_3 _let_3))) (let ((_let_5 (tptp.fn_animal_cell_division_1 _let_1))) (let ((_let_6 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_33 X))) (let ((_let_7 (tptp.fn_cellular_response_3 _let_1))) (let ((_let_8 (tptp.fn_intracellular_process_1 _let_1))) (let ((_let_9 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_5 X))) (let ((_let_10 (tptp.fn_cell_28 _let_9))) (let ((_let_11 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_26 X))) (let ((_let_12 (tptp.fn_cell_26 _let_9))) (let ((_let_13 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_63 X))) (let ((_let_14 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_6 X))) (let ((_let_15 (tptp.fn_plasma_membrane_71 _let_14))) (let ((_let_16 (tptp.fn_biomembrane_63 _let_14))) (let ((_let_17 (tptp.fn_cell_30 _let_9))) (let ((_let_18 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_43 X))) (let ((_let_19 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_12 X))) (let ((_let_20 (tptp.fn_membrane_protein_1 _let_19))) (let ((_let_21 (tptp.fn_cell_27 _let_9))) (let ((_let_22 (tptp.fn_plasma_membrane_66 _let_14))) (let ((_let_23 (tptp.fn_cell_29 _let_9))) (let ((_let_24 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_27 X))) (let ((_let_25 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_28 X))) (let ((_let_26 (tptp.fn_chemical_signaling_6 X))) (let ((_let_27 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_28 (tptp.fn_chemical_signaling_7 X))) (let ((_let_29 (tptp.fn_signal_reception_5 _let_3))) (let ((_let_30 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_61 X))) (let ((_let_31 (tptp.fn_signal_reception_7 _let_3))) (let ((_let_32 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_17 X))) (let ((_let_33 (tptp.fn_signal_reception_8 _let_3))) (let ((_let_34 (tptp.fn_plasma_membrane_86 _let_14))) (let ((_let_35 (tptp.fn_receptor_protein_5 _let_19))) (let ((_let_36 (tptp.fn_polymer_4 _let_19))) (let ((_let_37 (tptp.fn_plasma_membrane_65 _let_14))) (let ((_let_38 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_64 X))) (let ((_let_39 (tptp.fn_biomembrane_41 _let_14))) (let ((_let_40 (tptp.fn_plasma_membrane_54 _let_14))) (let ((_let_41 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_65 X))) (let ((_let_42 (tptp.fn_plasma_membrane_68 _let_14))) (let ((_let_43 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_66 X))) (let ((_let_44 (tptp.fn_plasma_membrane_70 _let_14))) (let ((_let_45 (tptp.fn_plasma_membrane_77 _let_14))) (let ((_let_46 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_32 X))) (let ((_let_47 (tptp.fn_chemical_signaling_8 X))) (let ((_let_48 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_29 X))) (let ((_let_49 (tptp.fn_plasma_membrane_55 _let_14))) (let ((_let_50 (tptp.fn_plasma_membrane_3 _let_14))) (let ((_let_51 (tptp.fn_plasma_membrane_4 _let_14))) (let ((_let_52 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_23 X))) (let ((_let_53 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 X))) (let ((_let_54 (tptp.fn_signal_reception_4 _let_3))) (let ((_let_55 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_30 X))) (let ((_let_56 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_25 X))) (let ((_let_57 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_19 X))) (let ((_let_58 (tptp.fn_animal_cell_54 _let_9))) (let ((_let_59 (tptp.fn_cell_11 _let_9))) (let ((_let_60 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_19 X))) (let ((_let_61 (tptp.fn_cell_22 _let_9))) (let ((_let_62 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_20 X))) (let ((_let_63 (tptp.fn_cell_23 _let_9))) (let ((_let_64 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_7 X))) (let ((_let_65 (tptp.fn_cell_4 _let_9))) (let ((_let_66 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_21 X))) (let ((_let_67 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_22 X))) (let ((_let_68 (tptp.fn_cell_10 _let_9))) (let ((_let_69 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_25 X))) (let ((_let_70 (tptp.fn_cell_14 _let_9))) (let ((_let_71 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_26 X))) (let ((_let_72 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_1 X))) (let ((_let_73 (tptp.fn_cellular_response_1 _let_1))) (let ((_let_74 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_9 X))) (let ((_let_75 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_18 X))) (let ((_let_76 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_17 X))) (let ((_let_77 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_28 X))) (let ((_let_78 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_29 X))) (let ((_let_79 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_30 X))) (let ((_let_80 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_24 X))) (let ((_let_81 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_4 X))) (let ((_let_82 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_27 X))) (let ((_let_83 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_23 X))) (let ((_let_84 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_16 X))) (let ((_let_85 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_11 X))) (let ((_let_86 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_13 X))) (let ((_let_87 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_8 X))) (let ((_let_88 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_10 X))) (let ((_let_89 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_15 X))) (let ((_let_90 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_14 X))) (=> (tptp.cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus-And-IP3-Leading-To-Animal-Cell-Division'|) (tptp.user_description_2 X |tptp.'Cellular response to an external stimulus, in which IP3 mobilizes Ca2+ from storage organelles and induces division in animal cells.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ca2 plus and ip3 leading to animal cell division'|) (tptp.concept2words_2 X 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(tptp.receptor_protein_1 _let_19) (tptp.mixture_1 _let_86) (tptp.cytoplasm_1 _let_86) (tptp.time_interval_1 _let_90) (tptp.time_interval_1 _let_89) (tptp.membrane_protein_1 _let_84) (tptp.tangible_entity_1 _let_84) (tptp.transmembrane_protein_1 _let_84) (tptp.integral_protein_1 _let_84) (tptp.transport_protein_1 _let_84) (tptp.ip3_gated_calcium_ion_channel_1 _let_84) (tptp.monomer_1 _let_76) (tptp.chemical_entity_1 _let_75) (tptp.size_value_1 _let_60) (tptp.volume_value_1 _let_62) (tptp.surface_1 _let_66) (tptp.tangible_entity_1 _let_67) (tptp.phospholipid_bilayer_1 _let_67) (tptp.phosphatidylinositol_bisphosphate_1 _let_83) (tptp.substance_1 _let_80) (tptp.aqueous_solution_1 _let_80) (tptp.surface_1 _let_69) (tptp.cytoplasmic_side_1 _let_69) (tptp.ribosome_1 _let_71) (tptp.chemical_reaction_1 _let_82) (tptp.decomposition_reaction_1 _let_82) (tptp.exergonic_reaction_1 _let_82) (tptp.hydrolysis_1 _let_82) (tptp.surface_1 _let_77) (tptp.outside_face_1 _let_77) (tptp.extracellular_side_1 _let_77) (tptp.tangible_entity_1 _let_78) (tptp.membrane_protein_1 _let_78) (tptp.protein_1 _let_78) (tptp.spatial_entity_1 _let_78) (tptp.polymer_1 _let_78) (tptp.spatial_entity_1 _let_79) (tptp.polymer_1 _let_79) (tptp.tangible_entity_1 _let_79) (tptp.membrane_protein_1 _let_79) (tptp.protein_1 _let_79) (tptp.protein_1 _let_73) (tptp.ribosome_1 _let_70) (tptp.property_node_1 _let_68) (tptp.surface_1 _let_65) (tptp.property_node_1 _let_63) (tptp.volume_value_1 _let_61) (tptp.size_value_1 _let_59) (tptp.smooth_endoplasmic_reticulum_1 _let_58) (tptp.spatial_entity_1 _let_54) (tptp.polymer_1 _let_54) (tptp.receptor_protein_1 _let_54) (tptp.membrane_protein_1 _let_51) (tptp.membrane_protein_1 _let_50) (tptp.tangible_entity_1 _let_49) (tptp.transmembrane_protein_1 _let_49) (tptp.integral_protein_1 _let_49) (tptp.transport_protein_1 _let_49) (tptp.aqueous_solution_1 _let_45) (tptp.substance_1 _let_44) (tptp.aqueous_solution_1 _let_44) (tptp.tangible_entity_1 _let_42) (tptp.membrane_protein_1 _let_42) (tptp.protein_1 _let_42) (tptp.tangible_entity_1 _let_40) (tptp.membrane_protein_1 _let_40) (tptp.protein_1 _let_40) (tptp.spatial_entity_1 _let_40) (tptp.polymer_1 _let_40) (tptp.outside_face_1 _let_39) (tptp.extracellular_side_1 _let_37) (tptp.monomer_1 _let_36) (tptp.monomer_1 _let_35) (tptp.monomer_1 _let_34) (tptp.monomer_1 _let_33) (tptp.monomer_1 _let_31) (tptp.chemical_entity_1 _let_29) (tptp.substance_1 _let_23) (tptp.cytosol_1 _let_23) (tptp.cytoplasmic_side_1 _let_22) (tptp.surface_1 _let_21) (tptp.cytoplasmic_side_1 _let_21) (tptp.biomembrane_1 _let_20) (tptp.plasma_membrane_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.mixture_1 _let_10) (tptp.cytoplasm_1 _let_10) (tptp.cell_1 _let_8) (tptp.cell_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.animal_cell_1 _let_2) (tptp.recipient_2 _let_3 _let_9) (tptp.has_part_2 _let_14 _let_19) (tptp.base_2 _let_1 _let_9) (tptp.has_part_2 _let_9 _let_74) (tptp.has_state_2 _let_9 _let_88) (tptp.base_2 X _let_9) (tptp.has_part_2 _let_9 _let_87) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_81 _let_1) (tptp.agent_2 _let_81 _let_9) (tptp.base_2 _let_81 _let_9) (tptp.next_event_2 _let_3 _let_81) (tptp.time_during_2 _let_81 _let_89) (tptp.time_before_2 _let_90 _let_89) (tptp.time_during_2 _let_3 _let_90) (tptp.has_part_2 _let_19 _let_76) (tptp.subevent_2 X _let_3) (tptp.instrument_2 _let_3 _let_19) (tptp.has_function_2 _let_19 _let_3) (tptp.first_subevent_2 X _let_3) (tptp.is_at_2 _let_84 _let_14) (tptp.agent_2 X _let_75) (tptp.called_2 _let_78 |tptp.'MP1'|) (tptp.has_part_2 _let_88 _let_86) (tptp.called_2 _let_79 |tptp.'MP2'|) (tptp.destination_2 _let_85 _let_72) (tptp.is_inside_2 _let_87 _let_72) (tptp.origin_2 _let_85 _let_87) (tptp.is_inside_2 _let_84 _let_67) (not (= _let_84 _let_78)) (not (= _let_78 _let_84)) (tptp.is_at_2 _let_75 _let_77) (tptp.has_region_2 _let_84 _let_77) (tptp.is_across_2 _let_84 _let_14) (not (= _let_75 _let_19)) (not (= _let_19 _let_75)) (not (= _let_78 _let_75)) (not (= _let_78 _let_19)) (tptp.is_across_2 _let_19 _let_14) (tptp.is_between_2 _let_64 _let_14) (tptp.has_state_2 _let_64 _let_86) (not (= _let_75 _let_78)) (not (= _let_19 _let_78)) (tptp.subevent_2 _let_81 _let_85) (tptp.base_2 _let_85 _let_84) (not (= _let_84 _let_75)) (not (= _let_19 _let_84)) (not (= _let_84 _let_19)) (not (= _let_75 _let_84)) (not (= _let_79 _let_84)) (not (= _let_79 _let_75)) (tptp.complement_2 _let_75 _let_19) (not (= _let_84 _let_79)) (not (= _let_19 _let_79)) (not (= _let_79 _let_19)) (not (= _let_75 _let_79)) (tptp.complement_2 _let_19 _let_75) (tptp.subevent_2 X _let_81) (tptp.subevent_2 _let_81 _let_82) (tptp.raw_material_2 _let_82 _let_83) (tptp.is_across_2 _let_83 _let_14) (tptp.has_part_2 _let_14 _let_84) (tptp.is_inside_2 _let_77 _let_80) (tptp.is_between_2 _let_14 _let_80) (tptp.has_part_2 _let_14 _let_79) (tptp.has_region_2 _let_14 _let_77) (tptp.is_outside_2 _let_77 _let_14) (tptp.has_part_2 _let_14 _let_78) (not (= _let_79 _let_78)) (not (= _let_78 _let_79)) (tptp.object_2 _let_3 _let_75) (not (= _let_76 _let_75)) (not (= _let_75 _let_76)) (tptp.has_part_2 _let_14 _let_67) (tptp.is_inside_2 _let_64 _let_14) (tptp.has_part_2 _let_64 _let_72) (tptp.is_inside_2 _let_71 _let_72) (tptp.has_part_2 _let_9 _let_71) (tptp.is_oriented_toward_2 _let_69 _let_64) (tptp.is_facing_2 _let_69 _let_64) (tptp.has_region_2 _let_14 _let_69) (tptp.has_part_2 _let_9 _let_14) (tptp.directly_proportional_2 _let_60 _let_62) (tptp.volume_2 _let_9 _let_62) (tptp.is_at_2 _let_67 _let_66) (tptp.has_region_2 _let_9 _let_66) (tptp.has_part_2 _let_9 _let_64) (tptp.size_2 _let_9 _let_60) (tptp.object_2 _let_1 _let_9) (tptp.instrument_2 _let_1 _let_74) (tptp.base_2 _let_3 _let_9) (tptp.agent_2 _let_1 _let_9) (= _let_14 _let_20) (= _let_9 _let_8) (= _let_9 _let_7) (= _let_87 _let_58) (= _let_9 _let_6) (= _let_1 _let_26) (= _let_1 _let_25) (= _let_90 (tptp.fn_chemical_signaling_3 X)) (= _let_89 (tptp.fn_chemical_signaling_4 X)) (= _let_76 _let_36) (= _let_76 _let_35) (= _let_76 _let_34) (= _let_76 _let_32) (= _let_19 _let_53) (= _let_3 _let_28) (= _let_3 _let_27) (= _let_84 _let_51) (= _let_84 _let_50) (= _let_88 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_50 X)) (= _let_87 _let_57) (= _let_72 _let_24) (= _let_67 _let_13) (= _let_77 _let_38) (= _let_86 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_49 X)) (= _let_64 _let_11) (= _let_78 _let_41) (= _let_19 _let_40) (= _let_85 _let_56) (= _let_85 _let_55) (= _let_19 _let_54) (= _let_75 _let_30) (= _let_19 _let_52) (= _let_79 _let_40) (= _let_79 _let_43) (= _let_84 _let_49) (= _let_84 _let_48) (= _let_14 _let_18) (= _let_83 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_42 X)) (= _let_82 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_37 X)) (= _let_81 _let_47) (= _let_81 _let_46) (= _let_80 _let_45) (= _let_80 _let_44) (= _let_79 _let_42) (= _let_78 _let_40) (= _let_77 _let_39) (= _let_77 _let_37) (= _let_76 _let_33) (= _let_76 _let_31) (= _let_75 _let_29) (= _let_9 _let_5) (= _let_9 _let_4) (= _let_74 _let_73) (= _let_9 _let_2) (= _let_67 _let_16) (= _let_67 _let_15) (= _let_72 _let_23) (= _let_71 _let_70) (= _let_69 _let_22) (= _let_69 _let_21) (= _let_14 _let_17) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_32 X) _let_68) (= _let_67 _let_12) (= _let_66 _let_65) (= _let_64 _let_10) (= (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_animal_cell_division_31 X) _let_63) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_40) (= _let_54 _let_40) (= _let_40 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_47 _let_47) (= _let_46 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_40) (= _let_43 _let_40) (= _let_40 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_muscle_cell_contraction_1 X))) (=> (tptp.cell_signaling_with_ca2_plus_and_ip3_leading_to_muscle_cell_contraction_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus-And-IP3-Leading-To-Muscle-Cell-Contraction'|) (tptp.user_description_2 X |tptp.'Cell signaling in which IP3 mobilizes Ca2+ from storage organelles; the increased Ca2+ in the cytoplasm of a muscle cell causes contraction of the muscle cell.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ca2 plus and ip3 leading to muscle cell contraction'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-ca2-plus-and-ip3-leading-to-muscle-cell-contraction'|) (tptp.cell_signaling_with_ca2_plus_and_ip3_1 X) (tptp.muscle_contraction_1 _let_1) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_28 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_secretion_of_substance_2 X))) (let ((_let_2 (tptp.fn_secretion_1 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_leading_to_secretion_of_substance_1 X))) (=> (tptp.cell_signaling_with_ca2_plus_and_ip3_leading_to_secretion_of_substance_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ca2-Plus-And-IP3-Leading-To-Secretion-Of-Substance'|) (tptp.user_description_2 X |tptp.'Cellular response to an external stimulus, in which IP3 mobilizes Ca2+ from storage organelles and induces the cell to secrete a substance.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ca2 plus and ip3 leading to secretion of substance'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-ca2-plus-and-ip3-leading-to-secretion-of-substance'|) (tptp.cell_signaling_with_ca2_plus_and_ip3_1 X) (tptp.substance_1 _let_3) (tptp.cellular_response_1 _let_1) (tptp.secretion_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_3) (= _let_1 (tptp.fn_cell_signaling_with_ca2_plus_and_ip3_28 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_4 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_camp_6 X))) (let ((_let_3 (tptp.fn_cellular_response_3 _let_2))) (let ((_let_4 (tptp.fn_cell_signaling_with_camp_5 X))) (let ((_let_5 (tptp.fn_cell_signaling_with_camp_7 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_camp_9 X))) (let ((_let_7 (tptp.fn_cell_signaling_with_camp_8 X))) (let ((_let_8 (tptp.fn_cellular_response_1 _let_2))) (let ((_let_9 (tptp.fn_cell_signaling_with_camp_4 X))) (let ((_let_10 (tptp.fn_cell_signaling_with_camp_2 X))) (let ((_let_11 (tptp.fn_cell_signaling_with_camp_1 X))) (let ((_let_12 (tptp.fn_cell_signaling_with_camp_3 X))) (=> (tptp.cell_signaling_with_camp_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-cAMP'|) (tptp.user_description_2 X |tptp.'Gene regulation that promotes transcription in which cAMP (cyclic AMP) is the initiator.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with camp'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-camp'|) (tptp.cell_signaling_1 X) (tptp.time_interval_1 _let_11) (tptp.time_interval_1 _let_10) (tptp.positive_gene_regulation_1 _let_12) (tptp.protein_1 _let_9) (tptp.signal_reception_1 _let_4) (tptp.cellular_response_1 _let_2) (tptp.signal_transduction_1 _let_5) (tptp.transcription_factor_1 _let_7) (tptp.cell_1 _let_6) (tptp.protein_1 _let_8) (tptp.cell_1 _let_3) (tptp.time_before_2 _let_10 _let_11) (tptp.subevent_2 _let_2 _let_12) (tptp.time_during_2 _let_2 _let_11) (tptp.time_during_2 _let_5 _let_10) (tptp.instrument_2 _let_2 _let_9) (tptp.has_part_2 _let_6 _let_9) (tptp.agent_2 X _let_7) (tptp.object_2 _let_4 _let_7) (tptp.first_subevent_2 X _let_4) (tptp.base_2 X _let_6) (tptp.base_2 _let_5 _let_6) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_4) (tptp.next_event_2 _let_4 _let_5) (tptp.next_event_2 _let_5 _let_2) (tptp.base_2 _let_2 _let_6) (tptp.base_2 _let_4 _let_6) (= _let_6 _let_3) (= _let_9 _let_8) (= _let_7 (tptp.fn_cell_signaling_5 X)) (= _let_6 _let_1) (= _let_2 (tptp.fn_cell_signaling_1 X)) (= _let_5 (tptp.fn_cell_signaling_3 X)) (= _let_4 (tptp.fn_cell_signaling_2 X)) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_60 X))) (let ((_let_2 (tptp.fn_cell_30 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_109 X))) (let ((_let_4 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_77 X))) (let ((_let_5 (tptp.fn_membrane_protein_1 _let_4))) (let ((_let_6 (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_62 X))) (let ((_let_7 (tptp.fn_membrane_protein_1 _let_6))) (let ((_let_8 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(tptp.size_value_1 _let_153) (tptp.monomer_1 _let_149) (tptp.cellular_response_1 _let_156) (tptp.signal_reception_1 _let_137) (tptp.detach_1 _let_83) (tptp.g_protein_coupled_receptor_1 _let_148) (tptp.quantity_value_1 _let_133) (tptp.quantity_value_1 _let_131) (tptp.chemical_energy_1 _let_129) (tptp.chemical_entity_1 _let_127) (tptp.amp_1 _let_127) (tptp.tangible_entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.entity_1 _let_56) (tptp.number_5_prime_carbon_1 _let_56) (tptp.atom_1 _let_56) (tptp.carbon_1 _let_56) (tptp.chemical_energy_1 _let_134) (tptp.entity_1 _let_181) (tptp.molecule_1 _let_178) (tptp.chemical_entity_1 _let_178) (tptp.organic_molecule_1 _let_178) (tptp.chemical_entity_1 _let_176) (tptp.electron_shell_1 _let_174) (tptp.electron_shell_1 _let_172) (tptp.phosphorylation_1 _let_171) (tptp.decomposition_reaction_1 _let_169) (tptp.dephosphorylation_1 _let_169) (tptp.catalyst_1 _let_166) (tptp.decrease_1 _let_164) (tptp.protein_1 _let_162) (tptp.protein_1 _let_160) (tptp.decomposition_reaction_1 _let_158) (tptp.dephosphorylation_1 _let_158) (tptp.property_node_1 _let_155) (tptp.property_node_1 _let_154) (tptp.size_value_1 _let_152) (tptp.size_value_1 _let_150) (tptp.property_node_1 _let_136) (tptp.property_node_1 _let_135) (tptp.quantity_value_1 _let_132) (tptp.quantity_value_1 _let_130) (tptp.chemical_energy_1 _let_128) (tptp.chemical_bond_1 _let_125) (tptp.double_bond_1 _let_125) (tptp.covalent_bond_1 _let_125) (tptp.center_1 _let_120) (tptp.single_bond_1 _let_117) (tptp.covalent_bond_1 _let_117) (tptp.property_node_1 _let_116) (tptp.property_node_1 _let_115) (tptp.surface_1 _let_113) (tptp.size_value_1 _let_111) (tptp.volume_value_1 _let_109) (tptp.ribosome_1 _let_107) (tptp.substance_1 _let_105) (tptp.cytosol_1 _let_105) (tptp.mixture_1 _let_103) (tptp.cytoplasm_1 _let_103) (tptp.attach_1 _let_98) (tptp.chemical_entity_1 _let_94) (tptp.chemical_entity_1 _let_93) (tptp.chemical_entity_1 _let_91) (tptp.molecule_1 _let_90) (tptp.entity_1 _let_88) (tptp.spatial_entity_1 _let_86) (tptp.spatial_entity_1 _let_84) (tptp.adenylyl_cyclase_1 _let_82) (tptp.chemical_reaction_1 _let_81) (tptp.synthesis_reaction_1 _let_79) (tptp.monomer_1 _let_78) (tptp.monomer_1 _let_77) (tptp.activate_1 _let_76) (tptp.chemical_energy_1 _let_65) (tptp.chemical_energy_1 _let_64) (tptp.chemical_entity_1 _let_63) (tptp.chemical_entity_1 _let_62) (tptp.amp_1 _let_62) (tptp.share_1 _let_61) (tptp.share_1 _let_60) (tptp.hold_together_1 _let_59) (tptp.hold_1 _let_58) (tptp.hold_together_1 _let_58) (tptp.number_5_prime_region_1 _let_57) (tptp.number_5_prime_region_1 _let_55) (tptp.number_5_prime_region_1 _let_53) (tptp.carbon_skeleton_1 _let_52) (tptp.carbon_skeleton_1 _let_51) (tptp.chemical_entity_1 _let_50) (tptp.carbon_1 _let_49) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.chemical_entity_1 _let_46) (tptp.entity_1 _let_46) (tptp.number_5_prime_carbon_1 _let_46) (tptp.atom_1 _let_46) (tptp.carbon_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.number_5_prime_carbon_1 _let_45) (tptp.atom_1 _let_45) (tptp.carbon_1 _let_45) (tptp.chemical_entity_1 _let_43) (tptp.chemical_entity_1 _let_41) (tptp.organic_molecule_1 _let_39) (tptp.chemical_entity_1 _let_38) (tptp.cyclic_amp_1 _let_37) (tptp.chemical_entity_1 _let_36) (tptp.cyclic_amp_1 _let_36) (tptp.organic_molecule_1 _let_36) (tptp.cell_1 _let_34) (tptp.substance_1 _let_30) (tptp.aqueous_solution_1 _let_30) (tptp.aqueous_solution_1 _let_29) (tptp.surface_1 _let_27) (tptp.cytoplasmic_side_1 _let_27) (tptp.cytoplasmic_side_1 _let_26) (tptp.outside_face_1 _let_25) (tptp.extracellular_side_1 _let_23) (tptp.tangible_entity_1 _let_19) (tptp.membrane_protein_1 _let_19) (tptp.protein_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.protein_1 _let_18) (tptp.spatial_entity_1 _let_18) (tptp.polymer_1 _let_18) (tptp.membrane_protein_1 _let_17) (tptp.membrane_protein_1 _let_16) (tptp.tangible_entity_1 _let_13) (tptp.transmembrane_protein_1 _let_13) (tptp.integral_protein_1 _let_13) (tptp.transport_protein_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.phospholipid_bilayer_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.phospholipid_bilayer_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.biomembrane_1 _let_7) (tptp.biomembrane_1 _let_5) (tptp.plasma_membrane_1 _let_2) (tptp.called_2 _let_54 |tptp.'A2'|) (tptp.result_2 _let_145 _let_170) (not (= _let_145 _let_138)) (tptp.called_2 _let_145 |tptp.'PKA'|) (not (= _let_80 _let_142)) (not (= _let_80 _let_148)) (tptp.shape_2 _let_80 _let_183) (tptp.activation_2 _let_80 _let_193) (tptp.the_categorical_value_2 _let_193 tptp.active_0) (tptp.is_inside_2 _let_192 _let_8) (tptp.is_outside_2 _let_192 _let_101) (not (= _let_138 _let_145)) (not (= _let_138 _let_87)) (tptp.agent_2 _let_138 _let_44) (tptp.called_2 _let_138 |tptp.'GPCR'|) (tptp.the_categorical_value_2 _let_190 tptp.active_0) (tptp.the_categorical_value_2 _let_191 tptp.inactive_0) (tptp.activation_2 _let_161 _let_191) (tptp.has_state_2 _let_161 _let_163) (tptp.activation_2 _let_163 _let_190) (not (= _let_159 _let_92)) (not (= _let_92 _let_159)) (tptp.activation_2 _let_180 _let_188) (tptp.has_state_2 _let_180 _let_179) (tptp.activation_2 _let_179 _let_189) (tptp.the_categorical_value_2 _let_189 tptp.active_0) (tptp.the_categorical_value_2 _let_188 tptp.inactive_0) (tptp.has_state_2 _let_175 _let_177) (not (= _let_146 _let_143)) (not (= _let_146 _let_147)) (not (= _let_146 _let_85)) (tptp.subevent_2 _let_75 _let_89) (tptp.subevent_2 _let_75 _let_35) (tptp.subevent_2 _let_75 _let_33) (tptp.subevent_2 _let_75 _let_159) (tptp.subevent_2 _let_75 _let_92) (not (= _let_1 _let_6)) (tptp.has_state_2 _let_6 _let_80) (not (= _let_6 _let_1)) (not (= _let_6 _let_102)) (not (= _let_6 _let_148)) (not (= _let_6 _let_142)) (tptp.shape_2 _let_6 _let_184) (tptp.activation_2 _let_6 _let_185) (tptp.is_across_2 _let_6 _let_8) (not (= _let_85 _let_146)) (not (= _let_87 _let_138)) (tptp.result_2 _let_87 _let_80) (tptp.called_2 _let_87 |tptp.'Acyclase'|) (tptp.in_event_2 _let_42 X) (tptp.site_2 _let_33 _let_104) (tptp.the_categorical_value_2 _let_186 tptp.inactive_0) (tptp.the_categorical_value_2 _let_187 tptp.active_0) (tptp.activation_2 _let_170 _let_187) (tptp.activation_2 _let_182 _let_186) (tptp.has_state_2 _let_182 _let_170) (not (= _let_147 _let_146)) (not (= _let_143 _let_146)) (not (= _let_142 _let_80)) (not (= _let_142 _let_6)) (not (= _let_102 _let_6)) (tptp.the_categorical_value_2 _let_185 tptp.inactive_0) (tptp.the_scalar_value_2 _let_153 tptp.big_0) (tptp.scalar_unit_class_2 _let_153 tptp.polypeptide_0) (tptp.different_type_2 _let_183 _let_184) (tptp.different_type_2 _let_184 _let_183) (not (= _let_148 _let_80)) (not (= _let_148 _let_6)) (not (= _let_127 _let_56)) (not (= _let_56 _let_127)) (tptp.object_2 _let_145 _let_182) (tptp.object_2 _let_87 _let_6) (tptp.base_2 _let_85 _let_6) (tptp.base_2 _let_83 _let_80) (tptp.result_2 _let_92 _let_180) (tptp.raw_material_2 _let_92 _let_179) (tptp.plays_2 _let_44 _let_42) (tptp.plays_2 _let_44 _let_40) (tptp.in_event_2 _let_167 _let_33) (tptp.enables_2 _let_165 _let_33) (tptp.result_2 _let_89 _let_177) (tptp.raw_material_2 _let_89 _let_175) (tptp.has_part_2 _let_8 _let_6) (tptp.has_region_2 _let_54 _let_173) (tptp.has_region_2 _let_56 _let_173) (tptp.has_state_2 _let_56 _let_127) (tptp.subevent_2 _let_75 _let_145) (tptp.has_function_2 _let_170 _let_89) (tptp.has_function_2 _let_168 _let_92) (tptp.plays_2 _let_80 _let_167) (tptp.has_function_2 _let_80 _let_165) (tptp.base_2 _let_33 _let_1) (tptp.has_function_2 _let_80 _let_33) (tptp.result_2 _let_33 _let_44) (tptp.raw_material_2 _let_159 _let_163) (tptp.has_function_2 _let_157 _let_159) (tptp.result_2 _let_159 _let_161) (tptp.subevent_2 X _let_156) (tptp.base_2 _let_156 _let_1) (tptp.next_event_2 _let_75 _let_156) (tptp.size_2 _let_4 _let_153) (tptp.has_part_2 _let_4 _let_149) (tptp.size_2 _let_149 _let_151) (tptp.greater_than_2 _let_153 _let_151) (tptp.called_2 _let_4 |tptp.'MP2'|) (tptp.base_2 _let_147 _let_148) (tptp.called_2 _let_102 |tptp.'MP1'|) (tptp.next_event_2 _let_147 _let_146) (tptp.is_at_2 _let_140 _let_100) (tptp.subevent_2 _let_75 _let_139) (tptp.is_at_2 _let_144 _let_97) (tptp.first_subevent_2 X _let_137) (tptp.base_2 X _let_1) (tptp.agent_2 _let_75 _let_1) (tptp.subevent_2 _let_75 _let_85) (tptp.has_part_2 _let_8 _let_142) (tptp.is_across_2 _let_142 _let_8) (tptp.has_function_2 _let_142 _let_137) (not (= _let_4 _let_142)) (not (= _let_142 _let_4)) (tptp.object_2 _let_138 _let_142) (tptp.first_subevent_2 _let_75 _let_138) (tptp.subevent_2 _let_75 _let_147) (tptp.next_event_2 _let_143 _let_147) (tptp.base_2 _let_143 _let_140) (tptp.complement_2 _let_144 _let_142) (tptp.agent_2 X _let_144) (tptp.subevent_2 X _let_75) (tptp.subevent_2 _let_75 _let_143) (not (= _let_143 _let_147)) (tptp.complement_2 _let_142 _let_144) (not (= _let_147 _let_143)) (tptp.next_event_2 _let_85 _let_87) (tptp.next_event_2 _let_146 _let_85) (tptp.subevent_2 _let_75 _let_146) (not (= _let_87 _let_145)) (not (= _let_145 _let_87)) (tptp.instrument_2 _let_137 _let_142) (tptp.base_2 _let_137 _let_1) (tptp.base_2 _let_75 _let_1) (tptp.subevent_2 _let_75 _let_87) (tptp.causes_2 _let_87 _let_141) (not (= _let_96 _let_102)) (not (= _let_102 _let_144)) (not (= _let_144 _let_4)) (not (= _let_102 _let_96)) (not (= _let_142 _let_102)) (not (= _let_102 _let_142)) (not (= _let_144 _let_102)) (not (= _let_4 _let_144)) (tptp.object_2 _let_137 _let_144) (not (= _let_144 _let_142)) (not (= _let_142 _let_96)) (not (= _let_96 _let_144)) (not (= _let_144 _let_96)) (not (= _let_142 _let_144)) (not (= _let_96 _let_142)) (tptp.next_event_2 _let_139 _let_143) (not (= _let_85 _let_143)) (not (= _let_139 _let_85)) (not (= _let_85 _let_139)) (not (= _let_143 _let_85)) (tptp.object_2 _let_83 _let_140) (tptp.causes_2 _let_141 _let_83) (tptp.result_2 _let_141 _let_140) (tptp.has_part_2 _let_1 _let_140) (not (= _let_1 _let_142)) (not (= _let_142 _let_1)) (tptp.subevent_2 X _let_137) (tptp.next_event_2 _let_137 _let_75) (tptp.subevent_2 _let_75 _let_138) (tptp.next_event_2 _let_138 _let_139) (tptp.object_2 _let_139 _let_140) (tptp.possesses_2 _let_44 _let_134) (tptp.raw_material_2 _let_35 _let_44) (tptp.object_2 _let_35 _let_44) (tptp.result_2 _let_35 _let_127) (tptp.possesses_2 _let_127 _let_129) (tptp.quantity_2 _let_129 _let_131) (tptp.greater_than_2 _let_133 _let_131) (tptp.quantity_2 _let_134 _let_133) (tptp.possesses_2 _let_44 _let_126) (tptp.result_2 _let_124 _let_126) (tptp.agent_2 _let_124 _let_56) (tptp.has_part_2 _let_44 _let_56) (tptp.has_part_2 _let_44 _let_54) (tptp.object_2 _let_123 _let_54) (tptp.has_region_2 _let_44 _let_119) (tptp.is_inside_2 _let_54 _let_119) (tptp.is_between_2 _let_126 _let_54) (tptp.is_between_2 _let_126 _let_56) (tptp.object_2 _let_123 _let_56) (tptp.is_between_2 _let_118 _let_54) (tptp.has_function_2 _let_118 _let_123) (tptp.agent_2 _let_123 _let_118) (tptp.result_2 _let_124 _let_118) (tptp.agent_2 _let_124 _let_54) (tptp.has_region_2 _let_56 _let_121) (tptp.has_region_2 _let_54 _let_121) (tptp.is_at_2 _let_54 _let_122) (tptp.is_at_2 _let_56 _let_122) (tptp.called_2 _let_56 |tptp.'A2'|) (tptp.possesses_2 _let_44 _let_118) (tptp.is_between_2 _let_118 _let_56) (tptp.is_inside_2 _let_56 _let_119) (not (= _let_54 _let_56)) (not (= _let_56 _let_54)) (tptp.is_oriented_toward_2 _let_100 _let_104) (tptp.is_facing_2 _let_100 _let_104) (tptp.is_inside_2 _let_104 _let_8) (tptp.volume_2 _let_1 _let_110) (tptp.directly_proportional_2 _let_112 _let_110) (tptp.size_2 _let_1 _let_112) (tptp.has_region_2 _let_1 _let_114) (tptp.is_at_2 _let_95 _let_114) (tptp.has_part_2 _let_1 _let_104) (tptp.has_part_2 _let_104 _let_106) (tptp.is_inside_2 _let_108 _let_106) (tptp.has_part_2 _let_1 _let_108) (tptp.has_part_2 _let_1 _let_8) (tptp.has_region_2 _let_8 _let_100) (tptp.is_inside_2 _let_97 _let_101) (tptp.called_2 _let_4 |tptp.'MP1'|) (tptp.is_outside_2 _let_97 _let_8) (tptp.has_region_2 _let_8 _let_97) (tptp.has_part_2 _let_8 _let_102) (tptp.called_2 _let_102 |tptp.'MP2'|) (tptp.is_across_2 _let_96 _let_8) (tptp.is_at_2 _let_96 _let_8) (tptp.has_part_2 _let_8 _let_4) (not (= _let_102 _let_4)) (not (= _let_4 _let_102)) (tptp.object_2 _let_99 _let_4) (tptp.site_2 _let_99 _let_100) (tptp.is_inside_2 _let_101 _let_100) (tptp.is_between_2 _let_8 _let_101) (tptp.has_part_2 _let_8 _let_96) (tptp.has_part_2 _let_8 _let_95) (tptp.is_inside_2 _let_96 _let_95) (tptp.has_region_2 _let_96 _let_97) (not (= _let_4 _let_96)) (not (= _let_96 _let_4)) (= _let_182 _let_181) (= _let_6 _let_88) (= _let_6 _let_86) (= _let_80 _let_84) (= _let_180 _let_94) (= _let_180 _let_93) (= _let_179 _let_178) (= _let_44 _let_43) (= _let_44 _let_41) (= _let_177 _let_176) (= _let_175 _let_91) (= _let_175 _let_90) (= _let_8 _let_7) (= _let_173 _let_174) (= _let_173 _let_172) (= _let_145 _let_76) (= _let_89 _let_171) (= _let_92 _let_169) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_1 _let_34) (= _let_33 _let_81) (= _let_80 _let_82) (= _let_33 _let_79) (= _let_44 _let_39) (= _let_44 _let_37) (= _let_163 _let_162) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_156 (tptp.fn_cell_signaling_1 X)) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_90 X) _let_155) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_89 X) _let_154) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_78) (= _let_149 _let_77) (= _let_148 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_105 X)) (= _let_100 _let_28) (= _let_97 _let_24) (= _let_4 _let_21) (= _let_8 _let_3) (= _let_147 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_61 X)) (= _let_146 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_100 X)) (= _let_145 _let_74) (= _let_87 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_103 X)) (= _let_75 _let_69) (= _let_1 _let_32) (= _let_4 _let_22) (= _let_4 _let_20) (= _let_102 _let_22) (= _let_102 _let_20) (= _let_142 _let_71) (= _let_96 _let_15) (= _let_96 _let_14) (= _let_144 _let_73) (= _let_144 _let_72) (= _let_85 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_101 X)) (= _let_143 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_94 X)) (= _let_142 _let_70) (= _let_1 _let_31) (= _let_141 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_58 X)) (= _let_83 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_32 X)) (= _let_140 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_63 X)) (= _let_139 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_104 X)) (= _let_138 _let_74) (= _let_75 _let_68) (= _let_137 _let_67) (= _let_137 _let_66) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_100 X) _let_136) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_99 X) _let_135) (= _let_134 _let_65) (= _let_44 _let_36) (= _let_134 _let_64) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_129 _let_128) (= _let_127 _let_63) (= _let_127 _let_50) (= _let_127 _let_62) (= _let_44 _let_38) (= _let_56 _let_46) (= _let_124 _let_61) (= _let_123 _let_59) (= _let_126 _let_125) (= _let_119 _let_52) (= _let_54 _let_45) (= _let_124 _let_60) (= _let_123 _let_58) (= _let_122 _let_57) (= _let_122 _let_55) (= _let_122 _let_53) (= _let_121 _let_120) (= _let_119 _let_51) (= _let_56 _let_48) (= _let_54 _let_50) (= _let_56 _let_47) (= _let_54 _let_49) (= _let_54 _let_46) (= _let_56 _let_45) (= _let_118 _let_117) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_36 X) _let_116) (= (tptp.fn_cell_signaling_with_camp_and_g_protein_coupled_receptor_35 X) _let_115) (= _let_100 _let_27) (= _let_95 _let_10) (= _let_114 _let_113) (= _let_112 _let_111) (= _let_110 _let_109) (= _let_8 _let_2) (= _let_108 _let_107) (= _let_106 _let_105) (= _let_104 _let_103) (= _let_97 _let_25) (= _let_102 _let_18) (= _let_4 _let_19) (= _let_96 _let_17) (= _let_96 _let_16) (= _let_101 _let_30) (= _let_101 _let_29) (= _let_100 _let_26) (= _let_99 _let_98) (= _let_97 _let_23) (= _let_4 _let_18) (= _let_96 _let_13) (= _let_95 _let_12) (= _let_8 _let_5) (= _let_95 _let_11) (= _let_95 _let_9) (= _let_94 _let_93) (= _let_93 _let_91) (= _let_91 _let_90) (= _let_90 _let_88) (= _let_88 _let_86) (= _let_86 _let_84) (= _let_84 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_79) (= _let_79 _let_77) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_74) (= _let_74 _let_74) (= _let_74 _let_72) (= _let_72 _let_72) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_66 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_50) (= _let_50 _let_63) (= _let_63 _let_50) (= _let_50 _let_50) (= _let_62 _let_50) (= _let_50 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_53) (= _let_53 _let_55) (= _let_55 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_45 _let_49) (= _let_49 _let_49) (= _let_49 _let_45) (= _let_45 _let_46) (= _let_46 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_20) (= _let_20 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_3) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_5 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_cgmp_2 X))) (let ((_let_3 (tptp.fn_second_messenger_3 _let_2))) (let ((_let_4 (tptp.fn_cell_signaling_with_cgmp_1 X))) (let ((_let_5 (tptp.fn_cell_signaling_with_cgmp_3 X))) (=> (tptp.cell_signaling_with_cgmp_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-cGMP'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which uses cAMP as second messenger during signal transduction.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with cgmp'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-cgmp'|) (tptp.chemical_signaling_1 X) (tptp.cyclic_gmp_1 _let_4) (tptp.second_messenger_1 _let_2) (tptp.signal_reception_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.in_event_2 _let_2 X) (tptp.plays_2 _let_4 _let_2) (tptp.agent_2 X _let_4) (tptp.object_2 _let_5 _let_4) (tptp.subevent_2 X _let_5) (tptp.first_subevent_2 X _let_5) (= _let_4 _let_3) (= _let_5 (tptp.fn_cell_signaling_2 X)) (= _let_4 _let_1) (= _let_3 _let_1) (= _let_1 _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_109 X))) (let ((_let_2 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_4 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_19 X))) (let ((_let_5 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_6 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_7 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_8 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_21 X))) (let ((_let_9 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_67 X))) (let ((_let_10 (tptp.fn_cell_30 _let_9))) (let ((_let_11 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_65 X))) (let ((_let_12 (tptp.fn_cell_surface_receptor_1 _let_11))) (let ((_let_13 (tptp.fn_membrane_protein_1 _let_11))) (let ((_let_14 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_20 X))) (let ((_let_15 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_16 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_17 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_8 X))) (let ((_let_18 (tptp.fn_plasma_membrane_66 _let_1))) (let ((_let_19 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_63 X))) (let ((_let_20 (tptp.fn_g_protein_1 _let_19))) (let ((_let_21 (tptp.fn_cell_27 _let_9))) (let ((_let_22 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_23 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_24 (tptp.fn_plasma_membrane_77 _let_1))) (let ((_let_25 (tptp.fn_plasma_membrane_70 _let_1))) (let ((_let_26 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_35 X))) (let ((_let_27 (tptp.fn_gtpase_8 _let_26))) (let ((_let_28 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_58 X))) (let ((_let_29 (tptp.fn_dephosphorylation_11 _let_28))) (let ((_let_30 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_94 X))) (let ((_let_31 (tptp.fn_replace_2 _let_30))) (let ((_let_32 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_36 X))) (let ((_let_33 (tptp.fn_reactant_3 _let_32))) (let ((_let_34 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_95 X))) (let ((_let_35 (tptp.fn_attach_1 _let_34))) (let ((_let_36 (tptp.fn_gtpase_2 _let_26))) (let ((_let_37 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_97 X))) (let ((_let_38 (tptp.fn_gtp_19 _let_37))) (let ((_let_39 (tptp.fn_gtpase_4 _let_26))) (let ((_let_40 (tptp.fn_gtp_21 _let_37))) (let ((_let_41 (tptp.fn_molecule_11 _let_37))) (let ((_let_42 (tptp.fn_dephosphorylation_5 _let_28))) (let ((_let_43 (tptp.fn_gtpase_3 _let_26))) (let ((_let_44 (tptp.fn_gtp_20 _let_37))) (let ((_let_45 (tptp.fn_dephosphorylation_4 _let_28))) (let ((_let_46 (tptp.fn_gtp_17 _let_37))) (let ((_let_47 (tptp.fn_gtpase_6 _let_26))) (let ((_let_48 (tptp.fn_gtp_18 _let_37))) (let ((_let_49 (tptp.fn_dephosphorylation_12 _let_28))) (let ((_let_50 (tptp.fn_gtpase_9 _let_26))) (let ((_let_51 (tptp.fn_reactant_2 _let_32))) (let ((_let_52 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_101 X))) (let ((_let_53 (tptp.fn_attach_1 _let_52))) (let ((_let_54 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_61 X))) (let ((_let_55 (tptp.fn_detach_1 _let_54))) (let ((_let_56 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_100 X))) (let ((_let_57 (tptp.fn_move_1 _let_56))) (let ((_let_58 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_99 X))) (let ((_let_59 (tptp.fn_g_protein_5 _let_58))) (let ((_let_60 (tptp.fn_polymer_4 _let_58))) (let ((_let_61 (tptp.fn_decomposition_reaction_4 _let_28))) (let ((_let_62 (tptp.fn_decomposition_reaction_2 _let_28))) (let ((_let_63 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_32 X))) (let ((_let_64 (tptp.fn_detach_1 _let_63))) (let ((_let_65 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_104 X))) (let ((_let_66 (tptp.fn_attach_1 _let_65))) (let ((_let_67 (tptp.fn_replace_3 _let_30))) (let ((_let_68 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_96 X))) (let ((_let_69 (tptp.fn_detach_2 _let_68))) (let ((_let_70 (tptp.fn_attach_2 _let_34))) (let ((_let_71 (tptp.fn_g_protein_5 _let_19))) (let ((_let_72 (tptp.fn_polymer_4 _let_19))) (let ((_let_73 (tptp.fn_organic_molecule_1 _let_19))) (let ((_let_74 (tptp.fn_organic_molecule_2 _let_19))) (let ((_let_75 (tptp.fn_gtp_15 _let_37))) (let ((_let_76 (tptp.fn_molecule_10 _let_37))) (let ((_let_77 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_82 X))) (let ((_let_78 (tptp.fn_cytoplasm_7 _let_77))) (let ((_let_79 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_66 X))) (let ((_let_80 (tptp.fn_signal_reception_3 _let_79))) (let ((_let_81 (tptp.fn_cell_signaling_4 X))) (let ((_let_82 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_64 X))) (let ((_let_83 (tptp.fn_cell_signaling_event_1 _let_82))) (let ((_let_84 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_83 X))) (let ((_let_85 (tptp.fn_cytoplasmic_side_1 _let_84))) (let ((_let_86 (tptp.fn_cell_28 _let_9))) (let ((_let_87 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_88 (tptp.fn_chemical_signaling_7 X))) (let ((_let_89 (tptp.fn_cell_signaling_2 X))) (let ((_let_90 (tptp.fn_signal_reception_5 _let_79))) (let ((_let_91 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 X))) (let ((_let_92 (tptp.fn_cell_signaling_5 X))) (let ((_let_93 (tptp.fn_signal_reception_7 _let_79))) (let ((_let_94 (tptp.fn_signal_reception_8 _let_79))) (let ((_let_95 (tptp.fn_chemical_signaling_8 X))) (let ((_let_96 (tptp.fn_cell_signaling_3 X))) (let ((_let_97 (tptp.fn_signal_transduction_3 _let_82))) (let ((_let_98 (tptp.fn_attach_2 _let_65))) (let ((_let_99 (tptp.fn_signal_reception_4 _let_79))) (let ((_let_100 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_59 X))) (let ((_let_101 (tptp.fn_make_accessible_1 _let_100))) (let ((_let_102 (tptp.fn_replace_1 _let_30))) (let ((_let_103 (tptp.fn_detach_1 _let_68))) (let ((_let_104 (tptp.fn_attach_2 _let_52))) (let ((_let_105 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_103 X))) (let ((_let_106 (tptp.fn_make_accessible_1 _let_105))) (let ((_let_107 (tptp.fn_plasma_membrane_62 _let_1))) (let ((_let_108 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_74 X))) (let ((_let_109 (tptp.fn_plasma_membrane_67 _let_1))) (let ((_let_110 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_28 X))) (let ((_let_111 (tptp.fn_plasma_membrane_63 _let_1))) (let ((_let_112 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_75 X))) (let 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_let_186) (= _let_185 _let_184) (= _let_183 _let_182) (= _let_181 _let_180) (= _let_179 _let_178) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_33 X) _let_177) (= _let_176 _let_175) (= _let_174 _let_173) (= _let_172 _let_171) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_34 X) _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_163 _let_162) (= _let_161 _let_160) (= _let_159 _let_158) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_111 X) _let_157) (= _let_156 _let_155) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_110 X) _let_154) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_72) (= _let_149 _let_71) (= _let_148 _let_147) (= _let_26 _let_146) (= _let_145 _let_144) (= _let_143 _let_60) (= _let_143 _let_59) (= _let_142 _let_141) (= _let_140 _let_49) (= _let_37 _let_29) (= _let_28 _let_50) (= _let_140 _let_48) (= _let_140 _let_47) (= _let_139 _let_44) (= _let_139 _let_46) (= _let_138 _let_42) (= _let_139 _let_45) (= _let_139 _let_43) (= _let_137 _let_38) (= _let_138 _let_40) (= _let_138 _let_39) (= _let_37 _let_27) (= _let_137 _let_36) (= _let_136 _let_135) (= _let_134 _let_25) (= _let_134 _let_24) (= _let_116 _let_16) (= _let_133 _let_23) (= _let_133 _let_22) (= _let_110 _let_3) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_115 X) _let_126) (= _let_125 _let_124) (= _let_123 _let_122) (= _let_84 _let_18) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_114 X) _let_121) (= _let_120 _let_119) (= _let_118 _let_117) (= _let_116 _let_15) (= _let_115 _let_3) (= _let_114 _let_7) (= _let_114 _let_6) (= _let_114 _let_5) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_113 X) _let_113) (= _let_112 _let_111) (= _let_110 _let_2) (= (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_112 X) _let_109) (= _let_108 _let_107) (= _let_106 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_91) (= _let_91 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_88) (= _let_88 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_83) (= _let_83 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_78) (= _let_78 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_3) (= _let_3 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_intracellular_receptor_13 X))) (let ((_let_2 (tptp.fn_signal_reception_5 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_5 X))) (let ((_let_4 (tptp.fn_signal_reception_3 _let_1))) (let ((_let_5 (tptp.fn_cell_signaling_4 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_intracellular_receptor_10 X))) (let ((_let_7 (tptp.fn_move_into_1 _let_6))) (let ((_let_8 (tptp.fn_chemical_signaling_8 X))) (let ((_let_9 (tptp.fn_cell_signaling_3 X))) (let ((_let_10 (tptp.fn_chemical_signaling_6 X))) (let ((_let_11 (tptp.fn_cell_signaling_1 X))) (let ((_let_12 (tptp.fn_signal_reception_4 _let_1))) (let ((_let_13 (tptp.fn_cell_signaling_with_intracellular_receptor_14 X))) (let ((_let_14 (tptp.fn_signal_reception_6 _let_1))) (let ((_let_15 (tptp.fn_cell_signaling_with_intracellular_receptor_9 X))) (let ((_let_16 (tptp.fn_cell_signaling_with_intracellular_receptor_7 X))) (let ((_let_17 (tptp.fn_cell_signaling_with_intracellular_receptor_15 X))) (let ((_let_18 (tptp.fn_cell_signaling_with_intracellular_receptor_6 X))) (let ((_let_19 (tptp.fn_cell_signaling_with_intracellular_receptor_5 X))) (let ((_let_20 (tptp.fn_cell_30 _let_17))) (let ((_let_21 (tptp.fn_cell_signaling_with_intracellular_receptor_12 X))) (let ((_let_22 (tptp.fn_cell_28 _let_17))) (let ((_let_23 (tptp.fn_cell_signaling_with_intracellular_receptor_8 X))) (let ((_let_24 (tptp.fn_plasma_membrane_6 _let_21))) (let ((_let_25 (tptp.fn_cell_signaling_with_intracellular_receptor_11 X))) (let ((_let_26 (tptp.fn_cell_signaling_with_intracellular_receptor_1 X))) (let ((_let_27 (tptp.fn_cell_signaling_with_intracellular_receptor_2 X))) (=> (tptp.cell_signaling_with_intracellular_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Intracellular-Receptor'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which the receptor is located inside the cell.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with intracellular receptor'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-intracellular-receptor'|) (tptp.chemical_signaling_1 X) (tptp.concentration_value_1 _let_26) (tptp.rate_value_1 _let_27) (tptp.cellular_response_1 _let_19) (tptp.signal_transduction_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.mixture_1 _let_23) (tptp.cytoplasm_1 _let_23) (tptp.ligand_binding_1 _let_15) (tptp.move_into_1 _let_6) (tptp.hydrophobic_core_1 _let_25) (tptp.plasma_membrane_1 _let_21) (tptp.signal_reception_1 _let_1) (tptp.intracellular_receptor_1 _let_13) (tptp.tangible_entity_1 _let_17) (tptp.cell_1 _let_17) (tptp.hydrophobic_core_1 _let_24) (tptp.mixture_1 _let_22) (tptp.cytoplasm_1 _let_22) (tptp.plasma_membrane_1 _let_20) (tptp.ligand_binding_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.polymer_1 _let_12) (tptp.receptor_protein_1 _let_12) (tptp.tangible_entity_1 _let_7) (tptp.cell_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.directly_proportional_2 _let_27 _let_26) (tptp.has_part_2 _let_17 _let_13) (tptp.rate_2 _let_1 _let_27) (tptp.first_subevent_2 _let_1 _let_6) (tptp.subevent_2 _let_1 _let_6) (tptp.path_2 _let_6 _let_25) (tptp.next_event_2 _let_6 _let_15) (tptp.destination_2 _let_6 _let_23) (tptp.concentration_2 _let_16 _let_26) (tptp.base_2 _let_6 _let_17) (tptp.has_region_2 _let_21 _let_25) (tptp.agent_2 X _let_16) (tptp.base_2 _let_18 _let_17) (tptp.base_2 X _let_17) (tptp.base_2 _let_19 _let_17) (tptp.has_part_2 _let_17 _let_21) (tptp.is_inside_2 _let_23 _let_21) (tptp.has_part_2 _let_17 _let_23) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_18) (tptp.next_event_2 _let_18 _let_19) (tptp.subevent_2 X _let_19) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_18) (tptp.base_2 _let_15 _let_13) (tptp.complement_2 _let_16 _let_13) (tptp.complement_2 _let_13 _let_16) (tptp.has_function_2 _let_13 _let_1) (tptp.subevent_2 _let_1 _let_15) (tptp.object_2 _let_15 _let_16) (tptp.object_2 _let_1 _let_16) (tptp.base_2 _let_1 _let_17) (tptp.instrument_2 _let_1 _let_13) (= _let_17 _let_7) (= _let_25 _let_24) (= _let_16 _let_3) (= _let_18 _let_9) (= _let_19 _let_11) (= _let_17 _let_5) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_1 (tptp.fn_chemical_signaling_7 X)) (= _let_19 _let_10) (= _let_18 _let_8) (= _let_17 _let_4) (= _let_16 _let_2) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_intracellular_receptor_and_hydrophobic_signal_3 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_intracellular_receptor_and_hydrophobic_signal_2 X))) (=> (tptp.cell_signaling_with_intracellular_receptor_and_hydrophobic_signal_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Intracellular-Receptor-And-Hydrophobic-Signal'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which the receptor is located inside the cell and the signaling molecule is hydrophobic.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with intracellular receptor and hydrophobic signal'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-intracellular-receptor-and-hydrophobic-signal'|) (tptp.cell_signaling_with_intracellular_receptor_1 X) (tptp.chemical_entity_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.insoluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.physical_object_0) (tptp.solubility_in_water_2 _let_3 _let_1) (tptp.agent_2 X _let_3) (= _let_3 (tptp.fn_cell_signaling_with_intracellular_receptor_7 X)) (= (tptp.fn_cell_signaling_with_intracellular_receptor_and_hydrophobic_signal_1 X) _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.cell_signaling_with_intracellular_receptor_and_small_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Intracellular-Receptor-And-Small-Molecule'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which the receptor is located inside the cell and the signaling molecule is small in size.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with intracellular receptor and small molecule'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-intracellular-receptor-and-small-molecule'|) (tptp.cell_signaling_with_intracellular_receptor_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_ion_channel_receptor_20 X))) (let ((_let_2 (tptp.fn_gated_channel_16 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_23 X))) (let ((_let_4 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_5 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_6 (tptp.fn_cell_surface_receptor_1 _let_1))) (let ((_let_7 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_8 (tptp.fn_cell_signaling_with_ion_channel_receptor_29 X))) (let ((_let_9 (tptp.fn_plasma_membrane_68 _let_8))) (let ((_let_10 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_20 X))) (let ((_let_11 (tptp.fn_plasma_membrane_54 _let_8))) (let ((_let_12 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_19 X))) (let ((_let_13 (tptp.fn_plasma_membrane_70 _let_8))) (let ((_let_14 (tptp.fn_plasma_membrane_77 _let_8))) (let ((_let_15 (tptp.fn_plasma_membrane_65 _let_8))) (let ((_let_16 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_8 X))) (let ((_let_17 (tptp.fn_biomembrane_41 _let_8))) (let ((_let_18 (tptp.fn_integral_protein_29 _let_1))) (let ((_let_19 (tptp.fn_plasma_membrane_66 _let_8))) (let ((_let_20 (tptp.fn_transmembrane_protein_6 _let_1))) (let ((_let_21 (tptp.fn_plasma_membrane_71 _let_8))) (let ((_let_22 (tptp.fn_gated_channel_13 _let_1))) (let ((_let_23 (tptp.fn_transport_protein_12 _let_1))) (let ((_let_24 (tptp.fn_biomembrane_63 _let_8))) (let ((_let_25 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_26 (tptp.fn_chemical_signaling_7 X))) (let ((_let_27 (tptp.fn_cell_signaling_with_ion_channel_receptor_16 X))) (let ((_let_28 (tptp.fn_signal_reception_5 _let_27))) (let ((_let_29 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 X))) (let ((_let_30 (tptp.fn_signal_reception_8 _let_27))) (let ((_let_31 (tptp.fn_gated_channel_20 _let_1))) (let ((_let_32 (tptp.fn_signal_reception_7 _let_27))) (let ((_let_33 (tptp.fn_ligand_gated_ion_channel_9 _let_1))) (let ((_let_34 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_35 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 X))) (let ((_let_36 (tptp.fn_signal_reception_4 _let_27))) (let ((_let_37 (tptp.fn_plasma_membrane_55 _let_8))) (let ((_let_38 (tptp.fn_plasma_membrane_3 _let_8))) (let ((_let_39 (tptp.fn_plasma_membrane_4 _let_8))) (let ((_let_40 (tptp.fn_cell_signaling_with_ion_channel_receptor_17 X))) (let ((_let_41 (tptp.fn_attach_2 _let_40))) (let ((_let_42 (tptp.fn_cell_signaling_with_ion_channel_receptor_8 X))) (let ((_let_43 (tptp.fn_cell_signaling_with_ion_channel_receptor_9 X))) (let ((_let_44 (tptp.fn_cell_signaling_with_ion_channel_receptor_11 X))) (let ((_let_45 (tptp.fn_cell_signaling_with_ion_channel_receptor_28 X))) (let ((_let_46 (tptp.fn_cell_signaling_with_ion_channel_receptor_27 X))) (let ((_let_47 (tptp.fn_plasma_membrane_61 _let_8))) (let ((_let_48 (tptp.fn_cell_signaling_with_ion_channel_receptor_14 X))) (let ((_let_49 (tptp.fn_plasma_membrane_62 _let_8))) (let ((_let_50 (tptp.fn_cell_signaling_with_ion_channel_receptor_13 X))) (let ((_let_51 (tptp.fn_plasma_membrane_63 _let_8))) (let ((_let_52 (tptp.fn_cell_signaling_with_ion_channel_receptor_12 X))) (let ((_let_53 (tptp.fn_plasma_membrane_64 _let_8))) (let ((_let_54 (tptp.fn_cell_signaling_with_ion_channel_receptor_23 X))) (let ((_let_55 (tptp.fn_plasma_membrane_16 _let_8))) (let ((_let_56 (tptp.fn_cell_signaling_with_ion_channel_receptor_22 X))) (let ((_let_57 (tptp.fn_plasma_membrane_17 _let_8))) (let ((_let_58 (tptp.fn_cell_signaling_with_ion_channel_receptor_24 X))) (let ((_let_59 (tptp.fn_plasma_membrane_14 _let_8))) (let ((_let_60 (tptp.fn_cell_signaling_with_ion_channel_receptor_26 X))) (let ((_let_61 (tptp.fn_plasma_membrane_18 _let_8))) (let ((_let_62 (tptp.fn_cell_signaling_with_ion_channel_receptor_18 X))) (let ((_let_63 (tptp.fn_plasma_membrane_19 _let_8))) (let ((_let_64 (tptp.fn_cell_signaling_with_ion_channel_receptor_19 X))) (let ((_let_65 (tptp.fn_cell_signaling_with_ion_channel_receptor_15 X))) (let ((_let_66 (tptp.fn_plasma_membrane_29 _let_8))) (let ((_let_67 (tptp.fn_plasma_membrane_15 _let_8))) (let ((_let_68 (tptp.fn_cell_signaling_with_ion_channel_receptor_21 X))) (let ((_let_69 (tptp.fn_plasma_membrane_28 _let_8))) (let ((_let_70 (tptp.fn_plasma_membrane_20 _let_8))) (let ((_let_71 (tptp.fn_plasma_membrane_67 _let_8))) (let ((_let_72 (tptp.fn_plasma_membrane_27 _let_8))) (let ((_let_73 (tptp.fn_plasma_membrane_92 _let_8))) (let ((_let_74 (tptp.fn_cell_signaling_with_ion_channel_receptor_10 X))) (let ((_let_75 (tptp.fn_cell_signaling_with_ion_channel_receptor_25 X))) (let ((_let_76 (tptp.fn_cell_signaling_with_ion_channel_receptor_32 X))) (let ((_let_77 (tptp.fn_cell_signaling_with_ion_channel_receptor_30 X))) (let ((_let_78 (tptp.fn_cell_signaling_with_ion_channel_receptor_31 X))) (let ((_let_79 (tptp.fn_signal_reception_6 _let_27))) (let ((_let_80 (tptp.fn_cell_signaling_with_ion_channel_receptor_7 X))) (let ((_let_81 (tptp.fn_cytoplasmic_side_1 _let_46))) (let ((_let_82 (tptp.fn_cell_signaling_with_ion_channel_receptor_6 X))) (let ((_let_83 (tptp.fn_cell_signaling_with_ion_channel_receptor_2 X))) (=> (tptp.cell_signaling_with_ion_channel_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Ion-Channel-Receptor'|) (tptp.user_description_2 X |tptp.'A process of signaling within a cell which uses ligand gated ion channels as mediators of various steps in the pathway.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with ion channel receptor'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-ion-channel-receptor'|) (tptp.cell_signaling_with_plasma_membrane_receptor_1 X) (tptp.anion_1 _let_83) (tptp.cytoplasm_1 _let_82) (tptp.cell_surface_receptor_1 _let_80) (tptp.spatial_entity_1 _let_80) (tptp.polymer_1 _let_80) (tptp.receptor_protein_1 _let_80) (tptp.spatial_entity_1 _let_42) (tptp.polymer_1 _let_42) (tptp.tangible_entity_1 _let_42) (tptp.membrane_protein_1 _let_42) (tptp.protein_1 _let_42) (tptp.tangible_entity_1 _let_43) (tptp.membrane_protein_1 _let_43) (tptp.protein_1 _let_43) (tptp.spatial_entity_1 _let_43) (tptp.polymer_1 _let_43) (tptp.tangible_entity_1 _let_74) (tptp.phospholipid_bilayer_1 _let_74) (tptp.substance_1 _let_44) (tptp.aqueous_solution_1 _let_44) (tptp.charge_value_1 _let_52) (tptp.charge_value_1 _let_50) (tptp.cation_1 _let_48) (tptp.quantity_value_1 _let_65) (tptp.signal_reception_1 _let_27) (tptp.attach_1 _let_40) (tptp.ligand_binding_1 _let_40) (tptp.quantity_value_1 _let_62) (tptp.quantity_value_1 _let_64) (tptp.spatial_entity_1 _let_1) (tptp.membrane_protein_1 _let_1) (tptp.cell_surface_receptor_1 _let_1) (tptp.gated_channel_1 _let_1) (tptp.ligand_gated_ion_channel_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.transmembrane_protein_1 _let_1) (tptp.integral_protein_1 _let_1) (tptp.transport_protein_1 _let_1) (tptp.anion_1 _let_68) (tptp.quantity_value_1 _let_56) (tptp.cation_1 _let_54) (tptp.quantity_value_1 _let_58) (tptp.cation_1 _let_75) (tptp.anion_1 _let_60) (tptp.inside_face_1 _let_46) (tptp.cytoplasmic_side_1 _let_46) (tptp.surface_1 _let_45) (tptp.outside_face_1 _let_45) (tptp.extracellular_side_1 _let_45) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.monomer_1 _let_77) (tptp.monomer_1 _let_78) (tptp.chemical_entity_1 _let_76) (tptp.cytoplasm_1 _let_81) (tptp.ligand_binding_1 _let_79) (tptp.property_node_1 _let_73) (tptp.property_node_1 _let_72) (tptp.property_node_1 _let_71) (tptp.property_node_1 _let_70) (tptp.property_node_1 _let_69) (tptp.anion_1 _let_67) (tptp.property_node_1 _let_66) (tptp.quantity_value_1 _let_63) (tptp.quantity_value_1 _let_61) (tptp.anion_1 _let_59) (tptp.quantity_value_1 _let_57) (tptp.quantity_value_1 _let_55) (tptp.cation_1 _let_53) (tptp.charge_value_1 _let_51) (tptp.charge_value_1 _let_49) (tptp.cation_1 _let_47) (tptp.spatial_entity_1 _let_41) (tptp.membrane_protein_1 _let_39) (tptp.membrane_protein_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.transmembrane_protein_1 _let_37) (tptp.integral_protein_1 _let_37) (tptp.transport_protein_1 _let_37) (tptp.spatial_entity_1 _let_36) (tptp.polymer_1 _let_36) (tptp.receptor_protein_1 _let_36) (tptp.monomer_1 _let_34) (tptp.monomer_1 _let_33) (tptp.monomer_1 _let_32) (tptp.monomer_1 _let_31) (tptp.monomer_1 _let_30) (tptp.chemical_entity_1 _let_28) (tptp.tangible_entity_1 _let_24) (tptp.phospholipid_bilayer_1 _let_24) (tptp.tangible_entity_1 _let_23) (tptp.phospholipid_bilayer_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.phospholipid_bilayer_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.inside_face_1 _let_20) (tptp.cytoplasmic_side_1 _let_19) (tptp.surface_1 _let_18) (tptp.outside_face_1 _let_17) (tptp.extracellular_side_1 _let_15) (tptp.aqueous_solution_1 _let_14) (tptp.substance_1 _let_13) (tptp.aqueous_solution_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.protein_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.membrane_protein_1 _let_9) (tptp.protein_1 _let_9) (tptp.biomembrane_1 _let_7) (tptp.plasma_membrane_1 _let_6) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (tptp.is_inside_2 _let_82 _let_8) (not (= _let_80 _let_1)) (tptp.is_at_2 _let_83 _let_46) (tptp.quantity_2 _let_83 _let_65) (tptp.instrument_2 _let_27 _let_1) (not (= _let_1 _let_80)) (not (= _let_1 _let_76)) (tptp.has_function_2 _let_1 _let_27) (tptp.complement_2 _let_1 _let_76) (tptp.is_at_2 _let_75 _let_46) (tptp.is_oriented_toward_2 _let_46 _let_82) (not (= _let_76 _let_1)) (tptp.complement_2 _let_76 _let_1) (tptp.base_2 _let_40 _let_1) (tptp.is_facing_2 _let_46 _let_82) (tptp.has_part_2 _let_1 _let_77) (tptp.has_part_2 _let_1 _let_78) (tptp.is_across_2 _let_1 _let_8) (tptp.is_inside_2 _let_1 _let_74) (tptp.has_region_2 _let_1 _let_45) (not (= _let_43 _let_1)) (not (= _let_1 _let_43)) (tptp.is_at_2 _let_1 _let_8) (tptp.has_part_2 _let_8 _let_1) (not (= _let_1 _let_42)) (not (= _let_42 _let_1)) (tptp.called_2 _let_42 |tptp.'MP2'|) (tptp.called_2 _let_43 |tptp.'MP1'|) (tptp.first_subevent_2 X _let_27) (tptp.agent_2 X _let_76) (tptp.is_at_2 _let_76 _let_45) (tptp.complement_2 _let_76 _let_80) (tptp.complement_2 _let_80 _let_76) (not (= _let_42 _let_76)) (not (= _let_76 _let_42)) (not (= _let_43 _let_76)) (not (= _let_76 _let_43)) (tptp.has_function_2 _let_80 _let_27) (not (= _let_43 _let_80)) (not (= _let_80 _let_43)) (not (= _let_76 _let_80)) (not (= _let_80 _let_76)) (tptp.subevent_2 X _let_27) (tptp.instrument_2 _let_27 _let_80) (tptp.is_across_2 _let_80 _let_8) (tptp.has_part_2 _let_8 _let_80) (not (= _let_80 _let_42)) (not (= _let_42 _let_80)) (tptp.subevent_2 _let_27 _let_40) (tptp.object_2 _let_27 _let_76) (not (= _let_77 _let_76)) (not (= _let_76 _let_77)) (not (= _let_78 _let_76)) (not (= _let_76 _let_78)) (tptp.quantity_2 _let_75 _let_58) (tptp.has_part_2 _let_8 _let_74) (tptp.is_at_2 _let_54 _let_45) (tptp.is_at_2 _let_68 _let_45) (tptp.quantity_2 _let_68 _let_64) (tptp.is_at_2 _let_60 _let_46) (tptp.quantity_2 _let_60 _let_62) (not (= _let_62 _let_64)) (not (= _let_64 _let_65)) (not (= _let_64 _let_62)) (not (= _let_65 _let_64)) (tptp.greater_than_2 _let_52 _let_50) (tptp.charge_2 _let_54 _let_52) (tptp.quantity_2 _let_54 _let_56) (not (= _let_58 _let_56)) (not (= _let_56 _let_58)) (tptp.has_region_2 _let_8 _let_45) (tptp.is_outside_2 _let_45 _let_8) (tptp.has_region_2 _let_8 _let_46) (tptp.is_at_2 _let_48 _let_46) (tptp.charge_2 _let_48 _let_50) (tptp.has_part_2 _let_8 _let_42) (not (= _let_42 _let_43)) (tptp.has_part_2 _let_8 _let_43) (tptp.is_between_2 _let_8 _let_44) (tptp.is_inside_2 _let_45 _let_44) (not (= _let_43 _let_42)) (= _let_1 _let_41) (= _let_82 _let_81) (= _let_77 _let_31) (= _let_78 _let_34) (= _let_78 _let_33) (= _let_45 _let_18) (= _let_1 _let_39) (= _let_1 _let_38) (= _let_8 _let_7) (= _let_8 _let_6) (= _let_1 _let_37) (= _let_45 _let_16) (= _let_76 _let_29) (= _let_43 _let_12) (= _let_42 _let_10) (= _let_8 _let_3) (= _let_80 _let_36) (= _let_80 _let_35) (= _let_27 _let_26) (= _let_27 _let_25) (= _let_40 _let_79) (= _let_78 _let_32) (= _let_77 _let_30) (= _let_76 _let_28) (= _let_75 _let_47) (= _let_74 _let_24) (= _let_8 _let_4) (= _let_74 _let_23) (= _let_8 _let_2) (= _let_74 _let_22) (= _let_74 _let_21) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_5 X) _let_73) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_33 X) _let_72) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_4 X) _let_71) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_34 X) _let_70) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_35 X) _let_69) (= _let_68 _let_67) (= (tptp.fn_cell_signaling_with_ion_channel_receptor_3 X) _let_66) (= _let_65 _let_61) (= _let_64 _let_63) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_47) (= _let_8 _let_5) (= _let_46 _let_20) (= _let_46 _let_19) (= _let_45 _let_17) (= _let_45 _let_15) (= _let_44 _let_14) (= _let_44 _let_13) (= _let_42 _let_11) (= _let_43 _let_9) (= _let_43 _let_11) (= _let_42 _let_9) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_9) (= _let_9 _let_12) (= _let_12 _let_9) (= _let_9 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_mating_factor_103 X))) (let ((_let_2 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_mating_factor_80 X))) (let ((_let_4 (tptp.fn_kinase_8 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_6 (tptp.fn_cell_signaling_with_mating_factor_89 X))) (let ((_let_7 (tptp.fn_dephosphorylation_5 _let_6))) (let ((_let_8 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_9 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_10 (tptp.fn_dephosphorylation_6 _let_6))) (let ((_let_11 (tptp.fn_protein_enzyme_8 _let_3))) (let ((_let_12 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_13 (tptp.fn_polymer_1 _let_3))) (let ((_let_14 (tptp.fn_dephosphorylation_4 _let_6))) (let ((_let_15 (tptp.fn_cell_signaling_with_mating_factor_86 X))) (let ((_let_16 (tptp.fn_signal_transduction_with_phosphorylation_cascade_55 _let_15))) (let ((_let_17 (tptp.fn_dephosphorylation_12 _let_6))) (let ((_let_18 (tptp.fn_cell_signaling_with_mating_factor_65 X))) (let ((_let_19 (tptp.fn_phosphorylation_3 _let_18))) (let ((_let_20 (tptp.fn_cell_signaling_with_mating_factor_106 X))) (let ((_let_21 (tptp.fn_phosphate_group_6 _let_20))) (let ((_let_22 (tptp.fn_cell_signaling_with_mating_factor_66 X))) (let ((_let_23 (tptp.fn_organic_molecule_2 _let_22))) (let ((_let_24 (tptp.fn_phosphate_group_22 _let_20))) (let ((_let_25 (tptp.fn_phosphate_group_5 _let_20))) (let ((_let_26 (tptp.fn_signal_transduction_with_phosphorylation_cascade_62 _let_15))) (let ((_let_27 (tptp.fn_cell_signaling_with_mating_factor_64 X))) (let ((_let_28 (tptp.fn_phosphorylation_3 _let_27))) (let ((_let_29 (tptp.fn_cell_signaling_with_mating_factor_79 X))) (let ((_let_30 (tptp.fn_phosphorylation_cascade_3 _let_29))) (let ((_let_31 (tptp.fn_phosphorylation_cascade_2 _let_29))) (let ((_let_32 (tptp.fn_signal_transduction_with_phosphorylation_cascade_97 _let_15))) (let ((_let_33 (tptp.fn_signal_transduction_with_phosphorylation_cascade_98 _let_15))) (let ((_let_34 (tptp.fn_cell_signaling_with_mating_factor_34 X))) (let ((_let_35 (tptp.fn_block_1 _let_34))) (let ((_let_36 (tptp.fn_cell_signaling_with_mating_factor_53 X))) (let ((_let_37 (tptp.fn_plasma_membrane_98 _let_36))) (let ((_let_38 (tptp.fn_biomembrane_99 _let_36))) (let ((_let_39 (tptp.fn_phosphorylation_1 _let_18))) (let ((_let_40 (tptp.fn_phosphorylation_5 _let_18))) (let ((_let_41 (tptp.fn_cell_signaling_with_mating_factor_92 X))) (let ((_let_42 (tptp.fn_attach_2 _let_41))) (let ((_let_43 (tptp.fn_signal_transduction_with_phosphorylation_cascade_67 _let_15))) (let ((_let_44 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_62 X))) (let ((_let_45 (tptp.fn_cell_signaling_with_mating_factor_73 X))) (let ((_let_46 (tptp.fn_attach_1 _let_45))) (let ((_let_47 (tptp.fn_cell_signaling_with_mating_factor_87 X))) (let ((_let_48 (tptp.fn_fungal_cell_16 _let_47))) (let ((_let_49 (tptp.fn_plasma_membrane_55 _let_36))) (let ((_let_50 (tptp.fn_plasma_membrane_3 _let_36))) (let ((_let_51 (tptp.fn_plasma_membrane_4 _let_36))) (let ((_let_52 (tptp.fn_signal_transduction_with_phosphorylation_cascade_96 _let_15))) (let ((_let_53 (tptp.fn_cell_signaling_with_mating_factor_111 X))) (let ((_let_54 (tptp.fn_kinase_1 _let_53))) (let ((_let_55 (tptp.fn_fungal_cell_17 _let_47))) (let ((_let_56 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_109 X))) (let ((_let_57 (tptp.fn_cell_signaling_with_mating_factor_59 X))) (let ((_let_58 (tptp.fn_membrane_protein_1 _let_57))) (let ((_let_59 (tptp.fn_attach_2 _let_45))) (let ((_let_60 (tptp.fn_plasma_membrane_71 _let_36))) (let ((_let_61 (tptp.fn_fungal_cell_24 _let_47))) (let ((_let_62 (tptp.fn_biomembrane_63 _let_36))) (let ((_let_63 (tptp.fn_plasma_membrane_54 _let_36))) (let ((_let_64 (tptp.fn_fungal_cell_21 _let_47))) (let ((_let_65 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_28 X))) (let ((_let_66 (tptp.fn_plasma_membrane_68 _let_36))) (let ((_let_67 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_78 X))) (let ((_let_68 (tptp.fn_plasma_membrane_65 _let_36))) (let ((_let_69 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_106 X))) (let ((_let_70 (tptp.fn_biomembrane_41 _let_36))) (let ((_let_71 (tptp.fn_plasma_membrane_66 _let_36))) (let ((_let_72 (tptp.fn_fungal_cell_3 _let_47))) (let ((_let_73 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_83 X))) (let ((_let_74 (tptp.fn_plasma_membrane_33 _let_36))) (let ((_let_75 (tptp.fn_biomembrane_101 _let_36))) (let ((_let_76 (tptp.fn_biomembrane_102 _let_36))) (let ((_let_77 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_67 X))) (let ((_let_78 (tptp.fn_cell_signaling_with_mating_factor_85 X))) (let ((_let_79 (tptp.fn_cellular_response_3 _let_78))) (let ((_let_80 (tptp.fn_cell_signaling_event_1 _let_15))) (let ((_let_81 (tptp.fn_intracellular_process_1 _let_78))) (let ((_let_82 (tptp.fn_fungal_cell_19 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_let_194) (not (= _let_147 _let_142)) (tptp.called_2 _let_147 |tptp.'MP1'|) (not (= _let_142 _let_147)) (tptp.size_2 _let_47 _let_189) (tptp.directly_proportional_2 _let_189 _let_191) (tptp.is_facing_2 _let_156 _let_187) (tptp.is_oriented_toward_2 _let_156 _let_187) (tptp.is_between_2 _let_187 _let_36) (tptp.is_at_2 _let_142 _let_36) (tptp.called_2 _let_142 |tptp.'MP1'|) (tptp.has_part_2 _let_47 _let_186) (tptp.is_between_2 _let_187 _let_186) (tptp.is_inside_2 _let_187 _let_36) (tptp.has_part_2 _let_36 _let_142) (not (= _let_142 _let_148)) (not (= _let_148 _let_142)) (tptp.called_2 _let_148 |tptp.'MP1'|) (tptp.called_2 _let_147 |tptp.'MP2'|) (tptp.is_outside_2 _let_149 _let_36) (tptp.quantity_2 _let_172 _let_180) (tptp.directly_proportional_2 _let_180 _let_168) (tptp.is_permeable_to_2 _let_36 _let_163) (not (= _let_163 _let_139)) (tptp.is_impermeable_to_2 _let_36 _let_139) (tptp.has_region_2 _let_36 _let_156) (not (= _let_139 _let_163)) (tptp.is_outside_2 _let_174 _let_36) (tptp.object_2 _let_176 _let_174) (tptp.base_2 _let_176 _let_178) (tptp.is_inside_2 _let_178 _let_36) (tptp.fluidity_2 _let_36 _let_168) (tptp.temperature_2 _let_36 _let_166) (tptp.directly_proportional_2 _let_166 _let_168) (tptp.inversely_proportional_2 _let_170 _let_168) (tptp.density_2 _let_36 _let_170) (tptp.has_part_2 _let_36 _let_172) (tptp.object_2 _let_155 _let_163) (tptp.has_function_2 _let_36 _let_155) (tptp.has_function_2 _let_36 _let_164) (tptp.object_2 _let_164 _let_161) (tptp.is_impermeable_to_2 _let_36 _let_161) (tptp.plays_2 _let_36 _let_158) (tptp.in_event_2 _let_158 _let_34) (tptp.object_2 _let_34 _let_161) (not (= _let_163 _let_161)) (not (= _let_161 _let_163)) (tptp.base_2 _let_155 _let_36) (tptp.path_2 _let_155 _let_156) (tptp.is_inside_2 _let_153 _let_156) (tptp.is_between_2 _let_36 _let_153) (tptp.has_part_2 _let_36 _let_148) (tptp.has_region_2 _let_36 _let_149) (tptp.is_inside_2 _let_149 _let_151) (tptp.is_between_2 _let_36 _let_151) (not (= _let_153 _let_151)) (not (= _let_151 _let_153)) (tptp.has_part_2 _let_36 _let_144) (tptp.is_inside_2 _let_146 _let_144) (tptp.has_part_2 _let_36 _let_146) (tptp.has_part_2 _let_36 _let_147) (not (= _let_147 _let_148)) (not (= _let_148 _let_147)) (tptp.next_event_2 _let_143 _let_18) (tptp.subevent_2 _let_29 _let_143) (tptp.first_subevent_2 _let_29 _let_143) (not (= _let_135 _let_131)) (not (= _let_133 _let_135)) (not (= _let_131 _let_135)) (tptp.is_inside_2 _let_131 _let_1) (tptp.is_inside_2 _let_133 _let_1) (not (= _let_135 _let_133)) (tptp.is_inside_2 _let_135 _let_1) (not (= _let_131 _let_133)) (tptp.is_between_2 _let_134 _let_135) (tptp.is_between_2 _let_134 _let_131) (not (= _let_133 _let_131)) (tptp.is_between_2 _let_132 _let_133) (tptp.is_between_2 _let_132 _let_131) (not (= _let_138 _let_137)) (not (= _let_136 _let_138)) (not (= _let_137 _let_138)) (tptp.is_inside_2 _let_137 _let_20) (tptp.is_inside_2 _let_136 _let_20) (not (= _let_138 _let_136)) (tptp.is_inside_2 _let_138 _let_20) (not (= _let_137 _let_136)) (not (= _let_136 _let_137)) (tptp.subevent_2 _let_29 _let_18) (tptp.object_2 _let_34 _let_139) (tptp.raw_material_2 _let_18 _let_140) (tptp.base_2 _let_41 _let_141) (tptp.object_2 _let_45 _let_142) (= _let_53 _let_255) (= _let_3 _let_116) (= _let_57 _let_111) (= _let_47 _let_80) (= _let_47 _let_81) (= _let_47 _let_79) (= _let_254 _let_130) (= _let_254 _let_129) (= _let_22 _let_127) (= _let_123 _let_122) (= _let_123 _let_121) (= _let_137 _let_23) (= _let_131 _let_7) (= _let_135 _let_14) (= _let_133 _let_11) (= _let_133 _let_10) (= _let_3 _let_114) (= _let_3 _let_113) (= _let_1 _let_19) (= _let_1 _let_17) (= _let_3 _let_112) (= _let_134 _let_13) (= _let_36 _let_58) (= _let_132 _let_4) (= _let_22 _let_128) (= _let_20 _let_28) (= _let_22 _let_126) (= _let_253 _let_252) (= _let_143 _let_54) (= _let_149 _let_69) (= _let_147 _let_67) (= _let_148 _let_65) (= _let_141 _let_44) (= _let_251 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_57 X)) (= _let_139 _let_38) (= _let_222 _let_102) (= _let_221 _let_100) (= _let_250 _let_249) (= _let_194 _let_88) (= _let_47 _let_77) (= _let_187 _let_83) (= _let_226 _let_106) (= _let_78 (tptp.fn_chemical_signaling_6 X)) (= _let_15 (tptp.fn_chemical_signaling_8 X)) (= (tptp.fn_cell_signaling_with_mating_factor_124 X) _let_248) (= (tptp.fn_cell_signaling_with_mating_factor_123 X) _let_247) (= _let_246 _let_245) (= _let_244 _let_243) (= _let_242 _let_125) (= _let_242 _let_124) (= _let_218 _let_98) (= _let_27 _let_96) (= _let_241 _let_120) (= _let_241 _let_119) (= _let_240 _let_239) (= _let_238 _let_118) (= _let_238 _let_117) (= (tptp.fn_cell_signaling_with_mating_factor_55 X) (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_19 X)) (= (tptp.fn_cell_signaling_with_mating_factor_54 X) (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_20 X)) (= _let_156 _let_73) (= _let_237 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_17 X)) (= _let_236 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_18 X)) (= _let_225 _let_104) (= _let_110 _let_91) (= _let_147 _let_65) (= _let_235 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_100 X)) (= _let_234 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_58 X)) (= _let_41 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_101 X)) (= _let_233 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_61 X)) (= _let_232 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_94 X)) (= _let_231 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_60 X)) (= _let_230 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_104 X)) (= _let_229 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_63 X)) (= _let_228 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_32 X)) (= _let_148 _let_67) (= _let_57 _let_109) (= _let_227 (tptp.fn_cell_signaling_with_g_protein_coupled_receptor_102 X)) (= _let_57 _let_108) (= _let_226 _let_107) (= _let_226 _let_105) (= _let_212 _let_95) (= _let_141 _let_43) (= _let_225 _let_103) (= _let_224 _let_223) (= _let_18 _let_33) (= _let_222 _let_101) (= _let_221 _let_99) (= _let_220 _let_219) (= _let_218 _let_97) (= _let_217 _let_216) (= _let_20 _let_26) (= _let_215 _let_214) (= _let_27 _let_32) (= _let_143 _let_33) (= _let_27 _let_52) (= _let_29 _let_213) (= _let_212 _let_94) (= _let_1 _let_16) (= _let_211 _let_210) (= _let_143 _let_52) (= _let_209 _let_208) (= _let_207 _let_206) (= _let_205 _let_204) (= _let_18 _let_32) (= _let_201 _let_93) (= _let_203 _let_202) (= _let_201 _let_92) (= _let_110 _let_90) (= _let_36 _let_59) (= _let_45 _let_200) (= (tptp.fn_cell_signaling_with_mating_factor_42 X) _let_199) (= _let_198 _let_197) (= _let_144 _let_61) (= _let_196 _let_195) (= _let_194 _let_89) (= _let_194 _let_87) (= _let_193 _let_86) (= _let_193 _let_85) (= _let_147 _let_64) (= (tptp.fn_cell_signaling_with_mating_factor_43 X) _let_192) (= _let_191 _let_190) (= _let_189 _let_188) (= _let_142 _let_51) (= _let_142 _let_50) (= _let_156 _let_72) (= _let_148 _let_64) (= _let_142 _let_49) (= _let_142 _let_48) (= _let_187 _let_84) (= _let_36 _let_56) (= _let_36 _let_55) (= _let_187 _let_82) (= _let_186 _let_185) (= (tptp.fn_cell_signaling_with_mating_factor_23 X) _let_184) (= (tptp.fn_cell_signaling_with_mating_factor_21 X) _let_183) (= (tptp.fn_cell_signaling_with_mating_factor_20 X) _let_182) (= (tptp.fn_cell_signaling_with_mating_factor_22 X) _let_181) (= _let_180 _let_179) (= _let_139 _let_37) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_174 _let_173) (= _let_172 _let_171) (= _let_170 _let_169) (= _let_168 _let_167) (= _let_166 _let_165) (= _let_164 _let_76) (= _let_164 _let_75) (= _let_164 _let_74) (= _let_163 _let_162) (= _let_161 _let_160) (= _let_34 _let_159) (= _let_158 _let_157) (= _let_156 _let_71) (= _let_155 _let_154) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_70) (= _let_149 _let_68) (= _let_147 _let_66) (= _let_148 _let_63) (= _let_148 _let_66) (= _let_147 _let_63) (= _let_146 _let_145) (= _let_144 _let_62) (= _let_144 _let_60) (= _let_143 _let_30) (= _let_142 _let_46) (= _let_141 _let_42) (= _let_140 _let_40) (= _let_140 _let_39) (= _let_139 _let_35) (= _let_18 _let_31) (= _let_18 _let_30) (= _let_138 _let_25) (= _let_136 _let_25) (= _let_137 _let_21) (= _let_136 _let_24) (= _let_133 _let_9) (= _let_135 _let_8) (= _let_135 _let_9) (= _let_134 _let_12) (= _let_133 _let_8) (= _let_132 _let_2) (= _let_131 _let_5) (= _let_130 _let_129) (= _let_129 _let_127) (= _let_127 _let_128) (= _let_128 _let_127) (= _let_127 _let_126) (= _let_126 _let_126) (= _let_126 _let_124) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_119 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_117) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_116) (= _let_116 _let_114) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_111 _let_109) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_106) (= _let_106 _let_107) (= _let_107 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_32) (= _let_52 _let_32) (= _let_32 _let_52) (= _let_52 _let_95) (= _let_95 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_88) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_83) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_77) (= _let_77 _let_77) (= _let_77 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_65) (= _let_65 _let_63) (= _let_67 _let_63) (= _let_63 _let_67) (= _let_67 _let_64) (= _let_64 _let_66) (= _let_66 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_55 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_33) (= _let_33 _let_52) (= _let_52 _let_52) (= _let_52 _let_30) (= _let_30 _let_30) (= _let_30 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_8) (= _let_8 _let_9) (= _let_9 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_nitric_oxide_7 X))) (let ((_let_2 (tptp.fn_polymer_7 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_nitric_oxide_4 X))) (let ((_let_4 (tptp.fn_nitric_oxide_2 _let_3))) (let ((_let_5 (tptp.fn_cell_signaling_with_nitric_oxide_3 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_nitric_oxide_8 X))) (let ((_let_7 (tptp.fn_polymer_8 _let_1))) (let ((_let_8 (tptp.fn_cell_signaling_with_nitric_oxide_6 X))) (let ((_let_9 (tptp.fn_cell_signaling_with_nitric_oxide_5 X))) (let ((_let_10 (tptp.fn_polymer_10 _let_1))) (let ((_let_11 (tptp.fn_polymer_9 _let_1))) (let ((_let_12 (tptp.fn_cell_signaling_with_nitric_oxide_1 X))) (let ((_let_13 (tptp.fn_cell_signaling_with_nitric_oxide_2 X))) (=> (tptp.cell_signaling_with_nitric_oxide_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Nitric-Oxide'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which the receptor is located inside the cell and the signaling molecule is nitric oxide.'|) (tptp.concept2words_2 X |tptp.'nitric oxide induced cell signaling'|) (tptp.concept2words_2 X |tptp.'nitric oxide-induced cell signaling'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with nitric oxide'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-nitric-oxide'|) (tptp.cell_signaling_with_intracellular_receptor_and_small_molecule_1 X) (tptp.time_interval_1 _let_12) (tptp.time_interval_1 _let_13) (tptp.signal_reception_1 _let_5) (tptp.nitric_oxide_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.size_value_1 _let_9) (tptp.size_value_1 _let_8) (tptp.polymer_1 _let_1) (tptp.intracellular_receptor_1 _let_1) (tptp.signal_transduction_1 _let_6) (tptp.property_node_1 _let_11) (tptp.property_node_1 _let_10) (tptp.size_value_1 _let_7) (tptp.size_value_1 _let_4) (tptp.size_value_1 _let_2) (tptp.time_during_2 _let_6 _let_13) (tptp.time_before_2 _let_12 _let_13) (tptp.time_during_2 _let_5 _let_12) (tptp.size_2 _let_3 _let_9) (tptp.agent_2 X _let_3) (tptp.object_2 _let_5 _let_3) (tptp.complement_2 _let_1 _let_3) (tptp.complement_2 _let_3 _let_1) (tptp.size_2 _let_1 _let_8) (tptp.greater_than_2 _let_8 _let_9) (tptp.first_subevent_2 X _let_5) (tptp.subevent_2 X _let_5) (tptp.instrument_2 _let_5 _let_1) (tptp.has_function_2 _let_1 _let_5) (tptp.next_event_2 _let_5 _let_6) (tptp.subevent_2 X _let_6) (= _let_9 _let_4) (= _let_3 (tptp.fn_cell_signaling_with_intracellular_receptor_7 X)) (= (tptp.fn_cell_signaling_with_nitric_oxide_9 X) _let_11) (= (tptp.fn_cell_signaling_with_nitric_oxide_10 X) _let_10) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_6 (tptp.fn_cell_signaling_with_intracellular_receptor_6 X)) (= _let_1 (tptp.fn_cell_signaling_with_intracellular_receptor_14 X)) (= _let_5 (tptp.fn_cell_signaling_with_intracellular_receptor_13 X)) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_phytochrome_in_plant_cell_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_phytochrome_in_plant_cell_1 X))) (=> (tptp.cell_signaling_with_phytochrome_in_plant_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Phytochrome-In-Plant-cell'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in plant cells in which the receptor is phytochrome.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with phytochrome in plant cell'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-phytochrome-in-plant-cell'|) (tptp.cell_signaling_in_plant_cell_1 X) (tptp.phytochrome_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.complement_2 _let_1 _let_2) (tptp.complement_2 _let_2 _let_1) (tptp.agent_2 X _let_1) (= _let_1 (tptp.fn_cell_signaling_5 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_plant_hormone_leading_to_cell_division_1 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_plant_hormone_leading_to_cell_division_2 X))) (=> (tptp.cell_signaling_with_plant_hormone_leading_to_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Plant-Hormone-Leading-To-Cell-Division'|) (tptp.user_description_2 X |tptp.'Process of communication between and within plant cells which leads to cell division as cellular response.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with plant hormone leading to cell division'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-plant-hormone-leading-to-cell-division'|) (tptp.cell_signaling_in_plant_cell_1 X) (tptp.cell_division_1 _let_1) (tptp.plant_hormone_1 _let_2) (tptp.agent_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cell_signaling_5 X)) (= _let_1 (tptp.fn_chemical_signaling_6 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_23 X))) (let ((_let_2 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_5 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_6 (tptp.fn_plasma_membrane_70 _let_1))) (let ((_let_7 (tptp.fn_plasma_membrane_77 _let_1))) (let ((_let_8 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_9 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_10 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_11 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_12 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_13 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_14 (tptp.fn_signal_reception_5 _let_13))) (let ((_let_15 (tptp.fn_cell_signaling_5 X))) (let ((_let_16 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_9 X))) (let ((_let_17 (tptp.fn_ligand_1 _let_16))) (let ((_let_18 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_10 X))) (let ((_let_19 (tptp.fn_messenger_1 _let_18))) (let ((_let_20 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_8 X))) (let ((_let_21 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_19 X))) (let ((_let_22 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_20 X))) (let ((_let_23 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_18 X))) (let ((_let_24 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_21 X))) (let ((_let_25 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_22 X))) (let ((_let_26 (tptp.fn_signal_reception_6 _let_13))) (let ((_let_27 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 X))) (let ((_let_28 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 X))) (let ((_let_29 (tptp.fn_signal_reception_8 _let_13))) (let ((_let_30 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_17 X))) (let ((_let_31 (tptp.fn_signal_reception_7 _let_13))) (let ((_let_32 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_16 X))) (let ((_let_33 (tptp.fn_signal_reception_4 _let_13))) (let ((_let_34 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_12 X))) (let ((_let_35 (tptp.fn_cell_surface_receptor_1 _let_34))) (let ((_let_36 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_13 X))) (let ((_let_37 (tptp.fn_solubility_value_1 _let_36))) (let ((_let_38 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_3 X))) (let ((_let_39 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_4 X))) (let ((_let_40 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_2 X))) (=> (tptp.cell_signaling_with_plasma_membrane_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Plasma-Membrane-Receptor'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which the receptor is located on the plasma membrane.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with plasma membrane receptor'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-plasma-membrane-receptor'|) (tptp.chemical_signaling_1 X) (tptp.size_value_1 _let_40) (tptp.concentration_value_1 _let_38) (tptp.rate_value_1 _let_39) (tptp.ligand_binding_1 _let_27) (tptp.outside_face_1 _let_20) (tptp.extracellular_side_1 _let_20) (tptp.ligand_1 _let_16) (tptp.messenger_1 _let_18) (tptp.chemical_entity_1 _let_28) (tptp.cell_surface_receptor_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.polymer_1 _let_34) (tptp.receptor_protein_1 _let_34) (tptp.solubility_value_1 _let_36) (tptp.signal_reception_1 _let_13) (tptp.monomer_1 _let_32) (tptp.monomer_1 _let_30) (tptp.substance_1 _let_23) (tptp.aqueous_solution_1 _let_23) (tptp.spatial_entity_1 _let_21) (tptp.polymer_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.tangible_entity_1 _let_22) (tptp.membrane_protein_1 _let_22) (tptp.protein_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.membrane_protein_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.transmembrane_protein_1 _let_24) (tptp.integral_protein_1 _let_24) (tptp.transport_protein_1 _let_24) (tptp.tangible_entity_1 _let_25) (tptp.phospholipid_bilayer_1 _let_25) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.property_node_1 _let_37) (tptp.plasma_membrane_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.polymer_1 _let_33) (tptp.receptor_protein_1 _let_33) (tptp.monomer_1 _let_31) (tptp.monomer_1 _let_29) (tptp.ligand_binding_1 _let_26) (tptp.chemical_entity_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.chemical_entity_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.membrane_protein_1 _let_10) (tptp.membrane_protein_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.transmembrane_protein_1 _let_8) (tptp.integral_protein_1 _let_8) (tptp.transport_protein_1 _let_8) (tptp.aqueous_solution_1 _let_7) (tptp.substance_1 _let_6) (tptp.aqueous_solution_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.membrane_protein_1 _let_5) (tptp.protein_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.polymer_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.membrane_protein_1 _let_4) (tptp.protein_1 _let_4) (tptp.outside_face_1 _let_3) (tptp.extracellular_side_1 _let_2) (not (= _let_24 _let_22)) (not (= _let_24 _let_34)) (not (= _let_24 _let_28)) (not (= _let_22 _let_24)) (not (= _let_22 _let_34)) (not (= _let_22 _let_28)) (tptp.called_2 _let_21 |tptp.'MP1'|) (not (= _let_21 _let_34)) (not (= _let_21 _let_28)) (tptp.rate_2 _let_13 _let_39) (tptp.the_scalar_value_2 _let_40 tptp.big_0) (tptp.scalar_unit_class_2 _let_40 tptp.physical_object_0) (tptp.the_scalar_value_2 _let_36 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_36 tptp.physical_object_0) (not (= _let_34 _let_21)) (not (= _let_34 _let_22)) (not (= _let_34 _let_24)) (not (= _let_34 _let_28)) (tptp.solubility_in_water_2 _let_28 _let_36) (tptp.size_2 _let_28 _let_40) (not (= _let_28 _let_34)) (not (= _let_28 _let_21)) (not (= _let_28 _let_22)) (not (= _let_28 _let_24)) (tptp.is_at_2 _let_28 _let_20) (tptp.concentration_2 _let_28 _let_38) (tptp.directly_proportional_2 _let_39 _let_38) (tptp.plays_2 _let_28 _let_18) (tptp.plays_2 _let_28 _let_16) (tptp.is_across_2 _let_34 _let_1) (tptp.has_part_2 _let_1 _let_34) (tptp.has_part_2 _let_34 _let_32) (tptp.has_function_2 _let_34 _let_13) (tptp.base_2 _let_27 _let_34) (tptp.instrument_2 _let_13 _let_34) (tptp.has_part_2 _let_34 _let_30) (tptp.complement_2 _let_28 _let_34) (tptp.complement_2 _let_34 _let_28) (tptp.subevent_2 X _let_13) (tptp.first_subevent_2 X _let_13) (tptp.agent_2 X _let_28) (tptp.object_2 _let_13 _let_28) (not (= _let_28 _let_32)) (not (= _let_32 _let_28)) (tptp.subevent_2 _let_13 _let_27) (tptp.object_2 _let_27 _let_28) (tptp.has_function_2 _let_28 _let_27) (not (= _let_30 _let_28)) (not (= _let_28 _let_30)) (tptp.has_part_2 _let_1 _let_22) (tptp.called_2 _let_22 |tptp.'MP2'|) (tptp.is_across_2 _let_24 _let_1) (tptp.is_at_2 _let_24 _let_1) (tptp.has_part_2 _let_1 _let_24) (tptp.is_inside_2 _let_24 _let_25) (tptp.has_part_2 _let_1 _let_25) (tptp.is_between_2 _let_1 _let_23) (tptp.is_inside_2 _let_20 _let_23) (tptp.has_region_2 _let_24 _let_20) (not (= _let_21 _let_24)) (not (= _let_24 _let_21)) (tptp.has_region_2 _let_1 _let_20) (tptp.is_outside_2 _let_20 _let_1) (tptp.has_part_2 _let_1 _let_21) (not (= _let_22 _let_21)) (not (= _let_21 _let_22)) (= _let_28 _let_19) (= (tptp.fn_cell_signaling_with_plasma_membrane_receptor_14 X) _let_37) (= _let_28 _let_17) (= _let_1 _let_35) (= _let_34 _let_33) (= _let_28 _let_15) (= _let_13 (tptp.fn_cell_signaling_2 X)) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_14) (= _let_27 _let_26) (= _let_25 _let_12) (= _let_25 _let_11) (= _let_24 _let_10) (= _let_24 _let_9) (= _let_21 _let_5) (= _let_24 _let_8) (= _let_23 _let_7) (= _let_23 _let_6) (= _let_22 _let_5) (= _let_21 _let_4) (= _let_20 _let_3) (= _let_20 _let_2) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_51 X))) (let ((_let_2 (tptp.fn_receptor_tyrosine_kinase_9 _let_1))) (let ((_let_3 (tptp.fn_cell_surface_receptor_1 _let_1))) (let ((_let_4 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_64 X))) (let ((_let_5 (tptp.fn_plasma_membrane_11 _let_4))) (let ((_let_6 (tptp.fn_plasma_membrane_63 _let_4))) (let ((_let_7 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_8 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_19 X))) (let ((_let_9 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_10 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_20 X))) (let ((_let_11 (tptp.fn_plasma_membrane_55 _let_4))) (let ((_let_12 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_21 X))) (let ((_let_13 (tptp.fn_plasma_membrane_3 _let_4))) (let ((_let_14 (tptp.fn_plasma_membrane_4 _let_4))) (let ((_let_15 (tptp.fn_plasma_membrane_65 _let_4))) (let ((_let_16 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_8 X))) (let ((_let_17 (tptp.fn_biomembrane_41 _let_4))) (let ((_let_18 (tptp.fn_plasma_membrane_70 _let_4))) (let ((_let_19 (tptp.fn_plasma_membrane_77 _let_4))) (let ((_let_20 (tptp.fn_plasma_membrane_71 _let_4))) (let ((_let_21 (tptp.fn_biomembrane_63 _let_4))) (let ((_let_22 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_86 X))) (let ((_let_23 (tptp.fn_phosphate_group_5 _let_22))) (let ((_let_24 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_49 X))) (let ((_let_25 (tptp.fn_organic_molecule_2 _let_24))) (let ((_let_26 (tptp.fn_molecule_11 _let_24))) (let ((_let_27 (tptp.fn_phosphate_group_22 _let_22))) (let ((_let_28 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_83 X))) (let ((_let_29 (tptp.fn_covalent_bond_20 _let_28))) (let ((_let_30 (tptp.fn_phosphate_group_37 _let_22))) (let ((_let_31 (tptp.fn_molecule_10 _let_24))) (let ((_let_32 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_15 X))) (let ((_let_33 (tptp.fn_chemical_signaling_7 X))) (let ((_let_34 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_11 X))) (let ((_let_35 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_55 X))) (let ((_let_36 (tptp.fn_signal_reception_5 _let_35))) (let ((_let_37 (tptp.fn_cell_signaling_with_plasma_membrane_receptor_7 X))) (let ((_let_38 (tptp.fn_signal_reception_6 _let_35))) (let ((_let_39 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_61 X))) (let ((_let_40 (tptp.fn_phosphorylation_1 _let_39))) (let ((_let_41 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_39 X))) (let ((_let_42 (tptp.fn_chemical_reaction_1 _let_41))) (let ((_let_43 (tptp.fn_phosphorylation_2 _let_39))) (let ((_let_44 (tptp.fn_functional_group_1 _let_22))) (let ((_let_45 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_63 X))) (let ((_let_46 (tptp.fn_attach_2 _let_45))) (let ((_let_47 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_60 X))) (let ((_let_48 (tptp.fn_perceive_1 _let_47))) (let ((_let_49 (tptp.fn_organic_molecule_1 _let_24))) (let ((_let_50 (tptp.fn_covalent_bond_19 _let_28))) (let ((_let_51 (tptp.fn_signal_reception_4 _let_35))) (let ((_let_52 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_35 X))) (let ((_let_53 (tptp.fn_attach_2 _let_52))) (let ((_let_54 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_45 X))) (let ((_let_55 (tptp.fn_protein_9 _let_54))) (let ((_let_56 (tptp.fn_protein_enzyme_3 _let_54))) (let ((_let_57 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_58 X))) (let ((_let_58 (tptp.fn_messenger_1 _let_57))) (let ((_let_59 (tptp.fn_attach_1 _let_45))) (let ((_let_60 (tptp.fn_plasma_membrane_66 _let_4))) (let ((_let_61 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_27 X))) (let ((_let_62 (tptp.fn_plasma_membrane_61 _let_4))) (let ((_let_63 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_32 X))) (let ((_let_64 (tptp.fn_plasma_membrane_62 _let_4))) (let ((_let_65 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_31 X))) (let ((_let_66 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_30 X))) (let ((_let_67 (tptp.fn_plasma_membrane_12 _let_4))) (let ((_let_68 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_66 X))) (let ((_let_69 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_67 X))) (let ((_let_70 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_56 X))) (let ((_let_71 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_33 X))) (let ((_let_72 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_28 X))) (let ((_let_73 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_65 X))) (let ((_let_74 (tptp.fn_plasma_membrane_64 _let_4))) (let ((_let_75 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_29 X))) (let ((_let_76 (tptp.fn_plasma_membrane_67 _let_4))) (let ((_let_77 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_48 X))) (let ((_let_78 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(tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_69 X))) (let ((_let_109 (tptp.fn_molecule_3 _let_86))) (let ((_let_110 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_68 X))) (let ((_let_111 (tptp.fn_molecule_8 _let_86))) (let ((_let_112 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_72 X))) (let ((_let_113 (tptp.fn_molecule_1 _let_86))) (let ((_let_114 (tptp.fn_molecule_2 _let_86))) (let ((_let_115 (tptp.fn_organic_molecule_3 _let_24))) (let ((_let_116 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_87 X))) (let ((_let_117 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_80 X))) (let ((_let_118 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_44 X))) (let ((_let_119 (tptp.fn_receptor_tyrosine_kinase_4 _let_118))) (let ((_let_120 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_43 X))) (let ((_let_121 (tptp.fn_receptor_tyrosine_kinase_3 _let_118))) (let ((_let_122 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_42 X))) (let ((_let_123 (tptp.fn_receptor_tyrosine_kinase_4 _let_54))) (let ((_let_124 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_46 X))) (let ((_let_125 (tptp.fn_receptor_tyrosine_kinase_3 _let_54))) (let ((_let_126 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_41 X))) (let ((_let_127 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_77 X))) (let ((_let_128 (tptp.fn_protein_10 _let_54))) (let ((_let_129 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_36 X))) (let ((_let_130 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_52 X))) (let ((_let_131 (tptp.fn_receptor_tyrosine_kinase_dimer_1 _let_24))) (let ((_let_132 (tptp.fn_receptor_tyrosine_kinase_dimer_2 _let_24))) (let ((_let_133 (tptp.fn_receptor_tyrosine_kinase_dimer_1 _let_86))) (let ((_let_134 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_37 X))) (let ((_let_135 (tptp.fn_receptor_tyrosine_kinase_dimer_2 _let_86))) (let ((_let_136 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_38 X))) (let ((_let_137 (tptp.fn_phosphorylation_3 _let_39))) (let ((_let_138 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_59 X))) (let ((_let_139 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_40 X))) (let ((_let_140 (tptp.fn_messenger_1 _let_139))) (let ((_let_141 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_62 X))) (let ((_let_142 (tptp.fn_phosphorylation_5 _let_39))) (let ((_let_143 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_47 X))) (let ((_let_144 (tptp.fn_chemical_reaction_2 _let_41))) (let ((_let_145 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_57 X))) (let ((_let_146 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_2 X))) (let ((_let_147 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_4 X))) (let ((_let_148 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_3 X))) (let ((_let_149 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_6 X))) (let ((_let_150 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_5 X))) (let ((_let_151 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_8 X))) (let ((_let_152 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_7 X))) (let ((_let_153 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_11 X))) (let ((_let_154 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_12 X))) (let ((_let_155 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_24 X))) (let ((_let_156 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_16 X))) (let ((_let_157 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_17 X))) (let ((_let_158 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_18 X))) (let ((_let_159 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_19 X))) (let ((_let_160 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_21 X))) (let ((_let_161 (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_20 X))) (=> (tptp.cell_signaling_with_receptor_tyrosine_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Receptor-Tyrosine-Kinase'|) 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_let_50) (tptp.carbon_1 _let_49) (tptp.entity_1 _let_48) (tptp.spatial_entity_1 _let_46) (tptp.chemical_entity_1 _let_44) (tptp.chemical_entity_1 _let_43) (tptp.chemical_entity_1 _let_42) (tptp.molecule_1 _let_40) (tptp.ligand_binding_1 _let_38) (tptp.chemical_entity_1 _let_36) (tptp.chemical_bond_1 _let_31) (tptp.single_bond_1 _let_30) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.oxygen_1 _let_27) (tptp.atom_1 _let_26) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.oxygen_1 _let_23) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.aqueous_solution_1 _let_19) (tptp.substance_1 _let_18) (tptp.aqueous_solution_1 _let_18) (tptp.outside_face_1 _let_17) (tptp.extracellular_side_1 _let_15) (tptp.membrane_protein_1 _let_14) (tptp.membrane_protein_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.transmembrane_protein_1 _let_11) (tptp.integral_protein_1 _let_11) (tptp.transport_protein_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.membrane_protein_1 _let_9) (tptp.protein_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.polymer_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.membrane_protein_1 _let_7) (tptp.protein_1 _let_7) (tptp.charge_value_1 _let_6) (tptp.charge_value_1 _let_5) (tptp.plasma_membrane_1 _let_3) (tptp.plasma_membrane_1 _let_2) (tptp.biomembrane_1 _let_2) (not (= _let_83 _let_1)) (tptp.time_during_2 _let_52 _let_150) (tptp.causes_2 _let_52 _let_41) (not (= _let_52 _let_129)) (not (= _let_129 _let_52)) (tptp.time_during_2 _let_129 _let_149) (tptp.causes_2 _let_129 _let_41) (tptp.has_state_2 _let_134 _let_118) (tptp.has_state_2 _let_136 _let_54) (tptp.next_event_2 _let_41 _let_39) (tptp.raw_material_2 _let_41 _let_159) (not (= _let_143 _let_24)) (not (= _let_24 _let_143)) (tptp.exactCardinality _let_24 tptp.has_part_0 |"6"| tptp.phosphorus_0) (tptp.size_2 _let_24 _let_146) (tptp.has_region_2 _let_24 _let_148) (tptp.has_region_2 _let_24 _let_147) (tptp.possesses_2 _let_24 _let_28) (tptp.activation_2 _let_24 _let_160) (tptp.greater_than_or_equal_to_2 _let_160 _let_156) (tptp.the_categorical_value_2 _let_160 tptp.active_0) (tptp.greater_than_or_equal_to_2 _let_161 _let_160) (not (= _let_1 _let_83)) (not (= _let_1 _let_130)) (not (= _let_1 _let_70)) (not (= _let_1 _let_69)) (not (= _let_1 _let_68)) (tptp.has_state_2 _let_1 _let_145) (not (= _let_130 _let_1)) (tptp.has_state_2 _let_130 _let_159) (tptp.has_state_2 _let_86 _let_24) (tptp.activation_2 _let_86 _let_156) (tptp.subevent_2 _let_84 _let_41) (tptp.subevent_2 _let_84 _let_47) (tptp.subevent_2 _let_84 _let_39) (tptp.subevent_2 _let_84 _let_45) (tptp.first_subevent_2 _let_84 _let_41) (tptp.first_subevent_2 _let_35 _let_52) (tptp.first_subevent_2 _let_35 _let_129) (tptp.instrument_2 _let_35 _let_1) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.signal_transduction_0) (not (= _let_70 _let_1)) (tptp.called_2 _let_70 |tptp.'MP2'|) (tptp.has_state_2 _let_159 _let_134) (tptp.activation_2 _let_159 _let_157) (not (= _let_159 _let_145)) (tptp.has_state_2 _let_145 _let_136) (not (= _let_145 _let_159)) (tptp.activation_2 _let_145 _let_158) (tptp.the_categorical_value_2 _let_158 tptp.inactive_0) (tptp.the_categorical_value_2 _let_157 tptp.inactive_0) (tptp.the_categorical_value_2 _let_156 tptp.active_0) (tptp.has_state_2 _let_138 _let_141) (tptp.activation_2 _let_138 _let_154) (tptp.agent_2 _let_47 _let_138) (tptp.minCardinality _let_47 tptp.agent_0 |"1"| tptp.protein_0) (tptp.time_during_2 _let_47 _let_152) (tptp.next_event_2 _let_47 _let_45) (tptp.site_2 _let_39 _let_126) (tptp.site_2 _let_39 _let_122) (tptp.exactCardinality _let_39 tptp.raw_material_0 |"6"| tptp.atp_0) (tptp.result_2 _let_39 _let_155) (tptp.exactCardinality _let_39 tptp.result_0 |"6"| tptp.adp_0) (tptp.next_event_2 _let_39 _let_47) (tptp.the_categorical_value_2 _let_154 tptp.inactive_0) (tptp.the_categorical_value_2 _let_153 tptp.active_0) (tptp.activation_2 _let_141 _let_153) (tptp.result_2 _let_45 _let_141) (tptp.time_during_2 _let_45 _let_151) (tptp.time_before_2 _let_152 _let_151) (tptp.time_int_equals_2 _let_149 _let_150) (tptp.time_int_equals_2 _let_150 _let_149) (not (= _let_68 _let_1)) (not (= _let_69 _let_1)) (tptp.is_at_2 _let_148 _let_147) (tptp.greater_than_2 _let_146 _let_127) (tptp.the_scalar_value_2 _let_146 tptp.big_0) (tptp.scalar_unit_class_2 _let_146 tptp.polypeptide_0) (tptp.base_2 _let_52 _let_1) (tptp.raw_material_2 _let_41 _let_145) (tptp.object_2 _let_47 _let_24) (tptp.base_2 _let_45 _let_24) (tptp.raw_material_2 _let_39 _let_143) (tptp.result_2 _let_41 _let_86) (tptp.object_2 _let_45 _let_138) (tptp.raw_material_2 _let_39 _let_86) (tptp.plays_2 _let_141 _let_139) (tptp.plays_2 _let_138 _let_57) (tptp.result_2 _let_39 _let_24) (tptp.has_region_2 _let_24 _let_22) (tptp.possesses_2 _let_24 _let_81) (tptp.is_between_2 _let_81 _let_77) (tptp.element_2 _let_86 _let_136) (tptp.element_2 _let_86 _let_134) (tptp.element_2 _let_24 _let_54) (tptp.element_2 _let_24 _let_118) (tptp.subevent_2 _let_35 _let_129) (tptp.base_2 _let_129 _let_130) (tptp.instrument_2 _let_35 _let_130) (tptp.has_function_2 _let_1 _let_35) (tptp.complement_2 _let_1 _let_83) (tptp.complement_2 _let_83 _let_1) (tptp.is_between_2 _let_28 _let_117) (not (= _let_117 _let_78)) (tptp.is_between_2 _let_28 _let_78) (not (= _let_78 _let_117)) (tptp.size_2 _let_54 _let_127) (tptp.has_region_2 _let_54 _let_124) (tptp.is_at_2 _let_126 _let_124) (tptp.has_region_2 _let_118 _let_120) (tptp.is_at_2 _let_122 _let_120) (tptp.is_across_2 _let_1 _let_4) (tptp.has_part_2 _let_4 _let_1) (tptp.has_region_2 _let_24 _let_116) (tptp.is_inside_2 _let_117 _let_116) (not (= _let_77 _let_117)) (not (= _let_117 _let_77)) (tptp.object_2 _let_112 _let_86) (tptp.possesses_2 _let_86 _let_106) (tptp.quantity_2 _let_106 _let_108) (tptp.directly_proportional_2 _let_110 _let_108) (tptp.speed_2 _let_112 _let_110) (tptp.object_2 _let_100 _let_24) (tptp.has_part_2 _let_24 _let_102) (tptp.possesses_2 _let_24 _let_94) (tptp.quantity_2 _let_94 _let_96) (tptp.directly_proportional_2 _let_98 _let_96) (tptp.speed_2 _let_100 _let_98) (tptp.has_part_2 _let_86 _let_90) (tptp.has_region_2 _let_86 _let_92) (tptp.has_part_2 _let_86 _let_88) (tptp.is_inside_2 _let_88 _let_92) (not (= _let_90 _let_88)) (not (= _let_88 _let_90)) (tptp.next_event_2 _let_35 _let_84) (tptp.next_event_2 _let_84 _let_85) (tptp.subevent_2 X _let_85) (tptp.subevent_2 X _let_84) (tptp.has_function_2 _let_83 _let_52) (tptp.object_2 _let_52 _let_83) (tptp.agent_2 X _let_83) (tptp.first_subevent_2 X _let_35) (tptp.subevent_2 _let_35 _let_52) (not (= _let_70 _let_83)) (not (= _let_83 _let_68)) (not (= _let_70 _let_68)) (not (= _let_83 _let_70)) (not (= _let_68 _let_83)) (not (= _let_68 _let_70)) (tptp.subevent_2 X _let_35) (tptp.object_2 _let_35 _let_83) (tptp.is_at_2 _let_83 _let_71) (not (= _let_69 _let_83)) (not (= _let_83 _let_69)) (tptp.is_inside_2 _let_78 _let_22) (tptp.is_between_2 _let_28 _let_77) (tptp.is_between_2 _let_28 _let_80) (tptp.is_between_2 _let_81 _let_78) (tptp.is_between_2 _let_81 _let_80) (tptp.is_inside_2 _let_80 _let_22) (not (= _let_78 _let_80)) (not (= _let_80 _let_78)) (tptp.is_inside_2 _let_77 _let_22) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (not (= _let_80 _let_77)) (not (= _let_77 _let_80)) (tptp.is_between_2 _let_4 _let_72) (tptp.called_2 _let_68 |tptp.'MP1'|) (tptp.is_at_2 _let_75 _let_71) (tptp.charge_2 _let_75 _let_66) (tptp.is_at_2 _let_70 _let_4) (tptp.is_across_2 _let_70 _let_4) (tptp.has_part_2 _let_4 _let_69) (tptp.called_2 _let_69 |tptp.'MP2'|) (tptp.is_outside_2 _let_71 _let_4) (tptp.has_region_2 _let_4 _let_71) (tptp.has_part_2 _let_4 _let_70) (tptp.is_inside_2 _let_70 _let_73) (tptp.has_part_2 _let_4 _let_73) (tptp.has_part_2 _let_4 _let_68) (not (= _let_68 _let_69)) (not (= _let_69 _let_70)) (tptp.has_region_2 _let_70 _let_71) (tptp.is_inside_2 _let_71 _let_72) (not (= _let_69 _let_68)) (not (= _let_70 _let_69)) (tptp.has_region_2 _let_4 _let_61) (tptp.is_at_2 _let_63 _let_61) (tptp.charge_2 _let_63 _let_65) (tptp.greater_than_2 _let_66 _let_65) (= _let_1 _let_53) (= _let_145 _let_144) (= _let_24 _let_48) (= _let_24 _let_46) (= _let_143 _let_142) (= _let_86 _let_42) (= _let_138 _let_59) (= _let_86 _let_40) (= _let_141 _let_140) (= _let_138 _let_58) (= _let_24 _let_44) (= _let_22 _let_137) (= _let_24 _let_43) (= _let_77 _let_26) (= _let_81 _let_31) (= _let_136 _let_135) (= _let_134 _let_133) (= _let_54 _let_132) (= _let_118 _let_131) (= _let_1 _let_51) (= _let_130 _let_51) (= _let_129 _let_38) (= _let_78 _let_29) (= _let_117 _let_50) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_91 X) _let_128) (= _let_127 _let_56) (= _let_127 _let_55) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_77 _let_25) (= _let_117 _let_49) (= _let_116 _let_115) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_75 X) _let_114) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_76 X) _let_113) (= _let_112 _let_111) (= _let_110 _let_109) (= _let_108 _let_107) (= _let_106 _let_105) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_89 X) _let_104) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_90 X) _let_103) (= _let_102 _let_101) (= _let_100 _let_99) (= _let_98 _let_97) (= _let_96 _let_95) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_85 (tptp.fn_chemical_signaling_6 X)) (= _let_84 (tptp.fn_chemical_signaling_8 X)) (= _let_52 _let_38) (= _let_52 _let_37) (= _let_70 _let_12) (= _let_68 _let_8) (= _let_71 _let_16) (= _let_69 _let_10) (= _let_83 _let_36) (= _let_83 _let_34) (= _let_35 _let_33) (= _let_35 _let_32) (= _let_28 _let_82) (= _let_81 _let_30) (= _let_80 _let_79) (= _let_78 _let_27) (= _let_77 _let_23) (= _let_72 _let_19) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_25 X) _let_76) (= _let_66 _let_6) (= _let_75 _let_74) (= _let_70 _let_14) (= _let_70 _let_13) (= _let_73 _let_21) (= _let_73 _let_20) (= _let_71 _let_17) (= _let_72 _let_18) (= _let_71 _let_15) (= _let_70 _let_11) (= _let_69 _let_9) (= _let_68 _let_7) (= (tptp.fn_cell_signaling_with_receptor_tyrosine_kinase_26 X) _let_67) (= _let_66 _let_5) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_58 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_34 _let_34) (= _let_34 _let_36) (= _let_36 _let_34) (= _let_34 _let_33) (= _let_32 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_serine_threonine_kinase_4 X))) (let ((_let_2 (tptp.fn_phosphorylation_1 _let_1))) (let ((_let_3 (tptp.fn_phosphorylation_5 _let_1))) (let ((_let_4 (tptp.fn_phosphorylation_2 _let_1))) (let ((_let_5 (tptp.fn_cell_signaling_with_serine_threonine_kinase_7 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_serine_threonine_kinase_3 X))) (let ((_let_7 (tptp.fn_cell_signaling_with_serine_threonine_kinase_2 X))) (let ((_let_8 (tptp.fn_cell_signaling_with_serine_threonine_kinase_5 X))) (let ((_let_9 (tptp.fn_kinase_1 _let_8))) (let ((_let_10 (tptp.fn_cell_signaling_with_serine_threonine_kinase_6 X))) (let ((_let_11 (tptp.fn_cell_signaling_with_serine_threonine_kinase_1 X))) (=> (tptp.cell_signaling_with_serine_threonine_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Serine-Threonine-Kinase'|) (tptp.user_description_2 X |tptp.'Cell signaling which involves the activation of proteins through the phosphorylation of serine or threonine amino acids by serine-threonine kinase.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with serine threonine kinase'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-serine-threonine-kinase'|) (tptp.chemical_signaling_1 X) (tptp.molecule_1 _let_11) (tptp.signal_transduction_1 _let_7) (tptp.cell_1 _let_6) (tptp.phosphorylation_1 _let_1) (tptp.serine_threonine_kinase_1 _let_8) (tptp.amino_acid_1 _let_10) (tptp.amino_acid_1 _let_5) (tptp.phosphorylation_1 _let_9) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.molecule_1 _let_2) (tptp.subevent_2 _let_7 _let_1) (tptp.agent_2 _let_7 _let_6) (tptp.has_part_2 _let_6 _let_8) (tptp.has_part_2 _let_6 _let_11) (tptp.has_state_2 _let_10 _let_5) (tptp.raw_material_2 _let_1 _let_10) (tptp.has_function_2 _let_8 _let_1) (tptp.base_2 X _let_6) (tptp.base_2 _let_7 _let_6) (tptp.subevent_2 X _let_7) (tptp.result_2 _let_1 _let_5) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_1 _let_9) (= _let_7 (tptp.fn_cell_signaling_3 X)) (= _let_6 (tptp.fn_cell_signaling_4 X)) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_animal_cell_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_animal_cell_1 X))) (=> (tptp.cell_signaling_with_serine_threonine_kinase_in_animal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Serine-Threonine-Kinase-In-Animal-Cell'|) (tptp.user_description_2 X |tptp.'In animal cells, cell signaling which involves the activation of proteins through the phosphorylation of serine or threonine amino acids by serine-threonine kinase.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with serine threonine kinase in animal cell'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-serine-threonine-kinase-in-animal-cell'|) (tptp.cell_signaling_with_serine_threonine_kinase_1 X) (tptp.animal_cell_1 _let_2) (tptp.signal_reception_1 _let_1) (tptp.recipient_2 _let_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.base_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cell_signaling_4 X)) (= _let_1 (tptp.fn_cell_signaling_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_fungal_cell_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_fungal_cell_1 X))) (=> (tptp.cell_signaling_with_serine_threonine_kinase_in_fungal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Serine-Threonine-Kinase-In-Fungal-cell'|) (tptp.user_description_2 X |tptp.'In fungal cells, cell signaling which involves the activation of proteins through the phosphorylation of serine or threonine amino acids by serine-threonine kinase.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with serine threonine kinase in fungal cell'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-serine-threonine-kinase-in-fungal-cell'|) (tptp.cell_signaling_with_serine_threonine_kinase_1 X) (tptp.fungal_cell_1 _let_2) (tptp.signal_reception_1 _let_1) (tptp.recipient_2 _let_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.base_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cell_signaling_4 X)) (= _let_1 (tptp.fn_cell_signaling_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_plant_cell_2 X))) (let ((_let_2 (tptp.fn_cell_signaling_with_serine_threonine_kinase_in_plant_cell_1 X))) (=> (tptp.cell_signaling_with_serine_threonine_kinase_in_plant_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Serine-Threonine-Kinase-In-Plant-Cell'|) (tptp.user_description_2 X |tptp.'In plant cells, cell signaling which involves the activation of proteins through the phosphorylation of serine or threonine amino acids by serine-threonine kinase.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with serine threonine kinase in plant cell'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-serine-threonine-kinase-in-plant-cell'|) (tptp.cell_signaling_with_serine_threonine_kinase_1 X) (tptp.plant_cell_1 _let_2) (tptp.signal_reception_1 _let_1) (tptp.recipient_2 _let_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.base_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cell_signaling_4 X)) (= _let_1 (tptp.fn_cell_signaling_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_signal_amplification_6 X))) (let ((_let_2 (tptp.fn_signal_amplification_5 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_signal_amplification_8 X))) (let ((_let_4 (tptp.fn_signal_amplification_4 _let_1))) (let ((_let_5 (tptp.fn_cell_signaling_with_signal_amplification_7 X))) (let ((_let_6 (tptp.fn_signal_amplification_7 _let_1))) (let ((_let_7 (tptp.fn_cell_signaling_with_signal_amplification_4 X))) (let ((_let_8 (tptp.fn_cell_signaling_with_signal_amplification_5 X))) (let ((_let_9 (tptp.fn_cell_signaling_with_signal_amplification_1 X))) (=> (tptp.cell_signaling_with_signal_amplification_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Signal-Amplification'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which a series of amplification events greatly increase the resulting cellular response.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with signal amplification'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-signal-amplification'|) (tptp.chemical_signaling_1 X) (tptp.intensity_value_1 _let_9) (tptp.cellular_response_1 _let_7) (tptp.signal_transduction_1 _let_8) (tptp.signal_amplification_1 _let_1) (tptp.intensity_value_1 _let_5) (tptp.message_1 _let_3) (tptp.property_node_1 _let_6) (tptp.intensity_value_1 _let_4) (tptp.message_1 _let_2) (tptp.directly_proportional_2 _let_9 _let_5) (tptp.subevent_2 _let_8 _let_1) (tptp.intensity_2 _let_7 _let_9) (tptp.subevent_2 X _let_7) (tptp.next_event_2 _let_8 _let_7) (tptp.subevent_2 X _let_8) (tptp.result_2 _let_1 _let_3) (tptp.intensity_2 _let_3 _let_5) (= _let_8 (tptp.fn_chemical_signaling_8 X)) (= _let_7 (tptp.fn_chemical_signaling_6 X)) (= (tptp.fn_cell_signaling_with_signal_amplification_3 X) _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_sodium_ion_2 X))) (let ((_let_2 (tptp.fn_receptor_protein_5 _let_1))) (let ((_let_3 (tptp.fn_cell_signaling_with_ion_channel_receptor_30 X))) (let ((_let_4 (tptp.fn_polymer_4 _let_1))) (let ((_let_5 (tptp.fn_cell_signaling_with_ion_channel_receptor_31 X))) (let ((_let_6 (tptp.fn_cell_signaling_with_sodium_ion_11 X))) (let ((_let_7 (tptp.fn_ligand_gated_ion_channel_9 _let_6))) (let ((_let_8 (tptp.fn_gated_channel_20 _let_6))) (let ((_let_9 (tptp.fn_transport_protein_21 _let_6))) (let ((_let_10 (tptp.fn_gated_ion_channel_6 _let_6))) (let ((_let_11 (tptp.fn_cell_signaling_with_sodium_ion_10 X))) (let ((_let_12 (tptp.fn_cell_signaling_with_sodium_ion_5 X))) (let ((_let_13 (tptp.fn_cell_signaling_with_sodium_ion_6 X))) (let ((_let_14 (tptp.fn_cell_signaling_with_sodium_ion_7 X))) (let ((_let_15 (tptp.fn_cell_signaling_with_sodium_ion_12 X))) (let ((_let_16 (tptp.fn_cell_signaling_with_sodium_ion_13 X))) (let ((_let_17 (tptp.fn_cell_signaling_with_ion_channel_receptor_9 X))) (let ((_let_18 (tptp.fn_cell_signaling_with_sodium_ion_1 X))) (let ((_let_19 (tptp.fn_cell_signaling_with_ion_channel_receptor_8 X))) (let ((_let_20 (tptp.fn_cell_signaling_with_sodium_ion_16 X))) (let ((_let_21 (tptp.fn_cell_signaling_with_sodium_ion_4 X))) (let ((_let_22 (tptp.fn_cell_signaling_with_sodium_ion_3 X))) (let ((_let_23 (tptp.fn_cell_signaling_with_sodium_ion_14 X))) (let ((_let_24 (tptp.fn_cell_signaling_with_sodium_ion_15 X))) (let ((_let_25 (tptp.fn_cell_signaling_with_sodium_ion_9 X))) (let ((_let_26 (tptp.fn_move_1 _let_25))) (let ((_let_27 (tptp.fn_cell_signaling_with_sodium_ion_8 X))) (=> (tptp.cell_signaling_with_sodium_ion_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-Sodium-Ion'|) (tptp.user_description_2 X |tptp.'Process of signaling between and within cells which uses sodum ions as second messengers during signal transduction.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with sodium ion'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-sodium-ion'|) (tptp.cell_signaling_with_ion_channel_receptor_1 X) (tptp.transport_protein_1 _let_18) (tptp.cell_surface_receptor_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.polymer_1 _let_1) (tptp.receptor_protein_1 _let_1) (tptp.tangible_entity_1 _let_22) (tptp.membrane_protein_1 _let_22) (tptp.protein_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.spatial_entity_1 _let_21) (tptp.polymer_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.monomer_1 _let_12) (tptp.monomer_1 _let_13) (tptp.cell_1 _let_14) (tptp.sodium_ion_1 _let_27) (tptp.move_through_1 _let_25) (tptp.open_1 _let_11) (tptp.spatial_entity_1 _let_6) (tptp.membrane_protein_1 _let_6) (tptp.cell_surface_receptor_1 _let_6) (tptp.gated_channel_1 _let_6) (tptp.ligand_gated_ion_channel_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.transmembrane_protein_1 _let_6) (tptp.integral_protein_1 _let_6) (tptp.transport_protein_1 _let_6) (tptp.gated_ion_channel_1 _let_6) (tptp.signal_transduction_1 _let_15) (tptp.sodium_ion_1 _let_16) (tptp.monomer_1 _let_23) (tptp.spatial_entity_1 _let_24) (tptp.polymer_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.membrane_protein_1 _let_24) (tptp.protein_1 _let_24) (tptp.spatial_entity_1 _let_20) (tptp.polymer_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.membrane_protein_1 _let_20) (tptp.protein_1 _let_20) (tptp.spatial_entity_1 _let_26) (tptp.open_1 _let_10) (tptp.monomer_1 _let_9) (tptp.monomer_1 _let_8) (tptp.monomer_1 _let_7) (tptp.monomer_1 _let_4) (tptp.monomer_1 _let_2) (not (= _let_22 _let_21)) (not (= _let_22 _let_18)) (not (= _let_21 _let_22)) (not (= _let_21 _let_16)) (not (= _let_21 _let_18)) (tptp.called_2 _let_21 |tptp.'MP2'|) (tptp.path_2 _let_25 _let_6) (tptp.next_event_2 _let_11 _let_25) (not (= _let_6 _let_20)) (not (= _let_6 _let_24)) (tptp.agent_2 _let_15 _let_14) (tptp.subevent_2 _let_15 _let_25) (tptp.subevent_2 _let_15 _let_11) (not (= _let_16 _let_21)) (not (= _let_24 _let_6)) (not (= _let_24 _let_18)) (not (= _let_24 _let_20)) (tptp.called_2 _let_24 |tptp.'MP1'|) (not (= _let_20 _let_6)) (not (= _let_20 _let_24)) (not (= _let_18 _let_22)) (not (= _let_18 _let_21)) (not (= _let_18 _let_24)) (tptp.object_2 _let_25 _let_27) (not (= _let_16 _let_13)) (not (= _let_13 _let_16)) (not (= _let_16 _let_6)) (not (= _let_6 _let_16)) (not (= _let_12 _let_16)) (not (= _let_16 _let_12)) (not (= _let_16 _let_24)) (not (= _let_24 _let_16)) (tptp.complement_2 _let_1 _let_16) (tptp.complement_2 _let_16 _let_1) (tptp.complement_2 _let_16 _let_6) (tptp.complement_2 _let_6 _let_16) (not (= _let_1 _let_16)) (not (= _let_16 _let_1)) (not (= _let_23 _let_16)) (not (= _let_16 _let_23)) (not (= _let_22 _let_16)) (tptp.called_2 _let_22 |tptp.'MP1'|) (not (= _let_16 _let_22)) (not (= _let_20 _let_16)) (tptp.called_2 _let_20 |tptp.'MP2'|) (not (= _let_16 _let_20)) (not (= _let_1 _let_22)) (not (= _let_6 _let_22)) (tptp.has_part_2 _let_6 _let_23) (not (= _let_21 _let_1)) (not (= _let_1 _let_21)) (not (= _let_22 _let_1)) (not (= _let_22 _let_6)) (not (= _let_18 _let_1)) (not (= _let_1 _let_18)) (not (= _let_6 _let_1)) (not (= _let_21 _let_6)) (not (= _let_6 _let_21)) (not (= _let_1 _let_6)) (tptp.agent_2 X _let_16) (not (= _let_16 _let_18)) (not (= _let_18 _let_6)) (not (= _let_18 _let_16)) (not (= _let_20 _let_18)) (not (= _let_18 _let_20)) (not (= _let_6 _let_18)) (tptp.base_2 X _let_14) (tptp.base_2 _let_15 _let_14) (tptp.subevent_2 X _let_15) (tptp.object_2 _let_11 _let_6) (tptp.has_part_2 _let_1 _let_12) (tptp.has_part_2 _let_1 _let_13) (= _let_27 _let_26) (= _let_13 _let_5) (= _let_12 _let_3) (= _let_24 _let_19) (= _let_23 _let_9) (= _let_23 _let_8) (= _let_23 _let_7) (= _let_23 _let_5) (= _let_22 _let_17) (= _let_21 _let_19) (= _let_1 (tptp.fn_cell_signaling_with_ion_channel_receptor_7 X)) (= _let_6 (tptp.fn_cell_signaling_with_ion_channel_receptor_20 X)) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 (tptp.fn_cell_signaling_with_ion_channel_receptor_32 X)) (= _let_15 (tptp.fn_cell_signaling_3 X)) (= _let_14 (tptp.fn_cell_signaling_4 X)) (= _let_13 _let_4) (= _let_12 _let_2) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_signaling_with_was_protein_8 X))) (let ((_let_2 (tptp.fn_cellular_response_3 _let_1))) (let ((_let_3 (tptp.fn_intracellular_process_1 _let_1))) (let ((_let_4 (tptp.fn_cell_signaling_4 X))) (let ((_let_5 (tptp.fn_chemical_signaling_8 X))) (let ((_let_6 (tptp.fn_cell_signaling_3 X))) (let ((_let_7 (tptp.fn_chemical_signaling_7 X))) (let ((_let_8 (tptp.fn_cell_signaling_2 X))) (let ((_let_9 (tptp.fn_cell_signaling_with_was_protein_7 X))) (let ((_let_10 (tptp.fn_cellular_response_1 _let_1))) (let ((_let_11 (tptp.fn_cell_signaling_with_was_protein_6 X))) (let ((_let_12 (tptp.fn_cell_2 _let_9))) (let ((_let_13 (tptp.fn_cell_signaling_with_was_protein_5 X))) (let ((_let_14 (tptp.fn_cell_signaling_with_was_protein_4 X))) (let ((_let_15 (tptp.fn_cell_signaling_with_was_protein_3 X))) (let ((_let_16 (tptp.fn_cytoskeleton_2 _let_13))) (let ((_let_17 (tptp.fn_cell_signaling_with_was_protein_2 X))) (let ((_let_18 (tptp.fn_cell_signaling_with_was_protein_1 X))) (=> (tptp.cell_signaling_with_was_protein_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Signaling-With-WAS-Protein'|) (tptp.user_description_2 X |tptp.'The process of signal reception, signal transduction and cellular response in which WAS protein organizes the cytoskeleton so that the signal can be properly transducted.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'cell signaling with was protein'|) (tptp.concept2words_2 X |tptp.'cell-signaling-with-was-protein'|) (tptp.chemical_signaling_1 X) (tptp.interact_1 _let_18) (tptp.microfilament_1 _let_17) (tptp.signal_reception_1 _let_15) (tptp.signal_transduction_1 _let_14) (tptp.cytoskeleton_1 _let_13) (tptp.was_protein_1 _let_11) (tptp.cell_1 _let_9) (tptp.intracellular_process_1 _let_1) (tptp.cellular_response_1 _let_1) (tptp.microfilament_1 _let_16) (tptp.cytoskeleton_1 _let_12) (tptp.protein_1 _let_10) (tptp.cell_1 _let_3) (tptp.cell_1 _let_2) (tptp.agent_2 _let_1 _let_9) (tptp.subevent_2 _let_1 _let_18) (tptp.object_2 _let_18 _let_11) (tptp.base_2 _let_18 _let_17) (tptp.has_part_2 _let_13 _let_17) (tptp.base_2 _let_14 _let_9) (tptp.base_2 X _let_9) (tptp.base_2 _let_15 _let_9) (tptp.first_subevent_2 X _let_15) (tptp.subevent_2 X _let_14) (tptp.next_event_2 _let_14 _let_1) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_15) (tptp.next_event_2 _let_15 _let_14) (tptp.has_part_2 _let_9 _let_11) (tptp.base_2 _let_1 _let_9) (tptp.has_part_2 _let_9 _let_13) (= _let_17 _let_16) (= _let_14 _let_6) (= _let_15 _let_8) (= _let_9 _let_4) (= _let_15 _let_7) (= _let_1 (tptp.fn_chemical_signaling_6 X)) (= _let_14 _let_5) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_state_1 X) (and (tptp.original_name_2 X |tptp.'Cell-State'|) (tptp.user_description_2 X |tptp.'Cell states are specialized functions, properties, traits or abilities that cells have.'|) (tptp.concept2words_2 X |tptp.'state of cell'|) (tptp.concept2words_2 X |tptp.'state-of-cell'|) (tptp.concept2words_2 X |tptp.'cell state'|) (tptp.concept2words_2 X |tptp.'cell-state'|) (tptp.cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_surface_receptor_1 X))) (let ((_let_2 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_68 _let_1))) (=> (tptp.cell_surface_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Surface-Receptor'|) (tptp.user_description_2 X |tptp.'Receptor in cell signalling events which spans the plasma membrane.'|) (tptp.concept2words_2 X |tptp.'cell surface transmembrane receptor'|) (tptp.concept2words_2 X |tptp.'cell surface receptor'|) (tptp.concept2words_2 X |tptp.'cell-surface-receptor'|) (tptp.membrane_protein_1 X) (tptp.receptor_protein_1 X) (tptp.plasma_membrane_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.protein_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.polymer_1 _let_2) (tptp.is_across_2 X _let_1) (tptp.has_part_2 _let_1 X) (= X _let_3) (= X _let_2) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_survival_1 X))) (=> (tptp.cell_survival_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Survival'|) (tptp.user_description_2 X |tptp.'Osmoregulation supports cell survival.'|) (tptp.concept2words_2 X tptp.survive) (tptp.concept2words_2 X |tptp.'survival of cell'|) (tptp.concept2words_2 X |tptp.'cell survival'|) (tptp.concept2words_2 X |tptp.'cell-survival'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_wall_13 X))) (let ((_let_2 (tptp.fn_cell_30 _let_1))) (let ((_let_3 (tptp.fn_cell_wall_17 X))) (let ((_let_4 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_3))) (let ((_let_5 (tptp.fn_cell_wall_15 X))) (let ((_let_6 (tptp.fn_cell_wall_12 X))) (let ((_let_7 (tptp.fn_barrier_1 _let_6))) (let ((_let_8 (tptp.fn_cell_wall_16 X))) (let ((_let_9 (tptp.fn_block_1 _let_8))) (let ((_let_10 (tptp.fn_cell_wall_11 X))) (let ((_let_11 (tptp.fn_cell_wall_14 X))) (let ((_let_12 (tptp.fn_support_1 _let_11))) (let ((_let_13 (tptp.fn_cell_wall_4 X))) (let ((_let_14 (tptp.fn_cell_wall_7 X))) (let ((_let_15 (tptp.fn_cell_wall_8 X))) (let ((_let_16 (tptp.fn_cell_wall_5 X))) (let ((_let_17 (tptp.fn_cell_wall_6 X))) (let ((_let_18 (tptp.fn_cell_wall_9 X))) (let ((_let_19 (tptp.fn_cell_wall_2 X))) (=> (tptp.cell_wall_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Wall'|) (tptp.user_description_2 X |tptp.'A protective layer, external to the plasma membrane, found in plants, fungi, prokaryotes, and some unicellular protists. Cell walls are made from a variety of materials, including cellulose (in plants), peptidoglycan (in bacteria), chitin (fungi), and silica (diatoms).'|) (tptp.concept2words_2 X |tptp.'wall of cell'|) (tptp.concept2words_2 X |tptp.'cell wall'|) (tptp.concept2words_2 X |tptp.'cell-wall'|) (tptp.cellular_structure_1 X) (tptp.intensity_value_1 _let_19) (tptp.flexibility_value_1 _let_13) (tptp.carbohydrate_1 _let_16) (tptp.protein_1 _let_17) (tptp.block_1 _let_14) (tptp.defense_1 _let_15) (tptp.intensity_value_1 _let_18) (tptp.tangible_entity_1 _let_10) (tptp.barrier_1 _let_6) (tptp.tangible_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.support_1 _let_11) (tptp.membrane_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.plasma_membrane_1 _let_5) (tptp.block_1 _let_8) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_3) (tptp.tangible_entity_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.membrane_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_2) (tptp.greater_than_2 _let_18 _let_19) (tptp.instrument_2 _let_8 X) (tptp.intensity_2 _let_5 _let_19) (tptp.object_2 _let_15 _let_1) (tptp.agent_2 _let_15 X) (tptp.agent_2 _let_11 X) (tptp.intensity_2 X _let_18) (tptp.flexibility_2 X _let_13) (tptp.has_part_2 X _let_17) (tptp.has_part_2 X _let_16) (tptp.is_outside_2 X _let_5) (tptp.has_function_2 X _let_11) (tptp.has_function_2 X _let_15) (tptp.has_function_2 X _let_8) (tptp.has_part_2 _let_1 X) (tptp.instrument_2 _let_14 _let_1) (tptp.in_event_2 _let_6 _let_8) (tptp.the_categorical_value_2 _let_13 tptp.rigid_0) (tptp.object_2 _let_11 _let_1) (tptp.object_2 _let_8 _let_10) (tptp.path_2 _let_3 _let_5) (tptp.plays_2 X _let_6) (tptp.has_part_2 _let_1 _let_5) (= _let_1 _let_12) (= _let_10 _let_9) (= _let_5 _let_4) (= X _let_7) (= _let_5 _let_2) (= _let_4 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cell_wall_material_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Wall-Material'|) (tptp.user_description_2 X |tptp.'It is the building material of cell wall.'|) (tptp.concept2words_2 X |tptp.'building material of cell wall'|) (tptp.concept2words_2 X |tptp.'material of cell wall'|) (tptp.concept2words_2 X |tptp.'cell wall material'|) (tptp.concept2words_2 X |tptp.'cell-wall-material'|) (tptp.substance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cell_without_cell_wall_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Without-Cell-Wall'|) (tptp.user_description_2 X |tptp.'A cell that does not have a cell wall.'|) (tptp.concept2words_2 X |tptp.'wall less cell'|) (tptp.concept2words_2 X |tptp.'wall-less-cell'|) (tptp.concept2words_2 X |tptp.'cell without cell wall'|) (tptp.concept2words_2 X |tptp.'cell without cell-wall'|) (tptp.concept2words_2 X |tptp.'cell-without-cell-wall'|) (tptp.cell_state_1 X) (not (tptp.walled_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_14 X))) (let ((_let_2 (tptp.fn_hypotonic_solution_3 _let_1))) (let ((_let_3 (tptp.fn_aqueous_solution_14 _let_1))) (let ((_let_4 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_13 X))) (let ((_let_5 (tptp.fn_transfer_1 _let_4))) (let ((_let_6 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_12 X))) (let ((_let_7 (tptp.fn_contract_1 _let_6))) (let ((_let_8 (tptp.fn_lose_1 _let_4))) (let ((_let_9 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_11 X))) (let ((_let_10 (tptp.fn_passive_transport_1 _let_9))) (let ((_let_11 (tptp.fn_hypotonic_solution_7 _let_1))) (let ((_let_12 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_6 X))) (let ((_let_13 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_9 X))) (let ((_let_14 (tptp.fn_hypotonic_solution_6 _let_1))) (let ((_let_15 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_8 X))) (let ((_let_16 (tptp.fn_hypotonic_solution_8 _let_1))) (let ((_let_17 (tptp.fn_hypotonic_solution_2 _let_1))) (let ((_let_18 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_15 X))) (let ((_let_19 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_25 X))) (let ((_let_20 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_22 X))) (let ((_let_21 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_17 X))) (let ((_let_22 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_16 X))) (let ((_let_23 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_19 X))) (let ((_let_24 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_24 X))) (let ((_let_25 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_23 X))) (let ((_let_26 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_20 X))) (let ((_let_27 (tptp.fn_osmosis_21 _let_9))) (let ((_let_28 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_10 X))) (let ((_let_29 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_21 X))) (let ((_let_30 (tptp.fn_passive_transport_of_solute_3 _let_29))) (let ((_let_31 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_18 X))) (let ((_let_32 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_2 X))) (let ((_let_33 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_1 X))) (let ((_let_34 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_3 X))) (let ((_let_35 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_4 X))) (let ((_let_36 (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_5 X))) (=> (tptp.cell_without_cell_wall_inside_hypertonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Without-Cell-Wall-Inside-Hypertonic-Solution'|) (tptp.user_description_2 X |tptp.'This is a condition in which a non walled cell is placed inside hypertonic solution'|) (tptp.concept2words_2 X |tptp.'cell without cell wall inside hypertonic solution'|) (tptp.concept2words_2 X |tptp.'cell without cell-wall inside hypertonic solution'|) (tptp.concept2words_2 X |tptp.'cell-without-cell-wall-inside-hypertonic-solution'|) (tptp.cell_without_cell_wall_1 X) (tptp.extra_cellular_matrix_1 _let_33) (tptp.damaged_cell_1 _let_32) (tptp.metabolism_1 _let_34) (tptp.organic_molecule_1 _let_35) (tptp.resource_1 _let_36) (tptp.chemical_1 _let_12) (tptp.concentration_value_1 _let_15) (tptp.entity_1 _let_13) (tptp.chemical_1 _let_13) (tptp.water_1 _let_13) (tptp.move_through_1 _let_28) (tptp.osmosis_1 _let_9) (tptp.contract_1 _let_6) (tptp.lose_1 _let_4) (tptp.hypotonic_solution_1 _let_1) (tptp.hypertonic_solution_1 _let_18) (tptp.plasma_membrane_1 _let_22) (tptp.mixture_1 _let_21) (tptp.cytoplasm_1 _let_21) (tptp.membrane_potential_1 _let_31) (tptp.tangible_entity_1 _let_23) (tptp.phospholipid_bilayer_1 _let_23) (tptp.surface_1 _let_26) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_29) (tptp.substance_1 _let_20) (tptp.cytosol_1 _let_20) (tptp.size_value_1 _let_25) (tptp.volume_value_1 _let_24) (tptp.ribosome_1 _let_19) (tptp.gradient_1 _let_30) (tptp.concentration_gradient_1 _let_30) (tptp.move_through_1 _let_27) (tptp.hypertonic_solution_1 _let_17) (tptp.property_node_1 _let_16) (tptp.concentration_value_1 _let_14) (tptp.chemical_1 _let_11) (tptp.cell_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.water_1 _let_3) (tptp.chemical_1 _let_2) (tptp.water_1 _let_2) (tptp.is_across_2 _let_31 _let_22) (tptp.in_event_2 _let_36 _let_34) (tptp.plays_2 _let_35 _let_36) (tptp.raw_material_2 _let_34 _let_35) (tptp.site_2 _let_34 _let_21) (tptp.is_outside_2 _let_18 X) (tptp.is_inside_2 X _let_18) (tptp.is_inside_2 _let_1 X) (tptp.is_outside_2 _let_33 X) (tptp.causes_2 _let_4 _let_6) (tptp.result_2 _let_6 _let_32) (tptp.causes_2 _let_9 _let_4) (tptp.object_2 _let_9 _let_13) (tptp.base_2 _let_28 X) (tptp.concentration_2 _let_13 _let_15) (tptp.object_2 _let_4 _let_13) (tptp.agent_2 _let_29 _let_31) (tptp.base_2 _let_9 X) (tptp.donor_2 _let_4 X) (tptp.subevent_2 _let_9 _let_28) (tptp.base_2 _let_6 X) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_21) (tptp.volume_2 X _let_24) (tptp.directly_proportional_2 _let_25 _let_24) (tptp.size_2 X _let_25) (tptp.has_region_2 X _let_26) (tptp.is_at_2 _let_23 _let_26) (tptp.has_part_2 X _let_19) (tptp.is_inside_2 _let_19 _let_20) (tptp.has_part_2 _let_21 _let_20) (tptp.is_inside_2 _let_21 _let_22) (tptp.has_part_2 _let_22 _let_23) (tptp.has_part_2 _let_1 _let_13) (tptp.has_solvent_2 _let_1 _let_13) (tptp.has_part_2 _let_1 _let_12) (tptp.is_hypertonic_to_2 _let_18 _let_1) (tptp.is_hypotonic_to_2 _let_1 _let_18) (tptp.has_solute_2 _let_1 _let_12) (tptp.concentration_2 _let_12 _let_15) (not (= _let_13 _let_12)) (not (= _let_12 _let_13)) (= _let_13 _let_5) (= _let_31 _let_30) (= X _let_10) (= X _let_8) (= _let_28 _let_27) (= X _let_7) (= (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_26 X) (tptp.fn_cell_23 X)) (= (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_27 X) (tptp.fn_cell_10 X)) (= _let_26 (tptp.fn_cell_4 X)) (= _let_25 (tptp.fn_cell_11 X)) (= _let_24 (tptp.fn_cell_22 X)) (= _let_23 (tptp.fn_cell_26 X)) (= _let_22 (tptp.fn_cell_30 X)) (= _let_21 (tptp.fn_cell_28 X)) (= _let_20 (tptp.fn_cell_29 X)) (= _let_19 (tptp.fn_cell_14 X)) (= _let_18 _let_17) (= _let_13 _let_3) (= (tptp.fn_cell_without_cell_wall_inside_hypertonic_solution_7 X) _let_16) (= _let_15 _let_14) (= _let_13 _let_2) (= _let_12 _let_11) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_30 X))) (let ((_let_2 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_27 X))) (let ((_let_3 (tptp.fn_passive_transport_25 _let_2))) (let ((_let_4 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_25 X))) (let ((_let_5 (tptp.fn_plasma_membrane_71 _let_4))) (let ((_let_6 (tptp.fn_biomembrane_63 _let_4))) (let ((_let_7 (tptp.fn_cell_26 X))) (let ((_let_8 (tptp.fn_plasma_membrane_74 _let_4))) (let ((_let_9 (tptp.fn_passive_transport_24 _let_2))) (let ((_let_10 (tptp.fn_plasma_membrane_3 _let_4))) (let ((_let_11 (tptp.fn_plasma_membrane_4 _let_4))) (let ((_let_12 (tptp.fn_passive_transport_21 _let_2))) (let ((_let_13 (tptp.fn_plasma_membrane_66 _let_4))) (let ((_let_14 (tptp.fn_cell_27 X))) (let ((_let_15 (tptp.fn_plasma_membrane_65 _let_4))) (let ((_let_16 (tptp.fn_biomembrane_41 _let_4))) (let ((_let_17 (tptp.fn_passive_transport_1 _let_2))) (let ((_let_18 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_24 X))) (let ((_let_19 (tptp.fn_expand_1 _let_18))) (let ((_let_20 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_28 X))) (let ((_let_21 (tptp.fn_impair_1 _let_20))) (let ((_let_22 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_21 X))) (let ((_let_23 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_26 X))) (let ((_let_24 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_19 X))) (let ((_let_25 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_26 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_20 X))) (let ((_let_27 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_17 X))) (let ((_let_28 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_29 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_22 X))) (let ((_let_30 (tptp.fn_plasma_membrane_55 _let_4))) (let ((_let_31 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_14 X))) (let ((_let_32 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_16 X))) (let ((_let_33 (tptp.fn_plasma_membrane_34 _let_4))) (let ((_let_34 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_23 X))) (let ((_let_35 (tptp.fn_plasma_membrane_6 _let_4))) (let ((_let_36 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_15 X))) (let ((_let_37 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_35 X))) (let ((_let_38 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_34 X))) (let ((_let_39 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_33 X))) (let ((_let_40 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_11 X))) (let ((_let_41 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_13 X))) (let ((_let_42 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_12 X))) (let ((_let_43 (tptp.fn_passive_transport_20 _let_2))) (let ((_let_44 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_18 X))) (let ((_let_45 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_29 X))) (let ((_let_46 (tptp.fn_hypertonic_solution_6 _let_45))) (let ((_let_47 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_30 X))) (let ((_let_48 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_31 X))) (let ((_let_49 (tptp.fn_passive_transport_of_solute_3 _let_48))) (let ((_let_50 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_32 X))) (let ((_let_51 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_1 X))) (let ((_let_52 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_8 X))) (let ((_let_53 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_7 X))) (let ((_let_54 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_5 X))) (let ((_let_55 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_4 X))) (let ((_let_56 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_6 X))) (let ((_let_57 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_2 X))) (let ((_let_58 (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_3 X))) (=> (tptp.cell_without_cell_wall_inside_hypotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Without-Cell-Wall-Inside-Hypotonic-Solution'|) (tptp.user_description_2 X |tptp.'This is the condition in which the unwalled cell is placed inside hypotonic solution'|) (tptp.concept2words_2 X |tptp.'cell without cell wall inside hypotonic solution'|) (tptp.concept2words_2 X |tptp.'cell without cell-wall inside hypotonic solution'|) (tptp.concept2words_2 X |tptp.'cell-without-cell-wall-inside-hypotonic-solution'|) (tptp.cell_without_cell_wall_1 X) (tptp.metabolism_1 _let_51) (tptp.hydrophilic_face_1 _let_57) (tptp.extra_cellular_matrix_1 _let_58) (tptp.spatial_entity_1 _let_55) (tptp.spatial_entity_1 _let_54) (tptp.dead_cell_1 _let_56) (tptp.organic_molecule_1 _let_53) (tptp.resource_1 _let_52) (tptp.surface_1 _let_40) (tptp.size_value_1 _let_42) (tptp.volume_value_1 _let_41) (tptp.tangible_entity_1 _let_31) (tptp.transmembrane_protein_1 _let_31) (tptp.integral_protein_1 _let_31) (tptp.transport_protein_1 _let_31) (tptp.hydrophobic_core_1 _let_36) (tptp.outside_face_1 _let_32) (tptp.extracellular_side_1 _let_32) (tptp.surface_1 _let_27) (tptp.cytoplasmic_side_1 _let_27) (tptp.attach_1 _let_44) (tptp.membrane_protein_1 _let_24) (tptp.tangible_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.protein_1 _let_26) (tptp.tangible_entity_1 _let_22) (tptp.phospholipid_bilayer_1 _let_22) (tptp.tangible_entity_1 _let_29) (tptp.membrane_protein_1 _let_29) (tptp.protein_1 _let_29) (tptp.spatial_entity_1 _let_29) (tptp.polymer_1 _let_29) (tptp.glycoprotein_1 _let_34) (tptp.expand_1 _let_18) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.move_through_1 _let_23) (tptp.move_1 _let_23) (tptp.osmosis_1 _let_2) (tptp.lyse_1 _let_20) (tptp.hypertonic_solution_1 _let_45) (tptp.hypotonic_solution_1 _let_47) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_48) (tptp.membrane_potential_1 _let_50) (tptp.mixture_1 _let_39) (tptp.cytoplasm_1 _let_39) (tptp.substance_1 _let_38) (tptp.cytosol_1 _let_38) (tptp.ribosome_1 _let_37) (tptp.gradient_1 _let_49) (tptp.concentration_gradient_1 _let_49) (tptp.hypotonic_solution_1 _let_46) (tptp.attach_1 _let_43) (tptp.hydrophobic_core_1 _let_35) (tptp.glycoprotein_1 _let_33) (tptp.tangible_entity_1 _let_30) (tptp.transmembrane_protein_1 _let_30) (tptp.integral_protein_1 _let_30) (tptp.transport_protein_1 _let_30) (tptp.tangible_entity_1 _let_28) (tptp.membrane_protein_1 _let_28) (tptp.protein_1 _let_28) (tptp.spatial_entity_1 _let_28) (tptp.polymer_1 _let_28) (tptp.tangible_entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.protein_1 _let_25) (tptp.tangible_entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.cell_1 _let_17) (tptp.outside_face_1 _let_16) (tptp.extracellular_side_1 _let_15) (tptp.cytoplasmic_side_1 _let_13) (tptp.membrane_protein_1 _let_12) (tptp.membrane_protein_1 _let_11) (tptp.membrane_protein_1 _let_10) (tptp.move_through_1 _let_9) (tptp.move_through_1 _let_8) (tptp.move_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.phospholipid_bilayer_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.phospholipid_bilayer_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.raw_material_2 _let_51 _let_53) (tptp.site_2 _let_51 _let_39) (tptp.is_inside_2 _let_57 _let_4) (not (= _let_31 _let_26)) (not (= _let_26 _let_31)) (tptp.called_2 _let_26 |tptp.'MP2'|) (tptp.called_2 _let_29 |tptp.'MP1'|) (tptp.causes_2 _let_18 _let_20) (tptp.is_outside_2 _let_58 X) (tptp.is_outside_2 _let_58 _let_4) (tptp.has_region_2 _let_4 _let_57) (tptp.causes_2 _let_2 _let_18) (tptp.result_2 _let_20 _let_56) (tptp.is_inside_2 _let_45 X) (tptp.is_inside_2 X _let_47) (tptp.is_between_2 X _let_55) (tptp.is_between_2 X _let_54) (tptp.is_outside_2 _let_47 X) (tptp.is_across_2 _let_50 _let_4) (tptp.plays_2 _let_53 _let_52) (tptp.in_event_2 _let_52 _let_51) (tptp.agent_2 _let_48 _let_50) (tptp.object_2 _let_20 X) (tptp.base_2 _let_18 X) (tptp.is_hypotonic_to_2 _let_47 _let_45) (tptp.is_hypertonic_to_2 _let_45 _let_47) (tptp.base_2 _let_2 X) (tptp.subevent_2 _let_2 _let_23) (tptp.path_2 _let_2 _let_4) (tptp.base_2 _let_44 _let_4) (tptp.object_2 _let_44 _let_24) (tptp.size_2 X _let_42) (tptp.volume_2 X _let_41) (tptp.directly_proportional_2 _let_42 _let_41) (tptp.is_facing_2 _let_27 _let_39) (tptp.is_oriented_toward_2 _let_27 _let_39) (tptp.has_part_2 X _let_39) (tptp.has_region_2 X _let_40) (tptp.is_at_2 _let_22 _let_40) (tptp.has_part_2 X _let_37) (tptp.is_inside_2 _let_37 _let_38) (tptp.has_part_2 _let_39 _let_38) (tptp.is_inside_2 _let_39 _let_4) (tptp.has_part_2 X _let_4) (tptp.is_outside_2 _let_32 _let_4) (tptp.has_region_2 _let_4 _let_32) (tptp.is_across_2 _let_31 _let_4) (tptp.is_across_2 _let_31 _let_36) (tptp.has_region_2 _let_4 _let_36) (not (= _let_31 _let_29)) (not (= _let_29 _let_31)) (tptp.is_inside_2 _let_31 _let_22) (tptp.is_inside_2 _let_34 _let_22) (tptp.has_part_2 _let_4 _let_34) (not (= _let_26 _let_29)) (not (= _let_29 _let_26)) (tptp.has_region_2 _let_31 _let_32) (tptp.has_part_2 _let_4 _let_31) (tptp.has_part_2 _let_4 _let_29) (tptp.has_region_2 _let_4 _let_27) (tptp.has_part_2 _let_4 _let_26) (tptp.is_at_2 _let_24 _let_4) (tptp.base_2 _let_23 _let_4) (tptp.has_part_2 _let_4 _let_22) (= _let_50 _let_49) (= X _let_21) (= X _let_19) (= _let_47 _let_46) (= X _let_17) (= _let_23 _let_9) (= _let_24 _let_12) (= _let_44 _let_43) (= _let_4 _let_3) (= (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_10 X) (tptp.fn_cell_23 X)) (= (tptp.fn_cell_without_cell_wall_inside_hypotonic_solution_9 X) (tptp.fn_cell_10 X)) (= _let_42 (tptp.fn_cell_11 X)) (= _let_41 (tptp.fn_cell_22 X)) (= _let_22 _let_7) (= _let_40 (tptp.fn_cell_4 X)) (= _let_27 _let_14) (= _let_4 _let_1) (= _let_39 (tptp.fn_cell_28 X)) (= _let_38 (tptp.fn_cell_29 X)) (= _let_37 (tptp.fn_cell_14 X)) (= _let_32 _let_16) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_15) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_27 _let_13) (= _let_26 _let_25) (= _let_24 _let_11) (= _let_24 _let_10) (= _let_23 _let_8) (= _let_22 _let_6) (= _let_22 _let_5) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_12 X))) (let ((_let_2 (tptp.fn_take_in_1 _let_1))) (let ((_let_3 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_13 X))) (let ((_let_4 (tptp.fn_lose_1 _let_3))) (let ((_let_5 (tptp.fn_cell_30 X))) (let ((_let_6 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_19 X))) (let ((_let_7 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_6))) (let ((_let_8 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_21 X))) (let ((_let_9 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_20 X))) (let ((_let_10 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_18 X))) (let ((_let_11 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_17 X))) (let ((_let_12 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_11 X))) (let ((_let_13 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_10 X))) (let ((_let_14 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_16 X))) (let ((_let_15 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_15 X))) (let ((_let_16 (tptp.fn_transfer_1 _let_3))) (let ((_let_17 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_14 X))) (let ((_let_18 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_7 X))) (let ((_let_19 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_9 X))) (let ((_let_20 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_8 X))) (let ((_let_21 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_6 X))) (let ((_let_22 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_4 X))) (let ((_let_23 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_5 X))) (let ((_let_24 (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_3 X))) (=> (tptp.cell_without_cell_wall_inside_isotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Cell-Without-Cell-Wall-Inside-Isotonic-Solution'|) (tptp.user_description_2 X |tptp.'This is a situation in which in the unwalled cell is placed inside isotonic solution.'|) (tptp.concept2words_2 X |tptp.'cell without cell wall inside isotonic solution'|) (tptp.concept2words_2 X |tptp.'cell without cell-wall inside isotonic solution'|) (tptp.concept2words_2 X |tptp.'cell-without-cell-wall-inside-isotonic-solution'|) (tptp.cell_without_cell_wall_1 X) (tptp.extra_cellular_matrix_1 _let_24) (tptp.rate_value_1 _let_22) (tptp.rate_value_1 _let_23) (tptp.isotonic_solution_1 _let_21) (tptp.metabolism_1 _let_18) (tptp.organic_molecule_1 _let_20) (tptp.resource_1 _let_19) (tptp.surface_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.take_in_1 _let_1) (tptp.lose_1 _let_3) (tptp.water_1 _let_17) (tptp.size_value_1 _let_15) (tptp.volume_value_1 _let_14) (tptp.membrane_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.plasma_membrane_1 _let_11) (tptp.mixture_1 _let_10) (tptp.cytoplasm_1 _let_10) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_6) (tptp.substance_1 _let_9) (tptp.cytosol_1 _let_9) (tptp.ribosome_1 _let_8) (tptp.entity_1 _let_16) (tptp.membrane_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.is_outside_2 _let_24 X) (tptp.origin_2 _let_1 _let_21) (tptp.rate_2 _let_1 _let_23) (tptp.rate_2 _let_3 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (tptp.is_inside_2 X _let_21) (tptp.site_2 _let_18 _let_10) (tptp.raw_material_2 _let_18 _let_20) (tptp.plays_2 _let_20 _let_19) (tptp.in_event_2 _let_19 _let_18) (tptp.object_2 _let_3 _let_17) (tptp.path_2 _let_6 _let_11) (tptp.donor_2 _let_3 X) (tptp.agent_2 _let_1 X) (tptp.base_2 _let_1 X) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_10) (tptp.is_at_2 _let_12 _let_13) (tptp.has_region_2 X _let_13) (tptp.volume_2 X _let_14) (tptp.directly_proportional_2 _let_15 _let_14) (tptp.size_2 X _let_15) (tptp.has_part_2 X _let_8) (tptp.is_inside_2 _let_8 _let_9) (tptp.has_part_2 _let_10 _let_9) (tptp.is_inside_2 _let_10 _let_11) (tptp.has_part_2 _let_11 _let_12) (= _let_17 _let_16) (= _let_11 _let_7) (= X _let_4) (= X _let_2) (= (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_22 X) (tptp.fn_cell_10 X)) (= (tptp.fn_cell_without_cell_wall_inside_isotonic_solution_23 X) (tptp.fn_cell_23 X)) (= _let_15 (tptp.fn_cell_11 X)) (= _let_14 (tptp.fn_cell_22 X)) (= _let_13 (tptp.fn_cell_4 X)) (= _let_12 (tptp.fn_cell_26 X)) (= _let_11 _let_5) (= _let_10 (tptp.fn_cell_28 X)) (= _let_9 (tptp.fn_cell_29 X)) (= _let_8 (tptp.fn_cell_14 X)) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_cloning_1 X))) (let ((_let_2 (tptp.fn_clone_2 _let_1))) (=> (tptp.cellular_cloning_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Cloning'|) (tptp.user_description_2 X |tptp.'Cloning a cell means to derive a population of cells from a single cell.'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cellular cloning'|) (tptp.concept2words_2 X |tptp.'cellular-cloning'|) (tptp.cloning_1 X) (tptp.cell_1 _let_1) (tptp.clone_1 _let_1) (tptp.cloning_1 _let_2) (tptp.result_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_fluid_2 X))) (let ((_let_2 (tptp.fn_cellular_fluid_1 X))) (=> (tptp.cellular_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Fluid'|) (tptp.user_description_2 X |tptp.'Fluid or semi-fluid components of the interior of cells and cellular organelles.'|) (tptp.concept2words_2 X |tptp.'cellular fluid'|) (tptp.concept2words_2 X |tptp.'cellular-fluid'|) (tptp.biological_fluid_1 X) (tptp.hydrophilic_compound_1 _let_2) (tptp.size_value_1 _let_1) (tptp.the_scalar_value_2 _let_1 tptp.big_0) (tptp.scalar_unit_class_2 _let_1 tptp.molecule_0) (tptp.has_part_2 X _let_2) (tptp.size_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_movement_8 X))) (let ((_let_2 (tptp.fn_cytoskeleton_9 _let_1))) (let ((_let_3 (tptp.fn_cellular_movement_6 X))) (let ((_let_4 (tptp.fn_cell_29 _let_3))) (let ((_let_5 (tptp.fn_cytoskeleton_8 _let_1))) (let ((_let_6 (tptp.fn_cell_14 _let_3))) (let ((_let_7 (tptp.fn_cytoskeleton_6 _let_1))) (let ((_let_8 (tptp.fn_cellular_movement_5 X))) (let ((_let_9 (tptp.fn_move_1 _let_8))) (let ((_let_10 (tptp.fn_cellular_movement_3 X))) (let ((_let_11 (tptp.fn_cellular_movement_4 X))) (let ((_let_12 (tptp.fn_cytoskeleton_5 _let_1))) (let ((_let_13 (tptp.fn_cellular_movement_2 X))) (let ((_let_14 (tptp.fn_cellular_movement_7 X))) (let ((_let_15 (tptp.fn_motor_protein_14 _let_14))) (let ((_let_16 (tptp.fn_cell_2 _let_3))) (let ((_let_17 (tptp.fn_cellular_movement_1 X))) (=> (tptp.cellular_movement_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Movement'|) (tptp.user_description_2 X |tptp.'Cell movement refers to all types of movement at the cellular level e.g Cellular locomotion.'|) (tptp.concept2words_2 X |tptp.'cell motility'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X |tptp.'cell movement'|) (tptp.concept2words_2 X |tptp.'cellular movement'|) (tptp.concept2words_2 X |tptp.'cellular-movement'|) (tptp.cellular_process_1 X) (tptp.fiber_1 _let_17) (tptp.support_1 _let_13) (tptp.substance_1 _let_10) (tptp.cytosol_1 _let_10) (tptp.ribosome_1 _let_11) (tptp.move_1 _let_8) (tptp.eukaryotic_cell_1 _let_3) (tptp.motor_protein_1 _let_14) (tptp.cytoskeleton_1 _let_1) (tptp.cytoskeleton_1 _let_16) (tptp.move_1 _let_15) (tptp.support_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.cell_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.ribosome_1 _let_6) (tptp.ribosome_1 _let_5) (tptp.substance_1 _let_4) (tptp.cytosol_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.agent_2 _let_8 _let_1) (tptp.path_2 _let_8 _let_17) (tptp.object_2 X _let_3) (tptp.by_means_of_2 X _let_8) (tptp.agent_2 X _let_1) (tptp.is_outside_2 _let_17 _let_3) (tptp.has_function_2 _let_1 X) (tptp.object_2 _let_8 _let_3) (tptp.has_part_2 _let_3 _let_1) (tptp.agent_2 _let_8 _let_14) (tptp.is_inside_2 _let_1 _let_10) (tptp.is_inside_2 _let_11 _let_10) (tptp.has_part_2 _let_3 _let_11) (tptp.object_2 _let_13 _let_3) (tptp.has_function_2 _let_1 _let_13) (= _let_3 _let_9) (= _let_1 _let_16) (= _let_8 _let_15) (= _let_13 _let_12) (= _let_3 _let_7) (= _let_11 _let_6) (= _let_10 _let_4) (= _let_11 _let_5) (= _let_10 _let_2) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cellular_potency_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Potency'|) (tptp.user_description_2 X |tptp.'The degree to which a stem cell or mast cell can produce specialized daughter cells.'|) (tptp.concept2words_2 X |tptp.'cellular potency'|) (tptp.concept2words_2 X |tptp.'cellular-potency'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Process'|) (tptp.user_description_2 X |tptp.'Any process occurring at the cellular level.'|) (tptp.concept2words_2 X |tptp.'cellular activity'|) (tptp.concept2words_2 X |tptp.'undergo cellular process'|) (tptp.concept2words_2 X |tptp.'cellular process'|) (tptp.concept2words_2 X |tptp.'cellular-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cellular_recycling_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Recycling'|) (tptp.user_description_2 X |tptp.'A process that uses the same molecule over and over to repeat reactions within cells, such as the recharging and re-use of ATP.'|) (tptp.concept2words_2 X tptp.recycle) (tptp.concept2words_2 X |tptp.'cellular recycling'|) (tptp.concept2words_2 X |tptp.'cellular-recycling'|) (tptp.intracellular_process_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.cellular_recycling_1 X) (tptp.atp_1 X1)) (and (tptp.cellular_recycling_of_atp_1 X) (= (tptp.fn_cellular_recycling_of_atp_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_recycling_of_atp_3 X))) (let ((_let_2 (tptp.fn_cellular_recycling_of_atp_4 X))) (let ((_let_3 (tptp.fn_cellular_recycling_of_atp_2 X))) (let ((_let_4 (tptp.fn_cellular_recycling_of_atp_5 X))) (let ((_let_5 (tptp.fn_cellular_recycling_of_atp_6 X))) (=> (tptp.cellular_recycling_of_atp_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Recycling-Of-ATP'|) (tptp.user_description_2 X |tptp.'Cells recycle the ATP they use for work.'|) (tptp.concept2words_2 X |tptp.'atp recycling'|) (tptp.concept2words_2 X |tptp.'recycling of atp'|) (tptp.concept2words_2 X tptp.recycle) (tptp.concept2words_2 X |tptp.'cellular recycling of atp'|) (tptp.concept2words_2 X |tptp.'cellular-recycling-of-atp'|) (tptp.cellular_recycling_1 X) (not (tptp.recycling_of_amino_acid_1 X)) (tptp.work_1 _let_3) (tptp.energy_1 _let_1) (tptp.atp_1 _let_2) (tptp.catabolism_1 _let_4) (tptp.anabolism_1 _let_5) (tptp.object_2 X _let_2) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_4) (tptp.raw_material_2 _let_3 _let_2) (tptp.possesses_2 _let_2 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.cellular_region_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Region'|) (tptp.description_2 X |tptp.'A region of an cellular entity.'|) (tptp.user_description_2 X |tptp.'A region of a cellular or subcellular entity.'|) (tptp.concept2words_2 X |tptp.'cellular region'|) (tptp.concept2words_2 X |tptp.'cellular-region'|) (tptp.biological_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_62 X))) (let ((_let_2 (tptp.fn_citric_acid_cycle_72 _let_1))) (let ((_let_3 (tptp.fn_citric_acid_cycle_106 _let_1))) (let ((_let_4 (tptp.fn_citric_acid_cycle_107 _let_1))) (let ((_let_5 (tptp.fn_citric_acid_cycle_115 _let_1))) (let ((_let_6 (tptp.fn_citric_acid_cycle_113 _let_1))) (let ((_let_7 (tptp.fn_citric_acid_cycle_108 _let_1))) (let ((_let_8 (tptp.fn_cellular_respiration_54 X))) (let ((_let_9 (tptp.fn_pyruvate_oxidation_87 _let_8))) (let ((_let_10 (tptp.fn_citric_acid_cycle_17 _let_1))) (let ((_let_11 (tptp.fn_cellular_respiration_59 X))) (let ((_let_12 (tptp.fn_waste_1 _let_11))) (let ((_let_13 (tptp.fn_citric_acid_cycle_12 _let_1))) (let ((_let_14 (tptp.fn_exergonic_reaction_6 X))) (let ((_let_15 (tptp.fn_citric_acid_cycle_109 _let_1))) (let ((_let_16 (tptp.fn_cellular_respiration_65 X))) (let ((_let_17 (tptp.fn_nad_plus_1 _let_16))) (let ((_let_18 (tptp.fn_cellular_respiration_60 X))) (let ((_let_19 (tptp.fn_glycolysis_74 _let_18))) (let 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_let_144) (tptp.carbohydrate_1 _let_144) (tptp.aldose_1 _let_144) (tptp.phosphorylation_1 _let_141) (tptp.isomerization_reaction_1 _let_137) (tptp.enzymatic_reaction_1 _let_135) (tptp.organic_molecule_1 _let_133) (tptp.chemical_entity_1 _let_133) (tptp.molecule_1 _let_133) (tptp.glyceraldehyde_3_phosphate_1 _let_133) (tptp.endergonic_process_1 _let_131) (tptp.chemical_reaction_1 _let_131) (tptp.synthesis_of_organic_molecule_1 _let_131) (tptp.anabolic_pathway_1 _let_131) (tptp.synthesis_of_atp_1 _let_131) (tptp.chemiosmosis_1 _let_129) (tptp.carry_1 _let_127) (tptp.carbon_skeleton_1 _let_125) (tptp.carbon_1 _let_123) (tptp.atom_1 _let_121) (tptp.chemical_entity_1 _let_121) (tptp.property_node_1 _let_120) (tptp.property_node_1 _let_118) (tptp.property_node_1 _let_117) (tptp.property_node_1 _let_116) (tptp.structural_complexity_value_1 _let_113) (tptp.quantity_value_1 _let_111) (tptp.quantity_value_1 _let_109) (tptp.free_energy_1 _let_107) (tptp.carbon_skeleton_1 _let_105) (tptp.chemical_bond_1 _let_102) (tptp.covalent_bond_1 _let_102) (tptp.property_node_1 _let_96) (tptp.atom_1 _let_91) (tptp.chemical_entity_1 _let_91) (tptp.entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.atom_1 _let_89) (tptp.carbon_1 _let_89) (tptp.carbon_skeleton_1 _let_87) (tptp.property_node_1 _let_86) (tptp.structural_complexity_value_1 _let_84) (tptp.oxaloacetate_1 _let_82) (tptp.property_node_1 _let_81) (tptp.structural_complexity_value_1 _let_79) (tptp.reactant_1 _let_75) (tptp.chemical_entity_1 _let_72) (tptp.tangible_entity_1 _let_69) (tptp.chemical_entity_1 _let_66) (tptp.organic_molecule_1 _let_65) (tptp.chemical_entity_1 _let_65) (tptp.pyruvate_1 _let_65) (tptp.pyruvate_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.atom_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.iron_1 _let_62) (tptp.organic_molecule_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.adp_1 _let_61) (tptp.molecule_1 _let_60) (tptp.organic_molecule_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.adp_1 _let_60) (tptp.chemical_entity_1 _let_59) (tptp.organic_molecule_1 _let_59) (tptp.adp_1 _let_59) (tptp.chemical_entity_1 _let_58) (tptp.organic_molecule_1 _let_57) (tptp.chemical_entity_1 _let_56) (tptp.organic_molecule_1 _let_56) (tptp.adp_1 _let_56) (tptp.free_energy_1 _let_55) (tptp.free_energy_1 _let_54) (tptp.structural_complexity_value_1 _let_53) (tptp.structural_complexity_value_1 _let_52) (tptp.structural_complexity_value_1 _let_51) (tptp.carbon_1 _let_50) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.carbon_1 _let_49) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.carbon_1 _let_48) (tptp.entity_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.atom_1 _let_47) (tptp.hydrogen_1 _let_47) (tptp.entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.hydrogen_1 _let_46) (tptp.oxygen_1 _let_45) (tptp.atom_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.oxygen_1 _let_44) (tptp.oxygen_1 _let_43) (tptp.oxygen_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.carbon_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.carbon_1 _let_40) (tptp.chemical_energy_1 _let_38) (tptp.chemical_energy_1 _let_37) (tptp.chemical_energy_1 _let_36) (tptp.remove_1 _let_35) (tptp.remove_1 _let_34) (tptp.organic_molecule_1 _let_33) (tptp.organic_molecule_1 _let_32) (tptp.molecule_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.ribonucleotide_1 _let_32) (tptp.nucleoside_triphosphate_1 _let_32) (tptp.atp_1 _let_32) (tptp.organic_molecule_1 _let_31) (tptp.molecule_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.ribonucleotide_1 _let_31) (tptp.nucleoside_triphosphate_1 _let_31) (tptp.atp_1 _let_31) (tptp.molecule_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.ribonucleotide_1 _let_30) (tptp.nucleoside_triphosphate_1 _let_30) (tptp.atp_1 _let_30) (tptp.atp_1 _let_28) (tptp.nad_plus_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.tangible_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.organic_molecule_1 _let_25) (tptp.nad_plus_1 _let_25) (tptp.molecule_1 _let_25) (tptp.nad_plus_1 _let_24) (tptp.structural_complexity_value_1 _let_23) (tptp.structural_complexity_value_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.organic_molecule_1 _let_19) (tptp.nadh_1 _let_19) (tptp.molecule_1 _let_19) (tptp.nadh_1 _let_17) (tptp.nadh_1 _let_15) (tptp.chemical_energy_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.carbon_dioxide_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.organic_molecule_1 _let_9) (tptp.molecule_1 _let_9) (tptp.acetyl_coa_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.organic_molecule_1 _let_7) (tptp.acetyl_coa_1 _let_7) (tptp.chemical_reaction_1 _let_6) (tptp.chemical_reaction_1 _let_5) (tptp.synthesis_reaction_1 _let_4) (tptp.chemical_reaction_1 _let_3) (tptp.synthesis_reaction_1 _let_2) (tptp.time_before_2 _let_163 _let_164) (tptp.time_before_2 _let_163 _let_163) (tptp.time_during_2 _let_138 _let_163) (tptp.time_before_2 _let_157 _let_162) (not (= _let_16 _let_156)) (tptp.the_scalar_value_2 _let_161 tptp.high_0) (tptp.scalar_unit_class_2 _let_161 tptp.event_0) (tptp.raw_material_2 _let_20 _let_153) (tptp.next_event_2 _let_1 _let_20) (tptp.time_during_2 _let_1 _let_162) (not (= _let_1 _let_18)) (tptp.rate_2 X _let_158) (tptp.importance_2 X _let_161) (tptp.first_subevent_2 X _let_18) (tptp.exactCardinality X tptp.raw_material_0 |"6"| tptp.oxygen_molecule_0) (tptp.exactCardinality X tptp.raw_material_0 |"1"| tptp.glucose_0) (tptp.raw_material_2 X _let_145) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_20) (tptp.subevent_2 X _let_18) (tptp.exactCardinality X tptp.result_0 |"6"| tptp.water_molecule_0) (tptp.exactCardinality X tptp.result_0 |"6"| tptp.carbon_dioxide_0) (tptp.exactCardinality X tptp.result_0 |"32"| tptp.atp_0) (tptp.result_2 X _let_94) (tptp.result_2 X _let_26) (tptp.result_2 X _let_160) (tptp.result_2 X _let_159) (tptp.result_2 X _let_77) (tptp.negative_influence_2 _let_155 _let_158) (not (= _let_18 _let_1)) (tptp.next_event_2 _let_18 _let_8) (tptp.result_2 _let_18 _let_77) (tptp.in_event_2 _let_11 X) (tptp.in_event_2 _let_68 X) (tptp.next_event_2 _let_8 _let_1) (tptp.time_during_2 _let_8 _let_157) (not (= _let_156 _let_16)) (tptp.quantity_2 _let_94 _let_155) (tptp.structural_complexity_2 _let_83 _let_85) (tptp.plays_2 _let_77 _let_11) (tptp.plays_2 _let_152 _let_68) (tptp.result_2 _let_20 _let_26) (tptp.plays_2 _let_153 _let_71) (tptp.recipient_2 _let_151 _let_153) (tptp.raw_material_2 X _let_153) (tptp.result_2 X _let_152) (tptp.possesses_2 _let_152 _let_78) (tptp.in_event_2 _let_71 _let_151) (tptp.result_2 _let_8 _let_74) (tptp.possesses_2 _let_74 _let_97) (tptp.has_region_2 _let_146 _let_148) (tptp.is_inside_2 _let_98 _let_148) (tptp.has_part_2 _let_146 _let_98) (tptp.has_region_2 _let_146 _let_39) (tptp.raw_material_2 _let_8 _let_146) (tptp.has_part_2 _let_146 _let_99) (not (= _let_99 _let_101)) (tptp.has_part_2 _let_146 _let_101) (tptp.has_part_2 _let_146 _let_100) (not (= _let_101 _let_99)) (tptp.raw_material_2 _let_136 _let_134) (tptp.possesses_2 _let_145 _let_97) (tptp.result_2 _let_18 _let_146) (tptp.raw_material_2 _let_142 _let_139) (tptp.raw_material_2 _let_138 _let_16) (tptp.raw_material_2 _let_18 _let_145) (tptp.structural_complexity_2 _let_145 _let_93) (tptp.the_scalar_value_2 _let_93 tptp.complex_0) (tptp.scalar_unit_class_2 _let_93 tptp.chemical_entity_0) (tptp.result_2 _let_18 _let_94) (tptp.raw_material_2 _let_18 _let_16) (tptp.has_part_2 _let_16 _let_143) (not (= _let_104 _let_143)) (not (= _let_143 _let_104)) (tptp.result_2 _let_142 _let_94) (tptp.raw_material_2 _let_142 _let_140) (tptp.raw_material_2 _let_18 _let_140) (not (= _let_140 _let_94)) (not (= _let_94 _let_140)) (tptp.raw_material_2 _let_18 _let_139) (not (= _let_94 _let_139)) (not (= _let_139 _let_94)) (not (= _let_140 _let_139)) (not (= _let_139 _let_140)) (tptp.raw_material_2 _let_136 _let_16) (tptp.result_2 _let_136 _let_26) (tptp.result_2 _let_138 _let_26) (not (= _let_138 _let_136)) (not (= _let_136 _let_138)) (tptp.result_2 _let_18 _let_26) (not (= _let_134 _let_26)) (not (= _let_16 _let_134)) (not (= _let_134 _let_16)) (not (= _let_26 _let_134)) (tptp.possesses_2 _let_132 _let_119) (tptp.result_2 _let_20 _let_94) (tptp.raw_material_2 _let_20 _let_132) (tptp.structural_complexity_2 _let_132 _let_115) (tptp.subevent_2 _let_20 _let_130) (tptp.subevent_2 _let_130 _let_29) (tptp.raw_material_2 _let_29 _let_132) (tptp.raw_material_2 _let_130 _let_132) (tptp.result_2 _let_130 _let_94) (tptp.has_function_2 _let_26 _let_128) (tptp.agent_2 _let_128 _let_26) (tptp.has_part_2 _let_26 _let_122) (not (= _let_122 _let_124)) (tptp.is_inside_2 _let_124 _let_126) (tptp.has_region_2 _let_26 _let_126) (tptp.has_part_2 _let_26 _let_124) (not (= _let_124 _let_122)) (tptp.quantity_2 _let_119 _let_112) (tptp.called_2 _let_110 |tptp.'FE_p'|) (tptp.structural_complexity_2 _let_94 _let_114) (tptp.greater_than_2 _let_114 _let_115) (tptp.result_2 _let_29 _let_94) (tptp.possesses_2 _let_94 _let_108) (tptp.quantity_2 _let_108 _let_110) (tptp.greater_than_2 _let_110 _let_112) (tptp.called_2 _let_112 |tptp.'FE_r'|) (tptp.has_region_2 _let_16 _let_106) (tptp.has_state_2 _let_16 _let_26) (tptp.has_state_2 _let_26 _let_16) (tptp.has_part_2 _let_16 _let_104) (tptp.has_oxidized_form_2 _let_26 _let_16) (tptp.has_reduced_form_2 _let_16 _let_26) (tptp.possesses_2 _let_16 _let_103) (tptp.is_between_2 _let_103 _let_104) (tptp.is_inside_2 _let_104 _let_106) (not (= _let_26 _let_16)) (not (= _let_16 _let_26)) (tptp.is_inside_2 _let_101 _let_39) (not (= _let_100 _let_101)) (not (= _let_99 _let_100)) (not (= _let_100 _let_99)) (not (= _let_101 _let_100)) (tptp.is_inside_2 _let_98 _let_39) (not (= _let_98 _let_99)) (tptp.is_inside_2 _let_99 _let_39) (tptp.is_inside_2 _let_100 _let_39) (not (= _let_100 _let_98)) (not (= _let_99 _let_98)) (not (= _let_98 _let_100)) (tptp.result_2 _let_1 _let_26) (tptp.possesses_2 _let_16 _let_97) (tptp.subevent_2 _let_73 _let_95) (tptp.base_2 _let_95 _let_74) (tptp.has_part_2 _let_74 _let_92) (tptp.greater_than_2 _let_93 _let_80) (tptp.structural_complexity_2 _let_16 _let_93) (tptp.raw_material_2 _let_1 _let_16) (tptp.result_2 _let_1 _let_94) (tptp.has_region_2 _let_74 _let_88) (tptp.is_inside_2 _let_90 _let_88) (tptp.has_part_2 _let_74 _let_90) (not (= _let_92 _let_90)) (not (= _let_90 _let_92)) (tptp.raw_material_2 _let_73 _let_83) (tptp.raw_material_2 _let_1 _let_83) (tptp.raw_material_2 _let_1 _let_74) (tptp.structural_complexity_2 _let_74 _let_85) (tptp.result_2 _let_1 _let_77) (tptp.possesses_2 _let_77 _let_78) (tptp.possesses_2 _let_26 _let_78) (tptp.structural_complexity_2 _let_26 _let_80) (tptp.subevent_2 _let_1 _let_73) (tptp.raw_material_2 _let_73 _let_74) (tptp.plays_2 _let_74 _let_76) (tptp.in_event_2 _let_76 _let_1) (tptp.first_subevent_2 _let_1 _let_73) (= _let_77 _let_12) (= _let_152 _let_69) (= _let_26 _let_21) (= _let_153 _let_72) (= _let_154 (tptp.fn_exergonic_reaction_3 X)) (= _let_153 _let_70) (= _let_78 _let_14) (= _let_152 _let_67) (= _let_151 _let_150) (= _let_97 _let_38) (= _let_74 _let_9) (= _let_146 _let_66) (= _let_39 _let_149) (= _let_98 _let_41) (= _let_148 _let_147) (= _let_100 _let_45) (= _let_101 _let_47) (= _let_99 _let_44) (= _let_146 _let_65) (= _let_97 _let_37) (= _let_146 _let_64) (= _let_93 _let_23) (= _let_145 _let_144) (= _let_143 _let_63) (= _let_104 _let_49) (= _let_143 _let_62) (= _let_140 _let_60) (= _let_142 _let_141) (= _let_140 _let_61) (= _let_140 _let_59) (= _let_139 _let_60) (= _let_94 _let_32) (= _let_139 _let_59) (= _let_138 _let_137) (= _let_136 _let_135) (= _let_16 _let_25) (= _let_134 _let_133) (= _let_26 _let_19) (= _let_119 _let_55) (= _let_115 _let_53) (= _let_115 _let_52) (= _let_94 _let_31) (= _let_132 _let_58) (= _let_132 _let_57) (= _let_132 _let_56) (= _let_29 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= (tptp.fn_cellular_respiration_17 X) _let_120) (= _let_119 _let_54) (= (tptp.fn_cellular_respiration_15 X) _let_118) (= (tptp.fn_cellular_respiration_14 X) _let_117) (= (tptp.fn_cellular_respiration_16 X) _let_116) (= _let_115 _let_51) (= _let_114 _let_113) (= _let_112 _let_111) (= _let_110 _let_109) (= _let_108 _let_107) (= _let_94 _let_33) (= _let_94 _let_30) (= _let_104 _let_50) (= _let_16 _let_27) (= _let_106 _let_105) (= _let_104 _let_48) (= _let_103 _let_102) (= _let_26 _let_17) (= _let_99 _let_43) (= _let_100 _let_42) (= _let_101 _let_46) (= _let_100 _let_43) (= _let_99 _let_42) (= _let_98 _let_40) (= _let_97 _let_36) (= (tptp.fn_cellular_respiration_40 X) _let_96) (= _let_95 _let_35) (= _let_95 _let_34) (= _let_94 _let_28) (= _let_16 _let_24) (= _let_93 _let_22) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= (tptp.fn_cellular_respiration_18 X) _let_86) (= _let_85 _let_84) (= _let_83 _let_82) (= (tptp.fn_cellular_respiration_41 X) _let_81) (= _let_80 _let_79) (= _let_26 _let_15) (= _let_78 _let_13) (= _let_77 _let_10) (= _let_76 _let_75) (= _let_74 _let_7) (= _let_73 _let_6) (= _let_73 _let_5) (= _let_73 _let_4) (= _let_73 _let_3) (= _let_73 _let_2) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_56 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_42) (= _let_42 _let_43) (= _let_43 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_25) (= _let_25 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_of_complex_carbohydrate_28 X))) (let ((_let_2 (tptp.fn_glycolysis_78 _let_1))) (let ((_let_3 (tptp.fn_cellular_respiration_of_complex_carbohydrate_21 X))) (let ((_let_4 (tptp.fn_exergonic_reaction_10 _let_3))) (let ((_let_5 (tptp.fn_glycolysis_88 _let_1))) (let ((_let_6 (tptp.fn_exergonic_reaction_3 _let_3))) (let ((_let_7 (tptp.fn_glycolysis_89 _let_1))) (let ((_let_8 (tptp.fn_exergonic_reaction_4 _let_3))) (let ((_let_9 (tptp.fn_glycolysis_83 _let_1))) (let ((_let_10 (tptp.fn_exergonic_reaction_5 _let_3))) (let ((_let_11 (tptp.fn_glycolysis_108 _let_1))) (let ((_let_12 (tptp.fn_cellular_respiration_of_complex_carbohydrate_27 X))) (let ((_let_13 (tptp.fn_pyruvate_oxidation_3 _let_12))) (let ((_let_14 (tptp.fn_exergonic_reaction_6 _let_3))) (let ((_let_15 (tptp.fn_exergonic_reaction_6 _let_1))) (let ((_let_16 (tptp.fn_glycolysis_70 _let_1))) (let ((_let_17 (tptp.fn_catabolic_pathway_6 _let_3))) (let ((_let_18 (tptp.fn_glycolysis_55 _let_1))) (let ((_let_19 (tptp.fn_pyruvate_oxidation_85 _let_12))) (let ((_let_20 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_21 (tptp.fn_exergonic_reaction_11 _let_3))) (let ((_let_22 (tptp.fn_cellular_respiration_of_complex_carbohydrate_35 X))) (let ((_let_23 (tptp.fn_hydrolysis_9 _let_22))) (let ((_let_24 (tptp.fn_exergonic_reaction_11 _let_22))) (let ((_let_25 (tptp.fn_decomposition_reaction_4 _let_22))) (let ((_let_26 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_27 (tptp.fn_exergonic_reaction_10 _let_22))) (let ((_let_28 (tptp.fn_hydrolysis_11 _let_22))) (let ((_let_29 (tptp.fn_catabolism_1 X))) (let ((_let_30 (tptp.fn_cellular_respiration_of_complex_carbohydrate_32 X))) (let ((_let_31 (tptp.fn_fuel_7 _let_30))) (let ((_let_32 (tptp.fn_cellular_respiration_of_complex_carbohydrate_33 X))) (let ((_let_33 (tptp.fn_food_3 _let_32))) (let ((_let_34 (tptp.fn_cellular_respiration_of_complex_carbohydrate_48 X))) (let ((_let_35 (tptp.fn_organic_molecule_1 _let_34))) (let ((_let_36 (tptp.fn_cellular_respiration_of_complex_carbohydrate_37 X))) (let ((_let_37 (tptp.fn_carbonyl_group_7 _let_36))) (let ((_let_38 (tptp.fn_cellular_respiration_of_complex_carbohydrate_30 X))) (let ((_let_39 (tptp.fn_cellular_respiration_of_complex_carbohydrate_22 X))) (let ((_let_40 (tptp.fn_cellular_respiration_of_complex_carbohydrate_25 X))) (let ((_let_41 (tptp.fn_cellular_respiration_of_complex_carbohydrate_24 X))) (let ((_let_42 (tptp.fn_cellular_respiration_of_complex_carbohydrate_23 X))) (let ((_let_43 (tptp.fn_glycolysis_84 _let_1))) (let ((_let_44 (tptp.fn_glycolysis_90 _let_1))) (let ((_let_45 (tptp.fn_glycolysis_22 _let_1))) (let ((_let_46 (tptp.fn_cellular_respiration_of_complex_carbohydrate_29 X))) (let ((_let_47 (tptp.fn_cellular_respiration_of_complex_carbohydrate_20 X))) (let ((_let_48 (tptp.fn_cellular_respiration_of_complex_carbohydrate_26 X))) (let ((_let_49 (tptp.fn_cellular_respiration_of_complex_carbohydrate_49 X))) (let ((_let_50 (tptp.fn_hydrolysis_14 _let_22))) (let ((_let_51 (tptp.fn_cellular_respiration_of_complex_carbohydrate_45 X))) (let ((_let_52 (tptp.fn_hydrolysis_15 _let_22))) (let ((_let_53 (tptp.fn_cellular_respiration_of_complex_carbohydrate_42 X))) (let ((_let_54 (tptp.fn_hydrolysis_16 _let_22))) (let ((_let_55 (tptp.fn_cellular_respiration_of_complex_carbohydrate_43 X))) (let ((_let_56 (tptp.fn_hydrolysis_18 _let_22))) (let ((_let_57 (tptp.fn_hydrolysis_1 _let_22))) (let ((_let_58 (tptp.fn_cellular_respiration_of_complex_carbohydrate_46 X))) (let ((_let_59 (tptp.fn_hydrolysis_19 _let_22))) (let ((_let_60 (tptp.fn_hydrolysis_17 _let_22))) (let ((_let_61 (tptp.fn_cellular_respiration_of_complex_carbohydrate_44 X))) (let ((_let_62 (tptp.fn_hydrolysis_10 _let_22))) (let ((_let_63 (tptp.fn_cellular_respiration_of_complex_carbohydrate_31 X))) (let ((_let_64 (tptp.fn_cellular_respiration_of_complex_carbohydrate_34 X))) (let ((_let_65 (tptp.fn_cellular_respiration_of_complex_carbohydrate_19 X))) (let ((_let_66 (tptp.fn_exergonic_reaction_3 _let_22))) (let ((_let_67 (tptp.fn_cellular_respiration_of_complex_carbohydrate_13 X))) (let ((_let_68 (tptp.fn_cellular_respiration_of_complex_carbohydrate_14 X))) (let ((_let_69 (tptp.fn_cellular_respiration_of_complex_carbohydrate_15 X))) (let ((_let_70 (tptp.fn_organic_molecule_2 _let_34))) (let ((_let_71 (tptp.fn_cellular_respiration_of_complex_carbohydrate_38 X))) (let ((_let_72 (tptp.fn_cellular_respiration_of_complex_carbohydrate_39 X))) (let ((_let_73 (tptp.fn_organic_molecule_3 _let_34))) (let ((_let_74 (tptp.fn_cellular_respiration_of_complex_carbohydrate_36 X))) (let ((_let_75 (tptp.fn_organic_molecule_2 _let_64))) (let ((_let_76 (tptp.fn_cellular_respiration_of_complex_carbohydrate_47 X))) (let ((_let_77 (tptp.fn_cellular_respiration_of_complex_carbohydrate_41 X))) (let ((_let_78 (tptp.fn_cellular_respiration_of_complex_carbohydrate_40 X))) (let ((_let_79 (tptp.fn_cellular_respiration_of_complex_carbohydrate_1 X))) (let ((_let_80 (tptp.fn_cellular_respiration_of_complex_carbohydrate_2 X))) (let ((_let_81 (tptp.fn_cellular_respiration_of_complex_carbohydrate_8 X))) (let ((_let_82 (tptp.fn_cellular_respiration_of_complex_carbohydrate_3 X))) (let ((_let_83 (tptp.fn_cellular_respiration_of_complex_carbohydrate_9 X))) (let ((_let_84 (tptp.fn_cellular_respiration_of_complex_carbohydrate_10 X))) (let ((_let_85 (tptp.fn_cellular_respiration_of_complex_carbohydrate_4 X))) (let ((_let_86 (tptp.fn_cellular_respiration_of_complex_carbohydrate_5 X))) (let ((_let_87 (tptp.fn_cellular_respiration_of_complex_carbohydrate_7 X))) (let ((_let_88 (tptp.fn_cellular_respiration_of_complex_carbohydrate_6 X))) (=> (tptp.cellular_respiration_of_complex_carbohydrate_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Respiration-Of-Complex-Carbohydrate'|) (tptp.user_description_2 X |tptp.'The sum of catabolic pathways, including aerobic and anaerobic respiration, that first break complex carbohydrate molecules into their constituent monomers, then further break down the monomers and use an electron transport chain to generate ATP.'|) (tptp.concept2words_2 X |tptp.'perform cellular respiration'|) (tptp.concept2words_2 X |tptp.'cellular respiration of complex carbohydrate'|) (tptp.concept2words_2 X |tptp.'cellular-respiration-of-complex-carbohydrate'|) (tptp.exergonic_reaction_1 X) (tptp.catabolism_1 X) (tptp.oxygen_1 _let_79) (tptp.end_1 _let_80) (tptp.organism_1 _let_82) (tptp.time_interval_1 _let_85) (tptp.time_interval_1 _let_86) (tptp.time_interval_1 _let_88) (tptp.time_interval_1 _let_87) (tptp.time_interval_1 _let_81) (tptp.oxidative_phosphorylation_1 _let_83) (tptp.citric_acid_cycle_1 _let_84) (tptp.quantity_value_1 _let_67) (tptp.quantity_value_1 _let_68) (tptp.chemical_energy_1 _let_69) (tptp.chemical_energy_1 _let_65) (tptp.activation_energy_1 _let_47) (tptp.catabolic_pathway_1 _let_3) (tptp.chemical_energy_1 _let_39) (tptp.chemical_energy_1 _let_42) (tptp.quantity_value_1 _let_41) (tptp.quantity_value_1 _let_40) (tptp.organic_molecule_1 _let_48) (tptp.pyruvate_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.pyruvate_oxidation_1 _let_12) (tptp.glycolysis_1 _let_1) (tptp.oxidation_1 _let_46) (tptp.spatial_entity_1 _let_38) (tptp.tangible_entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.organic_molecule_1 _let_38) (tptp.nad_plus_1 _let_38) (tptp.molecule_1 _let_38) (tptp.water_molecule_1 _let_63) (tptp.fuel_1 _let_30) (tptp.food_1 _let_32) (tptp.carbohydrate_1 _let_64) (tptp.hydrolysis_1 _let_22) (tptp.carbon_skeleton_1 _let_74) (tptp.carbonyl_group_1 _let_36) (tptp.hydrogen_1 _let_71) (tptp.entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.carbon_1 _let_72) (tptp.carbon_dioxide_1 _let_78) (tptp.water_molecule_1 _let_77) (tptp.quantity_value_1 _let_53) (tptp.quantity_value_1 _let_55) (tptp.chemical_energy_1 _let_61) (tptp.chemical_energy_1 _let_51) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_76) (tptp.chemical_entity_1 _let_76) (tptp.organic_molecule_1 _let_34) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_75) (tptp.chemical_entity_1 _let_75) (tptp.carbon_skeleton_1 _let_73) (tptp.atom_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.chemical_energy_1 _let_66) (tptp.water_molecule_1 _let_62) (tptp.chemical_energy_1 _let_60) (tptp.property_node_1 _let_59) (tptp.chemical_entity_1 _let_57) (tptp.property_node_1 _let_56) (tptp.quantity_value_1 _let_54) (tptp.quantity_value_1 _let_52) (tptp.chemical_energy_1 _let_50) (tptp.oxidation_1 _let_45) (tptp.property_node_1 _let_44) (tptp.property_node_1 _let_43) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.carbon_1 _let_37) (tptp.carbon_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.chemical_entity_1 _let_28) (tptp.chemical_entity_1 _let_27) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.chemical_entity_1 _let_21) (tptp.chemical_entity_1 _let_20) (tptp.organic_molecule_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.pyruvate_1 _let_19) (tptp.pyruvate_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.activation_energy_1 _let_17) (tptp.activation_energy_1 _let_16) (tptp.chemical_energy_1 _let_15) (tptp.chemical_energy_1 _let_14) (tptp.chemical_energy_1 _let_13) (tptp.chemical_energy_1 _let_11) (tptp.quantity_value_1 _let_10) (tptp.quantity_value_1 _let_9) (tptp.quantity_value_1 _let_8) (tptp.quantity_value_1 _let_7) (tptp.chemical_energy_1 _let_6) (tptp.chemical_energy_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.organic_molecule_1 _let_2) (tptp.nad_plus_1 _let_2) (tptp.molecule_1 _let_2) (tptp.time_during_2 _let_84 _let_86) (tptp.next_event_2 _let_84 _let_83) (tptp.time_before_2 _let_81 _let_88) (tptp.time_before_2 _let_81 _let_87) (tptp.time_before_2 _let_85 _let_86) (tptp.next_event_2 _let_12 _let_84) (tptp.time_during_2 _let_12 _let_85) (tptp.next_event_2 _let_1 _let_12) (tptp.result_2 _let_46 _let_48) (tptp.possesses_2 _let_63 _let_61) (tptp.subevent_2 X _let_22) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_84) (tptp.subevent_2 X _let_83) (tptp.first_subevent_2 X _let_22) (tptp.experiencer_2 X _let_82) (tptp.time_during_2 _let_22 _let_81) (tptp.next_event_2 _let_22 _let_1) (tptp.result_2 _let_22 _let_34) (tptp.has_region_2 _let_74 _let_80) (tptp.is_at_2 _let_36 _let_80) (not (= _let_71 _let_79)) (tptp.has_state_2 _let_76 _let_34) (not (= _let_79 _let_71)) (tptp.has_part_2 _let_34 _let_79) (tptp.result_2 X _let_78) (tptp.plays_2 _let_64 _let_32) (tptp.plays_2 _let_64 _let_30) (tptp.result_2 X _let_77) (tptp.possesses_2 _let_77 _let_69) (tptp.result_2 _let_3 _let_48) (tptp.raw_material_2 _let_3 _let_38) (tptp.has_part_2 _let_64 _let_76) (tptp.raw_material_2 _let_3 _let_47) (tptp.is_inside_2 _let_72 _let_36) (tptp.raw_material_2 _let_22 _let_64) (tptp.has_part_2 _let_64 _let_58) (not (= _let_63 _let_64)) (not (= _let_64 _let_63)) (tptp.has_part_2 _let_34 _let_71) (not (= _let_71 _let_72)) (tptp.is_inside_2 _let_72 _let_74) (not (= _let_72 _let_71)) (tptp.raw_material_2 _let_12 _let_48) (tptp.possesses_2 _let_48 _let_42) (tptp.quantity_2 _let_69 _let_68) (tptp.raw_material_2 X _let_64) (tptp.possesses_2 _let_64 _let_65) (tptp.quantity_2 _let_65 _let_67) (tptp.greater_than_2 _let_67 _let_68) (tptp.raw_material_2 _let_22 _let_63) (tptp.quantity_2 _let_61 _let_55) (tptp.has_state_2 _let_58 _let_49) (tptp.result_2 _let_22 _let_49) (tptp.possesses_2 _let_49 _let_51) (tptp.quantity_2 _let_51 _let_53) (tptp.greater_than_2 _let_55 _let_53) (tptp.result_2 _let_1 _let_48) (tptp.raw_material_2 _let_1 _let_47) (tptp.recipient_2 _let_46 _let_38) (tptp.raw_material_2 _let_1 _let_38) (tptp.possesses_2 _let_38 _let_39) (tptp.quantity_2 _let_39 _let_40) (tptp.greater_than_2 _let_40 _let_41) (tptp.quantity_2 _let_42 _let_41) (= _let_78 (tptp.fn_catabolism_2 X)) (= _let_64 _let_33) (= _let_64 _let_31) (= _let_77 (tptp.fn_exergonic_reaction_11 X)) (= _let_76 _let_75) (= _let_47 _let_17) (= _let_72 _let_37) (= _let_64 _let_28) (= _let_74 _let_73) (= _let_72 _let_35) (= _let_71 _let_70) (= _let_48 _let_21) (= _let_42 _let_15) (= _let_42 _let_13) (= _let_48 _let_19) (= _let_69 (tptp.fn_exergonic_reaction_6 X)) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_12 X) (tptp.fn_exergonic_reaction_2 X)) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_11 X) (tptp.fn_exergonic_reaction_1 X)) (= _let_68 (tptp.fn_exergonic_reaction_5 X)) (= _let_67 (tptp.fn_exergonic_reaction_4 X)) (= _let_64 _let_27) (= _let_65 _let_66) (= _let_65 (tptp.fn_exergonic_reaction_3 X)) (= _let_64 _let_29) (= _let_64 _let_26) (= _let_63 _let_62) (= _let_61 _let_60) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_16 X) _let_59) (= _let_58 _let_57) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_17 X) _let_56) (= _let_55 _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_49 _let_25) (= _let_49 _let_24) (= _let_49 _let_23) (= _let_48 _let_20) (= _let_48 _let_18) (= _let_47 _let_16) (= _let_46 _let_45) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_18 X) _let_44) (= (tptp.fn_cellular_respiration_of_complex_carbohydrate_50 X) _let_43) (= _let_42 _let_14) (= _let_42 _let_11) (= _let_41 _let_10) (= _let_41 _let_9) (= _let_40 _let_8) (= _let_40 _let_7) (= _let_38 _let_4) (= _let_39 _let_6) (= _let_39 _let_5) (= _let_38 _let_2) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_of_disaccharide_66 X))) (let ((_let_2 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_3 (tptp.fn_cellular_respiration_of_disaccharide_34 X))) (let ((_let_4 (tptp.fn_dihydroxyacetone_phosphate_1 _let_3))) (let ((_let_5 (tptp.fn_aldose_3 _let_3))) (let ((_let_6 (tptp.fn_dihydroxyacetone_phosphate_7 _let_3))) (let ((_let_7 (tptp.fn_triose_8 _let_3))) (let ((_let_8 (tptp.fn_monosaccharide_9 _let_3))) (let ((_let_9 (tptp.fn_aldose_9 _let_3))) (let ((_let_10 (tptp.fn_aldose_4 _let_3))) (let ((_let_11 (tptp.fn_dihydroxyacetone_phosphate_9 _let_3))) (let ((_let_12 (tptp.fn_dihydroxyacetone_phosphate_8 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(tptp.fn_cellular_respiration_of_disaccharide_9 X))) (let ((_let_172 (tptp.fn_cellular_respiration_of_disaccharide_6 X))) (let ((_let_173 (tptp.fn_cellular_respiration_of_disaccharide_12 X))) (let ((_let_174 (tptp.fn_cellular_respiration_of_disaccharide_11 X))) (let ((_let_175 (tptp.fn_cellular_respiration_of_disaccharide_5 X))) (let ((_let_176 (tptp.fn_cellular_respiration_of_disaccharide_4 X))) (=> (tptp.cellular_respiration_of_disaccharide_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Respiration-Of-Disaccharide'|) (tptp.user_description_2 X |tptp.'Cellular respiration, also known as _'oxidative metabolism_', is one of the key ways a cell gains useful energy.'|) (tptp.concept2words_2 X |tptp.'perform cellular respiration'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'cellular respiration of disaccharide'|) (tptp.concept2words_2 X |tptp.'cellular-respiration-of-disaccharide'|) (tptp.cellular_respiration_of_complex_carbohydrate_1 X) (not (tptp.cellular_respiration_using_starch_1 X)) (tptp.time_interval_1 _let_167) (tptp.isomerization_reaction_1 _let_162) (tptp.time_interval_1 _let_166) (tptp.time_interval_1 _let_176) (tptp.tangible_entity_1 _let_175) (tptp.heat_1 _let_172) (tptp.electron_1 _let_169) (tptp.chemical_entity_1 _let_168) (tptp.potential_energy_1 _let_171) (tptp.redox_reaction_1 _let_170) (tptp.redox_reaction_1 _let_174) (tptp.potential_energy_1 _let_173) (tptp.time_interval_1 _let_165) (tptp.time_interval_1 _let_164) (tptp.time_interval_1 _let_163) (tptp.water_molecule_1 _let_137) (tptp.chemical_energy_1 _let_138) (tptp.chemical_entity_1 _let_136) (tptp.organic_molecule_1 _let_136) (tptp.atom_1 _let_144) (tptp.chemical_entity_1 _let_144) (tptp.chemical_energy_1 _let_150) (tptp.quantity_value_1 _let_148) (tptp.quantity_value_1 _let_147) (tptp.chemical_energy_1 _let_146) (tptp.entity_1 _let_104) (tptp.chemical_entity_1 _let_104) (tptp.atom_1 _let_104) (tptp.oxygen_1 _let_104) (tptp.oxidation_1 _let_116) (tptp.quantity_value_1 _let_108) (tptp.chemical_energy_1 _let_118) (tptp.fructose_1_comma_6_bisphosphate_1 _let_152) (tptp.atp_1 _let_154) (tptp.phosphorylation_1 _let_159) (tptp.glyceraldehyde_3_phosphate_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.ketone_1 _let_3) (tptp.monosaccharide_1 _let_3) (tptp.triose_1 _let_3) (tptp.dihydroxyacetone_phosphate_1 _let_3) (tptp.aldose_1 _let_3) (tptp.entity_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.atom_1 _let_96) (tptp.oxygen_1 _let_96) (tptp.functional_group_1 _let_99) (tptp.hydroxyl_group_1 _let_99) (tptp.atom_1 _let_151) (tptp.chemical_entity_1 _let_151) (tptp.entity_1 _let_121) (tptp.chemical_entity_1 _let_121) (tptp.atom_1 _let_121) (tptp.hydrogen_1 _let_121) (tptp.tangible_entity_1 _let_120) (tptp.chemical_entity_1 _let_120) (tptp.entity_1 _let_120) (tptp.atom_1 _let_120) (tptp.hydrogen_1 _let_120) (tptp.time_interval_1 _let_142) (tptp.citric_acid_cycle_1 _let_129) (tptp.enzymatic_reaction_1 _let_113) (tptp.chemical_reaction_1 _let_123) (tptp.spatial_entity_1 _let_127) (tptp.chemical_entity_1 _let_127) (tptp.organic_molecule_1 _let_127) (tptp.molecule_1 _let_127) (tptp.acetyl_coa_1 _let_127) (tptp.chemical_reaction_1 _let_126) (tptp.chemical_entity_1 _let_128) (tptp.acetate_1 _let_128) (tptp.time_interval_1 _let_131) (tptp.time_interval_1 _let_133) (tptp.chemical_reaction_1 _let_63) (tptp.redox_reaction_1 _let_63) (tptp.time_interval_1 _let_143) (tptp.pyruvate_oxidation_1 _let_40) (tptp.chemical_entity_1 _let_135) (tptp.tangible_entity_1 _let_135) (tptp.carbon_dioxide_1 _let_135) (tptp.entity_1 _let_97) (tptp.chemical_entity_1 _let_97) (tptp.atom_1 _let_97) (tptp.carbon_1 _let_97) (tptp.entity_1 _let_95) (tptp.chemical_entity_1 _let_95) (tptp.atom_1 _let_95) (tptp.hydrogen_1 _let_95) (tptp.functional_group_1 _let_101) (tptp.carbonyl_group_1 _let_101) (tptp.carbon_skeleton_1 _let_98) (tptp.end_1 _let_103) (tptp.cellular_respiration_1 _let_26) (tptp.chemical_entity_1 _let_119) (tptp.water_molecule_1 _let_119) (tptp.release_1 _let_80) (tptp.free_energy_1 _let_156) (tptp.release_1 _let_78) (tptp.consume_1 _let_82) (tptp.exergonic_reaction_1 _let_29) (tptp.glycolysis_1 _let_29) (tptp.disaccharide_1 _let_145) (tptp.decomposition_reaction_1 _let_1) (tptp.exergonic_reaction_1 _let_1) (tptp.hydrolysis_1 _let_1) (tptp.synthesis_of_organic_molecule_1 _let_111) (tptp.chemical_reaction_1 _let_111) (tptp.synthesis_of_atp_1 _let_111) (tptp.substrate_level_phosphorylation_1 _let_111) (tptp.anabolic_pathway_1 _let_111) (tptp.chemical_energy_1 _let_141) (tptp.quantity_value_1 _let_140) (tptp.quantity_value_1 _let_139) (tptp.organic_molecule_1 _let_110) (tptp.pyruvate_1 _let_110) (tptp.chemical_entity_1 _let_110) (tptp.spatial_entity_1 _let_105) (tptp.tangible_entity_1 _let_105) (tptp.chemical_entity_1 _let_105) (tptp.organic_molecule_1 _let_105) (tptp.nad_plus_1 _let_105) (tptp.molecule_1 _let_105) (tptp.activation_energy_1 _let_117) (tptp.adp_1 _let_161) (tptp.chemical_energy_1 _let_106) (tptp.quantity_value_1 _let_107) (tptp.catabolic_pathway_1 _let_31) (tptp.oxidative_phosphorylation_1 _let_134) (tptp.chemical_entity_1 _let_160) (tptp.chemical_entity_1 _let_158) (tptp.tangible_entity_1 _let_157) (tptp.tangible_entity_1 _let_155) (tptp.molecule_1 _let_153) (tptp.time_interval_1 _let_132) (tptp.time_interval_1 _let_130) (tptp.chemical_reaction_1 _let_125) (tptp.redox_reaction_1 _let_124) (tptp.chemical_reaction_1 _let_122) (tptp.oxidation_1 _let_115) (tptp.property_node_1 _let_114) (tptp.enzymatic_reaction_1 _let_112) (tptp.property_node_1 _let_109) (tptp.end_1 _let_102) (tptp.functional_group_1 _let_100) (tptp.carbonyl_group_1 _let_100) (tptp.chemical_energy_1 _let_94) (tptp.property_node_1 _let_92) (tptp.quantity_value_1 _let_90) (tptp.quantity_value_1 _let_89) (tptp.quantity_value_1 _let_87) (tptp.chemical_energy_1 _let_85) (tptp.entity_1 _let_83) (tptp.tangible_entity_1 _let_81) (tptp.tangible_entity_1 _let_79) (tptp.chemical_entity_1 _let_76) (tptp.chemical_entity_1 _let_74) (tptp.chemical_entity_1 _let_73) (tptp.chemical_entity_1 _let_71) (tptp.tangible_entity_1 _let_69) (tptp.carbon_dioxide_1 _let_69) (tptp.oxidative_phosphorylation_1 _let_67) (tptp.citric_acid_cycle_1 _let_65) (tptp.chemical_entity_1 _let_64) (tptp.acetate_1 _let_62) (tptp.molecule_1 _let_61) (tptp.spatial_entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.organic_molecule_1 _let_61) (tptp.acetyl_coa_1 _let_61) (tptp.chemical_entity_1 _let_60) (tptp.organic_molecule_1 _let_60) (tptp.molecule_1 _let_60) (tptp.acetyl_coa_1 _let_60) (tptp.pyruvate_oxidation_1 _let_58) (tptp.hydrogen_1 _let_57) (tptp.tangible_entity_1 _let_56) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.hydrogen_1 _let_56) (tptp.entity_1 _let_55) (tptp.atom_1 _let_55) (tptp.hydrogen_1 _let_55) (tptp.chemical_entity_1 _let_54) (tptp.water_molecule_1 _let_52) (tptp.chemical_energy_1 _let_51) (tptp.chemical_energy_1 _let_50) (tptp.chemical_energy_1 _let_49) (tptp.chemical_energy_1 _let_48) (tptp.activation_energy_1 _let_47) (tptp.activation_energy_1 _let_46) (tptp.synthesis_of_organic_molecule_1 _let_45) (tptp.chemical_reaction_1 _let_45) (tptp.synthesis_of_atp_1 _let_45) (tptp.substrate_level_phosphorylation_1 _let_45) (tptp.chemical_reaction_1 _let_44) (tptp.synthesis_of_atp_1 _let_44) (tptp.substrate_level_phosphorylation_1 _let_44) (tptp.anabolic_pathway_1 _let_44) (tptp.chemical_entity_1 _let_43) (tptp.chemical_entity_1 _let_42) (tptp.organic_molecule_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.pyruvate_1 _let_41) (tptp.pyruvate_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.quantity_value_1 _let_38) (tptp.quantity_value_1 _let_37) (tptp.quantity_value_1 _let_36) (tptp.quantity_value_1 _let_35) (tptp.chemical_energy_1 _let_34) (tptp.chemical_energy_1 _let_33) (tptp.chemical_entity_1 _let_32) (tptp.spatial_entity_1 _let_30) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.organic_molecule_1 _let_30) (tptp.nad_plus_1 _let_30) (tptp.molecule_1 _let_30) (tptp.glycolysis_1 _let_27) (tptp.oxygen_1 _let_25) (tptp.functional_group_1 _let_24) (tptp.hydroxyl_group_1 _let_24) (tptp.functional_group_1 _let_23) (tptp.hydroxyl_group_1 _let_23) (tptp.functional_group_1 _let_22) (tptp.hydroxyl_group_1 _let_22) (tptp.functional_group_1 _let_21) (tptp.hydroxyl_group_1 _let_21) (tptp.carbon_skeleton_1 _let_20) (tptp.carbon_skeleton_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.carbon_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.carbon_1 _let_17) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_15) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.oxygen_1 _let_14) (tptp.entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.oxygen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.oxygen_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.hydrogen_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.hydrogen_1 _let_5) (tptp.glyceraldehyde_3_phosphate_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.time_before_2 _let_167 _let_142) (tptp.time_during_2 _let_162 _let_143) (tptp.greater_than_or_equal_to_2 _let_140 _let_139) (tptp.time_before_2 _let_166 _let_166) (tptp.time_before_2 _let_166 _let_176) (tptp.time_before_2 _let_176 _let_166) (tptp.time_during_2 _let_111 _let_176) (tptp.is_near_2 _let_175 _let_145) (tptp.object_2 _let_172 _let_175) (tptp.is_near_2 _let_145 _let_175) (not (= _let_145 _let_169)) (not (= _let_145 _let_168)) (tptp.causes_2 _let_29 _let_174) (tptp.raw_material_2 _let_29 _let_173) (tptp.objective_2 _let_82 _let_172) (tptp.is_inside_2 _let_156 _let_145) (tptp.time_during_2 _let_26 _let_143) (tptp.has_region_2 _let_98 _let_103) (tptp.raw_material_2 _let_40 _let_171) (tptp.causes_2 _let_40 _let_170) (not (= _let_169 _let_145)) (not (= _let_169 _let_168)) (not (= _let_168 _let_169)) (not (= _let_168 _let_145)) (tptp.time_before_2 _let_143 _let_167) (tptp.time_during_2 _let_63 _let_164) (tptp.time_during_2 _let_126 _let_163) (tptp.time_during_2 _let_123 _let_165) (tptp.time_during_2 _let_113 _let_166) (tptp.time_before_2 _let_165 _let_164) (tptp.time_before_2 _let_164 _let_163) (tptp.has_state_2 _let_151 _let_3) (tptp.time_during_2 _let_159 _let_142) (tptp.next_event_2 _let_159 _let_162) (tptp.result_2 _let_116 _let_110) (tptp.object_2 _let_82 _let_145) (tptp.base_2 _let_80 _let_145) (tptp.result_2 _let_159 _let_161) (tptp.base_2 _let_78 _let_145) (tptp.result_2 _let_63 _let_128) (tptp.has_isomer_2 _let_3 _let_3) (tptp.raw_material_2 _let_1 _let_152) (tptp.object_2 _let_78 _let_156) (tptp.object_2 _let_80 _let_156) (tptp.result_2 _let_1 _let_3) (tptp.possesses_2 _let_3 _let_150) (not (= _let_154 _let_152)) (not (= _let_152 _let_154)) (tptp.raw_material_2 _let_31 _let_105) (tptp.result_2 _let_31 _let_110) (tptp.raw_material_2 _let_31 _let_117) (tptp.has_part_2 _let_145 _let_144) (tptp.has_part_2 _let_145 _let_151) (tptp.quantity_2 _let_150 _let_148) (tptp.possesses_2 _let_145 _let_141) (tptp.raw_material_2 _let_1 _let_145) (tptp.raw_material_2 X _let_145) (not (= _let_145 _let_119)) (tptp.possesses_2 _let_119 _let_146) (tptp.quantity_2 _let_146 _let_147) (tptp.greater_than_2 _let_147 _let_148) (not (= _let_119 _let_145)) (tptp.has_part_2 _let_3 _let_121) (tptp.subevent_2 X _let_134) (tptp.subevent_2 X _let_129) (tptp.result_2 X _let_135) (tptp.subevent_2 X _let_40) (tptp.has_state_2 _let_144 _let_136) (tptp.time_during_2 _let_1 _let_142) (tptp.time_before_2 _let_142 _let_143) (tptp.result_2 X _let_137) (tptp.possesses_2 _let_137 _let_138) (tptp.quantity_2 _let_138 _let_139) (tptp.greater_than_2 _let_140 _let_139) (tptp.quantity_2 _let_141 _let_140) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_29) (tptp.subevent_2 X _let_29) (tptp.first_subevent_2 X _let_1) (tptp.result_2 _let_1 _let_136) (tptp.result_2 _let_26 _let_135) (tptp.raw_material_2 _let_129 _let_127) (tptp.first_subevent_2 _let_26 _let_29) (tptp.next_event_2 _let_129 _let_134) (tptp.subevent_2 _let_26 _let_40) (tptp.time_during_2 _let_40 _let_133) (tptp.subevent_2 _let_26 _let_29) (tptp.next_event_2 _let_29 _let_40) (tptp.next_event_2 _let_40 _let_129) (tptp.time_during_2 _let_129 _let_131) (tptp.time_before_2 _let_133 _let_131) (tptp.first_subevent_2 _let_40 _let_123) (tptp.subevent_2 _let_40 _let_63) (tptp.result_2 _let_40 _let_127) (tptp.subevent_2 _let_40 _let_126) (tptp.raw_material_2 _let_126 _let_128) (tptp.raw_material_2 _let_40 _let_110) (tptp.possesses_2 _let_110 _let_118) (tptp.subevent_2 _let_40 _let_123) (tptp.next_event_2 _let_123 _let_63) (tptp.next_event_2 _let_63 _let_126) (tptp.result_2 _let_126 _let_127) (not (= _let_127 _let_128)) (not (= _let_128 _let_127)) (tptp.raw_material_2 _let_1 _let_119) (tptp.has_part_2 _let_119 _let_120) (tptp.has_state_2 _let_120 _let_121) (not (= _let_104 _let_121)) (not (= _let_121 _let_104)) (tptp.quantity_2 _let_118 _let_108) (tptp.raw_material_2 _let_29 _let_117) (tptp.recipient_2 _let_116 _let_105) (tptp.result_2 _let_29 _let_110) (tptp.result_2 _let_111 _let_110) (tptp.next_event_2 _let_113 _let_111) (not (= _let_113 _let_111)) (not (= _let_111 _let_113)) (tptp.raw_material_2 _let_29 _let_105) (tptp.possesses_2 _let_105 _let_106) (tptp.quantity_2 _let_106 _let_107) (tptp.greater_than_2 _let_107 _let_108) (tptp.has_part_2 _let_3 _let_104) (tptp.has_region_2 _let_3 _let_99) (tptp.is_inside_2 _let_97 _let_101) (tptp.is_at_2 _let_101 _let_103) (tptp.has_part_2 _let_3 _let_96) (tptp.is_inside_2 _let_96 _let_99) (tptp.is_inside_2 _let_95 _let_99) (tptp.has_part_2 _let_3 _let_95) (not (= _let_95 _let_97)) (tptp.is_inside_2 _let_97 _let_98) (not (= _let_96 _let_95)) (not (= _let_95 _let_96)) (not (= _let_97 _let_95)) (= _let_145 _let_83) (= _let_145 _let_81) (= _let_161 _let_160) (= _let_145 _let_79) (= _let_128 _let_64) (= _let_3 _let_4) (= _let_152 _let_158) (= _let_156 _let_157) (= _let_156 _let_155) (= _let_3 _let_2) (= _let_154 _let_153) (= _let_117 _let_47) (= _let_151 _let_75) (= _let_150 _let_94) (= _let_148 _let_90) (= _let_150 _let_93) (= _let_149 _let_92) (= _let_149 _let_91) (= (tptp.fn_cellular_respiration_of_disaccharide_20 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_17 X)) (= _let_148 _let_89) (= _let_148 _let_88) (= _let_147 _let_87) (= _let_147 _let_86) (= _let_146 _let_85) (= _let_146 _let_84) (= _let_145 _let_54) (= _let_119 _let_53) (= _let_145 _let_77) (= _let_121 _let_6) (= _let_134 _let_68) (= _let_129 _let_66) (= _let_135 _let_70) (= _let_40 _let_59) (= (tptp.fn_cellular_respiration_of_disaccharide_79 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_12 X)) (= _let_144 _let_76) (= _let_144 _let_75) (= (tptp.fn_cellular_respiration_of_disaccharide_80 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_11 X)) (= _let_143 (tptp.fn_cellular_respiration_of_complex_carbohydrate_6 X)) (= _let_142 (tptp.fn_cellular_respiration_of_complex_carbohydrate_8 X)) (= _let_141 (tptp.fn_cellular_respiration_of_complex_carbohydrate_19 X)) (= _let_140 (tptp.fn_cellular_respiration_of_complex_carbohydrate_13 X)) (= _let_139 (tptp.fn_cellular_respiration_of_complex_carbohydrate_14 X)) (= _let_138 (tptp.fn_cellular_respiration_of_complex_carbohydrate_15 X)) (= _let_137 (tptp.fn_cellular_respiration_of_complex_carbohydrate_41 X)) (= _let_136 _let_74) (= _let_136 _let_73) (= _let_136 _let_72) (= _let_29 _let_28) (= _let_1 (tptp.fn_cellular_respiration_of_complex_carbohydrate_35 X)) (= _let_135 _let_71) (= _let_135 _let_69) (= _let_127 _let_61) (= _let_134 _let_67) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_129 _let_65) (= _let_40 _let_58) (= _let_29 _let_27) (= _let_110 _let_43) (= _let_118 _let_51) (= _let_118 _let_49) (= _let_110 _let_41) (= _let_128 _let_62) (= _let_127 _let_60) (= _let_126 _let_125) (= _let_63 _let_124) (= _let_123 _let_122) (= _let_104 _let_25) (= _let_121 _let_57) (= _let_120 _let_56) (= _let_120 _let_55) (= _let_119 _let_54) (= _let_119 _let_52) (= _let_118 _let_50) (= _let_118 _let_48) (= _let_117 _let_46) (= _let_116 _let_115) (= (tptp.fn_cellular_respiration_of_disaccharide_81 X) _let_114) (= _let_111 _let_45) (= _let_113 _let_112) (= _let_111 _let_44) (= _let_110 _let_42) (= _let_110 _let_39) (= (tptp.fn_cellular_respiration_of_disaccharide_28 X) _let_109) (= _let_108 _let_38) (= _let_108 _let_37) (= _let_107 _let_36) (= _let_107 _let_35) (= _let_105 _let_32) (= _let_106 _let_34) (= _let_106 _let_33) (= _let_105 _let_30) (= _let_104 _let_9) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_99 _let_24) (= _let_99 _let_23) (= _let_99 _let_22) (= _let_99 _let_21) (= _let_96 _let_16) (= _let_96 _let_15) (= _let_96 _let_10) (= _let_98 _let_20) (= _let_98 _let_19) (= _let_97 _let_18) (= _let_97 _let_17) (= _let_95 _let_8) (= _let_96 _let_14) (= _let_95 _let_7) (= _let_96 _let_13) (= _let_96 _let_12) (= _let_96 _let_11) (= _let_96 _let_9) (= _let_95 _let_6) (= _let_95 _let_5) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_81) (= _let_79 _let_81) (= _let_81 _let_79) (= _let_79 _let_54) (= _let_54 _let_54) (= _let_77 _let_54) (= _let_54 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_6) (= _let_6 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_53 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_35) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_30 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_9) (= _let_9 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_of_fat_65 X))) (let ((_let_2 (tptp.fn_electron_transport_chain_pathway_41 _let_1))) (let ((_let_3 (tptp.fn_cellular_respiration_of_fat_51 X))) (let ((_let_4 (tptp.fn_beta_oxidation_1 _let_3))) (let ((_let_5 (tptp.fn_cellular_respiration_of_fat_62 X))) (let ((_let_6 (tptp.fn_electron_transport_chain_reaction_24 _let_5))) (let ((_let_7 (tptp.fn_cellular_respiration_of_fat_45 X))) (let ((_let_8 (tptp.fn_chemical_reaction_2 _let_7))) (let ((_let_9 (tptp.fn_cellular_respiration_of_fat_75 X))) (let ((_let_10 (tptp.fn_redox_reaction_16 _let_9))) (let ((_let_11 (tptp.fn_redox_reaction_12 _let_9))) (let ((_let_12 (tptp.fn_cellular_respiration_of_fat_56 X))) (let ((_let_13 (tptp.fn_transfer_1 _let_12))) (let ((_let_14 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(tptp.fn_cellular_respiration_of_fat_70 X))) (let ((_let_51 (tptp.fn_isomerization_reaction_2 _let_50))) (let ((_let_52 (tptp.fn_isomerization_reaction_2 _let_48))) (let ((_let_53 (tptp.fn_isomerization_reaction_1 _let_50))) (let ((_let_54 (tptp.fn_cellular_respiration_of_fat_22 X))) (let ((_let_55 (tptp.fn_substrate_level_phosphorylation_5 _let_54))) (let ((_let_56 (tptp.fn_synthesis_of_atp_13 _let_54))) (let ((_let_57 (tptp.fn_cellular_respiration_of_fat_29 X))) (let ((_let_58 (tptp.fn_decarboxylation_1 _let_57))) (let ((_let_59 (tptp.fn_decomposition_reaction_2 _let_57))) (let ((_let_60 (tptp.fn_cellular_respiration_of_fat_71 X))) (let ((_let_61 (tptp.fn_redox_reaction_16 _let_60))) (let ((_let_62 (tptp.fn_cellular_respiration_of_fat_15 X))) (let ((_let_63 (tptp.fn_chemical_reaction_2 _let_62))) (let ((_let_64 (tptp.fn_chemical_reaction_1 _let_60))) (let ((_let_65 (tptp.fn_decomposition_reaction_5 _let_57))) (let ((_let_66 (tptp.fn_cellular_respiration_of_fat_35 X))) (let ((_let_67 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(tptp.fn_electron_transport_chain_pathway_22 _let_1))) (let ((_let_86 (tptp.fn_cellular_respiration_of_fat_59 X))) (let ((_let_87 (tptp.fn_electron_transport_chain_pathway_21 _let_1))) (let ((_let_88 (tptp.fn_cellular_respiration_of_fat_60 X))) (let ((_let_89 (tptp.fn_cellular_respiration_of_fat_61 X))) (let ((_let_90 (tptp.fn_electron_transport_chain_pathway_20 _let_1))) (let ((_let_91 (tptp.fn_cellular_respiration_of_fat_66 X))) (let ((_let_92 (tptp.fn_electron_transport_chain_pathway_12 _let_1))) (let ((_let_93 (tptp.fn_redox_reaction_8 _let_9))) (let ((_let_94 (tptp.fn_cellular_respiration_of_fat_73 X))) (let ((_let_95 (tptp.fn_cellular_respiration_of_fat_53 X))) (let ((_let_96 (tptp.fn_beta_oxidation_4 _let_3))) (let ((_let_97 (tptp.fn_cellular_respiration_of_fat_43 X))) (let ((_let_98 (tptp.fn_cellular_respiration_of_fat_49 X))) (let ((_let_99 (tptp.fn_cellular_respiration_of_fat_47 X))) (let ((_let_100 (tptp.fn_cellular_respiration_of_fat_72 X))) (let ((_let_101 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(tptp.fn_cellular_respiration_of_fat_20 X))) (let ((_let_136 (tptp.fn_cellular_respiration_of_fat_18 X))) (let ((_let_137 (tptp.fn_cellular_respiration_of_fat_67 X))) (let ((_let_138 (tptp.fn_enzyme_4 _let_137))) (let ((_let_139 (tptp.fn_cellular_respiration_of_fat_13 X))) (let ((_let_140 (tptp.fn_cellular_respiration_of_fat_7 X))) (let ((_let_141 (tptp.fn_cellular_respiration_of_fat_12 X))) (let ((_let_142 (tptp.fn_cellular_respiration_of_fat_11 X))) (let ((_let_143 (tptp.fn_cellular_respiration_of_fat_9 X))) (let ((_let_144 (tptp.fn_cellular_respiration_of_fat_10 X))) (let ((_let_145 (tptp.fn_cellular_respiration_of_fat_8 X))) (let ((_let_146 (tptp.fn_cellular_respiration_of_fat_5 X))) (let ((_let_147 (tptp.fn_cellular_respiration_of_fat_6 X))) (let ((_let_148 (tptp.fn_cellular_respiration_of_fat_3 X))) (let ((_let_149 (tptp.fn_cellular_respiration_of_fat_4 X))) (let ((_let_150 (tptp.fn_cellular_respiration_of_fat_1 X))) (=> (tptp.cellular_respiration_of_fat_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Respiration-Of-Fat'|) (tptp.user_description_2 X |tptp.'Carbohydrates, fats, and proteins can all be processed and consumed as fuel, it is traditional to learn the steps of cellular respiration by tracking the degradation of the sugar glucose'|) (tptp.concept2words_2 X |tptp.'perform cellular respiration'|) (tptp.concept2words_2 X |tptp.'cellular respiration of fat'|) (tptp.concept2words_2 X |tptp.'cellular-respiration-of-fat'|) (tptp.catabolism_1 X) (tptp.carbon_dioxide_1 _let_150) (tptp.quantity_value_1 _let_148) (tptp.free_energy_1 _let_149) (tptp.time_interval_1 _let_146) (tptp.time_interval_1 _let_147) (tptp.time_interval_1 _let_140) (tptp.time_interval_1 _let_145) (tptp.nad_plus_1 _let_143) (tptp.nadh_1 _let_144) (tptp.time_interval_1 _let_142) (tptp.time_interval_1 _let_141) (tptp.succinate_1 _let_139) (tptp.nadh_1 _let_120) (tptp.synthesis_reaction_1 _let_62) (tptp.isomerization_reaction_1 _let_48) (tptp.nad_plus_1 _let_129) 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(tptp.fn_cellular_respiration_of_glycogen_43 X))) (let ((_let_75 (tptp.fn_citric_acid_cycle_124 _let_11))) (let ((_let_76 (tptp.fn_cellular_respiration_of_glycogen_42 X))) (let ((_let_77 (tptp.fn_cellular_respiration_of_glycogen_35 X))) (let ((_let_78 (tptp.fn_cellular_respiration_of_glycogen_36 X))) (let ((_let_79 (tptp.fn_cellular_respiration_of_glycogen_39 X))) (let ((_let_80 (tptp.fn_cellular_respiration_of_glycogen_48 X))) (let ((_let_81 (tptp.fn_citric_acid_cycle_27 _let_11))) (let ((_let_82 (tptp.fn_citric_acid_cycle_45 _let_11))) (let ((_let_83 (tptp.fn_citric_acid_cycle_46 _let_11))) (let ((_let_84 (tptp.fn_cellular_respiration_of_glycogen_53 X))) (let ((_let_85 (tptp.fn_citric_acid_cycle_37 _let_11))) (let ((_let_86 (tptp.fn_pyruvate_oxidation_65 _let_3))) (let ((_let_87 (tptp.fn_cellular_respiration_of_glycogen_23 X))) (let ((_let_88 (tptp.fn_pyruvate_oxidation_38 _let_3))) (let ((_let_89 (tptp.fn_pyruvate_oxidation_77 _let_3))) (let ((_let_90 (tptp.fn_cellular_respiration_of_glycogen_21 X))) (let ((_let_91 (tptp.fn_cellular_respiration_of_glycogen_18 X))) (let ((_let_92 (tptp.fn_pyruvate_oxidation_10 _let_3))) (let ((_let_93 (tptp.fn_cellular_respiration_of_glycogen_19 X))) (let ((_let_94 (tptp.fn_cellular_respiration_of_glycogen_14 X))) (let ((_let_95 (tptp.fn_cellular_respiration_of_glycogen_10 X))) (let ((_let_96 (tptp.fn_cellular_respiration_of_glycogen_11 X))) (let ((_let_97 (tptp.fn_cellular_respiration_of_glycogen_31 X))) (let ((_let_98 (tptp.fn_cellular_respiration_of_glycogen_32 X))) (let ((_let_99 (tptp.fn_cellular_respiration_of_glycogen_33 X))) (let ((_let_100 (tptp.fn_cellular_respiration_of_glycogen_26 X))) (let ((_let_101 (tptp.fn_cellular_respiration_of_glycogen_16 X))) (let ((_let_102 (tptp.fn_cellular_respiration_of_glycogen_9 X))) (let ((_let_103 (tptp.fn_cellular_respiration_of_glycogen_5 X))) (let ((_let_104 (tptp.fn_cellular_respiration_of_glycogen_1 X))) (let ((_let_105 (tptp.fn_cellular_respiration_of_glycogen_6 X))) (let ((_let_106 (tptp.fn_cellular_respiration_of_glycogen_7 X))) (let ((_let_107 (tptp.fn_cellular_respiration_of_glycogen_8 X))) (let ((_let_108 (tptp.fn_cellular_respiration_of_glycogen_2 X))) (let ((_let_109 (tptp.fn_cellular_respiration_of_glycogen_4 X))) (let ((_let_110 (tptp.fn_cellular_respiration_of_glycogen_3 X))) (=> (tptp.cellular_respiration_of_glycogen_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Respiration-Of-Glycogen'|) (tptp.user_description_2 X |tptp.'Cellular respiration of Glycogen refers to oxidative metabolism of glycogen by which cell gains useful energy.'|) (tptp.concept2words_2 X |tptp.'perform cellular respiration'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'cellular respiration of glycogen'|) (tptp.concept2words_2 X |tptp.'cellular-respiration-of-glycogen'|) (tptp.cellular_respiration_of_complex_carbohydrate_1 X) (tptp.time_interval_1 _let_104) (tptp.time_interval_1 _let_108) (tptp.time_interval_1 _let_110) (tptp.time_interval_1 _let_109) (tptp.potential_energy_1 _let_103) (tptp.redox_reaction_1 _let_105) (tptp.potential_energy_1 _let_106) (tptp.redox_reaction_1 _let_107) (tptp.time_interval_1 _let_102) (tptp.molecule_1 _let_95) (tptp.water_molecule_1 _let_95) (tptp.chemical_energy_1 _let_96) (tptp.oxidation_1 _let_50) (tptp.organic_molecule_1 _let_45) (tptp.pyruvate_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.hydrolysis_1 _let_94) (tptp.exergonic_reaction_1 _let_1) (tptp.glycolysis_1 _let_1) (tptp.glycogen_1 _let_101) (tptp.pyruvate_oxidation_1 _let_3) (tptp.chemical_entity_1 _let_91) (tptp.acetate_1 _let_91) (tptp.multienzyme_complex_1 _let_93) (tptp.chemical_reaction_1 _let_32) (tptp.redox_reaction_1 _let_32) (tptp.chemical_reaction_1 _let_90) (tptp.molecule_1 _let_53) (tptp.spatial_entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.organic_molecule_1 _let_53) (tptp.acetyl_coa_1 _let_53) (tptp.chemical_reaction_1 _let_87) (tptp.synthesis_of_organic_molecule_1 _let_46) (tptp.chemical_reaction_1 _let_46) (tptp.synthesis_of_atp_1 _let_46) (tptp.substrate_level_phosphorylation_1 _let_46) (tptp.anabolic_pathway_1 _let_46) (tptp.citric_acid_cycle_1 _let_11) (tptp.time_interval_1 _let_100) (tptp.isomerization_reaction_1 _let_48) (tptp.chemical_energy_1 _let_44) (tptp.spatial_entity_1 _let_37) (tptp.tangible_entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.organic_molecule_1 _let_37) (tptp.nad_plus_1 _let_37) (tptp.molecule_1 _let_37) (tptp.quantity_value_1 _let_43) (tptp.quantity_value_1 _let_97) (tptp.quantity_value_1 _let_98) (tptp.chemical_energy_1 _let_99) (tptp.chemical_reaction_1 _let_29) (tptp.oxidative_phosphorylation_1 _let_29) (tptp.chemical_reaction_1 _let_77) (tptp.chemical_reaction_1 _let_78) (tptp.synthesis_reaction_1 _let_66) (tptp.oxaloacetate_1 _let_65) (tptp.organic_molecule_1 _let_79) (tptp.nad_plus_1 _let_79) (tptp.quantity_value_1 _let_57) (tptp.speed_value_1 _let_59) (tptp.carbon_skeleton_1 _let_76) (tptp.entity_1 _let_74) (tptp.chemical_entity_1 _let_74) (tptp.atom_1 _let_74) (tptp.carbon_1 _let_74) (tptp.atom_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.constant_motion_1 _let_61) (tptp.reactant_1 _let_63) (tptp.kinetic_energy_1 _let_55) (tptp.chemical_energy_1 _let_80) (tptp.structural_complexity_value_1 _let_70) (tptp.structural_complexity_value_1 _let_69) (tptp.catabolic_pathway_1 _let_17) (tptp.organic_molecule_1 _let_67) (tptp.nadh_1 _let_67) (tptp.chemical_entity_1 _let_84) (tptp.fadh2_1 _let_84) (tptp.chemical_energy_1 _let_39) (tptp.quantity_value_1 _let_41) (tptp.multienzyme_complex_1 _let_92) (tptp.chemical_reaction_1 _let_89) (tptp.redox_reaction_1 _let_88) (tptp.chemical_reaction_1 _let_86) (tptp.property_node_1 _let_85) (tptp.property_node_1 _let_83) (tptp.property_node_1 _let_82) (tptp.property_node_1 _let_81) (tptp.carbon_skeleton_1 _let_75) (tptp.entity_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.atom_1 _let_73) (tptp.carbon_1 _let_73) (tptp.atom_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.structural_complexity_value_1 _let_68) (tptp.oxaloacetate_1 _let_64) (tptp.reactant_1 _let_62) (tptp.constant_motion_1 _let_60) (tptp.speed_value_1 _let_58) (tptp.quantity_value_1 _let_56) (tptp.kinetic_energy_1 _let_54) (tptp.property_node_1 _let_52) (tptp.property_node_1 _let_51) (tptp.oxidation_1 _let_49) (tptp.isomerization_reaction_1 _let_47) (tptp.quantity_value_1 _let_42) (tptp.quantity_value_1 _let_40) (tptp.chemical_energy_1 _let_38) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.organic_molecule_1 _let_36) (tptp.nad_plus_1 _let_36) (tptp.molecule_1 _let_36) (tptp.chemical_entity_1 _let_33) (tptp.acetate_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.fadh2_1 _let_28) (tptp.chemical_energy_1 _let_27) (tptp.chemical_energy_1 _let_26) (tptp.organic_molecule_1 _let_25) (tptp.nad_plus_1 _let_24) (tptp.chemical_reaction_1 _let_23) (tptp.chemical_reaction_1 _let_22) (tptp.chemical_reaction_1 _let_21) (tptp.structural_complexity_value_1 _let_20) (tptp.structural_complexity_value_1 _let_19) (tptp.organic_molecule_1 _let_18) (tptp.nadh_1 _let_16) (tptp.synthesis_reaction_1 _let_15) (tptp.synthesis_reaction_1 _let_14) (tptp.chemical_entity_1 _let_13) (tptp.organic_molecule_1 _let_13) (tptp.molecule_1 _let_13) (tptp.acetyl_coa_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.organic_molecule_1 _let_12) (tptp.acetyl_coa_1 _let_12) (tptp.synthesis_of_organic_molecule_1 _let_10) (tptp.chemical_reaction_1 _let_10) (tptp.synthesis_of_atp_1 _let_10) (tptp.substrate_level_phosphorylation_1 _let_10) (tptp.chemical_reaction_1 _let_9) (tptp.synthesis_of_atp_1 _let_9) (tptp.substrate_level_phosphorylation_1 _let_9) (tptp.anabolic_pathway_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.organic_molecule_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.pyruvate_1 _let_7) (tptp.pyruvate_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.chemical_energy_1 _let_5) (tptp.chemical_energy_1 _let_4) (tptp.chemical_energy_1 _let_2) (tptp.raw_material_2 _let_17 _let_65) (tptp.greater_than_or_equal_to_2 _let_98 _let_97) (tptp.time_before_2 _let_104 _let_100) (tptp.time_during_2 _let_48 _let_102) (tptp.time_before_2 _let_108 _let_109) (tptp.time_before_2 _let_110 _let_108) (tptp.time_during_2 _let_46 _let_102) (tptp.time_during_2 _let_87 _let_110) (tptp.time_during_2 _let_90 _let_109) (tptp.time_during_2 _let_32 _let_108) (tptp.agent_2 _let_32 _let_93) (tptp.causes_2 _let_3 _let_107) (tptp.raw_material_2 _let_3 _let_106) (tptp.causes_2 _let_1 _let_105) (tptp.time_during_2 _let_1 _let_104) (tptp.raw_material_2 _let_1 _let_103) (tptp.time_before_2 _let_102 _let_102) (tptp.result_2 _let_50 _let_45) (tptp.result_2 _let_32 _let_91) (tptp.raw_material_2 _let_29 _let_84) (tptp.result_2 _let_17 _let_67) (tptp.raw_material_2 _let_17 _let_79) (tptp.raw_material_2 X _let_101) (tptp.possesses_2 _let_101 _let_99) (tptp.subevent_2 X _let_29) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.time_during_2 _let_3 _let_100) (tptp.result_2 X _let_95) (tptp.possesses_2 _let_95 _let_96) (tptp.quantity_2 _let_96 _let_97) (tptp.greater_than_2 _let_98 _let_97) (tptp.quantity_2 _let_99 _let_98) (tptp.next_event_2 _let_1 _let_3) (tptp.next_event_2 _let_3 _let_11) (tptp.next_event_2 _let_11 _let_29) (tptp.possesses_2 _let_45 _let_44) (tptp.result_2 _let_90 _let_53) (tptp.result_2 _let_3 _let_53) (tptp.subevent_2 _let_3 _let_32) (not (= _let_91 _let_53)) (not (= _let_53 _let_91)) (tptp.subevent_2 _let_3 _let_87) (tptp.first_subevent_2 _let_3 _let_87) (tptp.subevent_2 _let_3 _let_90) (tptp.agent_2 _let_90 _let_93) (tptp.agent_2 _let_3 _let_93) (tptp.raw_material_2 _let_3 _let_45) (tptp.raw_material_2 _let_87 _let_45) (tptp.next_event_2 _let_87 _let_32) (tptp.next_event_2 _let_32 _let_90) (tptp.raw_material_2 _let_90 _let_91) (tptp.object_2 _let_61 _let_53) (tptp.result_2 _let_11 _let_84) (tptp.possesses_2 _let_53 _let_80) (tptp.has_part_2 _let_53 _let_74) (tptp.raw_material_2 _let_11 _let_79) (tptp.possesses_2 _let_79 _let_80) (tptp.subevent_2 _let_11 _let_77) (tptp.next_event_2 _let_77 _let_78) (tptp.subevent_2 _let_11 _let_78) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (tptp.has_part_2 _let_53 _let_72) (not (= _let_72 _let_74)) (tptp.is_inside_2 _let_74 _let_76) (tptp.has_region_2 _let_53 _let_76) (tptp.structural_complexity_2 _let_53 _let_70) (not (= _let_74 _let_72)) (tptp.first_subevent_2 _let_11 _let_66) (tptp.subevent_2 _let_11 _let_66) (tptp.result_2 _let_11 _let_67) (tptp.structural_complexity_2 _let_67 _let_69) (tptp.greater_than_2 _let_70 _let_69) (tptp.plays_2 _let_53 _let_63) (tptp.in_event_2 _let_63 _let_11) (tptp.raw_material_2 _let_11 _let_65) (tptp.raw_material_2 _let_66 _let_65) (tptp.raw_material_2 _let_66 _let_53) (tptp.raw_material_2 _let_11 _let_53) (tptp.possesses_2 _let_53 _let_55) (tptp.quantity_2 _let_55 _let_57) (tptp.directly_proportional_2 _let_59 _let_57) (tptp.speed_2 _let_61 _let_59) (tptp.recipient_2 _let_50 _let_37) (tptp.result_2 _let_1 _let_45) (tptp.result_2 _let_46 _let_45) (not (= _let_48 _let_46)) (not (= _let_46 _let_48)) (tptp.raw_material_2 _let_1 _let_37) (tptp.possesses_2 _let_37 _let_39) (tptp.quantity_2 _let_39 _let_41) (tptp.greater_than_2 _let_41 _let_43) (tptp.quantity_2 _let_44 _let_43) (= _let_91 _let_33) (= _let_84 _let_30) (= _let_67 _let_18) (= _let_79 _let_25) (= _let_101 (tptp.fn_cellular_respiration_of_complex_carbohydrate_34 X)) (= (tptp.fn_cellular_respiration_of_glycogen_61 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_11 X)) (= (tptp.fn_cellular_respiration_of_glycogen_62 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_12 X)) (= _let_100 (tptp.fn_cellular_respiration_of_complex_carbohydrate_4 X)) (= _let_99 (tptp.fn_cellular_respiration_of_complex_carbohydrate_19 X)) (= _let_98 (tptp.fn_cellular_respiration_of_complex_carbohydrate_13 X)) (= _let_97 (tptp.fn_cellular_respiration_of_complex_carbohydrate_14 X)) (= _let_96 (tptp.fn_cellular_respiration_of_complex_carbohydrate_15 X)) (= _let_95 _let_35) (= _let_95 _let_34) (= _let_29 (tptp.fn_cellular_respiration_of_complex_carbohydrate_9 X)) (= _let_11 (tptp.fn_cellular_respiration_of_complex_carbohydrate_10 X)) (= _let_3 (tptp.fn_cellular_respiration_of_complex_carbohydrate_27 X)) (= _let_1 (tptp.fn_cellular_respiration_of_complex_carbohydrate_28 X)) (= _let_94 (tptp.fn_cellular_respiration_of_complex_carbohydrate_35 X)) (= _let_44 _let_5) (= _let_44 _let_4) (= _let_53 _let_13) (= _let_93 _let_92) (= _let_91 _let_31) (= _let_90 _let_89) (= _let_32 _let_88) (= _let_87 _let_86) (= _let_45 _let_7) (= (tptp.fn_cellular_respiration_of_glycogen_56 X) _let_85) (= _let_84 _let_28) (= (tptp.fn_cellular_respiration_of_glycogen_57 X) _let_83) (= _let_80 _let_27) (= (tptp.fn_cellular_respiration_of_glycogen_58 X) _let_82) (= (tptp.fn_cellular_respiration_of_glycogen_59 X) _let_81) (= _let_80 _let_26) (= _let_79 _let_24) (= _let_77 _let_23) (= _let_78 _let_21) (= _let_78 _let_23) (= _let_77 _let_22) (= _let_77 _let_21) (= _let_70 _let_20) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_72 _let_71) (= _let_70 _let_19) (= _let_69 _let_68) (= _let_67 _let_16) (= _let_66 _let_15) (= _let_66 _let_14) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_53 _let_12) (= (tptp.fn_cellular_respiration_of_glycogen_60 X) _let_52) (= (tptp.fn_cellular_respiration_of_glycogen_63 X) _let_51) (= _let_50 _let_49) (= _let_46 _let_10) (= _let_48 _let_47) (= _let_46 _let_9) (= _let_45 _let_8) (= _let_45 _let_6) (= _let_44 _let_2) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_of_protein_17 X))) (let ((_let_2 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_let_22 _let_78) (not (= _let_80 _let_22)) (not (= _let_22 _let_80)) (tptp.has_part_2 _let_3 _let_54) (tptp.has_region_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_55) (tptp.has_part_2 _let_3 _let_56) (tptp.has_part_2 _let_3 _let_72) (not (= _let_73 _let_72)) (not (= _let_72 _let_73)) (tptp.has_part_2 _let_3 _let_53) (not (= _let_72 _let_53)) (not (= _let_53 _let_72)) (not (= _let_56 _let_53)) (not (= _let_53 _let_56)) (tptp.has_part_2 _let_3 _let_73) (not (= _let_73 _let_56)) (not (= _let_56 _let_72)) (not (= _let_53 _let_73)) (not (= _let_73 _let_53)) (not (= _let_56 _let_73)) (not (= _let_72 _let_56)) (not (= _let_53 _let_55)) (not (= _let_55 _let_53)) (not (= _let_53 _let_54)) (not (= _let_54 _let_53)) (tptp.is_inside_2 _let_53 _let_1) (not (= _let_54 _let_56)) (not (= _let_55 _let_54)) (not (= _let_56 _let_54)) (tptp.is_inside_2 _let_56 _let_1) (tptp.is_inside_2 _let_55 _let_1) (not (= _let_54 _let_55)) (tptp.is_inside_2 _let_54 _let_1) (tptp.is_between_2 _let_7 _let_53) (tptp.object_2 _let_69 _let_22) (tptp.speed_2 _let_69 _let_58) (tptp.directly_proportional_2 _let_58 _let_61) (tptp.quantity_2 _let_67 _let_61) (tptp.possesses_2 _let_22 _let_67) (tptp.has_region_2 _let_22 _let_65) (tptp.is_inside_2 _let_63 _let_65) (tptp.has_part_2 _let_22 _let_63) (tptp.is_inside_2 _let_53 _let_71) (tptp.has_region_2 _let_3 _let_71) (tptp.is_between_2 _let_7 _let_72) (= _let_91 _let_44) (= _let_97 _let_96) (= _let_22 _let_21) (= _let_93 _let_50) (= _let_91 _let_41) (= _let_94 _let_52) (= _let_94 _let_51) (= _let_56 _let_16) (= _let_7 _let_4) (= _let_3 _let_30) (= _let_93 _let_49) (= _let_92 _let_47) (= _let_92 _let_46) (= _let_92 _let_45) (= _let_91 _let_42) (= _let_91 _let_40) (= _let_90 _let_89) (= _let_63 _let_26) (= _let_63 _let_25) (= _let_88 _let_38) (= _let_88 _let_37) (= _let_87 _let_86) (= (tptp.fn_cellular_respiration_of_protein_6 X) _let_85) (= _let_84 _let_83) (= _let_63 _let_27) (= _let_63 _let_24) (= _let_82 _let_36) (= _let_82 _let_35) (= _let_81 _let_34) (= _let_22 _let_19) (= _let_81 _let_33) (= _let_80 _let_79) (= _let_22 _let_18) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_54 _let_11) (= _let_3 _let_28) (= _let_1 _let_74) (= _let_55 _let_12) (= _let_72 _let_31) (= _let_56 _let_15) (= _let_73 _let_13) (= _let_73 _let_32) (= _let_72 _let_8) (= _let_53 _let_6) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_23) (= (tptp.fn_cellular_respiration_of_protein_8 X) _let_62) (= _let_61 _let_60) (= (tptp.fn_cellular_respiration_of_protein_7 X) _let_59) (= _let_58 _let_57) (= _let_53 _let_8) (= _let_55 _let_13) (= _let_55 _let_9) (= _let_54 _let_10) (= _let_56 _let_14) (= _let_55 _let_10) (= _let_54 _let_9) (= _let_7 _let_2) (= _let_53 _let_5) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_13) (= _let_32 _let_13) (= _let_13 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_8) (= _let_8 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_9) (= _let_9 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_respiration_of_disaccharide_34 X))) (let ((_let_2 (tptp.fn_cellular_respiration_of_sucrose_25 X))) (let ((_let_3 (tptp.fn_dihydroxyacetone_phosphate_1 _let_2))) (let ((_let_4 (tptp.fn_aldose_9 _let_2))) (let ((_let_5 (tptp.fn_triose_9 _let_2))) (let ((_let_6 (tptp.fn_ketone_12 _let_2))) (let ((_let_7 (tptp.fn_aldose_3 _let_2))) (let ((_let_8 (tptp.fn_dihydroxyacetone_phosphate_7 _let_2))) (let ((_let_9 (tptp.fn_triose_8 _let_2))) (let ((_let_10 (tptp.fn_monosaccharide_9 _let_2))) (let ((_let_11 (tptp.fn_aldose_4 _let_2))) (let ((_let_12 (tptp.fn_triose_14 _let_2))) (let ((_let_13 (tptp.fn_monosaccharide_13 _let_2))) (let ((_let_14 (tptp.fn_aldose_10 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(tptp.fn_cellular_respiration_of_sucrose_49 X))) (let ((_let_64 (tptp.fn_cellular_respiration_of_sucrose_47 X))) (let ((_let_65 (tptp.fn_cellular_respiration_of_sucrose_48 X))) (let ((_let_66 (tptp.fn_cellular_respiration_of_sucrose_27 X))) (let ((_let_67 (tptp.fn_cellular_respiration_of_sucrose_26 X))) (let ((_let_68 (tptp.fn_cellular_respiration_of_sucrose_40 X))) (let ((_let_69 (tptp.fn_cellular_respiration_of_sucrose_60 X))) (let ((_let_70 (tptp.fn_cellular_respiration_of_sucrose_61 X))) (let ((_let_71 (tptp.fn_cellular_respiration_of_sucrose_29 X))) (let ((_let_72 (tptp.fn_cellular_respiration_of_sucrose_2 X))) (let ((_let_73 (tptp.fn_cellular_respiration_of_sucrose_1 X))) (let ((_let_74 (tptp.fn_cellular_respiration_of_sucrose_4 X))) (let ((_let_75 (tptp.fn_cellular_respiration_of_sucrose_3 X))) (let ((_let_76 (tptp.fn_cellular_respiration_of_sucrose_6 X))) (let ((_let_77 (tptp.fn_cellular_respiration_of_sucrose_5 X))) (let ((_let_78 (tptp.fn_cellular_respiration_of_sucrose_8 X))) (let ((_let_79 (tptp.fn_cellular_respiration_of_sucrose_7 X))) (let ((_let_80 (tptp.fn_cellular_respiration_of_sucrose_10 X))) (let ((_let_81 (tptp.fn_cellular_respiration_of_sucrose_9 X))) (let ((_let_82 (tptp.fn_cellular_respiration_of_sucrose_16 X))) (let ((_let_83 (tptp.fn_cellular_respiration_of_sucrose_11 X))) (let ((_let_84 (tptp.fn_cellular_respiration_of_sucrose_14 X))) (let ((_let_85 (tptp.fn_cellular_respiration_of_sucrose_15 X))) (let ((_let_86 (tptp.fn_cellular_respiration_of_sucrose_17 X))) (let ((_let_87 (tptp.fn_cellular_respiration_of_sucrose_18 X))) (let ((_let_88 (tptp.fn_cellular_respiration_of_sucrose_19 X))) (let ((_let_89 (tptp.fn_cellular_respiration_of_sucrose_20 X))) (let ((_let_90 (tptp.fn_cellular_respiration_of_sucrose_12 X))) (let ((_let_91 (tptp.fn_cellular_respiration_of_sucrose_13 X))) (=> (tptp.cellular_respiration_of_sucrose_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Respiration-Of-Sucrose'|) (tptp.user_description_2 X |tptp.'Cellular 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(tptp.chemical_entity_1 _let_88) (tptp.structural_complexity_value_1 _let_122) (tptp.oxygen_molecule_1 _let_144) (tptp.time_interval_1 _let_97) (tptp.organic_molecule_1 _let_89) (tptp.pyruvate_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.anabolic_pathway_1 _let_108) (tptp.synthesis_of_organic_molecule_1 _let_108) (tptp.chemical_reaction_1 _let_108) (tptp.synthesis_of_atp_1 _let_108) (tptp.substrate_level_phosphorylation_1 _let_108) (tptp.dihydroxyacetone_phosphate_1 _let_59) (tptp.chemical_entity_1 _let_130) (tptp.electron_1 _let_132) (tptp.oxidation_1 _let_64) (tptp.chemical_entity_1 _let_87) (tptp.water_molecule_1 _let_87) (tptp.remove_1 _let_73) (tptp.release_1 _let_69) (tptp.free_energy_1 _let_141) (tptp.release_1 _let_71) (tptp.decomposition_reaction_1 _let_2) (tptp.exergonic_reaction_1 _let_2) (tptp.hydrolysis_1 _let_2) (tptp.spatial_entity_1 _let_79) (tptp.tangible_entity_1 _let_79) (tptp.organic_molecule_1 _let_79) (tptp.starch_1 _let_79) (tptp.chemical_entity_1 _let_79) (tptp.carbohydrate_1 _let_79) (tptp.glycolysis_1 _let_12) (tptp.spatial_entity_1 _let_93) (tptp.tangible_entity_1 _let_93) (tptp.chemical_entity_1 _let_93) (tptp.organic_molecule_1 _let_93) (tptp.nad_plus_1 _let_93) (tptp.molecule_1 _let_93) (tptp.break_1 _let_30) (tptp.entity_1 _let_135) (tptp.chemical_entity_1 _let_135) (tptp.atom_1 _let_135) (tptp.carbon_1 _let_135) (tptp.heat_1 _let_137) (tptp.tangible_entity_1 _let_139) (tptp.carbon_skeleton_1 _let_127) (tptp.functional_group_1 _let_129) (tptp.carbonyl_group_1 _let_129) (tptp.entity_1 _let_124) (tptp.chemical_entity_1 _let_124) (tptp.atom_1 _let_124) (tptp.hydrogen_1 _let_124) (tptp.entity_1 _let_125) (tptp.chemical_entity_1 _let_125) (tptp.atom_1 _let_125) (tptp.carbon_1 _let_125) (tptp.pyruvate_oxidation_1 _let_14) (tptp.carbon_dioxide_1 _let_100) (tptp.multienzyme_complex_1 _let_118) (tptp.chemical_reaction_1 _let_54) (tptp.redox_reaction_1 _let_54) (tptp.chemical_entity_1 _let_119) (tptp.acetate_1 _let_119) (tptp.chemical_reaction_1 _let_116) (tptp.spatial_entity_1 _let_120) (tptp.chemical_entity_1 _let_120) (tptp.organic_molecule_1 _let_120) (tptp.molecule_1 _let_120) (tptp.acetyl_coa_1 _let_120) (tptp.structural_complexity_value_1 _let_104) (tptp.isomerization_reaction_1 _let_110) (tptp.structural_complexity_value_1 _let_103) (tptp.chemical_reaction_1 _let_113) (tptp.enzymatic_reaction_1 _let_107) (tptp.catabolic_pathway_1 _let_39) (tptp.citric_acid_cycle_1 _let_39) (tptp.hydrogen_1 _let_84) (tptp.tangible_entity_1 _let_86) (tptp.entity_1 _let_86) (tptp.chemical_entity_1 _let_86) (tptp.atom_1 _let_86) (tptp.hydrogen_1 _let_86) (tptp.oxidation_1 _let_92) (tptp.water_molecule_1 _let_98) (tptp.chemical_entity_1 _let_143) (tptp.tangible_entity_1 _let_142) (tptp.tangible_entity_1 _let_140) (tptp.tangible_entity_1 _let_138) (tptp.electron_1 _let_131) (tptp.functional_group_1 _let_128) (tptp.carbonyl_group_1 _let_128) (tptp.carbon_skeleton_1 _let_126) (tptp.property_node_1 _let_123) (tptp.structural_complexity_value_1 _let_121) (tptp.multienzyme_complex_1 _let_117) (tptp.chemical_reaction_1 _let_115) (tptp.redox_reaction_1 _let_114) (tptp.chemical_reaction_1 _let_112) (tptp.property_node_1 _let_111) (tptp.isomerization_reaction_1 _let_109) (tptp.enzymatic_reaction_1 _let_106) (tptp.tangible_entity_1 _let_85) (tptp.entity_1 _let_85) (tptp.chemical_entity_1 _let_85) (tptp.atom_1 _let_85) (tptp.hydrogen_1 _let_85) (tptp.hydrogen_1 _let_83) (tptp.atom_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.entity_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.atom_1 _let_80) (tptp.carbon_1 _let_80) (tptp.quantity_value_1 _let_78) (tptp.chemical_energy_1 _let_76) (tptp.spatial_entity_1 _let_74) (tptp.tangible_entity_1 _let_72) (tptp.tangible_entity_1 _let_70) (tptp.chemical_entity_1 _let_68) (tptp.chemical_entity_1 _let_66) (tptp.chemical_entity_1 _let_65) (tptp.carbon_1 _let_63) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.carbon_1 _let_62) (tptp.atom_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.hydrogen_1 _let_60) (tptp.organic_molecule_1 _let_58) (tptp.spatial_entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.organic_molecule_1 _let_57) (tptp.acetyl_coa_1 _let_57) (tptp.chemical_entity_1 _let_56) (tptp.organic_molecule_1 _let_56) (tptp.molecule_1 _let_56) (tptp.acetyl_coa_1 _let_56) (tptp.chemical_entity_1 _let_55) (tptp.acetate_1 _let_53) (tptp.chemical_reaction_1 _let_52) (tptp.synthesis_of_atp_1 _let_52) (tptp.substrate_level_phosphorylation_1 _let_52) (tptp.property_node_1 _let_50) (tptp.structural_complexity_value_1 _let_48) (tptp.structural_complexity_value_1 _let_47) (tptp.structural_complexity_value_1 _let_45) (tptp.structural_complexity_value_1 _let_44) (tptp.chemical_reaction_1 _let_43) (tptp.synthesis_of_atp_1 _let_43) (tptp.substrate_level_phosphorylation_1 _let_43) (tptp.synthesis_of_organic_molecule_1 _let_42) (tptp.chemical_reaction_1 _let_42) (tptp.synthesis_of_atp_1 _let_42) (tptp.substrate_level_phosphorylation_1 _let_42) (tptp.chemical_reaction_1 _let_41) (tptp.synthesis_of_atp_1 _let_41) (tptp.substrate_level_phosphorylation_1 _let_41) (tptp.anabolic_pathway_1 _let_41) (tptp.nadh_1 _let_40) (tptp.organic_molecule_1 _let_38) (tptp.nadh_1 _let_38) (tptp.molecule_1 _let_38) (tptp.property_node_1 _let_37) (tptp.quantity_value_1 _let_35) (tptp.chemical_energy_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.organic_molecule_1 _let_29) (tptp.nad_plus_1 _let_29) (tptp.molecule_1 _let_29) (tptp.quantity_value_1 _let_27) (tptp.quantity_value_1 _let_25) (tptp.quantity_value_1 _let_24) (tptp.quantity_value_1 _let_23) (tptp.chemical_energy_1 _let_21) (tptp.chemical_energy_1 _let_20) (tptp.chemical_energy_1 _let_19) (tptp.organic_molecule_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.pyruvate_1 _let_15) (tptp.pyruvate_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.water_molecule_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.structural_complexity_2 _let_136 _let_103) (tptp.time_before_2 _let_155 _let_97) (tptp.next_event_2 _let_102 _let_110) (tptp.time_during_2 _let_102 _let_145) (tptp.possesses_2 _let_144 _let_160) (tptp.quantity_2 _let_160 _let_159) (tptp.greater_than_2 _let_159 _let_158) (tptp.quantity_2 _let_149 _let_158) (tptp.time_before_2 _let_148 _let_147) (tptp.time_before_2 _let_146 _let_148) (tptp.time_before_2 _let_145 _let_157) (tptp.time_before_2 _let_145 _let_145) (tptp.time_during_2 _let_108 _let_157) (tptp.is_inside_2 _let_141 _let_79) (tptp.result_2 _let_2 _let_59) (tptp.by_means_of_2 _let_2 _let_73) (tptp.site_2 _let_2 _let_156) (tptp.is_near_2 _let_79 _let_139) (tptp.time_during_2 _let_12 _let_155) (not (= _let_12 _let_39)) (tptp.raw_material_2 _let_12 _let_154) (tptp.causes_2 _let_12 _let_153) (tptp.has_state_2 _let_135 _let_59) (tptp.object_2 _let_137 _let_139) (tptp.is_near_2 _let_139 _let_79) (tptp.has_region_2 _let_127 _let_152) (tptp.is_at_2 _let_129 _let_152) (tptp.raw_material_2 _let_14 _let_151) (tptp.causes_2 _let_14 _let_150) (tptp.possesses_2 _let_100 _let_149) (tptp.time_during_2 _let_54 _let_148) (tptp.agent_2 _let_54 _let_118) (tptp.time_during_2 _let_116 _let_147) (tptp.time_during_2 _let_110 _let_145) (tptp.time_during_2 _let_113 _let_146) (tptp.time_during_2 _let_107 _let_145) (not (= _let_39 _let_12)) (tptp.base_2 _let_73 _let_79) (tptp.base_2 _let_71 _let_79) (tptp.base_2 _let_69 _let_79) (tptp.object_2 _let_30 _let_93) (tptp.raw_material_2 _let_96 _let_144) (tptp.result_2 _let_54 _let_119) (tptp.object_2 _let_71 _let_141) (tptp.object_2 _let_69 _let_141) (tptp.base_2 _let_137 _let_139) (tptp.result_2 X _let_136) (tptp.has_part_2 _let_79 _let_135) (tptp.raw_material_2 _let_39 _let_120) (tptp.result_2 _let_39 _let_101) (tptp.donor_2 _let_64 _let_79) (not (= _let_79 _let_132)) (not (= _let_130 _let_79)) (not (= _let_79 _let_130)) (not (= _let_132 _let_79)) (tptp.has_part_2 _let_79 _let_88) (tptp.raw_material_2 _let_2 _let_79) (not (= _let_87 _let_79)) (not (= _let_79 _let_87)) (tptp.raw_material_2 X _let_79) (tptp.possesses_2 _let_79 _let_133) (tptp.quantity_2 _let_133 _let_134) (tptp.greater_than_2 _let_134 _let_91) (tptp.result_2 _let_108 _let_89) (tptp.greater_than_2 _let_91 _let_91) (tptp.object_2 _let_64 _let_132) (tptp.recipient_2 _let_64 _let_130) (not (= _let_132 _let_130)) (not (= _let_130 _let_132)) (tptp.is_inside_2 _let_125 _let_129) (tptp.has_part_2 _let_59 _let_124) (not (= _let_124 _let_125)) (tptp.is_inside_2 _let_125 _let_127) (not (= _let_125 _let_124)) (tptp.subevent_2 _let_14 _let_54) (tptp.result_2 _let_116 _let_120) (tptp.result_2 _let_14 _let_120) (tptp.first_subevent_2 _let_14 _let_113) (tptp.raw_material_2 _let_113 _let_89) (tptp.subevent_2 _let_14 _let_116) (tptp.raw_material_2 _let_116 _let_119) (not (= _let_119 _let_120)) (tptp.structural_complexity_2 _let_120 _let_122) (tptp.greater_than_2 _let_103 _let_122) (not (= _let_120 _let_119)) (tptp.subevent_2 _let_14 _let_113) (tptp.next_event_2 _let_113 _let_54) (tptp.next_event_2 _let_54 _let_116) (tptp.agent_2 _let_116 _let_118) (tptp.agent_2 _let_14 _let_118) (tptp.raw_material_2 _let_110 _let_93) (tptp.structural_complexity_2 _let_93 _let_104) (not (= _let_108 _let_110)) (not (= _let_108 _let_102)) (not (= _let_102 _let_108)) (not (= _let_110 _let_108)) (not (= _let_107 _let_110)) (not (= _let_110 _let_107)) (tptp.raw_material_2 _let_107 _let_93) (not (= _let_107 _let_108)) (tptp.result_2 _let_108 _let_101) (tptp.result_2 _let_110 _let_101) (not (= _let_110 _let_102)) (not (= _let_108 _let_107)) (not (= _let_102 _let_110)) (tptp.result_2 _let_102 _let_101) (tptp.result_2 _let_102 _let_89) (tptp.structural_complexity_2 _let_89 _let_103) (tptp.greater_than_2 _let_104 _let_103) (tptp.result_2 _let_12 _let_101) (not (= _let_93 _let_101)) (not (= _let_101 _let_93)) (tptp.has_reduced_form_2 _let_93 _let_101) (tptp.has_oxidized_form_2 _let_101 _let_93) (tptp.result_2 X _let_100) (tptp.first_subevent_2 X _let_2) (tptp.next_event_2 _let_12 _let_14) (tptp.subevent_2 X _let_12) (tptp.result_2 X _let_98) (tptp.possesses_2 _let_98 _let_90) (tptp.next_event_2 _let_14 _let_39) (tptp.raw_material_2 _let_14 _let_89) (tptp.result_2 X _let_89) (tptp.raw_material_2 X _let_93) (tptp.raw_material_2 _let_12 _let_93) (tptp.subevent_2 X _let_39) (tptp.next_event_2 _let_39 _let_96) (tptp.subevent_2 X _let_96) (tptp.subevent_2 X _let_14) (tptp.time_during_2 _let_14 _let_97) (tptp.result_2 _let_92 _let_89) (tptp.recipient_2 _let_92 _let_93) (tptp.possesses_2 _let_93 _let_94) (tptp.quantity_2 _let_94 _let_95) (tptp.greater_than_2 _let_95 _let_91) (tptp.subevent_2 X _let_2) (tptp.next_event_2 _let_2 _let_12) (tptp.result_2 _let_12 _let_89) (tptp.possesses_2 _let_89 _let_90) (tptp.quantity_2 _let_90 _let_91) (tptp.has_state_2 _let_88 _let_82) (tptp.result_2 _let_2 _let_82) (tptp.has_part_2 _let_82 _let_84) (tptp.has_state_2 _let_86 _let_84) (tptp.has_part_2 _let_87 _let_86) (tptp.raw_material_2 _let_2 _let_87) (= _let_79 _let_74) (= _let_79 _let_72) (= _let_79 _let_70) (= _let_93 _let_31) (= _let_144 _let_143) (= _let_119 _let_55) (= _let_141 _let_142) (= _let_141 _let_140) (= _let_139 _let_138) (= _let_136 (tptp.fn_catabolism_7 X)) (= _let_135 _let_81) (= _let_135 _let_80) (= _let_120 _let_58) (= _let_120 _let_57) (= _let_101 _let_40) (= _let_79 _let_66) (= _let_88 _let_10) (= (tptp.fn_cellular_respiration_using_starch_76 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_12 X)) (= _let_87 _let_7) (= _let_134 _let_78) (= _let_134 _let_77) (= _let_79 _let_68) (= _let_133 _let_76) (= _let_133 _let_75) (= _let_79 _let_67) (= _let_108 _let_41) (= _let_130 _let_66) (= _let_132 _let_131) (= _let_130 _let_65) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_125 _let_63) (= _let_125 _let_62) (= _let_124 _let_61) (= _let_124 _let_60) (= (tptp.fn_cellular_respiration_using_starch_77 X) _let_123) (= _let_103 _let_45) (= _let_122 _let_121) (= _let_120 _let_56) (= _let_119 _let_53) (= _let_118 _let_117) (= _let_116 _let_115) (= _let_54 _let_114) (= _let_113 _let_112) (= (tptp.fn_cellular_respiration_using_starch_20 X) _let_111) (= _let_104 _let_48) (= _let_108 _let_52) (= _let_102 _let_42) (= _let_110 _let_109) (= _let_108 _let_42) (= _let_107 _let_106) (= _let_105 _let_51) (= _let_105 _let_50) (= _let_104 _let_49) (= _let_104 _let_47) (= _let_103 _let_46) (= _let_103 _let_44) (= _let_102 _let_43) (= _let_102 _let_41) (= _let_101 _let_38) (= _let_100 (tptp.fn_cellular_respiration_of_complex_carbohydrate_40 X)) (= _let_99 _let_37) (= _let_91 _let_25) (= _let_99 _let_36) (= (tptp.fn_cellular_respiration_using_starch_75 X) (tptp.fn_cellular_respiration_of_complex_carbohydrate_18 X)) (= _let_98 (tptp.fn_cellular_respiration_of_complex_carbohydrate_41 X)) (= _let_89 _let_16) (= X _let_1) (= _let_97 (tptp.fn_cellular_respiration_of_complex_carbohydrate_4 X)) (= _let_14 (tptp.fn_cellular_respiration_of_complex_carbohydrate_27 X)) (= _let_96 (tptp.fn_cellular_respiration_of_complex_carbohydrate_9 X)) (= _let_39 (tptp.fn_cellular_respiration_of_complex_carbohydrate_10 X)) (= _let_95 _let_35) (= _let_95 _let_34) (= _let_93 _let_29) (= _let_94 _let_33) (= _let_94 _let_32) (= _let_93 _let_28) (= _let_92 (tptp.fn_cellular_respiration_of_complex_carbohydrate_29 X)) (= _let_90 _let_21) (= _let_91 _let_27) (= _let_90 _let_18) (= _let_91 _let_26) (= _let_91 _let_24) (= _let_90 _let_19) (= _let_91 _let_23) (= _let_91 _let_22) (= _let_89 _let_15) (= _let_90 _let_20) (= _let_90 _let_17) (= _let_89 _let_13) (= _let_89 _let_11) (= _let_12 (tptp.fn_cellular_respiration_of_complex_carbohydrate_28 X)) (= _let_2 (tptp.fn_cellular_respiration_of_complex_carbohydrate_35 X)) (= _let_88 _let_9) (= _let_87 _let_8) (= _let_87 _let_6) (= _let_86 _let_85) (= _let_84 _let_83) (= _let_82 _let_5) (= _let_82 _let_4) (= _let_82 _let_3) (= _let_81 _let_80) (= _let_80 _let_77) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_72) (= _let_70 _let_72) (= _let_72 _let_70) (= _let_70 _let_66) (= _let_66 _let_66) (= _let_66 _let_68) (= _let_68 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_62) (= _let_62 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_41) (= _let_41 _let_52) (= _let_52 _let_52) (= _let_42 _let_52) (= _let_52 _let_42) (= _let_42 _let_42) (= _let_42 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_43) (= _let_43 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_13 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_11 _let_11) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intracellular_process_1 X))) (let ((_let_2 (tptp.fn_cell_signaling_event_1 X))) (let ((_let_3 (tptp.fn_cellular_response_3 X))) (let ((_let_4 (tptp.fn_cell_8 _let_3))) (let ((_let_5 (tptp.fn_cellular_response_2 X))) (let ((_let_6 (tptp.fn_cellular_response_1 X))) (=> (tptp.cellular_response_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Response'|) (tptp.user_description_2 X |tptp.'In cellular communication, the change in a specific cellular activity brought about by a transduced signal from outside the cell.'|) (tptp.concept2words_2 X tptp.response) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'cellular response'|) (tptp.concept2words_2 X |tptp.'cellular-response'|) (tptp.cell_signaling_event_1 X) (tptp.intracellular_process_1 X) (tptp.protein_1 _let_6) (tptp.motor_protein_1 _let_5) (tptp.cell_1 _let_3) (tptp.motor_protein_1 _let_4) (tptp.has_part_2 _let_3 _let_6) (tptp.instrument_2 X _let_6) (tptp.base_2 X _let_3) (tptp.has_part_2 _let_3 _let_5) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_5 _let_4) (= _let_2 _let_1)))))))))) (forall ((X $$unsorted)) (=> (tptp.cellular_role_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Role'|) (tptp.user_description_2 X |tptp.'Role played by a cell.'|) (tptp.concept2words_2 X |tptp.'cellular role'|) (tptp.concept2words_2 X |tptp.'cellular-role'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cellular_slime_mold_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Slime-Mold'|) (tptp.user_description_2 X |tptp.'A type of protist whose life cycle includes unicellular amoeboid cells and aggregated reproductive bodies.'|) (tptp.concept2words_2 X |tptp.'cellular slime mold'|) (tptp.concept2words_2 X |tptp.'cellular-slime-mold'|) (tptp.mycetozoa_1 X) (not (tptp.plasmodial_slime_mold_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cellular_structure_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Structure'|) (tptp.user_description_2 X |tptp.'A structure on or inside a cell.'|) (tptp.concept2words_2 X |tptp.'cell structure'|) (tptp.concept2words_2 X |tptp.'cellular structure'|) (tptp.concept2words_2 X |tptp.'cellular-structure'|) (tptp.physical_object_1 X) (not (tptp.metaphase_plate_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_transport_1 X))) (=> (tptp.cellular_transport_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Transport'|) (tptp.user_description_2 X |tptp.'Cellular process related to the transport of materials and water into, out of, and within the cell.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'cellular transport'|) (tptp.concept2words_2 X |tptp.'cellular-transport'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.work_1 X) (tptp.cell_1 X1)) (and (tptp.cellular_work_1 X) (= (tptp.fn_cellular_work_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_work_16 X))) (let ((_let_2 (tptp.fn_chemical_bond_2 _let_1))) (let ((_let_3 (tptp.fn_cellular_work_11 X))) (let ((_let_4 (tptp.fn_consume_1 _let_3))) (let ((_let_5 (tptp.fn_work_1 X))) (let ((_let_6 (tptp.fn_cellular_work_15 X))) (let ((_let_7 (tptp.fn_cellular_work_9 X))) (let ((_let_8 (tptp.fn_cellular_respiration_7 _let_7))) (let ((_let_9 (tptp.fn_cellular_work_8 X))) (let ((_let_10 (tptp.fn_cellular_respiration_6 _let_7))) (let ((_let_11 (tptp.fn_consume_2 _let_3))) (let ((_let_12 (tptp.fn_cellular_work_14 X))) (let ((_let_13 (tptp.fn_cellular_work_10 X))) (let ((_let_14 (tptp.fn_molecule_10 _let_13))) (let ((_let_15 (tptp.fn_cellular_work_12 X))) (let ((_let_16 (tptp.fn_release_1 _let_15))) (let ((_let_17 (tptp.fn_cellular_work_13 X))) (let ((_let_18 (tptp.fn_release_2 _let_15))) (let ((_let_19 (tptp.fn_cellular_work_5 X))) (let ((_let_20 (tptp.fn_cellular_work_3 X))) (let ((_let_21 (tptp.fn_cellular_work_2 X))) (=> (tptp.cellular_work_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Work'|) (tptp.user_description_2 X |tptp.'The work done by cell.'|) (tptp.concept2words_2 X |tptp.'perform cellular work'|) (tptp.concept2words_2 X |tptp.'cellular work'|) (tptp.concept2words_2 X |tptp.'cellular-work'|) (tptp.work_1 X) (tptp.cell_1 _let_21) (tptp.unitless_value_1 _let_20) (tptp.rate_value_1 _let_19) (tptp.rate_value_1 _let_9) (tptp.cellular_respiration_1 _let_7) (tptp.organic_molecule_1 _let_13) (tptp.consume_1 _let_3) (tptp.release_1 _let_15) (tptp.thermal_energy_1 _let_17) (tptp.resource_1 _let_12) (tptp.energy_1 _let_6) (tptp.entity_1 _let_6) (tptp.chemical_energy_1 _let_6) (tptp.chemical_bond_1 _let_1) (tptp.tangible_entity_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.chemical_bond_1 _let_14) (tptp.resource_1 _let_11) (tptp.property_node_1 _let_10) (tptp.rate_value_1 _let_8) (tptp.entity_1 _let_4) (tptp.chemical_energy_1 _let_2) (tptp.next_event_2 _let_3 _let_15) (tptp.raw_material_2 X _let_13) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_15) (tptp.base_2 X _let_21) (tptp.importance_2 X _let_20) (tptp.rate_2 X _let_19) (tptp.the_scalar_value_2 _let_20 tptp.high_0) (tptp.scalar_unit_class_2 _let_20 tptp.event_0) (tptp.directly_proportional_2 _let_19 _let_9) (tptp.base_2 _let_15 _let_13) (tptp.object_2 _let_15 _let_17) (tptp.raw_material_2 X _let_6) (tptp.possesses_2 _let_13 _let_1) (tptp.object_2 _let_3 _let_6) (tptp.plays_2 _let_6 _let_12) (tptp.in_event_2 _let_12 _let_3) (tptp.rate_2 _let_7 _let_9) (tptp.possesses_2 _let_1 _let_6) (= _let_13 _let_18) (= _let_17 _let_16) (= _let_6 _let_5) (= _let_1 _let_14) (= _let_12 _let_11) (= _let_6 _let_4) (= (tptp.fn_cellular_work_7 X) _let_10) (= _let_9 _let_8) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_work_involving_phosphorylation_1 X))) (=> (tptp.cellular_work_involving_phosphorylation_1 X) (and (tptp.original_name_2 X |tptp.'Cellular-Work-Involving-Phosphorylation'|) (tptp.user_description_2 X |tptp.'Enzymes shift a phosphate group (P) from ATP to some other molecule, and this phosphorylated molecule undergoes a change that performs work.'|) (tptp.concept2words_2 X |tptp.'perform cellular work'|) (tptp.concept2words_2 X |tptp.'cellular work involving phosphorylation'|) (tptp.concept2words_2 X |tptp.'cellular-work-involving-phosphorylation'|) (tptp.cellular_work_utilizing_atp_1 X) (tptp.phosphorylation_1 _let_1) (tptp.subevent_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellular_work_utilizing_atp_8 X))) (let ((_let_2 (tptp.fn_dephosphorylation_of_atp_76 _let_1))) (let ((_let_3 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_4 (tptp.fn_dephosphorylation_10 _let_1))) (let ((_let_5 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_6 (tptp.fn_dephosphorylation_of_atp_51 _let_1))) (let ((_let_7 (tptp.fn_hydrolysis_10 _let_1))) (let ((_let_8 (tptp.fn_dephosphorylation_of_atp_2 _let_1))) (let ((_let_9 (tptp.fn_dephosphorylation_of_atp_46 _let_1))) (let ((_let_10 (tptp.fn_hydrolysis_8 _let_1))) (let ((_let_11 (tptp.fn_dephosphorylation_of_atp_53 _let_1))) (let ((_let_12 (tptp.fn_dephosphorylation_11 _let_1))) (let ((_let_13 (tptp.fn_cellular_work_utilizing_atp_42 X))) (let ((_let_14 (tptp.fn_catabolism_7 _let_13))) (let ((_let_15 (tptp.fn_cellular_work_10 X))) (let ((_let_16 (tptp.fn_cellular_work_utilizing_atp_44 X))) (let ((_let_17 (tptp.fn_release_2 _let_16))) (let ((_let_18 (tptp.fn_catabolism_2 _let_13))) (let ((_let_19 (tptp.fn_dephosphorylation_of_atp_64 _let_1))) (let ((_let_20 (tptp.fn_dephosphorylation_5 _let_1))) (let ((_let_21 (tptp.fn_cellular_work_utilizing_atp_41 X))) (let ((_let_22 (tptp.fn_atp_36 _let_21))) (let ((_let_23 (tptp.fn_nucleoside_triphosphate_33 _let_21))) (let ((_let_24 (tptp.fn_ribonucleotide_17 _let_21))) (let ((_let_25 (tptp.fn_dephosphorylation_of_atp_57 _let_1))) (let ((_let_26 (tptp.fn_dephosphorylation_of_atp_58 _let_1))) (let ((_let_27 (tptp.fn_atp_32 _let_21))) (let ((_let_28 (tptp.fn_atp_33 _let_21))) (let ((_let_29 (tptp.fn_atp_34 _let_21))) (let ((_let_30 (tptp.fn_nucleoside_triphosphate_27 _let_21))) (let ((_let_31 (tptp.fn_dephosphorylation_of_atp_60 _let_1))) (let ((_let_32 (tptp.fn_ribonucleotide_14 _let_21))) (let ((_let_33 (tptp.fn_dephosphorylation_of_atp_67 _let_1))) (let ((_let_34 (tptp.fn_atp_29 _let_21))) (let ((_let_35 (tptp.fn_nucleoside_triphosphate_28 _let_21))) (let ((_let_36 (tptp.fn_cellular_work_16 X))) (let ((_let_37 (tptp.fn_dephosphorylation_of_atp_63 _let_1))) (let ((_let_38 (tptp.fn_dephosphorylation_of_atp_75 _let_1))) (let ((_let_39 (tptp.fn_dephosphorylation_6 _let_1))) (let ((_let_40 (tptp.fn_atp_35 _let_21))) (let ((_let_41 (tptp.fn_atp_37 _let_21))) (let ((_let_42 (tptp.fn_nucleoside_triphosphate_32 _let_21))) (let ((_let_43 (tptp.fn_nucleoside_triphosphate_29 _let_21))) (let ((_let_44 (tptp.fn_ribonucleotide_8 _let_21))) (let ((_let_45 (tptp.fn_ribonucleotide_16 _let_21))) (let ((_let_46 (tptp.fn_dephosphorylation_of_atp_65 _let_1))) (let ((_let_47 (tptp.fn_atp_39 _let_21))) (let ((_let_48 (tptp.fn_nucleoside_triphosphate_31 _let_21))) (let ((_let_49 (tptp.fn_dephosphorylation_of_atp_59 _let_1))) (let ((_let_50 (tptp.fn_nucleoside_triphosphate_30 _let_21))) (let ((_let_51 (tptp.fn_atp_31 _let_21))) (let ((_let_52 (tptp.fn_dephosphorylation_of_atp_61 _let_1))) (let ((_let_53 (tptp.fn_atp_7 _let_21))) (let ((_let_54 (tptp.fn_dephosphorylation_4 _let_1))) (let ((_let_55 (tptp.fn_dephosphorylation_of_atp_66 _let_1))) (let ((_let_56 (tptp.fn_atp_30 _let_21))) (let ((_let_57 (tptp.fn_nucleoside_triphosphate_35 _let_21))) (let ((_let_58 (tptp.fn_dephosphorylation_of_atp_62 _let_1))) (let ((_let_59 (tptp.fn_ribonucleotide_9 _let_21))) (let ((_let_60 (tptp.fn_dephosphorylation_of_atp_55 _let_1))) (let ((_let_61 (tptp.fn_atp_50 _let_21))) (let ((_let_62 (tptp.fn_ribonucleotide_10 _let_21))) (let ((_let_63 (tptp.fn_dephosphorylation_of_atp_56 _let_1))) (let ((_let_64 (tptp.fn_atp_25 _let_21))) (let ((_let_65 (tptp.fn_dephosphorylation_of_atp_50 _let_1))) (let ((_let_66 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_let_116 _let_130) (tptp.time_during_2 _let_16 _let_129) (tptp.quantity_2 _let_117 _let_123) (tptp.by_means_of_2 X _let_1) (tptp.result_2 X _let_71) (tptp.result_2 X _let_77) (tptp.time_before_2 _let_130 _let_129) (tptp.plays_2 _let_21 _let_128) (tptp.base_2 _let_16 _let_21) (tptp.in_event_2 _let_128 _let_16) (tptp.result_2 _let_13 _let_21) (tptp.raw_material_2 X _let_21) (tptp.has_part_2 _let_71 _let_115) (not (= _let_99 _let_94)) (not (= _let_94 _let_99)) (tptp.object_2 _let_119 _let_21) (tptp.speed_2 _let_119 _let_121) (tptp.directly_proportional_2 _let_121 _let_123) (tptp.object_2 _let_16 _let_117) (tptp.raw_material_2 X _let_113) (tptp.object_2 _let_116 _let_113) (tptp.next_event_2 _let_116 _let_16) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_116) (tptp.has_part_2 _let_21 _let_98) (tptp.has_part_2 _let_21 _let_96) (tptp.has_state_2 _let_87 _let_115) (tptp.has_region_2 _let_21 _let_92) (tptp.has_region_2 _let_21 _let_91) (tptp.is_inside_2 _let_92 _let_110) (tptp.called_2 _let_92 |tptp.'Terminal PO4 Group'|) (tptp.possesses_2 _let_21 _let_93) (tptp.possesses_2 _let_93 _let_113) (tptp.raw_material_2 _let_1 _let_21) (tptp.raw_material_2 _let_1 _let_86) (tptp.is_between_2 _let_100 _let_90) (tptp.possesses_2 _let_21 _let_100) (tptp.has_part_2 _let_21 _let_108) (tptp.has_part_2 _let_108 _let_109) (tptp.has_region_2 _let_109 _let_110) (tptp.has_part_2 _let_21 _let_99) (not (= _let_96 _let_99)) (tptp.has_state_2 _let_96 _let_77) (not (= _let_99 _let_96)) (tptp.has_state_2 _let_90 _let_77) (tptp.has_region_2 _let_21 _let_95) (tptp.is_inside_2 _let_99 _let_95) (tptp.is_between_2 _let_100 _let_99) (tptp.is_between_2 _let_100 _let_94) (tptp.has_part_2 _let_21 _let_94) (not (= _let_90 _let_77)) (not (= _let_90 _let_99)) (tptp.is_inside_2 _let_99 _let_91) (tptp.is_inside_2 _let_94 _let_91) (tptp.is_inside_2 _let_94 _let_92) (not (= _let_77 _let_90)) (not (= _let_99 _let_90)) (tptp.has_region_2 _let_21 _let_97) (tptp.is_inside_2 _let_96 _let_97) (not (= _let_96 _let_77)) (not (= _let_98 _let_96)) (not (= _let_96 _let_98)) (not (= _let_77 _let_96)) (tptp.is_inside_2 _let_90 _let_95) (tptp.is_inside_2 _let_94 _let_95) (not (= _let_94 _let_96)) (not (= _let_91 _let_95)) (not (= _let_95 _let_91)) (not (= _let_96 _let_94)) (tptp.is_between_2 _let_93 _let_90) (tptp.is_between_2 _let_93 _let_94) (not (= _let_94 _let_90)) (tptp.is_inside_2 _let_90 _let_92) (not (= _let_92 _let_95)) (not (= _let_90 _let_94)) (not (= _let_95 _let_92)) (tptp.possesses_2 _let_86 _let_89) (tptp.possesses_2 _let_21 _let_89) (tptp.has_part_2 _let_21 _let_90) (tptp.is_inside_2 _let_90 _let_91) (not (= _let_91 _let_92)) (not (= _let_92 _let_91)) (tptp.has_part_2 _let_86 _let_73) (not (= _let_86 _let_21)) (not (= _let_21 _let_86)) (tptp.result_2 _let_1 _let_77) (tptp.raw_material_2 _let_1 _let_85) (tptp.has_part_2 _let_85 _let_87) (not (= _let_86 _let_85)) (not (= _let_85 _let_86)) (tptp.result_2 _let_1 _let_71) (not (= _let_71 _let_73)) (tptp.has_state_2 _let_73 _let_71) (tptp.possesses_2 _let_71 _let_75) (tptp.possesses_2 _let_77 _let_75) (not (= _let_73 _let_71)) (= _let_21 _let_17) (= _let_128 _let_127) (= X _let_126) (= _let_21 _let_18) (= _let_21 _let_14) (= (tptp.fn_cellular_work_utilizing_atp_5 X) _let_125) (= (tptp.fn_cellular_work_utilizing_atp_6 X) _let_124) (= _let_123 _let_122) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_70) (= _let_117 _let_69) (= _let_16 (tptp.fn_cellular_work_12 X)) (= _let_116 (tptp.fn_cellular_work_11 X)) (= _let_115 _let_68) (= _let_115 _let_67) (= _let_92 _let_32) (= _let_92 _let_25) (= (tptp.fn_cellular_work_utilizing_atp_3 X) _let_114) (= _let_91 _let_26) (= _let_113 _let_66) (= _let_113 _let_65) (= _let_21 _let_15) (= _let_93 _let_36) (= _let_112 _let_111) (= _let_109 _let_61) (= _let_110 _let_64) (= _let_110 _let_63) (= _let_109 _let_62) (= _let_109 _let_60) (= _let_108 _let_59) (= _let_108 _let_58) (= (tptp.fn_cellular_work_utilizing_atp_4 X) _let_107) (= _let_106 _let_105) (= _let_104 _let_103) (= _let_102 _let_101) (= _let_100 _let_56) (= _let_100 _let_57) (= _let_100 _let_55) (= _let_94 _let_38) (= _let_99 _let_44) (= _let_99 _let_42) (= _let_99 _let_43) (= _let_99 _let_41) (= _let_99 _let_40) (= _let_99 _let_54) (= _let_99 _let_37) (= _let_98 _let_53) (= _let_98 _let_52) (= _let_97 _let_51) (= _let_97 _let_50) (= _let_97 _let_49) (= _let_96 _let_48) (= _let_96 _let_47) (= _let_96 _let_46) (= _let_94 _let_45) (= _let_95 _let_32) (= _let_95 _let_29) (= _let_95 _let_26) (= _let_95 _let_31) (= _let_95 _let_28) (= _let_95 _let_25) (= _let_92 _let_26) (= _let_94 _let_44) (= _let_90 _let_24) (= _let_94 _let_43) (= _let_94 _let_42) (= _let_94 _let_41) (= _let_94 _let_40) (= _let_94 _let_39) (= _let_94 _let_37) (= _let_93 _let_35) (= _let_93 _let_34) (= _let_93 _let_33) (= _let_92 _let_28) (= _let_92 _let_27) (= _let_92 _let_29) (= _let_92 _let_31) (= _let_91 _let_30) (= _let_91 _let_29) (= _let_91 _let_28) (= _let_91 _let_27) (= _let_91 _let_25) (= _let_90 _let_23) (= _let_90 _let_22) (= _let_21 _let_12) (= _let_90 _let_20) (= _let_90 _let_19) (= _let_89 _let_88) (= _let_21 _let_11) (= _let_86 _let_6) (= _let_85 _let_7) (= _let_87 _let_10) (= _let_87 _let_9) (= _let_86 _let_8) (= _let_85 _let_6) (= _let_84 _let_83) (= _let_82 _let_81) (= _let_80 _let_67) (= _let_79 _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_5) (= _let_71 _let_4) (= _let_71 _let_3) (= _let_71 _let_2) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_44) (= _let_42 _let_44) (= _let_44 _let_42) (= _let_41 _let_43) (= _let_43 _let_41) (= _let_54 _let_40) (= _let_40 _let_54) (= _let_54 _let_54) (= _let_37 _let_54) (= _let_54 _let_37) (= _let_37 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_46 _let_46) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_29) (= _let_29 _let_32) (= _let_32 _let_29) (= _let_28 _let_26) (= _let_26 _let_28) (= _let_28 _let_31) (= _let_31 _let_25) (= _let_25 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_28) (= _let_28 _let_28) (= _let_29 _let_27) (= _let_27 _let_29) (= _let_25 _let_29) (= _let_29 _let_25) (= _let_25 _let_26) (= _let_31 _let_31) (= _let_31 _let_26) (= _let_26 _let_26) (= _let_26 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_20 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cellulase_1 X) (and (tptp.original_name_2 X |tptp.'Cellulase'|) (tptp.user_description_2 X |tptp.'An enzyme that catalyzes the hydrolysis of cellulose.'|) (tptp.concept2words_2 X tptp.cellulase) (tptp.digestive_enzyme_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellulose_29 X))) (let ((_let_2 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_3 (tptp.fn_polysaccharide_26 X))) (let ((_let_4 (tptp.fn_cellulose_48 X))) (let ((_let_5 (tptp.fn_polar_covalent_bond_19 _let_4))) (let ((_let_6 (tptp.fn_cellulose_28 X))) (let ((_let_7 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_8 (tptp.fn_polar_molecule_2 X))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_10 (tptp.fn_polar_molecule_3 X))) (let ((_let_11 (tptp.fn_cellulose_12 X))) (let ((_let_12 (tptp.fn_share_1 _let_11))) (let ((_let_13 (tptp.fn_cellulose_65 X))) (let ((_let_14 (tptp.fn_share_1 _let_13))) (let ((_let_15 (tptp.fn_cellulose_13 X))) (let ((_let_16 (tptp.fn_share_1 _let_15))) (let ((_let_17 (tptp.fn_cellulose_21 X))) (let ((_let_18 (tptp.fn_share_1 _let_17))) (let ((_let_19 (tptp.fn_cellulose_41 X))) (let ((_let_20 (tptp.fn_share_1 _let_19))) (let ((_let_21 (tptp.fn_cellulose_42 X))) (let ((_let_22 (tptp.fn_share_1 _let_21))) (let ((_let_23 (tptp.fn_share_3 _let_11))) (let ((_let_24 (tptp.fn_share_3 _let_13))) (let ((_let_25 (tptp.fn_cellulose_64 X))) (let ((_let_26 (tptp.fn_share_3 _let_25))) (let ((_let_27 (tptp.fn_cellulose_63 X))) (let ((_let_28 (tptp.fn_share_3 _let_27))) (let ((_let_29 (tptp.fn_share_3 _let_19))) (let ((_let_30 (tptp.fn_cellulose_54 X))) (let ((_let_31 (tptp.fn_share_3 _let_30))) (let ((_let_32 (tptp.fn_share_3 _let_21))) (let ((_let_33 (tptp.fn_cellulose_53 X))) (let ((_let_34 (tptp.fn_share_3 _let_33))) (let ((_let_35 (tptp.fn_cellulose_47 X))) (let ((_let_36 (tptp.fn_hydrogen_12 _let_35))) (let ((_let_37 (tptp.fn_polar_covalent_bond_11 _let_4))) (let ((_let_38 (tptp.fn_hydroxyl_group_8 _let_1))) (let ((_let_39 (tptp.fn_covalent_bond_18 _let_6))) (let ((_let_40 (tptp.fn_covalent_bond_15 _let_6))) (let ((_let_41 (tptp.fn_share_2 _let_30))) (let ((_let_42 (tptp.fn_share_2 _let_33))) (let ((_let_43 (tptp.fn_hydrogen_13 _let_35))) (let ((_let_44 (tptp.fn_covalent_bond_4 _let_6))) (let ((_let_45 (tptp.fn_hydrogen_2 _let_35))) (let ((_let_46 (tptp.fn_polysaccharide_13 X))) (let ((_let_47 (tptp.fn_polar_covalent_bond_1 _let_4))) (let ((_let_48 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_49 (tptp.fn_polysaccharide_25 X))) (let ((_let_50 (tptp.fn_polar_covalent_bond_17 _let_4))) (let ((_let_51 (tptp.fn_cellulose_38 X))) (let ((_let_52 (tptp.fn_carbonyl_group_10 _let_51))) (let ((_let_53 (tptp.fn_covalent_bond_14 _let_6))) (let ((_let_54 (tptp.fn_polar_covalent_bond_16 _let_4))) (let ((_let_55 (tptp.fn_polysaccharide_28 X))) (let ((_let_56 (tptp.fn_polar_covalent_bond_12 _let_4))) (let ((_let_57 (tptp.fn_carbonyl_group_6 _let_51))) (let ((_let_58 (tptp.fn_carbonyl_group_7 _let_51))) (let ((_let_59 (tptp.fn_polysaccharide_14 X))) (let ((_let_60 (tptp.fn_carbohydrate_34 X))) (let ((_let_61 (tptp.fn_polysaccharide_17 X))) (let ((_let_62 (tptp.fn_carbonyl_group_9 _let_51))) (let ((_let_63 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_64 (tptp.fn_polysaccharide_15 X))) (let ((_let_65 (tptp.fn_polar_covalent_bond_18 _let_4))) (let ((_let_66 (tptp.fn_cellulose_11 X))) (let ((_let_67 (tptp.fn_share_1 _let_66))) (let ((_let_68 (tptp.fn_cellulose_66 X))) (let ((_let_69 (tptp.fn_share_1 _let_68))) (let ((_let_70 (tptp.fn_share_1 _let_25))) (let ((_let_71 (tptp.fn_cellulose_20 X))) (let ((_let_72 (tptp.fn_share_1 _let_71))) (let ((_let_73 (tptp.fn_share_1 _let_27))) (let ((_let_74 (tptp.fn_share_1 _let_30))) (let ((_let_75 (tptp.fn_share_1 _let_33))) (let ((_let_76 (tptp.fn_share_3 _let_66))) (let ((_let_77 (tptp.fn_share_3 _let_68))) (let ((_let_78 (tptp.fn_share_3 _let_15))) (let ((_let_79 (tptp.fn_share_3 _let_71))) (let ((_let_80 (tptp.fn_share_3 _let_17))) (let ((_let_81 (tptp.fn_carbonyl_group_8 _let_51))) (let ((_let_82 (tptp.fn_polysaccharide_29 X))) (let ((_let_83 (tptp.fn_carbohydrate_35 X))) (let ((_let_84 (tptp.fn_polymer_1 X))) (let ((_let_85 (tptp.fn_polysaccharide_11 X))) (let ((_let_86 (tptp.fn_carbohydrate_39 X))) (let ((_let_87 (tptp.fn_cellulose_36 X))) (let ((_let_88 (tptp.fn_hold_2 _let_87))) (let ((_let_89 (tptp.fn_hydroxyl_group_5 _let_1))) (let ((_let_90 (tptp.fn_polar_molecule_4 X))) (let ((_let_91 (tptp.fn_functional_group_1 _let_1))) (let ((_let_92 (tptp.fn_functional_group_1 _let_51))) (let ((_let_93 (tptp.fn_cellulose_34 X))) (let ((_let_94 (tptp.fn_adhesion_2 _let_93))) (let ((_let_95 (tptp.fn_polysaccharide_8 X))) (let ((_let_96 (tptp.fn_polysaccharide_12 X))) (let ((_let_97 (tptp.fn_polar_covalent_bond_2 _let_4))) (let ((_let_98 (tptp.fn_hydrophilic_compound_1 X))) (let ((_let_99 (tptp.fn_carbohydrate_2 X))) (let ((_let_100 (tptp.fn_polar_molecule_1 X))) (let ((_let_101 (tptp.fn_polar_covalent_bond_15 _let_4))) (let ((_let_102 (tptp.fn_cellulose_56 X))) (let ((_let_103 (tptp.fn_first_electron_shell_4 _let_102))) (let ((_let_104 (tptp.fn_cellulose_27 X))) (let ((_let_105 (tptp.fn_attract_1 _let_104))) (let ((_let_106 (tptp.fn_share_2 _let_19))) (let ((_let_107 (tptp.fn_cellulose_23 X))) (let ((_let_108 (tptp.fn_hydrogen_15 _let_35))) (let ((_let_109 (tptp.fn_cellulose_58 X))) (let ((_let_110 (tptp.fn_hydrogen_14 _let_35))) (let ((_let_111 (tptp.fn_cellulose_55 X))) (let ((_let_112 (tptp.fn_cellulose_57 X))) (let ((_let_113 (tptp.fn_hydrogen_16 _let_35))) (let ((_let_114 (tptp.fn_cellulose_39 X))) (let ((_let_115 (tptp.fn_hydrogen_1 _let_35))) (let ((_let_116 (tptp.fn_cellulose_10 X))) (let ((_let_117 (tptp.fn_cellulose_61 X))) (let ((_let_118 (tptp.fn_cellulose_16 X))) (let ((_let_119 (tptp.fn_cellulose_17 X))) (let ((_let_120 (tptp.fn_cellulose_18 X))) (let ((_let_121 (tptp.fn_cellulose_8 X))) (let ((_let_122 (tptp.fn_cellulose_30 X))) (let ((_let_123 (tptp.fn_cellulose_32 X))) (let ((_let_124 (tptp.fn_cellulose_31 X))) (let ((_let_125 (tptp.fn_cellulose_45 X))) (let ((_let_126 (tptp.fn_cellulose_9 X))) (let ((_let_127 (tptp.fn_cellulose_24 X))) (let ((_let_128 (tptp.fn_cellulose_69 X))) (let ((_let_129 (tptp.fn_cellulose_68 X))) (let ((_let_130 (tptp.fn_cellulose_67 X))) (let ((_let_131 (tptp.fn_cellulose_70 X))) (let ((_let_132 (tptp.fn_cellulose_19 X))) (let ((_let_133 (tptp.fn_cellulose_62 X))) (let ((_let_134 (tptp.fn_cellulose_44 X))) (let ((_let_135 (tptp.fn_cellulose_43 X))) (let ((_let_136 (tptp.fn_cellulose_46 X))) (let ((_let_137 (tptp.fn_cellulose_26 X))) (let ((_let_138 (tptp.fn_polar_covalent_bond_3 _let_4))) (let ((_let_139 (tptp.fn_cellulose_14 X))) (let ((_let_140 (tptp.fn_cellulose_22 X))) (let ((_let_141 (tptp.fn_cellulose_60 X))) (let ((_let_142 (tptp.fn_covalent_bond_17 _let_6))) (let ((_let_143 (tptp.fn_covalent_bond_10 _let_6))) (let ((_let_144 (tptp.fn_cellulose_59 X))) (let ((_let_145 (tptp.fn_cellulose_40 X))) (let ((_let_146 (tptp.fn_cellulose_25 X))) (let ((_let_147 (tptp.fn_cellulose_35 X))) (let ((_let_148 (tptp.fn_adhesion_1 _let_93))) (let ((_let_149 (tptp.fn_cellulose_33 X))) (let ((_let_150 (tptp.fn_cellulose_37 X))) (let ((_let_151 (tptp.fn_cellulose_2 X))) (let ((_let_152 (tptp.fn_cellulose_1 X))) (let ((_let_153 (tptp.fn_cellulose_5 X))) (let ((_let_154 (tptp.fn_cellulose_4 X))) (=> (tptp.cellulose_1 X) (and (tptp.original_name_2 X |tptp.'Cellulose'|) (tptp.user_description_2 X |tptp.'A polysaccharide consisting of glucose monomers joined by beta-glycosidic linkages. Cellulose is the structural component of plant cell walls.'|) (tptp.concept2words_2 X tptp.cellulose) (tptp.concept2words_2 X |tptp.'insoluble fibers'|) (tptp.polar_molecule_1 X) (tptp.structural_polysaccharide_1 X) (not (tptp.chitin_1 X)) (tptp.intensity_value_1 _let_152) (tptp.intensity_value_1 _let_151) (tptp.shape_value_1 _let_154) (tptp.hydrophobic_region_1 _let_153) (tptp.unequal_sharing_1 _let_121) (tptp.unequal_sharing_1 _let_126) (tptp.unequal_sharing_1 _let_116) (tptp.share_1 _let_66) (tptp.unequal_sharing_1 _let_66) (tptp.share_1 _let_11) (tptp.unequal_sharing_1 _let_11) (tptp.unequal_sharing_1 _let_15) (tptp.hold_together_1 _let_139) (tptp.entity_1 _let_118) (tptp.chemical_entity_1 _let_118) (tptp.atom_1 _let_118) (tptp.carbon_1 _let_118) (tptp.entity_1 _let_119) (tptp.atom_1 _let_119) (tptp.chemical_entity_1 _let_119) (tptp.oxygen_1 _let_119) (tptp.tangible_entity_1 _let_120) (tptp.entity_1 _let_120) (tptp.chemical_entity_1 _let_120) (tptp.atom_1 _let_120) (tptp.oxygen_1 _let_120) (tptp.carbon_skeleton_1 _let_132) (tptp.unequal_sharing_1 _let_71) (tptp.unequal_sharing_1 _let_17) (tptp.hold_together_1 _let_140) (tptp.entity_1 _let_107) (tptp.electron_1 _let_107) (tptp.valence_electron_1 _let_107) (tptp.electronegativity_value_1 _let_127) (tptp.attract_1 _let_146) (tptp.electronegativity_value_1 _let_137) (tptp.attract_1 _let_104) (tptp.covalent_bond_1 _let_6) (tptp.double_bond_1 _let_6) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.support_1 _let_122) (tptp.defense_1 _let_124) (tptp.structural_role_1 _let_123) (tptp.water_molecule_1 _let_149) (tptp.adhesion_1 _let_93) (tptp.attract_1 _let_93) (tptp.beta_glucose_1 _let_147) (tptp.hold_1 _let_87) (tptp.hold_together_1 _let_87) (tptp.beta_glucose_1 _let_150) (tptp.functional_group_1 _let_51) (tptp.carbonyl_group_1 _let_51) (tptp.electronegativity_value_1 _let_114) (tptp.entity_1 _let_145) (tptp.valence_electron_1 _let_145) (tptp.unequal_sharing_1 _let_19) (tptp.unequal_sharing_1 _let_21) (tptp.size_value_1 _let_135) (tptp.size_value_1 _let_134) (tptp.defense_1 _let_125) (tptp.hydrophilic_region_1 _let_136) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.hydrogen_1 _let_35) (tptp.polar_covalent_bond_1 _let_4) (tptp.unequal_sharing_1 _let_33) (tptp.unequal_sharing_1 _let_30) (tptp.center_1 _let_111) (tptp.electron_shell_1 _let_102) (tptp.first_electron_shell_1 _let_102) (tptp.proton_1 _let_112) (tptp.atomic_nucleus_1 _let_109) (tptp.attract_1 _let_144) (tptp.s_orbital_1 _let_141) (tptp.atomic_orbital_1 _let_141) (tptp.valence_electron_1 _let_117) (tptp.hold_together_1 _let_133) (tptp.unequal_sharing_1 _let_27) (tptp.share_1 _let_25) (tptp.unequal_sharing_1 _let_25) (tptp.share_1 _let_13) (tptp.unequal_sharing_1 _let_13) (tptp.share_1 _let_68) (tptp.unequal_sharing_1 _let_68) (tptp.quantity_value_1 _let_130) (tptp.speed_value_1 _let_129) (tptp.constant_motion_1 _let_128) (tptp.kinetic_energy_1 _let_131) (tptp.molecule_1 _let_148) (tptp.attract_1 _let_143) (tptp.share_1 _let_142) (tptp.property_node_1 _let_138) (tptp.property_node_1 _let_115) (tptp.electron_shell_1 _let_113) (tptp.first_electron_shell_1 _let_113) (tptp.center_1 _let_110) (tptp.atomic_nucleus_1 _let_108) (tptp.entity_1 _let_106) (tptp.entity_1 _let_105) (tptp.s_orbital_1 _let_103) (tptp.atomic_orbital_1 _let_101) (tptp.electronegativity_value_1 _let_97) (tptp.molecule_1 _let_94) (tptp.chemical_entity_1 _let_92) (tptp.chemical_entity_1 _let_91) (tptp.unequal_sharing_1 _let_89) (tptp.tangible_entity_1 _let_88) (tptp.double_bond_1 _let_81) (tptp.entity_1 _let_80) (tptp.entity_1 _let_79) (tptp.entity_1 _let_78) (tptp.entity_1 _let_77) (tptp.entity_1 _let_76) (tptp.entity_1 _let_75) (tptp.entity_1 _let_74) (tptp.entity_1 _let_73) (tptp.entity_1 _let_72) (tptp.entity_1 _let_70) (tptp.entity_1 _let_69) (tptp.entity_1 _let_67) (tptp.entity_1 _let_65) (tptp.chemical_entity_1 _let_65) (tptp.atom_1 _let_65) (tptp.oxygen_1 _let_63) (tptp.oxygen_1 _let_62) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.carbon_1 _let_58) (tptp.valence_electron_1 _let_57) (tptp.valence_electron_1 _let_56) (tptp.unequal_sharing_1 _let_54) (tptp.hold_together_1 _let_53) (tptp.hold_together_1 _let_52) (tptp.hold_together_1 _let_50) (tptp.polar_covalent_bond_1 _let_48) (tptp.electronegativity_value_1 _let_47) (tptp.electronegativity_value_1 _let_45) (tptp.proton_1 _let_44) (tptp.proton_1 _let_43) (tptp.entity_1 _let_42) (tptp.entity_1 _let_41) (tptp.valence_electron_1 _let_40) (tptp.valence_electron_1 _let_39) (tptp.electron_1 _let_38) (tptp.valence_electron_1 _let_38) (tptp.electron_1 _let_37) (tptp.valence_electron_1 _let_37) (tptp.valence_electron_1 _let_36) (tptp.entity_1 _let_34) (tptp.entity_1 _let_32) (tptp.entity_1 _let_31) (tptp.entity_1 _let_29) (tptp.entity_1 _let_28) (tptp.entity_1 _let_26) (tptp.entity_1 _let_24) (tptp.entity_1 _let_23) (tptp.entity_1 _let_22) (tptp.entity_1 _let_20) (tptp.entity_1 _let_18) (tptp.entity_1 _let_16) (tptp.entity_1 _let_14) (tptp.entity_1 _let_12) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.hydrogen_1 _let_2) (tptp.result_2 _let_25 _let_4) (tptp.result_2 _let_30 _let_4) (tptp.result_2 _let_33 _let_4) (tptp.result_2 _let_21 _let_4) (tptp.result_2 _let_19 _let_4) (tptp.greater_than_2 _let_152 _let_151) (tptp.the_categorical_value_2 _let_154 tptp.line_0) (tptp.object_2 _let_87 _let_150) (tptp.object_2 _let_87 _let_147) (tptp.shape_2 X _let_154) (tptp.has_region_2 X _let_153) (tptp.agent_2 _let_122 X) (tptp.is_between_2 _let_6 _let_147) (tptp.is_between_2 _let_6 _let_150) (tptp.intensity_2 _let_104 _let_152) (tptp.the_cardinal_value_2 _let_137 |"3.44"|) (tptp.cardinal_unit_class_2 _let_137 tptp.unity_0) (tptp.intensity_2 _let_146 _let_151) (tptp.result_2 _let_71 _let_4) (tptp.result_2 _let_11 _let_4) (tptp.object_2 _let_33 _let_107) (tptp.object_2 _let_19 _let_145) (tptp.object_2 _let_30 _let_107) (tptp.object_2 _let_104 _let_145) (tptp.agent_2 _let_33 _let_35) (tptp.agent_2 _let_33 _let_119) (tptp.agent_2 _let_21 _let_35) (tptp.agent_2 _let_30 _let_35) (tptp.agent_2 _let_19 _let_35) (tptp.agent_2 _let_30 _let_119) (tptp.agent_2 _let_17 _let_119) (tptp.agent_2 _let_27 _let_35) (tptp.agent_2 _let_17 _let_35) (tptp.agent_2 _let_27 _let_119) (tptp.agent_2 _let_71 _let_119) (tptp.agent_2 _let_25 _let_35) (tptp.agent_2 _let_15 _let_119) (tptp.agent_2 _let_25 _let_119) (tptp.agent_2 _let_15 _let_35) (tptp.agent_2 _let_13 _let_35) (tptp.agent_2 _let_11 _let_35) (tptp.agent_2 _let_68 _let_119) (tptp.agent_2 _let_66 _let_119) (tptp.has_part_2 X _let_150) (tptp.object_2 _let_87 _let_120) (tptp.object_2 _let_93 _let_149) (tptp.has_part_2 X _let_147) (tptp.size_2 _let_147 _let_135) (tptp.object_2 _let_21 _let_145) (tptp.object_2 _let_146 _let_145) (tptp.result_2 _let_21 _let_6) (tptp.has_region_2 _let_102 _let_141) (tptp.agent_2 _let_66 _let_35) (tptp.object_2 _let_140 _let_35) (tptp.object_2 _let_87 _let_35) (tptp.object_2 _let_144 _let_107) (tptp.agent_2 _let_144 _let_112) (tptp.is_between_2 _let_6 _let_35) (tptp.agent_2 _let_71 _let_35) (tptp.object_2 _let_71 _let_107) (not (= _let_118 _let_35)) (not (= _let_35 _let_118)) (tptp.object_2 _let_139 _let_119) (tptp.object_2 _let_25 _let_107) (tptp.object_2 _let_116 _let_117) (tptp.agent_2 _let_13 _let_119) (tptp.result_2 _let_13 _let_4) (tptp.is_inside_2 _let_117 _let_141) (tptp.is_inside_2 _let_107 _let_141) (tptp.object_2 _let_140 _let_119) (tptp.object_2 _let_139 _let_35) (not (= _let_114 _let_137)) (not (= _let_137 _let_114)) (tptp.agent_2 _let_11 _let_119) (tptp.object_2 _let_11 _let_107) (tptp.agent_2 _let_68 _let_35) (tptp.result_2 _let_68 _let_4) (tptp.has_function_2 X _let_93) (tptp.agent_2 _let_93 X) (tptp.has_region_2 X _let_136) (tptp.facilitates_2 _let_136 _let_93) (tptp.site_2 _let_93 _let_136) (tptp.has_region_2 X _let_51) (tptp.possesses_2 X _let_6) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_120) (tptp.result_2 _let_121 _let_4) (tptp.the_cardinal_value_2 _let_127 |"3.44"|) (tptp.cardinal_unit_class_2 _let_127 tptp.unity_0) (not (= _let_114 _let_127)) (not (= _let_127 _let_114)) (tptp.object_2 _let_133 _let_35) (tptp.object_2 _let_133 _let_119) (tptp.has_part_2 X _let_119) (tptp.size_2 X _let_134) (tptp.greater_than_2 _let_134 _let_135) (tptp.result_2 _let_126 _let_4) (tptp.possesses_2 X _let_4) (tptp.has_part_2 X _let_118) (tptp.is_inside_2 _let_118 _let_132) (tptp.has_region_2 X _let_132) (tptp.object_2 _let_128 X) (tptp.speed_2 _let_128 _let_129) (tptp.directly_proportional_2 _let_129 _let_130) (tptp.quantity_2 _let_131 _let_130) (tptp.possesses_2 X _let_131) (tptp.agent_2 _let_126 _let_119) (tptp.agent_2 _let_126 _let_35) (tptp.agent_2 _let_116 _let_35) (tptp.agent_2 _let_116 _let_119) (tptp.electronegativity_2 _let_119 _let_127) (tptp.has_part_2 X _let_35) (not (= _let_120 _let_35)) (not (= _let_119 _let_120)) (not (= _let_120 _let_119)) (not (= _let_35 _let_120)) (tptp.instrument_2 _let_125 X) (tptp.has_function_2 X _let_122) (tptp.in_event_2 _let_123 _let_122) (tptp.plays_2 X _let_123) (tptp.instrument_2 _let_124 X) (not (= _let_124 _let_125)) (not (= _let_125 _let_124)) (tptp.is_between_2 _let_4 _let_119) (tptp.is_inside_2 _let_35 _let_1) (tptp.is_between_2 _let_4 _let_35) (tptp.result_2 _let_66 _let_4) (tptp.object_2 _let_66 _let_107) (tptp.is_inside_2 _let_119 _let_1) (tptp.agent_2 _let_121 _let_119) (tptp.agent_2 _let_121 _let_35) (not (= _let_35 _let_119)) (not (= _let_119 _let_35)) (tptp.is_inside_2 _let_120 _let_51) (tptp.has_part_2 _let_119 _let_117) (tptp.has_function_2 _let_6 _let_87) (tptp.is_inside_2 _let_118 _let_51) (not (= _let_118 _let_119)) (tptp.object_2 _let_87 _let_119) (tptp.agent_2 _let_87 _let_6) (tptp.is_between_2 _let_6 _let_120) (not (= _let_119 _let_118)) (tptp.object_2 _let_25 _let_117) (tptp.has_function_2 _let_4 _let_87) (tptp.agent_2 _let_87 _let_4) (tptp.result_2 _let_116 _let_4) (tptp.object_2 _let_116 _let_107) (not (= _let_107 _let_117)) (not (= _let_117 _let_107)) (tptp.is_inside_2 _let_112 _let_109) (tptp.has_region_2 _let_35 _let_102) (tptp.is_inside_2 _let_109 _let_102) (tptp.has_region_2 _let_35 _let_109) (tptp.electronegativity_2 _let_35 _let_114) (tptp.the_cardinal_value_2 _let_114 |"2.1"|) (tptp.cardinal_unit_class_2 _let_114 tptp.unity_0) (tptp.has_part_2 _let_35 _let_107) (tptp.is_near_2 _let_107 _let_109) (tptp.is_at_2 _let_109 _let_111) (tptp.has_region_2 _let_35 _let_111) (tptp.has_part_2 _let_35 _let_112) (tptp.is_near_2 _let_109 _let_107) (= _let_107 _let_42) (= _let_145 _let_106) (= _let_107 _let_41) (= _let_145 _let_105) (= _let_35 _let_34) (= _let_119 _let_75) (= _let_35 _let_32) (= _let_35 _let_22) (= _let_35 _let_31) (= _let_35 _let_29) (= _let_35 _let_20) (= _let_119 _let_74) (= _let_119 _let_80) (= _let_35 _let_28) (= _let_35 _let_18) (= _let_119 _let_73) (= _let_119 _let_79) (= _let_119 _let_72) (= _let_35 _let_26) (= _let_119 _let_78) (= _let_119 _let_70) (= _let_35 _let_16) (= _let_35 _let_24) (= _let_35 _let_14) (= _let_35 _let_23) (= _let_35 _let_12) (= _let_119 _let_77) (= _let_119 _let_69) (= _let_119 _let_76) (= _let_119 _let_67) (= _let_150 (tptp.fn_polysaccharide_24 X)) (= _let_120 _let_88) (= _let_149 _let_148) (= _let_147 (tptp.fn_polysaccharide_23 X)) (= _let_146 _let_143) (= _let_145 _let_39) (= _let_21 _let_142) (= _let_141 _let_103) (= _let_66 _let_90) (= _let_140 _let_100) (= _let_112 _let_44) (= _let_144 _let_143) (= _let_107 _let_40) (= _let_107 _let_39) (= _let_71 _let_142) (= _let_118 _let_10) (= _let_118 _let_9) (= _let_35 _let_9) (= _let_35 _let_7) (= _let_13 _let_54) (= _let_141 _let_101) (= _let_140 _let_50) (= _let_139 _let_100) (= _let_139 _let_50) (= (tptp.fn_cellulose_49 X) _let_138) (= _let_137 _let_97) (= _let_11 _let_54) (= _let_68 _let_54) (= _let_136 _let_99) (= _let_136 _let_98) (= X _let_94) (= _let_93 (tptp.fn_hydrophilic_compound_2 X)) (= X _let_92) (= _let_51 _let_61) (= _let_6 _let_84) (= _let_6 _let_82) (= X _let_91) (= _let_1 (tptp.fn_polysaccharide_16 X)) (= (tptp.fn_cellulose_50 X) (tptp.fn_polysaccharide_19 X)) (= (tptp.fn_cellulose_51 X) (tptp.fn_polysaccharide_20 X)) (= (tptp.fn_cellulose_15 X) (tptp.fn_polysaccharide_10 X)) (= (tptp.fn_cellulose_71 X) (tptp.fn_polysaccharide_2 X)) (= _let_121 _let_55) (= (tptp.fn_cellulose_72 X) (tptp.fn_polysaccharide_1 X)) (= _let_114 _let_47) (= _let_114 _let_46) (= _let_135 (tptp.fn_polysaccharide_22 X)) (= _let_134 (tptp.fn_polysaccharide_21 X)) (= _let_133 (tptp.fn_polysaccharide_27 X)) (= _let_132 (tptp.fn_polysaccharide_18 X)) (= _let_118 _let_59) (= _let_4 _let_49) (= _let_131 (tptp.fn_polysaccharide_3 X)) (= _let_130 (tptp.fn_polysaccharide_7 X)) (= _let_129 (tptp.fn_polysaccharide_6 X)) (= _let_128 (tptp.fn_polysaccharide_5 X)) (= _let_127 _let_97) (= _let_127 _let_96) (= _let_116 _let_55) (= _let_126 _let_90) (= _let_119 _let_10) (= _let_126 _let_95) (= _let_119 _let_64) (= _let_120 _let_85) (= _let_35 _let_10) (= _let_35 _let_8) (= _let_35 _let_3) (= _let_125 (tptp.fn_structural_polysaccharide_3 X)) (= _let_124 (tptp.fn_structural_polysaccharide_1 X)) (= _let_123 (tptp.fn_structural_polysaccharide_6 X)) (= _let_122 (tptp.fn_structural_polysaccharide_4 X)) (= _let_107 _let_38) (= _let_66 _let_89) (= _let_4 _let_48) (= _let_121 _let_89) (= _let_119 _let_65) (= _let_35 _let_5) (= _let_35 _let_2) (= _let_119 _let_63) (= _let_51 _let_60) (= _let_117 _let_40) (= _let_119 _let_5) (= _let_117 _let_57) (= _let_6 _let_83) (= _let_120 _let_86) (= _let_120 _let_62) (= _let_6 _let_81) (= _let_87 _let_53) (= _let_119 _let_9) (= _let_87 _let_52) (= _let_119 _let_62) (= _let_118 _let_58) (= _let_25 _let_54) (= _let_117 _let_56) (= _let_107 _let_37) (= _let_116 _let_54) (= _let_87 _let_50) (= (tptp.fn_cellulose_52 X) _let_115) (= _let_114 _let_45) (= _let_102 _let_113) (= _let_112 _let_43) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_36) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_39) (= _let_39 _let_103) (= _let_103 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_50 _let_100) (= _let_100 _let_50) (= _let_50 _let_98) (= _let_98 _let_98) (= _let_98 _let_99) (= _let_99 _let_98) (= _let_98 _let_96) (= _let_96 _let_96) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_90) (= _let_90 _let_95) (= _let_95 _let_94) (= _let_94 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_55) (= _let_55 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_85 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_62) (= _let_62 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_75) (= _let_74 _let_80) (= _let_80 _let_73) (= _let_73 _let_79) (= _let_79 _let_72) (= _let_72 _let_78) (= _let_78 _let_70) (= _let_70 _let_77) (= _let_77 _let_69) (= _let_69 _let_76) (= _let_76 _let_67) (= _let_67 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_9) (= _let_9 _let_5) (= _let_5 _let_10) (= _let_10 _let_5) (= _let_65 _let_5) (= _let_5 _let_65) (= _let_64 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_10) (= _let_9 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_40) (= _let_40 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_22) (= _let_22 _let_31) (= _let_31 _let_29) (= _let_29 _let_20) (= _let_20 _let_28) (= _let_28 _let_18) (= _let_18 _let_26) (= _let_26 _let_16) (= _let_16 _let_24) (= _let_24 _let_14) (= _let_14 _let_23) (= _let_23 _let_12) (= _let_12 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterium_16 X))) (let ((_let_2 (tptp.fn_prokaryote_12 X))) (let ((_let_3 (tptp.fn_bacterium_5 X))) (let ((_let_4 (tptp.fn_cell_26 X))) (let ((_let_5 (tptp.fn_cellulose_digesting_bacteria_6 X))) (let ((_let_6 (tptp.fn_cellulose_digesting_bacteria_9 X))) (let ((_let_7 (tptp.fn_cellulose_digesting_bacteria_5 X))) (let ((_let_8 (tptp.fn_cellulose_digesting_bacteria_15 X))) (let ((_let_9 (tptp.fn_cellulose_digesting_bacteria_7 X))) (let ((_let_10 (tptp.fn_cellulose_digesting_bacteria_12 X))) (let ((_let_11 (tptp.fn_cellulose_digesting_bacteria_11 X))) (let ((_let_12 (tptp.fn_cellulose_digesting_bacteria_10 X))) (let ((_let_13 (tptp.fn_cellulose_digesting_bacteria_4 X))) (let ((_let_14 (tptp.fn_cellulose_digesting_bacteria_3 X))) (let ((_let_15 (tptp.fn_cellulose_digesting_bacteria_16 X))) (let ((_let_16 (tptp.fn_cellulose_digesting_bacteria_17 X))) (let ((_let_17 (tptp.fn_cellulose_digesting_bacteria_13 X))) (let ((_let_18 (tptp.fn_cellulose_digesting_bacteria_14 X))) (let ((_let_19 (tptp.fn_cellulose_digesting_bacteria_8 X))) (let ((_let_20 (tptp.fn_cellulose_digesting_bacteria_2 X))) (let ((_let_21 (tptp.fn_cellulose_digestion_4 _let_20))) (let ((_let_22 (tptp.fn_cellulose_digesting_bacteria_1 X))) (=> (tptp.cellulose_digesting_bacteria_1 X) (and (tptp.original_name_2 X |tptp.'Cellulose-Digesting-Bacteria'|) (tptp.user_description_2 X |tptp.'Bacteria that break down cellulose; contained in the stomach of ruminants.'|) (tptp.concept2words_2 X |tptp.'cellulose digesting bacterium'|) (tptp.concept2words_2 X |tptp.'cellulose-digesting bacterium'|) (tptp.concept2words_2 X |tptp.'cellulose-digesting-bacteria'|) (tptp.bacterium_1 X) (not (tptp.escherichia_coli_1 X)) (not (tptp.gram_negative_bacteria_1 X)) (not (tptp.gram_positive_bacteria_1 X)) (not (tptp.mycoplasma_1 X)) (not (tptp.rhizobacterium_1 X)) (tptp.cellulase_1 _let_22) (tptp.cellulose_digestion_1 _let_20) (tptp.chromosome_1 _let_14) (tptp.prokaryotic_chromosome_1 _let_14) (tptp.nucleoid_1 _let_13) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.plasma_membrane_1 _let_5) (tptp.ribosome_1 _let_9) (tptp.prokaryotic_ribosome_1 _let_9) (tptp.water_1 _let_19) (tptp.cell_wall_1 _let_6) (tptp.surface_1 _let_12) (tptp.size_value_1 _let_11) (tptp.volume_value_1 _let_10) (tptp.temperature_value_1 _let_17) (tptp.specific_heat_value_1 _let_18) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.protein_enzyme_1 _let_16) (tptp.cell_1 _let_21) (tptp.is_inside_2 _let_9 _let_15) (tptp.has_part_2 X _let_22) (tptp.base_2 _let_20 X) (tptp.temperature_2 X _let_17) (tptp.correspondence_2 _let_17 _let_18) (tptp.specific_heat_2 _let_19 _let_18) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_16) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (tptp.has_part_2 _let_7 _let_15) (tptp.volume_2 X _let_10) (tptp.directly_proportional_2 _let_11 _let_10) (tptp.size_2 X _let_11) (tptp.has_region_2 X _let_12) (tptp.is_at_2 _let_8 _let_12) (tptp.has_part_2 X _let_9) (tptp.has_part_2 _let_5 _let_8) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_5 _let_6) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_7) (tptp.is_inside_2 _let_7 _let_5) (= X _let_21) (= (tptp.fn_cellulose_digesting_bacteria_19 X) (tptp.fn_organism_1 X)) (= (tptp.fn_cellulose_digesting_bacteria_18 X) (tptp.fn_organism_6 X)) (= _let_19 (tptp.fn_organism_4 X)) (= _let_18 (tptp.fn_organism_5 X)) (= _let_17 (tptp.fn_organism_2 X)) (= _let_16 (tptp.fn_prokaryote_3 X)) (= _let_15 (tptp.fn_prokaryote_10 X)) (= _let_14 (tptp.fn_prokaryote_9 X)) (= _let_13 (tptp.fn_prokaryote_18 X)) (= (tptp.fn_cellulose_digesting_bacteria_20 X) (tptp.fn_cell_23 X)) (= (tptp.fn_cellulose_digesting_bacteria_21 X) (tptp.fn_cell_10 X)) (= _let_8 _let_4) (= _let_12 (tptp.fn_cell_4 X)) (= _let_11 (tptp.fn_cell_11 X)) (= _let_10 (tptp.fn_cell_22 X)) (= _let_9 (tptp.fn_bacterium_14 X)) (= _let_8 _let_3) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_6 (tptp.fn_bacterium_12 X)) (= _let_5 (tptp.fn_bacterium_15 X)) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellulose_digesting_fungus_1 X))) (let ((_let_2 (tptp.fn_cellulose_digesting_fungus_2 X))) (=> (tptp.cellulose_digesting_fungus_1 X) (and (tptp.original_name_2 X |tptp.'Cellulose-Digesting-Fungus'|) (tptp.user_description_2 X |tptp.'Fungus that break down cellulose; contained in the stomach of ruminants.'|) (tptp.concept2words_2 X |tptp.'cellulose digesting fungus'|) (tptp.concept2words_2 X |tptp.'cellulose-digesting-fungus'|) (tptp.fungus_1 X) (tptp.cellulose_digestion_1 _let_1) (tptp.cellulase_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.base_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellulose_digestion_21 X))) (let ((_let_2 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_4 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_5 (tptp.fn_cellulose_digestion_23 X))) (let ((_let_6 (tptp.fn_hold_2 _let_5))) (let ((_let_7 (tptp.fn_cellulose_digestion_16 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_chemical_digestion_2 X))) (let ((_let_10 (tptp.fn_cellulose_digestion_17 X))) (let ((_let_11 (tptp.fn_move_1 _let_10))) (let ((_let_12 (tptp.fn_cellulose_digestion_24 X))) (let ((_let_13 (tptp.fn_move_1 _let_12))) (let ((_let_14 (tptp.fn_cellulose_digestion_19 X))) (let ((_let_15 (tptp.fn_remove_1 _let_14))) (let ((_let_16 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_17 (tptp.fn_remove_2 _let_14))) (let ((_let_18 (tptp.fn_hydrolysis_10 _let_1))) (let ((_let_19 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_20 (tptp.fn_hydrolysis_17 _let_1))) (let ((_let_21 (tptp.fn_exergonic_reaction_3 _let_1))) (let ((_let_22 (tptp.fn_cellulose_digestion_14 X))) (let ((_let_23 (tptp.fn_protein_enzyme_9 _let_22))) (let ((_let_24 (tptp.fn_polymer_4 _let_22))) (let ((_let_25 (tptp.fn_hold_1 _let_5))) (let ((_let_26 (tptp.fn_carry_1 _let_12))) (let ((_let_27 (tptp.fn_cellulose_digestion_9 X))) (let ((_let_28 (tptp.fn_glucose_2 _let_27))) (let ((_let_29 (tptp.fn_cellulose_digestion_12 X))) (let ((_let_30 (tptp.fn_glucose_1 _let_27))) (let ((_let_31 (tptp.fn_cellulose_digestion_15 X))) (let ((_let_32 (tptp.fn_cellulose_digestion_13 X))) (let ((_let_33 (tptp.fn_hydrolysis_14 _let_1))) (let ((_let_34 (tptp.fn_cellulose_digestion_18 X))) (let ((_let_35 (tptp.fn_cellulose_digestion_20 X))) (let ((_let_36 (tptp.fn_cellulose_digestion_22 X))) (let ((_let_37 (tptp.fn_enzyme_6 _let_22))) (let ((_let_38 (tptp.fn_cellulose_digestion_11 X))) (let ((_let_39 (tptp.fn_cellulose_digestion_7 X))) (let ((_let_40 (tptp.fn_cellulose_digestion_10 X))) (let ((_let_41 (tptp.fn_cellulose_digestion_6 X))) (let ((_let_42 (tptp.fn_cellulose_digestion_3 X))) (let ((_let_43 (tptp.fn_cellulose_digestion_5 X))) (let ((_let_44 (tptp.fn_cellulose_digestion_4 X))) (let ((_let_45 (tptp.fn_cellulose_digestion_1 X))) (=> (tptp.cellulose_digestion_1 X) (and (tptp.original_name_2 X |tptp.'Cellulose-Digestion'|) (tptp.user_description_2 X |tptp.'The process of digestion (breaking down) of cellulose.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'digestion of cellulose'|) (tptp.concept2words_2 X |tptp.'cellulose digestion'|) (tptp.concept2words_2 X |tptp.'cellulose-digestion'|) (tptp.chemical_digestion_1 X) (tptp.potential_energy_1 _let_45) (tptp.organism_1 _let_42) (tptp.cell_1 _let_44) (tptp.redox_reaction_1 _let_43) (tptp.structural_complexity_value_1 _let_41) (tptp.activation_energy_1 _let_39) (tptp.monomer_1 _let_27) (tptp.blood_1 _let_40) (tptp.catalyst_1 _let_38) (tptp.structural_complexity_value_1 _let_29) (tptp.chemical_entity_1 _let_32) (tptp.water_molecule_1 _let_32) (tptp.cellulase_1 _let_22) (tptp.cellulose_1 _let_31) (tptp.hold_1 _let_7) (tptp.carry_1 _let_10) (tptp.chemical_energy_1 _let_34) (tptp.remove_1 _let_14) (tptp.chemical_energy_1 _let_35) (tptp.hydrolysis_1 _let_1) (tptp.monomer_1 _let_36) (tptp.hold_1 _let_5) (tptp.carry_1 _let_12) (tptp.catalyst_1 _let_37) (tptp.chemical_energy_1 _let_33) (tptp.property_node_1 _let_30) (tptp.structural_complexity_value_1 _let_28) (tptp.tangible_entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.monomer_1 _let_24) (tptp.monomer_1 _let_23) (tptp.chemical_energy_1 _let_21) (tptp.chemical_energy_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.water_molecule_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.in_event_2 _let_38 X) (tptp.greater_than_2 _let_41 _let_29) (tptp.raw_material_2 X _let_32) (tptp.raw_material_2 X _let_31) (tptp.raw_material_2 X _let_45) (tptp.subevent_2 X _let_1) (tptp.base_2 X _let_44) (tptp.causes_2 X _let_43) (tptp.beneficiary_2 X _let_42) (tptp.has_function_2 _let_22 X) (tptp.structural_complexity_2 _let_31 _let_41) (tptp.subevent_2 _let_10 _let_7) (tptp.first_subevent_2 _let_10 _let_7) (tptp.subevent_2 _let_12 _let_5) (tptp.first_subevent_2 _let_12 _let_5) (tptp.agent_2 _let_12 _let_40) (tptp.agent_2 _let_5 _let_40) (tptp.object_2 _let_14 _let_27) (tptp.object_2 _let_12 _let_27) (tptp.object_2 _let_10 _let_27) (tptp.object_2 _let_7 _let_27) (tptp.result_2 X _let_27) (tptp.object_2 _let_5 _let_27) (tptp.base_2 _let_14 _let_31) (tptp.possesses_2 _let_32 _let_35) (tptp.raw_material_2 X _let_39) (tptp.plays_2 _let_22 _let_38) (tptp.has_part_2 _let_22 _let_36) (tptp.possesses_2 _let_31 _let_35) (tptp.raw_material_2 _let_1 _let_31) (not (= _let_31 _let_32)) (tptp.raw_material_2 _let_1 _let_32) (tptp.result_2 _let_1 _let_27) (not (= _let_32 _let_31)) (tptp.structural_complexity_2 _let_27 _let_29) (= _let_40 _let_26) (= _let_40 _let_25) (= _let_27 _let_15) (= _let_27 _let_13) (= _let_27 _let_11) (= _let_27 _let_8) (= _let_27 _let_9) (= _let_27 _let_6) (= _let_31 _let_17) (= _let_35 _let_21) (= _let_39 (tptp.fn_chemical_digestion_1 X)) (= _let_38 _let_37) (= _let_36 _let_24) (= _let_36 _let_23) (= _let_35 _let_20) (= _let_34 _let_33) (= _let_27 _let_4) (= _let_27 _let_3) (= _let_27 _let_2) (= _let_32 _let_19) (= _let_32 _let_18) (= _let_31 _let_16) (= (tptp.fn_cellulose_digestion_8 X) _let_30) (= _let_29 _let_28) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_9) (= _let_9 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cellulose_synthase_27 X))) (let ((_let_2 (tptp.fn_catalyst_2 _let_1))) (let ((_let_3 (tptp.fn_protein_enzyme_6 X))) (let ((_let_4 (tptp.fn_organic_molecule_3 X))) (let ((_let_5 (tptp.fn_protein_enzyme_7 X))) (let ((_let_6 (tptp.fn_organic_molecule_1 X))) (let ((_let_7 (tptp.fn_protein_enzyme_8 X))) (let ((_let_8 (tptp.fn_organic_molecule_2 X))) (let ((_let_9 (tptp.fn_protein_enzyme_9 X))) (let ((_let_10 (tptp.fn_polymer_4 X))) (let ((_let_11 (tptp.fn_protein_enzyme_3 X))) (let ((_let_12 (tptp.fn_protein_9 X))) (let ((_let_13 (tptp.fn_protein_enzyme_10 X))) (let ((_let_14 (tptp.fn_enzyme_2 X))) (let ((_let_15 (tptp.fn_protein_enzyme_11 X))) (let ((_let_16 (tptp.fn_protein_14 X))) (let ((_let_17 (tptp.fn_cellulose_synthase_21 X))) (let ((_let_18 (tptp.fn_functional_group_1 _let_17))) (let ((_let_19 (tptp.fn_enzyme_4 X))) (let ((_let_20 (tptp.fn_catalyst_1 _let_1))) (let ((_let_21 (tptp.fn_cellulose_synthase_20 X))) (let ((_let_22 (tptp.fn_polymer_synthesis_20 _let_21))) (let ((_let_23 (tptp.fn_polymer_synthesis_22 _let_21))) (let ((_let_24 (tptp.fn_cellulose_synthase_17 X))) (let ((_let_25 (tptp.fn_polymer_4 _let_24))) (let ((_let_26 (tptp.fn_polymer_6 _let_24))) (let ((_let_27 (tptp.fn_enzyme_8 X))) (let ((_let_28 (tptp.fn_polymer_synthesis_7 _let_21))) (let ((_let_29 (tptp.fn_polymer_synthesis_23 _let_21))) (let ((_let_30 (tptp.fn_synthesis_of_carbohydrate_2 _let_21))) (let ((_let_31 (tptp.fn_cellulose_synthase_6 X))) (let ((_let_32 (tptp.fn_cellulose_synthase_7 X))) (let ((_let_33 (tptp.fn_cellulose_synthase_8 X))) (let ((_let_34 (tptp.fn_cellulose_synthase_15 X))) (let ((_let_35 (tptp.fn_cellulose_synthase_23 X))) (let ((_let_36 (tptp.fn_cellulose_synthase_25 X))) (let ((_let_37 (tptp.fn_cellulose_synthase_28 X))) (let ((_let_38 (tptp.fn_cellulose_synthase_26 X))) (let ((_let_39 (tptp.fn_cellulose_synthase_22 X))) (let ((_let_40 (tptp.fn_cellulose_synthase_16 X))) (let ((_let_41 (tptp.fn_cellulose_synthase_5 X))) (let ((_let_42 (tptp.fn_cellulose_synthase_4 X))) (let ((_let_43 (tptp.fn_cellulose_synthase_14 X))) (let ((_let_44 (tptp.fn_cellulose_synthase_9 X))) (let ((_let_45 (tptp.fn_cellulose_synthase_12 X))) (let ((_let_46 (tptp.fn_cellulose_synthase_11 X))) (let ((_let_47 (tptp.fn_cellulose_synthase_10 X))) (let ((_let_48 (tptp.fn_polymer_synthesis_24 _let_21))) (let ((_let_49 (tptp.fn_cellulose_synthase_18 X))) (let ((_let_50 (tptp.fn_cellulose_synthase_19 X))) (let ((_let_51 (tptp.fn_cellulose_synthase_13 X))) (let ((_let_52 (tptp.fn_cellulose_synthase_24 X))) (=> (tptp.cellulose_synthase_1 X) (and (tptp.original_name_2 X |tptp.'Cellulose-Synthase'|) (tptp.user_description_2 X |tptp.'Cellulose synthase is an enzyme which combines sugar residues to create the polysaccharide cellulose.'|) (tptp.concept2words_2 X |tptp.'cellulose synthase'|) (tptp.concept2words_2 X |tptp.'cellulose-synthase'|) (tptp.protein_enzyme_1 X) (tptp.hydrophilic_region_1 _let_42) (tptp.surface_1 _let_41) (tptp.carbon_skeleton_1 _let_31) (tptp.carbon_1 _let_32) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.kinetic_energy_1 _let_44) (tptp.constant_motion_1 _let_47) (tptp.speed_value_1 _let_46) (tptp.quantity_value_1 _let_45) (tptp.decrease_1 _let_51) (tptp.polypeptide_1 _let_43) (tptp.monomer_1 _let_34) (tptp.protein_domain_1 _let_40) (tptp.cellulose_1 _let_24) (tptp.dehydration_reaction_1 _let_49) (tptp.chemical_entity_1 _let_50) (tptp.monomer_1 _let_50) (tptp.synthesis_of_cellulose_1 _let_21) (tptp.functional_group_1 _let_17) (tptp.spatial_entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.monomer_1 _let_39) (tptp.molecule_1 _let_39) (tptp.amino_acid_1 _let_39) (tptp.size_value_1 _let_35) (tptp.reactant_1 _let_52) (tptp.size_value_1 _let_36) (tptp.r_group_1 _let_38) (tptp.catalyst_1 _let_1) (tptp.active_site_1 _let_37) (tptp.dehydration_reaction_1 _let_48) (tptp.carbohydrate_1 _let_30) (tptp.polymer_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.monomer_1 _let_28) (tptp.monomer_1 _let_26) (tptp.monomer_1 _let_25) (tptp.monomer_1 _let_23) (tptp.monomer_1 _let_22) (tptp.chemical_reaction_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.chemical_entity_1 _let_2) (tptp.has_region_2 _let_39 _let_17) (tptp.result_2 _let_21 _let_24) (tptp.in_event_2 _let_1 _let_21) (tptp.enables_2 _let_51 _let_21) (tptp.has_function_2 X _let_21) (tptp.site_2 _let_21 _let_37) (tptp.facilitates_2 _let_37 _let_21) (tptp.in_event_2 _let_52 _let_21) (tptp.plays_2 _let_50 _let_52) (tptp.has_function_2 X _let_51) (tptp.plays_2 X _let_1) (tptp.has_part_2 _let_24 _let_50) (tptp.raw_material_2 _let_21 _let_50) (tptp.subevent_2 _let_21 _let_49) (tptp.raw_material_2 _let_49 _let_50) (tptp.possesses_2 X _let_44) (tptp.quantity_2 _let_44 _let_45) (tptp.directly_proportional_2 _let_46 _let_45) (tptp.speed_2 _let_47 _let_46) (tptp.object_2 _let_47 X) (tptp.has_region_2 X _let_41) (tptp.is_at_2 _let_42 _let_41) (tptp.has_region_2 X _let_42) (tptp.has_part_2 X _let_43) (tptp.has_part_2 _let_43 _let_39) (tptp.the_scalar_value_2 _let_36 tptp.big_0) (tptp.scalar_unit_class_2 _let_36 tptp.polypeptide_0) (tptp.has_region_2 X _let_37) (tptp.is_inside_2 _let_38 _let_37) (tptp.has_region_2 _let_39 _let_38) (tptp.is_at_2 _let_39 _let_40) (tptp.has_region_2 X _let_40) (tptp.has_part_2 X _let_34) (tptp.size_2 _let_34 _let_35) (tptp.greater_than_2 _let_36 _let_35) (tptp.size_2 X _let_36) (tptp.has_part_2 X _let_33) (tptp.has_region_2 X _let_31) (tptp.is_inside_2 _let_32 _let_31) (tptp.has_part_2 X _let_32) (not (= _let_33 _let_32)) (not (= _let_32 _let_33)) (= _let_39 _let_18) (= _let_24 _let_30) (= _let_50 _let_27) (= _let_52 (tptp.fn_enzyme_7 X)) (= _let_37 _let_14) (= _let_21 _let_20) (= _let_21 _let_19) (= _let_51 (tptp.fn_enzyme_5 X)) (= _let_1 (tptp.fn_enzyme_6 X)) (= X _let_2) (= _let_24 _let_29) (= _let_50 _let_28) (= _let_50 _let_26) (= _let_50 _let_25) (= (tptp.fn_cellulose_synthase_29 X) (tptp.fn_protein_10 X)) (= _let_50 _let_23) (= _let_50 _let_22) (= _let_49 _let_48) (= (tptp.fn_cellulose_synthase_2 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_cellulose_synthase_3 X) (tptp.fn_molecule_1 X)) (= _let_47 (tptp.fn_molecule_8 X)) (= _let_46 (tptp.fn_molecule_3 X)) (= _let_45 (tptp.fn_molecule_4 X)) (= _let_44 (tptp.fn_molecule_12 X)) (= _let_39 _let_16) (= _let_43 (tptp.fn_protein_8 X)) (= _let_42 (tptp.fn_protein_1 X)) (= _let_41 (tptp.fn_protein_5 X)) (= _let_40 (tptp.fn_protein_enzyme_5 X)) (= _let_39 _let_15) (= _let_38 (tptp.fn_protein_enzyme_12 X)) (= _let_37 _let_13) (= _let_36 _let_12) (= _let_36 _let_11) (= _let_35 (tptp.fn_protein_enzyme_4 X)) (= _let_34 _let_10) (= _let_34 _let_9) (= _let_33 _let_8) (= _let_33 _let_7) (= _let_32 _let_6) (= _let_32 _let_5) (= _let_31 _let_4) (= _let_31 _let_3) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.center_1 X) (and (tptp.original_name_2 X |tptp.'Center'|) (tptp.user_description_2 X |tptp.'Middle region.'|) (tptp.concept2words_2 X tptp.centre) (tptp.concept2words_2 X tptp.middle) (tptp.concept2words_2 X tptp.center) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.centipede_1 X) (and (tptp.original_name_2 X |tptp.'Centipede'|) (tptp.user_description_2 X |tptp.'A terrestrial arthropod of the clade Chilopoda characterized by distinctly segmented bodies. Each body segment, of which there can be from 20 to 300, bears a pair of walking legs. The walking leg of the first body segment is modified into a forcipule, a venom claw used to capture prey.'|) (tptp.concept2words_2 X tptp.centipede) (tptp.myriapod_1 X) (not (tptp.millipede_1 X))))) (forall ((X $$unsorted)) (=> (tptp.central_canal_1 X) (and (tptp.original_name_2 X |tptp.'Central-Canal'|) (tptp.user_description_2 X |tptp.'Canal running down the center of the spinal cord, filled with cerebrospinal fluid and continuous with the ventricular system of the brain.'|) (tptp.concept2words_2 X |tptp.'canal of central'|) (tptp.concept2words_2 X |tptp.'central canal'|) (tptp.concept2words_2 X |tptp.'central-canal'|) (tptp.canal_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_central_dogma_12 X))) (let ((_let_2 (tptp.fn_dna_replication_23 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_nucleic_acid_6 _let_1))) (let ((_let_4 (tptp.fn_central_dogma_8 X))) (let ((_let_5 (tptp.fn_polymer_synthesis_23 _let_4))) (let ((_let_6 (tptp.fn_anabolic_pathway_5 _let_4))) (let ((_let_7 (tptp.fn_translation_7 _let_4))) (let ((_let_8 (tptp.fn_central_dogma_6 X))) (let ((_let_9 (tptp.fn_central_dogma_9 X))) (let ((_let_10 (tptp.fn_dna_replication_27 _let_1))) (let ((_let_11 (tptp.fn_central_dogma_10 X))) (let ((_let_12 (tptp.fn_central_dogma_4 X))) (let ((_let_13 (tptp.fn_central_dogma_11 X))) (let ((_let_14 (tptp.fn_transmit_2 _let_13))) (let ((_let_15 (tptp.fn_central_dogma_13 X))) (let ((_let_16 (tptp.fn_central_dogma_5 X))) (let ((_let_17 (tptp.fn_transmit_2 _let_16))) (let ((_let_18 (tptp.fn_central_dogma_7 X))) (let ((_let_19 (tptp.fn_central_dogma_3 X))) (let ((_let_20 (tptp.fn_central_dogma_1 X))) (let ((_let_21 (tptp.fn_central_dogma_2 X))) (=> (tptp.central_dogma_1 X) (and (tptp.original_name_2 X |tptp.'Central-Dogma'|) (tptp.user_description_2 X |tptp.'The theory that information flows from DNA to RNA to protein.'|) (tptp.concept2words_2 X |tptp.'flow of genetic information'|) (tptp.concept2words_2 X |tptp.'flow-of-genetic-information'|) (tptp.concept2words_2 X |tptp.'genetic information flow'|) (tptp.concept2words_2 X |tptp.'genetic-information-flow'|) (tptp.concept2words_2 X |tptp.'dogma of central'|) (tptp.concept2words_2 X |tptp.'central dogma'|) (tptp.concept2words_2 X |tptp.'central-dogma'|) (tptp.transmission_of_information_1 X) (tptp.transmit_1 _let_20) (tptp.transcription_1 _let_21) (tptp.dna_1 _let_19) (tptp.protein_1 _let_12) (tptp.transmit_1 _let_16) (tptp.mrna_1 _let_8) (tptp.genetic_code_1 _let_18) (tptp.translation_1 _let_4) (tptp.nucleic_acid_1 _let_9) (tptp.dna_1 _let_9) (tptp.dna_polymerase_iii_1 _let_11) (tptp.transmit_1 _let_13) (tptp.dna_replication_1 _let_1) (tptp.genetic_code_1 _let_15) (tptp.tangible_entity_1 _let_17) (tptp.tangible_entity_1 _let_14) (tptp.dna_polymerase_iii_1 _let_10) (tptp.mrna_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.polymer_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.nucleic_acid_1 _let_3) (tptp.dna_1 _let_2) (tptp.causes_2 _let_1 _let_20) (tptp.base_2 _let_1 _let_19) (tptp.instrument_2 _let_13 _let_9) (tptp.subevent_2 _let_13 _let_21) (tptp.recipient_2 _let_13 _let_8) (tptp.next_event_2 _let_13 _let_16) (tptp.abuts_2 _let_11 _let_19) (tptp.recipient_2 _let_20 _let_9) (tptp.agent_2 _let_20 _let_11) (tptp.next_event_2 _let_20 _let_13) (tptp.subevent_2 _let_20 _let_1) (tptp.instrument_2 _let_20 _let_19) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_20) (tptp.first_subevent_2 X _let_20) (tptp.causes_2 _let_21 _let_13) (tptp.has_goal_2 _let_19 _let_20) (tptp.abuts_2 _let_19 _let_11) (tptp.causes_2 _let_4 _let_16) (tptp.instrument_2 _let_16 _let_8) (tptp.subevent_2 _let_16 _let_4) (tptp.recipient_2 _let_16 _let_12) (tptp.object_2 _let_16 _let_18) (tptp.object_2 _let_13 _let_15) (tptp.result_2 _let_4 _let_12) (tptp.agent_2 _let_1 _let_11) (tptp.result_2 _let_1 _let_9) (tptp.instrument_2 _let_4 _let_8) (= _let_18 _let_17) (= _let_15 _let_14) (= _let_12 _let_6) (= _let_12 _let_5) (= _let_11 _let_10) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.central_nervous_system_1 X) (and (tptp.original_name_2 X |tptp.'Central-Nervous-System'|) (tptp.user_description_2 X |tptp.'The brain and spinal cord of the vertebrate nervous system.'|) (tptp.concept2words_2 X |tptp.'central nervous system'|) (tptp.concept2words_2 X |tptp.'central nervous-system'|) (tptp.concept2words_2 X |tptp.'central-nervous-system'|) (tptp.nervous_system_1 X) (not (tptp.enteric_division_1 X)) (not (tptp.nerve_net_1 X)) (not (tptp.peripheral_nervous_system_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_vesicle_10 X))) (let ((_let_2 (tptp.fn_vacuole_2 X))) (let ((_let_3 (tptp.fn_central_vacuole_11 X))) (let ((_let_4 (tptp.fn_solution_5 _let_3))) (let ((_let_5 (tptp.fn_solution_6 _let_3))) (let ((_let_6 (tptp.fn_central_vacuole_17 X))) (let ((_let_7 (tptp.fn_take_in_1 _let_6))) (let ((_let_8 (tptp.fn_central_vacuole_22 X))) (let ((_let_9 (tptp.fn_release_2 _let_8))) (let ((_let_10 (tptp.fn_cell_sap_4 _let_3))) (let ((_let_11 (tptp.fn_vacuole_6 X))) (let ((_let_12 (tptp.fn_release_1 _let_8))) (let ((_let_13 (tptp.fn_vacuole_7 X))) (let ((_let_14 (tptp.fn_vesicle_9 X))) (let ((_let_15 (tptp.fn_substance_3 _let_3))) (let ((_let_16 (tptp.fn_central_vacuole_14 X))) (let ((_let_17 (tptp.fn_substance_4 _let_3))) (let ((_let_18 (tptp.fn_central_vacuole_19 X))) (let ((_let_19 (tptp.fn_central_vacuole_9 X))) (let ((_let_20 (tptp.fn_central_vacuole_21 X))) (let ((_let_21 (tptp.fn_central_vacuole_16 X))) (let ((_let_22 (tptp.fn_central_vacuole_18 X))) (let ((_let_23 (tptp.fn_central_vacuole_20 X))) (let ((_let_24 (tptp.fn_central_vacuole_12 X))) (let ((_let_25 (tptp.fn_central_vacuole_10 X))) (let ((_let_26 (tptp.fn_water_95 _let_25))) (let ((_let_27 (tptp.fn_move_1 _let_6))) (let ((_let_28 (tptp.fn_central_vacuole_8 X))) (let ((_let_29 (tptp.fn_central_vacuole_5 X))) (let ((_let_30 (tptp.fn_central_vacuole_7 X))) (let ((_let_31 (tptp.fn_central_vacuole_1 X))) (let ((_let_32 (tptp.fn_central_vacuole_4 X))) (let ((_let_33 (tptp.fn_central_vacuole_6 X))) (=> (tptp.central_vacuole_1 X) (and (tptp.original_name_2 X |tptp.'Central-Vacuole'|) (tptp.user_description_2 X |tptp.'Central vacuole is a prominent organelle in older plant cells. Its functions include storage and breakdown of waste products. It is generally the largest compartment of a plant cell'|) (tptp.concept2words_2 X |tptp.'vacuole of central'|) (tptp.concept2words_2 X |tptp.'central vacuole'|) (tptp.concept2words_2 X |tptp.'central-vacuole'|) (tptp.vacuole_1 X) (not (tptp.contractile_vacuole_1 X)) (tptp.cellular_process_1 _let_31) (tptp.rate_value_1 _let_32) (tptp.rate_value_1 _let_29) (tptp.organic_molecule_1 _let_33) (tptp.grow_1 _let_30) (tptp.hydrophilic_face_1 _let_28) (tptp.store_1 _let_19) (tptp.spatial_entity_1 _let_25) (tptp.water_1 _let_25) (tptp.cell_sap_1 _let_3) (tptp.aqueous_solution_1 _let_3) (tptp.solution_1 _let_3) (tptp.substance_1 _let_3) (tptp.plant_cell_1 _let_24) (tptp.volume_value_1 _let_16) (tptp.size_value_1 _let_21) (tptp.absorb_1 _let_6) (tptp.tonoplast_1 _let_22) (tptp.chemical_1 _let_18) (tptp.aqueous_solution_1 _let_23) (tptp.liquid_substance_1 _let_23) (tptp.cytosol_1 _let_23) (tptp.solution_1 _let_23) (tptp.tangible_entity_1 _let_20) (tptp.release_1 _let_8) (tptp.spatial_entity_1 _let_27) (tptp.move_1 _let_26) (tptp.property_node_1 _let_17) (tptp.volume_value_1 _let_15) (tptp.tangible_entity_1 _let_12) (tptp.central_vacuole_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.chemical_1 _let_5) (tptp.chemical_1 _let_4) (tptp.has_part_2 _let_3 _let_33) (tptp.directly_proportional_2 _let_21 _let_16) (tptp.directly_proportional_2 _let_32 _let_21) (tptp.directly_proportional_2 _let_29 _let_32) (tptp.rate_2 _let_6 _let_32) (tptp.causes_2 _let_6 _let_30) (tptp.has_function_2 X _let_31) (tptp.has_function_2 X _let_6) (tptp.object_2 _let_30 _let_24) (tptp.rate_2 _let_30 _let_29) (tptp.is_inside_2 _let_28 _let_22) (tptp.is_outside_2 _let_28 _let_23) (tptp.object_2 _let_8 _let_20) (tptp.base_2 _let_8 X) (tptp.is_between_2 _let_22 _let_3) (tptp.has_part_2 X _let_3) (tptp.has_part_2 _let_24 X) (tptp.base_2 _let_6 X) (tptp.agent_2 _let_6 X) (tptp.has_part_2 X _let_22) (tptp.is_between_2 _let_22 _let_23) (tptp.base_2 _let_19 X) (tptp.has_function_2 X _let_19) (tptp.object_2 _let_19 _let_20) (tptp.is_inside_2 _let_20 X) (tptp.size_2 X _let_21) (tptp.the_scalar_value_2 _let_21 tptp.big_0) (tptp.scalar_unit_class_2 _let_21 tptp.vesicle_0) (tptp.volume_2 _let_3 _let_16) (tptp.has_solute_2 _let_3 _let_18) (tptp.has_part_2 _let_3 _let_18) (= _let_25 _let_27) (= _let_6 _let_26) (= _let_20 _let_12) (= X _let_9) (= _let_24 (tptp.fn_vesicle_5 X)) (= X _let_10) (= _let_3 _let_2) (= _let_3 _let_1) (= X _let_7) (= _let_23 (tptp.fn_vacuole_9 X)) (= _let_22 _let_14) (= _let_22 _let_13) (= (tptp.fn_central_vacuole_15 X) (tptp.fn_vacuole_5 X)) (= _let_21 (tptp.fn_vacuole_4 X)) (= _let_20 _let_11) (= _let_19 (tptp.fn_vacuole_3 X)) (= _let_18 _let_5) (= _let_18 _let_4) (= (tptp.fn_central_vacuole_13 X) _let_17) (= _let_16 _let_15) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_centrifugation_2 X))) (let ((_let_2 (tptp.fn_centrifugation_1 X))) (=> (tptp.centrifugation_1 X) (and (tptp.original_name_2 X |tptp.'Centrifugation'|) (tptp.user_description_2 X |tptp.'The process of separating substances by the use of a centrifugal force. The instrument used for this is Centrifuge.'|) (tptp.concept2words_2 X |tptp.'undergo centrifugation'|) (tptp.concept2words_2 X tptp.centrifuge) (tptp.concept2words_2 X tptp.centrifugation) (tptp.segregate_1 X) (tptp.rotate_1 _let_2) (tptp.centrifuge_1 _let_1) (tptp.subevent_2 X _let_2) (tptp.first_subevent_2 X _let_2) (tptp.instrument_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.centrifuge_1 X) (and (tptp.original_name_2 X |tptp.'Centrifuge'|) (tptp.user_description_2 X |tptp.'An apparatus that uses centrifugal force to separate particles from a suspension.'|) (tptp.concept2words_2 X tptp.centrifuge) (tptp.device_1 X) (not (tptp.automobile_1 X)) (not (tptp.needle_1 X)) (not (tptp.optical_device_1 X)) (not (tptp.test_tube_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_centriole_10 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_centriole_9 X))) (let ((_let_4 (tptp.fn_attach_2 _let_1))) (let ((_let_5 (tptp.fn_centriole_11 X))) (let ((_let_6 (tptp.fn_centriole_8 X))) (let ((_let_7 (tptp.fn_centriole_7 X))) (let ((_let_8 (tptp.fn_centriole_6 X))) (let ((_let_9 (tptp.fn_centriole_3 X))) (let ((_let_10 (tptp.fn_centriole_2 X))) (let ((_let_11 (tptp.fn_centriole_4 X))) (let ((_let_12 (tptp.fn_centriole_5 X))) (=> (tptp.centriole_1 X) (and (tptp.original_name_2 X |tptp.'Centriole'|) (tptp.user_description_2 X |tptp.'Centriole is a subcellular organelle present in centrosome. It is involved in the organisation of the mitotic spindle and it has an important role in the cytokinesis. Centriole has a basic structure similar to Basal body'|) (tptp.concept2words_2 X tptp.centriole) (tptp.cellular_structure_1 X) (tptp.trimer_1 _let_10) (tptp.shape_value_1 _let_9) (tptp.role_1 _let_11) (tptp.cell_division_1 _let_12) (tptp.centrosome_1 _let_8) (tptp.protein_1 _let_7) (tptp.trimer_1 _let_6) (tptp.microtubule_1 _let_3) (tptp.attach_1 _let_1) (tptp.microtubule_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.has_part_2 _let_10 _let_3) (tptp.the_categorical_value_2 _let_9 tptp.ring_shaped_0) (tptp.in_event_2 _let_11 _let_12) (tptp.agent_2 _let_12 X) (tptp.plays_2 X _let_11) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_6) (tptp.exactCardinality X tptp.has_part_0 |"9"| tptp.trimer_0) (tptp.shape_2 X _let_9) (tptp.agent_2 _let_1 _let_7) (tptp.has_part_2 _let_8 _let_7) (tptp.has_part_2 _let_8 X) (tptp.has_function_2 _let_7 _let_1) (tptp.has_part_2 _let_6 _let_5) (tptp.base_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (let ((_let_1 (tptp.centromere_1 X))) (=> (and (tptp.has_region_2 X1 X) (tptp.result_2 X2 X1) _let_1 (tptp.replication_1 X2) (tptp.chromosome_1 X1) (tptp.chromosome_region_1 X)) (and _let_1 (= (tptp.fn_centromere_3 X) X1) (= (tptp.fn_centromere_2 X) X2))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_centromere_3 X))) (let ((_let_2 (tptp.fn_centromere_2 X))) (let ((_let_3 (tptp.fn_centromere_1 X))) (=> (tptp.centromere_1 X) (and (tptp.original_name_2 X |tptp.'Centromere'|) (tptp.user_description_2 X |tptp.'Centromere is a region of chromosome where two identical sister chromatids (components of a replicated chromosome) are attached to each other'|) (tptp.concept2words_2 X tptp.centromere) (tptp.chromosome_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.dna_sequence_1 _let_3) (tptp.replication_1 _let_2) (tptp.chromosome_1 _let_1) (tptp.is_inside_2 _let_3 X) (tptp.result_2 _let_2 _let_1) (tptp.has_region_2 _let_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_centrosome_5 X))) (let ((_let_2 (tptp.fn_centrosome_4 X))) (let ((_let_3 (tptp.fn_centrosome_3 X))) (let ((_let_4 (tptp.fn_centriole_6 _let_3))) (let ((_let_5 (tptp.fn_centrosome_1 X))) (let ((_let_6 (tptp.fn_centrosome_2 X))) (=> (tptp.centrosome_1 X) (and (tptp.original_name_2 X |tptp.'Centrosome'|) (tptp.user_description_2 X |tptp.'The centrosome is an organelle that serves as the main Microtubule Organizing Center (MTOC) of eukaryotic cells. Centrosomes play an important role during cell division.'|) (tptp.concept2words_2 X |tptp.'microtubule organising center'|) (tptp.concept2words_2 X |tptp.'microtubule organising centre'|) (tptp.concept2words_2 X |tptp.'microtubule organizing center'|) (tptp.concept2words_2 X |tptp.'microtubule organizing centre'|) (tptp.concept2words_2 X |tptp.'spindle pole'|) (tptp.concept2words_2 X |tptp.'spindle-pole'|) (tptp.concept2words_2 X tptp.mtoc) (tptp.concept2words_2 X |tptp.'microtubule-organizing-center'|) (tptp.concept2words_2 X tptp.centrosome) (tptp.microtubule_organizing_center_1 X) (tptp.role_1 _let_5) (tptp.center_1 _let_6) (tptp.centriole_1 _let_3) (tptp.organizing_1 _let_2) (tptp.produce_1 _let_1) (tptp.centrosome_1 _let_4) (tptp.in_event_2 _let_5 _let_2) (tptp.has_region_2 X _let_6) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.centriole_0) (tptp.plays_2 X _let_5) (tptp.has_part_2 X _let_3) (tptp.has_function_2 X _let_1) (tptp.agent_2 _let_1 X) (tptp.has_function_2 X _let_2) (tptp.agent_2 _let_2 X) (= X _let_4) (= _let_2 (tptp.fn_microtubule_organizing_center_1 X)) (= _let_1 (tptp.fn_microtubule_organizing_center_5 X))))))))))) (forall ((X $$unsorted)) (=> (tptp.cephalization_1 X) (and (tptp.original_name_2 X |tptp.'Cephalization'|) (tptp.user_description_2 X |tptp.'The formation of a head, bearing the majority of the sensory apparatus and the neural capacity to interpret and integrate sensory information, at the anterior end of the body.'|) (tptp.concept2words_2 X tptp.cephalization) (tptp.adaptation_1 X) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cephalochordate_1 X) (and (tptp.original_name_2 X |tptp.'Cephalochordate'|) (tptp.user_description_2 X |tptp.'A member of the invertebrate chordate subphylum Cephalochordata, which retain the notochord throughout life and are represented by the lancelets.'|) (tptp.concept2words_2 X tptp.lancelet) (tptp.concept2words_2 X tptp.cephalochordate) (tptp.chordate_1 X) (not (tptp.craniate_1 X)) (not (tptp.tunicate_1 X)) (not (tptp.vertebrate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cephalopod_1 X) (and (tptp.original_name_2 X |tptp.'Cephalopod'|) (tptp.user_description_2 X |tptp.'A member of the molluscan class Cephalopoda, characterized by a high degree of cephalization and jet propulsion. Octopuses, squids, cuttles, and nautiluses are examples of cephalopods.'|) (tptp.concept2words_2 X tptp.cephalopod) (tptp.mollusc_1 X) (not (tptp.bivalve_1 X)) (not (tptp.chiton_1 X)) (not (tptp.gastropod_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cerebellum_1 X) (and (tptp.original_name_2 X |tptp.'Cerebellum'|) (tptp.user_description_2 X |tptp.'A region of the vertebrate hindbrain, located dorsally, that plays an important role in motor control and balance.'|) (tptp.concept2words_2 X tptp.cerebellum) (tptp.brain_region_1 X) (not (tptp.lateral_geniculate_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.pons_1 X)) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.amygdala_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.primary_somatosensory_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_hemisphere_1 X)) (not (tptp.breathing_control_center_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cerebral_cortex_1 X) (and (tptp.original_name_2 X |tptp.'Cerebral-Cortex'|) (tptp.user_description_2 X |tptp.'The surface of the cerebrum, divided into left and right hemispheres. The cerebral cortex is the largest and most complex part of the mammalian brain, and is involved in memory, thought, attention, language, and consciousness.'|) (tptp.concept2words_2 X |tptp.'cerebral cortex'|) (tptp.concept2words_2 X |tptp.'cerebral-cortex'|) (tptp.cerebrum_1 X) (not (tptp.lateral_geniculate_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.pons_1 X)) (not (tptp.amygdala_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.reticular_formation_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_hemisphere_1 X)) (not (tptp.breathing_control_center_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cerebral_hemisphere_1 X) (and (tptp.original_name_2 X |tptp.'Cerebral-Hemisphere'|) (tptp.user_description_2 X |tptp.'The left or right side of the cerebrum of the mammalian brain.'|) (tptp.concept2words_2 X |tptp.'cerebral hemisphere'|) (tptp.concept2words_2 X |tptp.'cerebral-hemisphere'|) (tptp.cerebrum_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.amygdala_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.cerebellum_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cerebrospinal_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Cerebrospinal-Fluid'|) (tptp.user_description_2 X |tptp.'A colorless fluid that acts as a cushion for and nourishes the brain and spinal cord. Cerebrospinal fluid also protects tissues of the central nervous system from infection.'|) (tptp.concept2words_2 X |tptp.'cerebrospinal fluid'|) (tptp.concept2words_2 X |tptp.'cerebrospinal-fluid'|) (tptp.extra_cellular_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cerebrum_1 X) (and (tptp.original_name_2 X |tptp.'Cerebrum'|) (tptp.user_description_2 X |tptp.'In humans, the most dorsal part of the forebrain, composed of the left and right hemispheres. The cerebrum is divided into multiple lobes: the temporal lobe, the parietal lobe, the occipital lobe, and the frontal lobe.'|) (tptp.concept2words_2 X tptp.cerebrum) (tptp.brain_region_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.breathing_control_center_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cerium_9 X))) (let ((_let_2 (tptp.fn_cerium_12 X))) (let ((_let_3 (tptp.fn_cerium_10 X))) (let ((_let_4 (tptp.fn_cerium_11 X))) (let ((_let_5 (tptp.fn_cerium_4 X))) (let ((_let_6 (tptp.fn_cerium_5 X))) (let ((_let_7 (tptp.fn_cerium_3 X))) (=> (tptp.cerium_1 X) (and (tptp.original_name_2 X |tptp.'Cerium'|) (tptp.user_description_2 X |tptp.'Cerium is a metal atom with atomic number 58. It is represented by the symbol Ce.'|) (tptp.concept2words_2 X tptp.cerium) (tptp.concept2words_2 X tptp.ce) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"82"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"58"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"58"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"4"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.12"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"140"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"58"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"140.1"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_cerium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_cerium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_cerium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.cervical_cap_1 X) (and (tptp.original_name_2 X |tptp.'Cervical-Cap'|) (tptp.user_description_2 X |tptp.'A barrier form of contraception, which fits over the cervix and keeps sperm from entering the uterus.'|) (tptp.concept2words_2 X |tptp.'cervical cap'|) (tptp.concept2words_2 X |tptp.'cervical-cap'|) (tptp.reproductive_barrier_method_1 X) (not (tptp.condom_1 X)) (not (tptp.diaphragm_birth_control_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cervix_1 X) (and (tptp.original_name_2 X |tptp.'Cervix'|) (tptp.user_description_2 X |tptp.'The long, narrow part of the uterus where it joins the vagina.'|) (tptp.concept2words_2 X tptp.cervix) (tptp.columnlike_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X)) (not (tptp.blood_brain_barrier_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cesium_10 X))) (let ((_let_2 (tptp.fn_cesium_12 X))) (let ((_let_3 (tptp.fn_cesium_11 X))) (let ((_let_4 (tptp.fn_cesium_14 X))) (let ((_let_5 (tptp.fn_cesium_13 X))) (let ((_let_6 (tptp.fn_cs_plus_3 _let_5))) (let ((_let_7 (tptp.fn_cesium_3 X))) (let ((_let_8 (tptp.fn_cesium_2 X))) (let ((_let_9 (tptp.fn_cesium_1 X))) (let ((_let_10 (tptp.fn_cesium_4 X))) (=> (tptp.cesium_1 X) (and (tptp.original_name_2 X |tptp.'Cesium'|) (tptp.user_description_2 X |tptp.'Cesium is a metal atom with atomic number 55. It is represented by the symbol Cs.'|) (tptp.concept2words_2 X |tptp.'Cs'|) (tptp.concept2words_2 X tptp.cesium) (tptp.metal_atom_1 X) (not (tptp.sodium_1 X)) (not (tptp.barium_1 X)) (not (tptp.indium_1 X)) (not (tptp.lead_1 X)) (not (tptp.polonium_1 X)) (tptp.electronegativity_value_1 _let_9) (tptp.valence_value_1 _let_8) (tptp.atomic_mass_value_1 _let_7) (tptp.neutron_1 _let_10) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.quantity_value_1 _let_2) (tptp.cs_plus_1 _let_5) (tptp.atomic_number_value_1 _let_4) (tptp.cesium_1 _let_6) (tptp.the_cardinal_value_2 _let_4 |"55"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.electronegativity_2 X _let_9) (tptp.valence_2 X _let_8) (tptp.mass_number_2 X _let_7) (tptp.exactCardinality X tptp.has_part_0 |"78"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"55"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"55"| tptp.electron_0) (tptp.has_part_2 X _let_10) (tptp.the_cardinal_value_2 _let_2 |"1"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_9 |"0.79"|) (tptp.cardinal_unit_class_2 _let_9 tptp.unity_0) (tptp.the_cardinal_value_2 _let_8 |"1"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"133"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"132.9"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.has_ion_2 X _let_5) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= X _let_6) (= (tptp.fn_cesium_15 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_cesium_9 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_cesium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cetacea_1 X) (and (tptp.original_name_2 X |tptp.'Cetacea'|) (tptp.user_description_2 X |tptp.'A class of marine mammals including porpoises, dolphins, and whales.'|) (tptp.concept2words_2 X tptp.cetacea) (tptp.marine_mammal_1 X) (not (tptp.placental_mammal_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ch3_minus_2 X))) (=> (tptp.ch3_minus_1 X) (and (tptp.original_name_2 X |tptp.'CH3-Minus'|) (tptp.user_description_2 X |tptp.'The methanide ion, or the anion form of a methyl group.'|) (tptp.concept2words_2 X tptp.methyl) (tptp.concept2words_2 X |tptp.'ch3 minus'|) (tptp.concept2words_2 X |tptp.'ch3-minus'|) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-1"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_ch3_minus_1 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ch3_plus_2 X))) (=> (tptp.ch3_plus_1 X) (and (tptp.original_name_2 X |tptp.'CH3-Plus'|) (tptp.user_description_2 X |tptp.'The methylium cation, or the cation form of a methyl group.'|) (tptp.concept2words_2 X tptp.methyl) (tptp.concept2words_2 X |tptp.'ch3 plus'|) (tptp.concept2words_2 X |tptp.'ch3-plus'|) (tptp.polyatomic_ion_1 X) (tptp.cation_1 X) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"1"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_ch3_plus_1 X) (tptp.fn_cation_4 X)) (= _let_1 (tptp.fn_cation_5 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ch3nh3_plus_2 X))) (=> (tptp.ch3nh3_plus_1 X) (and (tptp.original_name_2 X |tptp.'CH3NH3-Plus'|) (tptp.user_description_2 X |tptp.'Methylammonium cation.'|) (tptp.concept2words_2 X |tptp.'ch3nh3+'|) (tptp.concept2words_2 X |tptp.'ch 3nh 3+'|) (tptp.concept2words_2 X |tptp.'ch_3nh_3+'|) (tptp.concept2words_2 X |tptp.'methylammonia ion'|) (tptp.concept2words_2 X |tptp.'methylammonium ion'|) (tptp.concept2words_2 X |tptp.'methylamonia cation'|) (tptp.concept2words_2 X tptp.methylammonium) (tptp.concept2words_2 X |tptp.'ch3nh3 plus'|) (tptp.concept2words_2 X |tptp.'ch3nh3-plus'|) (tptp.polyatomic_ion_1 X) (tptp.cation_1 X) (not (tptp.ba_plus_2_1 X)) (not (tptp.cs_plus_1 X)) (not (tptp.nh4_plus_1 X)) (not (tptp.pb_plus_2_1 X)) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"1"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_ch3nh3_plus_1 X) (tptp.fn_cation_4 X)) (= _let_1 (tptp.fn_cation_5 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ch3nh3cl_1 X))) (let ((_let_2 (tptp.fn_ch3nh3cl_2 X))) (=> (tptp.ch3nh3cl_1 X) (and (tptp.original_name_2 X |tptp.'CH3NH3Cl'|) (tptp.user_description_2 X |tptp.'Methylammonium chloride, a main ingredient of permethrin, used in agricultural applications.'|) (tptp.concept2words_2 X tptp.ch3nh3cl) (tptp.concept2words_2 X |tptp.'methyl ammonium chloride'|) (tptp.concept2words_2 X |tptp.'methylammonium chloride'|) (tptp.salt_1 X) (not (tptp.sodium_chloride_1 X)) (not (tptp.nh4cl_1 X)) (tptp.cl_minus_1 _let_1) (tptp.ch3nh3_plus_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_ionic_compound_1 X)) (= _let_1 (tptp.fn_ionic_compound_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.change_1 X) (and (tptp.original_name_2 X |tptp.'Change'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X tptp.alter) (tptp.concept2words_2 X tptp.modify) (tptp.concept2words_2 X tptp.vary) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_change_chromosome_structure_1 X))) (let ((_let_2 (tptp.fn_change_chromosome_structure_2 X))) (=> (tptp.change_chromosome_structure_1 X) (and (tptp.original_name_2 X |tptp.'Change-Chromosome-Structure'|) (tptp.user_description_2 X |tptp.'An change in the structure of a chromosome due to an process error during mitosis.'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'change chromosome structure'|) (tptp.concept2words_2 X |tptp.'change-chromosome-structure'|) (tptp.nucleic_acid_process_1 X) (tptp.chromosomal_inheritance_1 X) (tptp.make_error_1 _let_1) (tptp.meiosis_1 _let_2) (tptp.causes_2 _let_1 X) (tptp.subevent_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.change_in_membrane_potential_1 X) (and (tptp.original_name_2 X |tptp.'Change-In-Membrane-Potential'|) (tptp.user_description_2 X |tptp.'A change in the voltage across cell mebranes due to changes in the electrochemical gradient.'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'change in membrane potential'|) (tptp.concept2words_2 X |tptp.'change-in-membrane-potential'|) (tptp.change_of_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_change_of_hydrogen_ion_concentration_in_cell_6 X))) (let ((_let_2 (tptp.fn_change_of_hydrogen_ion_concentration_in_cell_2 X))) (let ((_let_3 (tptp.fn_change_of_hydrogen_ion_concentration_in_cell_3 X))) (let ((_let_4 (tptp.fn_change_of_hydrogen_ion_concentration_in_cell_4 X))) (let ((_let_5 (tptp.fn_change_of_hydrogen_ion_concentration_in_cell_5 X))) (=> (tptp.change_of_hydrogen_ion_concentration_in_cell_1 X) (and (tptp.original_name_2 X |tptp.'Change-Of-Hydrogen-Ion-Concentration-In-Cell'|) (tptp.user_description_2 X |tptp.'An increase or decrease in the number of hydrogen (H+) ions.'|) (tptp.concept2words_2 X |tptp.'change of hydrogen ion concentration'|) (tptp.concept2words_2 X |tptp.'change of proton concentration'|) (tptp.concept2words_2 X |tptp.'change of h+ concentration'|) (tptp.concept2words_2 X |tptp.'change of [h+]'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'change of hydrogen ion concentration in cell'|) (tptp.concept2words_2 X |tptp.'change-of-hydrogen-ion-concentration-in-cell'|) (tptp.biochemical_change_1 X) (tptp.concentration_value_1 _let_2) (tptp.hydrogen_ion_1 _let_3) (tptp.hydrogen_ion_1 _let_4) (tptp.cytosol_1 _let_5) (tptp.concentration_value_1 _let_1) (not (= _let_1 _let_2)) (tptp.has_part_2 _let_5 _let_4) (tptp.concentration_2 _let_4 _let_1) (tptp.result_2 X _let_3) (tptp.object_2 X _let_4) (tptp.concentration_2 _let_3 _let_2) (not (= _let_2 _let_1)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_change_of_hydroxide_ion_concentration_in_cell_3 X))) (let ((_let_2 (tptp.fn_change_of_hydroxide_ion_concentration_in_cell_6 X))) (let ((_let_3 (tptp.fn_change_of_hydroxide_ion_concentration_in_cell_2 X))) (let ((_let_4 (tptp.fn_change_of_hydroxide_ion_concentration_in_cell_4 X))) (let ((_let_5 (tptp.fn_change_of_hydroxide_ion_concentration_in_cell_5 X))) (=> (tptp.change_of_hydroxide_ion_concentration_in_cell_1 X) (and (tptp.original_name_2 X |tptp.'Change-Of-Hydroxide-Ion-Concentration-In-Cell'|) (tptp.user_description_2 X |tptp.'An increase or decrease in the number of hydroxide (OH-) ions.'|) (tptp.concept2words_2 X |tptp.'change of hydroxide ion concentration'|) (tptp.concept2words_2 X |tptp.'change of hydroxide concentration'|) (tptp.concept2words_2 X |tptp.'change of oh concentration'|) (tptp.concept2words_2 X |tptp.'change of oh- concentration'|) (tptp.concept2words_2 X |tptp.'change of [oh ]'|) (tptp.concept2words_2 X |tptp.'change of [oh-]'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'change of hydroxide ion concentration in cell'|) (tptp.concept2words_2 X |tptp.'change-of-hydroxide-ion-concentration-in-cell'|) (tptp.biochemical_change_1 X) (tptp.hydroxide_ion_1 _let_3) (tptp.concentration_value_1 _let_1) (tptp.hydroxide_ion_1 _let_4) (tptp.cytoplasm_1 _let_5) (tptp.concentration_value_1 _let_2) (tptp.concentration_2 _let_3 _let_1) (not (= _let_1 _let_2)) (tptp.has_state_2 _let_4 _let_3) (tptp.concentration_2 _let_4 _let_2) (tptp.has_part_2 _let_5 _let_4) (tptp.object_2 X _let_4) (tptp.result_2 X _let_3) (not (= _let_2 _let_1)))))))))) (forall ((X $$unsorted)) (=> (tptp.change_of_shape_1 X) (and (tptp.original_name_2 X |tptp.'Change-Of-Shape'|) (tptp.user_description_2 X |tptp.'A change involving the shape or arrangement of an object.'|) (tptp.concept2words_2 X |tptp.'change shape'|) (tptp.concept2words_2 X |tptp.'shape change'|) (tptp.concept2words_2 X |tptp.'shape-change'|) (tptp.concept2words_2 X |tptp.'change of shape'|) (tptp.concept2words_2 X |tptp.'change-of-shape'|) (tptp.change_1 X)))) (forall ((X $$unsorted)) (=> (tptp.change_of_state_1 X) (and (tptp.original_name_2 X |tptp.'Change-Of-State'|) (tptp.user_description_2 X |tptp.'A change in which a substance or thing is transformed from one state to another'|) (tptp.concept2words_2 X |tptp.'change state'|) (tptp.concept2words_2 X |tptp.'state change'|) (tptp.concept2words_2 X |tptp.'state-change'|) (tptp.concept2words_2 X |tptp.'change of state'|) (tptp.concept2words_2 X |tptp.'change-of-state'|) (tptp.change_1 X)))) (forall ((X $$unsorted)) (=> (tptp.change_sequence_1 X) (and (tptp.original_name_2 X |tptp.'Change-Sequence'|) (tptp.user_description_2 X |tptp.'Mutation that results in the change in sequence of DNA.'|) (tptp.concept2words_2 X |tptp.'dna sequence change'|) (tptp.concept2words_2 X |tptp.'sequence mutation'|) (tptp.concept2words_2 X tptp.change) (tptp.concept2words_2 X |tptp.'sequence of change'|) (tptp.concept2words_2 X |tptp.'change sequence'|) (tptp.concept2words_2 X |tptp.'change-sequence'|) (tptp.mutation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_channel_protein_8 X))) (let ((_let_2 (tptp.fn_facilitated_diffusion_using_channel_protein_14 _let_1))) (let ((_let_3 (tptp.fn_channel_protein_7 X))) (let ((_let_4 (tptp.fn_hydrophilic_channel_2 _let_3))) (let ((_let_5 (tptp.fn_channel_protein_6 X))) (let ((_let_6 (tptp.fn_block_1 _let_5))) (let ((_let_7 (tptp.fn_channel_protein_5 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_facilitated_diffusion_using_channel_protein_13 _let_1))) (let ((_let_10 (tptp.fn_facilitated_diffusion_using_channel_protein_8 _let_1))) (let ((_let_11 (tptp.fn_channel_protein_11 X))) (let ((_let_12 (tptp.fn_passive_transport_6 _let_1))) (let ((_let_13 (tptp.fn_channel_protein_9 X))) (let ((_let_14 (tptp.fn_passive_transport_7 _let_1))) (let ((_let_15 (tptp.fn_channel_protein_4 X))) (let ((_let_16 (tptp.fn_channel_protein_3 X))) (let ((_let_17 (tptp.fn_channel_protein_2 X))) (=> (tptp.channel_protein_1 X) (and (tptp.original_name_2 X |tptp.'Channel-Protein'|) (tptp.user_description_2 X |tptp.'Protein forming an aqueous pore spanning the lipid bilayer of the cell membrane which when open allows certain solutes to traverse the membrane.'|) (tptp.concept2words_2 X |tptp.'protein of channel'|) (tptp.concept2words_2 X |tptp.'channel protein'|) (tptp.concept2words_2 X |tptp.'channel-protein'|) (tptp.transport_protein_1 X) (tptp.quantity_value_1 _let_17) (tptp.hydrophobic_compound_1 _let_16) (tptp.hydrophilic_compound_1 _let_15) (tptp.move_1 _let_7) (tptp.move_through_1 _let_7) (tptp.block_1 _let_5) (tptp.hydrophilic_channel_1 _let_3) (tptp.facilitated_diffusion_1 _let_1) (tptp.passive_transport_1 _let_1) (tptp.facilitated_diffusion_using_channel_protein_1 _let_1) (tptp.rate_value_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.property_node_1 _let_14) (tptp.rate_value_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.move_through_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.channel_protein_1 _let_4) (tptp.channel_protein_1 _let_2) (not (= _let_15 _let_11)) (not (= _let_16 _let_11)) (tptp.path_2 _let_7 _let_3) (tptp.object_2 _let_5 _let_16) (tptp.called_2 _let_5 |"1"|) (tptp.facilitates_2 _let_3 _let_1) (tptp.quantity_2 X _let_17) (tptp.directly_proportional_2 _let_17 _let_13) (not (= _let_11 _let_15)) (not (= _let_11 _let_16)) (tptp.object_2 _let_7 _let_15) (tptp.object_2 _let_5 _let_15) (tptp.has_function_2 X _let_1) (tptp.has_region_2 X _let_3) (tptp.rate_2 _let_1 _let_13) (tptp.instrument_2 _let_1 X) (tptp.subevent_2 _let_1 _let_7) (tptp.agent_2 _let_7 X) (tptp.facilitates_2 X _let_7) (tptp.object_2 _let_7 _let_11) (= _let_15 _let_8) (= _let_15 _let_6) (= _let_1 (tptp.fn_transport_protein_28 X)) (= X _let_4) (= (tptp.fn_channel_protein_10 X) _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= X _let_2) (= _let_7 _let_9) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chaparral_1 X) (and (tptp.original_name_2 X |tptp.'Chaparral'|) (tptp.user_description_2 X |tptp.'A scrubland biome located in California and the northern part of the Baja Peninsula in Mexico. Chapparal is characterized by a Mediterranean climate (long, dry summers and mild, wet winters), wildfire, and drought-tolerant plants.'|) (tptp.concept2words_2 X tptp.chaparral) (tptp.terrestrial_biome_1 X) (not (tptp.desert_1 X)) (not (tptp.northern_coniferous_1 X)) (not (tptp.savanna_1 X)) (not (tptp.temperate_broadleaf_forest_1 X)) (not (tptp.temperate_grassland_1 X)) (not (tptp.tropical_rain_forest_1 X)) (not (tptp.tropics_1 X)) (not (tptp.tundra_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chaperonin_9 X))) (let ((_let_2 (tptp.fn_chaperonin_8 X))) (let ((_let_3 (tptp.fn_hold_1 _let_2))) (let ((_let_4 (tptp.fn_hold_2 _let_2))) (let ((_let_5 (tptp.fn_chaperonin_7 X))) (let ((_let_6 (tptp.fn_chaperonin_3 X))) (let ((_let_7 (tptp.fn_chaperonin_5 X))) (let ((_let_8 (tptp.fn_chaperonin_4 X))) (let ((_let_9 (tptp.fn_chaperonin_6 X))) (=> (tptp.chaperonin_1 X) (and (tptp.original_name_2 X |tptp.'Chaperonin'|) (tptp.user_description_2 X |tptp.'Protein molecules which help other proteins fold into their correct three-dimensional configuration.'|) (tptp.concept2words_2 X |tptp.'chaperonin protein complex'|) (tptp.concept2words_2 X |tptp.'chaperonin-protein-complex'|) (tptp.concept2words_2 X |tptp.'chaperone protein'|) (tptp.concept2words_2 X |tptp.'chaperone-protein'|) (tptp.concept2words_2 X tptp.chaperonin) (tptp.protein_complex_1 X) (tptp.shape_value_1 _let_6) (tptp.shape_value_1 _let_8) (tptp.protein_1 _let_7) (tptp.protein_folding_1 _let_9) (tptp.protein_1 _let_5) (tptp.hold_1 _let_2) (tptp.protein_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.element_2 X _let_7) (tptp.has_function_2 X _let_9) (tptp.shape_2 _let_7 _let_8) (tptp.the_categorical_value_2 _let_8 tptp.cylinder_0) (tptp.the_categorical_value_2 _let_6 tptp.dome_like_0) (tptp.is_above_2 _let_1 _let_7) (tptp.shape_2 _let_1 _let_6) (tptp.object_2 _let_2 _let_5) (tptp.agent_2 _let_2 X) (tptp.element_2 X _let_1) (= _let_5 _let_4) (= X _let_3) (= _let_1 (tptp.fn_protein_complex_1 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_character_3 X))) (let ((_let_2 (tptp.fn_organism_role_1 _let_1))) (let ((_let_3 (tptp.fn_character_2 X))) (let ((_let_4 (tptp.fn_inheritance_1 _let_3))) (let ((_let_5 (tptp.fn_transfer_1 _let_3))) (let ((_let_6 (tptp.fn_character_1 X))) (let ((_let_7 (tptp.fn_organism_role_2 _let_1))) (=> (tptp.character_1 X) (and (tptp.original_name_2 X |tptp.'Character'|) (tptp.user_description_2 X |tptp.'A heritable feature'|) (tptp.concept2words_2 X |tptp.'quantitative character'|) (tptp.concept2words_2 X |tptp.'heritable feature'|) (tptp.concept2words_2 X tptp.character) (tptp.aggregate_1 X) (tptp.entity_1 _let_6) (tptp.organism_1 _let_6) (tptp.inheritance_1 _let_3) (tptp.event_1 _let_3) (tptp.transfer_1 _let_3) (tptp.offspring_1 _let_1) (tptp.event_1 _let_7) (tptp.entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.organism_1 _let_2) (tptp.recipient_2 _let_3 _let_6) (tptp.in_event_2 _let_1 _let_3) (tptp.plays_2 _let_6 _let_1) (tptp.object_2 _let_3 X) (= _let_6 _let_4) (= _let_3 _let_7) (= _let_6 _let_2) (= X _let_5) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.character_displacement_1 X) (and (tptp.original_name_2 X |tptp.'Character-Displacement'|) (tptp.user_description_2 X |tptp.'The phenomenon where differences between closely related species are more pronounced when the species are in sympatry rather than allopatry.'|) (tptp.concept2words_2 X |tptp.'displacement of character'|) (tptp.concept2words_2 X |tptp.'character displacement'|) (tptp.concept2words_2 X |tptp.'character-displacement'|) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.charge_categorical_constant_1 X) (and (tptp.original_name_2 X |tptp.'Charge-Categorical-Constant'|) (tptp.concept2words_2 X |tptp.'charge categorical constant'|) (tptp.concept2words_2 X |tptp.'charge-categorical-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.charge_value_1 X) (and (tptp.original_name_2 X |tptp.'Charge-Value'|) (tptp.description_2 X |tptp.'Refers to charge of an ion. Specifically, the charge on an ion is equal to a constant charge e multiplied by an integer from 1 to 15.'|) (tptp.concept2words_2 X tptp.charge) (tptp.concept2words_2 X |tptp.'value of charge'|) (tptp.concept2words_2 X |tptp.'charge value'|) (tptp.concept2words_2 X |tptp.'charge-value'|) (tptp.unitless_value_1 X) (not (tptp.ph_value_1 X)) (not (tptp.atomic_number_value_1 X)) (not (tptp.pka_value_1 X)) (not (tptp.pkb_value_1 X)) (not (tptp.atomic_mass_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.charophycean_1 X) (and (tptp.original_name_2 X |tptp.'Charophycean'|) (tptp.user_description_2 X |tptp.'A taxon of green algae, whose relationship to other photosynthetic organisms is unclear.'|) (tptp.concept2words_2 X tptp.charophycean) (tptp.protist_1 X) (not (tptp.alveolate_1 X)) (not (tptp.amoeba_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X))))) (forall ((X $$unsorted)) (=> (tptp.checkpoint_1 X) (and (tptp.original_name_2 X |tptp.'Checkpoint'|) (tptp.user_description_2 X |tptp.'Control mechanism that verifies whether or not the steps at each point of the cell cycle have been completed before the next phase begins.'|) (tptp.concept2words_2 X tptp.checkpoint) (tptp.regulation_of_cell_cycle_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cheese_3 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_produce_1 _let_1))) (let ((_let_4 (tptp.fn_cheese_2 X))) (let ((_let_5 (tptp.fn_cheese_1 X))) (=> (tptp.cheese_1 X) (and (tptp.original_name_2 X |tptp.'Cheese'|) (tptp.user_description_2 X |tptp.'Cheese is a generic term for a diverse group of milk-based food products. Cheese is produced throughout the world in wide-ranging flavors, textures, and forms.'|) (tptp.concept2words_2 X tptp.cheese) (tptp.organic_entity_1 X) (tptp.solid_substance_1 X) (tptp.lactate_1 _let_5) (tptp.milk_1 _let_4) (tptp.produce_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.has_part_2 X _let_5) (tptp.raw_material_2 _let_1 _let_4) (tptp.result_2 _let_1 X) (= _let_4 _let_3) (= X _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.chelicera_1 X) (and (tptp.original_name_2 X |tptp.'Chelicera'|) (tptp.user_description_2 X |tptp.'(plural, chelicerae) The modified first head appendage of the Chelicerata (arachnids, horseshoe crabs, and pycnogonids), used as mouthparts and often claw-shaped.'|) (tptp.concept2words_2 X tptp.mouthparts) (tptp.concept2words_2 X tptp.fang) (tptp.concept2words_2 X tptp.chelicerae) (tptp.concept2words_2 X tptp.chelicera) (tptp.invertebrate_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cheliceriform_1 X) (and (tptp.original_name_2 X |tptp.'Cheliceriform'|) (tptp.user_description_2 X |tptp.'An arthropod that has chelicerae and a body divided into a cephalothorax and an abdomen. Living cheliceriforms include sea spiders, horseshoe crabs, scorpions, ticks, and spiders.'|) (tptp.concept2words_2 X tptp.chelicerate) (tptp.concept2words_2 X tptp.cheliceriform) (tptp.arthropod_1 X) (not (tptp.crustacean_1 X)) (not (tptp.daphnia_1 X)) (not (tptp.diplopode_1 X)) (not (tptp.hexapod_1 X)) (not (tptp.myriapod_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_2 X))) (let ((_let_2 (tptp.fn_chemical_3 X))) (=> (tptp.chemical_1 X) (and (tptp.original_name_2 X |tptp.'Chemical'|) (tptp.user_description_2 X |tptp.'A Chemical is a substance described by chemical properties such as molecular composition and reactivity.'|) (tptp.concept2words_2 X |tptp.'solute-species'|) (tptp.concept2words_2 X |tptp.'species of solute'|) (tptp.concept2words_2 X |tptp.'solute species'|) (tptp.concept2words_2 X |tptp.'solute-specy'|) (tptp.concept2words_2 X tptp.chemical) (tptp.substance_1 X) (tptp.state_value_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.physical_state_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_bond_3 X))) (let ((_let_2 (tptp.fn_hold_1 _let_1))) (let ((_let_3 (tptp.fn_hold_2 _let_1))) (let ((_let_4 (tptp.fn_chemical_bond_4 X))) (let ((_let_5 (tptp.fn_chemical_bond_1 X))) (let ((_let_6 (tptp.fn_chemical_bond_2 X))) (=> (tptp.chemical_bond_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Bond'|) (tptp.user_description_2 X |tptp.'A chemical bond is an attraction between atoms or molecules and allows the formation of chemical compounds, which contain two or more atoms.'|) (tptp.concept2words_2 X tptp.possess) (tptp.concept2words_2 X |tptp.'chemical interaction'|) (tptp.concept2words_2 X |tptp.'chemical-interaction'|) (tptp.concept2words_2 X |tptp.'bond of chemical'|) (tptp.concept2words_2 X |tptp.'chemical bond'|) (tptp.concept2words_2 X |tptp.'chemical-bond'|) (tptp.tangible_entity_1 X) (tptp.chemical_entity_1 _let_5) (tptp.chemical_energy_1 _let_6) (tptp.hold_together_1 _let_1) (tptp.chemical_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.has_function_2 X _let_1) (tptp.is_between_2 X _let_5) (tptp.is_between_2 X _let_4) (tptp.possesses_2 X _let_6) (tptp.object_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_4) (tptp.agent_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_digestion_2 X))) (let ((_let_2 (tptp.fn_chemical_digestion_1 X))) (=> (tptp.chemical_digestion_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Digestion'|) (tptp.user_description_2 X |tptp.'The enzymatic hydrolysis of food molecules into smaller molecules that can be absorbed and utilized by an organism.'|) (tptp.concept2words_2 X |tptp.'digestion of chemical'|) (tptp.concept2words_2 X |tptp.'chemical digestion'|) (tptp.concept2words_2 X |tptp.'chemical-digestion'|) (tptp.digestive_process_1 X) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.system_1 (tptp.fn_chemical_digestion_3 X)) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_digestion_in_mouth_18 X))) (let ((_let_2 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_3 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_4 (tptp.fn_chemical_digestion_in_mouth_13 X))) (let ((_let_5 (tptp.fn_reactant_2 _let_4))) (let ((_let_6 (tptp.fn_chemical_digestion_in_mouth_14 X))) (let ((_let_7 (tptp.fn_hydrolase_1 _let_6))) (let ((_let_8 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_9 (tptp.fn_reactant_3 _let_4))) (let ((_let_10 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_11 (tptp.fn_chemical_digestion_in_mouth_12 X))) (let ((_let_12 (tptp.fn_polymer_4 _let_11))) (let ((_let_13 (tptp.fn_polymer_6 _let_11))) (let ((_let_14 (tptp.fn_hydrolysis_1 _let_1))) (let ((_let_15 (tptp.fn_organic_molecule_2 _let_11))) (let ((_let_16 (tptp.fn_chemical_digestion_in_mouth_10 X))) (let ((_let_17 (tptp.fn_polysaccharide_21 _let_16))) (let ((_let_18 (tptp.fn_chemical_digestion_in_mouth_8 X))) (let ((_let_19 (tptp.fn_polysaccharide_19 _let_16))) (let ((_let_20 (tptp.fn_chemical_digestion_in_mouth_16 X))) (let ((_let_21 (tptp.fn_salivary_gland_3 _let_20))) (let ((_let_22 (tptp.fn_chemical_digestion_in_mouth_15 X))) (let ((_let_23 (tptp.fn_chemical_digestion_in_mouth_9 X))) (let ((_let_24 (tptp.fn_polymer_7 _let_11))) (let ((_let_25 (tptp.fn_chemical_digestion_in_mouth_5 X))) (let ((_let_26 (tptp.fn_polymer_8 _let_11))) (let ((_let_27 (tptp.fn_chemical_digestion_in_mouth_6 X))) (let ((_let_28 (tptp.fn_polymer_9 _let_11))) (let ((_let_29 (tptp.fn_polymer_10 _let_11))) (let ((_let_30 (tptp.fn_chemical_digestion_in_mouth_7 X))) (let ((_let_31 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_32 (tptp.fn_chemical_digestion_in_mouth_11 X))) (let ((_let_33 (tptp.fn_chemical_digestion_in_mouth_17 X))) (let ((_let_34 (tptp.fn_mouth_2 _let_33))) (let ((_let_35 (tptp.fn_saliva_5 _let_22))) (let ((_let_36 (tptp.fn_chemical_digestion_in_mouth_2 X))) (let ((_let_37 (tptp.fn_chemical_digestion_in_mouth_1 X))) (=> (tptp.chemical_digestion_in_mouth_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Digestion-In-Mouth'|) (tptp.user_description_2 X |tptp.'The enzymatic hydrolysis of food molecules into smaller molecules which occurs in the mouth.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X |tptp.'chemical digestion in mouth'|) (tptp.concept2words_2 X |tptp.'chemical-digestion-in-mouth'|) (tptp.chemical_digestion_1 X) (tptp.potential_value_1 _let_37) (tptp.concentration_value_1 _let_36) (tptp.size_value_1 _let_25) (tptp.size_value_1 _let_27) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.size_value_1 _let_18) (tptp.monomer_1 _let_23) (tptp.chemical_entity_1 _let_16) (tptp.polysaccharide_1 _let_16) (tptp.maltose_1 _let_32) (tptp.polysaccharide_1 _let_11) (tptp.reactant_1 _let_4) (tptp.salivary_amylase_1 _let_6) (tptp.hydrolase_1 _let_6) (tptp.saliva_1 _let_22) (tptp.salivary_gland_1 _let_20) (tptp.mouth_1 _let_33) (tptp.chemical_reaction_1 _let_1) (tptp.hydrolysis_1 _let_1) (tptp.decomposition_reaction_1 _let_1) (tptp.exergonic_reaction_1 _let_1) (tptp.salivary_amylase_1 _let_35) (tptp.salivary_gland_1 _let_34) (tptp.chemical_entity_1 _let_31) (tptp.property_node_1 _let_29) (tptp.property_node_1 _let_28) (tptp.size_value_1 _let_26) (tptp.size_value_1 _let_24) (tptp.saliva_1 _let_21) (tptp.property_node_1 _let_19) (tptp.size_value_1 _let_17) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.monomer_1 _let_13) (tptp.monomer_1 _let_12) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.hydrolysis_1 _let_7) (tptp.chemical_reaction_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.by_means_of_2 X _let_1) (tptp.base_2 X _let_33) (tptp.greater_than_2 _let_27 _let_18) (tptp.has_state_2 _let_23 _let_16) (not (= _let_16 _let_11)) (not (= _let_11 _let_16)) (tptp.directly_proportional_2 _let_36 _let_37) (tptp.concentration_2 _let_22 _let_36) (tptp.in_event_2 _let_4 _let_1) (tptp.plays_2 _let_11 _let_4) (tptp.has_part_2 _let_22 _let_6) (tptp.has_function_2 _let_6 _let_1) (tptp.has_part_2 _let_33 _let_20) (tptp.raw_material_2 _let_1 _let_11) (tptp.has_part_2 _let_11 _let_30) (tptp.has_state_2 _let_30 _let_32) (tptp.result_2 _let_1 _let_32) (tptp.size_2 _let_11 _let_27) (tptp.has_part_2 _let_11 _let_23) (tptp.size_2 _let_23 _let_25) (tptp.greater_than_2 _let_27 _let_25) (tptp.size_2 _let_16 _let_18) (tptp.is_inside_2 _let_22 _let_20) (tptp.result_2 _let_1 _let_16) (= _let_6 _let_35) (= _let_1 _let_7) (= _let_20 _let_34) (= _let_32 _let_31) (= _let_30 _let_15) (= _let_30 _let_14) (= _let_1 _let_5) (= _let_11 _let_9) (= _let_11 _let_10) (= _let_11 _let_8) (= (tptp.fn_chemical_digestion_in_mouth_21 X) _let_29) (= (tptp.fn_chemical_digestion_in_mouth_19 X) _let_28) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_13) (= _let_23 _let_12) (= _let_16 _let_3) (= _let_16 _let_2) (= _let_22 _let_21) (= (tptp.fn_chemical_digestion_in_mouth_20 X) _let_19) (= _let_18 _let_17) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_5) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_digestion_in_small_intestine_57 X))) (let ((_let_2 (tptp.fn_hydrolysis_17 _let_1))) (let ((_let_3 (tptp.fn_chemical_digestion_in_small_intestine_58 X))) (let ((_let_4 (tptp.fn_hydrolysis_14 _let_3))) (let ((_let_5 (tptp.fn_exergonic_reaction_3 _let_1))) (let ((_let_6 (tptp.fn_chemical_digestion_in_small_intestine_35 X))) (let ((_let_7 (tptp.fn_hydrolase_1 _let_6))) (let ((_let_8 (tptp.fn_chemical_digestion_in_small_intestine_34 X))) (let ((_let_9 (tptp.fn_reactant_2 _let_8))) (let ((_let_10 (tptp.fn_hydrolysis_10 _let_1))) (let ((_let_11 (tptp.fn_hydrolysis_1 _let_3))) (let ((_let_12 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_13 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_14 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_15 (tptp.fn_chemical_digestion_in_small_intestine_100 X))) (let ((_let_16 (tptp.fn_hydrolase_1 _let_15))) (let ((_let_17 (tptp.fn_chemical_digestion_in_small_intestine_99 X))) (let ((_let_18 (tptp.fn_reactant_2 _let_17))) (let ((_let_19 (tptp.fn_chemical_digestion_in_small_intestine_52 X))) (let ((_let_20 (tptp.fn_hydrolysis_17 _let_19))) (let ((_let_21 (tptp.fn_chemical_digestion_in_small_intestine_53 X))) (let ((_let_22 (tptp.fn_hydrolysis_14 _let_21))) (let ((_let_23 (tptp.fn_exergonic_reaction_3 _let_19))) (let ((_let_24 (tptp.fn_hydrolysis_9 _let_19))) (let ((_let_25 (tptp.fn_exergonic_reaction_11 _let_19))) (let ((_let_26 (tptp.fn_decomposition_reaction_4 _let_19))) (let ((_let_27 (tptp.fn_hydrolysis_9 _let_21))) (let ((_let_28 (tptp.fn_hydrolysis_11 _let_19))) (let ((_let_29 (tptp.fn_exergonic_reaction_10 _let_19))) (let ((_let_30 (tptp.fn_exergonic_reaction_11 _let_21))) (let ((_let_31 (tptp.fn_decomposition_reaction_4 _let_21))) (let ((_let_32 (tptp.fn_reactant_3 _let_17))) (let ((_let_33 (tptp.fn_chemical_digestion_in_small_intestine_92 X))) (let ((_let_34 (tptp.fn_functional_group_1 _let_33))) (let ((_let_35 (tptp.fn_hydrolysis_3 _let_21))) (let ((_let_36 (tptp.fn_hydroxyl_group_6 _let_33))) (let ((_let_37 (tptp.fn_hydrolysis_1 _let_21))) (let ((_let_38 (tptp.fn_hydrolysis_2 _let_21))) (let ((_let_39 (tptp.fn_hydrolysis_11 _let_21))) (let ((_let_40 (tptp.fn_chemical_digestion_in_small_intestine_83 X))) (let ((_let_41 (tptp.fn_nuclease_5 _let_40))) (let ((_let_42 (tptp.fn_hydrolysis_10 _let_21))) (let ((_let_43 (tptp.fn_exergonic_reaction_10 _let_21))) (let ((_let_44 (tptp.fn_hydrolysis_1 _let_19))) (let ((_let_45 (tptp.fn_hydroxyl_group_4 _let_33))) (let ((_let_46 (tptp.fn_chemical_digestion_in_small_intestine_78 X))) (let ((_let_47 (tptp.fn_carboxypeptidase_2 _let_46))) (let ((_let_48 (tptp.fn_protease_17 _let_46))) (let ((_let_49 (tptp.fn_chemical_digestion_in_small_intestine_80 X))) (let ((_let_50 (tptp.fn_protease_17 _let_49))) (let ((_let_51 (tptp.fn_chemical_digestion_in_small_intestine_79 X))) (let ((_let_52 (tptp.fn_protease_17 _let_51))) (let ((_let_53 (tptp.fn_hydrolase_1 _let_49))) (let ((_let_54 (tptp.fn_hydrolase_1 _let_51))) (let ((_let_55 (tptp.fn_chemical_digestion_in_small_intestine_81 X))) (let ((_let_56 (tptp.fn_reactant_2 _let_55))) (let ((_let_57 (tptp.fn_chemical_digestion_in_small_intestine_54 X))) (let ((_let_58 (tptp.fn_hydrolysis_11 _let_57))) (let ((_let_59 (tptp.fn_reactant_3 _let_55))) (let ((_let_60 (tptp.fn_exergonic_reaction_11 _let_57))) (let ((_let_61 (tptp.fn_decomposition_reaction_4 _let_57))) (let ((_let_62 (tptp.fn_chemical_digestion_in_small_intestine_72 X))) (let ((_let_63 (tptp.fn_carboxypeptidase_2 _let_62))) (let ((_let_64 (tptp.fn_protease_17 _let_62))) (let ((_let_65 (tptp.fn_chemical_digestion_in_small_intestine_71 X))) (let ((_let_66 (tptp.fn_reactant_2 _let_65))) (let ((_let_67 (tptp.fn_chemical_digestion_in_small_intestine_55 X))) (let ((_let_68 (tptp.fn_exergonic_reaction_11 _let_67))) (let ((_let_69 (tptp.fn_decomposition_reaction_4 _let_67))) (let ((_let_70 (tptp.fn_hydrolysis_9 _let_67))) (let ((_let_71 (tptp.fn_chemical_digestion_in_small_intestine_56 X))) (let ((_let_72 (tptp.fn_exergonic_reaction_11 _let_71))) (let ((_let_73 (tptp.fn_decomposition_reaction_4 _let_71))) (let ((_let_74 (tptp.fn_chemical_digestion_in_small_intestine_103 X))) (let ((_let_75 (tptp.fn_hydrolase_1 _let_74))) (let ((_let_76 (tptp.fn_chemical_digestion_in_small_intestine_102 X))) (let ((_let_77 (tptp.fn_reactant_2 _let_76))) (let ((_let_78 (tptp.fn_chemical_digestion_in_small_intestine_82 X))) 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_let_21) (tptp.subevent_2 X _let_57) (tptp.subevent_2 X _let_67) (tptp.subevent_2 X _let_71) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_78) (tptp.base_2 X _let_237) (tptp.in_event_2 _let_17 _let_19) (tptp.in_event_2 _let_124 _let_3) (tptp.plays_2 _let_226 _let_124) (tptp.plays_2 _let_90 _let_8) (tptp.in_event_2 _let_55 _let_57) (tptp.in_event_2 _let_65 _let_67) (tptp.in_event_2 _let_108 _let_71) (tptp.plays_2 _let_193 _let_108) (tptp.plays_2 _let_98 _let_65) (tptp.has_region_2 _let_159 _let_33) (tptp.plays_2 _let_159 _let_17) (tptp.in_event_2 _let_8 _let_1) (tptp.raw_material_2 _let_1 _let_236) (tptp.result_2 _let_3 _let_90) (tptp.has_part_2 _let_233 _let_235) (tptp.in_event_2 _let_76 _let_78) (tptp.raw_material_2 _let_78 _let_232) (tptp.plays_2 _let_232 _let_76) (tptp.raw_material_2 _let_3 _let_226) (tptp.has_function_2 _let_51 _let_57) (tptp.has_function_2 _let_49 _let_57) (tptp.has_function_2 _let_46 _let_57) (tptp.plays_2 _let_168 _let_55) (tptp.has_function_2 _let_62 _let_67) (tptp.has_function_2 _let_15 _let_19) (tptp.has_function_2 _let_6 _let_1) (tptp.has_function_2 _let_74 _let_230) (tptp.has_function_2 _let_126 _let_3) (tptp.has_function_2 _let_74 _let_78) (tptp.has_state_2 _let_179 _let_170) (tptp.has_part_2 _let_98 _let_228) (tptp.raw_material_2 _let_1 _let_90) (tptp.has_state_2 _let_174 _let_142) (not (= _let_141 _let_90)) (not (= _let_90 _let_141)) (tptp.result_2 _let_71 _let_98) (not (= _let_98 _let_193)) (not (= _let_193 _let_103)) (tptp.has_part_2 _let_103 _let_208) (not (= _let_193 _let_98)) (not (= _let_103 _let_193)) (tptp.raw_material_2 _let_3 _let_225) (not (= _let_225 _let_226)) (tptp.has_part_2 _let_226 _let_227) (tptp.has_state_2 _let_227 _let_90) (tptp.possesses_2 _let_90 _let_137) (not (= _let_226 _let_225)) (tptp.raw_material_2 _let_57 _let_103) (tptp.possesses_2 _let_103 _let_215) (tptp.has_function_2 _let_40 _let_21) (tptp.in_event_2 _let_224 _let_21) (tptp.plays_2 _let_161 _let_224) (tptp.raw_material_2 _let_71 _let_193) (tptp.possesses_2 _let_193 _let_218) (tptp.quantity_2 _let_218 _let_220) (tptp.greater_than_2 _let_220 _let_211) (tptp.quantity_2 _let_215 _let_212) (not (= _let_205 _let_98)) (not (= _let_98 _let_205)) (tptp.raw_material_2 _let_67 _let_98) (tptp.possesses_2 _let_98 _let_210) (tptp.quantity_2 _let_210 _let_211) (tptp.greater_than_2 _let_211 _let_212) (tptp.raw_material_2 _let_67 _let_205) (tptp.has_part_2 _let_205 _let_207) (tptp.has_state_2 _let_207 _let_208) (tptp.is_inside_2 _let_163 _let_33) (tptp.is_inside_2 _let_158 _let_33) (not (= _let_163 _let_158)) (not (= _let_158 _let_163)) (tptp.has_part_2 _let_193 _let_203) (tptp.size_2 _let_193 _let_199) (tptp.has_part_2 _let_193 _let_195) (tptp.size_2 _let_195 _let_197) (tptp.greater_than_2 _let_199 _let_197) (tptp.size_2 _let_103 _let_190) (tptp.has_part_2 _let_103 _let_186) (tptp.size_2 _let_186 _let_188) (tptp.greater_than_2 _let_190 _let_188) (tptp.size_2 _let_98 _let_183) (tptp.has_part_2 _let_98 _let_179) (tptp.size_2 _let_179 _let_181) (tptp.greater_than_2 _let_183 _let_181) (tptp.has_part_2 _let_90 _let_176) (tptp.is_inside_2 _let_176 _let_178) (tptp.has_part_2 _let_90 _let_174) (tptp.is_inside_2 _let_174 _let_178) (tptp.has_region_2 _let_90 _let_178) (not (= _let_176 _let_174)) (not (= _let_174 _let_176)) (tptp.greater_than_2 _let_136 _let_139) (tptp.quantity_2 _let_144 _let_139) (tptp.possesses_2 _let_142 _let_144) (tptp.result_2 _let_1 _let_142) (tptp.raw_material_2 _let_1 _let_141) (tptp.quantity_2 _let_137 _let_136) (tptp.greater_than_2 _let_152 _let_149) (tptp.quantity_2 _let_156 _let_149) (tptp.possesses_2 _let_154 _let_156) (tptp.result_2 _let_19 _let_154) (tptp.quantity_2 _let_153 _let_152) (tptp.raw_material_2 _let_19 _let_147) (not (= _let_162 _let_161)) (tptp.raw_material_2 _let_21 _let_162) (not (= _let_161 _let_162)) (tptp.has_part_2 _let_161 _let_160) (tptp.has_state_2 _let_160 _let_159) (tptp.result_2 _let_21 _let_159) (tptp.possesses_2 _let_159 _let_153) (tptp.has_part_2 _let_159 _let_158) (not (= _let_159 _let_147)) (not (= _let_147 _let_159)) (tptp.has_state_2 _let_163 _let_154) (tptp.has_part_2 _let_159 _let_163) (tptp.raw_material_2 _let_19 _let_159) (tptp.has_part_2 _let_168 _let_167) (tptp.has_state_2 _let_167 _let_165) (tptp.result_2 _let_57 _let_165) (tptp.result_2 _let_57 _let_169) (tptp.raw_material_2 _let_21 _let_161) (tptp.result_2 _let_67 _let_170) (tptp.result_2 _let_71 _let_171) (tptp.result_2 _let_78 _let_172) (tptp.raw_material_2 _let_78 _let_173) (= _let_19 _let_18) (= _let_226 _let_130) (= _let_90 _let_87) (= _let_159 _let_34) (= _let_159 _let_32) (= _let_236 _let_87) (= _let_1 _let_9) (= _let_90 _let_89) (= _let_90 _let_88) (= _let_235 _let_234) (= _let_232 _let_231) (= _let_78 _let_77) (= _let_57 _let_54) (= _let_57 _let_52) (= _let_57 _let_53) (= _let_57 _let_50) (= _let_57 _let_48) (= _let_57 _let_47) (= _let_168 _let_59) (= _let_67 _let_64) (= _let_67 _let_63) (= _let_19 _let_16) (= _let_1 _let_7) (= _let_230 _let_229) (= _let_3 _let_127) (= _let_78 _let_75) (= _let_228 _let_134) (= _let_228 _let_133) (= _let_141 _let_11) (= _let_208 _let_113) (= _let_103 _let_95) (= _let_193 _let_107) (= _let_98 _let_95) (= _let_90 _let_86) (= _let_137 _let_5) (= _let_137 _let_4) (= _let_90 _let_85) (= _let_227 _let_132) (= _let_227 _let_11) (= _let_226 _let_131) (= _let_3 _let_125) (= _let_225 _let_130) (= _let_225 _let_129) (= _let_225 _let_128) (= _let_57 _let_56) (= _let_103 _let_59) (= _let_103 _let_102) (= _let_103 _let_58) (= _let_161 _let_41) (= _let_224 _let_223) (= _let_21 _let_222) (= (tptp.fn_chemical_digestion_in_small_intestine_13 X) _let_221) (= _let_220 _let_219) (= _let_218 _let_217) (= _let_71 _let_216) (= _let_193 _let_109) (= _let_193 _let_110) (= _let_193 _let_106) (= _let_215 _let_123) (= _let_215 _let_122) (= (tptp.fn_chemical_digestion_in_small_intestine_14 X) _let_214) (= _let_213 _let_121) (= _let_212 _let_119) (= _let_213 _let_120) (= _let_212 _let_118) (= _let_210 _let_115) (= _let_211 _let_117) (= _let_211 _let_116) (= _let_210 _let_114) (= _let_67 _let_66) (= _let_98 _let_96) (= _let_98 _let_97) (= _let_207 _let_209) (= _let_208 _let_112) (= _let_208 _let_111) (= _let_207 _let_206) (= _let_205 _let_204) (= _let_163 _let_45) (= _let_158 _let_36) (= _let_203 _let_202) (= (tptp.fn_chemical_digestion_in_small_intestine_107 X) _let_201) (= (tptp.fn_chemical_digestion_in_small_intestine_59 X) _let_200) (= _let_199 _let_198) (= _let_197 _let_196) (= _let_195 _let_194) (= (tptp.fn_chemical_digestion_in_small_intestine_108 X) _let_192) (= (tptp.fn_chemical_digestion_in_small_intestine_73 X) _let_191) (= _let_190 _let_189) (= _let_188 _let_187) (= _let_186 _let_105) (= _let_186 _let_104) (= (tptp.fn_chemical_digestion_in_small_intestine_109 X) _let_185) (= (tptp.fn_chemical_digestion_in_small_intestine_60 X) _let_184) (= _let_183 _let_182) (= _let_181 _let_180) (= _let_179 _let_101) (= _let_98 _let_94) (= _let_179 _let_100) (= _let_179 _let_99) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_90 _let_84) (= _let_174 _let_93) (= _let_174 _let_92) (= _let_174 _let_91) (= _let_173 _let_83) (= _let_173 _let_82) (= _let_172 _let_81) (= _let_172 _let_80) (= _let_172 _let_79) (= _let_171 _let_73) (= _let_171 _let_72) (= _let_170 _let_70) (= _let_170 _let_69) (= _let_170 _let_68) (= _let_169 _let_61) (= _let_169 _let_60) (= _let_168 _let_58) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_163 _let_44) (= _let_159 _let_28) (= _let_162 _let_43) (= _let_162 _let_42) (= _let_160 _let_38) (= _let_161 _let_39) (= _let_160 _let_37) (= _let_159 _let_31) (= _let_159 _let_30) (= _let_159 _let_29) (= _let_153 _let_23) (= _let_153 _let_22) (= _let_159 _let_27) (= _let_158 _let_35) (= (tptp.fn_chemical_digestion_in_small_intestine_11 X) _let_157) (= _let_156 _let_155) (= _let_154 _let_26) (= _let_154 _let_25) (= _let_154 _let_24) (= _let_153 _let_20) (= _let_152 _let_151) (= (tptp.fn_chemical_digestion_in_small_intestine_12 X) _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= (tptp.fn_chemical_digestion_in_small_intestine_17 X) _let_145) (= _let_144 _let_143) (= _let_142 _let_14) (= _let_142 _let_13) (= _let_142 _let_12) (= _let_141 _let_10) (= (tptp.fn_chemical_digestion_in_small_intestine_16 X) _let_140) (= _let_139 _let_138) (= _let_137 _let_2) (= _let_136 _let_135) (= _let_134 _let_133) (= _let_133 _let_11) (= _let_11 _let_132) (= _let_132 _let_11) (= _let_11 _let_130) (= _let_130 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_129) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_128 _let_125) (= _let_125 _let_127) (= _let_127 _let_125) (= _let_125 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_117) (= _let_116 _let_116) (= _let_116 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_111 _let_109) (= _let_109 _let_109) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_107 _let_109) (= _let_109 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_104) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_59) (= _let_59 _let_102) (= _let_95 _let_102) (= _let_102 _let_95) (= _let_95 _let_58) (= _let_58 _let_58) (= _let_58 _let_100) (= _let_100 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_96) (= _let_96 _let_96) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_96) (= _let_96 _let_94) (= _let_94 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_92 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_89) (= _let_89 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_84 _let_86) (= _let_86 _let_84) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_77) (= _let_77 _let_75) (= _let_75 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_64 _let_66) (= _let_66 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_56) (= _let_54 _let_53) (= _let_53 _let_56) (= _let_56 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_50) (= _let_48 _let_52) (= _let_52 _let_50) (= _let_50 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_digestion_in_stomach_5 X))) (let ((_let_2 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_4 (tptp.fn_hydrolysis_10 _let_1))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_6 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_7 (tptp.fn_chemical_digestion_in_stomach_4 X))) (let ((_let_8 (tptp.fn_protein_denaturation_by_ph_change_8 _let_7))) (let ((_let_9 (tptp.fn_chemical_digestion_in_stomach_12 X))) (let ((_let_10 (tptp.fn_reactant_3 _let_9))) (let ((_let_11 (tptp.fn_chemical_digestion_in_stomach_10 X))) (let ((_let_12 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_13 (tptp.fn_chemical_digestion_in_stomach_11 X))) (let ((_let_14 (tptp.fn_hydrolysis_14 _let_1))) (let ((_let_15 (tptp.fn_chemical_digestion_in_stomach_9 X))) (let ((_let_16 (tptp.fn_hydrolysis_15 _let_1))) (let ((_let_17 (tptp.fn_chemical_digestion_in_stomach_8 X))) (let ((_let_18 (tptp.fn_hydrolysis_16 _let_1))) (let ((_let_19 (tptp.fn_chemical_digestion_in_stomach_7 X))) (let ((_let_20 (tptp.fn_hydrolysis_17 _let_1))) (let ((_let_21 (tptp.fn_chemical_digestion_in_stomach_15 X))) (let ((_let_22 (tptp.fn_chemical_digestion_in_stomach_14 X))) (let ((_let_23 (tptp.fn_hydrolysis_19 _let_1))) (let ((_let_24 (tptp.fn_hydrolysis_18 _let_1))) (let ((_let_25 (tptp.fn_chemical_digestion_in_stomach_6 X))) (let ((_let_26 (tptp.fn_reactant_2 _let_9))) (let ((_let_27 (tptp.fn_hydrolysis_1 _let_1))) (let ((_let_28 (tptp.fn_chemical_digestion_in_stomach_13 X))) (let ((_let_29 (tptp.fn_chemical_digestion_in_stomach_1 X))) (let ((_let_30 (tptp.fn_chemical_digestion_in_stomach_2 X))) (=> (tptp.chemical_digestion_in_stomach_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Digestion-In-Stomach'|) (tptp.user_description_2 X |tptp.'The enzymatic hydrolysis of food molecules into smaller molecules which occurs in the stomach.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X |tptp.'chemical digestion in stomach'|) (tptp.concept2words_2 X |tptp.'chemical-digestion-in-stomach'|) (tptp.chemical_digestion_1 X) (tptp.stomach_1 _let_29) (tptp.ph_value_1 _let_30) (tptp.protein_denaturation_by_ph_change_1 _let_7) (tptp.chemical_reaction_1 _let_1) (tptp.exergonic_reaction_1 _let_1) (tptp.hydrolysis_1 _let_1) (tptp.decomposition_reaction_1 _let_1) (tptp.denatured_protein_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.quantity_value_1 _let_19) (tptp.quantity_value_1 _let_17) (tptp.chemical_energy_1 _let_15) (tptp.molecule_1 _let_11) (tptp.polypeptide_1 _let_13) (tptp.reactant_1 _let_9) (tptp.atom_1 _let_28) (tptp.chemical_entity_1 _let_22) (tptp.water_molecule_1 _let_22) (tptp.chemical_energy_1 _let_21) (tptp.chemical_entity_1 _let_27) (tptp.chemical_reaction_1 _let_26) (tptp.property_node_1 _let_24) (tptp.property_node_1 _let_23) (tptp.chemical_energy_1 _let_20) (tptp.quantity_value_1 _let_18) (tptp.quantity_value_1 _let_16) (tptp.chemical_energy_1 _let_14) (tptp.chemical_entity_1 _let_12) (tptp.chemical_entity_1 _let_10) (tptp.denatured_protein_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.water_molecule_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.the_cardinal_value_2 _let_30 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_30 tptp.unity_0) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_1) (tptp.base_2 X _let_29) (tptp.in_event_2 _let_9 _let_1) (tptp.plays_2 _let_25 _let_9) (tptp.result_2 _let_7 _let_25) (tptp.possesses_2 _let_25 _let_21) (tptp.raw_material_2 _let_1 _let_25) (tptp.has_part_2 _let_25 _let_28) (tptp.has_state_2 _let_28 _let_13) (not (= _let_22 _let_25)) (not (= _let_25 _let_22)) (tptp.raw_material_2 _let_1 _let_22) (tptp.result_2 _let_1 _let_13) (tptp.possesses_2 _let_13 _let_15) (tptp.quantity_2 _let_15 _let_17) (tptp.greater_than_2 _let_19 _let_17) (tptp.quantity_2 _let_21 _let_19) (tptp.result_2 _let_1 _let_11) (= _let_25 _let_8) (= _let_28 _let_27) (= _let_1 _let_26) (= _let_25 _let_10) (= _let_25 _let_6) (= (tptp.fn_chemical_digestion_in_stomach_16 X) _let_24) (= (tptp.fn_chemical_digestion_in_stomach_17 X) _let_23) (= _let_22 _let_5) (= _let_22 _let_4) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_3) (= _let_11 _let_2) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemical_dissociation_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Dissociation-Reaction'|) (tptp.user_description_2 X |tptp.'The process by which ionic compounds separate into their component ions.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'chemical dissociation reaction'|) (tptp.concept2words_2 X |tptp.'chemical-dissociation-reaction'|) (tptp.exergonic_reaction_1 X) (not (tptp.chemical_equilibrium_reaction_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chemical_ecology_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Ecology'|) (tptp.user_description_2 X |tptp.'The study of the chemicals involved in biological interactions.'|) (tptp.concept2words_2 X |tptp.'ecology of chemical'|) (tptp.concept2words_2 X |tptp.'chemical ecology'|) (tptp.concept2words_2 X |tptp.'chemical-ecology'|) (tptp.ecology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_element_11 X))) (let ((_let_2 (tptp.fn_atom_17 _let_1))) (let ((_let_3 (tptp.fn_chemical_element_5 X))) (let ((_let_4 (tptp.fn_atom_11 _let_1))) (let ((_let_5 (tptp.fn_chemical_element_7 X))) (let ((_let_6 (tptp.fn_atom_5 _let_1))) (let ((_let_7 (tptp.fn_chemical_element_6 X))) (let ((_let_8 (tptp.fn_atom_10 _let_1))) (let ((_let_9 (tptp.fn_atom_12 _let_1))) (let ((_let_10 (tptp.fn_chemical_element_12 X))) (let ((_let_11 (tptp.fn_atom_17 _let_10))) (let ((_let_12 (tptp.fn_chemical_element_10 X))) (let ((_let_13 (tptp.fn_atom_11 _let_10))) (let ((_let_14 (tptp.fn_chemical_element_8 X))) (let ((_let_15 (tptp.fn_atom_5 _let_10))) (let ((_let_16 (tptp.fn_chemical_element_9 X))) (let ((_let_17 (tptp.fn_atom_10 _let_10))) (let ((_let_18 (tptp.fn_atom_12 _let_10))) (=> (tptp.chemical_element_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Element'|) (tptp.user_description_2 X |tptp.'A pure chemical substance consisting of one type of atom distinguished by its atomic number.'|) (tptp.concept2words_2 X tptp.element) (tptp.concept2words_2 X |tptp.'element of chemical'|) (tptp.concept2words_2 X |tptp.'chemical element'|) (tptp.concept2words_2 X |tptp.'chemical-element'|) (tptp.chemical_entity_1 X) (tptp.atomic_number_value_1 _let_3) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_5) (tptp.quantity_value_1 _let_14) (tptp.quantity_value_1 _let_16) (tptp.atomic_number_value_1 _let_12) (tptp.atom_1 _let_1) (tptp.atom_1 _let_10) (tptp.property_node_1 _let_18) (tptp.property_node_1 _let_17) (tptp.quantity_value_1 _let_15) (tptp.quantity_value_1 _let_13) (tptp.atomic_number_value_1 _let_11) (tptp.property_node_1 _let_9) (tptp.property_node_1 _let_8) (tptp.quantity_value_1 _let_6) (tptp.quantity_value_1 _let_4) (tptp.atomic_number_value_1 _let_2) (= _let_3 _let_12) (= _let_5 _let_14) (= _let_14 _let_5) (= _let_12 _let_3) (tptp.same_type_2 _let_1 _let_10) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_1) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.atom_0) (tptp.same_type_2 _let_10 _let_1) (tptp.called_2 _let_14 |tptp.'Number_Proton'|) (tptp.called_2 _let_16 |tptp.'Number_Electron'|) (tptp.called_2 _let_12 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 _let_10 _let_12) (= _let_14 _let_12) (= _let_16 _let_14) (= _let_14 _let_16) (= _let_12 _let_14) (tptp.called_2 _let_3 |tptp.'Atomic_Number'|) (tptp.called_2 _let_7 |tptp.'Number_Electron'|) (tptp.called_2 _let_5 |tptp.'Number_Proton'|) (tptp.atomic_number_2 _let_1 _let_3) (= _let_5 _let_3) (= _let_7 _let_5) (= _let_5 _let_7) (= _let_3 _let_5) (= (tptp.fn_chemical_element_4 X) _let_18) (= (tptp.fn_chemical_element_3 X) _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= (tptp.fn_chemical_element_2 X) _let_9) (= (tptp.fn_chemical_element_1 X) _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemical_energy_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Energy'|) (tptp.description_2 X |tptp.'Energy produced by or stored in chemical properties or property differentials, such as chemical bonds, such as charge gradients, density gradients, etc.'|) (tptp.user_description_2 X |tptp.'Chemical energy is the potential of a chemical substance to undergo a transformation through a chemical reaction or to transform other chemical substances.'|) (tptp.concept2words_2 X |tptp.'chemical energy'|) (tptp.concept2words_2 X tptp.chemical_energy) (tptp.concept2words_2 X |tptp.'energy of chemical'|) (tptp.concept2words_2 X |tptp.'chemical-energy'|) (tptp.potential_energy_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_entity_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Entity'|) (tptp.user_description_2 X |tptp.'A physical object that is the basic building blocks of Chemicals.'|) (tptp.concept2words_2 X tptp.chemical) (tptp.concept2words_2 X |tptp.'reduced form'|) (tptp.concept2words_2 X |tptp.'has reduced form'|) (tptp.concept2words_2 X |tptp.'has-reduced-form'|) (tptp.concept2words_2 X |tptp.'oxidized form'|) (tptp.concept2words_2 X |tptp.'has oxidized form'|) (tptp.concept2words_2 X |tptp.'has-oxidized-form'|) (tptp.concept2words_2 X |tptp.'has isomer'|) (tptp.concept2words_2 X |tptp.'has-isomer'|) (tptp.concept2words_2 X tptp.substance) (tptp.concept2words_2 X |tptp.'entity of chemical'|) (tptp.concept2words_2 X |tptp.'chemical entity'|) (tptp.concept2words_2 X |tptp.'chemical-entity'|) (tptp.physical_object_1 X) (not (tptp.substance_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chemical_equation_expression_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Equation-Expression'|) (tptp.user_description_2 X |tptp.'When a chemical reaction occurs, it can be described by an equation. This shows the chemicals that react (called the reactants) on the left-hand side, and the chemicals that they produce (called the products) on the right-hand side.'|) (tptp.concept2words_2 X |tptp.'chemical equation'|) (tptp.concept2words_2 X |tptp.'balanced equation'|) (tptp.concept2words_2 X |tptp.'chemical equation expression'|) (tptp.concept2words_2 X |tptp.'chemical-equation-expression'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_equilibrium_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Equilibrium'|) (tptp.user_description_2 X |tptp.'The state in a chemical reaction in which the forward and reverse reactions occur at the same rate. There are no net changes in concentrations of reactants or products.'|) (tptp.concept2words_2 X |tptp.'equilibrium of chemical'|) (tptp.concept2words_2 X |tptp.'chemical equilibrium'|) (tptp.concept2words_2 X |tptp.'chemical-equilibrium'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_reversible_reaction_5 X))) (let ((_let_2 (tptp.fn_chemical_equilibrium_reaction_9 X))) (let ((_let_3 (tptp.fn_forward_reaction_6 _let_2))) (let ((_let_4 (tptp.fn_chemical_reaction_2 X))) (let ((_let_5 (tptp.fn_forward_reaction_5 _let_2))) (let ((_let_6 (tptp.fn_chemical_equilibrium_reaction_10 X))) (let ((_let_7 (tptp.fn_reverse_reaction_5 _let_6))) (let ((_let_8 (tptp.fn_reverse_reaction_6 _let_6))) (let ((_let_9 (tptp.fn_chemical_reaction_1 X))) (let ((_let_10 (tptp.fn_reverse_reaction_7 _let_6))) (let ((_let_11 (tptp.fn_chemical_reaction_1 _let_2))) (let ((_let_12 (tptp.fn_chemical_equilibrium_reaction_5 X))) (let ((_let_13 (tptp.fn_chemical_equilibrium_reaction_11 X))) (let ((_let_14 (tptp.fn_chemical_equilibrium_reaction_12 X))) (let ((_let_15 (tptp.fn_chemical_equilibrium_reaction_6 X))) (let ((_let_16 (tptp.fn_chemical_equilibrium_reaction_4 X))) (=> (tptp.chemical_equilibrium_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Equilibrium-Reaction'|) (tptp.user_description_2 X |tptp.'Chemical equilibrium occurs when opposing reactions are proceeding at equal rates.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'chemical equilibrium reaction'|) (tptp.concept2words_2 X |tptp.'chemical-equilibrium-reaction'|) (tptp.reversible_reaction_1 X) (not (tptp.chemical_dissociation_reaction_1 X)) (tptp.concentration_value_1 (tptp.fn_chemical_equilibrium_reaction_2 X)) (tptp.chemical_entity_1 _let_16) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.chemical_reaction_1 _let_2) (tptp.forward_reaction_1 _let_2) (tptp.reverse_reaction_1 _let_6) (tptp.rate_value_1 _let_13) (tptp.rate_value_1 _let_14) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (= _let_14 _let_13) (= _let_13 _let_14) (tptp.result_2 _let_2 _let_16) (tptp.result_2 _let_6 _let_15) (tptp.raw_material_2 _let_6 _let_16) (tptp.raw_material_2 X _let_12) (tptp.result_2 X _let_16) (tptp.raw_material_2 _let_2 _let_15) (tptp.same_type_2 _let_12 _let_15) (tptp.same_type_2 _let_15 _let_12) (tptp.raw_material_2 X _let_15) (tptp.subevent_2 X _let_6) (tptp.rate_2 _let_2 _let_14) (tptp.subevent_2 X _let_2) (tptp.raw_material_2 _let_2 _let_12) (tptp.result_2 _let_6 _let_12) (tptp.rate_2 _let_6 _let_13) (= _let_16 _let_11) (= _let_15 _let_8) (= _let_15 _let_7) (= _let_16 _let_10) (= _let_12 _let_4) (= _let_16 _let_9) (= _let_15 _let_5) (= _let_15 _let_1) (= (tptp.fn_chemical_equilibrium_reaction_8 X) (tptp.fn_reversible_reaction_1 X)) (= _let_14 (tptp.fn_reversible_reaction_4 X)) (= (tptp.fn_chemical_equilibrium_reaction_7 X) (tptp.fn_reversible_reaction_2 X)) (= _let_13 (tptp.fn_reversible_reaction_3 X)) (= _let_6 (tptp.fn_reversible_reaction_6 X)) (= _let_12 _let_3) (= _let_12 _let_1) (= _let_2 (tptp.fn_reversible_reaction_7 X)) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_1) (= _let_1 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_1 _let_3) (= _let_3 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemical_formula_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Formula'|) (tptp.concept2words_2 X tptp.formula) (tptp.concept2words_2 X |tptp.'formula of chemical'|) (tptp.concept2words_2 X |tptp.'chemical formula'|) (tptp.concept2words_2 X |tptp.'chemical-formula'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_marker_1 X))) (let ((_let_2 (tptp.fn_chemical_marker_2 X))) (=> (tptp.chemical_marker_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Marker'|) (tptp.user_description_2 X |tptp.'Chemical tag used to label a chemical entity.'|) (tptp.concept2words_2 X |tptp.'marker of chemical'|) (tptp.concept2words_2 X |tptp.'chemical marker'|) (tptp.concept2words_2 X |tptp.'chemical-marker'|) (tptp.role_1 X) (tptp.mark_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.plays_2 _let_2 X) (tptp.in_event_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.chemical_messenger_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Messenger'|) (tptp.user_description_2 X |tptp.'A chemical that is used in signaling between cells. This chemical binds to cells, relaying a signal message.'|) (tptp.concept2words_2 X |tptp.'molecular messenger'|) (tptp.concept2words_2 X |tptp.'chemical signal'|) (tptp.concept2words_2 X |tptp.'signal molecule'|) (tptp.concept2words_2 X |tptp.'signal messenger'|) (tptp.concept2words_2 X |tptp.'messenger of chemical'|) (tptp.concept2words_2 X |tptp.'chemical messenger'|) (tptp.concept2words_2 X |tptp.'chemical-messenger'|) (tptp.signal_1 X) (tptp.messenger_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_polarity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Polarity-Constant'|) (tptp.concept2words_2 X |tptp.'chemical polarity constant'|) (tptp.concept2words_2 X |tptp.'chemical-polarity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_polarity_value_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Polarity-Value'|) (tptp.concept2words_2 X tptp.polarity) (tptp.concept2words_2 X tptp.sign) (tptp.concept2words_2 X |tptp.'polarity of chemical'|) (tptp.concept2words_2 X |tptp.'chemical polarity'|) (tptp.concept2words_2 X |tptp.'chemical-polarity'|) (tptp.concept2words_2 X |tptp.'chemical polarity value'|) (tptp.concept2words_2 X |tptp.'chemical-polarity-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_reaction_1 X))) (let ((_let_2 (tptp.fn_chemical_reaction_2 X))) (=> (tptp.chemical_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Reaction'|) (tptp.user_description_2 X |tptp.'A chemical reaction is a process in which one or more chemical entities are converted into others. This differs from reaction in that energy can be used as a raw material or result.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of chemical'|) (tptp.concept2words_2 X |tptp.'chemical reaction'|) (tptp.concept2words_2 X |tptp.'chemical-reaction'|) (tptp.action_1 X) (tptp.chemical_entity_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_redox_reaction_12 X))) (let ((_let_2 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_4 (tptp.fn_chemical_reaction_between_methane_and_oxygen_7 X))) (let ((_let_5 (tptp.fn_create_1 _let_4))) (let ((_let_6 (tptp.fn_chemical_reaction_between_methane_and_oxygen_12 X))) (let ((_let_7 (tptp.fn_chemical_reaction_between_methane_and_oxygen_10 X))) (let ((_let_8 (tptp.fn_chemical_reaction_between_methane_and_oxygen_8 X))) (let ((_let_9 (tptp.fn_chemical_reaction_between_methane_and_oxygen_11 X))) (let ((_let_10 (tptp.fn_chemical_reaction_between_methane_and_oxygen_6 X))) (let ((_let_11 (tptp.fn_create_1 _let_10))) (let ((_let_12 (tptp.fn_chemical_reaction_between_methane_and_oxygen_5 X))) (let ((_let_13 (tptp.fn_chemical_reaction_between_methane_and_oxygen_9 X))) (let ((_let_14 (tptp.fn_chemical_reaction_between_methane_and_oxygen_1 X))) (let ((_let_15 (tptp.fn_chemical_reaction_between_methane_and_oxygen_2 X))) (let ((_let_16 (tptp.fn_chemical_reaction_between_methane_and_oxygen_3 X))) (let ((_let_17 (tptp.fn_chemical_reaction_between_methane_and_oxygen_4 X))) (=> (tptp.chemical_reaction_between_methane_and_oxygen_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Reaction-Between-Methane-And-Oxygen'|) (tptp.user_description_2 X |tptp.'A type of combustion reaction which produces carbon dioxide and water.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'chemical reaction between methane and oxygen'|) (tptp.concept2words_2 X |tptp.'chemical-reaction-between-methane-and-oxygen'|) (tptp.combustion_reaction_1 X) (tptp.water_molecule_1 _let_14) (tptp.lose_1 _let_15) (tptp.move_1 _let_16) (tptp.release_1 _let_17) (tptp.covalent_bond_1 _let_12) (tptp.produce_1 _let_10) (tptp.produce_1 _let_4) (tptp.reduction_1 _let_8) (tptp.carbon_dioxide_1 _let_13) (tptp.methane_1 _let_7) (tptp.oxidation_1 _let_9) (tptp.oxygen_molecule_1 _let_6) (tptp.entity_1 _let_11) (tptp.entity_1 _let_5) (tptp.next_event_2 _let_15 _let_17) (tptp.next_event_2 _let_16 _let_15) (tptp.causes_2 _let_16 _let_17) (tptp.causes_2 _let_16 _let_15) (tptp.next_event_2 _let_8 _let_4) (tptp.subevent_2 _let_4 _let_10) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_15) (tptp.result_2 X _let_14) (tptp.result_2 _let_4 _let_13) (tptp.result_2 X _let_13) (tptp.result_2 _let_10 _let_12) (tptp.raw_material_2 X _let_7) (tptp.donor_2 _let_9 _let_7) (tptp.recipient_2 _let_8 _let_6) (tptp.recipient_2 _let_9 _let_6) (tptp.raw_material_2 X _let_6) (not (= _let_6 _let_7)) (tptp.donor_2 _let_8 _let_7) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_9) (not (= _let_7 _let_6)) (= _let_13 _let_5) (= _let_13 _let_3) (= _let_12 _let_11) (= _let_7 _let_2) (= _let_9 (tptp.fn_redox_reaction_11 X)) (= _let_8 (tptp.fn_redox_reaction_10 X)) (= _let_7 _let_1) (= _let_6 (tptp.fn_redox_reaction_16 X)) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemical_representation_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Representation'|) (tptp.user_description_2 X |tptp.'A method of representing chemical data.'|) (tptp.concept2words_2 X |tptp.'representation of chemical'|) (tptp.concept2words_2 X |tptp.'chemical representation'|) (tptp.concept2words_2 X |tptp.'chemical-representation'|) (tptp.representation_of_data_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_signaling_7 X))) (let ((_let_2 (tptp.fn_chemical_signaling_8 X))) (let ((_let_3 (tptp.fn_chemical_signaling_6 X))) (let ((_let_4 (tptp.fn_chemical_signaling_5 X))) (let ((_let_5 (tptp.fn_chemical_signaling_4 X))) (let ((_let_6 (tptp.fn_chemical_signaling_3 X))) (let ((_let_7 (tptp.fn_chemical_signaling_2 X))) (let ((_let_8 (tptp.fn_chemical_signaling_1 X))) (=> (tptp.chemical_signaling_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Signaling'|) (tptp.user_description_2 X |tptp.'The process of transmitting a message from one cell to another. The three stages are reception, transduction, and response.'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'signaling of chemical'|) (tptp.concept2words_2 X |tptp.'chemical signaling'|) (tptp.concept2words_2 X |tptp.'chemical-signaling'|) (tptp.cell_signaling_1 X) (tptp.time_interval_1 _let_8) (tptp.time_interval_1 _let_7) (tptp.time_interval_1 _let_6) (tptp.time_interval_1 _let_5) (tptp.time_interval_1 _let_4) (tptp.cellular_response_1 _let_3) (tptp.signal_reception_1 _let_1) (tptp.signal_transduction_1 _let_2) (tptp.time_during_2 _let_2 _let_5) (tptp.time_during_2 _let_1 _let_6) (tptp.time_during_2 _let_3 _let_4) (tptp.time_before_2 _let_8 _let_7) (tptp.time_before_2 _let_7 _let_6) (tptp.time_before_2 _let_6 _let_5) (tptp.time_before_2 _let_5 _let_4) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_2) (tptp.next_event_2 _let_2 _let_3) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_2) (= _let_3 (tptp.fn_cell_signaling_1 X)) (= _let_2 (tptp.fn_cell_signaling_3 X)) (= _let_1 (tptp.fn_cell_signaling_2 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemical_stability_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Stability'|) (tptp.user_description_2 X |tptp.'A state in which chemicals are resistant to change.'|) (tptp.concept2words_2 X |tptp.'stability of chemical'|) (tptp.concept2words_2 X |tptp.'chemical stability'|) (tptp.concept2words_2 X |tptp.'chemical-stability'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_stability_constant_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Stability-Constant'|) (tptp.concept2words_2 X |tptp.'chemical stability constant'|) (tptp.concept2words_2 X |tptp.'chemical-stability-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_stability_value_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Stability-Value'|) (tptp.concept2words_2 X tptp.stability) (tptp.concept2words_2 X |tptp.'stability of chemical'|) (tptp.concept2words_2 X |tptp.'chemical stability'|) (tptp.concept2words_2 X |tptp.'chemical-stability'|) (tptp.concept2words_2 X |tptp.'chemical stability value'|) (tptp.concept2words_2 X |tptp.'chemical-stability-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chemical_work_1 X) (and (tptp.original_name_2 X |tptp.'Chemical-Work'|) (tptp.user_description_2 X |tptp.'Work done by change in the internal energy of a body by alterations of the composition.'|) (tptp.concept2words_2 X |tptp.'perform chemical work'|) (tptp.concept2words_2 X |tptp.'work of chemical'|) (tptp.concept2words_2 X |tptp.'chemical work'|) (tptp.concept2words_2 X |tptp.'chemical-work'|) (tptp.cellular_work_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemiosmosis_13 X))) (let ((_let_2 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_3 (tptp.fn_chemiosmosis_119 X))) (let ((_let_4 (tptp.fn_facilitated_diffusion_49 _let_3))) (let ((_let_5 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_6 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_7 (tptp.fn_transport_protein_12 _let_1))) (let ((_let_8 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_9 (tptp.fn_transport_protein_10 _let_1))) (let ((_let_10 (tptp.fn_facilitated_diffusion_55 _let_3))) (let ((_let_11 (tptp.fn_passive_transport_24 _let_3))) (let ((_let_12 (tptp.fn_chemiosmosis_30 X))) (let ((_let_13 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_5 _let_12))) (let ((_let_14 (tptp.fn_chemiosmosis_65 X))) (let ((_let_15 (tptp.fn_atp_synthase_13 _let_14))) (let ((_let_16 (tptp.fn_protein_complex_1 _let_14))) (let ((_let_17 (tptp.fn_atp_synthase_34 _let_14))) (let ((_let_18 (tptp.fn_energy_coupling_4 X))) (let ((_let_19 (tptp.fn_atp_synthase_38 _let_14))) (let ((_let_20 (tptp.fn_chemiosmosis_118 X))) (let ((_let_21 (tptp.fn_synthesis_of_atp_10 _let_20))) (let ((_let_22 (tptp.fn_anabolic_pathway_6 _let_20))) (let ((_let_23 (tptp.fn_atp_synthase_25 _let_14))) (let ((_let_24 (tptp.fn_synthesis_of_atp_23 _let_20))) (let ((_let_25 (tptp.fn_anabolic_pathway_4 _let_20))) (let ((_let_26 (tptp.fn_atp_synthase_24 _let_14))) (let ((_let_27 (tptp.fn_synthesis_of_atp_22 _let_20))) (let ((_let_28 (tptp.fn_atp_synthase_23 _let_14))) (let ((_let_29 (tptp.fn_synthesis_of_atp_9 _let_20))) (let ((_let_30 (tptp.fn_atp_synthase_21 _let_14))) (let ((_let_31 (tptp.fn_synthesis_of_atp_13 _let_20))) (let ((_let_32 (tptp.fn_synthesis_of_organic_molecule_1 _let_20))) (let ((_let_33 (tptp.fn_chemiosmosis_41 X))) (let ((_let_34 (tptp.fn_functional_group_1 _let_33))) (let ((_let_35 (tptp.fn_atp_synthase_19 _let_14))) (let ((_let_36 (tptp.fn_anabolic_pathway_2 _let_20))) (let ((_let_37 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_6 _let_12))) (let ((_let_38 (tptp.fn_facilitated_diffusion_of_ion_29 _let_3))) (let ((_let_39 (tptp.fn_chemiosmosis_123 X))) (let ((_let_40 (tptp.fn_hypertonic_solution_7 _let_39))) (let ((_let_41 (tptp.fn_aqueous_solution_14 _let_39))) 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_let_171) (tptp.hold_1 _let_78) (tptp.move_1 _let_134) (tptp.move_through_1 _let_134) (tptp.decrease_1 _let_189) (tptp.aqueous_solution_1 _let_162) (tptp.hypotonic_solution_1 _let_162) (tptp.increase_1 _let_265) (tptp.concentration_value_1 _let_258) (tptp.ph_value_1 _let_267) (tptp.entity_1 _let_76) (tptp.protein_complex_1 _let_76) (tptp.atp_synthase_1 _let_76) (tptp.spatial_entity_1 _let_131) (tptp.biomembrane_1 _let_131) (tptp.gradient_1 _let_99) (tptp.electrochemical_gradient_1 _let_99) (tptp.hydrogen_ion_gradient_1 _let_99) (tptp.endergonic_process_1 _let_20) (tptp.chemical_reaction_1 _let_20) (tptp.synthesis_of_organic_molecule_1 _let_20) (tptp.anabolic_pathway_1 _let_20) (tptp.synthesis_of_atp_1 _let_20) (tptp.exergonic_process_1 _let_3) (tptp.facilitated_diffusion_of_ion_1 _let_3) (tptp.spontaneous_change_1 _let_3) (tptp.passive_transport_1 _let_3) (tptp.facilitated_diffusion_1 _let_3) (tptp.free_energy_1 _let_181) (tptp.proton_motive_force_1 _let_261) (tptp.spatial_entity_1 _let_161) (tptp.tangible_entity_1 _let_161) (tptp.chemical_1 _let_161) (tptp.aqueous_solution_1 _let_39) (tptp.hypertonic_solution_1 _let_39) (tptp.property_node_1 _let_268) (tptp.property_value_1 _let_266) (tptp.property_node_1 _let_264) (tptp.hydrophilic_channel_1 _let_262) (tptp.property_node_1 _let_260) (tptp.property_node_1 _let_259) (tptp.property_value_1 _let_257) (tptp.property_value_1 _let_255) (tptp.hydrogen_ion_gradient_1 _let_254) (tptp.atp_synthase_1 _let_252) (tptp.polypeptide_1 _let_250) (tptp.surface_1 _let_248) (tptp.hydrophilic_region_1 _let_246) (tptp.surface_1 _let_244) (tptp.polypeptide_1 _let_242) (tptp.spatial_entity_1 _let_240) (tptp.chemical_entity_1 _let_240) (tptp.monomer_1 _let_240) (tptp.molecule_1 _let_240) (tptp.amino_acid_1 _let_240) (tptp.protein_domain_1 _let_238) (tptp.property_node_1 _let_237) (tptp.constant_motion_1 _let_235) (tptp.property_node_1 _let_234) (tptp.speed_value_1 _let_232) (tptp.quantity_value_1 _let_230) (tptp.kinetic_energy_1 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(tptp.structural_complexity_value_1 _let_25) (tptp.structural_complexity_value_1 _let_24) (tptp.structural_complexity_value_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.organic_molecule_1 _let_21) (tptp.adp_1 _let_19) (tptp.chemical_reaction_1 _let_17) (tptp.synthesis_of_organic_molecule_1 _let_17) (tptp.anabolic_pathway_1 _let_17) (tptp.synthesis_of_atp_1 _let_17) (tptp.protein_1 _let_16) (tptp.rotor_1 _let_15) (tptp.move_1 _let_13) (tptp.move_through_1 _let_13) (tptp.move_through_1 _let_11) (tptp.move_through_1 _let_10) (tptp.move_through_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.biomembrane_1 _let_6) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (tptp.enables_2 _let_276 _let_20) (tptp.base_2 _let_278 _let_14) (tptp.causes_2 _let_277 _let_278) (tptp.base_2 _let_277 _let_14) (tptp.causes_2 _let_82 _let_74) (tptp.next_event_2 _let_82 _let_74) (tptp.base_2 _let_82 _let_76) (not (= _let_82 _let_89)) (not (= _let_82 _let_85)) (tptp.called_2 _let_82 |"3"|) (not (= _let_85 _let_82)) (not (= _let_85 _let_89)) (tptp.causes_2 _let_85 _let_82) (tptp.next_event_2 _let_85 _let_82) (tptp.base_2 _let_85 _let_76) (tptp.called_2 _let_85 |"2"|) (tptp.has_part_2 _let_14 _let_141) (tptp.has_part_2 _let_14 _let_156) (tptp.has_function_2 _let_14 _let_276) (tptp.the_scalar_value_2 _let_219 tptp.big_0) (tptp.scalar_unit_class_2 _let_219 tptp.polypeptide_0) (not (= _let_89 _let_82)) (not (= _let_89 _let_85)) (tptp.causes_2 _let_89 _let_85) (tptp.next_event_2 _let_89 _let_134) (tptp.called_2 _let_89 |"1"|) (tptp.called_2 _let_184 |tptp.'PE_EG'|) (tptp.site_2 _let_272 _let_273) (tptp.agent_2 _let_272 _let_76) (tptp.is_at_2 _let_263 _let_245) (tptp.facilitates_2 _let_108 _let_272) (tptp.subevent_2 _let_72 _let_74) (tptp.subevent_2 _let_72 _let_82) (tptp.subevent_2 _let_72 _let_85) (tptp.first_subevent_2 _let_72 _let_85) (tptp.next_event_2 _let_72 _let_20) (tptp.has_region_2 _let_172 _let_275) (tptp.is_between_2 _let_172 _let_269) (tptp.is_between_2 _let_172 _let_270) (tptp.next_event_2 _let_134 _let_89) (tptp.path_2 _let_134 _let_263) (tptp.destination_2 _let_134 _let_162) (tptp.called_2 _let_134 |tptp.'MT1'|) (tptp.has_part_2 _let_274 _let_39) (tptp.ph_2 _let_274 _let_267) (tptp.has_region_2 _let_76 _let_273) (tptp.has_function_2 _let_76 _let_272) (tptp.has_part_2 _let_76 _let_213) (tptp.has_function_2 _let_99 X) (tptp.subevent_2 X _let_72) (tptp.causes_2 X _let_189) (tptp.causes_2 X _let_265) (tptp.result_2 X _let_181) (tptp.result_2 X _let_48) (tptp.first_subevent_2 X _let_3) (tptp.raw_material_2 X _let_142) (tptp.raw_material_2 X _let_271) (tptp.instrument_2 X _let_99) (tptp.agent_2 X _let_76) (tptp.raw_material_2 _let_20 _let_271) (tptp.site_2 _let_20 _let_202) (tptp.object_2 _let_3 _let_161) (tptp.subevent_2 _let_3 _let_89) (tptp.first_subevent_2 _let_3 _let_134) (tptp.enables_2 _let_3 _let_20) (tptp.is_inside_2 _let_270 _let_172) (tptp.is_outside_2 _let_269 _let_172) (tptp.object_2 _let_82 _let_108) (tptp.object_2 _let_80 _let_108) (tptp.object_2 _let_125 _let_213) (tptp.object_2 _let_78 _let_108) (tptp.object_2 _let_74 _let_76) (tptp.object_2 _let_89 _let_172) (tptp.agent_2 _let_80 _let_213) (tptp.agent_2 _let_78 _let_213) (tptp.object_2 _let_85 _let_171) (tptp.subevent_2 X _let_20) (tptp.object_2 _let_43 _let_161) (tptp.subevent_2 X _let_3) (tptp.object_2 X _let_181) (tptp.raw_material_2 _let_20 _let_181) (tptp.origin_2 _let_3 _let_39) (tptp.destination_2 _let_3 _let_162) (tptp.from_value_2 _let_265 _let_267) (tptp.possesses_2 _let_99 _let_261) (tptp.object_2 _let_3 _let_253) (tptp.quantity_2 _let_99 _let_185) (tptp.called_2 _let_185 |tptp.'EG'|) (tptp.has_region_2 _let_213 _let_263) (tptp.called_2 _let_263 |tptp.'HC1'|) (tptp.raw_material_2 _let_3 _let_261) (tptp.quantity_2 _let_261 _let_184) (tptp.from_value_2 _let_189 _let_258) (tptp.result_2 _let_12 _let_99) (tptp.origin_2 _let_12 _let_39) (tptp.origin_2 _let_134 _let_39) (tptp.object_2 _let_134 _let_253) (tptp.result_2 _let_72 _let_14) (tptp.has_state_2 _let_76 _let_14) (tptp.object_2 _let_72 _let_76) (tptp.has_region_2 _let_108 _let_247) (tptp.is_at_2 _let_247 _let_249) (tptp.has_region_2 _let_108 _let_249) (tptp.has_part_2 _let_108 _let_251) (tptp.has_part_2 _let_251 _let_201) (tptp.has_region_2 _let_213 _let_239) (tptp.is_at_2 _let_241 _let_239) (tptp.has_part_2 _let_243 _let_241) (tptp.has_part_2 _let_213 _let_243) (tptp.has_region_2 _let_213 _let_245) (tptp.object_2 _let_236 _let_213) (tptp.speed_2 _let_236 _let_233) (tptp.possesses_2 _let_213 _let_229) (tptp.quantity_2 _let_229 _let_231) (tptp.directly_proportional_2 _let_233 _let_231) (tptp.has_part_2 _let_213 _let_227) (tptp.has_part_2 _let_213 _let_225) (tptp.has_region_2 _let_213 _let_223) (tptp.is_inside_2 _let_225 _let_223) (not (= _let_227 _let_225)) (not (= _let_225 _let_227)) (tptp.size_2 _let_213 _let_219) (tptp.has_part_2 _let_213 _let_215) (tptp.size_2 _let_215 _let_217) (tptp.greater_than_2 _let_219 _let_217) (tptp.object_2 _let_211 _let_108) (tptp.speed_2 _let_211 _let_208) (tptp.possesses_2 _let_108 _let_204) (tptp.quantity_2 _let_204 _let_206) (tptp.directly_proportional_2 _let_208 _let_206) (tptp.size_2 _let_108 _let_198) (tptp.has_region_2 _let_108 _let_202) (tptp.has_part_2 _let_108 _let_194) (tptp.has_region_2 _let_108 _let_200) (tptp.is_at_2 _let_201 _let_200) (tptp.has_part_2 _let_108 _let_195) (tptp.size_2 _let_195 _let_197) (tptp.greater_than_2 _let_198 _let_197) (tptp.the_scalar_value_2 _let_198 tptp.big_0) (tptp.scalar_unit_class_2 _let_198 tptp.polypeptide_0) (tptp.has_region_2 _let_108 _let_192) (tptp.is_inside_2 _let_193 _let_192) (tptp.has_part_2 _let_108 _let_193) (not (= _let_194 _let_193)) (not (= _let_193 _let_194)) (tptp.causes_2 _let_3 _let_189) (tptp.by_means_of_2 _let_3 _let_43) (tptp.causes_2 _let_43 _let_134) (tptp.result_2 _let_3 _let_181) (tptp.quantity_2 _let_181 _let_183) (tptp.directly_proportional_2 _let_184 _let_183) (tptp.directly_proportional_2 _let_185 _let_184) (tptp.object_2 _let_180 _let_178) (tptp.subevent_2 _let_3 _let_134) (tptp.path_2 _let_3 _let_131) (tptp.base_2 _let_176 _let_131) (tptp.object_2 _let_176 _let_178) (tptp.is_at_2 _let_178 _let_131) (tptp.base_2 _let_180 _let_131) (tptp.is_inside_2 _let_164 _let_33) (tptp.called_2 _let_173 |tptp.'Terminal PO4 Group'|) (tptp.has_part_2 _let_48 _let_165) (tptp.has_region_2 _let_48 _let_174) (tptp.is_inside_2 _let_163 _let_174) (tptp.has_part_2 _let_48 _let_163) (tptp.is_inside_2 _let_165 _let_33) (tptp.has_region_2 _let_48 _let_33) (tptp.has_region_2 _let_48 _let_173) (not (= _let_174 _let_33)) (not (= _let_33 _let_174)) (tptp.has_part_2 _let_48 _let_164) (tptp.is_inside_2 _let_164 _let_174) (tptp.is_inside_2 _let_165 _let_174) (not (= _let_173 _let_174)) (not (= _let_174 _let_173)) (tptp.possesses_2 _let_48 _let_166) (tptp.is_between_2 _let_166 _let_163) (tptp.is_inside_2 _let_163 _let_173) (not (= _let_33 _let_173)) (not (= _let_173 _let_33)) (tptp.element_2 _let_76 _let_172) (tptp.is_between_2 _let_171 _let_172) (tptp.is_between_2 _let_171 _let_108) (tptp.has_region_2 _let_76 _let_168) (tptp.facilitates_2 _let_168 _let_170) (tptp.has_function_2 _let_76 _let_170) (tptp.element_2 _let_76 _let_108) (tptp.is_at_2 _let_108 _let_171) (tptp.is_between_2 _let_166 _let_164) (not (= _let_165 _let_164)) (not (= _let_164 _let_165)) (tptp.is_inside_2 _let_163 _let_33) (not (= _let_163 _let_164)) (tptp.is_inside_2 _let_164 _let_173) (tptp.is_inside_2 _let_165 _let_173) (not (= _let_165 _let_163)) (not (= _let_164 _let_163)) (not (= _let_163 _let_165)) (tptp.has_solute_2 _let_39 _let_161) (tptp.is_hypotonic_to_2 _let_162 _let_39) (tptp.is_hypertonic_to_2 _let_39 _let_162) (tptp.has_solvent_2 _let_39 _let_160) (tptp.has_part_2 _let_39 _let_160) (tptp.has_part_2 _let_39 _let_161) (not (= _let_161 _let_160)) (not (= _let_160 _let_161)) (tptp.called_2 _let_151 |tptp.'FE_p'|) (tptp.called_2 _let_149 |tptp.'FE_r'|) (tptp.is_between_2 _let_156 _let_141) (tptp.plays_2 _let_142 _let_154) (tptp.in_event_2 _let_154 _let_20) (tptp.result_2 _let_20 _let_48) (tptp.structural_complexity_2 _let_48 _let_144) (tptp.possesses_2 _let_142 _let_147) (tptp.quantity_2 _let_147 _let_149) (tptp.greater_than_2 _let_151 _let_149) (tptp.quantity_2 _let_152 _let_151) (tptp.possesses_2 _let_48 _let_152) (tptp.has_function_2 _let_14 _let_20) (tptp.raw_material_2 _let_20 _let_142) (tptp.structural_complexity_2 _let_142 _let_143) (tptp.greater_than_2 _let_144 _let_143) (tptp.element_2 _let_14 _let_141) (tptp.base_2 _let_134 _let_131) (tptp.is_across_2 _let_1 _let_131) (tptp.has_part_2 _let_131 _let_1) (tptp.is_inside_2 _let_1 _let_133) (tptp.has_part_2 _let_131 _let_133) (tptp.has_function_2 _let_131 _let_134) (= _let_108 _let_83) (= _let_108 _let_81) (= _let_213 _let_126) (= _let_108 _let_79) (= _let_76 _let_75) (= _let_172 _let_90) (= _let_213 _let_124) (= _let_213 _let_123) (= _let_171 _let_86) (= _let_161 _let_44) (= _let_20 _let_18) (= _let_181 _let_94) (= _let_39 _let_38) (= _let_162 _let_46) (= (tptp.fn_chemiosmosis_113 X) _let_268) (= _let_267 _let_266) (= (tptp.fn_chemiosmosis_29 X) _let_264) (= _let_185 _let_102) (= _let_263 _let_262) (= _let_261 _let_130) (= _let_261 _let_129) (= (tptp.fn_chemiosmosis_86 X) _let_260) (= (tptp.fn_chemiosmosis_110 X) _let_259) (= _let_258 _let_257) (= _let_256 _let_255) (= _let_99 _let_254) (= _let_253 _let_128) (= _let_253 _let_127) (= _let_134 _let_13) (= _let_39 _let_37) (= _let_76 _let_73) (= _let_14 _let_252) (= _let_201 _let_120) (= _let_251 _let_250) (= _let_249 _let_248) (= _let_247 _let_246) (= _let_245 _let_244) (= _let_243 _let_242) (= _let_241 _let_240) (= _let_239 _let_238) (= (tptp.fn_chemiosmosis_68 X) _let_237) (= _let_236 _let_235) (= (tptp.fn_chemiosmosis_67 X) _let_234) (= _let_233 _let_232) (= _let_231 _let_230) (= _let_229 _let_228) (= _let_227 _let_226) (= _let_225 _let_224) (= _let_223 _let_222) (= (tptp.fn_chemiosmosis_66 X) _let_221) (= (tptp.fn_chemiosmosis_69 X) _let_220) (= _let_219 _let_218) (= _let_217 _let_216) (= _let_215 _let_214) (= (tptp.fn_chemiosmosis_28 X) _let_212) (= _let_211 _let_210) (= (tptp.fn_chemiosmosis_27 X) _let_209) (= _let_208 _let_207) (= _let_206 _let_205) (= _let_204 _let_203) (= _let_202 _let_122) (= _let_202 _let_121) (= _let_201 _let_119) (= _let_200 _let_199) (= _let_198 _let_118) (= _let_198 _let_117) (= _let_197 _let_196) (= _let_195 _let_116) (= _let_195 _let_115) (= _let_194 _let_114) (= _let_194 _let_113) (= _let_193 _let_112) (= _let_193 _let_111) (= _let_192 _let_110) (= _let_192 _let_109) (= _let_191 _let_107) (= _let_184 _let_98) (= _let_191 _let_106) (= (tptp.fn_chemiosmosis_89 X) _let_190) (= _let_189 _let_188) (= _let_134 _let_11) (= _let_43 _let_187) (= _let_186 _let_105) (= _let_186 _let_104) (= _let_185 _let_103) (= _let_184 _let_100) (= _let_185 _let_101) (= _let_184 _let_97) (= _let_183 _let_182) (= _let_3 (tptp.fn_energy_coupling_3 X)) (= _let_181 _let_95) (= _let_181 _let_96) (= _let_181 _let_93) (= _let_180 _let_179) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_48 _let_34) (= _let_174 _let_54) (= _let_33 _let_55) (= _let_165 _let_65) (= _let_165 _let_64) (= _let_174 _let_91) (= _let_165 _let_63) (= _let_173 _let_55) (= _let_174 _let_92) (= _let_174 _let_60) (= _let_164 _let_59) (= _let_164 _let_58) (= _let_33 _let_56) (= _let_33 _let_54) (= _let_173 _let_61) (= _let_173 _let_60) (= _let_163 _let_53) (= _let_163 _let_52) (= _let_166 _let_69) (= _let_163 _let_51) (= _let_163 _let_50) (= _let_163 _let_49) (= _let_166 _let_71) (= _let_166 _let_70) (= _let_166 _let_68) (= _let_166 _let_67) (= _let_172 _let_88) (= _let_172 _let_87) (= _let_171 _let_84) (= _let_108 _let_77) (= _let_170 _let_169) (= _let_168 _let_167) (= _let_166 _let_66) (= _let_165 _let_62) (= _let_164 _let_57) (= _let_163 _let_47) (= _let_162 _let_45) (= _let_160 _let_41) (= _let_161 _let_42) (= _let_160 _let_40) (= _let_159 _let_36) (= _let_159 _let_35) (= (tptp.fn_chemiosmosis_24 X) _let_158) (= (tptp.fn_chemiosmosis_23 X) _let_157) (= _let_156 _let_155) (= _let_48 _let_32) (= _let_154 _let_153) (= _let_48 _let_31) (= _let_152 _let_29) (= _let_48 _let_30) (= _let_152 _let_28) (= _let_151 _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= (tptp.fn_chemiosmosis_25 X) _let_145) (= _let_144 _let_27) (= _let_144 _let_26) (= _let_143 _let_25) (= _let_143 _let_24) (= _let_143 _let_23) (= _let_142 _let_22) (= _let_142 _let_21) (= _let_142 _let_19) (= _let_20 _let_17) (= _let_141 _let_16) (= _let_141 _let_15) (= _let_140 _let_139) (= _let_138 _let_137) (= _let_136 _let_135) (= _let_134 _let_10) (= _let_134 _let_9) (= _let_133 _let_8) (= _let_133 _let_7) (= _let_131 _let_6) (= _let_131 _let_5) (= _let_1 _let_132) (= _let_131 _let_4) (= _let_131 _let_2) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_129 _let_128) (= _let_128 _let_128) (= _let_128 _let_127) (= _let_127 _let_126) (= _let_126 _let_124) (= _let_124 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_115) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_115 _let_113) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_111 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_107) (= _let_107 _let_106) (= _let_106 _let_105) (= _let_105 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_98 _let_100) (= _let_100 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_95) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_54 _let_91) (= _let_91 _let_54) (= _let_54 _let_60) (= _let_60 _let_90) (= _let_90 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_81) (= _let_79 _let_81) (= _let_81 _let_79) (= _let_79 _let_77) (= _let_77 _let_77) (= _let_77 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_55) (= _let_55 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_55) (= _let_55 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_26 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_19 _let_19) (= _let_19 _let_21) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chemistry_concept_1 X) (and (tptp.original_name_2 X |tptp.'Chemistry-Concept'|) (tptp.user_description_2 X |tptp.'A concept related to chemistry and chemical changes.'|) (tptp.concept2words_2 X |tptp.'concept of chemistry'|) (tptp.concept2words_2 X |tptp.'chemistry concept'|) (tptp.concept2words_2 X |tptp.'chemistry-concept'|) (tptp.conceptual_entity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemoautotroph_1 X))) (let ((_let_2 (tptp.fn_oxidation_10 _let_1))) (let ((_let_3 (tptp.fn_chemoautotroph_5 X))) (let ((_let_4 (tptp.fn_molecule_7 _let_3))) (let ((_let_5 (tptp.fn_chemoautotroph_4 X))) (let ((_let_6 (tptp.fn_oxidation_9 _let_1))) (let ((_let_7 (tptp.fn_chemoautotroph_2 X))) (let ((_let_8 (tptp.fn_oxidation_7 _let_1))) (let ((_let_9 (tptp.fn_chemoautotroph_3 X))) (let ((_let_10 (tptp.fn_chemoautotroph_6 X))) (=> (tptp.chemoautotroph_1 X) (and (tptp.original_name_2 X |tptp.'Chemoautotroph'|) (tptp.user_description_2 X |tptp.'An organism that needs only carbon dioxide as a carbon source but obtains energy by oxidizing inorganic substances.'|) (tptp.autotroph_1 X) (tptp.oxidation_1 _let_1) (tptp.electron_1 _let_7) (tptp.chemical_entity_1 _let_9) (tptp.carbon_1 _let_5) (tptp.molecule_1 _let_3) (tptp.inorganic_molecule_1 _let_3) (tptp.nutrition_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.electron_1 _let_6) (tptp.atom_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.has_part_2 _let_3 _let_5) (tptp.in_event_2 X _let_10) (tptp.raw_material_2 _let_10 _let_3) (not (= _let_5 _let_9)) (tptp.recipient_2 _let_1 _let_9) (not (= _let_9 _let_5)) (tptp.donor_2 _let_1 _let_5) (not (= _let_5 _let_7)) (tptp.object_2 _let_1 _let_7) (not (= _let_7 _let_5)) (not (= _let_9 _let_7)) (not (= _let_7 _let_9)) (= _let_5 _let_4) (= _let_3 (tptp.fn_autotroph_22 X)) (= _let_10 (tptp.fn_autotroph_7 X)) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_2) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemoheterotroph_4 X))) (let ((_let_2 (tptp.fn_chemoheterotroph_3 X))) (let ((_let_3 (tptp.fn_chemoheterotroph_1 X))) (let ((_let_4 (tptp.fn_chemoheterotroph_2 X))) (=> (tptp.chemoheterotroph_1 X) (and (tptp.original_name_2 X |tptp.'Chemoheterotroph'|) (tptp.user_description_2 X |tptp.'An organism that must consume organic molecules for both carbon and energy.'|) (tptp.concept2words_2 X tptp.chemoheterotroph) (tptp.heterotroph_1 X) (not (tptp.decomposer_1 X)) (not (tptp.obligate_aerobe_1 X)) (not (tptp.parasite_1 X)) (not (tptp.photoheterotroph_1 X)) (not (tptp.primary_consumer_1 X)) (not (tptp.secondary_consumer_1 X)) (not (tptp.tertiary_consumer_1 X)) (tptp.organic_entity_1 _let_3) (tptp.protein_1 _let_4) (tptp.carbohydrate_1 _let_2) (tptp.nutrition_1 _let_1) (tptp.result_2 _let_1 _let_4) (tptp.raw_material_2 _let_1 _let_3) (tptp.in_event_2 X _let_1) (tptp.result_2 _let_1 _let_2) (= _let_2 (tptp.fn_heterotroph_4 X)) (= _let_1 (tptp.fn_heterotroph_3 X))))))))) (forall ((X $$unsorted)) (=> (tptp.chemoreceptor_1 X) (and (tptp.original_name_2 X |tptp.'Chemoreceptor'|) (tptp.user_description_2 X |tptp.'A sensory receptor that detects a chemical stimulus, such as a solute or an odorant, and transduces it into an action potential.'|) (tptp.concept2words_2 X tptp.chemoreceptor) (tptp.sensory_receptor_1 X) (not (tptp.electromagnetic_receptor_1 X)) (not (tptp.exteroceptor_1 X)) (not (tptp.mechanoreceptor_1 X)) (not (tptp.nociceptor_1 X)) (not (tptp.pain_receptor_1 X)) (not (tptp.thermoreceptor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chemotaxis_1 X) (and (tptp.original_name_2 X |tptp.'Chemotaxis'|) (tptp.user_description_2 X |tptp.'Movement of a cell or a unicellular 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(tptp.damage_1 _let_5) (tptp.cancer_cell_1 _let_8) (tptp.add_1 _let_1) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.in_event_2 _let_3 _let_5) (tptp.base_2 _let_1 _let_8) (tptp.object_2 _let_5 _let_8) (tptp.plays_2 X _let_3) (tptp.object_2 _let_1 X) (= _let_8 _let_7) (= _let_8 _let_6) (= X _let_4) (= X _let_2) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemotherapy_2 X))) (let ((_let_2 (tptp.fn_chemotherapy_3 X))) (let ((_let_3 (tptp.fn_chemotherapy_1 X))) (=> (tptp.chemotherapy_1 X) (and (tptp.original_name_2 X |tptp.'Chemotherapy'|) (tptp.user_description_2 X |tptp.'Chemical, systemic reatment for cancer which targets and destroys rapidly dividing cells.'|) (tptp.concept2words_2 X tptp.chemotherapy) (tptp.medical_treatment_of_cancer_1 X) (tptp.circulatory_system_1 _let_3) (tptp.inject_1 _let_1) (tptp.chemotherapeutic_drug_1 _let_2) (tptp.path_2 _let_1 _let_3) (tptp.object_2 _let_1 _let_2) (tptp.by_means_of_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.chew_1 X) (and (tptp.original_name_2 X |tptp.'Chew'|) (tptp.user_description_2 X |tptp.'The process of using teeth to bite and grind food particles into smaller pieces to aid swallowing and digestion.'|) (tptp.concept2words_2 X tptp.chew) (tptp.mechanical_digestion_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chiasma_1 X) (and (tptp.original_name_2 X |tptp.'Chiasma'|) (tptp.user_description_2 X |tptp.'A chiasma in genetics, is thought to be the point where two homologous non-sister chromatids exchange genetic material during chromosomal crossover during meiosis.'|) (tptp.concept2words_2 X tptp.chiasmata) (tptp.concept2words_2 X tptp.chiasma) (tptp.relative_relationship_1 X) (not (tptp.map_unit_1 X)) (not (tptp.tangible_entity_1 X)) (not (tptp.region_1 X)) (not (tptp.band_pattern_1 X)) (not (tptp.distance_between_genes_1 X)) (not 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((_let_54 (tptp.fn_secretory_cell_69 X))) (let ((_let_55 (tptp.fn_secretory_cell_71 X))) (let ((_let_56 (tptp.fn_secretory_cell_68 X))) (let ((_let_57 (tptp.fn_secretory_cell_70 X))) (let ((_let_58 (tptp.fn_animal_cell_58 X))) (let ((_let_59 (tptp.fn_secretory_cell_43 X))) (let ((_let_60 (tptp.fn_animal_cell_84 X))) (let ((_let_61 (tptp.fn_exocytosis_30 _let_20))) (let ((_let_62 (tptp.fn_eukaryotic_cell_47 X))) (let ((_let_63 (tptp.fn_secretory_cell_30 X))) (let ((_let_64 (tptp.fn_animal_cell_52 X))) (let ((_let_65 (tptp.fn_secretory_cell_62 X))) (let ((_let_66 (tptp.fn_exocytosis_35 _let_20))) (let ((_let_67 (tptp.fn_secretory_cell_85 X))) (let ((_let_68 (tptp.fn_chief_cell_48 X))) (let ((_let_69 (tptp.fn_release_1 _let_68))) (let ((_let_70 (tptp.fn_secretory_cell_79 X))) (let ((_let_71 (tptp.fn_synthesis_of_membrane_protein_25 _let_22))) (let ((_let_72 (tptp.fn_chief_cell_12 X))) (let ((_let_73 (tptp.fn_biomembrane_54 _let_72))) (let ((_let_74 (tptp.fn_synthesis_of_protein_16 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((_let_117 (tptp.fn_chief_cell_58 X))) (let ((_let_118 (tptp.fn_chief_cell_57 X))) (let ((_let_119 (tptp.fn_chief_cell_63 X))) (let ((_let_120 (tptp.fn_chief_cell_62 X))) (let ((_let_121 (tptp.fn_chief_cell_60 X))) (let ((_let_122 (tptp.fn_chief_cell_44 X))) (let ((_let_123 (tptp.fn_chief_cell_35 X))) (let ((_let_124 (tptp.fn_chief_cell_56 X))) (let ((_let_125 (tptp.fn_chief_cell_61 X))) (let ((_let_126 (tptp.fn_chief_cell_59 X))) (let ((_let_127 (tptp.fn_chief_cell_55 X))) (let ((_let_128 (tptp.fn_chief_cell_39 X))) (let ((_let_129 (tptp.fn_chief_cell_26 X))) (let ((_let_130 (tptp.fn_chief_cell_31 X))) (let ((_let_131 (tptp.fn_chief_cell_38 X))) (let ((_let_132 (tptp.fn_chief_cell_34 X))) (let ((_let_133 (tptp.fn_chief_cell_42 X))) (let ((_let_134 (tptp.fn_chief_cell_41 X))) (let ((_let_135 (tptp.fn_chief_cell_40 X))) (let ((_let_136 (tptp.fn_chief_cell_9 X))) (let ((_let_137 (tptp.fn_chief_cell_53 X))) (let ((_let_138 (tptp.fn_chief_cell_49 X))) (let ((_let_139 (tptp.fn_chief_cell_11 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(tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.transport_vesicle_1 _let_106) (tptp.tangible_entity_1 _let_93) (tptp.nucleus_1 _let_93) (tptp.centrosome_1 _let_130) (tptp.lysosome_1 _let_94) (tptp.peroxisome_1 _let_92) (tptp.volume_value_1 _let_132) (tptp.surface_1 _let_123) (tptp.cell_pole_1 _let_113) (tptp.cell_pole_1 _let_114) (tptp.size_value_1 _let_131) (tptp.support_1 _let_128) (tptp.support_1 _let_135) (tptp.microtubule_1 _let_134) (tptp.create_1 _let_133) (tptp.produce_1 _let_133) (tptp.substance_1 _let_90) (tptp.cytosol_1 _let_90) (tptp.tangible_entity_1 _let_122) (tptp.phospholipid_bilayer_1 _let_122) (tptp.transfer_1 _let_147) (tptp.receive_1 _let_147) (tptp.exchange_1 _let_146) (tptp.anabolic_pathway_1 _let_143) (tptp.synthesis_of_protein_1 _let_143) (tptp.release_1 _let_68) (tptp.tangible_entity_1 _let_138) (tptp.transport_vesicle_1 _let_138) (tptp.cavity_1 _let_153) (tptp.stomach_1 _let_151) (tptp.release_1 _let_103) (tptp.pepsinogen_1 _let_137) (tptp.semiautonomous_organelle_1 _let_18) (tptp.organelle_1 _let_18) (tptp.mitochondrion_1 _let_18) (tptp.attach_1 _let_127) (tptp.outside_face_1 _let_124) (tptp.extracellular_side_1 _let_124) (tptp.surface_1 _let_124) (tptp.hydrophobic_core_1 _let_118) (tptp.hydrophilic_face_1 _let_117) (tptp.transmembrane_protein_1 _let_126) (tptp.tangible_entity_1 _let_126) (tptp.membrane_protein_1 _let_126) (tptp.protein_1 _let_126) (tptp.spatial_entity_1 _let_126) (tptp.polymer_1 _let_126) (tptp.integrin_1 _let_126) (tptp.protein_1 _let_121) (tptp.organic_molecule_1 _let_121) (tptp.polymer_1 _let_121) (tptp.spatial_entity_1 _let_121) (tptp.membrane_protein_1 _let_121) (tptp.tangible_entity_1 _let_121) (tptp.transmembrane_protein_1 _let_121) (tptp.integral_protein_1 _let_121) (tptp.transport_protein_1 _let_121) (tptp.sodium_potassium_pump_1 _let_121) (tptp.spatial_entity_1 _let_125) (tptp.polymer_1 _let_125) (tptp.organic_molecule_1 _let_125) (tptp.tangible_entity_1 _let_125) (tptp.membrane_protein_1 _let_125) (tptp.protein_1 _let_125) (tptp.glycoprotein_1 _let_125) (tptp.integral_protein_1 _let_125) (tptp.fibronectin_1 _let_125) (tptp.spatial_entity_1 _let_120) (tptp.polymer_1 _let_120) (tptp.organic_molecule_1 _let_120) (tptp.tangible_entity_1 _let_120) (tptp.membrane_protein_1 _let_120) (tptp.protein_1 _let_120) (tptp.glycoprotein_1 _let_120) (tptp.integral_protein_1 _let_120) (tptp.fibronectin_1 _let_120) (tptp.protein_1 _let_119) (tptp.organic_molecule_1 _let_119) (tptp.polymer_1 _let_119) (tptp.spatial_entity_1 _let_119) (tptp.membrane_protein_1 _let_119) (tptp.tangible_entity_1 _let_119) (tptp.transmembrane_protein_1 _let_119) (tptp.integral_protein_1 _let_119) (tptp.transport_protein_1 _let_119) (tptp.sodium_potassium_pump_1 _let_119) (tptp.aqueous_solution_1 _let_150) (tptp.lipid_1 _let_140) (tptp.glycolipid_1 _let_140) (tptp.spatial_entity_1 _let_95) (tptp.biomembrane_1 _let_95) (tptp.nuclear_membrane_1 _let_95) (tptp.synthesis_of_lipid_1 _let_141) (tptp.protein_enzyme_1 _let_142) (tptp.move_out_of_1 _let_148) (tptp.catabolic_pathway_1 _let_115) (tptp.metabolic_pathway_1 _let_99) (tptp.endergonic_process_1 _let_99) (tptp.chemical_reaction_1 _let_99) (tptp.synthesis_of_organic_molecule_1 _let_99) (tptp.anabolic_pathway_1 _let_99) (tptp.synthesis_of_atp_1 _let_99) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_97) (tptp.electron_transport_chain_pathway_1 _let_101) (tptp.synthesis_of_protein_1 _let_154) (tptp.cavity_1 _let_152) (tptp.carry_1 _let_107) (tptp.container_1 _let_104) (tptp.electron_transport_chain_pathway_1 _let_100) (tptp.metabolic_pathway_1 _let_98) (tptp.endergonic_process_1 _let_98) (tptp.chemical_reaction_1 _let_98) (tptp.synthesis_of_organic_molecule_1 _let_98) (tptp.anabolic_pathway_1 _let_98) (tptp.synthesis_of_atp_1 _let_98) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_96) (tptp.aqueous_solution_1 _let_89) (tptp.aqueous_solution_1 _let_88) (tptp.transfer_1 _let_87) (tptp.outside_face_1 _let_81) (tptp.surface_1 _let_80) (tptp.outside_face_1 _let_80) (tptp.ribosome_1 _let_78) (tptp.glycolipid_1 _let_76) (tptp.protein_1 _let_74) (tptp.tangible_entity_1 _let_73) (tptp.membrane_protein_1 _let_73) (tptp.protein_1 _let_73) (tptp.spatial_entity_1 _let_71) (tptp.polymer_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.membrane_protein_1 _let_71) (tptp.protein_1 _let_71) (tptp.tangible_entity_1 _let_69) (tptp.tangible_entity_1 _let_66) (tptp.molecule_1 _let_66) (tptp.organic_molecule_1 _let_66) (tptp.outside_face_1 _let_61) (tptp.extracellular_side_1 _let_61) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.transport_vesicle_1 _let_40) (tptp.release_1 _let_38) (tptp.release_1 _let_37) (tptp.cellular_work_1 _let_35) (tptp.active_transport_1 _let_35) (tptp.active_movement_of_ions_1 _let_35) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.biomembrane_1 _let_33) (tptp.nuclear_membrane_1 _let_33) (tptp.lysosome_1 _let_31) (tptp.nucleus_1 _let_28) (tptp.peroxisome_1 _let_26) (tptp.cell_1 _let_25) (tptp.cell_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.cell_1 _let_21) (tptp.eukaryotic_cell_1 _let_19) (tptp.eukaryotic_cell_1 _let_17) (tptp.cell_1 _let_17) (tptp.golgi_apparatus_1 _let_14) (tptp.substance_1 _let_10) (tptp.cytosol_1 _let_10) (tptp.synthesis_reaction_1 _let_9) (tptp.synthesis_reaction_1 _let_8) (tptp.chemical_reaction_1 _let_7) (tptp.synthesis_of_lipid_1 _let_7) (tptp.chemical_reaction_1 _let_6) (tptp.synthesis_of_lipid_1 _let_6) (tptp.anabolic_pathway_1 _let_6) (tptp.synthesis_of_lipid_1 _let_5) (tptp.synthesis_of_lipid_1 _let_4) (not (= _let_159 _let_143)) (not (= _let_159 _let_22)) (tptp.site_2 _let_22 _let_144) (not (= _let_22 _let_159)) (not (= _let_22 _let_143)) (tptp.quantity_2 _let_116 _let_157) (not (= _let_143 _let_159)) (not (= _let_143 _let_22)) (tptp.greater_than_2 _let_158 _let_157) (tptp.is_inside_2 _let_156 X) (tptp.is_outside_2 _let_155 X) (tptp.is_inside_2 _let_155 _let_153) (tptp.origin_2 _let_103 _let_156) (tptp.destination_2 _let_103 _let_155) (tptp.has_function_2 X _let_103) (tptp.called_2 _let_125 |tptp.'MP2'|) (tptp.is_at_2 _let_119 _let_122) (tptp.is_inside_2 _let_150 _let_72) (tptp.object_2 _let_68 _let_138) (tptp.has_function_2 _let_144 _let_22) (tptp.object_2 _let_108 _let_137) (tptp.object_2 _let_103 _let_137) (tptp.object_2 _let_20 _let_137) (tptp.is_inside_2 _let_137 _let_106) (tptp.base_2 _let_24 X) (tptp.has_region_2 _let_151 _let_153) (tptp.base_2 _let_22 X) (tptp.is_between_2 _let_72 _let_150) (tptp.result_2 _let_22 _let_139) (tptp.agent_2 _let_149 _let_3) (tptp.subevent_2 _let_146 _let_149) (tptp.has_function_2 _let_144 _let_143) (tptp.base_2 _let_148 X) (tptp.path_2 _let_148 _let_113) (tptp.object_2 _let_147 _let_137) (tptp.recipient_2 _let_147 _let_3) (tptp.object_2 _let_146 _let_137) (tptp.subevent_2 _let_146 _let_147) (tptp.recipient_2 _let_147 _let_91) (tptp.result_2 _let_143 _let_137) (tptp.site_2 _let_143 _let_144) (tptp.is_at_2 _let_144 _let_145) (tptp.is_outside_2 _let_145 _let_72) (tptp.has_region_2 _let_72 _let_145) (tptp.result_2 _let_141 _let_140) (tptp.agent_2 _let_141 _let_142) (tptp.is_inside_2 _let_142 _let_72) (tptp.abuts_2 _let_95 _let_72) (tptp.abuts_2 _let_72 _let_95) (tptp.is_inside_2 _let_137 X) (tptp.is_inside_2 _let_137 _let_138) (tptp.is_inside_2 _let_139 _let_138) (tptp.has_part_2 _let_72 _let_139) (tptp.has_part_2 _let_72 _let_140) (tptp.is_inside_2 _let_119 _let_122) (tptp.has_region_2 X _let_114) (tptp.the_scalar_value_2 _let_131 tptp.big_0) (tptp.scalar_unit_class_2 _let_131 tptp.prokaryote_0) (tptp.called_2 _let_126 |tptp.'MP1'|) (tptp.called_2 _let_120 |tptp.'MP1'|) (tptp.has_region_2 _let_119 _let_124) (tptp.origin_2 _let_136 _let_92) (tptp.called_2 _let_119 |tptp.'MP1'|) (tptp.causes_2 _let_136 _let_115) (tptp.destination_2 _let_136 _let_18) (tptp.is_at_2 _let_121 _let_110) (tptp.called_2 _let_121 |tptp.'MP1'|) (tptp.result_2 _let_133 _let_134) (tptp.has_function_2 _let_134 _let_135) (tptp.object_2 _let_135 X) (tptp.has_function_2 X _let_102) (tptp.size_2 X _let_131) (tptp.directly_proportional_2 _let_131 _let_132) (tptp.volume_2 X _let_132) (tptp.has_part_2 X _let_130) (tptp.has_function_2 _let_130 _let_133) (tptp.agent_2 _let_128 _let_110) (tptp.object_2 _let_128 X) (tptp.has_part_2 X _let_129) (tptp.is_inside_2 _let_129 _let_93) (tptp.is_near_2 _let_93 _let_130) (tptp.is_near_2 _let_130 _let_93) (not (= _let_119 _let_121)) (tptp.object_2 _let_127 _let_119) (tptp.base_2 _let_127 _let_110) (tptp.has_part_2 _let_110 _let_122) (tptp.is_inside_2 _let_121 _let_122) (not (= _let_121 _let_119)) (tptp.has_part_2 _let_110 _let_121) (tptp.has_part_2 _let_110 _let_126) (not (= _let_126 _let_120)) (not (= _let_119 _let_126)) (not (= _let_126 _let_119)) (not (= _let_120 _let_126)) (not (= _let_119 _let_125)) (not (= _let_125 _let_121)) (tptp.is_across_2 _let_121 _let_110) (tptp.has_part_2 _let_110 _let_125) (tptp.is_inside_2 _let_125 _let_122) (not (= _let_125 _let_119)) (not (= _let_121 _let_125)) (tptp.has_region_2 _let_110 _let_124) (tptp.is_outside_2 _let_124 _let_110) (tptp.has_part_2 _let_110 _let_119) (tptp.is_at_2 _let_119 _let_110) (tptp.has_part_2 _let_110 _let_120) (not (= _let_119 _let_120)) (not (= _let_120 _let_121)) (tptp.is_at_2 _let_121 _let_122) (tptp.is_at_2 _let_122 _let_123) (tptp.has_region_2 X _let_123) (not (= _let_120 _let_119)) (not (= _let_121 _let_120)) (tptp.has_region_2 _let_110 _let_117) (tptp.is_outside_2 _let_117 _let_110) (tptp.has_region_2 _let_110 _let_118) (tptp.is_across_2 _let_119 _let_118) (tptp.is_across_2 _let_119 _let_110) (tptp.base_2 _let_115 X) (tptp.site_2 _let_115 _let_18) (tptp.is_inside_2 _let_18 _let_90) (tptp.is_inside_2 _let_116 _let_90) (tptp.has_part_2 X _let_116) (tptp.base_2 _let_112 X) (tptp.path_2 _let_112 _let_113) (tptp.has_region_2 X _let_113) (tptp.is_opposite_2 _let_114 _let_113) (tptp.is_opposite_2 _let_113 _let_114) (tptp.has_function_2 X _let_109) (tptp.base_2 _let_109 X) (tptp.has_part_2 X _let_110) (tptp.has_function_2 _let_110 _let_20) (tptp.path_2 _let_20 _let_110) (tptp.agent_2 _let_108 _let_106) (tptp.base_2 _let_103 X) (tptp.subevent_2 _let_20 _let_103) (tptp.in_event_2 _let_105 _let_103) (tptp.plays_2 X _let_105) (tptp.has_part_2 X _let_106) (tptp.instrument_2 _let_20 _let_106) (tptp.first_subevent_2 _let_97 _let_101) (tptp.base_2 _let_102 X) (tptp.base_2 _let_101 X) (tptp.subevent_2 _let_97 _let_101) (tptp.site_2 _let_97 _let_18) (tptp.has_function_2 _let_18 _let_97) (tptp.base_2 _let_97 X) (tptp.has_part_2 X _let_18) (tptp.site_2 _let_99 _let_18) (tptp.base_2 _let_99 X) (tptp.has_part_2 _let_93 _let_95) (tptp.is_inside_2 _let_94 _let_90) (tptp.has_part_2 X _let_94) (tptp.has_part_2 X _let_92) (tptp.is_inside_2 _let_92 _let_90) (tptp.is_inside_2 _let_93 _let_90) (tptp.has_part_2 X _let_93) (tptp.has_part_2 X _let_3) (tptp.has_function_2 _let_3 _let_24) (tptp.site_2 _let_24 _let_3) (tptp.is_inside_2 _let_3 _let_90) (tptp.is_inside_2 _let_91 _let_90) (tptp.has_part_2 X _let_91) (= _let_138 _let_69) (= _let_144 _let_78) (= _let_22 _let_154) (= _let_137 _let_66) (= X _let_25) (= _let_153 _let_152) (= X _let_23) (= _let_150 _let_89) (= _let_150 _let_88) (= _let_139 _let_74) (= _let_139 _let_71) (= _let_149 _let_87) (= _let_149 _let_86) (= _let_148 _let_111) (= _let_146 _let_83) (= _let_147 _let_85) (= _let_147 _let_84) (= _let_146 _let_82) (= _let_145 _let_81) (= _let_145 _let_80) (= _let_145 _let_79) (= _let_144 _let_77) (= _let_143 (tptp.fn_secretory_cell_59 X)) (= _let_142 (tptp.fn_secretory_cell_81 X)) (= _let_141 (tptp.fn_secretory_cell_82 X)) (= _let_140 _let_76) (= _let_140 _let_75) (= _let_139 _let_73) (= _let_72 (tptp.fn_secretory_cell_75 X)) (= _let_139 _let_70) (= _let_138 _let_67) (= _let_137 _let_65) (= _let_122 _let_58) (= (tptp.fn_chief_cell_19 X) (tptp.fn_secretory_cell_74 X)) (= (tptp.fn_chief_cell_18 X) (tptp.fn_secretory_cell_73 X)) (= _let_136 (tptp.fn_secretory_cell_15 X)) (= _let_102 _let_36) (= _let_135 (tptp.fn_secretory_cell_35 X)) (= _let_134 (tptp.fn_secretory_cell_39 X)) (= _let_133 (tptp.fn_secretory_cell_38 X)) (= _let_132 (tptp.fn_secretory_cell_36 X)) (= _let_131 (tptp.fn_secretory_cell_37 X)) (= _let_130 (tptp.fn_secretory_cell_33 X)) (= _let_129 _let_64) (= _let_129 _let_63) (= _let_128 (tptp.fn_secretory_cell_34 X)) (= _let_127 (tptp.fn_secretory_cell_44 X)) (= _let_126 (tptp.fn_secretory_cell_41 X)) (= _let_125 _let_54) (= _let_121 _let_56) (= _let_125 _let_55) (= _let_120 _let_55) (= _let_124 _let_62) (= _let_124 _let_61) (= _let_124 _let_60) (= _let_124 _let_59) (= _let_123 (tptp.fn_secretory_cell_67 X)) (= _let_122 _let_57) (= _let_121 _let_51) (= _let_120 _let_54) (= _let_119 _let_53) (= _let_118 _let_50) (= _let_119 _let_52) (= _let_119 _let_51) (= _let_118 _let_49) (= _let_118 _let_48) (= _let_117 (tptp.fn_secretory_cell_24 X)) (= _let_116 (tptp.fn_secretory_cell_29 X)) (= _let_18 (tptp.fn_secretory_cell_32 X)) (= _let_115 (tptp.fn_secretory_cell_87 X)) (= _let_114 (tptp.fn_secretory_cell_28 X)) (= _let_113 (tptp.fn_secretory_cell_55 X)) (= _let_112 _let_111) (= _let_110 _let_46) (= _let_110 _let_47) (= _let_110 _let_45) (= _let_110 _let_44) (= _let_109 _let_43) (= _let_109 _let_42) (= _let_108 _let_107) (= _let_106 _let_41) (= _let_106 _let_40) (= X _let_21) (= _let_105 _let_104) (= _let_20 (tptp.fn_secretory_cell_63 X)) (= _let_103 _let_39) (= _let_103 _let_38) (= _let_103 _let_37) (= _let_102 _let_35) (= _let_101 _let_100) (= _let_99 _let_98) (= X _let_19) (= _let_97 _let_96) (= _let_95 _let_34) (= _let_95 _let_33) (= _let_94 _let_32) (= _let_94 _let_31) (= _let_3 _let_2) (= _let_93 _let_29) (= _let_93 _let_30) (= _let_93 _let_28) (= _let_90 _let_13) (= _let_92 _let_27) (= _let_92 _let_26) (= X _let_17) (= _let_91 _let_16) (= _let_90 _let_12) (= _let_91 _let_15) (= _let_91 _let_14) (= _let_3 _let_1) (= _let_90 _let_11) (= _let_90 _let_10) (= _let_24 _let_9) (= _let_24 _let_8) (= _let_24 _let_7) (= _let_24 _let_6) (= _let_24 _let_5) (= _let_24 _let_4) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_71 _let_73) (= _let_73 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_54) (= _let_54 _let_55) (= _let_55 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_51) (= _let_51 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_45 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_44 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.childbirth_1 X) (and (tptp.original_name_2 X |tptp.'Childbirth'|) (tptp.user_description_2 X |tptp.'The culmination of a human pregnancy, ending with the expulsion of an infant from the mother_'s uterus.'|) (tptp.concept2words_2 X tptp.childbirth) (tptp.female_reproductive_cycle_events_1 X) (not (tptp.cell_determination_1 X)) (not (tptp.compaction_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.gestation_1 X)) (not (tptp.molting_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.organogenesis_1 X)) (not (tptp.oviparous_1 X)) (not (tptp.ovoviviparous_1 X)) (not (tptp.ovulation_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.pattern_formation_1 X)) (not (tptp.phase_change_1 X)) (not (tptp.primary_growth_1 X)) (not (tptp.protostome_development_1 X)) (not (tptp.radial_cleavage_1 X)) (not (tptp.senescence_1 X)) (not (tptp.torsion_1 X)) (not (tptp.viviparous_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chimera_1 X) (and (tptp.original_name_2 X |tptp.'Chimera'|) (tptp.user_description_2 X |tptp.'An organism (usually an animal) with a mix of genetially different cells from different origins.'|) (tptp.concept2words_2 X tptp.chimera) (tptp.organism_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chimera_plant_1 X) (and (tptp.original_name_2 X |tptp.'Chimera-Plant'|) (tptp.user_description_2 X |tptp.'Plants with a mixture of genetically different cells.'|) (tptp.concept2words_2 X |tptp.'plant of chimera'|) (tptp.concept2words_2 X |tptp.'chimera plant'|) (tptp.concept2words_2 X |tptp.'chimera-plant'|) (tptp.plant_1 X) (tptp.chimera_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chimpanzee_2 X))) (let ((_let_2 (tptp.fn_vertebrate_cell_5 _let_1))) (let ((_let_3 (tptp.fn_chimpanzee_1 X))) (=> (tptp.chimpanzee_1 X) (and (tptp.original_name_2 X |tptp.'Chimpanzee'|) (tptp.user_description_2 X |tptp.'One of two species of extant apes in the genus Pan. Scientific name is Pan troglodytes.'|) (tptp.concept2words_2 X tptp.chimpanzee) (tptp.anthropoid_1 X) (not (tptp.ape_1 X)) (tptp.non_motile_cilium_1 _let_3) (tptp.mammalian_cell_1 _let_1) (tptp.vertebrate_cell_1 _let_1) (tptp.non_motile_cilium_1 _let_2) (tptp.exactCardinality _let_1 tptp.has_part_0 |"48"| tptp.eukaryotic_chromosome_0) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_mammal_75 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chitin_32 X))) (let ((_let_2 (tptp.fn_carbonyl_group_7 _let_1))) (let ((_let_3 (tptp.fn_polysaccharide_14 X))) (let ((_let_4 (tptp.fn_chitin_20 X))) (let ((_let_5 (tptp.fn_covalent_bond_20 _let_4))) (let ((_let_6 (tptp.fn_covalent_bond_19 _let_4))) (let ((_let_7 (tptp.fn_chitin_22 X))) (let ((_let_8 (tptp.fn_aldehyde_6 _let_7))) (let ((_let_9 (tptp.fn_chitin_34 X))) (let ((_let_10 (tptp.fn_attract_2 _let_9))) (let ((_let_11 (tptp.fn_chitin_28 X))) (let ((_let_12 (tptp.fn_share_1 _let_11))) (let ((_let_13 (tptp.fn_share_3 _let_11))) (let ((_let_14 (tptp.fn_polysaccharide_17 X))) (let ((_let_15 (tptp.fn_carbohydrate_34 X))) (let ((_let_16 (tptp.fn_carbonyl_group_9 _let_1))) (let ((_let_17 (tptp.fn_polysaccharide_11 X))) (let ((_let_18 (tptp.fn_polysaccharide_15 X))) (let ((_let_19 (tptp.fn_carbohydrate_38 X))) (let ((_let_20 (tptp.fn_carbonyl_group_8 _let_1))) (let ((_let_21 (tptp.fn_polysaccharide_29 X))) (let ((_let_22 (tptp.fn_carbonyl_group_10 _let_1))) (let ((_let_23 (tptp.fn_polysaccharide_27 X))) (let ((_let_24 (tptp.fn_covalent_bond_14 _let_4))) (let ((_let_25 (tptp.fn_carbonyl_group_4 _let_1))) (let ((_let_26 (tptp.fn_covalent_bond_18 _let_4))) (let ((_let_27 (tptp.fn_covalent_bond_15 _let_4))) (let ((_let_28 (tptp.fn_chitin_21 X))) (let ((_let_29 (tptp.fn_carbon_10 _let_28))) (let ((_let_30 (tptp.fn_atom_14 _let_28))) (let ((_let_31 (tptp.fn_carbohydrate_39 X))) (let ((_let_32 (tptp.fn_polysaccharide_26 X))) (let ((_let_33 (tptp.fn_carbohydrate_32 X))) (let ((_let_34 (tptp.fn_polysaccharide_13 X))) (let ((_let_35 (tptp.fn_carbohydrate_12 X))) (let ((_let_36 (tptp.fn_polysaccharide_23 X))) (let ((_let_37 (tptp.fn_chitin_30 X))) (let ((_let_38 (tptp.fn_hold_2 _let_37))) (let ((_let_39 (tptp.fn_polysaccharide_8 X))) (let ((_let_40 (tptp.fn_covalent_bond_17 _let_4))) (let ((_let_41 (tptp.fn_carbohydrate_11 X))) (let ((_let_42 (tptp.fn_carbon_2 _let_28))) (let ((_let_43 (tptp.fn_chitin_15 X))) (let ((_let_44 (tptp.fn_chitin_16 X))) (let ((_let_45 (tptp.fn_chitin_13 X))) (let ((_let_46 (tptp.fn_chitin_14 X))) (let ((_let_47 (tptp.fn_chitin_37 X))) (let ((_let_48 (tptp.fn_chitin_35 X))) (let ((_let_49 (tptp.fn_carbonyl_group_6 _let_1))) (let ((_let_50 (tptp.fn_chitin_8 X))) (let ((_let_51 (tptp.fn_chitin_36 X))) (let ((_let_52 (tptp.fn_chitin_31 X))) (let ((_let_53 (tptp.fn_chitin_41 X))) (let ((_let_54 (tptp.fn_chitin_40 X))) (let ((_let_55 (tptp.fn_chitin_39 X))) (let ((_let_56 (tptp.fn_chitin_42 X))) (let ((_let_57 (tptp.fn_chitin_4 X))) (let ((_let_58 (tptp.fn_chitin_26 X))) (let ((_let_59 (tptp.fn_chitin_17 X))) (let ((_let_60 (tptp.fn_chitin_7 X))) (let ((_let_61 (tptp.fn_chitin_24 X))) (let ((_let_62 (tptp.fn_chitin_33 X))) (let ((_let_63 (tptp.fn_chitin_23 X))) (let ((_let_64 (tptp.fn_chitin_19 X))) (let ((_let_65 (tptp.fn_chitin_18 X))) (let ((_let_66 (tptp.fn_functional_group_1 _let_1))) (let ((_let_67 (tptp.fn_chitin_29 X))) (let ((_let_68 (tptp.fn_chitin_38 X))) (let ((_let_69 (tptp.fn_chitin_27 X))) (let ((_let_70 (tptp.fn_aldehyde_5 _let_7))) (let ((_let_71 (tptp.fn_chitin_25 X))) (let ((_let_72 (tptp.fn_chitin_5 X))) (let ((_let_73 (tptp.fn_chitin_3 X))) (=> (tptp.chitin_1 X) (and (tptp.original_name_2 X |tptp.'Chitin'|) (tptp.user_description_2 X |tptp.'Chitin is a long-chain polymer of a N-acetylglucosamine, a derivative of glucose, and is found in many places throughout the natural world.'|) (tptp.concept2words_2 X tptp.chitin) (tptp.structural_polysaccharide_1 X) (not (tptp.cellulose_1 X)) (tptp.flexibility_value_1 _let_73) (tptp.polar_covalent_bond_1 _let_57) (tptp.beta_1_comma_4_linkage_1 _let_72) (tptp.electronegativity_value_1 _let_60) (tptp.valence_electron_1 _let_50) (tptp.defense_1 _let_45) (tptp.defense_1 _let_46) (tptp.support_1 _let_43) (tptp.structural_role_1 _let_44) (tptp.electronegativity_value_1 _let_59) (tptp.size_value_1 _let_65) (tptp.size_value_1 _let_64) (tptp.covalent_bond_1 _let_4) (tptp.double_bond_1 _let_4) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.glucose_1 _let_7) (tptp.monosaccharide_1 _let_63) (tptp.tangible_entity_1 _let_61) (tptp.monosaccharide_1 _let_61) (tptp.nitrogen_1 _let_71) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.hydrogen_1 _let_58) (tptp.electronegativity_value_1 _let_69) (tptp.share_1 _let_11) (tptp.unequal_sharing_1 _let_11) (tptp.share_1 _let_67) (tptp.unequal_sharing_1 _let_67) (tptp.hold_1 _let_37) (tptp.hold_together_1 _let_37) (tptp.carbon_skeleton_1 _let_52) (tptp.functional_group_1 _let_1) (tptp.carbonyl_group_1 _let_1) (tptp.hydroxyl_group_1 _let_62) (tptp.attract_1 _let_9) (tptp.electron_1 _let_48) (tptp.valence_electron_1 _let_48) (tptp.entity_1 _let_51) (tptp.atom_1 _let_51) (tptp.chemical_entity_1 _let_51) (tptp.oxygen_1 _let_51) (tptp.entity_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.atom_1 _let_47) (tptp.oxygen_1 _let_47) (tptp.electronegativity_value_1 _let_68) (tptp.quantity_value_1 _let_55) (tptp.speed_value_1 _let_54) (tptp.constant_motion_1 _let_53) (tptp.kinetic_energy_1 _let_56) (tptp.atom_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.chemical_entity_1 _let_66) (tptp.valence_electron_1 _let_49) (tptp.electronegativity_value_1 _let_42) (tptp.share_1 _let_40) (tptp.tangible_entity_1 _let_38) (tptp.electron_1 _let_30) (tptp.electron_1 _let_29) (tptp.valence_electron_1 _let_27) (tptp.valence_electron_1 _let_26) (tptp.valence_electron_1 _let_25) (tptp.hold_together_1 _let_24) (tptp.hold_together_1 _let_22) (tptp.double_bond_1 _let_20) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_13) (tptp.entity_1 _let_12) (tptp.entity_1 _let_10) (tptp.carbon_1 _let_8) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (tptp.is_between_2 _let_4 _let_61) (tptp.is_between_2 _let_4 _let_63) (tptp.has_part_2 X _let_7) (tptp.flexibility_2 X _let_73) (tptp.the_categorical_value_2 _let_73 tptp.flexible_0) (tptp.the_cardinal_value_2 _let_69 |"3.44"|) (tptp.cardinal_unit_class_2 _let_69 tptp.unity_0) (tptp.agent_2 _let_9 _let_58) (tptp.object_2 _let_37 _let_61) (tptp.agent_2 _let_11 _let_28) (tptp.agent_2 _let_9 _let_28) (tptp.possesses_2 X _let_72) (tptp.result_2 _let_67 _let_4) (tptp.electronegativity_2 _let_28 _let_69) (tptp.has_part_2 _let_7 _let_71) (not (= _let_28 _let_71)) (not (= _let_71 _let_28)) (tptp.is_between_2 _let_4 _let_58) (not (= _let_58 _let_28)) (tptp.agent_2 _let_67 _let_28) (tptp.object_2 _let_67 _let_48) (not (= _let_28 _let_58)) (tptp.electronegativity_2 _let_51 _let_68) (not (= _let_59 _let_69)) (not (= _let_69 _let_59)) (not (= _let_68 _let_59)) (tptp.the_cardinal_value_2 _let_68 |"3.44"|) (tptp.cardinal_unit_class_2 _let_68 tptp.unity_0) (not (= _let_59 _let_68)) (tptp.the_cardinal_value_2 _let_59 |"2.1"|) (tptp.cardinal_unit_class_2 _let_59 tptp.unity_0) (tptp.possesses_2 X _let_4) (tptp.possesses_2 X _let_57) (tptp.agent_2 _let_11 _let_58) (tptp.agent_2 _let_11 _let_51) (tptp.agent_2 _let_67 _let_58) (tptp.agent_2 _let_67 _let_47) (tptp.electronegativity_2 _let_47 _let_60) (tptp.the_cardinal_value_2 _let_60 |"3.44"|) (tptp.cardinal_unit_class_2 _let_60 tptp.unity_0) (tptp.size_2 _let_61 _let_64) (tptp.greater_than_2 _let_65 _let_64) (tptp.size_2 X _let_65) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_51 _let_1) (tptp.object_2 _let_37 _let_51) (tptp.object_2 _let_37 _let_58) (tptp.is_inside_2 _let_58 _let_62) (tptp.has_region_2 X _let_62) (tptp.has_part_2 X _let_63) (tptp.has_part_2 X _let_58) (tptp.has_part_2 X _let_51) (tptp.is_inside_2 _let_51 _let_62) (not (= _let_58 _let_51)) (not (= _let_51 _let_58)) (not (= _let_47 _let_51)) (tptp.has_part_2 X _let_47) (tptp.has_part_2 X _let_61) (not (= _let_51 _let_47)) (not (= _let_58 _let_47)) (not (= _let_47 _let_58)) (tptp.is_between_2 _let_57 _let_51) (tptp.is_between_2 _let_57 _let_58) (tptp.electronegativity_2 _let_58 _let_59) (not (= _let_60 _let_59)) (not (= _let_59 _let_60)) (tptp.object_2 _let_53 X) (tptp.speed_2 _let_53 _let_54) (tptp.directly_proportional_2 _let_54 _let_55) (tptp.quantity_2 _let_56 _let_55) (tptp.possesses_2 X _let_56) (tptp.has_part_2 X _let_28) (tptp.is_inside_2 _let_28 _let_52) (tptp.has_region_2 X _let_52) (not (= _let_51 _let_28)) (not (= _let_28 _let_51)) (tptp.has_part_2 _let_28 _let_48) (tptp.is_inside_2 _let_47 _let_1) (tptp.object_2 _let_37 _let_47) (tptp.agent_2 _let_37 _let_4) (tptp.has_function_2 _let_4 _let_37) (tptp.object_2 _let_37 _let_28) (tptp.is_inside_2 _let_28 _let_1) (tptp.is_between_2 _let_4 _let_28) (tptp.is_between_2 _let_4 _let_47) (not (= _let_47 _let_28)) (not (= _let_28 _let_47)) (tptp.instrument_2 _let_46 X) (tptp.has_function_2 X _let_43) (tptp.in_event_2 _let_44 _let_43) (tptp.plays_2 X _let_44) (tptp.instrument_2 _let_45 X) (not (= _let_45 _let_46)) (not (= _let_46 _let_45)) (= _let_61 _let_38) (= _let_28 _let_13) (= _let_28 _let_12) (= _let_28 _let_10) (= _let_72 (tptp.fn_polysaccharide_4 X)) (= _let_69 _let_42) (= _let_28 _let_8) (= _let_71 _let_70) (= _let_48 _let_27) (= _let_48 _let_26) (= _let_67 _let_40) (= _let_28 _let_6) (= _let_28 _let_5) (= _let_58 _let_5) (= _let_58 _let_6) (= _let_51 _let_19) (= (tptp.fn_chitin_12 X) (tptp.fn_carbohydrate_45 X)) (= _let_69 _let_41) (= _let_68 _let_41) (= (tptp.fn_chitin_11 X) (tptp.fn_polysaccharide_20 X)) (= _let_4 _let_21) (= (tptp.fn_chitin_10 X) (tptp.fn_polysaccharide_19 X)) (= (tptp.fn_chitin_9 X) (tptp.fn_polysaccharide_9 X)) (= (tptp.fn_chitin_43 X) (tptp.fn_polysaccharide_2 X)) (= (tptp.fn_chitin_6 X) (tptp.fn_polysaccharide_10 X)) (= (tptp.fn_chitin_44 X) (tptp.fn_polysaccharide_1 X)) (= _let_11 (tptp.fn_polysaccharide_28 X)) (= _let_47 _let_18) (= _let_67 _let_39) (= _let_51 _let_17) (= X _let_66) (= _let_1 _let_15) (= _let_1 _let_14) (= _let_65 (tptp.fn_polysaccharide_21 X)) (= _let_64 (tptp.fn_polysaccharide_22 X)) (= _let_63 (tptp.fn_polysaccharide_24 X)) (= _let_37 _let_23) (= _let_62 (tptp.fn_polysaccharide_16 X)) (= _let_61 _let_36) (= _let_47 _let_19) (= _let_51 _let_31) (= _let_47 _let_17) (= _let_60 (tptp.fn_polysaccharide_12 X)) (= _let_58 _let_33) (= _let_59 _let_35) (= _let_59 _let_34) (= _let_58 _let_32) (= _let_57 (tptp.fn_polysaccharide_25 X)) (= _let_56 (tptp.fn_polysaccharide_3 X)) (= _let_55 (tptp.fn_polysaccharide_7 X)) (= _let_54 (tptp.fn_polysaccharide_6 X)) (= _let_53 (tptp.fn_polysaccharide_5 X)) (= _let_52 (tptp.fn_polysaccharide_18 X)) (= _let_51 _let_18) (= _let_28 _let_3) (= _let_50 _let_49) (= _let_48 _let_30) (= _let_48 _let_29) (= _let_48 _let_25) (= _let_37 _let_24) (= _let_37 _let_22) (= _let_4 _let_20) (= _let_47 _let_16) (= _let_28 _let_2) (= _let_46 (tptp.fn_structural_polysaccharide_3 X)) (= _let_45 (tptp.fn_structural_polysaccharide_1 X)) (= _let_44 (tptp.fn_structural_polysaccharide_6 X)) (= _let_43 (tptp.fn_structural_polysaccharide_4 X)) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_5) (= _let_6 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_19) (= _let_19 _let_31) (= _let_31 _let_31) (= _let_31 _let_17) (= _let_17 _let_31) (= _let_31 _let_18) (= _let_17 _let_18) (= _let_18 _let_30) (= _let_30 _let_29) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chiton_1 X) (and (tptp.original_name_2 X |tptp.'Chiton'|) (tptp.user_description_2 X |tptp.'Member of the molluscan class Polyplacophora, characterized by a dorso-ventrally flattened body and a shell divided into eight dorsal plates.'|) (tptp.concept2words_2 X tptp.chiton) (tptp.mollusc_1 X) (not (tptp.bivalve_1 X)) (not (tptp.cephalopod_1 X)) (not (tptp.gastropod_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chlamydia_1 X) (and (tptp.original_name_2 X |tptp.'Chlamydia'|) (tptp.user_description_2 X |tptp.'Parasitic gram negative bacteria that has to live inside animals to access resources.'|) (tptp.concept2words_2 X tptp.chlamydia) (tptp.gram_negative_bacteria_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chloride_ion_substance_1 X))) (=> (tptp.chloride_ion_substance_1 X) (and (tptp.original_name_2 X |tptp.'Chloride-Ion-Substance'|) (tptp.user_description_2 X |tptp.'Substance consisting of chlorine ions.'|) (tptp.concept2words_2 X |tptp.'chloride ion substance'|) (tptp.concept2words_2 X |tptp.'chloride-ion-substance'|) (tptp.anion_substance_1 X) (tptp.cl_minus_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_anion_substance_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chlorine_8 X))) (let ((_let_2 (tptp.fn_chlorine_10 X))) (let ((_let_3 (tptp.fn_chlorine_9 X))) (let ((_let_4 (tptp.fn_chlorine_12 X))) (let ((_let_5 (tptp.fn_chlorine_11 X))) (let ((_let_6 (tptp.fn_cl_minus_4 _let_5))) (let ((_let_7 (tptp.fn_chlorine_2 X))) (let ((_let_8 (tptp.fn_chlorine_1 X))) (let ((_let_9 (tptp.fn_chlorine_3 X))) (=> (tptp.chlorine_1 X) (and (tptp.original_name_2 X |tptp.'Chlorine'|) (tptp.user_description_2 X |tptp.'Chlorine is a non metal atom with atomic number 17. It is represented by the symbol Cl.'|) (tptp.concept2words_2 X |tptp.'Cl'|) (tptp.concept2words_2 X tptp.chlorine) (tptp.non_metal_atom_1 X) (not (tptp.iodine_1 X)) (tptp.electronegativity_value_1 _let_8) (tptp.atomic_mass_value_1 _let_7) (tptp.neutron_1 _let_9) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.quantity_value_1 _let_2) (tptp.cl_minus_1 _let_5) (tptp.atomic_number_value_1 _let_4) (tptp.chlorine_1 _let_6) (tptp.the_cardinal_value_2 _let_4 |"17"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.electronegativity_2 X _let_8) (tptp.mass_number_2 X _let_7) (tptp.exactCardinality X tptp.has_part_0 |"18"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"17"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"17"| tptp.electron_0) (tptp.has_part_2 X _let_9) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_8 |"3.16"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"35"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"35.45"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.has_ion_2 X _let_5) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= X _let_6) (= (tptp.fn_chlorine_13 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_chlorine_7 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_chlorine_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chloroflexus_13 X))) (let ((_let_2 (tptp.fn_heterotroph_2 _let_1))) (let ((_let_3 (tptp.fn_bacterium_16 X))) (let ((_let_4 (tptp.fn_prokaryote_12 X))) (let ((_let_5 (tptp.fn_bacterium_13 X))) (let ((_let_6 (tptp.fn_organism_3 X))) (let ((_let_7 (tptp.fn_bacterium_5 X))) (let ((_let_8 (tptp.fn_cell_26 X))) (let ((_let_9 (tptp.fn_chloroflexus_3 X))) (let ((_let_10 (tptp.fn_chloroflexus_4 X))) (let ((_let_11 (tptp.fn_chloroflexus_8 X))) (let ((_let_12 (tptp.fn_chloroflexus_6 X))) (let ((_let_13 (tptp.fn_chloroflexus_16 X))) (let ((_let_14 (tptp.fn_chloroflexus_5 X))) (let ((_let_15 (tptp.fn_chloroflexus_9 X))) (let ((_let_16 (tptp.fn_chloroflexus_11 X))) (let ((_let_17 (tptp.fn_chloroflexus_10 X))) (let ((_let_18 (tptp.fn_chloroflexus_1 X))) (let ((_let_19 (tptp.fn_chloroflexus_2 X))) (let ((_let_20 (tptp.fn_chloroflexus_17 X))) (let ((_let_21 (tptp.fn_chloroflexus_7 X))) (let ((_let_22 (tptp.fn_chloroflexus_15 X))) (let ((_let_23 (tptp.fn_chloroflexus_12 X))) (let ((_let_24 (tptp.fn_heterotroph_3 _let_1))) (let ((_let_25 (tptp.fn_chloroflexus_14 X))) (=> (tptp.chloroflexus_1 X) (and (tptp.original_name_2 X |tptp.'Chloroflexus'|) (tptp.user_description_2 X |tptp.'A member of the photosynthetic green non-sulfur bacteria, found in hot springs.'|) (tptp.concept2words_2 X tptp.chloroflexus) (tptp.bacterium_1 X) (tptp.chromosome_1 _let_18) (tptp.prokaryotic_chromosome_1 _let_18) (tptp.nucleoid_1 _let_19) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.ribosome_1 _let_14) (tptp.prokaryotic_ribosome_1 _let_14) (tptp.genome_1 _let_12) (tptp.genotype_1 _let_12) (tptp.water_1 _let_21) (tptp.cell_wall_1 _let_11) (tptp.volume_value_1 _let_15) (tptp.surface_1 _let_17) (tptp.size_value_1 _let_16) (tptp.temperature_value_1 _let_23) (tptp.photoheterotroph_1 _let_1) (tptp.nutrition_1 _let_25) (tptp.specific_heat_value_1 _let_22) (tptp.tangible_entity_1 _let_13) (tptp.phospholipid_bilayer_1 _let_13) (tptp.substance_1 _let_20) (tptp.cytosol_1 _let_20) (tptp.nutrition_1 _let_24) (tptp.organism_1 _let_2) (tptp.is_inside_2 _let_14 _let_20) (tptp.in_event_2 _let_1 _let_25) (tptp.agent_2 _let_25 X) (tptp.plays_2 X _let_1) (tptp.has_part_2 X _let_21) (tptp.specific_heat_2 _let_21 _let_22) (tptp.correspondence_2 _let_23 _let_22) (tptp.temperature_2 X _let_23) (tptp.has_part_2 X _let_18) (tptp.is_inside_2 _let_18 _let_19) (tptp.has_region_2 X _let_19) (tptp.has_part_2 _let_9 _let_20) (tptp.volume_2 X _let_15) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.size_2 X _let_16) (tptp.has_region_2 X _let_17) (tptp.is_at_2 _let_13 _let_17) (tptp.has_part_2 X _let_14) (tptp.has_part_2 _let_10 _let_13) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_9) (tptp.is_inside_2 _let_9 _let_10) (tptp.is_inside_2 _let_10 _let_11) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_10) (= X _let_2) (= _let_25 _let_24) (= (tptp.fn_chloroflexus_18 X) (tptp.fn_organism_6 X)) (= (tptp.fn_chloroflexus_19 X) (tptp.fn_organism_1 X)) (= _let_23 (tptp.fn_organism_2 X)) (= _let_22 (tptp.fn_organism_5 X)) (= _let_21 (tptp.fn_organism_4 X)) (= _let_20 (tptp.fn_prokaryote_10 X)) (= _let_19 (tptp.fn_prokaryote_18 X)) (= _let_18 (tptp.fn_prokaryote_9 X)) (= (tptp.fn_chloroflexus_20 X) (tptp.fn_cell_10 X)) (= (tptp.fn_chloroflexus_21 X) (tptp.fn_cell_23 X)) (= _let_13 _let_8) (= _let_17 (tptp.fn_cell_4 X)) (= _let_16 (tptp.fn_cell_11 X)) (= _let_15 (tptp.fn_cell_22 X)) (= _let_14 (tptp.fn_bacterium_14 X)) (= _let_13 _let_7) (= _let_12 _let_6) (= _let_12 _let_5) (= _let_11 (tptp.fn_bacterium_12 X)) (= _let_10 (tptp.fn_bacterium_15 X)) (= _let_9 _let_4) (= _let_9 _let_3) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chloroform_1 X))) (let ((_let_2 (tptp.fn_solvent_1 _let_1))) (=> (tptp.chloroform_1 X) (and (tptp.original_name_2 X |tptp.'Chloroform'|) (tptp.user_description_2 X |tptp.'Chloroform is an organic compound with formula CHCl3.'|) (tptp.concept2words_2 X tptp.chcl3) (tptp.concept2words_2 X tptp.chloroform) (tptp.nonpolar_substance_1 X) (tptp.solvent_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_pigment_2 X))) (let ((_let_2 (tptp.fn_chlorophyll_7 X))) (let ((_let_3 (tptp.fn_red_light_10 _let_2))) (let ((_let_4 (tptp.fn_chlorophyll_11 X))) (let ((_let_5 (tptp.fn_atp_synthase_37 _let_4))) (let ((_let_6 (tptp.fn_chlorophyll_9 X))) (let ((_let_7 (tptp.fn_chlorophyll_6 X))) (let ((_let_8 (tptp.fn_chlorophyll_8 X))) (let ((_let_9 (tptp.fn_chlorophyll_4 X))) (let ((_let_10 (tptp.fn_chlorophyll_3 X))) (let ((_let_11 (tptp.fn_chlorophyll_10 X))) (let ((_let_12 (tptp.fn_attach_1 _let_11))) (let ((_let_13 (tptp.fn_chlorophyll_5 X))) (let ((_let_14 (tptp.fn_attach_2 _let_11))) (let ((_let_15 (tptp.fn_chlorophyll_2 X))) (=> (tptp.chlorophyll_1 X) (and (tptp.original_name_2 X |tptp.'Chlorophyll'|) (tptp.user_description_2 X |tptp.'A group of green pigments found in chloroplast of photosynthetic organisms; there are four naturally occurring forms.'|) (tptp.concept2words_2 X |tptp.'green pigment'|) (tptp.concept2words_2 X |tptp.'green-pigment'|) (tptp.concept2words_2 X |tptp.'photosynthetic pigment'|) (tptp.concept2words_2 X |tptp.'photosynthetic-pigment'|) (tptp.concept2words_2 X |tptp.'chlorophyll molecule'|) (tptp.concept2words_2 X tptp.chlorophyll) (tptp.photosynthetic_pigment_1 X) (tptp.porphyrin_1 X) (not (tptp.carotenoid_1 X)) (tptp.color_value_1 _let_15) (tptp.magnesium_1 _let_10) (tptp.center_1 _let_9) (tptp.hydrocarbon_chain_1 _let_13) (tptp.move_1 _let_7) (tptp.absorb_1 _let_7) (tptp.red_light_1 _let_2) (tptp.violet_blue_light_1 _let_8) (tptp.thylakoid_membrane_1 _let_6) (tptp.attach_1 _let_11) (tptp.spatial_entity_1 _let_4) (tptp.atp_synthase_1 _let_4) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.move_1 _let_3) (tptp.is_at_2 _let_10 _let_9) (tptp.the_categorical_value_2 _let_15 tptp.green_0) (tptp.color_2 X _let_15) (tptp.has_part_2 X _let_13) (tptp.is_at_2 X _let_6) (tptp.base_2 _let_11 _let_4) (tptp.object_2 _let_11 _let_13) (tptp.object_2 _let_7 _let_2) (tptp.has_part_2 X _let_10) (tptp.has_region_2 X _let_9) (tptp.has_function_2 X _let_7) (tptp.base_2 _let_7 X) (tptp.agent_2 _let_7 X) (tptp.object_2 _let_7 _let_8) (tptp.has_part_2 _let_6 _let_4) (tptp.is_across_2 _let_4 _let_6) (= _let_4 _let_14) (= _let_13 _let_12) (= _let_7 _let_3) (= _let_10 (tptp.fn_organic_molecule_2 X)) (= _let_9 (tptp.fn_porphyrin_5 X)) (= _let_8 (tptp.fn_pigment_1 X)) (= _let_7 _let_1) (= _let_6 _let_5) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrocarbon_molecule_15 X))) (let ((_let_2 (tptp.fn_chlorophyll_a_43 X))) (let ((_let_3 (tptp.fn_share_1 _let_2))) (let ((_let_4 (tptp.fn_chlorophyll_a_42 X))) (let ((_let_5 (tptp.fn_share_1 _let_4))) (let ((_let_6 (tptp.fn_chlorophyll_a_10 X))) (let ((_let_7 (tptp.fn_share_1 _let_6))) (let ((_let_8 (tptp.fn_share_3 _let_2))) (let ((_let_9 (tptp.fn_chlorophyll_a_7 X))) (let ((_let_10 (tptp.fn_share_3 _let_9))) (let ((_let_11 (tptp.fn_share_3 _let_4))) (let ((_let_12 (tptp.fn_chlorophyll_a_32 X))) (let ((_let_13 (tptp.fn_share_3 _let_12))) (let ((_let_14 (tptp.fn_chlorophyll_a_38 X))) (let ((_let_15 (tptp.fn_hydrogen_12 _let_14))) (let ((_let_16 (tptp.fn_hydrocarbon_molecule_11 X))) (let ((_let_17 (tptp.fn_chlorophyll_a_37 X))) (let ((_let_18 (tptp.fn_covalent_bond_15 _let_17))) (let ((_let_19 (tptp.fn_share_2 _let_2))) (let ((_let_20 (tptp.fn_share_2 _let_12))) (let ((_let_21 (tptp.fn_share_2 _let_6))) (let ((_let_22 (tptp.fn_hydrogen_16 _let_14))) (let ((_let_23 (tptp.fn_hydrocarbon_molecule_25 X))) (let ((_let_24 (tptp.fn_chlorophyll_a_15 X))) (let ((_let_25 (tptp.fn_move_into_1 _let_24))) (let ((_let_26 (tptp.fn_chlorophyll_a_19 X))) (let ((_let_27 (tptp.fn_functional_group_1 _let_26))) (let ((_let_28 (tptp.fn_chlorophyll_3 X))) (let ((_let_29 (tptp.fn_covalent_bond_19 _let_17))) (let ((_let_30 (tptp.fn_hydrocarbon_molecule_16 X))) (let ((_let_31 (tptp.fn_methyl_group_11 _let_26))) (let ((_let_32 (tptp.fn_share_1 _let_12))) (let ((_let_33 (tptp.fn_share_1 _let_9))) (let ((_let_34 (tptp.fn_share_3 _let_6))) (let ((_let_35 (tptp.fn_hydrocarbon_molecule_22 X))) (let ((_let_36 (tptp.fn_methyl_group_12 _let_26))) (let ((_let_37 (tptp.fn_hydrocarbon_molecule_8 X))) (let ((_let_38 (tptp.fn_methyl_group_20 _let_26))) (let ((_let_39 (tptp.fn_covalent_bond_18 _let_17))) (let ((_let_40 (tptp.fn_share_2 _let_9))) (let ((_let_41 (tptp.fn_hydrogen_10 _let_14))) (let ((_let_42 (tptp.fn_chlorophyll_a_13 X))) (let ((_let_43 (tptp.fn_hydrogen_17 _let_14))) (let ((_let_44 (tptp.fn_chlorophyll_a_12 X))) (let ((_let_45 (tptp.fn_hydrogen_21 _let_14))) (let ((_let_46 (tptp.fn_hydrogen_7 _let_14))) (let ((_let_47 (tptp.fn_hydrogen_13 _let_14))) (let ((_let_48 (tptp.fn_chlorophyll_a_11 X))) (let ((_let_49 (tptp.fn_hydrogen_15 _let_14))) (let ((_let_50 (tptp.fn_chlorophyll_a_29 X))) (let ((_let_51 (tptp.fn_chlorophyll_a_27 X))) (let ((_let_52 (tptp.fn_hydrogen_14 _let_14))) (let ((_let_53 (tptp.fn_chlorophyll_a_28 X))) (let ((_let_54 (tptp.fn_chlorophyll_a_26 X))) (let ((_let_55 (tptp.fn_chlorophyll_a_39 X))) (let ((_let_56 (tptp.fn_chlorophyll_a_34 X))) (let ((_let_57 (tptp.fn_chlorophyll_a_35 X))) (let ((_let_58 (tptp.fn_chlorophyll_a_36 X))) (let ((_let_59 (tptp.fn_chlorophyll_a_18 X))) (let ((_let_60 (tptp.fn_chlorophyll_a_20 X))) (let ((_let_61 (tptp.fn_chlorophyll_a_5 X))) (let ((_let_62 (tptp.fn_chlorophyll_a_16 X))) (let ((_let_63 (tptp.fn_chlorophyll_a_31 X))) (let ((_let_64 (tptp.fn_chlorophyll_a_6 X))) (let ((_let_65 (tptp.fn_chlorophyll_a_33 X))) (let ((_let_66 (tptp.fn_chlorophyll_a_22 X))) (let ((_let_67 (tptp.fn_chlorophyll_a_30 X))) (let ((_let_68 (tptp.fn_chlorophyll_a_25 X))) (let ((_let_69 (tptp.fn_chlorophyll_a_24 X))) (let ((_let_70 (tptp.fn_chlorophyll_a_23 X))) (let ((_let_71 (tptp.fn_chlorophyll_a_17 X))) (let ((_let_72 (tptp.fn_move_into_2 _let_24))) (let ((_let_73 (tptp.fn_chlorophyll_a_14 X))) (let ((_let_74 (tptp.fn_covalent_bond_17 _let_17))) (let ((_let_75 (tptp.fn_covalent_bond_20 _let_17))) (let ((_let_76 (tptp.fn_chlorophyll_a_21 X))) (let ((_let_77 (tptp.fn_chlorophyll_a_2 X))) (let ((_let_78 (tptp.fn_chlorophyll_a_3 X))) (let ((_let_79 (tptp.fn_chlorophyll_a_1 X))) (=> (tptp.chlorophyll_a_1 X) (and (tptp.original_name_2 X |tptp.'Chlorophyll-A'|) (tptp.user_description_2 X |tptp.'Chlorophyll a is a specific form of chlorophyll used in oxygenic photosynthesis.'|) (tptp.concept2words_2 X |tptp.'chlorophyll a'|) (tptp.concept2words_2 X |tptp.'chlorophyll-a'|) (tptp.chlorophyll_1 X) (not (tptp.chlorophyll_b_1 X)) (tptp.time_interval_1 _let_79) (tptp.time_interval_1 _let_77) (tptp.time_interval_1 _let_78) (tptp.color_value_1 _let_61) (tptp.share_1 _let_64) (tptp.equal_sharing_1 _let_64) (tptp.equal_sharing_1 _let_9) (tptp.equal_sharing_1 _let_6) (tptp.proton_1 _let_48) (tptp.quantity_value_1 _let_44) (tptp.atomic_number_value_1 _let_42) (tptp.container_1 _let_73) (tptp.move_into_1 _let_24) (tptp.move_1 _let_24) (tptp.absorb_1 _let_24) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.carbon_1 _let_62) (tptp.kinetic_energy_1 _let_71) (tptp.center_1 _let_59) (tptp.methyl_group_1 _let_26) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.magnesium_1 _let_60) (tptp.carbon_1 _let_76) (tptp.carbon_skeleton_1 _let_66) (tptp.quantity_value_1 _let_70) (tptp.speed_value_1 _let_69) (tptp.constant_motion_1 _let_68) (tptp.electron_shell_1 _let_54) (tptp.first_electron_shell_1 _let_54) (tptp.entity_1 _let_51) (tptp.electron_1 _let_51) (tptp.valence_electron_1 _let_51) (tptp.center_1 _let_53) (tptp.atomic_nucleus_1 _let_50) (tptp.electron_shell_1 _let_67) (tptp.hold_together_1 _let_63) (tptp.equal_sharing_1 _let_12) (tptp.entity_1 _let_65) (tptp.valence_electron_1 _let_65) (tptp.electron_1 _let_65) (tptp.attach_1 _let_56) (tptp.spatial_entity_1 _let_57) (tptp.atp_synthase_1 _let_57) (tptp.thylakoid_membrane_1 _let_58) (tptp.covalent_bond_1 _let_17) (tptp.single_bond_1 _let_17) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.hydrogen_1 _let_14) (tptp.hydrocarbon_chain_1 _let_55) (tptp.equal_sharing_1 _let_4) (tptp.share_1 _let_2) (tptp.equal_sharing_1 _let_2) (tptp.entity_1 _let_75) (tptp.chemical_entity_1 _let_75) (tptp.atom_1 _let_75) (tptp.share_1 _let_74) (tptp.container_1 _let_72) (tptp.center_1 _let_52) (tptp.atomic_nucleus_1 _let_49) (tptp.proton_1 _let_47) (tptp.property_node_1 _let_46) (tptp.property_node_1 _let_45) (tptp.quantity_value_1 _let_43) (tptp.atomic_number_value_1 _let_41) (tptp.entity_1 _let_40) (tptp.valence_electron_1 _let_39) (tptp.valence_electron_1 _let_38) (tptp.share_1 _let_36) (tptp.entity_1 _let_34) (tptp.entity_1 _let_33) (tptp.entity_1 _let_32) (tptp.carbon_1 _let_31) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.chemical_entity_1 _let_27) (tptp.tangible_entity_1 _let_25) (tptp.electron_shell_1 _let_22) (tptp.first_electron_shell_1 _let_22) (tptp.entity_1 _let_21) (tptp.entity_1 _let_20) (tptp.entity_1 _let_19) (tptp.valence_electron_1 _let_18) (tptp.valence_electron_1 _let_15) (tptp.entity_1 _let_13) (tptp.entity_1 _let_11) (tptp.entity_1 _let_10) (tptp.entity_1 _let_8) (tptp.entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.entity_1 _let_3) (tptp.result_2 _let_9 _let_17) (tptp.object_2 _let_9 _let_51) (tptp.result_2 _let_6 _let_17) (tptp.object_2 _let_6 _let_65) (tptp.path_2 _let_24 _let_59) (tptp.time_during_2 _let_24 _let_79) (tptp.has_part_2 X _let_76) (tptp.is_inside_2 _let_76 _let_26) (tptp.time_before_2 _let_78 _let_79) (tptp.time_before_2 _let_78 _let_77) (tptp.object_2 _let_12 _let_65) (tptp.result_2 _let_12 _let_17) (tptp.result_2 _let_2 _let_17) (tptp.object_2 _let_6 _let_51) (tptp.object_2 _let_12 _let_51) (tptp.object_2 _let_9 _let_65) (tptp.object_2 _let_2 _let_51) (tptp.agent_2 _let_6 _let_62) (tptp.agent_2 _let_12 _let_14) (tptp.agent_2 _let_6 _let_14) (tptp.agent_2 _let_4 _let_14) (tptp.agent_2 _let_9 _let_14) (tptp.agent_2 _let_2 _let_14) (tptp.agent_2 _let_9 _let_62) (tptp.agent_2 _let_12 _let_62) (not (= _let_60 _let_62)) (not (= _let_62 _let_60)) (tptp.has_region_2 X _let_26) (tptp.object_2 _let_4 _let_65) (tptp.object_2 _let_4 _let_51) (tptp.result_2 _let_4 _let_17) (tptp.agent_2 _let_4 _let_62) (not (= _let_62 _let_76)) (not (= _let_76 _let_60)) (not (= _let_76 _let_62)) (not (= _let_60 _let_76)) (tptp.in_event_2 _let_73 _let_24) (tptp.plays_2 X _let_73) (tptp.is_inside_2 _let_62 _let_26) (tptp.agent_2 _let_64 _let_62) (tptp.object_2 _let_64 _let_65) (tptp.object_2 _let_63 _let_62) (tptp.possesses_2 X _let_17) (tptp.object_2 _let_64 _let_51) (tptp.object_2 _let_68 X) (tptp.speed_2 _let_68 _let_69) (tptp.directly_proportional_2 _let_69 _let_70) (tptp.quantity_2 _let_71 _let_70) (tptp.possesses_2 X _let_71) (tptp.is_inside_2 _let_62 _let_66) (tptp.has_region_2 X _let_66) (tptp.has_part_2 X _let_62) (tptp.has_region_2 _let_62 _let_67) (not (= _let_67 _let_54)) (not (= _let_54 _let_67)) (tptp.agent_2 _let_2 _let_62) (tptp.object_2 _let_2 _let_65) (tptp.has_part_2 _let_62 _let_65) (not (= _let_51 _let_65)) (not (= _let_65 _let_51)) (tptp.result_2 _let_64 _let_17) (tptp.agent_2 _let_64 _let_14) (tptp.object_2 _let_63 _let_14) (tptp.agent_2 _let_63 _let_17) (tptp.is_between_2 _let_17 _let_62) (tptp.has_part_2 X _let_14) (tptp.is_between_2 _let_17 _let_14) (tptp.has_function_2 _let_17 _let_63) (not (= _let_62 _let_14)) (not (= _let_14 _let_62)) (tptp.has_function_2 X _let_24) (tptp.is_at_2 X _let_58) (tptp.agent_2 _let_24 X) (tptp.base_2 _let_24 X) (tptp.has_region_2 X _let_59) (tptp.is_at_2 _let_60 _let_59) (tptp.has_part_2 X _let_60) (tptp.has_part_2 X _let_55) (tptp.object_2 _let_56 _let_55) (tptp.base_2 _let_56 _let_57) (tptp.is_across_2 _let_57 _let_58) (tptp.has_part_2 _let_58 _let_57) (tptp.has_part_2 _let_14 _let_51) (tptp.has_region_2 _let_14 _let_54) (tptp.is_inside_2 _let_50 _let_54) (tptp.is_inside_2 _let_48 _let_50) (tptp.has_part_2 _let_14 _let_48) (tptp.is_near_2 _let_50 _let_51) (tptp.is_near_2 _let_51 _let_50) (tptp.has_region_2 _let_14 _let_53) (tptp.is_at_2 _let_50 _let_53) (tptp.has_region_2 _let_14 _let_50) (= _let_44 _let_42) (= _let_42 _let_44) (tptp.called_2 _let_44 |tptp.'Number_Proton'|) (tptp.quantity_2 _let_48 _let_44) (tptp.atomic_number_2 _let_14 _let_42) (tptp.the_cardinal_value_2 _let_42 |"1"|) (tptp.cardinal_unit_class_2 _let_42 tptp.unity_0) (tptp.called_2 _let_42 |tptp.'Atomic_Number'|) (= _let_51 _let_21) (= _let_51 _let_20) (= _let_65 _let_40) (= _let_51 _let_19) (= _let_14 _let_13) (= _let_14 _let_7) (= _let_14 _let_11) (= _let_14 _let_5) (= _let_14 _let_10) (= _let_14 _let_8) (= _let_14 _let_3) (= _let_62 _let_33) (= _let_62 _let_34) (= _let_60 _let_7) (= _let_60 _let_13) (= _let_62 _let_32) (= X _let_27) (= _let_65 _let_39) (= _let_51 _let_18) (= _let_60 _let_29) (= _let_76 _let_75) (= _let_62 _let_29) (= _let_4 _let_74) (= X _let_25) (= _let_73 _let_72) (= _let_65 _let_38) (= _let_64 _let_36) (= _let_62 _let_31) (= (tptp.fn_chlorophyll_a_40 X) (tptp.fn_hydrocarbon_molecule_6 X)) (= (tptp.fn_chlorophyll_a_41 X) (tptp.fn_hydrocarbon_molecule_5 X)) (= _let_71 (tptp.fn_hydrocarbon_molecule_30 X)) (= _let_70 (tptp.fn_hydrocarbon_molecule_27 X)) (= _let_69 (tptp.fn_hydrocarbon_molecule_28 X)) (= _let_68 (tptp.fn_hydrocarbon_molecule_29 X)) (= _let_54 _let_23) (= _let_67 (tptp.fn_hydrocarbon_molecule_20 X)) (= _let_66 (tptp.fn_hydrocarbon_molecule_17 X)) (= _let_51 _let_16) (= _let_65 _let_37) (= _let_2 _let_35) (= _let_64 _let_35) (= _let_63 (tptp.fn_hydrocarbon_molecule_21 X)) (= _let_17 (tptp.fn_hydrocarbon_molecule_14 X)) (= _let_62 _let_30) (= _let_14 _let_1) (= (tptp.fn_chlorophyll_a_4 X) (tptp.fn_chlorophyll_1 X)) (= _let_61 (tptp.fn_chlorophyll_2 X)) (= _let_60 _let_28) (= _let_59 (tptp.fn_chlorophyll_4 X)) (= _let_24 (tptp.fn_chlorophyll_6 X)) (= _let_58 (tptp.fn_chlorophyll_9 X)) (= _let_57 (tptp.fn_chlorophyll_11 X)) (= _let_56 (tptp.fn_chlorophyll_10 X)) (= _let_55 (tptp.fn_chlorophyll_5 X)) (= _let_54 _let_22) (= _let_53 _let_52) (= _let_51 _let_15) (= _let_50 _let_49) (= _let_48 _let_47) (= (tptp.fn_chlorophyll_a_8 X) _let_46) (= (tptp.fn_chlorophyll_a_9 X) _let_45) (= _let_44 _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_34) (= _let_32 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_29) (= _let_29 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_7) (= _let_7 _let_13) (= _let_13 _let_13) (= _let_13 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_7) (= _let_7 _let_11) (= _let_11 _let_5) (= _let_5 _let_10) (= _let_10 _let_8) (= _let_8 _let_3) (= _let_3 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chlorophyll_b_52 X))) (let ((_let_2 (tptp.fn_share_1 _let_1))) (let ((_let_3 (tptp.fn_share_3 _let_1))) (let ((_let_4 (tptp.fn_chlorophyll_b_51 X))) (let ((_let_5 (tptp.fn_share_1 _let_4))) (let ((_let_6 (tptp.fn_share_3 _let_4))) (let ((_let_7 (tptp.fn_chlorophyll_b_10 X))) (let ((_let_8 (tptp.fn_share_1 _let_7))) (let ((_let_9 (tptp.fn_share_3 _let_7))) (let ((_let_10 (tptp.fn_chlorophyll_b_30 X))) (let ((_let_11 (tptp.fn_share_3 _let_10))) (let ((_let_12 (tptp.fn_hydrocarbon_molecule_15 X))) (let ((_let_13 (tptp.fn_chlorophyll_b_23 X))) (let ((_let_14 (tptp.fn_hydrogen_15 _let_13))) (let ((_let_15 (tptp.fn_hydrocarbon_molecule_18 X))) (let ((_let_16 (tptp.fn_chlorophyll_b_21 X))) (let ((_let_17 (tptp.fn_covalent_bond_22 _let_16))) (let ((_let_18 (tptp.fn_hydrogen_16 _let_13))) (let ((_let_19 (tptp.fn_hydrocarbon_molecule_25 X))) (let ((_let_20 (tptp.fn_covalent_bond_12 _let_16))) (let ((_let_21 (tptp.fn_hydrogen_12 _let_13))) (let ((_let_22 (tptp.fn_hydrocarbon_molecule_8 X))) (let ((_let_23 (tptp.fn_chlorophyll_b_40 X))) (let ((_let_24 (tptp.fn_covalent_bond_15 _let_23))) (let ((_let_25 (tptp.fn_covalent_bond_15 _let_16))) (let ((_let_26 (tptp.fn_hydrogen_14 _let_13))) (let ((_let_27 (tptp.fn_hydrocarbon_molecule_24 X))) (let ((_let_28 (tptp.fn_share_2 _let_1))) (let ((_let_29 (tptp.fn_hydrocarbon_molecule_11 X))) (let ((_let_30 (tptp.fn_share_2 _let_10))) (let ((_let_31 (tptp.fn_chlorophyll_b_19 X))) (let ((_let_32 (tptp.fn_atom_14 _let_31))) (let ((_let_33 (tptp.fn_covalent_bond_18 _let_23))) (let ((_let_34 (tptp.fn_covalent_bond_18 _let_16))) (let ((_let_35 (tptp.fn_carbon_10 _let_31))) (let ((_let_36 (tptp.fn_hydrocarbon_molecule_16 X))) (let ((_let_37 (tptp.fn_chlorophyll_b_45 X))) (let ((_let_38 (tptp.fn_carbonyl_group_7 _let_37))) (let ((_let_39 (tptp.fn_covalent_bond_19 _let_16))) (let ((_let_40 (tptp.fn_covalent_bond_19 _let_23))) (let ((_let_41 (tptp.fn_covalent_bond_20 _let_16))) (let ((_let_42 (tptp.fn_covalent_bond_20 _let_23))) (let ((_let_43 (tptp.fn_chlorophyll_b_7 X))) (let ((_let_44 (tptp.fn_share_1 _let_43))) (let ((_let_45 (tptp.fn_share_1 _let_10))) (let ((_let_46 (tptp.fn_share_3 _let_43))) (let ((_let_47 (tptp.fn_carbon_18 _let_31))) (let ((_let_48 (tptp.fn_hydrocarbon_molecule_23 X))) (let ((_let_49 (tptp.fn_atom_18 _let_31))) (let ((_let_50 (tptp.fn_covalent_bond_24 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((_let_114 (tptp.fn_chlorophyll_b_41 X))) (let ((_let_115 (tptp.fn_covalent_bond_17 _let_23))) (let ((_let_116 (tptp.fn_covalent_bond_17 _let_16))) (let ((_let_117 (tptp.fn_chlorophyll_b_4 X))) (let ((_let_118 (tptp.fn_chlorophyll_b_3 X))) (let ((_let_119 (tptp.fn_chlorophyll_b_2 X))) (let ((_let_120 (tptp.fn_chlorophyll_b_1 X))) (=> (tptp.chlorophyll_b_1 X) (and (tptp.original_name_2 X |tptp.'Chlorophyll-B'|) (tptp.user_description_2 X |tptp.'Chlorophyll b is a form of chlorophyll. Chlorophyll b helps in photosynthesis by absorbing light energy and it is more soluble than chlorophyll a because of its carbonyl group. Its color is green.'|) (tptp.concept2words_2 X |tptp.'b of chlorophyll'|) (tptp.concept2words_2 X |tptp.'chlorophyll b'|) (tptp.concept2words_2 X |tptp.'chlorophyll-b'|) (tptp.accessory_pigment_1 X) (tptp.chlorophyll_1 X) (not (tptp.chlorophyll_a_1 X)) (tptp.time_interval_1 _let_120) (tptp.time_interval_1 _let_119) (tptp.time_interval_1 _let_118) (tptp.time_interval_1 _let_117) (tptp.color_value_1 _let_100) (tptp.share_1 _let_43) (tptp.equal_sharing_1 _let_43) (tptp.equal_sharing_1 _let_7) (tptp.proton_1 _let_84) (tptp.center_1 _let_86) (tptp.atomic_number_value_1 _let_76) (tptp.quantity_value_1 _let_79) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.carbon_1 _let_31) (tptp.container_1 _let_113) (tptp.covalent_bond_1 _let_16) (tptp.single_bond_1 _let_16) (tptp.hydrocarbon_chain_1 _let_94) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.entity_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.thylakoid_membrane_1 _let_97) (tptp.spatial_entity_1 _let_96) (tptp.atp_synthase_1 _let_96) (tptp.attach_1 _let_95) (tptp.electron_shell_1 _let_81) (tptp.first_electron_shell_1 _let_81) (tptp.atomic_nucleus_1 _let_82) (tptp.hold_together_1 _let_103) (tptp.equal_sharing_1 _let_10) (tptp.atomic_nucleus_1 _let_88) (tptp.electron_shell_1 _let_109) (tptp.proton_1 _let_89) (tptp.electron_1 _let_87) (tptp.valence_electron_1 _let_87) (tptp.entity_1 _let_87) (tptp.atomic_number_value_1 _let_91) (tptp.center_1 _let_104) (tptp.quantity_value_1 _let_90) (tptp.oxygen_1 _let_111) (tptp.carbon_skeleton_1 _let_102) (tptp.covalent_bond_1 _let_23) (tptp.double_bond_1 _let_23) (tptp.nitrogen_1 _let_114) (tptp.entity_1 _let_114) (tptp.chemical_entity_1 _let_114) (tptp.atom_1 _let_114) (tptp.entity_1 _let_99) (tptp.chemical_entity_1 _let_99) (tptp.atom_1 _let_99) (tptp.magnesium_1 _let_99) (tptp.center_1 _let_98) (tptp.take_in_1 _let_60) (tptp.move_into_1 _let_60) (tptp.move_1 _let_60) (tptp.absorb_1 _let_60) (tptp.carbonyl_group_1 _let_37) (tptp.kinetic_energy_1 _let_108) (tptp.quantity_value_1 _let_107) (tptp.speed_value_1 _let_106) (tptp.constant_motion_1 _let_105) (tptp.electron_1 _let_85) (tptp.valence_electron_1 _let_85) (tptp.equal_sharing_1 _let_4) (tptp.equal_sharing_1 _let_1) (tptp.share_1 _let_1) (tptp.share_1 _let_116) (tptp.share_1 _let_115) (tptp.container_1 _let_112) (tptp.oxygen_1 _let_110) (tptp.property_node_1 _let_93) (tptp.property_node_1 _let_92) (tptp.proton_1 _let_83) (tptp.property_node_1 _let_80) (tptp.quantity_value_1 _let_78) (tptp.property_node_1 _let_77) (tptp.atomic_number_value_1 _let_75) (tptp.double_bond_1 _let_72) (tptp.electron_shell_1 _let_71) (tptp.electron_shell_1 _let_70) (tptp.center_1 _let_68) (tptp.hold_together_1 _let_66) (tptp.chemical_entity_1 _let_63) (tptp.tangible_entity_1 _let_62) (tptp.tangible_entity_1 _let_61) (tptp.atomic_number_value_1 _let_59) (tptp.atomic_number_value_1 _let_58) (tptp.atomic_number_value_1 _let_57) (tptp.quantity_value_1 _let_56) (tptp.quantity_value_1 _let_55) (tptp.quantity_value_1 _let_54) (tptp.proton_1 _let_53) (tptp.proton_1 _let_52) (tptp.proton_1 _let_51) (tptp.atomic_nucleus_1 _let_50) (tptp.atomic_nucleus_1 _let_49) (tptp.atomic_nucleus_1 _let_47) (tptp.entity_1 _let_46) (tptp.entity_1 _let_45) (tptp.entity_1 _let_44) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.carbon_1 _let_38) (tptp.electron_1 _let_35) (tptp.valence_electron_1 _let_34) (tptp.valence_electron_1 _let_33) (tptp.electron_1 _let_32) (tptp.entity_1 _let_30) (tptp.entity_1 _let_28) (tptp.center_1 _let_26) (tptp.valence_electron_1 _let_25) (tptp.valence_electron_1 _let_24) (tptp.valence_electron_1 _let_21) (tptp.electron_shell_1 _let_20) (tptp.electron_shell_1 _let_18) (tptp.first_electron_shell_1 _let_18) (tptp.atomic_nucleus_1 _let_17) (tptp.atomic_nucleus_1 _let_14) (tptp.entity_1 _let_11) (tptp.entity_1 _let_9) (tptp.entity_1 _let_8) (tptp.entity_1 _let_6) (tptp.entity_1 _let_5) (tptp.entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.object_2 _let_1 _let_85) (tptp.time_before_2 _let_118 _let_120) (tptp.time_before_2 _let_118 _let_119) (tptp.time_before_2 _let_118 _let_117) (tptp.has_part_2 X _let_111) (tptp.time_during_2 _let_60 _let_117) (tptp.path_2 _let_60 _let_98) (tptp.object_2 _let_10 _let_85) (tptp.result_2 _let_10 _let_16) (tptp.result_2 _let_43 _let_16) (tptp.object_2 _let_10 _let_87) (tptp.agent_2 _let_10 _let_13) (tptp.agent_2 _let_7 _let_13) (tptp.agent_2 _let_10 _let_31) (tptp.agent_2 _let_43 _let_31) (tptp.agent_2 _let_4 _let_13) (tptp.has_region_2 X _let_37) (tptp.possesses_2 X _let_23) (tptp.has_part_2 X _let_114) (tptp.object_2 _let_4 _let_87) (tptp.object_2 _let_4 _let_85) (tptp.result_2 _let_4 _let_16) (tptp.agent_2 _let_4 _let_31) (not (= _let_99 _let_31)) (not (= _let_31 _let_99)) (tptp.result_2 _let_7 _let_16) (tptp.object_2 _let_7 _let_87) (tptp.is_between_2 _let_23 _let_114) (not (= _let_114 _let_31)) (tptp.agent_2 _let_7 _let_31) (tptp.object_2 _let_7 _let_85) (not (= _let_31 _let_114)) (tptp.in_event_2 _let_113 _let_60) (tptp.plays_2 X _let_113) (tptp.is_inside_2 _let_111 _let_37) (tptp.is_inside_2 _let_31 _let_37) (tptp.is_between_2 _let_23 _let_31) (tptp.is_between_2 _let_23 _let_111) (not (= _let_111 _let_31)) (not (= _let_31 _let_111)) (tptp.has_part_2 _let_31 _let_87) (tptp.is_at_2 _let_88 _let_104) (not (= _let_81 _let_109)) (not (= _let_109 _let_81)) (tptp.has_function_2 _let_16 _let_103) (tptp.agent_2 _let_103 _let_16) (tptp.possesses_2 X _let_16) (tptp.has_part_2 X _let_31) (tptp.has_region_2 _let_31 _let_109) (tptp.object_2 _let_105 X) (tptp.speed_2 _let_105 _let_106) (tptp.directly_proportional_2 _let_106 _let_107) (tptp.quantity_2 _let_108 _let_107) (tptp.possesses_2 X _let_108) (tptp.is_between_2 _let_16 _let_13) (tptp.object_2 _let_103 _let_13) (tptp.object_2 _let_103 _let_31) (tptp.has_region_2 _let_31 _let_104) (not (= _let_104 _let_86)) (not (= _let_86 _let_104)) (tptp.agent_2 _let_1 _let_31) (tptp.result_2 _let_1 _let_16) (tptp.is_between_2 _let_16 _let_31) (tptp.is_inside_2 _let_31 _let_102) (tptp.has_region_2 X _let_102) (tptp.object_2 _let_43 _let_85) (not (= _let_85 _let_87)) (tptp.is_near_2 _let_87 _let_88) (not (= _let_87 _let_85)) (tptp.is_near_2 _let_88 _let_87) (not (= _let_82 _let_88)) (not (= _let_88 _let_82)) (tptp.has_part_2 X _let_13) (tptp.agent_2 _let_43 _let_13) (tptp.object_2 _let_43 _let_87) (not (= _let_31 _let_13)) (not (= _let_13 _let_31)) (tptp.is_at_2 X _let_97) (tptp.has_function_2 X _let_60) (tptp.agent_2 _let_60 X) (tptp.base_2 _let_60 X) (tptp.has_region_2 X _let_98) (tptp.is_at_2 _let_99 _let_98) (tptp.has_part_2 X _let_99) (tptp.has_part_2 X _let_94) (tptp.object_2 _let_95 _let_94) (tptp.base_2 _let_95 _let_96) (tptp.is_across_2 _let_96 _let_97) (tptp.has_part_2 _let_97 _let_96) (tptp.has_part_2 _let_31 _let_89) (tptp.called_2 _let_90 |tptp.'Number_Proton'|) (tptp.atomic_number_2 _let_31 _let_91) (tptp.called_2 _let_91 |tptp.'Atomic_Number'|) (tptp.has_region_2 _let_31 _let_88) (tptp.is_inside_2 _let_89 _let_88) (tptp.quantity_2 _let_89 _let_90) (= _let_91 _let_90) (= _let_90 _let_91) (tptp.is_near_2 _let_82 _let_85) (tptp.has_part_2 _let_13 _let_84) (tptp.has_region_2 _let_13 _let_86) (tptp.is_at_2 _let_82 _let_86) (tptp.is_near_2 _let_85 _let_82) (tptp.has_part_2 _let_13 _let_85) (tptp.quantity_2 _let_84 _let_79) (tptp.is_inside_2 _let_84 _let_82) (tptp.has_region_2 _let_13 _let_82) (tptp.has_region_2 _let_13 _let_81) (tptp.is_inside_2 _let_82 _let_81) (= _let_76 _let_79) (= _let_79 _let_76) (tptp.called_2 _let_76 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 _let_13 _let_76) (tptp.called_2 _let_79 |tptp.'Number_Proton'|) (tptp.the_cardinal_value_2 _let_76 |"1"|) (tptp.cardinal_unit_class_2 _let_76 tptp.unity_0) (tptp.agent_2 _let_1 _let_13) (tptp.object_2 _let_1 _let_87) (= _let_87 _let_30) (= _let_13 _let_11) (= _let_13 _let_9) (= _let_13 _let_8) (= _let_31 _let_45) (= _let_31 _let_46) (= _let_31 _let_44) (= _let_13 _let_6) (= _let_13 _let_5) (= X _let_63) (= _let_23 _let_73) (= _let_114 _let_74) (= _let_87 _let_34) (= _let_85 _let_25) (= _let_99 _let_41) (= _let_4 _let_116) (= _let_87 _let_33) (= _let_85 _let_24) (= _let_7 _let_115) (= _let_31 _let_42) (= _let_31 _let_40) (= _let_114 _let_40) (= _let_114 _let_42) (= X _let_62) (= _let_113 _let_112) (= _let_23 _let_72) (= _let_111 _let_110) (= _let_31 _let_38) (= _let_87 _let_22) (= (tptp.fn_chlorophyll_b_18 X) (tptp.fn_hydrocarbon_molecule_5 X)) (= _let_104 _let_68) (= _let_88 _let_15) (= (tptp.fn_chlorophyll_b_17 X) (tptp.fn_hydrocarbon_molecule_6 X)) (= _let_81 _let_20) (= _let_81 _let_19) (= _let_109 _let_71) (= _let_109 _let_70) (= _let_109 _let_69) (= _let_108 (tptp.fn_hydrocarbon_molecule_30 X)) (= _let_107 (tptp.fn_hydrocarbon_molecule_27 X)) (= _let_106 (tptp.fn_hydrocarbon_molecule_28 X)) (= _let_105 (tptp.fn_hydrocarbon_molecule_29 X)) (= _let_86 _let_27) (= _let_104 _let_67) (= _let_103 _let_66) (= _let_103 _let_65) (= _let_102 (tptp.fn_hydrocarbon_molecule_17 X)) (= _let_16 (tptp.fn_hydrocarbon_molecule_14 X)) (= _let_1 _let_101) (= _let_82 _let_17) (= _let_82 _let_15) (= _let_87 _let_35) (= _let_87 _let_32) (= _let_88 _let_48) (= _let_85 _let_22) (= _let_87 _let_29) (= _let_43 _let_101) (= _let_31 _let_36) (= _let_13 _let_12) (= (tptp.fn_chlorophyll_b_5 X) (tptp.fn_chlorophyll_1 X)) (= _let_100 (tptp.fn_chlorophyll_2 X)) (= _let_99 _let_64) (= _let_98 (tptp.fn_chlorophyll_4 X)) (= X _let_61) (= _let_60 (tptp.fn_chlorophyll_6 X)) (= _let_97 (tptp.fn_chlorophyll_9 X)) (= _let_96 (tptp.fn_chlorophyll_11 X)) (= _let_95 (tptp.fn_chlorophyll_10 X)) (= _let_94 (tptp.fn_chlorophyll_5 X)) (= (tptp.fn_chlorophyll_b_16 X) _let_93) (= (tptp.fn_chlorophyll_b_15 X) _let_92) (= _let_91 _let_59) (= _let_91 _let_58) (= _let_91 _let_57) (= _let_90 _let_56) (= _let_89 _let_52) (= _let_90 _let_55) (= _let_90 _let_54) (= _let_89 _let_53) (= _let_89 _let_51) (= _let_31 _let_39) (= _let_88 _let_17) (= _let_31 _let_41) (= _let_88 _let_50) (= _let_88 _let_49) (= _let_88 _let_47) (= _let_87 _let_28) (= _let_13 _let_3) (= _let_13 _let_2) (= _let_86 _let_26) (= _let_85 _let_21) (= _let_84 _let_83) (= _let_82 _let_14) (= _let_81 _let_18) (= (tptp.fn_chlorophyll_b_8 X) _let_80) (= _let_79 _let_78) (= (tptp.fn_chlorophyll_b_9 X) _let_77) (= _let_76 _let_75) (= _let_74 _let_40) (= _let_42 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_65 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_41) (= _let_41 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_17) (= _let_17 _let_17) (= _let_17 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_15 _let_49) (= _let_49 _let_49) (= _let_49 _let_15) (= _let_15 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_39 _let_42) (= _let_40 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_39 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_33 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_22 _let_32) (= _let_32 _let_22) (= _let_22 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_15 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_11) (= _let_9 _let_6) (= _let_6 _let_12) (= _let_12 _let_12) (= _let_12 _let_3) (= _let_3 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chlorophyta_1 X) (and (tptp.original_name_2 X |tptp.'Chlorophyta'|) (tptp.user_description_2 X |tptp.'A division of green algae; includes about 7000 species of mostly aquatic photosynthetic eukaryotic organisms.'|) (tptp.concept2words_2 X |tptp.'green alga'|) (tptp.concept2words_2 X |tptp.'green-alga'|) (tptp.concept2words_2 X |tptp.'green algae'|) (tptp.concept2words_2 X |tptp.'green-algae'|) (tptp.concept2words_2 X tptp.chlorophyta) (tptp.protist_1 X) (not (tptp.alveolate_1 X)) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chloroplast_91 X))) (let ((_let_2 (tptp.fn_thylakoid_1 _let_1))) (let ((_let_3 (tptp.fn_chloroplast_80 X))) (let ((_let_4 (tptp.fn_chloroplast_membrane_40 _let_3))) (let ((_let_5 (tptp.fn_chloroplast_membrane_30 _let_3))) (let ((_let_6 (tptp.fn_chloroplast_96 X))) (let ((_let_7 (tptp.fn_stroma_7 _let_6))) (let ((_let_8 (tptp.fn_thylakoid_4 _let_1))) (let ((_let_9 (tptp.fn_chloroplast_membrane_27 _let_3))) (let ((_let_10 (tptp.fn_stroma_1 _let_6))) (let ((_let_11 (tptp.fn_stroma_6 _let_6))) (let ((_let_12 (tptp.fn_stroma_4 _let_6))) (let ((_let_13 (tptp.fn_chloroplast_32 X))) (let ((_let_14 (tptp.fn_synthesis_of_protein_16 _let_13))) (let ((_let_15 (tptp.fn_anabolic_pathway_5 _let_13))) (let ((_let_16 (tptp.fn_stroma_3 _let_6))) (let ((_let_17 (tptp.fn_synthesis_of_protein_10 _let_13))) (let ((_let_18 (tptp.fn_thylakoid_5 _let_1))) (let ((_let_19 (tptp.fn_chloroplast_70 X))) (let ((_let_20 (tptp.fn_facilitated_diffusion_49 _let_19))) (let ((_let_21 (tptp.fn_thylakoid_3 _let_1))) (let ((_let_22 (tptp.fn_chloroplast_79 X))) (let ((_let_23 (tptp.fn_photosynthesis_35 _let_22))) (let ((_let_24 (tptp.fn_chloroplast_55 X))) (let ((_let_25 (tptp.fn_protein_enzyme_3 _let_24))) (let ((_let_26 (tptp.fn_protein_9 _let_24))) (let ((_let_27 (tptp.fn_protein_enzyme_9 _let_24))) (let ((_let_28 (tptp.fn_polymer_4 _let_24))) (let ((_let_29 (tptp.fn_protein_enzyme_10 _let_24))) (let ((_let_30 (tptp.fn_enzyme_2 _let_24))) (let ((_let_31 (tptp.fn_chloroplast_48 X))) (let ((_let_32 (tptp.fn_carbon_skeleton_3 _let_31))) (let ((_let_33 (tptp.fn_chloroplast_35 X))) (let ((_let_34 (tptp.fn_light_harvesting_complex_20 _let_33))) (let ((_let_35 (tptp.fn_chloroplast_99 X))) (let ((_let_36 (tptp.fn_attach_2 _let_35))) (let ((_let_37 (tptp.fn_chloroplast_72 X))) (let ((_let_38 (tptp.fn_chlorophyll_a_21 _let_37))) (let ((_let_39 (tptp.fn_chlorophyll_a_16 _let_37))) (let ((_let_40 (tptp.fn_light_harvesting_complex_5 _let_33))) (let ((_let_41 (tptp.fn_carbon_skeleton_4 _let_31))) (let ((_let_42 (tptp.fn_chlorophyll_a_38 _let_37))) (let ((_let_43 (tptp.fn_carbon_skeleton_2 _let_31))) (let ((_let_44 (tptp.fn_chlorophyll_a_37 _let_37))) (let ((_let_45 (tptp.fn_carbon_skeleton_5 _let_31))) (let ((_let_46 (tptp.fn_photosynthesis_34 _let_22))) (let ((_let_47 (tptp.fn_chloroplast_67 X))) (let ((_let_48 (tptp.fn_blue_light_3 _let_47))) (let ((_let_49 (tptp.fn_chloroplast_66 X))) (let ((_let_50 (tptp.fn_yellow_light_1 _let_49))) (let ((_let_51 (tptp.fn_chloroplast_65 X))) (let ((_let_52 (tptp.fn_orange_light_1 _let_51))) (let ((_let_53 (tptp.fn_chloroplast_64 X))) (let ((_let_54 (tptp.fn_red_light_1 _let_53))) (let ((_let_55 (tptp.fn_chloroplast_63 X))) (let ((_let_56 (tptp.fn_violet_light_1 _let_55))) (let ((_let_57 (tptp.fn_chloroplast_78 X))) (let ((_let_58 (tptp.fn_energy_transformation_by_organism_2 _let_57))) (let ((_let_59 (tptp.fn_photosynthesis_40 _let_22))) (let ((_let_60 (tptp.fn_energy_transformation_by_organism_1 _let_57))) (let ((_let_61 (tptp.fn_photosynthesis_1 _let_22))) (let ((_let_62 (tptp.fn_light_harvesting_complex_17 _let_33))) (let ((_let_63 (tptp.fn_light_harvesting_complex_16 _let_33))) (let ((_let_64 (tptp.fn_light_harvesting_complex_15 _let_33))) (let ((_let_65 (tptp.fn_light_harvesting_complex_18 _let_33))) (let ((_let_66 (tptp.fn_light_harvesting_complex_13 _let_33))) (let ((_let_67 (tptp.fn_light_harvesting_complex_14 _let_33))) (let ((_let_68 (tptp.fn_attach_1 _let_35))) (let ((_let_69 (tptp.fn_light_harvesting_complex_4 _let_33))) (let ((_let_70 (tptp.fn_porphyrin_7 _let_37))) (let ((_let_71 (tptp.fn_chloroplast_73 X))) (let ((_let_72 (tptp.fn_chlorophyll_b_44 _let_71))) (let ((_let_73 (tptp.fn_chlorophyll_6 _let_71))) (let ((_let_74 (tptp.fn_chloroplast_34 X))) (let ((_let_75 (tptp.fn_biomembrane_55 _let_74))) (let ((_let_76 (tptp.fn_facilitated_diffusion_26 _let_19))) (let ((_let_77 (tptp.fn_chloroplast_101 X))) (let ((_let_78 (tptp.fn_attach_1 _let_77))) (let ((_let_79 (tptp.fn_chloroplast_92 X))) (let ((_let_80 (tptp.fn_attach_1 _let_79))) (let ((_let_81 (tptp.fn_chloroplast_93 X))) (let ((_let_82 (tptp.fn_detach_1 _let_81))) (let ((_let_83 (tptp.fn_biomembrane_52 _let_74))) (let ((_let_84 (tptp.fn_facilitated_diffusion_55 _let_19))) (let ((_let_85 (tptp.fn_photosynthesis_37 _let_22))) (let ((_let_86 (tptp.fn_chloroplast_87 X))) (let ((_let_87 (tptp.fn_product_1 _let_86))) (let ((_let_88 (tptp.fn_chloroplast_85 X))) (let ((_let_89 (tptp.fn_barrier_1 _let_88))) (let ((_let_90 (tptp.fn_chloroplast_86 X))) (let ((_let_91 (tptp.fn_aldose_11 _let_90))) (let ((_let_92 (tptp.fn_monosaccharide_6 _let_90))) (let ((_let_93 (tptp.fn_enzyme_8 _let_24))) (let ((_let_94 (tptp.fn_chloroplast_74 X))) (let ((_let_95 (tptp.fn_enzyme_8 _let_94))) (let ((_let_96 (tptp.fn_chloroplast_89 X))) (let ((_let_97 (tptp.fn_calvin_cycle_18 _let_96))) (let ((_let_98 (tptp.fn_chloroplast_100 X))) (let ((_let_99 (tptp.fn_anabolic_pathway_6 _let_98))) (let ((_let_100 (tptp.fn_anabolic_pathway_6 _let_96))) (let ((_let_101 (tptp.fn_chloroplast_77 X))) (let ((_let_102 (tptp.fn_chemical_reaction_1 _let_101))) (let ((_let_103 (tptp.fn_anabolic_pathway_5 _let_96))) (let ((_let_104 (tptp.fn_yellow_light_8 _let_49))) (let ((_let_105 (tptp.fn_orange_light_8 _let_51))) (let ((_let_106 (tptp.fn_red_light_10 _let_53))) (let ((_let_107 (tptp.fn_violet_light_8 _let_55))) (let ((_let_108 (tptp.fn_mixture_1 _let_6))) (let ((_let_109 (tptp.fn_mixture_2 _let_6))) (let ((_let_110 (tptp.fn_chloroplast_83 X))) (let ((_let_111 (tptp.fn_chloroplast_30 X))) (let ((_let_112 (tptp.fn_thylakoid_2 _let_1))) (let ((_let_113 (tptp.fn_chloroplast_33 X))) (let ((_let_114 (tptp.fn_chloroplast_106 X))) (let ((_let_115 (tptp.fn_protein_enzyme_4 _let_24))) (let ((_let_116 (tptp.fn_chloroplast_104 X))) (let ((_let_117 (tptp.fn_chloroplast_105 X))) (let ((_let_118 (tptp.fn_chloroplast_107 X))) (let ((_let_119 (tptp.fn_chlorophyll_a_15 _let_37))) (let ((_let_120 (tptp.fn_chloroplast_39 X))) (let ((_let_121 (tptp.fn_chloroplast_43 X))) (let ((_let_122 (tptp.fn_chloroplast_45 X))) (let ((_let_123 (tptp.fn_chlorophyll_a_20 _let_37))) (let ((_let_124 (tptp.fn_chloroplast_44 X))) (let ((_let_125 (tptp.fn_chloroplast_46 X))) (let ((_let_126 (tptp.fn_chloroplast_51 X))) (let ((_let_127 (tptp.fn_chlorophyll_a_19 _let_37))) (let ((_let_128 (tptp.fn_chloroplast_49 X))) (let ((_let_129 (tptp.fn_chlorophyll_a_22 _let_37))) (let ((_let_130 (tptp.fn_chlorophyll_a_18 _let_37))) (let ((_let_131 (tptp.fn_chloroplast_47 X))) (let ((_let_132 (tptp.fn_chlorophyll_a_14 _let_37))) (let ((_let_133 (tptp.fn_chloroplast_50 X))) (let ((_let_134 (tptp.fn_photosynthesis_36 _let_22))) (let ((_let_135 (tptp.fn_chloroplast_82 X))) (let ((_let_136 (tptp.fn_chloroplast_84 X))) (let ((_let_137 (tptp.fn_photosynthesis_31 _let_22))) (let ((_let_138 (tptp.fn_chloroplast_81 X))) (let ((_let_139 (tptp.fn_chloroplast_40 X))) (let ((_let_140 (tptp.fn_chloroplast_38 X))) (let ((_let_141 (tptp.fn_light_harvesting_complex_19 _let_33))) (let ((_let_142 (tptp.fn_chloroplast_42 X))) (let ((_let_143 (tptp.fn_chloroplast_36 X))) (let ((_let_144 (tptp.fn_visible_light_15 _let_135))) (let ((_let_145 (tptp.fn_chloroplast_53 X))) (let ((_let_146 (tptp.fn_visible_light_19 _let_135))) (let ((_let_147 (tptp.fn_chloroplast_54 X))) (let ((_let_148 (tptp.fn_visible_light_17 _let_135))) (let ((_let_149 (tptp.fn_visible_light_14 _let_135))) (let ((_let_150 (tptp.fn_biomembrane_72 _let_74))) (let ((_let_151 (tptp.fn_chloroplast_111 X))) (let ((_let_152 (tptp.fn_chloroplast_60 X))) (let ((_let_153 (tptp.fn_biomembrane_48 _let_74))) (let ((_let_154 (tptp.fn_chloroplast_110 X))) (let ((_let_155 (tptp.fn_chloroplast_90 X))) (let ((_let_156 (tptp.fn_chloroplast_membrane_39 _let_3))) (let ((_let_157 (tptp.fn_chloroplast_31 X))) (let ((_let_158 (tptp.fn_porphyrin_2 _let_71))) (let ((_let_159 (tptp.fn_chloroplast_37 X))) (let ((_let_160 (tptp.fn_porphyrin_1 _let_71))) (let ((_let_161 (tptp.fn_porphyrin_2 _let_37))) (let ((_let_162 (tptp.fn_chloroplast_41 X))) (let ((_let_163 (tptp.fn_porphyrin_1 _let_37))) (let ((_let_164 (tptp.fn_protein_10 _let_24))) (let ((_let_165 (tptp.fn_chloroplast_52 X))) (let ((_let_166 (tptp.fn_photosystem_2 _let_165))) (let ((_let_167 (tptp.fn_chloroplast_95 X))) (let ((_let_168 (tptp.fn_aldose_2 _let_90))) (let ((_let_169 (tptp.fn_chloroplast_94 X))) (let ((_let_170 (tptp.fn_enzyme_4 _let_24))) (let ((_let_171 (tptp.fn_chloroplast_56 X))) (let ((_let_172 (tptp.fn_chloroplast_71 X))) (let ((_let_173 (tptp.fn_enzyme_7 _let_24))) (let ((_let_174 (tptp.fn_chloroplast_108 X))) (let ((_let_175 (tptp.fn_chloroplast_76 X))) (let ((_let_176 (tptp.fn_energy_transformation_by_organism_3 _let_175))) (let ((_let_177 (tptp.fn_chloroplast_97 X))) (let ((_let_178 (tptp.fn_passive_transport_26 _let_19))) (let ((_let_179 (tptp.fn_chloroplast_69 X))) (let ((_let_180 (tptp.fn_chloroplast_62 X))) (let ((_let_181 (tptp.fn_enzyme_4 _let_94))) (let ((_let_182 (tptp.fn_chloroplast_57 X))) (let ((_let_183 (tptp.fn_anabolic_pathway_6 _let_22))) (let ((_let_184 (tptp.fn_chloroplast_88 X))) (let ((_let_185 (tptp.fn_chloroplast_103 X))) (let ((_let_186 (tptp.fn_transmit_2 _let_185))) (let ((_let_187 (tptp.fn_chloroplast_68 X))) (let ((_let_188 (tptp.fn_chloroplast_61 X))) (let ((_let_189 (tptp.fn_transmit_2 _let_188))) (let ((_let_190 (tptp.fn_anabolic_pathway_5 _let_22))) (let ((_let_191 (tptp.fn_chloroplast_58 X))) (let ((_let_192 (tptp.fn_chloroplast_102 X))) (let ((_let_193 (tptp.fn_move_1 _let_192))) (let ((_let_194 (tptp.fn_move_1 _let_180))) (let ((_let_195 (tptp.fn_chloroplast_59 X))) (let ((_let_196 (tptp.fn_chloroplast_75 X))) (let ((_let_197 (tptp.fn_create_1 _let_196))) (let ((_let_198 (tptp.fn_chloroplast_98 X))) (let ((_let_199 (tptp.fn_create_1 _let_198))) (let ((_let_200 (tptp.fn_chloroplast_3 X))) (let ((_let_201 (tptp.fn_chloroplast_13 X))) (let ((_let_202 (tptp.fn_chloroplast_4 X))) (let ((_let_203 (tptp.fn_chloroplast_5 X))) (let ((_let_204 (tptp.fn_chloroplast_6 X))) (let ((_let_205 (tptp.fn_chloroplast_18 X))) (let ((_let_206 (tptp.fn_chloroplast_19 X))) (let ((_let_207 (tptp.fn_chloroplast_20 X))) (let ((_let_208 (tptp.fn_chloroplast_8 X))) (let ((_let_209 (tptp.fn_chloroplast_10 X))) (let ((_let_210 (tptp.fn_chloroplast_12 X))) (let ((_let_211 (tptp.fn_chloroplast_9 X))) (let ((_let_212 (tptp.fn_chloroplast_22 X))) (let ((_let_213 (tptp.fn_chloroplast_23 X))) (let ((_let_214 (tptp.fn_chloroplast_24 X))) (let ((_let_215 (tptp.fn_chloroplast_17 X))) (let ((_let_216 (tptp.fn_chloroplast_25 X))) (let ((_let_217 (tptp.fn_chloroplast_16 X))) (=> (tptp.chloroplast_1 X) (and (tptp.original_name_2 X |tptp.'Chloroplast'|) (tptp.user_description_2 X |tptp.'A 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(tptp.is_inside_2 _let_121 _let_128) (tptp.has_region_2 _let_37 _let_128) (tptp.has_part_2 _let_37 _let_122) (tptp.agent_2 _let_120 _let_37) (tptp.has_part_2 _let_37 _let_124) (not (= _let_124 _let_121)) (not (= _let_121 _let_124)) (not (= _let_125 _let_121)) (not (= _let_121 _let_125)) (tptp.has_function_2 _let_37 _let_120) (tptp.base_2 _let_120 _let_37) (tptp.has_part_2 _let_37 _let_121) (not (= _let_122 _let_121)) (not (= _let_121 _let_122)) (tptp.the_scalar_value_2 _let_114 tptp.big_0) (tptp.scalar_unit_class_2 _let_114 tptp.polypeptide_0) (tptp.size_2 _let_24 _let_114) (tptp.greater_than_2 _let_114 _let_116) (tptp.size_2 _let_117 _let_116) (tptp.has_part_2 _let_24 _let_117) (tptp.has_region_2 _let_24 _let_118) (tptp.site_2 _let_101 _let_74) (tptp.is_between_2 _let_6 _let_1) (tptp.has_part_2 _let_1 _let_74) (tptp.facilitates_2 _let_74 _let_101) (tptp.has_function_2 _let_1 _let_101) (tptp.element_2 _let_113 _let_1) (tptp.has_part_2 X _let_113) (tptp.is_inside_2 _let_110 _let_6) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_111) (tptp.is_inside_2 _let_94 _let_6) (tptp.has_part_2 X _let_94) (tptp.has_part_2 X _let_6) (not (= _let_24 _let_94)) (not (= _let_94 _let_24)) (tptp.is_inside_2 _let_6 X) (tptp.has_part_2 X _let_110) (not (= _let_110 _let_94)) (not (= _let_24 _let_110)) (not (= _let_110 _let_24)) (not (= _let_94 _let_110)) (= _let_37 _let_36) (= _let_90 _let_89) (= _let_90 _let_87) (= _let_172 _let_102) (= _let_172 _let_100) (= _let_172 _let_99) (= _let_3 _let_199) (= _let_152 _let_80) (= _let_140 _let_68) (= _let_152 _let_82) (= _let_152 _let_78) (= _let_3 _let_197) (= _let_195 _let_109) (= _let_195 _let_108) (= _let_47 _let_194) (= _let_55 _let_193) (= _let_191 _let_190) (= _let_172 _let_103) (= _let_172 _let_97) (= _let_187 _let_189) (= _let_187 _let_186) (= _let_184 _let_183) (= _let_172 _let_95) (= _let_182 _let_181) (= _let_90 _let_85) (= _let_180 _let_107) (= _let_180 _let_106) (= _let_180 _let_105) (= _let_180 _let_104) (= _let_179 _let_178) (= _let_94 _let_15) (= _let_94 _let_14) (= _let_138 _let_58) (= _let_177 _let_176) (= _let_174 _let_173) (= _let_172 _let_93) (= _let_118 _let_30) (= _let_171 _let_170) (= _let_135 _let_56) (= _let_169 _let_168) (= _let_167 _let_92) (= _let_167 _let_91) (= _let_135 _let_54) (= _let_122 _let_41) (= _let_135 _let_52) (= _let_33 _let_166) (= _let_135 _let_50) (= _let_111 _let_17) (= _let_135 _let_48) (= _let_155 _let_84) (= _let_152 _let_76) (= _let_74 _let_20) (= (tptp.fn_chloroplast_109 X) _let_164) (= (tptp.fn_chloroplast_29 X) _let_163) (= _let_162 _let_161) (= (tptp.fn_chloroplast_28 X) _let_160) (= _let_159 _let_158) (= X _let_9) (= _let_157 _let_156) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_155 _let_83) (= _let_154 _let_153) (= _let_152 _let_75) (= _let_151 _let_150) (= (tptp.fn_chloroplast_26 X) _let_149) (= (tptp.fn_chloroplast_27 X) _let_148) (= _let_147 _let_146) (= _let_145 _let_144) (= _let_143 _let_73) (= _let_143 _let_72) (= _let_121 _let_40) (= _let_142 _let_70) (= _let_142 _let_69) (= _let_71 _let_141) (= _let_139 _let_64) (= _let_140 _let_67) (= _let_139 _let_63) (= _let_140 _let_66) (= _let_140 _let_65) (= _let_139 _let_62) (= _let_37 _let_34) (= _let_138 _let_61) (= _let_57 _let_137) (= _let_135 _let_58) (= _let_136 _let_60) (= _let_136 _let_59) (= _let_135 _let_46) (= _let_96 _let_134) (= _let_101 _let_23) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_31 _let_129) (= _let_128 _let_127) (= _let_126 _let_45) (= _let_126 _let_44) (= _let_125 _let_43) (= _let_125 _let_42) (= _let_121 _let_39) (= _let_124 _let_123) (= _let_122 _let_39) (= _let_37 _let_32) (= _let_121 _let_41) (= _let_121 _let_38) (= _let_120 _let_119) (= _let_118 _let_29) (= _let_117 _let_28) (= _let_117 _let_27) (= _let_116 _let_115) (= _let_114 _let_26) (= _let_114 _let_25) (= _let_6 _let_2) (= X _let_8) (= _let_113 _let_112) (= _let_101 _let_21) (= _let_74 _let_18) (= _let_110 _let_11) (= _let_111 _let_16) (= _let_94 _let_12) (= _let_24 _let_11) (= _let_110 _let_10) (= X _let_7) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_100) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_97) (= _let_97 _let_97) (= _let_97 _let_95) (= _let_95 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_89) (= _let_89 _let_87) (= _let_87 _let_87) (= _let_87 _let_85) (= _let_85 _let_83) (= _let_83 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_80) (= _let_80 _let_82) (= _let_82 _let_78) (= _let_78 _let_80) (= _let_80 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_69) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_58) (= _let_58 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_56) (= _let_56 _let_58) (= _let_58 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_32) (= _let_32 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chloroplast_dna_1 X) (and (tptp.original_name_2 X |tptp.'Chloroplast-DNA'|) (tptp.user_description_2 X |tptp.'It is the DNA molecule present in a Chloroplast. It encodes for the protein and makes Chloroplast semiautonomous by providing for it to reproduce itself.'|) (tptp.concept2words_2 X |tptp.'dna of chloroplast'|) (tptp.concept2words_2 X |tptp.'chloroplast dna'|) (tptp.concept2words_2 X |tptp.'chloroplast-dna'|) (tptp.dna_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chloroplast_gene_1 X) (and (tptp.original_name_2 X |tptp.'Chloroplast-Gene'|) (tptp.user_description_2 X |tptp.'Autonomously replicating DNA within the chloroplast containing genes for proteins synthesized for the chloroplast.'|) (tptp.concept2words_2 X |tptp.'gene of chloroplast'|) (tptp.concept2words_2 X |tptp.'chloroplast gene'|) (tptp.concept2words_2 X |tptp.'chloroplast-gene'|) (tptp.extranuclear_gene_1 X) (not (tptp.mitochondrial_gene_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chloroplast_membrane_27 X))) (let ((_let_2 (tptp.fn_plastid_9 _let_1))) (let ((_let_3 (tptp.fn_chloroplast_membrane_36 X))) (let ((_let_4 (tptp.fn_glycolipid_4 _let_3))) (let ((_let_5 (tptp.fn_lipid_14 _let_3))) (let ((_let_6 (tptp.fn_biomembrane_71 X))) (let ((_let_7 (tptp.fn_glycolipid_13 _let_3))) (let ((_let_8 (tptp.fn_glycolipid_7 _let_3))) (let ((_let_9 (tptp.fn_glycolipid_3 _let_3))) (let ((_let_10 (tptp.fn_chloroplast_membrane_37 X))) (let ((_let_11 (tptp.fn_glycoprotein_17 _let_10))) (let ((_let_12 (tptp.fn_biomembrane_70 X))) (let ((_let_13 (tptp.fn_glycoprotein_1 _let_10))) (let ((_let_14 (tptp.fn_organic_molecule_3 _let_10))) (let ((_let_15 (tptp.fn_glycoprotein_5 _let_10))) (let ((_let_16 (tptp.fn_organic_molecule_1 _let_10))) (let ((_let_17 (tptp.fn_glycoprotein_4 _let_10))) (let ((_let_18 (tptp.fn_chloroplast_membrane_29 X))) (let ((_let_19 (tptp.fn_stroma_7 _let_18))) (let ((_let_20 (tptp.fn_chloroplast_membrane_28 X))) (let ((_let_21 (tptp.fn_confine_1 _let_20))) (let ((_let_22 (tptp.fn_biomembrane_101 X))) (let ((_let_23 (tptp.fn_biomembrane_50 X))) (let ((_let_24 (tptp.fn_biomembrane_100 X))) (let ((_let_25 (tptp.fn_chloroplast_membrane_33 X))) (let ((_let_26 (tptp.fn_block_1 _let_25))) (let ((_let_27 (tptp.fn_biomembrane_55 X))) (let ((_let_28 (tptp.fn_plastid_10 _let_1))) (let ((_let_29 (tptp.fn_biomembrane_14 X))) (let ((_let_30 (tptp.fn_biomembrane_containing_double_lipid_bilayer_1 X))) (let ((_let_31 (tptp.fn_confine_2 _let_20))) (let ((_let_32 (tptp.fn_biomembrane_63 X))) (let ((_let_33 (tptp.fn_chloroplast_membrane_14 X))) (let ((_let_34 (tptp.fn_create_1 _let_33))) (let ((_let_35 (tptp.fn_biomembrane_102 X))) (let ((_let_36 (tptp.fn_biomembrane_48 X))) (let ((_let_37 (tptp.fn_biomembrane_98 X))) (let ((_let_38 (tptp.fn_biomembrane_42 X))) (let ((_let_39 (tptp.fn_biomembrane_47 X))) (let ((_let_40 (tptp.fn_chloroplast_membrane_19 X))) (let ((_let_41 (tptp.fn_chloroplast_membrane_21 X))) (let ((_let_42 (tptp.fn_glycolipid_1 _let_3))) (let ((_let_43 (tptp.fn_chloroplast_membrane_17 X))) (let ((_let_44 (tptp.fn_chloroplast_membrane_38 X))) (let ((_let_45 (tptp.fn_chloroplast_membrane_18 X))) (let ((_let_46 (tptp.fn_chloroplast_membrane_20 X))) (let ((_let_47 (tptp.fn_chloroplast_membrane_31 X))) (let ((_let_48 (tptp.fn_plastid_5 _let_1))) (let ((_let_49 (tptp.fn_chloroplast_membrane_30 X))) (let ((_let_50 (tptp.fn_plastid_3 _let_1))) (let ((_let_51 (tptp.fn_chloroplast_membrane_42 X))) (let ((_let_52 (tptp.fn_chloroplast_membrane_40 X))) (let ((_let_53 (tptp.fn_plastid_1 _let_1))) (let ((_let_54 (tptp.fn_chloroplast_membrane_39 X))) (let ((_let_55 (tptp.fn_chloroplast_membrane_24 X))) (let ((_let_56 (tptp.fn_chloroplast_membrane_26 X))) (let ((_let_57 (tptp.fn_chloroplast_membrane_25 X))) (let ((_let_58 (tptp.fn_chloroplast_membrane_23 X))) (let ((_let_59 (tptp.fn_chloroplast_membrane_48 X))) (let ((_let_60 (tptp.fn_chloroplast_membrane_32 X))) (let ((_let_61 (tptp.fn_chloroplast_membrane_44 X))) (let ((_let_62 (tptp.fn_chloroplast_membrane_45 X))) (let ((_let_63 (tptp.fn_chloroplast_membrane_41 X))) (let ((_let_64 (tptp.fn_chloroplast_membrane_34 X))) (let ((_let_65 (tptp.fn_chloroplast_membrane_35 X))) (let ((_let_66 (tptp.fn_chloroplast_membrane_47 X))) (let ((_let_67 (tptp.fn_chloroplast_membrane_46 X))) (let ((_let_68 (tptp.fn_chloroplast_membrane_22 X))) (let ((_let_69 (tptp.fn_chloroplast_membrane_9 X))) (let ((_let_70 (tptp.fn_chloroplast_membrane_13 X))) (let ((_let_71 (tptp.fn_chloroplast_membrane_11 X))) (let ((_let_72 (tptp.fn_chloroplast_membrane_10 X))) (let ((_let_73 (tptp.fn_chloroplast_membrane_43 X))) (let ((_let_74 (tptp.fn_chloroplast_membrane_12 X))) (let ((_let_75 (tptp.fn_confine_3 _let_20))) (let ((_let_76 (tptp.fn_chloroplast_membrane_8 X))) (let ((_let_77 (tptp.fn_chloroplast_membrane_15 X))) (let ((_let_78 (tptp.fn_restrain_1 _let_77))) (let ((_let_79 (tptp.fn_chloroplast_membrane_16 X))) (let ((_let_80 (tptp.fn_chloroplast_membrane_3 X))) (let ((_let_81 (tptp.fn_chloroplast_membrane_2 X))) (=> (tptp.chloroplast_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Chloroplast-Membrane'|) (tptp.user_description_2 X |tptp.'Chloroplast-Membrane is the membrane which covers the chloroplast. It is composed of two membranes, the inner-membrane and the outer-membrane.'|) (tptp.concept2words_2 X |tptp.'membrane of chloroplast'|) (tptp.concept2words_2 X |tptp.'chloroplast membrane'|) (tptp.concept2words_2 X |tptp.'chloroplast-membrane'|) (tptp.biomembrane_containing_double_lipid_bilayer_1 X) (not (tptp.er_membrane_1 X)) (not (tptp.lysosomal_membrane_1 X)) (not (tptp.mitochondrial_membrane_1 X)) (not (tptp.nuclear_membrane_1 X)) (not (tptp.plasma_membrane_1 X)) (tptp.length_value_1 _let_81) (tptp.hydrophilic_face_1 _let_80) (tptp.container_1 _let_76) (tptp.saturated_fatty_acid_1 _let_69) (tptp.temperature_value_1 _let_72) (tptp.fluidity_value_1 _let_71) (tptp.density_value_1 _let_74) (tptp.quantity_value_1 _let_70) (tptp.create_1 _let_33) (tptp.restrain_1 _let_77) (tptp.water_1 _let_79) (tptp.surface_1 _let_43) (tptp.carbon_skeleton_1 _let_45) (tptp.carbon_skeleton_1 _let_40) (tptp.atom_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.carbon_1 _let_46) (tptp.chemical_entity_1 _let_41) (tptp.entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.carbon_1 _let_41) (tptp.barrier_1 _let_68) (tptp.entity_1 _let_58) (tptp.tangible_entity_1 _let_58) (tptp.phospholipid_bilayer_1 _let_58) (tptp.intermembrane_space_1 _let_55) (tptp.inner_membrane_1 _let_57) (tptp.tangible_entity_1 _let_56) (tptp.outer_membrane_1 _let_56) (tptp.tangible_entity_1 _let_1) (tptp.plastid_1 _let_1) (tptp.chloroplast_1 _let_1) (tptp.confine_1 _let_20) (tptp.aqueous_solution_1 _let_18) (tptp.stroma_1 _let_18) (tptp.aqueous_solution_1 _let_49) (tptp.chemical_entity_1 _let_47) (tptp.spatial_entity_1 _let_47) (tptp.move_through_1 _let_60) (tptp.block_1 _let_25) (tptp.hydrophobic_compound_1 _let_64) (tptp.hydrophilic_compound_1 _let_65) (tptp.lipid_1 _let_3) (tptp.glycolipid_1 _let_3) (tptp.organic_molecule_1 _let_10) (tptp.glycoprotein_1 _let_10) (tptp.carbohydrate_side_chain_1 _let_44) (tptp.hydrophilic_face_1 _let_54) (tptp.aqueous_solution_1 _let_52) (tptp.attach_1 _let_63) (tptp.surface_1 _let_51) (tptp.outside_face_1 _let_51) (tptp.surface_1 _let_73) (tptp.inside_face_1 _let_73) (tptp.block_1 _let_61) (tptp.block_1 _let_62) (tptp.phospholipid_layer_1 _let_67) (tptp.phospholipid_layer_1 _let_66) (tptp.hydrophobic_core_1 _let_59) (tptp.tangible_entity_1 _let_78) (tptp.container_1 _let_75) (tptp.hydrophilic_face_1 _let_53) (tptp.surface_1 _let_50) (tptp.outside_face_1 _let_50) (tptp.aqueous_solution_1 _let_48) (tptp.surface_1 _let_42) (tptp.entity_1 _let_34) (tptp.tangible_entity_1 _let_31) (tptp.aqueous_solution_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.tangible_entity_1 _let_21) (tptp.chloroplast_1 _let_19) (tptp.atom_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.carbon_1 _let_16) (tptp.carbon_1 _let_15) (tptp.carbon_skeleton_1 _let_14) (tptp.carbon_skeleton_1 _let_13) (tptp.carbohydrate_side_chain_1 _let_11) (tptp.carbohydrate_side_chain_1 _let_9) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.carbon_1 _let_7) (tptp.carbon_skeleton_1 _let_5) (tptp.carbon_skeleton_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.instrument_2 _let_33 _let_79) (tptp.the_scalar_value_2 _let_81 tptp.narrow_0) (tptp.scalar_unit_class_2 _let_81 tptp.region_0) (tptp.width_2 _let_55 _let_81) (tptp.is_outside_2 _let_57 _let_18) (tptp.has_function_2 _let_56 _let_20) (tptp.agent_2 _let_20 _let_56) (tptp.is_between_2 _let_18 _let_57) (tptp.called_2 _let_25 |"1"|) (tptp.called_2 _let_25 |"3"|) (tptp.is_inside_2 _let_80 X) (tptp.is_outside_2 _let_80 _let_49) (tptp.result_2 _let_33 _let_58) (tptp.object_2 _let_77 _let_79) (tptp.is_inside_2 _let_40 X) (tptp.base_2 _let_20 _let_56) (tptp.plays_2 _let_56 _let_76) (tptp.in_event_2 _let_76 _let_20) (tptp.object_2 _let_20 _let_1) (tptp.has_part_2 X _let_3) (tptp.has_region_2 _let_58 _let_67) (tptp.is_impermeable_to_2 X _let_65) (tptp.is_impermeable_to_2 X _let_64) (tptp.has_function_2 X _let_60) (tptp.is_permeable_to_2 X _let_47) (tptp.has_function_2 X _let_25) (tptp.object_2 _let_25 _let_64) (tptp.has_function_2 X _let_61) (tptp.called_2 _let_61 |"1"|) (tptp.density_2 X _let_74) (tptp.inversely_proportional_2 _let_74 _let_71) (tptp.fluidity_2 X _let_71) (tptp.has_function_2 X _let_62) (tptp.called_2 _let_62 |"2"|) (tptp.directly_proportional_2 _let_70 _let_71) (tptp.directly_proportional_2 _let_72 _let_71) (tptp.temperature_2 X _let_72) (tptp.has_region_2 X _let_73) (tptp.is_inside_2 _let_52 _let_73) (tptp.object_2 _let_25 _let_65) (tptp.in_event_2 _let_68 _let_25) (tptp.plays_2 X _let_68) (tptp.has_part_2 X _let_69) (tptp.quantity_2 _let_69 _let_70) (tptp.has_region_2 _let_58 _let_66) (not (= _let_67 _let_66)) (not (= _let_66 _let_67)) (tptp.is_along_2 _let_67 _let_66) (tptp.is_along_2 _let_66 _let_67) (tptp.object_2 _let_60 _let_47) (not (= _let_64 _let_47)) (not (= _let_47 _let_64)) (not (= _let_65 _let_47)) (not (= _let_47 _let_65)) (tptp.is_inside_2 _let_45 X) (tptp.base_2 _let_63 _let_45) (tptp.object_2 _let_63 _let_44) (tptp.is_outside_2 _let_44 X) (tptp.has_part_2 X _let_58) (tptp.agent_2 _let_61 _let_59) (not (= _let_61 _let_25)) (not (= _let_25 _let_62)) (not (= _let_62 _let_61)) (tptp.called_2 _let_61 |"3"|) (not (= _let_25 _let_61)) (not (= _let_62 _let_25)) (not (= _let_61 _let_62)) (tptp.has_part_2 X _let_10) (tptp.is_inside_2 _let_10 _let_58) (tptp.has_region_2 _let_58 _let_59) (tptp.path_2 _let_60 _let_59) (tptp.base_2 _let_60 X) (tptp.has_region_2 X _let_55) (tptp.is_between_2 _let_55 _let_56) (tptp.has_part_2 X _let_56) (tptp.has_part_2 X _let_57) (tptp.is_between_2 _let_55 _let_57) (tptp.is_outside_2 _let_54 X) (tptp.is_inside_2 _let_54 _let_52) (tptp.has_part_2 _let_1 X) (tptp.is_between_2 X _let_49) (tptp.is_inside_2 _let_51 _let_49) (tptp.has_region_2 X _let_51) (tptp.is_between_2 X _let_52) (tptp.is_at_2 _let_44 _let_43) (tptp.has_region_2 _let_3 _let_43) (tptp.has_part_2 _let_3 _let_41) (tptp.is_inside_2 _let_41 _let_40) (tptp.has_region_2 _let_3 _let_40) (tptp.has_part_2 _let_10 _let_44) (tptp.has_part_2 _let_10 _let_46) (tptp.is_inside_2 _let_46 _let_45) (tptp.has_region_2 _let_10 _let_45) (tptp.has_part_2 _let_1 _let_18) (tptp.is_inside_2 _let_18 _let_1) (tptp.object_2 _let_25 _let_47) (= _let_58 _let_34) (= _let_79 _let_78) (= _let_40 _let_6) (= _let_1 _let_21) (= _let_76 _let_75) (= _let_56 _let_31) (= _let_3 (tptp.fn_biomembrane_29 X)) (= (tptp.fn_chloroplast_membrane_7 X) (tptp.fn_biomembrane_39 X)) (= (tptp.fn_chloroplast_membrane_6 X) (tptp.fn_biomembrane_3 X)) (= (tptp.fn_chloroplast_membrane_5 X) (tptp.fn_biomembrane_19 X)) (= (tptp.fn_chloroplast_membrane_4 X) (tptp.fn_biomembrane_26 X)) (= _let_64 _let_37) (= _let_25 _let_24) (= _let_62 _let_22) (= _let_74 (tptp.fn_biomembrane_4 X)) (= _let_52 _let_29) (= _let_73 _let_39) (= _let_73 _let_38) (= _let_72 (tptp.fn_biomembrane_25 X)) (= _let_71 (tptp.fn_biomembrane_18 X)) (= _let_70 (tptp.fn_biomembrane_31 X)) (= _let_69 (tptp.fn_biomembrane_32 X)) (= _let_68 (tptp.fn_biomembrane_49 X)) (= _let_25 _let_23) (= _let_67 (tptp.fn_biomembrane_62 X)) (= _let_66 (tptp.fn_biomembrane_61 X)) (= _let_65 (tptp.fn_biomembrane_72 X)) (= _let_64 _let_36) (= _let_47 _let_27) (= _let_44 _let_12) (= _let_63 (tptp.fn_biomembrane_73 X)) (= _let_45 _let_6) (= _let_61 _let_24) (= _let_62 _let_35) (= _let_25 _let_22) (= _let_61 _let_35) (= _let_60 (tptp.fn_biomembrane_52 X)) (= _let_59 (tptp.fn_biomembrane_75 X)) (= _let_58 _let_32) (= _let_10 (tptp.fn_biomembrane_30 X)) (= _let_57 (tptp.fn_biomembrane_containing_double_lipid_bilayer_2 X)) (= _let_56 _let_30) (= _let_55 (tptp.fn_biomembrane_containing_double_lipid_bilayer_3 X)) (= _let_54 _let_53) (= _let_52 _let_28) (= _let_51 _let_50) (= _let_49 _let_48) (= X _let_2) (= _let_47 _let_26) (= _let_18 _let_28) (= _let_1 _let_19) (= _let_44 _let_11) (= _let_46 _let_17) (= _let_46 _let_16) (= _let_46 _let_15) (= _let_45 _let_14) (= _let_45 _let_13) (= _let_44 _let_9) (= _let_43 _let_42) (= _let_41 _let_8) (= _let_41 _let_7) (= _let_40 _let_5) (= _let_40 _let_4) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_22) (= _let_22 _let_35) (= _let_35 _let_24) (= _let_24 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_6) (= _let_6 _let_6) (= _let_6 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterium_16 X))) (let ((_let_2 (tptp.fn_prokaryote_12 X))) (let ((_let_3 (tptp.fn_bacterium_5 X))) (let ((_let_4 (tptp.fn_cell_26 X))) (let ((_let_5 (tptp.fn_chlostridium_botulinum_15 X))) (let ((_let_6 (tptp.fn_chlostridium_botulinum_14 X))) (let ((_let_7 (tptp.fn_chlostridium_botulinum_11 X))) (let ((_let_8 (tptp.fn_chlostridium_botulinum_5 X))) (let ((_let_9 (tptp.fn_chlostridium_botulinum_13 X))) (let ((_let_10 (tptp.fn_chlostridium_botulinum_10 X))) (let ((_let_11 (tptp.fn_chlostridium_botulinum_8 X))) (let ((_let_12 (tptp.fn_chlostridium_botulinum_9 X))) (let ((_let_13 (tptp.fn_chlostridium_botulinum_1 X))) (let ((_let_14 (tptp.fn_chlostridium_botulinum_2 X))) (let ((_let_15 (tptp.fn_chlostridium_botulinum_4 X))) (let ((_let_16 (tptp.fn_chlostridium_botulinum_12 X))) (let ((_let_17 (tptp.fn_chlostridium_botulinum_6 X))) (let ((_let_18 (tptp.fn_chlostridium_botulinum_7 X))) (let ((_let_19 (tptp.fn_chlostridium_botulinum_3 X))) (let ((_let_20 (tptp.fn_heterotroph_2 _let_19))) (=> (tptp.chlostridium_botulinum_1 X) (and (tptp.original_name_2 X |tptp.'Chlostridium-Botulinum'|) (tptp.user_description_2 X |tptp.'Endospore forming rod shaped bacterium which is reposbible for botulism infection. It is an obligate anaerobe which produces a powerful toxin.'|) (tptp.concept2words_2 X |tptp.'chlostridium botulinum'|) (tptp.concept2words_2 X |tptp.'chlostridium-botulinum'|) (tptp.bacterium_1 X) (tptp.chromosome_1 _let_13) (tptp.prokaryotic_chromosome_1 _let_13) (tptp.nucleoid_1 _let_14) (tptp.chemoheterotroph_1 _let_19) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.specific_heat_value_1 _let_17) (tptp.temperature_value_1 _let_18) (tptp.size_value_1 _let_11) (tptp.surface_1 _let_12) (tptp.volume_value_1 _let_10) (tptp.cell_wall_1 _let_7) (tptp.water_1 _let_16) (tptp.ribosome_1 _let_9) (tptp.prokaryotic_ribosome_1 _let_9) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.mixture_1 _let_5) (tptp.cytoplasm_1 _let_5) (tptp.organism_1 _let_20) (tptp.is_inside_2 _let_9 _let_15) (tptp.plays_2 X _let_19) (tptp.has_part_2 X _let_16) (tptp.specific_heat_2 _let_16 _let_17) (tptp.correspondence_2 _let_18 _let_17) (tptp.temperature_2 X _let_18) (tptp.has_part_2 X _let_13) (tptp.is_inside_2 _let_13 _let_14) (tptp.has_region_2 X _let_14) (tptp.has_part_2 _let_5 _let_15) (tptp.volume_2 X _let_10) (tptp.directly_proportional_2 _let_11 _let_10) (tptp.size_2 X _let_11) (tptp.has_region_2 X _let_12) (tptp.is_at_2 _let_8 _let_12) (tptp.has_part_2 X _let_9) (tptp.has_part_2 _let_6 _let_8) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_5 _let_6) (tptp.is_inside_2 _let_6 _let_7) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (= X _let_20) (= (tptp.fn_chlostridium_botulinum_17 X) (tptp.fn_organism_1 X)) (= (tptp.fn_chlostridium_botulinum_16 X) (tptp.fn_organism_6 X)) (= _let_18 (tptp.fn_organism_2 X)) (= _let_17 (tptp.fn_organism_5 X)) (= _let_16 (tptp.fn_organism_4 X)) (= _let_15 (tptp.fn_prokaryote_10 X)) (= _let_14 (tptp.fn_prokaryote_18 X)) (= _let_13 (tptp.fn_prokaryote_9 X)) (= (tptp.fn_chlostridium_botulinum_19 X) (tptp.fn_cell_23 X)) (= (tptp.fn_chlostridium_botulinum_18 X) (tptp.fn_cell_10 X)) (= _let_8 _let_4) (= _let_12 (tptp.fn_cell_4 X)) (= _let_11 (tptp.fn_cell_11 X)) (= _let_10 (tptp.fn_cell_22 X)) (= _let_9 (tptp.fn_bacterium_14 X)) (= _let_8 _let_3) (= _let_7 (tptp.fn_bacterium_12 X)) (= _let_6 (tptp.fn_bacterium_15 X)) (= _let_5 _let_2) (= _let_5 _let_1) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_choanocyte_31 X))) (let ((_let_2 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_1))) (let ((_let_3 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_5 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_7 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_1))) (let ((_let_8 (tptp.fn_choanocyte_16 X))) (let ((_let_9 (tptp.fn_rough_endoplasmic_reticulum_68 _let_8))) (let ((_let_10 (tptp.fn_choanocyte_38 X))) (let ((_let_11 (tptp.fn_phagocytosis_8 _let_10))) (let ((_let_12 (tptp.fn_eukaryotic_cell_30 X))) (let ((_let_13 (tptp.fn_choanocyte_15 X))) (let ((_let_14 (tptp.fn_chromosome_6 _let_13))) (let ((_let_15 (tptp.fn_eukaryotic_cell_53 X))) (let ((_let_16 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_1))) (let ((_let_17 (tptp.fn_rough_endoplasmic_reticulum_62 _let_8))) (let ((_let_18 (tptp.fn_choanocyte_8 X))) (let ((_let_19 (tptp.fn_mitochondrion_51 _let_18))) (let ((_let_20 (tptp.fn_phagocytosis_70 _let_10))) (let ((_let_21 (tptp.fn_choanocyte_20 X))) (let ((_let_22 (tptp.fn_support_1 _let_21))) (let ((_let_23 (tptp.fn_choanocyte_29 X))) (let ((_let_24 (tptp.fn_flagellum_35 _let_23))) (let ((_let_25 (tptp.fn_choanocyte_37 X))) (let ((_let_26 (tptp.fn_animal_plasma_membrane_56 _let_25))) (let ((_let_27 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_28 (tptp.fn_rough_endoplasmic_reticulum_23 _let_8))) (let ((_let_29 (tptp.fn_animal_cell_62 X))) (let ((_let_30 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_1))) (let ((_let_31 (tptp.fn_rough_endoplasmic_reticulum_27 _let_8))) (let ((_let_32 (tptp.fn_animal_cell_78 X))) (let ((_let_33 (tptp.fn_phagocytosis_7 _let_10))) (let ((_let_34 (tptp.fn_smooth_endoplasmic_reticulum_12 _let_1))) (let ((_let_35 (tptp.fn_animal_cell_45 X))) (let ((_let_36 (tptp.fn_rough_endoplasmic_reticulum_32 _let_8))) (let ((_let_37 (tptp.fn_animal_cell_79 X))) (let ((_let_38 (tptp.fn_mitochondrion_160 _let_18))) (let ((_let_39 (tptp.fn_animal_cell_90 X))) (let ((_let_40 (tptp.fn_animal_cell_73 X))) (let ((_let_41 (tptp.fn_phagocytosis_19 _let_10))) (let ((_let_42 (tptp.fn_animal_cell_58 X))) (let ((_let_43 (tptp.fn_phagocytosis_49 _let_10))) (let ((_let_44 (tptp.fn_animal_plasma_membrane_54 _let_25))) (let ((_let_45 (tptp.fn_plasma_membrane_71 _let_25))) (let ((_let_46 (tptp.fn_biomembrane_63 _let_25))) (let ((_let_47 (tptp.fn_animal_cell_55 X))) (let ((_let_48 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((_let_88 (tptp.fn_mitochondrion_159 _let_18))) (let ((_let_89 (tptp.fn_choanocyte_3 X))) (let ((_let_90 (tptp.fn_mitochondrion_52 _let_18))) (let ((_let_91 (tptp.fn_choanocyte_5 X))) (let ((_let_92 (tptp.fn_choanocyte_7 X))) (let ((_let_93 (tptp.fn_choanocyte_34 X))) (let ((_let_94 (tptp.fn_choanocyte_22 X))) (let ((_let_95 (tptp.fn_choanocyte_24 X))) (let ((_let_96 (tptp.fn_choanocyte_23 X))) (let ((_let_97 (tptp.fn_choanocyte_12 X))) (let ((_let_98 (tptp.fn_choanocyte_35 X))) (let ((_let_99 (tptp.fn_choanocyte_19 X))) (let ((_let_100 (tptp.fn_choanocyte_18 X))) (let ((_let_101 (tptp.fn_choanocyte_27 X))) (let ((_let_102 (tptp.fn_choanocyte_28 X))) (let ((_let_103 (tptp.fn_choanocyte_6 X))) (let ((_let_104 (tptp.fn_choanocyte_47 X))) (let ((_let_105 (tptp.fn_choanocyte_21 X))) (let ((_let_106 (tptp.fn_choanocyte_25 X))) (let ((_let_107 (tptp.fn_phagocytosis_79 _let_10))) (let ((_let_108 (tptp.fn_choanocyte_36 X))) (let ((_let_109 (tptp.fn_phagocytosis_97 _let_10))) (let ((_let_110 (tptp.fn_phagocytosis_98 _let_10))) (let ((_let_111 (tptp.fn_choanocyte_2 X))) (let ((_let_112 (tptp.fn_choanocyte_1 X))) (=> (tptp.choanocyte_1 X) (and (tptp.original_name_2 X |tptp.'Choanocyte'|) (tptp.user_description_2 X |tptp.'A flagellated cell that lines the internal cavity of sponges and creates the feeding current. Also called collar cells.'|) (tptp.concept2words_2 X tptp.choanocyte) (tptp.invertebrate_cell_1 X) (tptp.chromosome_arm_1 _let_112) (tptp.chromosome_arm_1 _let_111) (tptp.electron_transport_chain_pathway_1 _let_89) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_87) (tptp.metabolic_pathway_1 _let_91) (tptp.endergonic_process_1 _let_91) (tptp.chemical_reaction_1 _let_91) (tptp.synthesis_of_organic_molecule_1 _let_91) (tptp.anabolic_pathway_1 _let_91) (tptp.synthesis_of_atp_1 _let_91) (tptp.catabolic_pathway_1 _let_103) (tptp.cellular_work_1 _let_92) (tptp.active_transport_1 _let_92) (tptp.active_movement_of_ions_1 _let_92) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_92) (tptp.semiautonomous_organelle_1 _let_18) (tptp.organelle_1 _let_18) (tptp.mitochondrion_1 _let_18) (tptp.synthesis_reaction_1 _let_61) (tptp.chemical_reaction_1 _let_61) (tptp.anabolic_pathway_1 _let_61) (tptp.synthesis_of_lipid_1 _let_61) (tptp.eukaryotic_cellular_respiration_1 _let_97) (tptp.mixture_1 _let_85) (tptp.cytoplasm_1 _let_85) (tptp.eukaryotic_ribosome_1 _let_82) (tptp.chromosome_1 _let_13) (tptp.eukaryotic_chromosome_1 _let_13) (tptp.rough_endoplasmic_reticulum_1 _let_8) (tptp.tangible_entity_1 _let_83) (tptp.nucleus_1 _let_83) (tptp.centrosome_1 _let_100) (tptp.support_1 _let_99) (tptp.support_1 _let_21) (tptp.volume_value_1 _let_105) (tptp.surface_1 _let_94) (tptp.cell_pole_1 _let_96) (tptp.cell_pole_1 _let_95) (tptp.size_value_1 _let_106) (tptp.substance_1 _let_80) (tptp.cytosol_1 _let_80) (tptp.create_1 _let_101) (tptp.produce_1 _let_101) (tptp.microtubule_1 _let_102) (tptp.flagellum_1 _let_23) (tptp.metabolic_pathway_1 _let_62) (tptp.synthesis_of_lipid_1 _let_62) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.golgi_apparatus_1 _let_79) (tptp.peroxisome_1 _let_84) (tptp.tangible_entity_1 _let_93) (tptp.phospholipid_bilayer_1 _let_93) (tptp.protein_1 _let_98) (tptp.organic_molecule_1 _let_98) (tptp.polymer_1 _let_98) (tptp.spatial_entity_1 _let_98) (tptp.membrane_protein_1 _let_98) (tptp.tangible_entity_1 _let_98) (tptp.transmembrane_protein_1 _let_98) (tptp.integral_protein_1 _let_98) (tptp.transport_protein_1 _let_98) (tptp.sodium_potassium_pump_1 _let_98) (tptp.spatial_entity_1 _let_108) (tptp.tangible_entity_1 _let_108) (tptp.vesicle_1 _let_108) (tptp.vacuole_1 _let_108) (tptp.entity_1 _let_108) (tptp.food_vacuole_1 _let_108) (tptp.tangible_entity_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.biomembrane_1 _let_25) (tptp.animal_plasma_membrane_1 _let_25) (tptp.plasma_membrane_1 _let_25) (tptp.cellular_work_1 _let_10) (tptp.phagocytosis_1 _let_10) (tptp.transfer_1 _let_77) (tptp.transfer_1 _let_75) (tptp.end_1 _let_66) (tptp.centromere_1 _let_67) (tptp.telomere_1 _let_64) (tptp.protein_1 _let_69) (tptp.coil_1 _let_71) (tptp.entity_1 _let_73) (tptp.dna_1 _let_73) (tptp.move_1 _let_104) (tptp.property_node_1 _let_110) (tptp.property_node_1 _let_109) (tptp.spatial_entity_1 _let_107) (tptp.tangible_entity_1 _let_107) (tptp.vesicle_1 _let_107) (tptp.vacuole_1 _let_107) (tptp.entity_1 _let_107) (tptp.food_vacuole_1 _let_107) (tptp.metabolic_pathway_1 _let_90) (tptp.endergonic_process_1 _let_90) (tptp.chemical_reaction_1 _let_90) (tptp.synthesis_of_organic_molecule_1 _let_90) (tptp.anabolic_pathway_1 _let_90) (tptp.synthesis_of_atp_1 _let_90) (tptp.electron_transport_chain_pathway_1 _let_88) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_86) (tptp.eukaryotic_ribosome_1 _let_81) (tptp.golgi_apparatus_1 _let_78) (tptp.transfer_1 _let_76) (tptp.transfer_1 _let_74) (tptp.entity_1 _let_72) (tptp.dna_1 _let_72) (tptp.coil_1 _let_70) (tptp.protein_1 _let_68) (tptp.end_1 _let_65) (tptp.telomere_1 _let_63) (tptp.size_value_1 _let_59) (tptp.volume_value_1 _let_57) (tptp.membrane_protein_1 _let_56) (tptp.tangible_entity_1 _let_55) (tptp.membrane_protein_1 _let_55) (tptp.protein_1 _let_55) (tptp.tangible_entity_1 _let_54) (tptp.membrane_protein_1 _let_54) (tptp.protein_1 _let_54) (tptp.spatial_entity_1 _let_54) (tptp.polymer_1 _let_54) (tptp.tangible_entity_1 _let_53) (tptp.transmembrane_protein_1 _let_53) (tptp.integral_protein_1 _let_53) (tptp.transport_protein_1 _let_53) (tptp.spatial_entity_1 _let_52) (tptp.tangible_entity_1 _let_52) (tptp.transmembrane_protein_1 _let_52) (tptp.integral_protein_1 _let_52) (tptp.transport_protein_1 _let_52) (tptp.tangible_entity_1 _let_51) (tptp.membrane_protein_1 _let_51) (tptp.spatial_entity_1 _let_51) (tptp.polymer_1 _let_51) (tptp.protein_1 _let_51) (tptp.organic_molecule_1 _let_51) (tptp.polymer_1 _let_50) (tptp.spatial_entity_1 _let_50) (tptp.membrane_protein_1 _let_50) (tptp.tangible_entity_1 _let_50) (tptp.transmembrane_protein_1 _let_50) (tptp.integral_protein_1 _let_50) (tptp.transport_protein_1 _let_50) (tptp.surface_1 _let_48) (tptp.tangible_entity_1 _let_46) (tptp.phospholipid_bilayer_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.phospholipid_bilayer_1 _let_45) (tptp.tangible_entity_1 _let_44) (tptp.phospholipid_bilayer_1 _let_44) (tptp.tangible_entity_1 _let_43) (tptp.phospholipid_bilayer_1 _let_43) (tptp.tangible_entity_1 _let_41) (tptp.spatial_entity_1 _let_41) (tptp.biomembrane_1 _let_41) (tptp.plasma_membrane_1 _let_41) (tptp.cellular_work_1 _let_38) (tptp.active_transport_1 _let_38) (tptp.active_movement_of_ions_1 _let_38) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_38) (tptp.mixture_1 _let_36) (tptp.cytoplasm_1 _let_36) (tptp.peroxisome_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.nucleus_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.nucleus_1 _let_31) (tptp.nucleus_1 _let_30) (tptp.substance_1 _let_28) (tptp.cytosol_1 _let_28) (tptp.substance_1 _let_27) (tptp.cytosol_1 _let_27) (tptp.animal_cell_1 _let_26) (tptp.cell_1 _let_24) (tptp.tangible_entity_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.eukaryotic_cell_1 _let_17) (tptp.cell_1 _let_17) (tptp.eukaryotic_cell_1 _let_16) (tptp.cell_1 _let_16) (tptp.centromere_1 _let_14) (tptp.eukaryotic_chromosome_1 _let_11) (tptp.chromosome_1 _let_11) (tptp.metabolic_pathway_1 _let_9) (tptp.synthesis_of_lipid_1 _let_9) (tptp.synthesis_of_lipid_1 _let_7) (tptp.synthesis_reaction_1 _let_6) (tptp.synthesis_reaction_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.synthesis_of_lipid_1 _let_4) (tptp.chemical_reaction_1 _let_3) (tptp.synthesis_of_lipid_1 _let_3) (tptp.anabolic_pathway_1 _let_3) (tptp.synthesis_of_lipid_1 _let_2) (tptp.site_2 _let_97 _let_85) (tptp.abuts_2 _let_8 _let_1) (not (= _let_8 _let_1)) (tptp.abuts_2 _let_1 _let_8) (not (= _let_1 _let_8)) (tptp.has_function_2 X _let_10) (tptp.has_function_2 _let_25 _let_10) (tptp.recipient_2 _let_77 _let_1) (tptp.recipient_2 _let_75 _let_8) (tptp.has_part_2 _let_25 _let_98) (tptp.is_at_2 _let_98 _let_93) (tptp.has_part_2 X _let_23) (tptp.object_2 _let_21 X) (tptp.path_2 _let_10 _let_25) (tptp.has_part_2 _let_13 _let_112) (tptp.is_between_2 _let_67 _let_112) (tptp.is_between_2 _let_67 _let_111) (tptp.has_part_2 _let_13 _let_111) (tptp.is_inside_2 _let_13 _let_83) (tptp.the_scalar_value_2 _let_106 tptp.big_0) (tptp.scalar_unit_class_2 _let_106 tptp.prokaryote_0) (tptp.has_part_2 X _let_108) (tptp.instrument_2 _let_10 _let_108) (tptp.base_2 _let_10 X) (tptp.agent_2 _let_10 X) (tptp.volume_2 X _let_105) (tptp.directly_proportional_2 _let_106 _let_105) (tptp.size_2 X _let_106) (tptp.has_part_2 X _let_13) (tptp.has_function_2 _let_102 _let_21) (tptp.is_inside_2 _let_98 _let_93) (tptp.object_2 _let_99 X) (tptp.called_2 _let_98 |tptp.'MP1'|) (tptp.is_inside_2 _let_18 _let_80) (tptp.origin_2 _let_104 _let_84) (tptp.base_2 _let_103 X) (tptp.site_2 _let_103 _let_18) (tptp.destination_2 _let_104 _let_18) (tptp.causes_2 _let_104 _let_103) (tptp.has_part_2 X _let_100) (tptp.has_function_2 _let_100 _let_101) (tptp.result_2 _let_101 _let_102) (tptp.is_near_2 _let_83 _let_100) (tptp.is_near_2 _let_100 _let_83) (tptp.is_inside_2 _let_85 _let_25) (tptp.is_between_2 _let_85 _let_25) (tptp.is_across_2 _let_98 _let_25) (tptp.is_at_2 _let_98 _let_25) (tptp.agent_2 _let_99 _let_25) (tptp.has_region_2 X _let_95) (tptp.is_opposite_2 _let_95 _let_96) (tptp.has_region_2 X _let_96) (tptp.has_function_2 X _let_97) (tptp.base_2 _let_97 X) (tptp.is_opposite_2 _let_96 _let_95) (tptp.has_part_2 X _let_25) (tptp.has_part_2 _let_25 _let_93) (tptp.is_at_2 _let_93 _let_94) (tptp.has_region_2 X _let_94) (tptp.has_function_2 X _let_92) (tptp.base_2 _let_92 X) (tptp.first_subevent_2 _let_87 _let_89) (tptp.base_2 _let_89 X) (tptp.base_2 _let_91 X) (tptp.site_2 _let_91 _let_18) (tptp.has_function_2 _let_18 _let_87) (tptp.base_2 _let_87 X) (tptp.has_part_2 X _let_18) (tptp.site_2 _let_87 _let_18) (tptp.subevent_2 _let_87 _let_89) (tptp.is_between_2 _let_85 _let_83) (tptp.base_2 _let_62 X) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_85) (tptp.has_part_2 _let_85 _let_80) (tptp.is_inside_2 _let_83 _let_80) (tptp.has_part_2 X _let_83) (tptp.has_part_2 X _let_84) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_79) (tptp.is_inside_2 _let_79 _let_80) (tptp.is_inside_2 _let_82 _let_80) (tptp.has_part_2 X _let_82) (tptp.has_part_2 _let_13 _let_73) (tptp.site_2 _let_62 _let_1) (tptp.has_function_2 _let_1 _let_62) (tptp.site_2 _let_61 _let_1) (tptp.has_function_2 _let_1 _let_61) (tptp.has_region_2 _let_13 _let_66) (tptp.is_at_2 _let_64 _let_66) (tptp.has_part_2 _let_13 _let_64) (tptp.object_2 _let_71 _let_73) (tptp.agent_2 _let_71 _let_69) (tptp.has_part_2 _let_13 _let_69) (tptp.has_region_2 _let_13 _let_67) (tptp.agent_2 _let_75 _let_1) (tptp.donor_2 _let_77 _let_8) (= _let_98 _let_55) (= _let_98 _let_54) (= X _let_24) (= X _let_22) (= _let_67 _let_15) (= _let_112 (tptp.fn_eukaryotic_cell_9 X)) (= _let_111 (tptp.fn_eukaryotic_cell_10 X)) (= (tptp.fn_choanocyte_11 X) _let_110) (= _let_83 _let_33) (= (tptp.fn_choanocyte_10 X) _let_109) (= _let_10 (tptp.fn_eukaryotic_cell_32 X)) (= _let_108 _let_107) (= _let_13 _let_12) (= _let_13 _let_11) (= _let_106 _let_60) (= _let_106 _let_59) (= _let_105 _let_58) (= _let_105 _let_57) (= _let_21 (tptp.fn_animal_cell_61 X)) (= _let_80 _let_29) (= _let_84 _let_35) (= _let_104 (tptp.fn_animal_cell_22 X)) (= _let_18 (tptp.fn_animal_cell_59 X)) (= _let_103 (tptp.fn_animal_cell_21 X)) (= _let_102 (tptp.fn_animal_cell_63 X)) (= _let_101 (tptp.fn_animal_cell_64 X)) (= _let_83 _let_32) (= _let_100 (tptp.fn_animal_cell_74 X)) (= _let_99 (tptp.fn_animal_cell_76 X)) (= _let_98 _let_56) (= _let_98 _let_52) (= _let_98 _let_50) (= _let_98 _let_53) (= _let_98 _let_51) (= _let_98 _let_49) (= _let_85 _let_37) (= _let_97 (tptp.fn_animal_cell_81 X)) (= _let_96 (tptp.fn_animal_cell_1 X)) (= _let_95 (tptp.fn_animal_cell_13 X)) (= _let_92 _let_39) (= _let_94 _let_48) (= _let_94 _let_47) (= _let_93 _let_46) (= _let_93 _let_45) (= _let_93 _let_44) (= _let_93 _let_43) (= _let_93 _let_42) (= X _let_26) (= X _let_20) (= _let_25 _let_41) (= _let_25 _let_40) (= _let_92 _let_38) (= _let_91 _let_90) (= _let_89 _let_88) (= X _let_19) (= _let_87 _let_86) (= _let_83 _let_31) (= _let_62 _let_9) (= _let_80 _let_28) (= _let_85 _let_36) (= X _let_17) (= _let_84 _let_34) (= _let_83 _let_30) (= _let_82 _let_81) (= _let_80 _let_27) (= _let_79 _let_78) (= X _let_16) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_14) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_7) (= _let_61 _let_6) (= _let_61 _let_5) (= _let_61 _let_4) (= _let_61 _let_3) (= _let_61 _let_2) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_24) (= _let_24 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cholecystokinin_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.cholecystokinin_1 X) (and (tptp.original_name_2 X |tptp.'Cholecystokinin'|) (tptp.user_description_2 X |tptp.'A digestive hormone (enterogastrome) that causes the gall bladder to contract and secrete bile into the duodenum.'|) (tptp.concept2words_2 X tptp.cholecystokinin) (tptp.digestive_peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X)) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.cholera_1 X) (and (tptp.original_name_2 X |tptp.'Cholera'|) (tptp.user_description_2 X |tptp.'An infectious disease of the small intestine caused by the bacterium Vibrio cholerae. Main symptoms are watery diarrhea and vomiting.'|) (tptp.concept2words_2 X tptp.cholera) (tptp.bacterial_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cholera_process_25 X))) (let ((_let_2 (tptp.fn_passive_transport_1 _let_1))) (let ((_let_3 (tptp.fn_cholera_process_16 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_cholera_process_24 X))) (let ((_let_6 (tptp.fn_secretion_2 _let_5))) (let ((_let_7 (tptp.fn_cholera_process_21 X))) (let ((_let_8 (tptp.fn_animal_cell_73 _let_7))) (let ((_let_9 (tptp.fn_eukaryotic_cell_29 _let_7))) (let ((_let_10 (tptp.fn_osmosis_22 _let_1))) (let ((_let_11 (tptp.fn_animal_cell_79 _let_7))) (let ((_let_12 (tptp.fn_eukaryotic_cell_31 _let_7))) (let ((_let_13 (tptp.fn_cholera_process_22 X))) (let ((_let_14 (tptp.fn_small_intestine_22 _let_13))) (let ((_let_15 (tptp.fn_small_intestine_32 _let_13))) (let ((_let_16 (tptp.fn_synthesis_of_camp_11 _let_3))) (let ((_let_17 (tptp.fn_synthesis_of_organic_molecule_1 _let_3))) (let ((_let_18 (tptp.fn_cholera_process_18 X))) (let ((_let_19 (tptp.fn_cholera_process_19 X))) (let ((_let_20 (tptp.fn_cholera_process_8 X))) (let ((_let_21 (tptp.fn_biofilm_formation_7 _let_20))) (let ((_let_22 (tptp.fn_cholera_process_9 X))) (let ((_let_23 (tptp.fn_biofilm_formation_3 _let_20))) (let ((_let_24 (tptp.fn_cholera_process_10 X))) (let ((_let_25 (tptp.fn_cholera_process_11 X))) (let ((_let_26 (tptp.fn_cholera_process_23 X))) (let ((_let_27 (tptp.fn_person_15 _let_26))) (let ((_let_28 (tptp.fn_cholera_process_17 X))) (let ((_let_29 (tptp.fn_secretion_1 _let_5))) (let ((_let_30 (tptp.fn_cholera_process_20 X))) (let ((_let_31 (tptp.fn_cholera_process_12 X))) (let ((_let_32 (tptp.fn_consume_1 _let_31))) (let ((_let_33 (tptp.fn_cholera_process_13 X))) (let ((_let_34 (tptp.fn_cholera_process_15 X))) (let ((_let_35 (tptp.fn_create_1 _let_34))) (let ((_let_36 (tptp.fn_cholera_process_14 X))) (let ((_let_37 (tptp.fn_cholera_process_7 X))) (let ((_let_38 (tptp.fn_cholera_process_6 X))) (let ((_let_39 (tptp.fn_cholera_process_5 X))) (let ((_let_40 (tptp.fn_cholera_process_3 X))) (let ((_let_41 (tptp.fn_cholera_process_2 X))) (=> (tptp.cholera_process_1 X) (and (tptp.original_name_2 X |tptp.'Cholera-Process'|) (tptp.user_description_2 X |tptp.'Process related to the progression of cholera.'|) (tptp.concept2words_2 X |tptp.'cause disease'|) (tptp.concept2words_2 X |tptp.'process of cholera'|) (tptp.concept2words_2 X |tptp.'cholera process'|) (tptp.concept2words_2 X |tptp.'cholera-process'|) (tptp.disease_process_1 X) (tptp.metabolism_1 _let_41) (tptp.concentration_value_1 _let_40) (tptp.g_protein_1 _let_39) (tptp.activation_value_1 _let_38) (tptp.vibrio_cholerae_1 _let_37) (tptp.bacterial_biofilm_formation_1 _let_20) (tptp.bacterial_biofilm_1 _let_22) (tptp.surface_1 _let_24) (tptp.lining_1 _let_25) (tptp.consume_1 _let_31) (tptp.water_1 _let_33) (tptp.cholera_toxin_1 _let_36) (tptp.produce_1 _let_34) (tptp.synthesis_of_camp_1 _let_3) (tptp.organic_molecule_1 _let_28) (tptp.cyclic_amp_1 _let_28) (tptp.tangible_entity_1 _let_18) (tptp.spatial_entity_1 _let_18) (tptp.biomembrane_1 _let_18) (tptp.animal_plasma_membrane_1 _let_18) (tptp.plasma_membrane_1 _let_18) (tptp.mixture_1 _let_19) (tptp.cytoplasm_1 _let_19) (tptp.salt_1 _let_30) (tptp.living_entity_1 _let_7) (tptp.cell_1 _let_7) (tptp.eukaryotic_cell_1 _let_7) (tptp.animal_cell_1 _let_7) (tptp.small_intestine_1 _let_13) (tptp.person_1 _let_26) (tptp.secretion_1 _let_5) (tptp.osmosis_1 _let_1) (tptp.entity_1 _let_35) (tptp.entity_1 _let_32) (tptp.tangible_entity_1 _let_29) (tptp.small_intestine_1 _let_27) (tptp.surface_1 _let_23) (tptp.biofilm_1 _let_21) (tptp.organic_molecule_1 _let_17) (tptp.cyclic_amp_1 _let_16) (tptp.lining_1 _let_15) (tptp.lining_1 _let_14) (tptp.mixture_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.mixture_1 _let_11) (tptp.cytoplasm_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.animal_plasma_membrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.living_entity_1 _let_6) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.next_event_2 _let_5 _let_1) (tptp.is_inside_2 _let_30 _let_7) (tptp.base_2 _let_41 _let_7) (tptp.site_2 _let_41 _let_19) (tptp.facilitates_2 _let_28 _let_5) (tptp.concentration_2 _let_28 _let_40) (tptp.the_scalar_value_2 _let_40 tptp.high_0) (tptp.scalar_unit_class_2 _let_40 tptp.amp_0) (tptp.next_event_2 _let_3 _let_5) (tptp.facilitates_2 _let_39 _let_3) (tptp.activation_2 _let_39 _let_38) (tptp.the_categorical_value_2 _let_38 tptp.active_0) (tptp.next_event_2 _let_34 _let_3) (tptp.agent_2 _let_34 _let_37) (tptp.first_subevent_2 X _let_20) (tptp.experiencer_2 X _let_26) (tptp.subevent_2 X _let_34) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_20) (tptp.agent_2 X _let_37) (tptp.is_inside_2 _let_37 _let_33) (tptp.causes_2 _let_31 X) (tptp.is_on_2 _let_24 _let_25) (tptp.site_2 _let_20 _let_25) (tptp.agent_2 _let_20 _let_37) (tptp.next_event_2 _let_20 _let_34) (tptp.base_2 _let_20 _let_13) (tptp.result_2 _let_34 _let_36) (tptp.object_2 _let_31 _let_33) (tptp.object_2 _let_5 _let_30) (tptp.base_2 _let_5 _let_7) (tptp.base_2 _let_3 _let_7) (tptp.base_2 _let_1 _let_7) (tptp.path_2 _let_1 _let_18) (tptp.result_2 _let_3 _let_28) (tptp.has_part_2 _let_26 _let_13) (tptp.has_region_2 _let_13 _let_25) (tptp.result_2 _let_20 _let_22) (tptp.is_at_2 _let_22 _let_24) (tptp.has_part_2 _let_7 _let_19) (tptp.has_part_2 _let_7 _let_18) (tptp.is_between_2 _let_19 _let_18) (tptp.is_inside_2 _let_19 _let_18) (= _let_36 _let_35) (= _let_33 _let_32) (= _let_30 _let_29) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_18 _let_10) (= _let_28 _let_17) (= _let_28 _let_16) (= _let_13 _let_27) (= _let_25 _let_15) (= _let_25 _let_14) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_19 _let_12) (= _let_19 _let_11) (= _let_18 _let_9) (= _let_18 _let_8) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cholera_toxin_1 X) (and (tptp.original_name_2 X |tptp.'Cholera-Toxin'|) (tptp.user_description_2 X |tptp.'Toxin produced by the bacteria Vibrio cholerae which results in the symptoms of the cholera.'|) (tptp.concept2words_2 X |tptp.'toxin of cholera'|) (tptp.concept2words_2 X |tptp.'cholera toxin'|) (tptp.concept2words_2 X |tptp.'cholera-toxin'|) (tptp.protein_enzyme_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_steroid_11 X))) (let ((_let_2 (tptp.fn_organic_molecule_1 X))) (let ((_let_3 (tptp.fn_steroid_12 X))) (let ((_let_4 (tptp.fn_organic_molecule_2 X))) (let ((_let_5 (tptp.fn_steroid_10 X))) (let ((_let_6 (tptp.fn_amphipathic_molecule_5 X))) (let ((_let_7 (tptp.fn_steroid_9 X))) (let ((_let_8 (tptp.fn_amphipathic_molecule_2 X))) (let ((_let_9 (tptp.fn_cholesterol_4 X))) (let ((_let_10 (tptp.fn_cholesterol_7 X))) (let ((_let_11 (tptp.fn_cholesterol_6 X))) (let ((_let_12 (tptp.fn_cholesterol_3 X))) (let ((_let_13 (tptp.fn_cholesterol_8 X))) (let ((_let_14 (tptp.fn_cholesterol_5 X))) (let ((_let_15 (tptp.fn_cholesterol_1 X))) (=> (tptp.cholesterol_1 X) (and (tptp.original_name_2 X |tptp.'Cholesterol'|) (tptp.user_description_2 X |tptp.'Cholesterol is a waxy steroid metabolite found in the cell membranes and transported in the blood plasma of all animals'|) (tptp.concept2words_2 X tptp.cholesterol) (tptp.amphipathic_molecule_1 X) (tptp.steroid_1 X) (not (tptp.steroid_hormone_1 X)) (tptp.shape_value_1 _let_15) (tptp.repel_1 _let_12) (tptp.carbon_skeleton_1 _let_9) (tptp.cyclopentane_1 _let_14) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_10) (tptp.hydrophobic_region_1 _let_13) (tptp.is_at_2 _let_14 _let_13) (tptp.has_function_2 _let_14 _let_12) (tptp.the_categorical_value_2 _let_15 tptp.ring_shaped_0) (tptp.shape_2 _let_9 _let_15) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_11) (tptp.has_function_2 X _let_12) (tptp.agent_2 _let_12 X) (tptp.has_region_2 X _let_13) (tptp.facilitates_2 _let_13 _let_12) (tptp.site_2 _let_12 _let_13) (tptp.has_region_2 X _let_9) (tptp.is_inside_2 _let_10 _let_9) (tptp.has_part_2 X _let_10) (not (= _let_11 _let_10)) (not (= _let_10 _let_11)) (= _let_14 (tptp.fn_steroid_15 X)) (= _let_13 _let_8) (= _let_13 _let_7) (= _let_12 _let_6) (= _let_12 _let_5) (= _let_10 _let_2) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 _let_1) (= _let_9 (tptp.fn_steroid_13 X)) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.choline_1 X) (and (tptp.original_name_2 X |tptp.'Choline'|) (tptp.user_description_2 X |tptp.'B-complex vitamin that is the precursor to the neurotransmitter acetylcholine.'|) (tptp.concept2words_2 X tptp.choline) (tptp.vitamin_b_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chondrocyte_2 X))) (let ((_let_2 (tptp.fn_chondrocyte_1 X))) (let ((_let_3 (tptp.fn_chondrocyte_3 X))) (=> (tptp.chondrocyte_1 X) (and (tptp.original_name_2 X |tptp.'Chondrocyte'|) (tptp.user_description_2 X |tptp.'Cells in cartilage that secrete chondroitin.'|) (tptp.concept2words_2 X tptp.chondrocyte) (tptp.animal_cell_1 X) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_1) (tptp.block_1 _let_3) (tptp.instrument_2 _let_3 X) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.choose_at_random_1 X) (and (tptp.original_name_2 X |tptp.'Choose-At-Random'|) (tptp.user_description_2 X |tptp.'Choose at random refers to selection with no specific pattern.'|) (tptp.concept2words_2 X |tptp.'choose at random'|) (tptp.concept2words_2 X |tptp.'choose-at-random'|) (tptp.select_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chordate_1 X) (and (tptp.original_name_2 X |tptp.'Chordate'|) (tptp.user_description_2 X |tptp.'A member of the phylum Chordata, a group of invertebrate and vertebrate animals that have, at some point in their development, all of the following features: a notochord, pharyngeal gill slits, a post-anal tail, and a dorsal hollow nerve cord.'|) (tptp.concept2words_2 X tptp.chordate) (tptp.eumetazoan_1 X) (not (tptp.bilaterian_1 X)) (not (tptp.invertebrate_1 X)) (not (tptp.radiata_1 X)) (not (tptp.triploblastic_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chorion_1 X) (and (tptp.original_name_2 X |tptp.'Chorion'|) (tptp.user_description_2 X |tptp.'The outermost of four extraembryonic membranes. It functions in gas exchange and contributes to the formation of the mammalian placenta.'|) (tptp.concept2words_2 X tptp.chorion) (tptp.extraembryonic_membrane_1 X) (not (tptp.allantois_1 X)) (not (tptp.amnion_1 X)) (not (tptp.yolk_sac_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chorionic_villus_sampling_5 X))) (let ((_let_2 (tptp.fn_eumetazoan_20 _let_1))) (let ((_let_3 (tptp.fn_chorionic_villus_sampling_3 X))) (let ((_let_4 (tptp.fn_collecting_1 _let_3))) (let ((_let_5 (tptp.fn_chorionic_villus_sampling_4 X))) (let ((_let_6 (tptp.fn_chorionic_villus_sampling_2 X))) (let ((_let_7 (tptp.fn_chorionic_villus_sampling_1 X))) (=> (tptp.chorionic_villus_sampling_1 X) (and (tptp.original_name_2 X |tptp.'Chorionic-Villus-Sampling'|) (tptp.user_description_2 X |tptp.'A technique of prenatal diagnosis in which a small sample of the fetal portion of the placenta is removed and analyzed to detect certain genetic and congenital defects in the fetus.'|) (tptp.concept2words_2 X tptp.cvs) (tptp.concept2words_2 X |tptp.'chorionic villus sampling'|) (tptp.concept2words_2 X |tptp.'chorionic-villus-sampling'|) (tptp.fetal_testing_1 X) (not (tptp.amniocentesis_1 X)) (tptp.suction_tube_1 _let_7) (tptp.placenta_1 _let_6) (tptp.collecting_1 _let_3) (tptp.entity_1 _let_5) (tptp.tissue_1 _let_5) (tptp.fetus_1 _let_1) (tptp.entity_1 _let_4) (tptp.tissue_1 _let_2) (tptp.instrument_2 _let_3 _let_7) (tptp.is_inside_2 _let_1 _let_6) (tptp.by_means_of_2 X _let_3) (tptp.object_2 _let_3 _let_5) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.choroid_1 X) (and (tptp.original_name_2 X |tptp.'Choroid'|) (tptp.user_description_2 X |tptp.'The vascular layer of the vertebrate eye, lying between the retina and the sclera.'|) (tptp.concept2words_2 X tptp.choroid) (tptp.simple_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chromalveolata_1 X) (and (tptp.original_name_2 X |tptp.'Chromalveolata'|) (tptp.user_description_2 X |tptp.'One of five supergroups of eukaryotes proposed in a current hypothesis of the evolutionary history of eukaryotes. Chromalveolates may have originated by secondary endosymbiosis and include two large protist clades, the alveolates and the stramenopiles. See also Excavata, Rhizaria, Archaeplastida, and Unikonta.'|) (tptp.concept2words_2 X tptp.chromalveolata) (tptp.eukaryotic_clade_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chromalveolate_1 X) (and (tptp.original_name_2 X |tptp.'Chromalveolate'|) (tptp.user_description_2 X |tptp.'An array of diverse eukaryotic organisms grouped together as a clade in one hypothesis of evolutionary relationships among eukaryotes. Two large protistan groups, the stramenopiles and alveolates, are considered chromalveolates under this hypothesis. Recent studies indicate that the chromalveolates are not a monophyletic group as originally hypothesized.'|) (tptp.concept2words_2 X tptp.chromalveolate) (tptp.alveolate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromatid_4 X))) (let ((_let_2 (tptp.fn_chromatid_3 X))) (let ((_let_3 (tptp.fn_chromatid_7 X))) (let ((_let_4 (tptp.fn_chromatid_8 X))) (let ((_let_5 (tptp.fn_chromatid_2 X))) (let ((_let_6 (tptp.fn_chromatid_1 X))) (=> (tptp.chromatid_1 X) (and (tptp.original_name_2 X |tptp.'Chromatid'|) (tptp.user_description_2 X |tptp.'Half of a diploid chromosome when the chromosome is in its most dense (and visible) state. When a chromatid is attached to another chromatid at the centromere, they are collectively called sister chromatids.'|) (tptp.concept2words_2 X |tptp.'sister chromatids'|) (tptp.concept2words_2 X tptp.chromosome) (tptp.concept2words_2 X |tptp.'sister chromatid'|) (tptp.concept2words_2 X tptp.chromatid) (tptp.cellular_structure_1 X) (tptp.centromere_1 _let_6) (tptp.end_1 _let_5) (tptp.visibility_value_1 _let_2) (tptp.length_value_1 _let_1) (tptp.chromosome_arm_1 _let_3) (tptp.chromosome_arm_1 _let_4) (tptp.is_at_2 _let_6 X) (tptp.is_between_2 _let_6 _let_4) (tptp.is_between_2 _let_6 _let_3) (tptp.thickness_2 X _let_1) (tptp.visibility_2 X _let_2) (tptp.has_region_2 X _let_6) (tptp.has_region_2 X _let_5) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.dna_0) (tptp.the_categorical_value_2 _let_2 tptp.high_contrast_0) (tptp.the_scalar_value_2 _let_1 tptp.thick_0) (tptp.scalar_unit_class_2 _let_1 tptp.dna_double_helix_0)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromatin_packing_6 X))) (let ((_let_2 (tptp.fn_nucleosome_3 _let_1))) (let ((_let_3 (tptp.fn_nucleosome_4 _let_1))) (let ((_let_4 (tptp.fn_chromatin_packing_11 X))) (let ((_let_5 (tptp.fn_chromosome_4 _let_4))) (let ((_let_6 (tptp.fn_chromatin_packing_12 X))) (let ((_let_7 (tptp.fn_hold_2 _let_6))) (let ((_let_8 (tptp.fn_chromatin_packing_3 X))) (let ((_let_9 (tptp.fn_looped_domains_1 _let_8))) (let ((_let_10 (tptp.fn_looped_domains_9 _let_8))) (let ((_let_11 (tptp.fn_chromatin_packing_10 X))) (let ((_let_12 (tptp.fn_chromatin_packing_4 X))) (let ((_let_13 (tptp.fn_looped_domains_10 _let_8))) (let ((_let_14 (tptp.fn_chromatin_packing_8 X))) (let ((_let_15 (tptp.fn_looped_domains_11 _let_8))) (let ((_let_16 (tptp.fn_chromatin_packing_2 X))) (let ((_let_17 (tptp.fn_looped_domains_5 _let_8))) (let ((_let_18 (tptp.fn_chromatin_packing_5 X))) (let ((_let_19 (tptp.fn_hold_1 _let_6))) (let ((_let_20 (tptp.fn_chromatin_packing_7 X))) (let ((_let_21 (tptp.fn_chromatin_packing_9 X))) (let ((_let_22 (tptp.fn_fold_1 _let_21))) (let ((_let_23 (tptp.fn_chromatin_packing_1 X))) (=> (tptp.chromatin_packing_1 X) (and (tptp.original_name_2 X |tptp.'Chromatin-Packing'|) (tptp.user_description_2 X |tptp.'The means for packing DNA into chromatin.'|) (tptp.concept2words_2 X |tptp.'chromatin fiber formation'|) (tptp.concept2words_2 X |tptp.'chromatin fiber packing'|) (tptp.concept2words_2 X tptp.pack) (tptp.concept2words_2 X |tptp.'packing of chromatin'|) (tptp.concept2words_2 X |tptp.'chromatin packing'|) (tptp.concept2words_2 X |tptp.'chromatin-packing'|) (tptp.biomolecular_process_1 X) (tptp.h1_1 _let_23) (tptp.fold_1 _let_16) (tptp.looped_domains_1 _let_8) (tptp.eukaryotic_chromatin_1 _let_12) (tptp.heterochromatin_1 _let_12) (tptp.chromosome_1 _let_18) (tptp.entity_1 _let_1) (tptp.nucleosome_1 _let_1) (tptp.nucleus_1 _let_20) (tptp.fold_1 _let_14) (tptp.fold_1 _let_21) (tptp.tangible_entity_1 _let_11) (tptp.entity_1 _let_11) (tptp.dna_1 _let_11) (tptp.chromosome_1 _let_4) (tptp.eukaryotic_chromatin_1 _let_4) (tptp.euchromatin_1 _let_4) (tptp.hold_1 _let_6) (tptp.entity_1 _let_22) (tptp.tangible_entity_1 _let_19) (tptp.chromosome_1 _let_17) (tptp.fold_1 _let_15) (tptp.fold_1 _let_13) (tptp.eukaryotic_chromatin_1 _let_10) (tptp.heterochromatin_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.dna_1 _let_5) (tptp.eukaryotic_chromatin_1 _let_3) (tptp.euchromatin_1 _let_2) (tptp.next_event_2 _let_21 _let_14) (tptp.agent_2 _let_21 _let_23) (tptp.result_2 _let_21 _let_18) (tptp.next_event_2 _let_14 _let_16) (tptp.object_2 X _let_18) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_21) (tptp.enables_2 X _let_6) (tptp.object_2 _let_21 _let_1) (tptp.object_2 _let_6 _let_11) (tptp.agent_2 _let_6 _let_20) (tptp.object_2 _let_14 _let_18) (tptp.object_2 _let_16 _let_8) (tptp.result_2 _let_14 _let_8) (tptp.result_2 _let_14 _let_12) (tptp.same_type_2 _let_12 _let_8) (tptp.same_type_2 _let_8 _let_12) (tptp.same_type_2 _let_1 _let_4) (tptp.same_type_2 _let_4 _let_1) (tptp.has_part_2 _let_4 _let_11) (= _let_1 _let_22) (= _let_11 _let_7) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_10) (= _let_12 _let_9) (= _let_11 _let_5) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromium_9 X))) (let ((_let_2 (tptp.fn_chromium_12 X))) (let ((_let_3 (tptp.fn_chromium_10 X))) (let ((_let_4 (tptp.fn_chromium_11 X))) (let ((_let_5 (tptp.fn_chromium_4 X))) (let ((_let_6 (tptp.fn_chromium_5 X))) (let ((_let_7 (tptp.fn_chromium_3 X))) (=> (tptp.chromium_1 X) (and (tptp.original_name_2 X |tptp.'Chromium'|) (tptp.user_description_2 X |tptp.'Chromium is a metal atom with atomic number 24. It is represented by the symbol Cr.'|) (tptp.concept2words_2 X tptp.chromium) (tptp.concept2words_2 X |tptp.'Cr'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"28"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"24"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"24"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"6"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.66"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"52"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"24"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"52"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_chromium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_chromium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_chromium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.chromoplast_1 X) (and (tptp.original_name_2 X |tptp.'Chromoplast'|) (tptp.user_description_2 X |tptp.'Chromoplasts are plastids having pigments that give colour to fruits and flowers.'|) (tptp.concept2words_2 X tptp.chromoplast) (tptp.plastid_1 X) (not (tptp.amyloplast_1 X)) (not (tptp.chloroplast_1 X)) (not (tptp.plant_statolith_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chromosomal_arrangement_1 X) (and (tptp.original_name_2 X |tptp.'Chromosomal-Arrangement'|) (tptp.user_description_2 X |tptp.'A particular way chromosomes are arranged.'|) (tptp.concept2words_2 X |tptp.'chromosomal arrangement'|) (tptp.concept2words_2 X |tptp.'chromosomal-arrangement'|) (tptp.cellular_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chromosomal_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Chromosomal-Disorder'|) (tptp.user_description_2 X |tptp.'A genetic disorder resulting from changes in chromosome number or large changes in chromosome structure.'|) (tptp.concept2words_2 X |tptp.'chromosome anomaly'|) (tptp.concept2words_2 X |tptp.'chromosome-anomaly'|) (tptp.concept2words_2 X |tptp.'chromosome aberration'|) (tptp.concept2words_2 X |tptp.'chromosome-aberration'|) (tptp.concept2words_2 X |tptp.'chromosomal disorder'|) (tptp.concept2words_2 X |tptp.'chromosomal-disorder'|) (tptp.human_genetic_disorder_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chromosomal_disorder_cell_1 X) (and (tptp.original_name_2 X |tptp.'Chromosomal-Disorder-Cell'|) (tptp.user_description_2 X |tptp.'A cell with an inappropriate number of chromosomes for its species.'|) (tptp.concept2words_2 X |tptp.'cell showing chromosome disorder'|) (tptp.concept2words_2 X |tptp.'cell-showing-chromosome-disorder'|) (tptp.concept2words_2 X tptp.aneuploidy) (tptp.concept2words_2 X |tptp.'cell with aneuploidy'|) (tptp.concept2words_2 X |tptp.'cell-with-aneuploidy'|) (tptp.concept2words_2 X |tptp.'chromosomal disorder cell'|) (tptp.concept2words_2 X |tptp.'chromosomal-disorder-cell'|) (tptp.cell_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosomal_inheritance_5 X))) (let ((_let_2 (tptp.fn_organism_role_2 _let_1))) (let ((_let_3 (tptp.fn_chromosomal_inheritance_1 X))) (let ((_let_4 (tptp.fn_gene_15 _let_3))) (let ((_let_5 (tptp.fn_chromosomal_inheritance_3 X))) (let ((_let_6 (tptp.fn_gene_related_aggregates_1 _let_5))) (let ((_let_7 (tptp.fn_chromosomal_inheritance_2 X))) (let ((_let_8 (tptp.fn_organism_3 _let_7))) (let ((_let_9 (tptp.fn_parent_3 _let_1))) (let ((_let_10 (tptp.fn_chromosomal_inheritance_6 X))) (let ((_let_11 (tptp.fn_chromosomal_inheritance_4 X))) (=> (tptp.chromosomal_inheritance_1 X) (and (tptp.original_name_2 X |tptp.'Chromosomal-Inheritance'|) (tptp.user_description_2 X |tptp.'Inheritance of an entire chromosome or large section of a chromosome.'|) (tptp.concept2words_2 X tptp.inherit) (tptp.concept2words_2 X |tptp.'chromosomal inheritance'|) (tptp.concept2words_2 X |tptp.'chromosomal-inheritance'|) (tptp.inheritance_1 X) (tptp.gene_1 _let_3) (tptp.organism_1 _let_7) (tptp.genotype_1 _let_5) (tptp.gene_related_aggregates_1 _let_5) (tptp.chromosome_1 _let_11) (tptp.parent_1 _let_1) (tptp.organism_1 _let_10) (tptp.organism_1 _let_9) (tptp.genotype_1 _let_8) (tptp.gene_1 _let_6) (tptp.inheritance_1 _let_4) (tptp.event_1 _let_2) (tptp.agent_2 X _let_10) (tptp.object_2 X _let_11) (tptp.donor_2 X _let_7) (tptp.object_2 X _let_3) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_10 _let_1) (tptp.element_2 _let_5 _let_3) (tptp.has_part_2 _let_7 _let_5) (= _let_11 (tptp.fn_transfer_1 X)) (= _let_7 (tptp.fn_inheritance_3 X)) (= X _let_4) (= X _let_2) (= _let_10 _let_9) (= _let_5 _let_8) (= _let_3 _let_6) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosomal_translocation_4 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (let ((_let_3 (tptp.fn_chromosomal_translocation_2 X))) (let ((_let_4 (tptp.fn_chromosomal_translocation_5 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_chromosomal_translocation_3 X))) (let ((_let_7 (tptp.fn_attach_2 _let_4))) (let ((_let_8 (tptp.fn_chromosomal_translocation_1 X))) (=> (tptp.chromosomal_translocation_1 X) (and (tptp.original_name_2 X |tptp.'Chromosomal-Translocation'|) (tptp.user_description_2 X |tptp.'A translocation moves a segment from one chromosome to another, nonhomologous one.'|) (tptp.concept2words_2 X tptp.translocation) (tptp.concept2words_2 X tptp.translocate) (tptp.concept2words_2 X |tptp.'chromosomal translocation'|) (tptp.concept2words_2 X |tptp.'chromosomal-translocation'|) (tptp.translocation_1 X) (tptp.change_chromosome_structure_1 X) (not (tptp.deletion_of_chromosome_fragment_1 X)) (not (tptp.duplication_of_chromosome_fragment_1 X)) (not (tptp.inversion_of_chromosome_fragment_1 X)) (tptp.non_homologous_chromosome_1 _let_8) (tptp.chromosome_1 _let_3) (tptp.chromosome_fragment_1 _let_6) (tptp.break_1 _let_1) (tptp.attach_1 _let_4) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.by_means_of_2 X _let_1) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.first_subevent_2 X _let_1) (tptp.has_part_2 _let_3 _let_6) (tptp.result_2 _let_1 _let_6) (tptp.next_event_2 _let_1 _let_4) (tptp.base_2 _let_4 _let_8) (tptp.object_2 _let_4 _let_6) (tptp.object_2 _let_1 _let_3) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosome_4 X))) (let ((_let_2 (tptp.fn_dna_11 _let_1))) (let ((_let_3 (tptp.fn_dna_2 _let_1))) (let ((_let_4 (tptp.fn_chromosome_6 X))) (let ((_let_5 (tptp.fn_centromere_3 _let_4))) (let ((_let_6 (tptp.fn_chromosome_7 X))) (let ((_let_7 (tptp.fn_origin_of_replication_1 _let_6))) (let ((_let_8 (tptp.fn_chromosome_5 X))) (let ((_let_9 (tptp.fn_dna_strand_54 _let_8))) (let ((_let_10 (tptp.fn_chromosome_14 X))) (let ((_let_11 (tptp.fn_dna_strand_62 _let_8))) (let ((_let_12 (tptp.fn_chromosome_10 X))) (let ((_let_13 (tptp.fn_dna_strand_65 _let_8))) (let ((_let_14 (tptp.fn_chromosome_11 X))) (let ((_let_15 (tptp.fn_dna_strand_66 _let_8))) (let ((_let_16 (tptp.fn_chromosome_12 X))) (let ((_let_17 (tptp.fn_dna_strand_60 _let_8))) (let ((_let_18 (tptp.fn_chromosome_13 X))) (let ((_let_19 (tptp.fn_dna_strand_68 _let_8))) (let ((_let_20 (tptp.fn_chromosome_9 X))) (let ((_let_21 (tptp.fn_chromosome_8 X))) (let ((_let_22 (tptp.fn_coil_1 _let_21))) (let ((_let_23 (tptp.fn_chromosome_2 X))) (let ((_let_24 (tptp.fn_chromosome_3 X))) (=> (tptp.chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome'|) (tptp.user_description_2 X |tptp.'A chromosome is an organized structure of DNA and protein that is found in cells. It is a single piece of coiled DNA containing many genes, regulatory elements and other nucleotide sequences'|) (tptp.concept2words_2 X tptp.chromosomes) (tptp.concept2words_2 X |tptp.'chromosome pair'|) (tptp.concept2words_2 X |tptp.'pair of chromosomes'|) (tptp.concept2words_2 X tptp.chromatin) (tptp.concept2words_2 X tptp.chromosome) (tptp.cellular_structure_1 X) (tptp.density_value_1 _let_23) (tptp.protein_1 _let_24) (tptp.entity_1 _let_1) (tptp.dna_1 _let_1) (tptp.dna_strand_1 _let_8) (tptp.centromere_1 _let_4) (tptp.origin_of_replication_1 _let_6) (tptp.coil_1 _let_21) (tptp.deoxyribonucleoside_monophosphate_1 _let_20) (tptp.nucleoside_1 _let_12) (tptp.organic_molecule_1 _let_12) (tptp.guanine_1 _let_14) (tptp.nitrogenous_base_1 _let_14) (tptp.cytosine_1 _let_16) (tptp.nucleoside_1 _let_18) (tptp.organic_molecule_1 _let_18) (tptp.deoxyribonucleoside_monophosphate_1 _let_10) (tptp.entity_1 _let_22) (tptp.deoxyribonucleoside_monophosphate_1 _let_19) (tptp.nucleoside_1 _let_17) (tptp.organic_molecule_1 _let_17) (tptp.cytosine_1 _let_15) (tptp.guanine_1 _let_13) (tptp.nitrogenous_base_1 _let_13) (tptp.nucleoside_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.deoxyribonucleoside_monophosphate_1 _let_9) (tptp.chromosome_1 _let_7) (tptp.chromosome_1 _let_5) (tptp.dna_strand_1 _let_3) (tptp.dna_strand_1 _let_2) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_24) (tptp.exactCardinality X tptp.has_region_0 |"1"| tptp.centromere_0) (tptp.density_2 X _let_23) (tptp.agent_2 _let_21 _let_24) (tptp.the_scalar_value_2 _let_23 tptp.dense_0) (tptp.scalar_unit_class_2 _let_23 tptp.cellular_structure_0) (tptp.object_2 _let_21 _let_1) (tptp.has_region_2 X _let_6) (tptp.has_region_2 X _let_4) (tptp.has_part_2 _let_1 _let_8) (tptp.has_part_2 _let_18 _let_16) (tptp.has_part_2 _let_20 _let_18) (tptp.has_part_2 _let_8 _let_20) (tptp.has_part_2 _let_8 _let_10) (tptp.has_part_2 _let_10 _let_12) (tptp.has_part_2 _let_12 _let_14) (tptp.complement_2 _let_16 _let_14) (tptp.complement_2 _let_14 _let_16) (= _let_1 _let_22) (= X _let_7) (= X _let_5) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chromosome_21_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-21'|) (tptp.user_description_2 X |tptp.'One of the 44 autosomes in the nucleus of a typical human somatic cell.'|) (tptp.concept2words_2 X |tptp.'21 of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome 21'|) (tptp.concept2words_2 X |tptp.'chromosome-21'|) (tptp.autosome_1 X) (not (tptp.yeast_artificial_chromosome_1 X)) (not (tptp.sex_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X)) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_fragment_1 X)) (not (tptp.defective_chromosome_1 X)) (not (tptp.human_chromosome_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosome_alignment_14 X))) (let ((_let_2 (tptp.fn_kinetochore_25 _let_1))) (let ((_let_3 (tptp.fn_chromosome_alignment_18 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_chromosome_alignment_17 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_chromosome_alignment_13 X))) (let ((_let_8 (tptp.fn_chromosome_3 _let_7))) (let ((_let_9 (tptp.fn_chromosome_alignment_11 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_kinetochore_2 _let_1))) (let ((_let_12 (tptp.fn_chromosome_alignment_8 X))) (let ((_let_13 (tptp.fn_kinetochore_1 _let_1))) (let ((_let_14 (tptp.fn_chromosome_alignment_9 X))) (let ((_let_15 (tptp.fn_chromosome_alignment_7 X))) (let ((_let_16 (tptp.fn_cell_1 _let_15))) (let ((_let_17 (tptp.fn_chromosome_alignment_6 X))) (let ((_let_18 (tptp.fn_chromosome_alignment_10 X))) (let ((_let_19 (tptp.fn_attach_1 _let_9))) (let ((_let_20 (tptp.fn_chromosome_alignment_12 X))) (let ((_let_21 (tptp.fn_chromosome_alignment_16 X))) (let ((_let_22 (tptp.fn_attach_1 _let_21))) (let ((_let_23 (tptp.fn_chromosome_alignment_15 X))) (let ((_let_24 (tptp.fn_attach_2 _let_21))) (let ((_let_25 (tptp.fn_chromosome_alignment_1 X))) (let ((_let_26 (tptp.fn_chromosome_alignment_3 X))) (let ((_let_27 (tptp.fn_chromosome_alignment_2 X))) (=> (tptp.chromosome_alignment_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-Alignment'|) (tptp.user_description_2 X |tptp.'During mitosis and meiosis, the process in which the set of chromosomes in the cell is aligned on the metaphase plate.'|) (tptp.concept2words_2 X tptp.align) (tptp.concept2words_2 X |tptp.'alignment of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome alignment'|) (tptp.concept2words_2 X |tptp.'chromosome-alignment'|) (tptp.mitotic_event_1 X) (tptp.cell_pole_1 _let_25) (tptp.angle_value_1 _let_27) (tptp.angle_value_1 _let_26) (tptp.cell_pole_1 _let_17) (tptp.cell_1 _let_15) (tptp.entity_1 _let_12) (tptp.dna_1 _let_12) (tptp.coil_1 _let_14) (tptp.kinetochore_1 _let_18) (tptp.attach_1 _let_9) (tptp.kinetochore_microtubule_1 _let_20) (tptp.condensed_diploid_chromosome_1 _let_7) (tptp.spatial_entity_1 _let_1) (tptp.kinetochore_1 _let_1) (tptp.kinetochore_microtubule_1 _let_23) (tptp.attach_1 _let_21) (tptp.move_1 _let_5) (tptp.move_1 _let_3) (tptp.spatial_entity_1 _let_24) (tptp.spatial_entity_1 _let_22) (tptp.spatial_entity_1 _let_19) (tptp.cell_pole_1 _let_16) (tptp.coil_1 _let_13) (tptp.entity_1 _let_11) (tptp.dna_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.protein_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.chromosome_1 _let_2) (tptp.the_scalar_value_2 _let_26 tptp.forward_0) (tptp.scalar_unit_class_2 _let_26 tptp.move_0) (tptp.the_scalar_value_2 _let_27 tptp.backward_0) (tptp.scalar_unit_class_2 _let_27 tptp.move_0) (tptp.called_2 _let_3 |"1"|) (tptp.direction_2 _let_3 _let_27) (tptp.toward_2 _let_3 _let_25) (tptp.called_2 _let_5 |"2"|) (tptp.direction_2 _let_5 _let_26) (tptp.toward_2 _let_5 _let_17) (tptp.has_region_2 _let_15 _let_25) (tptp.called_2 _let_21 |"1"|) (tptp.inhibits_2 _let_21 _let_5) (tptp.next_event_2 _let_21 _let_3) (not (= _let_1 _let_18)) (tptp.object_2 X _let_7) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_21) (tptp.called_2 _let_9 |"2"|) (tptp.next_event_2 _let_9 _let_5) (tptp.inhibits_2 _let_9 _let_3) (not (= _let_18 _let_1)) (tptp.base_2 _let_21 _let_1) (tptp.base_2 _let_9 _let_18) (tptp.object_2 _let_21 _let_23) (tptp.object_2 _let_5 _let_7) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_9 _let_20) (tptp.has_part_2 _let_7 _let_18) (tptp.has_region_2 _let_15 _let_17) (tptp.has_part_2 _let_7 _let_1) (tptp.has_part_2 _let_7 _let_12) (tptp.object_2 _let_14 _let_12) (tptp.agent_2 _let_14 _let_1) (= _let_1 _let_24) (= _let_18 _let_10) (= _let_23 _let_22) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_20 _let_19) (= _let_18 _let_8) (= _let_17 _let_16) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_7 _let_2) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chromosome_arm_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-Arm'|) (tptp.user_description_2 X |tptp.'Regions of chromosomes on either side of the centromere, used in the identification of chromosome regions and location of genes.'|) (tptp.concept2words_2 X |tptp.'arm of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome arm'|) (tptp.concept2words_2 X |tptp.'chromosome-arm'|) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.chromosome_fragment_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-Fragment'|) (tptp.user_description_2 X |tptp.'A section of a chromosome that becomes separated.'|) (tptp.concept2words_2 X |tptp.'fragment of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome fragment'|) (tptp.concept2words_2 X |tptp.'chromosome-fragment'|) (tptp.chromosome_1 X) (not (tptp.yeast_artificial_chromosome_1 X)) (not (tptp.sex_chromosome_1 X)) (not (tptp.recombinant_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X)) (not (tptp.autosome_1 X)) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_21_1 X)) (not (tptp.defective_chromosome_1 X)) (not (tptp.eukaryotic_chromosome_1 X)) (not (tptp.homologous_chromosome_1 X)) (not (tptp.human_chromosome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.chromosome_region_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-Region'|) (tptp.user_description_2 X |tptp.'A region of a chromosome or DNA molecule.'|) (tptp.concept2words_2 X |tptp.'region of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome region'|) (tptp.concept2words_2 X |tptp.'chromosome-region'|) (tptp.nucleic_acid_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosome_theory_3 X))) (let ((_let_2 (tptp.fn_move_apart_1 _let_1))) (let ((_let_3 (tptp.fn_move_apart_2 _let_1))) (let ((_let_4 (tptp.fn_information_1 X))) (let ((_let_5 (tptp.fn_chromosome_theory_4 X))) (let ((_let_6 (tptp.fn_chromosome_theory_1 X))) (let ((_let_7 (tptp.fn_chromosome_theory_2 X))) (=> (tptp.chromosome_theory_1 X) (and (tptp.original_name_2 X |tptp.'Chromosome-Theory'|) (tptp.user_description_2 X |tptp.'According to the chromosome theory of inheritance, Mendelian genes have specific loci on chromosomes, and it is the chromosomes that undergo segregation and independent assortment.'|) (tptp.concept2words_2 X |tptp.'chromosomal theory of inheritance'|) (tptp.concept2words_2 X |tptp.'chromosome theory of inheritance'|) (tptp.concept2words_2 X |tptp.'theory of chromosome'|) (tptp.concept2words_2 X |tptp.'chromosome theory'|) (tptp.concept2words_2 X |tptp.'chromosome-theory'|) (tptp.hypothesis_1 X) (tptp.meiosis_1 _let_6) (tptp.gene_1 _let_7) (tptp.move_apart_1 _let_1) (tptp.chromosome_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.information_content_2 X _let_7) (tptp.is_on_2 _let_7 _let_5) (tptp.by_means_of_2 _let_1 _let_6) (tptp.information_content_2 X _let_5) (tptp.object_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_5 _let_2) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chylomicron_8 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_chylomicron_2 X))) (let ((_let_4 (tptp.fn_chylomicron_7 X))) (let ((_let_5 (tptp.fn_chylomicron_3 X))) (let ((_let_6 (tptp.fn_chylomicron_6 X))) (let ((_let_7 (tptp.fn_chylomicron_5 X))) (let ((_let_8 (tptp.fn_chylomicron_4 X))) (=> (tptp.chylomicron_1 X) (and (tptp.original_name_2 X |tptp.'Chylomicron'|) (tptp.user_description_2 X |tptp.'A type of lipoprotein that transports dietary lipids from the intestines to other tissues of the body.'|) (tptp.concept2words_2 X tptp.chylomicron) (tptp.subcellular_assembly_1 X) (not (tptp.thylakoid_electron_transport_chain_1 X)) (not (tptp.cytochrome_complex_1 X)) (not (tptp.electron_shuttle_system_1 X)) (not (tptp.electron_transport_chain_1 X)) (not (tptp.microfibril_1 X)) (not (tptp.signal_recognition_particle_1 X)) (tptp.shape_value_1 _let_3) (tptp.lipid_1 _let_5) (tptp.cholesterol_1 _let_8) (tptp.phospholipid_1 _let_7) (tptp.protein_1 _let_6) (tptp.lining_1 _let_4) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.has_region_2 X _let_4) (tptp.has_part_2 X _let_5) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.solubility_in_water_2 X _let_1) (tptp.shape_2 X _let_3) (tptp.element_2 _let_4 _let_8) (tptp.element_2 _let_4 _let_7) (tptp.element_2 _let_4 _let_6) (tptp.is_inside_2 _let_5 _let_4) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.subcellular_assembly_0) (tptp.the_categorical_value_2 _let_3 tptp.globular_0) (= (tptp.fn_chylomicron_9 X) _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protease_23 X))) (let ((_let_2 (tptp.fn_chymotrypsin_4 X))) (let ((_let_3 (tptp.fn_leave_1 _let_2))) (let ((_let_4 (tptp.fn_protease_17 X))) (let ((_let_5 (tptp.fn_hydrolase_1 X))) (let ((_let_6 (tptp.fn_chymotrypsin_8 X))) (let ((_let_7 (tptp.fn_reactant_2 _let_6))) (let ((_let_8 (tptp.fn_chymotrypsin_7 X))) (let ((_let_9 (tptp.fn_chymotrypsin_2 X))) (let ((_let_10 (tptp.fn_chymotrypsin_6 X))) (let ((_let_11 (tptp.fn_chymotrypsin_5 X))) (let ((_let_12 (tptp.fn_chymotrypsin_1 X))) (let ((_let_13 (tptp.fn_locomotion_1 _let_2))) (let ((_let_14 (tptp.fn_chymotrypsin_3 X))) (=> (tptp.chymotrypsin_1 X) (and (tptp.original_name_2 X |tptp.'Chymotrypsin'|) (tptp.user_description_2 X |tptp.'A digestive enzyme, found in pancreatic juice, that breaks polypeptides into shorter chains.'|) (tptp.concept2words_2 X tptp.chymotrypsin) (tptp.digestive_enzyme_1 X) (tptp.protease_1 X) (tptp.polypeptide_1 _let_12) (tptp.exergonic_reaction_1 _let_9) (tptp.hydrolysis_1 _let_9) (tptp.chemical_reaction_1 _let_9) (tptp.chemical_entity_1 _let_14) (tptp.leave_1 _let_2) (tptp.spatial_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.monomer_1 _let_11) (tptp.molecule_1 _let_11) (tptp.amino_acid_1 _let_11) (tptp.r_group_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.active_site_1 _let_8) (tptp.reactant_1 _let_6) (tptp.spatial_entity_1 _let_13) (tptp.chemical_reaction_1 _let_7) (tptp.spatial_entity_1 _let_3) (tptp.in_event_2 _let_6 _let_9) (tptp.origin_2 _let_2 _let_8) (tptp.object_2 _let_2 _let_14) (tptp.agent_2 _let_2 _let_14) (tptp.has_part_2 _let_12 _let_11) (tptp.has_part_2 X _let_12) (tptp.has_function_2 X _let_9) (tptp.has_region_2 X _let_8) (tptp.facilitates_2 _let_8 _let_9) (tptp.site_2 _let_9 _let_8) (tptp.is_inside_2 _let_10 _let_8) (tptp.has_region_2 _let_11 _let_10) (= _let_9 _let_7) (= _let_8 _let_3) (= _let_14 _let_13) (= _let_9 _let_5) (= _let_12 (tptp.fn_protease_5 X)) (= _let_11 (tptp.fn_protease_19 X)) (= _let_10 (tptp.fn_protease_18 X)) (= _let_9 _let_4) (= _let_8 _let_1) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.chytrid_1 X) (and (tptp.original_name_2 X |tptp.'Chytrid'|) (tptp.user_description_2 X |tptp.'A fungus from the phylum Chytridiomycota, a group of primarly aquatic fungi with flagellated zoospores. 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_let_91 _let_88) (tptp.is_between_2 _let_90 _let_88) (tptp.is_inside_2 _let_96 _let_95) (tptp.is_inside_2 _let_21 _let_95) (tptp.site_2 _let_56 _let_21) (tptp.has_function_2 _let_21 _let_56) (tptp.has_part_2 _let_41 _let_99) (tptp.is_between_2 _let_97 _let_99) (tptp.has_part_2 _let_41 _let_97) (tptp.is_inside_2 _let_6 _let_95) (tptp.is_at_2 _let_100 _let_48) (tptp.base_2 _let_56 _let_3) (tptp.result_2 _let_59 _let_101) (tptp.object_2 _let_11 _let_102) (tptp.object_2 _let_51 _let_100) (= _let_131 _let_130) (= _let_101 _let_79) (= _let_101 _let_77) (= _let_101 _let_76) (= _let_41 _let_40) (= _let_1 _let_18) (= _let_102 _let_81) (= _let_41 _let_38) (= _let_101 _let_75) (= _let_1 _let_16) (= _let_1 _let_14) (= _let_3 _let_68) (= _let_41 _let_37) (= _let_97 _let_47) (= _let_97 _let_46) (= _let_41 _let_35) (= _let_97 _let_44) (= _let_3 _let_62) (= _let_41 _let_33) (= _let_128 _let_127) (= _let_126 _let_87) (= _let_126 _let_86) (= _let_21 _let_125) (= _let_1 _let_12) (= _let_11 _let_20) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_92 _let_20) (= _let_120 _let_119) (= _let_1 _let_10) (= (tptp.fn_cis_face_18 X) _let_118) (= (tptp.fn_cis_face_17 X) _let_117) (= _let_96 _let_31) (= _let_116 _let_115) (= _let_48 _let_55) (= _let_51 _let_114) (= _let_3 _let_65) (= _let_48 _let_54) (= _let_48 _let_53) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_3 _let_66) (= _let_91 _let_7) (= _let_3 _let_60) (= _let_3 _let_64) (= _let_101 _let_73) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_59 _let_70) (= _let_59 _let_69) (= _let_105 _let_85) (= _let_105 _let_84) (= _let_104 _let_83) (= _let_104 _let_82) (= _let_6 _let_103) (= _let_3 _let_63) (= _let_3 _let_58) (= _let_41 _let_32) (= _let_100 _let_52) (= _let_102 _let_80) (= _let_101 _let_72) (= _let_101 _let_71) (= _let_3 _let_57) (= _let_100 _let_50) (= _let_100 _let_49) (= _let_95 _let_29) (= _let_99 _let_98) (= _let_97 _let_42) (= _let_96 _let_30) (= _let_95 _let_28) (= _let_56 _let_27) (= _let_56 _let_26) (= _let_56 _let_25) (= _let_56 _let_24) (= _let_56 _let_23) (= _let_56 _let_22) (= _let_94 _let_93) (= _let_92 _let_19) (= _let_91 _let_8) (= _let_88 _let_4) (= _let_91 _let_5) (= _let_90 _let_89) (= _let_88 _let_2) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_82 _let_82) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_58) (= _let_58 _let_62) (= _let_62 _let_60) (= _let_60 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_8) (= _let_8 _let_5) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cisterna_1 X) (and (tptp.original_name_2 X |tptp.'Cisterna'|) (tptp.user_description_2 X |tptp.'Cisternae are flattened membranous tubules and sacs. They are structural components of ER and Golgi'|) (tptp.concept2words_2 X tptp.cisterna) (tptp.cellular_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cisternal_space_1 X))) (=> (tptp.cisternal_space_1 X) (and (tptp.original_name_2 X |tptp.'Cisternal-Space'|) (tptp.user_description_2 X |tptp.'It is the region of a cisternae or ER or Golgi which is enclosed by membrane'|) (tptp.concept2words_2 X |tptp.'cisternal space'|) (tptp.concept2words_2 X |tptp.'cisternal-space'|) (tptp.lumen_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.aqueous_solution_1 _let_1) (tptp.is_inside_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ester_12 X))) (let ((_let_2 (tptp.fn_ester_9 X))) (let ((_let_3 (tptp.fn_molecule_11 X))) (let ((_let_4 (tptp.fn_ester_7 X))) (let ((_let_5 (tptp.fn_molecule_10 X))) (let ((_let_6 (tptp.fn_citrate_3 X))) (let ((_let_7 (tptp.fn_citrate_2 X))) (let ((_let_8 (tptp.fn_citrate_1 X))) (=> (tptp.citrate_1 X) (and (tptp.original_name_2 X |tptp.'Citrate'|) (tptp.user_description_2 X |tptp.'A citrate is the conjugate base of citric acid or ester of citric acid.'|) (tptp.concept2words_2 X tptp.citrate) (tptp.ester_1 X) (not (tptp.acetate_1 X)) (not (tptp.alpha_ketoglutarate_1 X)) (not (tptp.fumarate_1 X)) (not (tptp.isocitrate_1 X)) (not (tptp.malate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X)) (tptp.citric_acid_1 _let_8) (tptp.chemical_bond_1 _let_7) (tptp.double_bond_1 _let_7) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.has_state_2 _let_8 X) (tptp.has_part_2 X _let_6) (tptp.is_between_2 _let_7 _let_6) (tptp.possesses_2 X _let_7) (= _let_7 _let_5) (= _let_6 _let_3) (= _let_7 _let_4) (= _let_6 _let_2) (= _let_6 _let_1) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))) (forall ((X $$unsorted)) (=> (tptp.citric_acid_1 X) (and (tptp.original_name_2 X |tptp.'Citric-Acid'|) (tptp.user_description_2 X |tptp.'Citric acid is an organic acid. Its conjugate base Citrate is an important intermediate in Citric acid cycle.'|) (tptp.concept2words_2 X |tptp.'citric acid'|) (tptp.concept2words_2 X |tptp.'citric-acid'|) (tptp.carboxylic_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_citric_acid_cycle_57 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_citric_acid_cycle_95 X))) (let ((_let_4 (tptp.fn_reduction_3 _let_3))) (let ((_let_5 (tptp.fn_citric_acid_cycle_89 X))) (let ((_let_6 (tptp.fn_oxidation_10 _let_5))) (let ((_let_7 (tptp.fn_citric_acid_cycle_58 X))) (let ((_let_8 (tptp.fn_acetyl_coa_20 _let_7))) (let ((_let_9 (tptp.fn_citric_acid_cycle_117 X))) (let ((_let_10 (tptp.fn_add_1 _let_9))) (let ((_let_11 (tptp.fn_acetyl_coa_14 _let_7))) (let ((_let_12 (tptp.fn_acetyl_coa_17 _let_7))) (let ((_let_13 (tptp.fn_reactant_3 _let_1))) (let ((_let_14 (tptp.fn_citric_acid_cycle_72 X))) (let ((_let_15 (tptp.fn_chemical_reaction_2 _let_14))) (let ((_let_16 (tptp.fn_citric_acid_cycle_116 X))) (let ((_let_17 (tptp.fn_remove_2 _let_16))) (let ((_let_18 (tptp.fn_citric_acid_cycle_108 X))) (let ((_let_19 (tptp.fn_acetyl_coa_19 _let_18))) (let ((_let_20 (tptp.fn_organic_molecule_1 _let_18))) (let ((_let_21 (tptp.fn_citric_acid_cycle_77 X))) (let ((_let_22 (tptp.fn_dehydration_reaction_7 _let_21))) (let ((_let_23 (tptp.fn_condensation_reaction_1 _let_21))) (let ((_let_24 (tptp.fn_citric_acid_cycle_87 X))) (let ((_let_25 (tptp.fn_isomerization_reaction_2 _let_24))) (let ((_let_26 (tptp.fn_citric_acid_cycle_120 X))) (let ((_let_27 (tptp.fn_chemical_3 _let_26))) (let ((_let_28 (tptp.fn_citric_acid_cycle_121 X))) (let ((_let_29 (tptp.fn_make_contact_1 _let_28))) (let ((_let_30 (tptp.fn_make_contact_2 _let_28))) (let ((_let_31 (tptp.fn_oxidation_9 _let_5))) (let ((_let_32 (tptp.fn_reduction_4 _let_3))) (let ((_let_33 (tptp.fn_citric_acid_cycle_92 X))) (let ((_let_34 (tptp.fn_oxidation_9 _let_33))) (let ((_let_35 (tptp.fn_citric_acid_cycle_110 X))) (let ((_let_36 (tptp.fn_redox_reaction_7 _let_35))) (let ((_let_37 (tptp.fn_citric_acid_cycle_50 X))) (let ((_let_38 (tptp.fn_oxidation_9 _let_37))) (let ((_let_39 (tptp.fn_oxidation_10 _let_37))) (let ((_let_40 (tptp.fn_citric_acid_cycle_51 X))) (let ((_let_41 (tptp.fn_reduction_4 _let_40))) (let ((_let_42 (tptp.fn_endergonic_reaction_8 _let_21))) (let ((_let_43 (tptp.fn_dehydration_reaction_8 _let_21))) (let ((_let_44 (tptp.fn_condensation_reaction_2 _let_21))) (let ((_let_45 (tptp.fn_citric_acid_cycle_76 X))) (let ((_let_46 (tptp.fn_chemical_reaction_2 _let_45))) (let ((_let_47 (tptp.fn_citric_acid_cycle_129 X))) (let ((_let_48 (tptp.fn_functional_group_1 _let_47))) (let ((_let_49 (tptp.fn_citric_acid_cycle_74 X))) (let ((_let_50 (tptp.fn_add_2 _let_49))) (let ((_let_51 (tptp.fn_endergonic_reaction_2 _let_21))) (let ((_let_52 (tptp.fn_dehydration_reaction_1 _let_21))) (let ((_let_53 (tptp.fn_catabolic_pathway_11 X))) (let ((_let_54 (tptp.fn_citric_acid_cycle_31 X))) (let ((_let_55 (tptp.fn_waste_1 _let_54))) (let ((_let_56 (tptp.fn_dehydration_reaction_6 _let_21))) (let ((_let_57 (tptp.fn_condensation_reaction_3 _let_21))) (let ((_let_58 (tptp.fn_citric_acid_cycle_84 X))) (let ((_let_59 (tptp.fn_reduction_1 _let_58))) (let ((_let_60 (tptp.fn_citric_acid_cycle_80 X))) (let ((_let_61 (tptp.fn_decomposition_reaction_2 _let_60))) (let ((_let_62 (tptp.fn_reduction_3 _let_58))) (let ((_let_63 (tptp.fn_citric_acid_cycle_64 X))) (let ((_let_64 (tptp.fn_chemical_reaction_2 _let_63))) (let ((_let_65 (tptp.fn_citric_acid_cycle_82 X))) (let ((_let_66 (tptp.fn_nad_plus_1 _let_65))) (let ((_let_67 (tptp.fn_citric_acid_cycle_115 X))) (let ((_let_68 (tptp.fn_chemical_reaction_1 _let_67))) (let ((_let_69 (tptp.fn_redox_reaction_16 _let_35))) (let ((_let_70 (tptp.fn_redox_reaction_12 _let_35))) (let ((_let_71 (tptp.fn_oxidation_7 _let_37))) (let ((_let_72 (tptp.fn_reduction_3 _let_40))) (let ((_let_73 (tptp.fn_citric_acid_cycle_106 X))) (let ((_let_74 (tptp.fn_chemical_reaction_1 _let_73))) (let ((_let_75 (tptp.fn_redox_reaction_2 _let_35))) (let ((_let_76 (tptp.fn_redox_reaction_13 _let_35))) (let ((_let_77 (tptp.fn_oxidation_1 _let_37))) (let ((_let_78 (tptp.fn_reduction_1 _let_40))) (let ((_let_79 (tptp.fn_oxidation_7 _let_33))) (let ((_let_80 (tptp.fn_reduction_1 _let_3))) (let ((_let_81 (tptp.fn_citric_acid_cycle_96 X))) (let ((_let_82 (tptp.fn_add_2 _let_81))) (let ((_let_83 (tptp.fn_oxidation_7 _let_5))) (let ((_let_84 (tptp.fn_add_2 _let_9))) (let ((_let_85 (tptp.fn_citric_acid_cycle_90 X))) (let ((_let_86 (tptp.fn_add_2 _let_85))) (let ((_let_87 (tptp.fn_oxidation_10 _let_33))) (let ((_let_88 (tptp.fn_citric_acid_cycle_107 X))) (let ((_let_89 (tptp.fn_chemical_reaction_1 _let_88))) (let ((_let_90 (tptp.fn_citric_acid_cycle_99 X))) (let ((_let_91 (tptp.fn_hydration_4 _let_90))) (let ((_let_92 (tptp.fn_citric_acid_cycle_97 X))) (let ((_let_93 (tptp.fn_release_2 _let_92))) (let ((_let_94 (tptp.fn_isomerization_reaction_1 _let_24))) (let ((_let_95 (tptp.fn_chemical_reaction_1 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_let_27) (tptp.molecule_1 _let_25) (tptp.molecule_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.molecule_1 _let_22) (tptp.carbon_1 _let_20) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.carbon_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.acetyl_group_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.in_event_2 _let_54 X) (tptp.greater_than_2 _let_196 _let_194) (tptp.greater_than_or_equal_to_2 _let_196 _let_194) (tptp.raw_material_2 _let_63 _let_212) (not (= _let_184 _let_65)) (not (= _let_184 _let_187)) (not (= _let_202 _let_116)) (not (= _let_202 _let_203)) (not (= _let_200 _let_234)) (not (= _let_200 _let_215)) (not (= _let_187 _let_184)) (not (= _let_187 _let_183)) (tptp.raw_material_2 _let_14 _let_202) (tptp.subevent_2 _let_14 _let_9) (tptp.subevent_2 _let_14 _let_16) (tptp.by_means_of_2 _let_14 _let_5) (tptp.result_2 _let_14 _let_136) (tptp.next_event_2 _let_14 _let_24) (tptp.by_means_of_2 _let_45 _let_49) (tptp.possesses_2 _let_182 _let_174) (not (= _let_183 _let_187)) (not (= _let_183 _let_214)) (not (= _let_183 _let_65)) (not (= _let_65 _let_184)) (not (= _let_65 _let_183)) (not (= _let_209 _let_235)) (not (= _let_209 _let_204)) (not (= _let_209 _let_236)) (not (= _let_236 _let_209)) (tptp.subevent_2 _let_24 _let_45) (tptp.subevent_2 _let_24 _let_21) (tptp.first_subevent_2 _let_24 _let_21) (tptp.next_event_2 _let_24 _let_96) (tptp.has_state_2 _let_136 _let_204) (tptp.result_2 _let_85 _let_136) (not (= _let_204 _let_209)) (not (= _let_204 _let_235)) (tptp.has_isomer_2 _let_204 _let_136) (tptp.result_2 _let_33 _let_202) (not (= _let_157 _let_116)) (tptp.raw_material_2 _let_3 _let_201) (tptp.recipient_2 _let_81 _let_201) (tptp.donor_2 _let_81 _let_203) (tptp.is_inside_2 _let_219 _let_203) (not (= _let_203 _let_202)) (tptp.next_event_2 _let_105 _let_98) (not (= _let_214 _let_183)) (not (= _let_235 _let_209)) (not (= _let_235 _let_204)) (not (= _let_215 _let_200)) (not (= _let_215 _let_191)) (not (= _let_215 _let_234)) (tptp.possesses_2 _let_180 _let_229) (tptp.result_2 _let_73 _let_205) (tptp.subevent_2 _let_73 _let_98) (tptp.subevent_2 _let_73 _let_105) (tptp.first_subevent_2 _let_73 _let_105) (not (= _let_73 _let_67)) (not (= _let_73 _let_96)) (tptp.next_event_2 _let_73 _let_35) (tptp.by_means_of_2 _let_88 _let_90) (tptp.raw_material_2 _let_88 _let_240) (tptp.possesses_2 _let_239 _let_223) (tptp.structural_complexity_2 _let_239 _let_224) (tptp.structural_complexity_2 _let_18 _let_225) (tptp.possesses_2 _let_18 _let_227) (tptp.result_2 X _let_237) (tptp.result_2 X _let_239) (tptp.result_2 X _let_238) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.carbon_dioxide_0) (tptp.exactCardinality X tptp.result_0 |"3"| tptp.nadh_0) (tptp.exactCardinality X tptp.result_0 |"1"| tptp.fadh2_0) (tptp.exactCardinality X tptp.result_0 |"1"| tptp.atp_0) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_73) (tptp.subevent_2 X _let_88) (tptp.subevent_2 X _let_35) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_67) (tptp.subevent_2 X _let_96) (tptp.raw_material_2 X _let_202) (tptp.exactCardinality X tptp.raw_material_0 |"1"| tptp.oxaloacetate_0) (tptp.exactCardinality X tptp.raw_material_0 |"3"| tptp.nad_plus_0) (tptp.first_subevent_2 X _let_14) (tptp.possesses_2 _let_177 _let_231) (tptp.possesses_2 _let_237 _let_231) (tptp.raw_material_2 _let_35 _let_200) (tptp.result_2 _let_35 _let_234) (tptp.next_event_2 _let_35 _let_88) (not (= _let_116 _let_202)) (not (= _let_116 _let_157)) (tptp.result_2 _let_96 _let_207) (tptp.result_2 _let_96 _let_236) (tptp.raw_material_2 _let_96 _let_235) (not (= _let_96 _let_73)) (not (= _let_96 _let_67)) (tptp.subevent_2 _let_96 _let_109) (tptp.next_event_2 _let_96 _let_67) (tptp.subevent_2 _let_67 _let_63) (tptp.subevent_2 _let_67 _let_60) (tptp.raw_material_2 _let_67 _let_65) (tptp.raw_material_2 _let_67 _let_214) (tptp.result_2 _let_67 _let_189) (tptp.result_2 _let_67 _let_213) (tptp.first_subevent_2 _let_67 _let_60) (not (= _let_67 _let_73)) (not (= _let_67 _let_96)) (tptp.next_event_2 _let_67 _let_73) (not (= _let_234 _let_200)) (not (= _let_234 _let_215)) (not (= _let_234 _let_191)) (not (= _let_191 _let_215)) (not (= _let_191 _let_234)) (tptp.has_part_2 _let_26 _let_204) (tptp.concentration_2 _let_26 _let_233) (tptp.directly_proportional_2 _let_232 _let_233) (tptp.rate_2 _let_28 _let_232) (tptp.quantity_2 _let_231 _let_230) (tptp.greater_than_2 _let_228 _let_230) (tptp.quantity_2 _let_229 _let_228) (tptp.greater_than_2 _let_226 _let_222) (tptp.quantity_2 _let_227 _let_226) (tptp.greater_than_2 _let_225 _let_224) (tptp.quantity_2 _let_223 _let_222) (tptp.base_2 _let_85 _let_202) (tptp.base_2 _let_9 _let_202) (tptp.object_2 _let_49 _let_221) (tptp.base_2 _let_92 _let_203) (tptp.base_2 _let_81 _let_201) (tptp.base_2 _let_105 _let_213) (tptp.base_2 _let_16 _let_18) (tptp.base_2 _let_28 _let_136) (tptp.base_2 _let_111 _let_214) (tptp.object_2 _let_28 _let_136) (tptp.object_2 _let_92 _let_219) (tptp.object_2 _let_105 _let_217) (tptp.object_2 _let_16 _let_210) (tptp.result_2 _let_90 _let_203) (tptp.base_2 _let_49 _let_165) (tptp.result_2 _let_88 _let_203) (tptp.raw_material_2 _let_88 _let_215) (tptp.result_2 _let_35 _let_215) (tptp.result_2 _let_109 _let_214) (tptp.raw_material_2 _let_90 _let_215) (tptp.raw_material_2 _let_96 _let_204) (tptp.result_2 _let_96 _let_214) (tptp.result_2 _let_67 _let_187) (tptp.recipient_2 _let_58 _let_65) (tptp.raw_material_2 _let_73 _let_213) (tptp.raw_material_2 _let_60 _let_214) (tptp.result_2 _let_73 _let_191) (tptp.result_2 _let_45 _let_204) (tptp.object_2 _let_9 _let_116) (tptp.raw_material_2 _let_14 _let_18) (tptp.has_part_2 _let_26 _let_136) (tptp.result_2 _let_63 _let_213) (tptp.raw_material_2 _let_67 _let_212) (tptp.result_2 _let_14 _let_210) (tptp.has_region_2 _let_165 _let_47) (tptp.raw_material_2 _let_45 _let_165) (tptp.raw_material_2 _let_109 _let_209) (tptp.raw_material_2 _let_63 _let_184) (tptp.result_2 _let_60 _let_183) (tptp.plays_2 _let_181 _let_54) (tptp.donor_2 _let_40 _let_200) (not (= _let_191 _let_200)) (not (= _let_200 _let_191)) (tptp.donor_2 _let_3 _let_203) (tptp.result_2 _let_109 _let_207) (tptp.intensity_2 _let_28 |tptp.'*strong'|) (tptp.result_2 _let_98 _let_205) (tptp.result_2 _let_24 _let_204) (tptp.has_isomer_2 _let_136 _let_204) (tptp.raw_material_2 _let_24 _let_136) (not (= _let_136 _let_165)) (not (= _let_165 _let_136)) (tptp.donor_2 _let_33 _let_203) (not (= _let_203 _let_201)) (tptp.recipient_2 _let_33 _let_201) (not (= _let_157 _let_203)) (not (= _let_203 _let_157)) (not (= _let_201 _let_203)) (tptp.recipient_2 _let_5 _let_202) (tptp.plays_2 _let_202 _let_159) (tptp.plays_2 _let_7 _let_155) (tptp.object_2 _let_33 _let_157) (tptp.donor_2 _let_5 _let_7) (not (= _let_157 _let_202)) (tptp.has_atom_2 _let_7 _let_161) (not (= _let_202 _let_157)) (not (= _let_157 _let_201)) (not (= _let_201 _let_157)) (tptp.recipient_2 _let_3 _let_201) (not (= _let_201 _let_202)) (not (= _let_202 _let_7)) (not (= _let_7 _let_157)) (tptp.object_2 _let_3 _let_157) (not (= _let_202 _let_201)) (not (= _let_7 _let_202)) (not (= _let_157 _let_7)) (tptp.in_event_2 _let_1 X) (tptp.raw_material_2 X _let_18) (tptp.plays_2 _let_18 _let_1) (tptp.donor_2 _let_37 _let_200) (tptp.has_atom_2 _let_200 _let_199) (not (= _let_163 _let_200)) (not (= _let_200 _let_163)) (tptp.recipient_2 _let_40 _let_191) (tptp.recipient_2 _let_37 _let_191) (tptp.electronegativity_2 _let_199 _let_196) (tptp.greater_than_or_equal_to_2 _let_194 _let_196) (tptp.greater_than_2 _let_194 _let_196) (tptp.raw_material_2 _let_35 _let_191) (tptp.has_atom_2 _let_191 _let_192) (tptp.electronegativity_2 _let_192 _let_194) (not (= _let_163 _let_191)) (not (= _let_191 _let_163)) (tptp.result_2 _let_60 _let_189) (tptp.object_2 _let_111 _let_189) (not (= _let_187 _let_65)) (not (= _let_65 _let_187)) (tptp.donor_2 _let_58 _let_183) (tptp.plays_2 _let_183 _let_186) (tptp.in_event_2 _let_186 _let_58) (not (= _let_184 _let_183)) (not (= _let_183 _let_184)) (tptp.possesses_2 _let_136 _let_166) (tptp.raw_material_2 _let_21 _let_136) (not (= _let_136 _let_182)) (tptp.result_2 _let_21 _let_182) (not (= _let_182 _let_136)) (not (= _let_165 _let_182)) (not (= _let_182 _let_165)) (tptp.result_2 X _let_181) (tptp.result_2 X _let_177) (tptp.raw_material_2 X _let_180) (tptp.has_part_2 _let_7 _let_119) (tptp.is_inside_2 _let_119 _let_116) (tptp.has_part_2 _let_18 _let_176) (not (= _let_131 _let_176)) (not (= _let_176 _let_131)) (tptp.quantity_2 _let_174 _let_170) (tptp.called_2 _let_168 |tptp.'FE_r'|) (tptp.raw_material_2 _let_21 _let_165) (tptp.possesses_2 _let_165 _let_166) (tptp.quantity_2 _let_166 _let_168) (tptp.greater_than_2 _let_170 _let_168) (tptp.called_2 _let_170 |tptp.'FE_p'|) (tptp.subevent_2 _let_35 _let_37) (tptp.object_2 _let_37 _let_163) (tptp.object_2 _let_40 _let_163) (tptp.subevent_2 _let_35 _let_40) (tptp.electronegativity_2 _let_161 _let_152) (tptp.in_event_2 _let_159 _let_5) (tptp.object_2 _let_5 _let_157) (tptp.in_event_2 _let_155 _let_5) (tptp.raw_material_2 _let_5 _let_148) (tptp.quantity_2 _let_148 _let_150) (tptp.directly_proportional_2 _let_152 _let_150) (tptp.possesses_2 _let_136 _let_138) (tptp.quantity_2 _let_138 _let_140) (tptp.directly_proportional_2 _let_142 _let_140) (tptp.speed_2 _let_144 _let_142) (tptp.object_2 _let_144 _let_136) (tptp.has_part_2 _let_18 _let_131) (tptp.is_inside_2 _let_131 _let_133) (tptp.has_region_2 _let_18 _let_133) (tptp.possesses_2 _let_18 _let_124) (tptp.quantity_2 _let_124 _let_126) (tptp.directly_proportional_2 _let_128 _let_126) (tptp.speed_2 _let_130 _let_128) (tptp.object_2 _let_130 _let_18) (tptp.is_inside_2 _let_122 _let_116) (tptp.is_inside_2 _let_120 _let_116) (tptp.has_part_2 _let_7 _let_120) (tptp.has_part_2 _let_7 _let_122) (not (= _let_122 _let_120)) (not (= _let_120 _let_122)) (tptp.has_region_2 _let_7 _let_116) (tptp.is_inside_2 _let_117 _let_116) (tptp.has_part_2 _let_7 _let_117) (not (= _let_119 _let_117)) (not (= _let_117 _let_119)) (= _let_202 _let_86) (= _let_202 _let_84) (= _let_221 _let_220) (= _let_203 _let_93) (= _let_201 _let_82) (= _let_213 _let_106) (= _let_18 _let_17) (= _let_136 _let_30) (= _let_214 _let_112) (= _let_136 _let_29) (= _let_219 _let_218) (= _let_217 _let_216) (= _let_210 _let_102) (= _let_203 _let_91) (= _let_165 _let_50) (= _let_203 _let_89) (= _let_215 _let_115) (= _let_215 _let_114) (= _let_214 _let_110) (= _let_215 _let_113) (= _let_204 _let_97) (= _let_214 _let_108) (= _let_187 _let_68) (= _let_65 _let_62) (= _let_213 _let_104) (= _let_214 _let_107) (= _let_191 _let_74) (= _let_204 _let_95) (= _let_116 _let_10) (= _let_18 _let_15) (= _let_136 _let_27) (= _let_213 _let_103) (= _let_212 _let_211) (= _let_210 _let_101) (= _let_165 _let_48) (= _let_165 _let_46) (= _let_209 _let_208) (= _let_184 _let_64) (= _let_183 _let_61) (= _let_181 _let_55) (= _let_200 _let_78) (= _let_207 _let_206) (= _let_205 _let_100) (= _let_205 _let_99) (= _let_136 _let_25) (= _let_204 _let_94) (= _let_136 _let_23) (= _let_201 _let_79) (= _let_203 _let_80) (= _let_157 _let_34) (= _let_203 _let_87) (= _let_201 _let_80) (= _let_157 _let_32) (= _let_202 _let_83) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_202 _let_80) (= _let_201 _let_4) (= _let_18 _let_13) (= X _let_2) (= _let_199 _let_77) (= _let_200 _let_71) (= _let_200 _let_39) (= _let_199 _let_76) (= (tptp.fn_citric_acid_cycle_40 X) _let_198) (= (tptp.fn_citric_acid_cycle_39 X) _let_197) (= _let_196 _let_195) (= _let_194 _let_193) (= _let_192 _let_76) (= _let_192 _let_75) (= _let_191 _let_72) (= _let_191 _let_71) (= _let_163 _let_39) (= _let_191 _let_70) (= _let_191 _let_69) (= _let_111 _let_190) (= _let_189 _let_188) (= _let_187 _let_66) (= _let_186 _let_185) (= _let_184 _let_62) (= _let_183 _let_59) (= _let_166 _let_52) (= _let_182 _let_57) (= _let_165 _let_44) (= _let_165 _let_43) (= _let_182 _let_56) (= _let_136 _let_22) (= (tptp.fn_citric_acid_cycle_38 X) (tptp.fn_catabolic_pathway_5 X)) (= _let_181 _let_53) (= (tptp.fn_citric_acid_cycle_37 X) (tptp.fn_catabolic_pathway_1 X)) (= _let_180 (tptp.fn_catabolic_pathway_10 X)) (= _let_179 (tptp.fn_catabolic_pathway_4 X)) (= _let_178 (tptp.fn_catabolic_pathway_2 X)) (= _let_177 (tptp.fn_catabolic_pathway_9 X)) (= _let_131 _let_20) (= _let_176 _let_175) (= _let_174 _let_173) (= (tptp.fn_citric_acid_cycle_44 X) _let_172) (= (tptp.fn_citric_acid_cycle_43 X) _let_171) (= _let_170 _let_169) (= _let_168 _let_167) (= _let_166 _let_51) (= _let_165 _let_42) (= _let_163 _let_41) (= _let_40 _let_164) (= _let_163 _let_38) (= _let_163 _let_36) (= _let_37 _let_162) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_157 _let_31) (= (tptp.fn_citric_acid_cycle_29 X) _let_156) (= _let_155 _let_154) (= (tptp.fn_citric_acid_cycle_28 X) _let_153) (= _let_152 _let_151) (= _let_150 _let_149) (= _let_148 _let_147) (= (tptp.fn_citric_acid_cycle_42 X) _let_146) (= (tptp.fn_citric_acid_cycle_41 X) _let_145) (= _let_144 _let_143) (= _let_142 _let_141) (= _let_140 _let_139) (= _let_138 _let_137) (= (tptp.fn_citric_acid_cycle_45 X) _let_135) (= (tptp.fn_citric_acid_cycle_46 X) _let_134) (= _let_133 _let_132) (= _let_131 _let_19) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_118) (= _let_117 _let_12) (= _let_119 _let_118) (= _let_117 _let_11) (= _let_116 _let_8) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_110) (= _let_110 _let_110) (= _let_110 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_97) (= _let_97 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_91) (= _let_91 _let_91) (= _let_91 _let_89) (= _let_89 _let_89) (= _let_89 _let_80) (= _let_87 _let_80) (= _let_80 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_80) (= _let_80 _let_80) (= _let_80 _let_82) (= _let_82 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_4) (= _let_4 _let_4) (= _let_4 _let_78) (= _let_78 _let_78) (= _let_78 _let_71) (= _let_39 _let_71) (= _let_71 _let_39) (= _let_39 _let_39) (= _let_39 _let_77) (= _let_77 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_72) (= _let_72 _let_72) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_39) (= _let_39 _let_41) (= _let_41 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_36 _let_36) (= _let_36 _let_38) (= _let_38 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_34) (= _let_34 _let_31) (= _let_31 _let_31) (= _let_32 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 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_let_126)) (tptp.by_means_of_2 _let_144 _let_145) (tptp.base_2 _let_145 _let_117) (tptp.raw_material_2 _let_144 _let_117) (not (= _let_123 _let_117)) (not (= _let_117 _let_123)) (tptp.base_2 _let_143 _let_140) (tptp.recipient_2 _let_62 _let_140) (tptp.donor_2 _let_62 _let_139) (not (= _let_132 _let_139)) (not (= _let_139 _let_132)) (tptp.object_2 _let_137 _let_132) (tptp.by_means_of_2 _let_142 _let_137) (tptp.next_event_2 _let_142 _let_31) (tptp.subevent_2 _let_31 _let_144) (tptp.result_2 _let_144 _let_28) (tptp.donor_2 _let_143 _let_139) (tptp.recipient_2 _let_143 _let_140) (not (= _let_140 _let_132)) (not (= _let_139 _let_140)) (not (= _let_140 _let_139)) (not (= _let_132 _let_140)) (tptp.donor_2 _let_58 _let_139) (tptp.result_2 _let_58 _let_134) (tptp.raw_material_2 _let_142 _let_134) (tptp.result_2 _let_142 _let_118) (tptp.has_state_2 _let_118 _let_28) (tptp.plays_2 _let_134 _let_141) (not (= _let_139 _let_134)) (not (= _let_134 _let_139)) (not (= _let_140 _let_134)) (not (= _let_134 _let_140)) (tptp.object_2 _let_138 _let_135) (tptp.base_2 _let_138 _let_134) (not (= _let_134 _let_132)) (not (= _let_132 _let_135)) (not (= _let_135 _let_132)) (not (= _let_132 _let_134)) (tptp.has_region_2 _let_136 _let_135) (tptp.donor_2 _let_137 _let_136) (tptp.recipient_2 _let_137 _let_134) (not (= _let_132 _let_136)) (not (= _let_136 _let_132)) (tptp.raw_material_2 X _let_134) (not (= _let_135 _let_134)) (not (= _let_134 _let_135)) (not (= _let_136 _let_134)) (not (= _let_134 _let_136)) (tptp.subevent_2 _let_43 _let_19) (not (= _let_131 _let_124)) (not (= _let_124 _let_131)) (tptp.object_2 _let_58 _let_132) (tptp.object_2 _let_19 _let_131) (tptp.electronegativity_2 _let_129 _let_113) (tptp.has_region_2 _let_117 _let_3) (tptp.possesses_2 _let_117 _let_127) (not (= _let_126 _let_117)) (not (= _let_117 _let_126)) (tptp.raw_material_2 _let_5 _let_117) (tptp.result_2 _let_5 _let_126) (not (= _let_106 _let_105)) (not (= _let_105 _let_106)) (tptp.is_between_2 _let_107 _let_105) (tptp.is_between_2 _let_107 _let_106) (tptp.is_inside_2 _let_106 _let_3) (tptp.is_inside_2 _let_105 _let_3) (tptp.is_between_2 _let_109 _let_110) (tptp.possesses_2 _let_12 _let_109) (tptp.has_part_2 _let_1 _let_12) (tptp.quantity_2 _let_115 _let_112) (tptp.raw_material_2 _let_19 _let_115) (tptp.directly_proportional_2 _let_113 _let_112) (not (= _let_117 _let_118)) (tptp.possesses_2 _let_117 _let_107) (not (= _let_118 _let_117)) (tptp.raw_material_2 _let_5 _let_118) (tptp.has_part_2 _let_117 _let_105) (tptp.has_part_2 _let_117 _let_106) (tptp.result_2 _let_5 _let_117) (tptp.in_event_2 _let_120 _let_58) (tptp.has_isomer_2 _let_118 _let_28) (tptp.subevent_2 _let_47 _let_122) (tptp.has_part_2 _let_12 _let_110) (tptp.raw_material_2 _let_31 _let_123) (tptp.recipient_2 _let_19 _let_124) (tptp.raw_material_2 _let_43 _let_125) (= _let_168 _let_98) (= _let_134 _let_70) (= _let_161 _let_87) (= _let_152 _let_35) (= _let_1 _let_199) (= _let_197 (tptp.fn_metabolic_pathway_1 X)) (= _let_165 _let_94) (= _let_196 _let_195) (= _let_194 _let_193) (= _let_28 _let_37) (= _let_190 _let_104) (= _let_152 _let_79) (= _let_192 _let_191) (= _let_190 _let_35) (= _let_28 _let_38) (= _let_28 _let_35) (= _let_161 _let_38) (= _let_190 _let_103) (= _let_167 _let_94) (= _let_167 _let_95) (= _let_184 _let_93) (= _let_164 _let_94) (= _let_164 _let_93) (= _let_164 _let_91) (= _let_184 _let_102) (= _let_189 _let_188) (= _let_187 _let_186) (= (tptp.fn_citric_acid_cycle_in_eukaryote_21 X) _let_185) (= _let_184 _let_101) (= (tptp.fn_citric_acid_cycle_in_eukaryote_20 X) _let_183) (= _let_182 _let_181) (= _let_180 _let_179) (= _let_178 _let_177) (= _let_176 (tptp.fn_citric_acid_cycle_57 X)) (= (tptp.fn_citric_acid_cycle_in_eukaryote_18 X) (tptp.fn_citric_acid_cycle_44 X)) (= (tptp.fn_citric_acid_cycle_in_eukaryote_17 X) (tptp.fn_citric_acid_cycle_40 X)) (= _let_175 (tptp.fn_citric_acid_cycle_9 X)) (= (tptp.fn_citric_acid_cycle_in_eukaryote_19 X) (tptp.fn_citric_acid_cycle_43 X)) (= _let_174 (tptp.fn_citric_acid_cycle_131 X)) (= _let_173 (tptp.fn_citric_acid_cycle_130 X)) (= _let_164 _let_89) (= _let_172 (tptp.fn_citric_acid_cycle_80 X)) (= _let_156 _let_81) (= _let_171 (tptp.fn_citric_acid_cycle_64 X)) (= _let_167 _let_91) (= _let_167 _let_89) (= _let_170 _let_100) (= _let_170 _let_99) (= _let_157 _let_82) (= _let_169 (tptp.fn_citric_acid_cycle_112 X)) (= _let_168 _let_97) (= _let_167 _let_88) (= _let_166 (tptp.fn_citric_acid_cycle_70 X)) (= _let_165 _let_91) (= _let_165 _let_96) (= _let_164 _let_95) (= _let_90 (tptp.fn_citric_acid_cycle_84 X)) (= _let_164 _let_88) (= _let_163 (tptp.fn_citric_acid_cycle_103 X)) (= _let_162 (tptp.fn_citric_acid_cycle_21 X)) (= _let_161 _let_85) (= _let_129 _let_55) (= _let_113 _let_21) (= _let_160 (tptp.fn_citric_acid_cycle_55 X)) (= _let_159 _let_54) (= _let_159 _let_84) (= _let_158 (tptp.fn_citric_acid_cycle_105 X)) (= _let_125 _let_49) (= _let_43 (tptp.fn_citric_acid_cycle_110 X)) (= _let_125 _let_48) (= _let_139 _let_76) (= _let_157 _let_83) (= _let_155 _let_82) (= _let_156 _let_83) (= _let_155 _let_81) (= _let_154 _let_42) (= _let_131 _let_57) (= _let_124 _let_41) (= _let_154 _let_80) (= _let_153 (tptp.fn_citric_acid_cycle_15 X)) (= _let_125 _let_46) (= _let_152 _let_78) (= _let_151 (tptp.fn_citric_acid_cycle_120 X)) (= _let_47 (tptp.fn_citric_acid_cycle_99 X)) (= _let_150 (tptp.fn_citric_acid_cycle_107 X)) (= _let_149 (tptp.fn_citric_acid_cycle_98 X)) (= _let_148 (tptp.fn_citric_acid_cycle_97 X)) (= _let_147 (tptp.fn_citric_acid_cycle_90 X)) (= _let_5 (tptp.fn_citric_acid_cycle_77 X)) (= _let_146 (tptp.fn_citric_acid_cycle_132 X)) (= _let_127 _let_53) (= _let_126 _let_51) (= _let_123 _let_30) (= _let_117 _let_24) (= _let_145 (tptp.fn_citric_acid_cycle_74 X)) (= _let_62 (tptp.fn_citric_acid_cycle_95 X)) (= _let_144 (tptp.fn_citric_acid_cycle_76 X)) (= _let_31 (tptp.fn_citric_acid_cycle_87 X)) (= _let_140 _let_67) (= _let_132 _let_64) (= _let_140 _let_68) (= _let_143 (tptp.fn_citric_acid_cycle_96 X)) (= _let_28 _let_33) (= _let_118 _let_30) (= _let_142 (tptp.fn_citric_acid_cycle_72 X)) (= _let_58 (tptp.fn_citric_acid_cycle_92 X)) (= _let_141 (tptp.fn_citric_acid_cycle_32 X)) (= _let_140 _let_77) (= _let_139 _let_72) (= _let_139 _let_64) (= _let_139 _let_75) (= _let_134 _let_67) (= _let_138 (tptp.fn_citric_acid_cycle_117 X)) (= _let_137 _let_74) (= _let_137 _let_73) (= _let_136 _let_68) (= _let_132 _let_61) (= _let_136 _let_66) (= _let_132 _let_63) (= _let_136 _let_64) (= _let_132 _let_60) (= _let_134 _let_68) (= _let_136 _let_72) (= _let_136 _let_71) (= _let_135 (tptp.fn_citric_acid_cycle_111 X)) (= X _let_2) (= _let_134 _let_66) (= _let_134 _let_65) (= _let_19 _let_133) (= _let_124 _let_42) (= _let_132 _let_59) (= _let_131 _let_56) (= (tptp.fn_citric_acid_cycle_in_eukaryote_16 X) _let_130) (= _let_129 _let_54) (= _let_117 _let_25) (= _let_3 _let_128) (= _let_127 _let_52) (= _let_126 _let_50) (= _let_125 _let_45) (= _let_125 _let_44) (= _let_124 _let_40) (= _let_123 _let_32) (= _let_110 _let_17) (= _let_110 _let_16) (= _let_122 _let_121) (= _let_118 _let_32) (= _let_28 _let_39) (= _let_118 _let_29) (= _let_120 _let_119) (= _let_107 _let_10) (= _let_117 _let_23) (= _let_118 _let_27) (= _let_118 _let_26) (= _let_105 _let_6) (= _let_117 _let_22) (= _let_106 _let_8) (= (tptp.fn_citric_acid_cycle_in_eukaryote_15 X) _let_116) (= _let_115 _let_114) (= _let_113 _let_20) (= _let_112 _let_111) (= _let_110 _let_18) (= _let_110 _let_15) (= _let_109 _let_14) (= _let_109 _let_13) (= _let_109 _let_11) (= _let_12 _let_108) (= _let_107 _let_9) (= _let_106 _let_7) (= _let_105 _let_4) (= _let_104 _let_35) (= _let_35 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_93) (= _let_102 _let_93) (= _let_93 _let_102) (= _let_101 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_94) (= _let_95 _let_94) (= _let_95 _let_89) (= _let_88 _let_94) (= _let_94 _let_91) (= _let_91 _let_94) (= _let_94 _let_94) (= _let_94 _let_96) (= _let_96 _let_96) (= _let_96 _let_94) (= _let_94 _let_95) (= _let_95 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_91 _let_93) (= _let_93 _let_91) (= _let_91 _let_91) (= _let_91 _let_89) (= _let_88 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_38) (= _let_38 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_54) (= _let_54 _let_84) (= _let_84 _let_82) (= _let_82 _let_83) (= _let_81 _let_83) (= _let_83 _let_83) (= _let_83 _let_81) (= _let_81 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_42) (= _let_80 _let_42) (= _let_42 _let_80) (= _let_80 _let_80) (= _let_80 _let_35) (= _let_35 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_67) (= _let_77 _let_68) (= _let_68 _let_77) (= _let_77 _let_77) (= _let_77 _let_72) (= _let_76 _let_64) (= _let_64 _let_64) (= _let_64 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_68) (= _let_68 _let_72) (= _let_72 _let_72) (= _let_72 _let_64) (= _let_64 _let_72) (= _let_72 _let_66) (= _let_66 _let_64) (= _let_64 _let_66) (= _let_71 _let_66) (= _let_66 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_68) (= _let_68 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_61) (= _let_61 _let_63) (= _let_63 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_56) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_46 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_30) (= _let_32 _let_38) (= _let_38 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_30) (= _let_30 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.citric_acid_cycle_1 X) (tptp.prokaryote_1 X1)) (and (tptp.citric_acid_cycle_in_prokaryote_1 X) (= (tptp.fn_citric_acid_cycle_in_prokaryote_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_citric_acid_cycle_in_prokaryote_2 X))) (let ((_let_2 (tptp.fn_prokaryote_12 _let_1))) (let ((_let_3 (tptp.fn_cell_28 _let_1))) (let ((_let_4 (tptp.fn_citric_acid_cycle_in_prokaryote_3 X))) (=> (tptp.citric_acid_cycle_in_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Citric-Acid-Cycle-In-Prokaryote'|) (tptp.user_description_2 X |tptp.'A chemical cycle, occuring in the cytosol of prokaryotes, involving eight steps that completes the metabolic breakdown of glucose molecules begun in glycolysis by oxidizing acetyl CoA to carbon dioxide; the second major stage in cellular respiration.'|) (tptp.concept2words_2 X |tptp.'undergo citric acid cycle'|) (tptp.concept2words_2 X |tptp.'citric acid cycle in prokaryote'|) (tptp.concept2words_2 X |tptp.'citric-acid-cycle-in-prokaryote'|) (tptp.citric_acid_cycle_1 X) (not (tptp.glycolysis_1 X)) (not (tptp.cellular_respiration_1 X)) (not (tptp.citric_acid_cycle_in_eukaryote_1 X)) (tptp.cell_1 _let_1) (tptp.prokaryote_1 _let_1) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.mixture_1 _let_3) (tptp.cytoplasm_1 _let_3) (tptp.mixture_1 _let_2) (tptp.cytoplasm_1 _let_2) (tptp.site_2 X _let_4) (tptp.base_2 X _let_1) (tptp.has_part_2 _let_1 _let_4) (= _let_1 (tptp.fn_metabolic_pathway_1 X)) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.city_1 X) (and (tptp.original_name_2 X |tptp.'City'|) (tptp.concept2words_2 X tptp.city) (tptp.concept2words_2 X tptp.metropolis) (tptp.concept2words_2 X |tptp.'urban center'|) (tptp.concept2words_2 X tptp.urban_center) (tptp.administrative_district_1 X) (not (tptp.province_1 X)) (not (tptp.political_state_1 X)) (not (tptp.county_1 X)) (not (tptp.country_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cl_minus_5 X))) (let ((_let_2 (tptp.fn_cl_minus_6 X))) (let ((_let_3 (tptp.fn_cl_minus_7 X))) (let ((_let_4 (tptp.fn_cl_minus_2 X))) (let ((_let_5 (tptp.fn_cl_minus_1 X))) (let ((_let_6 (tptp.fn_cl_minus_3 X))) (let ((_let_7 (tptp.fn_cl_minus_4 X))) (=> (tptp.cl_minus_1 X) (and (tptp.original_name_2 X |tptp.'Cl-Minus'|) (tptp.user_description_2 X |tptp.'The chloride ion of chlorine. The chloride ion readily forms water-soluble salts, such as sodium chloride (NaCl).'|) (tptp.concept2words_2 X |tptp.'chloride ion'|) (tptp.concept2words_2 X |tptp.'chloride-ion'|) (tptp.concept2words_2 X tptp.chloride) (tptp.concept2words_2 X |tptp.'minus of cl'|) (tptp.concept2words_2 X |tptp.'cl minus'|) (tptp.concept2words_2 X |tptp.'cl-minus'|) (tptp.monoatomic_ion_1 X) (tptp.anion_1 X) (not (tptp.malonate_1 X)) (not (tptp.benzoate_1 X)) (not (tptp.carbonate_ion_1 X)) (not (tptp.azide_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.bicarbonate_ion_1 X)) (not (tptp.organic_anion_1 X)) (not (tptp.phosphate_ion_1 X)) (tptp.gain_1 _let_5) (tptp.chlorine_1 _let_4) (tptp.neutron_1 _let_6) (tptp.chlorine_1 _let_7) (tptp.gain_1 _let_1) (tptp.chlorine_1 _let_2) (tptp.charge_value_1 _let_3) (tptp.has_ion_2 _let_7 X) (tptp.has_part_2 X _let_6) (tptp.exactCardinality X tptp.has_part_0 |"18"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"17"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"17"| tptp.neutron_0) (tptp.result_2 _let_5 X) (tptp.recipient_2 _let_5 _let_4) (tptp.base_2 _let_5 _let_4) (tptp.the_cardinal_value_2 _let_3 |"-1"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.charge_2 X _let_3) (tptp.result_2 _let_1 X) (tptp.recipient_2 _let_1 _let_2) (tptp.base_2 _let_1 _let_2) (= (tptp.fn_cl_minus_8 X) (tptp.fn_anion_7 X)) (= _let_3 (tptp.fn_anion_6 X)) (= _let_2 (tptp.fn_anion_5 X)) (= _let_1 (tptp.fn_anion_2 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cl2_gas_1 X))) (let ((_let_2 (tptp.fn_toxin_1 _let_1))) (=> (tptp.cl2_gas_1 X) (and (tptp.original_name_2 X |tptp.'Cl2-Gas'|) (tptp.user_description_2 X |tptp.'The gaseous, diatomic form of the element chlorine'|) (tptp.concept2words_2 X |tptp.'cl2 gas'|) (tptp.concept2words_2 X |tptp.'cl2-gas'|) (tptp.gas_substance_1 X) (tptp.toxin_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.clade_1 X) (and (tptp.original_name_2 X |tptp.'Clade'|) (tptp.user_description_2 X |tptp.'A monophyletic group, consisting of an ancestral species and all of its descendants.'|) (tptp.concept2words_2 X tptp.monophyletic) (tptp.concept2words_2 X |tptp.'monophyletic taxon'|) (tptp.concept2words_2 X |tptp.'monophyletic-taxon'|) (tptp.concept2words_2 X tptp.clade) (tptp.classification_unit_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cladistics_1 X) (and (tptp.original_name_2 X |tptp.'Cladistics'|) (tptp.user_description_2 X |tptp.'A method of biological classification that places organisms into groups based on their shared unique characters. Organisms within a group, or clade, are considered to be closely related to each other and more distantly related to other organisms.'|) (tptp.concept2words_2 X tptp.cladistics) (tptp.systematics_1 X) (not (tptp.binomial_nomenclature_1 X)) (not (tptp.branch_point_1 X)) (not (tptp.deep_green_1 X)) (not (tptp.molecular_systematics_1 X)) (not (tptp.paraphyletic_1 X)) (not (tptp.phylocode_1 X)) (not (tptp.phylogenetic_bracketing_1 X)) (not (tptp.phylogeny_1 X)) (not (tptp.taxonomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cladogenesis_1 X) (and (tptp.original_name_2 X |tptp.'Cladogenesis'|) (tptp.user_description_2 X |tptp.'Branching evolution, in which a new species buds off from a parent species'|) (tptp.concept2words_2 X tptp.cladogenesis) (tptp.speciation_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cladogram_1 X) (and (tptp.original_name_2 X |tptp.'Cladogram'|) (tptp.user_description_2 X |tptp.'In cladistics, a cladogram is a diagram used to depict relationships among organisms.'|) (tptp.concept2words_2 X tptp.cladogram) (tptp.evolutionary_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (=> (tptp.class_1 X) (and (tptp.original_name_2 X |tptp.'Class'|) (tptp.concept2words_2 X tptp.class) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.class_as_classification_1 X) (and (tptp.original_name_2 X |tptp.'Class-As-Classification'|) (tptp.user_description_2 X |tptp.'In Linnean taxonomy, the taxonomic category below the level of phylum and above the level of order.'|) (tptp.concept2words_2 X |tptp.'class as classification'|) (tptp.concept2words_2 X |tptp.'class-as-classification'|) (tptp.taxon_1 X)))) (forall ((X $$unsorted)) (=> (tptp.class_definition_viewpoint_1 X) (and (tptp.original_name_2 X |tptp.'Class-Definition-Viewpoint'|) (tptp.concept2words_2 X |tptp.'class definition viewpoint'|) (tptp.concept2words_2 X |tptp.'class-definition-viewpoint'|) (tptp.viewpoint_1 X)))) (forall ((X $$unsorted)) (=> (tptp.class_i_mhc_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Class-I-MHC-Molecule'|) (tptp.user_description_2 X |tptp.'A type of MHC molecule found on the surface of nearly all nucleated cells and that functions in identification of infected cells by cytotoxic T ells.'|) (tptp.concept2words_2 X |tptp.'class i mhc molecule'|) (tptp.concept2words_2 X |tptp.'class-i-mhc-molecule'|) (tptp.major_histocompatibility_complex_protein_1 X) (not (tptp.class_ii_mhc_molecule_1 X))))) (forall ((X $$unsorted)) (=> (tptp.class_ii_mhc_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Class-II-MHC-Molecule'|) (tptp.user_description_2 X |tptp.'A type of MHC molecule found only on antigen-presenting cells such as B cells, dendritic cells, and macrophages.'|) (tptp.concept2words_2 X |tptp.'class ii mhc molecule'|) (tptp.concept2words_2 X |tptp.'class-ii-mhc-molecule'|) (tptp.major_histocompatibility_complex_protein_1 X) (not (tptp.class_i_mhc_molecule_1 X))))) (forall ((X $$unsorted)) (=> (tptp.classical_conditioning_1 X) (and (tptp.original_name_2 X |tptp.'Classical-Conditioning'|) (tptp.user_description_2 X |tptp.'A type of associative learning in which an arbitrary stimulus (the conditioned stimulus) becomes associated with a second, unconditioned, stimulus.'|) (tptp.concept2words_2 X |tptp.'classical conditioning'|) (tptp.concept2words_2 X |tptp.'classical-conditioning'|) (tptp.associative_learning_1 X) (not (tptp.operant_conditioning_1 X))))) (forall ((X $$unsorted)) (=> (tptp.classification_system_1 X) (and (tptp.original_name_2 X |tptp.'Classification-System'|) (tptp.user_description_2 X |tptp.'A system for categorizing organisms.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'system of classification'|) (tptp.concept2words_2 X |tptp.'classification system'|) (tptp.concept2words_2 X |tptp.'classification-system'|) (tptp.systematics_1 X)))) (forall ((X $$unsorted)) (=> (tptp.classification_unit_1 X) (and (tptp.original_name_2 X |tptp.'Classification-Unit'|) (tptp.user_description_2 X |tptp.'Group assigned to a group of things living or not, related spatially, genetically, phenotypically, behaviorally, or temporally.'|) (tptp.concept2words_2 X |tptp.'unit of classification'|) (tptp.concept2words_2 X |tptp.'classification unit'|) (tptp.concept2words_2 X |tptp.'classification-unit'|) (tptp.information_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.cdna_library_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X))))) (forall ((X $$unsorted)) (=> (tptp.clawed_lobster_1 X) (and (tptp.original_name_2 X |tptp.'Clawed-Lobster'|) (tptp.user_description_2 X |tptp.'A crustacean of the family Homaridae, characterized by a long body, muscular tail, and the anteriormost pair of thoracic walking legs modified into large claws.'|) (tptp.concept2words_2 X |tptp.'clawed lobster'|) (tptp.concept2words_2 X |tptp.'clawed-lobster'|) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.copepod_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.decapod_1 X)) (not (tptp.isopod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cleavage_8 X))) (let ((_let_2 (tptp.fn_cleavage_furrow_1 _let_1))) (let ((_let_3 (tptp.fn_cleavage_7 X))) (let ((_let_4 (tptp.fn_contract_1 _let_3))) (let ((_let_5 (tptp.fn_cleavage_5 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_cleavage_furrow_7 _let_1))) (let ((_let_8 (tptp.fn_impair_1 X))) (let ((_let_9 (tptp.fn_cleavage_9 X))) (let ((_let_10 (tptp.fn_cleavage_12 X))) (let ((_let_11 (tptp.fn_contractile_ring_5 _let_9))) (let ((_let_12 (tptp.fn_cleavage_10 X))) (let ((_let_13 (tptp.fn_contractile_ring_6 _let_9))) (let ((_let_14 (tptp.fn_cleavage_11 X))) (let ((_let_15 (tptp.fn_cleavage_6 X))) (let ((_let_16 (tptp.fn_create_1 _let_15))) (let ((_let_17 (tptp.fn_cleavage_4 X))) (let ((_let_18 (tptp.fn_cleavage_2 X))) (let ((_let_19 (tptp.fn_cleavage_3 X))) (let ((_let_20 (tptp.fn_cleavage_1 X))) (=> (tptp.cleavage_1 X) (and (tptp.original_name_2 X |tptp.'Cleavage'|) (tptp.user_description_2 X |tptp.'(1) In animal cells, the process of cytokinesis that results in the pinching in of the plasma membrane. (2) In early animal development, a series of rapid cell divisions that occur without growth, resulting in a multi-celled embryo that is roughly the same size as the original zygote.'|) (tptp.concept2words_2 X |tptp.'undergo cleavage'|) (tptp.concept2words_2 X tptp.cleave) (tptp.concept2words_2 X tptp.cleavage) (tptp.divide_1 X) (not (tptp.cytokinesis_1 X)) (not (tptp.nuclear_division_1 X)) (tptp.animal_cell_1 _let_20) (tptp.grow_1 _let_18) (tptp.cleavage_furrow_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.create_1 _let_5) (tptp.create_1 _let_15) (tptp.contract_1 _let_3) (tptp.entity_1 _let_1) (tptp.cleavage_furrow_1 _let_1) (tptp.entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.contractile_ring_1 _let_9) (tptp.spatial_entity_1 _let_12) (tptp.polymer_1 _let_12) (tptp.microfilament_1 _let_12) (tptp.myosin_1 _let_14) (tptp.tangible_entity_1 _let_10) (tptp.cell_1 _let_10) (tptp.animal_cell_1 _let_10) (tptp.entity_1 _let_16) (tptp.myosin_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.microfilament_1 _let_11) (tptp.cell_1 _let_7) (tptp.animal_cell_1 _let_7) (tptp.entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.contractile_ring_1 _let_2) (tptp.raw_material_2 _let_5 _let_14) (tptp.raw_material_2 _let_5 _let_12) (tptp.next_event_2 _let_5 _let_15) (tptp.result_2 _let_15 _let_19) (tptp.next_event_2 _let_15 _let_3) (tptp.causes_2 _let_3 _let_18) (tptp.result_2 _let_18 _let_20) (tptp.exactCardinality _let_18 tptp.result_0 |"2"| tptp.animal_cell_0) (tptp.object_2 _let_18 _let_19) (tptp.object_2 _let_18 _let_1) (tptp.first_subevent_2 X _let_5) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_18) (tptp.result_2 X _let_17) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.daughter_cell_0) (tptp.object_2 X _let_10) (tptp.result_2 _let_15 _let_1) (tptp.result_2 _let_5 _let_9) (tptp.base_2 _let_3 _let_9) (tptp.is_along_2 _let_1 _let_9) (tptp.is_along_2 _let_9 _let_1) (tptp.is_inside_2 _let_1 _let_10) (tptp.has_part_2 _let_9 _let_14) (tptp.has_part_2 _let_9 _let_12) (= _let_10 _let_8) (= _let_1 _let_16) (= _let_9 _let_6) (= _let_9 _let_4) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_7) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cleavage_furrow_7 X))) (let ((_let_2 (tptp.fn_animal_cell_73 _let_1))) (let ((_let_3 (tptp.fn_cell_30 _let_1))) (let ((_let_4 (tptp.fn_cell_28 _let_1))) (let ((_let_5 (tptp.fn_animal_cell_79 _let_1))) (let ((_let_6 (tptp.fn_cleavage_furrow_6 X))) (let ((_let_7 (tptp.fn_cytoplasmic_side_1 _let_6))) (let ((_let_8 (tptp.fn_cleavage_furrow_5 X))) (let ((_let_9 (tptp.fn_animal_plasma_membrane_56 _let_8))) (let ((_let_10 (tptp.fn_cleavage_furrow_4 X))) (let ((_let_11 (tptp.fn_cleavage_furrow_2 X))) (let ((_let_12 (tptp.fn_cleavage_furrow_1 X))) (=> (tptp.cleavage_furrow_1 X) (and (tptp.original_name_2 X |tptp.'Cleavage-Furrow'|) (tptp.user_description_2 X |tptp.'(1) A shallow groove that marks the beginning of cleavage in an animal cell. (2) A shallow groove that forms in the surface of a cell in the area of the metaphase plate.'|) (tptp.concept2words_2 X |tptp.'furrow of cleavage'|) (tptp.concept2words_2 X |tptp.'cleavage furrow'|) (tptp.concept2words_2 X |tptp.'cleavage-furrow'|) (tptp.animal_cell_structure_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.contractile_ring_1 _let_12) (tptp.length_value_1 _let_11) (tptp.mixture_1 _let_10) (tptp.cytoplasm_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.animal_plasma_membrane_1 _let_8) (tptp.cytoplasmic_side_1 _let_6) (tptp.cell_1 _let_1) (tptp.animal_cell_1 _let_1) (tptp.animal_cell_1 _let_9) (tptp.cytoplasm_1 _let_7) (tptp.mixture_1 _let_5) (tptp.cytoplasm_1 _let_5) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.plasma_membrane_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (tptp.animal_plasma_membrane_1 _let_2) (tptp.plasma_membrane_1 _let_2) (tptp.has_region_2 _let_8 _let_6) (tptp.is_oriented_toward_2 _let_6 _let_10) (tptp.is_along_2 X _let_12) (tptp.is_inside_2 X _let_1) (tptp.depth_2 X _let_11) (tptp.is_along_2 _let_12 X) (tptp.is_at_2 _let_12 _let_6) (tptp.the_scalar_value_2 _let_11 tptp.shallow_0) (tptp.scalar_unit_class_2 _let_11 tptp.animal_cell_structure_0) (tptp.is_facing_2 _let_6 _let_10) (tptp.is_between_2 _let_10 _let_8) (tptp.has_part_2 _let_1 _let_8) (tptp.is_inside_2 _let_10 _let_8) (tptp.has_part_2 _let_1 _let_10) (= _let_10 _let_7) (= _let_10 _let_5) (= _let_8 _let_3) (= _let_10 _let_4) (= _let_8 _let_2) (= _let_1 _let_9) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.clib_slot_group_1 X) (and (tptp.original_name_2 X |tptp.'CLIB-Slot-Group'|) (tptp.concept2words_2 X |tptp.'clib slot group'|) (tptp.concept2words_2 X |tptp.'clib-slot-group'|) (tptp.km_slot_group_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cliche_1 X) (and (tptp.original_name_2 X |tptp.'Cliche'|) (tptp.concept2words_2 X tptp.cliche) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.climate_1 X) (and (tptp.original_name_2 X |tptp.'Climate'|) (tptp.user_description_2 X |tptp.'Long-term weather patterns associated with a defined geographical location.'|) (tptp.concept2words_2 X tptp.acclimate) (tptp.concept2words_2 X tptp.climate) (tptp.geologic_process_1 X) (not (tptp.biogeochemical_cycle_1 X)) (not (tptp.catastrophism_1 X)) (not (tptp.continental_drift_1 X)) (not (tptp.plate_tectonics_1 X)) (not (tptp.uniformitarianism_1 X))))) (forall ((X $$unsorted)) (=> (tptp.climate_change_1 X) (and (tptp.original_name_2 X |tptp.'Climate-Change'|) (tptp.user_description_2 X |tptp.'Significant and persistent change in the distribution of weather patterns over periods of time from decades to millenia.'|) (tptp.concept2words_2 X |tptp.'change of climate'|) (tptp.concept2words_2 X |tptp.'climate change'|) (tptp.concept2words_2 X |tptp.'climate-change'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.climograph_1 X) (and (tptp.original_name_2 X |tptp.'Climograph'|) (tptp.user_description_2 X |tptp.'A graph of monthly temperature and precipitation levels at a particlar location.'|) (tptp.concept2words_2 X tptp.climatogram) (tptp.concept2words_2 X tptp.climatograph) (tptp.concept2words_2 X tptp.climograph) (tptp.graphical_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cline_1 X) (and (tptp.original_name_2 X |tptp.'Cline'|) (tptp.user_description_2 X |tptp.'A transition zone between two biomes, which represents a graded change in biological composition along a geographic axis.'|) (tptp.concept2words_2 X tptp.cline) (tptp.gradient_1 X) (not (tptp.concentration_gradient_1 X))))) (forall ((X $$unsorted)) (=> (tptp.clitoris_1 X) (and (tptp.original_name_2 X |tptp.'Clitoris'|) (tptp.user_description_2 X |tptp.'Female sexual organ extending from the upper intersection of the labia minora to the base of the pubic bone. One of the primary organs of sexual arousal in humans.'|) (tptp.concept2words_2 X tptp.clitoris) (tptp.reproductive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cloaca_1 X) (and (tptp.original_name_2 X |tptp.'Cloaca'|) (tptp.user_description_2 X |tptp.'A common opening that serves the digestive, urinary, and reproductive tracts. Found in birds, reptiles, and many invertebrates.'|) (tptp.concept2words_2 X tptp.cloaca) (tptp.animal_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.clonal_selection_1 X) (and (tptp.original_name_2 X |tptp.'Clonal-Selection'|) (tptp.user_description_2 X |tptp.'Process by which an antigen molecule binds to and activates only the lymphocytes that are specific to that particular antigen. The selected lymphocytes proliferate to produce a clone of (effector) antibody-producing cells and a clone of memory cells. The effector and memory cells are specific only to the stimulating antigen.'|) (tptp.concept2words_2 X tptp.select) (tptp.concept2words_2 X |tptp.'clonal selection'|) (tptp.concept2words_2 X |tptp.'clonal-selection'|) (tptp.immune_related_intercellular_process_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.result_2 X1 X) (tptp.cloning_1 X1) (tptp.living_entity_1 X)) (and (tptp.clone_1 X) (= (tptp.fn_clone_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_clone_2 X))) (let ((_let_2 (tptp.fn_cloning_2 _let_1))) (=> (tptp.clone_1 X) (and (tptp.original_name_2 X |tptp.'Clone'|) (tptp.user_description_2 X |tptp.'A group of genetically identical cells or organisms derived from a single cell or individual by some kind of asexual reproduction.'|) (tptp.concept2words_2 X |tptp.'genetic duplicate'|) (tptp.concept2words_2 X tptp.clone) (tptp.living_entity_1 X) (tptp.cloning_1 _let_1) (tptp.clone_1 _let_2) (tptp.result_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloned_dna_1 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_copy_1 _let_1))) (let ((_let_4 (tptp.fn_cloned_dna_2 X))) (=> (tptp.cloned_dna_1 X) (and (tptp.original_name_2 X |tptp.'Cloned-DNA'|) (tptp.user_description_2 X |tptp.'DNA that is an identical copy of another piece of DNA. Produced through a cloning process.'|) (tptp.concept2words_2 X |tptp.'dna clone'|) (tptp.concept2words_2 X |tptp.'dna-clone'|) (tptp.concept2words_2 X |tptp.'cloned dna'|) (tptp.concept2words_2 X |tptp.'cloned-dna'|) (tptp.clone_1 X) (tptp.dna_1 X) (tptp.copy_1 _let_1) (tptp.dna_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.object_2 _let_1 _let_4) (tptp.result_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.cloned_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Cloned-Embryo'|) (tptp.user_description_2 X |tptp.'An embryo which is a clone of another embryo is called as cloned embryo.'|) (tptp.concept2words_2 X |tptp.'embryo clone'|) (tptp.concept2words_2 X |tptp.'cloned embryo'|) (tptp.concept2words_2 X |tptp.'cloned-embryo'|) (tptp.embryo_1 X) (tptp.clone_1 X) (not (tptp.abnormal_cloned_embryo_1 X)) (not (tptp.animal_embryo_1 X)) (not (tptp.early_embryo_1 X)) (not (tptp.eight_cell_embryo_1 X)) (not (tptp.embryoid_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloned_gene_1 X))) (let ((_let_2 (tptp.fn_copy_1 _let_1))) (let ((_let_3 (tptp.fn_cloned_gene_2 X))) (=> (tptp.cloned_gene_1 X) (and (tptp.original_name_2 X |tptp.'Cloned-Gene'|) (tptp.user_description_2 X |tptp.'Clone DNA that is the result of copying a gene.'|) (tptp.concept2words_2 X |tptp.'gene clone'|) (tptp.concept2words_2 X |tptp.'gene-clone'|) (tptp.concept2words_2 X |tptp.'cloned gene'|) (tptp.concept2words_2 X |tptp.'cloned-gene'|) (tptp.cloned_dna_1 X) (tptp.copy_1 _let_1) (tptp.gene_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.result_2 _let_1 X) (tptp.object_2 _let_1 _let_3) (= _let_1 (tptp.fn_cloned_dna_1 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.subevent_2 X X1) (tptp.result_2 X1 X2) (tptp.technique_1 X) (tptp.copy_1 X) (tptp.create_1 X1) (tptp.clone_1 X2)) (and (tptp.cloning_1 X) (= (tptp.fn_cloning_3 X) X1) (= (tptp.fn_cloning_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_3 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_cloning_2 X))) (=> (tptp.cloning_1 X) (and (tptp.original_name_2 X |tptp.'Cloning'|) (tptp.user_description_2 X |tptp.'DNA cloning: the process by which well-defined segments of DNA are copied multiple times. Organismal cloning: the process by which an entire organism that is genetically identical to the parent that donated the cell is created.'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X tptp.cloning) (tptp.copy_1 X) (tptp.technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X)) (tptp.clone_1 _let_3) (tptp.create_1 _let_1) (tptp.entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_3) (tptp.result_2 _let_1 _let_3) (= _let_3 (tptp.fn_create_1 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_eukaryotic_gene_11 X))) (let ((_let_2 (tptp.fn_genetic_recombination_in_lab_of_fragments_2 _let_1))) (let ((_let_3 (tptp.fn_cloning_eukaryotic_gene_7 X))) (let ((_let_4 (tptp.fn_genetic_recombination_in_lab_of_fragments_13 _let_1))) (let ((_let_5 (tptp.fn_cloning_eukaryotic_gene_8 X))) (let ((_let_6 (tptp.fn_genetic_recombination_in_lab_of_fragments_11 _let_1))) (let ((_let_7 (tptp.fn_cloning_eukaryotic_gene_9 X))) (let ((_let_8 (tptp.fn_genetic_recombination_in_lab_of_fragments_12 _let_1))) (let ((_let_9 (tptp.fn_cloning_eukaryotic_gene_10 X))) (let ((_let_10 (tptp.fn_cloning_eukaryotic_gene_12 X))) (let ((_let_11 (tptp.fn_cloning_eukaryotic_gene_6 X))) (let ((_let_12 (tptp.fn_cloning_eukaryotic_gene_5 X))) (let ((_let_13 (tptp.fn_cloning_eukaryotic_gene_4 X))) (let ((_let_14 (tptp.fn_cloning_eukaryotic_gene_3 X))) (let ((_let_15 (tptp.fn_cloning_eukaryotic_gene_2 X))) (let ((_let_16 (tptp.fn_cloning_eukaryotic_gene_1 X))) (=> (tptp.cloning_eukaryotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Eukaryotic-Gene'|) (tptp.user_description_2 X |tptp.'The process by which identical copies of eukaryotic genes are made.'|) (tptp.concept2words_2 X |tptp.'gene cloning'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cloning eukaryotic gene'|) (tptp.concept2words_2 X |tptp.'cloning-eukaryotic-gene'|) (tptp.cloning_1 X) (tptp.identify_cell_clones_with_gene_of_interest_1 _let_16) (tptp.artificial_selection_with_antibiotics_1 _let_15) (tptp.culturing_1 _let_14) (tptp.dna_transfer_1 _let_13) (tptp.isolation_of_gene_source_dna_1 _let_12) (tptp.isolation_of_vector_1 _let_11) (tptp.mix_1 _let_3) (tptp.break_1 _let_5) (tptp.impair_1 _let_5) (tptp.lyse_1 _let_5) (tptp.break_1 _let_7) (tptp.lyse_1 _let_7) (tptp.attach_1 _let_9) (tptp.genetic_recombination_in_lab_of_fragments_1 _let_1) (tptp.eukaryotic_gene_1 _let_10) (tptp.attach_1 _let_8) (tptp.break_1 _let_6) (tptp.lyse_1 _let_6) (tptp.break_1 _let_4) (tptp.impair_1 _let_4) (tptp.lyse_1 _let_4) (tptp.mix_1 _let_2) (tptp.next_event_2 _let_11 _let_12) (tptp.next_event_2 _let_12 _let_3) (tptp.next_event_2 _let_13 _let_14) (tptp.next_event_2 _let_14 _let_15) (tptp.next_event_2 _let_15 _let_16) (tptp.next_event_2 _let_9 _let_13) (tptp.first_subevent_2 X _let_11) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_11) (tptp.object_2 X _let_10) (tptp.subevent_2 _let_1 _let_5) (tptp.subevent_2 _let_1 _let_7) (tptp.subevent_2 _let_1 _let_3) (tptp.first_subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_3 _let_5) (tptp.next_event_2 _let_5 _let_7) (tptp.next_event_2 _let_7 _let_9) (tptp.subevent_2 _let_1 _let_9) (= _let_10 (tptp.fn_copy_1 X)) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X2) (tptp.plasmid_1 X1) (tptp.cloning_eukaryotic_gene_1 X) (tptp.genetic_engineering_1 X) (tptp.eukaryotic_gene_1 X2)) (and (tptp.cloning_eukaryotic_gene_in_bacterial_plasmid_1 X) (= (tptp.fn_cloning_eukaryotic_gene_in_bacterial_plasmid_1 X) X1) (= (tptp.fn_cloning_eukaryotic_gene_in_bacterial_plasmid_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_eukaryotic_gene_in_bacterial_plasmid_4 X))) (let ((_let_2 (tptp.fn_cloning_eukaryotic_gene_in_bacterial_plasmid_3 X))) (let ((_let_3 (tptp.fn_cloning_eukaryotic_gene_in_bacterial_plasmid_1 X))) (=> (tptp.cloning_eukaryotic_gene_in_bacterial_plasmid_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Eukaryotic-Gene-In-Bacterial-Plasmid'|) (tptp.user_description_2 X |tptp.'The process of using a bacterial plasmid to produce a clone of a eukaryotic gene.'|) (tptp.concept2words_2 X |tptp.'gene cloning using bacterial plasmid'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cloning eukaryotic gene in bacterial plasmid'|) (tptp.concept2words_2 X |tptp.'cloning-eukaryotic-gene-in-bacterial-plasmid'|) (tptp.genetic_engineering_1 X) (tptp.cloning_eukaryotic_gene_1 X) (not (tptp.cloning_eukaryotic_gene_in_cloning_phage_1 X)) (not (tptp.synthesis_of_artificial_eukaryotic_genes_without_introns_1 X)) (tptp.plasmid_1 _let_3) (tptp.eukaryotic_gene_1 _let_2) (tptp.isolation_of_vector_plasmid_1 _let_1) (tptp.base_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_1) (tptp.object_2 X _let_2) (= _let_2 (tptp.fn_cloning_eukaryotic_gene_12 X)) (= _let_1 (tptp.fn_cloning_eukaryotic_gene_6 X)))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X2) (tptp.cloning_phage_1 X1) (tptp.genetic_engineering_1 X) (tptp.cloning_eukaryotic_gene_1 X) (tptp.eukaryotic_gene_1 X2)) (and (tptp.cloning_eukaryotic_gene_in_cloning_phage_1 X) (= (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_5 X) X2) (= (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_6 X))) (let ((_let_2 (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_5 X))) (let ((_let_3 (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_3 X))) (let ((_let_4 (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_2 X))) (let ((_let_5 (tptp.fn_cloning_eukaryotic_gene_in_cloning_phage_1 X))) (=> (tptp.cloning_eukaryotic_gene_in_cloning_phage_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Eukaryotic-Gene-In-Cloning-Phage'|) (tptp.user_description_2 X |tptp.'Process of cloning eukaryotic genes in which the cloning vector is a phage. Recombinants containing the gene of interest are packaged in a capsid, then used in a viral infection to replicate these genes.'|) (tptp.concept2words_2 X |tptp.'gene cloning using phage'|) (tptp.concept2words_2 X |tptp.'cloning using bacteriophage'|) (tptp.concept2words_2 X |tptp.'gene cloning with bacteriophage'|) (tptp.concept2words_2 X |tptp.'gene cloning using virus'|) (tptp.concept2words_2 X |tptp.'gene cloning with phage'|) (tptp.concept2words_2 X |tptp.'gene cloning with virus'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cloning eukaryotic gene in cloning phage'|) (tptp.concept2words_2 X |tptp.'cloning-eukaryotic-gene-in-cloning-phage'|) (tptp.cloning_eukaryotic_gene_1 X) (tptp.genetic_engineering_1 X) (not (tptp.cloning_eukaryotic_gene_in_bacterial_plasmid_1 X)) (not (tptp.synthesis_of_artificial_eukaryotic_genes_without_introns_1 X)) (tptp.package_recombinants_in_capsid_1 _let_5) (tptp.viral_infection_1 _let_4) (tptp.phage_reproduction_cycle_1 _let_4) (tptp.cloning_phage_1 _let_3) (tptp.eukaryotic_gene_1 _let_2) (tptp.dna_transfer_1 _let_1) (tptp.first_subevent_2 _let_1 _let_5) (tptp.subevent_2 _let_1 _let_5) (tptp.subevent_2 _let_1 _let_4) (tptp.next_event_2 _let_5 _let_4) (tptp.base_2 X _let_3) (tptp.object_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cloning_eukaryotic_gene_12 X)) (= _let_1 (tptp.fn_cloning_eukaryotic_gene_4 X)))))))))) (forall ((X $$unsorted)) (=> (tptp.cloning_phage_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Phage'|) (tptp.user_description_2 X |tptp.'Cloning vector that is also a phage.'|) (tptp.concept2words_2 X |tptp.'bacteriophage cloning vector'|) (tptp.concept2words_2 X |tptp.'cloning vector'|) (tptp.concept2words_2 X |tptp.'phage of cloning'|) (tptp.concept2words_2 X |tptp.'cloning phage'|) (tptp.concept2words_2 X |tptp.'cloning-phage'|) (tptp.cloning_vector_1 X) (tptp.phage_1 X) (not (tptp.bacterial_artificial_chromosome_1 X)) (not (tptp.cloning_plasmid_1 X)) (not (tptp.expression_vector_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_plasmid_1 X))) (=> (tptp.cloning_plasmid_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Plasmid'|) (tptp.user_description_2 X |tptp.'Often used as a cloning vector in genetic engineering. The plasmid is used to carry foreign DNA from a test tube into a host cell and replicate there.'|) (tptp.concept2words_2 X |tptp.'bacterial plasmid for cloning'|) (tptp.concept2words_2 X |tptp.'cloning bacterial plasmid'|) (tptp.concept2words_2 X |tptp.'plasmid vector'|) (tptp.concept2words_2 X |tptp.'plasmid of cloning'|) (tptp.concept2words_2 X |tptp.'cloning plasmid'|) (tptp.concept2words_2 X |tptp.'cloning-plasmid'|) (tptp.cloning_vector_1 X) (not (tptp.bacterial_artificial_chromosome_1 X)) (not (tptp.cloning_phage_1 X)) (not (tptp.expression_vector_1 X)) (tptp.prokaryote_1 _let_1) (tptp.has_part_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_vector_3 X))) (let ((_let_2 (tptp.fn_genomic_library_3 _let_1))) (let ((_let_3 (tptp.fn_cloning_vector_2 X))) (let ((_let_4 (tptp.fn_copy_1 _let_3))) (let ((_let_5 (tptp.fn_cloning_vector_5 X))) (let ((_let_6 (tptp.fn_carry_1 _let_5))) (let ((_let_7 (tptp.fn_genomic_library_4 _let_1))) (let ((_let_8 (tptp.fn_cloning_vector_6 X))) (let ((_let_9 (tptp.fn_move_1 _let_5))) (let ((_let_10 (tptp.fn_cloning_vector_4 X))) (let ((_let_11 (tptp.fn_cloning_vector_1 X))) (=> (tptp.cloning_vector_1 X) (and (tptp.original_name_2 X |tptp.'Cloning-Vector'|) (tptp.user_description_2 X |tptp.'In genetic engineering, a DNA molecule that can carry foreign DNA into a host cell and replicate there. Cloning vectors include plasmids that move recombinant DNA from a test tube back into a cell and viruses that transfer recombinant DNA by infection.'|) (tptp.concept2words_2 X |tptp.'vector of cloning'|) (tptp.concept2words_2 X |tptp.'cloning vector'|) (tptp.concept2words_2 X |tptp.'cloning-vector'|) (tptp.dna_1 X) (tptp.cell_1 _let_11) (tptp.cloning_1 _let_3) (tptp.genomic_library_1 _let_1) (tptp.foreign_dna_1 _let_10) (tptp.carry_1 _let_5) (tptp.create_1 _let_8) (tptp.spatial_entity_1 _let_9) (tptp.create_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cloning_vector_1 _let_2) (tptp.agent_2 _let_3 X) (tptp.site_2 _let_3 _let_11) (tptp.enables_2 _let_5 _let_3) (tptp.destination_2 _let_5 _let_11) (tptp.object_2 _let_5 _let_10) (tptp.agent_2 _let_5 X) (tptp.object_2 _let_3 X) (tptp.result_2 _let_8 _let_1) (tptp.agent_2 _let_8 X) (= _let_10 _let_9) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_8 _let_7) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_close_3 X))) (let ((_let_2 (tptp.fn_conduit_1 _let_1))) (let ((_let_3 (tptp.fn_block_1 X))) (let ((_let_4 (tptp.fn_close_2 X))) (let ((_let_5 (tptp.fn_close_1 X))) (=> (tptp.close_1 X) (and (tptp.original_name_2 X |tptp.'Close'|) (tptp.concept2words_2 X tptp.close) (tptp.concept2words_2 X tptp.shut) (tptp.block_1 X) (tptp.tangible_entity_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.portal_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.instrument_2 X _let_5) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_4) (tptp.plays_2 _let_4 _let_1) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.closed_circulatory_system_1 X) (and (tptp.original_name_2 X |tptp.'Closed-Circulatory-System'|) (tptp.user_description_2 X |tptp.'A circulatory system in which blood is always enclosed in vessels and does not circulate directly over body tissues.'|) (tptp.concept2words_2 X |tptp.'closed circulatory system'|) (tptp.concept2words_2 X |tptp.'closed-circulatory-system'|) (tptp.circulatory_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.closed_system_1 X) (and (tptp.original_name_2 X |tptp.'Closed-system'|) (tptp.user_description_2 X |tptp.'A closed system is a system that can exchange heat and work (for example, energy), but not matter, with its surroundings'|) (tptp.concept2words_2 X |tptp.'system of closed'|) (tptp.concept2words_2 X |tptp.'closed system'|) (tptp.concept2words_2 X |tptp.'closed-system'|) (tptp.thermodynamic_system_1 X) (not (tptp.cognitive_map_1 X)) (not (tptp.ecological_model_1 X)) (not (tptp.five_kingdom_system_1 X)) (not (tptp.fluid_mosaic_model_1 X)) (not (tptp.molecular_formula_1 X)) (not (tptp.open_system_1 X)) (not (tptp.redundancy_model_1 X)) (not (tptp.representation_of_data_1 X)) (not (tptp.rivet_model_1 X)) (not (tptp.sandwich_model_1 X)) (not (tptp.stable_system_1 X)) (not (tptp.unstable_system_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_closing_of_stoma_56 X))) (let ((_let_2 (tptp.fn_leaf_35 _let_1))) (let ((_let_3 (tptp.fn_close_2 X))) (let ((_let_4 (tptp.fn_closing_of_stoma_64 X))) (let ((_let_5 (tptp.fn_stoma_5 _let_4))) (let ((_let_6 (tptp.fn_leaf_43 _let_1))) (let ((_let_7 (tptp.fn_stoma_7 _let_4))) (let ((_let_8 (tptp.fn_leaf_47 _let_1))) (let ((_let_9 (tptp.fn_stoma_11 _let_4))) (let ((_let_10 (tptp.fn_close_3 X))) (let ((_let_11 (tptp.fn_stoma_1 _let_4))) (let ((_let_12 (tptp.fn_leaf_52 _let_1))) (let ((_let_13 (tptp.fn_closing_of_stoma_47 X))) (let ((_let_14 (tptp.fn_oxidative_phosphorylation_15 _let_13))) (let ((_let_15 (tptp.fn_stoma_2 _let_4))) (let ((_let_16 (tptp.fn_leaf_53 _let_1))) (let ((_let_17 (tptp.fn_leaf_50 _let_1))) (let ((_let_18 (tptp.fn_leaf_51 _let_1))) (let ((_let_19 (tptp.fn_leaf_48 _let_1))) (let ((_let_20 (tptp.fn_closing_of_stoma_63 X))) (let ((_let_21 (tptp.fn_guard_cell_19 _let_20))) (let ((_let_22 (tptp.fn_plant_cell_90 _let_20))) (let ((_let_23 (tptp.fn_guard_cell_23 _let_20))) (let ((_let_24 (tptp.fn_closing_of_stoma_28 X))) (let ((_let_25 (tptp.fn_eukaryotic_cell_31 _let_24))) (let ((_let_26 (tptp.fn_stoma_9 _let_4))) (let ((_let_27 (tptp.fn_closing_of_stoma_59 X))) (let ((_let_28 (tptp.fn_closing_of_stoma_58 X))) (let ((_let_29 (tptp.fn_closing_of_stoma_60 X))) (let ((_let_30 (tptp.fn_closing_of_stoma_30 X))) (let ((_let_31 (tptp.fn_closing_of_stoma_62 X))) (let ((_let_32 (tptp.fn_closing_of_stoma_61 X))) (let ((_let_33 (tptp.fn_leaf_45 _let_1))) (let ((_let_34 (tptp.fn_closing_of_stoma_57 X))) (let ((_let_35 (tptp.fn_closing_of_stoma_41 X))) (let ((_let_36 (tptp.fn_leaf_41 _let_1))) (let ((_let_37 (tptp.fn_closing_of_stoma_44 X))) (let ((_let_38 (tptp.fn_closing_of_stoma_48 X))) (let ((_let_39 (tptp.fn_guard_cell_11 _let_20))) (let ((_let_40 (tptp.fn_closing_of_stoma_49 X))) (let ((_let_41 (tptp.fn_closing_of_stoma_29 X))) (let ((_let_42 (tptp.fn_closing_of_stoma_53 X))) (let ((_let_43 (tptp.fn_passive_transport_of_water_2 _let_42))) (let ((_let_44 (tptp.fn_closing_of_stoma_36 X))) (let ((_let_45 (tptp.fn_passive_transport_of_water_1 _let_42))) (let ((_let_46 (tptp.fn_closing_of_stoma_40 X))) (let ((_let_47 (tptp.fn_leaf_38 _let_1))) (let ((_let_48 (tptp.fn_closing_of_stoma_46 X))) (let ((_let_49 (tptp.fn_closing_of_stoma_33 X))) (let ((_let_50 (tptp.fn_decrease_4 _let_49))) (let ((_let_51 (tptp.fn_closing_of_stoma_54 X))) (let ((_let_52 (tptp.fn_decrease_3 _let_49))) (let ((_let_53 (tptp.fn_closing_of_stoma_34 X))) (let ((_let_54 (tptp.fn_decrease_2 _let_49))) (let ((_let_55 (tptp.fn_decrease_1 _let_49))) (let ((_let_56 (tptp.fn_leaf_10 _let_1))) (let ((_let_57 (tptp.fn_closing_of_stoma_42 X))) (let ((_let_58 (tptp.fn_plant_cell_9 _let_20))) (let ((_let_59 (tptp.fn_closing_of_stoma_35 X))) (let ((_let_60 (tptp.fn_epidermis_4 _let_32))) (let ((_let_61 (tptp.fn_closing_of_stoma_38 X))) (let ((_let_62 (tptp.fn_phospholipid_layer_2 _let_61))) (let ((_let_63 (tptp.fn_closing_of_stoma_37 X))) (let ((_let_64 (tptp.fn_phospholipid_layer_1 _let_61))) (let ((_let_65 (tptp.fn_closing_of_stoma_50 X))) (let ((_let_66 (tptp.fn_closing_of_stoma_39 X))) (let ((_let_67 (tptp.fn_phospholipid_layer_2 _let_66))) (let ((_let_68 (tptp.fn_phospholipid_layer_1 _let_66))) (let ((_let_69 (tptp.fn_closing_of_stoma_51 X))) (let ((_let_70 (tptp.fn_osmosis_21 _let_42))) (let ((_let_71 (tptp.fn_closing_of_stoma_52 X))) (let ((_let_72 (tptp.fn_closing_of_stoma_45 X))) (let ((_let_73 (tptp.fn_spongy_mesophyll_1 _let_72))) (let ((_let_74 (tptp.fn_closing_of_stoma_43 X))) (let ((_let_75 (tptp.fn_closing_of_stoma_32 X))) (let ((_let_76 (tptp.fn_gated_ion_channel_4 _let_75))) (let ((_let_77 (tptp.fn_locomotion_1 _let_35))) (let ((_let_78 (tptp.fn_closing_of_stoma_31 X))) (let ((_let_79 (tptp.fn_move_out_of_1 _let_27))) (let ((_let_80 (tptp.fn_closing_of_stoma_2 X))) (let ((_let_81 (tptp.fn_closing_of_stoma_25 X))) (let ((_let_82 (tptp.fn_closing_of_stoma_5 X))) (let ((_let_83 (tptp.fn_closing_of_stoma_4 X))) (let ((_let_84 (tptp.fn_closing_of_stoma_6 X))) (let ((_let_85 (tptp.fn_closing_of_stoma_26 X))) (let ((_let_86 (tptp.fn_closing_of_stoma_8 X))) (let ((_let_87 (tptp.fn_closing_of_stoma_7 X))) (let ((_let_88 (tptp.fn_closing_of_stoma_9 X))) (let ((_let_89 (tptp.fn_closing_of_stoma_24 X))) (let ((_let_90 (tptp.fn_closing_of_stoma_10 X))) (let ((_let_91 (tptp.fn_closing_of_stoma_11 X))) (let ((_let_92 (tptp.fn_closing_of_stoma_12 X))) (let ((_let_93 (tptp.fn_closing_of_stoma_16 X))) (let ((_let_94 (tptp.fn_closing_of_stoma_14 X))) (let ((_let_95 (tptp.fn_closing_of_stoma_17 X))) (let ((_let_96 (tptp.fn_closing_of_stoma_13 X))) (let ((_let_97 (tptp.fn_closing_of_stoma_15 X))) (let ((_let_98 (tptp.fn_closing_of_stoma_21 X))) (let ((_let_99 (tptp.fn_closing_of_stoma_18 X))) (let ((_let_100 (tptp.fn_closing_of_stoma_20 X))) (let ((_let_101 (tptp.fn_closing_of_stoma_19 X))) (=> (tptp.closing_of_stoma_1 X) (and (tptp.original_name_2 X |tptp.'Closing-Of-Stoma'|) (tptp.user_description_2 X |tptp.'The closing of pores found in the leaf and stem epidermis of plants.'|) (tptp.concept2words_2 X tptp.close) (tptp.concept2words_2 X |tptp.'stoma closing'|) (tptp.concept2words_2 X |tptp.'stoma-closing'|) (tptp.concept2words_2 X |tptp.'closing of stoma'|) (tptp.concept2words_2 X |tptp.'closing-of-stoma'|) (tptp.close_1 X) (tptp.length_value_1 _let_80) (tptp.change_of_state_1 _let_83) (tptp.length_value_1 _let_82) (tptp.stoma_1 _let_84) (tptp.time_interval_1 _let_87) (tptp.time_interval_1 _let_86) (tptp.extra_cellular_matrix_1 _let_88) (tptp.hydrophilic_head_1 _let_90) (tptp.potential_value_1 _let_91) (tptp.exit_1 _let_92) (tptp.ground_tissue_system_1 _let_96) (tptp.dermal_tissue_system_1 _let_94) (tptp.palisade_mesophyll_1 _let_97) (tptp.epidermis_1 _let_93) (tptp.epidermis_1 _let_95) (tptp.transpiration_1 _let_99) (tptp.sugar_1 _let_101) (tptp.quantity_value_1 _let_100) (tptp.rate_value_1 _let_98) (tptp.hydrophobic_core_1 _let_89) (tptp.flaccid_cell_1 _let_81) (tptp.change_of_state_1 _let_85) (tptp.epidermal_cell_1 _let_24) (tptp.eukaryotic_cell_1 _let_24) (tptp.spatial_entity_1 _let_41) (tptp.mixture_1 _let_41) (tptp.suspension_1 _let_41) (tptp.colloid_1 _let_41) (tptp.cytoplasm_1 _let_41) (tptp.portal_1 _let_30) (tptp.carbon_dioxide_1 _let_78) (tptp.potassium_gated_channel_1 _let_75) (tptp.decrease_1 _let_49) (tptp.intensity_value_1 _let_53) (tptp.turgor_pressure_1 _let_59) (tptp.hypertonic_solution_1 _let_44) (tptp.aqueous_solution_1 _let_44) (tptp.hydrophilic_face_1 _let_63) (tptp.phospholipid_layer_1 _let_61) (tptp.phospholipid_layer_1 _let_66) (tptp.hypotonic_solution_1 _let_46) (tptp.aqueous_solution_1 _let_46) (tptp.locomotion_1 _let_35) (tptp.move_into_1 _let_35) (tptp.enter_1 _let_35) (tptp.air_space_1 _let_57) (tptp.air_space_1 _let_74) (tptp.atmosphere_1 _let_37) (tptp.spongy_mesophyll_1 _let_72) (tptp.oxidative_phosphorylation_1 _let_48) (tptp.oxidative_phosphorylation_1 _let_13) (tptp.rough_endoplasmic_reticulum_1 _let_38) (tptp.endoplasmic_reticulum_1 _let_38) (tptp.aqueous_solution_1 _let_40) (tptp.liquid_substance_1 _let_40) (tptp.solution_1 _let_40) (tptp.substance_1 _let_40) (tptp.cytosol_1 _let_40) (tptp.hydrophobic_face_1 _let_65) (tptp.hydrophobic_face_1 _let_69) (tptp.move_through_1 _let_71) (tptp.osmosis_1 _let_42) (tptp.intensity_value_1 _let_51) (tptp.tangible_entity_1 _let_1) (tptp.leaf_1 _let_1) (tptp.spongy_mesophyll_1 _let_34) (tptp.air_space_1 _let_28) (tptp.move_out_of_1 _let_27) (tptp.exit_1 _let_27) (tptp.enter_1 _let_29) (tptp.epidermis_1 _let_32) (tptp.eukaryotic_cell_1 _let_31) (tptp.guard_cell_1 _let_31) (tptp.plant_cell_1 _let_20) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.guard_cell_1 _let_20) (tptp.spatial_entity_1 _let_4) (tptp.stoma_1 _let_4) (tptp.tangible_entity_1 _let_79) (tptp.spatial_entity_1 _let_77) (tptp.block_1 _let_76) (tptp.air_space_1 _let_73) (tptp.move_through_1 _let_70) (tptp.hydrophobic_face_1 _let_68) (tptp.hydrophilic_face_1 _let_67) (tptp.hydrophobic_face_1 _let_64) (tptp.hydrophilic_face_1 _let_62) (tptp.epidermal_cell_1 _let_60) (tptp.turgor_pressure_1 _let_58) (tptp.biological_region_1 _let_56) (tptp.property_node_1 _let_55) (tptp.property_node_1 _let_54) (tptp.property_value_1 _let_52) (tptp.property_value_1 _let_50) (tptp.oxidative_phosphorylation_1 _let_47) (tptp.hypotonic_solution_1 _let_45) (tptp.aqueous_solution_1 _let_45) (tptp.hypertonic_solution_1 _let_43) (tptp.aqueous_solution_1 _let_43) (tptp.aqueous_solution_1 _let_39) (tptp.liquid_substance_1 _let_39) (tptp.solution_1 _let_39) (tptp.substance_1 _let_39) (tptp.cytosol_1 _let_39) (tptp.atmosphere_1 _let_36) (tptp.spongy_mesophyll_1 _let_33) (tptp.exit_1 _let_26) (tptp.mixture_1 _let_25) (tptp.cytoplasm_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.mixture_1 _let_23) (tptp.suspension_1 _let_23) (tptp.colloid_1 _let_23) (tptp.cytoplasm_1 _let_23) (tptp.rough_endoplasmic_reticulum_1 _let_22) (tptp.endoplasmic_reticulum_1 _let_22) (tptp.rough_endoplasmic_reticulum_1 _let_21) (tptp.endoplasmic_reticulum_1 _let_21) (tptp.move_into_1 _let_19) (tptp.epidermis_1 _let_18) (tptp.epidermis_1 _let_17) (tptp.eukaryotic_cell_1 _let_16) (tptp.guard_cell_1 _let_16) (tptp.guard_cell_1 _let_15) (tptp.cell_1 _let_14) (tptp.cell_1 _let_12) (tptp.eukaryotic_cell_1 _let_12) (tptp.guard_cell_1 _let_12) (tptp.guard_cell_1 _let_11) (tptp.portal_1 _let_9) (tptp.enter_1 _let_8) (tptp.enter_1 _let_7) (tptp.air_space_1 _let_6) (tptp.air_space_1 _let_5) (tptp.stoma_1 _let_2) (tptp.object_2 _let_85 _let_20) (not (= _let_85 _let_83)) (tptp.result_2 _let_85 _let_81) (tptp.next_event_2 _let_49 _let_83) (tptp.next_event_2 _let_49 _let_85) (tptp.time_during_2 _let_49 _let_87) (tptp.intensity_2 _let_59 _let_53) (tptp.abuts_2 _let_44 _let_90) (tptp.water_potential_2 _let_44 _let_91) (not (= _let_44 _let_46)) (tptp.is_inside_2 _let_44 _let_63) (tptp.is_between_2 _let_89 _let_63) (tptp.is_along_2 _let_61 _let_66) (not (= _let_61 _let_66)) (tptp.is_along_2 _let_66 _let_61) (not (= _let_66 _let_61)) (not (= _let_46 _let_44)) (tptp.is_inside_2 _let_46 _let_63) (tptp.negative_influence_2 _let_98 _let_100) (tptp.quantity_2 _let_101 _let_100) (tptp.prevents_2 X _let_99) (tptp.prevents_2 X _let_35) (tptp.subevent_2 X _let_42) (tptp.subevent_2 X _let_49) (tptp.subevent_2 X _let_83) (tptp.subevent_2 X _let_85) (tptp.base_2 X _let_1) (tptp.rate_2 X _let_98) (tptp.agent_2 X _let_20) (tptp.has_region_2 _let_72 _let_57) (tptp.is_inside_2 _let_72 _let_96) (tptp.is_above_2 _let_72 _let_93) (tptp.is_above_2 _let_95 _let_97) (tptp.is_above_2 _let_97 _let_72) (tptp.is_inside_2 _let_97 _let_96) (tptp.element_2 _let_94 _let_95) (tptp.element_2 _let_94 _let_93) (tptp.origin_2 _let_92 _let_57) (tptp.destination_2 _let_92 _let_37) (tptp.called_2 _let_91 |tptp.'Waterpotential'|) (tptp.abuts_2 _let_90 _let_44) (tptp.is_at_2 _let_90 _let_63) (tptp.is_at_2 _let_90 _let_69) (tptp.is_at_2 _let_90 _let_65) (tptp.is_inside_2 _let_65 _let_89) (tptp.is_along_2 _let_65 _let_69) (tptp.is_inside_2 _let_69 _let_89) (tptp.is_along_2 _let_69 _let_65) (tptp.destination_2 _let_71 _let_88) (tptp.origin_2 _let_71 _let_20) (tptp.time_before_2 _let_86 _let_87) (tptp.next_event_2 _let_42 _let_49) (tptp.time_during_2 _let_42 _let_86) (tptp.diameter_2 _let_84 _let_82) (tptp.called_2 _let_84 |"2"|) (tptp.the_cardinal_value_2 _let_82 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_82 tptp.micrometer_0) (not (= _let_83 _let_85)) (tptp.result_2 _let_83 _let_84) (tptp.object_2 _let_83 _let_4) (tptp.greater_than_2 _let_80 _let_82) (tptp.has_state_2 _let_20 _let_81) (tptp.diameter_2 _let_4 _let_80) (tptp.called_2 _let_4 |"1"|) (tptp.base_2 _let_27 _let_1) (tptp.object_2 X _let_4) (tptp.base_2 _let_13 _let_20) (tptp.object_2 _let_35 _let_78) (tptp.agent_2 _let_35 _let_78) (tptp.instrument_2 X _let_75) (tptp.has_region_2 _let_72 _let_74) (tptp.subevent_2 _let_42 _let_71) (tptp.has_region_2 _let_66 _let_69) (tptp.has_region_2 _let_66 _let_63) (tptp.has_region_2 _let_61 _let_65) (tptp.has_region_2 _let_61 _let_63) (tptp.has_part_2 _let_32 _let_24) (tptp.in_event_2 _let_30 X) (tptp.possesses_2 _let_20 _let_59) (tptp.has_part_2 _let_24 _let_41) (tptp.destination_2 _let_35 _let_57) (tptp.is_inside_2 _let_57 _let_1) (tptp.to_value_2 _let_49 _let_51) (tptp.greater_than_2 _let_53 _let_51) (tptp.from_value_2 _let_49 _let_53) (tptp.base_2 _let_29 _let_1) (tptp.has_part_2 _let_32 _let_20) (tptp.origin_2 _let_42 _let_46) (tptp.destination_2 _let_42 _let_44) (tptp.is_hypotonic_to_2 _let_46 _let_44) (tptp.is_hypertonic_to_2 _let_44 _let_46) (tptp.has_part_2 _let_20 _let_38) (tptp.is_inside_2 _let_38 _let_40) (tptp.has_part_2 _let_41 _let_40) (tptp.has_region_2 _let_34 _let_28) (tptp.has_part_2 _let_32 _let_31) (tptp.path_2 _let_35 _let_4) (tptp.base_2 _let_35 _let_1) (tptp.is_outside_2 _let_37 _let_1) (tptp.origin_2 _let_35 _let_37) (tptp.has_part_2 _let_1 _let_32) (tptp.has_region_2 _let_32 _let_4) (tptp.is_near_2 _let_4 _let_28) (tptp.is_inside_2 _let_28 _let_1) (tptp.has_part_2 _let_1 _let_34) (tptp.is_near_2 _let_28 _let_4) (tptp.is_between_2 _let_4 _let_31) (tptp.is_between_2 _let_4 _let_20) (tptp.path_2 _let_27 _let_4) (tptp.origin_2 _let_27 _let_28) (tptp.destination_2 _let_29 _let_28) (tptp.path_2 _let_29 _let_4) (tptp.plays_2 _let_4 _let_30) (= _let_1 _let_79) (= _let_4 _let_3) (= _let_20 _let_14) (= _let_78 _let_77) (= _let_75 (tptp.fn_close_1 X)) (= X _let_76) (= _let_74 _let_73) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_63 _let_67) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_24 _let_60) (= _let_30 _let_10) (= _let_59 _let_58) (= _let_41 _let_25) (= _let_57 _let_56) (= (tptp.fn_closing_of_stoma_55 X) _let_55) (= (tptp.fn_closing_of_stoma_65 X) _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_29 _let_8) (= _let_48 _let_47) (= _let_20 _let_12) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_41 _let_23) (= _let_40 _let_39) (= _let_38 _let_22) (= _let_38 _let_21) (= _let_31 _let_16) (= _let_37 _let_36) (= _let_35 _let_19) (= _let_35 _let_8) (= _let_34 _let_33) (= _let_28 _let_6) (= _let_4 _let_2) (= _let_32 _let_18) (= _let_32 _let_17) (= _let_31 _let_15) (= _let_20 _let_11) (= _let_30 _let_9) (= _let_29 _let_7) (= _let_28 _let_5) (= _let_27 _let_26) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_8 _let_19) (= _let_19 _let_8) (= _let_8 _let_8) (= _let_8 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.clostridium_botulinum_1 X) (and (tptp.original_name_2 X |tptp.'Clostridium-Botulinum'|) (tptp.user_description_2 X |tptp.'A Gram-positive rod-shaped bacterium that produces several toxins, including the neurotoxins responsible for botulism.'|) (tptp.concept2words_2 X |tptp.'botulinum of clostridium'|) (tptp.concept2words_2 X |tptp.'clostridium botulinum'|) (tptp.concept2words_2 X |tptp.'clostridium-botulinum'|) (tptp.gram_positive_bacteria_1 X) (not (tptp.streptococcus_pneumoniae_1 X))))) (forall ((X $$unsorted)) (=> (tptp.clotting_1 X) (and (tptp.original_name_2 X |tptp.'Clotting'|) (tptp.user_description_2 X |tptp.'A process in which the protein fibrinogen is converted to fibrin and aggregates in an area to clog an open wound.'|) (tptp.concept2words_2 X tptp.clot) (tptp.concept2words_2 X tptp.clotting) (tptp.cardiovascular_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_clotting_factor_3 X))) (let ((_let_2 (tptp.fn_clotting_factor_4 X))) (let ((_let_3 (tptp.fn_clotting_factor_2 X))) (=> (tptp.clotting_factor_1 X) (and (tptp.original_name_2 X |tptp.'Clotting-Factor'|) (tptp.user_description_2 X |tptp.'Clotting factors include blood proteins (eg, prothrombin, factor VIII) that promote blood coagulation.'|) (tptp.concept2words_2 X |tptp.'blood clotting factor'|) (tptp.concept2words_2 X |tptp.'blood clotting protein'|) (tptp.concept2words_2 X |tptp.'clotting protein'|) (tptp.concept2words_2 X |tptp.'clotting agent'|) (tptp.concept2words_2 X |tptp.'factor of clotting'|) (tptp.concept2words_2 X |tptp.'clotting factor'|) (tptp.concept2words_2 X |tptp.'clotting-factor'|) (tptp.protein_1 X) (tptp.quantity_value_1 _let_3) (tptp.blood_1 _let_1) (tptp.clotting_1 _let_2) (tptp.the_scalar_value_2 _let_3 tptp.few_0) (tptp.scalar_unit_class_2 _let_3 tptp.clotting_factor_0) (tptp.quantity_2 X _let_3) (tptp.agent_2 _let_2 X) (tptp.object_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_club_fungus_1 X))) (=> (tptp.club_fungus_1 X) (and (tptp.original_name_2 X |tptp.'Club-Fungus'|) (tptp.user_description_2 X |tptp.'Basidiomycota, or club fungi, are filamentous fungi composed of hyphae (except for those forming yeasts), and reproducing sexually via the formation of specialized club-shaped end cells called basidia that normally bear external meiospores.'|) (tptp.concept2words_2 X |tptp.'club fungi'|) (tptp.concept2words_2 X |tptp.'club-fungi'|) (tptp.concept2words_2 X tptp.basidiomycote) (tptp.concept2words_2 X tptp.basidiomycetes) (tptp.concept2words_2 X |tptp.'fungus of club'|) (tptp.concept2words_2 X |tptp.'club fungus'|) (tptp.concept2words_2 X |tptp.'club-fungus'|) (tptp.multicellular_organism_1 X) (tptp.fungus_1 X) (not (tptp.ascomycete_1 X)) (not (tptp.chytrid_1 X)) (not (tptp.deuteromycete_1 X)) (not (tptp.glomeromycete_1 X)) (not (tptp.symbiotic_fungi_1 X)) (not (tptp.zygomycete_1 X)) (tptp.fungal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_multicellular_organism_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.clumping_1 X) (and (tptp.original_name_2 X |tptp.'Clumping'|) (tptp.user_description_2 X |tptp.'A type of population dispersion in which groups are clustered in defined spaces rather than randomly dispersed.'|) (tptp.concept2words_2 X tptp.clump) (tptp.concept2words_2 X tptp.clumping) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cml_1 X) (and (tptp.original_name_2 X |tptp.'CML'|) (tptp.user_description_2 X |tptp.'CML is an acronym for chronic myelogenous leukemia, a type of cancer associated with reciprocal chromosomal translocations in developing white blood cells.'|) (tptp.concept2words_2 X |tptp.'chronic myelogenous leukemia'|) (tptp.concept2words_2 X |tptp.'chronic-myelogenous-leukemia'|) (tptp.concept2words_2 X |tptp.'chronic granulocytic leukemia'|) (tptp.concept2words_2 X |tptp.'chronic-granulocytic-leukemia'|) (tptp.concept2words_2 X tptp.cml) (tptp.leukemia_1 X) (not (tptp.breast_cancer_1 X)) (not (tptp.burkitts_lymphoma_1 X)) (not (tptp.prostate_cancer_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cnida_1 X) (and (tptp.original_name_2 X |tptp.'Cnida'|) (tptp.user_description_2 X |tptp.'Capsule-like organelle of cnidocyte cells capable of exploding outwards.'|) (tptp.concept2words_2 X tptp.cnida) (tptp.organelle_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cnidaria_29 X))) (let ((_let_2 (tptp.fn_carnivore_9 _let_1))) (let ((_let_3 (tptp.fn_cnidaria_25 X))) (let ((_let_4 (tptp.fn_gastrodermis_1 _let_3))) (let ((_let_5 (tptp.fn_cnidaria_22 X))) (let ((_let_6 (tptp.fn_food_vacuole_17 _let_5))) (let ((_let_7 (tptp.fn_cnidaria_26 X))) (let ((_let_8 (tptp.fn_flagellum_35 _let_7))) (let ((_let_9 (tptp.fn_carnivore_13 _let_1))) (let ((_let_10 (tptp.fn_cnidaria_11 X))) (let ((_let_11 (tptp.fn_carnivore_11 _let_1))) (let ((_let_12 (tptp.fn_cnidaria_32 X))) (let ((_let_13 (tptp.fn_carnivore_12 _let_1))) (let ((_let_14 (tptp.fn_cnidaria_33 X))) (let ((_let_15 (tptp.fn_carnivore_10 _let_1))) (let ((_let_16 (tptp.fn_cnidaria_23 X))) (let ((_let_17 (tptp.fn_carnivore_7 _let_1))) (let ((_let_18 (tptp.fn_carnivore_8 _let_1))) (let ((_let_19 (tptp.fn_cnidaria_14 X))) (let ((_let_20 (tptp.fn_cnidaria_15 X))) (let ((_let_21 (tptp.fn_cnidaria_24 X))) (let ((_let_22 (tptp.fn_cnidaria_17 X))) (let ((_let_23 (tptp.fn_cnidaria_19 X))) (let ((_let_24 (tptp.fn_animal_cell_78 _let_23))) (let ((_let_25 (tptp.fn_cnidaria_20 X))) (let ((_let_26 (tptp.fn_animal_cell_52 _let_23))) (let ((_let_27 (tptp.fn_cnidaria_21 X))) (let ((_let_28 (tptp.fn_cnidaria_18 X))) (let ((_let_29 (tptp.fn_gastrovascular_cavity_1 _let_28))) (let ((_let_30 (tptp.fn_cnidaria_27 X))) (let ((_let_31 (tptp.fn_gastrovascular_cavity_2 _let_28))) (let ((_let_32 (tptp.fn_cnidaria_28 X))) (let ((_let_33 (tptp.fn_cnidaria_30 X))) (let ((_let_34 (tptp.fn_push_3 _let_33))) (let ((_let_35 (tptp.fn_cnidaria_16 X))) (let ((_let_36 (tptp.fn_push_2 _let_33))) (let ((_let_37 (tptp.fn_cnidaria_31 X))) (let ((_let_38 (tptp.fn_cnidaria_8 X))) (let ((_let_39 (tptp.fn_cnidaria_7 X))) (let ((_let_40 (tptp.fn_cnidaria_9 X))) (let ((_let_41 (tptp.fn_cnidaria_10 X))) (let ((_let_42 (tptp.fn_cnidaria_1 X))) (let ((_let_43 (tptp.fn_cnidaria_2 X))) (let ((_let_44 (tptp.fn_cnidaria_6 X))) (let ((_let_45 (tptp.fn_cnidaria_5 X))) (let ((_let_46 (tptp.fn_cnidaria_4 X))) (let ((_let_47 (tptp.fn_cnidaria_3 X))) (=> (tptp.cnidaria_1 X) (and (tptp.original_name_2 X |tptp.'Cnidaria'|) (tptp.user_description_2 X |tptp.'A phylum of animals characterized by diploblastic body structure, a two-way gut, and stinging cells (cnidocytes) that are used for defense and prey capture. Cnidarians come in two body forms: a pelagic medusa and a benthic polyp.'|) (tptp.concept2words_2 X tptp.cnidaria) (tptp.eumetazoan_1 X) (not (tptp.ammonite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X)) (tptp.predation_1 _let_42) (tptp.cnidocyte_1 _let_43) (tptp.enzyme_1 _let_47) (tptp.digestion_1 _let_46) (tptp.cnidocyte_1 _let_45) (tptp.sac_1 _let_44) (tptp.body_wall_1 _let_39) (tptp.epidermis_1 _let_38) (tptp.spatial_entity_1 _let_40) (tptp.spatial_entity_1 _let_41) (tptp.nutrition_1 _let_10) (tptp.locomotion_1 _let_19) (tptp.take_in_1 _let_20) (tptp.tentacle_1 _let_35) (tptp.digestive_system_1 _let_22) (tptp.gastrovascular_cavity_1 _let_28) (tptp.gastrodermal_cell_1 _let_23) (tptp.tangible_entity_1 _let_25) (tptp.nucleus_1 _let_25) (tptp.eukaryotic_chromosome_1 _let_27) (tptp.chromosome_1 _let_27) (tptp.food_vacuole_1 _let_5) (tptp.water_1 _let_16) (tptp.animal_cell_1 _let_21) (tptp.gastrodermis_1 _let_3) (tptp.flagellum_1 _let_7) (tptp.end_1 _let_30) (tptp.pore_1 _let_32) (tptp.carnivore_1 _let_1) (tptp.push_1 _let_33) (tptp.substance_1 _let_37) (tptp.temperature_value_1 _let_12) (tptp.specific_heat_value_1 _let_14) (tptp.entity_1 _let_36) (tptp.spatial_entity_1 _let_34) (tptp.pore_1 _let_31) (tptp.end_1 _let_29) (tptp.eukaryotic_chromosome_1 _let_26) (tptp.chromosome_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.property_node_1 _let_18) (tptp.property_node_1 _let_17) (tptp.water_1 _let_15) (tptp.specific_heat_value_1 _let_13) (tptp.temperature_value_1 _let_11) (tptp.nutrition_1 _let_9) (tptp.cell_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.animal_cell_1 _let_4) (tptp.animal_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.organism_1 _let_2) (tptp.facilitates_2 _let_43 _let_42) (tptp.is_inside_2 _let_47 _let_28) (tptp.has_function_2 _let_47 _let_46) (tptp.has_part_2 _let_35 _let_45) (tptp.minCardinality _let_35 tptp.has_part_0 |"2"| tptp.cnidocyte_0) (tptp.has_region_2 _let_22 _let_32) (tptp.has_region_2 _let_22 _let_28) (tptp.is_inside_2 _let_28 _let_44) (tptp.has_part_2 X _let_39) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_35) (tptp.has_part_2 X _let_43) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.tentacle_0) (tptp.has_function_2 X _let_42) (tptp.is_between_2 X _let_41) (tptp.is_between_2 X _let_40) (tptp.has_part_2 _let_39 _let_3) (tptp.has_part_2 _let_39 _let_38) (tptp.is_above_2 _let_38 _let_3) (tptp.has_part_2 _let_23 _let_7) (tptp.has_part_2 _let_23 _let_5) (tptp.has_part_2 _let_3 _let_23) (tptp.away_from_2 _let_33 _let_35) (tptp.agent_2 _let_33 _let_35) (tptp.object_2 _let_33 _let_37) (tptp.has_region_2 _let_28 _let_30) (tptp.is_at_2 _let_32 _let_30) (tptp.has_part_2 _let_23 _let_25) (tptp.is_inside_2 _let_27 _let_25) (tptp.has_part_2 _let_23 _let_27) (tptp.has_region_2 X _let_22) (tptp.object_2 _let_19 X) (tptp.agent_2 _let_19 X) (tptp.agent_2 _let_20 X) (tptp.base_2 _let_20 X) (tptp.has_part_2 X _let_21) (tptp.plays_2 X _let_1) (tptp.has_part_2 X _let_16) (tptp.in_event_2 _let_1 _let_10) (tptp.agent_2 _let_10 X) (tptp.temperature_2 X _let_12) (tptp.correspondence_2 _let_12 _let_14) (tptp.specific_heat_2 _let_16 _let_14) (= _let_23 _let_8) (= _let_23 _let_6) (= _let_23 _let_4) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_22 (tptp.fn_animal_5 X)) (= _let_21 (tptp.fn_animal_21 X)) (= _let_20 (tptp.fn_animal_9 X)) (= _let_19 (tptp.fn_animal_22 X)) (= (tptp.fn_cnidaria_12 X) _let_18) (= (tptp.fn_cnidaria_13 X) _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= X _let_2) (= _let_10 _let_9) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_81 X))) (let ((_let_2 (tptp.fn_animal_cell_21 X))) (let ((_let_3 (tptp.fn_cnidocyte_4 X))) (let ((_let_4 (tptp.fn_cnidocyte_5 X))) (let ((_let_5 (tptp.fn_cnidocyte_3 X))) (let ((_let_6 (tptp.fn_cnidocyte_2 X))) (let ((_let_7 (tptp.fn_cnidocyte_1 X))) (=> (tptp.cnidocyte_1 X) (and (tptp.original_name_2 X |tptp.'Cnidocyte'|) (tptp.user_description_2 X |tptp.'A specialized cell produced only by animals in the phylum Cnidaria. A cnidocyte contains a capsule (cnida) which in turn contains a coiiled thread (nematocyst) that injects toxins into the flesh of prey and predators. Cnidocytes are distributed on the animal_'s tentacles and, in some cases, the gut; they are used for prey capture, defense, and aggression.'|) (tptp.concept2words_2 X tptp.cnidocyte) (tptp.invertebrate_cell_1 X) (tptp.cnida_1 _let_7) (tptp.defense_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.catabolic_pathway_1 _let_3) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.has_part_2 X _let_7) (tptp.has_function_2 X _let_6) (tptp.agent_2 _let_6 X) (tptp.site_2 _let_3 _let_4) (tptp.has_function_2 X _let_3) (tptp.base_2 _let_3 X) (tptp.has_part_2 X _let_4) (= _let_5 (tptp.fn_animal_cell_47 X)) (= _let_4 (tptp.fn_animal_cell_79 X)) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_co2_gas_2 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_co2_gas_1 X))) (=> (tptp.co2_gas_1 X) (and (tptp.original_name_2 X |tptp.'CO2-Gas'|) (tptp.user_description_2 X |tptp.'Carbon dioxide gas is the gaseous form of the carbon dioxide. It is easily soluble in water.'|) (tptp.concept2words_2 X |tptp.'gas of co2'|) (tptp.concept2words_2 X |tptp.'co2 gas'|) (tptp.concept2words_2 X |tptp.'co2-gas'|) (tptp.greenhouse_gas_1 X) (tptp.chemical_1 X) (tptp.carbon_dioxide_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.gas_substance_0) (tptp.solubility_in_water_2 X _let_1) (tptp.has_part_2 X _let_3) (= _let_3 (tptp.fn_chemical_3 X)) (= (tptp.fn_co2_gas_3 X) _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_co3_minus_2_5 X))) (let ((_let_2 (tptp.fn_co3_minus_2_4 X))) (let ((_let_3 (tptp.fn_co3_minus_2_3 X))) (let ((_let_4 (tptp.fn_co3_minus_2_2 X))) (=> (tptp.co3_minus_2_1 X) (and (tptp.original_name_2 X |tptp.'CO3-Minus-2'|) (tptp.user_description_2 X |tptp.'The carbonate ion, which forms salts with a variety of cations such as calcium (Ca2+) and iron (Fe2+).'|) (tptp.concept2words_2 X tptp.carbonate) (tptp.concept2words_2 X |tptp.'co3 minus 2'|) (tptp.concept2words_2 X |tptp.'co3-minus-2'|) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (tptp.gain_1 _let_4) (tptp.atom_1 _let_3) (tptp.charge_value_1 _let_2) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-2"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_co3_minus_2_1 X) (tptp.fn_anion_3 X)) (= (tptp.fn_co3_minus_2_6 X) (tptp.fn_anion_7 X)) (= _let_4 (tptp.fn_anion_2 X)) (= _let_3 (tptp.fn_anion_5 X)) (= _let_2 (tptp.fn_anion_4 X)) (= _let_1 (tptp.fn_anion_6 X))))))))) (forall ((X $$unsorted)) (=> (tptp.coal_1 X) (and (tptp.original_name_2 X |tptp.'Coal'|) (tptp.user_description_2 X |tptp.'A compressed, solid form of fossil fuel formed from the remains of organisms that died hundreds of millions of years ago.'|) (tptp.concept2words_2 X tptp.coal) (tptp.fossil_fuel_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coastal_ecosystem_15 X))) (let ((_let_2 (tptp.fn_heat_4 _let_1))) (let ((_let_3 (tptp.fn_coastal_ecosystem_19 X))) (let ((_let_4 (tptp.fn_cool_4 _let_3))) (let ((_let_5 (tptp.fn_coastal_ecosystem_20 X))) (let ((_let_6 (tptp.fn_water_body_5 _let_5))) (let ((_let_7 (tptp.fn_water_body_10 _let_5))) (let ((_let_8 (tptp.fn_coastal_ecosystem_11 X))) (let ((_let_9 (tptp.fn_take_in_1 _let_8))) (let ((_let_10 (tptp.fn_ecosystem_31 X))) (let ((_let_11 (tptp.fn_heat_1 _let_1))) (let ((_let_12 (tptp.fn_cool_1 _let_3))) (let ((_let_13 (tptp.fn_coastal_ecosystem_10 X))) (let ((_let_14 (tptp.fn_store_2 _let_13))) (let ((_let_15 (tptp.fn_move_1 _let_8))) (let ((_let_16 (tptp.fn_store_1 _let_13))) (let ((_let_17 (tptp.fn_heat_5 _let_1))) (let ((_let_18 (tptp.fn_coastal_ecosystem_17 X))) (let ((_let_19 (tptp.fn_coastal_ecosystem_16 X))) (let ((_let_20 (tptp.fn_coastal_ecosystem_12 X))) (let ((_let_21 (tptp.fn_water_18 _let_20))) (let ((_let_22 (tptp.fn_coastal_ecosystem_18 X))) (let ((_let_23 (tptp.fn_water_17 _let_20))) (let ((_let_24 (tptp.fn_water_body_6 _let_5))) (let ((_let_25 (tptp.fn_coastal_ecosystem_13 X))) (let ((_let_26 (tptp.fn_coastal_ecosystem_2 X))) (let ((_let_27 (tptp.fn_coastal_ecosystem_5 X))) (let ((_let_28 (tptp.fn_coastal_ecosystem_3 X))) (let ((_let_29 (tptp.fn_coastal_ecosystem_8 X))) (let ((_let_30 (tptp.fn_coastal_ecosystem_7 X))) (=> (tptp.coastal_ecosystem_1 X) (and (tptp.original_name_2 X |tptp.'Coastal-Ecosystem'|) (tptp.user_description_2 X |tptp.'An ecosystem where land meets the sea.'|) (tptp.concept2words_2 X |tptp.'coastal region'|) (tptp.concept2words_2 X |tptp.'coastal-region'|) (tptp.concept2words_2 X |tptp.'coastal ecosystem'|) (tptp.concept2words_2 X |tptp.'coastal-ecosystem'|) (tptp.terrestrial_ecosystem_1 X) (tptp.size_value_1 _let_26) (tptp.rate_value_1 _let_28) (tptp.shape_value_1 _let_27) (tptp.sunlight_1 _let_30) (tptp.quantity_value_1 _let_29) (tptp.store_1 _let_13) (tptp.take_in_1 _let_8) (tptp.liquid_substance_1 _let_20) (tptp.water_1 _let_20) (tptp.thermal_energy_1 _let_25) (tptp.heat_1 _let_1) (tptp.temperature_value_1 _let_19) (tptp.temperature_value_1 _let_18) (tptp.specific_heat_value_1 _let_22) (tptp.cool_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.water_body_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.cool_1 _let_24) (tptp.property_node_1 _let_23) (tptp.specific_heat_value_1 _let_21) (tptp.temperature_value_1 _let_17) (tptp.entity_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.liquid_substance_1 _let_7) (tptp.water_1 _let_7) (tptp.liquid_substance_1 _let_6) (tptp.water_1 _let_6) (tptp.temperature_value_1 _let_4) (tptp.temperature_value_1 _let_2) (tptp.the_scalar_value_2 _let_29 tptp.high_0) (tptp.scalar_unit_class_2 _let_29 tptp.energy_0) (tptp.is_outside_2 _let_30 _let_5) (tptp.origin_2 _let_8 _let_30) (tptp.enables_2 _let_8 _let_13) (tptp.destination_2 _let_8 _let_5) (tptp.causes_2 _let_8 _let_1) (tptp.the_categorical_value_2 _let_27 tptp.hollow_volume_0) (tptp.quantity_2 _let_25 _let_29) (tptp.rate_2 _let_1 _let_28) (tptp.the_scalar_value_2 _let_28 tptp.slow_0) (tptp.scalar_unit_class_2 _let_28 tptp.heat_0) (tptp.negative_influence_2 _let_22 _let_28) (tptp.the_scalar_value_2 _let_26 tptp.big_0) (tptp.scalar_unit_class_2 _let_26 tptp.water_body_0) (tptp.shape_2 _let_5 _let_27) (tptp.temperature_2 _let_5 _let_19) (tptp.size_2 _let_5 _let_26) (tptp.object_2 _let_13 _let_25) (tptp.object_2 _let_8 _let_25) (tptp.base_2 _let_13 _let_5) (tptp.base_2 _let_1 _let_5) (tptp.element_2 X _let_5) (tptp.from_value_2 _let_3 _let_19) (tptp.base_2 _let_3 _let_5) (tptp.has_part_2 _let_5 _let_20) (tptp.base_2 _let_8 _let_5) (tptp.agent_2 _let_8 _let_5) (tptp.specific_heat_2 _let_20 _let_22) (tptp.to_value_2 _let_1 _let_18) (tptp.greater_than_2 _let_18 _let_19) (tptp.from_value_2 _let_1 _let_19) (= _let_25 _let_16) (= _let_25 _let_15) (= _let_5 _let_14) (= _let_5 _let_11) (= _let_5 _let_10) (= _let_19 _let_4) (= _let_5 _let_12) (= _let_3 _let_24) (= _let_20 _let_7) (= _let_20 _let_6) (= _let_5 _let_9) (= (tptp.fn_coastal_ecosystem_14 X) _let_23) (= _let_22 _let_21) (= _let_19 _let_2) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.coat_protein_1 X) (and (tptp.original_name_2 X |tptp.'Coat-Protein'|) (tptp.user_description_2 X |tptp.'The proteins which make up the outer coat of a virus, coated vesicles and other membrane-bound structures.'|) (tptp.concept2words_2 X |tptp.'protein of coat'|) (tptp.concept2words_2 X |tptp.'coat protein'|) (tptp.concept2words_2 X |tptp.'coat-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coated_pit_3 X))) (let ((_let_2 (tptp.fn_endocytosis_18 _let_1))) (let ((_let_3 (tptp.fn_endocytosis_25 _let_1))) (let ((_let_4 (tptp.fn_receptor_mediated_endocytosis_96 _let_1))) (let ((_let_5 (tptp.fn_coated_pit_2 X))) (let ((_let_6 (tptp.fn_endocytosis_13 _let_1))) (let ((_let_7 (tptp.fn_coated_pit_1 X))) (let ((_let_8 (tptp.fn_coated_pit_5 X))) (let ((_let_9 (tptp.fn_protein_layer_1 _let_8))) (let ((_let_10 (tptp.fn_coated_pit_4 X))) (=> (tptp.coated_pit_1 X) (and (tptp.original_name_2 X |tptp.'Coated-Pit'|) (tptp.user_description_2 X |tptp.'A cell surface depression that is coated with clathrin on its cytoplasmic surface and functions in receptor-mediated endocytosis.'|) (tptp.concept2words_2 X |tptp.'coated pit'|) (tptp.concept2words_2 X |tptp.'coated-pit'|) (tptp.cavity_1 X) (tptp.plasma_membrane_1 _let_7) (tptp.produce_1 _let_5) (tptp.create_1 _let_5) (tptp.receptor_mediated_endocytosis_1 _let_1) (tptp.coat_protein_1 _let_10) (tptp.protein_layer_1 _let_8) (tptp.protein_1 _let_9) (tptp.plasma_membrane_1 _let_6) (tptp.produce_1 _let_4) (tptp.create_1 _let_3) (tptp.cavity_1 _let_2) (tptp.is_at_2 _let_8 X) (tptp.site_2 _let_1 _let_7) (tptp.has_function_2 _let_7 _let_1) (tptp.is_inside_2 _let_10 _let_8) (tptp.subevent_2 _let_1 _let_5) (tptp.result_2 _let_5 X) (tptp.has_region_2 _let_7 X) (tptp.path_2 _let_1 _let_7) (= _let_10 _let_9) (= _let_7 _let_6) (= X _let_2) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coated_vesicle_4 X))) (let ((_let_2 (tptp.fn_receptor_mediated_endocytosis_86 _let_1))) (let ((_let_3 (tptp.fn_endocytosis_21 _let_1))) (let ((_let_4 (tptp.fn_coated_vesicle_5 X))) (let ((_let_5 (tptp.fn_coated_vesicle_6 X))) (let ((_let_6 (tptp.fn_receptor_mediated_endocytosis_10 _let_1))) (let ((_let_7 (tptp.fn_coated_vesicle_2 X))) (let ((_let_8 (tptp.fn_receptor_mediated_endocytosis_85 _let_1))) (let ((_let_9 (tptp.fn_coated_vesicle_3 X))) (let ((_let_10 (tptp.fn_coated_vesicle_1 X))) (=> (tptp.coated_vesicle_1 X) (and (tptp.original_name_2 X |tptp.'Coated-Vesicle'|) (tptp.user_description_2 X |tptp.'Coated-vesicle is formed as a result of intake of a receptor bound molecule by the process of pinocytosis. It bears the receptor bound molecule on its surface.'|) (tptp.concept2words_2 X |tptp.'coated vesicle'|) (tptp.concept2words_2 X |tptp.'coated-vesicle'|) (tptp.vesicle_1 X) (tptp.coat_protein_1 _let_10) (tptp.release_1 _let_7) (tptp.noncellulose_polysaccharide_1 _let_9) (tptp.receptor_mediated_endocytosis_1 _let_1) (tptp.biomembrane_1 _let_4) (tptp.aqueous_solution_1 _let_5) (tptp.chemical_entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.release_1 _let_6) (tptp.entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.vesicle_1 _let_3) (tptp.coated_vesicle_1 _let_2) (tptp.is_at_2 _let_10 _let_4) (tptp.has_part_2 X _let_10) (tptp.agent_2 _let_7 X) (tptp.object_2 _let_7 _let_9) (tptp.object_2 _let_1 _let_9) (tptp.is_inside_2 _let_9 X) (tptp.instrument_2 _let_1 X) (tptp.base_2 _let_7 X) (tptp.has_part_2 X _let_4) (tptp.is_between_2 _let_4 _let_5) (tptp.has_part_2 X _let_5) (= _let_9 _let_8) (= _let_7 _let_6) (= X _let_3) (= X _let_2) (= _let_5 (tptp.fn_vesicle_10 X)) (= _let_4 (tptp.fn_vesicle_9 X)) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cobalt_9 X))) (let ((_let_2 (tptp.fn_cobalt_12 X))) (let ((_let_3 (tptp.fn_cobalt_10 X))) (let ((_let_4 (tptp.fn_cobalt_11 X))) (let ((_let_5 (tptp.fn_cobalt_4 X))) (let ((_let_6 (tptp.fn_cobalt_5 X))) (let ((_let_7 (tptp.fn_cobalt_3 X))) (=> (tptp.cobalt_1 X) (and (tptp.original_name_2 X |tptp.'Cobalt'|) (tptp.user_description_2 X |tptp.'Cobalt is a metal atom with atomic number 27. It is represented by the symbol Co.'|) (tptp.concept2words_2 X tptp.cobalt) (tptp.concept2words_2 X |tptp.'Co'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"32"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"27"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"27"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"9"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.88"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"59"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"27"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"58.93"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_cobalt_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_cobalt_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_cobalt_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.coccus_1 X) (and (tptp.original_name_2 X |tptp.'Coccus'|) (tptp.user_description_2 X |tptp.'A bacterium with a spherical shape.'|) (tptp.concept2words_2 X tptp.coccus) (tptp.bacterium_1 X) (not (tptp.heterocyte_1 X)) (not (tptp.proteobacteria_1 X)) (not (tptp.spirochete_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cochlea_1 X) (and (tptp.original_name_2 X |tptp.'Cochlea'|) (tptp.user_description_2 X |tptp.'A portion of the inner ear that resembles a coiled snail shell and is the organ of hearing in mammals.'|) (tptp.concept2words_2 X tptp.cochlea) (tptp.sensory_organ_1 X) (not (tptp.antenna_1 X)) (not (tptp.eye_cup_1 X)) (not (tptp.inner_ear_1 X)) (not (tptp.lateral_line_1 X)) (not (tptp.organ_of_corti_1 X)) (not (tptp.organ_of_equilibrium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cockroach_1 X) (and (tptp.original_name_2 X |tptp.'Cockroach'|) (tptp.user_description_2 X |tptp.'An insect in the order Blattaria.'|) (tptp.concept2words_2 X tptp.cockroach) (tptp.orthoptera_1 X) (not (tptp.cricket_1 X)) (not (tptp.grasshopper_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cocoon_1 X))) (=> (tptp.cocoon_1 X) (and (tptp.original_name_2 X |tptp.'Cocoon'|) (tptp.user_description_2 X |tptp.'A casing made by insect larva.'|) (tptp.concept2words_2 X tptp.cocoon) (tptp.animal_structure_1 X) (tptp.structural_protein_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.cod_liver_oil_1 X) (and (tptp.original_name_2 X |tptp.'Cod-Liver-Oil'|) (tptp.user_description_2 X |tptp.'Cod liver oil is a nutritional supplement derived from liver of cod fish. It has high levels of the omega-3 fatty acids, EPA and DHA, and very high levels of vitamin A and vitamin D.'|) (tptp.concept2words_2 X |tptp.'cod liver oil'|) (tptp.concept2words_2 X |tptp.'cod-liver-oil'|) (tptp.fish_fat_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_code_for_1 X))) (let ((_let_2 (tptp.fn_code_for_2 X))) (=> (tptp.code_for_1 X) (and (tptp.original_name_2 X |tptp.'Code-For'|) (tptp.user_description_2 X |tptp.'information, in form of a code'|) (tptp.concept2words_2 X tptp.encode) (tptp.concept2words_2 X |tptp.'code for'|) (tptp.concept2words_2 X |tptp.'code-for'|) (tptp.communicate_1 X) (tptp.entity_1 _let_1) (tptp.entity_1 _let_2) (tptp.result_2 X _let_2) (tptp.agent_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coding_for_amino_acid_1 X))) (let ((_let_2 (tptp.fn_coding_for_amino_acid_2 X))) (let ((_let_3 (tptp.fn_coding_for_amino_acid_3 X))) (let ((_let_4 (tptp.fn_coding_for_amino_acid_4 X))) (=> (tptp.coding_for_amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Coding-For-Amino-Acid'|) (tptp.user_description_2 X |tptp.'A tri-nucleotide sequence, called a codon, that specifies a particular amino acid.'|) (tptp.concept2words_2 X tptp.code) (tptp.concept2words_2 X |tptp.'coding for amino acid'|) (tptp.concept2words_2 X |tptp.'coding-for-amino-acid'|) (tptp.code_for_1 X) (tptp.amino_acid_1 _let_1) (tptp.nucleotide_1 _let_2) (tptp.quantity_value_1 _let_3) (tptp.quantity_value_1 _let_4) (tptp.system_1 (tptp.fn_coding_for_amino_acid_6 X)) (tptp.called_2 _let_4 |tptp.'Qn'|) (tptp.called_2 _let_3 |tptp.'Qa'|) (tptp.quantity_2 _let_2 _let_4) (tptp.quantity_2 _let_1 _let_3) (tptp.instrument_2 X _let_2) (tptp.object_2 X _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.coding_segment_1 X) (and (tptp.original_name_2 X |tptp.'Coding-segment'|) (tptp.user_description_2 X |tptp.'Coding segment is a sequence of ribonucleotides on mRNA which serves as the template for synthesis of a polypeptide/protein'|) (tptp.concept2words_2 X |tptp.'coding-segment'|) (tptp.concept2words_2 X |tptp.'coding segment'|) (tptp.concept2words_2 X |tptp.'segment of coding'|) (tptp.rna_sequence_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.leader_segment_1 X)) (not (tptp.telomere_with_3_prime_overhang_1 X)) (not (tptp.terminator_sequence_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_codominance_8 X))) (let ((_let_2 (tptp.fn_phenotype_1 _let_1))) (let ((_let_3 (tptp.fn_codominance_7 X))) (let ((_let_4 (tptp.fn_codominance_6 X))) (let ((_let_5 (tptp.fn_codominance_1 X))) (let ((_let_6 (tptp.fn_codominance_5 X))) (let ((_let_7 (tptp.fn_codominance_2 X))) (let ((_let_8 (tptp.fn_codominance_3 X))) (let ((_let_9 (tptp.fn_codominance_4 X))) (=> (tptp.codominance_1 X) (and (tptp.original_name_2 X |tptp.'Codominance'|) (tptp.user_description_2 X |tptp.'The situation in which the phenotypes of both alleles are exhibited in the heterozygote because both alleles affect the phenotype in separate, distinguishable ways.'|) (tptp.concept2words_2 X tptp.codominate) (tptp.concept2words_2 X tptp.codominance) (tptp.inheritance_1 X) (tptp.codominant_1 _let_5) (tptp.homozygous_recessive_1 _let_7) (tptp.homozygous_dominant_1 _let_8) (tptp.heterozygous_1 _let_9) (tptp.dominant_trait_1 _let_6) (tptp.genotype_1 _let_4) (tptp.recessive_trait_1 _let_3) (tptp.entity_1 _let_1) (tptp.phenotype_1 _let_1) (tptp.trait_1 _let_2) (tptp.element_2 _let_4 _let_9) (tptp.element_2 _let_4 _let_8) (tptp.element_2 _let_4 _let_7) (tptp.element_2 _let_1 _let_6) (tptp.element_2 _let_1 _let_5) (tptp.object_2 X _let_4) (tptp.object_2 X _let_1) (tptp.element_2 _let_1 _let_3) (= _let_1 (tptp.fn_transfer_1 X)) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_codominance_cross_breeding_event_1 X))) (=> (tptp.codominance_cross_breeding_event_1 X) (and (tptp.original_name_2 X |tptp.'Codominance-Cross-Breeding-Event'|) (tptp.user_description_2 X |tptp.'Mating of two individuals, with expression of codominant alleles being investigated.'|) (tptp.concept2words_2 X tptp.crossbreed) (tptp.concept2words_2 X |tptp.'codominance cross breeding event'|) (tptp.concept2words_2 X |tptp.'codominance-cross-breeding-event'|) (tptp.cross_breeding_event_1 X) (not (tptp.complete_dominance_cross_breeding_event_1 X)) (not (tptp.homozygous_dominant_cross_1 X)) (not (tptp.homozygous_recessive_cross_1 X)) (not (tptp.hybridization_1 X)) (not (tptp.incomplete_dominance_cross_breeding_event_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.codominance_1 _let_1) (tptp.by_means_of_2 _let_1 X) (= _let_1 (tptp.fn_cross_breeding_event_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_codominant_2 X))) (let ((_let_2 (tptp.fn_codominant_1 X))) (let ((_let_3 (tptp.fn_codominant_3 X))) (=> (tptp.codominant_1 X) (and (tptp.original_name_2 X |tptp.'Codominant'|) (tptp.user_description_2 X |tptp.'The heterozygous condition in which the phenotypes of both alleles are exhibited in the heterozygote because both alleles affect the phenotype in separate, distinguishable ways.'|) (tptp.concept2words_2 X |tptp.'heterozygous trait codominance'|) (tptp.concept2words_2 X |tptp.'heterozygous-trait-codominance'|) (tptp.concept2words_2 X tptp.codominant) (tptp.phenotype_1 X) (not (tptp.autosomal_dominant_trait_1 X)) (not (tptp.dominant_phenotype_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.mutant_phenotype_1 X)) (not (tptp.mutant_type_1 X)) (not (tptp.parental_type_1 X)) (not (tptp.phenotype_of_offspring_1 X)) (not (tptp.phenotype_of_parent_1 X)) (not (tptp.trait_on_a_range_1 X)) (not (tptp.trait_on_a_scale_1 X)) (not (tptp.wild_type_1 X)) (not (tptp.x_chromosome_phenotype_dominant_1 X)) (not (tptp.x_chromosome_phenotype_recessive_1 X)) (tptp.add_1 _let_2) (tptp.dominant_trait_1 _let_1) (tptp.recessive_trait_1 _let_3) (tptp.result_2 _let_2 X) (tptp.object_2 _let_2 _let_3) (tptp.object_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_codon_1 X))) (let ((_let_2 (tptp.fn_codon_2 X))) (=> (tptp.codon_1 X) (and (tptp.original_name_2 X |tptp.'Codon'|) (tptp.description_2 X |tptp.'A three-nucleotide sequence of DNA or mRNA that specifies a particular amino acid or termination signal; the basic unit of the genetic code.'|) (tptp.user_description_2 X |tptp.'A group of three consecutive nucleotides of DNA or mRNA that codes for either a specific amino acid or a signal to end translation.'|) (tptp.concept2words_2 X |tptp.'genetic message'|) (tptp.concept2words_2 X |tptp.'nucleotide triplet'|) (tptp.concept2words_2 X tptp.codon) (tptp.nucleic_acid_sequence_1 X) (tptp.monomer_1 _let_1) (tptp.monomer_1 _let_2) (tptp.element_2 X _let_1) (tptp.next_element_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.first_element_2 X _let_1) (= _let_2 (tptp.fn_nucleic_acid_sequence_6 X)) (= _let_1 (tptp.fn_nucleic_acid_sequence_5 X))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.base_2 X X1) (tptp.distinguishing_1 X) (tptp.rna_codon_1 X1)) (and (tptp.codon_recognition_1 X) (= (tptp.fn_codon_recognition_7 X) X1)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X1) (tptp.distinguishing_1 X) (tptp.rna_codon_1 X1)) (and (tptp.codon_recognition_1 X) (= (tptp.fn_codon_recognition_7 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_codon_recognition_8 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_codon_recognition_9 X))) (let ((_let_4 (tptp.fn_attach_1 _let_3))) (let ((_let_5 (tptp.fn_attach_2 _let_3))) (let ((_let_6 (tptp.fn_codon_recognition_7 X))) (let ((_let_7 (tptp.fn_codon_recognition_12 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_codon_recognition_10 X))) (let ((_let_10 (tptp.fn_codon_recognition_11 X))) (let ((_let_11 (tptp.fn_codon_recognition_1 X))) (let ((_let_12 (tptp.fn_codon_recognition_3 X))) (let ((_let_13 (tptp.fn_codon_recognition_4 X))) (let ((_let_14 (tptp.fn_codon_recognition_5 X))) (=> (tptp.codon_recognition_1 X) (and (tptp.original_name_2 X |tptp.'Codon-Recognition'|) (tptp.user_description_2 X |tptp.'Codon recognition is the process of attachment of an anticodon, which is part of a tRNA to its complementary codon, the codon being part of mRNA'|) (tptp.concept2words_2 X tptp.recognize) (tptp.concept2words_2 X |tptp.'recognition of codon'|) (tptp.concept2words_2 X |tptp.'codon recognition'|) (tptp.concept2words_2 X |tptp.'codon-recognition'|) (tptp.distinguishing_1 X) (not (tptp.compare_genes_1 X)) (not (tptp.distinguishing_defective_chromosome_1 X)) (not (tptp.dna_proofreading_1 X)) (not (tptp.identify_cell_by_protein_expression_1 X)) (not (tptp.identify_cell_clones_with_gene_of_interest_1 X)) (tptp.hydrogen_bond_1 _let_11) (tptp.a_site_1 _let_12) (tptp.elongation_factor_1 _let_13) (tptp.cytoplasm_1 _let_14) (tptp.rna_codon_1 _let_6) (tptp.move_into_1 _let_1) (tptp.attach_1 _let_3) (tptp.gtp_1 _let_9) (tptp.aminoacyl_trna_1 _let_10) (tptp.break_1 _let_7) (tptp.tangible_entity_1 _let_8) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.is_at_2 _let_6 _let_12) (tptp.origin_2 _let_1 _let_14) (tptp.agent_2 _let_1 _let_13) (tptp.path_2 _let_1 _let_12) (tptp.destination_2 _let_1 _let_12) (tptp.next_event_2 _let_1 _let_3) (tptp.instrument_2 _let_3 _let_11) (tptp.object_2 X _let_10) (tptp.object_2 X _let_6) (tptp.base_2 X _let_6) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.agent_2 X _let_10) (tptp.next_event_2 _let_7 _let_1) (tptp.causes_2 _let_7 _let_1) (tptp.exactCardinality _let_7 tptp.object_0 |"2"| tptp.gtp_0) (tptp.object_2 _let_3 _let_10) (tptp.object_2 _let_1 _let_10) (tptp.object_2 _let_7 _let_9) (tptp.base_2 _let_3 _let_6) (= _let_10 _let_4) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_6 _let_5) (= _let_4 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.coefficient_value_1 X) (and (tptp.original_name_2 X |tptp.'Coefficient-Value'|) (tptp.description_2 X |tptp.'a quantity (usually a numerical constant) which is multiplied by another quantity following it in an expression; e.g. in the algebraic expression 4 x 2 - 6 x, the coefficient of (the first term) x 2 is 4 and the coefficient of (the second term) x is -6.'|) (tptp.concept2words_2 X tptp.coefficient) (tptp.concept2words_2 X |tptp.'value of coefficient'|) (tptp.concept2words_2 X |tptp.'coefficient value'|) (tptp.concept2words_2 X |tptp.'coefficient-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.coelocanth_1 X) (and (tptp.original_name_2 X |tptp.'Coelocanth'|) (tptp.user_description_2 X |tptp.'Either of two living species of a single genus of lobe-finned fish.'|) (tptp.concept2words_2 X tptp.coelocanth) (tptp.lobe_fin_fish_1 X)))) (forall ((X $$unsorted)) (=> (tptp.coelom_1 X) (and (tptp.original_name_2 X |tptp.'Coelom'|) (tptp.user_description_2 X |tptp.'An internal fluid-filled body cavity lined with mesodermal tissue.'|) (tptp.concept2words_2 X tptp.coelom) (tptp.body_cavity_1 X) (not (tptp.archenteron_1 X)) (not (tptp.mantle_cavity_1 X)) (not (tptp.rumen_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coenocytic_fungus_1 X))) (=> (tptp.coenocytic_fungus_1 X) (and (tptp.original_name_2 X |tptp.'Coenocytic-Fungus'|) (tptp.user_description_2 X |tptp.'A fungus that lacks septa and whose mycelium thus consists of a continuous mass of cytoplasm that may contain hundreds of nuclei.'|) (tptp.concept2words_2 X |tptp.'coenocytic fungus'|) (tptp.concept2words_2 X |tptp.'coenocytic-fungus'|) (tptp.multicellular_organism_1 X) (tptp.deuteromycete_1 X) (not (tptp.arbuscular_mycorrhizal_fungus_1 X)) (not (tptp.mold_1 X)) (not (tptp.yeast_1 X)) (tptp.fungal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_multicellular_organism_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coenzyme_1 X))) (=> (tptp.coenzyme_1 X) (and (tptp.original_name_2 X |tptp.'Coenzyme'|) (tptp.user_description_2 X |tptp.'Coenzymes are organic compounds required for the activity of some enzymes; most are derived from vitamins. Coenzymes that remain tightly bound to the enzyme at all times are sometimes known as prosthetic groups; non-protein components of the enzyme molecule.'|) (tptp.concept2words_2 X tptp.coenzyme) (tptp.cofactor_1 X) (not (tptp.corepressor_1 X)) (not (tptp.cyclic_amp_1 X)) (not (tptp.inducer_1 X)) (not (tptp.prosthetic_group_1 X)) (tptp.organic_molecule_1 _let_1) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_cofactor_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coenzyme_a_6 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_molecule_7 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_coenzyme_a_12 X))) (let ((_let_6 (tptp.fn_coenzyme_1 _let_5))) (let ((_let_7 (tptp.fn_coenzyme_a_11 X))) (let ((_let_8 (tptp.fn_functional_group_1 _let_7))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_10 (tptp.fn_coenzyme_a_5 X))) (let ((_let_11 (tptp.fn_coenzyme_a_4 X))) (let ((_let_12 (tptp.fn_coenzyme_a_8 X))) (let ((_let_13 (tptp.fn_coenzyme_a_9 X))) (let ((_let_14 (tptp.fn_coenzyme_a_10 X))) (let ((_let_15 (tptp.fn_coenzyme_a_7 X))) (let ((_let_16 (tptp.fn_coenzyme_a_1 X))) (=> (tptp.coenzyme_a_1 X) (and (tptp.original_name_2 X |tptp.'Coenzyme-A'|) (tptp.user_description_2 X |tptp.'Coenzyme A (CoA, CoASH, or HSCoA) is a coenzyme, notable for its role in the synthesis and oxidation of fatty acids, and the oxidation of pyruvate in the citric acid cycle.'|) (tptp.concept2words_2 X |tptp.'s coa'|) (tptp.concept2words_2 X |tptp.'s-coa'|) (tptp.concept2words_2 X |tptp.'coenzyme a'|) (tptp.concept2words_2 X |tptp.'coenzyme-a'|) (tptp.organic_molecule_1 X) (not (tptp.acetyl_coa_1 X)) (not (tptp.fadh2_1 X)) (not (tptp.nad_plus_1 X)) (not (tptp.nadh_1 X)) (not (tptp.nadp_plus_1 X)) (not (tptp.nadph_1 X)) (not (tptp.succinyl_coa_1 X)) (tptp.vitamin_b5_1 _let_16) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.carbon_1 _let_10) (tptp.carbon_skeleton_1 _let_1) (tptp.constant_motion_1 _let_15) (tptp.kinetic_energy_1 _let_12) (tptp.quantity_value_1 _let_13) (tptp.speed_value_1 _let_14) (tptp.sulfhydryl_group_1 _let_7) (tptp.coenzyme_1 _let_5) (tptp.carbon_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.organic_molecule_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.has_part_2 X _let_16) (tptp.has_region_2 X _let_7) (tptp.plays_2 X _let_5) (tptp.has_part_2 X _let_11) (tptp.possesses_2 X _let_12) (tptp.quantity_2 _let_12 _let_13) (tptp.directly_proportional_2 _let_14 _let_13) (tptp.speed_2 _let_15 _let_14) (tptp.object_2 _let_15 X) (tptp.is_inside_2 _let_10 _let_1) (tptp.has_part_2 X _let_10) (tptp.has_region_2 X _let_1) (not (= _let_11 _let_10)) (not (= _let_10 _let_11)) (= X _let_8) (= X _let_6) (= (tptp.fn_coenzyme_a_3 X) (tptp.fn_molecule_2 X)) (= _let_11 _let_3) (= (tptp.fn_coenzyme_a_2 X) (tptp.fn_molecule_1 X)) (= _let_15 (tptp.fn_molecule_8 X)) (= _let_14 (tptp.fn_molecule_3 X)) (= _let_13 (tptp.fn_molecule_4 X)) (= _let_12 (tptp.fn_molecule_12 X)) (= X _let_4) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cofactor_1 X))) (=> (tptp.cofactor_1 X) (and (tptp.original_name_2 X |tptp.'Cofactor'|) (tptp.user_description_2 X |tptp.'Any nonprotein molecule or ion that is required for the proper functioning of an enzyme. Cofactors can be permanently bound to the active site or may bind loosely with the substrate during catalysis.'|) (tptp.concept2words_2 X tptp.cofactor) (tptp.instrument_role_1 X) (tptp.chemical_entity_1 _let_1) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_instrument_role_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.cognition_1 X) (and (tptp.original_name_2 X |tptp.'Cognition'|) (tptp.user_description_2 X |tptp.'A group of mental processes including production and understanding of language, memory, learning, problem solving, reasoning, and decision making.'|) (tptp.concept2words_2 X tptp.cognition) (tptp.learned_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cognitive_activity_1 X) (and (tptp.original_name_2 X |tptp.'Cognitive-Activity'|) (tptp.user_description_2 X |tptp.'Activities related to the information processing abilities of humans.'|) (tptp.concept2words_2 X |tptp.'cognitive activity'|) (tptp.concept2words_2 X |tptp.'cognitive-activity'|) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cognitive_map_1 X) (and (tptp.original_name_2 X |tptp.'Cognitive-Map'|) (tptp.user_description_2 X |tptp.'A representation in the brain of the spatial relationships between objects in an animal_'s environment.'|) (tptp.concept2words_2 X |tptp.'cognitive map'|) (tptp.concept2words_2 X |tptp.'cognitive-map'|) (tptp.map_1 X) (not (tptp.closed_system_1 X)) (not (tptp.ecological_model_1 X)) (not (tptp.five_kingdom_system_1 X)) (not (tptp.fluid_mosaic_model_1 X)) (not (tptp.molecular_formula_1 X)) (not (tptp.open_system_1 X)) (not (tptp.redundancy_model_1 X)) (not (tptp.representation_of_data_1 X)) (not (tptp.rivet_model_1 X)) (not (tptp.sandwich_model_1 X)) (not (tptp.stable_system_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.unstable_system_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cohesin_1 X) (and (tptp.original_name_2 X |tptp.'Cohesin'|) (tptp.user_description_2 X |tptp.'A protein complex which attaches sister chromatids to each other during cell division.'|) (tptp.concept2words_2 X tptp.cohesin) (tptp.protein_complex_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cohesion_3 X))) (let ((_let_2 (tptp.fn_cohesion_2 X))) (let ((_let_3 (tptp.fn_cohesion_1 X))) (=> (tptp.cohesion_1 X) (and (tptp.original_name_2 X |tptp.'Cohesion'|) (tptp.user_description_2 X |tptp.'The binding together of like molecules, often by hydrogen bonds.'|) (tptp.concept2words_2 X tptp.cohere) (tptp.concept2words_2 X tptp.cohesion) (tptp.attract_1 X) (not (tptp.adhesion_1 X)) (tptp.substance_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.has_part_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_2) (tptp.same_type_2 _let_1 _let_2) (tptp.same_type_2 _let_2 _let_1) (tptp.base_2 X _let_3) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_attract_2 X)) (= _let_1 (tptp.fn_attract_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.cohort_1 X) (and (tptp.original_name_2 X |tptp.'Cohort'|) (tptp.user_description_2 X |tptp.'In demographics, a group of individuals experiencing the same events at the same time.'|) (tptp.concept2words_2 X tptp.cohort) (tptp.ecological_grouping_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coil_1 X))) (=> (tptp.coil_1 X) (and (tptp.original_name_2 X |tptp.'Coil'|) (tptp.user_description_2 X |tptp.'A coil is a series of loops. A coiled coil is a structure where the coil itself is in turn also looping.'|) (tptp.concept2words_2 X tptp.wrap) (tptp.concept2words_2 X tptp.coil) (tptp.change_of_shape_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.coitus_1 X) (and (tptp.original_name_2 X |tptp.'Coitus'|) (tptp.user_description_2 X |tptp.'Sexual intercourse between a male and a female, involving the insertion of a penis into a vagina.'|) (tptp.concept2words_2 X tptp.coitus) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cold_1 X) (and (tptp.original_name_2 X |tptp.'Cold'|) (tptp.user_description_2 X |tptp.'Condition involving the absence of heat.'|) (tptp.concept2words_2 X tptp.condition) (tptp.concept2words_2 X tptp.cold) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.coleoptera_1 X) (and (tptp.original_name_2 X |tptp.'Coleoptera'|) (tptp.user_description_2 X |tptp.'Order of the class Insecta having two pairs of wings and an armored exoskeleton.'|) (tptp.concept2words_2 X tptp.beetles) (tptp.concept2words_2 X tptp.coleoptera) (tptp.insect_1 X)))) (forall ((X $$unsorted)) (=> (tptp.coleoptile_1 X) (and (tptp.original_name_2 X |tptp.'Coleoptile'|) (tptp.user_description_2 X |tptp.'In monocots, the protective sheath covering an emerging shoot.'|) (tptp.concept2words_2 X tptp.coleoptile) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (=> (tptp.coleorhiza_1 X) (and (tptp.original_name_2 X |tptp.'Coleorhiza'|) (tptp.user_description_2 X |tptp.'In monocots, the protective covering of an emerging root.'|) (tptp.concept2words_2 X tptp.coleorhiza) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X))))) (forall ((X $$unsorted)) (=> (tptp.collagen_1 X) (and (tptp.original_name_2 X |tptp.'Collagen'|) (tptp.user_description_2 X |tptp.'The most abundant glycoprotein found in many animal tissues located in the extracellular matrix. Collagen forms strong fibers.'|) (tptp.concept2words_2 X tptp.collagen) (tptp.glycoprotein_1 X) (tptp.structural_protein_1 X) (tptp.fibrous_protein_1 X) (not (tptp.alpha_keratin_1 X)) (not (tptp.fibrin_1 X)) (not (tptp.histone_1 X)) (not (tptp.cell_adhesion_molecule_1 X)) (not (tptp.fibronectin_1 X)) (not (tptp.glycoprotein_hormone_1 X)) (not (tptp.peptidoglycan_1 X)) (not (tptp.proteoglycan_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_collecting_1 X))) (=> (tptp.collecting_1 X) (and (tptp.original_name_2 X |tptp.'Collecting'|) (tptp.concept2words_2 X tptp.gather) (tptp.concept2words_2 X tptp.collect) (tptp.concept2words_2 X tptp.accumulate) (tptp.concept2words_2 X tptp.amass) (tptp.concept2words_2 X tptp.compile) (tptp.concept2words_2 X tptp.garner) (tptp.concept2words_2 X tptp.collection) (tptp.concept2words_2 X tptp.collecting) (tptp.concept2words_2 X tptp.assembling) (tptp.concept2words_2 X tptp.aggregation) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.collecting_duct_1 X) (and (tptp.original_name_2 X |tptp.'Collecting-Duct'|) (tptp.user_description_2 X |tptp.'In the kidney, a system of tubules and ducts connecting the nephrons to the ureter. It is involved in salt and fluid balance.'|) (tptp.concept2words_2 X |tptp.'duct of collecting'|) (tptp.concept2words_2 X |tptp.'collecting duct'|) (tptp.concept2words_2 X |tptp.'collecting-duct'|) (tptp.duct_1 X) (tptp.cuboidal_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X)) (not (tptp.blood_brain_barrier_1 X))))) (forall ((X $$unsorted)) (=> (tptp.collenchyma_cell_1 X) (and (tptp.original_name_2 X |tptp.'Collenchyma-Cell'|) (tptp.user_description_2 X |tptp.'Type of elongate plant cell that has irregularly thickened walls and provides structural support for growing stems and leaves.'|) (tptp.concept2words_2 X |tptp.'collenchyma cell'|) (tptp.concept2words_2 X |tptp.'collenchyma-cell'|) (tptp.plant_support_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.parenchyma_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X))))) (forall ((X $$unsorted)) (=> (tptp.collide_1 X) (and (tptp.original_name_2 X |tptp.'Collide'|) (tptp.concept2words_2 X tptp.collide) (tptp.concept2words_2 X tptp.clash) (tptp.concept2words_2 X |tptp.'collide with'|) (tptp.concept2words_2 X tptp.collide_with) (tptp.concept2words_2 X tptp.hit) (tptp.concept2words_2 X tptp.strike) (tptp.concept2words_2 X |tptp.'impinge on'|) (tptp.concept2words_2 X tptp.impinge_on) (tptp.concept2words_2 X |tptp.'run into'|) (tptp.concept2words_2 X tptp.run_into) (tptp.concept2words_2 X |tptp.'cause to collide'|) (tptp.make_contact_1 X) (tptp.intensity_2 X |tptp.'*strong'|)))) (forall ((X $$unsorted)) (=> (tptp.colloblast_1 X) (and (tptp.original_name_2 X |tptp.'Colloblast'|) (tptp.user_description_2 X |tptp.'Adhesive cell produced only by animals of the phylum Ctenophora. Colloblasts are located on the tentacles of ctenophores and are used in prey capture. Unlike cnidocytes, colloblasts do not inject toxins.'|) (tptp.concept2words_2 X |tptp.'lasso cells'|) (tptp.concept2words_2 X |tptp.'lasso-cells'|) (tptp.concept2words_2 X tptp.colloblast) (tptp.invertebrate_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_suspension_1 X))) (let ((_let_2 (tptp.fn_mixture_2 X))) (let ((_let_3 (tptp.fn_colloid_5 X))) (let ((_let_4 (tptp.fn_solubility_value_1 _let_3))) (let ((_let_5 (tptp.fn_colloid_4 X))) (let ((_let_6 (tptp.fn_colloid_2 X))) (let ((_let_7 (tptp.fn_colloid_1 X))) (=> (tptp.colloid_1 X) (and (tptp.original_name_2 X |tptp.'Colloid'|) (tptp.user_description_2 X |tptp.'A stable solution of fine particles in a liquid.'|) (tptp.concept2words_2 X tptp.colloid) (tptp.suspension_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X)) (tptp.size_value_1 _let_7) (tptp.molecule_1 _let_6) (tptp.substance_1 _let_5) (tptp.solid_substance_1 _let_5) (tptp.solubility_value_1 _let_3) (tptp.property_node_1 _let_4) (tptp.the_scalar_value_2 _let_3 tptp.insoluble_0) (tptp.scalar_unit_class_2 _let_3 tptp.molecule_0) (tptp.solubility_in_water_2 _let_6 _let_3) (tptp.size_2 _let_6 _let_7) (tptp.the_scalar_value_2 _let_7 tptp.big_0) (tptp.scalar_unit_class_2 _let_7 tptp.molecule_0) (tptp.has_part_2 _let_5 _let_6) (tptp.has_part_2 X _let_5) (= _let_5 _let_2) (= _let_5 _let_1) (= (tptp.fn_colloid_6 X) _let_4) (= _let_2 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_colon_1 X))) (=> (tptp.colon_1 X) (and (tptp.original_name_2 X |tptp.'Colon'|) (tptp.user_description_2 X |tptp.'The most distal section of the vertebrate digestive tract; functions in the absorption of water and formation of feces.'|) (tptp.concept2words_2 X tptp.colon) (tptp.digestive_organ_1 X) (tptp.large_intestine_1 _let_1) (tptp.has_part_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_colon_cancer_2 X))) (let ((_let_2 (tptp.fn_colon_cancer_1 X))) (=> (tptp.colon_cancer_1 X) (and (tptp.original_name_2 X |tptp.'Colon-Cancer'|) (tptp.user_description_2 X |tptp.'Cancer that arises from benign, mushroom-shaped polyps in the large intestine that develop into cancer over time. It is the fourth most common form of cancer in the United States, and the third leading cause of cancer-related death in the Western world.'|) (tptp.concept2words_2 X |tptp.'colorectal cancer'|) (tptp.concept2words_2 X |tptp.'colorectal-cancer'|) (tptp.concept2words_2 X tptp.crc) (tptp.concept2words_2 X |tptp.'bowel cancer'|) (tptp.concept2words_2 X |tptp.'bowel-cancer'|) (tptp.concept2words_2 X |tptp.'large bowel cancer'|) (tptp.concept2words_2 X |tptp.'cancer of colon'|) (tptp.concept2words_2 X |tptp.'colon cancer'|) (tptp.concept2words_2 X |tptp.'colon-cancer'|) (tptp.cancer_1 X) (tptp.dna_repair_1 _let_2) (tptp.event_1 _let_1) (tptp.inhibits_2 _let_1 _let_2) (tptp.result_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.color_blindness_1 X) (and (tptp.original_name_2 X |tptp.'Color-Blindness'|) (tptp.user_description_2 X |tptp.'A sex-linked genetic disorder resulting in the inability to discern one or more colors.'|) (tptp.concept2words_2 X |tptp.'blindness of color'|) (tptp.concept2words_2 X |tptp.'color blindness'|) (tptp.concept2words_2 X |tptp.'color-blindness'|) (tptp.sex_linked_human_genetic_disorder_1 X) (not (tptp.duchenne_muscular_dystrophy_1 X)) (not (tptp.hemophilia_1 X))))) (forall ((X $$unsorted)) (=> (tptp.color_constant_1 X) (and (tptp.original_name_2 X |tptp.'Color-Constant'|) (tptp.concept2words_2 X |tptp.'chromatic color'|) (tptp.concept2words_2 X tptp.chromatic_color) (tptp.concept2words_2 X |tptp.'constant of color'|) (tptp.concept2words_2 X |tptp.'color constant'|) (tptp.concept2words_2 X |tptp.'color-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.color_value_1 X) (and (tptp.original_name_2 X |tptp.'Color-Value'|) (tptp.description_2 X |tptp.'color is a property for describing a Tangible-Entity_'s colors.'|) (tptp.concept2words_2 X tptp.vividness) (tptp.concept2words_2 X tptp.coloring) (tptp.concept2words_2 X tptp.colouring) (tptp.concept2words_2 X tptp.colour) (tptp.concept2words_2 X tptp.color) (tptp.concept2words_2 X |tptp.'value of color'|) (tptp.concept2words_2 X |tptp.'color value'|) (tptp.concept2words_2 X |tptp.'color-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.color_vision_1 X) (and (tptp.original_name_2 X |tptp.'Color-Vision'|) (tptp.user_description_2 X |tptp.'The ability to distinguish between different wavelengths of light that are emitted, refracted, or reflected by objects.'|) (tptp.concept2words_2 X |tptp.'vision of color'|) (tptp.concept2words_2 X |tptp.'color vision'|) (tptp.concept2words_2 X |tptp.'color-vision'|) (tptp.sight_1 X) (not (tptp.de_etiolation_1 X)) (not (tptp.gustation_1 X)) (not (tptp.lateral_line_system_1 X)) (not (tptp.olfaction_1 X)) (not (tptp.perception_1 X)) (not (tptp.sensation_1 X)) (not (tptp.sensory_reception_1 X)) (not (tptp.touch_1 X))))) (forall ((X $$unsorted)) (=> (tptp.coloring_pigment_1 X) (and (tptp.original_name_2 X |tptp.'Coloring-pigment'|) (tptp.user_description_2 X |tptp.'The coloring pigments present in vacuole help to attract pollinating insects to flowers'|) (tptp.concept2words_2 X |tptp.'coloring pigments'|) (tptp.concept2words_2 X |tptp.'pigment of coloring'|) (tptp.concept2words_2 X |tptp.'coloring pigment'|) (tptp.concept2words_2 X |tptp.'coloring-pigment'|) (tptp.pigment_1 X)))) (forall ((X $$unsorted)) (=> (tptp.columnlike_epithelium_1 X) (and (tptp.original_name_2 X |tptp.'Columnlike-Epithelium'|) (tptp.user_description_2 X |tptp.'Epithelial tissue that has a column shape (either simple, stratified, or pseudostratified).'|) (tptp.concept2words_2 X |tptp.'columnar epithelium'|) (tptp.concept2words_2 X |tptp.'columnar-epithelium'|) (tptp.concept2words_2 X |tptp.'columnlike epithelium'|) (tptp.concept2words_2 X |tptp.'columnlike-epithelium'|) (tptp.epithelium_1 X) (not (tptp.cuboidal_epithelium_1 X)) (not (tptp.simple_squamous_epithelium_1 X)) (not (tptp.stratified_squamous_epithelium_1 X)) (not (tptp.transport_epithelium_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_combine_1 X))) (let ((_let_2 (tptp.fn_combine_2 X))) (=> (tptp.combine_1 X) (and (tptp.original_name_2 X |tptp.'Combine'|) (tptp.user_description_2 X |tptp.'It refers to getting into a state of unity or to merge.'|) (tptp.concept2words_2 X tptp.combine) (tptp.alter_1 X) (tptp.entity_1 _let_1) (tptp.entity_1 _let_2) (tptp.object_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_combustion_of_fossil_fuel_16 X))) (let ((_let_2 (tptp.fn_oxidation_7 _let_1))) (let ((_let_3 (tptp.fn_combustion_of_fossil_fuel_15 X))) (let ((_let_4 (tptp.fn_reduction_3 _let_3))) (let ((_let_5 (tptp.fn_redox_reaction_12 X))) (let ((_let_6 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_7 (tptp.fn_reduction_4 _let_3))) (let ((_let_8 (tptp.fn_oxidation_9 _let_1))) (let ((_let_9 (tptp.fn_redox_reaction_7 X))) (let ((_let_10 (tptp.fn_reduction_1 _let_3))) (let ((_let_11 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_12 (tptp.fn_combustion_of_fossil_fuel_12 X))) (let ((_let_13 (tptp.fn_water_vapor_1 _let_12))) (let ((_let_14 (tptp.fn_redox_reaction_16 X))) (let ((_let_15 (tptp.fn_oxidation_10 _let_1))) (let ((_let_16 (tptp.fn_combustion_of_fossil_fuel_14 X))) (let ((_let_17 (tptp.fn_fossil_fuel_2 _let_16))) (let ((_let_18 (tptp.fn_combustion_of_fossil_fuel_9 X))) (let ((_let_19 (tptp.fn_combustion_of_fossil_fuel_11 X))) (let ((_let_20 (tptp.fn_combustion_of_fossil_fuel_13 X))) (let ((_let_21 (tptp.fn_combustion_of_fossil_fuel_8 X))) (let ((_let_22 (tptp.fn_combustion_of_fossil_fuel_7 X))) (let ((_let_23 (tptp.fn_combustion_of_fossil_fuel_6 X))) (let ((_let_24 (tptp.fn_combustion_of_fossil_fuel_5 X))) (let ((_let_25 (tptp.fn_combustion_of_fossil_fuel_10 X))) (let ((_let_26 (tptp.fn_combustion_of_fossil_fuel_4 X))) (let ((_let_27 (tptp.fn_combustion_of_fossil_fuel_1 X))) (let ((_let_28 (tptp.fn_combustion_of_fossil_fuel_2 X))) (let ((_let_29 (tptp.fn_combustion_of_fossil_fuel_3 X))) (=> (tptp.combustion_of_fossil_fuel_1 X) (and (tptp.original_name_2 X |tptp.'Combustion-Of-Fossil-Fuel'|) (tptp.user_description_2 X |tptp.'The combustion of fossil fuels such as gasoline, coal, and oil to produce energy.'|) (tptp.concept2words_2 X |tptp.'burning of fossil fuel'|) (tptp.concept2words_2 X tptp.burn) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'combustion of fossil fuel'|) (tptp.concept2words_2 X |tptp.'combustion-of-fossil-fuel'|) (tptp.combustion_reaction_1 X) (tptp.sulfur_dioxide_1 _let_27) (tptp.nitric_oxide_1 _let_28) (tptp.person_1 _let_29) (tptp.carbon_dioxide_1 _let_26) (tptp.chemical_energy_1 _let_24) (tptp.quantity_value_1 _let_23) (tptp.quantity_value_1 _let_22) (tptp.chemical_energy_1 _let_21) (tptp.oxygen_molecule_1 _let_18) (tptp.hydrocarbon_molecule_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.electron_1 _let_19) (tptp.water_vapor_1 _let_12) (tptp.water_molecule_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.fossil_fuel_1 _let_16) (tptp.reduction_1 _let_3) (tptp.oxidation_1 _let_1) (tptp.hydrocarbon_molecule_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.water_molecule_1 _let_13) (tptp.chemical_entity_1 _let_10) (tptp.electron_1 _let_8) (tptp.electron_1 _let_7) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.agent_2 X _let_29) (tptp.result_2 X _let_28) (tptp.result_2 X _let_27) (tptp.result_2 X _let_26) (tptp.possesses_2 _let_18 _let_24) (tptp.has_part_2 _let_12 _let_20) (tptp.has_part_2 _let_16 _let_25) (tptp.raw_material_2 X _let_18) (not (= _let_18 _let_25)) (tptp.raw_material_2 X _let_25) (not (= _let_25 _let_18)) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.donor_2 _let_3 _let_25) (tptp.donor_2 _let_1 _let_25) (not (= _let_19 _let_25)) (not (= _let_25 _let_19)) (tptp.result_2 X _let_20) (tptp.possesses_2 _let_20 _let_21) (tptp.quantity_2 _let_21 _let_22) (tptp.greater_than_2 _let_23 _let_22) (tptp.quantity_2 _let_24 _let_23) (tptp.object_2 _let_1 _let_19) (not (= _let_19 _let_18)) (tptp.object_2 _let_3 _let_19) (not (= _let_18 _let_19)) (tptp.recipient_2 _let_1 _let_18) (tptp.recipient_2 _let_3 _let_18) (= _let_20 _let_13) (= _let_25 _let_17) (= _let_18 _let_6) (= _let_18 _let_5) (= _let_1 (tptp.fn_redox_reaction_11 X)) (= _let_25 _let_15) (= _let_25 _let_14) (= _let_19 _let_9) (= _let_25 _let_10) (= _let_25 _let_5) (= _let_3 (tptp.fn_redox_reaction_10 X)) (= _let_24 (tptp.fn_exergonic_reaction_3 X)) (= _let_23 (tptp.fn_exergonic_reaction_4 X)) (= _let_22 (tptp.fn_exergonic_reaction_5 X)) (= _let_21 (tptp.fn_exergonic_reaction_6 X)) (= _let_20 _let_11) (= _let_19 _let_8) (= _let_19 _let_10) (= _let_19 _let_7) (= _let_18 _let_4) (= _let_18 _let_2) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_10 _let_15) (= _let_15 _let_10) (= _let_10 _let_10) (= _let_14 _let_10) (= _let_10 _let_14) (= _let_14 _let_14) (= _let_5 _let_14) (= _let_14 _let_5) (= _let_5 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.combustion_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Combustion-Reaction'|) (tptp.user_description_2 X |tptp.'In combustion reactions, a hydrocarbon reacts with oxygen to form carbon dioxide and water.'|) (tptp.concept2words_2 X tptp.burning) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.burn) (tptp.concept2words_2 X |tptp.'reaction of combustion'|) (tptp.concept2words_2 X |tptp.'combustion reaction'|) (tptp.concept2words_2 X |tptp.'combustion-reaction'|) (tptp.redox_reaction_1 X) (tptp.exergonic_reaction_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_come_together_1 X))) (let ((_let_2 (tptp.fn_come_together_2 X))) (let ((_let_3 (tptp.fn_come_together_3 X))) (=> (tptp.come_together_1 X) (and (tptp.original_name_2 X |tptp.'Come-Together'|) (tptp.concept2words_2 X tptp.meet) (tptp.concept2words_2 X tptp.gather) (tptp.concept2words_2 X tptp.assemble) (tptp.concept2words_2 X tptp.forgather) (tptp.concept2words_2 X tptp.foregather) (tptp.concept2words_2 X tptp.associate) (tptp.concept2words_2 X |tptp.'come into contact'|) (tptp.concept2words_2 X |tptp.'cause to come together'|) (tptp.concept2words_2 X tptp.join) (tptp.concept2words_2 X |tptp.'come together'|) (tptp.concept2words_2 X |tptp.'come-together'|) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_3) (tptp.destination_2 X _let_3) (tptp.object_2 X _let_2) (tptp.object_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_command_1 X))) (=> (tptp.command_1 X) (and (tptp.original_name_2 X |tptp.'Command'|) (tptp.concept2words_2 X tptp.command) (tptp.concept2words_2 X tptp.require) (tptp.concept2words_2 X tptp.compel) (tptp.concept2words_2 X tptp.order) (tptp.concept2words_2 X tptp.tell) (tptp.concept2words_2 X tptp.enjoin) (tptp.express_1 X) (tptp.tangible_entity_1 _let_1) (tptp.recipient_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.commensalism_1 X) (and (tptp.original_name_2 X |tptp.'Commensalism'|) (tptp.user_description_2 X |tptp.'An ecological relationship between two organisms where one benefits and the other is not affected.'|) (tptp.concept2words_2 X |tptp.'show commensalism'|) (tptp.concept2words_2 X tptp.commensalism) (tptp.symbiosis_1 X) (not (tptp.mutualism_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_committed_cell_1 X))) (=> (tptp.committed_cell_1 X) (and (tptp.original_name_2 X |tptp.'Committed-Cell'|) (tptp.user_description_2 X |tptp.'A cell at any point in the process of development is irreversibly committed to its final fate is said to be determined and is called as committed cell.'|) (tptp.concept2words_2 X |tptp.'committed cell'|) (tptp.concept2words_2 X |tptp.'committed-cell'|) (tptp.animal_development_cell_1 X) (tptp.cell_determination_1 _let_1) (tptp.result_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.committee_1 X) (and (tptp.original_name_2 X |tptp.'Committee'|) (tptp.concept2words_2 X tptp.committee) (tptp.concept2words_2 X tptp.commission) (tptp.workgroup_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communicate_1 X))) (let ((_let_2 (tptp.fn_communicate_2 X))) (let ((_let_3 (tptp.fn_communicate_3 X))) (=> (tptp.communicate_1 X) (and (tptp.original_name_2 X |tptp.'Communicate'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'pass on'|) (tptp.concept2words_2 X tptp.pass_on) (tptp.concept2words_2 X tptp.pass) (tptp.concept2words_2 X |tptp.'put across'|) (tptp.concept2words_2 X tptp.put_across) (tptp.concept2words_2 X tptp.intercommunicate) (tptp.concept2words_2 X tptp.convey) (tptp.concept2words_2 X tptp.transmit) (tptp.action_1 X) (tptp.tangible_entity_1 _let_1) (tptp.information_1 _let_2) (tptp.message_1 _let_3) (tptp.base_2 X _let_3) (tptp.object_2 X _let_2) (tptp.recipient_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.communication_1 X) (and (tptp.original_name_2 X |tptp.'Communication'|) (tptp.user_description_2 X |tptp.'The transmission of information between organisms or between cells within a multicellular organism.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X tptp.communication) (tptp.behavior_1 X) (tptp.communicate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communication_by_direct_contact_10 X))) (let ((_let_2 (tptp.fn_signal_generation_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_3 X))) (let ((_let_4 (tptp.fn_communication_by_direct_contact_3 X))) (let ((_let_5 (tptp.fn_make_contact_2 _let_4))) (let ((_let_6 (tptp.fn_local_cell_communication_7 X))) (let ((_let_7 (tptp.fn_make_contact_1 _let_4))) (let ((_let_8 (tptp.fn_communication_by_direct_contact_5 X))) (let ((_let_9 (tptp.fn_communication_by_direct_contact_4 X))) (let ((_let_10 (tptp.fn_communication_by_direct_contact_8 X))) (let ((_let_11 (tptp.fn_communication_by_direct_contact_7 X))) (let ((_let_12 (tptp.fn_communication_by_direct_contact_6 X))) (let ((_let_13 (tptp.fn_communication_by_direct_contact_9 X))) (let ((_let_14 (tptp.fn_cell_30 _let_9))) (let ((_let_15 (tptp.fn_communication_by_direct_contact_1 X))) (let ((_let_16 (tptp.fn_cell_30 _let_8))) (let ((_let_17 (tptp.fn_communication_by_direct_contact_2 X))) (=> (tptp.communication_by_direct_contact_1 X) (and (tptp.original_name_2 X |tptp.'Communication-By-Direct-Contact'|) (tptp.user_description_2 X |tptp.'Type of cellular communication in which cells interact through surface-molecules or cell junctions.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'communication by direct contact'|) (tptp.concept2words_2 X |tptp.'communication-by-direct-contact'|) (tptp.local_cell_communication_1 X) (tptp.plasma_membrane_1 _let_15) (tptp.plasma_membrane_1 _let_17) (tptp.make_contact_1 _let_4) (tptp.spatial_entity_1 _let_9) (tptp.cell_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.cell_1 _let_8) (tptp.cellular_response_1 _let_12) (tptp.signal_transduction_1 _let_11) (tptp.signal_reception_1 _let_10) (tptp.cell_signaling_1 _let_13) (tptp.signal_generation_1 _let_1) (tptp.plasma_membrane_1 _let_16) (tptp.plasma_membrane_1 _let_14) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.cell_1 _let_2) (tptp.is_near_2 _let_17 _let_15) (tptp.is_near_2 _let_15 _let_17) (tptp.is_near_2 _let_9 _let_8) (tptp.is_near_2 _let_8 _let_9) (tptp.next_event_2 _let_1 _let_13) (tptp.object_2 _let_4 _let_9) (tptp.base_2 _let_4 _let_8) (tptp.has_part_2 _let_8 _let_17) (tptp.has_part_2 _let_9 _let_15) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_1) (tptp.agent_2 X _let_8) (tptp.subevent_2 _let_13 _let_10) (tptp.subevent_2 X _let_13) (tptp.first_subevent_2 _let_13 _let_10) (tptp.subevent_2 _let_13 _let_11) (tptp.next_event_2 _let_11 _let_12) (tptp.subevent_2 _let_13 _let_12) (tptp.base_2 _let_13 _let_9) (tptp.object_2 X _let_9) (tptp.base_2 _let_10 _let_9) (tptp.next_event_2 _let_10 _let_11) (tptp.base_2 _let_11 _let_9) (tptp.base_2 _let_12 _let_9) (tptp.agent_2 _let_1 _let_8) (tptp.base_2 _let_1 _let_8) (= _let_9 _let_7) (= _let_8 _let_5) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_8 _let_3) (= _let_1 (tptp.fn_cell_communication_5 X)) (= _let_13 (tptp.fn_local_cell_communication_6 X)) (= _let_12 (tptp.fn_local_cell_communication_3 X)) (= _let_11 (tptp.fn_local_cell_communication_4 X)) (= _let_10 (tptp.fn_local_cell_communication_5 X)) (= _let_9 _let_6) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communication_through_cell_cell_recognition_11 X))) (let ((_let_2 (tptp.fn_cell_signaling_5 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_4 X))) (let ((_let_4 (tptp.fn_communication_by_direct_contact_10 X))) (let ((_let_5 (tptp.fn_cell_communication_5 X))) (let ((_let_6 (tptp.fn_communication_through_cell_cell_recognition_14 X))) (let ((_let_7 (tptp.fn_biomembrane_54 _let_6))) (let ((_let_8 (tptp.fn_plasma_membrane_54 _let_6))) (let ((_let_9 (tptp.fn_communication_through_cell_cell_recognition_7 X))) (let ((_let_10 (tptp.fn_polymer_8 _let_9))) (let ((_let_11 (tptp.fn_biomembrane_56 _let_6))) (let ((_let_12 (tptp.fn_polymer_9 _let_9))) (let ((_let_13 (tptp.fn_biomembrane_76 _let_6))) (let ((_let_14 (tptp.fn_communication_through_cell_cell_recognition_13 X))) (let ((_let_15 (tptp.fn_plasma_membrane_77 _let_14))) (let ((_let_16 (tptp.fn_plasma_membrane_70 _let_14))) (let ((_let_17 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_18 (tptp.fn_communication_through_cell_cell_recognition_5 X))) (let ((_let_19 (tptp.fn_communication_through_cell_cell_recognition_12 X))) (let ((_let_20 (tptp.fn_communication_through_cell_cell_recognition_10 X))) (let ((_let_21 (tptp.fn_communication_through_cell_cell_recognition_8 X))) (let ((_let_22 (tptp.fn_polymer_7 _let_9))) (let ((_let_23 (tptp.fn_communication_through_cell_cell_recognition_9 X))) (let ((_let_24 (tptp.fn_polymer_10 _let_9))) (let ((_let_25 (tptp.fn_communication_through_cell_cell_recognition_15 X))) (let ((_let_26 (tptp.fn_communication_through_cell_cell_recognition_6 X))) (let ((_let_27 (tptp.fn_membrane_protein_1 _let_9))) (let ((_let_28 (tptp.fn_communication_through_cell_cell_recognition_4 X))) (let ((_let_29 (tptp.fn_communication_through_cell_cell_recognition_3 X))) (let ((_let_30 (tptp.fn_communication_through_cell_cell_recognition_2 X))) (let ((_let_31 (tptp.fn_communication_through_cell_cell_recognition_1 X))) (=> (tptp.communication_through_cell_cell_recognition_1 X) (and (tptp.original_name_2 X |tptp.'Communication-Through-Cell-Cell-Recognition'|) (tptp.user_description_2 X |tptp.'Process of communication between cells which results from direct contact.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'communication through cell cell recognition'|) (tptp.concept2words_2 X |tptp.'communication-through-cell-cell-recognition'|) (tptp.communication_by_direct_contact_1 X) (tptp.cell_cell_recognition_1 _let_31) (tptp.hydrophilic_face_1 _let_30) (tptp.time_interval_1 _let_29) (tptp.time_interval_1 _let_28) (tptp.cellular_response_1 _let_18) (tptp.substance_1 _let_26) (tptp.aqueous_solution_1 _let_26) (tptp.cell_surface_receptor_1 _let_9) (tptp.size_value_1 _let_21) (tptp.size_value_1 _let_23) (tptp.signal_generation_1 _let_20) (tptp.cell_signaling_1 _let_1) (tptp.chemical_entity_1 _let_19) (tptp.plasma_membrane_1 _let_14) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.biomembrane_1 _let_27) (tptp.property_node_1 _let_24) (tptp.size_value_1 _let_22) (tptp.cellular_response_1 _let_17) (tptp.substance_1 _let_16) (tptp.aqueous_solution_1 _let_16) (tptp.aqueous_solution_1 _let_15) (tptp.property_node_1 _let_13) (tptp.property_node_1 _let_12) (tptp.size_value_1 _let_11) (tptp.size_value_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.membrane_protein_1 _let_8) (tptp.protein_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.polymer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.membrane_protein_1 _let_7) (tptp.protein_1 _let_7) (tptp.chemical_entity_1 _let_2) (tptp.by_means_of_2 _let_18 _let_31) (tptp.is_inside_2 _let_30 _let_26) (tptp.is_outside_2 _let_30 _let_14) (tptp.complement_2 _let_9 _let_19) (tptp.time_during_2 _let_20 _let_29) (tptp.time_during_2 _let_1 _let_28) (tptp.is_at_2 _let_19 _let_30) (tptp.complement_2 _let_19 _let_9) (tptp.size_2 _let_19 _let_23) (not (= _let_14 _let_6)) (tptp.is_near_2 _let_14 _let_6) (not (= _let_6 _let_14)) (tptp.is_near_2 _let_6 _let_14) (tptp.time_before_2 _let_29 _let_28) (tptp.has_part_2 _let_6 _let_9) (tptp.is_between_2 _let_14 _let_26) (tptp.instrument_2 X _let_19) (tptp.result_2 _let_20 _let_19) (tptp.size_2 _let_9 _let_21) (tptp.greater_than_2 _let_21 _let_23) (tptp.first_subevent_2 X _let_20) (tptp.next_event_2 _let_20 _let_1) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_20) (tptp.agent_2 _let_1 _let_19) (tptp.subevent_2 _let_1 _let_18) (= _let_6 _let_27) (= _let_9 _let_8) (= _let_26 _let_16) (= _let_26 _let_15) (= _let_20 _let_5) (= _let_19 _let_3) (= _let_25 _let_13) (= _let_25 _let_12) (= (tptp.fn_communication_through_cell_cell_recognition_16 X) _let_24) (= _let_23 _let_22) (= _let_9 _let_7) (= _let_21 _let_11) (= _let_21 _let_10) (= _let_1 (tptp.fn_communication_by_direct_contact_9 X)) (= _let_20 _let_4) (= _let_19 _let_2) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communication_through_cell_junction_12 X))) (let ((_let_2 (tptp.fn_intercellular_junction_1 _let_1))) (let ((_let_3 (tptp.fn_communication_by_direct_contact_4 X))) (let ((_let_4 (tptp.fn_intercellular_junction_2 _let_1))) (let ((_let_5 (tptp.fn_communication_by_direct_contact_5 X))) (let ((_let_6 (tptp.fn_communication_through_cell_junction_5 X))) (let ((_let_7 (tptp.fn_secretion_2 _let_6))) (let ((_let_8 (tptp.fn_communication_through_cell_junction_14 X))) (let ((_let_9 (tptp.fn_signal_generation_4 _let_8))) (let ((_let_10 (tptp.fn_communication_by_direct_contact_2 X))) (let ((_let_11 (tptp.fn_communication_through_cell_junction_13 X))) (let ((_let_12 (tptp.fn_cell_30 _let_11))) (let ((_let_13 (tptp.fn_communication_by_direct_contact_9 X))) (let ((_let_14 (tptp.fn_cell_communication_2 X))) (let ((_let_15 (tptp.fn_signal_generation_5 _let_8))) (let ((_let_16 (tptp.fn_secretion_1 _let_6))) (let ((_let_17 (tptp.fn_cell_communication_4 X))) (let ((_let_18 (tptp.fn_communication_through_cell_junction_8 X))) (let ((_let_19 (tptp.fn_communication_through_cell_junction_10 X))) (let ((_let_20 (tptp.fn_communication_through_cell_junction_9 X))) (let ((_let_21 (tptp.fn_communication_through_cell_junction_16 X))) (let ((_let_22 (tptp.fn_communication_through_cell_junction_2 X))) (let ((_let_23 (tptp.fn_communication_through_cell_junction_3 X))) (let ((_let_24 (tptp.fn_communication_through_cell_junction_4 X))) (let ((_let_25 (tptp.fn_communication_through_cell_junction_11 X))) (let ((_let_26 (tptp.fn_signal_generation_2 _let_8))) (let ((_let_27 (tptp.fn_communication_through_cell_junction_7 X))) (let ((_let_28 (tptp.fn_communication_through_cell_junction_15 X))) (let ((_let_29 (tptp.fn_signal_generation_1 _let_8))) (let ((_let_30 (tptp.fn_communication_through_cell_junction_17 X))) (let ((_let_31 (tptp.fn_secretion_3 _let_6))) (let ((_let_32 (tptp.fn_communication_through_cell_junction_6 X))) (let ((_let_33 (tptp.fn_cell_28 _let_11))) (let ((_let_34 (tptp.fn_communication_through_cell_junction_18 X))) (let ((_let_35 (tptp.fn_cell_29 _let_11))) (let ((_let_36 (tptp.fn_communication_through_cell_junction_19 X))) (let ((_let_37 (tptp.fn_communication_through_cell_junction_1 X))) (=> (tptp.communication_through_cell_junction_1 X) (and (tptp.original_name_2 X |tptp.'Communication-Through-Cell-Junction'|) (tptp.user_description_2 X |tptp.'A type of cellular communication in which signaling molecules pass from one cell to another through cell junctions.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communication through cell junction'|) (tptp.concept2words_2 X |tptp.'communication-through-cell-junction'|) (tptp.communication_by_direct_contact_1 X) (tptp.exchange_1 _let_37) (tptp.cellular_response_1 _let_22) (tptp.signal_transduction_1 _let_23) (tptp.signal_reception_1 _let_24) (tptp.secretion_1 _let_6) (tptp.secretor_1 _let_32) (tptp.synthesis_reaction_1 _let_27) (tptp.spatial_entity_1 _let_18) (tptp.cell_1 _let_18) (tptp.plasma_membrane_1 _let_20) (tptp.plasma_membrane_1 _let_19) (tptp.make_contact_1 _let_25) (tptp.intercellular_junction_1 _let_1) (tptp.living_entity_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.cell_1 _let_11) (tptp.signal_generation_1 _let_8) (tptp.tangible_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.cell_signaling_1 _let_21) (tptp.signal_1 _let_30) (tptp.mixture_1 _let_34) (tptp.cytoplasm_1 _let_34) (tptp.substance_1 _let_36) (tptp.cytosol_1 _let_36) (tptp.substance_1 _let_35) (tptp.cytosol_1 _let_35) (tptp.mixture_1 _let_33) (tptp.cytoplasm_1 _let_33) (tptp.secretor_1 _let_31) (tptp.signal_1 _let_29) (tptp.synthesis_reaction_1 _let_26) (tptp.tangible_entity_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.plasma_membrane_1 _let_12) (tptp.cell_1 _let_9) (tptp.living_entity_1 _let_7) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.next_event_2 _let_27 _let_6) (tptp.abuts_2 _let_20 _let_19) (tptp.abuts_2 _let_19 _let_20) (tptp.instrument_2 _let_25 _let_1) (tptp.instrument_2 _let_37 _let_1) (tptp.has_part_2 _let_11 _let_1) (tptp.path_2 X _let_1) (tptp.subevent_2 _let_8 _let_6) (tptp.first_subevent_2 _let_8 _let_27) (tptp.is_inside_2 _let_28 _let_36) (tptp.instrument_2 X _let_28) (tptp.agent_2 _let_21 _let_28) (tptp.has_part_2 _let_34 _let_36) (tptp.has_part_2 _let_11 _let_34) (tptp.is_inside_2 _let_34 _let_19) (tptp.base_2 _let_6 _let_11) (tptp.plays_2 _let_11 _let_32) (tptp.in_event_2 _let_32 _let_6) (tptp.object_2 _let_6 _let_28) (tptp.result_2 _let_8 _let_28) (tptp.subevent_2 _let_8 _let_27) (tptp.result_2 _let_27 _let_28) (tptp.subevent_2 _let_21 _let_24) (tptp.object_2 X _let_18) (tptp.has_part_2 _let_18 _let_20) (tptp.first_subevent_2 X _let_8) (tptp.base_2 _let_8 _let_11) (tptp.first_subevent_2 _let_21 _let_24) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_8) (tptp.next_event_2 _let_8 _let_21) (tptp.subevent_2 _let_21 _let_23) (tptp.next_event_2 _let_24 _let_23) (tptp.base_2 _let_24 _let_18) (tptp.object_2 _let_25 _let_18) (tptp.base_2 _let_25 _let_11) (tptp.agent_2 _let_8 _let_11) (tptp.base_2 _let_21 _let_18) (tptp.subevent_2 _let_21 _let_22) (tptp.base_2 _let_22 _let_18) (tptp.base_2 _let_23 _let_18) (tptp.next_event_2 _let_23 _let_22) (tptp.agent_2 X _let_11) (tptp.has_part_2 _let_11 _let_19) (tptp.is_near_2 _let_19 _let_20) (tptp.is_near_2 _let_18 _let_11) (tptp.is_near_2 _let_11 _let_18) (tptp.is_near_2 _let_20 _let_19) (tptp.is_between_2 _let_1 _let_11) (tptp.is_between_2 _let_1 _let_18) (tptp.abuts_2 _let_11 _let_18) (tptp.abuts_2 _let_18 _let_11) (not (= _let_11 _let_18)) (not (= _let_18 _let_11)) (= _let_21 _let_14) (= _let_28 _let_17) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_28 _let_16) (= _let_32 _let_31) (= _let_11 _let_7) (= _let_30 _let_29) (= _let_28 _let_15) (= _let_27 _let_26) (= _let_11 _let_9) (= _let_8 (tptp.fn_communication_by_direct_contact_10 X)) (= _let_25 (tptp.fn_communication_by_direct_contact_3 X)) (= _let_24 (tptp.fn_communication_by_direct_contact_8 X)) (= _let_23 (tptp.fn_communication_by_direct_contact_7 X)) (= _let_22 (tptp.fn_communication_by_direct_contact_6 X)) (= _let_21 _let_13) (= _let_20 (tptp.fn_communication_by_direct_contact_1 X)) (= _let_19 _let_12) (= _let_19 _let_10) (= _let_18 _let_3) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_18 _let_2) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_10 _let_7) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communication_through_cell_junction_14 X))) (let ((_let_2 (tptp.fn_communication_by_direct_contact_10 X))) (let ((_let_3 (tptp.fn_communication_through_cell_junction_11 X))) (let ((_let_4 (tptp.fn_communication_by_direct_contact_3 X))) (let ((_let_5 (tptp.fn_communication_by_direct_contact_5 X))) (let ((_let_6 (tptp.fn_communication_through_cell_junction_in_animal_11 X))) (let ((_let_7 (tptp.fn_intercellular_junction_1 _let_6))) (let ((_let_8 (tptp.fn_communication_through_cell_junction_in_animal_10 X))) (let ((_let_9 (tptp.fn_make_contact_2 _let_8))) (let ((_let_10 (tptp.fn_communication_by_direct_contact_4 X))) (let ((_let_11 (tptp.fn_intercellular_junction_2 _let_6))) (let ((_let_12 (tptp.fn_communication_through_cell_junction_in_animal_5 X))) (let ((_let_13 (tptp.fn_communication_through_cell_junction_in_animal_6 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_29 _let_13))) (let ((_let_15 (tptp.fn_communication_through_cell_junction_in_animal_9 X))) (let ((_let_16 (tptp.fn_eukaryotic_cell_31 _let_13))) (let ((_let_17 (tptp.fn_communication_through_cell_junction_in_animal_12 X))) (let ((_let_18 (tptp.fn_communication_through_cell_junction_in_animal_7 X))) (let ((_let_19 (tptp.fn_communication_through_cell_junction_in_animal_8 X))) (let ((_let_20 (tptp.fn_communication_through_cell_junction_in_animal_4 X))) (let ((_let_21 (tptp.fn_communication_through_cell_junction_in_animal_3 X))) (let ((_let_22 (tptp.fn_communication_through_cell_junction_in_animal_2 X))) (let ((_let_23 (tptp.fn_communication_through_cell_junction_in_animal_1 X))) (=> (tptp.communication_through_cell_junction_in_animal_1 X) (and (tptp.original_name_2 X |tptp.'Communication-Through-Cell-Junction-In-Animal'|) (tptp.user_description_2 X |tptp.'Communication through gap junctions, a type of animal cell junction.'|) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communication through cell junction in animal'|) (tptp.concept2words_2 X |tptp.'communication-through-cell-junction-in-animal'|) (tptp.communication_through_cell_junction_1 X) (tptp.resource_1 _let_23) (tptp.organic_molecule_1 _let_22) (tptp.animal_1 _let_21) (tptp.metabolism_1 _let_20) (tptp.signal_generation_1 _let_12) (tptp.animal_cell_1 _let_13) (tptp.animal_cell_1 _let_18) (tptp.signal_reception_1 _let_19) (tptp.spatial_entity_1 _let_15) (tptp.biomembrane_1 _let_15) (tptp.plasma_membrane_1 _let_15) (tptp.make_contact_1 _let_8) (tptp.intercellular_junction_1 _let_6) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.mixture_1 _let_16) (tptp.cytoplasm_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.plasma_membrane_1 _let_14) (tptp.cell_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.cell_1 _let_7) (tptp.has_part_2 _let_13 _let_6) (tptp.in_event_2 _let_23 X) (tptp.plays_2 _let_22 _let_23) (tptp.recipient_2 _let_19 _let_18) (tptp.raw_material_2 X _let_22) (tptp.experiencer_2 X _let_21) (tptp.site_2 _let_20 _let_17) (tptp.base_2 _let_8 _let_13) (tptp.is_between_2 _let_6 _let_13) (tptp.abuts_2 _let_13 _let_18) (tptp.is_between_2 _let_6 _let_18) (not (= _let_18 _let_13)) (not (= _let_13 _let_18)) (tptp.abuts_2 _let_18 _let_13) (tptp.base_2 _let_19 _let_18) (tptp.object_2 _let_8 _let_18) (tptp.object_2 X _let_18) (tptp.is_near_2 _let_18 _let_13) (tptp.agent_2 _let_12 _let_13) (tptp.base_2 _let_12 _let_13) (tptp.agent_2 X _let_13) (tptp.is_near_2 _let_13 _let_18) (tptp.has_part_2 _let_13 _let_17) (tptp.has_part_2 _let_13 _let_15) (tptp.is_inside_2 _let_17 _let_15) (tptp.first_subevent_2 X _let_12) (tptp.subevent_2 X _let_12) (tptp.path_2 X _let_6) (tptp.instrument_2 _let_8 _let_6) (= _let_13 _let_9) (= _let_18 _let_11) (= _let_13 _let_7) (= _let_19 (tptp.fn_communication_by_direct_contact_8 X)) (= _let_8 _let_4) (= _let_12 _let_2) (= _let_13 _let_5) (= _let_18 _let_10) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_8 _let_3) (= _let_6 (tptp.fn_communication_through_cell_junction_12 X)) (= _let_12 _let_1) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_communication_through_cell_junction_16 X))) (let ((_let_2 (tptp.fn_communication_by_direct_contact_9 X))) (let ((_let_3 (tptp.fn_communication_through_cell_junction_in_plant_6 X))) (let ((_let_4 (tptp.fn_cell_signaling_2 _let_3))) (let ((_let_5 (tptp.fn_communication_by_direct_contact_8 X))) (let ((_let_6 (tptp.fn_cell_signaling_3 _let_3))) (let ((_let_7 (tptp.fn_communication_by_direct_contact_7 X))) (let ((_let_8 (tptp.fn_cell_signaling_1 _let_3))) (let ((_let_9 (tptp.fn_communication_by_direct_contact_6 X))) (let ((_let_10 (tptp.fn_communication_through_cell_junction_13 X))) (let ((_let_11 (tptp.fn_communication_through_cell_junction_in_plant_3 X))) (let ((_let_12 (tptp.fn_plant_20 _let_11))) (let ((_let_13 (tptp.fn_communication_through_cell_junction_in_plant_18 X))) (let ((_let_14 (tptp.fn_intercellular_junction_2 _let_13))) (let ((_let_15 (tptp.fn_communication_through_cell_junction_in_plant_16 X))) (let ((_let_16 (tptp.fn_plant_cell_97 _let_15))) (let ((_let_17 (tptp.fn_communication_by_direct_contact_2 X))) (let ((_let_18 (tptp.fn_communication_through_cell_junction_10 X))) (let ((_let_19 (tptp.fn_plant_cell_83 _let_15))) (let ((_let_20 (tptp.fn_eukaryotic_cell_31 _let_15))) (let ((_let_21 (tptp.fn_plant_cell_91 _let_15))) (let ((_let_22 (tptp.fn_cell_29 _let_15))) (let ((_let_23 (tptp.fn_eukaryotic_cell_42 _let_15))) (let ((_let_24 (tptp.fn_communication_through_cell_junction_11 X))) (let ((_let_25 (tptp.fn_communication_by_direct_contact_3 X))) (let ((_let_26 (tptp.fn_communication_by_direct_contact_4 X))) (let ((_let_27 (tptp.fn_communication_through_cell_junction_8 X))) (let ((_let_28 (tptp.fn_intercellular_junction_1 _let_13))) (let ((_let_29 (tptp.fn_cell_signaling_4 _let_3))) (let ((_let_30 (tptp.fn_communication_through_cell_junction_in_plant_26 X))) (let ((_let_31 (tptp.fn_signal_generation_4 _let_30))) (let ((_let_32 (tptp.fn_communication_by_direct_contact_1 X))) (let ((_let_33 (tptp.fn_communication_through_cell_junction_9 X))) (let ((_let_34 (tptp.fn_communication_through_cell_junction_in_plant_8 X))) (let ((_let_35 (tptp.fn_communication_through_cell_junction_in_plant_10 X))) (let ((_let_36 (tptp.fn_communication_through_cell_junction_in_plant_9 X))) (let ((_let_37 (tptp.fn_plant_cell_60 _let_15))) (let ((_let_38 (tptp.fn_communication_through_cell_junction_in_plant_14 X))) (let ((_let_39 (tptp.fn_plant_cell_62 _let_15))) (let ((_let_40 (tptp.fn_communication_through_cell_junction_in_plant_13 X))) (let ((_let_41 (tptp.fn_plant_cell_61 _let_15))) (let ((_let_42 (tptp.fn_communication_through_cell_junction_in_plant_12 X))) (let ((_let_43 (tptp.fn_plant_cell_65 _let_15))) (let ((_let_44 (tptp.fn_communication_through_cell_junction_in_plant_15 X))) (let ((_let_45 (tptp.fn_communication_through_cell_junction_in_plant_20 X))) (let ((_let_46 (tptp.fn_communication_through_cell_junction_in_plant_22 X))) (let ((_let_47 (tptp.fn_communication_through_cell_junction_in_plant_7 X))) (let ((_let_48 (tptp.fn_plant_cell_56 _let_15))) (let ((_let_49 (tptp.fn_plant_cell_57 _let_15))) (let ((_let_50 (tptp.fn_communication_through_cell_junction_in_plant_19 X))) (let ((_let_51 (tptp.fn_communication_through_cell_junction_in_plant_25 X))) (let ((_let_52 (tptp.fn_communication_through_cell_junction_in_plant_23 X))) (let ((_let_53 (tptp.fn_plant_18 _let_11))) (let ((_let_54 (tptp.fn_communication_through_cell_junction_in_plant_24 X))) (let ((_let_55 (tptp.fn_communication_through_cell_junction_in_plant_17 X))) (let ((_let_56 (tptp.fn_communication_through_cell_junction_in_plant_21 X))) (let ((_let_57 (tptp.fn_cell_14 _let_15))) (let ((_let_58 (tptp.fn_communication_through_cell_junction_in_plant_11 X))) (let ((_let_59 (tptp.fn_communication_through_cell_junction_in_plant_2 X))) (let ((_let_60 (tptp.fn_communication_through_cell_junction_in_plant_1 X))) (=> (tptp.communication_through_cell_junction_in_plant_1 X) (and (tptp.original_name_2 X |tptp.'Communication-Through-Cell-Junction-In-Plant'|) (tptp.user_description_2 X |tptp.'Communication through plasmodesmata, a type of plant cell junction.'|) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communication through cell junction in plant'|) (tptp.concept2words_2 X |tptp.'communication-through-cell-junction-in-plant'|) (tptp.communication_through_cell_junction_1 X) (tptp.resource_1 _let_60) (tptp.signal_reception_1 _let_59) (tptp.plant_1 _let_11) (tptp.cell_signaling_1 _let_3) (tptp.aqueous_solution_1 _let_47) (tptp.liquid_substance_1 _let_47) (tptp.solution_1 _let_47) (tptp.substance_1 _let_47) (tptp.cytosol_1 _let_47) (tptp.signal_reception_1 _let_34) (tptp.cellular_response_1 _let_36) (tptp.signal_transduction_1 _let_35) (tptp.ribosome_1 _let_58) (tptp.surface_1 _let_42) (tptp.size_value_1 _let_40) (tptp.volume_value_1 _let_38) (tptp.tangible_entity_1 _let_44) (tptp.phospholipid_bilayer_1 _let_44) (tptp.living_entity_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.cell_1 _let_15) (tptp.eukaryotic_cell_1 _let_15) (tptp.plant_cell_1 _let_15) (tptp.plant_cell_1 _let_55) (tptp.intercellular_junction_1 _let_13) (tptp.make_contact_1 _let_50) (tptp.membrane_1 _let_45) (tptp.spatial_entity_1 _let_45) (tptp.biomembrane_1 _let_45) (tptp.plasma_membrane_1 _let_45) (tptp.plasma_membrane_1 _let_56) (tptp.spatial_entity_1 _let_46) (tptp.mixture_1 _let_46) (tptp.suspension_1 _let_46) (tptp.colloid_1 _let_46) (tptp.cytoplasm_1 _let_46) (tptp.secretor_1 _let_52) (tptp.photosynthesis_1 _let_54) (tptp.anabolic_pathway_1 _let_54) (tptp.metabolic_pathway_1 _let_54) (tptp.secretion_1 _let_51) (tptp.signal_generation_1 _let_30) (tptp.ribosome_1 _let_57) (tptp.photosynthesis_1 _let_53) (tptp.anabolic_pathway_1 _let_53) (tptp.metabolic_pathway_1 _let_53) (tptp.property_node_1 _let_49) (tptp.property_node_1 _let_48) (tptp.tangible_entity_1 _let_43) (tptp.phospholipid_bilayer_1 _let_43) (tptp.surface_1 _let_41) (tptp.size_value_1 _let_39) (tptp.volume_value_1 _let_37) (tptp.cell_1 _let_31) (tptp.cell_1 _let_29) (tptp.cell_1 _let_28) (tptp.substance_1 _let_23) (tptp.cytosol_1 _let_23) (tptp.substance_1 _let_22) (tptp.cytosol_1 _let_22) (tptp.aqueous_solution_1 _let_21) (tptp.liquid_substance_1 _let_21) (tptp.solution_1 _let_21) (tptp.substance_1 _let_21) (tptp.cytosol_1 _let_21) (tptp.mixture_1 _let_20) (tptp.cytoplasm_1 _let_20) (tptp.spatial_entity_1 _let_19) (tptp.mixture_1 _let_19) (tptp.suspension_1 _let_19) (tptp.colloid_1 _let_19) (tptp.cytoplasm_1 _let_19) (tptp.membrane_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.biomembrane_1 _let_16) (tptp.plasma_membrane_1 _let_16) (tptp.cell_1 _let_14) (tptp.plant_cell_1 _let_12) (tptp.cell_1 _let_12) (tptp.eukaryotic_cell_1 _let_12) (tptp.cellular_response_1 _let_8) (tptp.signal_transduction_1 _let_6) (tptp.signal_reception_1 _let_4) (tptp.in_event_2 _let_60 X) (tptp.recipient_2 _let_59 _let_55) (tptp.base_2 X _let_11) (tptp.has_part_2 _let_11 _let_55) (tptp.base_2 _let_30 _let_55) (tptp.is_between_2 _let_13 _let_55) (not (= _let_15 _let_55)) (not (= _let_55 _let_15)) (tptp.abuts_2 _let_15 _let_55) (tptp.abuts_2 _let_55 _let_15) (tptp.base_2 _let_50 _let_15) (tptp.base_2 _let_51 _let_15) (tptp.is_between_2 _let_13 _let_15) (tptp.agent_2 _let_30 _let_15) (tptp.plays_2 _let_15 _let_52) (tptp.base_2 _let_30 _let_15) (tptp.has_part_2 _let_15 _let_13) (tptp.agent_2 X _let_15) (tptp.abuts_2 _let_45 _let_56) (tptp.is_near_2 _let_55 _let_15) (tptp.is_near_2 _let_15 _let_55) (tptp.abuts_2 _let_56 _let_45) (tptp.has_part_2 _let_15 _let_58) (tptp.is_inside_2 _let_58 _let_47) (tptp.base_2 _let_36 _let_55) (tptp.base_2 _let_35 _let_55) (tptp.base_2 _let_34 _let_55) (tptp.object_2 _let_50 _let_55) (tptp.base_2 _let_3 _let_55) (tptp.object_2 X _let_55) (tptp.has_part_2 _let_55 _let_56) (tptp.is_near_2 _let_45 _let_56) (tptp.is_near_2 _let_56 _let_45) (tptp.has_function_2 _let_11 _let_54) (tptp.base_2 _let_54 _let_15) (tptp.has_part_2 _let_11 _let_15) (tptp.first_subevent_2 X _let_30) (tptp.subevent_2 _let_30 _let_51) (tptp.in_event_2 _let_52 _let_51) (tptp.subevent_2 X _let_3) (tptp.next_event_2 _let_30 _let_3) (tptp.subevent_2 X _let_30) (tptp.path_2 X _let_13) (tptp.instrument_2 _let_50 _let_13) (tptp.has_part_2 _let_46 _let_47) (tptp.has_part_2 _let_45 _let_44) (tptp.is_inside_2 _let_46 _let_45) (tptp.has_part_2 _let_15 _let_46) (tptp.has_part_2 _let_15 _let_45) (tptp.volume_2 _let_15 _let_38) (tptp.directly_proportional_2 _let_40 _let_38) (tptp.size_2 _let_15 _let_40) (tptp.has_region_2 _let_15 _let_42) (tptp.is_at_2 _let_44 _let_42) (tptp.subevent_2 _let_3 _let_35) (tptp.subevent_2 _let_3 _let_36) (tptp.next_event_2 _let_35 _let_36) (tptp.next_event_2 _let_34 _let_35) (tptp.subevent_2 _let_3 _let_34) (tptp.first_subevent_2 _let_3 _let_34) (= _let_55 _let_31) (= _let_15 _let_14) (= _let_55 _let_14) (= _let_55 _let_28) (= _let_56 _let_33) (= _let_55 _let_27) (= _let_47 _let_22) (= _let_58 _let_57) (= _let_36 _let_9) (= _let_35 _let_7) (= _let_34 _let_5) (= _let_50 _let_25) (= _let_55 _let_29) (= _let_3 _let_2) (= _let_45 _let_17) (= _let_56 _let_32) (= _let_55 _let_26) (= _let_15 _let_12) (= _let_54 _let_53) (= _let_52 (tptp.fn_communication_through_cell_junction_6 X)) (= _let_51 (tptp.fn_communication_through_cell_junction_5 X)) (= _let_50 _let_24) (= _let_13 (tptp.fn_communication_through_cell_junction_12 X)) (= _let_30 (tptp.fn_communication_through_cell_junction_14 X)) (= _let_3 _let_1) (= (tptp.fn_communication_through_cell_junction_in_plant_5 X) _let_49) (= (tptp.fn_communication_through_cell_junction_in_plant_4 X) _let_48) (= _let_47 _let_23) (= _let_47 _let_21) (= _let_15 _let_10) (= _let_45 _let_18) (= _let_46 _let_20) (= _let_46 _let_19) (= _let_45 _let_16) (= _let_44 _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_36 _let_8) (= _let_35 _let_6) (= _let_34 _let_4) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_14) (= _let_14 _let_31) (= _let_31 _let_29) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_10) (= _let_10 _let_10) (= _let_10 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.community_1 X) (and (tptp.original_name_2 X |tptp.'Community'|) (tptp.description_2 X |tptp.'a group of people with something in common'|) (tptp.concept2words_2 X tptp.people) (tptp.concept2words_2 X tptp.community) (tptp.aggregate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.community_ecology_1 X) (and (tptp.original_name_2 X |tptp.'Community-Ecology'|) (tptp.user_description_2 X |tptp.'The study of interactions between species in a biological community.'|) (tptp.concept2words_2 X |tptp.'ecology of community'|) (tptp.concept2words_2 X |tptp.'community ecology'|) (tptp.concept2words_2 X |tptp.'community-ecology'|) (tptp.ecology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compaction_1 X) (and (tptp.original_name_2 X |tptp.'Compaction'|) (tptp.user_description_2 X |tptp.'A process in early animal embryonic development in which cells on the outer surface of the morula become tightly bound together due to the formation of gap junctions and desmosomes.'|) (tptp.concept2words_2 X tptp.compact) (tptp.concept2words_2 X tptp.compaction) (tptp.embryonic_process_1 X) (not (tptp.cell_determination_1 X)) (not (tptp.childbirth_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.gestation_1 X)) (not (tptp.molting_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.organogenesis_1 X)) (not (tptp.oviparous_1 X)) (not (tptp.ovoviviparous_1 X)) (not (tptp.ovulation_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.pattern_formation_1 X)) (not (tptp.phase_change_1 X)) (not (tptp.primary_growth_1 X)) (not (tptp.protostome_development_1 X)) (not (tptp.radial_cleavage_1 X)) (not (tptp.senescence_1 X)) (not (tptp.torsion_1 X)) (not (tptp.viviparous_1 X))))) (forall ((X $$unsorted)) (=> (tptp.companion_cell_1 X) (and (tptp.original_name_2 X |tptp.'Companion-Cell'|) (tptp.user_description_2 X |tptp.'A specialized parenchyma cell found in the phloem of angiosperms. Companion cells contain the typical nucleus and cytoplasm of plant cells and carry out the metabolic activities to support the sieve-tube elements.'|) (tptp.concept2words_2 X |tptp.'cell of companion'|) (tptp.concept2words_2 X |tptp.'companion cell'|) (tptp.concept2words_2 X |tptp.'companion-cell'|) (tptp.plant_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.collenchyma_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.parenchyma_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X))))) (forall ((X $$unsorted)) (=> (tptp.company_1 X) (and (tptp.original_name_2 X |tptp.'Company'|) (tptp.description_2 X |tptp.'a private business organization'|) (tptp.concept2words_2 X tptp.company) (tptp.concept2words_2 X tptp.business) (tptp.concept2words_2 X tptp.concern) (tptp.concept2words_2 X |tptp.'business concern'|) (tptp.concept2words_2 X tptp.business_concern) (tptp.concept2words_2 X |tptp.'business organization'|) (tptp.concept2words_2 X tptp.business_organization) (tptp.concept2words_2 X |tptp.'business organisation'|) (tptp.concept2words_2 X tptp.business_organisation) (tptp.institution_1 X) (not (tptp.educational_institution_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_compare_genes_10 X))) (let ((_let_2 (tptp.fn_gene_related_aggregates_1 _let_1))) (let ((_let_3 (tptp.fn_compare_genes_7 X))) (let ((_let_4 (tptp.fn_compare_genes_9 X))) (let ((_let_5 (tptp.fn_gene_related_aggregates_1 _let_4))) (let ((_let_6 (tptp.fn_compare_genes_8 X))) (let ((_let_7 (tptp.fn_compare_genes_2 X))) (let ((_let_8 (tptp.fn_compare_genes_1 X))) (let ((_let_9 (tptp.fn_compare_genes_6 X))) (let ((_let_10 (tptp.fn_compare_genes_5 X))) (let ((_let_11 (tptp.fn_compare_genes_4 X))) (let ((_let_12 (tptp.fn_compare_genes_3 X))) (=> (tptp.compare_genes_1 X) (and (tptp.original_name_2 X |tptp.'Compare-Genes'|) (tptp.user_description_2 X |tptp.'The process of comparing the genes from two different organisms provides evidence for evolution and support for domain classification.'|) (tptp.concept2words_2 X |tptp.'compare genes from two organisms'|) (tptp.concept2words_2 X tptp.compare) (tptp.concept2words_2 X |tptp.'compare gene'|) (tptp.concept2words_2 X |tptp.'compare-gene'|) (tptp.distinguishing_1 X) (not (tptp.codon_recognition_1 X)) (not (tptp.distinguishing_defective_chromosome_1 X)) (not (tptp.dna_proofreading_1 X)) (not (tptp.identify_cell_by_protein_expression_1 X)) (not (tptp.identify_cell_clones_with_gene_of_interest_1 X)) (tptp.evolution_1 _let_8) (tptp.classification_system_1 _let_7) (tptp.domain_1 _let_12) (tptp.organism_1 _let_11) (tptp.evolution_1 _let_10) (tptp.organism_1 _let_9) (tptp.gene_1 _let_3) (tptp.gene_1 _let_6) (tptp.genome_1 _let_4) (tptp.genome_1 _let_1) (tptp.gene_1 _let_5) (tptp.gene_1 _let_2) (tptp.object_2 _let_8 _let_12) (tptp.object_2 _let_7 _let_12) (tptp.has_part_2 _let_11 _let_4) (tptp.object_2 _let_10 _let_11) (tptp.object_2 _let_10 _let_9) (tptp.has_part_2 _let_9 _let_1) (tptp.object_2 X _let_3) (tptp.object_2 X _let_6) (tptp.supports_2 X _let_8) (tptp.supports_2 X _let_7) (tptp.element_2 _let_4 _let_6) (tptp.element_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_compete_2 X))) (let ((_let_2 (tptp.fn_compete_1 X))) (=> (tptp.compete_1 X) (and (tptp.original_name_2 X |tptp.'Compete'|) (tptp.concept2words_2 X tptp.compete) (tptp.concept2words_2 X tptp.vie) (tptp.concept2words_2 X tptp.contend) (tptp.action_1 X) (tptp.entity_1 _let_2) (tptp.contestant_1 _let_1) (tptp.object_2 X _let_2) (tptp.agent_2 X _let_2) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.competition_1 X) (and (tptp.original_name_2 X |tptp.'Competition'|) (tptp.user_description_2 X |tptp.'A contest between two or more individuals for a resource that is limited.'|) (tptp.concept2words_2 X tptp.compete) (tptp.concept2words_2 X tptp.competition) (tptp.species_interactions_1 X) (not (tptp.herbivory_1 X)) (not (tptp.symbiosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_competitive_inhibition_16 X))) (let ((_let_2 (tptp.fn_enzyme_inhibitor_2 _let_1))) (let ((_let_3 (tptp.fn_enzyme_regulator_3 _let_1))) (let ((_let_4 (tptp.fn_enzyme_inhibitor_3 _let_1))) (let ((_let_5 (tptp.fn_enzyme_regulator_2 _let_1))) (let ((_let_6 (tptp.fn_competitive_inhibition_11 X))) (let ((_let_7 (tptp.fn_compete_1 _let_6))) (let ((_let_8 (tptp.fn_competitive_inhibition_7 X))) (let ((_let_9 (tptp.fn_locomotion_1 _let_8))) (let ((_let_10 (tptp.fn_competitive_inhibition_6 X))) (let ((_let_11 (tptp.fn_block_1 _let_10))) (let ((_let_12 (tptp.fn_enzyme_inhibitor_7 _let_1))) (let ((_let_13 (tptp.fn_competitive_inhibition_5 X))) (let ((_let_14 (tptp.fn_enzyme_inhibitor_1 _let_1))) (let ((_let_15 (tptp.fn_competitive_inhibition_9 X))) (let ((_let_16 (tptp.fn_enzyme_inhibitor_5 _let_1))) (let ((_let_17 (tptp.fn_competitive_inhibition_12 X))) (let ((_let_18 (tptp.fn_competitive_inhibition_8 X))) (let ((_let_19 (tptp.fn_competitive_inhibition_14 X))) (let ((_let_20 (tptp.fn_increase_3 _let_19))) (let ((_let_21 (tptp.fn_competitive_inhibition_13 X))) (let ((_let_22 (tptp.fn_increase_2 _let_19))) (let ((_let_23 (tptp.fn_competitive_inhibition_10 X))) (let ((_let_24 (tptp.fn_compete_2 _let_6))) (let ((_let_25 (tptp.fn_competitive_inhibition_4 X))) (let ((_let_26 (tptp.fn_competitive_inhibition_2 X))) (let ((_let_27 (tptp.fn_competitive_inhibition_3 X))) (let ((_let_28 (tptp.fn_competitive_inhibition_1 X))) (=> (tptp.competitive_inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Competitive-Inhibition'|) (tptp.user_description_2 X |tptp.'Competitive inhibition is a form of enzyme inhibition where binding of the inhibitor to the active site on the enzyme prevents binding of the substrate and vice versa.'|) (tptp.concept2words_2 X tptp.compete) (tptp.concept2words_2 X |tptp.'competitive inhibition'|) (tptp.concept2words_2 X |tptp.'competitive-inhibition'|) (tptp.inhibition_1 X) (not (tptp.non_competitive_inhibition_1 X)) (tptp.contestant_1 _let_28) (tptp.time_interval_1 _let_26) (tptp.time_interval_1 _let_27) (tptp.contestant_1 _let_25) (tptp.spatial_entity_1 _let_13) (tptp.enzyme_1 _let_13) (tptp.protein_enzyme_1 _let_13) (tptp.block_1 _let_10) (tptp.enter_1 _let_8) (tptp.spatial_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.molecule_1 _let_18) (tptp.receptor_site_1 _let_15) (tptp.molecule_1 _let_23) (tptp.compete_1 _let_6) (tptp.attach_1 _let_17) (tptp.quantity_value_1 _let_21) (tptp.increase_1 _let_19) (tptp.competitive_inhibitor_1 _let_1) (tptp.contestant_1 _let_24) (tptp.property_node_1 _let_22) (tptp.property_value_1 _let_20) (tptp.attach_1 _let_16) (tptp.receptor_site_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.enzyme_1 _let_12) (tptp.protein_enzyme_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.entity_1 _let_7) (tptp.molecule_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.regulation_1 _let_3) (tptp.inhibition_1 _let_2) (tptp.regulation_1 _let_2) (tptp.in_event_2 _let_28 _let_6) (tptp.base_2 _let_10 _let_13) (tptp.inhibits_2 _let_10 _let_8) (tptp.prevents_2 _let_10 _let_8) (tptp.site_2 _let_10 _let_15) (tptp.destination_2 _let_8 _let_15) (tptp.has_function_2 _let_18 _let_17) (tptp.has_function_2 _let_18 _let_6) (tptp.plays_2 _let_18 _let_28) (not (= _let_18 _let_23)) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_17) (tptp.first_subevent_2 X _let_6) (tptp.prevents_2 X _let_19) (not (= _let_23 _let_18)) (tptp.quantity_2 _let_23 _let_21) (tptp.agent_2 _let_6 _let_18) (tptp.object_2 _let_6 _let_18) (tptp.site_2 _let_6 _let_15) (tptp.time_during_2 _let_6 _let_27) (tptp.next_event_2 _let_6 _let_17) (tptp.causes_2 _let_17 _let_10) (tptp.next_event_2 _let_17 _let_10) (tptp.time_during_2 _let_17 _let_26) (tptp.time_before_2 _let_27 _let_26) (tptp.object_2 _let_10 _let_23) (tptp.agent_2 _let_8 _let_23) (tptp.object_2 _let_8 _let_23) (tptp.object_2 _let_6 _let_23) (tptp.plays_2 _let_23 _let_25) (tptp.in_event_2 _let_25 _let_6) (tptp.agent_2 _let_6 _let_23) (tptp.from_value_2 _let_19 _let_21) (tptp.plays_2 _let_18 _let_1) (tptp.has_function_2 _let_18 X) (tptp.agent_2 X _let_18) (tptp.object_2 _let_17 _let_18) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_13) (tptp.has_region_2 _let_13 _let_15) (tptp.site_2 _let_17 _let_15) (tptp.base_2 _let_17 _let_13) (= _let_23 _let_11) (= _let_23 _let_9) (= _let_25 _let_24) (= _let_23 _let_7) (= (tptp.fn_competitive_inhibition_15 X) _let_22) (= _let_21 _let_20) (= _let_18 _let_5) (= _let_18 _let_4) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= X _let_3) (= X _let_2) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_competitive_inhibitor_2 X))) (let ((_let_2 (tptp.fn_competitive_inhibition_16 _let_1))) (let ((_let_3 (tptp.fn_competitive_inhibition_8 _let_1))) (let ((_let_4 (tptp.fn_competitive_inhibitor_1 X))) (=> (tptp.competitive_inhibitor_1 X) (and (tptp.original_name_2 X |tptp.'Competitive-Inhibitor'|) (tptp.user_description_2 X |tptp.'A competitive inhibitor is any compound which closely resembles the chemical structure and molecular geometry of the substrate. The inhibitor competes for the same active site as the substrate molecule. The inhibitor may interact with the enzyme at the active site, but no reaction takes place. The inhibitor is stuck on the enzyme and prevents any substrate molecules from reacting with the enzyme. However, a competitive inhibition is usually reversible if sufficient substrate molecules are available to ultimately displace the inhibitor. Therefore, the amount of enzyme inhibition depends upon the inhibitor concentration, substrate concentration, and the relative affinities of the inhibitor and substrate for the active site.'|) (tptp.concept2words_2 X |tptp.'competitive inhibitor'|) (tptp.concept2words_2 X |tptp.'competitive-inhibitor'|) (tptp.enzyme_inhibitor_1 X) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.competitive_inhibition_1 _let_1) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.molecule_1 _let_3) (tptp.competitive_inhibitor_1 _let_2) (tptp.agent_2 _let_1 _let_4) (tptp.plays_2 _let_4 X) (tptp.in_event_2 X _let_1) (tptp.has_function_2 _let_4 _let_1) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.complement_fixation_1 X) (and (tptp.original_name_2 X |tptp.'Complement-Fixation'|) (tptp.user_description_2 X |tptp.'The process of activation of the complement system by antibody-antigen complexes.'|) (tptp.concept2words_2 X |tptp.'perform complement fixation'|) (tptp.concept2words_2 X |tptp.'fixation of complement'|) (tptp.concept2words_2 X |tptp.'complement fixation'|) (tptp.concept2words_2 X |tptp.'complement-fixation'|) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (=> (tptp.complement_system_1 X) (and (tptp.original_name_2 X |tptp.'Complement-System'|) (tptp.user_description_2 X |tptp.'A set of about 30 proteins in the blood that amplify the inflammatory response and increase phagocytosis and lysis of extracellular pathogens.'|) (tptp.concept2words_2 X |tptp.'system of complement'|) (tptp.concept2words_2 X |tptp.'complement system'|) (tptp.concept2words_2 X |tptp.'complement-system'|) (tptp.protein_complex_1 X) (not (tptp.anaphase_promoting_complex_1 X)) (not (tptp.capsomere_1 X)) (not (tptp.light_harvesting_complex_1 X)) (not (tptp.membrane_attack_complex_1 X)) (not (tptp.myofibril_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_core_1 X)) (not (tptp.reaction_center_complex_1 X)) (not (tptp.rosette_cellulose_synthesizing_complex_1 X)) (not (tptp.thick_filament_1 X)) (not (tptp.thin_filament_1 X)) (not (tptp.troponin_complex_1 X))))) (forall ((X $$unsorted)) (=> (tptp.complete_dominance_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Dominance'|) (tptp.user_description_2 X |tptp.'The situation in which the phenotypes of the heterozygote and dominant homozygote are indistinguishable.'|) (tptp.concept2words_2 X |tptp.'show complete dominance'|) (tptp.concept2words_2 X |tptp.'complete dominance'|) (tptp.concept2words_2 X |tptp.'complete-dominance'|) (tptp.inheritance_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_complete_dominance_cross_breeding_event_1 X))) (=> (tptp.complete_dominance_cross_breeding_event_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Dominance-Cross-Breeding-Event'|) (tptp.user_description_2 X |tptp.'A kind of dominance wherein the dominant allele completely masks the effect of the recessive allele in heterozygous condition in a cross breeding event.'|) (tptp.concept2words_2 X tptp.crossbreed) (tptp.concept2words_2 X |tptp.'complete dominance cross breeding event'|) (tptp.concept2words_2 X |tptp.'complete-dominance-cross-breeding-event'|) (tptp.cross_breeding_event_1 X) (not (tptp.codominance_cross_breeding_event_1 X)) (not (tptp.homozygous_dominant_cross_1 X)) (not (tptp.homozygous_recessive_cross_1 X)) (not (tptp.hybridization_1 X)) (not (tptp.incomplete_dominance_cross_breeding_event_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.complete_dominance_1 _let_1) (tptp.by_means_of_2 _let_1 X) (= _let_1 (tptp.fn_cross_breeding_event_6 X)))))) (forall ((X $$unsorted)) (=> (tptp.complete_dominant_allele_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Dominant-Allele'|) (tptp.user_description_2 X |tptp.'The version of a gene that masks the expression of the other version of the same gene when both are present as in a heterozygote.'|) (tptp.concept2words_2 X |tptp.'complete dominant allele'|) (tptp.concept2words_2 X |tptp.'complete-dominant-allele'|) (tptp.dominant_allele_1 X)))) (forall ((X $$unsorted)) (=> (tptp.complete_flower_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Flower'|) (tptp.user_description_2 X |tptp.'A flower that has all four basic floral organs: sepals, petals, stamens, and carpels.'|) (tptp.concept2words_2 X |tptp.'complete flower'|) (tptp.concept2words_2 X |tptp.'complete-flower'|) (tptp.flower_1 X) (not (tptp.incomplete_flower_1 X))))) (forall ((X $$unsorted)) (=> (tptp.complete_metamorphosis_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Metamorphosis'|) (tptp.user_description_2 X |tptp.'The transformation from a larval form into a very different adult form. The larval and adult forms typically eat different foods and live in different habitats, reducing competition within a life cycle for limited resources.'|) (tptp.concept2words_2 X tptp.metamorphose) (tptp.concept2words_2 X |tptp.'complete metamorphosis'|) (tptp.concept2words_2 X |tptp.'complete-metamorphosis'|) (tptp.metamorphosis_1 X) (not (tptp.incomplete_metamorphosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.complete_valence_shell_1 X) (and (tptp.original_name_2 X |tptp.'Complete-Valence-Shell'|) (tptp.user_description_2 X |tptp.'The outermost energy shell of an atom that is filled to capacity.'|) (tptp.concept2words_2 X |tptp.'completed valence shell'|) (tptp.concept2words_2 X |tptp.'complete outer shell'|) (tptp.concept2words_2 X |tptp.'full outer shell'|) (tptp.concept2words_2 X |tptp.'filled outer shell'|) (tptp.concept2words_2 X |tptp.'closed shell'|) (tptp.concept2words_2 X |tptp.'complete valence shell'|) (tptp.concept2words_2 X |tptp.'complete-valence-shell'|) (tptp.valence_shell_1 X) (not (tptp.incomplete_valence_shell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_composite_transposon_5 X))) (let ((_let_2 (tptp.fn_combine_1 _let_1))) (let ((_let_3 (tptp.fn_sequence_1 X))) (let ((_let_4 (tptp.fn_composite_transposon_4 X))) (let ((_let_5 (tptp.fn_composite_transposon_2 X))) (let ((_let_6 (tptp.fn_combine_2 _let_1))) (let ((_let_7 (tptp.fn_composite_transposon_3 X))) (let ((_let_8 (tptp.fn_composite_transposon_1 X))) (=> (tptp.composite_transposon_1 X) (and (tptp.original_name_2 X |tptp.'Composite-Transposon'|) (tptp.user_description_2 X |tptp.'large sequence transposons containing genes and other inserted sequences.'|) (tptp.concept2words_2 X |tptp.'complex transposon'|) (tptp.concept2words_2 X |tptp.'complex-transposon'|) (tptp.concept2words_2 X |tptp.'transposon of composite'|) (tptp.concept2words_2 X |tptp.'composite transposon'|) (tptp.concept2words_2 X |tptp.'composite-transposon'|) (tptp.transposon_1 X) (not (tptp.insertion_sequences_1 X)) (not (tptp.retrotransposon_1 X)) (tptp.insertion_sequences_1 _let_8) (tptp.gene_1 _let_5) (tptp.insertion_sequences_1 _let_7) (tptp.gene_1 _let_4) (tptp.combine_1 _let_1) (tptp.entity_1 _let_6) (tptp.entity_1 _let_2) (tptp.element_2 X _let_8) (tptp.result_2 _let_1 X) (tptp.object_2 _let_1 _let_8) (tptp.object_2 _let_1 _let_7) (tptp.element_2 X _let_4) (tptp.element_2 X _let_5) (tptp.object_2 _let_1 _let_4) (= _let_7 _let_6) (= _let_4 _let_3) (= _let_5 (tptp.fn_sequence_2 X)) (= _let_4 _let_2) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.compound_1 X) (and (tptp.original_name_2 X |tptp.'Compound'|) (tptp.user_description_2 X |tptp.'Compound is a chemical formed when two or more different elements combine, either through covalent or ionic bonding. A compound possesses emergent property because of the constituent elements in a fixed ratio.'|) (tptp.concept2words_2 X tptp.compound) (tptp.chemical_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compound_eye_1 X) (and (tptp.original_name_2 X |tptp.'Compound-Eye'|) (tptp.user_description_2 X |tptp.'A type of eye found only in some arthropods, consisting of up to several thousand individual light-detecting units called ommatidia. Compound eyes excel at detecting motion.'|) (tptp.concept2words_2 X |tptp.'eye of compound'|) (tptp.concept2words_2 X |tptp.'compound eye'|) (tptp.concept2words_2 X |tptp.'compound-eye'|) (tptp.eye_1 X) (not (tptp.single_lens_eye_1 X))))) (forall ((X $$unsorted)) (=> (tptp.compute_balanced_equation_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Balanced-Equation'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_chemical_formula_of_ionic_compound_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Chemical-Formula-of-Ionic-Compound'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_concentration_change_constant_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Concentration-Change-Constant'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_concentration_from_quantity_and_volume_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Concentration-from-Quantity-and-Volume'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_equilibrium_constant_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Equilibrium-Constant'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_equilibrium_expression_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Equilibrium-Expression'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_equilibrium_position_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Equilibrium-Position'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_ionic_compound_parts_from_nested_formula_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Ionic-Compound-Parts-from-Nested-Formula'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_maximum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Maximum'|) (tptp.description_2 X |tptp.'given a list of values, return the maximum'|) (tptp.concept2words_2 X |tptp.'compute maximum'|) (tptp.concept2words_2 X |tptp.'compute-maximum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_minimum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Minimum'|) (tptp.description_2 X |tptp.'given a list of values, return the minimum value'|) (tptp.concept2words_2 X |tptp.'compute minimum'|) (tptp.concept2words_2 X |tptp.'compute-minimum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_qualitative_maximum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Qualitative-Maximum'|) (tptp.concept2words_2 X |tptp.'compute qualitative maximum'|) (tptp.concept2words_2 X |tptp.'compute-qualitative-maximum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_qualitative_minimum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Qualitative-Minimum'|) (tptp.concept2words_2 X |tptp.'compute qualitative minimum'|) (tptp.concept2words_2 X |tptp.'compute-qualitative-minimum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantitative_maximum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantitative-Maximum'|) (tptp.concept2words_2 X |tptp.'compute quantitative maximum'|) (tptp.concept2words_2 X |tptp.'compute-quantitative-maximum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantitative_minimum_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantitative-Minimum'|) (tptp.concept2words_2 X |tptp.'compute quantitative minimum'|) (tptp.concept2words_2 X |tptp.'compute-quantitative-minimum'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantity_from_concentration_and_volume_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantity-from-Concentration-and-Volume'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantity_from_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantity-from-Reaction'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantity_of_chemical_in_chemical_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantity-of-Chemical-in-Chemical'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_quantity_of_chemical_in_chemicals_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Quantity-of-Chemical-in-Chemicals'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.compute_volume_from_concentration_and_quantity_1 X) (and (tptp.original_name_2 X |tptp.'Compute-Volume-from-Concentration-and-Quantity'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conceal_1 X))) (=> (tptp.conceal_1 X) (and (tptp.original_name_2 X |tptp.'Conceal'|) (tptp.concept2words_2 X tptp.conceal) (tptp.concept2words_2 X tptp.hide) (tptp.make_inaccessible_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_make_inaccessible_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.concentration_constant_1 X) (and (tptp.original_name_2 X |tptp.'Concentration-Constant'|) (tptp.concept2words_2 X |tptp.'constant of concentration'|) (tptp.concept2words_2 X |tptp.'concentration constant'|) (tptp.concept2words_2 X |tptp.'concentration-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_concentration_gradient_9 X))) (let ((_let_2 (tptp.fn_solution_5 _let_1))) (let ((_let_3 (tptp.fn_solution_6 _let_1))) (let ((_let_4 (tptp.fn_concentration_gradient_8 X))) (let ((_let_5 (tptp.fn_solution_5 _let_4))) (let ((_let_6 (tptp.fn_solution_6 _let_4))) (let ((_let_7 (tptp.fn_concentration_gradient_7 X))) (let ((_let_8 (tptp.fn_concentration_gradient_5 X))) (let ((_let_9 (tptp.fn_concentration_gradient_6 X))) (let ((_let_10 (tptp.fn_concentration_gradient_3 X))) (let ((_let_11 (tptp.fn_concentration_gradient_4 X))) (=> (tptp.concentration_gradient_1 X) (and (tptp.original_name_2 X |tptp.'Concentration-Gradient'|) (tptp.user_description_2 X |tptp.'A gradient is a measurement of how much something changes as you move from one region to another. So a concentration gradient is a measurement of how the concentration of something changes from one place to another.'|) (tptp.concept2words_2 X |tptp.'chemical force'|) (tptp.concept2words_2 X |tptp.'chemical-force'|) (tptp.concept2words_2 X |tptp.'gradient of concentration'|) (tptp.concept2words_2 X |tptp.'concentration gradient'|) (tptp.concept2words_2 X |tptp.'concentration-gradient'|) (tptp.gradient_1 X) (not (tptp.cline_1 X)) (tptp.concentration_value_1 _let_10) (tptp.concentration_value_1 _let_11) (tptp.chemical_1 _let_8) (tptp.chemical_1 _let_9) (tptp.quantity_value_1 _let_7) (tptp.solution_1 _let_4) (tptp.solution_1 _let_1) (tptp.chemical_1 _let_6) (tptp.chemical_1 _let_5) (tptp.chemical_1 _let_3) (tptp.chemical_1 _let_2) (tptp.is_between_2 X _let_1) (tptp.is_between_2 X _let_4) (tptp.concentration_2 _let_8 _let_10) (tptp.same_type_2 _let_8 _let_9) (tptp.same_type_2 _let_9 _let_8) (tptp.concentration_2 _let_9 _let_11) (tptp.inversely_proportional_2 _let_11 _let_7) (tptp.greater_than_2 _let_11 _let_10) (tptp.greater_than_or_equal_to_2 _let_11 _let_10) (tptp.directly_proportional_2 _let_10 _let_7) (tptp.has_part_2 _let_4 _let_9) (tptp.has_solute_2 _let_4 _let_9) (tptp.has_part_2 _let_1 _let_8) (tptp.has_solute_2 _let_1 _let_8) (tptp.quantity_2 X _let_7) (= _let_9 _let_6) (= _let_9 _let_5) (= _let_8 _let_3) (= _let_8 _let_2) (= (tptp.fn_concentration_gradient_10 X) (tptp.fn_gradient_5 X)) (= _let_7 (tptp.fn_gradient_3 X)) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_concentration_maintenance_transport_8 X))) (let ((_let_2 (tptp.fn_chemical_3 _let_1))) (let ((_let_3 (tptp.fn_concentration_maintenance_transport_9 X))) (let ((_let_4 (tptp.fn_concentration_maintenance_transport_6 X))) (let ((_let_5 (tptp.fn_block_1 _let_4))) (let ((_let_6 (tptp.fn_concentration_maintenance_transport_7 X))) (let ((_let_7 (tptp.fn_concentration_maintenance_transport_3 X))) (let ((_let_8 (tptp.fn_concentration_maintenance_transport_2 X))) (let ((_let_9 (tptp.fn_concentration_maintenance_transport_5 X))) (let ((_let_10 (tptp.fn_concentration_maintenance_transport_4 X))) (let ((_let_11 (tptp.fn_concentration_maintenance_transport_1 X))) (=> (tptp.concentration_maintenance_transport_1 X) (and (tptp.original_name_2 X |tptp.'Concentration-Maintenance-Transport'|) (tptp.user_description_2 X |tptp.'Cellular transport which specifically functions to maintain concentrations of crucial ions in cells'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'concentration maintenance transport'|) (tptp.concept2words_2 X |tptp.'concentration-maintenance-transport'|) (tptp.maintenance_1 X) (tptp.concentration_gradient_1 _let_11) (tptp.hydrophobic_compound_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.chemical_1 _let_10) (tptp.chemical_1 _let_9) (tptp.block_1 _let_4) (tptp.chemical_entity_1 _let_6) (tptp.chemical_1 _let_1) (tptp.chemical_entity_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_2) (tptp.result_2 X _let_11) (tptp.object_2 X _let_3) (tptp.object_2 _let_4 _let_8) (not (= _let_6 _let_3)) (not (= _let_6 _let_8)) (not (= _let_8 _let_6)) (not (= _let_8 _let_3)) (tptp.same_type_2 _let_7 _let_3) (tptp.same_type_2 _let_10 _let_1) (not (= _let_10 _let_9)) (not (= _let_9 _let_10)) (tptp.same_type_2 _let_9 _let_1) (tptp.same_type_2 _let_1 _let_10) (tptp.same_type_2 _let_1 _let_9) (not (= _let_3 _let_6)) (not (= _let_3 _let_8)) (tptp.same_type_2 _let_3 _let_7) (tptp.object_2 _let_4 _let_6) (tptp.has_part_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.concentration_scale_1 X) (and (tptp.original_name_2 X |tptp.'Concentration-Scale'|) (tptp.concept2words_2 X |tptp.'scale of concentration'|) (tptp.concept2words_2 X |tptp.'concentration scale'|) (tptp.concept2words_2 X |tptp.'concentration-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.concentration_value_1 X) (and (tptp.original_name_2 X |tptp.'Concentration-Value'|) (tptp.description_2 X |tptp.'concentration is a property describing the amount of a component in a given volume'|) (tptp.concept2words_2 X |tptp.'concentration of equilibrium'|) (tptp.concept2words_2 X |tptp.'equilibrium concentration'|) (tptp.concept2words_2 X |tptp.'equilibrium-concentration'|) (tptp.concept2words_2 X tptp.concentration) (tptp.concept2words_2 X |tptp.'value of concentration'|) (tptp.concept2words_2 X |tptp.'concentration value'|) (tptp.concept2words_2 X |tptp.'concentration-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.concept_word_frame_1 X) (and (tptp.original_name_2 X |tptp.'Concept-Word-Frame'|) (tptp.user_description_2 X |tptp.'The word and frame information associated with a concept. A concept word frame consists of a word and its part of speech. For verbs, it contains syntactic frame information, which is used to realize the concept as a sentence'|) (tptp.concept2words_2 X |tptp.'concept word frame'|) (tptp.concept2words_2 X |tptp.'concept-word-frame'|) (tptp.thing_1 X) (not (tptp.temporal_entity_1 X)) (not (tptp.role_1 X)) (not (tptp.event_1 X)) (not (tptp.entity_1 X))))) (forall ((X $$unsorted)) (=> (tptp.conception_1 X) (and (tptp.original_name_2 X |tptp.'Conception'|) (tptp.user_description_2 X |tptp.'The fertilization of an egg by a sperm.'|) (tptp.concept2words_2 X tptp.conceive) (tptp.concept2words_2 X tptp.conception) (tptp.animal_fertilization_1 X) (not (tptp.acrosomal_reaction_1 X)) (not (tptp.cortical_reaction_1 X))))) (forall ((X $$unsorted)) (=> (tptp.conceptual_entity_1 X) (and (tptp.original_name_2 X |tptp.'Conceptual-Entity'|) (tptp.description_2 X |tptp.'An entity bearing conceptual content, such as a message or a bit of information.'|) (tptp.concept2words_2 X tptp.abstraction) (tptp.concept2words_2 X |tptp.'conceptual entity'|) (tptp.concept2words_2 X |tptp.'conceptual-entity'|) (tptp.intangible_entity_1 X) (not (tptp.money_1 X)) (not (tptp.language_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endergonic_reaction_9 X))) (let ((_let_2 (tptp.fn_create_1 X))) (let ((_let_3 (tptp.fn_condensation_reaction_2 X))) (let ((_let_4 (tptp.fn_condensation_reaction_3 X))) (let ((_let_5 (tptp.fn_condensation_reaction_1 X))) (=> (tptp.condensation_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Condensation-Reaction'|) (tptp.user_description_2 X |tptp.'A type of chemical reaction in which two molecules are joined to form a larger molecule, combined with the loss of a small molecule, often water.'|) (tptp.concept2words_2 X tptp.condensation) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of condensation'|) (tptp.concept2words_2 X |tptp.'condensation reaction'|) (tptp.concept2words_2 X |tptp.'condensation-reaction'|) (tptp.create_1 X) (tptp.endergonic_reaction_1 X) (tptp.molecule_1 _let_5) (tptp.molecule_1 _let_3) (tptp.molecule_1 _let_4) (tptp.raw_material_2 X _let_5) (not (= _let_3 _let_4)) (not (= _let_3 _let_5)) (not (= _let_4 _let_3)) (not (= _let_4 _let_5)) (not (= _let_5 _let_4)) (not (= _let_5 _let_3)) (tptp.result_2 X _let_4) (tptp.raw_material_2 X _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_3 (tptp.fn_endergonic_reaction_8 X)) (= _let_2 _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_condense_4 X))) (let ((_let_2 (tptp.fn_condense_5 X))) (let ((_let_3 (tptp.fn_condense_1 X))) (=> (tptp.condense_1 X) (and (tptp.original_name_2 X |tptp.'Condense'|) (tptp.concept2words_2 X tptp.condense) (tptp.concept2words_2 X tptp.concentrate) (tptp.concept2words_2 X tptp.contract) (tptp.concept2words_2 X tptp.compress) (tptp.concept2words_2 X tptp.compact) (tptp.concept2words_2 X |tptp.'pack together'|) (tptp.concept2words_2 X tptp.focus) (tptp.increase_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.expand_1 X)) (not (tptp.brighten_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_in_cell_size_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.density_value_1 _let_1) (tptp.density_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_2 _let_1) (= (tptp.fn_condense_3 X) (tptp.fn_increase_2 X)) (= (tptp.fn_condense_2 X) (tptp.fn_increase_1 X)) (= _let_2 (tptp.fn_increase_4 X)) (= _let_1 (tptp.fn_increase_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_condensed_chromosome_1 X))) (=> (tptp.condensed_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Condensed-Chromosome'|) (tptp.user_description_2 X |tptp.'State of a chromosome during cell division in which the diffuse chromatin has pulled together and become more dense, rendering the normally invisible chromosomes visible under a light microscope.'|) (tptp.concept2words_2 X |tptp.'condensed chromosome'|) (tptp.concept2words_2 X |tptp.'condensed-chromosome'|) (tptp.chromosome_1 X) (tptp.eukaryotic_chromosome_1 _let_1) (tptp.has_state_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_condensed_diploid_chromosome_2 X))) (let ((_let_2 (tptp.fn_condensed_diploid_chromosome_1 X))) (let ((_let_3 (tptp.fn_condensed_diploid_chromosome_3 X))) (=> (tptp.condensed_diploid_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Condensed-Diploid-Chromosome'|) (tptp.user_description_2 X |tptp.'State of a diploid chromosome during cell division in which the diffuse chromatin has pulled together and become more dense, rendering the normally invisible chromosomes visible under a light microscope.'|) (tptp.concept2words_2 X |tptp.'condensed diploid chromosome'|) (tptp.concept2words_2 X |tptp.'condensed-diploid-chromosome'|) (tptp.chromosome_1 X) (tptp.sister_chromatid_1 _let_2) (tptp.sister_chromatid_1 _let_1) (tptp.eukaryotic_chromosome_1 _let_3) (tptp.has_state_2 _let_3 X) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.condition_1 X) (and (tptp.original_name_2 X |tptp.'Condition'|) (tptp.concept2words_2 X tptp.condition) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.condition_node_1 X) (and (tptp.original_name_2 X |tptp.'Condition-Node'|) (tptp.concept2words_2 X |tptp.'node of condition'|) (tptp.concept2words_2 X |tptp.'condition node'|) (tptp.concept2words_2 X |tptp.'condition-node'|) (tptp.big_node_1 X)))) (forall ((X $$unsorted)) (=> (tptp.condom_1 X) (and (tptp.original_name_2 X |tptp.'Condom'|) (tptp.user_description_2 X |tptp.'A thin, latex rubber or natural membrane sheath that fits over the penis and worn during sexual activity to prevent pregnancy and the transmission of sexually transmitted disease.'|) (tptp.concept2words_2 X tptp.condom) (tptp.reproductive_barrier_method_1 X) (not (tptp.cervical_cap_1 X)) (not (tptp.diaphragm_birth_control_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conduction_2 X))) (let ((_let_2 (tptp.fn_conduction_1 X))) (=> (tptp.conduction_1 X) (and (tptp.original_name_2 X |tptp.'Conduction'|) (tptp.user_description_2 X |tptp.'The transfer of heat between objects that are in direct contact with each other.'|) (tptp.concept2words_2 X tptp.conduct) (tptp.concept2words_2 X tptp.conduction) (tptp.heat_transfer_1 X) (tptp.molecular_region_1 _let_2) (tptp.molecular_region_1 _let_1) (tptp.abuts_2 _let_1 _let_2) (tptp.abuts_2 _let_2 _let_1) (tptp.origin_2 X _let_2) (tptp.destination_2 X _let_1) (= _let_2 (tptp.fn_heat_transfer_7 X)) (= _let_1 (tptp.fn_heat_transfer_6 X))))))) (forall ((X $$unsorted)) (=> (tptp.conductivity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Conductivity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of conductivity'|) (tptp.concept2words_2 X |tptp.'conductivity constant'|) (tptp.concept2words_2 X |tptp.'conductivity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.conductivity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Conductivity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of conductivity'|) (tptp.concept2words_2 X |tptp.'conductivity scale'|) (tptp.concept2words_2 X |tptp.'conductivity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.conductivity_value_1 X) (and (tptp.original_name_2 X |tptp.'Conductivity-Value'|) (tptp.description_2 X |tptp.'A measure of the resistance of water to electrical flow; this resistance is a direct measure of the salinity of water, and it can be measured accurately with a conductivity sensor.'|) (tptp.concept2words_2 X tptp.conductivity) (tptp.concept2words_2 X |tptp.'value of conductivity'|) (tptp.concept2words_2 X |tptp.'conductivity value'|) (tptp.concept2words_2 X |tptp.'conductivity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conduit_1 X))) (=> (tptp.conduit_1 X) (and (tptp.original_name_2 X |tptp.'Conduit'|) (tptp.concept2words_2 X tptp.conduit) (tptp.role_1 X) (tptp.spatial_entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cone_1 X) (and (tptp.original_name_2 X |tptp.'Cone'|) (tptp.user_description_2 X |tptp.'A photoreceptor cell in the retina of the eye that is sensitive to color.'|) (tptp.concept2words_2 X tptp.cone) (tptp.animal_cell_1 X) (not (tptp.blue_light_photoreceptor_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_confine_3 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_confine_2 X))) (let ((_let_4 (tptp.fn_confine_1 X))) (=> (tptp.confine_1 X) (and (tptp.original_name_2 X |tptp.'Confine'|) (tptp.concept2words_2 X tptp.confine) (tptp.concept2words_2 X tptp.enclose) (tptp.concept2words_2 X |tptp.'hold in'|) (tptp.concept2words_2 X tptp.hold_in) (tptp.obstruct_1 X) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.container_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.base_2 X _let_3) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_4) (tptp.plays_2 _let_3 _let_1) (= _let_4 (tptp.fn_obstruct_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.confirm_1 X) (and (tptp.original_name_2 X |tptp.'Confirm'|) (tptp.user_description_2 X |tptp.'To affirm or support a hypothesis or theory with evidence.'|) (tptp.concept2words_2 X tptp.confirm) (tptp.communicate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_confocal_microscopy_3 X))) (let ((_let_2 (tptp.fn_optical_sectioning_2 _let_1))) (let ((_let_3 (tptp.fn_microscopy_1 X))) (let ((_let_4 (tptp.fn_confocal_microscopy_2 X))) (let ((_let_5 (tptp.fn_confocal_microscopy_1 X))) (=> (tptp.confocal_microscopy_1 X) (and (tptp.original_name_2 X |tptp.'Confocal-Microscopy'|) (tptp.user_description_2 X |tptp.'An optical imaging technique used to increase optical resolution and contrast of a micrograph by using point illumination and a spatial pinhole to eliminate out-of-focus light in specimens that are thicker than the focal plane. It enables the reconstruction of three-dimensional structures from the obtained images.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'confocal microscopy'|) (tptp.concept2words_2 X |tptp.'confocal-microscopy'|) (tptp.microscopy_1 X) (not (tptp.light_microscopy_1 X)) (not (tptp.electron_microscopy_1 X)) (tptp.laser_light_1 _let_5) (tptp.specimen_stained_with_fluorescent_substance_1 _let_4) (tptp.create_1 _let_1) (tptp.optical_sectioning_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_4) (tptp.base_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conformational_change_5 X))) (let ((_let_2 (tptp.fn_conformational_change_2 X))) (let ((_let_3 (tptp.fn_conformational_change_4 X))) (let ((_let_4 (tptp.fn_conformational_change_3 X))) (=> (tptp.conformational_change_1 X) (and (tptp.original_name_2 X |tptp.'Conformational-Change'|) (tptp.user_description_2 X |tptp.'The alteration in the shape of a protein as a result of change in the environment (pH, temperature, ionic strength) or the binding of a ligand to a receptor or the binding of substrate to an enzyme.'|) (tptp.concept2words_2 X |tptp.'shape change'|) (tptp.concept2words_2 X |tptp.'change shape'|) (tptp.concept2words_2 X |tptp.'conformational change'|) (tptp.concept2words_2 X |tptp.'change in conformation'|) (tptp.concept2words_2 X |tptp.'conformational-change'|) (tptp.change_of_shape_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.shape_value_1 _let_2) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.shape_value_1 _let_1) (not (= _let_1 _let_2)) (tptp.has_state_2 _let_3 _let_4) (tptp.shape_2 _let_3 _let_2) (tptp.shape_2 _let_4 _let_1) (tptp.result_2 X _let_4) (tptp.object_2 X _let_3) (not (= _let_2 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.conformer_1 X) (and (tptp.original_name_2 X |tptp.'Conformer'|) (tptp.user_description_2 X |tptp.'An organism whose internal condition varies with changes in external conditions.'|) (tptp.concept2words_2 X tptp.conformer) (tptp.animal_1 X)))) (forall ((X $$unsorted)) (=> (tptp.congenital_disease_1 X) (and (tptp.original_name_2 X |tptp.'Congenital-Disease'|) (tptp.user_description_2 X |tptp.'Congenital disorder involves defects in or damage to a developing fetus. It may be the result of genetic abnormalities, the intrauterine (uterus) environment, errors of morphogenesis, or a chromosomal abnormality.'|) (tptp.concept2words_2 X |tptp.'congenital disease'|) (tptp.concept2words_2 X |tptp.'congenital-disease'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.conidium_1 X) (and (tptp.original_name_2 X |tptp.'Conidium'|) (tptp.user_description_2 X |tptp.'An asexual spore produced by ascomycetes.'|) (tptp.concept2words_2 X tptp.conidia) (tptp.spore_1 X) (not (tptp.megaspore_1 X)) (not (tptp.microspore_1 X)) (not (tptp.plant_spore_1 X)) (not (tptp.zoospore_1 X))))) (forall ((X $$unsorted)) (=> (tptp.conifer_1 X) (and (tptp.original_name_2 X |tptp.'Conifer'|) (tptp.user_description_2 X |tptp.'A member of the gymnosperm phylum Conifera. Most, including pines and first, are cone-bearing trees.'|) (tptp.concept2words_2 X tptp.conifer) (tptp.woody_plant_1 X) (tptp.gymnosperm_1 X) (not (tptp.cycad_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conjugation_5 X))) (let ((_let_2 (tptp.fn_pili_4 _let_1))) (let ((_let_3 (tptp.fn_conjugation_6 X))) (let ((_let_4 (tptp.fn_pili_5 _let_1))) (let ((_let_5 (tptp.fn_conjugation_7 X))) (let ((_let_6 (tptp.fn_conjugation_8 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_conjugation_4 X))) (let ((_let_9 (tptp.fn_conjugation_3 X))) (let ((_let_10 (tptp.fn_transfer_1 _let_9))) (let ((_let_11 (tptp.fn_conjugation_2 X))) (=> (tptp.conjugation_1 X) (and (tptp.original_name_2 X |tptp.'Conjugation'|) (tptp.user_description_2 X |tptp.'In prokaryotes, the direct transfer of DNA between two cells (of the same or different species) that are temporarily joined. In ciliates, a sexual process in which two cells exchange haploid micronuclei.'|) (tptp.concept2words_2 X tptp.conjugate) (tptp.concept2words_2 X tptp.conjugation) (tptp.dna_transfer_1 X) (not (tptp.transduction_gene_transfer_1 X)) (not (tptp.transformation_in_bacterial_genetics_1 X)) (tptp.sex_value_1 _let_11) (tptp.transfer_1 _let_9) (tptp.gene_1 _let_8) (tptp.sex_pili_1 _let_1) (tptp.attach_1 _let_3) (tptp.prokaryote_1 _let_5) (tptp.directed_motion_1 _let_6) (tptp.entity_1 _let_10) (tptp.spatial_entity_1 _let_7) (tptp.prokaryote_1 _let_4) (tptp.attach_1 _let_2) (tptp.donor_2 _let_9 _let_5) (tptp.by_means_of_2 _let_3 _let_6) (tptp.sex_2 _let_5 _let_11) (tptp.the_categorical_value_2 _let_11 tptp.male_0) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_9) (tptp.instrument_2 X _let_1) (tptp.first_subevent_2 X _let_3) (tptp.origin_2 X _let_5) (tptp.object_2 _let_9 _let_8) (tptp.object_2 X _let_8) (tptp.object_2 _let_6 _let_1) (tptp.agent_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_5) (= _let_8 _let_10) (= _let_8 (tptp.fn_transfer_1 X)) (= _let_1 _let_7) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.conjunctiva_1 X) (and (tptp.original_name_2 X |tptp.'Conjunctiva'|) (tptp.user_description_2 X |tptp.'A layer of epithelial cells that secretes a mucuc membrance covering the outer surface of the eye, keeping it moist.'|) (tptp.concept2words_2 X tptp.conjunctiva) (tptp.simple_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.connective_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Connective-Tissue'|) (tptp.user_description_2 X |tptp.'A type of animal tissue that supports, connects, or separates different tissues and organs of the body.'|) (tptp.concept2words_2 X |tptp.'tissue of connective'|) (tptp.concept2words_2 X |tptp.'connective tissue'|) (tptp.concept2words_2 X |tptp.'connective-tissue'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_connector_1 X))) (=> (tptp.connector_1 X) (and (tptp.original_name_2 X |tptp.'Connector'|) (tptp.concept2words_2 X tptp.connector) (tptp.concept2words_2 X tptp.connection) (tptp.concept2words_2 X tptp.connexion) (tptp.concept2words_2 X tptp.connecter) (tptp.concept2words_2 X tptp.connective) (tptp.concept2words_2 X tptp.fastener) (tptp.concept2words_2 X tptp.fastening) (tptp.concept2words_2 X tptp.holdfast) (tptp.concept2words_2 X tptp.link) (tptp.concept2words_2 X tptp.nexus) (tptp.role_1 X) (tptp.tangible_entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.conodont_1 X) (and (tptp.original_name_2 X |tptp.'Conodont'|) (tptp.user_description_2 X |tptp.'One of a group of extinct eel-like chordates, which had large eyes, rayed fins, and a notochord. Conodonts are known primarily from their fossilized teeth.'|) (tptp.concept2words_2 X tptp.conodont) (tptp.early_vertebrate_1 X) (tptp.extinct_vertebrate_1 X) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.conservation_biology_1 X) (and (tptp.original_name_2 X |tptp.'Conservation-Biology'|) (tptp.user_description_2 X |tptp.'The scientific study of Earth_'s biodiversity with the goal of protecting species, habitats, and ecosystems from excessive extinction.'|) (tptp.concept2words_2 X |tptp.'biology of conservation'|) (tptp.concept2words_2 X |tptp.'conservation biology'|) (tptp.concept2words_2 X |tptp.'conservation-biology'|) (tptp.ecology_1 X)))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.subevent_2 X X1) (tptp.object_2 X1 X2) (tptp.physical_process_1 X) (tptp.maintenance_1 X1) (tptp.energy_1 X2)) (and (tptp.conservation_of_energy_1 X) (= (tptp.fn_conservation_of_energy_3 X) X1) (= (tptp.fn_conservation_of_energy_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conservation_of_energy_3 X))) (let ((_let_2 (tptp.fn_conservation_of_energy_2 X))) (=> (tptp.conservation_of_energy_1 X) (and (tptp.original_name_2 X |tptp.'Conservation-Of-Energy'|) (tptp.user_description_2 X |tptp.'1) In conservation ecology, the process of judicious use of available energy resources. 2) In physics and chemistry, the law that states that the total amount of energy in a system remains constant over time.'|) (tptp.concept2words_2 X tptp.conserve) (tptp.concept2words_2 X |tptp.'energy conservation'|) (tptp.concept2words_2 X |tptp.'energy-conservation'|) (tptp.concept2words_2 X |tptp.'conservation of energy'|) (tptp.concept2words_2 X |tptp.'conservation-of-energy'|) (tptp.physical_process_1 X) (tptp.energy_1 _let_2) (tptp.maintenance_1 _let_1) (tptp.object_2 _let_1 _let_2) (tptp.subevent_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.conservative_model_1 X) (and (tptp.original_name_2 X |tptp.'Conservative-model'|) (tptp.user_description_2 X |tptp.'Conservative replication would leave intact the original DNA molecule and generate a completely new molecule.'|) (tptp.concept2words_2 X |tptp.'model of conservative'|) (tptp.concept2words_2 X |tptp.'conservative model'|) (tptp.concept2words_2 X |tptp.'conservative-model'|) (tptp.dna_replication_1 X)))) (forall ((X $$unsorted)) (=> (tptp.consistency_constant_1 X) (and (tptp.original_name_2 X |tptp.'Consistency-Constant'|) (tptp.concept2words_2 X |tptp.'constant of consistency'|) (tptp.concept2words_2 X |tptp.'consistency constant'|) (tptp.concept2words_2 X |tptp.'consistency-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.consistency_value_1 X) (and (tptp.original_name_2 X |tptp.'Consistency-Value'|) (tptp.description_2 X |tptp.'the degree of firmness, density, viscosity, or resistance to movement or separation of constituent particles'|) (tptp.concept2words_2 X tptp.consistence) (tptp.concept2words_2 X tptp.body) (tptp.concept2words_2 X tptp.consistency) (tptp.concept2words_2 X |tptp.'value of consistency'|) (tptp.concept2words_2 X |tptp.'consistency value'|) (tptp.concept2words_2 X |tptp.'consistency-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.constant_1 X) (and (tptp.original_name_2 X |tptp.'Constant'|) (tptp.concept2words_2 X tptp.constant) (tptp.property_group_1 X)))) (forall ((X $$unsorted)) (=> (tptp.constant_exclusion_set_1 X) (and (tptp.original_name_2 X |tptp.'Constant-Exclusion-Set'|) (tptp.concept2words_2 X |tptp.'constant exclusion set'|) (tptp.concept2words_2 X |tptp.'constant-exclusion-set'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_constant_motion_1 X))) (=> (tptp.constant_motion_1 X) (and (tptp.original_name_2 X |tptp.'Constant-Motion'|) (tptp.user_description_2 X |tptp.'It refers to the continuous act, process, or state of changing place or position or movement.'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X |tptp.'motion of constant'|) (tptp.concept2words_2 X |tptp.'constant motion'|) (tptp.concept2words_2 X |tptp.'constant-motion'|) (tptp.physical_process_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_constant_region_4 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_code_for_1 _let_1))) (let ((_let_4 (tptp.fn_constant_region_5 X))) (let ((_let_5 (tptp.fn_constant_region_2 X))) (let ((_let_6 (tptp.fn_constant_region_3 X))) (let ((_let_7 (tptp.fn_constant_region_1 X))) (=> (tptp.constant_region_1 X) (and (tptp.original_name_2 X |tptp.'Constant-Region'|) (tptp.user_description_2 X |tptp.'A region on an immunoglobulin polypeptide chain which is the same for all antibodies of a particular class.'|) (tptp.concept2words_2 X |tptp.'c region'|) (tptp.concept2words_2 X |tptp.'region of constant'|) (tptp.concept2words_2 X |tptp.'constant region'|) (tptp.concept2words_2 X |tptp.'constant-region'|) (tptp.immunoglobulin_protein_1 X) (tptp.immunoglobulin_protein_1 _let_7) (tptp.constant_region_1 _let_5) (tptp.immunoglobulin_protein_1 _let_6) (tptp.code_for_1 _let_1) (tptp.constant_region_dna_sequence_1 _let_4) (tptp.entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.donor_2 _let_1 _let_4) (tptp.has_part_2 _let_7 X) (tptp.same_type_2 _let_5 X) (tptp.has_part_2 _let_6 _let_5) (tptp.same_type_2 X _let_5) (tptp.agent_2 _let_1 _let_4) (tptp.result_2 _let_1 X) (= _let_4 _let_3) (= X _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_constant_region_dna_sequence_8 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_constant_region_dna_sequence_16 X))) (let ((_let_4 (tptp.fn_constant_region_5 _let_3))) (let ((_let_5 (tptp.fn_constant_region_dna_sequence_6 X))) (let ((_let_6 (tptp.fn_cell_24 _let_5))) (let ((_let_7 (tptp.fn_sequence_2 X))) (let ((_let_8 (tptp.fn_nucleic_acid_sequence_6 X))) (let ((_let_9 (tptp.fn_sequence_1 X))) (let ((_let_10 (tptp.fn_constant_region_dna_sequence_12 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_4 _let_10))) (let ((_let_12 (tptp.fn_constant_region_dna_sequence_13 X))) (let ((_let_13 (tptp.fn_carbon_skeleton_2 _let_10))) (let ((_let_14 (tptp.fn_constant_region_dna_sequence_11 X))) (let ((_let_15 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_16 (tptp.fn_constant_region_dna_sequence_9 X))) (let ((_let_17 (tptp.fn_constant_region_4 _let_3))) (let ((_let_18 (tptp.fn_constant_region_dna_sequence_15 X))) (let ((_let_19 (tptp.fn_constant_region_dna_sequence_14 X))) (let ((_let_20 (tptp.fn_constant_region_dna_sequence_7 X))) (let ((_let_21 (tptp.fn_constant_region_dna_sequence_17 X))) (let ((_let_22 (tptp.fn_attach_1 _let_21))) (let ((_let_23 (tptp.fn_constant_region_dna_sequence_10 X))) (let ((_let_24 (tptp.fn_constant_region_dna_sequence_5 X))) (let ((_let_25 (tptp.fn_constant_region_dna_sequence_4 X))) (let ((_let_26 (tptp.fn_constant_region_dna_sequence_3 X))) (=> (tptp.constant_region_dna_sequence_1 X) (and (tptp.original_name_2 X |tptp.'Constant-Region-DNA-Sequence'|) (tptp.user_description_2 X |tptp.'A sequence of DNA providing the code for the constant region on an immunoglobulin polypeptide chain.'|) (tptp.concept2words_2 X |tptp.'constant region dna sequence'|) (tptp.concept2words_2 X |tptp.'constant-region-dna-sequence'|) (tptp.eukaryote_dna_sequence_1 X) (not (tptp.tata_box_1 X)) (not (tptp.control_element_1 X)) (not (tptp.dna_strand_1 X)) (not (tptp.episome_1 X)) (not (tptp.genetic_marker_1 X)) (not (tptp.pseudogene_1 X)) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.restriction_site_1 X)) (not (tptp.telomere_1 X)) (not (tptp.transcription_unit_1 X)) (not (tptp.transposon_1 X)) (not (tptp.ttaggg_1 X)) (tptp.speed_value_1 _let_26) (tptp.quantity_value_1 _let_25) (tptp.embryo_1 _let_24) (tptp.cell_1 _let_5) (tptp.monomer_1 _let_20) (tptp.kinetic_energy_1 _let_1) (tptp.constant_motion_1 _let_16) (tptp.deoxyribonucleoside_monophosphate_1 _let_23) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.carbon_skeleton_1 _let_10) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_19) (tptp.genome_1 _let_19) (tptp.code_for_1 _let_18) (tptp.constant_region_1 _let_3) (tptp.attach_1 _let_21) (tptp.spatial_entity_1 _let_22) (tptp.code_for_1 _let_17) (tptp.constant_motion_1 _let_15) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.carbon_1 _let_11) (tptp.genome_1 _let_6) (tptp.constant_region_dna_sequence_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.quantity_2 _let_1 _let_25) (tptp.speed_2 _let_16 _let_26) (tptp.directly_proportional_2 _let_26 _let_25) (tptp.has_part_2 _let_24 _let_5) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_12) (tptp.has_region_2 X _let_10) (tptp.object_2 _let_21 _let_23) (tptp.first_element_2 X _let_19) (tptp.element_2 X _let_19) (tptp.next_element_2 _let_19 _let_20) (tptp.element_2 X _let_20) (tptp.has_part_2 _let_5 _let_19) (tptp.result_2 _let_18 _let_3) (tptp.agent_2 _let_18 X) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_16 X) (tptp.is_inside_2 _let_12 _let_10) (not (= _let_14 _let_12)) (not (= _let_12 _let_14)) (= _let_23 _let_22) (= _let_20 _let_9) (= _let_19 _let_7) (= _let_20 _let_8) (= _let_19 _let_6) (= X _let_4) (= _let_18 _let_17) (= _let_16 _let_15) (= X _let_2) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.construction_1 X) (and (tptp.original_name_2 X |tptp.'Construction'|) (tptp.concept2words_2 X tptp.construct) (tptp.concept2words_2 X tptp.building) (tptp.concept2words_2 X |tptp.'creating from raw materials'|) (tptp.concept2words_2 X tptp.creating_from_raw_materials) (tptp.concept2words_2 X tptp.create) (tptp.concept2words_2 X tptp.construction) (tptp.create_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_consume_2 X))) (let ((_let_2 (tptp.fn_consume_1 X))) (=> (tptp.consume_1 X) (and (tptp.original_name_2 X |tptp.'Consume'|) (tptp.concept2words_2 X tptp.consume) (tptp.concept2words_2 X |tptp.'eat up'|) (tptp.concept2words_2 X tptp.eat_up) (tptp.concept2words_2 X |tptp.'use up'|) (tptp.concept2words_2 X tptp.use_up) (tptp.concept2words_2 X tptp.eat) (tptp.concept2words_2 X tptp.deplete) (tptp.concept2words_2 X tptp.exhaust) (tptp.concept2words_2 X |tptp.'run through'|) (tptp.concept2words_2 X tptp.run_through) (tptp.concept2words_2 X |tptp.'wipe out'|) (tptp.concept2words_2 X tptp.wipe_out) (tptp.action_1 X) (tptp.entity_1 _let_2) (tptp.resource_1 _let_1) (tptp.object_2 X _let_2) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.consumers_1 X) (and (tptp.original_name_2 X |tptp.'Consumers'|) (tptp.user_description_2 X |tptp.'Group of organisms in an ecosystem which feeds on other organisms.'|) (tptp.concept2words_2 X tptp.consumer) (tptp.trophic_level_1 X)))) (forall ((X $$unsorted)) (=> (tptp.contained_volume_1 X) (and (tptp.original_name_2 X |tptp.'Contained-Volume'|) (tptp.user_description_2 X |tptp.'A specified volume of something contained within a limited space.'|) (tptp.concept2words_2 X |tptp.'contained volume'|) (tptp.concept2words_2 X |tptp.'contained-volume'|) (tptp.tangible_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.container_1 X) (and (tptp.original_name_2 X |tptp.'Container'|) (tptp.concept2words_2 X tptp.container) (tptp.barrier_1 X) (not (tptp.cover_1 X)) (not (tptp.portal_covering_1 X))))) (forall ((X $$unsorted)) (=> (tptp.contest_1 X) (and (tptp.original_name_2 X |tptp.'Contest'|) (tptp.concept2words_2 X tptp.contest) (tptp.concept2words_2 X tptp.competition) (tptp.concept2words_2 X tptp.game) (tptp.concept2words_2 X tptp.conflict) (tptp.concept2words_2 X tptp.struggle) (tptp.concept2words_2 X tptp.battle) (tptp.concept2words_2 X tptp.fight) (tptp.concept2words_2 X tptp.engagement) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.contestant_1 X) (and (tptp.original_name_2 X |tptp.'Contestant'|) (tptp.concept2words_2 X tptp.contestant) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.continental_drift_1 X) (and (tptp.original_name_2 X |tptp.'Continental-Drift'|) (tptp.user_description_2 X |tptp.'The slow movement of the continental plates across Earths surface.'|) (tptp.concept2words_2 X |tptp.'continental drift'|) (tptp.concept2words_2 X |tptp.'continental-drift'|) (tptp.geologic_process_1 X) (not (tptp.biogeochemical_cycle_1 X)) (not (tptp.catastrophism_1 X)) (not (tptp.climate_1 X)) (not (tptp.plate_tectonics_1 X)) (not (tptp.uniformitarianism_1 X))))) (forall ((X $$unsorted)) (=> (tptp.continental_shelf_1 X) (and (tptp.original_name_2 X |tptp.'Continental-Shelf'|) (tptp.user_description_2 X |tptp.'The edge of a continent which is under relatively shallow water and is adjacent to the shore of an ocean or sea.'|) (tptp.concept2words_2 X |tptp.'continental shelf'|) (tptp.concept2words_2 X |tptp.'continental-shelf'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.contraception_1 X) (and (tptp.original_name_2 X |tptp.'Contraception'|) (tptp.user_description_2 X |tptp.'Methods or devices used to prevent pregnancy.'|) (tptp.concept2words_2 X tptp.contraception) (tptp.birth_control_1 X) (not (tptp.postzygotic_barrier_1 X))))) (forall ((X $$unsorted)) (=> (tptp.contraceptive_procedure_1 X) (and (tptp.original_name_2 X |tptp.'Contraceptive-Procedure'|) (tptp.user_description_2 X |tptp.'A medical procedure designed to prevent pregnancy.'|) (tptp.concept2words_2 X |tptp.'birth control procedure'|) (tptp.concept2words_2 X |tptp.'birth-control-procedure'|) (tptp.concept2words_2 X |tptp.'procedure of contraceptive'|) (tptp.concept2words_2 X |tptp.'contraceptive procedure'|) (tptp.concept2words_2 X |tptp.'contraceptive-procedure'|) (tptp.medical_procedure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_contract_4 X))) (let ((_let_2 (tptp.fn_contract_5 X))) (let ((_let_3 (tptp.fn_contract_1 X))) (=> (tptp.contract_1 X) (and (tptp.original_name_2 X |tptp.'Contract'|) (tptp.concept2words_2 X tptp.shrink) (tptp.concept2words_2 X tptp.contract) (tptp.concept2words_2 X tptp.shrivel) (tptp.decrease_1 X) (not (tptp.cool_1 X)) (not (tptp.dry_1 X)) (not (tptp.dim_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.volume_value_1 _let_1) (tptp.volume_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_1 _let_2) (= (tptp.fn_contract_3 X) (tptp.fn_decrease_2 X)) (= (tptp.fn_contract_2 X) (tptp.fn_decrease_1 X)) (= _let_2 (tptp.fn_decrease_4 X)) (= _let_1 (tptp.fn_decrease_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_contractile_ring_5 X))) (let ((_let_2 (tptp.fn_microfilament_27 _let_1))) (let ((_let_3 (tptp.fn_polymer_6 _let_1))) (let ((_let_4 (tptp.fn_microfilament_23 _let_1))) (let ((_let_5 (tptp.fn_contractile_ring_3 X))) (let ((_let_6 (tptp.fn_contractile_ring_2 X))) (let ((_let_7 (tptp.fn_microfilament_24 _let_1))) (let ((_let_8 (tptp.fn_contractile_ring_4 X))) (let ((_let_9 (tptp.fn_contractile_ring_1 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_attach_1 _let_9))) (let ((_let_12 (tptp.fn_contractile_ring_6 X))) (=> (tptp.contractile_ring_1 X) (and (tptp.original_name_2 X |tptp.'Contractile-Ring'|) (tptp.user_description_2 X |tptp.'Contractile ring is a ring structure made up of myosin and actin microfilaments which is formed at mid-region of the animal cell. It brings about cytokinesis (division of cytoplasm to result in two daughter cells)'|) (tptp.concept2words_2 X |tptp.'contractile ring'|) (tptp.concept2words_2 X |tptp.'contractile-ring'|) (tptp.animal_cell_structure_1 X) (tptp.attach_1 _let_9) (tptp.monomer_1 _let_6) (tptp.size_value_1 _let_5) (tptp.size_value_1 _let_8) (tptp.spatial_entity_1 _let_1) (tptp.polymer_1 _let_1) (tptp.microfilament_1 _let_1) (tptp.myosin_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.size_value_1 _let_7) (tptp.size_value_1 _let_4) (tptp.monomer_1 _let_3) (tptp.monomer_1 _let_2) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_12) (tptp.object_2 _let_9 _let_12) (tptp.base_2 _let_9 _let_1) (tptp.the_scalar_value_2 _let_5 tptp.big_0) (tptp.scalar_unit_class_2 _let_5 tptp.polypeptide_0) (tptp.greater_than_2 _let_5 _let_8) (tptp.size_2 _let_6 _let_8) (tptp.has_part_2 _let_1 _let_6) (tptp.size_2 _let_1 _let_5) (= _let_12 _let_11) (= _let_1 _let_10) (= _let_8 _let_7) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_contractile_vacuole_32 X))) (let ((_let_2 (tptp.fn_store_2 _let_1))) (let ((_let_3 (tptp.fn_contractile_vacuole_11 X))) (let ((_let_4 (tptp.fn_endoplasmic_reticulum_31 _let_3))) (let ((_let_5 (tptp.fn_contractile_vacuole_15 X))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_39 _let_5))) (let ((_let_7 (tptp.fn_endoplasmic_reticulum_30 _let_3))) (let ((_let_8 (tptp.fn_contractile_vacuole_30 X))) (let ((_let_9 (tptp.fn_eukaryotic_cell_39 _let_8))) (let ((_let_10 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_5))) (let ((_let_11 (tptp.fn_endoplasmic_reticulum_11 _let_3))) (let ((_let_12 (tptp.fn_vesicle_5 X))) (let ((_let_13 (tptp.fn_contractile_vacuole_31 X))) (let ((_let_14 (tptp.fn_remove_2 _let_13))) (let ((_let_15 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_5))) (let ((_let_16 (tptp.fn_vacuole_9 X))) (let ((_let_17 (tptp.fn_vesicle_7 X))) (let ((_let_18 (tptp.fn_cell_29 _let_8))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_5))) (let ((_let_20 (tptp.fn_eukaryotic_cell_26 _let_8))) (let ((_let_21 (tptp.fn_vacuole_2 X))) (let ((_let_22 (tptp.fn_vesicle_10 X))) (let ((_let_23 (tptp.fn_vacuole_7 X))) (let ((_let_24 (tptp.fn_vesicle_9 X))) (let ((_let_25 (tptp.fn_vacuole_10 X))) (let ((_let_26 (tptp.fn_eukaryotic_cell_31 _let_8))) (let ((_let_27 (tptp.fn_vesicle_8 X))) (let ((_let_28 (tptp.fn_cell_28 _let_8))) (let ((_let_29 (tptp.fn_contractile_vacuole_27 X))) (let ((_let_30 (tptp.fn_osmoregulation_2 _let_29))) (let ((_let_31 (tptp.fn_osmoregulation_21 _let_29))) (let ((_let_32 (tptp.fn_vacuole_6 X))) (let ((_let_33 (tptp.fn_remove_1 _let_13))) (let ((_let_34 (tptp.fn_store_1 _let_1))) (let ((_let_35 (tptp.fn_osmoregulation_4 _let_29))) (let ((_let_36 (tptp.fn_osmoregulation_3 _let_29))) (let ((_let_37 (tptp.fn_contractile_vacuole_21 X))) (let ((_let_38 (tptp.fn_contractile_vacuole_20 X))) (let ((_let_39 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_5))) (let ((_let_40 (tptp.fn_contractile_vacuole_12 X))) (let ((_let_41 (tptp.fn_contractile_vacuole_23 X))) (let ((_let_42 (tptp.fn_contractile_vacuole_13 X))) (let ((_let_43 (tptp.fn_endoplasmic_reticulum_14 _let_3))) (let ((_let_44 (tptp.fn_contractile_vacuole_14 X))) (let ((_let_45 (tptp.fn_contractile_vacuole_26 X))) (let ((_let_46 (tptp.fn_contractile_vacuole_25 X))) (let ((_let_47 (tptp.fn_contractile_vacuole_24 X))) (let ((_let_48 (tptp.fn_contractile_vacuole_28 X))) (let ((_let_49 (tptp.fn_eukaryotic_cell_29 _let_8))) (let ((_let_50 (tptp.fn_contractile_vacuole_33 X))) (let ((_let_51 (tptp.fn_eukaryotic_cell_41 _let_8))) (let ((_let_52 (tptp.fn_contractile_vacuole_22 X))) (let ((_let_53 (tptp.fn_eukaryotic_cell_44 _let_8))) (let ((_let_54 (tptp.fn_contractile_vacuole_17 X))) (let ((_let_55 (tptp.fn_eukaryotic_cell_30 _let_8))) (let ((_let_56 (tptp.fn_contractile_vacuole_10 X))) (let ((_let_57 (tptp.fn_eukaryotic_cell_21 _let_8))) (let ((_let_58 (tptp.fn_contractile_vacuole_18 X))) (let ((_let_59 (tptp.fn_eukaryotic_cell_27 _let_8))) (let ((_let_60 (tptp.fn_contractile_vacuole_19 X))) (let ((_let_61 (tptp.fn_eukaryotic_cell_59 _let_8))) (let ((_let_62 (tptp.fn_contractile_vacuole_16 X))) (let ((_let_63 (tptp.fn_eukaryotic_cell_28 _let_8))) (let ((_let_64 (tptp.fn_eukaryotic_cell_60 _let_8))) (let ((_let_65 (tptp.fn_contractile_vacuole_34 X))) (let ((_let_66 (tptp.fn_osmoregulation_19 _let_29))) (let ((_let_67 (tptp.fn_contractile_vacuole_6 X))) (let ((_let_68 (tptp.fn_contractile_vacuole_29 X))) (let ((_let_69 (tptp.fn_contractile_vacuole_5 X))) (let ((_let_70 (tptp.fn_cell_14 _let_8))) (let ((_let_71 (tptp.fn_contractile_vacuole_9 X))) (let ((_let_72 (tptp.fn_store_3 _let_1))) (let ((_let_73 (tptp.fn_contractile_vacuole_4 X))) (let ((_let_74 (tptp.fn_contractile_vacuole_2 X))) (let ((_let_75 (tptp.fn_contractile_vacuole_3 X))) (=> (tptp.contractile_vacuole_1 X) (and (tptp.original_name_2 X |tptp.'Contractile-Vacuole'|) (tptp.user_description_2 X |tptp.'Contractile Vacuole is a membranous sac involved in osmoregulation. It is most commonly found in protists.'|) (tptp.concept2words_2 X |tptp.'contractile vacuole'|) (tptp.concept2words_2 X |tptp.'contractile-vacuole'|) (tptp.vacuole_1 X) (not (tptp.central_vacuole_1 X)) (tptp.canal_1 _let_74) (tptp.volume_value_1 _let_75) (tptp.container_1 _let_73) (tptp.maintenance_1 _let_69) (tptp.cell_1 _let_67) (tptp.ribosome_1 _let_71) (tptp.eukaryotic_chromosome_1 _let_56) (tptp.chromosome_1 _let_56) (tptp.rough_endoplasmic_reticulum_1 _let_3) (tptp.golgi_apparatus_1 _let_40) (tptp.tangible_entity_1 _let_42) (tptp.nucleus_1 _let_42) (tptp.mitochondrion_1 _let_44) (tptp.smooth_endoplasmic_reticulum_1 _let_5) (tptp.volume_value_1 _let_62) (tptp.surface_1 _let_54) (tptp.protein_enzyme_1 _let_58) (tptp.size_value_1 _let_60) (tptp.tangible_entity_1 _let_38) (tptp.er_membrane_1 _let_38) (tptp.biomembrane_1 _let_38) (tptp.cisternal_space_1 _let_37) (tptp.tangible_entity_1 _let_52) (tptp.phospholipid_bilayer_1 _let_52) (tptp.aqueous_solution_1 _let_41) (tptp.liquid_substance_1 _let_41) (tptp.solution_1 _let_41) (tptp.substance_1 _let_41) (tptp.cytosol_1 _let_41) (tptp.container_1 _let_47) (tptp.biomembrane_1 _let_46) (tptp.aqueous_solution_1 _let_45) (tptp.osmoregulation_1 _let_29) (tptp.mixture_1 _let_48) (tptp.suspension_1 _let_48) (tptp.colloid_1 _let_48) (tptp.cytoplasm_1 _let_48) (tptp.entity_1 _let_68) (tptp.spatial_entity_1 _let_68) (tptp.tangible_entity_1 _let_68) (tptp.water_1 _let_68) (tptp.spatial_entity_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.remove_1 _let_13) (tptp.store_1 _let_1) (tptp.spatial_entity_1 _let_50) (tptp.biomembrane_1 _let_50) (tptp.plasma_membrane_1 _let_50) (tptp.substance_1 _let_65) (tptp.solid_substance_1 _let_65) (tptp.container_1 _let_72) (tptp.ribosome_1 _let_70) (tptp.cell_1 _let_66) (tptp.property_node_1 _let_64) (tptp.property_node_1 _let_63) (tptp.volume_value_1 _let_61) (tptp.size_value_1 _let_59) (tptp.protein_enzyme_1 _let_57) (tptp.eukaryotic_chromosome_1 _let_55) (tptp.chromosome_1 _let_55) (tptp.surface_1 _let_53) (tptp.tangible_entity_1 _let_51) (tptp.phospholipid_bilayer_1 _let_51) (tptp.spatial_entity_1 _let_49) (tptp.biomembrane_1 _let_49) (tptp.plasma_membrane_1 _let_49) (tptp.mitochondrion_1 _let_43) (tptp.golgi_apparatus_1 _let_39) (tptp.maintenance_1 _let_36) (tptp.maintenance_1 _let_35) (tptp.entity_1 _let_34) (tptp.spatial_entity_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.water_1 _let_30) (tptp.mixture_1 _let_28) (tptp.cytoplasm_1 _let_28) (tptp.mixture_1 _let_26) (tptp.cytoplasm_1 _let_26) (tptp.tangible_entity_1 _let_20) (tptp.nucleus_1 _let_20) (tptp.nucleus_1 _let_19) (tptp.substance_1 _let_18) (tptp.cytosol_1 _let_18) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.eukaryotic_cell_1 _let_11) (tptp.cell_1 _let_11) (tptp.eukaryotic_cell_1 _let_10) (tptp.cell_1 _let_10) (tptp.er_membrane_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.er_membrane_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.cisternal_space_1 _let_6) (tptp.cisternal_space_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.abuts_2 _let_3 _let_5) (not (= _let_3 _let_5)) (tptp.is_inside_2 _let_44 _let_41) (tptp.abuts_2 _let_5 _let_3) (not (= _let_5 _let_3)) (tptp.subevent_2 _let_29 _let_1) (tptp.subevent_2 _let_29 _let_13) (tptp.has_function_2 X _let_13) (tptp.volume_2 X _let_75) (tptp.has_function_2 _let_8 _let_29) (tptp.agent_2 _let_13 X) (tptp.is_inside_2 _let_74 _let_48) (tptp.base_2 _let_13 _let_8) (tptp.object_2 _let_13 _let_68) (tptp.is_inside_2 _let_68 X) (tptp.object_2 _let_1 _let_68) (tptp.in_event_2 _let_73 _let_1) (tptp.plays_2 X _let_73) (tptp.has_part_2 _let_8 _let_71) (tptp.is_inside_2 _let_71 _let_41) (tptp.base_2 _let_29 _let_67) (tptp.is_inside_2 _let_68 _let_67) (tptp.object_2 _let_69 _let_68) (tptp.causes_2 _let_29 _let_69) (tptp.has_part_2 _let_48 _let_65) (tptp.is_inside_2 _let_65 _let_41) (tptp.has_part_2 _let_8 X) (tptp.is_inside_2 _let_58 _let_38) (tptp.the_scalar_value_2 _let_60 tptp.big_0) (tptp.scalar_unit_class_2 _let_60 tptp.prokaryote_0) (tptp.size_2 _let_8 _let_60) (tptp.directly_proportional_2 _let_60 _let_62) (tptp.volume_2 _let_8 _let_62) (tptp.has_part_2 _let_8 _let_48) (tptp.is_inside_2 _let_56 _let_42) (tptp.is_between_2 _let_48 _let_42) (tptp.is_between_2 _let_48 _let_50) (tptp.is_inside_2 _let_48 _let_50) (tptp.has_part_2 _let_48 _let_58) (tptp.has_part_2 _let_8 _let_50) (tptp.has_part_2 _let_50 _let_52) (tptp.is_at_2 _let_52 _let_54) (tptp.has_region_2 _let_8 _let_54) (tptp.has_part_2 _let_8 _let_56) (tptp.is_between_2 _let_46 _let_41) (tptp.has_part_2 _let_48 _let_41) (tptp.plays_2 X _let_47) (tptp.in_event_2 _let_47 _let_1) (tptp.has_part_2 X _let_45) (tptp.is_between_2 _let_46 _let_45) (tptp.has_part_2 X _let_46) (tptp.has_function_2 X _let_1) (tptp.base_2 _let_1 X) (tptp.has_part_2 _let_8 _let_3) (tptp.has_part_2 _let_8 _let_44) (tptp.has_part_2 _let_8 _let_42) (tptp.has_part_2 _let_8 _let_5) (tptp.has_part_2 _let_8 _let_40) (tptp.is_inside_2 _let_40 _let_41) (tptp.is_inside_2 _let_37 _let_38) (tptp.has_region_2 _let_3 _let_37) (tptp.has_region_2 _let_5 _let_37) (= _let_8 _let_14) (= _let_68 _let_33) (= _let_68 _let_34) (= _let_68 _let_32) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_69 _let_36) (= _let_69 _let_35) (= _let_68 _let_31) (= _let_68 _let_30) (= _let_67 _let_66) (= _let_41 _let_17) (= _let_65 (tptp.fn_vesicle_6 X)) (= _let_38 _let_9) (= (tptp.fn_contractile_vacuole_8 X) _let_64) (= (tptp.fn_contractile_vacuole_7 X) _let_63) (= _let_8 _let_12) (= _let_48 _let_27) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_48 _let_26) (= _let_42 _let_20) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_28) (= _let_41 _let_18) (= _let_48 _let_25) (= _let_41 _let_16) (= _let_47 (tptp.fn_vacuole_11 X)) (= X _let_2) (= _let_1 (tptp.fn_vacuole_3 X)) (= _let_46 _let_24) (= _let_46 _let_23) (= _let_45 _let_22) (= _let_45 _let_21) (= _let_44 _let_43) (= _let_8 _let_11) (= _let_42 _let_19) (= _let_41 _let_15) (= _let_40 _let_39) (= _let_8 _let_10) (= _let_37 _let_6) (= _let_38 _let_7) (= _let_37 _let_4) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_control_element_2 X))) (let ((_let_2 (tptp.fn_control_element_1 X))) (=> (tptp.control_element_1 X) (and (tptp.original_name_2 X |tptp.'Control-Element'|) (tptp.user_description_2 X |tptp.'A segment of noncoding DNA that helps regulate transcription of a gene by binding a transcription factor. Multiple control elements are present in a eukaryotic gene?s enhancer.'|) (tptp.concept2words_2 X |tptp.'element of control'|) (tptp.concept2words_2 X |tptp.'control element'|) (tptp.concept2words_2 X |tptp.'control-element'|) (tptp.dna_sequence_1 X) (not (tptp.constant_region_dna_sequence_1 X)) (not (tptp.dna_strand_1 X)) (not (tptp.episome_1 X)) (not (tptp.genetic_marker_1 X)) (not (tptp.pseudogene_1 X)) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.restriction_site_1 X)) (not (tptp.telomere_1 X)) (not (tptp.transcription_unit_1 X)) (not (tptp.transposon_1 X)) (not (tptp.ttaggg_1 X)) (not (tptp.variable_region_dna_sequence_1 X)) (tptp.attach_1 _let_2) (tptp.transcription_1 _let_1) (tptp.agent_2 _let_2 X) (tptp.enables_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.control_group_1 X) (and (tptp.original_name_2 X |tptp.'Control-Group'|) (tptp.user_description_2 X |tptp.'An experimental group not subject to the experimental treatment, used for comparison of effectiveness.'|) (tptp.concept2words_2 X |tptp.'group of control'|) (tptp.concept2words_2 X |tptp.'control group'|) (tptp.concept2words_2 X |tptp.'control-group'|) (tptp.experimental_group_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_control_of_endocytosis_3 X))) (let ((_let_2 (tptp.fn_control_of_endocytosis_6 X))) (let ((_let_3 (tptp.fn_control_of_endocytosis_4 X))) (let ((_let_4 (tptp.fn_control_of_endocytosis_5 X))) (=> (tptp.control_of_endocytosis_1 X) (and (tptp.original_name_2 X |tptp.'Control-Of-Endocytosis'|) (tptp.user_description_2 X |tptp.'The plasma membrane controls traffic into and out of the cell it surrounds.'|) (tptp.concept2words_2 X |tptp.'control endocytosis'|) (tptp.concept2words_2 X |tptp.'endocytosis control'|) (tptp.concept2words_2 X |tptp.'endocytosis-control'|) (tptp.concept2words_2 X |tptp.'control of endocytosis'|) (tptp.concept2words_2 X |tptp.'control-of-endocytosis'|) (tptp.regulation_1 X) (tptp.intensity_value_1 _let_1) (tptp.intensity_value_1 _let_3) (tptp.endocytosis_1 _let_4) (tptp.plasma_membrane_1 _let_2) (tptp.directly_proportional_2 _let_1 _let_3) (tptp.intensity_2 _let_4 _let_3) (tptp.agent_2 X _let_2) (tptp.intensity_2 X _let_1)))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.gene_regulation_1 X) (tptp.eukaryotic_cell_1 X1)) (and (tptp.control_of_eukaryotic_translation_initiation_1 X) (= (tptp.fn_control_of_eukaryotic_translation_initiation_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_control_of_eukaryotic_translation_initiation_14 X))) (let ((_let_2 (tptp.fn_mrna_34 _let_1))) (let ((_let_3 (tptp.fn_control_of_eukaryotic_translation_initiation_10 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_control_of_eukaryotic_translation_initiation_13 X))) (let ((_let_6 (tptp.fn_control_of_eukaryotic_translation_initiation_9 X))) (let ((_let_7 (tptp.fn_eukaryotic_translation_29 _let_6))) (let ((_let_8 (tptp.fn_control_of_eukaryotic_translation_initiation_16 X))) (let ((_let_9 (tptp.fn_control_of_eukaryotic_translation_initiation_11 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_control_of_eukaryotic_translation_initiation_15 X))) (let ((_let_12 (tptp.fn_attach_1 _let_3))) (let ((_let_13 (tptp.fn_control_of_eukaryotic_translation_initiation_12 X))) (let ((_let_14 (tptp.fn_attach_1 _let_9))) (let ((_let_15 (tptp.fn_control_of_eukaryotic_translation_initiation_4 X))) (let ((_let_16 (tptp.fn_control_of_eukaryotic_translation_initiation_3 X))) (let ((_let_17 (tptp.fn_control_of_eukaryotic_translation_initiation_5 X))) (let ((_let_18 (tptp.fn_control_of_eukaryotic_translation_initiation_2 X))) (let ((_let_19 (tptp.fn_control_of_eukaryotic_translation_initiation_7 X))) (let ((_let_20 (tptp.fn_control_of_eukaryotic_translation_initiation_6 X))) (let ((_let_21 (tptp.fn_control_of_eukaryotic_translation_initiation_8 X))) (=> (tptp.control_of_eukaryotic_translation_initiation_1 X) (and (tptp.original_name_2 X |tptp.'Control-Of-Eukaryotic-Translation-Initiation'|) (tptp.user_description_2 X |tptp.'Translation control mechanism that blocks the initiation stage of polypeptide synthesis.'|) (tptp.concept2words_2 X |tptp.'control eukaryotic translation initiation'|) (tptp.concept2words_2 X |tptp.'control of eukaryotic translation initiation'|) (tptp.concept2words_2 X |tptp.'control-of-eukaryotic-translation-initiation'|) (tptp.gene_regulation_1 X) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.eukaryotic_cell_1 _let_18) (tptp.event_1 _let_16) (tptp.event_1 _let_15) (tptp.block_1 _let_17) (tptp.embryo_1 _let_20) (tptp.development_1 _let_19) (tptp.eukaryotic_gene_expression_1 _let_21) (tptp.eukaryotic_translation_1 _let_6) (tptp.attach_1 _let_3) (tptp.attach_1 _let_9) (tptp.regulatory_protein_1 _let_13) (tptp.spatial_entity_1 _let_5) (tptp.number_5_prime_end_1 _let_5) (tptp.spatial_entity_1 _let_1) (tptp.mrna_1 _let_1) (tptp.ribosome_1 _let_11) (tptp.translation_initiation_1 _let_8) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.translation_initiation_1 _let_7) (tptp.spatial_entity_1 _let_4) (tptp.number_5_prime_end_1 _let_2) (tptp.by_means_of_2 _let_21 X) (tptp.object_2 _let_19 _let_20) (tptp.by_means_of_2 _let_19 X) (tptp.base_2 X _let_18) (tptp.inhibits_2 X _let_8) (tptp.agent_2 _let_3 _let_13) (tptp.enables_2 _let_3 _let_17) (tptp.agent_2 _let_17 _let_13) (tptp.inhibits_2 _let_17 _let_9) (tptp.inhibits_2 _let_17 _let_8) (tptp.subevent_2 _let_6 _let_16) (tptp.subevent_2 _let_6 _let_15) (tptp.object_2 _let_9 _let_1) (tptp.object_2 _let_3 _let_13) (tptp.base_2 _let_3 _let_5) (tptp.base_2 _let_9 _let_11) (tptp.subevent_2 _let_6 _let_8) (tptp.has_region_2 _let_1 _let_5) (= _let_1 _let_14) (= _let_13 _let_12) (= _let_5 _let_4) (= _let_11 _let_10) (= _let_8 _let_7) (= _let_5 _let_2) (= _let_4 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_control_of_exocytosis_2 X))) (let ((_let_2 (tptp.fn_control_of_exocytosis_1 X))) (=> (tptp.control_of_exocytosis_1 X) (and (tptp.original_name_2 X |tptp.'Control-Of-Exocytosis'|) (tptp.user_description_2 X |tptp.'The plasma membrane controls traffic into and out of the cell it surrounds.'|) (tptp.concept2words_2 X |tptp.'control exocytosis'|) (tptp.concept2words_2 X |tptp.'exocytosis control'|) (tptp.concept2words_2 X |tptp.'exocytosis-control'|) (tptp.concept2words_2 X |tptp.'control of exocytosis'|) (tptp.concept2words_2 X |tptp.'control-of-exocytosis'|) (tptp.regulation_1 X) (tptp.plasma_membrane_1 _let_2) (tptp.exocytosis_1 _let_1) (tptp.agent_2 X _let_2) (tptp.supports_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_control_of_glycolysis_2 X))) (let ((_let_2 (tptp.fn_phosphofructokinase_4 _let_1))) (let ((_let_3 (tptp.fn_phosphofructokinase_18 _let_1))) (let ((_let_4 (tptp.fn_phosphofructokinase_19 _let_1))) (let ((_let_5 (tptp.fn_control_of_glycolysis_4 X))) (let ((_let_6 (tptp.fn_feedback_inhibition_of_glycolysis_2 _let_5))) (let ((_let_7 (tptp.fn_control_of_glycolysis_3 X))) (let ((_let_8 (tptp.fn_feedback_inhibition_of_glycolysis_by_atp_2 _let_7))) (let ((_let_9 (tptp.fn_control_of_glycolysis_6 X))) (let ((_let_10 (tptp.fn_feedback_inhibition_of_glycolysis_by_atp_1 _let_7))) (let ((_let_11 (tptp.fn_control_of_glycolysis_1 X))) (let ((_let_12 (tptp.fn_phosphofructokinase_27 _let_1))) (let ((_let_13 (tptp.fn_control_of_glycolysis_5 X))) (=> (tptp.control_of_glycolysis_1 X) (and (tptp.original_name_2 X |tptp.'Control-Of-Glycolysis'|) (tptp.user_description_2 X |tptp.'The control of the process of glycolysis, which includes positive and negative feedback mechanisms.'|) (tptp.concept2words_2 X |tptp.'control glycolysis'|) (tptp.concept2words_2 X |tptp.'glycolysis control'|) (tptp.concept2words_2 X |tptp.'glycolysis-control'|) (tptp.concept2words_2 X |tptp.'control of glycolysis'|) (tptp.concept2words_2 X |tptp.'control-of-glycolysis'|) (tptp.regulation_1 X) (tptp.collecting_1 _let_11) (tptp.phosphofructokinase_1 _let_1) (tptp.feedback_inhibition_of_glycolysis_by_atp_1 _let_7) (tptp.inhibition_1 _let_5) (tptp.regulation_1 _let_5) (tptp.feedback_inhibition_of_glycolysis_by_citrate_1 _let_5) (tptp.feedback_inhibition_of_glycolysis_1 _let_5) (tptp.activate_1 _let_13) (tptp.cell_1 _let_9) (tptp.activate_1 _let_12) (tptp.collecting_1 _let_10) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.regulation_1 _let_4) (tptp.inhibition_1 _let_3) (tptp.regulation_1 _let_3) (tptp.feedback_inhibition_of_glycolysis_by_citrate_1 _let_2) (tptp.base_2 X _let_9) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_13) (tptp.object_2 _let_13 _let_1) (tptp.object_2 _let_5 _let_1) (tptp.base_2 _let_7 _let_9) (tptp.base_2 _let_11 _let_9) (tptp.by_means_of_2 _let_7 _let_11) (tptp.base_2 _let_5 _let_9) (= _let_13 _let_12) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_5 _let_2) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_9 _let_6) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.controlled_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Controlled-Experiment'|) (tptp.user_description_2 X |tptp.'An experiment that compares an experimental group to a control group that is identical except for the factor that is being tested.'|) (tptp.concept2words_2 X tptp.experiment) (tptp.concept2words_2 X |tptp.'experiment of controlled'|) (tptp.concept2words_2 X |tptp.'controlled experiment'|) (tptp.concept2words_2 X |tptp.'controlled-experiment'|) (tptp.experiment_1 X) (not (tptp.anchor_cell_destruction_experiment_1 X)) (not (tptp.bicoid_protein_hypothesis_experiment_1 X)) (not (tptp.meselson_and_stahl_experiment_1 X)) (not (tptp.steward_experiment_on_carrot_1 X)) (not (tptp.study_on_drosophila_by_morgan_1 X)) (not (tptp.tomato_chimera_experiment_1 X)) (not (tptp.undifferentiated_cell_nucleus_transplantation_to_frog_egg_1 X))))) (forall ((X $$unsorted)) (=> (tptp.convection_1 X) (and (tptp.original_name_2 X |tptp.'Convection'|) (tptp.user_description_2 X |tptp.'The collective movement of masses of molecules within a fluid substance.'|) (tptp.concept2words_2 X tptp.convect) (tptp.concept2words_2 X tptp.convection) (tptp.heat_transfer_1 X)))) (forall ((X $$unsorted)) (=> (tptp.convergent_evolution_1 X) (and (tptp.original_name_2 X |tptp.'Convergent-Evolution'|) (tptp.user_description_2 X |tptp.'The evolution of similar traits in independent, non-related, evolutionary lineages.'|) (tptp.concept2words_2 X |tptp.'convergent evolution'|) (tptp.concept2words_2 X |tptp.'convergent-evolution'|) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.convergent_extension_1 X) (and (tptp.original_name_2 X |tptp.'Convergent-Extension'|) (tptp.user_description_2 X |tptp.'A process in embryonic development in which the cells of a tissue rearrange themselves to converge (become narrow) along one axis and extend (become longer) along the perpendicular axis.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'convergent extension'|) (tptp.concept2words_2 X |tptp.'convergent-extension'|) (tptp.development_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_camp_to_atp_21 X))) (let ((_let_2 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_atp_16 X))) (let ((_let_4 (tptp.fn_synthesis_of_atp_20 X))) (let ((_let_5 (tptp.fn_synthesis_of_atp_19 X))) (let ((_let_6 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_7 (tptp.fn_synthesis_of_atp_17 X))) (let ((_let_8 (tptp.fn_synthesis_of_atp_15 X))) (let ((_let_9 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_10 (tptp.fn_synthesis_of_atp_21 X))) (let ((_let_11 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_12 (tptp.fn_synthesis_of_atp_18 X))) (let ((_let_13 (tptp.fn_conversion_of_camp_to_atp_23 X))) (let ((_let_14 (tptp.fn_reactant_2 _let_13))) (let ((_let_15 (tptp.fn_conversion_of_camp_to_atp_10 X))) (let ((_let_16 (tptp.fn_enzyme_4 _let_15))) (let ((_let_17 (tptp.fn_synthesis_of_atp_13 X))) (let ((_let_18 (tptp.fn_synthesis_of_organic_molecule_1 X))) (let ((_let_19 (tptp.fn_functional_group_1 _let_1))) (let ((_let_20 (tptp.fn_synthesis_of_atp_10 X))) (let ((_let_21 (tptp.fn_anabolic_pathway_6 X))) (let ((_let_22 (tptp.fn_conversion_of_camp_to_atp_22 X))) (let ((_let_23 (tptp.fn_conversion_of_camp_to_atp_9 X))) (let ((_let_24 (tptp.fn_conversion_of_camp_to_atp_7 X))) (let ((_let_25 (tptp.fn_conversion_of_camp_to_atp_8 X))) (let ((_let_26 (tptp.fn_reactant_3 _let_13))) (let ((_let_27 (tptp.fn_conversion_of_camp_to_atp_13 X))) (let ((_let_28 (tptp.fn_conversion_of_camp_to_atp_11 X))) (let ((_let_29 (tptp.fn_conversion_of_camp_to_atp_6 X))) (let ((_let_30 (tptp.fn_conversion_of_camp_to_atp_15 X))) (let ((_let_31 (tptp.fn_conversion_of_camp_to_atp_14 X))) (let ((_let_32 (tptp.fn_conversion_of_camp_to_atp_19 X))) (let ((_let_33 (tptp.fn_conversion_of_camp_to_atp_20 X))) (let ((_let_34 (tptp.fn_conversion_of_camp_to_atp_16 X))) (let ((_let_35 (tptp.fn_conversion_of_camp_to_atp_17 X))) (let ((_let_36 (tptp.fn_conversion_of_camp_to_atp_18 X))) (let ((_let_37 (tptp.fn_conversion_of_camp_to_atp_12 X))) (let ((_let_38 (tptp.fn_conversion_of_camp_to_atp_1 X))) (=> (tptp.conversion_of_camp_to_atp_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-Of-cAMP-To-ATP'|) (tptp.user_description_2 X |tptp.'Synthesis of ATP by phosphodiesterase decomposing cyclic AMP to AMP, then phosphate groups being bound to AMP.'|) (tptp.concept2words_2 X |tptp.'camp being converted to atp'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of camp to atp'|) (tptp.concept2words_2 X |tptp.'conversion-of-camp-to-atp'|) (tptp.synthesis_of_atp_1 X) (tptp.cell_preparation_for_next_signal_reception_1 _let_38) (tptp.free_energy_1 _let_29) (tptp.covalent_bond_1 _let_24) (tptp.chemical_bond_1 _let_24) (tptp.single_bond_1 _let_24) (tptp.oxygen_1 _let_25) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.cyclic_nucleotide_phosphodiesterase_1 _let_15) (tptp.organic_molecule_1 _let_28) (tptp.molecule_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.ribonucleotide_1 _let_28) (tptp.nucleoside_triphosphate_1 _let_28) (tptp.atp_1 _let_28) (tptp.cyclic_amp_1 _let_37) (tptp.adp_1 _let_27) (tptp.quantity_value_1 _let_31) (tptp.quantity_value_1 _let_30) (tptp.structural_complexity_value_1 _let_34) (tptp.structural_complexity_value_1 _let_35) (tptp.free_energy_1 _let_36) (tptp.functional_group_1 _let_32) (tptp.phosphate_group_1 _let_32) (tptp.functional_group_1 _let_33) (tptp.phosphate_group_1 _let_33) (tptp.functional_group_1 _let_1) (tptp.phosphate_group_1 _let_1) (tptp.tangible_entity_1 _let_22) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.phosphorus_1 _let_22) (tptp.reactant_1 _let_13) (tptp.chemical_entity_1 _let_26) (tptp.chemical_entity_1 _let_19) (tptp.chemical_reaction_1 _let_16) (tptp.chemical_reaction_1 _let_14) (tptp.oxygen_1 _let_11) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.single_bond_1 _let_9) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.phosphorus_1 _let_2) (tptp.structural_complexity_2 _let_27 _let_35) (tptp.possesses_2 _let_27 _let_36) (not (= _let_27 _let_28)) (tptp.subevent_2 _let_38 X) (not (= _let_28 _let_27)) (tptp.raw_material_2 X _let_37) (tptp.has_function_2 _let_15 X) (tptp.has_part_2 _let_28 _let_23) (tptp.called_2 _let_30 |tptp.'FE_p'|) (tptp.quantity_2 _let_36 _let_31) (tptp.called_2 _let_1 |tptp.'Terminal PO4 Group'|) (tptp.has_region_2 _let_28 _let_1) (not (= _let_1 _let_33)) (tptp.has_region_2 _let_28 _let_33) (tptp.structural_complexity_2 _let_28 _let_34) (tptp.greater_than_2 _let_34 _let_35) (not (= _let_33 _let_1)) (tptp.is_inside_2 _let_22 _let_32) (tptp.has_part_2 _let_28 _let_22) (tptp.has_part_2 _let_28 _let_25) (tptp.is_between_2 _let_24 _let_25) (tptp.possesses_2 _let_28 _let_24) (tptp.is_inside_2 _let_25 _let_33) (tptp.is_inside_2 _let_25 _let_32) (tptp.is_inside_2 _let_23 _let_32) (tptp.is_inside_2 _let_23 _let_1) (tptp.is_inside_2 _let_22 _let_1) (tptp.has_region_2 _let_28 _let_32) (not (= _let_33 _let_32)) (not (= _let_32 _let_33)) (not (= _let_1 _let_32)) (not (= _let_32 _let_1)) (tptp.result_2 X _let_28) (tptp.possesses_2 _let_28 _let_29) (tptp.quantity_2 _let_29 _let_30) (tptp.greater_than_2 _let_30 _let_31) (tptp.called_2 _let_31 |tptp.'FE_r'|) (tptp.raw_material_2 X _let_27) (tptp.in_event_2 _let_13 X) (not (= _let_25 _let_22)) (not (= _let_22 _let_25)) (not (= _let_25 _let_23)) (not (= _let_23 _let_25)) (tptp.is_inside_2 _let_25 _let_1) (not (= _let_23 _let_22)) (not (= _let_22 _let_23)) (tptp.is_between_2 _let_24 _let_23) (tptp.is_inside_2 _let_23 _let_33) (tptp.is_inside_2 _let_22 _let_33) (tptp.plays_2 _let_27 _let_13) (= _let_37 _let_21) (= _let_37 _let_20) (= X _let_16) (= (tptp.fn_conversion_of_camp_to_atp_5 X) (tptp.fn_synthesis_of_atp_26 X)) (= _let_23 _let_8) (= (tptp.fn_conversion_of_camp_to_atp_4 X) (tptp.fn_synthesis_of_atp_25 X)) (= (tptp.fn_conversion_of_camp_to_atp_3 X) (tptp.fn_synthesis_of_atp_24 X)) (= _let_36 (tptp.fn_synthesis_of_atp_6 X)) (= (tptp.fn_conversion_of_camp_to_atp_2 X) (tptp.fn_synthesis_of_atp_27 X)) (= _let_35 (tptp.fn_synthesis_of_atp_23 X)) (= _let_34 (tptp.fn_synthesis_of_atp_22 X)) (= _let_33 _let_5) (= _let_28 _let_19) (= _let_1 _let_4) (= _let_24 _let_10) (= _let_25 _let_7) (= _let_22 _let_3) (= _let_1 _let_12) (= _let_23 _let_7) (= _let_32 _let_5) (= _let_25 _let_8) (= _let_1 _let_5) (= _let_33 _let_4) (= _let_32 _let_12) (= _let_31 (tptp.fn_synthesis_of_atp_7 X)) (= _let_30 (tptp.fn_synthesis_of_atp_8 X)) (= _let_29 (tptp.fn_synthesis_of_atp_9 X)) (= _let_28 _let_18) (= _let_28 _let_17) (= X _let_14) (= _let_27 _let_26) (= _let_25 _let_11) (= _let_24 _let_9) (= _let_23 _let_6) (= _let_22 _let_2) (= _let_21 _let_20) (= _let_20 _let_5) (= _let_5 _let_12) (= _let_12 _let_19) (= _let_19 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_4) (= _let_4 _let_12) (= _let_12 _let_12) (= _let_12 _let_5) (= _let_5 _let_7) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_carbohydrate_to_fat_5 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_conversion_of_carbohydrate_to_fat_9 X))) (let ((_let_4 (tptp.fn_catabolic_pathway_9 _let_3))) (let ((_let_5 (tptp.fn_reactant_3 _let_1))) (let ((_let_6 (tptp.fn_conversion_of_carbohydrate_to_fat_8 X))) (let ((_let_7 (tptp.fn_catabolic_pathway_9 _let_6))) (let ((_let_8 (tptp.fn_catabolic_pathway_4 _let_3))) (let ((_let_9 (tptp.fn_anabolic_pathway_3 X))) (let ((_let_10 (tptp.fn_conversion_of_carbohydrate_to_fat_10 X))) (let ((_let_11 (tptp.fn_catabolic_pathway_2 _let_3))) (let ((_let_12 (tptp.fn_conversion_of_carbohydrate_to_fat_11 X))) (let ((_let_13 (tptp.fn_conversion_of_carbohydrate_to_fat_12 X))) (let ((_let_14 (tptp.fn_catabolic_pathway_5 _let_3))) (let ((_let_15 (tptp.fn_catabolic_pathway_1 _let_3))) (let ((_let_16 (tptp.fn_conversion_of_carbohydrate_to_fat_6 X))) (let ((_let_17 (tptp.fn_conversion_of_carbohydrate_to_fat_7 X))) (let ((_let_18 (tptp.fn_conversion_of_carbohydrate_to_fat_1 X))) (let ((_let_19 (tptp.fn_conversion_of_carbohydrate_to_fat_2 X))) (=> (tptp.conversion_of_carbohydrate_to_fat_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-Of-Carbohydrate-To-Fat'|) (tptp.user_description_2 X |tptp.'The catabolic change of fat molecules to carbohydrates in order to harvest the energy stored in the fat molecules.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of carbohydrate to fat'|) (tptp.concept2words_2 X |tptp.'conversion-of-carbohydrate-to-fat'|) (tptp.anabolic_pathway_1 X) (tptp.determined_by_1 _let_18) (tptp.resource_1 _let_19) (tptp.reactant_1 _let_1) (tptp.cell_1 _let_16) (tptp.fat_1 _let_17) (tptp.citric_acid_cycle_1 _let_6) (tptp.glycolysis_1 _let_3) (tptp.carbohydrate_1 _let_10) (tptp.structural_complexity_value_1 _let_12) (tptp.structural_complexity_value_1 _let_13) (tptp.property_node_1 _let_15) (tptp.property_node_1 _let_14) (tptp.structural_complexity_value_1 _let_11) (tptp.structural_complexity_value_1 _let_8) (tptp.organic_molecule_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.organic_molecule_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.by_means_of_2 _let_18 X) (tptp.object_2 _let_18 _let_16) (tptp.in_event_2 _let_19 X) (tptp.causes_2 X _let_18) (tptp.result_2 _let_6 _let_10) (tptp.result_2 X _let_17) (tptp.structural_complexity_2 _let_17 _let_13) (tptp.base_2 X _let_16) (tptp.in_event_2 _let_1 X) (tptp.raw_material_2 X _let_10) (tptp.plays_2 _let_10 _let_1) (tptp.result_2 _let_3 _let_10) (tptp.structural_complexity_2 _let_10 _let_12) (tptp.greater_than_2 _let_13 _let_12) (= _let_10 _let_7) (= _let_13 _let_9) (= _let_17 (tptp.fn_anabolic_pathway_5 X)) (= _let_16 (tptp.fn_metabolic_pathway_1 X)) (= _let_10 _let_5) (= X _let_2) (= (tptp.fn_conversion_of_carbohydrate_to_fat_4 X) _let_15) (= (tptp.fn_conversion_of_carbohydrate_to_fat_3 X) _let_14) (= _let_13 _let_8) (= _let_12 _let_11) (= _let_10 _let_4) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_15 X))) (let ((_let_2 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_24 _let_1))) (let ((_let_3 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_9 X))) (let ((_let_4 (tptp.fn_oxidation_10 _let_3))) (let ((_let_5 (tptp.fn_redox_reaction_12 X))) (let ((_let_6 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_11 X))) (let ((_let_7 (tptp.fn_electron_recipient_2 _let_6))) (let ((_let_8 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_9 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_18 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_21 _let_1))) (let ((_let_12 (tptp.fn_chemical_reaction_1 X))) (let ((_let_13 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_26 _let_1))) (let ((_let_14 (tptp.fn_redox_reaction_16 X))) (let ((_let_15 (tptp.fn_oxidation_7 _let_3))) (let ((_let_16 (tptp.fn_redox_reaction_7 X))) (let ((_let_17 (tptp.fn_oxidation_9 _let_3))) (let ((_let_18 (tptp.fn_oxidation_1 _let_3))) (let ((_let_19 (tptp.fn_redox_reaction_2 X))) (let ((_let_20 (tptp.fn_oxidation_2 _let_3))) (let ((_let_21 (tptp.fn_redox_reaction_1 X))) (let ((_let_22 (tptp.fn_oxidation_5 _let_3))) (let ((_let_23 (tptp.fn_redox_reaction_3 X))) (let ((_let_24 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_21 X))) (let ((_let_25 (tptp.fn_animal_cell_59 _let_24))) (let ((_let_26 (tptp.fn_liver_cell_93 _let_24))) (let ((_let_27 (tptp.fn_animal_cell_47 _let_24))) (let ((_let_28 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_14 X))) (let ((_let_29 (tptp.fn_impair_1 _let_28))) (let ((_let_30 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_22 X))) (let ((_let_31 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_8 X))) (let ((_let_32 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_12 X))) (let ((_let_33 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_29 _let_1))) (let ((_let_34 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_19 X))) (let ((_let_35 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_3 X))) (let ((_let_36 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_10 X))) (let ((_let_37 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_4 X))) (let ((_let_38 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_5 X))) (let ((_let_39 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_2 X))) (let ((_let_40 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_7 X))) (let ((_let_41 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_6 X))) (let ((_let_42 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_17 X))) (let ((_let_43 (tptp.fn_animal_cell_21 _let_24))) (let ((_let_44 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_16 X))) (let ((_let_45 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_13 X))) (let ((_let_46 (tptp.fn_carry_1 _let_9))) (let ((_let_47 (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_20 X))) (=> (tptp.conversion_of_lactate_to_pyruvate_by_liver_cell_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-Of-Lactate-To-Pyruvate-By-Liver-Cell'|) (tptp.user_description_2 X |tptp.'The chemical change of the excess lactate produced during lactic acid fermentation, allowing the pyruvate to enter the mitochondria in the liver cells, where oxygen is present, and complete cellular respiration.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of lactate to pyruvate by liver cell'|) (tptp.concept2words_2 X |tptp.'conversion-of-lactate-to-pyruvate-by-liver-cell'|) (tptp.redox_reaction_1 X) (tptp.tangible_entity_1 _let_35) (tptp.electron_1 _let_35) (tptp.atom_1 _let_37) (tptp.electronegativity_value_1 _let_38) (tptp.electronegativity_value_1 _let_41) (tptp.atom_1 _let_40) (tptp.spatial_entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.organic_molecule_1 _let_31) (tptp.molecule_1 _let_31) (tptp.nadh_1 _let_31) (tptp.oxidation_1 _let_3) (tptp.reduction_1 _let_36) (tptp.electron_recipient_1 _let_6) (tptp.spatial_entity_1 _let_32) (tptp.tangible_entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.molecule_1 _let_32) (tptp.organic_molecule_1 _let_32) (tptp.nad_plus_1 _let_32) (tptp.pyruvate_1 _let_45) (tptp.break_1 _let_28) (tptp.lactic_acid_fermentation_in_muscle_cell_1 _let_1) (tptp.pyruvate_oxidation_1 _let_44) (tptp.semiautonomous_organelle_1 _let_42) (tptp.organelle_1 _let_42) (tptp.mitochondrion_1 _let_42) (tptp.carry_1 _let_9) (tptp.cell_1 _let_34) (tptp.muscle_cell_1 _let_34) (tptp.animal_cell_1 _let_34) (tptp.blood_1 _let_47) (tptp.liver_cell_1 _let_24) (tptp.spatial_entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.lactate_1 _let_30) (tptp.tangible_entity_1 _let_46) (tptp.catabolic_pathway_1 _let_43) (tptp.cell_1 _let_33) (tptp.muscle_cell_1 _let_33) (tptp.animal_cell_1 _let_33) (tptp.tangible_entity_1 _let_29) (tptp.spatial_entity_1 _let_27) (tptp.organic_molecule_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.semiautonomous_organelle_1 _let_26) (tptp.organelle_1 _let_26) (tptp.mitochondrion_1 _let_26) (tptp.semiautonomous_organelle_1 _let_25) (tptp.organelle_1 _let_25) (tptp.mitochondrion_1 _let_25) (tptp.property_node_1 _let_22) (tptp.electronegativity_value_1 _let_20) (tptp.atom_1 _let_18) (tptp.electron_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.molecule_1 _let_13) (tptp.organic_molecule_1 _let_13) (tptp.nad_plus_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.molecule_1 _let_11) (tptp.nadh_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_4) (tptp.lactate_1 _let_2) (tptp.subevent_2 _let_44 _let_28) (tptp.enables_2 _let_9 X) (tptp.destination_2 _let_9 _let_24) (tptp.origin_2 _let_9 _let_34) (tptp.base_2 X _let_24) (tptp.result_2 X _let_45) (tptp.agent_2 _let_9 _let_47) (tptp.object_2 _let_9 _let_30) (tptp.object_2 _let_28 _let_45) (tptp.plays_2 _let_30 _let_6) (tptp.result_2 X _let_31) (tptp.has_part_2 _let_24 _let_42) (tptp.site_2 _let_44 _let_42) (tptp.raw_material_2 _let_44 _let_45) (tptp.recipient_2 _let_36 _let_32) (tptp.recipient_2 _let_3 _let_32) (tptp.raw_material_2 X _let_32) (tptp.donor_2 _let_36 _let_30) (tptp.raw_material_2 X _let_30) (tptp.has_atom_2 _let_30 _let_40) (tptp.electronegativity_2 _let_40 _let_41) (tptp.greater_than_2 _let_38 _let_41) (tptp.greater_than_or_equal_to_2 _let_38 _let_41) (tptp.donor_2 _let_3 _let_30) (not (= _let_30 _let_35)) (not (= _let_35 _let_32)) (tptp.has_atom_2 _let_32 _let_37) (tptp.electronegativity_2 _let_37 _let_38) (not (= _let_35 _let_30)) (not (= _let_32 _let_35)) (tptp.subevent_2 X _let_3) (tptp.object_2 _let_3 _let_35) (tptp.object_2 _let_36 _let_35) (tptp.subevent_2 X _let_36) (tptp.base_2 _let_1 _let_34) (tptp.has_oxidized_form_2 _let_31 _let_32) (tptp.has_reduced_form_2 _let_32 _let_31) (tptp.result_2 _let_1 _let_30) (not (= _let_30 _let_32)) (not (= _let_32 _let_31)) (not (= _let_31 _let_30)) (not (= _let_30 _let_31)) (not (= _let_32 _let_30)) (not (= _let_31 _let_32)) (= _let_47 _let_46) (= _let_30 _let_10) (= _let_45 _let_29) (= _let_30 _let_7) (= _let_31 _let_12) (= _let_45 _let_27) (= _let_44 _let_43) (= _let_42 _let_26) (= _let_42 _let_25) (= (tptp.fn_conversion_of_lactate_to_pyruvate_by_liver_cell_1 X) (tptp.fn_redox_reaction_15 X)) (= _let_41 (tptp.fn_redox_reaction_14 X)) (= _let_40 (tptp.fn_redox_reaction_13 X)) (= _let_30 _let_5) (= _let_39 _let_23) (= _let_39 _let_22) (= _let_38 _let_21) (= _let_38 _let_20) (= _let_32 _let_14) (= _let_37 _let_19) (= _let_37 _let_18) (= _let_32 _let_15) (= _let_32 _let_4) (= _let_30 _let_4) (= _let_36 (tptp.fn_redox_reaction_10 X)) (= _let_35 _let_17) (= _let_35 _let_16) (= _let_3 (tptp.fn_redox_reaction_11 X)) (= _let_34 _let_33) (= _let_32 _let_13) (= _let_31 _let_11) (= _let_30 _let_8) (= _let_30 _let_2) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_4) (= _let_4 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_protein_to_fat_5 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_6 X))) (let ((_let_4 (tptp.fn_reactant_3 _let_1))) (let ((_let_5 (tptp.fn_conversion_of_protein_to_fat_7 X))) (let ((_let_6 (tptp.fn_conversion_of_protein_to_fat_9 X))) (let ((_let_7 (tptp.fn_conversion_of_protein_to_fat_10 X))) (let ((_let_8 (tptp.fn_conversion_of_protein_to_fat_8 X))) (let ((_let_9 (tptp.fn_conversion_of_protein_to_fat_6 X))) (let ((_let_10 (tptp.fn_conversion_of_protein_to_fat_2 X))) (let ((_let_11 (tptp.fn_conversion_of_protein_to_fat_1 X))) (=> (tptp.conversion_of_protein_to_fat_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-Of-Protein-To-Fat'|) (tptp.user_description_2 X |tptp.'Excess dietary protein cannot be stored; it is converted to fat for storage.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of protein to fat'|) (tptp.concept2words_2 X |tptp.'conversion-of-protein-to-fat'|) (tptp.anabolic_pathway_1 X) (tptp.resource_1 _let_11) (tptp.determined_by_1 _let_10) (tptp.reactant_1 _let_1) (tptp.fat_1 _let_9) (tptp.protein_1 _let_5) (tptp.cell_1 _let_8) (tptp.structural_complexity_value_1 _let_6) (tptp.structural_complexity_value_1 _let_7) (tptp.chemical_entity_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.causes_2 X _let_10) (tptp.in_event_2 _let_11 X) (tptp.by_means_of_2 _let_10 X) (tptp.object_2 _let_10 _let_8) (tptp.plays_2 _let_5 _let_1) (tptp.result_2 X _let_9) (tptp.structural_complexity_2 _let_9 _let_7) (tptp.in_event_2 _let_1 X) (tptp.base_2 X _let_8) (tptp.raw_material_2 X _let_5) (tptp.structural_complexity_2 _let_5 _let_6) (tptp.greater_than_2 _let_7 _let_6) (= _let_9 (tptp.fn_anabolic_pathway_5 X)) (= _let_8 (tptp.fn_metabolic_pathway_1 X)) (= (tptp.fn_conversion_of_protein_to_fat_4 X) (tptp.fn_anabolic_pathway_2 X)) (= (tptp.fn_conversion_of_protein_to_fat_3 X) (tptp.fn_anabolic_pathway_1 X)) (= _let_7 (tptp.fn_anabolic_pathway_3 X)) (= _let_6 (tptp.fn_anabolic_pathway_4 X)) (= X _let_2) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.multi_step_reaction_1 X) (tptp.lactate_1 X1)) (and (tptp.conversion_of_pyruvate_to_lactate_1 X) (= (tptp.fn_conversion_of_pyruvate_to_lactate_8 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_pyruvate_to_lactate_17 X))) (let ((_let_2 (tptp.fn_redox_reaction_11 _let_1))) (let ((_let_3 (tptp.fn_conversion_of_pyruvate_to_lactate_14 X))) (let ((_let_4 (tptp.fn_electron_donor_1 _let_3))) (let ((_let_5 (tptp.fn_redox_reaction_7 _let_1))) (let ((_let_6 (tptp.fn_conversion_of_pyruvate_to_lactate_11 X))) (let ((_let_7 (tptp.fn_reduction_4 _let_6))) (let ((_let_8 (tptp.fn_redox_reaction_16 _let_1))) (let ((_let_9 (tptp.fn_redox_reaction_12 _let_1))) (let ((_let_10 (tptp.fn_reduction_3 _let_6))) (let ((_let_11 (tptp.fn_reduction_1 _let_6))) (let ((_let_12 (tptp.fn_electron_donor_2 _let_3))) (let ((_let_13 (tptp.fn_conversion_of_pyruvate_to_lactate_10 X))) (let ((_let_14 (tptp.fn_conversion_of_pyruvate_to_lactate_13 X))) (let ((_let_15 (tptp.fn_conversion_of_pyruvate_to_lactate_12 X))) (let ((_let_16 (tptp.fn_redox_reaction_10 _let_1))) (let ((_let_17 (tptp.fn_conversion_of_pyruvate_to_lactate_16 X))) (let ((_let_18 (tptp.fn_reduction_5 _let_6))) (let ((_let_19 (tptp.fn_conversion_of_pyruvate_to_lactate_15 X))) (let ((_let_20 (tptp.fn_conversion_of_pyruvate_to_lactate_20 X))) (let ((_let_21 (tptp.fn_release_1 _let_20))) (let ((_let_22 (tptp.fn_conversion_of_pyruvate_to_lactate_21 X))) (let ((_let_23 (tptp.fn_chemical_reaction_1 _let_1))) (let ((_let_24 (tptp.fn_conversion_of_pyruvate_to_lactate_18 X))) (let ((_let_25 (tptp.fn_conversion_of_pyruvate_to_lactate_19 X))) (let ((_let_26 (tptp.fn_conversion_of_pyruvate_to_lactate_8 X))) (let ((_let_27 (tptp.fn_conversion_of_pyruvate_to_lactate_9 X))) (let ((_let_28 (tptp.fn_conversion_of_pyruvate_to_lactate_1 X))) (let ((_let_29 (tptp.fn_conversion_of_pyruvate_to_lactate_2 X))) (let ((_let_30 (tptp.fn_conversion_of_pyruvate_to_lactate_3 X))) (let ((_let_31 (tptp.fn_conversion_of_pyruvate_to_lactate_4 X))) (let ((_let_32 (tptp.fn_conversion_of_pyruvate_to_lactate_5 X))) (let ((_let_33 (tptp.fn_conversion_of_pyruvate_to_lactate_6 X))) (=> (tptp.conversion_of_pyruvate_to_lactate_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-of-Pyruvate-to-Lactate'|) (tptp.user_description_2 X |tptp.'In lactic acid fermentation, pyruvate is converted directly into lactic acid by NADH.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of pyruvate to lactate'|) (tptp.concept2words_2 X |tptp.'conversion-of-pyruvate-to-lactate'|) (tptp.multi_step_reaction_1 X) (tptp.break_1 _let_28) (tptp.activation_energy_1 _let_29) (tptp.potential_energy_1 _let_30) (tptp.protein_enzyme_1 _let_31) (tptp.produce_1 _let_32) (tptp.decrease_1 _let_33) (tptp.lactate_1 _let_26) (tptp.chemical_1 _let_27) (tptp.thermal_energy_1 _let_27) (tptp.oxidation_1 _let_13) (tptp.reduction_1 _let_6) (tptp.chemical_entity_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.electron_1 _let_14) (tptp.electron_donor_1 _let_3) (tptp.reducing_agent_1 _let_19) (tptp.nadh_1 _let_17) (tptp.redox_reaction_1 _let_1) (tptp.nad_plus_1 _let_24) (tptp.pyruvate_1 _let_25) (tptp.release_1 _let_20) (tptp.free_energy_1 _let_22) (tptp.chemical_entity_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.reducing_agent_1 _let_18) (tptp.reduction_1 _let_16) (tptp.chemical_entity_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.electron_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.electron_1 _let_5) (tptp.oxidation_1 _let_4) (tptp.oxidation_1 _let_2) (tptp.result_2 _let_1 _let_26) (tptp.raw_material_2 _let_1 _let_17) (tptp.causes_2 X _let_33) (tptp.causes_2 X _let_32) (tptp.agent_2 X _let_31) (tptp.raw_material_2 X _let_30) (tptp.raw_material_2 X _let_29) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_20) (tptp.subevent_2 X _let_28) (tptp.result_2 X _let_22) (tptp.result_2 X _let_27) (tptp.result_2 X _let_26) (tptp.raw_material_2 X _let_25) (tptp.result_2 X _let_24) (tptp.result_2 _let_1 _let_24) (tptp.object_2 _let_20 _let_22) (tptp.in_event_2 _let_3 _let_13) (tptp.donor_2 _let_13 _let_17) (tptp.plays_2 _let_17 _let_3) (not (= _let_14 _let_17)) (not (= _let_17 _let_14)) (tptp.donor_2 _let_6 _let_17) (tptp.plays_2 _let_17 _let_19) (tptp.in_event_2 _let_19 _let_6) (not (= _let_15 _let_17)) (not (= _let_17 _let_15)) (tptp.recipient_2 _let_6 _let_15) (tptp.subevent_2 _let_1 _let_6) (tptp.raw_material_2 _let_1 _let_15) (tptp.recipient_2 _let_13 _let_15) (tptp.subevent_2 _let_1 _let_13) (tptp.object_2 _let_13 _let_14) (tptp.object_2 _let_6 _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= _let_25 (tptp.fn_chemical_reaction_2 X)) (= _let_24 (tptp.fn_chemical_reaction_1 X)) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_17 _let_12) (= _let_13 _let_4) (= _let_19 _let_18) (= _let_17 _let_11) (= _let_6 _let_16) (= _let_14 _let_7) (= _let_15 _let_10) (= _let_15 _let_9) (= _let_15 _let_8) (= _let_14 _let_5) (= _let_13 _let_2) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_8 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_4 X))) (let ((_let_2 (tptp.fn_substrate_level_phosphorylation_16 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_atp_23 _let_1))) (let ((_let_4 (tptp.fn_substrate_level_phosphorylation_15 _let_1))) (let ((_let_5 (tptp.fn_synthesis_of_atp_6 _let_1))) (let ((_let_6 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_5 X))) (let ((_let_7 (tptp.fn_synthesis_of_gtp_3 _let_6))) (let ((_let_8 (tptp.fn_anabolic_pathway_6 _let_6))) (let ((_let_9 (tptp.fn_synthesis_of_gtp_9 _let_6))) (let ((_let_10 (tptp.fn_synthesis_of_atp_10 _let_1))) (let ((_let_11 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_8 X))) (let ((_let_12 (tptp.fn_remove_2 _let_11))) (let ((_let_13 (tptp.fn_chemical_reaction_2 X))) (let ((_let_14 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_3 X))) (let ((_let_15 (tptp.fn_remove_2 _let_14))) (let ((_let_16 (tptp.fn_substrate_level_phosphorylation_6 _let_1))) (let ((_let_17 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_10 X))) (let ((_let_18 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_11 X))) (let ((_let_19 (tptp.fn_substrate_level_phosphorylation_19 _let_1))) (let ((_let_20 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_9 X))) (let ((_let_21 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_1 X))) (let ((_let_22 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_2 X))) (let ((_let_23 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_6 X))) (let ((_let_24 (tptp.fn_animal_cell_20 _let_23))) (let ((_let_25 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_26 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_7 X))) (let ((_let_27 (tptp.fn_metabolic_pathway_1 _let_6))) (let ((_let_28 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_13 X))) (let ((_let_29 (tptp.fn_remove_1 _let_14))) (let ((_let_30 (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_12 X))) (=> (tptp.conversion_of_succinyl_coa_to_succinate_in_animal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-Of-Succinyl-CoA-To-Succinate-In-Animal-Cell'|) (tptp.user_description_2 X |tptp.'Intermediate step in the citric acid cycle taking place in many animal tissue cells, in which a phosphate group is transferred to a molecule of GDP, displacing CoA from Succinyl CoA to produce a molecule of GTP and a molecule of succinate.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of succinyl coa to succinate in animal cell'|) (tptp.concept2words_2 X |tptp.'conversion-of-succinyl-coa-to-succinate-in-animal-cell'|) (tptp.chemical_reaction_1 X) (tptp.chemical_entity_1 _let_21) (tptp.organic_molecule_1 _let_21) (tptp.spatial_entity_1 _let_22) (tptp.organic_molecule_1 _let_22) (tptp.gtp_1 _let_22) (tptp.remove_1 _let_14) (tptp.metabolic_pathway_1 _let_1) (tptp.endergonic_process_1 _let_1) (tptp.chemical_reaction_1 _let_1) (tptp.synthesis_of_organic_molecule_1 _let_1) (tptp.anabolic_pathway_1 _let_1) (tptp.synthesis_of_atp_1 _let_1) (tptp.substrate_level_phosphorylation_1 _let_1) (tptp.synthesis_of_gtp_1 _let_6) (tptp.cell_1 _let_23) (tptp.animal_cell_1 _let_23) (tptp.succinate_1 _let_26) (tptp.remove_1 _let_11) (tptp.free_energy_1 _let_20) (tptp.adp_1 _let_17) (tptp.structural_complexity_value_1 _let_18) (tptp.coenzyme_a_1 _let_30) (tptp.succinyl_coa_1 _let_28) (tptp.spatial_entity_1 _let_29) (tptp.cell_1 _let_27) (tptp.cell_1 _let_25) (tptp.metabolic_pathway_1 _let_24) (tptp.endergonic_process_1 _let_24) (tptp.chemical_reaction_1 _let_24) (tptp.synthesis_of_organic_molecule_1 _let_24) (tptp.anabolic_pathway_1 _let_24) (tptp.synthesis_of_atp_1 _let_24) (tptp.property_node_1 _let_19) (tptp.adp_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_12) (tptp.organic_molecule_1 _let_10) (tptp.gtp_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.organic_molecule_1 _let_7) (tptp.free_energy_1 _let_5) (tptp.free_energy_1 _let_4) (tptp.structural_complexity_value_1 _let_3) (tptp.structural_complexity_value_1 _let_2) (tptp.base_2 X _let_23) (tptp.first_subevent_2 X _let_14) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_14) (tptp.next_event_2 _let_6 _let_1) (tptp.result_2 _let_6 _let_26) (tptp.next_event_2 _let_14 _let_6) (tptp.result_2 _let_14 _let_21) (tptp.base_2 _let_11 _let_22) (tptp.base_2 _let_14 _let_28) (tptp.object_2 _let_14 _let_30) (tptp.raw_material_2 X _let_28) (tptp.base_2 _let_6 _let_23) (tptp.result_2 X _let_26) (tptp.base_2 _let_1 _let_23) (tptp.possesses_2 _let_22 _let_20) (tptp.raw_material_2 _let_1 _let_22) (tptp.structural_complexity_2 _let_22 _let_18) (tptp.result_2 _let_6 _let_22) (tptp.raw_material_2 _let_6 _let_21) (tptp.possesses_2 _let_17 _let_20) (tptp.raw_material_2 _let_1 _let_17) (tptp.structural_complexity_2 _let_17 _let_18) (= _let_22 _let_12) (= _let_28 _let_15) (= _let_30 _let_29) (= _let_28 _let_13) (= _let_23 _let_27) (= _let_26 (tptp.fn_chemical_reaction_1 X)) (= _let_23 _let_25) (= _let_1 _let_24) (= _let_20 _let_5) (= _let_18 _let_3) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_21 _let_8) (= _let_21 _let_7) (= _let_20 _let_4) (= (tptp.fn_conversion_of_succinyl_coa_to_succinate_in_animal_cell_14 X) _let_19) (= _let_18 _let_2) (= _let_17 _let_16) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_conversion_to_isomer_1 X))) (let ((_let_2 (tptp.fn_conversion_to_isomer_2 X))) (=> (tptp.conversion_to_isomer_1 X) (and (tptp.original_name_2 X |tptp.'Conversion-To-Isomer'|) (tptp.user_description_2 X |tptp.'Molecules are rearranged to convert to their isomers.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion to isomer'|) (tptp.concept2words_2 X |tptp.'conversion-to-isomer'|) (tptp.change_of_shape_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.molecule_1 _let_1) (tptp.molecule_1 _let_2) (tptp.object_2 X _let_2) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_convey_1 X))) (let ((_let_2 (tptp.fn_convey_2 X))) (let ((_let_3 (tptp.fn_convey_3 X))) (let ((_let_4 (tptp.fn_convey_4 X))) (=> (tptp.convey_1 X) (and (tptp.original_name_2 X |tptp.'Convey'|) (tptp.concept2words_2 X tptp.convey) (tptp.concept2words_2 X tptp.impart) (tptp.concept2words_2 X tptp.carry) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X tptp.transmit) (tptp.concept2words_2 X tptp.communicate) (tptp.action_1 X) (tptp.tangible_entity_1 _let_1) (tptp.message_1 _let_2) (tptp.tangible_entity_1 _let_3) (tptp.tangible_entity_1 _let_4) (tptp.agent_2 X _let_4) (tptp.base_2 X _let_3) (tptp.object_2 X _let_2) (tptp.recipient_2 X _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.cooksonia_1 X) (and (tptp.original_name_2 X |tptp.'Cooksonia'|) (tptp.user_description_2 X |tptp.'The earliest land plant known to have vascular tissue, thus representing the transitional form between nonvascular bryophytes and true vascular plants. Cooksonia is extinct and known only from fossilized sporophytes.'|) (tptp.concept2words_2 X tptp.cooksonia) (tptp.vascular_plant_1 X) (tptp.extinct_plant_1 X) (not (tptp.basal_angiosperm_1 X)) (not (tptp.seed_plant_1 X)) (not (tptp.seedless_vascular_plant_1 X)) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cool_4 X))) (let ((_let_2 (tptp.fn_cool_5 X))) (let ((_let_3 (tptp.fn_cool_1 X))) (=> (tptp.cool_1 X) (and (tptp.original_name_2 X |tptp.'Cool'|) (tptp.concept2words_2 X tptp.cool) (tptp.concept2words_2 X tptp.chill) (tptp.concept2words_2 X |tptp.'cool down'|) (tptp.concept2words_2 X tptp.cool_down) (tptp.decrease_1 X) (not (tptp.dim_1 X)) (not (tptp.contract_1 X)) (not (tptp.microtubule_shortening_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.temperature_value_1 _let_1) (tptp.temperature_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_1 _let_2) (= (tptp.fn_cool_3 X) (tptp.fn_decrease_2 X)) (= (tptp.fn_cool_2 X) (tptp.fn_decrease_1 X)) (= _let_2 (tptp.fn_decrease_4 X)) (= _let_1 (tptp.fn_decrease_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.cool_object_1 X) (and (tptp.original_name_2 X |tptp.'Cool-Object'|) (tptp.user_description_2 X |tptp.'An object that is cool.'|) (tptp.concept2words_2 X |tptp.'object of cool'|) (tptp.concept2words_2 X |tptp.'cool object'|) (tptp.concept2words_2 X |tptp.'cool-object'|) (tptp.physical_object_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cooperativity_3 X))) (let ((_let_2 (tptp.fn_cooperativity_6 X))) (let ((_let_3 (tptp.fn_cooperativity_5 X))) (let ((_let_4 (tptp.fn_cooperativity_7 X))) (let ((_let_5 (tptp.fn_cooperativity_4 X))) (=> (tptp.cooperativity_1 X) (and (tptp.original_name_2 X |tptp.'Cooperativity'|) (tptp.user_description_2 X |tptp.'Cooperativity is a phenomenon displayed by enzymes or receptors that have multiple binding sites where the affinity of the binding sites for a ligand is increased, positive cooperativity, or decreased, negative cooperativity. Cooperativity mechanism amplifies the response of enzymes to substrates'|) (tptp.concept2words_2 X tptp.cooperativity) (tptp.allosteric_regulation_1 X) (tptp.rate_value_1 _let_1) (tptp.rate_value_1 _let_5) (tptp.cellular_response_1 _let_3) (tptp.protein_enzyme_1 _let_2) (tptp.molecule_1 _let_4) (tptp.positive_influence_2 _let_1 _let_5) (tptp.rate_2 _let_3 _let_5) (tptp.toward_2 _let_3 _let_4) (tptp.agent_2 _let_3 _let_2) (tptp.rate_2 X _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coordinate_gene_expression_9 X))) (let ((_let_2 (tptp.fn_copy_1 _let_1))) (let ((_let_3 (tptp.fn_transfer_1 _let_1))) (let ((_let_4 (tptp.fn_gene_expression_6 X))) (let ((_let_5 (tptp.fn_coordinate_gene_expression_6 X))) (let ((_let_6 (tptp.fn_coordinate_gene_expression_8 X))) (let ((_let_7 (tptp.fn_coordinate_gene_expression_11 X))) (let ((_let_8 (tptp.fn_coordinate_gene_expression_7 X))) (let ((_let_9 (tptp.fn_coordinate_gene_expression_10 X))) (let ((_let_10 (tptp.fn_coordinate_gene_expression_1 X))) (let ((_let_11 (tptp.fn_coordinate_gene_expression_4 X))) (let ((_let_12 (tptp.fn_coordinate_gene_expression_5 X))) (let ((_let_13 (tptp.fn_coordinate_gene_expression_3 X))) (let ((_let_14 (tptp.fn_coordinate_gene_expression_2 X))) (=> (tptp.coordinate_gene_expression_1 X) (and (tptp.original_name_2 X |tptp.'Coordinate-Gene-Expression'|) (tptp.user_description_2 X |tptp.'The process whereby a cell coordinates the expression of multiple genes through the association of a specific control element or collection of control elements with every gene of a dispersed group.'|) (tptp.concept2words_2 X |tptp.'eukaryotic coodinate gene expression'|) (tptp.concept2words_2 X |tptp.'coordinate gene expression in eukaryotes'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'coordinate gene expression'|) (tptp.concept2words_2 X |tptp.'coordinate-gene-expression'|) (tptp.gene_expression_1 X) (tptp.transcription_initiation_1 _let_10) (tptp.promoter_1 _let_14) (tptp.promoter_1 _let_13) (tptp.distributing_1 _let_11) (tptp.evolution_1 _let_12) (tptp.gene_1 _let_5) (tptp.gene_1 _let_8) (tptp.code_for_1 _let_6) (tptp.duplication_of_chromosome_fragment_1 _let_1) (tptp.control_element_1 _let_9) (tptp.protein_enzyme_1 _let_7) (tptp.entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 _let_5 _let_14) (tptp.has_part_2 _let_8 _let_13) (tptp.by_means_of_2 _let_6 X) (tptp.donor_2 _let_6 _let_5) (tptp.donor_2 _let_6 _let_8) (tptp.exactCardinality _let_6 tptp.result_0 |"1"| tptp.protein_enzyme_0) (tptp.enables_2 _let_12 X) (tptp.by_means_of_2 _let_12 _let_1) (tptp.enables_2 _let_1 _let_11) (tptp.object_2 _let_11 _let_9) (tptp.subevent_2 X _let_10) (tptp.object_2 _let_1 _let_9) (tptp.agent_2 _let_6 _let_8) (tptp.object_2 X _let_8) (tptp.result_2 X _let_7) (tptp.result_2 _let_6 _let_7) (tptp.object_2 X _let_5) (tptp.agent_2 _let_6 _let_5) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_8 _let_4) (= _let_7 (tptp.fn_gene_expression_4 X)) (= _let_6 (tptp.fn_gene_expression_3 X)) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coordinate_gene_expression_6 X))) (let ((_let_2 (tptp.fn_coordinate_gene_expression_7 X))) (let ((_let_3 (tptp.fn_coordinate_gene_expression_by_growth_factor_4 X))) (let ((_let_4 (tptp.fn_coordinate_gene_expression_by_growth_factor_5 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_coordinate_gene_expression_by_growth_factor_3 X))) (let ((_let_7 (tptp.fn_attach_2 _let_4))) (let ((_let_8 (tptp.fn_coordinate_gene_expression_by_growth_factor_6 X))) (let ((_let_9 (tptp.fn_coordinate_gene_expression_by_growth_factor_2 X))) (let ((_let_10 (tptp.fn_coordinate_gene_expression_by_growth_factor_1 X))) (=> (tptp.coordinate_gene_expression_by_growth_factor_1 X) (and (tptp.original_name_2 X |tptp.'Coordinate-Gene-Expression-By-Growth-Factor'|) (tptp.user_description_2 X |tptp.'A type of Coordinate Gene Expression in which the signal is a growth factor, and receptor is a growth factor receptor.'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'coordinate gene expression by growth factor'|) (tptp.concept2words_2 X |tptp.'coordinate-gene-expression-by-growth-factor'|) (tptp.coordinate_gene_expression_1 X) (not (tptp.coordinate_gene_expression_in_prokaryote_1 X)) (tptp.signal_transduction_1 _let_10) (tptp.transcription_factor_1 _let_9) (tptp.chemical_entity_1 _let_6) (tptp.gene_1 _let_3) (tptp.attach_1 _let_4) (tptp.growth_factor_receptor_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.enables_2 _let_4 _let_10) (tptp.result_2 _let_10 _let_9) (tptp.abuts_2 _let_9 _let_3) (tptp.abuts_2 _let_3 _let_9) (tptp.base_2 _let_4 _let_8) (tptp.object_2 _let_4 _let_6) (tptp.object_2 X _let_3) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1)))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.site_2 X X1) (tptp.coordinate_gene_expression_1 X) (tptp.prokaryote_1 X1)) (and (tptp.coordinate_gene_expression_in_prokaryote_1 X) (= (tptp.fn_coordinate_gene_expression_in_prokaryote_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coordinate_gene_expression_6 X))) (let ((_let_2 (tptp.fn_coordinate_gene_expression_7 X))) (let ((_let_3 (tptp.fn_coordinate_gene_expression_in_prokaryote_3 X))) (let ((_let_4 (tptp.fn_coordinate_gene_expression_in_prokaryote_2 X))) (=> (tptp.coordinate_gene_expression_in_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Coordinate-Gene-Expression-In-Prokaryote'|) (tptp.user_description_2 X |tptp.'The process whereby a prokaryotic cell coordinates the expression of multiple genes through the association of a specific control element or collection of control elements with every gene of a dispersed group.'|) (tptp.concept2words_2 X |tptp.'prokaryote coordinate gene expression'|) (tptp.concept2words_2 X |tptp.'prokaryotic coordinate gene expression'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'coordinate gene expression in prokaryote'|) (tptp.concept2words_2 X |tptp.'coordinate-gene-expression-in-prokaryote'|) (tptp.coordinate_gene_expression_1 X) (not (tptp.coordinate_gene_expression_by_growth_factor_1 X)) (tptp.prokaryote_1 _let_4) (tptp.operon_1 _let_3) (tptp.regulatory_gene_1 _let_3) (tptp.site_2 X _let_4) (tptp.object_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.copepod_1 X) (and (tptp.original_name_2 X |tptp.'Copepod'|) (tptp.user_description_2 X |tptp.'A small aquatic crustacean that is important in pelagic food webs. Copepods make up a large portion of biomass in marine and freshwater pelagic ecosystems.'|) (tptp.concept2words_2 X tptp.copepod) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.clawed_lobster_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.decapod_1 X)) (not (tptp.isopod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_copernicium_6 X))) (let ((_let_2 (tptp.fn_copernicium_7 X))) (let ((_let_3 (tptp.fn_copernicium_1 X))) (let ((_let_4 (tptp.fn_copernicium_2 X))) (=> (tptp.copernicium_1 X) (and (tptp.original_name_2 X |tptp.'Copernicium'|) (tptp.user_description_2 X |tptp.'Copernicium is a metal atom with atomic number 112. It is represented by the symbol Cn.'|) (tptp.concept2words_2 X tptp.copernicium) (tptp.concept2words_2 X tptp.cn) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"173"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"112"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"112"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"285"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"112"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"285"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_copernicium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_copernicium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_copper_9 X))) (let ((_let_2 (tptp.fn_copper_12 X))) (let ((_let_3 (tptp.fn_copper_10 X))) (let ((_let_4 (tptp.fn_copper_11 X))) (let ((_let_5 (tptp.fn_copper_4 X))) (let ((_let_6 (tptp.fn_copper_5 X))) (let ((_let_7 (tptp.fn_copper_3 X))) (=> (tptp.copper_1 X) (and (tptp.original_name_2 X |tptp.'Copper'|) (tptp.user_description_2 X |tptp.'Copper is a metal atom with atomic number 29. It is represented by the symbol Cu.'|) (tptp.concept2words_2 X |tptp.'Cu'|) (tptp.concept2words_2 X tptp.copper) (tptp.metal_atom_1 X) (not (tptp.calcium_1 X)) (not (tptp.carbon_1 X)) (not (tptp.hydrogen_1 X)) (not (tptp.iron_1 X)) (not (tptp.magnesium_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"35"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"29"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"29"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"11"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.9"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"64"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"29"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"63.55"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_copper_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_copper_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_copper_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coprophage_8 X))) (let ((_let_2 (tptp.fn_animal_18 _let_1))) (let ((_let_3 (tptp.fn_coprophage_6 X))) (let ((_let_4 (tptp.fn_food_1 _let_3))) (let ((_let_5 (tptp.fn_animal_19 _let_1))) (let ((_let_6 (tptp.fn_coprophage_7 X))) (let ((_let_7 (tptp.fn_food_4 _let_3))) (let ((_let_8 (tptp.fn_coprophage_3 X))) (let ((_let_9 (tptp.fn_food_3 _let_3))) (let ((_let_10 (tptp.fn_coprophage_4 X))) (let ((_let_11 (tptp.fn_food_2 _let_3))) (let ((_let_12 (tptp.fn_coprophage_2 X))) (let ((_let_13 (tptp.fn_coprophage_5 X))) (let ((_let_14 (tptp.fn_agent_role_1 _let_13))) (let ((_let_15 (tptp.fn_coprophage_1 X))) (=> (tptp.coprophage_1 X) (and (tptp.original_name_2 X |tptp.'Coprophage'|) (tptp.user_description_2 X |tptp.'Animal which eats feces, either its own or those of another animal.'|) (tptp.heterotroph_1 X) (tptp.elimination_1 _let_15) (tptp.polymer_1 _let_12) (tptp.organic_molecule_1 _let_8) (tptp.feces_1 _let_10) (tptp.agent_role_1 _let_13) (tptp.food_1 _let_3) (tptp.nutrition_1 _let_6) (tptp.entity_1 _let_1) (tptp.animal_1 _let_1) (tptp.entity_1 _let_14) (tptp.polymer_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.organic_molecule_1 _let_7) (tptp.nutrition_1 _let_5) (tptp.nutrition_1 _let_4) (tptp.heterotroph_1 _let_2) (tptp.object_2 _let_15 _let_10) (tptp.base_2 _let_15 _let_1) (tptp.plays_2 _let_1 _let_13) (tptp.plays_2 _let_10 _let_3) (tptp.plays_2 _let_1 X) (tptp.in_event_2 X _let_6) (tptp.agent_2 _let_6 _let_1) (tptp.in_event_2 _let_3 _let_6) (tptp.raw_material_2 _let_6 _let_8) (tptp.has_part_2 _let_10 _let_8) (tptp.has_part_2 _let_10 _let_12) (tptp.raw_material_2 _let_6 _let_12) (= _let_1 _let_14) (= _let_6 _let_5) (= X _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_4) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_copy_2 X))) (let ((_let_2 (tptp.fn_template_1 _let_1))) (let ((_let_3 (tptp.fn_copy_1 X))) (=> (tptp.copy_1 X) (and (tptp.original_name_2 X |tptp.'Copy'|) (tptp.concept2words_2 X tptp.copy) (tptp.concept2words_2 X |tptp.'re create'|) (tptp.concept2words_2 X |tptp.'re-create'|) (tptp.concept2words_2 X tptp.duplicate) (tptp.concept2words_2 X tptp.replicate) (tptp.create_1 X) (tptp.tangible_entity_1 _let_3) (tptp.template_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coral_1 X))) (=> (tptp.coral_1 X) (and (tptp.original_name_2 X |tptp.'Coral'|) (tptp.user_description_2 X |tptp.'A solitary or colonial marine anthozoan that has a life cycle involving only the polyp stage (i.e., no medusa stage). In tropical seas, corals form a mutualistic relationship with photosynthetic endosymbionts (zooxanthellae), which allows them to produce coral reefs.'|) (tptp.concept2words_2 X tptp.coral) (tptp.anthozoan_1 X) (tptp.predation_1 _let_1) (tptp.agent_2 _let_1 X) (tptp.has_function_2 X _let_1) (= _let_1 (tptp.fn_cnidaria_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.coral_reef_1 X) (and (tptp.original_name_2 X |tptp.'Coral-Reef'|) (tptp.user_description_2 X |tptp.'Typically a warm-water, tropical ecosystem dominated by the hard skeletal structures secreted primarily by the resident cnidarians. Some reefs also exist in cold, deep waters.'|) (tptp.concept2words_2 X |tptp.'reef of coral'|) (tptp.concept2words_2 X |tptp.'coral reef'|) (tptp.concept2words_2 X |tptp.'coral-reef'|) (tptp.marine_biome_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_coral_reef_calcification_3 X))) (let ((_let_2 (tptp.fn_coral_reef_calcification_2 X))) (let ((_let_3 (tptp.fn_coral_reef_calcification_1 X))) (=> (tptp.coral_reef_calcification_1 X) (and (tptp.original_name_2 X |tptp.'Coral-Reef-Calcification'|) (tptp.user_description_2 X |tptp.'The secretion and deposition of CaCO3 by coral polyps. Over time, the accumulation of CaCO3 forms a coral reef.'|) (tptp.concept2words_2 X tptp.calcify) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'coral reef calcification'|) (tptp.concept2words_2 X |tptp.'coral-reef-calcification'|) (tptp.biological_process_1 X) (tptp.calcification_1 X) (tptp.coral_reef_1 _let_3) (tptp.coral_1 _let_2) (tptp.calcium_carbonate_1 _let_1) (tptp.is_inside_2 _let_1 _let_3) (tptp.agent_2 X _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_calcification_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.cord_1 X) (and (tptp.original_name_2 X |tptp.'Cord'|) (tptp.user_description_2 X |tptp.'Tubular bundle of tissue, cells, or proteins.'|) (tptp.concept2words_2 X tptp.cord) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.corepressor_1 X) (and (tptp.original_name_2 X |tptp.'Corepressor'|) (tptp.user_description_2 X |tptp.'A small molecule that binds to a bacterial repressor protein and changes its shape, allowing it to switch an operon off.'|) (tptp.concept2words_2 X tptp.corepressor) (tptp.cofactor_1 X) (not (tptp.coenzyme_1 X)) (not (tptp.cyclic_amp_1 X)) (not (tptp.inducer_1 X)) (not (tptp.prosthetic_group_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cork_cambium_1 X) (and (tptp.original_name_2 X |tptp.'Cork-Cambium'|) (tptp.user_description_2 X |tptp.'A meristematic tissue in woody plants that is one of several layers that make up the plant_'s bark. Cork cambium produces cork cells, which have thick, tough cell walls.'|) (tptp.concept2words_2 X |tptp.'cambium of cork'|) (tptp.concept2words_2 X |tptp.'cork cambium'|) (tptp.concept2words_2 X |tptp.'cork-cambium'|) (tptp.cambium_1 X) (tptp.lateral_meristem_1 X) (not (tptp.apical_meristem_1 X)) (not (tptp.floral_meristem_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_corn_3 X))) (let ((_let_2 (tptp.fn_corn_2 X))) (=> (tptp.corn_1 X) (and (tptp.original_name_2 X |tptp.'Corn'|) (tptp.user_description_2 X |tptp.'A common monocot vascular plant.'|) (tptp.concept2words_2 X tptp.maize) (tptp.concept2words_2 X |tptp.'zea mays'|) (tptp.concept2words_2 X tptp.corn) (tptp.fruit_1 X) (tptp.quantity_value_1 _let_2) (tptp.environment_1 _let_1) (tptp.quantity_2 X _let_2) (tptp.is_outside_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_corn_genome_1 X))) (=> (tptp.corn_genome_1 X) (and (tptp.original_name_2 X |tptp.'Corn-Genome'|) (tptp.user_description_2 X |tptp.'One of the eukaryotic organisms for which researchers have sequenced the entire genome.'|) (tptp.concept2words_2 X |tptp.'zea mays genome'|) (tptp.concept2words_2 X |tptp.'maize genome'|) (tptp.concept2words_2 X |tptp.'genome of corn'|) (tptp.concept2words_2 X |tptp.'corn genome'|) (tptp.concept2words_2 X |tptp.'corn-genome'|) (tptp.eukaryotic_genome_1 X) (tptp.transposon_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.corn_oil_1 X) (and (tptp.original_name_2 X |tptp.'Corn-Oil'|) (tptp.user_description_2 X |tptp.'Corn oil or Maize oil is oil extracted from the germ of corn (maize). Its main use is in cooking, where its high smoke point makes refined corn oil a valuable frying oil.'|) (tptp.concept2words_2 X |tptp.'oil of corn'|) (tptp.concept2words_2 X |tptp.'corn oil'|) (tptp.concept2words_2 X |tptp.'corn-oil'|) (tptp.plant_fat_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_c4_plant_15 X))) (let ((_let_2 (tptp.fn_c4_plant_62 X))) (let ((_let_3 (tptp.fn_corn_plant_4 X))) (let ((_let_4 (tptp.fn_corn_plant_7 X))) (let ((_let_5 (tptp.fn_corn_plant_5 X))) (let ((_let_6 (tptp.fn_corn_plant_8 X))) (let ((_let_7 (tptp.fn_corn_plant_3 X))) (let ((_let_8 (tptp.fn_corn_plant_6 X))) (let ((_let_9 (tptp.fn_corn_plant_2 X))) (let ((_let_10 (tptp.fn_corn_plant_1 X))) (=> (tptp.corn_plant_1 X) (and (tptp.original_name_2 X |tptp.'Corn-Plant'|) (tptp.user_description_2 X |tptp.'Corn (Zea mays), also called Indian corn, or maize, in agriculture, cereal plant of the tribe Maydeae of the grass family Poaceae, originating in the Americas, and its edible grain.'|) (tptp.concept2words_2 X |tptp.'plant of corn'|) (tptp.concept2words_2 X |tptp.'corn plant'|) (tptp.concept2words_2 X |tptp.'corn-plant'|) (tptp.c4_plant_1 X) (not (tptp.sugarcane_plant_1 X)) (tptp.layer_1 _let_10) (tptp.layer_1 _let_9) (tptp.cell_1 _let_7) (tptp.eukaryotic_cell_1 _let_7) (tptp.plant_cell_1 _let_7) (tptp.bundle_sheath_cell_1 _let_7) (tptp.tangible_entity_1 _let_3) (tptp.leaf_1 _let_3) (tptp.bundle_sheath_1 _let_5) (tptp.palisade_mesophyll_1 _let_8) (tptp.plant_vein_1 _let_4) (tptp.spongy_mesophyll_1 _let_6) (tptp.is_above_2 _let_9 _let_10) (tptp.is_between_2 _let_6 _let_5) (tptp.is_between_2 _let_6 _let_10) (tptp.is_above_2 _let_8 _let_5) (tptp.is_between_2 _let_8 _let_9) (tptp.is_between_2 _let_8 _let_5) (tptp.is_outside_2 _let_5 _let_4) (tptp.is_above_2 _let_5 _let_6) (tptp.is_inside_2 _let_7 _let_5) (tptp.has_part_2 _let_3 _let_8) (tptp.has_part_2 X _let_7) (tptp.has_part_2 _let_3 _let_6) (tptp.has_region_2 X _let_5) (tptp.has_part_2 X _let_3) (tptp.has_part_2 _let_3 _let_4) (= _let_8 (tptp.fn_c4_plant_78 X)) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_6 (tptp.fn_c4_plant_74 X)) (= _let_5 (tptp.fn_c4_plant_14 X)) (= _let_4 (tptp.fn_c4_plant_72 X)) (= _let_3 (tptp.fn_c4_plant_103 X)) (= _let_2 _let_1)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cornea_1 X) (and (tptp.original_name_2 X |tptp.'Cornea'|) (tptp.user_description_2 X |tptp.'The transparent frontal portion of the sclera, which covers the iris and pupil and admits light into the vertebrate eye.'|) (tptp.concept2words_2 X tptp.cornea) (tptp.stratified_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.corporation_1 X) (and (tptp.original_name_2 X |tptp.'Corporation'|) (tptp.description_2 X |tptp.'an incorporated company'|) (tptp.concept2words_2 X tptp.corporation) (tptp.concept2words_2 X tptp.corp) (tptp.company_1 X)))) (forall ((X $$unsorted)) (=> (tptp.corpus_callosum_1 X) (and (tptp.original_name_2 X |tptp.'Corpus-Callosum'|) (tptp.user_description_2 X |tptp.'A band of nerve fibers that connects the left and right hemispheres of the mammalian cerebrum and facilitates communication between the hemispheres.'|) (tptp.concept2words_2 X |tptp.'corpus callosum'|) (tptp.concept2words_2 X |tptp.'corpus-callosum'|) (tptp.cerebrum_1 X) (not (tptp.amygdala_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.breathing_control_center_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.reticular_formation_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.cerebellum_1 X))))) (forall ((X $$unsorted)) (=> (tptp.corpus_luteum_1 X) (and (tptp.original_name_2 X |tptp.'Corpus-Luteum'|) (tptp.user_description_2 X |tptp.'A tissue in the ovary consisting of the post-ovulatory collapsed follicle; secretes the hormone progesterone.'|) (tptp.concept2words_2 X |tptp.'corpora lutea'|) (tptp.concept2words_2 X |tptp.'corpora-lutea'|) (tptp.concept2words_2 X |tptp.'yellow body'|) (tptp.concept2words_2 X |tptp.'yellow-body'|) (tptp.concept2words_2 X |tptp.'corpus luteum'|) (tptp.concept2words_2 X |tptp.'corpus-luteum'|) (tptp.glandular_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cortex_1 X) (and (tptp.original_name_2 X |tptp.'Cortex'|) (tptp.user_description_2 X |tptp.'In plants, the cortex is the outer layer of the stem or root, between the epidermis on the outside and the endodermis on the inside.'|) (tptp.concept2words_2 X tptp.cortex) (tptp.ground_tissue_1 X) (not (tptp.mesophyll_1 X)) (not (tptp.pith_1 X)) (not (tptp.plasmodium_1 X)) (not (tptp.symplast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cortex_region_1 X) (and (tptp.original_name_2 X |tptp.'Cortex-Region'|) (tptp.user_description_2 X |tptp.'The region of a cell that lies just under the plasma membrane.'|) (tptp.concept2words_2 X |tptp.'region of cortex'|) (tptp.concept2words_2 X |tptp.'cortex region'|) (tptp.concept2words_2 X |tptp.'cortex-region'|) (tptp.biological_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cortical_granule_1 X))) (=> (tptp.cortical_granule_1 X) (and (tptp.original_name_2 X |tptp.'Cortical-Granule'|) (tptp.user_description_2 X |tptp.'A vesicle containing enzymes and other macromolecules located in the cortex (the region just under the plasma membrane) of an egg. 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_let_1))) (let ((_let_3 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_4 (tptp.fn_cotransport_32 X))) (let ((_let_5 (tptp.fn_polar_covalent_bond_18 _let_4))) (let ((_let_6 (tptp.fn_polar_covalent_bond_19 _let_4))) (let ((_let_7 (tptp.fn_cotransport_53 X))) (let ((_let_8 (tptp.fn_carrier_protein_32 _let_7))) (let ((_let_9 (tptp.fn_cotransport_15 X))) (let ((_let_10 (tptp.fn_active_transport_using_atp_31 _let_9))) (let ((_let_11 (tptp.fn_carrier_protein_4 _let_7))) (let ((_let_12 (tptp.fn_cotransport_14 X))) (let ((_let_13 (tptp.fn_facilitated_diffusion_using_carrier_protein_34 _let_12))) (let ((_let_14 (tptp.fn_transport_protein_34 _let_7))) (let ((_let_15 (tptp.fn_active_transport_using_atp_46 _let_9))) (let ((_let_16 (tptp.fn_active_transport_using_atp_10 _let_9))) (let ((_let_17 (tptp.fn_cotransport_7 X))) (let ((_let_18 (tptp.fn_active_transport_using_atp_10 _let_17))) (let ((_let_19 (tptp.fn_cotransport_28 X))) (let ((_let_20 (tptp.fn_block_1 _let_19))) (let ((_let_21 (tptp.fn_active_transport_using_atp_46 _let_17))) (let ((_let_22 (tptp.fn_facilitated_diffusion_using_carrier_protein_9 _let_12))) (let ((_let_23 (tptp.fn_facilitated_diffusion_26 _let_12))) (let ((_let_24 (tptp.fn_cotransport_17 X))) (let ((_let_25 (tptp.fn_thermal_motion_5 _let_24))) (let ((_let_26 (tptp.fn_cotransport_6 X))) (let ((_let_27 (tptp.fn_attach_1 _let_26))) (let ((_let_28 (tptp.fn_cellular_work_2 _let_9))) (let ((_let_29 (tptp.fn_passive_transport_1 _let_12))) (let ((_let_30 (tptp.fn_carrier_protein_36 _let_7))) (let ((_let_31 (tptp.fn_protein_6 _let_7))) (let ((_let_32 (tptp.fn_attach_2 _let_26))) (let ((_let_33 (tptp.fn_active_transport_using_atp_48 _let_9))) (let ((_let_34 (tptp.fn_active_transport_using_atp_48 _let_17))) (let ((_let_35 (tptp.fn_active_transport_using_atp_32 _let_9))) (let ((_let_36 (tptp.fn_carrier_protein_18 _let_7))) (let ((_let_37 (tptp.fn_facilitated_diffusion_using_carrier_protein_40 _let_12))) (let ((_let_38 (tptp.fn_transport_protein_35 _let_7))) (let ((_let_39 (tptp.fn_integral_protein_24 _let_7))) (let ((_let_40 (tptp.fn_active_transport_using_atp_35 _let_9))) (let ((_let_41 (tptp.fn_facilitated_diffusion_using_carrier_protein_48 _let_12))) (let ((_let_42 (tptp.fn_integral_protein_29 _let_7))) (let ((_let_43 (tptp.fn_active_transport_using_atp_34 _let_9))) (let ((_let_44 (tptp.fn_carrier_protein_23 _let_7))) (let ((_let_45 (tptp.fn_carrier_protein_22 _let_7))) (let ((_let_46 (tptp.fn_integral_protein_23 _let_7))) (let ((_let_47 (tptp.fn_active_transport_using_atp_36 _let_9))) (let ((_let_48 (tptp.fn_active_transport_using_atp_30 _let_9))) (let ((_let_49 (tptp.fn_carrier_protein_30 _let_7))) (let ((_let_50 (tptp.fn_integral_protein_6 _let_7))) (let ((_let_51 (tptp.fn_active_transport_using_atp_31 _let_17))) (let ((_let_52 (tptp.fn_transport_protein_10 _let_7))) (let ((_let_53 (tptp.fn_active_transport_using_atp_26 _let_9))) (let ((_let_54 (tptp.fn_facilitated_diffusion_using_carrier_protein_25 _let_12))) (let ((_let_55 (tptp.fn_active_transport_using_atp_25 _let_9))) (let ((_let_56 (tptp.fn_energy_coupling_2 X))) (let ((_let_57 (tptp.fn_passive_transport_17 _let_12))) (let ((_let_58 (tptp.fn_exergonic_process_3 _let_12))) (let ((_let_59 (tptp.fn_work_1 _let_9))) (let ((_let_60 (tptp.fn_active_transport_using_atp_38 _let_9))) (let ((_let_61 (tptp.fn_carrier_protein_16 _let_7))) (let ((_let_62 (tptp.fn_facilitated_diffusion_using_carrier_protein_33 _let_12))) (let ((_let_63 (tptp.fn_cotransport_52 X))) (let ((_let_64 (tptp.fn_phosphorylation_5 _let_63))) (let ((_let_65 (tptp.fn_phosphorylation_1 _let_63))) (let ((_let_66 (tptp.fn_functional_group_1 _let_1))) (let ((_let_67 (tptp.fn_carrier_protein_21 _let_7))) (let ((_let_68 (tptp.fn_facilitated_diffusion_using_carrier_protein_18 _let_12))) (let ((_let_69 (tptp.fn_carrier_protein_6 _let_7))) (let ((_let_70 (tptp.fn_facilitated_diffusion_using_carrier_protein_12 _let_12))) (let ((_let_71 (tptp.fn_carrier_protein_40 _let_7))) (let ((_let_72 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_let_121) (tptp.directly_proportional_2 _let_121 _let_123) (tptp.quantity_2 _let_125 _let_123) (tptp.is_across_2 _let_7 _let_96) (tptp.is_inside_2 _let_114 _let_96) (tptp.facilitates_2 _let_114 _let_115) (tptp.site_2 _let_115 _let_114) (tptp.is_inside_2 _let_117 _let_114) (tptp.subevent_2 _let_9 _let_63) (tptp.has_part_2 _let_96 _let_112) (tptp.raw_material_2 _let_9 _let_111) (tptp.object_2 _let_19 _let_88) (tptp.site_2 _let_110 _let_105) (tptp.instrument_2 _let_19 _let_96) (tptp.object_2 _let_19 _let_109) (tptp.subevent_2 _let_17 _let_99) (tptp.agent_2 _let_17 _let_95) (tptp.agent_2 _let_108 _let_95) (tptp.next_event_2 _let_99 _let_108) (tptp.has_region_2 _let_96 _let_104) (tptp.is_at_2 _let_105 _let_104) (tptp.is_at_2 _let_107 _let_105) (tptp.is_opposite_2 _let_106 _let_105) (tptp.is_opposite_2 _let_105 _let_106) (tptp.object_2 _let_99 _let_91) (tptp.base_2 _let_99 _let_102) (tptp.has_state_2 _let_95 _let_102) (not (= _let_95 _let_102)) (not (= _let_102 _let_95)) (tptp.base_2 _let_89 _let_96) (tptp.has_function_2 _let_96 _let_89) (tptp.subevent_2 _let_9 _let_89) (tptp.path_2 _let_9 _let_96) (tptp.has_function_2 _let_96 _let_19) (not (= _let_87 _let_86)) (not (= _let_84 _let_87)) (not (= _let_86 _let_87)) (tptp.is_inside_2 _let_86 _let_1) (tptp.is_inside_2 _let_84 _let_1) (not (= _let_87 _let_84)) (tptp.is_inside_2 _let_87 _let_1) (not (= _let_86 _let_84)) (not (= _let_84 _let_86)) (not (= _let_91 _let_93)) (not (= _let_93 _let_91)) (not (= _let_91 _let_90)) (not (= _let_90 _let_88)) (not (= _let_90 _let_91)) (not (= _let_88 _let_90)) (tptp.object_2 _let_9 _let_88) (tptp.object_2 _let_89 _let_88) (tptp.base_2 _let_9 _let_94) (tptp.is_between_2 _let_4 _let_84) (tptp.object_2 _let_19 _let_91) (tptp.base_2 _let_26 _let_95) (= _let_7 _let_66) (= _let_1 _let_157) (= _let_7 _let_65) (= _let_7 _let_64) (= _let_91 _let_25) (= _let_156 _let_145) (= _let_155 _let_18) (= _let_154 _let_143) (= _let_94 _let_29) (= _let_12 _let_83) (= _let_111 _let_58) (= _let_111 _let_57) (= _let_84 _let_8) (= _let_104 _let_41) (= _let_110 _let_54) (= _let_12 _let_82) (= _let_108 _let_52) (= _let_12 _let_81) (= _let_89 _let_14) (= _let_89 _let_13) (= _let_91 _let_27) (= _let_26 _let_153) (= _let_91 _let_23) (= _let_24 _let_152) (= _let_151 _let_150) (= _let_91 _let_22) (= _let_149 _let_148) (= _let_147 _let_18) (= _let_146 _let_145) (= _let_144 _let_143) (= _let_109 _let_143) (= _let_88 _let_18) (= _let_105 _let_45) (= _let_107 _let_49) (= _let_106 _let_44) (= _let_112 _let_61) (= (tptp.fn_cotransport_56 X) _let_142) (= (tptp.fn_cotransport_57 X) _let_141) (= (tptp.fn_cotransport_58 X) _let_140) (= _let_96 _let_39) (= _let_96 _let_38) (= _let_89 _let_11) (= (tptp.fn_cotransport_55 X) _let_139) (= _let_138 _let_137) (= _let_136 _let_135) (= _let_4 _let_31) (= _let_4 _let_30) (= _let_134 _let_80) (= _let_134 _let_79) (= _let_133 _let_78) (= _let_133 _let_77) (= _let_132 _let_76) (= _let_132 _let_75) (= _let_131 _let_74) (= _let_105 _let_44) (= _let_131 _let_73) (= _let_130 _let_72) (= _let_130 _let_71) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_125 _let_124) (= _let_123 _let_122) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_115 _let_70) (= _let_115 _let_69) (= _let_114 _let_68) (= _let_114 _let_67) (= _let_7 _let_62) (= _let_96 _let_37) (= _let_96 _let_36) (= _let_63 _let_113) (= _let_112 _let_60) (= _let_9 (tptp.fn_energy_coupling_4 X)) (= _let_111 _let_56) (= _let_111 _let_59) (= _let_111 _let_55) (= _let_88 _let_16) (= _let_110 _let_53) (= _let_109 _let_92) (= _let_108 _let_51) (= _let_108 _let_10) (= _let_107 _let_50) (= _let_107 _let_48) (= _let_106 _let_47) (= _let_105 _let_46) (= _let_104 _let_42) (= _let_105 _let_43) (= _let_104 _let_40) (= _let_95 _let_34) (= _let_95 _let_33) (= _let_102 _let_103) (= _let_102 _let_101) (= _let_99 _let_100) (= _let_91 _let_21) (= _let_99 _let_98) (= _let_19 _let_97) (= _let_96 _let_35) (= _let_95 _let_32) (= _let_91 _let_20) (= _let_84 _let_6) (= _let_84 _let_5) (= _let_94 _let_28) (= _let_93 _let_92) (= _let_91 _let_15) (= _let_90 _let_16) (= _let_89 _let_10) (= _let_88 _let_15) (= _let_87 _let_3) (= _let_84 _let_3) (= _let_86 _let_85) (= _let_84 _let_2) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_10 _let_51) (= _let_51 _let_10) (= _let_10 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_44) (= _let_44 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_25) (= _let_25 _let_27) (= _let_27 _let_25) (= _let_25 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_15) (= _let_15 _let_20) (= _let_20 _let_15) (= _let_15 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_7 X))) (let ((_let_2 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_8 X))) (let ((_let_3 (tptp.fn_cotransport_53 X))) (let ((_let_4 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_3 X))) (let ((_let_5 (tptp.fn_sucrose_hydrogen_ion_cotransporter_28 _let_4))) (let ((_let_6 (tptp.fn_cotransporter_4 _let_4))) (let ((_let_7 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_6 X))) (let ((_let_8 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_7 X))) (let ((_let_9 (tptp.fn_cotransport_18 X))) (let ((_let_10 (tptp.fn_transport_protein_35 _let_4))) (let ((_let_11 (tptp.fn_sucrose_hydrogen_ion_cotransporter_34 _let_4))) (let ((_let_12 (tptp.fn_cotransporter_12 _let_4))) (let ((_let_13 (tptp.fn_sucrose_hydrogen_ion_cotransporter_7 _let_4))) (let ((_let_14 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_5 X))) (let ((_let_15 (tptp.fn_cotransporter_16 _let_4))) (let ((_let_16 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_6 X))) (let ((_let_17 (tptp.fn_cotransport_15 X))) (let ((_let_18 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_2 X))) (let ((_let_19 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_3 X))) (let ((_let_20 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_4 X))) (let ((_let_21 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_5 X))) (let ((_let_22 (tptp.fn_transport_protein_28 _let_4))) (let ((_let_23 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_1 X))) (let ((_let_24 (tptp.fn_cotransporter_10 _let_4))) (let ((_let_25 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_4 X))) (let ((_let_26 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_5 X))) (let ((_let_27 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_8 X))) (let ((_let_28 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_6 X))) (let ((_let_29 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_2 X))) (let ((_let_30 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_9 X))) (let ((_let_31 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_7 X))) (=> (tptp.cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cotransport-Of-Sucrose-And-Hydrogen-Ion-By-Plant-Cell'|) (tptp.user_description_2 X |tptp.'The simultaneous movement of sucrose and hydrogen ions across a membrane in opposite directions.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'cotransport of sucrose and hydrogen ion by plant cell'|) (tptp.concept2words_2 X |tptp.'cotransport-of-sucrose-and-hydrogen-ion-by-plant-cell'|) (tptp.uptake_of_nutrient_by_plant_cell_using_proton_pump_1 X) (tptp.system_1 (tptp.fn_cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_1 X)) (tptp.cell_1 _let_29) (tptp.plant_cell_1 _let_29) (tptp.molecule_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.membrane_protein_1 _let_4) (tptp.protein_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.polymer_1 _let_4) (tptp.integral_protein_1 _let_4) (tptp.carrier_protein_1 _let_4) (tptp.transport_protein_1 _let_4) (tptp.cotransporter_1 _let_4) (tptp.sucrose_hydrogen_ion_cotransporter_1 _let_4) (tptp.membrane_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.biomembrane_1 _let_25) (tptp.endergonic_process_1 _let_26) (tptp.work_1 _let_26) (tptp.cellular_work_1 _let_26) (tptp.active_transport_using_atp_1 _let_26) (tptp.passive_transport_1 _let_28) (tptp.exergonic_process_1 _let_28) (tptp.facilitated_diffusion_1 _let_28) (tptp.sucrose_1 _let_31) (tptp.tangible_entity_1 _let_27) (tptp.spatial_entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.hydrogen_ion_1 _let_27) (tptp.energy_1 _let_30) (tptp.entity_1 _let_30) (tptp.free_energy_1 _let_30) (tptp.energy_1 _let_24) (tptp.entity_1 _let_24) (tptp.free_energy_1 _let_24) (tptp.facilitated_diffusion_1 _let_22) (tptp.endergonic_process_1 _let_15) (tptp.work_1 _let_15) (tptp.cellular_work_1 _let_15) (tptp.active_transport_using_atp_1 _let_15) (tptp.endergonic_process_1 _let_13) (tptp.work_1 _let_13) (tptp.cellular_work_1 _let_13) (tptp.active_transport_using_atp_1 _let_13) (tptp.cotransport_1 _let_12) (tptp.cotransport_using_proton_pump_1 _let_11) (tptp.cotransport_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.membrane_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (not (= _let_27 _let_31)) (not (= _let_31 _let_27)) (tptp.object_2 X _let_31) (tptp.object_2 _let_26 _let_31) (tptp.path_2 _let_28 _let_25) (tptp.instrument_2 _let_28 _let_4) (tptp.called_2 _let_26 |tptp.'AT2'|) (tptp.subevent_2 X _let_28) (tptp.result_2 _let_28 _let_30) (tptp.raw_material_2 _let_26 _let_30) (tptp.base_2 _let_26 _let_29) (tptp.object_2 X _let_27) (tptp.object_2 _let_28 _let_27) (tptp.base_2 _let_28 _let_29) (tptp.base_2 X _let_29) (tptp.object_2 X _let_30) (tptp.subevent_2 X _let_26) (tptp.agent_2 _let_26 _let_4) (tptp.agent_2 X _let_4) (tptp.is_across_2 _let_4 _let_25) (tptp.has_part_2 _let_25 _let_4) (tptp.has_function_2 _let_4 X) (tptp.path_2 X _let_25) (tptp.path_2 _let_26 _let_25) (= _let_27 _let_19) (= _let_31 (tptp.fn_uptake_of_nutrient_by_cell_using_proton_pump_4 X)) (= _let_28 _let_21) (= _let_28 _let_22) (= _let_26 _let_15) (= _let_30 _let_24) (= _let_30 _let_23) (= _let_29 (tptp.fn_uptake_of_nutrient_by_plant_cell_using_proton_pump_8 X)) (= _let_28 _let_20) (= _let_27 _let_18) (= _let_26 _let_17) (= _let_26 _let_16) (= _let_26 _let_14) (= _let_26 _let_13) (= X _let_12) (= X _let_11) (= _let_25 _let_10) (= _let_4 _let_3) (= _let_25 _let_9) (= _let_4 _let_2) (= _let_25 _let_8) (= _let_4 _let_1) (= _let_25 _let_7) (= _let_25 _let_6) (= _let_25 _let_5) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cotransport_using_proton_pump_1 X))) (let ((_let_2 (tptp.fn_active_transport_using_atp_32 _let_1))) (let ((_let_3 (tptp.fn_cotransport_using_proton_pump_12 X))) (let ((_let_4 (tptp.fn_proton_pump_76 _let_3))) (let ((_let_5 (tptp.fn_cotransport_using_proton_pump_18 X))) (let ((_let_6 (tptp.fn_active_transport_using_atp_32 _let_5))) (let ((_let_7 (tptp.fn_cotransport_18 X))) (let ((_let_8 (tptp.fn_transport_protein_35 _let_3))) (let ((_let_9 (tptp.fn_electrogenic_pump_30 _let_3))) (let ((_let_10 (tptp.fn_active_movement_of_ions_19 _let_5))) (let ((_let_11 (tptp.fn_protein_pump_3 _let_3))) (let ((_let_12 (tptp.fn_carrier_protein_18 _let_3))) (let ((_let_13 (tptp.fn_cotransport_using_proton_pump_20 X))) (let ((_let_14 (tptp.fn_facilitated_diffusion_49 _let_13))) (let ((_let_15 (tptp.fn_active_transport_using_atp_78 _let_1))) (let ((_let_16 (tptp.fn_active_transport_using_atp_48 _let_1))) (let ((_let_17 (tptp.fn_active_transport_using_atp_48 _let_5))) (let ((_let_18 (tptp.fn_proton_pump_25 _let_3))) (let ((_let_19 (tptp.fn_cotransport_10 X))) (let ((_let_20 (tptp.fn_active_movement_of_ions_10 _let_5))) (let ((_let_21 (tptp.fn_active_transport_using_atp_31 _let_1))) (let ((_let_22 (tptp.fn_proton_pump_42 _let_3))) (let ((_let_23 (tptp.fn_active_transport_using_atp_31 _let_5))) (let ((_let_24 (tptp.fn_transport_protein_34 _let_3))) (let ((_let_25 (tptp.fn_cotransport_9 X))) (let ((_let_26 (tptp.fn_active_transport_using_atp_92 _let_1))) (let ((_let_27 (tptp.fn_active_transport_20 _let_5))) (let ((_let_28 (tptp.fn_active_transport_using_atp_44 _let_1))) (let ((_let_29 (tptp.fn_proton_pump_59 _let_3))) (let ((_let_30 (tptp.fn_active_transport_using_atp_44 _let_5))) (let ((_let_31 (tptp.fn_electrogenic_pump_2 _let_3))) (let ((_let_32 (tptp.fn_cotransport_8 X))) (let ((_let_33 (tptp.fn_active_transport_using_atp_45 _let_1))) (let ((_let_34 (tptp.fn_proton_pump_24 _let_3))) (let ((_let_35 (tptp.fn_active_transport_using_atp_45 _let_5))) (let ((_let_36 (tptp.fn_active_transport_using_atp_24 _let_1))) (let ((_let_37 (tptp.fn_active_transport_21 _let_5))) (let ((_let_38 (tptp.fn_active_transport_using_atp_78 _let_5))) (let ((_let_39 (tptp.fn_cotransport_11 X))) (let ((_let_40 (tptp.fn_active_transport_by_proton_pump_4 _let_5))) (let ((_let_41 (tptp.fn_proton_pump_36 _let_3))) (let ((_let_42 (tptp.fn_cotransport_7 X))) (let ((_let_43 (tptp.fn_electrogenic_pump_28 _let_3))) (let ((_let_44 (tptp.fn_proton_pump_54 _let_3))) (let ((_let_45 (tptp.fn_cotransport_16 X))) (let ((_let_46 (tptp.fn_active_transport_by_proton_pump_3 _let_5))) (let ((_let_47 (tptp.fn_facilitated_diffusion_26 _let_13))) (let ((_let_48 (tptp.fn_active_transport_using_atp_46 _let_5))) (let ((_let_49 (tptp.fn_proton_pump_68 _let_3))) (let ((_let_50 (tptp.fn_cotransport_6 X))) (let ((_let_51 (tptp.fn_transport_protein_28 _let_3))) (let ((_let_52 (tptp.fn_electrogenic_pump_40 _let_3))) (let ((_let_53 (tptp.fn_energy_coupling_3 X))) (let ((_let_54 (tptp.fn_cotransport_using_proton_pump_14 X))) (let ((_let_55 (tptp.fn_cotransport_using_proton_pump_15 X))) (let ((_let_56 (tptp.fn_cotransport_using_proton_pump_16 X))) (let ((_let_57 (tptp.fn_cotransport_using_proton_pump_2 X))) (let ((_let_58 (tptp.fn_cotransport_using_proton_pump_17 X))) (let ((_let_59 (tptp.fn_active_transport_using_atp_91 _let_1))) (let ((_let_60 (tptp.fn_cotransport_using_proton_pump_4 X))) (let ((_let_61 (tptp.fn_cotransport_using_proton_pump_13 X))) (let ((_let_62 (tptp.fn_active_transport_using_atp_49 _let_1))) (let ((_let_63 (tptp.fn_cotransport_using_proton_pump_7 X))) (let ((_let_64 (tptp.fn_active_transport_using_atp_50 _let_1))) (let ((_let_65 (tptp.fn_cotransport_using_proton_pump_6 X))) (let ((_let_66 (tptp.fn_cotransport_using_proton_pump_3 X))) (let ((_let_67 (tptp.fn_active_transport_using_atp_14 _let_1))) (let ((_let_68 (tptp.fn_cotransport_using_proton_pump_8 X))) (let ((_let_69 (tptp.fn_active_transport_using_atp_25 _let_1))) (let ((_let_70 (tptp.fn_cotransport_using_proton_pump_9 X))) (let ((_let_71 (tptp.fn_cotransport_using_proton_pump_11 X))) (let ((_let_72 (tptp.fn_cotransport_using_proton_pump_19 X))) (let ((_let_73 (tptp.fn_active_transport_25 _let_5))) (let ((_let_74 (tptp.fn_cotransport_using_proton_pump_10 X))) (let ((_let_75 (tptp.fn_active_transport_using_atp_91 _let_5))) (let ((_let_76 (tptp.fn_active_transport_using_atp_50 _let_5))) (let ((_let_77 (tptp.fn_active_transport_using_atp_25 _let_5))) (let ((_let_78 (tptp.fn_active_transport_using_atp_49 _let_5))) (let ((_let_79 (tptp.fn_active_transport_using_atp_14 _let_5))) (let ((_let_80 (tptp.fn_active_transport_by_proton_pump_1 _let_5))) (let ((_let_81 (tptp.fn_cotransport_using_proton_pump_5 X))) (=> (tptp.cotransport_using_proton_pump_1 X) (and (tptp.original_name_2 X |tptp.'Cotransport-Using-Proton-Pump'|) (tptp.user_description_2 X |tptp.'Coupled transport across the plasma membrane where H+ ions coupled with another substance diffuse across the plasma membrane down the H+ gradient. A proton pump generates potential energy on one side of the membrane by forming an area of high H+ concentration that is used to drive the transport of another substance as H+ diffuses through a specific cotransport protein.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'cotransport using proton pump'|) (tptp.concept2words_2 X |tptp.'cotransport-using-proton-pump'|) (tptp.cotransport_1 X) (tptp.endergonic_process_1 _let_1) (tptp.work_1 _let_1) (tptp.cellular_work_1 _let_1) (tptp.active_transport_using_atp_1 _let_1) (tptp.solution_1 _let_57) (tptp.aqueous_solution_1 _let_57) (tptp.solution_1 _let_66) (tptp.aqueous_solution_1 _let_66) (tptp.phosphorylation_1 _let_60) (tptp.proton_motive_force_1 _let_81) (tptp.consume_1 _let_65) (tptp.release_1 _let_63) (tptp.energy_1 _let_68) (tptp.entity_1 _let_68) (tptp.chemical_energy_1 _let_68) (tptp.entity_1 _let_70) (tptp.free_energy_1 _let_70) (tptp.concentration_gradient_1 _let_74) (tptp.tangible_entity_1 _let_71) (tptp.spatial_entity_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.hydrogen_ion_1 _let_71) (tptp.protein_pump_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.molecule_1 _let_3) (tptp.polymer_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.integral_protein_1 _let_3) (tptp.carrier_protein_1 _let_3) (tptp.electrogenic_pump_1 _let_3) (tptp.transport_protein_1 _let_3) (tptp.proton_pump_1 _let_3) (tptp.spatial_entity_1 _let_61) (tptp.molecule_1 _let_61) (tptp.organic_molecule_1 _let_61) (tptp.ribonucleotide_1 _let_61) (tptp.nucleoside_triphosphate_1 _let_61) (tptp.atp_1 _let_61) (tptp.membrane_1 _let_54) (tptp.spatial_entity_1 _let_54) (tptp.biomembrane_1 _let_54) (tptp.molecule_1 _let_55) (tptp.tangible_entity_1 _let_55) (tptp.membrane_protein_1 _let_55) (tptp.protein_1 _let_55) (tptp.polymer_1 _let_55) (tptp.spatial_entity_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.integral_protein_1 _let_55) (tptp.transport_protein_1 _let_55) (tptp.carrier_protein_1 _let_55) (tptp.move_1 _let_56) (tptp.move_through_1 _let_56) (tptp.detach_1 _let_58) (tptp.active_transport_1 _let_5) (tptp.active_movement_of_ions_1 _let_5) (tptp.active_transport_using_atp_1 _let_5) (tptp.active_transport_by_proton_pump_1 _let_5) (tptp.attach_1 _let_72) (tptp.exergonic_process_1 _let_13) (tptp.facilitated_diffusion_1 _let_13) (tptp.proton_motive_force_1 _let_80) (tptp.energy_1 _let_79) (tptp.entity_1 _let_79) (tptp.chemical_energy_1 _let_79) (tptp.release_1 _let_78) (tptp.entity_1 _let_77) (tptp.free_energy_1 _let_77) (tptp.consume_1 _let_76) (tptp.phosphorylation_1 _let_75) (tptp.concentration_gradient_1 _let_73) (tptp.entity_1 _let_69) (tptp.free_energy_1 _let_69) (tptp.energy_1 _let_67) (tptp.entity_1 _let_67) (tptp.chemical_energy_1 _let_67) (tptp.consume_1 _let_64) (tptp.release_1 _let_62) (tptp.phosphorylation_1 _let_59) (tptp.facilitated_diffusion_1 _let_52) (tptp.facilitated_diffusion_1 _let_51) (tptp.attach_1 _let_49) (tptp.spatial_entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.spatial_entity_1 _let_47) (tptp.tangible_entity_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.hydrogen_ion_1 _let_46) (tptp.hydrogen_ion_1 _let_44) (tptp.active_movement_of_ions_1 _let_43) (tptp.active_transport_by_proton_pump_1 _let_41) (tptp.proton_pump_1 _let_40) (tptp.spatial_entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.integral_protein_1 _let_38) (tptp.transport_protein_1 _let_38) (tptp.carrier_protein_1 _let_38) (tptp.solution_1 _let_37) (tptp.aqueous_solution_1 _let_36) (tptp.spatial_entity_1 _let_35) (tptp.molecule_1 _let_35) (tptp.organic_molecule_1 _let_35) (tptp.ribonucleotide_1 _let_35) (tptp.nucleoside_triphosphate_1 _let_35) (tptp.atp_1 _let_35) (tptp.spatial_entity_1 _let_34) (tptp.molecule_1 _let_34) (tptp.organic_molecule_1 _let_34) (tptp.ribonucleotide_1 _let_34) (tptp.nucleoside_triphosphate_1 _let_34) (tptp.atp_1 _let_34) (tptp.spatial_entity_1 _let_33) (tptp.molecule_1 _let_33) (tptp.organic_molecule_1 _let_33) (tptp.ribonucleotide_1 _let_33) (tptp.nucleoside_triphosphate_1 _let_33) (tptp.atp_1 _let_33) (tptp.detach_1 _let_31) (tptp.detach_1 _let_30) (tptp.detach_1 _let_29) (tptp.detach_1 _let_28) (tptp.solution_1 _let_27) (tptp.aqueous_solution_1 _let_26) (tptp.move_through_1 _let_24) (tptp.move_1 _let_23) (tptp.move_through_1 _let_23) (tptp.move_through_1 _let_22) (tptp.move_1 _let_22) (tptp.move_1 _let_21) (tptp.move_through_1 _let_21) (tptp.chemical_entity_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.membrane_protein_1 _let_20) (tptp.protein_1 _let_20) (tptp.molecule_1 _let_20) (tptp.polymer_1 _let_20) (tptp.transport_protein_1 _let_20) (tptp.integral_protein_1 _let_20) (tptp.carrier_protein_1 _let_20) (tptp.tangible_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.protein_1 _let_18) (tptp.molecule_1 _let_18) (tptp.polymer_1 _let_18) (tptp.spatial_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.integral_protein_1 _let_18) (tptp.transport_protein_1 _let_18) (tptp.carrier_protein_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.polymer_1 _let_17) (tptp.integral_protein_1 _let_17) (tptp.transport_protein_1 _let_17) (tptp.carrier_protein_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.protein_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.polymer_1 _let_16) (tptp.integral_protein_1 _let_16) (tptp.transport_protein_1 _let_16) (tptp.carrier_protein_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.integral_protein_1 _let_15) (tptp.transport_protein_1 _let_15) (tptp.carrier_protein_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.membrane_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.membrane_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.membrane_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (tptp.agent_2 _let_13 _let_81) (tptp.next_event_2 _let_72 _let_60) (tptp.causes_2 _let_5 _let_13) (tptp.subevent_2 X _let_13) (tptp.object_2 _let_13 _let_71) (tptp.is_permeable_to_2 _let_54 _let_71) (tptp.result_2 _let_5 _let_81) (tptp.raw_material_2 _let_5 _let_68) (tptp.subevent_2 _let_5 _let_63) (tptp.raw_material_2 _let_5 _let_70) (tptp.subevent_2 _let_5 _let_65) (tptp.result_2 _let_60 _let_3) (tptp.subevent_2 _let_5 _let_60) (tptp.object_2 X _let_71) (tptp.origin_2 _let_5 _let_57) (tptp.is_between_2 _let_74 _let_57) (tptp.is_between_2 _let_74 _let_66) (tptp.destination_2 _let_5 _let_66) (tptp.base_2 _let_5 _let_74) (tptp.path_2 _let_13 _let_54) (tptp.instrument_2 _let_13 _let_55) (tptp.facilitates_2 _let_55 _let_56) (tptp.subevent_2 _let_13 _let_56) (tptp.path_2 X _let_54) (tptp.called_2 _let_5 |tptp.'AT1'|) (tptp.called_2 _let_1 |tptp.'AT2'|) (tptp.base_2 _let_72 _let_55) (tptp.subevent_2 X _let_1) (tptp.subevent_2 _let_5 _let_72) (tptp.first_subevent_2 _let_5 _let_72) (not (= _let_5 _let_1)) (not (= _let_1 _let_5)) (tptp.raw_material_2 _let_5 _let_61) (tptp.subevent_2 _let_5 _let_56) (tptp.agent_2 _let_5 _let_3) (tptp.object_2 _let_5 _let_71) (tptp.object_2 _let_72 _let_71) (tptp.is_across_2 _let_3 _let_54) (tptp.base_2 _let_58 _let_3) (tptp.object_2 _let_58 _let_71) (tptp.object_2 _let_56 _let_71) (tptp.next_event_2 _let_56 _let_58) (tptp.path_2 _let_5 _let_54) (tptp.has_part_2 _let_54 _let_3) (tptp.has_state_2 _let_55 _let_3) (tptp.agent_2 _let_5 _let_55) (tptp.subevent_2 _let_5 _let_58) (tptp.has_function_2 _let_3 _let_5) (not (= _let_55 _let_3)) (not (= _let_3 _let_55)) (not (= _let_61 _let_3)) (not (= _let_3 _let_61)) (tptp.object_2 _let_65 _let_70) (tptp.object_2 _let_65 _let_68) (tptp.base_2 _let_56 _let_54) (tptp.raw_material_2 _let_60 _let_55) (tptp.agent_2 _let_56 _let_55) (tptp.destination_2 _let_56 _let_66) (tptp.next_event_2 _let_58 _let_56) (tptp.next_event_2 _let_60 _let_58) (tptp.raw_material_2 _let_60 _let_61) (tptp.base_2 _let_63 _let_61) (tptp.next_event_2 _let_65 _let_63) (tptp.path_2 _let_1 _let_54) (tptp.has_part_2 _let_54 _let_55) (tptp.is_across_2 _let_55 _let_54) (tptp.has_function_2 _let_54 _let_56) (tptp.origin_2 _let_56 _let_57) (= _let_13 _let_53) (= _let_54 _let_14) (= _let_71 _let_47) (= _let_81 _let_80) (= _let_68 _let_79) (= _let_63 _let_78) (= _let_70 _let_77) (= _let_65 _let_76) (= _let_60 _let_75) (= _let_66 _let_37) (= _let_74 _let_73) (= _let_57 _let_27) (= _let_56 _let_24) (= _let_13 _let_52) (= _let_13 _let_51) (= _let_54 _let_7) (= _let_55 _let_19) (= _let_72 _let_50) (= _let_1 (tptp.fn_cotransport_15 X)) (= _let_72 _let_49) (= _let_71 _let_46) (= _let_3 _let_40) (= _let_56 _let_23) (= _let_71 _let_48) (= _let_56 _let_25) (= _let_71 _let_45) (= _let_56 _let_22) (= _let_71 _let_44) (= _let_3 _let_39) (= _let_58 _let_30) (= _let_5 _let_42) (= _let_58 _let_32) (= _let_58 _let_31) (= _let_58 _let_29) (= _let_55 _let_20) (= _let_54 _let_12) (= _let_54 _let_11) (= _let_3 _let_20) (= _let_54 _let_8) (= _let_54 _let_10) (= _let_54 _let_6) (= _let_5 _let_43) (= _let_54 _let_9) (= _let_54 _let_4) (= _let_5 _let_41) (= _let_61 _let_35) (= _let_61 _let_34) (= _let_3 _let_38) (= _let_55 _let_17) (= _let_55 _let_18) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_36) (= _let_55 _let_16) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_33) (= _let_60 _let_59) (= _let_58 _let_28) (= _let_57 _let_26) (= _let_56 _let_21) (= _let_55 _let_15) (= _let_54 _let_2) (= _let_53 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_20) (= _let_38 _let_20) (= _let_20 _let_20) (= _let_20 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_29 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_4) (= _let_4 _let_4) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cotransporter_12 X))) (let ((_let_2 (tptp.fn_cotransport_53 _let_1))) (let ((_let_3 (tptp.fn_cotransporter_11 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_carrier_protein_23 X))) (let ((_let_6 (tptp.fn_cotransport_41 _let_1))) (let ((_let_7 (tptp.fn_carrier_protein_4 X))) (let ((_let_8 (tptp.fn_cotransport_60 _let_1))) (let ((_let_9 (tptp.fn_transport_protein_34 X))) (let ((_let_10 (tptp.fn_carrier_protein_18 X))) (let ((_let_11 (tptp.fn_cotransport_18 _let_1))) (let ((_let_12 (tptp.fn_transport_protein_35 X))) (let ((_let_13 (tptp.fn_integral_protein_24 X))) (let ((_let_14 (tptp.fn_cotransport_14 _let_1))) (let ((_let_15 (tptp.fn_carrier_protein_7 X))) (let ((_let_16 (tptp.fn_cotransporter_14 X))) (let ((_let_17 (tptp.fn_cotransporter_13 X))) (let ((_let_18 (tptp.fn_cotransporter_2 X))) (let ((_let_19 (tptp.fn_cotransporter_4 X))) (let ((_let_20 (tptp.fn_cotransporter_3 X))) (let ((_let_21 (tptp.fn_cotransport_15 _let_1))) (let ((_let_22 (tptp.fn_cotransporter_16 X))) (let ((_let_23 (tptp.fn_cotransport_59 _let_1))) (let ((_let_24 (tptp.fn_cotransporter_9 X))) (let ((_let_25 (tptp.fn_cotransport_19 _let_1))) (let ((_let_26 (tptp.fn_cotransporter_7 X))) (let ((_let_27 (tptp.fn_cotransport_16 _let_1))) (let ((_let_28 (tptp.fn_cotransporter_6 X))) (let ((_let_29 (tptp.fn_cotransport_13 _let_1))) (let ((_let_30 (tptp.fn_cotransporter_10 X))) (let ((_let_31 (tptp.fn_cotransport_17 _let_1))) (let ((_let_32 (tptp.fn_cotransporter_8 X))) (let ((_let_33 (tptp.fn_cotransport_7 _let_1))) (let ((_let_34 (tptp.fn_cotransporter_5 X))) (let ((_let_35 (tptp.fn_cotransport_3 _let_1))) (let ((_let_36 (tptp.fn_cotransporter_15 X))) (let ((_let_37 (tptp.fn_cotransporter_1 X))) (=> (tptp.cotransporter_1 X) (and (tptp.original_name_2 X |tptp.'Cotransporter'|) (tptp.user_description_2 X |tptp.'A transport protein responsible for simultaneous moving across of molecules across a membrane is called cotransporter.'|) (tptp.concept2words_2 X tptp.cotransporter) (tptp.carrier_protein_1 X) (tptp.inside_face_1 _let_37) (tptp.move_1 _let_18) (tptp.move_through_1 _let_18) (tptp.exergonic_process_1 _let_20) (tptp.passive_transport_1 _let_20) (tptp.facilitated_diffusion_1 _let_20) (tptp.facilitated_diffusion_using_carrier_protein_1 _let_20) (tptp.membrane_1 _let_19) (tptp.spatial_entity_1 _let_19) (tptp.biomembrane_1 _let_19) (tptp.active_transport_using_atp_1 _let_34) (tptp.tangible_entity_1 _let_28) (tptp.spatial_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.symmetrical_distribution_1 _let_26) (tptp.thermal_motion_1 _let_32) (tptp.cell_1 _let_24) (tptp.energy_1 _let_30) (tptp.entity_1 _let_30) (tptp.free_energy_1 _let_30) (tptp.attach_1 _let_3) (tptp.cotransport_1 _let_1) (tptp.hydrophilic_region_1 _let_17) (tptp.hydrophilic_end_1 _let_17) (tptp.hydrophilic_region_1 _let_16) (tptp.hydrophilic_end_1 _let_16) (tptp.expose_1 _let_36) (tptp.endergonic_process_1 _let_22) (tptp.work_1 _let_22) (tptp.cellular_work_1 _let_22) (tptp.active_transport_using_atp_1 _let_22) (tptp.expose_1 _let_35) (tptp.active_transport_using_atp_1 _let_33) (tptp.thermal_motion_1 _let_31) (tptp.energy_1 _let_29) (tptp.entity_1 _let_29) (tptp.free_energy_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.spatial_entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.symmetrical_distribution_1 _let_25) (tptp.cell_1 _let_23) (tptp.endergonic_process_1 _let_21) (tptp.work_1 _let_21) (tptp.cellular_work_1 _let_21) (tptp.active_transport_using_atp_1 _let_21) (tptp.exergonic_process_1 _let_14) (tptp.passive_transport_1 _let_14) (tptp.facilitated_diffusion_1 _let_14) (tptp.facilitated_diffusion_using_carrier_protein_1 _let_14) (tptp.membrane_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.move_1 _let_8) (tptp.move_through_1 _let_8) (tptp.hydrophilic_region_1 _let_6) (tptp.hydrophilic_end_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.cotransporter_1 _let_2) (tptp.is_at_2 _let_17 _let_37) (tptp.called_2 _let_22 |tptp.'AT1'|) (tptp.base_2 _let_3 X) (tptp.called_2 _let_34 |tptp.'AT1'|) (tptp.object_2 _let_1 _let_30) (tptp.causes_2 _let_34 _let_20) (tptp.object_2 _let_36 X) (tptp.site_2 _let_36 _let_16) (tptp.object_2 _let_1 _let_28) (tptp.subevent_2 _let_1 _let_22) (tptp.path_2 _let_22 _let_19) (not (= _let_34 _let_22)) (not (= _let_22 _let_34)) (tptp.raw_material_2 _let_22 _let_30) (tptp.result_2 _let_20 _let_30) (tptp.by_means_of_2 _let_20 _let_32) (tptp.object_2 _let_32 _let_28) (tptp.object_2 _let_34 _let_28) (tptp.objective_2 _let_20 _let_26) (tptp.object_2 _let_26 _let_28) (tptp.object_2 _let_20 _let_28) (tptp.path_2 _let_20 _let_19) (tptp.path_2 _let_1 _let_19) (tptp.agent_2 _let_22 X) (tptp.subevent_2 _let_22 _let_18) (tptp.subevent_2 _let_20 _let_18) (tptp.base_2 _let_20 _let_24) (tptp.base_2 _let_22 _let_24) (tptp.agent_2 _let_1 X) (tptp.has_function_2 X _let_1) (tptp.subevent_2 _let_1 _let_20) (tptp.instrument_2 _let_20 X) (tptp.has_function_2 X _let_20) (tptp.is_across_2 X _let_19) (tptp.has_function_2 _let_19 _let_18) (tptp.base_2 _let_18 _let_19) (tptp.has_part_2 _let_19 X) (tptp.has_region_2 X _let_16) (tptp.is_opposite_2 _let_16 _let_17) (tptp.has_region_2 X _let_17) (tptp.facilitates_2 X _let_18) (tptp.agent_2 _let_18 X) (tptp.is_opposite_2 _let_17 _let_16) (= X _let_4) (= _let_16 _let_6) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_19 _let_11) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_18 _let_8) (= _let_22 _let_21) (= _let_20 _let_15) (= _let_20 _let_14) (= X _let_2) (= _let_19 _let_13) (= _let_19 _let_12) (= _let_18 _let_9) (= _let_19 _let_10) (= _let_18 _let_7) (= _let_17 (tptp.fn_carrier_protein_22 X)) (= _let_16 _let_5) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_polar_substance_1 X))) (let ((_let_2 (tptp.fn_hydrophilic_substance_1 X))) (let ((_let_3 (tptp.fn_cotton_4 X))) (let ((_let_4 (tptp.fn_create_1 _let_3))) (let ((_let_5 (tptp.fn_cotton_3 X))) (let ((_let_6 (tptp.fn_cotton_1 X))) (let ((_let_7 (tptp.fn_cotton_2 X))) (=> (tptp.cotton_1 X) (and (tptp.original_name_2 X |tptp.'Cotton'|) (tptp.user_description_2 X |tptp.'The cloth or fabric that is produced from cotton plants.'|) (tptp.concept2words_2 X tptp.cotton) (tptp.polar_substance_1 X) (tptp.fiber_1 _let_6) (tptp.plant_1 _let_7) (tptp.cellulose_1 _let_5) (tptp.produce_1 _let_3) (tptp.entity_1 _let_4) (tptp.agent_2 _let_3 _let_7) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_5) (tptp.result_2 _let_3 X) (= _let_5 _let_2) (= _let_5 _let_1) (= X _let_4) (= _let_2 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cotton_plant_1 X))) (=> (tptp.cotton_plant_1 X) (and (tptp.original_name_2 X |tptp.'Cotton-Plant'|) (tptp.user_description_2 X |tptp.'Agriculturally important plant which is the source for cotton used in clothing and industry.'|) (tptp.concept2words_2 X |tptp.'plant of cotton'|) (tptp.concept2words_2 X |tptp.'cotton plant'|) (tptp.concept2words_2 X |tptp.'cotton-plant'|) (tptp.dicot_1 X) (tptp.lateral_root_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_dicot_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cotyledon_20 X))) (let ((_let_2 (tptp.fn_move_into_1 _let_1))) (let ((_let_3 (tptp.fn_cotyledon_19 X))) (let ((_let_4 (tptp.fn_move_into_1 _let_3))) (let ((_let_5 (tptp.fn_cotyledon_21 X))) (let ((_let_6 (tptp.fn_stoma_5 _let_5))) (let ((_let_7 (tptp.fn_cotyledon_15 X))) (let ((_let_8 (tptp.fn_spongy_mesophyll_1 _let_7))) (let ((_let_9 (tptp.fn_cotyledon_17 X))) (let ((_let_10 (tptp.fn_stoma_7 _let_5))) (let ((_let_11 (tptp.fn_stoma_10 _let_5))) (let ((_let_12 (tptp.fn_cotyledon_16 X))) (let ((_let_13 (tptp.fn_cotyledon_18 X))) (let ((_let_14 (tptp.fn_epidermis_1 _let_13))) (let ((_let_15 (tptp.fn_cotyledon_14 X))) (let ((_let_16 (tptp.fn_cotyledon_13 X))) (let ((_let_17 (tptp.fn_cotyledon_12 X))) (let ((_let_18 (tptp.fn_cotyledon_11 X))) (let ((_let_19 (tptp.fn_cotyledon_10 X))) (let ((_let_20 (tptp.fn_cotyledon_9 X))) (let ((_let_21 (tptp.fn_cotyledon_8 X))) (let ((_let_22 (tptp.fn_cotyledon_7 X))) (let ((_let_23 (tptp.fn_cotyledon_6 X))) (let ((_let_24 (tptp.fn_cotyledon_5 X))) (let ((_let_25 (tptp.fn_cotyledon_2 X))) (let ((_let_26 (tptp.fn_cotyledon_3 X))) (let ((_let_27 (tptp.fn_cotyledon_4 X))) (=> (tptp.cotyledon_1 X) (and (tptp.original_name_2 X |tptp.'Cotyledon'|) (tptp.user_description_2 X |tptp.'A seed leaf formed in an angiosperm embryo. Some species have two cotyledons, while others have only one.'|) (tptp.concept2words_2 X tptp.cotyledon) (tptp.plant_structure_1 X) (not (tptp.megaphyll_1 X)) (not (tptp.microphyll_1 X)) (not (tptp.sepal_1 X)) (not (tptp.sporophyll_1 X)) (tptp.specific_surface_area_value_1 _let_25) (tptp.biological_region_1 _let_26) (tptp.oxygen_molecule_1 _let_27) (tptp.palisade_mesophyll_1 _let_24) (tptp.waxy_cuticle_1 _let_23) (tptp.epidermis_1 _let_22) (tptp.waxy_cuticle_1 _let_21) (tptp.plant_vein_1 _let_20) (tptp.plant_1 _let_19) (tptp.ground_tissue_system_1 _let_18) (tptp.dermal_tissue_system_1 _let_17) (tptp.vascular_tissue_system_1 _let_16) (tptp.surface_1 _let_15) (tptp.spongy_mesophyll_1 _let_7) (tptp.atmosphere_1 _let_12) (tptp.air_space_1 _let_9) (tptp.epidermis_1 _let_13) (tptp.move_into_1 _let_3) (tptp.enter_1 _let_3) (tptp.move_into_1 _let_1) (tptp.stoma_1 _let_5) (tptp.stoma_1 _let_14) (tptp.atmosphere_1 _let_11) (tptp.enter_1 _let_10) (tptp.air_space_1 _let_8) (tptp.air_space_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.the_scalar_value_2 _let_25 tptp.high_0) (tptp.scalar_unit_class_2 _let_25 tptp.plant_organ_0) (tptp.is_outside_2 _let_12 X) (tptp.is_inside_2 _let_9 X) (tptp.is_near_2 _let_9 _let_5) (tptp.is_inside_2 _let_26 X) (tptp.is_inside_2 _let_27 X) (tptp.is_inside_2 _let_24 _let_18) (not (= _let_23 _let_21)) (tptp.is_above_2 _let_23 _let_13) (tptp.is_above_2 _let_22 _let_21) (not (= _let_22 _let_13)) (tptp.is_above_2 _let_13 _let_24) (not (= _let_13 _let_22)) (tptp.is_above_2 _let_7 _let_22) (tptp.is_inside_2 _let_7 _let_18) (not (= _let_21 _let_23)) (tptp.is_inside_2 _let_20 _let_16) (not (= _let_19 X)) (tptp.destination_2 _let_1 _let_26) (tptp.element_2 _let_17 _let_22) (tptp.element_2 _let_17 _let_13) (tptp.is_near_2 _let_5 _let_9) (tptp.is_at_2 _let_5 _let_15) (tptp.specific_surface_area_2 X _let_25) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_13) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_20) (not (= X _let_19)) (tptp.has_region_2 X _let_18) (tptp.has_region_2 X _let_17) (tptp.has_region_2 X _let_16) (tptp.has_region_2 X _let_15) (tptp.base_2 _let_3 X) (tptp.base_2 _let_1 X) (tptp.has_region_2 _let_13 _let_5) (tptp.has_region_2 _let_7 _let_9) (tptp.origin_2 _let_3 _let_12) (tptp.path_2 _let_3 _let_5) (tptp.destination_2 _let_3 _let_9) (= X _let_4) (= X _let_2) (= _let_5 _let_14) (= _let_9 _let_8) (= _let_12 _let_11) (= _let_3 _let_10) (= _let_9 _let_6) (= _let_8 _let_6) (= _let_4 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.count_viewpoint_1 X) (and (tptp.original_name_2 X |tptp.'Count-Viewpoint'|) (tptp.concept2words_2 X |tptp.'viewpoint of count'|) (tptp.concept2words_2 X |tptp.'count viewpoint'|) (tptp.concept2words_2 X |tptp.'count-viewpoint'|) (tptp.viewpoint_1 X)))) (forall ((X $$unsorted)) (=> (tptp.countercurrent_exchange_1 X) (and (tptp.original_name_2 X |tptp.'Countercurrent-Exchange'|) (tptp.user_description_2 X |tptp.'Transfer of heat between two fluids moving in opposite directions. As an example, blood within a filament of a fish_'s gill flows in the opposite direction of water moving over the filament; this maximizes the diffusion of oxygen from the water into the blood.'|) (tptp.concept2words_2 X |tptp.'exchange of countercurrent'|) (tptp.concept2words_2 X |tptp.'countercurrent exchange'|) (tptp.concept2words_2 X |tptp.'countercurrent-exchange'|) (tptp.respiratory_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.countercurrent_multiplier_system_1 X) (and (tptp.original_name_2 X |tptp.'Countercurrent-Multiplier-System'|) (tptp.user_description_2 X |tptp.'A countercurrent exchange system in which concentration gradients are established by active transport.'|) (tptp.concept2words_2 X |tptp.'countercurrent multiplier system'|) (tptp.concept2words_2 X |tptp.'countercurrent-multiplier-system'|) (tptp.cardiovascular_process_1 X) (not (tptp.cardiac_cycle_1 X)) (not (tptp.diastole_1 X)) (not (tptp.heart_attack_1 X)) (not (tptp.heart_murmur_1 X)) (not (tptp.hypertension_1 X)) (not (tptp.pulse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.country_1 X) (and (tptp.original_name_2 X |tptp.'Country'|) (tptp.concept2words_2 X tptp.country) (tptp.concept2words_2 X tptp.state) (tptp.concept2words_2 X tptp.land) (tptp.administrative_district_1 X) (not (tptp.province_1 X)) (not (tptp.political_state_1 X)) (not (tptp.county_1 X)) (not (tptp.city_1 X))))) (forall ((X $$unsorted)) (=> (tptp.county_1 X) (and (tptp.original_name_2 X |tptp.'County'|) (tptp.concept2words_2 X tptp.county) (tptp.administrative_district_1 X) (not (tptp.province_1 X)) (not (tptp.political_state_1 X)) (not (tptp.country_1 X)) (not (tptp.city_1 X))))) (forall ((X $$unsorted)) (=> (tptp.coupled_transcription_and_translation_1 X) (and (tptp.original_name_2 X |tptp.'Coupled-Transcription-And-Translation'|) (tptp.user_description_2 X |tptp.'A process in prokaryotes in which transcription and translation take place simultaneously.'|) (tptp.concept2words_2 X |tptp.'coupled transcription and translation'|) (tptp.concept2words_2 X |tptp.'coupled-transcription-and-translation'|) (tptp.nucleic_acid_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.courtship_1 X) (and (tptp.original_name_2 X |tptp.'Courtship'|) (tptp.user_description_2 X |tptp.'The processes by which an individual selects a partner for mating purposes.'|) (tptp.concept2words_2 X tptp.behave) (tptp.concept2words_2 X tptp.courtship) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_covalent_bond_22 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_3 (tptp.fn_covalent_bond_19 X))) (let ((_let_4 (tptp.fn_atom_11 _let_3))) (let ((_let_5 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_6 (tptp.fn_atom_8 _let_3))) (let ((_let_7 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_8 (tptp.fn_covalent_bond_12 X))) (let ((_let_9 (tptp.fn_electron_shell_1 _let_8))) (let ((_let_10 (tptp.fn_chemical_bond_1 X))) (let ((_let_11 (tptp.fn_covalent_bond_17 X))) (let ((_let_12 (tptp.fn_share_1 _let_11))) (let ((_let_13 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_14 (tptp.fn_atom_17 _let_3))) (let ((_let_15 (tptp.fn_atom_14 _let_3))) (let ((_let_16 (tptp.fn_electron_shell_2 _let_8))) (let ((_let_17 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_18 (tptp.fn_covalent_bond_16 X))) (let ((_let_19 (tptp.fn_constant_motion_1 _let_18))) (let ((_let_20 (tptp.fn_covalent_bond_24 X))) (let ((_let_21 (tptp.fn_atomic_nucleus_8 _let_20))) (let ((_let_22 (tptp.fn_share_2 _let_11))) (let ((_let_23 (tptp.fn_atomic_nucleus_4 _let_20))) (let ((_let_24 (tptp.fn_chemical_bond_4 X))) (let ((_let_25 (tptp.fn_share_3 _let_11))) (let ((_let_26 (tptp.fn_covalent_bond_8 X))) (let ((_let_27 (tptp.fn_covalent_bond_4 X))) (let ((_let_28 (tptp.fn_atomic_nucleus_7 _let_1))) (let ((_let_29 (tptp.fn_covalent_bond_10 X))) (let ((_let_30 (tptp.fn_covalent_bond_6 X))) (let ((_let_31 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_32 (tptp.fn_covalent_bond_21 X))) (let ((_let_33 (tptp.fn_atom_18 _let_3))) (let ((_let_34 (tptp.fn_atom_4 _let_3))) (let ((_let_35 (tptp.fn_atom_9 _let_3))) (let ((_let_36 (tptp.fn_atom_5 _let_3))) (let ((_let_37 (tptp.fn_covalent_bond_9 X))) (let ((_let_38 (tptp.fn_atom_3 _let_3))) (let ((_let_39 (tptp.fn_covalent_bond_5 X))) (let ((_let_40 (tptp.fn_covalent_bond_18 X))) (let ((_let_41 (tptp.fn_electron_shell_3 _let_8))) (let ((_let_42 (tptp.fn_covalent_bond_13 X))) (let ((_let_43 (tptp.fn_covalent_bond_15 X))) (let ((_let_44 (tptp.fn_atomic_nucleus_3 _let_20))) (let ((_let_45 (tptp.fn_covalent_bond_23 X))) (let ((_let_46 (tptp.fn_covalent_bond_20 X))) (let ((_let_47 (tptp.fn_covalent_bond_14 X))) (let ((_let_48 (tptp.fn_atom_9 _let_46))) (let ((_let_49 (tptp.fn_covalent_bond_11 X))) (let ((_let_50 (tptp.fn_covalent_bond_1 X))) (let ((_let_51 (tptp.fn_covalent_bond_2 X))) (=> (tptp.covalent_bond_1 X) (and (tptp.original_name_2 X |tptp.'Covalent-Bond'|) (tptp.user_description_2 X |tptp.'A covalent bond is a form of chemical bonding that is characterized by the sharing of pairs of electrons between atoms, and other covalent bonds. In short, the stable balance of attractive and repulsive forces between atoms when they share electrons is known as covalent bonding.'|) (tptp.concept2words_2 X |tptp.'covalently bond'|) (tptp.concept2words_2 X |tptp.'covalently-bond'|) (tptp.concept2words_2 X |tptp.'covalent bond'|) (tptp.concept2words_2 X |tptp.'covalent-bond'|) (tptp.chemical_bond_1 X) (not (tptp.hydrogen_bond_1 X)) (not (tptp.hydrophobic_interaction_1 X)) (not (tptp.ionic_bond_1 X)) (tptp.asymmetrical_distribution_1 _let_50) (tptp.intensity_value_1 _let_51) (tptp.proton_1 _let_27) (tptp.system_1 _let_39) (tptp.atomic_number_value_1 _let_30) (tptp.quantity_value_1 _let_26) (tptp.quantity_value_1 _let_37) (tptp.attract_1 _let_29) (tptp.electron_shell_1 _let_49) (tptp.electron_shell_1 _let_8) (tptp.atomic_orbital_1 _let_42) (tptp.hold_together_1 _let_47) (tptp.valence_electron_1 _let_43) (tptp.constant_motion_1 _let_18) (tptp.share_1 _let_11) (tptp.valence_electron_1 _let_40) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.center_1 _let_32) (tptp.atomic_nucleus_1 _let_1) (tptp.center_1 _let_45) (tptp.atomic_nucleus_1 _let_20) (tptp.electron_shell_1 _let_48) (tptp.center_1 _let_44) (tptp.atomic_orbital_1 _let_41) (tptp.system_1 _let_38) (tptp.quantity_value_1 _let_36) (tptp.electron_shell_1 _let_35) (tptp.equation_set_1 _let_34) (tptp.atomic_nucleus_1 _let_33) (tptp.center_1 _let_31) (tptp.attract_1 _let_28) (tptp.entity_1 _let_25) (tptp.atom_1 _let_23) (tptp.entity_1 _let_22) (tptp.electron_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.electron_1 _let_17) (tptp.electron_1 _let_16) (tptp.electron_1 _let_15) (tptp.atomic_number_value_1 _let_14) (tptp.atomic_number_value_1 _let_13) (tptp.entity_1 _let_12) (tptp.atom_1 _let_9) (tptp.atom_1 _let_7) (tptp.proton_1 _let_6) (tptp.proton_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.quantity_value_1 _let_2) (not (= _let_20 _let_1)) (not (= _let_45 _let_32)) (not (= _let_1 _let_20)) (not (= _let_32 _let_45)) (tptp.the_scalar_value_2 _let_51 tptp.strong_0) (tptp.scalar_unit_class_2 _let_51 tptp.chemical_bond_0) (tptp.intensity_2 X _let_51) (tptp.object_2 _let_11 _let_40) (tptp.result_2 _let_11 X) (tptp.causes_2 _let_18 _let_50) (tptp.object_2 _let_50 _let_40) (not (= _let_8 _let_49)) (not (= _let_49 _let_8)) (tptp.object_2 _let_18 _let_40) (tptp.agent_2 _let_11 _let_3) (not (= _let_3 _let_46)) (tptp.agent_2 _let_11 _let_46) (tptp.object_2 _let_11 _let_43) (not (= _let_46 _let_3)) (tptp.has_region_2 _let_46 _let_49) (tptp.has_function_2 X _let_47) (tptp.is_between_2 X _let_46) (tptp.object_2 _let_47 _let_46) (tptp.agent_2 _let_47 X) (tptp.is_between_2 X _let_3) (tptp.object_2 _let_47 _let_3) (tptp.has_part_2 _let_46 _let_43) (tptp.is_at_2 _let_20 _let_45) (tptp.has_region_2 _let_46 _let_45) (tptp.has_region_2 _let_46 _let_20) (tptp.is_near_2 _let_43 _let_20) (tptp.is_near_2 _let_20 _let_43) (tptp.has_region_2 _let_3 _let_1) (tptp.is_inside_2 _let_27 _let_1) (tptp.has_part_2 _let_3 _let_27) (tptp.has_region_2 _let_3 _let_32) (tptp.is_at_2 _let_1 _let_32) (= _let_30 _let_26) (= _let_26 _let_30) (tptp.called_2 _let_30 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 _let_3 _let_30) (tptp.agent_2 _let_29 _let_27) (tptp.quantity_2 _let_27 _let_26) (tptp.called_2 _let_26 |tptp.'Number_Proton'|) (= _let_26 _let_37) (= _let_37 _let_26) (tptp.called_2 _let_37 |tptp.'Number_Electron'|) (tptp.has_region_2 _let_3 _let_8) (tptp.is_near_2 _let_40 _let_1) (tptp.is_near_2 _let_1 _let_40) (tptp.quantity_2 _let_40 _let_37) (tptp.has_part_2 _let_3 _let_40) (tptp.is_inside_2 _let_40 _let_42) (tptp.has_region_2 _let_8 _let_42) (tptp.object_2 _let_29 _let_40) (= _let_40 _let_19) (= _let_43 _let_22) (= _let_46 _let_25) (= _let_3 _let_12) (= _let_49 _let_48) (= _let_3 _let_10) (= _let_47 (tptp.fn_chemical_bond_3 X)) (= _let_46 _let_24) (= _let_46 _let_23) (= _let_45 _let_44) (= _let_43 _let_21) (= _let_42 _let_41) (= _let_40 _let_17) (= _let_40 _let_16) (= _let_40 _let_15) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_3 _let_9) (= _let_8 _let_35) (= (tptp.fn_covalent_bond_7 X) _let_34) (= _let_1 _let_33) (= _let_32 _let_31) (= _let_30 _let_14) (= _let_3 _let_7) (= _let_30 _let_13) (= _let_29 _let_28) (= _let_27 _let_6) (= _let_27 _let_5) (= _let_26 _let_4) (= _let_26 _let_2) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.covalent_compound_1 X) (and (tptp.original_name_2 X |tptp.'Covalent-Compound'|) (tptp.user_description_2 X |tptp.'Compound composed of two or more different types of atoms which are covalently bonded to each other.'|) (tptp.concept2words_2 X |tptp.'molecular compound'|) (tptp.concept2words_2 X |tptp.'covalent compound'|) (tptp.concept2words_2 X |tptp.'covalent-compound'|) (tptp.compound_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cover_1 X) (and (tptp.original_name_2 X |tptp.'Cover'|) (tptp.description_2 X |tptp.'a barrier that prevents movement downward to something from above'|) (tptp.concept2words_2 X tptp.cover) (tptp.concept2words_2 X tptp.top) (tptp.barrier_1 X) (not (tptp.container_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cowpox_1 X) (and (tptp.original_name_2 X |tptp.'Cowpox'|) (tptp.user_description_2 X |tptp.'A skin disease caused by the cowpox virus.'|) (tptp.concept2words_2 X tptp.cowpox) (tptp.viral_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cowpox_virus_1 X) (and (tptp.original_name_2 X |tptp.'Cowpox-Virus'|) (tptp.user_description_2 X |tptp.'A virus causing the disease cowpox, which is similar to but much milder than smallpox.'|) (tptp.concept2words_2 X |tptp.'virus of cowpox'|) (tptp.concept2words_2 X |tptp.'cowpox virus'|) (tptp.concept2words_2 X |tptp.'cowpox-virus'|) (tptp.dna_virus_1 X) (not (tptp.adenovirus_1 X)) (not (tptp.hepatitis_b_virus_1 X)) (not (tptp.herpesvirus_1 X)) (not (tptp.papovavirus_1 X))))) (forall ((X $$unsorted)) (=> (tptp.crab_1 X) (and (tptp.original_name_2 X |tptp.'Crab'|) (tptp.user_description_2 X |tptp.'A decopod crustacean in which the abdomen is reduced and curved under the thorax.'|) (tptp.concept2words_2 X tptp.crab) (tptp.decapod_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cranial_nerve_1 X) (and (tptp.original_name_2 X |tptp.'Cranial-Nerve'|) (tptp.user_description_2 X |tptp.'A nerve that originates in the brain and terminates in an organ of the head or upper body.'|) (tptp.concept2words_2 X |tptp.'nerve of cranial'|) (tptp.concept2words_2 X |tptp.'cranial nerve'|) (tptp.concept2words_2 X |tptp.'cranial-nerve'|) (tptp.nerve_1 X) (not (tptp.spinal_nerve_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eumetazoan_2 X))) (let ((_let_2 (tptp.fn_animal_8 X))) (let ((_let_3 (tptp.fn_craniate_11 X))) (let ((_let_4 (tptp.fn_carbohydrate_32 _let_3))) (let ((_let_5 (tptp.fn_organic_molecule_2 _let_3))) (let ((_let_6 (tptp.fn_carbohydrate_39 _let_3))) (let ((_let_7 (tptp.fn_craniate_6 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_craniate_5 X))) (let ((_let_10 (tptp.fn_amino_acid_28 _let_9))) (let ((_let_11 (tptp.fn_amino_acid_22 _let_9))) (let ((_let_12 (tptp.fn_amino_acid_11 _let_9))) (let ((_let_13 (tptp.fn_amino_acid_27 _let_9))) (let ((_let_14 (tptp.fn_eumetazoan_22 X))) (let ((_let_15 (tptp.fn_animal_19 X))) (let ((_let_16 (tptp.fn_craniate_13 X))) (let ((_let_17 (tptp.fn_animal_19 _let_16))) (let ((_let_18 (tptp.fn_carbohydrate_38 _let_3))) (let ((_let_19 (tptp.fn_craniate_9 X))) (let ((_let_20 (tptp.fn_carbohydrate_37 _let_3))) (let ((_let_21 (tptp.fn_craniate_10 X))) (let ((_let_22 (tptp.fn_craniate_8 X))) (let ((_let_23 (tptp.fn_amino_acid_17 _let_9))) (let ((_let_24 (tptp.fn_craniate_16 X))) (let ((_let_25 (tptp.fn_craniate_15 X))) (let ((_let_26 (tptp.fn_craniate_19 X))) (let ((_let_27 (tptp.fn_craniate_14 X))) (let ((_let_28 (tptp.fn_amino_acid_24 _let_9))) (let ((_let_29 (tptp.fn_craniate_2 X))) (let ((_let_30 (tptp.fn_craniate_1 X))) (let ((_let_31 (tptp.fn_carbohydrate_5 _let_3))) (let ((_let_32 (tptp.fn_craniate_7 X))) (let ((_let_33 (tptp.fn_craniate_3 X))) (let ((_let_34 (tptp.fn_craniate_12 X))) (let ((_let_35 (tptp.fn_craniate_4 X))) (let ((_let_36 (tptp.fn_craniate_18 X))) (let ((_let_37 (tptp.fn_craniate_17 X))) (=> (tptp.craniate_1 X) (and (tptp.original_name_2 X |tptp.'Craniate'|) (tptp.user_description_2 X |tptp.'A chordate animal with a head. 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(tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.hydrogen_1 _let_21) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.carbohydrate_1 _let_3) (tptp.protein_1 _let_34) (tptp.animal_1 _let_16) (tptp.oxygen_1 _let_27) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.hydrogen_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.nitrogen_1 _let_24) (tptp.animal_cell_1 _let_37) (tptp.tissue_1 _let_36) (tptp.oxygen_1 _let_26) (tptp.carbon_1 _let_31) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.chemical_entity_1 _let_23) (tptp.tangible_entity_1 _let_23) (tptp.entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.nitrogen_1 _let_23) (tptp.hold_together_1 _let_20) (tptp.entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.nutrition_1 _let_17) (tptp.oxygen_1 _let_13) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.atom_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.hydrogen_1 _let_4) (tptp.object_2 _let_7 _let_32) (not (= _let_32 _let_22)) (not (= _let_22 _let_32)) (not (= _let_27 _let_25)) (not (= _let_25 _let_27)) (tptp.agent_2 _let_33 _let_16) (tptp.result_2 _let_33 _let_3) (tptp.agent_2 _let_33 X) (tptp.result_2 _let_33 _let_34) (tptp.has_part_2 _let_34 _let_35) (tptp.has_part_2 _let_35 _let_9) (tptp.has_part_2 _let_3 _let_22) (tptp.has_part_2 _let_3 _let_32) (tptp.has_part_2 _let_3 _let_19) (not (= _let_19 _let_32)) (not (= _let_32 _let_19)) (not (= _let_22 _let_19)) (not (= _let_19 _let_22)) (tptp.has_part_2 _let_9 _let_24) (not (= _let_21 _let_19)) (not (= _let_19 _let_21)) (not (= _let_21 _let_22)) (not (= _let_22 _let_21)) (tptp.has_part_2 _let_3 _let_21) (tptp.object_2 _let_7 _let_19) (not (= _let_30 _let_29)) (not (= _let_29 _let_25)) (not (= _let_25 _let_30)) (not (= _let_30 _let_25)) (not (= _let_29 _let_30)) (not (= _let_25 _let_29)) (tptp.has_part_2 _let_9 _let_25) (not (= _let_24 _let_29)) (not (= _let_29 _let_27)) (not (= _let_27 _let_30)) (not (= _let_30 _let_24)) (not (= _let_24 _let_30)) (not (= _let_29 _let_24)) (not (= _let_27 _let_29)) (not (= _let_30 _let_27)) (not (= _let_29 _let_26)) (not (= _let_26 _let_29)) (not (= _let_26 _let_27)) (not (= _let_27 _let_26)) (not (= _let_25 _let_26)) (not (= _let_26 _let_25)) (not (= _let_25 _let_24)) (not (= _let_24 _let_25)) (tptp.has_part_2 _let_9 _let_27) (tptp.has_part_2 _let_9 _let_26) (tptp.has_part_2 _let_9 _let_29) (tptp.has_part_2 _let_9 _let_30) (tptp.object_2 _let_7 _let_22) (= _let_33 _let_17) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_37 (tptp.fn_eumetazoan_21 X)) (= _let_36 (tptp.fn_eumetazoan_20 X)) (= _let_9 (tptp.fn_eumetazoan_8 X)) (= _let_35 (tptp.fn_eumetazoan_9 X)) (= _let_34 (tptp.fn_eumetazoan_1 X)) (= _let_33 _let_15) (= _let_33 _let_14) (= _let_32 _let_31) (= _let_22 _let_8) (= _let_27 _let_12) (= _let_30 _let_10) (= _let_30 _let_11) (= _let_26 _let_13) (= _let_29 _let_28) (= _let_27 _let_13) (= _let_26 _let_12) (= _let_25 _let_11) (= _let_25 _let_10) (= _let_24 _let_23) (= _let_22 _let_6) (= _let_21 _let_5) (= _let_21 _let_4) (= _let_7 _let_20) (= _let_19 _let_18) (= _let_17 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_10) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.crassula_erecta_1 X) (and (tptp.original_name_2 X |tptp.'Crassula-Erecta'|) (tptp.user_description_2 X |tptp.'Crassula erecta is commonly called pygmy weed. It is a native of dry, sandy regions in the western United States.'|) (tptp.concept2words_2 X |tptp.'pygmy weed'|) (tptp.concept2words_2 X |tptp.'pygmy-weed'|) (tptp.concept2words_2 X |tptp.'crassula erecta'|) (tptp.concept2words_2 X |tptp.'crassula-erecta'|) (tptp.cam_plant_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_photosynthesis_38 X))) (let ((_let_2 (tptp.fn_crassulacean_acid_metabolism_102 X))) (let ((_let_3 (tptp.fn_calvin_cycle_55 _let_2))) (let ((_let_4 (tptp.fn_crassulacean_acid_metabolism_105 X))) (let ((_let_5 (tptp.fn_redox_reaction_12 _let_4))) (let ((_let_6 (tptp.fn_anabolic_pathway_6 _let_2))) (let ((_let_7 (tptp.fn_crassulacean_acid_metabolism_107 X))) (let ((_let_8 (tptp.fn_reduction_3 _let_7))) (let ((_let_9 (tptp.fn_crassulacean_acid_metabolism_129 X))) (let ((_let_10 (tptp.fn_locomotion_1 _let_9))) (let ((_let_11 (tptp.fn_crassulacean_acid_metabolism_77 X))) (let ((_let_12 (tptp.fn_locomotion_1 _let_11))) (let ((_let_13 (tptp.fn_reduction_1 _let_7))) (let ((_let_14 (tptp.fn_crassulacean_acid_metabolism_145 X))) (let ((_let_15 (tptp.fn_oxidation_7 _let_14))) (let ((_let_16 (tptp.fn_crassulacean_acid_metabolism_101 X))) (let ((_let_17 (tptp.fn_remove_1 _let_16))) (let ((_let_18 (tptp.fn_crassulacean_acid_metabolism_119 X))) (let ((_let_19 (tptp.fn_carbon_dioxide_4 _let_18))) (let ((_let_20 (tptp.fn_carbon_dioxide_1 _let_18))) (let ((_let_21 (tptp.fn_crassulacean_acid_metabolism_69 X))) (let ((_let_22 (tptp.fn_polar_covalent_bond_19 _let_21))) (let ((_let_23 (tptp.fn_covalent_bond_20 _let_21))) (let ((_let_24 (tptp.fn_polar_covalent_bond_18 _let_21))) (let ((_let_25 (tptp.fn_crassulacean_acid_metabolism_44 X))) (let ((_let_26 (tptp.fn_share_1 _let_25))) (let ((_let_27 (tptp.fn_crassulacean_acid_metabolism_166 X))) (let ((_let_28 (tptp.fn_share_1 _let_27))) (let ((_let_29 (tptp.fn_crassulacean_acid_metabolism_42 X))) (let ((_let_30 (tptp.fn_share_1 _let_29))) (let ((_let_31 (tptp.fn_crassulacean_acid_metabolism_43 X))) (let ((_let_32 (tptp.fn_share_1 _let_31))) (let ((_let_33 (tptp.fn_crassulacean_acid_metabolism_45 X))) (let ((_let_34 (tptp.fn_share_1 _let_33))) (let ((_let_35 (tptp.fn_share_3 _let_25))) (let ((_let_36 (tptp.fn_share_3 _let_27))) (let ((_let_37 (tptp.fn_share_3 _let_29))) (let ((_let_38 (tptp.fn_share_3 _let_31))) (let ((_let_39 (tptp.fn_share_3 _let_33))) (let ((_let_40 (tptp.fn_photosynthesis_59 X))) (let ((_let_41 (tptp.fn_carbon_dioxide_3 _let_18))) (let ((_let_42 (tptp.fn_covalent_bond_19 _let_21))) (let ((_let_43 (tptp.fn_crassulacean_acid_metabolism_169 X))) (let ((_let_44 (tptp.fn_share_1 _let_43))) (let ((_let_45 (tptp.fn_share_3 _let_43))) (let ((_let_46 (tptp.fn_photosynthesis_61 X))) (let ((_let_47 (tptp.fn_carbon_dioxide_5 _let_18))) (let ((_let_48 (tptp.fn_covalent_bond_17 _let_21))) (let ((_let_49 (tptp.fn_carbon_dioxide_7 _let_18))) (let ((_let_50 (tptp.fn_polar_covalent_bond_17 _let_21))) (let ((_let_51 (tptp.fn_carbon_dioxide_2 _let_18))) (let ((_let_52 (tptp.fn_photosynthesis_58 X))) (let ((_let_53 (tptp.fn_carbon_dioxide_6 _let_18))) (let ((_let_54 (tptp.fn_photosynthesis_94 X))) (let ((_let_55 (tptp.fn_crassulacean_acid_metabolism_128 X))) (let ((_let_56 (tptp.fn_thylakoid_membrane_14 _let_55))) (let ((_let_57 (tptp.fn_thylakoid_membrane_13 _let_55))) (let ((_let_58 (tptp.fn_thylakoid_membrane_12 _let_55))) (let ((_let_59 (tptp.fn_thylakoid_membrane_9 _let_55))) (let ((_let_60 (tptp.fn_crassulacean_acid_metabolism_50 X))) (let ((_let_61 (tptp.fn_hold_1 _let_60))) (let ((_let_62 (tptp.fn_thylakoid_membrane_8 _let_55))) (let ((_let_63 (tptp.fn_crassulacean_acid_metabolism_49 X))) (let ((_let_64 (tptp.fn_hold_2 _let_63))) (let ((_let_65 (tptp.fn_thylakoid_membrane_16 _let_55))) (let ((_let_66 (tptp.fn_photosynthesis_41 X))) (let ((_let_67 (tptp.fn_crassulacean_acid_metabolism_93 X))) (let ((_let_68 (tptp.fn_leaf_12 _let_67))) (let ((_let_69 (tptp.fn_organ_1 _let_67))) (let ((_let_70 (tptp.fn_leaf_44 _let_67))) (let ((_let_71 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(tptp.base_2 _let_80 _let_67) (tptp.base_2 _let_210 _let_67) (tptp.subevent_2 _let_2 _let_245) (tptp.result_2 _let_2 _let_253) (tptp.first_subevent_2 _let_2 _let_245) (tptp.possesses_2 _let_218 _let_273) (tptp.raw_material_2 _let_2 _let_18) (tptp.plays_2 _let_18 _let_257) (tptp.raw_material_2 _let_2 _let_218) (tptp.structural_complexity_2 _let_218 _let_271) (tptp.subevent_2 _let_2 _let_266) (tptp.time_during_2 _let_266 _let_268) (tptp.time_before_2 _let_270 _let_268) (tptp.time_during_2 _let_245 _let_270) (tptp.next_event_2 _let_245 _let_266) (tptp.site_2 X _let_121) (tptp.facilitates_2 _let_259 X) (tptp.is_between_2 _let_259 _let_264) (tptp.has_part_2 _let_121 _let_259) (tptp.is_inside_2 _let_259 _let_121) (tptp.has_function_2 _let_121 X) (tptp.result_2 X _let_260) (tptp.result_2 _let_262 _let_260) (tptp.size_2 _let_253 _let_241) (tptp.raw_material_2 _let_245 _let_235) (tptp.subevent_2 _let_245 _let_249) (tptp.quantity_2 _let_244 _let_252) (tptp.called_2 _let_233 |tptp.'FE_r'|) 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_let_67 _let_209) (tptp.has_region_2 _let_67 _let_207) (tptp.is_inside_2 _let_205 _let_207) (tptp.has_part_2 _let_67 _let_205) (tptp.is_inside_2 _let_109 _let_204) (tptp.has_region_2 _let_205 _let_204) (tptp.agent_2 _let_210 _let_212) (tptp.object_2 _let_210 _let_212) (tptp.has_function_2 _let_89 _let_210) (tptp.plays_2 _let_215 _let_214) (tptp.base_2 _let_97 _let_215) (tptp.in_event_2 _let_214 _let_97) (tptp.result_2 _let_94 _let_218) (tptp.subevent_2 _let_92 _let_94) (tptp.next_event_2 _let_97 _let_94) (tptp.time_during_2 _let_92 _let_216) (tptp.agent_2 _let_31 _let_191) (tptp.result_2 _let_31 _let_21) (tptp.has_part_2 _let_109 _let_121) (tptp.is_between_2 _let_55 _let_223) (tptp.is_between_2 _let_55 _let_221) (tptp.subevent_2 _let_94 _let_97) (tptp.agent_2 _let_97 _let_215) (tptp.agent_2 _let_224 _let_190) (tptp.result_2 _let_25 _let_21) (tptp.plays_2 _let_109 _let_225) (tptp.base_2 _let_71 _let_109) (tptp.agent_2 _let_43 _let_191) (tptp.agent_2 _let_25 _let_190) (tptp.agent_2 _let_27 _let_190) (tptp.object_2 _let_71 _let_226) (= _let_323 _let_322) (= _let_18 _let_17) (= _let_226 _let_116) (= _let_67 _let_85) (= _let_320 _let_319) (= _let_197 _let_61) (= _let_190 _let_39) (= _let_190 _let_34) (= _let_109 _let_77) (= _let_190 _let_38) (= _let_190 _let_32) (= _let_109 _let_79) (= _let_190 _let_37) (= _let_190 _let_30) (= _let_109 _let_75) (= _let_318 _let_317) (= _let_316 _let_315) (= _let_304 _let_189) (= _let_293 _let_140) (= _let_253 _let_166) (= _let_196 _let_64) (= _let_226 _let_115) (= _let_18 _let_12) (= _let_18 _let_10) (= _let_67 _let_83) (= _let_215 _let_101) (= _let_314 _let_313) (= X _let_127) (= _let_312 _let_311) (= _let_310 _let_309) (= _let_308 _let_307) (= _let_306 _let_305) (= _let_18 _let_13) (= _let_18 _let_8) (= _let_256 _let_170) (= _let_304 _let_170) (= _let_293 _let_13) (= _let_282 _let_8) (= (tptp.fn_crassulacean_acid_metabolism_53 X) _let_303) (= _let_302 _let_301) (= _let_300 _let_299) (= (tptp.fn_crassulacean_acid_metabolism_52 X) _let_298) (= _let_297 _let_296) (= _let_295 _let_294) (= _let_293 _let_187) (= _let_18 _let_5) (= _let_109 _let_73) (= _let_89 _let_88) (= (tptp.fn_crassulacean_acid_metabolism_154 X) _let_292) (= (tptp.fn_crassulacean_acid_metabolism_155 X) _let_291) (= _let_290 _let_289) (= _let_288 _let_287) (= _let_286 _let_285) (= X _let_124) (= _let_284 _let_283) (= _let_14 _let_172) (= _let_282 _let_186) (= _let_282 _let_185) (= _let_7 _let_281) (= _let_271 _let_180) (= _let_273 _let_182) (= _let_280 (tptp.fn_photosynthesis_33 X)) (= _let_279 (tptp.fn_photosynthesis_75 X)) (= _let_278 (tptp.fn_photosynthesis_74 X)) (= _let_277 (tptp.fn_photosynthesis_42 X)) (= _let_198 _let_66) (= _let_2 _let_178) (= _let_276 _let_275) (= _let_210 _let_91) (= _let_67 _let_81) (= _let_89 _let_86) (= _let_274 _let_184) (= _let_274 _let_183) (= _let_253 _let_163) (= _let_273 _let_181) (= _let_257 _let_174) (= _let_18 _let_3) (= (tptp.fn_crassulacean_acid_metabolism_160 X) _let_272) (= _let_271 _let_179) (= _let_2 _let_177) (= _let_218 _let_107) (= _let_245 _let_155) (= _let_270 _let_269) (= _let_268 _let_267) (= _let_266 _let_265) (= _let_264 _let_263) (= _let_262 _let_261) (= X _let_125) (= _let_260 _let_176) (= _let_260 _let_175) (= X _let_122) (= _let_259 _let_258) (= (tptp.fn_crassulacean_acid_metabolism_64 X) (tptp.fn_photosynthesis_5 X)) (= _let_257 _let_173) (= _let_14 _let_171) (= (tptp.fn_crassulacean_acid_metabolism_35 X) (tptp.fn_photosynthesis_108 X)) (= (tptp.fn_crassulacean_acid_metabolism_152 X) (tptp.fn_photosynthesis_55 X)) (= (tptp.fn_crassulacean_acid_metabolism_34 X) (tptp.fn_photosynthesis_107 X)) (= (tptp.fn_crassulacean_acid_metabolism_157 X) (tptp.fn_photosynthesis_54 X)) (= _let_194 _let_54) (= _let_224 _let_108) (= _let_256 _let_169) (= _let_255 (tptp.fn_photosynthesis_11 X)) (= (tptp.fn_crassulacean_acid_metabolism_153 X) (tptp.fn_photosynthesis_56 X)) (= _let_253 _let_164) (= _let_254 _let_168) (= _let_254 _let_167) (= _let_253 _let_165) (= _let_237 _let_145) (= _let_253 _let_162) (= _let_252 _let_161) (= _let_252 _let_160) (= _let_251 _let_159) (= _let_251 _let_158) (= _let_250 _let_157) (= _let_250 _let_156) (= _let_249 (tptp.fn_photosynthesis_62 X)) (= _let_248 (tptp.fn_photosynthesis_92 X)) (= _let_247 _let_108) (= _let_190 _let_40) (= _let_246 (tptp.fn_photosynthesis_91 X)) (= _let_21 _let_52) (= _let_29 _let_54) (= _let_191 _let_46) (= _let_245 _let_154) (= _let_244 _let_153) (= _let_244 _let_152) (= _let_243 _let_151) (= _let_243 _let_150) (= _let_242 _let_149) (= _let_242 _let_148) (= (tptp.fn_crassulacean_acid_metabolism_63 X) (tptp.fn_photosynthesis_6 X)) (= _let_241 (tptp.fn_photosynthesis_4 X)) (= _let_240 (tptp.fn_photosynthesis_3 X)) (= _let_239 (tptp.fn_photosynthesis_32 X)) (= _let_238 _let_147) (= _let_238 _let_146) (= _let_237 _let_144) (= _let_237 _let_143) (= _let_18 _let_6) (= _let_236 _let_142) (= _let_236 _let_141) (= _let_235 _let_140) (= _let_18 _let_15) (= _let_235 _let_139) (= _let_234 _let_138) (= _let_233 _let_136) (= _let_234 _let_137) (= _let_233 _let_135) (= _let_232 (tptp.fn_photosynthesis_50 X)) (= _let_18 _let_1) (= _let_225 _let_113) (= _let_71 _let_111) (= _let_71 _let_110) (= _let_231 _let_134) (= _let_231 _let_133) (= _let_231 _let_132) (= _let_216 _let_103) (= _let_230 _let_131) (= _let_230 _let_130) (= _let_55 _let_229) (= _let_228 _let_129) (= _let_228 _let_128) (= _let_92 (tptp.fn_photosynthesis_35 X)) (= X _let_120) (= _let_227 _let_119) (= _let_97 _let_96) (= _let_227 _let_118) (= _let_227 _let_117) (= _let_226 _let_114) (= _let_190 _let_36) (= _let_190 _let_28) (= _let_190 _let_35) (= _let_190 _let_26) (= _let_191 _let_45) (= _let_191 _let_44) (= _let_225 _let_112) (= _let_109 _let_72) (= _let_224 _let_48) (= _let_25 _let_48) (= _let_215 _let_99) (= _let_97 _let_95) (= _let_223 _let_222) (= _let_221 _let_220) (= _let_121 _let_219) (= _let_191 _let_23) (= _let_31 _let_48) (= _let_218 _let_106) (= _let_218 _let_105) (= _let_218 _let_104) (= _let_97 _let_93) (= _let_94 _let_217) (= _let_216 _let_102) (= _let_215 _let_98) (= _let_214 _let_213) (= _let_212 _let_211) (= _let_210 _let_90) (= _let_209 _let_208) (= _let_207 _let_206) (= _let_205 _let_69) (= _let_109 _let_70) (= _let_205 _let_68) (= _let_204 _let_203) (= _let_202 _let_201) (= _let_200 _let_199) (= _let_198 _let_65) (= _let_197 _let_59) (= _let_196 _let_62) (= _let_195 _let_58) (= _let_195 _let_57) (= _let_195 _let_56) (= _let_190 _let_22) (= _let_190 _let_24) (= _let_190 _let_23) (= _let_43 _let_53) (= _let_194 _let_53) (= _let_21 _let_51) (= _let_193 _let_50) (= _let_191 _let_24) (= _let_193 _let_49) (= _let_192 _let_48) (= _let_191 _let_42) (= _let_192 _let_47) (= _let_191 _let_41) (= _let_190 _let_20) (= _let_190 _let_19) (= _let_189 _let_170) (= _let_170 _let_140) (= _let_140 _let_13) (= _let_187 _let_13) (= _let_13 _let_187) (= _let_187 _let_187) (= _let_187 _let_8) (= _let_186 _let_8) (= _let_8 _let_186) (= _let_186 _let_186) (= _let_185 _let_185) (= _let_185 _let_186) (= _let_186 _let_185) (= _let_185 _let_183) (= _let_183 _let_183) (= _let_183 _let_184) (= _let_184 _let_183) (= _let_183 _let_182) (= _let_182 _let_181) (= _let_181 _let_180) (= _let_180 _let_179) (= _let_179 _let_179) (= _let_179 _let_177) (= _let_177 _let_177) (= _let_178 _let_178) (= _let_177 _let_178) (= _let_178 _let_177) (= _let_177 _let_175) (= _let_175 _let_176) (= _let_176 _let_175) (= _let_175 _let_174) (= _let_174 _let_173) (= _let_173 _let_172) (= _let_172 _let_172) (= _let_172 _let_171) (= _let_171 _let_170) (= _let_170 _let_170) (= _let_170 _let_169) (= _let_169 _let_168) (= _let_167 _let_168) (= _let_168 _let_167) (= _let_167 _let_166) (= _let_166 _let_165) (= _let_165 _let_165) (= _let_164 _let_165) (= _let_165 _let_164) (= _let_163 _let_164) (= _let_164 _let_163) (= _let_163 _let_162) (= _let_162 _let_162) (= _let_162 _let_161) (= _let_160 _let_160) (= _let_160 _let_161) (= _let_161 _let_160) (= _let_160 _let_158) (= _let_158 _let_159) (= _let_159 _let_158) (= _let_158 _let_157) (= _let_156 _let_157) (= _let_157 _let_156) (= _let_156 _let_155) (= _let_155 _let_155) (= _let_155 _let_154) (= _let_154 _let_154) (= _let_154 _let_153) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_152 _let_151) (= _let_150 _let_151) (= _let_151 _let_150) (= _let_150 _let_149) (= _let_148 _let_149) (= _let_149 _let_148) (= _let_148 _let_147) (= _let_147 _let_146) (= _let_146 _let_145) (= _let_145 _let_143) (= _let_143 _let_144) (= _let_144 _let_143) (= _let_143 _let_141) (= _let_141 _let_142) (= _let_142 _let_141) (= _let_141 _let_139) (= _let_139 _let_140) (= _let_140 _let_139) (= _let_139 _let_137) (= _let_137 _let_137) (= _let_137 _let_138) (= _let_138 _let_137) (= _let_137 _let_136) (= _let_135 _let_136) (= _let_136 _let_135) (= _let_135 _let_135) (= _let_135 _let_133) (= _let_133 _let_134) (= _let_134 _let_133) (= _let_133 _let_133) (= _let_132 _let_133) (= _let_133 _let_132) (= _let_132 _let_131) (= _let_130 _let_131) (= _let_131 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_128 _let_127) (= _let_127 _let_125) (= _let_125 _let_125) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_122) (= _let_120 _let_122) (= _let_122 _let_122) (= _let_122 _let_120) (= _let_120 _let_120) (= _let_120 _let_118) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_114 _let_112) (= _let_112 _let_113) (= _let_113 _let_112) (= _let_112 _let_110) (= _let_110 _let_111) (= _let_111 _let_110) (= _let_110 _let_108) (= _let_108 _let_48) (= _let_48 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_93 _let_93) (= _let_93 _let_95) (= _let_95 _let_93) (= _let_93 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_88) (= _let_88 _let_88) (= _let_88 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_83) (= _let_83 _let_83) (= _let_83 _let_81) (= _let_81 _let_81) (= _let_81 _let_77) (= _let_77 _let_79) (= _let_79 _let_75) (= _let_73 _let_77) (= _let_77 _let_75) (= _let_75 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_24) (= _let_24 _let_42) (= _let_42 _let_23) (= _let_24 _let_24) (= _let_23 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_40) (= _let_40 _let_40) (= _let_40 _let_36) (= _let_36 _let_35) (= _let_35 _let_39) (= _let_39 _let_34) (= _let_34 _let_38) (= _let_38 _let_32) (= _let_32 _let_37) (= _let_37 _let_30) (= _let_30 _let_36) (= _let_36 _let_28) (= _let_28 _let_35) (= _let_35 _let_26) (= _let_26 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_15) (= _let_15 _let_15) (= _let_15 _let_12) (= _let_10 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.crayfish_1 X) (and (tptp.original_name_2 X |tptp.'Crayfish'|) (tptp.user_description_2 X |tptp.'A small freshwater crustacean resembling a clawed lobster.'|) (tptp.concept2words_2 X tptp.crayfish) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.clawed_lobster_1 X)) (not (tptp.copepod_1 X)) (not (tptp.decapod_1 X)) (not (tptp.isopod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_create_1 X))) (=> (tptp.create_1 X) (and (tptp.original_name_2 X |tptp.'Create'|) (tptp.concept2words_2 X tptp.create) (tptp.concept2words_2 X tptp.make) (tptp.concept2words_2 X tptp.appear) (tptp.concept2words_2 X tptp.reappear) (tptp.concept2words_2 X |tptp.'re appear'|) (tptp.concept2words_2 X |tptp.'re-appear'|) (tptp.concept2words_2 X tptp.initiate) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.result_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_create_transgenic_animal_19 X))) (let ((_let_2 (tptp.fn_get_free_dna_into_cell_6 _let_1))) (let ((_let_3 (tptp.fn_get_free_dna_into_cell_2 _let_1))) (let ((_let_4 (tptp.fn_get_free_dna_into_cell_5 _let_1))) (let ((_let_5 (tptp.fn_create_transgenic_animal_16 X))) (let ((_let_6 (tptp.fn_fertilization_1 _let_5))) (let ((_let_7 (tptp.fn_create_transgenic_animal_17 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_create_transgenic_animal_18 X))) (let ((_let_10 (tptp.fn_cloning_eukaryotic_gene_12 _let_9))) (let ((_let_11 (tptp.fn_create_transgenic_animal_26 X))) (let ((_let_12 (tptp.fn_gene_related_aggregates_1 _let_11))) (let ((_let_13 (tptp.fn_create_transgenic_animal_15 X))) (let ((_let_14 (tptp.fn_remove_1 _let_13))) (let ((_let_15 (tptp.fn_add_2 _let_5))) (let ((_let_16 (tptp.fn_get_free_dna_into_cell_7 _let_1))) (let ((_let_17 (tptp.fn_create_transgenic_animal_24 X))) (let ((_let_18 (tptp.fn_create_transgenic_animal_23 X))) (let ((_let_19 (tptp.fn_create_transgenic_animal_22 X))) (let ((_let_20 (tptp.fn_create_transgenic_animal_14 X))) (let ((_let_21 (tptp.fn_parent_3 _let_20))) (let ((_let_22 (tptp.fn_create_transgenic_animal_27 X))) (let ((_let_23 (tptp.fn_organism_role_2 _let_20))) (let ((_let_24 (tptp.fn_create_transgenic_animal_25 X))) (let ((_let_25 (tptp.fn_fertilization_2 _let_5))) (let ((_let_26 (tptp.fn_create_transgenic_animal_28 X))) (let ((_let_27 (tptp.fn_move_into_1 _let_7))) (let ((_let_28 (tptp.fn_create_transgenic_animal_29 X))) (let ((_let_29 (tptp.fn_remove_2 _let_13))) (let ((_let_30 (tptp.fn_create_transgenic_animal_21 X))) (let ((_let_31 (tptp.fn_create_transgenic_animal_20 X))) (let ((_let_32 (tptp.fn_create_transgenic_animal_2 X))) (let ((_let_33 (tptp.fn_create_transgenic_animal_3 X))) (let ((_let_34 (tptp.fn_create_transgenic_animal_6 X))) (let ((_let_35 (tptp.fn_create_transgenic_animal_7 X))) (let ((_let_36 (tptp.fn_create_transgenic_animal_11 X))) (let ((_let_37 (tptp.fn_create_transgenic_animal_13 X))) (let ((_let_38 (tptp.fn_create_transgenic_animal_12 X))) (let ((_let_39 (tptp.fn_create_transgenic_animal_8 X))) (let ((_let_40 (tptp.fn_create_transgenic_animal_9 X))) (let ((_let_41 (tptp.fn_create_transgenic_animal_10 X))) (=> (tptp.create_transgenic_animal_1 X) (and (tptp.original_name_2 X |tptp.'Create-Transgenic-Animal'|) (tptp.user_description_2 X |tptp.'To create an animal whose genome contains a gene introduced from another organism of the same of a different species.'|) (tptp.concept2words_2 X tptp.create) (tptp.concept2words_2 X |tptp.'create transgenic animal'|) (tptp.concept2words_2 X |tptp.'create-transgenic-animal'|) (tptp.engineering_1 X) (tptp.region_1 _let_32) (tptp.sex_value_1 _let_33) (tptp.sex_value_1 _let_34) (tptp.sex_value_1 _let_35) (tptp.species_1 _let_39) (tptp.nucleus_1 _let_40) (tptp.growth_1 _let_41) (tptp.development_1 _let_36) (tptp.transgenic_organism_1 _let_38) (tptp.scientist_1 _let_37) (tptp.parent_1 _let_20) (tptp.remove_1 _let_13) (tptp.fertilization_1 _let_5) (tptp.implant_1 _let_7) (tptp.cloning_eukaryotic_gene_1 _let_9) (tptp.biological_process_1 _let_1) (tptp.inject_dna_with_needle_1 _let_1) (tptp.egg_1 _let_31) (tptp.organism_1 _let_30) (tptp.spatial_entity_1 _let_19) (tptp.zygote_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.cell_1 _let_19) (tptp.event_1 _let_18) (tptp.move_through_1 _let_18) (tptp.move_1 _let_18) (tptp.recombinant_plasmid_1 _let_17) (tptp.gene_1 _let_24) (tptp.eukaryotic_gene_1 _let_24) (tptp.genome_1 _let_11) (tptp.organism_1 _let_22) (tptp.sperm_cell_1 _let_26) (tptp.organism_1 _let_28) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.gamete_1 _let_25) (tptp.event_1 _let_23) (tptp.organism_1 _let_21) (tptp.dna_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.gene_1 _let_12) (tptp.eukaryotic_gene_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.zygote_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cell_1 _let_4) (tptp.event_1 _let_3) (tptp.move_through_1 _let_2) (tptp.move_1 _let_2) (tptp.same_type_2 _let_20 _let_28) (tptp.same_type_2 _let_20 _let_22) (tptp.same_type_2 _let_20 _let_30) (tptp.agent_2 _let_13 _let_37) (tptp.next_event_2 _let_13 _let_5) (tptp.agent_2 _let_5 _let_37) (tptp.next_event_2 _let_5 _let_9) (tptp.agent_2 _let_7 _let_37) (tptp.exactCardinality _let_7 tptp.base_0 |"1"| tptp.female_0) (tptp.path_2 _let_7 _let_32) (tptp.enables_2 _let_7 _let_41) (tptp.enables_2 _let_7 _let_36) (tptp.result_2 _let_36 _let_38) (tptp.object_2 _let_36 _let_19) (tptp.next_event_2 _let_9 _let_1) (tptp.next_event_2 _let_1 _let_7) (tptp.same_type_2 _let_30 _let_20) (tptp.sex_2 _let_30 _let_34) (tptp.result_2 _let_41 _let_38) (tptp.object_2 _let_41 _let_19) (tptp.destination_2 _let_18 _let_40) (tptp.element_2 _let_39 _let_30) (tptp.element_2 _let_39 _let_22) (tptp.element_2 _let_39 _let_28) (tptp.same_type_2 _let_22 _let_20) (tptp.sex_2 _let_22 _let_35) (tptp.result_2 X _let_38) (tptp.origin_2 X _let_22) (tptp.agent_2 X _let_37) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_36) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_13) (tptp.the_categorical_value_2 _let_35 tptp.male_0) (tptp.the_categorical_value_2 _let_34 tptp.female_0) (tptp.the_categorical_value_2 _let_33 tptp.female_0) (tptp.same_type_2 _let_28 _let_20) (tptp.sex_2 _let_28 _let_33) (tptp.has_region_2 _let_28 _let_32) (tptp.object_2 _let_7 _let_19) (tptp.base_2 _let_5 _let_31) (tptp.object_2 _let_13 _let_31) (tptp.base_2 _let_13 _let_30) (tptp.base_2 _let_7 _let_28) (tptp.element_2 _let_11 _let_24) (tptp.object_2 _let_5 _let_26) (tptp.result_2 _let_5 _let_19) (tptp.object_2 _let_9 _let_24) (tptp.in_event_2 _let_20 X) (tptp.plays_2 _let_22 _let_20) (tptp.object_2 _let_1 _let_17) (tptp.object_2 _let_18 _let_17) (tptp.subevent_2 _let_1 _let_18) (tptp.base_2 _let_1 _let_19) (tptp.base_2 _let_18 _let_19) (= _let_19 _let_8) (= _let_31 _let_15) (= _let_31 _let_14) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_24 _let_12) (= _let_26 _let_25) (= _let_19 _let_6) (= _let_24 _let_10) (= X _let_23) (= _let_22 _let_21) (= _let_19 _let_4) (= _let_18 _let_3) (= _let_18 _let_2) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_creator_2 X))) (let ((_let_2 (tptp.fn_creator_1 X))) (=> (tptp.creator_1 X) (and (tptp.original_name_2 X |tptp.'Creator'|) (tptp.concept2words_2 X tptp.creator) (tptp.participant_1 X) (tptp.create_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.agent_2 _let_2 _let_1) (tptp.in_event_2 X _let_2) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_agent_role_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.crenarchaeota_1 X) (and (tptp.original_name_2 X |tptp.'Crenarchaeota'|) (tptp.user_description_2 X |tptp.'A taxon of archaea including sulfur eaters and some 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(tptp.anabolic_pathway_1 _let_17) (tptp.synthesis_of_atp_1 _let_17) (tptp.organic_molecule_1 _let_16) (tptp.molecule_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.ribonucleotide_1 _let_16) (tptp.nucleoside_triphosphate_1 _let_16) (tptp.atp_1 _let_16) (tptp.organic_molecule_1 _let_15) (tptp.molecule_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.ribonucleotide_1 _let_15) (tptp.nucleoside_triphosphate_1 _let_15) (tptp.atp_1 _let_15) (tptp.organic_molecule_1 _let_14) (tptp.molecule_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.ribonucleotide_1 _let_14) (tptp.nucleoside_triphosphate_1 _let_14) (tptp.atp_1 _let_14) (tptp.functional_region_1 _let_13) (tptp.active_site_1 _let_13) (tptp.functional_region_1 _let_12) (tptp.active_site_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.protein_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.molecule_1 _let_11) (tptp.protein_enzyme_1 _let_11) (tptp.knob_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.polymer_1 _let_10) (tptp.protein_1 _let_10) (tptp.organic_molecule_1 _let_10) (tptp.molecule_1 _let_10) (tptp.protein_enzyme_1 _let_10) (tptp.knob_1 _let_10) (tptp.proton_motive_force_1 _let_9) (tptp.proton_motive_force_1 _let_8) (tptp.electron_transport_chain_pathway_1 _let_7) (tptp.electron_transport_chain_pathway_1 _let_6) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_5) (tptp.oxidative_phosphorylation_1 _let_3) (tptp.chemical_reaction_1 _let_2) (tptp.oxidative_phosphorylation_1 _let_2) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_2) (tptp.is_at_2 _let_73 _let_96) (tptp.area_2 X _let_97) (tptp.directly_proportional_2 _let_97 _let_82) (tptp.the_scalar_value_2 _let_97 tptp.huge_0) (tptp.scalar_unit_class_2 _let_97 tptp.spatial_entity_0) (tptp.site_2 _let_54 _let_52) (tptp.site_2 _let_54 _let_4) (tptp.raw_material_2 _let_54 _let_50) (tptp.has_region_2 _let_28 _let_96) (tptp.is_inside_2 _let_68 _let_96) (tptp.possesses_2 _let_93 _let_87) (tptp.in_event_2 _let_94 _let_1) (tptp.plays_2 _let_55 _let_94) (tptp.raw_material_2 _let_1 _let_93) (tptp.raw_material_2 _let_48 _let_93) (tptp.called_2 _let_62 |"3"|) (tptp.called_2 _let_64 |"1"|) (tptp.quantity_2 _let_87 _let_59) (tptp.called_2 _let_65 |"1"|) (tptp.rate_2 _let_1 _let_82) (tptp.site_2 _let_48 _let_4) (tptp.is_inside_2 _let_68 _let_66) (tptp.is_between_2 _let_28 _let_68) (tptp.has_region_2 _let_28 _let_69) (tptp.is_at_2 _let_71 _let_69) (tptp.is_opposite_2 _let_71 _let_73) (tptp.is_opposite_2 _let_73 _let_71) (tptp.is_along_2 _let_66 X) (tptp.is_inside_2 _let_66 _let_28) (tptp.is_outside_2 _let_28 _let_66) (tptp.has_region_2 _let_4 _let_66) (tptp.has_function_2 _let_4 _let_48) (tptp.is_along_2 X _let_66) (tptp.object_2 _let_62 _let_51) (not (= _let_62 _let_64)) (tptp.agent_2 _let_64 _let_65) (tptp.is_permeable_to_2 _let_28 _let_65) (tptp.has_part_2 _let_28 X) (not (= _let_64 _let_62)) (tptp.result_2 _let_1 _let_55) (tptp.possesses_2 _let_55 _let_56) (tptp.quantity_2 _let_56 _let_57) (tptp.greater_than_2 _let_59 _let_57) (tptp.facilitates_2 _let_51 _let_48) (tptp.has_region_2 _let_51 _let_52) (tptp.site_2 _let_48 _let_52) (tptp.result_2 _let_48 _let_53) (tptp.result_2 _let_54 _let_53) (tptp.subevent_2 _let_1 _let_48) (tptp.subevent_2 _let_48 _let_49) (tptp.result_2 _let_49 _let_50) (tptp.raw_material_2 _let_48 _let_50) (tptp.first_subevent_2 _let_48 _let_49) (= _let_54 _let_19) (= _let_96 _let_95) (= _let_87 _let_45) (= _let_55 _let_21) (= _let_94 _let_47) (= _let_94 _let_46) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_44) (= _let_86 _let_85) (= _let_84 _let_43) (= _let_84 _let_42) (= (tptp.fn_crista_18 X) _let_83) (= _let_82 _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_63) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_69 _let_41) (= _let_69 _let_40) (= _let_69 _let_39) (= _let_68 _let_38) (= _let_68 _let_37) (= _let_68 _let_36) (= _let_4 _let_67) (= _let_66 _let_35) (= _let_66 _let_34) (= _let_28 _let_31) (= X _let_33) (= X _let_32) (= _let_65 _let_29) (= _let_28 _let_30) (= _let_65 _let_27) (= _let_64 _let_63) (= _let_62 _let_61) (= (tptp.fn_crista_4 X) _let_60) (= _let_59 _let_58) (= _let_57 _let_26) (= _let_57 _let_25) (= _let_56 _let_24) (= _let_56 _let_23) (= _let_55 _let_22) (= _let_55 _let_20) (= _let_54 _let_18) (= _let_54 _let_17) (= _let_53 _let_16) (= _let_48 _let_3) (= _let_53 _let_15) (= _let_53 _let_14) (= _let_52 _let_13) (= _let_52 _let_12) (= _let_51 _let_11) (= _let_51 _let_10) (= _let_50 _let_9) (= _let_50 _let_8) (= _let_48 _let_5) (= _let_49 _let_7) (= _let_49 _let_6) (= _let_48 _let_2) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_27) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_3) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cro_magnon_1 X) (and (tptp.original_name_2 X |tptp.'Cro-Magnon'|) (tptp.user_description_2 X |tptp.'Informal name of the first modern humans to appear in Europe, about 43,000 years before present.'|) (tptp.concept2words_2 X |tptp.'cro magnon'|) (tptp.concept2words_2 X |tptp.'cro-magnon'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.crocodilia_1 X) (and (tptp.original_name_2 X |tptp.'Crocodilia'|) (tptp.user_description_2 X |tptp.'Large group of reptiles whose living members include alligators, crocodiles, caimans, and gharials.'|) (tptp.concept2words_2 X tptp.crocodilia) (tptp.reptile_1 X) (not (tptp.archaeopteryx_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.lepidosaur_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.pterosaur_1 X))))) (forall ((X $$unsorted)) (=> (tptp.crop_1 X) (and (tptp.original_name_2 X |tptp.'Crop'|) (tptp.user_description_2 X |tptp.'Expanded portion of the alimentary canal found in some animals which is used to store food temporarily prior to digestion.'|) (tptp.concept2words_2 X tptp.crop) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.crop_rotation_1 X) (and (tptp.original_name_2 X |tptp.'Crop-Rotation'|) (tptp.user_description_2 X |tptp.'The practice of growing a sequence of different crops in the same location throughout successive growing seasons.'|) (tptp.concept2words_2 X |tptp.'rotation of crop'|) (tptp.concept2words_2 X |tptp.'crop rotation'|) (tptp.concept2words_2 X |tptp.'crop-rotation'|) (tptp.agricultural_process_1 X) (not (tptp.animal_husbandry_1 X)) (not (tptp.hydroponic_culture_1 X)) (not (tptp.irrigation_1 X)) (not (tptp.logging_1 X)) (not (tptp.monoculture_1 X)) (not (tptp.no_till_agriculture_1 X)) (not (tptp.sustainable_agriculture_1 X)) (not (tptp.vernalization_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cross_breeding_event_11 X))) (let ((_let_2 (tptp.fn_cross_breeding_event_14 X))) (let ((_let_3 (tptp.fn_add_2 _let_2))) (let ((_let_4 (tptp.fn_cross_breeding_event_12 X))) (let ((_let_5 (tptp.fn_add_1 _let_2))) (let ((_let_6 (tptp.fn_cross_breeding_event_13 X))) (let ((_let_7 (tptp.fn_cross_breeding_event_4 X))) (let ((_let_8 (tptp.fn_cross_breeding_event_5 X))) (let ((_let_9 (tptp.fn_cross_breeding_event_6 X))) (let ((_let_10 (tptp.fn_cross_breeding_event_10 X))) (let ((_let_11 (tptp.fn_cross_breeding_event_7 X))) (let ((_let_12 (tptp.fn_cross_breeding_event_9 X))) (let ((_let_13 (tptp.fn_cross_breeding_event_1 X))) (let ((_let_14 (tptp.fn_cross_breeding_event_8 X))) (=> (tptp.cross_breeding_event_1 X) (and (tptp.original_name_2 X |tptp.'Cross-breeding-event'|) (tptp.user_description_2 X |tptp.'It refers to the reproduction (of an organism) by mating of individuals of different breeds, varieties, or species or to hybridize.'|) (tptp.concept2words_2 X tptp.cross) (tptp.concept2words_2 X tptp.mating) (tptp.concept2words_2 X tptp.breeding) (tptp.concept2words_2 X tptp.crossbreed) (tptp.concept2words_2 X |tptp.'cross breeding event'|) (tptp.concept2words_2 X |tptp.'cross-breeding-event'|) (tptp.reproduction_1 X) (not (tptp.budding_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.plant_reproduction_1 X)) (not (tptp.semelparity_1 X)) (not (tptp.vegetative_reproduction_1 X)) (tptp.organism_1 _let_13) (tptp.sex_value_1 _let_7) (tptp.sex_value_1 _let_8) (tptp.inheritance_1 _let_9) (tptp.predict_1 _let_11) (tptp.punnett_square_1 _let_14) (tptp.organism_1 _let_12) (tptp.organism_1 _let_10) (tptp.organism_1 _let_1) (tptp.egg_1 _let_4) (tptp.sperm_cell_1 _let_6) (tptp.fusion_1 _let_2) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.result_2 _let_2 _let_10) (tptp.result_2 _let_2 _let_12) (tptp.result_2 _let_2 _let_13) (tptp.result_2 _let_2 _let_1) (tptp.result_2 X _let_12) (tptp.result_2 X _let_10) (tptp.result_2 X _let_13) (tptp.subevent_2 X _let_2) (tptp.agent_2 _let_11 _let_14) (tptp.object_2 _let_11 _let_1) (tptp.object_2 _let_11 _let_13) (tptp.object_2 _let_11 _let_12) (tptp.object_2 _let_11 _let_10) (tptp.by_means_of_2 _let_9 X) (tptp.the_categorical_value_2 _let_8 tptp.female_0) (tptp.the_categorical_value_2 _let_7 tptp.male_0) (tptp.object_2 _let_2 _let_6) (tptp.base_2 _let_2 _let_4) (tptp.result_2 X _let_1) (= _let_6 _let_5) (= _let_4 _let_3) (= _let_1 (tptp.fn_reproduction_3 X))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cross_fostering_1 X) (and (tptp.original_name_2 X |tptp.'Cross-Fostering'|) (tptp.user_description_2 X |tptp.'The practice of removing offspring from their parents to be raised by adults of another species.'|) (tptp.concept2words_2 X |tptp.'fostering of cross'|) (tptp.concept2words_2 X |tptp.'cross fostering'|) (tptp.concept2words_2 X |tptp.'cross-fostering'|) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.cross_fostering_study_1 X) (and (tptp.original_name_2 X |tptp.'Cross-Fostering-Study'|) (tptp.user_description_2 X |tptp.'A type of study in which offspring are removed from their parents and raised by surrogates. The purpose of such studies is to determine the effects of genetics and environment on various aspects of phenotype.'|) (tptp.concept2words_2 X |tptp.'cross fostering study'|) (tptp.concept2words_2 X |tptp.'cross-fostering-study'|) (tptp.ethology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_crossing_over_7 X))) (let ((_let_2 (tptp.fn_chromosome_4 _let_1))) (let ((_let_3 (tptp.fn_crossing_over_11 X))) (let ((_let_4 (tptp.fn_exchange_1 _let_3))) (let ((_let_5 (tptp.fn_crossing_over_9 X))) (let ((_let_6 (tptp.fn_chromosome_4 _let_5))) (let ((_let_7 (tptp.fn_exchange_2 _let_3))) (let ((_let_8 (tptp.fn_crossing_over_42 X))) (let ((_let_9 (tptp.fn_nucleic_acid_20 _let_8))) (let ((_let_10 (tptp.fn_polymer_4 _let_8))) (let ((_let_11 (tptp.fn_crossing_over_43 X))) (let ((_let_12 (tptp.fn_nucleic_acid_20 _let_11))) (let ((_let_13 (tptp.fn_polymer_4 _let_11))) (let ((_let_14 (tptp.fn_dna_11 _let_8))) (let ((_let_15 (tptp.fn_crossing_over_36 X))) (let ((_let_16 (tptp.fn_dna_2 _let_8))) (let ((_let_17 (tptp.fn_crossing_over_37 X))) (let ((_let_18 (tptp.fn_dna_11 _let_11))) (let ((_let_19 (tptp.fn_crossing_over_26 X))) (let ((_let_20 (tptp.fn_dna_2 _let_11))) (let ((_let_21 (tptp.fn_crossing_over_27 X))) (let ((_let_22 (tptp.fn_crossing_over_35 X))) (let ((_let_23 (tptp.fn_nucleic_acid_28 _let_8))) (let ((_let_24 (tptp.fn_crossing_over_14 X))) (let ((_let_25 (tptp.fn_nucleic_acid_29 _let_8))) (let ((_let_26 (tptp.fn_crossing_over_31 X))) (let ((_let_27 (tptp.fn_nucleic_acid_33 _let_8))) (let ((_let_28 (tptp.fn_nucleic_acid_34 _let_8))) (let ((_let_29 (tptp.fn_organic_molecule_3 _let_8))) (let ((_let_30 (tptp.fn_crossing_over_30 X))) (let ((_let_31 (tptp.fn_organic_molecule_1 _let_8))) (let ((_let_32 (tptp.fn_crossing_over_33 X))) (let ((_let_33 (tptp.fn_organic_molecule_2 _let_8))) (let ((_let_34 (tptp.fn_crossing_over_34 X))) (let ((_let_35 (tptp.fn_molecule_12 _let_8))) (let ((_let_36 (tptp.fn_crossing_over_32 X))) (let ((_let_37 (tptp.fn_molecule_4 _let_8))) (let ((_let_38 (tptp.fn_crossing_over_13 X))) (let ((_let_39 (tptp.fn_molecule_3 _let_8))) (let ((_let_40 (tptp.fn_crossing_over_12 X))) (let ((_let_41 (tptp.fn_molecule_8 _let_8))) (let ((_let_42 (tptp.fn_crossing_over_38 X))) (let ((_let_43 (tptp.fn_molecule_1 _let_8))) (let ((_let_44 (tptp.fn_molecule_2 _let_8))) (let ((_let_45 (tptp.fn_chromosome_8 _let_1))) (let ((_let_46 (tptp.fn_crossing_over_39 X))) (let ((_let_47 (tptp.fn_chromosome_3 _let_1))) (let ((_let_48 (tptp.fn_crossing_over_15 X))) (let ((_let_49 (tptp.fn_crossing_over_25 X))) (let ((_let_50 (tptp.fn_nucleic_acid_28 _let_11))) (let ((_let_51 (tptp.fn_crossing_over_19 X))) (let ((_let_52 (tptp.fn_nucleic_acid_29 _let_11))) (let ((_let_53 (tptp.fn_crossing_over_21 X))) (let ((_let_54 (tptp.fn_nucleic_acid_33 _let_11))) (let ((_let_55 (tptp.fn_nucleic_acid_34 _let_11))) (let ((_let_56 (tptp.fn_organic_molecule_3 _let_11))) (let ((_let_57 (tptp.fn_crossing_over_20 X))) (let ((_let_58 (tptp.fn_organic_molecule_1 _let_11))) (let ((_let_59 (tptp.fn_crossing_over_23 X))) (let ((_let_60 (tptp.fn_organic_molecule_2 _let_11))) (let ((_let_61 (tptp.fn_crossing_over_24 X))) (let ((_let_62 (tptp.fn_molecule_12 _let_11))) (let ((_let_63 (tptp.fn_crossing_over_22 X))) (let ((_let_64 (tptp.fn_molecule_4 _let_11))) (let ((_let_65 (tptp.fn_crossing_over_18 X))) (let ((_let_66 (tptp.fn_molecule_3 _let_11))) (let ((_let_67 (tptp.fn_crossing_over_17 X))) (let ((_let_68 (tptp.fn_molecule_8 _let_11))) (let ((_let_69 (tptp.fn_crossing_over_28 X))) (let ((_let_70 (tptp.fn_molecule_1 _let_11))) (let ((_let_71 (tptp.fn_molecule_2 _let_11))) (let ((_let_72 (tptp.fn_chromosome_8 _let_5))) (let ((_let_73 (tptp.fn_crossing_over_29 X))) (let ((_let_74 (tptp.fn_chromosome_3 _let_5))) (let ((_let_75 (tptp.fn_crossing_over_16 X))) (let ((_let_76 (tptp.fn_exchange_4 _let_3))) (let ((_let_77 (tptp.fn_crossing_over_41 X))) (let ((_let_78 (tptp.fn_exchange_3 _let_3))) (let ((_let_79 (tptp.fn_crossing_over_40 X))) (let ((_let_80 (tptp.fn_crossing_over_10 X))) (let ((_let_81 (tptp.fn_hold_2 _let_80))) (let ((_let_82 (tptp.fn_hold_1 _let_80))) (let ((_let_83 (tptp.fn_crossing_over_8 X))) (let ((_let_84 (tptp.fn_crossing_over_5 X))) (let ((_let_85 (tptp.fn_crossing_over_4 X))) (let ((_let_86 (tptp.fn_crossing_over_2 X))) (let ((_let_87 (tptp.fn_crossing_over_3 X))) (let ((_let_88 (tptp.fn_crossing_over_1 X))) (let ((_let_89 (tptp.fn_crossing_over_6 X))) (=> (tptp.crossing_over_1 X) (and (tptp.original_name_2 X |tptp.'Crossing-Over'|) (tptp.user_description_2 X |tptp.'Chromosomal crossover (or crossing over) is the exchange of genetic material between homologous chromosomes. This often occurs during prophase 1 of meiosis. The chromosomes produced after crossing over are not identical to their homologues'|) (tptp.concept2words_2 X tptp.recombination) (tptp.concept2words_2 X |tptp.'cross over'|) (tptp.concept2words_2 X |tptp.'over of crossing'|) (tptp.concept2words_2 X |tptp.'crossing over'|) (tptp.concept2words_2 X |tptp.'crossing-over'|) (tptp.dna_transfer_1 X) (tptp.cell_1 _let_88) (tptp.recombinant_chromosome_1 _let_86) (tptp.spatial_entity_1 _let_87) (tptp.chiasma_1 _let_87) (tptp.chromosome_1 _let_85) (tptp.sister_chromatid_1 _let_84) (tptp.tetrad_1 _let_89) (tptp.tangible_entity_1 _let_1) (tptp.chromosome_1 _let_1) (tptp.synaptonemal_complex_1 _let_83) (tptp.chromosome_1 _let_5) (tptp.hold_1 _let_80) (tptp.exchange_1 _let_3) (tptp.speed_value_1 _let_40) (tptp.quantity_value_1 _let_38) (tptp.size_value_1 _let_24) (tptp.protein_1 _let_48) (tptp.protein_1 _let_75) (tptp.speed_value_1 _let_67) (tptp.quantity_value_1 _let_65) (tptp.size_value_1 _let_51) (tptp.carbon_skeleton_1 _let_57) (tptp.size_value_1 _let_53) (tptp.kinetic_energy_1 _let_63) (tptp.carbon_1 _let_59) (tptp.atom_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.monomer_1 _let_49) (tptp.nucleoside_monophosphate_1 _let_49) (tptp.dna_strand_1 _let_19) (tptp.dna_strand_1 _let_21) (tptp.constant_motion_1 _let_69) (tptp.coil_1 _let_73) (tptp.carbon_skeleton_1 _let_30) (tptp.size_value_1 _let_26) (tptp.kinetic_energy_1 _let_36) (tptp.carbon_1 _let_32) (tptp.atom_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.monomer_1 _let_22) (tptp.nucleoside_monophosphate_1 _let_22) (tptp.dna_strand_1 _let_15) (tptp.dna_strand_1 _let_17) (tptp.constant_motion_1 _let_42) (tptp.coil_1 _let_46) (tptp.transfer_1 _let_79) (tptp.transfer_1 _let_77) (tptp.polymer_1 _let_8) (tptp.entity_1 _let_8) (tptp.molecule_1 _let_8) (tptp.organic_molecule_1 _let_8) (tptp.nucleic_acid_1 _let_8) (tptp.dna_1 _let_8) (tptp.polymer_1 _let_11) (tptp.entity_1 _let_11) (tptp.molecule_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.nucleic_acid_1 _let_11) (tptp.dna_1 _let_11) (tptp.tangible_entity_1 _let_82) (tptp.tangible_entity_1 _let_81) (tptp.transfer_1 _let_78) (tptp.transfer_1 _let_76) (tptp.protein_1 _let_74) (tptp.coil_1 _let_72) (tptp.property_node_1 _let_71) (tptp.property_node_1 _let_70) (tptp.constant_motion_1 _let_68) (tptp.speed_value_1 _let_66) (tptp.quantity_value_1 _let_64) (tptp.kinetic_energy_1 _let_62) (tptp.atom_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.carbon_1 _let_58) (tptp.carbon_skeleton_1 _let_56) (tptp.property_node_1 _let_55) (tptp.property_node_1 _let_54) (tptp.size_value_1 _let_52) (tptp.size_value_1 _let_50) (tptp.protein_1 _let_47) (tptp.coil_1 _let_45) (tptp.property_node_1 _let_44) (tptp.property_node_1 _let_43) (tptp.constant_motion_1 _let_41) (tptp.speed_value_1 _let_39) (tptp.quantity_value_1 _let_37) (tptp.kinetic_energy_1 _let_35) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.carbon_1 _let_31) (tptp.carbon_skeleton_1 _let_29) (tptp.property_node_1 _let_28) (tptp.property_node_1 _let_27) (tptp.size_value_1 _let_25) (tptp.size_value_1 _let_23) (tptp.dna_strand_1 _let_20) (tptp.dna_strand_1 _let_18) (tptp.dna_strand_1 _let_16) (tptp.dna_strand_1 _let_14) (tptp.monomer_1 _let_13) (tptp.nucleoside_monophosphate_1 _let_12) (tptp.monomer_1 _let_10) (tptp.nucleoside_monophosphate_1 _let_9) (tptp.entity_1 _let_7) (tptp.entity_1 _let_6) (tptp.dna_1 _let_6) (tptp.entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.dna_1 _let_2) (not (= _let_11 _let_8)) (not (= _let_8 _let_11)) (tptp.result_2 _let_3 _let_86) (tptp.base_2 _let_3 _let_87) (tptp.site_2 _let_80 _let_87) (tptp.result_2 _let_80 _let_89) (tptp.object_2 _let_80 _let_5) (tptp.is_inside_2 _let_86 _let_88) (tptp.base_2 X _let_84) (tptp.site_2 X _let_87) (tptp.result_2 X _let_86) (tptp.subevent_2 X _let_80) (tptp.subevent_2 X _let_3) (tptp.has_part_2 _let_85 _let_84) (tptp.agent_2 _let_80 _let_83) (tptp.object_2 _let_80 _let_1) (tptp.subevent_2 _let_3 _let_79) (tptp.object_2 _let_3 _let_11) (tptp.object_2 _let_77 _let_11) (tptp.subevent_2 _let_3 _let_77) (tptp.object_2 _let_3 _let_8) (tptp.object_2 _let_79 _let_8) (tptp.has_part_2 _let_5 _let_11) (tptp.object_2 _let_73 _let_11) (tptp.agent_2 _let_73 _let_75) (tptp.has_part_2 _let_5 _let_75) (tptp.object_2 _let_69 _let_11) (tptp.possesses_2 _let_11 _let_63) (tptp.quantity_2 _let_63 _let_65) (tptp.directly_proportional_2 _let_67 _let_65) (tptp.speed_2 _let_69 _let_67) (tptp.has_part_2 _let_11 _let_59) (tptp.has_part_2 _let_11 _let_61) (tptp.has_region_2 _let_11 _let_57) (tptp.is_inside_2 _let_59 _let_57) (not (= _let_61 _let_59)) (not (= _let_59 _let_61)) (tptp.size_2 _let_11 _let_53) (tptp.has_part_2 _let_11 _let_49) (tptp.size_2 _let_49 _let_51) (tptp.greater_than_2 _let_53 _let_51) (tptp.has_part_2 _let_1 _let_8) (tptp.object_2 _let_46 _let_8) (tptp.agent_2 _let_46 _let_48) (tptp.has_part_2 _let_1 _let_48) (tptp.object_2 _let_42 _let_8) (tptp.possesses_2 _let_8 _let_36) (tptp.quantity_2 _let_36 _let_38) (tptp.directly_proportional_2 _let_40 _let_38) (tptp.speed_2 _let_42 _let_40) (tptp.has_part_2 _let_8 _let_34) (tptp.has_part_2 _let_8 _let_32) (tptp.has_region_2 _let_8 _let_30) (tptp.is_inside_2 _let_32 _let_30) (not (= _let_34 _let_32)) (not (= _let_32 _let_34)) (tptp.size_2 _let_8 _let_26) (tptp.has_part_2 _let_8 _let_22) (tptp.size_2 _let_22 _let_24) (tptp.greater_than_2 _let_26 _let_24) (tptp.has_part_2 _let_11 _let_21) (tptp.has_part_2 _let_11 _let_19) (tptp.complement_2 _let_21 _let_19) (tptp.complement_2 _let_19 _let_21) (not (= _let_21 _let_19)) (not (= _let_19 _let_21)) (tptp.has_part_2 _let_8 _let_17) (tptp.has_part_2 _let_8 _let_15) (tptp.complement_2 _let_17 _let_15) (tptp.complement_2 _let_15 _let_17) (not (= _let_17 _let_15)) (not (= _let_15 _let_17)) (= _let_83 _let_82) (= _let_1 _let_81) (= _let_79 _let_78) (= _let_8 _let_4) (= _let_77 _let_76) (= _let_11 _let_7) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_11 _let_6) (= (tptp.fn_crossing_over_50 X) _let_71) (= (tptp.fn_crossing_over_51 X) _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= (tptp.fn_crossing_over_49 X) _let_55) (= (tptp.fn_crossing_over_48 X) _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_49 _let_13) (= _let_49 _let_12) (= _let_48 _let_47) (= _let_46 _let_45) (= _let_8 _let_2) (= (tptp.fn_crossing_over_46 X) _let_44) (= (tptp.fn_crossing_over_47 X) _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= (tptp.fn_crossing_over_45 X) _let_28) (= (tptp.fn_crossing_over_44 X) _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.crossing_over_of_genes_1 X) (and (tptp.original_name_2 X |tptp.'Crossing-Over-of-Genes'|) (tptp.user_description_2 X |tptp.'The exchange of genetic material within genes between homologous chromosomes.'|) (tptp.concept2words_2 X |tptp.'cross over'|) (tptp.concept2words_2 X |tptp.'crossing over of gene'|) (tptp.concept2words_2 X |tptp.'crossing-over-of-gene'|) (tptp.crossing_over_1 X)))) (forall ((X $$unsorted)) (=> (tptp.crush_1 X) (and (tptp.original_name_2 X |tptp.'Crush'|) (tptp.user_description_2 X |tptp.'To break by the application of pressure or squeezing, resulting in small fragments or powder.'|) (tptp.concept2words_2 X tptp.crush) (tptp.break_1 X)))) (forall ((X $$unsorted)) (=> (tptp.crustacean_1 X) (and (tptp.original_name_2 X |tptp.'Crustacean'|) (tptp.user_description_2 X |tptp.'Member of the arthropod subphylum Crustacea, a group of primarily aquatic animals including crabs, lobsters, copepods, water fleas, barnacles, and many others.'|) (tptp.concept2words_2 X tptp.crustacean) (tptp.arthropod_1 X) (not (tptp.cheliceriform_1 X)) (not (tptp.daphnia_1 X)) (not (tptp.diplopode_1 X)) (not (tptp.hexapod_1 X)) (not (tptp.myriapod_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_crypt_2 X))) (let ((_let_2 (tptp.fn_water_evaporation_16 _let_1))) (let ((_let_3 (tptp.fn_crypt_4 X))) (let ((_let_4 (tptp.fn_decrease_3 _let_3))) (let ((_let_5 (tptp.fn_crypt_3 X))) (let ((_let_6 (tptp.fn_water_evaporation_19 _let_1))) (=> (tptp.crypt_1 X) (and (tptp.original_name_2 X |tptp.'Crypt'|) (tptp.user_description_2 X |tptp.'Crypt is an adaptation that reduces the rate of transpiration by protecting the stomata from hot, dry wind.'|) (tptp.concept2words_2 X tptp.crypt) (tptp.cavity_1 X) (tptp.transpiration_1 _let_1) (tptp.property_value_1 _let_5) (tptp.rate_value_1 _let_5) (tptp.decrease_1 _let_3) (tptp.property_node_1 _let_6) (tptp.property_value_1 _let_4) (tptp.rate_value_1 _let_2) (tptp.agent_2 _let_3 X) (tptp.from_value_2 _let_3 _let_5) (tptp.rate_2 _let_1 _let_5) (= _let_5 _let_4) (= (tptp.fn_crypt_1 X) _let_6) (= _let_5 _let_2) (= _let_4 _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.cryptochrome_1 X) (and (tptp.original_name_2 X |tptp.'Cryptochrome'|) (tptp.user_description_2 X |tptp.'A class of proteins sensitive to blue light, found in plants and animals. Cryptochromes are involved in circadian rhythms in plants and animals.'|) (tptp.concept2words_2 X tptp.cryptochrome) (tptp.pigment_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_1 X))) (let ((_let_2 (tptp.fn_monoatomic_ion_1 X))) (let ((_let_3 (tptp.fn_cs_plus_6 X))) (let ((_let_4 (tptp.fn_cs_plus_4 X))) (let ((_let_5 (tptp.fn_cs_plus_3 X))) (let ((_let_6 (tptp.fn_cs_plus_1 X))) (let ((_let_7 (tptp.fn_cs_plus_2 X))) (=> (tptp.cs_plus_1 X) (and (tptp.original_name_2 X |tptp.'Cs-Plus'|) (tptp.user_description_2 X |tptp.'An Ion of Cesium with 1 positive charge.'|) (tptp.concept2words_2 X tptp.caesium) (tptp.concept2words_2 X |tptp.'plus of cs'|) (tptp.concept2words_2 X |tptp.'cs plus'|) (tptp.concept2words_2 X |tptp.'cs-plus'|) (tptp.cation_1 X) (tptp.monoatomic_ion_1 X) (not (tptp.ba_plus_2_1 X)) (not (tptp.ch3nh3_plus_1 X)) (not (tptp.nh4_plus_1 X)) (not (tptp.pb_plus_2_1 X)) (tptp.electron_1 _let_6) (tptp.neutron_1 _let_7) (tptp.cesium_1 _let_5) (tptp.proton_1 _let_4) (tptp.charge_value_1 _let_3) (tptp.exactCardinality X tptp.has_part_0 |"55"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"55"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"54"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.has_ion_2 _let_5 X) (tptp.the_cardinal_value_2 _let_3 |"1"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.has_part_2 X _let_4) (tptp.charge_2 X _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= (tptp.fn_cs_plus_5 X) (tptp.fn_cation_4 X)) (= _let_3 (tptp.fn_cation_5 X)) (= _let_2 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_19 X))) (let ((_let_2 (tptp.fn_eumetazoan_22 X))) (let ((_let_3 (tptp.fn_animal_8 X))) (let ((_let_4 (tptp.fn_eumetazoan_2 X))) (let ((_let_5 (tptp.fn_animal_12 X))) (let ((_let_6 (tptp.fn_eumetazoan_6 X))) (let ((_let_7 (tptp.fn_animal_11 X))) (let ((_let_8 (tptp.fn_eumetazoan_28 X))) (let ((_let_9 (tptp.fn_ctenophora_5 X))) (let ((_let_10 (tptp.fn_ctenophora_9 X))) (let ((_let_11 (tptp.fn_ctenophora_6 X))) (let ((_let_12 (tptp.fn_ctenophora_14 X))) (let ((_let_13 (tptp.fn_ctenophora_4 X))) (let ((_let_14 (tptp.fn_ctenophora_15 X))) (let ((_let_15 (tptp.fn_ctenophora_11 X))) (let ((_let_16 (tptp.fn_ctenophora_12 X))) (let ((_let_17 (tptp.fn_ctenophora_16 X))) (let ((_let_18 (tptp.fn_ctenophora_17 X))) (let ((_let_19 (tptp.fn_ctenophora_18 X))) (let ((_let_20 (tptp.fn_ctenophora_10 X))) (let ((_let_21 (tptp.fn_ctenophora_7 X))) (let ((_let_22 (tptp.fn_ctenophora_8 X))) (let ((_let_23 (tptp.fn_ctenophora_13 X))) (let ((_let_24 (tptp.fn_agent_role_1 _let_23))) (let ((_let_25 (tptp.fn_ctenophora_1 X))) (=> (tptp.ctenophora_1 X) (and (tptp.original_name_2 X |tptp.'Ctenophora'|) (tptp.user_description_2 X |tptp.'A phylum of animals characterized by a gelatinous body, modified radial symmetry, light-refracting comb rows of cilia, and colloblasts (sticky cells used to capture prey).'|) (tptp.concept2words_2 X tptp.ctenophore) (tptp.concept2words_2 X |tptp.'comb jellies'|) (tptp.concept2words_2 X |tptp.'comb-jellies'|) (tptp.concept2words_2 X tptp.ctenophora) (tptp.eumetazoan_1 X) (not (tptp.ammonite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X)) (tptp.tangible_entity_1 _let_25) (tptp.locomotion_1 _let_13) (tptp.temperature_value_1 _let_9) (tptp.water_1 _let_11) (tptp.tissue_1 _let_21) (tptp.animal_cell_1 _let_22) (tptp.specific_heat_value_1 _let_10) (tptp.animal_nutritional_requirement_1 _let_20) (tptp.chemical_entity_1 _let_15) (tptp.carbohydrate_1 _let_15) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.agent_role_1 _let_23) (tptp.heterotroph_1 _let_12) (tptp.nutrition_1 _let_14) (tptp.take_in_1 _let_17) (tptp.diet_1 _let_18) (tptp.organic_entity_1 _let_19) (tptp.entity_1 _let_24) (tptp.raw_material_2 _let_14 _let_25) (tptp.plays_2 X _let_23) (tptp.element_2 _let_20 _let_16) (tptp.agent_2 _let_17 X) (tptp.base_2 _let_17 X) (tptp.object_2 _let_17 _let_18) (tptp.element_2 _let_18 _let_19) (tptp.raw_material_2 _let_14 _let_19) (tptp.in_event_2 _let_12 _let_14) (tptp.agent_2 _let_13 X) (tptp.object_2 _let_13 X) (tptp.agent_2 _let_14 X) (tptp.result_2 _let_14 _let_15) (tptp.has_part_2 _let_15 _let_16) (tptp.temperature_2 X _let_9) (tptp.correspondence_2 _let_9 _let_10) (tptp.specific_heat_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (tptp.plays_2 X _let_12) (= X _let_24) (= _let_22 (tptp.fn_eumetazoan_21 X)) (= _let_21 (tptp.fn_eumetazoan_20 X)) (= _let_20 _let_8) (= _let_20 _let_7) (= (tptp.fn_ctenophora_3 X) (tptp.fn_animal_27 X)) (= (tptp.fn_ctenophora_2 X) (tptp.fn_animal_28 X)) (= _let_19 (tptp.fn_animal_1 X)) (= _let_18 (tptp.fn_animal_10 X)) (= _let_17 (tptp.fn_animal_9 X)) (= _let_16 _let_6) (= _let_16 _let_5) (= _let_15 _let_4) (= _let_15 _let_3) (= _let_14 _let_2) (= _let_14 _let_1) (= _let_13 (tptp.fn_animal_22 X)) (= _let_12 (tptp.fn_animal_18 X)) (= _let_11 (tptp.fn_animal_20 X)) (= _let_10 (tptp.fn_animal_25 X)) (= _let_9 (tptp.fn_animal_26 X)) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cuboidal_epithelium_1 X) (and (tptp.original_name_2 X |tptp.'Cuboidal-Epithelium'|) (tptp.user_description_2 X |tptp.'A type of epithetial tissue consisting of cube-shaped cells and specialized for secretion and absorption.'|) (tptp.concept2words_2 X |tptp.'cuboidal epithelium'|) (tptp.concept2words_2 X |tptp.'cuboidal-epithelium'|) (tptp.epithelium_1 X) (not (tptp.columnlike_epithelium_1 X)) (not (tptp.simple_squamous_epithelium_1 X)) (not (tptp.stratified_squamous_epithelium_1 X)) (not (tptp.transport_epithelium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cubozoan_1 X) (and (tptp.original_name_2 X |tptp.'Cubozoan'|) (tptp.user_description_2 X |tptp.'Member of a cnidarian taxon whose cnidocytes are especially toxic; known as sea wasps and box jellies.'|) (tptp.concept2words_2 X tptp.cubozoan) (tptp.cnidaria_1 X) (not (tptp.anthozoan_1 X)) (not (tptp.hydra_1 X)) (not (tptp.hydrozoan_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cud_1 X) (and (tptp.original_name_2 X |tptp.'Cud'|) (tptp.user_description_2 X |tptp.'In ruminant digestion, the cud is the partially digested, regurgitated and then reswallowed bolus of food that has been chewed a second time.'|) (tptp.concept2words_2 X tptp.cud) (tptp.bolus_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_culture_1 X))) (let ((_let_2 (tptp.fn_culturing_2 _let_1))) (let ((_let_3 (tptp.fn_culturing_3 _let_1))) (let ((_let_4 (tptp.fn_culture_2 X))) (=> (tptp.culture_1 X) (and (tptp.original_name_2 X |tptp.'Culture'|) (tptp.user_description_2 X |tptp.'A microbiological culture, or microbial culture, is population of microbial cells grown in predetermined culture media under controlled laboratory conditions.'|) (tptp.concept2words_2 X tptp.culture) (tptp.aggregate_1 X) (tptp.culturing_1 _let_1) (tptp.cell_1 _let_4) (tptp.cell_1 _let_3) (tptp.culture_1 _let_2) (tptp.minCardinality X tptp.element_0 |"2"| tptp.cell_0) (tptp.result_2 _let_1 X) (tptp.element_2 X _let_4) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_culture_medium_1 X))) (let ((_let_2 (tptp.fn_culture_medium_2 X))) (=> (tptp.culture_medium_1 X) (and (tptp.original_name_2 X |tptp.'Culture-Medium'|) (tptp.user_description_2 X |tptp.'A liquid or gel designed to support the growth of microorganisms or cells or small plants. There are different types of media for growing different types of cells.'|) (tptp.concept2words_2 X |tptp.'nutrient medium'|) (tptp.concept2words_2 X |tptp.'growth medium'|) (tptp.concept2words_2 X |tptp.'medium of culture'|) (tptp.concept2words_2 X |tptp.'culture medium'|) (tptp.concept2words_2 X |tptp.'culture-medium'|) (tptp.chemical_entity_1 X) (tptp.nutrient_1 _let_1) (tptp.entity_1 _let_2) (tptp.plays_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.cultured_stem_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cultured-Stem-Cell'|) (tptp.user_description_2 X |tptp.'The stem cell cultured in the laboratory.'|) (tptp.concept2words_2 X |tptp.'cultured stem cell'|) (tptp.concept2words_2 X |tptp.'cultured-stem-cell'|) (tptp.stem_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_culturing_4 X))) (let ((_let_2 (tptp.fn_reproduce_1 _let_1))) (let ((_let_3 (tptp.fn_culturing_7 X))) (let ((_let_4 (tptp.fn_reproduce_2 _let_1))) (let ((_let_5 (tptp.fn_culturing_3 X))) (let ((_let_6 (tptp.fn_culturing_5 X))) (let ((_let_7 (tptp.fn_food_3 _let_6))) (let ((_let_8 (tptp.fn_culturing_6 X))) (let ((_let_9 (tptp.fn_culturing_2 X))) (let ((_let_10 (tptp.fn_culturing_1 X))) (=> (tptp.culturing_1 X) (and (tptp.original_name_2 X |tptp.'Culturing'|) (tptp.user_description_2 X |tptp.'Culturing is an act of spawning, incubation, hatching, or rearing in a hatchery or other artificial production facility such as a spawning channel or spawning beach.'|) (tptp.concept2words_2 X tptp.culture) (tptp.concept2words_2 X tptp.culturing) (tptp.grow_1 X) (not (tptp.elongation_1 X)) (not (tptp.microtubule_elongation_1 X)) (tptp.nutrient_1 _let_10) (tptp.culture_1 _let_9) (tptp.cell_1 _let_5) (tptp.reproduce_1 _let_1) (tptp.food_1 _let_6) (tptp.culture_medium_1 _let_8) (tptp.cell_1 _let_3) (tptp.tangible_entity_1 _let_7) (tptp.living_entity_1 _let_4) (tptp.living_entity_1 _let_2) (tptp.minCardinality _let_1 tptp.result_0 |"2"| tptp.cell_0) (tptp.element_2 _let_9 _let_5) (tptp.plays_2 _let_8 _let_10) (tptp.object_2 X _let_3) (tptp.exactCardinality X tptp.object_0 |"1"| tptp.cell_0) (tptp.result_2 X _let_9) (tptp.base_2 X _let_8) (tptp.plays_2 _let_8 _let_6) (tptp.agent_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_3) (tptp.result_2 _let_1 _let_5) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_curium_9 X))) (let ((_let_2 (tptp.fn_curium_12 X))) (let ((_let_3 (tptp.fn_curium_10 X))) (let ((_let_4 (tptp.fn_curium_11 X))) (let ((_let_5 (tptp.fn_curium_4 X))) (let ((_let_6 (tptp.fn_curium_5 X))) (let ((_let_7 (tptp.fn_curium_3 X))) (=> (tptp.curium_1 X) (and (tptp.original_name_2 X |tptp.'Curium'|) (tptp.user_description_2 X |tptp.'Curium is a metal atom with atomic number 96. It is represented by the symbol Cm.'|) (tptp.concept2words_2 X tptp.curium) (tptp.concept2words_2 X tptp.cm) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"151"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"96"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"96"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"9"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"247"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"96"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"247"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_curium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_curium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_curium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cushion_2 X))) (let ((_let_2 (tptp.fn_cushion_1 X))) (=> (tptp.cushion_1 X) (and (tptp.original_name_2 X |tptp.'Cushion'|) (tptp.user_description_2 X |tptp.'Cushion protect things against mechanical force.'|) (tptp.concept2words_2 X tptp.cushion) (tptp.role_1 X) (tptp.defense_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.in_event_2 X _let_2) (tptp.plays_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.cuticle_plant_1 X) (and (tptp.original_name_2 X |tptp.'Cuticle-Plant'|) (tptp.user_description_2 X |tptp.'A protective, hydrophobic covering produced by epidermal cells of leaves. The cuticle minimizes water loss.'|) (tptp.concept2words_2 X |tptp.'plant of cuticle'|) (tptp.concept2words_2 X |tptp.'cuticle plant'|) (tptp.concept2words_2 X |tptp.'cuticle-plant'|) (tptp.wax_1 X) (not (tptp.casparian_strip_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterium_15 X))) (let ((_let_2 (tptp.fn_photosynthetic_prokaryote_6 X))) (let ((_let_3 (tptp.fn_cyanobacterium_28 X))) (let ((_let_4 (tptp.fn_biomembrane_63 _let_3))) (let ((_let_5 (tptp.fn_photosynthetic_prokaryote_24 X))) (let ((_let_6 (tptp.fn_plasma_membrane_71 _let_3))) (let ((_let_7 (tptp.fn_cyanobacterium_19 X))) (let ((_let_8 (tptp.fn_photoautotroph_18 _let_7))) (let ((_let_9 (tptp.fn_cyanobacterium_24 X))) (let ((_let_10 (tptp.fn_cellular_work_2 _let_9))) (let ((_let_11 (tptp.fn_cyanobacterium_27 X))) (let ((_let_12 (tptp.fn_metabolism_1 _let_11))) (let ((_let_13 (tptp.fn_cyanobacterium_17 X))) (let ((_let_14 (tptp.fn_metabolic_pathway_1 _let_13))) (let ((_let_15 (tptp.fn_bacterium_12 X))) (let ((_let_16 (tptp.fn_photosynthetic_prokaryote_11 X))) (let ((_let_17 (tptp.fn_bacterium_16 X))) (let ((_let_18 (tptp.fn_photosynthetic_prokaryote_5 X))) (let ((_let_19 (tptp.fn_prokaryote_12 X))) (let ((_let_20 (tptp.fn_bacterium_14 X))) (let ((_let_21 (tptp.fn_photosynthetic_prokaryote_12 X))) (let ((_let_22 (tptp.fn_prokaryote_8 X))) (let ((_let_23 (tptp.fn_photosynthetic_prokaryote_3 X))) (let ((_let_24 (tptp.fn_photoautotroph_17 _let_7))) (let ((_let_25 (tptp.fn_photoautotroph_19 _let_7))) (let ((_let_26 (tptp.fn_cyanobacterium_14 X))) (let ((_let_27 (tptp.fn_enzyme_4 _let_26))) (let ((_let_28 (tptp.fn_photoautotroph_25 _let_7))) (let ((_let_29 (tptp.fn_photosynthesis_38 _let_13))) (let ((_let_30 (tptp.fn_photosynthetic_prokaryote_14 X))) (let ((_let_31 (tptp.fn_prokaryote_10 X))) (let ((_let_32 (tptp.fn_biomembrane_47 _let_3))) (let ((_let_33 (tptp.fn_cyanobacterium_35 X))) (let ((_let_34 (tptp.fn_cyanobacterium_33 X))) (let ((_let_35 (tptp.fn_cyanobacterium_30 X))) (let ((_let_36 (tptp.fn_cyanobacterium_29 X))) (let ((_let_37 (tptp.fn_cyanobacterium_22 X))) (let ((_let_38 (tptp.fn_cyanobacterium_9 X))) (let ((_let_39 (tptp.fn_cyanobacterium_8 X))) (let ((_let_40 (tptp.fn_cyanobacterium_18 X))) (let ((_let_41 (tptp.fn_cyanobacterium_21 X))) (let ((_let_42 (tptp.fn_cyanobacterium_25 X))) (let ((_let_43 (tptp.fn_cyanobacterium_26 X))) (let ((_let_44 (tptp.fn_cyanobacterium_23 X))) (let ((_let_45 (tptp.fn_cyanobacterium_34 X))) (let ((_let_46 (tptp.fn_cyanobacterium_20 X))) (let ((_let_47 (tptp.fn_photoautotroph_5 _let_7))) (let ((_let_48 (tptp.fn_cyanobacterium_15 X))) (let ((_let_49 (tptp.fn_cyanobacterium_16 X))) (let ((_let_50 (tptp.fn_cyanobacterium_32 X))) (let ((_let_51 (tptp.fn_cellular_work_10 _let_9))) (let ((_let_52 (tptp.fn_cyanobacterium_31 X))) (let ((_let_53 (tptp.fn_cyanobacterium_7 X))) (let ((_let_54 (tptp.fn_cyanobacterium_5 X))) (let ((_let_55 (tptp.fn_cyanobacterium_4 X))) (let ((_let_56 (tptp.fn_cyanobacterium_3 X))) (=> (tptp.cyanobacterium_1 X) (and (tptp.original_name_2 X |tptp.'Cyanobacterium'|) (tptp.user_description_2 X |tptp.'One of a phylum of bacteria that gains energy via photosynthesis.'|) (tptp.concept2words_2 X |tptp.'blue green algae'|) (tptp.concept2words_2 X |tptp.'blue-green-algae'|) (tptp.concept2words_2 X tptp.cyanobacterium) (tptp.gram_negative_bacteria_1 X) (tptp.photosynthetic_prokaryote_1 X) (tptp.photosystem_ii_1 _let_56) (tptp.photosystem_i_1 _let_55) (tptp.resource_1 _let_54) (tptp.system_1 (tptp.fn_cyanobacterium_6 X)) (tptp.chemiosmosis_1 _let_53) (tptp.nucleoid_1 _let_39) (tptp.chromosome_1 _let_38) (tptp.prokaryotic_chromosome_1 _let_38) (tptp.protein_enzyme_1 _let_26) (tptp.visible_light_1 _let_48) (tptp.energy_1 _let_48) (tptp.spatial_entity_1 _let_49) (tptp.tangible_entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.hydrophobic_compound_1 _let_49) (tptp.molecule_1 _let_49) (tptp.carbon_dioxide_1 _let_49) (tptp.chemical_reaction_1 _let_13) (tptp.metabolic_pathway_1 _let_13) (tptp.photosynthesis_1 _let_13) (tptp.temperature_value_1 _let_40) (tptp.autotroph_1 _let_7) (tptp.photoautotroph_1 _let_7) (tptp.nutrition_1 _let_46) (tptp.specific_heat_value_1 _let_41) (tptp.ribosome_1 _let_37) (tptp.prokaryotic_ribosome_1 _let_37) (tptp.water_1 _let_44) (tptp.active_transport_1 _let_9) (tptp.volume_value_1 _let_42) (tptp.size_value_1 _let_43) (tptp.metabolism_1 _let_11) (tptp.spatial_entity_1 _let_3) (tptp.plasma_membrane_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.mixture_1 _let_36) (tptp.cytoplasm_1 _let_36) (tptp.cell_wall_1 _let_35) (tptp.organic_molecule_1 _let_52) (tptp.substance_1 _let_50) (tptp.cytosol_1 _let_50) (tptp.tangible_entity_1 _let_34) (tptp.phospholipid_bilayer_1 _let_34) (tptp.surface_1 _let_45) (tptp.hydrophilic_face_1 _let_33) (tptp.organic_molecule_1 _let_51) (tptp.visible_light_1 _let_47) (tptp.energy_1 _let_47) (tptp.surface_1 _let_32) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.hydrophobic_compound_1 _let_29) (tptp.molecule_1 _let_29) (tptp.carbon_dioxide_1 _let_29) (tptp.spatial_entity_1 _let_28) (tptp.tangible_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.hydrophobic_compound_1 _let_28) (tptp.molecule_1 _let_28) (tptp.carbon_dioxide_1 _let_28) (tptp.chemical_reaction_1 _let_27) (tptp.photosynthesis_1 _let_25) (tptp.nutrition_1 _let_24) (tptp.cell_1 _let_14) (tptp.organism_1 _let_12) (tptp.cell_1 _let_10) (tptp.organism_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.phospholipid_bilayer_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.phospholipid_bilayer_1 _let_4) (tptp.experiencer_2 _let_13 X) (tptp.has_part_2 X _let_56) (tptp.has_part_2 X _let_55) (tptp.site_2 _let_11 _let_36) (tptp.has_part_2 _let_36 _let_26) (tptp.plays_2 _let_52 _let_54) (tptp.in_event_2 _let_54 _let_9) (tptp.site_2 _let_53 _let_3) (tptp.is_outside_2 _let_33 _let_3) (tptp.has_function_2 _let_26 _let_13) (tptp.base_2 _let_13 X) (tptp.raw_material_2 _let_13 _let_49) (tptp.base_2 _let_11 X) (tptp.raw_material_2 _let_9 _let_52) (tptp.base_2 _let_9 X) (tptp.has_part_2 _let_36 _let_50) (tptp.is_inside_2 _let_37 _let_50) (tptp.plays_2 X _let_7) (tptp.in_event_2 _let_7 _let_46) (tptp.raw_material_2 _let_46 _let_48) (tptp.raw_material_2 _let_13 _let_48) (tptp.by_means_of_2 _let_46 _let_13) (tptp.raw_material_2 _let_46 _let_49) (tptp.agent_2 _let_46 X) (tptp.called_2 _let_43 tptp.size_obj) (tptp.has_region_2 X _let_45) (tptp.is_at_2 _let_34 _let_45) (tptp.volume_2 X _let_42) (tptp.directly_proportional_2 _let_43 _let_42) (tptp.size_2 X _let_43) (tptp.has_part_2 X _let_44) (tptp.specific_heat_2 _let_44 _let_41) (tptp.has_part_2 X _let_38) (tptp.is_inside_2 _let_38 _let_39) (tptp.has_region_2 X _let_39) (tptp.temperature_2 X _let_40) (tptp.correspondence_2 _let_40 _let_41) (tptp.has_part_2 X _let_37) (tptp.has_part_2 X _let_3) (tptp.is_inside_2 _let_3 _let_35) (tptp.has_part_2 X _let_35) (tptp.has_part_2 X _let_36) (tptp.is_inside_2 _let_36 _let_3) (tptp.has_part_2 _let_3 _let_34) (tptp.has_region_2 _let_3 _let_33) (= _let_13 _let_27) (= X _let_14) (= _let_49 _let_29) (= X _let_12) (= _let_52 _let_51) (= X _let_10) (= _let_37 _let_22) (= _let_50 _let_31) (= _let_50 _let_30) (= X _let_8) (= _let_49 _let_28) (= _let_13 _let_25) (= _let_48 _let_47) (= _let_7 (tptp.fn_photosynthetic_prokaryote_2 X)) (= _let_46 _let_24) (= (tptp.fn_cyanobacterium_12 X) (tptp.fn_photosynthetic_prokaryote_29 X)) (= (tptp.fn_cyanobacterium_13 X) (tptp.fn_photosynthetic_prokaryote_26 X)) (= (tptp.fn_cyanobacterium_11 X) (tptp.fn_photosynthetic_prokaryote_27 X)) (= _let_46 _let_23) (= (tptp.fn_cyanobacterium_10 X) (tptp.fn_photosynthetic_prokaryote_28 X)) (= _let_34 _let_5) (= _let_45 (tptp.fn_photosynthetic_prokaryote_25 X)) (= _let_44 (tptp.fn_photosynthetic_prokaryote_10 X)) (= _let_43 (tptp.fn_photosynthetic_prokaryote_8 X)) (= _let_42 (tptp.fn_photosynthetic_prokaryote_9 X)) (= _let_41 (tptp.fn_photosynthetic_prokaryote_4 X)) (= _let_40 (tptp.fn_photosynthetic_prokaryote_1 X)) (= _let_39 (tptp.fn_photosynthetic_prokaryote_30 X)) (= _let_38 (tptp.fn_photosynthetic_prokaryote_31 X)) (= _let_37 _let_21) (= _let_37 _let_20) (= _let_36 _let_19) (= _let_36 _let_18) (= _let_36 _let_17) (= _let_35 _let_16) (= _let_35 _let_15) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_34 _let_6) (= _let_34 _let_4) (= _let_33 _let_32) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cycad_46 X))) (let ((_let_2 (tptp.fn_plant_cell_63 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_4 (tptp.fn_cycad_33 X))) (let ((_let_5 (tptp.fn_eukaryotic_cellular_respiration_111 _let_4))) (let ((_let_6 (tptp.fn_eukaryotic_cellular_respiration_42 _let_4))) (let ((_let_7 (tptp.fn_cycad_27 X))) (let ((_let_8 (tptp.fn_pyruvate_oxidation_84 _let_7))) (let ((_let_9 (tptp.fn_catabolic_pathway_9 _let_7))) (let ((_let_10 (tptp.fn_eukaryotic_cellular_respiration_96 _let_4))) (let ((_let_11 (tptp.fn_cellular_respiration_63 _let_4))) (let ((_let_12 (tptp.fn_eukaryotic_cellular_respiration_101 _let_4))) (let ((_let_13 (tptp.fn_plant_cell_59 _let_1))) (let ((_let_14 (tptp.fn_eukaryotic_cellular_respiration_62 _let_4))) (let ((_let_15 (tptp.fn_cycad_43 X))) (let ((_let_16 (tptp.fn_photosynthesis_38 _let_15))) (let ((_let_17 (tptp.fn_gymnosperm_10 X))) (let ((_let_18 (tptp.fn_woody_plant_11 X))) (let ((_let_19 (tptp.fn_gymnosperm_9 X))) (let ((_let_20 (tptp.fn_woody_plant_10 X))) (let ((_let_21 (tptp.fn_gymnosperm_21 X))) (let ((_let_22 (tptp.fn_woody_plant_3 X))) (let ((_let_23 (tptp.fn_gymnosperm_13 X))) (let ((_let_24 (tptp.fn_woody_plant_5 X))) (let ((_let_25 (tptp.fn_gymnosperm_4 X))) (let ((_let_26 (tptp.fn_woody_plant_16 X))) (let ((_let_27 (tptp.fn_gymnosperm_20 X))) (let ((_let_28 (tptp.fn_woody_plant_4 X))) (let ((_let_29 (tptp.fn_gymnosperm_3 X))) (let ((_let_30 (tptp.fn_woody_plant_17 X))) (let ((_let_31 (tptp.fn_gymnosperm_23 X))) (let ((_let_32 (tptp.fn_woody_plant_6 X))) (let ((_let_33 (tptp.fn_gymnosperm_19 X))) (let ((_let_34 (tptp.fn_woody_plant_8 X))) (let ((_let_35 (tptp.fn_gymnosperm_5 X))) (let ((_let_36 (tptp.fn_woody_plant_15 X))) (let ((_let_37 (tptp.fn_gymnosperm_2 X))) (let ((_let_38 (tptp.fn_woody_plant_18 X))) (let ((_let_39 (tptp.fn_gymnosperm_8 X))) (let ((_let_40 (tptp.fn_woody_plant_12 X))) (let ((_let_41 (tptp.fn_metabolic_pathway_1 _let_15))) (let ((_let_42 (tptp.fn_metabolic_pathway_1 _let_4))) (let ((_let_43 (tptp.fn_gymnosperm_11 X))) (let ((_let_44 (tptp.fn_woody_plant_9 X))) (let ((_let_45 (tptp.fn_gymnosperm_22 X))) (let ((_let_46 (tptp.fn_woody_plant_7 X))) (let ((_let_47 (tptp.fn_photosynthesis_40 _let_15))) (let ((_let_48 (tptp.fn_cycad_7 X))) (let ((_let_49 (tptp.fn_store_1 _let_48))) (let ((_let_50 (tptp.fn_cycad_15 X))) (let ((_let_51 (tptp.fn_store_1 _let_50))) (let ((_let_52 (tptp.fn_photosynthesis_25 _let_15))) (let ((_let_53 (tptp.fn_cycad_32 X))) (let ((_let_54 (tptp.fn_glucose_2 _let_53))) (let ((_let_55 (tptp.fn_anabolic_pathway_3 _let_15))) (let ((_let_56 (tptp.fn_anabolic_pathway_5 _let_15))) (let ((_let_57 (tptp.fn_photosynthesis_37 _let_15))) (let ((_let_58 (tptp.fn_store_2 _let_48))) (let ((_let_59 (tptp.fn_store_2 _let_50))) (let ((_let_60 (tptp.fn_cycad_49 X))) (let ((_let_61 (tptp.fn_store_2 _let_60))) (let ((_let_62 (tptp.fn_cycad_26 X))) (let ((_let_63 (tptp.fn_glycolysis_55 _let_62))) (let ((_let_64 (tptp.fn_pyruvate_oxidation_85 _let_7))) (let ((_let_65 (tptp.fn_catabolic_pathway_9 _let_62))) (let ((_let_66 (tptp.fn_cycad_24 X))) (let ((_let_67 (tptp.fn_eukaryotic_cellular_respiration_82 _let_4))) (let ((_let_68 (tptp.fn_eukaryotic_cellular_respiration_94 _let_4))) (let ((_let_69 (tptp.fn_cycad_29 X))) (let ((_let_70 (tptp.fn_cycad_34 X))) (let ((_let_71 (tptp.fn_cycad_30 X))) (let ((_let_72 (tptp.fn_cycad_44 X))) (let ((_let_73 (tptp.fn_cycad_45 X))) (let ((_let_74 (tptp.fn_cycad_37 X))) (let ((_let_75 (tptp.fn_cycad_39 X))) (let ((_let_76 (tptp.fn_cycad_52 X))) (let ((_let_77 (tptp.fn_cycad_38 X))) (let ((_let_78 (tptp.fn_cycad_6 X))) (let ((_let_79 (tptp.fn_cycad_36 X))) (let ((_let_80 (tptp.fn_cycad_40 X))) (let ((_let_81 (tptp.fn_cycad_42 X))) (let ((_let_82 (tptp.fn_cycad_50 X))) (let ((_let_83 (tptp.fn_cycad_53 X))) (let ((_let_84 (tptp.fn_cycad_41 X))) (let ((_let_85 (tptp.fn_cycad_4 X))) (let ((_let_86 (tptp.fn_photosynthesis_50 _let_15))) (let ((_let_87 (tptp.fn_cycad_20 X))) (let ((_let_88 (tptp.fn_photosynthesis_51 _let_15))) (let ((_let_89 (tptp.fn_cycad_22 X))) (let ((_let_90 (tptp.fn_photosynthesis_52 _let_15))) (let ((_let_91 (tptp.fn_cycad_23 X))) (let ((_let_92 (tptp.fn_photosynthesis_34 _let_15))) (let ((_let_93 (tptp.fn_cycad_31 X))) (let ((_let_94 (tptp.fn_cycad_8 X))) (let ((_let_95 (tptp.fn_photosynthesis_24 _let_15))) (let ((_let_96 (tptp.fn_cycad_19 X))) (let ((_let_97 (tptp.fn_cycad_18 X))) (let ((_let_98 (tptp.fn_photosynthesis_57 _let_15))) (let ((_let_99 (tptp.fn_photosynthesis_3 _let_15))) (let ((_let_100 (tptp.fn_cycad_21 X))) (let ((_let_101 (tptp.fn_photosynthesis_4 _let_15))) (let ((_let_102 (tptp.fn_cycad_17 X))) (let ((_let_103 (tptp.fn_photosynthesis_6 _let_15))) (let ((_let_104 (tptp.fn_photosynthesis_56 _let_15))) (let ((_let_105 (tptp.fn_photosynthesis_55 _let_15))) (let ((_let_106 (tptp.fn_photosynthesis_53 _let_15))) (let ((_let_107 (tptp.fn_cycad_16 X))) (let ((_let_108 (tptp.fn_photosynthesis_5 _let_15))) (let ((_let_109 (tptp.fn_photosynthesis_54 _let_15))) (let ((_let_110 (tptp.fn_cellular_respiration_68 _let_4))) (let ((_let_111 (tptp.fn_cycad_28 X))) (let ((_let_112 (tptp.fn_store_3 _let_50))) (let ((_let_113 (tptp.fn_cycad_51 X))) (let ((_let_114 (tptp.fn_store_3 _let_60))) (let ((_let_115 (tptp.fn_shoot_1 _let_78))) (let ((_let_116 (tptp.fn_cycad_5 X))) (let ((_let_117 (tptp.fn_cycad_25 X))) (let ((_let_118 (tptp.fn_store_3 _let_48))) (let ((_let_119 (tptp.fn_store_1 _let_60))) (let ((_let_120 (tptp.fn_cycad_35 X))) (let ((_let_121 (tptp.fn_cycad_1 X))) (=> (tptp.cycad_1 X) (and (tptp.original_name_2 X |tptp.'Cycad'|) (tptp.user_description_2 X |tptp.'A phylum of gymnosperms with approximately 130 known species. Cycads have large cones and palm-like leaves.'|) (tptp.concept2words_2 X tptp.cycad) (tptp.woody_plant_1 X) (tptp.gymnosperm_1 X) (not (tptp.conifer_1 X)) (tptp.length_value_1 _let_121) (tptp.length_value_1 _let_85) (tptp.stem_1 _let_116) (tptp.shoot_1 _let_78) (tptp.store_1 _let_48) (tptp.entity_1 _let_94) (tptp.chemical_energy_1 _let_94) (tptp.store_1 _let_50) (tptp.free_energy_1 _let_107) (tptp.size_value_1 _let_102) (tptp.structural_complexity_value_1 _let_97) (tptp.structural_complexity_value_1 _let_96) (tptp.free_energy_1 _let_87) (tptp.size_value_1 _let_100) (tptp.quantity_value_1 _let_89) (tptp.quantity_value_1 _let_91) (tptp.chemical_entity_1 _let_66) (tptp.organic_molecule_1 _let_66) (tptp.molecule_1 _let_66) (tptp.entity_1 _let_66) (tptp.nadh_1 _let_66) (tptp.organic_molecule_1 _let_117) (tptp.pyruvate_1 _let_117) (tptp.chemical_entity_1 _let_117) (tptp.catabolic_pathway_1 _let_62) (tptp.glycolysis_1 _let_62) (tptp.catabolic_pathway_1 _let_7) (tptp.pyruvate_oxidation_1 _let_7) (tptp.oxygen_molecule_1 _let_111) (tptp.chemical_reaction_1 _let_69) (tptp.oxidative_phosphorylation_1 _let_69) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_69) (tptp.spatial_entity_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.hydrophobic_compound_1 _let_71) (tptp.molecule_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.carbon_dioxide_1 _let_71) (tptp.visible_light_1 _let_93) (tptp.energy_1 _let_93) (tptp.spatial_entity_1 _let_53) (tptp.tangible_entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.sugar_1 _let_53) (tptp.glucose_1 _let_53) (tptp.cellular_respiration_1 _let_4) (tptp.metabolic_pathway_1 _let_4) (tptp.eukaryotic_cellular_respiration_1 _let_4) (tptp.organelle_1 _let_70) (tptp.mitochondrion_1 _let_70) (tptp.semiautonomous_organelle_1 _let_70) (tptp.chemical_energy_1 _let_120) (tptp.anchor_1 _let_79) (tptp.root_system_1 _let_74) (tptp.shoot_system_1 _let_77) (tptp.root_1 _let_75) (tptp.taproot_1 _let_75) (tptp.water_1 _let_80) (tptp.temperature_value_1 _let_84) (tptp.specific_heat_value_1 _let_81) (tptp.photosynthesis_1 _let_15) (tptp.anabolic_pathway_1 _let_15) (tptp.metabolic_pathway_1 _let_15) (tptp.photoautotroph_1 _let_72) (tptp.nutrition_1 _let_73) (tptp.plant_cell_1 _let_1) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.store_1 _let_60) (tptp.store_1 _let_82) (tptp.container_1 _let_113) (tptp.starch_storage_by_plant_1 _let_76) (tptp.tuber_1 _let_83) (tptp.entity_1 _let_119) (tptp.container_1 _let_118) (tptp.stem_1 _let_115) (tptp.container_1 _let_114) (tptp.container_1 _let_112) (tptp.oxygen_molecule_1 _let_110) (tptp.property_node_1 _let_109) (tptp.property_node_1 _let_108) (tptp.free_energy_1 _let_106) (tptp.property_node_1 _let_105) (tptp.property_node_1 _let_104) (tptp.property_node_1 _let_103) (tptp.size_value_1 _let_101) (tptp.size_value_1 _let_99) (tptp.property_node_1 _let_98) (tptp.structural_complexity_value_1 _let_95) (tptp.visible_light_1 _let_92) (tptp.energy_1 _let_92) (tptp.quantity_value_1 _let_90) (tptp.quantity_value_1 _let_88) (tptp.free_energy_1 _let_86) (tptp.pyruvate_oxidation_1 _let_68) (tptp.glycolysis_1 _let_67) (tptp.organic_molecule_1 _let_65) (tptp.organic_molecule_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.pyruvate_1 _let_64) (tptp.pyruvate_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.spatial_entity_1 _let_61) (tptp.spatial_entity_1 _let_59) (tptp.spatial_entity_1 _let_58) (tptp.tangible_entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.sugar_1 _let_57) (tptp.chemical_entity_1 _let_56) (tptp.structural_complexity_value_1 _let_55) (tptp.structural_complexity_value_1 _let_54) (tptp.structural_complexity_value_1 _let_52) (tptp.entity_1 _let_51) (tptp.entity_1 _let_49) (tptp.chemical_energy_1 _let_47) (tptp.cell_1 _let_42) (tptp.cell_1 _let_41) (tptp.spatial_entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.hydrophobic_compound_1 _let_16) (tptp.molecule_1 _let_16) (tptp.carbon_dioxide_1 _let_16) (tptp.tangible_entity_1 _let_14) (tptp.carbon_dioxide_1 _let_14) (tptp.organelle_1 _let_13) (tptp.mitochondrion_1 _let_13) (tptp.semiautonomous_organelle_1 _let_13) (tptp.organelle_1 _let_12) (tptp.mitochondrion_1 _let_12) (tptp.semiautonomous_organelle_1 _let_12) (tptp.oxidative_phosphorylation_1 _let_11) (tptp.chemical_reaction_1 _let_10) (tptp.oxidative_phosphorylation_1 _let_10) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_10) (tptp.organic_molecule_1 _let_9) (tptp.nadh_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.organic_molecule_1 _let_6) (tptp.molecule_1 _let_6) (tptp.nadh_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.molecule_1 _let_5) (tptp.entity_1 _let_5) (tptp.nadh_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.metabolic_pathway_1 _let_2) (tptp.eukaryotic_cellular_respiration_1 _let_2) (not (= _let_120 _let_93)) (tptp.result_2 _let_4 _let_117) (not (= _let_93 _let_120)) (tptp.thickness_2 _let_116 _let_121) (tptp.directly_proportional_2 _let_121 _let_85) (tptp.base_2 _let_60 _let_53) (tptp.object_2 _let_50 _let_94) (tptp.object_2 _let_60 _let_120) (tptp.object_2 _let_48 _let_94) (tptp.base_2 _let_50 _let_53) (tptp.base_2 _let_48 _let_53) (tptp.plays_2 _let_53 _let_113) (tptp.size_2 _let_53 _let_102) (tptp.result_2 _let_15 _let_53) (tptp.possesses_2 _let_53 _let_107) (tptp.raw_material_2 _let_7 _let_117) (tptp.result_2 _let_62 _let_117) (tptp.structural_complexity_2 _let_53 _let_97) (tptp.has_part_2 _let_78 _let_116) (tptp.in_event_2 _let_113 _let_50) (tptp.raw_material_2 _let_4 _let_111) (tptp.raw_material_2 _let_69 _let_111) (tptp.has_function_2 _let_1 _let_4) (tptp.base_2 _let_4 _let_1) (tptp.has_part_2 _let_1 _let_70) (tptp.has_function_2 _let_70 _let_4) (tptp.quantity_2 _let_107 _let_91) (tptp.called_2 _let_89 |tptp.'FE_r'|) (tptp.size_2 _let_71 _let_100) (tptp.greater_than_2 _let_102 _let_100) (tptp.structural_complexity_2 _let_71 _let_96) (tptp.greater_than_2 _let_97 _let_96) (tptp.raw_material_2 _let_15 _let_93) (not (= _let_94 _let_93)) (not (= _let_93 _let_94)) (tptp.raw_material_2 _let_15 _let_71) (tptp.possesses_2 _let_71 _let_87) (tptp.quantity_2 _let_87 _let_89) (tptp.greater_than_2 _let_91 _let_89) (tptp.called_2 _let_91 |tptp.'FE_p'|) (tptp.by_means_of_2 _let_73 _let_15) (tptp.height_2 X _let_85) (tptp.the_scalar_value_2 _let_85 tptp.tall_0) (tptp.scalar_unit_class_2 _let_85 tptp.vascular_plant_0) (tptp.correspondence_2 _let_84 _let_81) (tptp.temperature_2 X _let_84) (tptp.has_function_2 X _let_15) (tptp.experiencer_2 _let_15 X) (tptp.has_function_2 X _let_76) (tptp.subevent_2 _let_76 _let_82) (tptp.site_2 _let_82 _let_83) (tptp.has_part_2 X _let_83) (tptp.has_part_2 X _let_1) (tptp.base_2 _let_15 _let_1) (tptp.object_2 _let_79 X) (tptp.agent_2 _let_79 _let_75) (tptp.has_part_2 X _let_75) (tptp.has_part_2 X _let_80) (tptp.specific_heat_2 _let_80 _let_81) (tptp.base_2 _let_76 X) (tptp.agent_2 _let_76 X) (tptp.has_region_2 X _let_77) (tptp.is_inside_2 _let_78 _let_77) (tptp.has_part_2 X _let_78) (tptp.plays_2 X _let_72) (tptp.in_event_2 _let_72 _let_73) (tptp.agent_2 _let_73 X) (tptp.has_region_2 X _let_74) (tptp.is_inside_2 _let_75 _let_74) (tptp.subevent_2 _let_4 _let_69) (tptp.result_2 _let_4 _let_71) (tptp.first_subevent_2 _let_4 _let_62) (tptp.subevent_2 _let_4 _let_62) (tptp.subevent_2 _let_4 _let_7) (tptp.site_2 _let_7 _let_70) (tptp.result_2 _let_4 _let_66) (tptp.result_2 _let_62 _let_66) (tptp.next_event_2 _let_62 _let_7) (tptp.result_2 _let_7 _let_66) (tptp.raw_material_2 _let_69 _let_66) (= _let_94 _let_51) (= _let_120 _let_119) (= _let_94 _let_49) (= _let_53 _let_61) (= _let_53 _let_59) (= _let_113 _let_118) (= _let_53 _let_58) (= _let_53 _let_57) (= _let_117 _let_64) (= _let_117 _let_65) (= _let_117 _let_63) (= _let_53 _let_56) (= _let_97 _let_55) (= _let_97 _let_54) (= _let_116 _let_115) (= _let_113 _let_114) (= _let_113 _let_112) (= _let_69 _let_11) (= _let_111 _let_110) (= _let_70 _let_13) (= _let_1 _let_42) (= _let_4 _let_3) (= _let_4 _let_2) (= (tptp.fn_cycad_12 X) _let_109) (= (tptp.fn_cycad_11 X) _let_108) (= _let_107 _let_106) (= (tptp.fn_cycad_10 X) _let_105) (= (tptp.fn_cycad_9 X) _let_104) (= (tptp.fn_cycad_14 X) _let_103) (= _let_102 _let_101) (= _let_100 _let_99) (= (tptp.fn_cycad_13 X) _let_98) (= _let_97 _let_52) (= _let_96 _let_95) (= _let_94 _let_47) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= _let_71 _let_16) (= (tptp.fn_cycad_47 X) (tptp.fn_gymnosperm_7 X)) (= (tptp.fn_cycad_48 X) (tptp.fn_gymnosperm_6 X)) (= (tptp.fn_cycad_3 X) (tptp.fn_gymnosperm_16 X)) (= _let_85 (tptp.fn_gymnosperm_15 X)) (= _let_84 _let_46) (= _let_84 _let_45) (= _let_1 _let_41) (= _let_15 _let_44) (= _let_15 _let_43) (= _let_1 _let_40) (= _let_1 _let_39) (= _let_83 _let_38) (= _let_83 _let_37) (= _let_82 _let_36) (= _let_82 _let_35) (= _let_81 _let_34) (= _let_81 _let_33) (= _let_80 _let_32) (= _let_80 _let_31) (= _let_79 (tptp.fn_gymnosperm_14 X)) (= _let_78 _let_30) (= _let_78 _let_29) (= _let_77 _let_28) (= _let_77 _let_27) (= _let_76 _let_26) (= _let_76 _let_25) (= _let_75 _let_24) (= _let_75 _let_23) (= _let_74 _let_22) (= _let_74 _let_21) (= _let_73 _let_20) (= _let_73 _let_19) (= _let_72 _let_18) (= _let_72 _let_17) (= _let_71 _let_14) (= _let_70 _let_12) (= _let_69 _let_10) (= _let_66 _let_9) (= _let_66 _let_8) (= _let_7 _let_68) (= _let_62 _let_67) (= _let_66 _let_6) (= _let_66 _let_5) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_59 _let_61) (= _let_61 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cyclic_amp_78 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_amp_34 X))) (let ((_let_4 (tptp.fn_amp_32 X))) (let ((_let_5 (tptp.fn_nucleoside_monophosphate_60 X))) (let ((_let_6 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_7 (tptp.fn_cyclic_amp_79 X))) (let ((_let_8 (tptp.fn_covalent_bond_18 _let_7))) (let ((_let_9 (tptp.fn_amp_59 X))) (let ((_let_10 (tptp.fn_amp_47 X))) (let ((_let_11 (tptp.fn_amp_31 X))) (let ((_let_12 (tptp.fn_amp_48 X))) (let ((_let_13 (tptp.fn_amp_19 X))) (let ((_let_14 (tptp.fn_amp_74 X))) (let ((_let_15 (tptp.fn_amp_35 X))) (let ((_let_16 (tptp.fn_amp_36 X))) (let ((_let_17 (tptp.fn_amp_30 X))) (let ((_let_18 (tptp.fn_amp_37 X))) (let ((_let_19 (tptp.fn_amp_73 X))) (let ((_let_20 (tptp.fn_nucleoside_monophosphate_6 X))) (let ((_let_21 (tptp.fn_nucleoside_monophosphate_8 X))) (let ((_let_22 (tptp.fn_nucleoside_monophosphate_9 X))) (let ((_let_23 (tptp.fn_nucleoside_monophosphate_19 X))) (let ((_let_24 (tptp.fn_nucleoside_monophosphate_33 X))) (let ((_let_25 (tptp.fn_cyclic_amp_83 X))) (let ((_let_26 (tptp.fn_atom_14 _let_25))) (let ((_let_27 (tptp.fn_carbon_10 _let_25))) (let ((_let_28 (tptp.fn_cyclic_amp_60 X))) (let ((_let_29 (tptp.fn_share_1 _let_28))) (let ((_let_30 (tptp.fn_share_3 _let_28))) (let ((_let_31 (tptp.fn_cyclic_amp_27 X))) (let ((_let_32 (tptp.fn_share_1 _let_31))) (let ((_let_33 (tptp.fn_share_3 _let_31))) (let ((_let_34 (tptp.fn_cyclic_amp_112 X))) (let ((_let_35 (tptp.fn_share_1 _let_34))) (let ((_let_36 (tptp.fn_cyclic_amp_23 X))) (let ((_let_37 (tptp.fn_share_1 _let_36))) (let ((_let_38 (tptp.fn_cyclic_amp_113 X))) (let ((_let_39 (tptp.fn_share_1 _let_38))) (let ((_let_40 (tptp.fn_cyclic_amp_22 X))) (let ((_let_41 (tptp.fn_share_1 _let_40))) (let ((_let_42 (tptp.fn_cyclic_amp_114 X))) (let ((_let_43 (tptp.fn_share_1 _let_42))) (let ((_let_44 (tptp.fn_amp_52 X))) (let ((_let_45 (tptp.fn_nucleoside_monophosphate_16 X))) (let ((_let_46 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_47 (tptp.fn_covalent_bond_19 _let_7))) (let ((_let_48 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_49 (tptp.fn_share_2 _let_42))) (let ((_let_50 (tptp.fn_amp_57 X))) (let ((_let_51 (tptp.fn_share_2 _let_40))) (let ((_let_52 (tptp.fn_amp_72 X))) (let ((_let_53 (tptp.fn_share_2 _let_38))) (let ((_let_54 (tptp.fn_share_2 _let_36))) (let ((_let_55 (tptp.fn_share_2 _let_34))) (let ((_let_56 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_57 (tptp.fn_carbon_18 _let_25))) (let ((_let_58 (tptp.fn_amp_46 X))) (let ((_let_59 (tptp.fn_amp_12 X))) (let ((_let_60 (tptp.fn_atom_18 _let_25))) (let ((_let_61 (tptp.fn_covalent_bond_24 _let_7))) (let ((_let_62 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_63 (tptp.fn_covalent_bond_22 _let_7))) (let ((_let_64 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_65 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_66 (tptp.fn_amp_43 X))) (let ((_let_67 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_68 (tptp.fn_amp_44 X))) (let ((_let_69 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_70 (tptp.fn_carbon_17 _let_25))) (let ((_let_71 (tptp.fn_nucleoside_monophosphate_40 X))) (let ((_let_72 (tptp.fn_atom_8 _let_25))) (let ((_let_73 (tptp.fn_covalent_bond_8 _let_1))) (let ((_let_74 (tptp.fn_atom_11 _let_25))) (let ((_let_75 (tptp.fn_amp_14 X))) (let ((_let_76 (tptp.fn_amp_21 X))) (let ((_let_77 (tptp.fn_amp_20 X))) (let ((_let_78 (tptp.fn_covalent_bond_15 _let_7))) (let ((_let_79 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_80 (tptp.fn_amp_58 X))) (let ((_let_81 (tptp.fn_amp_15 X))) (let ((_let_82 (tptp.fn_amp_69 X))) (let ((_let_83 (tptp.fn_amp_70 X))) (let ((_let_84 (tptp.fn_cyclic_amp_68 X))) (let ((_let_85 (tptp.fn_hold_2 _let_84))) (let ((_let_86 (tptp.fn_cyclic_amp_25 X))) (let ((_let_87 (tptp.fn_share_1 _let_86))) (let ((_let_88 (tptp.fn_cyclic_amp_24 X))) (let ((_let_89 (tptp.fn_share_1 _let_88))) (let ((_let_90 (tptp.fn_share_3 _let_86))) (let ((_let_91 (tptp.fn_share_3 _let_88))) (let ((_let_92 (tptp.fn_covalent_bond_4 _let_7))) (let ((_let_93 (tptp.fn_amp_27 X))) (let ((_let_94 (tptp.fn_carbon_19 _let_25))) (let ((_let_95 (tptp.fn_covalent_bond_8 _let_7))) (let ((_let_96 (tptp.fn_carbon_12 _let_25))) (let ((_let_97 (tptp.fn_covalent_bond_9 _let_7))) (let ((_let_98 (tptp.fn_atom_5 _let_25))) (let ((_let_99 (tptp.fn_covalent_bond_14 _let_7))) (let ((_let_100 (tptp.fn_amp_60 X))) (let ((_let_101 (tptp.fn_cyclic_amp_92 X))) (let ((_let_102 (tptp.fn_attach_2 _let_101))) (let ((_let_103 (tptp.fn_cyclic_amp_91 X))) (let ((_let_104 (tptp.fn_inducer_6 _let_103))) (let ((_let_105 (tptp.fn_amp_4 X))) (let ((_let_106 (tptp.fn_amp_5 X))) (let ((_let_107 (tptp.fn_nucleoside_monophosphate_65 X))) (let ((_let_108 (tptp.fn_covalent_bond_20 _let_7))) (let ((_let_109 (tptp.fn_share_3 _let_34))) (let ((_let_110 (tptp.fn_share_3 _let_36))) (let ((_let_111 (tptp.fn_share_3 _let_38))) (let ((_let_112 (tptp.fn_share_3 _let_40))) (let ((_let_113 (tptp.fn_share_3 _let_42))) (let ((_let_114 (tptp.fn_nucleoside_monophosphate_27 X))) (let ((_let_115 (tptp.fn_amp_53 X))) (let ((_let_116 (tptp.fn_nucleoside_monophosphate_17 X))) (let ((_let_117 (tptp.fn_amp_7 X))) (let ((_let_118 (tptp.fn_amp_6 X))) (let ((_let_119 (tptp.fn_amp_80 X))) (let ((_let_120 (tptp.fn_amp_79 X))) (let ((_let_121 (tptp.fn_amp_22 X))) (let ((_let_122 (tptp.fn_amp_56 X))) (let ((_let_123 (tptp.fn_nucleoside_monophosphate_4 X))) (let ((_let_124 (tptp.fn_nucleoside_monophosphate_29 X))) (let ((_let_125 (tptp.fn_nucleoside_monophosphate_32 X))) (let ((_let_126 (tptp.fn_nucleoside_monophosphate_42 X))) (let ((_let_127 (tptp.fn_share_2 _let_28))) (let ((_let_128 (tptp.fn_nucleoside_monophosphate_24 X))) (let ((_let_129 (tptp.fn_amp_50 X))) (let ((_let_130 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_131 (tptp.fn_covalent_bond_12 _let_7))) (let ((_let_132 (tptp.fn_amp_54 X))) (let ((_let_133 (tptp.fn_5_prime_carbon_1 _let_25))) (let ((_let_134 (tptp.fn_cyclic_amp_19 X))) (let ((_let_135 (tptp.fn_share_2 _let_134))) (let ((_let_136 (tptp.fn_amp_13 X))) (let ((_let_137 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_138 (tptp.fn_covalent_bond_11 _let_7))) (let ((_let_139 (tptp.fn_amp_8 X))) (let ((_let_140 (tptp.fn_amp_55 X))) (let ((_let_141 (tptp.fn_amp_9 X))) (let ((_let_142 (tptp.fn_nucleoside_monophosphate_7 X))) (let ((_let_143 (tptp.fn_amp_16 X))) (let ((_let_144 (tptp.fn_amp_11 X))) (let ((_let_145 (tptp.fn_amp_17 X))) (let ((_let_146 (tptp.fn_nucleoside_monophosphate_34 X))) (let ((_let_147 (tptp.fn_nucleoside_monophosphate_63 X))) (let ((_let_148 (tptp.fn_share_2 _let_31))) (let ((_let_149 (tptp.fn_amp_38 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_let_154) (= _let_229 _let_141) (= _let_212 _let_127) (= _let_212 _let_16) (= _let_28 _let_3) (= _let_225 _let_9) (= _let_209 _let_121) (= _let_228 _let_9) (= _let_227 _let_140) (= _let_196 _let_80) (= _let_226 _let_156) (= _let_160 _let_50) (= _let_172 _let_14) (= _let_164 _let_50) (= _let_34 (tptp.fn_amp_75 X)) (= _let_224 _let_17) (= _let_225 _let_10) (= _let_224 _let_121) (= _let_223 _let_139) (= _let_222 _let_138) (= _let_222 _let_137) (= _let_222 _let_136) (= _let_172 _let_76) (= _let_221 _let_9) (= _let_218 _let_81) (= _let_161 _let_52) (= _let_220 _let_19) (= _let_209 _let_12) (= _let_38 (tptp.fn_amp_76 X)) (= _let_163 _let_10) (= _let_158 _let_12) (= _let_219 _let_149) (= _let_172 _let_12) (= _let_218 _let_118) (= _let_184 _let_93) (= _let_25 _let_83) (= _let_217 _let_76) (= _let_209 _let_77) (= _let_216 _let_10) (= _let_163 _let_12) (= _let_209 _let_75) (= _let_172 _let_10) (= _let_42 _let_4) (= _let_169 _let_68) (= _let_215 _let_132) (= _let_213 _let_47) (= _let_213 _let_82) (= _let_7 (tptp.fn_amp_67 X)) (= _let_206 _let_119) (= _let_214 _let_131) (= _let_214 _let_130) (= _let_214 _let_129) (= _let_159 _let_48) (= _let_203 _let_108) (= _let_159 _let_47) (= _let_159 _let_46) (= _let_159 _let_43) (= _let_203 _let_113) (= _let_159 _let_41) (= _let_203 _let_112) (= _let_159 _let_39) (= _let_203 _let_111) (= _let_159 _let_37) (= _let_203 _let_110) (= _let_159 _let_35) (= _let_203 _let_109) (= _let_159 _let_45) (= _let_203 _let_106) (= _let_159 _let_44) (= _let_168 _let_66) (= _let_207 _let_11) (= _let_172 _let_75) (= _let_158 _let_11) (= _let_211 _let_10) (= _let_206 _let_118) (= _let_165 _let_59) (= _let_209 _let_10) (= _let_213 _let_108) (= _let_165 _let_58) (= _let_213 _let_83) (= _let_211 _let_13) (= _let_212 _let_9) (= _let_211 _let_120) (= _let_208 _let_10) (= _let_210 _let_77) (= _let_209 _let_9) (= _let_166 _let_56) (= _let_166 _let_58) (= _let_25 _let_82) (= _let_208 _let_16) (= _let_158 _let_10) (= _let_207 _let_120) (= _let_158 _let_9) (= _let_206 _let_117) (= _let_205 _let_116) (= _let_205 _let_115) (= _let_203 _let_107) (= _let_204 _let_114) (= _let_204 _let_106) (= _let_203 _let_46) (= _let_203 _let_48) (= _let_203 _let_105) (= _let_1 (tptp.fn_amp_68 X)) (= _let_202 (tptp.fn_amp_40 X)) (= _let_201 (tptp.fn_amp_41 X)) (= _let_200 (tptp.fn_amp_42 X)) (= _let_199 (tptp.fn_amp_39 X)) (= _let_183 _let_198) (= _let_197 _let_78) (= _let_196 _let_99) (= _let_195 _let_194) (= _let_193 _let_192) (= _let_191 _let_190) (= _let_158 _let_8) (= _let_189 _let_153) (= _let_186 _let_98) (= (tptp.fn_cyclic_amp_5 X) _let_188) (= _let_170 _let_70) (= (tptp.fn_cyclic_amp_4 X) _let_187) (= _let_186 _let_97) (= _let_186 _let_96) (= _let_184 _let_92) (= _let_185 _let_95) (= _let_185 _let_94) (= _let_184 _let_70) (= _let_183 _let_182) (= _let_181 _let_2) (= _let_84 _let_79) (= _let_180 _let_179) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_174 _let_173) (= _let_172 _let_27) (= _let_172 _let_26) (= _let_172 _let_6) (= _let_170 _let_72) (= _let_171 _let_74) (= _let_171 _let_73) (= _let_170 _let_69) (= _let_168 _let_67) (= _let_169 _let_65) (= _let_169 _let_67) (= _let_168 _let_65) (= _let_167 _let_8) (= _let_167 _let_64) (= _let_165 _let_61) (= _let_166 _let_63) (= _let_166 _let_62) (= _let_165 _let_57) (= _let_158 _let_27) (= _let_165 _let_60) (= _let_158 _let_26) (= _let_165 _let_56) (= _let_164 _let_55) (= _let_163 _let_54) (= _let_162 _let_53) (= _let_161 _let_51) (= _let_160 _let_49) (= _let_159 _let_33) (= _let_159 _let_32) (= _let_159 _let_30) (= _let_159 _let_29) (= _let_158 _let_6) (= _let_28 _let_2) (= _let_153 _let_157) (= _let_157 _let_157) (= _let_157 _let_2) (= _let_155 _let_142) (= _let_142 _let_142) (= _let_142 _let_156) (= _let_156 _let_153) (= _let_153 _let_2) (= _let_2 _let_155) (= _let_155 _let_155) (= _let_155 _let_140) (= _let_140 _let_153) (= _let_153 _let_154) (= _let_154 _let_154) (= _let_154 _let_153) (= _let_153 _let_153) (= _let_153 _let_3) (= _let_3 _let_151) (= _let_151 _let_151) (= _let_151 _let_152) (= _let_152 _let_151) (= _let_151 _let_78) (= _let_78 _let_122) (= _let_122 _let_150) (= _let_150 _let_150) (= _let_150 _let_149) (= _let_149 _let_149) (= _let_149 _let_148) (= _let_148 _let_22) (= _let_22 _let_50) (= _let_50 _let_123) (= _let_123 _let_9) (= _let_10 _let_76) (= _let_76 _let_76) (= _let_76 _let_147) (= _let_147 _let_147) (= _let_147 _let_144) (= _let_144 _let_22) (= _let_9 _let_22) (= _let_9 _let_146) (= _let_146 _let_143) (= _let_143 _let_146) (= _let_146 _let_146) (= _let_146 _let_139) (= _let_139 _let_145) (= _let_145 _let_145) (= _let_145 _let_144) (= _let_144 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_143 _let_141) (= _let_141 _let_126) (= _let_126 _let_50) (= _let_50 _let_52) (= _let_52 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_23) (= _let_23 _let_9) (= _let_9 _let_5) (= _let_5 _let_5) (= _let_5 _let_140) (= _let_140 _let_23) (= _let_23 _let_50) (= _let_50 _let_122) (= _let_122 _let_9) (= _let_10 _let_17) (= _let_17 _let_121) (= _let_121 _let_2) (= _let_2 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_139 _let_139) (= _let_139 _let_138) (= _let_138 _let_137) (= _let_136 _let_137) (= _let_137 _let_136) (= _let_136 _let_136) (= _let_136 _let_22) (= _let_22 _let_9) (= _let_9 _let_135) (= _let_135 _let_9) (= _let_9 _let_19) (= _let_19 _let_118) (= _let_118 _let_81) (= _let_81 _let_118) (= _let_118 _let_23) (= _let_23 _let_76) (= _let_76 _let_132) (= _let_132 _let_133) (= _let_133 _let_132) (= _let_132 _let_132) (= _let_132 _let_131) (= _let_129 _let_130) (= _let_129 _let_131) (= _let_131 _let_130) (= _let_130 _let_129) (= _let_129 _let_108) (= _let_108 _let_47) (= _let_47 _let_47) (= _let_47 _let_108) (= _let_128 _let_108) (= _let_108 _let_108) (= _let_108 _let_128) (= _let_128 _let_128) (= _let_128 _let_82) (= _let_83 _let_16) (= _let_16 _let_127) (= _let_127 _let_16) (= _let_16 _let_9) (= _let_64 _let_23) (= _let_23 _let_18) (= _let_18 _let_10) (= _let_10 _let_13) (= _let_13 _let_120) (= _let_120 _let_9) (= _let_9 _let_77) (= _let_77 _let_21) (= _let_23 _let_126) (= _let_126 _let_126) (= _let_126 _let_24) (= _let_125 _let_24) (= _let_24 _let_125) (= _let_125 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_50) (= _let_50 _let_15) (= _let_15 _let_121) (= _let_12 _let_121) (= _let_121 _let_121) (= _let_121 _let_12) (= _let_12 _let_77) (= _let_77 _let_75) (= _let_75 _let_10) (= _let_10 _let_16) (= _let_16 _let_78) (= _let_78 _let_11) (= _let_11 _let_120) (= _let_120 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_115 _let_115) (= _let_115 _let_116) (= _let_116 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_106 _let_114) (= _let_114 _let_106) (= _let_106 _let_113) (= _let_46 _let_113) (= _let_113 _let_112) (= _let_112 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_109 _let_46) (= _let_46 _let_108) (= _let_48 _let_48) (= _let_48 _let_108) (= _let_108 _let_48) (= _let_107 _let_48) (= _let_48 _let_107) (= _let_107 _let_106) (= _let_106 _let_107) (= _let_107 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_102) (= _let_102 _let_21) (= _let_21 _let_23) (= _let_23 _let_78) (= _let_78 _let_100) (= _let_100 _let_100) (= _let_100 _let_80) (= _let_99 _let_99) (= _let_99 _let_80) (= _let_80 _let_80) (= _let_80 _let_99) (= _let_99 _let_98) (= _let_97 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_96 _let_96) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_94) (= _let_94 _let_94) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_70) (= _let_70 _let_91) (= _let_91 _let_89) (= _let_89 _let_90) (= _let_90 _let_87) (= _let_87 _let_89) (= _let_89 _let_87) (= _let_87 _let_85) (= _let_85 _let_85) (= _let_85 _let_83) (= _let_82 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_2) (= _let_2 _let_81) (= _let_81 _let_81) (= _let_81 _let_2) (= _let_2 _let_79) (= _let_79 _let_79) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_27) (= _let_27 _let_27) (= _let_27 _let_78) (= _let_78 _let_26) (= _let_22 _let_26) (= _let_26 _let_22) (= _let_22 _let_23) (= _let_23 _let_77) (= _let_77 _let_77) (= _let_77 _let_14) (= _let_14 _let_76) (= _let_12 _let_76) (= _let_76 _let_12) (= _let_12 _let_10) (= _let_10 _let_75) (= _let_75 _let_75) (= _let_75 _let_6) (= _let_6 _let_74) (= _let_74 _let_74) (= _let_73 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_65) (= _let_65 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_9) (= _let_8 _let_9) (= _let_9 _let_64) (= _let_64 _let_64) (= _let_64 _let_59) (= _let_59 _let_56) (= _let_56 _let_63) (= _let_63 _let_63) (= _let_63 _let_59) (= _let_62 _let_58) (= _let_58 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_56 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_9) (= _let_50 _let_55) (= _let_55 _let_10) (= _let_10 _let_12) (= _let_12 _let_54) (= _let_54 _let_22) (= _let_22 _let_53) (= _let_53 _let_10) (= _let_10 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_9) (= _let_9 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_46) (= _let_46 _let_48) (= _let_48 _let_47) (= _let_46 _let_46) (= _let_45 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_33) (= _let_33 _let_30) (= _let_30 _let_37) (= _let_37 _let_41) (= _let_41 _let_35) (= _let_35 _let_39) (= _let_39 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_24 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cyclic_electron_flow_72 X))) (let ((_let_2 (tptp.fn_p700_13 _let_1))) (let ((_let_3 (tptp.fn_chlorophyll_a_15 _let_1))) (let ((_let_4 (tptp.fn_cyclic_electron_flow_85 X))) (let ((_let_5 (tptp.fn_reduction_1 _let_4))) (let ((_let_6 (tptp.fn_cyclic_electron_flow_58 X))) (let ((_let_7 (tptp.fn_oxidation_10 _let_6))) (let ((_let_8 (tptp.fn_cyclic_electron_flow_83 X))) (let ((_let_9 (tptp.fn_redox_reaction_12 _let_8))) (let ((_let_10 (tptp.fn_cyclic_electron_flow_103 X))) (let ((_let_11 (tptp.fn_light_reflection_1 _let_10))) (let ((_let_12 (tptp.fn_p700_28 _let_1))) (let ((_let_13 (tptp.fn_chlorophyll_a_20 _let_1))) (let ((_let_14 (tptp.fn_oxidation_9 _let_6))) (let ((_let_15 (tptp.fn_reduction_4 _let_4))) (let ((_let_16 (tptp.fn_redox_reaction_7 _let_8))) (let ((_let_17 (tptp.fn_oxidation_5 _let_6))) (let ((_let_18 (tptp.fn_redox_reaction_3 _let_8))) (let ((_let_19 (tptp.fn_oxidation_2 _let_6))) (let ((_let_20 (tptp.fn_electron_transport_chain_reaction_11 X))) (let ((_let_21 (tptp.fn_cyclic_electron_flow_82 X))) (let ((_let_22 (tptp.fn_redox_reaction_14 _let_21))) (let ((_let_23 (tptp.fn_redox_reaction_1 _let_8))) (let ((_let_24 (tptp.fn_oxidation_1 _let_6))) (let ((_let_25 (tptp.fn_redox_reaction_2 _let_8))) (let ((_let_26 (tptp.fn_cyclic_electron_flow_129 X))) (let ((_let_27 (tptp.fn_oxidation_1 _let_26))) (let ((_let_28 (tptp.fn_cyclic_electron_flow_92 X))) (let ((_let_29 (tptp.fn_redox_reaction_13 _let_28))) (let ((_let_30 (tptp.fn_cyclic_electron_flow_138 X))) (let ((_let_31 (tptp.fn_oxidation_1 _let_30))) (let ((_let_32 (tptp.fn_cyclic_electron_flow_81 X))) (let ((_let_33 (tptp.fn_redox_reaction_2 _let_32))) (let ((_let_34 (tptp.fn_oxidation_2 _let_26))) (let ((_let_35 (tptp.fn_redox_reaction_14 _let_28))) (let ((_let_36 (tptp.fn_redox_reaction_1 _let_32))) (let ((_let_37 (tptp.fn_cyclic_electron_flow_28 X))) (let ((_let_38 (tptp.fn_electron_transport_chain_2 _let_37))) (let ((_let_39 (tptp.fn_cyclic_electron_flow_37 X))) (let ((_let_40 (tptp.fn_oxidation_10 _let_39))) (let ((_let_41 (tptp.fn_cyclic_electron_flow_136 X))) (let ((_let_42 (tptp.fn_oxidation_10 _let_41))) (let ((_let_43 (tptp.fn_chemical_reaction_1 _let_21))) (let ((_let_44 (tptp.fn_cyclic_electron_flow_46 X))) (let ((_let_45 (tptp.fn_reducing_agent_2 _let_44))) (let ((_let_46 (tptp.fn_electron_transport_chain_3 _let_37))) (let ((_let_47 (tptp.fn_oxidation_7 _let_39))) (let ((_let_48 (tptp.fn_oxidation_7 _let_41))) (let ((_let_49 (tptp.fn_cyclic_electron_flow_137 X))) (let ((_let_50 (tptp.fn_redox_reaction_16 _let_49))) (let ((_let_51 (tptp.fn_redox_reaction_12 _let_49))) (let ((_let_52 (tptp.fn_cyclic_electron_flow_42 X))) (let ((_let_53 (tptp.fn_electron_recipient_2 _let_52))) (let ((_let_54 (tptp.fn_chemical_reaction_1 _let_49))) (let ((_let_55 (tptp.fn_cyclic_electron_flow_31 X))) (let ((_let_56 (tptp.fn_reduction_1 _let_55))) (let ((_let_57 (tptp.fn_cyclic_electron_flow_128 X))) (let ((_let_58 (tptp.fn_reduction_1 _let_57))) (let ((_let_59 (tptp.fn_oxidation_10 _let_30))) (let ((_let_60 (tptp.fn_oxidation_9 _let_39))) (let ((_let_61 (tptp.fn_redox_reaction_7 _let_49))) (let ((_let_62 (tptp.fn_reduction_3 _let_4))) (let ((_let_63 (tptp.fn_redox_reaction_16 _let_21))) (let ((_let_64 (tptp.fn_oxidation_7 _let_6))) (let ((_let_65 (tptp.fn_electron_transport_chain_reaction_6 X))) (let ((_let_66 (tptp.fn_redox_reaction_12 _let_28))) (let ((_let_67 (tptp.fn_redox_reaction_16 _let_28))) (let ((_let_68 (tptp.fn_redox_reaction_16 _let_32))) (let ((_let_69 (tptp.fn_oxidation_7 _let_26))) (let ((_let_70 (tptp.fn_oxidation_7 _let_30))) (let ((_let_71 (tptp.fn_reduction_3 _let_57))) (let ((_let_72 (tptp.fn_cyclic_electron_flow_86 X))) (let ((_let_73 (tptp.fn_p700_plus__1 _let_72))) (let ((_let_74 (tptp.fn_reduction_2 _let_57))) (let ((_let_75 (tptp.fn_chemical_reaction_1 _let_8))) (let ((_let_76 (tptp.fn_redox_reaction_12 _let_21))) (let ((_let_77 (tptp.fn_oxidation_10 _let_26))) (let ((_let_78 (tptp.fn_redox_reaction_12 _let_32))) (let ((_let_79 (tptp.fn_cyclic_electron_flow_62 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X _let_21) (tptp.subevent_2 _let_21 _let_55) (tptp.object_2 _let_55 _let_229) (not (= _let_229 _let_209)) (tptp.has_atom_2 _let_209 _let_230) (not (= _let_209 _let_229)) (tptp.causes_2 _let_28 _let_226) (tptp.subevent_2 _let_28 _let_26) (not (= _let_26 _let_226)) (tptp.donor_2 _let_226 _let_212) (tptp.object_2 _let_57 _let_212) (tptp.subevent_2 _let_28 _let_57) (not (= _let_226 _let_26)) (tptp.has_function_2 _let_37 X) (tptp.plays_2 _let_189 _let_195) (not (= _let_222 _let_210)) (not (= _let_210 _let_222)) (not (= _let_210 _let_220)) (tptp.object_2 _let_30 _let_220) (not (= _let_220 _let_210)) (tptp.has_atom_2 _let_189 _let_216) (tptp.electronegativity_2 _let_216 _let_218) (tptp.object_2 _let_4 _let_163) (tptp.object_2 _let_41 _let_197) (tptp.object_2 _let_26 _let_212) (not (= _let_137 _let_128)) (tptp.has_part_2 _let_1 _let_137) (tptp.has_region_2 _let_1 _let_140) (tptp.is_inside_2 _let_137 _let_140) (not (= _let_128 _let_137)) (tptp.has_part_2 _let_1 _let_128) (not (= _let_137 _let_138)) (tptp.has_part_2 _let_1 _let_134) (tptp.has_region_2 _let_1 _let_132) (tptp.is_inside_2 _let_137 _let_132) (not (= _let_138 _let_137)) (tptp.has_part_2 _let_1 _let_138) (not (= _let_137 _let_134)) (not (= _let_134 _let_137)) (tptp.has_function_2 _let_1 _let_135) (tptp.possesses_2 _let_1 _let_130) (tptp.is_between_2 _let_130 _let_137) (tptp.agent_2 _let_135 _let_1) (tptp.base_2 _let_135 _let_1) (tptp.is_inside_2 _let_134 _let_132) (tptp.is_between_2 _let_130 _let_128) (tptp.has_part_2 _let_147 _let_162) (tptp.is_across_2 _let_162 _let_147) (tptp.base_2 _let_160 _let_162) (tptp.object_2 _let_160 _let_158) (tptp.has_part_2 _let_1 _let_158) (tptp.is_at_2 _let_138 _let_142) (tptp.path_2 _let_135 _let_142) (tptp.in_event_2 _let_156 _let_135) (tptp.plays_2 _let_1 _let_156) (tptp.directly_proportional_2 _let_144 _let_151) (tptp.speed_2 _let_153 _let_144) (tptp.object_2 _let_153 _let_1) (tptp.quantity_2 _let_149 _let_151) (tptp.possesses_2 _let_1 _let_149) (tptp.is_at_2 _let_1 _let_147) (tptp.has_region_2 _let_1 _let_142) (tptp.electronegativity_2 _let_175 _let_166) (tptp.directly_proportional_2 _let_166 _let_171) (tptp.quantity_2 _let_174 _let_171) (tptp.raw_material_2 _let_6 _let_174) (tptp.in_event_2 _let_169 _let_6) (tptp.in_event_2 _let_165 _let_6) (tptp.object_2 _let_6 _let_163) (tptp.directly_proportional_2 _let_181 _let_184) (tptp.quantity_2 _let_187 _let_184) (tptp.raw_material_2 _let_26 _let_187) (tptp.electronegativity_2 _let_182 _let_181) (tptp.in_event_2 _let_180 _let_26) (tptp.in_event_2 _let_177 _let_26) (not (= _let_189 _let_190)) (not (= _let_190 _let_189)) (tptp.has_part_2 _let_192 _let_193) (tptp.has_part_2 _let_192 _let_189) (tptp.element_2 _let_37 _let_189) (not (= _let_190 _let_197)) (not (= _let_197 _let_190)) (tptp.in_event_2 _let_199 _let_39) (tptp.plays_2 _let_190 _let_199) (tptp.recipient_2 _let_39 _let_190) (tptp.in_event_2 _let_195 _let_39) (tptp.plays_2 _let_205 _let_204) (tptp.in_event_2 _let_204 _let_4) (tptp.in_event_2 _let_202 _let_4) (tptp.plays_2 _let_1 _let_202) (tptp.donor_2 _let_4 _let_1) (not (= _let_163 _let_1)) (not (= _let_1 _let_163)) (tptp.plays_2 _let_72 _let_206) (tptp.has_part_2 _let_1 _let_208) (tptp.result_2 _let_8 _let_209) (not (= _let_210 _let_193)) (not (= _let_193 _let_189)) (not (= _let_193 _let_210)) (not (= _let_189 _let_193)) (tptp.donor_2 _let_41 _let_189) (tptp.plays_2 _let_1 _let_165) (tptp.donor_2 _let_6 _let_1) (tptp.has_atom_2 _let_1 _let_175) (tptp.result_2 _let_32 _let_211) (tptp.result_2 _let_49 _let_193) (tptp.result_2 _let_21 _let_189) (= _let_1 _let_11) (= _let_274 _let_273) (= _let_254 _let_272) (= _let_211 _let_86) (= _let_190 _let_53) (= _let_210 _let_80) (= _let_271 _let_270) (= _let_268 _let_267) (= _let_265 _let_262) (= _let_85 _let_260) (= _let_28 _let_228) (= _let_264 (tptp.fn_electron_transport_chain_reaction_25 X)) (= _let_263 _let_262) (= _let_205 _let_65) (= _let_261 _let_260) (= _let_8 _let_228) (= _let_259 _let_258) (= _let_257 _let_126) (= _let_257 _let_125) (= _let_206 _let_74) (= _let_238 _let_113) (= _let_250 _let_31) (= _let_72 _let_70) (= _let_193 _let_59) (= _let_251 _let_123) (= _let_26 _let_221) (= _let_210 _let_78) (= _let_256 _let_255) (= _let_210 _let_68) (= _let_182 _let_31) (= _let_210 _let_59) (= _let_253 _let_87) (= _let_253 _let_88) (= _let_210 _let_70) (= _let_253 _let_89) (= _let_72 _let_71) (= _let_220 _let_89) (= _let_72 _let_69) (= (tptp.fn_cyclic_electron_flow_55 X) _let_252) (= _let_181 _let_35) (= _let_251 _let_122) (= _let_250 _let_121) (= _let_222 _let_89) (= _let_182 _let_29) (= _let_211 _let_66) (= _let_72 _let_68) (= _let_211 _let_78) (= _let_211 _let_67) (= _let_72 _let_67) (= _let_72 _let_66) (= _let_189 _let_45) (= _let_238 _let_112) (= _let_211 _let_84) (= _let_57 _let_98) (= _let_236 _let_110) (= _let_246 _let_120) (= _let_1 _let_9) (= _let_242 _let_249) (= _let_79 _let_249) (= _let_248 _let_247) (= _let_193 _let_58) (= _let_220 _let_96) (= _let_193 _let_56) (= _let_246 _let_119) (= _let_6 _let_109) (= _let_211 _let_58) (= _let_211 _let_77) (= _let_210 _let_69) (= _let_210 _let_38) (= _let_211 _let_82) (= _let_245 _let_118) (= _let_245 _let_117) (= _let_218 _let_94) (= _let_244 _let_94) (= _let_244 _let_116) (= _let_243 _let_115) (= _let_243 _let_114) (= _let_190 _let_51) (= _let_190 _let_50) (= _let_242 _let_203) (= _let_241 _let_201) (= _let_205 _let_64) (= _let_205 _let_63) (= _let_209 _let_5) (= _let_240 _let_239) (= _let_238 _let_111) (= _let_166 _let_22) (= _let_237 (tptp.fn_electron_transport_chain_reaction_20 X)) (= (tptp.fn_cyclic_electron_flow_22 X) (tptp.fn_electron_transport_chain_reaction_26 X)) (= _let_236 _let_109) (= _let_236 _let_108) (= (tptp.fn_cyclic_electron_flow_51 X) (tptp.fn_electron_transport_chain_reaction_18 X)) (= _let_166 _let_20) (= _let_235 _let_107) (= _let_235 _let_22) (= _let_235 _let_106) (= (tptp.fn_cyclic_electron_flow_21 X) (tptp.fn_electron_transport_chain_reaction_27 X)) (= _let_234 (tptp.fn_electron_transport_chain_reaction_21 X)) (= _let_233 (tptp.fn_electron_transport_chain_reaction_22 X)) (= _let_232 (tptp.fn_electron_transport_chain_reaction_23 X)) (= _let_231 (tptp.fn_electron_transport_chain_reaction_24 X)) (= _let_230 _let_105) (= _let_230 _let_104) (= _let_230 _let_103) (= _let_209 _let_63) (= _let_209 _let_76) (= _let_209 _let_65) (= _let_229 _let_96) (= _let_229 _let_102) (= _let_229 _let_101) (= _let_55 _let_100) (= _let_55 _let_99) (= _let_21 _let_228) (= _let_212 _let_91) (= _let_57 _let_97) (= _let_226 _let_227) (= _let_212 _let_90) (= _let_212 _let_89) (= _let_226 _let_225) (= _let_26 _let_224) (= _let_37 (tptp.fn_electron_transport_chain_reaction_4 X)) (= X _let_223) (= _let_222 _let_69) (= _let_222 _let_95) (= _let_30 _let_221) (= _let_220 _let_90) (= _let_210 _let_71) (= _let_220 _let_91) (= _let_210 _let_77) (= _let_220 _let_87) (= _let_220 _let_95) (= (tptp.fn_cyclic_electron_flow_34 X) _let_219) (= _let_218 _let_93) (= _let_218 _let_92) (= _let_216 _let_217) (= _let_216 _let_215) (= _let_4 _let_214) (= _let_41 _let_213) (= _let_197 _let_61) (= _let_212 _let_88) (= _let_212 _let_87) (= _let_189 _let_43) (= _let_193 _let_54) (= _let_211 _let_81) (= _let_210 _let_42) (= _let_193 _let_48) (= _let_189 _let_42) (= _let_209 _let_75) (= _let_208 _let_207) (= _let_206 _let_73) (= _let_205 _let_62) (= _let_204 _let_203) (= _let_202 _let_201) (= _let_1 _let_7) (= _let_1 _let_5) (= _let_163 _let_15) (= _let_190 _let_48) (= _let_199 _let_200) (= _let_199 _let_198) (= _let_197 _let_60) (= _let_195 _let_196) (= _let_195 _let_194) (= _let_193 _let_46) (= _let_192 _let_191) (= _let_189 _let_40) (= _let_190 _let_47) (= _let_190 _let_46) (= _let_189 _let_38) (= (tptp.fn_cyclic_electron_flow_54 X) _let_188) (= _let_187 _let_186) (= (tptp.fn_cyclic_electron_flow_130 X) _let_185) (= _let_184 _let_183) (= _let_182 _let_33) (= _let_181 _let_36) (= _let_182 _let_27) (= _let_181 _let_34) (= _let_180 _let_179) (= _let_177 _let_178) (= _let_177 _let_176) (= _let_175 _let_25) (= _let_175 _let_24) (= _let_174 _let_173) (= (tptp.fn_cyclic_electron_flow_134 X) _let_172) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_18) (= _let_166 _let_23) (= _let_167 _let_17) (= _let_166 _let_19) (= _let_165 _let_164) (= _let_6 _let_110) (= _let_163 _let_16) (= _let_163 _let_14) (= _let_162 _let_161) (= _let_160 _let_159) (= _let_158 _let_157) (= _let_138 _let_13) (= _let_135 _let_3) (= _let_156 _let_155) (= (tptp.fn_cyclic_electron_flow_53 X) _let_154) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= (tptp.fn_cyclic_electron_flow_52 X) _let_145) (= _let_144 _let_143) (= _let_142 _let_141) (= _let_140 _let_139) (= _let_138 _let_12) (= _let_137 _let_136) (= _let_135 _let_2) (= _let_134 _let_133) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_125 _let_87) (= _let_87 _let_88) (= _let_88 _let_89) (= _let_89 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_31) (= _let_31 _let_121) (= _let_121 _let_121) (= _let_121 _let_120) (= _let_120 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_117 _let_94) (= _let_116 _let_116) (= _let_116 _let_94) (= _let_94 _let_116) (= _let_116 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_111 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_22) (= _let_106 _let_106) (= _let_106 _let_22) (= _let_22 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_96) (= _let_96 _let_96) (= _let_102 _let_96) (= _let_96 _let_102) (= _let_102 _let_102) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_99) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_97) (= _let_97 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_89) (= _let_89 _let_69) (= _let_69 _let_89) (= _let_89 _let_95) (= _let_95 _let_91) (= _let_91 _let_96) (= _let_96 _let_90) (= _let_91 _let_87) (= _let_87 _let_89) (= _let_90 _let_90) (= _let_90 _let_95) (= _let_95 _let_87) (= _let_87 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_89 _let_91) (= _let_91 _let_89) (= _let_89 _let_89) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_58) (= _let_58 _let_58) (= _let_58 _let_86) (= _let_86 _let_77) (= _let_77 _let_77) (= _let_78 _let_77) (= _let_77 _let_78) (= _let_78 _let_66) (= _let_66 _let_66) (= _let_66 _let_78) (= _let_67 _let_78) (= _let_78 _let_67) (= _let_67 _let_84) (= _let_84 _let_84) (= _let_84 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_71) (= _let_71 _let_80) (= _let_80 _let_68) (= _let_78 _let_68) (= _let_68 _let_78) (= _let_78 _let_78) (= _let_78 _let_69) (= _let_70 _let_69) (= _let_70 _let_38) (= _let_38 _let_69) (= _let_69 _let_38) (= _let_59 _let_77) (= _let_77 _let_59) (= _let_59 _let_38) (= _let_38 _let_77) (= _let_42 _let_77) (= _let_77 _let_42) (= _let_42 _let_5) (= _let_5 _let_63) (= _let_76 _let_63) (= _let_63 _let_76) (= _let_76 _let_76) (= _let_65 _let_76) (= _let_76 _let_65) (= _let_65 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_70) (= _let_70 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_70) (= _let_70 _let_70) (= _let_70 _let_68) (= _let_67 _let_69) (= _let_69 _let_67) (= _let_67 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_56) (= _let_56 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_48) (= _let_46 _let_46) (= _let_46 _let_48) (= _let_48 _let_46) (= _let_46 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_48 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_43 _let_40) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_40 _let_40) (= _let_42 _let_40) (= _let_40 _let_42) (= _let_42 _let_42) (= _let_42 _let_38) (= _let_38 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_29) (= _let_29 _let_33) (= _let_33 _let_27) (= _let_27 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_16 _let_15) (= _let_15 _let_16) (= _let_16 _let_14) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_5 _let_5) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cyclic_gmp_1 X) (and (tptp.original_name_2 X |tptp.'Cyclic-GMP'|) (tptp.user_description_2 X |tptp.'CGMP (Cyclic guanosine monophosphate) is a nucleotide which acts as a second messenger in many important cell signaling pathways.'|) (tptp.concept2words_2 X |tptp.'cyclic guanosine monophosphate'|) (tptp.concept2words_2 X tptp.cgmp) (tptp.concept2words_2 X |tptp.'cyclic gmp'|) (tptp.concept2words_2 X |tptp.'cyclic-gmp'|) (tptp.gmp_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cyclic_nucleotide_phosphodiesterase_2 X))) (let ((_let_2 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_3 (tptp.fn_cyclic_nucleotide_phosphodiesterase_1 X))) (=> (tptp.cyclic_nucleotide_phosphodiesterase_1 X) (and (tptp.original_name_2 X |tptp.'Cyclic-Nucleotide-Phosphodiesterase'|) (tptp.user_description_2 X |tptp.'One of a group of enzymes that break the phosphodiester bond in cAMP, thus converting cAMP to AMP.'|) (tptp.concept2words_2 X tptp.phosphodiesterase) (tptp.concept2words_2 X |tptp.'cyclic nucleotide phosphodiesterase'|) (tptp.concept2words_2 X |tptp.'cyclic-nucleotide-phosphodiesterase'|) (tptp.phosphodiesterase_1 X) (tptp.cyclic_amp_1 _let_3) (tptp.hydrolysis_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.has_function_2 X _let_1) (tptp.raw_material_2 _let_1 _let_3) (= _let_1 (tptp.fn_hydrolase_1 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.cyclic_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Cyclic-Reaction'|) (tptp.user_description_2 X |tptp.'A reaction that when finished regenerates the original reactants.'|) (tptp.concept2words_2 X tptp.convert) 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_let_67 _let_66) (tptp.object_2 _let_67 _let_63) (tptp.object_2 _let_79 _let_63) (tptp.object_2 _let_79 _let_66) (not (= _let_66 _let_78)) (not (= _let_78 _let_66)) (tptp.agent_2 _let_74 _let_78) (tptp.agent_2 _let_74 _let_68) (not (= _let_68 _let_62)) (not (= _let_62 _let_68)) (not (= _let_64 _let_62)) (not (= _let_62 _let_64)) (tptp.has_region_2 X _let_77) (tptp.is_inside_2 _let_78 _let_77) (not (= _let_78 _let_62)) (not (= _let_62 _let_78)) (not (= _let_66 _let_62)) (not (= _let_62 _let_66)) (not (= _let_73 _let_70)) (not (= _let_70 _let_73)) (tptp.agent_2 _let_76 _let_66) (tptp.agent_2 _let_76 _let_63) (tptp.object_2 _let_74 _let_69) (tptp.object_2 _let_74 _let_75) (not (= _let_75 _let_69)) (tptp.object_2 _let_55 _let_69) (tptp.object_2 _let_55 _let_75) (not (= _let_69 _let_75)) (tptp.agent_2 _let_72 _let_63) (tptp.agent_2 _let_72 _let_66) (tptp.has_part_2 _let_66 _let_73) (not (= _let_69 _let_73)) (not (= _let_73 _let_69)) (tptp.object_2 _let_33 _let_66) (tptp.object_2 _let_33 _let_64) (tptp.is_inside_2 _let_64 _let_1) (tptp.is_inside_2 _let_63 _let_1) (tptp.has_part_2 _let_63 _let_70) (tptp.object_2 _let_67 _let_64) (tptp.object_2 _let_67 _let_68) (tptp.has_part_2 _let_68 _let_69) (not (= _let_70 _let_69)) (not (= _let_69 _let_70)) (tptp.object_2 _let_65 _let_63) (tptp.object_2 _let_65 _let_66) (not (= _let_66 _let_63)) (not (= _let_64 _let_66)) (not (= _let_66 _let_64)) (not (= _let_63 _let_66)) (tptp.is_inside_2 _let_62 _let_1) (not (= _let_63 _let_62)) (not (= _let_64 _let_63)) (not (= _let_63 _let_64)) (not (= _let_62 _let_63)) (= _let_73 _let_48) (= _let_73 _let_46) (= _let_68 _let_36) (= _let_78 _let_57) (= _let_63 _let_20) (= _let_63 _let_18) (= _let_63 _let_19) (= _let_63 _let_16) (= _let_78 _let_58) (= _let_78 _let_56) (= _let_63 _let_14) (= _let_63 _let_12) (= _let_63 _let_10) (= _let_66 _let_28) (= _let_68 _let_34) (= _let_68 _let_32) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_66 _let_26) (= _let_11 _let_91) (= _let_68 _let_30) (= _let_55 _let_53) (= _let_90 (tptp.fn_polar_amino_acid_2 X)) (= _let_89 (tptp.fn_polar_amino_acid_1 X)) (= (tptp.fn_cysteine_47 X) (tptp.fn_amino_acid_3 X)) (= (tptp.fn_cysteine_46 X) (tptp.fn_amino_acid_4 X)) (= _let_88 (tptp.fn_amino_acid_5 X)) (= _let_87 (tptp.fn_amino_acid_6 X)) (= _let_86 (tptp.fn_amino_acid_7 X)) (= _let_85 (tptp.fn_amino_acid_16 X)) (= _let_15 _let_61) (= _let_35 _let_59) (= _let_84 (tptp.fn_hydrophilic_amino_acid_23 X)) (= _let_47 _let_61) (= _let_70 _let_44) (= _let_47 _let_60) (= _let_45 (tptp.fn_hydrophilic_amino_acid_18 X)) (= _let_83 (tptp.fn_hydrophilic_amino_acid_4 X)) (= _let_17 (tptp.fn_hydrophilic_amino_acid_3 X)) (= _let_82 (tptp.fn_hydrophilic_amino_acid_16 X)) (= _let_63 _let_8) (= _let_81 (tptp.fn_hydrophilic_amino_acid_2 X)) (= _let_69 _let_40) (= _let_35 _let_50) (= _let_75 _let_51) (= _let_25 (tptp.fn_hydrophilic_amino_acid_28 X)) (= X _let_80) (= _let_1 (tptp.fn_hydrophilic_amino_acid_26 X)) (= _let_68 _let_3) (= _let_31 (tptp.fn_hydrophilic_amino_acid_15 X)) (= _let_64 _let_8) (= _let_65 _let_22) (= _let_79 (tptp.fn_hydrophilic_amino_acid_7 X)) (= _let_63 _let_7) (= _let_67 _let_22) (= _let_64 _let_7) (= _let_68 _let_4) (= _let_74 _let_50) (= _let_62 _let_4) (= _let_66 _let_24) (= _let_62 _let_3) (= _let_78 _let_54) (= _let_77 (tptp.fn_hydrophilic_amino_acid_25 X)) (= _let_70 _let_43) (= _let_76 _let_49) (= _let_75 _let_42) (= _let_55 _let_52) (= _let_69 _let_39) (= _let_75 _let_43) (= _let_74 _let_49) (= _let_69 _let_38) (= _let_73 _let_39) (= _let_72 _let_52) (= _let_70 _let_42) (= _let_33 _let_71) (= _let_70 _let_41) (= _let_69 _let_37) (= _let_68 _let_2) (= _let_67 _let_29) (= _let_63 _let_6) (= _let_64 _let_5) (= _let_66 _let_23) (= _let_65 _let_21) (= _let_64 _let_6) (= _let_63 _let_5) (= _let_62 _let_2) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_50) (= _let_50 _let_57) (= _let_57 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_42) (= _let_42 _let_43) (= _let_43 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_39) (= _let_39 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_32 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_3) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_22) (= _let_22 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_7) (= _let_7 _let_8) (= _let_7 _let_5) (= _let_6 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_16) (= _let_16 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_10 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cystic_fibrosis_2 X))) (let ((_let_2 (tptp.fn_inheritance_4 _let_1))) (let ((_let_3 (tptp.fn_cystic_fibrosis_1 X))) (=> (tptp.cystic_fibrosis_1 X) (and (tptp.original_name_2 X |tptp.'Cystic-Fibrosis'|) (tptp.user_description_2 X |tptp.'A human genetic disorder caused by a recessive allele for a chloride channel protein; characterized by an excessive secretion of mucus and consequent vulnerability to infection; fatal if untreated.'|) (tptp.concept2words_2 X tptp.mucoviscidosis) (tptp.concept2words_2 X tptp.cf) (tptp.concept2words_2 X |tptp.'cystic fibrosis'|) (tptp.concept2words_2 X |tptp.'cystic-fibrosis'|) (tptp.human_genetic_disorder_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.alkaptonuria_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X)) (tptp.recessive_allele_1 _let_3) (tptp.complete_dominance_1 _let_1) (tptp.entity_1 _let_2) (tptp.gene_1 _let_2) (tptp.object_2 _let_1 _let_3) (tptp.result_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_human_genetic_disorder_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.cystinuria_1 X) (and (tptp.original_name_2 X |tptp.'Cystinuria'|) (tptp.user_description_2 X |tptp.'Genetic disorder in which faulty transport proteins result in positively charged amino acids not being reabsorbed in the kidneys, leading to kidney stones.'|) (tptp.concept2words_2 X tptp.cystinuria) (tptp.inborn_error_of_metabolism_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytochrome_10 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_cytochrome_3 X))) (let ((_let_4 (tptp.fn_electron_carrier_1 _let_3))) (let ((_let_5 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_6 (tptp.fn_molecule_7 X))) (let ((_let_7 (tptp.fn_protein_9 X))) (let ((_let_8 (tptp.fn_polymer_8 X))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_10 (tptp.fn_cytochrome_15 X))) (let ((_let_11 (tptp.fn_cytochrome_16 X))) (let ((_let_12 (tptp.fn_cytochrome_13 X))) (let ((_let_13 (tptp.fn_cytochrome_5 X))) (let ((_let_14 (tptp.fn_cytochrome_18 X))) (let ((_let_15 (tptp.fn_cytochrome_14 X))) (let ((_let_16 (tptp.fn_cytochrome_11 X))) (let ((_let_17 (tptp.fn_cytochrome_12 X))) (let ((_let_18 (tptp.fn_cytochrome_9 X))) (let ((_let_19 (tptp.fn_cytochrome_6 X))) (let ((_let_20 (tptp.fn_cytochrome_7 X))) (let ((_let_21 (tptp.fn_cytochrome_8 X))) (let ((_let_22 (tptp.fn_cytochrome_17 X))) (let ((_let_23 (tptp.fn_cytochrome_4 X))) (let ((_let_24 (tptp.fn_cytochrome_2 X))) (let ((_let_25 (tptp.fn_cytochrome_1 X))) (=> (tptp.cytochrome_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome'|) (tptp.user_description_2 X |tptp.'Cytochromes are, in general, membrane-bound hemoproteins that contain heme groups and carry out electron transport.They are found either as monomeric proteins (e.g., cytochrome c) or as subunits of bigger enzymatic complexes that catalyze redox reactions. They are found in the mitochondrial inner membrane and endoplasmic reticulum of eukaryotes, in the chloroplasts of plants, in photosynthetic microorganisms, and in bacteria.'|) (tptp.concept2words_2 X tptp.cyt) (tptp.concept2words_2 X tptp.cytochrome) (tptp.protein_1 X) (tptp.biomembrane_1 _let_25) (tptp.heme_1 _let_24) (tptp.electron_carrier_1 _let_3) (tptp.size_value_1 _let_23) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_13) (tptp.molecule_1 _let_13) (tptp.amino_acid_1 _let_13) (tptp.quantity_value_1 _let_19) (tptp.speed_value_1 _let_20) (tptp.constant_motion_1 _let_21) (tptp.kinetic_energy_1 _let_18) (tptp.carbon_skeleton_1 _let_1) (tptp.surface_1 _let_16) (tptp.hydrophilic_region_1 _let_17) (tptp.protein_domain_1 _let_12) (tptp.size_value_1 _let_15) (tptp.carbon_1 _let_10) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.monomer_1 _let_22) (tptp.polypeptide_1 _let_14) (tptp.carbon_1 _let_9) (tptp.atom_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.has_part_2 _let_25 X) (tptp.has_part_2 X _let_24) (tptp.plays_2 X _let_3) (tptp.has_part_2 X _let_22) (tptp.size_2 _let_22 _let_23) (tptp.greater_than_2 _let_15 _let_23) (tptp.has_part_2 X _let_11) (tptp.possesses_2 X _let_18) (tptp.quantity_2 _let_18 _let_19) (tptp.directly_proportional_2 _let_20 _let_19) (tptp.speed_2 _let_21 _let_20) (tptp.object_2 _let_21 X) (tptp.the_scalar_value_2 _let_15 tptp.big_0) (tptp.scalar_unit_class_2 _let_15 tptp.polypeptide_0) (tptp.has_region_2 X _let_16) (tptp.is_at_2 _let_17 _let_16) (tptp.has_region_2 X _let_17) (tptp.has_region_2 X _let_12) (tptp.is_at_2 _let_13 _let_12) (tptp.has_part_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (tptp.size_2 X _let_15) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_10) (tptp.is_inside_2 _let_10 _let_1) (not (= _let_11 _let_10)) (not (= _let_10 _let_11)) (= X _let_4) (= (tptp.fn_cytochrome_22 X) (tptp.fn_polymer_10 X)) (= _let_15 _let_8) (= _let_23 (tptp.fn_polymer_7 X)) (= _let_22 (tptp.fn_polymer_4 X)) (= (tptp.fn_cytochrome_20 X) (tptp.fn_molecule_1 X)) (= _let_11 _let_6) (= (tptp.fn_cytochrome_21 X) (tptp.fn_molecule_2 X)) (= _let_21 (tptp.fn_molecule_8 X)) (= _let_20 (tptp.fn_molecule_3 X)) (= _let_19 (tptp.fn_molecule_4 X)) (= _let_18 (tptp.fn_molecule_12 X)) (= (tptp.fn_cytochrome_19 X) (tptp.fn_protein_10 X)) (= _let_17 (tptp.fn_protein_1 X)) (= _let_16 (tptp.fn_protein_5 X)) (= _let_15 _let_7) (= _let_14 (tptp.fn_protein_8 X)) (= _let_13 (tptp.fn_protein_14 X)) (= _let_12 (tptp.fn_protein_7 X)) (= _let_11 _let_5) (= _let_10 _let_9) (= X _let_2) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cytochrome_a_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-A'|) (tptp.user_description_2 X |tptp.'Cytochromes (electron-transporting proteins) in which the haem prosthetic group is haem a, i.e., the iron chelate of cytoporphyrin ix.'|) (tptp.concept2words_2 X |tptp.'cytochrome a'|) (tptp.concept2words_2 X |tptp.'cytochrome-a'|) (tptp.cytochrome_1 X) (not (tptp.cytochrome_a3_1 X)) (not (tptp.cytochrome_b_1 X)) (not (tptp.cytochrome_c_1 X)) (not (tptp.cytochrome_c1_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cytochrome_a3_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-A3'|) (tptp.user_description_2 X |tptp.'The last electron carrier of the electron transport chain which transfers its electron to oxygen.'|) (tptp.concept2words_2 X |tptp.'cyt a3'|) (tptp.concept2words_2 X |tptp.'cytochrome a3'|) (tptp.concept2words_2 X |tptp.'cytochrome-a3'|) (tptp.cytochrome_1 X) (not (tptp.cytochrome_a_1 X)) (not (tptp.cytochrome_b_1 X)) (not (tptp.cytochrome_c_1 X)) (not (tptp.cytochrome_c1_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cytochrome_b_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-B'|) (tptp.user_description_2 X |tptp.'Cytochrome b/b6 is the main subunit of transmembrane cytochrome bc1 and b6f complexes. In addition, it commonly refers to a region of mtDNA used for population genetics and phylogenetics.'|) (tptp.concept2words_2 X |tptp.'cyt b'|) (tptp.concept2words_2 X |tptp.'cyt-b'|) (tptp.concept2words_2 X |tptp.'b of cytochrome'|) (tptp.concept2words_2 X |tptp.'cytochrome b'|) (tptp.concept2words_2 X |tptp.'cytochrome-b'|) (tptp.cytochrome_1 X) (not (tptp.cytochrome_a_1 X)) (not (tptp.cytochrome_a3_1 X)) (not (tptp.cytochrome_c_1 X)) (not (tptp.cytochrome_c1_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytochrome_c_2 X))) (let ((_let_2 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_47 _let_1))) (let ((_let_4 (tptp.fn_cytochrome_c_1 X))) (=> (tptp.cytochrome_c_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-C'|) (tptp.user_description_2 X |tptp.'A key electron carrier protein of the electron transport chain located within the inner membrane of the mitochondrion that transfers electrons between complexes III and IV.'|) (tptp.concept2words_2 X |tptp.'cyt c'|) (tptp.concept2words_2 X |tptp.'cyt-c'|) (tptp.concept2words_2 X |tptp.'c of cytochrome'|) (tptp.concept2words_2 X |tptp.'cytochrome c'|) (tptp.concept2words_2 X |tptp.'cytochrome-c'|) (tptp.cytochrome_1 X) (not (tptp.cytochrome_a_1 X)) (not (tptp.cytochrome_a3_1 X)) (not (tptp.cytochrome_b_1 X)) (not (tptp.cytochrome_c1_1 X)) (tptp.surface_1 _let_4) (tptp.outside_face_1 _let_4) (tptp.biomembrane_1 _let_1) (tptp.surface_1 _let_3) (tptp.outside_face_1 _let_2) (tptp.is_at_2 X _let_4) (tptp.has_region_2 _let_1 _let_4) (tptp.has_part_2 _let_1 X) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_1 (tptp.fn_cytochrome_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.cytochrome_c1_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-C1'|) (tptp.user_description_2 X |tptp.'Cytochrome C1 is formed in the cytosol and targeted to the mitochondrial intermembrane space. It is one of the constituents of complex III, which forms the third proton pump in the mitochondrial electron transport chain.'|) (tptp.concept2words_2 X |tptp.'cytochrome c1'|) (tptp.concept2words_2 X |tptp.'cytochrome-c1'|) (tptp.cytochrome_1 X) (not (tptp.cytochrome_a_1 X)) (not (tptp.cytochrome_a3_1 X)) (not (tptp.cytochrome_b_1 X)) (not (tptp.cytochrome_c_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytochrome_complex_2 X))) (let ((_let_2 (tptp.fn_cytochrome_complex_1 X))) (=> (tptp.cytochrome_complex_1 X) (and (tptp.original_name_2 X |tptp.'Cytochrome-Complex'|) (tptp.user_description_2 X |tptp.'An assembly of iron-containing proteins which functions in the transport of electrons during photosynthesis and cellular respiration.'|) (tptp.concept2words_2 X |tptp.'complex of cytochrome'|) (tptp.concept2words_2 X |tptp.'cytochrome complex'|) (tptp.concept2words_2 X |tptp.'cytochrome-complex'|) (tptp.protein_complex_1 X) (not (tptp.thylakoid_electron_transport_chain_1 X)) (not (tptp.chylomicron_1 X)) (not (tptp.electron_shuttle_system_1 X)) (not (tptp.electron_transport_chain_1 X)) (not (tptp.microfibril_1 X)) (not (tptp.signal_recognition_particle_1 X)) (tptp.cytochrome_1 _let_2) (tptp.cytochrome_1 _let_1) (tptp.element_2 X _let_2) (not (= _let_1 _let_2)) (not (= _let_2 _let_1)) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_protein_complex_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.cytogenetic_map_1 X) (and (tptp.original_name_2 X |tptp.'Cytogenetic-Map'|) (tptp.user_description_2 X |tptp.'A chart of a chromosome that locates genes with respect to chromosomal features distinguishable in a microscope.'|) (tptp.concept2words_2 X |tptp.'cytological map'|) (tptp.concept2words_2 X |tptp.'cytological-map'|) (tptp.concept2words_2 X |tptp.'cytogenetic map'|) (tptp.concept2words_2 X |tptp.'cytogenetic-map'|) (tptp.genetic_map_1 X) (not (tptp.data_1 X))))) (forall ((X $$unsorted)) (=> (tptp.cytokine_1 X) (and (tptp.original_name_2 X |tptp.'Cytokine'|) (tptp.user_description_2 X |tptp.'A protein secreted by various types of cells, including helper T cells and macrophages, that modulate the functions of other cells of the immune system.'|) (tptp.concept2words_2 X tptp.cytokine) (tptp.regulatory_protein_1 X) (not (tptp.camp_receptor_protein_1 X)) (not (tptp.cyclin_1 X)) (not (tptp.interferon_1 X)) (not (tptp.mpf_1 X)) (not (tptp.transcription_factor_1 X)) (not (tptp.tropomyosin_1 X)) (not (tptp.ubiquitin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytokinesis_2 X))) (let ((_let_2 (tptp.fn_cytokinesis_3 X))) (let ((_let_3 (tptp.fn_cytokinesis_1 X))) (=> (tptp.cytokinesis_1 X) (and (tptp.original_name_2 X |tptp.'Cytokinesis'|) (tptp.user_description_2 X |tptp.'The division of cytoplasm into two daughter cells following nuclear division.'|) (tptp.concept2words_2 X |tptp.'undergo cytokinesis'|) (tptp.concept2words_2 X tptp.cytokinesis) (tptp.divide_1 X) (not (tptp.cleavage_1 X)) (not (tptp.nuclear_division_1 X)) (tptp.daughter_cell_1 _let_3) (tptp.eukaryotic_cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_2) (tptp.in_event_2 _let_3 X) (tptp.plays_2 _let_1 _let_3) (not (= _let_1 _let_2)) (tptp.result_2 X _let_1) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.eukaryotic_cell_0) (tptp.base_2 X _let_2) (not (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytokinesis_in_animal_cell_15 X))) (let ((_let_2 (tptp.fn_cleavage_furrow_1 _let_1))) (let ((_let_3 (tptp.fn_cytokinesis_in_animal_cell_9 X))) (let ((_let_4 (tptp.fn_contract_1 _let_3))) (let ((_let_5 (tptp.fn_cytokinesis_in_animal_cell_17 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_cleavage_furrow_7 _let_1))) (let ((_let_8 (tptp.fn_cytokinesis_3 X))) (let ((_let_9 (tptp.fn_cleavage_furrow_4 _let_1))) (let ((_let_10 (tptp.fn_impair_1 X))) (let ((_let_11 (tptp.fn_cytokinesis_in_animal_cell_12 X))) (let ((_let_12 (tptp.fn_formation_of_cleavage_furrow_3 _let_11))) (let ((_let_13 (tptp.fn_cytokinesis_in_animal_cell_21 X))) (let ((_let_14 (tptp.fn_contract_1 _let_13))) (let ((_let_15 (tptp.fn_cytokinesis_in_animal_cell_8 X))) (let ((_let_16 (tptp.fn_cytokinesis_in_animal_cell_14 X))) (let ((_let_17 (tptp.fn_cytokinesis_in_animal_cell_13 X))) (let ((_let_18 (tptp.fn_contract_4 _let_13))) (let ((_let_19 (tptp.fn_cytokinesis_in_animal_cell_20 X))) (let ((_let_20 (tptp.fn_contract_3 _let_13))) (let ((_let_21 (tptp.fn_contractile_ring_6 _let_15))) (let ((_let_22 (tptp.fn_cytokinesis_in_animal_cell_10 X))) (let ((_let_23 (tptp.fn_contractile_ring_5 _let_15))) (let ((_let_24 (tptp.fn_cytokinesis_in_animal_cell_11 X))) (let ((_let_25 (tptp.fn_formation_of_cleavage_furrow_1 _let_11))) (let ((_let_26 (tptp.fn_cytokinesis_in_animal_cell_18 X))) (let ((_let_27 (tptp.fn_formation_of_cleavage_furrow_4 _let_11))) (let ((_let_28 (tptp.fn_cytokinesis_in_animal_cell_23 X))) (let ((_let_29 (tptp.fn_cytokinesis_in_animal_cell_22 X))) (let ((_let_30 (tptp.fn_formation_of_cleavage_furrow_2 _let_11))) (let ((_let_31 (tptp.fn_cytokinesis_in_animal_cell_16 X))) (let ((_let_32 (tptp.fn_mitotic_event_1 _let_11))) (let ((_let_33 (tptp.fn_cytokinesis_in_animal_cell_19 X))) (let ((_let_34 (tptp.fn_cytokinesis_in_animal_cell_7 X))) (let ((_let_35 (tptp.fn_create_1 _let_34))) (let ((_let_36 (tptp.fn_cytokinesis_in_animal_cell_6 X))) (let ((_let_37 (tptp.fn_cytokinesis_in_animal_cell_5 X))) (let ((_let_38 (tptp.fn_cytokinesis_in_animal_cell_4 X))) (let ((_let_39 (tptp.fn_cytokinesis_in_animal_cell_3 X))) (let ((_let_40 (tptp.fn_cytokinesis_in_animal_cell_2 X))) (let ((_let_41 (tptp.fn_cytokinesis_in_animal_cell_1 X))) (=> (tptp.cytokinesis_in_animal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cytokinesis-In-Animal-Cell'|) (tptp.user_description_2 X |tptp.'The division of cytoplasm into two daughter cells following nuclear division in animal cells.'|) (tptp.concept2words_2 X |tptp.'undergo cytokinesis'|) (tptp.concept2words_2 X |tptp.'cytokinesis in animal cell'|) (tptp.concept2words_2 X |tptp.'cytokinesis-in-animal-cell'|) (tptp.cytokinesis_1 X) (not (tptp.cytokinesis_in_plant_cell_1 X)) (tptp.cleavage_furrow_1 _let_41) (tptp.grow_1 _let_40) (tptp.microfilament_1 _let_39) (tptp.time_interval_1 _let_38) (tptp.time_interval_1 _let_37) (tptp.deepen_1 _let_36) (tptp.create_1 _let_34) (tptp.entity_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.contractile_ring_1 _let_15) (tptp.contract_1 _let_3) (tptp.myosin_1 _let_22) (tptp.spatial_entity_1 _let_24) (tptp.polymer_1 _let_24) (tptp.microfilament_1 _let_24) (tptp.formation_of_cleavage_furrow_1 _let_11) (tptp.tangible_entity_1 _let_17) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.eukaryotic_cell_1 _let_16) (tptp.cell_1 _let_16) (tptp.animal_cell_1 _let_16) (tptp.entity_1 _let_1) (tptp.cleavage_furrow_1 _let_1) (tptp.animal_cell_1 _let_31) (tptp.create_1 _let_5) (tptp.cleavage_furrow_1 _let_26) (tptp.animal_cell_1 _let_33) (tptp.volume_value_1 _let_19) (tptp.contract_1 _let_13) (tptp.tangible_entity_1 _let_29) (tptp.contractile_ring_1 _let_29) (tptp.cell_1 _let_28) (tptp.animal_cell_1 _let_28) (tptp.entity_1 _let_35) (tptp.cell_1 _let_32) (tptp.contract_1 _let_30) (tptp.cell_1 _let_27) (tptp.animal_cell_1 _let_27) (tptp.cleavage_furrow_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.polymer_1 _let_23) (tptp.microfilament_1 _let_23) (tptp.myosin_1 _let_21) (tptp.property_node_1 _let_20) (tptp.volume_value_1 _let_18) (tptp.tangible_entity_1 _let_14) (tptp.contractile_ring_1 _let_12) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.cell_1 _let_7) (tptp.animal_cell_1 _let_7) (tptp.entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.contractile_ring_1 _let_2) (tptp.result_2 _let_34 _let_41) (tptp.next_event_2 _let_34 _let_3) (tptp.causes_2 _let_3 _let_40) (tptp.next_event_2 _let_11 _let_36) (tptp.time_during_2 _let_11 _let_38) (tptp.object_2 _let_40 _let_41) (tptp.object_2 _let_40 _let_1) (tptp.result_2 _let_40 _let_31) (tptp.has_state_2 _let_31 _let_33) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_36) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.animal_cell_0) (tptp.next_event_2 _let_5 _let_34) (tptp.raw_material_2 _let_5 _let_22) (tptp.raw_material_2 _let_5 _let_24) (tptp.agent_2 _let_5 _let_39) (tptp.time_before_2 _let_38 _let_37) (tptp.object_2 _let_36 _let_26) (tptp.time_during_2 _let_36 _let_37) (tptp.base_2 _let_36 _let_33) (tptp.has_part_2 _let_33 _let_26) (tptp.volume_2 _let_29 _let_19) (tptp.result_2 _let_34 _let_1) (tptp.result_2 _let_5 _let_15) (tptp.object_2 X _let_17) (tptp.base_2 _let_3 _let_15) (tptp.base_2 _let_11 _let_33) (tptp.base_2 X _let_16) (not (= _let_16 _let_31)) (tptp.result_2 X _let_31) (not (= _let_31 _let_16)) (tptp.result_2 _let_11 _let_26) (tptp.is_inside_2 _let_26 _let_28) (tptp.has_part_2 _let_28 _let_29) (tptp.base_2 _let_13 _let_29) (tptp.subevent_2 _let_11 _let_13) (tptp.is_along_2 _let_1 _let_15) (tptp.is_along_2 _let_15 _let_1) (tptp.has_part_2 _let_16 _let_17) (tptp.is_inside_2 _let_1 _let_16) (tptp.from_value_2 _let_13 _let_19) (tptp.has_part_2 _let_15 _let_24) (tptp.has_part_2 _let_15 _let_22) (= _let_1 _let_35) (= _let_15 _let_6) (= _let_17 _let_10) (= _let_15 _let_4) (= _let_33 _let_32) (= _let_31 (tptp.fn_cytokinesis_2 X)) (= _let_16 _let_8) (= _let_29 _let_14) (= _let_13 _let_30) (= _let_29 _let_12) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= (tptp.fn_cytokinesis_in_animal_cell_24 X) _let_20) (= _let_19 _let_18) (= _let_17 _let_9) (= _let_16 _let_7) (= _let_15 _let_2) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytokinesis_in_plant_cell_5 X))) (let ((_let_2 (tptp.fn_plant_cell_82 _let_1))) (let ((_let_3 (tptp.fn_cytokinesis_in_plant_cell_25 X))) (let ((_let_4 (tptp.fn_create_1 _let_3))) (let ((_let_5 (tptp.fn_cytokinesis_in_plant_cell_33 X))) (let ((_let_6 (tptp.fn_plant_cell_wall_24 _let_5))) (let ((_let_7 (tptp.fn_cytokinesis_in_plant_cell_15 X))) (let ((_let_8 (tptp.fn_mitotic_event_1 _let_7))) (let ((_let_9 (tptp.fn_plant_cell_wall_21 _let_5))) (let ((_let_10 (tptp.fn_plant_cell_wall_10 _let_5))) (let ((_let_11 (tptp.fn_cytokinesis_in_plant_cell_13 X))) (let ((_let_12 (tptp.fn_cell_30 _let_11))) (let ((_let_13 (tptp.fn_cell_plate_growth_8 _let_7))) (let ((_let_14 (tptp.fn_cytokinesis_in_plant_cell_21 X))) (let ((_let_15 (tptp.fn_add_2 _let_14))) (let ((_let_16 (tptp.fn_cytokinesis_in_plant_cell_24 X))) (let ((_let_17 (tptp.fn_plasma_membrane_77 _let_16))) (let ((_let_18 (tptp.fn_plasma_membrane_70 _let_16))) (let ((_let_19 (tptp.fn_cytokinesis_in_plant_cell_19 X))) (let ((_let_20 (tptp.fn_aqueous_solution_14 _let_19))) (let ((_let_21 (tptp.fn_solution_6 _let_19))) (let ((_let_22 (tptp.fn_cytokinesis_in_plant_cell_28 X))) (let ((_let_23 (tptp.fn_cytoskeleton_1 _let_22))) (let ((_let_24 (tptp.fn_cytokinesis_in_plant_cell_14 X))) (let ((_let_25 (tptp.fn_formation_of_cell_plate_2 _let_24))) (let ((_let_26 (tptp.fn_cytoskeleton_6 _let_22))) (let ((_let_27 (tptp.fn_cytokinesis_3 X))) (let ((_let_28 (tptp.fn_plasma_membrane_69 _let_16))) (let ((_let_29 (tptp.fn_plant_cell_91 _let_11))) (let ((_let_30 (tptp.fn_eukaryotic_cell_42 _let_11))) (let ((_let_31 (tptp.fn_formation_of_cell_plate_5 _let_24))) (let ((_let_32 (tptp.fn_cell_plate_growth_11 _let_7))) (let ((_let_33 (tptp.fn_produce_1 _let_3))) (let ((_let_34 (tptp.fn_cell_plate_growth_6 _let_7))) (let ((_let_35 (tptp.fn_plasma_membrane_55 _let_16))) (let ((_let_36 (tptp.fn_plasma_membrane_54 _let_16))) (let ((_let_37 (tptp.fn_plasma_membrane_68 _let_16))) (let ((_let_38 (tptp.fn_cell_plate_growth_9 _let_7))) (let ((_let_39 (tptp.fn_add_1 _let_14))) (let ((_let_40 (tptp.fn_plant_cell_100 _let_11))) (let ((_let_41 (tptp.fn_eukaryotic_cell_24 _let_11))) (let ((_let_42 (tptp.fn_plant_cell_wall_27 _let_5))) (let ((_let_43 (tptp.fn_cytokinesis_in_plant_cell_32 X))) (let ((_let_44 (tptp.fn_plant_cell_wall_17 _let_5))) (let ((_let_45 (tptp.fn_cytokinesis_in_plant_cell_31 X))) (let ((_let_46 (tptp.fn_plant_cell_wall_26 _let_5))) (let ((_let_47 (tptp.fn_cytokinesis_in_plant_cell_34 X))) (let ((_let_48 (tptp.fn_plant_cell_wall_23 _let_5))) (let ((_let_49 (tptp.fn_cytokinesis_in_plant_cell_29 X))) (let ((_let_50 (tptp.fn_cytokinesis_in_plant_cell_30 X))) (let ((_let_51 (tptp.fn_cytokinesis_in_plant_cell_18 X))) (let ((_let_52 (tptp.fn_cytokinesis_in_plant_cell_11 X))) (let ((_let_53 (tptp.fn_solution_5 _let_19))) (let ((_let_54 (tptp.fn_cytokinesis_in_plant_cell_10 X))) (let ((_let_55 (tptp.fn_cytokinesis_in_plant_cell_27 X))) (let ((_let_56 (tptp.fn_cell_2 _let_11))) (let ((_let_57 (tptp.fn_cytokinesis_in_plant_cell_9 X))) (let ((_let_58 (tptp.fn_formation_of_cell_plate_10 _let_24))) (let ((_let_59 (tptp.fn_cytokinesis_in_plant_cell_26 X))) (let ((_let_60 (tptp.fn_formation_of_cell_plate_15 _let_24))) (let ((_let_61 (tptp.fn_cytokinesis_in_plant_cell_7 X))) (let ((_let_62 (tptp.fn_formation_of_cell_plate_14 _let_24))) (let ((_let_63 (tptp.fn_cytokinesis_in_plant_cell_6 X))) (let ((_let_64 (tptp.fn_cytokinesis_in_plant_cell_23 X))) (let ((_let_65 (tptp.fn_cell_plate_growth_1 _let_7))) (let ((_let_66 (tptp.fn_cytokinesis_in_plant_cell_16 X))) (let ((_let_67 (tptp.fn_cytokinesis_in_plant_cell_8 X))) (let ((_let_68 (tptp.fn_cell_plate_growth_10 _let_7))) (let ((_let_69 (tptp.fn_cytokinesis_in_plant_cell_17 X))) (let ((_let_70 (tptp.fn_cytokinesis_in_plant_cell_20 X))) (let ((_let_71 (tptp.fn_plant_cell_1 _let_1))) (let ((_let_72 (tptp.fn_cytokinesis_in_plant_cell_2 X))) (let ((_let_73 (tptp.fn_cytokinesis_in_plant_cell_3 X))) (let ((_let_74 (tptp.fn_cytokinesis_in_plant_cell_12 X))) (let ((_let_75 (tptp.fn_cytokinesis_in_plant_cell_22 X))) (let ((_let_76 (tptp.fn_impair_1 _let_75))) (let ((_let_77 (tptp.fn_cytokinesis_in_plant_cell_4 X))) (let ((_let_78 (tptp.fn_cytokinesis_in_plant_cell_1 X))) (=> (tptp.cytokinesis_in_plant_cell_1 X) (and (tptp.original_name_2 X |tptp.'Cytokinesis-In-Plant-Cell'|) (tptp.user_description_2 X |tptp.'The division of cytoplasm into two daughter cells following nuclear division in plant cells.'|) (tptp.concept2words_2 X |tptp.'undergo cytokinesis'|) (tptp.concept2words_2 X |tptp.'cytokinesis in plant cell'|) (tptp.concept2words_2 X |tptp.'cytokinesis-in-plant-cell'|) (tptp.cytokinesis_1 X) (not (tptp.cytokinesis_in_animal_cell_1 X)) (tptp.plant_cell_wall_1 _let_78) (tptp.maintenance_1 _let_72) (tptp.golgi_apparatus_1 _let_73) (tptp.plant_cell_1 _let_77) (tptp.cell_1 _let_1) (tptp.plant_cell_1 _let_1) (tptp.move_1 _let_63) (tptp.move_1 _let_61) (tptp.membrane_protein_1 _let_67) (tptp.protein_1 _let_67) (tptp.spatial_entity_1 _let_67) (tptp.polymer_1 _let_67) (tptp.tangible_entity_1 _let_67) (tptp.transmembrane_protein_1 _let_67) (tptp.integral_protein_1 _let_67) (tptp.transport_protein_1 _let_67) (tptp.proton_pump_1 _let_67) (tptp.aqueous_solution_1 _let_57) (tptp.liquid_substance_1 _let_57) (tptp.solution_1 _let_57) (tptp.substance_1 _let_57) (tptp.cytosol_1 _let_57) (tptp.chemical_1 _let_54) (tptp.chemical_1 _let_52) (tptp.water_1 _let_52) (tptp.plant_cell_1 _let_74) (tptp.eukaryotic_cell_1 _let_11) (tptp.plant_cell_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.cell_1 _let_11) (tptp.formation_of_cell_plate_1 _let_24) (tptp.cell_plate_growth_1 _let_7) (tptp.grow_1 _let_66) (tptp.fusion_1 _let_69) (tptp.substance_1 _let_51) (tptp.aqueous_solution_1 _let_51) (tptp.solution_1 _let_19) (tptp.substance_1 _let_19) (tptp.aqueous_solution_1 _let_19) (tptp.spatial_entity_1 _let_70) (tptp.biomembrane_1 _let_70) (tptp.fusion_1 _let_14) (tptp.divide_1 _let_75) (tptp.tangible_entity_1 _let_64) (tptp.spatial_entity_1 _let_64) (tptp.cell_plate_1 _let_64) (tptp.membrane_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.biomembrane_1 _let_16) (tptp.plasma_membrane_1 _let_16) (tptp.produce_1 _let_3) (tptp.move_together_1 _let_59) (tptp.microtubule_1 _let_55) (tptp.cytoskeleton_1 _let_22) (tptp.tangible_entity_1 _let_49) (tptp.microfibril_1 _let_49) (tptp.carbohydrate_1 _let_50) (tptp.hydrophilic_compound_1 _let_50) (tptp.polar_molecule_1 _let_50) (tptp.polysaccharide_1 _let_50) (tptp.cellulose_1 _let_50) (tptp.defense_1 _let_45) (tptp.support_1 _let_43) (tptp.entity_1 _let_5) (tptp.cell_wall_1 _let_5) (tptp.plant_cell_wall_1 _let_5) (tptp.membrane_1 _let_47) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.plasma_membrane_1 _let_47) (tptp.tangible_entity_1 _let_76) (tptp.maintenance_1 _let_71) (tptp.fusion_1 _let_68) (tptp.grow_1 _let_65) (tptp.move_1 _let_62) (tptp.move_1 _let_60) (tptp.move_together_1 _let_58) (tptp.cytoskeleton_1 _let_56) (tptp.chemical_1 _let_53) (tptp.tangible_entity_1 _let_48) (tptp.microfibril_1 _let_48) (tptp.membrane_1 _let_46) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.defense_1 _let_44) (tptp.support_1 _let_42) (tptp.golgi_apparatus_1 _let_41) (tptp.golgi_apparatus_1 _let_40) (tptp.spatial_entity_1 _let_39) (tptp.biomembrane_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.membrane_protein_1 _let_37) (tptp.protein_1 _let_37) (tptp.tangible_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.protein_1 _let_36) (tptp.spatial_entity_1 _let_36) (tptp.polymer_1 _let_36) (tptp.tangible_entity_1 _let_35) (tptp.transmembrane_protein_1 _let_35) (tptp.integral_protein_1 _let_35) (tptp.transport_protein_1 _let_35) (tptp.proton_pump_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.spatial_entity_1 _let_32) (tptp.cell_plate_1 _let_32) (tptp.cell_plate_1 _let_31) (tptp.substance_1 _let_30) (tptp.cytosol_1 _let_30) (tptp.aqueous_solution_1 _let_29) (tptp.liquid_substance_1 _let_29) (tptp.solution_1 _let_29) (tptp.substance_1 _let_29) (tptp.cytosol_1 _let_29) (tptp.cytosol_1 _let_28) (tptp.cell_1 _let_26) (tptp.tangible_entity_1 _let_26) (tptp.microtubule_1 _let_25) (tptp.microtubule_1 _let_23) (tptp.chemical_1 _let_21) (tptp.water_1 _let_20) (tptp.substance_1 _let_18) (tptp.aqueous_solution_1 _let_18) (tptp.aqueous_solution_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.membrane_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.plasma_membrane_1 _let_13) (tptp.plasma_membrane_1 _let_12) (tptp.polysaccharide_1 _let_10) (tptp.carbohydrate_1 _let_9) (tptp.hydrophilic_compound_1 _let_9) (tptp.polar_molecule_1 _let_9) (tptp.polysaccharide_1 _let_9) (tptp.cellulose_1 _let_9) (tptp.cell_1 _let_8) (tptp.plant_cell_1 _let_6) (tptp.entity_1 _let_4) (tptp.cell_wall_1 _let_2) (tptp.plant_cell_wall_1 _let_2) (tptp.next_event_2 _let_3 _let_75) (tptp.first_subevent_2 X _let_24) (tptp.exactCardinality X tptp.subevent_0 |"0"| tptp.formation_of_cleavage_furrow_0) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_75) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_24) (tptp.agent_2 _let_75 _let_64) (tptp.exactCardinality _let_75 tptp.result_0 |"2"| tptp.plant_cell_0) (tptp.result_2 _let_75 _let_74) (tptp.next_event_2 _let_14 _let_3) (tptp.result_2 _let_14 _let_78) (tptp.next_event_2 _let_7 _let_14) (tptp.next_event_2 _let_24 _let_7) (tptp.has_state_2 _let_11 _let_1) (tptp.has_part_2 _let_1 _let_64) (tptp.object_2 _let_75 _let_77) (tptp.result_2 _let_3 _let_5) (tptp.base_2 _let_14 _let_16) (tptp.base_2 _let_7 _let_1) (tptp.object_2 _let_14 _let_70) (tptp.raw_material_2 _let_3 _let_64) (tptp.base_2 X _let_11) (not (= _let_11 _let_74)) (tptp.result_2 X _let_74) (not (= _let_74 _let_11)) (tptp.has_part_2 _let_11 _let_73) (tptp.is_inside_2 _let_73 _let_57) (tptp.object_2 _let_72 _let_1) (tptp.agent_2 _let_72 _let_5) (tptp.has_part_2 _let_64 _let_70) (tptp.base_2 _let_69 _let_64) (tptp.enables_2 _let_69 _let_66) (tptp.subevent_2 _let_7 _let_66) (tptp.subevent_2 _let_7 _let_69) (tptp.object_2 _let_7 _let_64) (tptp.object_2 _let_66 _let_64) (tptp.toward_2 _let_66 _let_16) (tptp.has_part_2 _let_16 _let_67) (tptp.is_across_2 _let_67 _let_16) (tptp.first_subevent_2 _let_59 _let_61) (tptp.first_subevent_2 _let_59 _let_63) (tptp.path_2 _let_59 _let_55) (tptp.result_2 _let_24 _let_64) (tptp.subevent_2 _let_24 _let_59) (tptp.subevent_2 _let_59 _let_61) (tptp.path_2 _let_61 _let_55) (tptp.path_2 _let_63 _let_55) (tptp.subevent_2 _let_59 _let_63) (tptp.has_part_2 _let_11 _let_16) (tptp.is_between_2 _let_16 _let_19) (tptp.has_part_2 _let_57 _let_19) (tptp.object_2 _let_45 _let_1) (tptp.has_function_2 _let_5 _let_45) (tptp.has_part_2 _let_5 _let_50) (tptp.element_2 _let_49 _let_50) (tptp.has_part_2 _let_5 _let_49) (tptp.object_2 _let_43 _let_1) (tptp.has_function_2 _let_5 _let_43) (tptp.has_part_2 _let_1 _let_5) (tptp.has_part_2 _let_1 _let_47) (tptp.is_outside_2 _let_5 _let_47) (tptp.agent_2 _let_45 _let_5) (tptp.agent_2 _let_43 _let_5) (not (= _let_51 _let_19)) (not (= _let_19 _let_51)) (tptp.is_between_2 _let_16 _let_51) (tptp.has_solvent_2 _let_19 _let_52) (tptp.has_part_2 _let_19 _let_52) (not (= _let_52 _let_54)) (not (= _let_54 _let_52)) (tptp.has_part_2 _let_19 _let_54) (tptp.has_solute_2 _let_19 _let_54) (tptp.has_part_2 _let_22 _let_55) (tptp.has_part_2 _let_11 _let_22) (= _let_77 _let_76) (= _let_5 _let_4) (= _let_16 _let_15) (= _let_1 _let_8) (= _let_70 _let_39) (= _let_64 _let_33) (= _let_74 (tptp.fn_cytokinesis_2 X)) (= _let_11 _let_27) (= _let_57 _let_30) (= _let_57 _let_29) (= _let_73 _let_41) (= _let_73 _let_40) (= _let_5 _let_2) (= _let_72 _let_71) (= _let_70 _let_38) (= _let_69 _let_68) (= _let_67 _let_37) (= _let_67 _let_36) (= _let_67 _let_35) (= _let_67 _let_34) (= _let_16 _let_13) (= _let_66 _let_65) (= _let_64 _let_32) (= _let_64 _let_31) (= _let_63 _let_62) (= _let_55 _let_25) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_16 _let_12) (= _let_57 _let_28) (= _let_11 _let_26) (= _let_22 _let_56) (= _let_55 _let_23) (= _let_54 _let_53) (= _let_52 _let_21) (= _let_52 _let_20) (= _let_19 _let_18) (= _let_51 _let_18) (= _let_51 _let_17) (= _let_50 _let_10) (= _let_50 _let_9) (= _let_49 _let_48) (= _let_1 _let_6) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_17) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cytokinin_1 X) (and (tptp.original_name_2 X |tptp.'Cytokinin'|) (tptp.user_description_2 X |tptp.'A plant hormone that promotes cell division in roots and shoots. Cytokinins are also involved in apical dominance, growth of axillarly buds, and leaf senescence.'|) (tptp.concept2words_2 X tptp.cytokinin) (tptp.steroid_hormone_1 X) (not (tptp.androgen_1 X)) (not (tptp.estrogen_1 X)) (not (tptp.progestin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoplasm_6 X))) (let ((_let_2 (tptp.fn_cellular_work_2 _let_1))) (let ((_let_3 (tptp.fn_cytoplasm_7 X))) (let ((_let_4 (tptp.fn_cytoplasm_8 X))) (let ((_let_5 (tptp.fn_cytosol_1 _let_4))) (let ((_let_6 (tptp.fn_cytoplasm_2 X))) (let ((_let_7 (tptp.fn_cytoplasm_3 X))) (let ((_let_8 (tptp.fn_cytoplasm_5 X))) (let ((_let_9 (tptp.fn_cytoplasm_4 X))) (=> (tptp.cytoplasm_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasm'|) (tptp.user_description_2 X |tptp.'Cytoplasm is the part of a cell that is enclosed within the cell membrane. This part of the cell is the site for most of the cellular processes. In eukaryotic cells, the cytoplasm contains organelles.'|) (tptp.concept2words_2 X tptp.cytoplasm) (tptp.colloid_1 X) (tptp.state_value_1 _let_6) (tptp.negatively_charged_region_1 _let_7) (tptp.cellular_structure_1 _let_9) (tptp.hydrophilic_compound_1 _let_8) (tptp.cellular_work_1 _let_1) (tptp.cell_1 _let_3) (tptp.cytosol_1 _let_4) (tptp.cytoplasm_1 _let_5) (tptp.cell_1 _let_2) (tptp.the_categorical_value_2 _let_6 tptp.liquid_0) (tptp.has_part_2 _let_3 X) (tptp.has_function_2 _let_3 _let_1) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_8) (tptp.has_region_2 X _let_7) (tptp.physical_state_2 X _let_6) (tptp.has_part_2 X _let_4) (tptp.base_2 _let_1 _let_3) (= X _let_5) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.cytoplasmic_channel_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Channel'|) (tptp.user_description_2 X |tptp.'A region of a cell junction that allows the sharing and exchange of materials in the cytoplasm of two or more cells.'|) (tptp.concept2words_2 X |tptp.'communicating junctions'|) (tptp.concept2words_2 X |tptp.'gap junctions'|) (tptp.concept2words_2 X |tptp.'hydrophilic channel'|) (tptp.concept2words_2 X |tptp.'cytoplasmic channel'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-channel'|) (tptp.pore_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoplasmic_determinant_2 X))) (let ((_let_2 (tptp.fn_cytoplasmic_determinant_1 X))) (=> (tptp.cytoplasmic_determinant_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Determinant'|) (tptp.user_description_2 X |tptp.'A substance, commonly a piece of RNA or a protein, that is placed by the mother into an egg and which affects early development by regulating the expression of genes that affect cell fates.'|) (tptp.concept2words_2 X |tptp.'cytoplasmic determinant'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-determinant'|) (tptp.local_regulator_1 X) (tptp.cytoplasm_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.has_part_2 _let_2 _let_1) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_local_regulator_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoplasmic_protein_kinase_2 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_kinase_1 X))) (let ((_let_4 (tptp.fn_cytoplasmic_protein_kinase_4 X))) (let ((_let_5 (tptp.fn_reactant_3 _let_1))) (let ((_let_6 (tptp.fn_cytoplasmic_protein_kinase_3 X))) (let ((_let_7 (tptp.fn_cytoplasmic_protein_kinase_1 X))) (=> (tptp.cytoplasmic_protein_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Protein-Kinase'|) (tptp.user_description_2 X |tptp.'A type of protein kinase which is specifically found in cytoplasm of the cell.'|) (tptp.concept2words_2 X |tptp.'cytoplasmic protein kinase'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-protein-kinase'|) (tptp.protein_kinase_1 X) (not (tptp.cyclin_dependent_kinase_1 X)) (not (tptp.receptor_tyrosine_kinase_1 X)) (not (tptp.tyrosine_kinase_1 X)) (tptp.cytoplasm_1 _let_7) (tptp.reactant_1 _let_1) (tptp.protein_1 _let_6) (tptp.phosphorylation_1 _let_4) (tptp.chemical_reaction_1 _let_4) (tptp.chemical_entity_1 _let_5) (tptp.chemical_reaction_1 _let_2) (tptp.is_inside_2 X _let_7) (tptp.different_type_2 X _let_6) (tptp.different_type_2 _let_6 X) (tptp.has_function_2 X _let_4) (tptp.in_event_2 _let_1 _let_4) (tptp.raw_material_2 _let_4 _let_6) (tptp.plays_2 _let_6 _let_1) (= _let_4 _let_3) (= _let_6 _let_5) (= _let_4 _let_2) (= _let_3 _let_2) (= _let_2 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.cytoplasmic_response_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Response'|) (tptp.user_description_2 X |tptp.'During a cell signalling event, a cellular response which occurs in the cytoplasm of the cell.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'cytoplasmic response'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-response'|) (tptp.cellular_response_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoplasmic_side_1 X))) (=> (tptp.cytoplasmic_side_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Side'|) (tptp.user_description_2 X |tptp.'Cytoplasmic side is the interior side of membrane facing the cytoplasm.'|) (tptp.concept2words_2 X |tptp.'cytoplasmic side'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-side'|) (tptp.cellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.cytoplasm_1 _let_1) (tptp.is_facing_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoplasmic_streaming_6 X))) (let ((_let_2 (tptp.fn_cytoskeleton_9 _let_1))) (let ((_let_3 (tptp.fn_cytoplasmic_streaming_9 X))) (let ((_let_4 (tptp.fn_cytoskeleton_7 _let_1))) (let ((_let_5 (tptp.fn_cytoplasmic_streaming_12 X))) (let ((_let_6 (tptp.fn_cytoskeleton_2 _let_1))) (let ((_let_7 (tptp.fn_cytoplasmic_streaming_7 X))) (let ((_let_8 (tptp.fn_cytoplasmic_streaming_10 X))) (let ((_let_9 (tptp.fn_attach_2 _let_8))) (let ((_let_10 (tptp.fn_cytoplasmic_streaming_11 X))) (let ((_let_11 (tptp.fn_attach_1 _let_8))) (let ((_let_12 (tptp.fn_cytoplasmic_streaming_8 X))) (let ((_let_13 (tptp.fn_cytoplasmic_streaming_4 X))) (let ((_let_14 (tptp.fn_cytoplasmic_streaming_5 X))) (let ((_let_15 (tptp.fn_cytoplasmic_streaming_2 X))) (let ((_let_16 (tptp.fn_cytoplasmic_streaming_1 X))) (=> (tptp.cytoplasmic_streaming_1 X) (and (tptp.original_name_2 X |tptp.'Cytoplasmic-Streaming'|) (tptp.user_description_2 X |tptp.'The circular flow of cytoplasm within a plant or fungal cell.'|) (tptp.concept2words_2 X |tptp.'perform cytoplasmic streaming'|) (tptp.concept2words_2 X tptp.circulate) (tptp.concept2words_2 X |tptp.'cytoplasmic streaming'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-streaming'|) (tptp.cellular_transport_1 X) (tptp.interact_1 _let_16) (tptp.actin_1 _let_15) (tptp.biological_region_1 _let_13) (tptp.shape_value_1 _let_14) (tptp.cytoskeleton_1 _let_1) (tptp.microfilament_1 _let_7) (tptp.myosin_1 _let_12) (tptp.substance_1 _let_3) (tptp.cytosol_1 _let_3) (tptp.attach_1 _let_8) (tptp.organelle_1 _let_10) (tptp.mixture_1 _let_5) (tptp.cytoplasm_1 _let_5) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.microfilament_1 _let_6) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.facilitates_2 _let_7 X) (tptp.facilitates_2 _let_12 X) (tptp.object_2 _let_16 _let_12) (tptp.base_2 _let_16 _let_15) (tptp.facilitates_2 _let_15 X) (tptp.is_inside_2 _let_10 _let_3) (tptp.shape_2 _let_13 _let_14) (tptp.the_categorical_value_2 _let_14 tptp.circle_0) (tptp.object_2 X _let_5) (tptp.path_2 X _let_13) (tptp.agent_2 X _let_1) (tptp.instrument_2 X _let_7) (tptp.has_function_2 _let_1 X) (tptp.has_part_2 _let_1 _let_12) (tptp.object_2 _let_8 _let_12) (tptp.base_2 _let_8 _let_10) (tptp.has_part_2 _let_1 _let_7) (tptp.is_inside_2 _let_1 _let_3) (tptp.has_part_2 _let_5 _let_3) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_1 X))) (=> (tptp.cytosine_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine'|) (tptp.user_description_2 X |tptp.'One of the five most common nitrogenous bases which make up nucleotide monomers of nucleic acids. Cytosine is present in both DNA and RNA.'|) (tptp.concept2words_2 X |tptp.'C'|) (tptp.concept2words_2 X tptp.cytosine) (tptp.pyrimidine_1 X) (not (tptp.thymine_1 X)) (not (tptp.uracil_1 X)) (tptp.guanine_1 _let_1) (tptp.complement_2 _let_1 X) (tptp.complement_2 X _let_1))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_dna_1 X) (tptp.cytosine_1 X) (tptp.dna_strand_1 X1)) (and (tptp.cytosine_at_dna_strand_1 X) (= (tptp.fn_cytosine_at_dna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_dna_strand_2 X))) (=> (tptp.cytosine_at_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-DNA-Strand'|) (tptp.user_description_2 X |tptp.'A nitrogenous base from the pyrimidine family when attached to deoxyribose and a phosphate group forms a nucleotide for DNA molecules.'|) (tptp.concept2words_2 X |tptp.'cytosine at dna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-dna-strand'|) (tptp.cytosine_1 X) (tptp.nitrogenous_base_present_in_dna_1 X) (not (tptp.cytosine_at_rna_strand_1 X)) (not (tptp.adenine_at_dna_strand_1 X)) (not (tptp.guanine_at_dna_strand_1 X)) (not (tptp.thymine_1 X)) (tptp.dna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_dna_2 X)))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X2 X1) (tptp.cytosine_at_dna_strand_1 X) (tptp.dna_strand_1 X2) (tptp.dna_strand_1 X1)) (and (tptp.cytosine_at_dna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_cytosine_at_dna_strand_opposite_to_dna_strand_3 X) X1) (= (tptp.fn_cytosine_at_dna_strand_opposite_to_dna_strand_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_dna_strand_opposite_to_dna_strand_4 X))) (let ((_let_2 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_2 _let_1))) (let ((_let_3 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_3 _let_1))) (let ((_let_4 (tptp.fn_cytosine_at_dna_strand_opposite_to_dna_strand_3 X))) (let ((_let_5 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_4 _let_1))) (let ((_let_6 (tptp.fn_cytosine_at_dna_strand_opposite_to_dna_strand_2 X))) (=> (tptp.cytosine_at_dna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-DNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Cytosine is a nitrogenous base which is present at DNA strand and is present opposite to other DNA strand having Guanine.'|) (tptp.concept2words_2 X |tptp.'cytosine at dna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-dna-strand-opposite-to-dna-strand'|) (tptp.cytosine_at_dna_strand_1 X) (not (tptp.cytosine_at_dna_strand_opposite_to_rna_strand_1 X)) (tptp.dna_strand_1 _let_6) (tptp.dna_strand_1 _let_4) (tptp.guanine_at_dna_strand_opposite_to_dna_strand_1 _let_1) (tptp.dna_strand_1 _let_5) (tptp.dna_strand_1 _let_3) (tptp.cytosine_at_dna_strand_opposite_to_dna_strand_1 _let_2) (tptp.is_at_2 _let_1 _let_6) (tptp.complement_2 _let_1 X) (tptp.is_at_2 X _let_4) (tptp.is_opposite_2 _let_4 _let_6) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_6 _let_4) (tptp.complement_2 _let_4 _let_6) (tptp.is_opposite_2 _let_6 _let_4) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X2 X1) (tptp.cytosine_at_dna_strand_1 X) (tptp.rna_strand_1 X2) (tptp.dna_strand_1 X1)) (and (tptp.cytosine_at_dna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_cytosine_at_dna_strand_opposite_to_rna_strand_2 X) X1) (= (tptp.fn_cytosine_at_dna_strand_opposite_to_rna_strand_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_dna_strand_opposite_to_rna_strand_4 X))) (let ((_let_2 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_4 _let_1))) (let ((_let_3 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_2 _let_1))) (let ((_let_4 (tptp.fn_cytosine_at_dna_strand_opposite_to_rna_strand_3 X))) (let ((_let_5 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_3 _let_1))) (let ((_let_6 (tptp.fn_cytosine_at_dna_strand_opposite_to_rna_strand_2 X))) (=> (tptp.cytosine_at_dna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-DNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Cytosine is a nitrogenous base which is present at DNA strand and is present opposite to RNA strand having Guanine.'|) (tptp.concept2words_2 X |tptp.'cytosine at dna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-dna-strand-opposite-to-rna-strand'|) (tptp.cytosine_at_dna_strand_1 X) (not (tptp.cytosine_at_dna_strand_opposite_to_dna_strand_1 X)) (tptp.dna_strand_1 _let_6) (tptp.rna_strand_1 _let_4) (tptp.guanine_at_rna_strand_opposite_to_dna_strand_1 _let_1) (tptp.dna_strand_1 _let_5) (tptp.rna_strand_1 _let_3) (tptp.cytosine_at_dna_strand_opposite_to_rna_strand_1 _let_2) (tptp.is_at_2 X _let_6) (tptp.is_opposite_2 _let_4 _let_6) (tptp.is_opposite_2 _let_6 _let_4) (tptp.is_at_2 _let_1 _let_4) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_1 X) (tptp.complement_2 _let_6 _let_4) (tptp.complement_2 _let_4 _let_6) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_rna_1 X) (tptp.cytosine_1 X) (tptp.rna_strand_1 X1)) (and (tptp.cytosine_at_rna_strand_1 X) (= (tptp.fn_cytosine_at_rna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_rna_strand_2 X))) (=> (tptp.cytosine_at_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Cytosine (C) is a nucleobase (a pyrimidine derivative) which is present at RNA.'|) (tptp.concept2words_2 X |tptp.'cytosine at rna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-rna-strand'|) (tptp.cytosine_1 X) (tptp.nitrogenous_base_present_in_rna_1 X) (not (tptp.cytosine_at_dna_strand_1 X)) (not (tptp.adenine_at_rna_strand_1 X)) (not (tptp.guanine_at_rna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_dna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.rna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_rna_2 X)))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X2 X1) (tptp.dna_strand_1 X2) (tptp.rna_strand_1 X1) (tptp.cytosine_at_rna_strand_1 X)) (and (tptp.cytosine_at_rna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_11 X) X1) (= (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_rna_strand_2 X))) (let ((_let_2 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_9 X))) (let ((_let_3 (tptp.fn_sugar_phosphate_backbone_1 _let_2))) (let ((_let_4 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_11 X))) (let ((_let_5 (tptp.fn_rna_strand_38 _let_4))) (let ((_let_6 (tptp.fn_nucleic_acid_19 _let_4))) (let ((_let_7 (tptp.fn_rna_strand_39 _let_4))) (let ((_let_8 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_5 X))) (let ((_let_9 (tptp.fn_rna_strand_40 _let_4))) (let ((_let_10 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_7 X))) (let ((_let_11 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_3 X))) (let ((_let_12 (tptp.fn_organic_molecule_3 _let_4))) (let ((_let_13 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_8 X))) (let ((_let_14 (tptp.fn_organic_molecule_2 _let_4))) (let ((_let_15 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_6 X))) (let ((_let_16 (tptp.fn_organic_molecule_1 _let_4))) (let ((_let_17 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_4 X))) (let ((_let_18 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_10 X))) (let ((_let_19 (tptp.fn_guanine_at_dna_strand_2 _let_18))) (let ((_let_20 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_2 X))) (let ((_let_21 (tptp.fn_guanine_1 _let_18))) (=> (tptp.cytosine_at_rna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-RNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Cytosine is a nitrogenous base which is present at RNA strand and is present opposite to other DNA strand having Guanine.'|) (tptp.concept2words_2 X |tptp.'cytosine at rna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-rna-strand-opposite-to-dna-strand'|) (tptp.cytosine_at_rna_strand_1 X) (not (tptp.cytosine_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.dna_strand_1 _let_20) (tptp.covalent_bond_1 _let_11) (tptp.chemical_bond_1 _let_11) (tptp.phosphodiester_bond_1 _let_11) (tptp.carbon_1 _let_17) (tptp.ribonucleoside_monophosphate_1 _let_8) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.spatial_entity_1 _let_10) (tptp.monomer_1 _let_10) (tptp.ribonucleoside_monophosphate_1 _let_10) (tptp.organic_molecule_1 _let_10) (tptp.carbon_skeleton_1 _let_13) (tptp.sugar_phosphate_backbone_1 _let_2) (tptp.guanine_at_dna_strand_opposite_to_rna_strand_1 _let_18) (tptp.nucleic_acid_1 _let_4) (tptp.organic_molecule_1 _let_4) (tptp.rna_strand_1 _let_4) (tptp.cytosine_1 _let_21) (tptp.dna_strand_1 _let_19) (tptp.carbon_1 _let_16) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.carbon_skeleton_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.monomer_1 _let_9) (tptp.ribonucleoside_monophosphate_1 _let_9) (tptp.organic_molecule_1 _let_9) (tptp.ribonucleoside_monophosphate_1 _let_7) (tptp.covalent_bond_1 _let_6) (tptp.chemical_bond_1 _let_6) (tptp.phosphodiester_bond_1 _let_6) (tptp.covalent_bond_1 _let_5) (tptp.chemical_bond_1 _let_5) (tptp.phosphodiester_bond_1 _let_5) (tptp.nucleic_acid_1 _let_3) (tptp.complement_2 _let_4 _let_20) (tptp.is_opposite_2 _let_4 _let_20) (tptp.is_inside_2 _let_11 _let_2) (tptp.complement_2 _let_20 _let_4) (tptp.is_opposite_2 _let_20 _let_4) (tptp.has_region_2 _let_4 _let_2) (tptp.complement_2 _let_18 X) (tptp.complement_2 X _let_18) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_18 _let_20) (not (= _let_10 _let_8)) (tptp.possesses_2 _let_4 _let_11) (tptp.has_part_2 _let_4 _let_10) (not (= _let_8 _let_10)) (tptp.has_part_2 _let_4 _let_8) (not (= _let_17 _let_15)) (not (= _let_15 _let_17)) (tptp.is_inside_2 _let_17 _let_13) (tptp.has_part_2 _let_4 _let_17) (tptp.has_part_2 _let_4 _let_15) (tptp.has_region_2 _let_4 _let_13) (= _let_4 _let_3) (= _let_18 (tptp.fn_cytosine_1 X)) (= X _let_21) (= _let_4 _let_1) (= _let_20 _let_19) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_6) (= _let_11 _let_5) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1))))))))))))))))))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.cytosine_at_rna_strand_1 X) (tptp.rna_strand_1 X1) (tptp.rna_strand_1 X2)) (and (tptp.cytosine_at_rna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_2 X) X1) (= (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_4 X))) (let ((_let_2 (tptp.fn_guanine_at_rna_strand_2 _let_1))) (let ((_let_3 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_3 X))) (let ((_let_4 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_2 X))) (let ((_let_5 (tptp.fn_guanine_1 _let_1))) (=> (tptp.cytosine_at_rna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Cytosine-At-RNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Cytosine is a nitrogenous base which is present at RNA strand and is present opposite to other RNA strand having Guanine.'|) (tptp.concept2words_2 X |tptp.'cytosine at rna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'cytosine-at-rna-strand-opposite-to-rna-strand'|) (tptp.cytosine_at_rna_strand_1 X) (not (tptp.cytosine_at_rna_strand_opposite_to_dna_strand_1 X)) (tptp.rna_strand_1 _let_4) (tptp.rna_strand_1 _let_3) (tptp.guanine_at_rna_strand_opposite_to_rna_strand_1 _let_1) (tptp.cytosine_1 _let_5) (tptp.rna_strand_1 _let_2) (tptp.complement_2 _let_4 _let_3) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 _let_3 _let_4) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_1 X) (tptp.complement_2 X _let_1) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_1 (tptp.fn_cytosine_1 X)) (= X _let_5) (= _let_4 (tptp.fn_cytosine_at_rna_strand_2 X)) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.cytoskeletal_rearrangement_1 X) (and (tptp.original_name_2 X |tptp.'Cytoskeletal-Rearrangement'|) (tptp.user_description_2 X |tptp.'Dynamic dismantling and reassembly of the cytoskeleton allowing the cell to change shape or to move.'|) (tptp.concept2words_2 X tptp.rearrange) (tptp.concept2words_2 X |tptp.'cytoskeletal rearrangement'|) (tptp.concept2words_2 X |tptp.'cytoskeletal-rearrangement'|) (tptp.rearrangement_1 X) (tptp.cell_shape_change_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytoskeleton_6 X))) (let ((_let_2 (tptp.fn_cell_2 _let_1))) (let ((_let_3 (tptp.fn_cytoskeleton_4 X))) (let ((_let_4 (tptp.fn_structural_role_2 _let_3))) (let ((_let_5 (tptp.fn_cytoskeleton_5 X))) (let ((_let_6 (tptp.fn_support_1 _let_5))) (let ((_let_7 (tptp.fn_cell_28 _let_1))) (let ((_let_8 (tptp.fn_cytoskeleton_7 X))) (let ((_let_9 (tptp.fn_cell_29 _let_1))) (let ((_let_10 (tptp.fn_cytoskeleton_9 X))) (let ((_let_11 (tptp.fn_cell_14 _let_1))) (let ((_let_12 (tptp.fn_cytoskeleton_8 X))) (let ((_let_13 (tptp.fn_structural_role_1 _let_3))) (let ((_let_14 (tptp.fn_cytoskeleton_1 X))) (let ((_let_15 (tptp.fn_cytoskeleton_3 X))) (let ((_let_16 (tptp.fn_cytoskeleton_2 X))) (=> (tptp.cytoskeleton_1 X) (and (tptp.original_name_2 X |tptp.'Cytoskeleton'|) (tptp.user_description_2 X |tptp.'The cytoskeleton is a cellular scaffolding or skeleton contained within the cytoplasm. The cytoskeleton is present in all cells. The cytoskeleton is comprised of Intermediate filament, Microtubules and Microfilament'|) (tptp.concept2words_2 X tptp.cytoskeleton) (tptp.cellular_structure_1 X) (tptp.microtubule_1 _let_14) (tptp.microfilament_1 _let_16) (tptp.intermediate_filament_1 _let_15) (tptp.structural_role_1 _let_3) (tptp.support_1 _let_5) (tptp.cell_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.mixture_1 _let_8) (tptp.cytoplasm_1 _let_8) (tptp.ribosome_1 _let_12) (tptp.substance_1 _let_10) (tptp.cytosol_1 _let_10) (tptp.support_1 _let_13) (tptp.ribosome_1 _let_11) (tptp.substance_1 _let_9) (tptp.cytosol_1 _let_9) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cytoskeleton_1 _let_2) (tptp.is_inside_2 X _let_10) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_16) (tptp.has_part_2 X _let_15) (tptp.facilitates_2 _let_14 _let_5) (tptp.instrument_2 _let_5 _let_14) (tptp.plays_2 X _let_3) (tptp.in_event_2 _let_3 _let_5) (tptp.agent_2 _let_5 X) (tptp.has_function_2 X _let_5) (tptp.has_part_2 _let_1 _let_8) (tptp.has_part_2 _let_8 _let_10) (tptp.is_inside_2 _let_12 _let_10) (tptp.has_part_2 _let_1 _let_12) (tptp.has_part_2 _let_1 X) (tptp.object_2 _let_5 _let_1) (= X _let_4) (= _let_5 _let_13) (= X _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_1 _let_6) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cytosol_1 X))) (let ((_let_2 (tptp.fn_suspension_2 _let_1))) (=> (tptp.cytosol_1 X) (and (tptp.original_name_2 X |tptp.'Cytosol'|) (tptp.user_description_2 X |tptp.'Cytosol is the liquid found inside cells. In eukaryotes, the cytosol is separated from the contents of the organelles suspended in the cytosol by their membranes'|) (tptp.concept2words_2 X |tptp.'intracellular fluid'|) (tptp.concept2words_2 X |tptp.'cytoplasmic matrix'|) (tptp.concept2words_2 X tptp.cytosol) (tptp.cellular_fluid_1 X) (tptp.semisolid_substance_1 X) (not (tptp.agar_1 X)) (tptp.cytoplasm_1 _let_1) (tptp.liquid_substance_1 _let_2) (tptp.has_part_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.cytotoxic_t_1 X) (and (tptp.original_name_2 X |tptp.'Cytotoxic-T'|) (tptp.user_description_2 X |tptp.'A type of lymphocyte that kills cancer cells and cells infected with virusus and bacteria.'|) (tptp.concept2words_2 X |tptp.'cytotoxic t'|) (tptp.concept2words_2 X |tptp.'cytotoxic-t'|) (tptp.t_cells_1 X) (tptp.effector_cell_1 X) (not (tptp.plasma_cell_1 X)) (not (tptp.helper_t_1 X)) (not (tptp.memory_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.damage_1 X) (and (tptp.original_name_2 X |tptp.'Damage'|) (tptp.concept2words_2 X tptp.damage) (tptp.impair_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X1 X) (tptp.damage_1 X1) (tptp.cell_state_1 X)) (and (tptp.damaged_cell_1 X) (= (tptp.fn_damaged_cell_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_damaged_cell_2 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (=> (tptp.damaged_cell_1 X) (and (tptp.original_name_2 X |tptp.'Damaged-Cell'|) (tptp.user_description_2 X |tptp.'A cell that results from damage is called as damaged cell.'|) (tptp.concept2words_2 X |tptp.'cell showing damage'|) (tptp.concept2words_2 X |tptp.'cell-showing-damage'|) (tptp.concept2words_2 X |tptp.'damaged cell'|) (tptp.concept2words_2 X |tptp.'damaged-cell'|) (tptp.cell_state_1 X) (tptp.damage_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.object_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.damaged_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Damaged-DNA-Strand'|) (tptp.user_description_2 X |tptp.'A DNA strand that has been damaged by harmful chemicals, radiation, or replication error.'|) (tptp.concept2words_2 X |tptp.'defective dna strand'|) (tptp.concept2words_2 X |tptp.'defective-dna-strand'|) (tptp.concept2words_2 X |tptp.'damaged dna strand'|) (tptp.concept2words_2 X |tptp.'damaged-dna-strand'|) (tptp.dna_strand_1 X)))) (forall ((X $$unsorted)) (=> (tptp.damselfly_1 X) (and (tptp.original_name_2 X |tptp.'Damselfly'|) (tptp.user_description_2 X |tptp.'An insect in the order Odonata. Damselflies resemble dragonflies but hold their wings parallel to the body, while dragonfly wings are held perpendicular to the axis of the body.'|) (tptp.concept2words_2 X tptp.damselfly) (tptp.odonata_1 X) (not (tptp.dragonfly_1 X))))) (forall ((X $$unsorted)) (=> (tptp.daphnia_1 X) (and (tptp.original_name_2 X |tptp.'Daphnia'|) (tptp.user_description_2 X |tptp.'Genus of freshwater planktonic crustaceans, notable for their ability to reproduce very rapidly via parthenogenesis during favorable conditions.'|) (tptp.concept2words_2 X tptp.daphnia) (tptp.arthropod_1 X) (not (tptp.cheliceriform_1 X)) (not (tptp.crustacean_1 X)) (not (tptp.diplopode_1 X)) (not (tptp.hexapod_1 X)) (not (tptp.myriapod_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_darmstadtium_6 X))) (let ((_let_2 (tptp.fn_darmstadtium_7 X))) (let ((_let_3 (tptp.fn_darmstadtium_1 X))) (let ((_let_4 (tptp.fn_darmstadtium_2 X))) (=> (tptp.darmstadtium_1 X) (and (tptp.original_name_2 X |tptp.'Darmstadtium'|) (tptp.user_description_2 X |tptp.'Darmstadtium is a metal atom with atomic number 110. It is represented by the symbol Ds.'|) (tptp.concept2words_2 X tptp.darmstadtium) (tptp.concept2words_2 X tptp.ds) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"161"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"110"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"110"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"271"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"110"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"271"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_darmstadtium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_darmstadtium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (=> (tptp.data_1 X) (and (tptp.original_name_2 X |tptp.'Data'|) (tptp.user_description_2 X |tptp.'Recorded quantitative or qualitative observations.'|) (tptp.concept2words_2 X tptp.data) (tptp.representation_1 X) (not (tptp.cytogenetic_map_1 X)) (not (tptp.model_1 X))))) (forall ((X $$unsorted)) (=> (tptp.daughter_1 X) (and (tptp.original_name_2 X |tptp.'Daughter'|) (tptp.user_description_2 X |tptp.'Daughter is produced at end of a division or reproduction.'|) (tptp.concept2words_2 X tptp.daughter) (tptp.organism_role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.daughter_cell_1 X) (and (tptp.original_name_2 X |tptp.'Daughter-Cell'|) (tptp.user_description_2 X |tptp.'Cell produced through cell division.'|) (tptp.concept2words_2 X |tptp.'cell of daughter'|) (tptp.concept2words_2 X |tptp.'daughter cell'|) (tptp.concept2words_2 X |tptp.'daughter-cell'|) (tptp.cellular_role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.daughter_nucleus_1 X) (and (tptp.original_name_2 X |tptp.'Daughter-Nucleus'|) (tptp.user_description_2 X |tptp.'A nucleus produced as a result of the process of mitosis.'|) (tptp.concept2words_2 X |tptp.'nucleus of daughter'|) (tptp.concept2words_2 X |tptp.'daughter nucleus'|) (tptp.concept2words_2 X |tptp.'daughter-nucleus'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.daughter_strands_1 X) (and (tptp.original_name_2 X |tptp.'Daughter-strands'|) (tptp.user_description_2 X |tptp.'Daughter strands are the new DNA strands obtained after replication of parental DNA strands'|) (tptp.concept2words_2 X |tptp.'new dna strand'|) (tptp.concept2words_2 X |tptp.'daughter strands'|) (tptp.concept2words_2 X |tptp.'daughter strand'|) (tptp.concept2words_2 X |tptp.'daughter-strand'|) (tptp.dna_strand_1 X)))) (forall ((X $$unsorted)) (=> (tptp.day_constant_1 X) (and (tptp.original_name_2 X |tptp.'Day-Constant'|) (tptp.concept2words_2 X |tptp.'constant of day'|) (tptp.concept2words_2 X |tptp.'day constant'|) (tptp.concept2words_2 X |tptp.'day-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.day_neutral_plant_1 X) (and (tptp.original_name_2 X |tptp.'Day-Neutral-Plant'|) (tptp.user_description_2 X |tptp.'A plant which flowers when it reaches a certain stage of maturity, regardless of day length at that time.'|) (tptp.concept2words_2 X |tptp.'day neutral plant'|) (tptp.concept2words_2 X |tptp.'day-neutral plant'|) (tptp.concept2words_2 X |tptp.'day-neutral-plant'|) (tptp.flowering_control_plant_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_db_gene_9 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_db_gene_6 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_4 _let_3))) (let ((_let_5 (tptp.fn_db_gene_5 X))) (let ((_let_6 (tptp.fn_carbon_skeleton_2 _let_3))) (let ((_let_7 (tptp.fn_db_gene_4 X))) (let ((_let_8 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_9 (tptp.fn_db_gene_7 X))) (let ((_let_10 (tptp.fn_db_gene_8 X))) (let ((_let_11 (tptp.fn_db_gene_3 X))) (let ((_let_12 (tptp.fn_db_gene_10 X))) (let ((_let_13 (tptp.fn_code_for_2 _let_12))) (let ((_let_14 (tptp.fn_db_gene_11 X))) (let ((_let_15 (tptp.fn_db_gene_2 X))) (let ((_let_16 (tptp.fn_db_gene_1 X))) (=> (tptp.db_gene_1 X) (and (tptp.original_name_2 X |tptp.'Db-Gene'|) (tptp.user_description_2 X |tptp.'Gene which codes for the receptor protein on the hormone leptin. This gene and its product, originally discovered in mice, plays an important role in the regulation of appetitie in mammals.'|) (tptp.concept2words_2 X |tptp.'db gene'|) (tptp.concept2words_2 X |tptp.'db-gene'|) (tptp.gene_1 X) (tptp.speed_value_1 _let_16) (tptp.quantity_value_1 _let_15) (tptp.chemical_entity_1 _let_11) (tptp.deoxyribonucleoside_monophosphate_1 _let_11) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.carbon_1 _let_5) (tptp.carbon_skeleton_1 _let_3) (tptp.constant_motion_1 _let_9) (tptp.phosphodiester_bond_1 _let_10) (tptp.kinetic_energy_1 _let_1) (tptp.code_for_1 _let_12) (tptp.protein_enzyme_1 _let_14) (tptp.entity_1 _let_13) (tptp.constant_motion_1 _let_8) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.carbon_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.speed_2 _let_9 _let_16) (tptp.quantity_2 _let_1 _let_15) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.donor_2 _let_12 X) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_5) (tptp.has_region_2 X _let_3) (tptp.result_2 _let_12 _let_14) (tptp.agent_2 _let_12 X) (tptp.possesses_2 X _let_10) (tptp.is_between_2 _let_10 _let_11) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_9 X) (tptp.is_inside_2 _let_5 _let_3) (not (= _let_7 _let_5)) (not (= _let_5 _let_7)) (= _let_14 _let_13) (= _let_12 (tptp.fn_gene_13 X)) (= _let_11 (tptp.fn_gene_17 X)) (= _let_10 (tptp.fn_gene_16 X)) (= _let_9 _let_8) (= X _let_2) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_2 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ddt_2 X))) (let ((_let_2 (tptp.fn_toxin_1 _let_1))) (let ((_let_3 (tptp.fn_ddt_1 X))) (let ((_let_4 (tptp.fn_enzyme_inhibitor_3 _let_3))) (let ((_let_5 (tptp.fn_ddt_5 X))) (let ((_let_6 (tptp.fn_ddt_4 X))) (let ((_let_7 (tptp.fn_ddt_3 X))) (=> (tptp.ddt_1 X) (and (tptp.original_name_2 X |tptp.'DDT'|) (tptp.user_description_2 X |tptp.'DDT is an insecticide that is also toxic to animals and humans'|) (tptp.concept2words_2 X tptp.dichlorodiphenyltrichloroethane) (tptp.concept2words_2 X tptp.ddt) (tptp.organic_molecule_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ice_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.enzyme_inhibitor_1 _let_3) (tptp.insecticide_1 _let_1) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.carbon_1 _let_6) (tptp.carbon_skeleton_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 X _let_3) (tptp.plays_2 X _let_1) (tptp.has_part_2 X _let_7) (tptp.has_region_2 X _let_5) (tptp.is_inside_2 _let_6 _let_5) (tptp.has_part_2 X _let_6) (not (= _let_7 _let_6)) (not (= _let_6 _let_7)) (= X _let_4) (= X _let_2) (= _let_7 (tptp.fn_organic_molecule_2 X)) (= _let_6 (tptp.fn_organic_molecule_1 X)) (= _let_5 (tptp.fn_organic_molecule_3 X)) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.de_etiolation_1 X) (and (tptp.original_name_2 X |tptp.'De-Etiolation'|) (tptp.user_description_2 X |tptp.'Also known as greening, de-etiolation includes a series of physiological changes, such as the production of chlorophyll which occurs in a plant in response to sunlight.'|) (tptp.concept2words_2 X tptp.greening) (tptp.concept2words_2 X |tptp.'de etiolate'|) (tptp.concept2words_2 X |tptp.'de-etiolate'|) (tptp.concept2words_2 X |tptp.'de etiolation'|) (tptp.concept2words_2 X |tptp.'de-etiolation'|) (tptp.plant_intercellular_process_1 X) (not (tptp.color_vision_1 X)) (not (tptp.gustation_1 X)) (not (tptp.lateral_line_system_1 X)) (not (tptp.olfaction_1 X)) (not (tptp.perception_1 X)) (not (tptp.sensation_1 X)) (not (tptp.sensory_reception_1 X)) (not (tptp.sight_1 X)) (not (tptp.touch_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deacetylation_1 X))) (=> (tptp.deacetylation_1 X) (and (tptp.original_name_2 X |tptp.'Deacetylation'|) (tptp.user_description_2 X |tptp.'The removal of an acetyl group from a compound.'|) (tptp.concept2words_2 X tptp.deacetylate) (tptp.concept2words_2 X tptp.deacetylation) (tptp.decomposition_reaction_1 X) (tptp.transcription_1 _let_1) (tptp.inhibits_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.deactivate_1 X) (and (tptp.original_name_2 X |tptp.'Deactivate'|) (tptp.concept2words_2 X tptp.deactivate) (tptp.concept2words_2 X tptp.disable) (tptp.concept2words_2 X tptp.disenable) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X tptp.incapacitate) (tptp.make_inaccessible_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dead_cell_1 X) (and (tptp.original_name_2 X |tptp.'Dead-Cell'|) (tptp.user_description_2 X |tptp.'Remains of living cell.'|) (tptp.concept2words_2 X |tptp.'lost cell'|) (tptp.concept2words_2 X |tptp.'nonliving cell'|) (tptp.concept2words_2 X |tptp.'nonliving-cell'|) (tptp.concept2words_2 X |tptp.'cell of dead'|) (tptp.concept2words_2 X |tptp.'dead cell'|) (tptp.concept2words_2 X |tptp.'dead-cell'|) (tptp.non_living_entity_1 X) (tptp.detritus_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dead_organism_2 X))) (let ((_let_2 (tptp.fn_dead_organism_1 X))) (=> (tptp.dead_organism_1 X) (and (tptp.original_name_2 X |tptp.'Dead-Organism'|) (tptp.user_description_2 X |tptp.'The organism which is not living.'|) (tptp.concept2words_2 X |tptp.'nonliving organism'|) (tptp.concept2words_2 X |tptp.'nonliving-organism'|) (tptp.concept2words_2 X |tptp.'organism of dead'|) (tptp.concept2words_2 X |tptp.'dead organism'|) (tptp.concept2words_2 X |tptp.'dead-organism'|) (tptp.non_living_entity_1 X) (tptp.detritus_1 X) (tptp.chemical_1 _let_2) (tptp.dead_cell_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deamination_2 X))) (let ((_let_2 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_3 (tptp.fn_deamination_9 X))) (let ((_let_4 (tptp.fn_amino_acid_24 _let_3))) (let ((_let_5 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_6 (tptp.fn_amino_acid_27 _let_3))) (let ((_let_7 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_8 (tptp.fn_amino_acid_22 _let_3))) (let ((_let_9 (tptp.fn_amino_acid_28 _let_3))) (let ((_let_10 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_11 (tptp.fn_amino_acid_11 _let_3))) (let ((_let_12 (tptp.fn_functional_group_1 _let_1))) (let ((_let_13 (tptp.fn_decomposition_reaction_5 X))) (let ((_let_14 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_15 (tptp.fn_decomposition_reaction_2 X))) (let ((_let_16 (tptp.fn_deamination_3 X))) (let ((_let_17 (tptp.fn_deamination_8 X))) (let ((_let_18 (tptp.fn_deamination_6 X))) (let ((_let_19 (tptp.fn_deamination_7 X))) (let ((_let_20 (tptp.fn_amino_acid_17 _let_3))) (let ((_let_21 (tptp.fn_deamination_5 X))) (let ((_let_22 (tptp.fn_deamination_4 X))) (let ((_let_23 (tptp.fn_amino_acid_26 _let_3))) (let ((_let_24 (tptp.fn_deamination_1 X))) (=> (tptp.deamination_1 X) (and (tptp.original_name_2 X |tptp.'Deamination'|) (tptp.user_description_2 X |tptp.'Deamination is the removal of an amine group from a molecule. Enzymes which catalyse this reaction are called deaminases.'|) (tptp.concept2words_2 X tptp.deaminate) (tptp.concept2words_2 X tptp.deamination) (tptp.decomposition_reaction_1 X) (tptp.ammonia_1 _let_24) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.hydrogen_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.nitrogen_1 _let_21) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.hydrogen_1 _let_18) (tptp.oxygen_1 _let_19) (tptp.oxygen_1 _let_17) (tptp.chemical_entity_1 _let_3) (tptp.amino_acid_1 _let_3) (tptp.carboxyl_group_1 _let_23) (tptp.chemical_entity_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.nitrogen_1 _let_20) (tptp.chemical_entity_1 _let_12) (tptp.oxygen_1 _let_11) (tptp.oxygen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.hydrogen_1 _let_7) (tptp.oxygen_1 _let_6) (tptp.oxygen_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (not (= _let_16 _let_22)) (not (= _let_22 _let_16)) (tptp.result_2 X _let_24) (tptp.raw_material_2 X _let_3) (tptp.has_part_2 _let_3 _let_21) (tptp.has_part_2 _let_3 _let_19) (tptp.has_part_2 _let_3 _let_22) (tptp.has_part_2 _let_3 _let_17) (tptp.has_region_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_18) (not (= _let_18 _let_21)) (not (= _let_21 _let_22)) (not (= _let_22 _let_18)) (not (= _let_18 _let_22)) (not (= _let_21 _let_18)) (not (= _let_22 _let_21)) (tptp.has_part_2 _let_3 _let_16) (not (= _let_18 _let_16)) (not (= _let_16 _let_18)) (not (= _let_21 _let_16)) (not (= _let_16 _let_21)) (tptp.is_inside_2 _let_19 _let_1) (not (= _let_16 _let_19)) (not (= _let_19 _let_16)) (not (= _let_17 _let_19)) (not (= _let_19 _let_17)) (tptp.is_inside_2 _let_16 _let_1) (not (= _let_16 _let_17)) (tptp.is_inside_2 _let_17 _let_1) (tptp.is_inside_2 _let_18 _let_1) (not (= _let_18 _let_17)) (not (= _let_17 _let_16)) (not (= _let_17 _let_18)) (= _let_24 _let_15) (= _let_24 _let_14) (= _let_3 _let_13) (= _let_19 _let_11) (= _let_17 _let_6) (= _let_3 _let_12) (= _let_1 _let_23) (= _let_22 _let_9) (= _let_22 _let_8) (= _let_18 _let_9) (= _let_21 _let_20) (= _let_18 _let_8) (= _let_16 _let_4) (= _let_19 _let_10) (= _let_18 _let_7) (= _let_17 _let_5) (= _let_16 _let_2) (= _let_15 _let_14) (= _let_14 _let_8) (= _let_8 _let_9) (= _let_8 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_death_1 X))) (let ((_let_2 (tptp.fn_death_2 X))) (=> (tptp.death_1 X) (and (tptp.original_name_2 X |tptp.'Death'|) (tptp.user_description_2 X |tptp.'The event of dying or departure from life.'|) (tptp.concept2words_2 X tptp.die) (tptp.concept2words_2 X tptp.death) (tptp.macrophysiological_process_1 X) (tptp.tangible_entity_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.death_signal_1 X) (and (tptp.original_name_2 X |tptp.'Death-Signal'|) (tptp.user_description_2 X |tptp.'Cell signal which carries the message which induces programmed cell death (apoptosis).'|) (tptp.concept2words_2 X |tptp.'signal of death'|) (tptp.concept2words_2 X |tptp.'death signal'|) (tptp.concept2words_2 X |tptp.'death-signal'|) (tptp.signal_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_debris_1 X))) (=> (tptp.debris_1 X) (and (tptp.original_name_2 X |tptp.'Debris'|) (tptp.user_description_2 X |tptp.'Debris is rubble, wreckage, and discarded garbage/refuse/trash, scattered remains of something destroyed, or, in geology, large rock fragments left by a melting glacier, etc.'|) (tptp.concept2words_2 X tptp.debris) (tptp.physical_object_1 X) (tptp.destroy_1 _let_1) (tptp.result_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.decapod_1 X) (and (tptp.original_name_2 X |tptp.'Decapod'|) (tptp.user_description_2 X |tptp.'A member of the group of crustaceans that includes lobsters, crayfishes, crabs, and shrimps.'|) (tptp.concept2words_2 X tptp.decapod) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.clawed_lobster_1 X)) (not (tptp.copepod_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.isopod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_2 (tptp.fn_decarboxylation_2 X))) (let ((_let_3 (tptp.fn_remove_1 _let_2))) (let ((_let_4 (tptp.fn_decarboxylation_1 X))) (=> (tptp.decarboxylation_1 X) (and (tptp.original_name_2 X |tptp.'Decarboxylation'|) (tptp.user_description_2 X |tptp.'Chemical reaction which involves the removal of carbon dioxide from the reactant.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.decarboxylate) (tptp.concept2words_2 X tptp.decarboxylation) (tptp.decomposition_reaction_1 X) (tptp.carbon_dioxide_1 _let_4) (tptp.remove_1 _let_2) (tptp.spatial_entity_1 _let_3) (tptp.object_2 _let_2 _let_4) (tptp.result_2 X _let_4) (= _let_4 _let_3) (= _let_4 _let_1) (= _let_3 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deceive_1 X))) (let ((_let_2 (tptp.fn_interpret_1 _let_1))) (let ((_let_3 (tptp.fn_express_1 X))) (let ((_let_4 (tptp.fn_interpret_2 _let_1))) (let ((_let_5 (tptp.fn_deceive_3 X))) (let ((_let_6 (tptp.fn_deceive_2 X))) (=> (tptp.deceive_1 X) (and (tptp.original_name_2 X |tptp.'Deceive'|) (tptp.concept2words_2 X tptp.deceive) (tptp.concept2words_2 X |tptp.'lead on'|) (tptp.concept2words_2 X tptp.lead_on) (tptp.concept2words_2 X tptp.delude) (tptp.concept2words_2 X tptp.cozen) (tptp.concept2words_2 X tptp.betray) (tptp.concept2words_2 X |tptp.'lead astray'|) (tptp.concept2words_2 X tptp.lead_astray) (tptp.concept2words_2 X tptp.lie) (tptp.lie_1 X) (tptp.interpret_1 _let_1) (tptp.message_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.message_1 _let_2) (tptp.objective_2 X _let_1) (tptp.causes_2 X _let_1) (tptp.recipient_2 X _let_5) (tptp.result_2 X _let_6) (tptp.object_2 _let_1 _let_6) (tptp.agent_2 _let_1 _let_5) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposer_2 X))) (let ((_let_2 (tptp.fn_food_1 _let_1))) (let ((_let_3 (tptp.fn_heterotroph_3 X))) (let ((_let_4 (tptp.fn_decomposer_6 X))) (let ((_let_5 (tptp.fn_food_2 _let_1))) (let ((_let_6 (tptp.fn_decomposer_3 X))) (let ((_let_7 (tptp.fn_food_3 _let_1))) (let ((_let_8 (tptp.fn_decomposer_5 X))) (let ((_let_9 (tptp.fn_food_4 _let_1))) (let ((_let_10 (tptp.fn_decomposer_4 X))) (let ((_let_11 (tptp.fn_decomposer_1 X))) (=> (tptp.decomposer_1 X) (and (tptp.original_name_2 X |tptp.'Decomposer'|) (tptp.user_description_2 X |tptp.'Decomposers (or saprotrophs) are organisms that break down dead or decaying organisms, and in doing so carry out the natural process of decomposition. Like herbivores and predators, decomposers are heterotrophic, meaning that they use organic substrates to get their energy, carbon and nutrients for growth and development. Decomposers use deceased organisms and non-living organic compounds as their food source.'|) (tptp.concept2words_2 X tptp.saprotroph) (tptp.concept2words_2 X tptp.decomposer) (tptp.heterotroph_1 X) (not (tptp.chemoheterotroph_1 X)) (not (tptp.obligate_aerobe_1 X)) (not (tptp.obligate_anaerobe_1 X)) (not (tptp.parasite_1 X)) (not (tptp.photoheterotroph_1 X)) (not (tptp.primary_consumer_1 X)) (not (tptp.secondary_consumer_1 X)) (not (tptp.tertiary_consumer_1 X)) (tptp.organism_1 _let_11) (tptp.food_1 _let_1) (tptp.polymer_1 _let_6) (tptp.organic_molecule_1 _let_10) (tptp.detritus_1 _let_8) (tptp.nutrition_1 _let_4) (tptp.organic_molecule_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.polymer_1 _let_5) (tptp.nutrition_1 _let_2) (tptp.plays_2 _let_8 _let_1) (tptp.in_event_2 X _let_4) (tptp.agent_2 _let_4 _let_11) (tptp.plays_2 _let_11 X) (tptp.in_event_2 _let_1 _let_4) (tptp.raw_material_2 _let_4 _let_6) (tptp.has_part_2 _let_8 _let_6) (tptp.has_part_2 _let_8 _let_10) (tptp.raw_material_2 _let_4 _let_10) (= _let_11 (tptp.fn_heterotroph_2 X)) (= _let_4 _let_3) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_4 _let_2) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.decomposers_1 X) (and (tptp.original_name_2 X |tptp.'Decomposers'|) (tptp.user_description_2 X |tptp.'Group of organisms in an ecosystem which derives energy and nutrients from detritus through the process of decomposition.'|) (tptp.concept2words_2 X tptp.decomposer) (tptp.trophic_level_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposition_5 X))) (let ((_let_2 (tptp.fn_biofilm_2 _let_1))) (let ((_let_3 (tptp.fn_decomposition_11 X))) (let ((_let_4 (tptp.fn_detritivore_10 _let_3))) (let ((_let_5 (tptp.fn_biofilm_1 _let_1))) (let ((_let_6 (tptp.fn_decomposition_6 X))) (let ((_let_7 (tptp.fn_decomposition_7 X))) (let ((_let_8 (tptp.fn_biofilm_3 _let_1))) (let ((_let_9 (tptp.fn_decomposition_4 X))) (let ((_let_10 (tptp.fn_detritivore_16 _let_3))) (let ((_let_11 (tptp.fn_decomposition_10 X))) (let ((_let_12 (tptp.fn_decomposition_13 X))) (let ((_let_13 (tptp.fn_detritivore_10 _let_12))) (let ((_let_14 (tptp.fn_decomposition_14 X))) (let ((_let_15 (tptp.fn_decomposition_12 X))) (let ((_let_16 (tptp.fn_detritivore_16 _let_15))) (let ((_let_17 (tptp.fn_decomposition_9 X))) (let ((_let_18 (tptp.fn_decomposition_8 X))) (let ((_let_19 (tptp.fn_fungus_1 _let_18))) (let ((_let_20 (tptp.fn_detritivore_10 _let_15))) (let ((_let_21 (tptp.fn_decomposition_2 X))) (let ((_let_22 (tptp.fn_decomposition_1 X))) (let ((_let_23 (tptp.fn_decomposition_3 X))) (=> (tptp.decomposition_1 X) (and (tptp.original_name_2 X |tptp.'Decomposition'|) (tptp.user_description_2 X |tptp.'A process of decomposing dead organic material into its constituent nutrients.'|) (tptp.concept2words_2 X tptp.decompose) (tptp.concept2words_2 X tptp.decomposition) (tptp.biological_process_1 X) (tptp.organic_molecule_1 _let_22) (tptp.inorganic_molecule_1 _let_21) (tptp.detritus_1 _let_23) (tptp.surface_1 _let_9) (tptp.biofilm_1 _let_1) (tptp.population_1 _let_6) (tptp.living_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.organism_1 _let_7) (tptp.prokaryote_1 _let_7) (tptp.living_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.organism_1 _let_18) (tptp.fungus_1 _let_18) (tptp.nutrition_1 _let_17) (tptp.nutrition_1 _let_11) (tptp.detritivore_1 _let_3) (tptp.decomposer_1 _let_15) (tptp.detritivore_1 _let_15) (tptp.detritivore_1 _let_12) (tptp.living_entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.organism_1 _let_14) (tptp.living_entity_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.organism_1 _let_20) (tptp.decomposer_1 _let_19) (tptp.nutrition_1 _let_16) (tptp.living_entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.organism_1 _let_13) (tptp.nutrition_1 _let_10) (tptp.surface_1 _let_8) (tptp.population_1 _let_5) (tptp.living_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.organism_1 _let_4) (tptp.prokaryote_1 _let_2) (tptp.is_on_2 _let_9 _let_23) (tptp.raw_material_2 _let_17 _let_23) (tptp.raw_material_2 _let_11 _let_23) (tptp.object_2 X _let_23) (tptp.result_2 X _let_22) (tptp.result_2 X _let_21) (tptp.agent_2 X _let_14) (tptp.agent_2 X _let_7) (tptp.agent_2 X _let_18) (tptp.agent_2 _let_17 _let_18) (tptp.plays_2 _let_14 _let_12) (tptp.in_event_2 _let_3 _let_11) (tptp.agent_2 _let_11 _let_7) (tptp.plays_2 _let_7 _let_3) (tptp.is_at_2 _let_1 _let_9) (tptp.element_2 _let_1 _let_6) (tptp.element_2 _let_6 _let_7) (= _let_18 _let_20) (= _let_15 _let_19) (= _let_17 _let_16) (= _let_14 _let_13) (= _let_7 _let_4) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_2 (tptp.fn_decomposition_reaction_5 X))) (let ((_let_3 (tptp.fn_decomposition_reaction_2 X))) (let ((_let_4 (tptp.fn_decomposition_reaction_1 X))) (let ((_let_5 (tptp.fn_decomposition_reaction_3 X))) (=> (tptp.decomposition_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Decomposition-Reaction'|) (tptp.user_description_2 X |tptp.'A decomposition reaction is a chemical reaction in which one compound is split into two or more chemical subunits.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of decomposition'|) (tptp.concept2words_2 X |tptp.'decomposition reaction'|) (tptp.concept2words_2 X |tptp.'decomposition-reaction'|) (tptp.chemical_reaction_1 X) (tptp.energy_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_bond_1 _let_5) (tptp.chemical_entity_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.possesses_2 _let_2 _let_5) (tptp.raw_material_2 X _let_4) (tptp.result_2 X _let_3) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1) (= _let_2 (tptp.fn_chemical_reaction_2 X)) (= _let_1 (tptp.fn_chemical_reaction_1 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decrease_4 X))) (let ((_let_2 (tptp.fn_decrease_3 X))) (=> (tptp.decrease_1 X) (and (tptp.original_name_2 X |tptp.'Decrease'|) (tptp.concept2words_2 X tptp.decrease) (tptp.concept2words_2 X tptp.diminish) (tptp.concept2words_2 X tptp.lessen) (tptp.concept2words_2 X tptp.fall) (tptp.concept2words_2 X tptp.minify) (tptp.concept2words_2 X tptp.shorten) (tptp.change_1 X) (tptp.property_value_1 _let_2) (tptp.property_value_1 _let_1) (tptp.to_value_2 X _let_1) (tptp.from_value_2 X _let_2) (tptp.greater_than_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.deductive_reasoning_1 X) (and (tptp.original_name_2 X |tptp.'Deductive-Reasoning'|) (tptp.user_description_2 X |tptp.'The process of reasoning from a general premise to a specific prediction.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'deductive reasoning'|) (tptp.concept2words_2 X |tptp.'deductive-reasoning'|) (tptp.scientific_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.deep_green_1 X) (and (tptp.original_name_2 X |tptp.'Deep-Green'|) (tptp.user_description_2 X |tptp.'An international research initiative that consists of several research groups focusing on some aspect of green plant phylogeny or systematics. These research groups are collectively known as the Green Plant Phylogeny Research Coordination Group (GPPRCG).'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'green of deep'|) (tptp.concept2words_2 X |tptp.'deep green'|) (tptp.concept2words_2 X |tptp.'deep-green'|) (tptp.phylogeny_1 X) (not (tptp.binomial_nomenclature_1 X)) (not (tptp.branch_point_1 X)) (not (tptp.cladistics_1 X)) (not (tptp.molecular_systematics_1 X)) (not (tptp.paraphyletic_1 X)) (not (tptp.phylocode_1 X)) (not (tptp.phylogenetic_bracketing_1 X)) (not (tptp.taxonomy_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ecosystem_30 X))) (let ((_let_2 (tptp.fn_deep_sea_hydrothermal_vent_8 X))) (let ((_let_3 (tptp.fn_autotroph_11 _let_2))) (let ((_let_4 (tptp.fn_ecosystem_9 X))) (let ((_let_5 (tptp.fn_aquatic_ecosystem_9 X))) (let ((_let_6 (tptp.fn_deep_sea_hydrothermal_vent_5 X))) (let ((_let_7 (tptp.fn_deep_sea_hydrothermal_vent_2 X))) (let ((_let_8 (tptp.fn_deep_sea_hydrothermal_vent_9 X))) (let ((_let_9 (tptp.fn_deep_sea_hydrothermal_vent_3 X))) (let ((_let_10 (tptp.fn_deep_sea_hydrothermal_vent_6 X))) (let ((_let_11 (tptp.fn_electromagnetic_energy_3 _let_10))) (let ((_let_12 (tptp.fn_deep_sea_hydrothermal_vent_4 X))) (let ((_let_13 (tptp.fn_electromagnetic_energy_2 _let_10))) (let ((_let_14 (tptp.fn_deep_sea_hydrothermal_vent_1 X))) (let ((_let_15 (tptp.concept2words_2 X |tptp.'deep-sea-volcanic-spring'|))) (let ((_let_16 (tptp.concept2words_2 X |tptp.'deep sea volcanic spring'|))) (let ((_let_17 (tptp.concept2words_2 X |tptp.'black-smoker'|))) (let ((_let_18 (tptp.concept2words_2 X |tptp.'black smoker'|))) (=> (tptp.deep_sea_hydrothermal_vent_1 X) (and (tptp.original_name_2 X |tptp.'Deep-Sea-Hydrothermal-Vent'|) (tptp.user_description_2 X |tptp.'Crack in the crust of the ocean floor near the ocean ridge systems. Vents discharge super-hot and sulfide-rich water into the ocean and are the basis for a chemosynthesis-based deep-sea ecosystem.'|) (tptp.concept2words_2 X |tptp.'deep sea hot spring'|) (tptp.concept2words_2 X |tptp.'deep-sea-hot-spring'|) _let_16 _let_15 _let_18 _let_17 _let_18 _let_17 _let_16 _let_15 (tptp.concept2words_2 X |tptp.'deep sea hydrothermal vent'|) (tptp.concept2words_2 X |tptp.'deep-sea hydrothermal vent'|) (tptp.concept2words_2 X |tptp.'deep-sea-hydrothermal-vent'|) (tptp.aquatic_ecosystem_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X)) (tptp.energy_source_1 _let_14) (tptp.producers_1 _let_7) (tptp.organism_1 _let_9) (tptp.quantity_value_1 _let_12) (tptp.community_1 _let_6) (tptp.sunlight_1 _let_10) (tptp.chemoautotroph_1 _let_2) (tptp.population_1 _let_8) (tptp.property_node_1 _let_13) (tptp.quantity_value_1 _let_11) (tptp.organism_1 _let_3) (tptp.the_scalar_value_2 _let_12 tptp.low_0) (tptp.scalar_unit_class_2 _let_12 tptp.light_0) (tptp.plays_2 _let_10 _let_14) (tptp.element_2 X _let_10) (tptp.plays_2 _let_9 _let_2) (tptp.quantity_2 _let_10 _let_12) (tptp.element_2 X _let_6) (tptp.element_2 _let_6 _let_7) (tptp.element_2 _let_7 _let_8) (tptp.element_2 _let_8 _let_9) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 _let_3) (= (tptp.fn_deep_sea_hydrothermal_vent_7 X) _let_13) (= _let_12 _let_11) (= _let_9 _let_1) (= _let_8 (tptp.fn_ecosystem_2 X)) (= _let_7 (tptp.fn_ecosystem_21 X)) (= _let_6 (tptp.fn_ecosystem_18 X)) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_1)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.deepen_1 X) (and (tptp.original_name_2 X |tptp.'Deepen'|) (tptp.user_description_2 X |tptp.'Increase in depth.'|) (tptp.concept2words_2 X tptp.deepen) (tptp.increase_1 X)))) (forall ((X $$unsorted)) (=> (tptp.defective_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Defective-Chromosome'|) (tptp.user_description_2 X |tptp.'A chromosome that has become defective due to mutation or any other cellular processes.'|) (tptp.concept2words_2 X |tptp.'defective chromosome'|) (tptp.concept2words_2 X |tptp.'defective-chromosome'|) (tptp.chromosome_1 X) (not (tptp.yeast_artificial_chromosome_1 X)) (not (tptp.sex_chromosome_1 X)) (not (tptp.recombinant_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X)) (not (tptp.autosome_1 X)) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_21_1 X)) (not (tptp.chromosome_fragment_1 X)) (not (tptp.eukaryotic_chromosome_1 X)) (not (tptp.homologous_chromosome_1 X)) (not (tptp.human_chromosome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.defense_1 X) (and (tptp.original_name_2 X |tptp.'Defense'|) (tptp.concept2words_2 X tptp.protect) (tptp.concept2words_2 X tptp.defend) (tptp.concept2words_2 X tptp.defense) (tptp.concept2words_2 X tptp.protection) (tptp.action_1 X)))) (forall ((X $$unsorted)) (=> (tptp.defensive_protein_1 X) (and (tptp.original_name_2 X |tptp.'Defensive-Protein'|) (tptp.user_description_2 X |tptp.'Proteins acting as defensive agents are called defensive proteins.'|) (tptp.concept2words_2 X |tptp.'protein of defensive'|) (tptp.concept2words_2 X |tptp.'defensive protein'|) (tptp.concept2words_2 X |tptp.'defensive-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.deforestation_1 X) (and (tptp.original_name_2 X |tptp.'Deforestation'|) (tptp.user_description_2 X |tptp.'The clearance of forests by logging and/or burning, on land that is then converted to non-forest use.'|) (tptp.concept2words_2 X tptp.deforest) (tptp.concept2words_2 X tptp.deforestation) (tptp.human_driven_disturbance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.degenerative_model_1 X) (and (tptp.original_name_2 X |tptp.'Degenerative-model'|) (tptp.user_description_2 X |tptp.'Degenerative model refers to model used to study progressive impairment of both the structure and function of part of the body.'|) (tptp.concept2words_2 X |tptp.'degenerative model'|) (tptp.concept2words_2 X |tptp.'degenerative-model'|) (tptp.in_situ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.degradation_1 X) (and (tptp.original_name_2 X |tptp.'Degradation'|) (tptp.user_description_2 X |tptp.'A process of decomposition which occurs in stages over time.'|) (tptp.concept2words_2 X tptp.degrade) (tptp.concept2words_2 X tptp.degradation) (tptp.damage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.degranulation_1 X) (and (tptp.original_name_2 X |tptp.'Degranulation'|) (tptp.user_description_2 X |tptp.'The release of histamines and other inflammatory agents from the vesicles of certain cells of the immune system.'|) (tptp.concept2words_2 X tptp.degranulate) (tptp.concept2words_2 X tptp.degranulation) (tptp.exocytosis_1 X) (tptp.release_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dehydration_reaction_5 X))) (let ((_let_2 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_3 (tptp.fn_dehydration_reaction_7 X))) (let ((_let_4 (tptp.fn_molecule_7 _let_3))) (let ((_let_5 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_6 (tptp.fn_molecule_10 _let_3))) (let ((_let_7 (tptp.fn_condensation_reaction_1 X))) (let ((_let_8 (tptp.fn_condensation_reaction_3 X))) (let ((_let_9 (tptp.fn_condensation_reaction_2 X))) (let ((_let_10 (tptp.fn_functional_group_1 _let_1))) (let ((_let_11 (tptp.fn_endergonic_reaction_9 X))) (let ((_let_12 (tptp.fn_dehydration_reaction_3 X))) (let ((_let_13 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_14 (tptp.fn_dehydration_reaction_4 X))) (let ((_let_15 (tptp.fn_dehydration_reaction_2 X))) (let ((_let_16 (tptp.fn_dehydration_reaction_8 X))) (let ((_let_17 (tptp.fn_dehydration_reaction_6 X))) (let ((_let_18 (tptp.fn_dehydration_reaction_1 X))) (=> (tptp.dehydration_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Dehydration-Reaction'|) (tptp.user_description_2 X |tptp.'A dehydration reaction is defined as a chemical reaction that involves the loss of water from the reacting molecule. Dehydration reactions are a subset of elimination reactions.'|) (tptp.concept2words_2 X |tptp.'dehydration synthesis'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of dehydration'|) (tptp.concept2words_2 X |tptp.'dehydration reaction'|) (tptp.concept2words_2 X |tptp.'dehydration-reaction'|) (tptp.condensation_reaction_1 X) (tptp.free_energy_1 _let_18) (tptp.chemical_bond_1 _let_15) (tptp.polar_covalent_bond_1 _let_15) (tptp.atom_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.hydrogen_1 _let_14) (tptp.hydroxyl_group_1 _let_1) (tptp.water_molecule_1 _let_17) (tptp.chemical_entity_1 _let_3) (tptp.molecule_1 _let_3) (tptp.molecule_1 _let_16) (tptp.hydrogen_1 _let_13) (tptp.chemical_entity_1 _let_10) (tptp.chemical_bond_1 _let_6) (tptp.polar_covalent_bond_1 _let_5) (tptp.atom_1 _let_4) (tptp.oxygen_1 _let_2) (tptp.possesses_2 _let_3 _let_18) (tptp.has_part_2 _let_3 _let_14) (tptp.possesses_2 _let_16 _let_18) (tptp.has_part_2 _let_3 _let_12) (tptp.possesses_2 _let_3 _let_15) (tptp.has_region_2 _let_3 _let_1) (tptp.result_2 X _let_17) (not (= _let_17 _let_3)) (not (= _let_16 _let_17)) (not (= _let_17 _let_16)) (not (= _let_3 _let_17)) (tptp.raw_material_2 X _let_3) (tptp.raw_material_2 X _let_16) (not (= _let_3 _let_16)) (not (= _let_16 _let_3)) (tptp.is_inside_2 _let_14 _let_1) (tptp.is_inside_2 _let_12 _let_1) (tptp.is_between_2 _let_15 _let_12) (tptp.is_between_2 _let_15 _let_14) (not (= _let_14 _let_12)) (not (= _let_12 _let_14)) (= _let_12 _let_4) (= _let_15 _let_6) (= _let_3 _let_10) (= _let_17 _let_11) (= _let_17 _let_8) (= _let_16 _let_8) (= _let_3 _let_9) (= _let_16 _let_7) (= _let_15 _let_5) (= _let_14 _let_13) (= _let_12 _let_2) (= _let_8 _let_8) (= _let_8 _let_11) (= _let_11 _let_8) (= _let_8 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dehydrogenase_26 X))) (let ((_let_2 (tptp.fn_reduction_1 _let_1))) (let ((_let_3 (tptp.fn_dehydrogenase_25 X))) (let ((_let_4 (tptp.fn_oxidation_7 _let_3))) (let ((_let_5 (tptp.fn_dehydrogenase_9 X))) (let ((_let_6 (tptp.fn_attach_2 _let_5))) (let ((_let_7 (tptp.fn_oxidoreductase_12 X))) (let ((_let_8 (tptp.fn_protein_enzyme_6 X))) (let ((_let_9 (tptp.fn_organic_molecule_3 X))) (let ((_let_10 (tptp.fn_oxidoreductase_3 X))) (let ((_let_11 (tptp.fn_organic_molecule_1 X))) (let ((_let_12 (tptp.fn_oxidoreductase_5 X))) (let ((_let_13 (tptp.fn_oxidoreductase_4 X))) (let ((_let_14 (tptp.fn_protein_enzyme_9 X))) (let ((_let_15 (tptp.fn_oxidoreductase_6 X))) (let ((_let_16 (tptp.fn_protein_enzyme_3 X))) (let ((_let_17 (tptp.fn_oxidoreductase_11 X))) (let ((_let_18 (tptp.fn_enzyme_4 X))) (let ((_let_19 (tptp.fn_dehydrogenase_24 X))) (let ((_let_20 (tptp.fn_reactant_2 _let_19))) (let ((_let_21 (tptp.fn_protein_enzyme_11 X))) (let ((_let_22 (tptp.fn_protein_14 X))) (let ((_let_23 (tptp.fn_protein_enzyme_10 X))) (let ((_let_24 (tptp.fn_enzyme_2 X))) (let ((_let_25 (tptp.fn_protein_enzyme_7 X))) (let ((_let_26 (tptp.fn_organic_molecule_2 X))) (let ((_let_27 (tptp.fn_reduction_4 _let_1))) (let ((_let_28 (tptp.fn_dehydrogenase_29 X))) (let ((_let_29 (tptp.fn_redox_reaction_7 _let_28))) (let ((_let_30 (tptp.fn_oxidation_9 _let_3))) (let ((_let_31 (tptp.fn_reduction_3 _let_1))) (let ((_let_32 (tptp.fn_redox_reaction_16 _let_28))) (let ((_let_33 (tptp.fn_oxidation_10 _let_3))) (let ((_let_34 (tptp.fn_redox_reaction_12 _let_28))) (let ((_let_35 (tptp.fn_reactant_3 _let_19))) (let ((_let_36 (tptp.fn_attach_1 _let_5))) (let ((_let_37 (tptp.fn_dehydrogenase_14 X))) (let ((_let_38 (tptp.fn_dehydrogenase_11 X))) (let ((_let_39 (tptp.fn_dehydrogenase_10 X))) (let ((_let_40 (tptp.fn_dehydrogenase_33 X))) (let ((_let_41 (tptp.fn_dehydrogenase_18 X))) (let ((_let_42 (tptp.fn_dehydrogenase_19 X))) (let ((_let_43 (tptp.fn_dehydrogenase_13 X))) (let ((_let_44 (tptp.fn_dehydrogenase_34 X))) (let ((_let_45 (tptp.fn_dehydrogenase_8 X))) (let ((_let_46 (tptp.fn_dehydrogenase_17 X))) (let ((_let_47 (tptp.fn_dehydrogenase_28 X))) (let ((_let_48 (tptp.fn_dehydrogenase_15 X))) (let ((_let_49 (tptp.fn_dehydrogenase_16 X))) (let ((_let_50 (tptp.fn_dehydrogenase_37 X))) (let ((_let_51 (tptp.fn_dehydrogenase_31 X))) (let ((_let_52 (tptp.fn_dehydrogenase_27 X))) (let ((_let_53 (tptp.fn_dehydrogenase_12 X))) (let ((_let_54 (tptp.fn_dehydrogenase_35 X))) (let ((_let_55 (tptp.fn_dehydrogenase_36 X))) (let ((_let_56 (tptp.fn_dehydrogenase_32 X))) (let ((_let_57 (tptp.fn_dehydrogenase_20 X))) (let ((_let_58 (tptp.fn_dehydrogenase_30 X))) (let ((_let_59 (tptp.fn_reduction_5 _let_1))) (let ((_let_60 (tptp.fn_dehydrogenase_21 X))) (let ((_let_61 (tptp.fn_redox_reaction_11 _let_28))) (let ((_let_62 (tptp.fn_redox_reaction_10 _let_28))) (let ((_let_63 (tptp.fn_dehydrogenase_22 X))) (let ((_let_64 (tptp.fn_oxidation_8 _let_3))) (let ((_let_65 (tptp.fn_dehydrogenase_23 X))) (let ((_let_66 (tptp.fn_dehydrogenase_7 X))) (let ((_let_67 (tptp.fn_dehydrogenase_5 X))) (let ((_let_68 (tptp.fn_dehydrogenase_4 X))) (let ((_let_69 (tptp.fn_dehydrogenase_6 X))) (=> (tptp.dehydrogenase_1 X) (and (tptp.original_name_2 X |tptp.'Dehydrogenase'|) (tptp.user_description_2 X |tptp.'A dehydrogenase (also called DHO in the literature) is an enzyme that oxidizes a substrate by transferring one or more hydrides (H?) to an acceptor, usually NAD+/NADP+ or a flavin coenzyme such as FAD or FMN.'|) (tptp.concept2words_2 X tptp.dho) (tptp.concept2words_2 X tptp.dehydrogenase) (tptp.oxidoreductase_1 X) (tptp.angle_value_1 _let_68) (tptp.hydrogen_ion_1 _let_67) (tptp.rate_value_1 _let_69) (tptp.quantity_value_1 _let_66) (tptp.r_group_1 _let_45) (tptp.attach_1 _let_5) (tptp.monomer_1 _let_39) (tptp.atom_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.carbon_1 _let_38) (tptp.kinetic_energy_1 _let_53) (tptp.protein_domain_1 _let_43) (tptp.carbon_skeleton_1 _let_37) (tptp.hydrophilic_region_1 _let_48) (tptp.surface_1 _let_49) (tptp.active_site_1 _let_46) (tptp.size_value_1 _let_41) (tptp.chemical_reaction_1 _let_42) (tptp.tangible_entity_1 _let_57) (tptp.electron_1 _let_57) (tptp.reducing_agent_1 _let_60) (tptp.organic_molecule_1 _let_63) (tptp.electron_donor_1 _let_65) (tptp.substrate_1 _let_19) (tptp.oxidation_1 _let_3) (tptp.reduction_1 _let_1) (tptp.catalyst_1 _let_52) (tptp.atom_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.carbon_1 _let_47) (tptp.redox_reaction_1 _let_28) (tptp.chemical_entity_1 _let_58) (tptp.decrease_1 _let_51) (tptp.constant_motion_1 _let_56) (tptp.size_value_1 _let_40) (tptp.spatial_entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.monomer_1 _let_44) (tptp.molecule_1 _let_44) (tptp.amino_acid_1 _let_44) (tptp.quantity_value_1 _let_54) (tptp.speed_value_1 _let_55) (tptp.polypeptide_1 _let_50) (tptp.electron_donor_1 _let_64) (tptp.reduction_1 _let_62) (tptp.oxidation_1 _let_61) (tptp.reducing_agent_1 _let_59) (tptp.spatial_entity_1 _let_36) (tptp.chemical_entity_1 _let_35) (tptp.chemical_entity_1 _let_34) (tptp.chemical_entity_1 _let_33) (tptp.chemical_entity_1 _let_32) (tptp.chemical_entity_1 _let_31) (tptp.electron_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.electron_1 _let_29) (tptp.electron_1 _let_27) (tptp.chemical_reaction_1 _let_20) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.directly_proportional_2 _let_66 _let_69) (tptp.enables_2 _let_5 _let_42) (tptp.site_2 _let_5 _let_46) (tptp.rate_2 _let_42 _let_69) (tptp.object_2 _let_3 _let_67) (tptp.exactCardinality _let_3 tptp.object_0 |"2"| tptp.hydrogen_ion_0) (tptp.exactCardinality _let_3 tptp.object_0 |"2"| tptp.electron_0) (tptp.direction_2 _let_3 _let_68) (tptp.object_2 _let_1 _let_67) (tptp.exactCardinality _let_1 tptp.object_0 |"2"| tptp.electron_0) (tptp.minCardinality _let_1 tptp.object_0 |"1"| tptp.hydrogen_ion_0) (tptp.has_function_2 X _let_28) (tptp.is_specific_to_2 X _let_63) (tptp.quantity_2 X _let_66) (tptp.object_2 _let_5 _let_63) (tptp.base_2 _let_5 X) (tptp.plays_2 _let_63 _let_60) (tptp.in_event_2 _let_19 _let_42) (tptp.raw_material_2 _let_42 _let_63) (tptp.plays_2 _let_63 _let_19) (tptp.raw_material_2 _let_28 _let_63) (tptp.donor_2 _let_1 _let_63) (not (= _let_58 _let_63)) (not (= _let_63 _let_58)) (not (= _let_63 _let_57)) (not (= _let_57 _let_63)) (tptp.donor_2 _let_3 _let_63) (tptp.plays_2 _let_63 _let_65) (tptp.in_event_2 _let_65 _let_3) (not (= X _let_63)) (not (= _let_63 X)) (not (= _let_47 _let_38)) (not (= _let_38 _let_47)) (tptp.object_2 _let_3 _let_57) (tptp.raw_material_2 _let_28 _let_58) (tptp.recipient_2 _let_3 _let_58) (tptp.subevent_2 _let_28 _let_3) (tptp.subevent_2 _let_28 _let_1) (not (= _let_57 _let_58)) (tptp.recipient_2 _let_1 _let_58) (tptp.in_event_2 _let_60 _let_1) (not (= _let_58 _let_57)) (tptp.object_2 _let_1 _let_57) (not (= X _let_57)) (not (= _let_58 X)) (not (= X _let_58)) (not (= _let_57 X)) (tptp.possesses_2 X _let_53) (tptp.quantity_2 _let_53 _let_54) (tptp.directly_proportional_2 _let_55 _let_54) (tptp.speed_2 _let_56 _let_55) (tptp.object_2 _let_56 X) (tptp.plays_2 X _let_52) (tptp.has_function_2 X _let_51) (tptp.enables_2 _let_51 _let_42) (tptp.site_2 _let_42 _let_46) (tptp.facilitates_2 _let_46 _let_42) (tptp.in_event_2 _let_52 _let_42) (tptp.has_region_2 X _let_48) (tptp.is_at_2 _let_48 _let_49) (tptp.has_region_2 X _let_49) (tptp.has_part_2 X _let_50) (tptp.has_part_2 _let_50 _let_44) (tptp.has_part_2 X _let_47) (tptp.is_inside_2 _let_47 _let_37) (tptp.has_region_2 X _let_43) (tptp.is_at_2 _let_44 _let_43) (tptp.has_region_2 _let_44 _let_45) (tptp.is_inside_2 _let_45 _let_46) (tptp.has_region_2 X _let_46) (tptp.has_function_2 X _let_42) (tptp.the_scalar_value_2 _let_41 tptp.big_0) (tptp.scalar_unit_class_2 _let_41 tptp.polypeptide_0) (tptp.size_2 X _let_41) (tptp.greater_than_2 _let_41 _let_40) (tptp.has_region_2 X _let_37) (tptp.is_inside_2 _let_38 _let_37) (tptp.has_part_2 X _let_38) (tptp.has_part_2 X _let_39) (tptp.size_2 _let_39 _let_40) (= _let_63 _let_36) (= X _let_6) (= _let_63 _let_35) (= _let_42 _let_20) (= _let_63 _let_2) (= _let_63 _let_34) (= _let_65 _let_64) (= _let_63 _let_33) (= _let_47 _let_10) (= _let_47 _let_26) (= _let_57 _let_29) (= _let_1 _let_62) (= _let_58 _let_4) (= _let_3 _let_61) (= _let_58 _let_32) (= _let_60 _let_59) (= _let_58 _let_33) (= _let_58 _let_31) (= _let_57 _let_30) (= X _let_4) (= X _let_2) (= _let_57 _let_27) (= (tptp.fn_dehydrogenase_39 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_dehydrogenase_40 X) (tptp.fn_molecule_1 X)) (= _let_56 (tptp.fn_molecule_8 X)) (= _let_55 (tptp.fn_molecule_3 X)) (= _let_54 (tptp.fn_molecule_4 X)) (= _let_53 (tptp.fn_molecule_12 X)) (= _let_52 (tptp.fn_enzyme_6 X)) (= _let_46 _let_24) (= _let_42 _let_18) (= _let_51 (tptp.fn_enzyme_5 X)) (= _let_44 _let_22) (= _let_50 (tptp.fn_protein_8 X)) (= _let_49 (tptp.fn_protein_5 X)) (= _let_48 (tptp.fn_protein_1 X)) (= _let_47 _let_25) (= _let_46 _let_23) (= _let_45 (tptp.fn_protein_enzyme_12 X)) (= _let_44 _let_21) (= _let_43 (tptp.fn_protein_enzyme_5 X)) (= _let_42 _let_17) (= (tptp.fn_dehydrogenase_41 X) (tptp.fn_oxidoreductase_2 X)) (= (tptp.fn_dehydrogenase_38 X) (tptp.fn_oxidoreductase_1 X)) (= _let_41 _let_16) (= _let_41 _let_15) (= _let_40 (tptp.fn_oxidoreductase_8 X)) (= _let_39 _let_14) (= _let_39 _let_13) (= _let_38 _let_12) (= _let_38 _let_11) (= _let_38 _let_10) (= _let_37 _let_8) (= _let_37 _let_9) (= _let_37 _let_7) (= _let_36 _let_2) (= _let_35 _let_2) (= _let_2 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_4) (= _let_4 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_10) (= _let_26 _let_10) (= _let_10 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deletion_1 X))) (=> (tptp.deletion_1 X) (and (tptp.original_name_2 X |tptp.'Deletion'|) (tptp.user_description_2 X |tptp.'A deficiency in a chromosome resulting from the loss of a fragment through breakage. (2) A mutational loss of one or more nucleotide pairs from a gene.'|) (tptp.concept2words_2 X tptp.delete) (tptp.concept2words_2 X tptp.deletion) (tptp.mutation_1 X) (tptp.dna_sequence_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deletion_of_chromosome_fragment_1 X))) (let ((_let_2 (tptp.fn_lose_1 _let_1))) (let ((_let_3 (tptp.fn_deletion_of_chromosome_fragment_2 X))) (let ((_let_4 (tptp.fn_transfer_1 _let_1))) (let ((_let_5 (tptp.fn_deletion_of_chromosome_fragment_3 X))) (=> (tptp.deletion_of_chromosome_fragment_1 X) (and (tptp.original_name_2 X |tptp.'Deletion-Of-Chromosome-Fragment'|) (tptp.user_description_2 X |tptp.'An alteration of chromosome structure that occurs when a chromosomal fragment lacking a centromere is lost during cell division.'|) (tptp.concept2words_2 X tptp.delete) (tptp.concept2words_2 X |tptp.'deletion of chromosome fragment'|) (tptp.concept2words_2 X |tptp.'deletion-of-chromosome-fragment'|) (tptp.change_chromosome_structure_1 X) (tptp.deletion_1 X) (not (tptp.chromosomal_translocation_1 X)) (not (tptp.duplication_of_chromosome_fragment_1 X)) (not (tptp.inversion_of_chromosome_fragment_1 X)) (tptp.lose_1 _let_1) (tptp.chromosome_fragment_1 _let_3) (tptp.gene_1 _let_5) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_5) (tptp.donor_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deliver_1 X))) (=> (tptp.deliver_1 X) (and (tptp.original_name_2 X |tptp.'Deliver'|) (tptp.concept2words_2 X |tptp.'get in'|) (tptp.concept2words_2 X tptp.deliver) (tptp.concept2words_2 X |tptp.'hand over'|) (tptp.concept2words_2 X tptp.hand_over) (tptp.concept2words_2 X tptp.get_in) (tptp.concept2words_2 X tptp.render) (tptp.concept2words_2 X |tptp.'turn in'|) (tptp.concept2words_2 X tptp.turn_in) (tptp.transfer_1 X) (tptp.tangible_entity_1 _let_1) (tptp.recipient_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.delta_formin_yeast_1 X) (and (tptp.original_name_2 X |tptp.'Delta-Formin-Yeast'|) (tptp.user_description_2 X |tptp.'Modified strain of yeast cells which lacks the gene to produce formin, a molecule which plays a role in the formation of shmoos during yeast mating. This strain was used to study the signaling events involved in yeast mating.'|) (tptp.concept2words_2 X |tptp.'delta formin yeast'|) (tptp.concept2words_2 X |tptp.'delta-formin-yeast'|) (tptp.saccharomyces_cerevisiae_1 X)))) (forall ((X $$unsorted)) (=> (tptp.delta_fus3_yeast_1 X) (and (tptp.original_name_2 X |tptp.'Delta-Fus3-Yeast'|) (tptp.user_description_2 X |tptp.'Modified strain of yeast cells which lacks the gene to produce fus 3 kinase, a molecule which plays a role in the formation of shmoos during yeast mating. This strain was used to study the signaling events involved in yeast mating.'|) (tptp.concept2words_2 X |tptp.'delta fus3 yeast'|) (tptp.concept2words_2 X |tptp.'delta-fus3-yeast'|) (tptp.saccharomyces_cerevisiae_1 X)))) (forall ((X $$unsorted)) (=> (tptp.demographic_transition_1 X) (and (tptp.original_name_2 X |tptp.'Demographic-Transition'|) (tptp.user_description_2 X |tptp.'A shift from rapid population growth in which birth rate outpaces death rate to zero population growth characterized by low birth and death rates.'|) (tptp.concept2words_2 X |tptp.'transition of demographic'|) (tptp.concept2words_2 X |tptp.'demographic transition'|) (tptp.concept2words_2 X |tptp.'demographic-transition'|) (tptp.demography_1 X) (not (tptp.emigration_1 X)) (not (tptp.immigration_1 X))))) (forall ((X $$unsorted)) (=> (tptp.demography_1 X) (and (tptp.original_name_2 X |tptp.'Demography'|) (tptp.user_description_2 X |tptp.'The study of statistics relating to births and deaths in populations.'|) (tptp.concept2words_2 X tptp.demography) (tptp.population_process_1 X) (not (tptp.exponential_population_growth_1 X)) (not (tptp.extinction_vortex_1 X)) (not (tptp.logistic_population_growth_1 X)) (not (tptp.propagation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_denaturation_2 X))) (let ((_let_2 (tptp.fn_denaturation_1 X))) (=> (tptp.denaturation_1 X) (and (tptp.original_name_2 X |tptp.'Denaturation'|) (tptp.user_description_2 X |tptp.'A process by which proteins and nucleic acids lose their tertiary and secondary structure and become biologically inactive. Denaturation occurs under conditions of extreme temperature, pH, or salt concentration.'|) (tptp.concept2words_2 X tptp.denature) (tptp.concept2words_2 X tptp.denaturation) (tptp.biomolecular_process_1 X) (tptp.impair_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X)) (tptp.entity_1 _let_2) (tptp.organic_molecule_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_impair_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_denaturation_agent_1 X))) (=> (tptp.denaturation_agent_1 X) (and (tptp.original_name_2 X |tptp.'Denaturation-Agent'|) (tptp.user_description_2 X |tptp.'A force or chemical that disrupts the hydrogen bonds and side chain interactions in a protein, causing the protein to unfold.'|) (tptp.concept2words_2 X |tptp.'denaturing agent'|) (tptp.concept2words_2 X |tptp.'denaturing-agent'|) (tptp.concept2words_2 X |tptp.'agent of denaturation'|) (tptp.concept2words_2 X |tptp.'denaturation agent'|) (tptp.concept2words_2 X |tptp.'denaturation-agent'|) (tptp.agent_role_1 X) (tptp.denaturation_1 _let_1) (tptp.in_event_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_denaturation_2 X))) (let ((_let_2 (tptp.fn_denature_dna_5 X))) (let ((_let_3 (tptp.fn_hold_2 _let_2))) (let ((_let_4 (tptp.fn_denature_dna_3 X))) (let ((_let_5 (tptp.fn_heat_1 _let_4))) (let ((_let_6 (tptp.fn_denature_dna_6 X))) (let ((_let_7 (tptp.fn_move_apart_2 _let_6))) (let ((_let_8 (tptp.fn_heat_5 _let_4))) (let ((_let_9 (tptp.fn_denature_dna_4 X))) (let ((_let_10 (tptp.fn_heat_2 _let_4))) (let ((_let_11 (tptp.fn_denature_dna_7 X))) (let ((_let_12 (tptp.fn_move_apart_1 _let_6))) (let ((_let_13 (tptp.fn_denature_dna_2 X))) (let ((_let_14 (tptp.fn_denature_dna_1 X))) (=> (tptp.denature_dna_1 X) (and (tptp.original_name_2 X |tptp.'Denature-DNA'|) (tptp.user_description_2 X |tptp.'Denaturation of double-stranded DNA that results in two single strands of DNA. In this process, heat breaks the strands apart, preventing them from hydrogen bonding.'|) (tptp.concept2words_2 X |tptp.'dna denaturation'|) (tptp.concept2words_2 X tptp.denature) (tptp.concept2words_2 X |tptp.'dna of denature'|) (tptp.concept2words_2 X |tptp.'denature dna'|) (tptp.concept2words_2 X |tptp.'denature-dna'|) (tptp.denaturation_1 X) (not (tptp.protein_denaturation_1 X)) (tptp.break_1 _let_14) (tptp.dna_strand_1 _let_13) (tptp.heat_1 _let_4) (tptp.temperature_value_1 _let_9) (tptp.hold_together_1 _let_2) (tptp.move_apart_1 _let_6) (tptp.dna_strand_1 _let_11) (tptp.spatial_entity_1 _let_12) (tptp.property_node_1 _let_10) (tptp.temperature_value_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.base_2 _let_4 _let_13) (tptp.causes_2 _let_4 _let_14) (tptp.next_event_2 _let_4 _let_14) (tptp.causes_2 _let_14 _let_6) (tptp.next_event_2 _let_14 _let_6) (tptp.object_2 X _let_13) (tptp.result_2 X _let_13) (tptp.result_2 X _let_11) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.dna_strand_0) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_6) (tptp.first_subevent_2 X _let_4) (tptp.the_cardinal_value_2 _let_9 |"95.0e0"|) (tptp.cardinal_unit_class_2 _let_9 tptp.celsius_0) (tptp.object_2 _let_2 _let_13) (tptp.object_2 _let_6 _let_11) (tptp.object_2 _let_6 _let_13) (tptp.base_2 _let_4 _let_11) (tptp.object_2 _let_2 _let_11) (tptp.object_2 X _let_11) (tptp.to_value_2 _let_4 _let_9) (= _let_11 _let_7) (= _let_13 _let_12) (= _let_11 _let_5) (= _let_11 _let_3) (= _let_11 _let_1) (= (tptp.fn_denature_dna_8 X) _let_10) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1)))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.denatured_protein_1 X) (and (tptp.original_name_2 X |tptp.'Denatured-Protein'|) (tptp.user_description_2 X |tptp.'A biolgically inactive protein that has lost its functional conformation by exposure to a destabilizing agent such as heat or detergent.'|) (tptp.concept2words_2 X |tptp.'denatured protein'|) (tptp.concept2words_2 X |tptp.'denatured-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dendrite_2 X))) (let ((_let_2 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_3 (tptp.fn_integrin_30 _let_1))) (let ((_let_4 (tptp.fn_dendrite_1 X))) (let ((_let_5 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_6 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_7 (tptp.fn_animal_plasma_membrane_47 _let_4))) (let ((_let_8 (tptp.fn_animal_plasma_membrane_56 _let_4))) (let ((_let_9 (tptp.fn_dendrite_3 X))) (=> (tptp.dendrite_1 X) (and (tptp.original_name_2 X |tptp.'Dendrite'|) (tptp.user_description_2 X |tptp.'A branched extension of the soma of a neuron, that receives electrochemical stimulation from other neurons.'|) (tptp.concept2words_2 X tptp.dendrite) (tptp.region_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X)) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.animal_plasma_membrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.integrin_1 _let_1) (tptp.transmembrane_protein_1 _let_1) (tptp.organic_molecule_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.membrane_protein_1 _let_1) (tptp.protein_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.polymer_1 _let_1) (tptp.nerve_cell_1 _let_9) (tptp.animal_cell_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.membrane_protein_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.polymer_1 _let_7) (tptp.protein_1 _let_7) (tptp.organic_molecule_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.membrane_protein_1 _let_6) (tptp.protein_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.membrane_protein_1 _let_5) (tptp.protein_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.polymer_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.animal_plasma_membrane_1 _let_3) (tptp.plasma_membrane_1 _let_3) (tptp.biomembrane_1 _let_2) (tptp.is_at_2 _let_1 X) (tptp.has_region_2 _let_9 X) (tptp.has_part_2 _let_4 _let_1) (tptp.has_part_2 _let_9 _let_4) (tptp.called_2 _let_1 |tptp.'MP1'|) (= _let_9 _let_8) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_1 _let_7) (= _let_1 _let_6) (= _let_1 _let_5) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dendritic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Dendritic-Cell'|) (tptp.user_description_2 X |tptp.'Cells of the immune system that present antigens to helper T cells and thus initiate a primary immune response.'|) (tptp.concept2words_2 X |tptp.'dendritic cell'|) (tptp.concept2words_2 X |tptp.'dendritic-cell'|) (tptp.antigen_presenting_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposition_7 X))) (let ((_let_2 (tptp.fn_decomposition_14 X))) (let ((_let_3 (tptp.fn_decomposition_11 X))) (let ((_let_4 (tptp.fn_decomposition_13 X))) (let ((_let_5 (tptp.fn_denitrification_5 X))) (let ((_let_6 (tptp.fn_n2_gas_1 _let_5))) (let ((_let_7 (tptp.fn_denitrification_6 X))) (let ((_let_8 (tptp.fn_chemical_reaction_1 _let_7))) (let ((_let_9 (tptp.fn_denitrification_7 X))) (let ((_let_10 (tptp.fn_denitrification_2 X))) (let ((_let_11 (tptp.fn_denitrification_1 X))) (let ((_let_12 (tptp.fn_denitrification_3 X))) (let ((_let_13 (tptp.fn_chemical_reaction_2 _let_7))) (let ((_let_14 (tptp.fn_denitrification_4 X))) (=> (tptp.denitrification_1 X) (and (tptp.original_name_2 X |tptp.'Denitrification'|) (tptp.user_description_2 X |tptp.'The biological process of reducing nitrate through a number of intermediate forms and, ultimately, to molecular nitrogen. The only organisms capable of denitrification are certain prokaryotes.'|) (tptp.concept2words_2 X tptp.denitrify) (tptp.concept2words_2 X tptp.denitrification) (tptp.decomposition_1 X) (tptp.nutrition_1 _let_11) (tptp.detritivore_1 _let_10) (tptp.chemical_entity_1 _let_12) (tptp.nitrogen_molecule_1 _let_12) (tptp.nitrate_ion_1 _let_14) (tptp.n2_gas_1 _let_5) (tptp.chemical_reaction_1 _let_7) (tptp.denitrifying_bacterium_1 _let_9) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_8) (tptp.nitrogen_molecule_1 _let_6) (tptp.by_means_of_2 X _let_7) (tptp.has_function_2 _let_9 X) (tptp.result_2 _let_7 _let_12) (tptp.raw_material_2 _let_7 _let_14) (tptp.has_part_2 _let_5 _let_12) (tptp.agent_2 X _let_9) (tptp.plays_2 _let_9 _let_10) (tptp.in_event_2 _let_10 _let_11) (tptp.agent_2 _let_11 _let_9) (= _let_12 _let_8) (= _let_14 _let_13) (= _let_12 _let_6) (= _let_11 (tptp.fn_decomposition_10 X)) (= _let_10 _let_4) (= _let_10 _let_3) (= _let_9 _let_2) (= _let_9 _let_1) (= _let_8 _let_6) (= _let_6 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_denitrifying_bacterium_8 X))) (let ((_let_2 (tptp.fn_heterotroph_2 _let_1))) (let ((_let_3 (tptp.fn_bacterium_16 X))) (let ((_let_4 (tptp.fn_prokaryote_12 X))) (let ((_let_5 (tptp.fn_bacterium_5 X))) (let ((_let_6 (tptp.fn_cell_26 X))) (let ((_let_7 (tptp.fn_denitrifying_bacterium_21 X))) (let ((_let_8 (tptp.fn_denitrifying_bacterium_20 X))) (let ((_let_9 (tptp.fn_denitrifying_bacterium_17 X))) (let ((_let_10 (tptp.fn_denitrifying_bacterium_13 X))) (let ((_let_11 (tptp.fn_denitrifying_bacterium_19 X))) (let ((_let_12 (tptp.fn_denitrifying_bacterium_9 X))) (let ((_let_13 (tptp.fn_denitrifying_bacterium_11 X))) (let ((_let_14 (tptp.fn_denitrifying_bacterium_10 X))) (let ((_let_15 (tptp.fn_denitrifying_bacterium_3 X))) (let ((_let_16 (tptp.fn_denitrifying_bacterium_2 X))) (let ((_let_17 (tptp.fn_denitrifying_bacterium_14 X))) (let ((_let_18 (tptp.fn_denitrifying_bacterium_18 X))) (let ((_let_19 (tptp.fn_denitrifying_bacterium_15 X))) (let ((_let_20 (tptp.fn_denitrifying_bacterium_16 X))) (let ((_let_21 (tptp.fn_heterotroph_3 _let_1))) (let ((_let_22 (tptp.fn_denitrifying_bacterium_12 X))) (let ((_let_23 (tptp.fn_denitrifying_bacterium_1 X))) (=> (tptp.denitrifying_bacterium_1 X) (and (tptp.original_name_2 X |tptp.'Denitrifying-Bacterium'|) (tptp.user_description_2 X |tptp.'A type of bacterium that converts forms of inorganic nitrogen to nitrogen gas.'|) (tptp.concept2words_2 X |tptp.'denitrifying bacterium'|) (tptp.concept2words_2 X |tptp.'denitrifying-bacterium'|) (tptp.bacterium_1 X) (tptp.biotic_factor_1 _let_23) (tptp.chromosome_1 _let_16) (tptp.prokaryotic_chromosome_1 _let_16) (tptp.nucleoid_1 _let_15) (tptp.chemoheterotroph_1 _let_1) (tptp.volume_value_1 _let_12) (tptp.surface_1 _let_14) (tptp.size_value_1 _let_13) (tptp.nutrition_1 _let_22) (tptp.tangible_entity_1 _let_10) (tptp.phospholipid_bilayer_1 _let_10) (tptp.substance_1 _let_17) (tptp.cytosol_1 _let_17) (tptp.specific_heat_value_1 _let_19) (tptp.temperature_value_1 _let_20) (tptp.cell_wall_1 _let_9) (tptp.water_1 _let_18) (tptp.ribosome_1 _let_11) (tptp.prokaryotic_ribosome_1 _let_11) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.nutrition_1 _let_21) (tptp.organism_1 _let_2) (tptp.plays_2 X _let_23) (tptp.is_inside_2 _let_11 _let_17) (tptp.in_event_2 _let_1 _let_22) (tptp.agent_2 _let_22 X) (tptp.plays_2 X _let_1) (tptp.temperature_2 X _let_20) (tptp.has_part_2 X _let_18) (tptp.specific_heat_2 _let_18 _let_19) (tptp.correspondence_2 _let_20 _let_19) (tptp.has_region_2 X _let_15) (tptp.is_inside_2 _let_16 _let_15) (tptp.has_part_2 X _let_16) (tptp.has_part_2 _let_7 _let_17) (tptp.volume_2 X _let_12) (tptp.directly_proportional_2 _let_13 _let_12) (tptp.size_2 X _let_13) (tptp.has_region_2 X _let_14) (tptp.is_at_2 _let_10 _let_14) (tptp.has_part_2 X _let_11) (tptp.has_part_2 _let_8 _let_10) (tptp.has_part_2 X _let_7) (tptp.is_inside_2 _let_7 _let_8) (tptp.is_inside_2 _let_8 _let_9) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_8) (= X _let_2) (= _let_22 _let_21) (= (tptp.fn_denitrifying_bacterium_7 X) (tptp.fn_organism_6 X)) (= (tptp.fn_denitrifying_bacterium_4 X) (tptp.fn_organism_1 X)) (= _let_20 (tptp.fn_organism_2 X)) (= _let_19 (tptp.fn_organism_5 X)) (= _let_18 (tptp.fn_organism_4 X)) (= _let_17 (tptp.fn_prokaryote_10 X)) (= _let_16 (tptp.fn_prokaryote_9 X)) (= _let_15 (tptp.fn_prokaryote_18 X)) (= (tptp.fn_denitrifying_bacterium_6 X) (tptp.fn_cell_10 X)) (= (tptp.fn_denitrifying_bacterium_5 X) (tptp.fn_cell_23 X)) (= _let_10 _let_6) (= _let_14 (tptp.fn_cell_4 X)) (= _let_13 (tptp.fn_cell_11 X)) (= _let_12 (tptp.fn_cell_22 X)) (= _let_11 (tptp.fn_bacterium_14 X)) (= _let_10 _let_5) (= _let_9 (tptp.fn_bacterium_12 X)) (= _let_8 (tptp.fn_bacterium_15 X)) (= _let_7 _let_4) (= _let_7 _let_3) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.density_constant_1 X) (and (tptp.original_name_2 X |tptp.'Density-Constant'|) (tptp.concept2words_2 X |tptp.'constant of density'|) (tptp.concept2words_2 X |tptp.'density constant'|) (tptp.concept2words_2 X |tptp.'density-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.density_dependent_inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Density-Dependent-Inhibition'|) (tptp.user_description_2 X |tptp.'The observed phenomenon that causes animal cells to cease dividing when they become crowded.'|) (tptp.concept2words_2 X |tptp.'density dependent inhibition'|) (tptp.concept2words_2 X |tptp.'density-dependent-inhibition'|) (tptp.inhibition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.density_scale_1 X) (and (tptp.original_name_2 X |tptp.'Density-Scale'|) (tptp.concept2words_2 X |tptp.'scale of density'|) (tptp.concept2words_2 X |tptp.'density scale'|) (tptp.concept2words_2 X |tptp.'density-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.density_value_1 X) (and (tptp.original_name_2 X |tptp.'Density-Value'|) (tptp.description_2 X |tptp.'the quantity per unit volume, unit area, or unit length'|) (tptp.concept2words_2 X tptp.denseness) (tptp.concept2words_2 X tptp.density) (tptp.concept2words_2 X |tptp.'value of density'|) (tptp.concept2words_2 X |tptp.'density value'|) (tptp.concept2words_2 X |tptp.'density-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dental_cavity_1 X) (and (tptp.original_name_2 X |tptp.'Dental-Cavity'|) (tptp.user_description_2 X |tptp.'Hole produced through demineralization and destruction of the hard tissue of the teeth, brought about by acids produced by bacteria living in the mouth.'|) (tptp.concept2words_2 X |tptp.'dental cavity'|) (tptp.concept2words_2 X |tptp.'dental-cavity'|) (tptp.cavity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dental_cavity_formation_2 X))) (let ((_let_2 (tptp.fn_dental_plaque_2 _let_1))) (let ((_let_3 (tptp.fn_dental_cavity_formation_3 X))) (let ((_let_4 (tptp.fn_dental_plaque_1 _let_1))) (let ((_let_5 (tptp.fn_dental_cavity_formation_4 X))) (let ((_let_6 (tptp.fn_dental_cavity_formation_1 X))) (=> (tptp.dental_cavity_formation_1 X) (and (tptp.original_name_2 X |tptp.'Dental-Cavity-Formation'|) (tptp.user_description_2 X |tptp.'Process of demineralization and destruction of the hard tissue of the teeth, brought about by acids produced by bacteria living in the mouth.'|) (tptp.concept2words_2 X tptp.produce) (tptp.concept2words_2 X |tptp.'dental cavity formation'|) (tptp.concept2words_2 X |tptp.'dental-cavity-formation'|) (tptp.biological_process_1 X) (tptp.dental_cavity_1 _let_6) (tptp.dental_plaque_1 _let_1) (tptp.surface_1 _let_3) (tptp.tooth_1 _let_5) (tptp.tooth_1 _let_4) (tptp.surface_1 _let_2) (tptp.agent_2 X _let_1) (tptp.result_2 X _let_6) (tptp.base_2 X _let_5) (tptp.is_inside_2 _let_6 _let_5) (tptp.is_at_2 _let_1 _let_3) (tptp.has_region_2 _let_5 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dental_plaque_2 X))) (let ((_let_2 (tptp.fn_dental_plaque_1 X))) (=> (tptp.dental_plaque_1 X) (and (tptp.original_name_2 X |tptp.'Dental-Plaque'|) (tptp.user_description_2 X |tptp.'Hardened, yellowish material which forms on teeth as a result of continual action of bacterial biofilms.'|) (tptp.concept2words_2 X |tptp.'dental plaque'|) (tptp.concept2words_2 X |tptp.'dental-plaque'|) (tptp.bacterial_biofilm_1 X) (tptp.tooth_1 _let_2) (tptp.surface_1 _let_1) (tptp.has_region_2 _let_2 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_biofilm_3 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dental_plaque_formation_1 X))) (let ((_let_2 (tptp.fn_dental_plaque_2 _let_1))) (let ((_let_3 (tptp.fn_dental_plaque_formation_3 X))) (let ((_let_4 (tptp.fn_dental_plaque_1 _let_1))) (let ((_let_5 (tptp.fn_dental_plaque_formation_2 X))) (=> (tptp.dental_plaque_formation_1 X) (and (tptp.original_name_2 X |tptp.'Dental-Plaque-Formation'|) (tptp.user_description_2 X |tptp.'The formation of a hardened layer which forms on 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(let ((_let_25 (tptp.fn_phosphate_group_38 _let_3))) (let ((_let_26 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_27 (tptp.fn_phosphate_group_19 _let_3))) (let ((_let_28 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_29 (tptp.fn_phosphate_group_40 _let_3))) (let ((_let_30 (tptp.fn_phosphate_group_5 _let_3))) (let ((_let_31 (tptp.fn_phosphate_group_22 _let_3))) (let ((_let_32 (tptp.fn_nucleotide_10 X))) (let ((_let_33 (tptp.fn_deoxyribonucleotide_9 X))) (let ((_let_34 (tptp.fn_covalent_bond_19 _let_33))) (let ((_let_35 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_36 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_37 (tptp.fn_phosphate_group_6 _let_3))) (let ((_let_38 (tptp.fn_nucleotide_30 X))) (let ((_let_39 (tptp.fn_nucleotide_13 X))) (let ((_let_40 (tptp.fn_covalent_bond_20 _let_33))) (let ((_let_41 (tptp.fn_phosphate_group_36 _let_3))) (let ((_let_42 (tptp.fn_nucleotide_23 X))) (let ((_let_43 (tptp.fn_phosphate_group_35 _let_3))) (let ((_let_44 (tptp.fn_nucleotide_24 X))) (let 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_let_77) (not (= _let_76 _let_71)) (not (= _let_71 _let_76)) (tptp.has_part_2 X _let_66) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_66) (tptp.has_region_2 _let_66 _let_75) (not (= _let_75 _let_76)) (not (= _let_76 _let_75)) (tptp.has_region_2 _let_66 _let_60) (tptp.has_region_2 _let_51 _let_60) (tptp.has_part_2 X _let_51) (tptp.has_part_2 X _let_65) (tptp.has_region_2 _let_65 _let_59) (tptp.has_part_2 X _let_73) (not (= _let_73 _let_66)) (tptp.is_inside_2 _let_66 _let_3) (tptp.has_region_2 X _let_3) (tptp.has_part_2 X _let_54) (not (= _let_66 _let_73)) (tptp.is_between_2 _let_33 _let_65) (tptp.has_part_2 _let_65 _let_63) (tptp.has_region_2 _let_66 _let_59) (tptp.has_region_2 _let_65 _let_71) (tptp.object_2 _let_70 _let_69) (tptp.has_region_2 _let_65 _let_60) (tptp.object_2 _let_64 _let_66) (tptp.has_region_2 _let_66 _let_58) (tptp.result_2 _let_70 _let_1) (tptp.object_2 _let_70 _let_57) (not (= _let_62 _let_57)) (not (= _let_57 _let_62)) (tptp.agent_2 _let_64 _let_1) (tptp.object_2 _let_64 _let_51) (tptp.agent_2 _let_70 _let_51) (tptp.agent_2 _let_70 _let_65) (tptp.has_region_2 _let_65 _let_58) (tptp.is_between_2 _let_1 _let_51) (tptp.is_between_2 _let_1 _let_65) (tptp.has_part_2 _let_65 _let_69) (not (= _let_61 _let_69)) (not (= _let_69 _let_61)) (tptp.object_2 _let_67 _let_51) (tptp.object_2 _let_67 _let_65) (tptp.has_part_2 _let_65 _let_61) (not (= _let_62 _let_61)) (not (= _let_61 _let_62)) (tptp.agent_2 _let_56 _let_65) (tptp.agent_2 _let_56 _let_51) (tptp.is_inside_2 _let_51 _let_3) (not (= _let_66 _let_51)) (not (= _let_51 _let_66)) (tptp.is_inside_2 _let_65 _let_3) (not (= _let_51 _let_65)) (not (= _let_65 _let_51)) (not (= _let_66 _let_65)) (not (= _let_65 _let_66)) (tptp.has_function_2 _let_1 _let_64) (tptp.is_inside_2 _let_63 _let_58) (tptp.object_2 _let_56 _let_62) (tptp.is_near_2 _let_58 _let_61) (tptp.is_near_2 _let_61 _let_58) (tptp.result_2 _let_56 _let_1) (tptp.object_2 _let_56 _let_57) (tptp.is_near_2 _let_57 _let_58) (tptp.is_at_2 _let_58 _let_59) (not (= _let_59 _let_60)) (tptp.is_near_2 _let_58 _let_57) (not (= _let_60 _let_59)) (= _let_14 _let_80) (= _let_66 _let_34) (= _let_76 _let_52) (= _let_58 _let_15) (= _let_77 _let_55) (= _let_79 _let_78) (= _let_70 _let_44) (= _let_67 _let_42) (= _let_77 _let_53) (= _let_71 _let_46) (= _let_76 _let_50) (= _let_75 _let_46) (= _let_1 _let_6) (= _let_59 _let_18) (= _let_65 _let_32) (= _let_51 _let_38) (= _let_60 _let_21) (= _let_54 (tptp.fn_nucleotide_16 X)) (= X _let_74) (= _let_3 (tptp.fn_nucleotide_15 X)) (= _let_73 _let_36) (= _let_66 _let_35) (= _let_66 _let_39) (= _let_73 _let_49) (= _let_33 _let_72) (= _let_63 _let_27) (= _let_59 _let_17) (= _let_71 _let_48) (= _let_71 _let_47) (= _let_71 _let_45) (= _let_60 _let_20) (= _let_58 _let_12) (= _let_66 _let_30) (= _let_62 _let_25) (= _let_57 _let_8) (= _let_70 _let_4) (= _let_58 _let_11) (= _let_70 _let_43) (= _let_64 _let_29) (= _let_61 _let_23) (= _let_69 _let_68) (= _let_65 _let_35) (= _let_1 _let_5) (= _let_62 _let_24) (= _let_65 _let_36) (= _let_61 _let_22) (= _let_67 _let_41) (= _let_56 _let_4) (= _let_66 _let_40) (= _let_65 _let_34) (= _let_66 _let_31) (= _let_51 _let_37) (= _let_65 _let_31) (= _let_65 _let_30) (= _let_64 _let_28) (= _let_63 _let_26) (= _let_62 _let_9) (= _let_61 _let_9) (= _let_61 _let_7) (= _let_60 _let_16) (= _let_60 _let_19) (= _let_59 _let_19) (= _let_59 _let_16) (= _let_57 _let_9) (= _let_58 _let_13) (= _let_58 _let_10) (= _let_57 _let_7) (= _let_56 _let_2) (= _let_55 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_36) (= _let_36 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_4) (= _let_4 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_35 _let_40) (= _let_40 _let_34) (= _let_34 _let_39) (= _let_39 _let_35) (= _let_35 _let_39) (= _let_39 _let_39) (= _let_39 _let_30) (= _let_31 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_34 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_36) (= _let_36 _let_34) (= _let_35 _let_35) (= _let_35 _let_32) (= _let_32 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_9) (= _let_23 _let_9) (= _let_9 _let_9) (= _let_9 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_7) (= _let_7 _let_21) (= _let_21 _let_16) (= _let_16 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.deoxyribose_1 X) (and (tptp.original_name_2 X |tptp.'Deoxyribose'|) (tptp.user_description_2 X |tptp.'Deoxyribose is a deoxy sugar derived from the pentose sugar ribose by the replacement of the hydroxyl group at the 2 position with hydrogen resulting in loss of one oxygen atom. It is basic structural unit of DNA'|) (tptp.concept2words_2 X |tptp.'2 deoxyribose'|) (tptp.concept2words_2 X |tptp.'2-deoxyribose'|) (tptp.concept2words_2 X |tptp.'d deoxyribose'|) (tptp.concept2words_2 X |tptp.'d-deoxyribose'|) (tptp.concept2words_2 X |tptp.'2 deoxy d erythropentose thyminose'|) (tptp.concept2words_2 X |tptp.'2-deoxy-d-erythropentose thyminose'|) (tptp.concept2words_2 X |tptp.'deoxyribose sugar'|) (tptp.concept2words_2 X |tptp.'2 deoxy d erythro pentose thyminose'|) (tptp.concept2words_2 X |tptp.'2-deoxy-d-erythro-pentose-thyminose'|) (tptp.concept2words_2 X tptp.deoxyribose) (tptp.pentose_1 X) (not (tptp.ribose_1 X)) (not (tptp.ribulose_bisphosphate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.department_1 X) (and (tptp.original_name_2 X |tptp.'Department'|) (tptp.description_2 X |tptp.'an organization that is part of an institution'|) (tptp.concept2words_2 X tptp.department) (tptp.concept2words_2 X tptp.section) (tptp.organization_1 X) (not (tptp.institution_1 X)) (not (tptp.group_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dephosphorylation_12 X))) (let ((_let_2 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_3 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_4 (tptp.fn_dephosphorylation_11 X))) (let ((_let_5 (tptp.fn_organic_molecule_2 _let_4))) (let ((_let_6 (tptp.fn_phosphate_group_36 _let_1))) (let ((_let_7 (tptp.fn_phosphate_group_40 _let_1))) (let ((_let_8 (tptp.fn_phosphate_group_18 _let_1))) (let ((_let_9 (tptp.fn_phosphate_group_11 _let_1))) (let ((_let_10 (tptp.fn_phosphate_group_17 _let_1))) (let ((_let_11 (tptp.fn_phosphate_group_10 _let_1))) (let ((_let_12 (tptp.fn_phosphate_group_35 _let_1))) (let ((_let_13 (tptp.fn_phosphate_group_39 _let_1))) (let ((_let_14 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_15 (tptp.fn_molecule_10 _let_4))) (let ((_let_16 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_17 (tptp.fn_decomposition_reaction_3 X))) (let ((_let_18 (tptp.fn_decomposition_reaction_5 X))) (let ((_let_19 (tptp.fn_functional_group_1 _let_1))) (let ((_let_20 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_21 (tptp.fn_decomposition_reaction_2 X))) (let ((_let_22 (tptp.fn_dephosphorylation_4 X))) (let ((_let_23 (tptp.fn_dephosphorylation_6 X))) (let ((_let_24 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_25 (tptp.fn_dephosphorylation_5 X))) (let ((_let_26 (tptp.fn_dephosphorylation_18 X))) (let ((_let_27 (tptp.fn_phosphate_group_20 _let_1))) (let ((_let_28 (tptp.fn_dephosphorylation_16 X))) (let ((_let_29 (tptp.fn_dephosphorylation_15 X))) (let ((_let_30 (tptp.fn_dephosphorylation_14 X))) (let ((_let_31 (tptp.fn_phosphate_group_16 _let_1))) (let ((_let_32 (tptp.fn_dephosphorylation_13 X))) (let ((_let_33 (tptp.fn_phosphate_group_13 _let_1))) (let ((_let_34 (tptp.fn_dephosphorylation_19 X))) (let ((_let_35 (tptp.fn_dephosphorylation_17 X))) (let ((_let_36 (tptp.fn_dephosphorylation_9 X))) (let ((_let_37 (tptp.fn_dephosphorylation_8 X))) (let ((_let_38 (tptp.fn_organic_molecule_1 _let_4))) (let ((_let_39 (tptp.fn_dephosphorylation_3 X))) (let ((_let_40 (tptp.fn_organic_molecule_3 _let_4))) (let ((_let_41 (tptp.fn_dephosphorylation_7 X))) (let ((_let_42 (tptp.fn_dephosphorylation_10 X))) (let ((_let_43 (tptp.fn_dephosphorylation_1 X))) (let ((_let_44 (tptp.fn_dephosphorylation_2 X))) (=> (tptp.dephosphorylation_1 X) (and (tptp.original_name_2 X |tptp.'Dephosphorylation'|) (tptp.user_description_2 X |tptp.'Dephosphorylation is the removal of a phosphate (PO4) group from a protein or other organic molecule.'|) (tptp.concept2words_2 X tptp.dephosphorylate) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.dephosphorylation) (tptp.decomposition_reaction_1 X) (tptp.phosphorus_1 _let_43) (tptp.oxygen_1 _let_44) (tptp.carbon_1 _let_39) (tptp.oxygen_1 _let_22) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.phosphorus_1 _let_25) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.carbon_skeleton_1 _let_41) (tptp.chemical_bond_1 _let_37) (tptp.double_bond_1 _let_37) (tptp.chemical_bond_1 _let_36) (tptp.single_bond_1 _let_36) (tptp.anion_1 _let_42) (tptp.molecule_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.organic_molecule_1 _let_4) (tptp.phosphate_group_1 _let_1) (tptp.electron_shell_1 _let_32) (tptp.center_1 _let_30) (tptp.atomic_nucleus_1 _let_29) (tptp.electron_1 _let_28) (tptp.valence_electron_1 _let_28) (tptp.share_1 _let_35) (tptp.hold_together_1 _let_26) (tptp.electron_shell_1 _let_34) (tptp.carbon_skeleton_1 _let_40) (tptp.carbon_1 _let_38) (tptp.electron_shell_1 _let_33) (tptp.electron_shell_1 _let_31) (tptp.electron_1 _let_27) (tptp.valence_electron_1 _let_27) (tptp.phosphorus_1 _let_24) (tptp.chemical_entity_1 _let_19) (tptp.double_bond_1 _let_16) (tptp.chemical_bond_1 _let_15) (tptp.single_bond_1 _let_14) (tptp.share_1 _let_13) (tptp.share_1 _let_12) (tptp.center_1 _let_11) (tptp.center_1 _let_10) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_8) (tptp.hold_together_1 _let_7) (tptp.hold_together_1 _let_6) (tptp.atom_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.oxygen_1 _let_3) (tptp.oxygen_1 _let_2) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.has_part_2 _let_42 _let_44) (tptp.has_part_2 _let_42 _let_43) (tptp.has_part_2 _let_4 _let_25) (tptp.has_part_2 _let_4 _let_23) (tptp.has_region_2 _let_4 _let_1) (tptp.possesses_2 _let_4 _let_36) (tptp.result_2 X _let_42) (tptp.raw_material_2 X _let_4) (tptp.possesses_2 _let_4 _let_37) (tptp.has_part_2 _let_4 _let_39) (tptp.is_inside_2 _let_39 _let_41) (tptp.has_region_2 _let_4 _let_41) (tptp.has_part_2 _let_4 _let_22) (not (= _let_22 _let_39)) (not (= _let_39 _let_22)) (tptp.has_region_2 _let_22 _let_30) (tptp.is_between_2 _let_36 _let_25) (tptp.has_region_2 _let_22 _let_29) (tptp.agent_2 _let_26 _let_37) (tptp.is_between_2 _let_37 _let_25) (tptp.is_between_2 _let_37 _let_22) (tptp.agent_2 _let_35 _let_22) (tptp.result_2 _let_35 _let_37) (tptp.has_function_2 _let_37 _let_26) (tptp.object_2 _let_35 _let_28) (tptp.agent_2 _let_35 _let_25) (tptp.is_inside_2 _let_25 _let_1) (tptp.is_inside_2 _let_23 _let_1) (tptp.is_between_2 _let_36 _let_23) (tptp.has_region_2 _let_22 _let_32) (not (= _let_32 _let_34)) (tptp.has_region_2 _let_25 _let_34) (not (= _let_34 _let_32)) (not (= _let_23 _let_25)) (not (= _let_25 _let_23)) (tptp.object_2 _let_26 _let_25) (tptp.object_2 _let_26 _let_22) (tptp.has_part_2 _let_22 _let_28) (tptp.is_near_2 _let_28 _let_29) (tptp.is_at_2 _let_29 _let_30) (tptp.is_near_2 _let_29 _let_28) (tptp.is_inside_2 _let_22 _let_1) (not (= _let_23 _let_22)) (not (= _let_22 _let_23)) (not (= _let_25 _let_22)) (not (= _let_22 _let_25)) (= _let_4 _let_19) (= _let_36 _let_15) (= _let_42 _let_21) (= _let_42 _let_20) (= _let_37 _let_17) (= _let_4 _let_18) (= _let_22 _let_5) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_30 _let_11) (= _let_29 _let_9) (= _let_26 _let_7) (= _let_35 _let_13) (= _let_37 _let_16) (= _let_36 _let_14) (= _let_35 _let_12) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_10) (= _let_29 _let_8) (= _let_28 _let_27) (= _let_22 _let_3) (= _let_26 _let_6) (= _let_25 _let_24) (= _let_23 _let_3) (= _let_22 _let_2) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dephosphorylation_of_atp_52 X))) (let ((_let_2 (tptp.fn_enzyme_4 _let_1))) (let ((_let_3 (tptp.fn_hydrolysis_11 X))) (let ((_let_4 (tptp.fn_dephosphorylation_of_atp_4 X))) (let ((_let_5 (tptp.fn_reactant_3 _let_4))) (let ((_let_6 (tptp.fn_dephosphorylation_of_atp_51 X))) (let ((_let_7 (tptp.fn_water_molecule_61 _let_6))) (let ((_let_8 (tptp.fn_water_molecule_62 _let_6))) (let ((_let_9 (tptp.fn_water_molecule_63 _let_6))) (let ((_let_10 (tptp.fn_water_molecule_64 _let_6))) (let ((_let_11 (tptp.fn_water_molecule_51 _let_6))) (let ((_let_12 (tptp.fn_water_molecule_43 _let_6))) (let ((_let_13 (tptp.fn_water_molecule_50 _let_6))) (let ((_let_14 (tptp.fn_water_molecule_66 _let_6))) (let ((_let_15 (tptp.fn_water_molecule_44 _let_6))) (let ((_let_16 (tptp.fn_dephosphorylation_of_atp_46 X))) (let ((_let_17 (tptp.fn_hydrogen_14 _let_16))) (let ((_let_18 (tptp.fn_water_molecule_45 _let_6))) (let ((_let_19 (tptp.fn_dephosphorylation_of_atp_47 X))) (let ((_let_20 (tptp.fn_hydrogen_16 _let_19))) (let ((_let_21 (tptp.fn_water_molecule_72 _let_6))) (let ((_let_22 (tptp.fn_hydrolysis_1 X))) (let ((_let_23 (tptp.fn_water_molecule_47 _let_6))) (let ((_let_24 (tptp.fn_water_molecule_26 _let_6))) (let ((_let_25 (tptp.fn_water_molecule_40 _let_6))) (let ((_let_26 (tptp.fn_water_molecule_54 _let_6))) (let ((_let_27 (tptp.fn_water_molecule_75 _let_6))) (let ((_let_28 (tptp.fn_hydrophilic_compound_2 _let_6))) (let ((_let_29 (tptp.fn_water_molecule_18 _let_6))) (let ((_let_30 (tptp.fn_water_molecule_46 _let_6))) (let ((_let_31 (tptp.fn_water_molecule_27 _let_6))) (let ((_let_32 (tptp.fn_water_molecule_38 _let_6))) (let ((_let_33 (tptp.fn_dephosphorylation_of_atp_69 X))) (let ((_let_34 (tptp.fn_hydroxyl_group_4 _let_33))) (let ((_let_35 (tptp.fn_dephosphorylation_of_atp_74 X))) (let ((_let_36 (tptp.fn_adp_43 _let_35))) (let ((_let_37 (tptp.fn_hydrolysis_9 X))) (let ((_let_38 (tptp.fn_adp_31 _let_35))) (let ((_let_39 (tptp.fn_ribonucleotide_8 _let_35))) (let 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(tptp.valence_electron_1 _let_77) (tptp.entity_1 _let_76) (tptp.electron_1 _let_76) (tptp.valence_electron_1 _let_76) (tptp.electron_1 _let_75) (tptp.valence_electron_1 _let_75) (tptp.chemical_bond_1 _let_74) (tptp.double_bond_1 _let_74) (tptp.covalent_bond_1 _let_74) (tptp.chemical_bond_1 _let_73) (tptp.double_bond_1 _let_73) (tptp.covalent_bond_1 _let_73) (tptp.carbon_1 _let_72) (tptp.tangible_entity_1 _let_71) (tptp.entity_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.atom_1 _let_71) (tptp.carbon_1 _let_71) (tptp.hold_1 _let_70) (tptp.hold_together_1 _let_70) (tptp.hold_1 _let_69) (tptp.hold_together_1 _let_69) (tptp.entity_1 _let_67) (tptp.chemical_entity_1 _let_67) (tptp.atom_1 _let_67) (tptp.oxygen_1 _let_67) (tptp.entity_1 _let_66) (tptp.chemical_entity_1 _let_66) (tptp.atom_1 _let_66) (tptp.oxygen_1 _let_66) (tptp.share_1 _let_65) (tptp.share_1 _let_64) (tptp.functional_group_1 _let_63) (tptp.phosphate_group_1 _let_63) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.tangible_entity_1 _let_59) (tptp.entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.atom_1 _let_59) (tptp.phosphorus_1 _let_59) (tptp.tangible_entity_1 _let_58) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.phosphorus_1 _let_58) (tptp.ribose_1 _let_57) (tptp.aldehyde_1 _let_56) (tptp.aldose_1 _let_56) (tptp.spatial_entity_1 _let_56) (tptp.molecule_1 _let_56) (tptp.organic_molecule_1 _let_56) (tptp.pentose_1 _let_56) (tptp.ribose_1 _let_56) (tptp.functional_group_1 _let_55) (tptp.phosphate_group_1 _let_55) (tptp.functional_group_1 _let_54) (tptp.phosphate_group_1 _let_54) (tptp.phosphate_group_1 _let_52) (tptp.functional_group_1 _let_51) (tptp.phosphate_group_1 _let_51) (tptp.oxygen_1 _let_49) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.oxygen_1 _let_48) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.oxygen_1 _let_47) (tptp.entity_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.atom_1 _let_47) (tptp.oxygen_1 _let_46) (tptp.entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.chemical_bond_1 _let_42) (tptp.polar_covalent_bond_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.oxygen_1 _let_40) (tptp.oxygen_1 _let_39) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.oxygen_1 _let_38) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.oxygen_1 _let_36) (tptp.oxygen_1 _let_34) (tptp.share_1 _let_32) (tptp.unequal_sharing_1 _let_32) (tptp.unequal_sharing_1 _let_31) (tptp.quantity_value_1 _let_30) (tptp.quantity_value_1 _let_29) (tptp.attract_1 _let_28) (tptp.attract_1 _let_27) (tptp.proton_1 _let_26) (tptp.proton_1 _let_25) (tptp.hold_1 _let_24) (tptp.hold_together_1 _let_24) (tptp.hold_together_1 _let_23) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.oxygen_1 _let_21) (tptp.electron_shell_1 _let_20) (tptp.first_electron_shell_1 _let_20) (tptp.electron_shell_1 _let_18) (tptp.first_electron_shell_1 _let_18) (tptp.center_1 _let_17) (tptp.center_1 _let_15) (tptp.electron_1 _let_14) (tptp.valence_electron_1 _let_14) (tptp.entity_1 _let_13) (tptp.electron_1 _let_13) (tptp.valence_electron_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.atomic_nucleus_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.covalent_bond_1 _let_8) (tptp.polar_covalent_bond_1 _let_8) (tptp.chemical_bond_1 _let_7) (tptp.polar_covalent_bond_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.chemical_reaction_1 _let_2) (not (= _let_196 _let_109)) (tptp.possesses_2 _let_35 _let_197) (not (= _let_35 _let_155)) (not (= _let_35 _let_150)) (tptp.has_part_2 _let_35 _let_141) (tptp.has_state_2 _let_155 _let_35) (not (= _let_155 _let_35)) (tptp.has_state_2 _let_150 _let_35) (not (= _let_150 _let_35)) (tptp.called_2 _let_146 |tptp.'Terminal PO4 Group'|) (tptp.result_2 X _let_35) (not (= _let_45 _let_6)) (not (= _let_6 _let_45)) (tptp.plays_2 _let_205 _let_210) (tptp.has_state_2 _let_19 _let_141) (tptp.has_state_2 _let_16 _let_141) (not (= _let_109 _let_196)) (tptp.has_state_2 _let_109 _let_196) (tptp.possesses_2 _let_45 _let_200) (tptp.has_region_2 _let_35 _let_33) (tptp.plays_2 _let_6 _let_4) (tptp.is_between_2 _let_60 _let_150) (tptp.possesses_2 _let_35 _let_143) (tptp.has_part_2 _let_101 _let_208) (tptp.has_region_2 _let_16 _let_107) (tptp.has_region_2 _let_19 _let_108) (tptp.possesses_2 _let_156 _let_205) (tptp.possesses_2 _let_6 _let_200) (tptp.raw_material_2 X _let_6) (tptp.has_state_2 _let_109 _let_142) (not (= _let_201 _let_6)) (not (= _let_6 _let_201)) (tptp.raw_material_2 X _let_45) (tptp.has_region_2 _let_6 _let_203) (tptp.site_2 _let_121 _let_203) (tptp.raw_material_2 X _let_201) (tptp.quantity_2 _let_200 _let_199) (tptp.result_2 X _let_196) (tptp.possesses_2 _let_196 _let_197) (tptp.quantity_2 _let_197 _let_198) (tptp.greater_than_2 _let_199 _let_198) (tptp.object_2 _let_194 _let_6) (tptp.speed_2 _let_194 _let_191) (tptp.possesses_2 _let_6 _let_187) (tptp.quantity_2 _let_187 _let_189) (tptp.directly_proportional_2 _let_191 _let_189) (tptp.has_part_2 _let_45 _let_101) (tptp.has_part_2 _let_101 _let_149) (tptp.has_region_2 _let_150 _let_164) (tptp.is_inside_2 _let_153 _let_145) (tptp.has_part_2 _let_35 _let_142) (tptp.has_region_2 _let_1 _let_171) (tptp.has_function_2 _let_1 X) (tptp.plays_2 _let_1 _let_174) (tptp.in_event_2 _let_174 X) (tptp.has_function_2 _let_1 _let_169) (tptp.enables_2 _let_169 X) (tptp.site_2 X _let_171) (tptp.facilitates_2 _let_171 X) (tptp.in_event_2 _let_4 X) (tptp.has_region_2 _let_153 _let_159) (tptp.possesses_2 _let_45 _let_60) (tptp.agent_2 _let_161 _let_150) (tptp.is_inside_2 _let_150 _let_146) (not (= _let_155 _let_167)) (not (= _let_167 _let_155)) (tptp.is_inside_2 _let_144 _let_151) (tptp.is_between_2 _let_60 _let_144) (tptp.is_between_2 _let_60 _let_153) (not (= _let_153 _let_144)) (not (= _let_144 _let_153)) (tptp.has_part_2 _let_45 _let_153) (not (= _let_153 _let_155)) (tptp.is_inside_2 _let_155 _let_165) (tptp.has_region_2 _let_45 _let_165) (tptp.has_part_2 _let_45 _let_167) (not (= _let_155 _let_153)) (tptp.result_2 _let_161 _let_156) (tptp.possesses_2 _let_45 _let_156) (tptp.has_part_2 _let_45 _let_150) (not (= _let_150 _let_153)) (tptp.has_region_2 _let_153 _let_158) (not (= _let_153 _let_150)) (tptp.object_2 _let_152 _let_157) (tptp.object_2 _let_161 _let_157) (tptp.agent_2 _let_161 _let_153) (tptp.has_region_2 _let_153 _let_163) (not (= _let_163 _let_164)) (not (= _let_164 _let_163)) (tptp.agent_2 _let_154 _let_156) (tptp.has_function_2 _let_156 _let_154) (tptp.is_between_2 _let_156 _let_150) (tptp.is_inside_2 _let_150 _let_151) (tptp.has_region_2 _let_45 _let_151) (tptp.result_2 _let_152 _let_156) (tptp.is_between_2 _let_156 _let_153) (tptp.has_part_2 _let_153 _let_157) (tptp.is_near_2 _let_157 _let_158) (tptp.is_at_2 _let_158 _let_159) (tptp.is_near_2 _let_158 _let_157) (tptp.object_2 _let_154 _let_150) (tptp.object_2 _let_154 _let_153) (tptp.is_inside_2 _let_153 _let_146) (tptp.has_region_2 _let_45 _let_146) (tptp.has_part_2 _let_45 _let_155) (tptp.agent_2 _let_152 _let_150) (tptp.agent_2 _let_152 _let_153) (tptp.is_inside_2 _let_153 _let_151) (not (= _let_146 _let_151)) (not (= _let_151 _let_146)) (not (= _let_144 _let_150)) (tptp.is_inside_2 _let_150 _let_145) (tptp.has_region_2 _let_45 _let_145) (not (= _let_150 _let_144)) (not (= _let_151 _let_145)) (not (= _let_145 _let_151)) (tptp.has_part_2 _let_45 _let_144) (tptp.is_inside_2 _let_144 _let_145) (not (= _let_145 _let_146)) (tptp.is_inside_2 _let_146 _let_148) (tptp.has_region_2 _let_149 _let_148) (not (= _let_146 _let_145)) (tptp.is_inside_2 _let_142 _let_33) (tptp.is_inside_2 _let_141 _let_33) (tptp.is_between_2 _let_143 _let_141) (tptp.is_between_2 _let_143 _let_142) (not (= _let_142 _let_141)) (not (= _let_141 _let_142)) (tptp.object_2 _let_132 _let_19) (tptp.the_cardinal_value_2 _let_115 |"1"|) (tptp.cardinal_unit_class_2 _let_115 tptp.unity_0) (tptp.called_2 _let_115 |tptp.'Number_Electron'|) (tptp.called_2 _let_126 |tptp.'Number_Proton'|) (tptp.called_2 _let_129 |tptp.'Atomic_Number'|) (tptp.possesses_2 _let_6 _let_117) (tptp.shape_2 _let_6 _let_125) (tptp.electronegativity_2 _let_19 _let_113) (tptp.the_cardinal_value_2 _let_113 |"2.1"|) (tptp.cardinal_unit_class_2 _let_113 tptp.unity_0) (tptp.the_cardinal_value_2 _let_129 |"1"|) (tptp.cardinal_unit_class_2 _let_129 tptp.unity_0) (= _let_126 _let_129) (= _let_129 _let_126) (tptp.object_2 _let_119 _let_106) (tptp.object_2 _let_127 _let_106) (tptp.result_2 _let_127 _let_104) (tptp.agent_2 _let_130 _let_109) (tptp.agent_2 _let_130 _let_19) (tptp.object_2 _let_116 _let_19) (tptp.object_2 _let_116 _let_109) (tptp.object_2 _let_132 _let_109) (tptp.agent_2 _let_119 _let_19) (tptp.agent_2 _let_119 _let_109) (tptp.agent_2 _let_127 _let_109) (tptp.agent_2 _let_127 _let_19) (tptp.atomic_number_2 _let_19 _let_129) (not (= _let_19 _let_16)) (tptp.has_part_2 _let_19 _let_120) (tptp.quantity_2 _let_120 _let_126) (not (= _let_16 _let_19)) (= _let_115 _let_126) (= _let_126 _let_115) (tptp.agent_2 _let_121 _let_6) (tptp.has_function_2 _let_6 _let_121) (tptp.polarity_2 _let_6 _let_123) (tptp.correspondence_2 _let_123 _let_125) (tptp.the_categorical_value_2 _let_125 tptp.v_like_0) (tptp.has_part_2 _let_6 _let_109) (tptp.is_between_2 _let_117 _let_109) (tptp.is_between_2 _let_117 _let_16) (tptp.has_region_2 _let_16 _let_105) (tptp.is_inside_2 _let_120 _let_105) (tptp.has_function_2 _let_104 _let_116) (tptp.agent_2 _let_116 _let_104) (tptp.result_2 _let_119 _let_104) (not (= _let_117 _let_104)) (not (= _let_104 _let_117)) (tptp.has_part_2 _let_6 _let_16) (not (= _let_16 _let_109)) (not (= _let_109 _let_19)) (tptp.has_part_2 _let_19 _let_106) (tptp.quantity_2 _let_106 _let_115) (not (= _let_109 _let_16)) (not (= _let_19 _let_109)) (tptp.is_between_2 _let_104 _let_109) (tptp.electronegativity_2 _let_109 _let_111) (tptp.the_cardinal_value_2 _let_111 |"3.44"|) (tptp.cardinal_unit_class_2 _let_111 tptp.unity_0) (not (= _let_113 _let_111)) (not (= _let_111 _let_113)) (tptp.has_part_2 _let_6 _let_19) (tptp.has_region_2 _let_19 _let_107) (tptp.is_at_2 _let_105 _let_107) (tptp.is_inside_2 _let_105 _let_108) (tptp.has_region_2 _let_16 _let_108) (tptp.possesses_2 _let_6 _let_104) (tptp.is_between_2 _let_104 _let_19) (tptp.has_region_2 _let_19 _let_105) (tptp.is_near_2 _let_106 _let_105) (tptp.is_near_2 _let_105 _let_106) (= _let_200 _let_100) (= _let_35 _let_209) (= _let_6 _let_5) (= _let_150 _let_62) (= _let_150 _let_61) (= _let_143 _let_42) (= _let_208 _let_103) (= _let_208 _let_102) (= _let_107 _let_17) (= _let_207 _let_206) (= _let_108 _let_20) (= _let_205 _let_204) (= _let_142 _let_37) (= _let_45 _let_44) (= _let_121 _let_28) (= _let_203 _let_202) (= _let_201 (tptp.fn_hydrolysis_10 X)) (= (tptp.fn_dephosphorylation_of_atp_43 X) (tptp.fn_hydrolysis_19 X)) (= _let_200 _let_99) (= (tptp.fn_dephosphorylation_of_atp_44 X) (tptp.fn_hydrolysis_18 X)) (= _let_199 (tptp.fn_hydrolysis_16 X)) (= _let_198 (tptp.fn_hydrolysis_15 X)) (= _let_197 (tptp.fn_hydrolysis_14 X)) (= _let_196 _let_98) (= _let_196 _let_97) (= _let_196 _let_96) (= _let_196 _let_37) (= (tptp.fn_dephosphorylation_of_atp_13 X) _let_195) (= _let_194 _let_193) (= (tptp.fn_dephosphorylation_of_atp_14 X) _let_192) (= _let_191 _let_190) (= _let_189 _let_188) (= _let_187 _let_186) (= _let_149 _let_57) (= _let_101 _let_185) (= _let_164 _let_91) (= (tptp.fn_dephosphorylation_of_atp_81 X) _let_184) (= _let_142 _let_40) (= _let_142 _let_39) (= _let_142 _let_38) (= _let_142 _let_36) (= (tptp.fn_dephosphorylation_of_atp_82 X) _let_183) (= _let_182 _let_181) (= _let_180 _let_179) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_174 _let_173) (= _let_4 _let_172) (= _let_171 _let_170) (= X _let_2) (= _let_169 _let_168) (= _let_153 _let_49) (= _let_159 _let_87) (= _let_159 _let_84) (= _let_60 _let_95) (= _let_60 _let_94) (= _let_153 _let_68) (= _let_144 _let_47) (= _let_167 _let_166) (= _let_165 _let_93) (= _let_165 _let_92) (= _let_153 _let_47) (= _let_153 _let_48) (= _let_164 _let_90) (= _let_163 _let_162) (= _let_161 _let_160) (= _let_157 _let_76) (= _let_154 _let_70) (= _let_159 _let_89) (= _let_159 _let_88) (= _let_159 _let_86) (= _let_158 _let_81) (= _let_159 _let_85) (= _let_159 _let_83) (= _let_158 _let_82) (= _let_158 _let_80) (= _let_158 _let_79) (= _let_157 _let_78) (= _let_157 _let_77) (= _let_157 _let_75) (= _let_156 _let_74) (= _let_156 _let_73) (= _let_155 _let_72) (= _let_155 _let_71) (= _let_153 _let_67) (= _let_146 _let_55) (= _let_154 _let_69) (= _let_151 _let_51) (= _let_153 _let_66) (= _let_153 _let_46) (= _let_152 _let_65) (= _let_152 _let_64) (= _let_151 _let_63) (= _let_150 _let_59) (= _let_150 _let_58) (= _let_149 _let_56) (= _let_148 _let_147) (= _let_146 _let_54) (= _let_145 _let_53) (= _let_145 _let_52) (= _let_145 _let_51) (= _let_45 _let_43) (= _let_144 _let_50) (= _let_144 _let_49) (= _let_144 _let_48) (= _let_144 _let_46) (= _let_143 _let_41) (= _let_142 _let_34) (= _let_141 _let_140) (= (tptp.fn_dephosphorylation_of_atp_16 X) _let_139) (= (tptp.fn_dephosphorylation_of_atp_12 X) _let_138) (= (tptp.fn_dephosphorylation_of_atp_11 X) _let_137) (= (tptp.fn_dephosphorylation_of_atp_10 X) _let_136) (= (tptp.fn_dephosphorylation_of_atp_9 X) _let_135) (= (tptp.fn_dephosphorylation_of_atp_8 X) _let_134) (= (tptp.fn_dephosphorylation_of_atp_15 X) _let_133) (= _let_126 _let_30) (= _let_104 _let_8) (= _let_127 _let_32) (= _let_106 _let_14) (= _let_132 _let_131) (= _let_116 _let_24) (= _let_130 _let_32) (= _let_129 _let_128) (= _let_127 _let_31) (= _let_126 _let_29) (= _let_120 _let_26) (= _let_125 _let_124) (= _let_123 _let_122) (= _let_121 _let_27) (= _let_120 _let_25) (= _let_6 _let_3) (= _let_109 _let_22) (= _let_119 _let_118) (= _let_117 _let_8) (= _let_116 _let_23) (= _let_115 _let_114) (= _let_16 _let_9) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_21) (= _let_16 _let_10) (= _let_108 _let_18) (= _let_105 _let_12) (= _let_107 _let_15) (= _let_19 _let_10) (= _let_106 _let_13) (= _let_105 _let_11) (= _let_19 _let_9) (= _let_104 _let_7) (= _let_103 _let_102) (= _let_102 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_37 _let_96) (= _let_96 _let_37) (= _let_37 _let_95) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_76 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_49 _let_68) (= _let_68 _let_49) (= _let_49 _let_67) (= _let_67 _let_48) (= _let_48 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_48) (= _let_48 _let_66) (= _let_66 _let_47) (= _let_47 _let_66) (= _let_66 _let_66) (= _let_66 _let_46) (= _let_46 _let_47) (= _let_46 _let_64) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_51) (= _let_51 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_10) (= _let_10 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dephosphorylation_of_glucose_6_phosphate_1 X))) (let ((_let_2 (tptp.fn_dephosphorylation_of_glucose_6_phosphate_3 X))) (let ((_let_3 (tptp.fn_dephosphorylation_of_glucose_6_phosphate_2 X))) (=> (tptp.dephosphorylation_of_glucose_6_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Dephosphorylation-Of-Glucose-6-Phosphate'|) (tptp.user_description_2 X |tptp.'The removal of a phosphate (PO4) group from glucose-6-phosphate.'|) (tptp.concept2words_2 X |tptp.'dephosphorylation of glucose 6 phosphate'|) (tptp.concept2words_2 X |tptp.'dephosphorylation-of-glucose-6-phosphate'|) (tptp.dephosphorylation_1 X) (tptp.inorganic_phosphate_1 _let_1) (tptp.glucose_1 _let_3) (tptp.glucose_6_phosphate_1 _let_2) (tptp.result_2 X _let_3) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1) (= _let_3 (tptp.fn_decomposition_reaction_4 X)) (= _let_2 (tptp.fn_decomposition_reaction_5 X)) (= _let_1 (tptp.fn_dephosphorylation_10 X)))))))) (forall ((X $$unsorted)) (=> (tptp.depletion_1 X) (and (tptp.original_name_2 X |tptp.'Depletion'|) (tptp.user_description_2 X |tptp.'The exhaustion of a resource.'|) (tptp.concept2words_2 X tptp.deplete) (tptp.concept2words_2 X tptp.depletion) (tptp.change_1 X)))) (forall ((X $$unsorted)) (=> (tptp.depolarization_1 X) (and (tptp.original_name_2 X |tptp.'Depolarization'|) (tptp.user_description_2 X |tptp.'An alteration of a cell_'s membrane potential so that the magnitude of the difference in charge between the inside and the outside of the cell is reduced.'|) (tptp.concept2words_2 X tptp.depolarize) (tptp.concept2words_2 X tptp.depolarization) (tptp.change_in_membrane_potential_1 X)))) (forall ((X $$unsorted)) (=> (tptp.deposit_feeder_1 X) (and (tptp.original_name_2 X |tptp.'Deposit-Feeder'|) (tptp.user_description_2 X |tptp.'A heterotroph that obtains nutrients by consuming detritus (decomposing organic matter).'|) (tptp.concept2words_2 X tptp.detritivore) (tptp.concept2words_2 X |tptp.'detritus feeder'|) (tptp.concept2words_2 X |tptp.'detritus-feeder'|) (tptp.concept2words_2 X tptp.saprophage) (tptp.concept2words_2 X |tptp.'feeder of deposit'|) (tptp.concept2words_2 X |tptp.'deposit feeder'|) (tptp.concept2words_2 X |tptp.'deposit-feeder'|) (tptp.feeder_1 X)))) (forall ((X $$unsorted)) (=> (tptp.depth_constant_1 X) (and (tptp.original_name_2 X |tptp.'Depth-Constant'|) (tptp.concept2words_2 X |tptp.'constant of depth'|) (tptp.concept2words_2 X |tptp.'depth constant'|) (tptp.concept2words_2 X |tptp.'depth-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.depth_scale_1 X) (and (tptp.original_name_2 X |tptp.'Depth-Scale'|) (tptp.concept2words_2 X |tptp.'scale of depth'|) (tptp.concept2words_2 X |tptp.'depth scale'|) (tptp.concept2words_2 X |tptp.'depth-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dermal_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Dermal-Tissue'|) (tptp.user_description_2 X |tptp.'The protective outer coating over the younger parts of a plant.'|) (tptp.concept2words_2 X |tptp.'dermal tissue'|) (tptp.concept2words_2 X |tptp.'dermal-tissue'|) (tptp.plant_specific_tissue_1 X) (not (tptp.vascular_tissue_1 X)) (not (tptp.ground_tissue_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dermal_tissue_system_1 X) (and (tptp.original_name_2 X |tptp.'Dermal-Tissue-System'|) (tptp.user_description_2 X |tptp.'The dermal tissue system is the plants outer protective covering.'|) (tptp.concept2words_2 X |tptp.'dermal tissue system'|) (tptp.concept2words_2 X |tptp.'dermal-tissue-system'|) (tptp.tissue_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dermaptera_1 X) (and (tptp.original_name_2 X |tptp.'Dermaptera'|) (tptp.user_description_2 X |tptp.'An insect order with members known as Earwigs found throughout the Americas, Eurasia and Australia.'|) (tptp.concept2words_2 X tptp.earwigs) (tptp.concept2words_2 X tptp.anoplura) (tptp.concept2words_2 X tptp.dermaptera) (tptp.insect_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_desert_22 X))) (let ((_let_2 (tptp.fn_plant_18 _let_1))) (let ((_let_3 (tptp.fn_biome_8 X))) (let ((_let_4 (tptp.fn_plant_20 _let_1))) (let ((_let_5 (tptp.fn_biome_12 X))) (let ((_let_6 (tptp.fn_plant_37 _let_1))) (let ((_let_7 (tptp.fn_biome_11 X))) (let ((_let_8 (tptp.fn_plant_25 _let_1))) (let ((_let_9 (tptp.fn_biome_10 X))) (let ((_let_10 (tptp.fn_desert_12 X))) (let ((_let_11 (tptp.fn_soil_2 _let_10))) (let ((_let_12 (tptp.fn_mixture_2 _let_10))) (let ((_let_13 (tptp.fn_biome_2 X))) (let ((_let_14 (tptp.fn_ecosystem_16 X))) (let ((_let_15 (tptp.fn_biome_17 X))) (let ((_let_16 (tptp.fn_ecosystem_15 X))) (let ((_let_17 (tptp.fn_biome_1 X))) (let ((_let_18 (tptp.fn_ecosystem_17 X))) (let ((_let_19 (tptp.fn_soil_1 _let_10))) (let ((_let_20 (tptp.fn_ecosystem_31 X))) (let ((_let_21 (tptp.fn_desert_16 X))) (let ((_let_22 (tptp.fn_desert_19 X))) (let ((_let_23 (tptp.fn_desert_24 X))) (let ((_let_24 (tptp.fn_desert_23 X))) (let ((_let_25 (tptp.fn_desert_13 X))) (let ((_let_26 (tptp.fn_chemical_3 _let_25))) (let ((_let_27 (tptp.fn_desert_14 X))) (let ((_let_28 (tptp.fn_desert_20 X))) (let ((_let_29 (tptp.fn_desert_18 X))) (let ((_let_30 (tptp.fn_desert_7 X))) (let ((_let_31 (tptp.fn_desert_3 X))) (let ((_let_32 (tptp.fn_desert_4 X))) (let ((_let_33 (tptp.fn_desert_5 X))) (let ((_let_34 (tptp.fn_desert_17 X))) (let ((_let_35 (tptp.fn_desert_15 X))) (let ((_let_36 (tptp.fn_desert_21 X))) (let ((_let_37 (tptp.fn_desert_6 X))) (let ((_let_38 (tptp.fn_desert_10 X))) (let ((_let_39 (tptp.fn_desert_8 X))) (let ((_let_40 (tptp.fn_desert_9 X))) (let ((_let_41 (tptp.fn_desert_11 X))) (let ((_let_42 (tptp.fn_desert_2 X))) (=> (tptp.desert_1 X) (and (tptp.original_name_2 X |tptp.'Desert'|) (tptp.user_description_2 X |tptp.'A large terrestrial region that receives very little precipitation.'|) (tptp.concept2words_2 X tptp.desert) (tptp.ecosystem_1 X) (tptp.terrestrial_biome_1 X) (not (tptp.chaparral_1 X)) (not (tptp.northern_coniferous_1 X)) (not (tptp.savanna_1 X)) (not (tptp.temperate_broadleaf_forest_1 X)) (not (tptp.temperate_grassland_1 X)) (not (tptp.tropical_rain_forest_1 X)) (not (tptp.tropics_1 X)) (not (tptp.tundra_1 X)) (tptp.quantity_value_1 _let_42) (tptp.visible_light_1 _let_31) (tptp.energy_1 _let_31) (tptp.sunlight_1 _let_32) (tptp.visible_light_1 _let_33) (tptp.energy_1 _let_33) (tptp.metabolic_pathway_1 _let_37) (tptp.light_reaction_1 _let_37) (tptp.photosynthesis_1 _let_30) (tptp.consumers_1 _let_39) (tptp.population_1 _let_40) (tptp.community_1 _let_38) (tptp.tangible_entity_1 _let_41) (tptp.ground_1 _let_41) (tptp.soil_1 _let_10) (tptp.substance_1 _let_25) (tptp.mineral_1 _let_25) (tptp.chemical_1 _let_25) (tptp.phosphorus_1 _let_27) (tptp.cyanobacterium_1 _let_35) (tptp.photosynthesis_1 _let_21) (tptp.anabolic_pathway_1 _let_21) (tptp.metabolic_pathway_1 _let_21) (tptp.chemical_reaction_1 _let_34) (tptp.metabolic_pathway_1 _let_34) (tptp.photosynthesis_1 _let_34) (tptp.algal_cell_1 _let_29) (tptp.plant_cell_1 _let_22) (tptp.cell_1 _let_22) (tptp.eukaryotic_cell_1 _let_22) (tptp.algae_1 _let_28) (tptp.animal_1 _let_36) (tptp.plant_1 _let_1) (tptp.energy_1 _let_24) (tptp.entity_1 _let_24) (tptp.chemical_energy_1 _let_24) (tptp.visible_light_1 _let_23) (tptp.energy_1 _let_23) (tptp.chemical_entity_1 _let_26) (tptp.ground_1 _let_19) (tptp.substance_1 _let_12) (tptp.mineral_1 _let_11) (tptp.entity_1 _let_8) (tptp.chemical_energy_1 _let_8) (tptp.visible_light_1 _let_6) (tptp.energy_1 _let_6) (tptp.plant_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_4) (tptp.photosynthesis_1 _let_2) (tptp.anabolic_pathway_1 _let_2) (tptp.metabolic_pathway_1 _let_2) (tptp.quantity_2 _let_27 _let_42) (tptp.the_scalar_value_2 _let_42 tptp.low_0) (tptp.scalar_unit_class_2 _let_42 tptp.chemical_entity_0) (tptp.element_2 X _let_41) (tptp.has_part_2 _let_41 _let_10) (tptp.has_part_2 _let_10 _let_25) (tptp.element_2 X _let_38) (tptp.element_2 _let_38 _let_39) (tptp.element_2 _let_39 _let_40) (tptp.element_2 _let_40 _let_36) (tptp.element_2 X _let_1) (tptp.result_2 _let_21 _let_24) (not (= _let_30 _let_21)) (not (= _let_21 _let_30)) (tptp.has_part_2 _let_32 _let_23) (tptp.raw_material_2 _let_37 _let_23) (tptp.base_2 _let_37 _let_22) (tptp.experiencer_2 _let_34 _let_35) (not (= _let_21 _let_34)) (not (= _let_34 _let_21)) (not (= _let_30 _let_34)) (not (= _let_34 _let_30)) (tptp.base_2 _let_34 _let_35) (tptp.element_2 X _let_35) (tptp.element_2 X _let_36) (tptp.element_2 X _let_28) (tptp.has_part_2 _let_28 _let_29) (tptp.base_2 _let_30 _let_29) (tptp.raw_material_2 _let_30 _let_31) (tptp.has_part_2 _let_32 _let_31) (not (= _let_23 _let_24)) (not (= _let_24 _let_23)) (tptp.raw_material_2 _let_21 _let_23) (tptp.base_2 _let_21 _let_22) (tptp.has_part_2 _let_1 _let_22) (tptp.has_function_2 _let_1 _let_21) (tptp.has_part_2 _let_25 _let_27) (= _let_41 _let_20) (= _let_41 _let_19) (= _let_25 _let_12) (= _let_25 _let_11) (= _let_36 _let_18) (= _let_40 (tptp.fn_ecosystem_4 X)) (= _let_39 (tptp.fn_ecosystem_3 X)) (= _let_38 (tptp.fn_ecosystem_18 X)) (= _let_1 (tptp.fn_biome_3 X)) (= _let_24 _let_9) (= _let_22 _let_5) (= _let_37 (tptp.fn_biome_13 X)) (= _let_23 _let_7) (= _let_21 _let_3) (= _let_36 _let_17) (= _let_35 (tptp.fn_biome_4 X)) (= _let_34 (tptp.fn_biome_5 X)) (= _let_33 (tptp.fn_biome_6 X)) (= _let_32 (tptp.fn_biome_15 X)) (= _let_31 (tptp.fn_biome_16 X)) (= _let_30 (tptp.fn_biome_7 X)) (= _let_29 _let_16) (= _let_29 _let_15) (= _let_28 _let_14) (= _let_28 _let_13) (= _let_27 _let_26) (= _let_24 _let_8) (= _let_23 _let_6) (= _let_22 _let_4) (= _let_21 _let_2) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_desert_plant_4 X))) (let ((_let_2 (tptp.fn_desert_plant_3 X))) (let ((_let_3 (tptp.fn_desert_plant_8 X))) (let ((_let_4 (tptp.fn_desert_plant_9 X))) (let ((_let_5 (tptp.fn_desert_plant_5 X))) (let ((_let_6 (tptp.fn_desert_plant_11 X))) (let ((_let_7 (tptp.fn_desert_plant_10 X))) (let ((_let_8 (tptp.fn_desert_plant_6 X))) (let ((_let_9 (tptp.fn_desert_plant_12 X))) (let ((_let_10 (tptp.fn_desert_plant_7 X))) (=> (tptp.desert_plant_1 X) (and (tptp.original_name_2 X |tptp.'Desert-Plant'|) (tptp.user_description_2 X |tptp.'Plants which live in desert biomes.'|) (tptp.concept2words_2 X |tptp.'plant of desert'|) (tptp.concept2words_2 X |tptp.'desert plant'|) (tptp.concept2words_2 X |tptp.'desert-plant'|) (tptp.xerophyte_1 X) (tptp.photoautotroph_1 _let_2) (tptp.starch_storage_by_plant_1 _let_1) (tptp.water_1 _let_5) (tptp.plant_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.tuber_1 _let_10) (tptp.nutrition_1 _let_3) (tptp.photosynthesis_1 _let_4) (tptp.anabolic_pathway_1 _let_4) (tptp.metabolic_pathway_1 _let_4) (tptp.temperature_value_1 _let_7) (tptp.specific_heat_value_1 _let_6) (tptp.store_1 _let_9) (= (tptp.fn_desert_plant_1 X) (tptp.fn_plant_21 X)) (= (tptp.fn_desert_plant_2 X) (tptp.fn_plant_22 X)) (= _let_10 (tptp.fn_plant_12 X)) (= _let_9 (tptp.fn_plant_11 X)) (= _let_8 (tptp.fn_plant_20 X)) (= _let_7 (tptp.fn_plant_14 X)) (= _let_6 (tptp.fn_plant_15 X)) (= _let_5 (tptp.fn_plant_13 X)) (= _let_4 (tptp.fn_plant_18 X)) (= _let_3 (tptp.fn_plant_19 X)) (= _let_2 (tptp.fn_plant_16 X)) (= _let_1 (tptp.fn_plant_17 X))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_desmosome_1 X))) (let ((_let_2 (tptp.fn_hold_1 _let_1))) (let ((_let_3 (tptp.fn_desmosome_6 X))) (let ((_let_4 (tptp.fn_hold_2 _let_3))) (let ((_let_5 (tptp.fn_intercellular_junction_2 X))) (let ((_let_6 (tptp.fn_hold_2 _let_1))) (let ((_let_7 (tptp.fn_desmosome_8 X))) (let ((_let_8 (tptp.fn_plasma_membrane_71 _let_7))) (let ((_let_9 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_10 (tptp.fn_desmosome_3 X))) (let ((_let_11 (tptp.fn_desmosome_2 X))) (let ((_let_12 (tptp.fn_desmosome_7 X))) (let ((_let_13 (tptp.fn_animal_cell_79 _let_11))) (let ((_let_14 (tptp.fn_desmosome_4 X))) (let ((_let_15 (tptp.fn_hold_1 _let_3))) (let ((_let_16 (tptp.fn_desmosome_5 X))) (=> (tptp.desmosome_1 X) (and (tptp.original_name_2 X |tptp.'Desmosome'|) (tptp.user_description_2 X |tptp.'A type of intercellular junction that occurs in animal cells and functions to bind adjacent cells together.'|) (tptp.concept2words_2 X tptp.desmosome) (tptp.intercellular_junction_1 X) (not (tptp.intercalated_disc_1 X)) (not (tptp.tight_junction_1 X)) (tptp.hold_together_1 _let_1) (tptp.tangible_entity_1 _let_11) (tptp.animal_cell_1 _let_11) (tptp.cell_1 _let_11) (tptp.animal_cell_1 _let_10) (tptp.mixture_1 _let_14) (tptp.cytoplasm_1 _let_14) (tptp.intermediate_filament_1 _let_16) (tptp.hold_1 _let_3) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.plasma_membrane_1 _let_7) (tptp.tangible_entity_1 _let_15) (tptp.mixture_1 _let_13) (tptp.cytoplasm_1 _let_13) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.object_2 _let_1 _let_10) (tptp.is_inside_2 X _let_12) (tptp.site_2 _let_3 _let_14) (tptp.has_part_2 _let_7 X) (tptp.agent_2 _let_3 _let_16) (tptp.object_2 _let_1 _let_11) (tptp.object_2 _let_3 X) (tptp.has_part_2 _let_11 _let_14) (tptp.has_part_2 _let_7 _let_12) (tptp.agent_2 _let_1 X) (tptp.is_between_2 X _let_10) (not (= _let_10 _let_11)) (tptp.is_between_2 X _let_11) (not (= _let_11 _let_10)) (tptp.abuts_2 _let_10 _let_11) (tptp.abuts_2 _let_11 _let_10) (= _let_16 _let_15) (= _let_11 _let_6) (= X _let_4) (= _let_14 _let_13) (= _let_12 _let_9) (= _let_12 _let_8) (= X _let_2) (= _let_11 _let_5) (= _let_10 (tptp.fn_intercellular_junction_1 X)) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.destroy_1 X) (and (tptp.original_name_2 X |tptp.'Destroy'|) (tptp.concept2words_2 X tptp.destroy) (tptp.concept2words_2 X tptp.destruct) (tptp.concept2words_2 X tptp.ruin) (tptp.concept2words_2 X tptp.demolish) (tptp.concept2words_2 X tptp.disappear) (tptp.break_1 X)))) (forall ((X $$unsorted)) (=> (tptp.destruction_1 X) (and (tptp.original_name_2 X |tptp.'Destruction'|) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_detach_1 X))) (let ((_let_2 (tptp.fn_detach_2 X))) (=> (tptp.detach_1 X) (and (tptp.original_name_2 X |tptp.'Detach'|) (tptp.concept2words_2 X tptp.detach) (tptp.concept2words_2 X |tptp.'come off'|) (tptp.concept2words_2 X tptp.come_off) (tptp.concept2words_2 X |tptp.'come away'|) (tptp.concept2words_2 X tptp.come_away) (tptp.concept2words_2 X tptp.separate) (tptp.concept2words_2 X tptp.disjoin) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.detailed_instance_1 X) (and (tptp.original_name_2 X |tptp.'Detailed-Instance'|) (tptp.description_2 X |tptp.'Instances of this class are things that do not necessarily exist but serve to represent what is within the scope of non-abnormal posssibility. Instances of this class should be instance of another class which we refer to here as the reference class. The name of instances of this class should be of the form *Detailed-Instance-of-Foo_' such that Foo corresponds to its reference class. For example, to express the fact that It is not unusual for some laptop computers to have a sound card_' one could reify *Detailed-Instance-of-Laptop-Computer and assert that it has a Sound-Card as a part. In contrast, see Typical-Instance.'|) (tptp.concept2words_2 X |tptp.'detailed instance'|) (tptp.concept2words_2 X |tptp.'detailed-instance'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.detect_1 X) (and (tptp.original_name_2 X |tptp.'Detect'|) (tptp.user_description_2 X |tptp.'An action to discover the true character or discover or determine the existence or presence of an entity.'|) (tptp.concept2words_2 X tptp.detect) (tptp.measure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.detector_1 X) (and (tptp.original_name_2 X |tptp.'Detector'|) (tptp.user_description_2 X |tptp.'Instrument which determines the flow of electromagnetic energy.'|) (tptp.concept2words_2 X tptp.detector) (tptp.scientific_device_1 X)))) (forall ((X $$unsorted)) (=> (tptp.deterioration_1 X) (and (tptp.original_name_2 X |tptp.'Deterioration'|) (tptp.concept2words_2 X tptp.deteriorate) (tptp.concept2words_2 X tptp.devolve) (tptp.concept2words_2 X tptp.degenerate) (tptp.concept2words_2 X tptp.decay) (tptp.concept2words_2 X tptp.disintegrate) (tptp.concept2words_2 X tptp.decompose) (tptp.concept2words_2 X tptp.deterioration) (tptp.concept2words_2 X tptp.impairment) (tptp.concept2words_2 X tptp.decomposition) (tptp.concept2words_2 X tptp.disintegration) (tptp.concept2words_2 X tptp.distintegrate) (tptp.impair_1 X)))) (forall ((X $$unsorted)) (=> (tptp.determinate_cleavage_1 X) (and (tptp.original_name_2 X |tptp.'Determinate-Cleavage'|) (tptp.user_description_2 X |tptp.'In animals, a type of embryonic development in which the developmental fate of each cell is determined very early.'|) (tptp.concept2words_2 X |tptp.'undergo determinate cleavage'|) (tptp.concept2words_2 X |tptp.'determinate cleavage'|) (tptp.concept2words_2 X |tptp.'determinate-cleavage'|) (tptp.cleavage_1 X) (not (tptp.holoblastic_cleavage_1 X)) (not (tptp.indeterminate_cleavage_1 X)) (not (tptp.meroblastic_cleavage_1 X)) (not (tptp.spiral_cleavage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.determinate_growth_1 X) (and (tptp.original_name_2 X |tptp.'Determinate-Growth'|) (tptp.user_description_2 X |tptp.'Growth that stops when a genetically determined size or developmental state has been reached.'|) (tptp.concept2words_2 X |tptp.'determinate growth'|) (tptp.concept2words_2 X |tptp.'determinate-growth'|) (tptp.growth_1 X) (tptp.developmental_process_1 X) (not (tptp.indeterminate_growth_1 X)) (not (tptp.animal_life_cycle_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.life_cycle_of_drosophila_1 X)) (not (tptp.life_history_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_determine_order_5 X))) (let ((_let_2 (tptp.fn_sequence_2 _let_1))) (let ((_let_3 (tptp.fn_determine_order_3 X))) (let ((_let_4 (tptp.fn_sequence_1 _let_1))) (let ((_let_5 (tptp.fn_determine_order_4 X))) (let ((_let_6 (tptp.fn_determine_order_2 X))) (let ((_let_7 (tptp.fn_determine_order_1 X))) (=> (tptp.determine_order_1 X) (and (tptp.original_name_2 X |tptp.'Determine-Order'|) (tptp.user_description_2 X |tptp.'A process that determines the sequential order of a series of entities.'|) (tptp.concept2words_2 X tptp.maintain) (tptp.concept2words_2 X |tptp.'determine order'|) (tptp.concept2words_2 X |tptp.'determine-order'|) (tptp.organizing_1 X) (tptp.research_1 _let_7) (tptp.scientist_1 _let_6) (tptp.entity_1 _let_3) (tptp.entity_1 _let_5) (tptp.sequence_1 _let_1) (tptp.entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.enables_2 _let_7 X) (tptp.agent_2 _let_7 _let_6) (tptp.object_2 X _let_3) (tptp.object_2 X _let_5) (tptp.result_2 X _let_1) (tptp.agent_2 X _let_6) (tptp.first_element_2 _let_1 _let_3) (tptp.next_element_2 _let_3 _let_5) (tptp.element_2 _let_1 _let_5) (tptp.element_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.determined_by_1 X) (and (tptp.original_name_2 X |tptp.'Determined-By'|) (tptp.user_description_2 X |tptp.'A state is determined by a set of conditions.'|) (tptp.concept2words_2 X tptp.interact) (tptp.concept2words_2 X |tptp.'determined by'|) (tptp.concept2words_2 X |tptp.'determined-by'|) (tptp.interact_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_detoxification_9 X))) (let ((_let_2 (tptp.fn_toxin_1 _let_1))) (let ((_let_3 (tptp.fn_detoxification_15 X))) (let ((_let_4 (tptp.fn_add_2 _let_3))) (let ((_let_5 (tptp.fn_detoxification_8 X))) (let ((_let_6 (tptp.fn_remove_1 _let_5))) (let ((_let_7 (tptp.fn_detoxification_16 X))) (let ((_let_8 (tptp.fn_increase_4 _let_7))) (let ((_let_9 (tptp.fn_detoxification_7 X))) (let ((_let_10 (tptp.fn_increase_3 _let_7))) (let ((_let_11 (tptp.fn_detoxification_11 X))) (let ((_let_12 (tptp.fn_increase_2 _let_7))) (let ((_let_13 (tptp.fn_increase_1 _let_7))) (let ((_let_14 (tptp.fn_detoxification_13 X))) (let ((_let_15 (tptp.fn_add_1 _let_3))) (let ((_let_16 (tptp.fn_detoxification_14 X))) (let ((_let_17 (tptp.fn_remove_2 _let_5))) (let ((_let_18 (tptp.fn_detoxification_12 X))) (let ((_let_19 (tptp.fn_detoxification_4 X))) (let ((_let_20 (tptp.fn_detoxification_2 X))) (let ((_let_21 (tptp.fn_detoxification_5 X))) (let ((_let_22 (tptp.fn_detoxification_3 X))) (=> (tptp.detoxification_1 X) (and (tptp.original_name_2 X |tptp.'Detoxification'|) (tptp.user_description_2 X |tptp.'Detoxification is the process in which toxic molecules, such as poisons, drugs and alcohol, are chemically modified and flushed from the body'|) (tptp.concept2words_2 X tptp.detoxify) (tptp.concept2words_2 X tptp.detoxification) (tptp.biochemical_change_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.rate_value_1 _let_20) (tptp.barbiturate_1 _let_22) (tptp.alcohol_1 _let_19) (tptp.protein_enzyme_1 _let_21) (tptp.solubility_value_1 _let_9) (tptp.remove_1 _let_5) (tptp.toxin_1 _let_1) (tptp.solubility_value_1 _let_11) (tptp.liver_cell_1 _let_18) (tptp.drug_1 _let_14) (tptp.hydroxyl_group_1 _let_16) (tptp.add_1 _let_3) (tptp.increase_1 _let_7) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.property_node_1 _let_13) (tptp.property_node_1 _let_12) (tptp.property_value_1 _let_10) (tptp.property_value_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.object_2 _let_5 _let_19) (tptp.object_2 _let_5 _let_22) (not (= _let_22 _let_19)) (not (= _let_19 _let_22)) (not (= _let_19 _let_14)) (tptp.object_2 X _let_14) (tptp.object_2 X _let_22) (tptp.object_2 X _let_19) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_5) (tptp.agent_2 X _let_21) (tptp.base_2 X _let_18) (tptp.rate_2 X _let_20) (tptp.has_function_2 _let_18 X) (not (= _let_14 _let_19)) (tptp.solubility_in_water_2 _let_14 _let_11) (tptp.next_event_2 _let_3 _let_7) (tptp.base_2 _let_5 _let_18) (tptp.object_2 _let_3 _let_16) (tptp.object_2 _let_5 _let_14) (tptp.base_2 _let_3 _let_14) (tptp.plays_2 _let_14 _let_1) (tptp.from_value_2 _let_7 _let_11) (tptp.to_value_2 _let_7 _let_9) (tptp.greater_than_2 _let_9 _let_11) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_6) (= _let_14 _let_4) (= _let_14 _let_2) (= (tptp.fn_detoxification_6 X) _let_13) (= (tptp.fn_detoxification_10 X) _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_decomposer_1 X))) (let ((_let_2 (tptp.fn_detritivore_18 X))) (let ((_let_3 (tptp.fn_move_into_1 _let_2))) (let ((_let_4 (tptp.fn_detritivore_11 X))) (let ((_let_5 (tptp.fn_secretion_2 _let_4))) (let ((_let_6 (tptp.fn_take_in_1 _let_2))) (let ((_let_7 (tptp.fn_detritivore_15 X))) (let ((_let_8 (tptp.fn_chemical_digestion_2 _let_7))) (let ((_let_9 (tptp.fn_move_1 _let_2))) (let ((_let_10 (tptp.fn_detritivore_10 X))) (let ((_let_11 (tptp.fn_organism_4 _let_10))) (let ((_let_12 (tptp.fn_detritivore_12 X))) (let ((_let_13 (tptp.fn_organism_5 _let_10))) (let ((_let_14 (tptp.fn_detritivore_14 X))) (let ((_let_15 (tptp.fn_organism_2 _let_10))) (let ((_let_16 (tptp.fn_detritivore_13 X))) (let ((_let_17 (tptp.fn_detritivore_16 X))) (let ((_let_18 (tptp.fn_move_into_2 _let_2))) (let ((_let_19 (tptp.fn_detritivore_19 X))) (let ((_let_20 (tptp.fn_detritivore_17 X))) (let ((_let_21 (tptp.fn_detritivore_9 X))) (let ((_let_22 (tptp.fn_detritivore_8 X))) (let ((_let_23 (tptp.fn_detritivore_7 X))) (let ((_let_24 (tptp.fn_detritivore_6 X))) (let ((_let_25 (tptp.fn_detritivore_4 X))) (let ((_let_26 (tptp.fn_detritivore_5 X))) (let ((_let_27 (tptp.fn_detritivore_2 X))) (let ((_let_28 (tptp.fn_detritivore_3 X))) (let ((_let_29 (tptp.fn_detritivore_1 X))) (=> (tptp.detritivore_1 X) (and (tptp.original_name_2 X |tptp.'Detritivore'|) (tptp.user_description_2 X |tptp.'A consumer that obtains energy and nutrients from nonliving organic sources such as carcasses, plant debris, and fecal matter.'|) (tptp.concept2words_2 X tptp.detritivore) (tptp.decomposer_1 X) (tptp.chemical_entity_1 _let_29) (tptp.water_molecule_1 _let_27) (tptp.organic_molecule_1 _let_28) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_26) (tptp.energy_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.spatial_entity_1 _let_22) (tptp.cell_1 _let_21) (tptp.living_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.organism_1 _let_10) (tptp.secretion_1 _let_4) (tptp.water_1 _let_12) (tptp.temperature_value_1 _let_16) (tptp.specific_heat_value_1 _let_14) (tptp.chemical_digestion_1 _let_7) (tptp.nutrition_1 _let_17) (tptp.inorganic_molecule_1 _let_20) (tptp.take_in_1 _let_2) (tptp.container_1 _let_19) (tptp.container_1 _let_18) (tptp.temperature_value_1 _let_15) (tptp.specific_heat_value_1 _let_13) (tptp.water_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.living_entity_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.has_part_2 _let_10 _let_21) (tptp.result_2 _let_7 _let_25) (not (= _let_27 _let_28)) (tptp.has_part_2 _let_28 _let_26) (tptp.has_part_2 _let_28 _let_29) (not (= _let_28 _let_27)) (tptp.has_state_2 _let_26 _let_25) (tptp.possesses_2 _let_23 _let_24) (tptp.by_means_of_2 _let_17 _let_7) (tptp.result_2 _let_17 _let_23) (tptp.is_outside_2 _let_22 _let_10) (tptp.origin_2 _let_2 _let_22) (tptp.destination_2 _let_2 _let_21) (tptp.object_2 _let_2 _let_20) (tptp.agent_2 _let_2 _let_10) (tptp.result_2 _let_7 _let_20) (tptp.base_2 _let_4 _let_10) (tptp.base_2 _let_2 _let_10) (tptp.plays_2 _let_10 _let_19) (tptp.in_event_2 _let_19 _let_2) (tptp.in_event_2 X _let_17) (tptp.agent_2 _let_17 _let_10) (tptp.plays_2 _let_10 X) (tptp.temperature_2 _let_10 _let_16) (tptp.correspondence_2 _let_16 _let_14) (tptp.specific_heat_2 _let_12 _let_14) (tptp.has_part_2 _let_10 _let_12) (= _let_20 _let_9) (= _let_10 _let_6) (= _let_20 _let_8) (= _let_10 _let_5) (= _let_19 _let_18) (= _let_10 _let_3) (= _let_10 _let_1) (= _let_17 (tptp.fn_decomposer_6 X)) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.detritus_1 X) (and (tptp.original_name_2 X |tptp.'Detritus'|) (tptp.user_description_2 X |tptp.'Organic matter that is non-living.'|) (tptp.concept2words_2 X |tptp.'organic litter'|) (tptp.concept2words_2 X tptp.detritus) (tptp.organic_entity_1 X) (not (tptp.suspension_1 X)) (not (tptp.acid_chyme_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.loam_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X))))) (forall ((X $$unsorted)) (=> (tptp.deuteromycete_1 X) (and (tptp.original_name_2 X |tptp.'Deuteromycete'|) (tptp.user_description_2 X |tptp.'An artificial group of fungi with no known sexual stage.'|) (tptp.concept2words_2 X tptp.deuteromycete) (tptp.fungus_1 X) (not (tptp.ascomycete_1 X)) (not (tptp.chytrid_1 X)) (not (tptp.club_fungus_1 X)) (not (tptp.glomeromycete_1 X)) (not (tptp.symbiotic_fungi_1 X)) (not (tptp.zygomycete_1 X))))) (forall ((X $$unsorted)) (=> (tptp.deuterostome_development_1 X) (and (tptp.original_name_2 X |tptp.'Deuterostome-Development'|) (tptp.user_description_2 X |tptp.'In animals, a developmental pathway in which the blastopore becomes the anus, with the mouth breaking through on the other end of the embryo. Deuterostomes often have radial cleavage and develop their coelom from mesodermal outpocketings of the archenteron.'|) (tptp.concept2words_2 X |tptp.'deuterostome development'|) (tptp.concept2words_2 X |tptp.'deuterostome-development'|) (tptp.life_cycle_1 X) (tptp.developmental_process_1 X) (not (tptp.drosophila_development_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_deuterostomia_3 X))) (let ((_let_2 (tptp.fn_deuterostomia_6 X))) (let ((_let_3 (tptp.fn_deuterostomia_2 X))) (let ((_let_4 (tptp.fn_deuterostomia_1 X))) (let ((_let_5 (tptp.fn_deuterostomia_8 X))) (let ((_let_6 (tptp.fn_deuterostomia_9 X))) (let ((_let_7 (tptp.fn_deuterostomia_10 X))) (let ((_let_8 (tptp.fn_deuterostomia_4 X))) (let ((_let_9 (tptp.fn_deuterostomia_5 X))) (let ((_let_10 (tptp.fn_deuterostomia_7 X))) (let ((_let_11 (tptp.fn_agent_role_1 _let_10))) (=> (tptp.deuterostomia_1 X) (and (tptp.original_name_2 X |tptp.'Deuterostomia'|) (tptp.user_description_2 X |tptp.'Subphylum of animals characterized by the presence of the deuterostome pattern of development, in which the first body opening becomes the anus.'|) (tptp.concept2words_2 X tptp.deuterostomia) (tptp.eumetazoan_1 X) (tptp.locomotion_1 _let_4) (tptp.temperature_value_1 _let_3) (tptp.water_1 _let_1) (tptp.tissue_1 _let_8) (tptp.animal_cell_1 _let_9) (tptp.specific_heat_value_1 _let_2) (tptp.agent_role_1 _let_10) (tptp.take_in_1 _let_5) (tptp.diet_1 _let_6) (tptp.organic_entity_1 _let_7) (tptp.entity_1 _let_11) (tptp.plays_2 X _let_10) (tptp.agent_2 _let_5 X) (tptp.base_2 _let_5 X) (tptp.object_2 _let_4 X) (tptp.has_part_2 X _let_1) (tptp.specific_heat_2 _let_1 _let_2) (tptp.correspondence_2 _let_3 _let_2) (tptp.temperature_2 X _let_3) (tptp.agent_2 _let_4 X) (= X _let_11) (= _let_9 (tptp.fn_eumetazoan_21 X)) (= _let_8 (tptp.fn_eumetazoan_20 X)) (= _let_7 (tptp.fn_animal_1 X)) (= _let_6 (tptp.fn_animal_10 X)) (= _let_5 (tptp.fn_animal_9 X)) (= _let_4 (tptp.fn_animal_22 X)) (= _let_3 (tptp.fn_animal_26 X)) (= _let_2 (tptp.fn_animal_25 X)) (= _let_1 (tptp.fn_animal_20 X)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.development_1 X) (and (tptp.original_name_2 X |tptp.'Development'|) (tptp.concept2words_2 X tptp.development) (tptp.concept2words_2 X tptp.improvement) (tptp.concept2words_2 X tptp.develop) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_organismal_development_1 X))) (let ((_let_2 (tptp.fn_development_in_eukaryote_2 X))) (let ((_let_3 (tptp.fn_create_1 _let_2))) (let ((_let_4 (tptp.fn_development_in_eukaryote_3 X))) (let ((_let_5 (tptp.fn_development_in_eukaryote_1 X))) (=> (tptp.development_in_eukaryote_1 X) (and (tptp.original_name_2 X |tptp.'Development-In-Eukaryote'|) (tptp.user_description_2 X |tptp.'Eukaryote development includes the processes that lead eventually to the formation of a new eukaryote starting from cells derived from one or more parent individuals.'|) (tptp.concept2words_2 X |tptp.'development in eukaryote'|) (tptp.concept2words_2 X |tptp.'development-in-eukaryote'|) (tptp.organismal_development_1 X) (tptp.cell_1 _let_5) (tptp.create_1 _let_2) (tptp.entity_1 _let_4) (tptp.multicellular_organism_1 _let_4) (tptp.entity_1 _let_3) (tptp.raw_material_2 _let_2 _let_5) (tptp.exactCardinality _let_2 tptp.raw_material_0 |"1"| tptp.cell_0) (tptp.subevent_2 X _let_2) (tptp.result_2 _let_2 _let_4) (tptp.experiencer_2 X _let_4) (= _let_4 _let_3) (= _let_4 _let_1) (= _let_3 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.development_related_intercellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Development-Related-Intercellular-Process'|) (tptp.user_description_2 X |tptp.'Intercellular process related to the development of an organism.'|) (tptp.concept2words_2 X |tptp.'undergo development related intercellular process'|) (tptp.concept2words_2 X |tptp.'development related intercellular process'|) (tptp.concept2words_2 X |tptp.'development-related-intercellular-process'|) (tptp.intercellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.development_related_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Development-Related-Mutation'|) (tptp.user_description_2 X |tptp.'Mutations in the genome that affect development of an organism.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'development related mutation'|) (tptp.concept2words_2 X |tptp.'development-related-mutation'|) (tptp.mutation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_developmental_biology_2 X))) (let ((_let_2 (tptp.fn_model_organism_6 _let_1))) (let ((_let_3 (tptp.fn_developmental_biology_1 X))) (=> (tptp.developmental_biology_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Biology'|) (tptp.user_description_2 X |tptp.'Developmental biology is the study of the process by which organisms grow and develop. Modern developmental biology studies the genetic control of cell growth, differentiation and morphogenesis, which is the process that gives rise to tissues, organs and anatomy.'|) (tptp.concept2words_2 X |tptp.'study developmental biology'|) (tptp.concept2words_2 X |tptp.'developmental biology'|) (tptp.concept2words_2 X |tptp.'developmental-biology'|) (tptp.biology_1 X) (tptp.organism_1 _let_3) (tptp.model_organism_1 _let_1) (tptp.organism_1 _let_2) (tptp.base_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.developmental_gene_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Gene'|) (tptp.user_description_2 X |tptp.'A gene playing role in organismal development.'|) (tptp.concept2words_2 X |tptp.'developmental gene'|) (tptp.concept2words_2 X |tptp.'developmental-gene'|) (tptp.eukaryotic_gene_1 X)))) (forall ((X $$unsorted)) (=> (tptp.developmental_genetics_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Genetics'|) (tptp.user_description_2 X |tptp.'Developmental genetics studies the effect that genes have in a phenotype, given normal or abnormal epigenetic parameters.'|) (tptp.concept2words_2 X |tptp.'developmental genetics'|) (tptp.concept2words_2 X |tptp.'developmental-genetic'|) (tptp.genetics_1 X) (not (tptp.mendelian_genetics_1 X)) (not (tptp.molecular_genetics_1 X)) (not (tptp.non_mendelian_genetics_1 X))))) (forall ((X $$unsorted)) (=> (tptp.developmental_process_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Process'|) (tptp.user_description_2 X |tptp.'A process related to the development of organisms.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'developmental process'|) (tptp.concept2words_2 X |tptp.'developmental-process'|) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.developmental_space_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Space'|) (tptp.user_description_2 X |tptp.'Region iin an organism which is related to developmental processes.'|) (tptp.concept2words_2 X |tptp.'developmental space'|) (tptp.concept2words_2 X |tptp.'developmental-space'|) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.developmental_stage_1 X) (and (tptp.original_name_2 X |tptp.'Developmental-Stage'|) (tptp.user_description_2 X |tptp.'A particular stage in the development of an organism.'|) (tptp.concept2words_2 X |tptp.'undergo the developmental stage'|) (tptp.concept2words_2 X |tptp.'developmental stage'|) (tptp.concept2words_2 X |tptp.'developmental-stage'|) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_device_1 X))) (=> (tptp.device_1 X) (and (tptp.original_name_2 X |tptp.'Device'|) (tptp.description_2 X |tptp.'an artifact with an instrumental purpose'|) (tptp.concept2words_2 X tptp.device) (tptp.concept2words_2 X tptp.instrumentality) (tptp.concept2words_2 X tptp.instrumentation) (tptp.artifact_1 X) (not (tptp.physical_document_1 X)) (not (tptp.furnishing_1 X)) (not (tptp.architectural_structure_1 X)) (not (tptp.pharmaceutical_product_1 X)) (not (tptp.photographic_film_1 X)) (not (tptp.scientific_device_1 X)) (not (tptp.useful_product_1 X)) (tptp.instrument_role_1 _let_1) (tptp.purpose_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.diabetes_mellitus_1 X) (and (tptp.original_name_2 X |tptp.'Diabetes-Mellitus'|) (tptp.user_description_2 X |tptp.'A group of diseases in which a patient has abnormally high levels of blood sugar. 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(tptp.transport_protein_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.the_cardinal_value_2 _let_78 |"30.0e0"|) (tptp.cardinal_unit_class_2 _let_78 tptp.micrometer_0) (tptp.length_2 X _let_78) (tptp.is_oriented_toward_2 _let_37 _let_61) (tptp.object_2 _let_6 _let_43) (tptp.object_2 _let_4 _let_43) (tptp.base_2 _let_6 _let_8) (tptp.base_2 _let_4 _let_8) (tptp.is_facing_2 _let_37 _let_61) (tptp.the_scalar_value_2 _let_73 tptp.big_0) (tptp.scalar_unit_class_2 _let_73 tptp.prokaryote_0) (tptp.base_2 _let_51 X) (tptp.is_inside_2 _let_64 _let_53) (not (= _let_1 _let_64)) (not (= _let_64 _let_1)) (tptp.size_2 X _let_73) (tptp.directly_proportional_2 _let_73 _let_74) (tptp.volume_2 X _let_74) (tptp.has_region_2 X _let_75) (tptp.is_at_2 _let_49 _let_75) (tptp.is_inside_2 _let_61 _let_8) (tptp.is_between_2 _let_61 _let_8) (tptp.is_between_2 _let_61 _let_54) (tptp.is_inside_2 _let_66 _let_54) (tptp.base_2 _let_65 X) (tptp.has_function_2 X _let_65) (tptp.has_part_2 X _let_66) (tptp.base_2 _let_63 X) (tptp.has_function_2 X _let_63) (tptp.has_part_2 X _let_64) (tptp.abuts_2 _let_1 _let_64) (tptp.abuts_2 _let_64 _let_1) (tptp.has_part_2 X _let_61) (tptp.has_part_2 _let_61 _let_53) (tptp.is_inside_2 _let_62 _let_53) (tptp.has_part_2 X _let_62) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_57) (tptp.specific_heat_2 _let_57 _let_58) (tptp.correspondence_2 _let_59 _let_58) (tptp.temperature_2 X _let_59) (tptp.has_part_2 X _let_60) (tptp.has_part_2 X _let_56) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_54 _let_53) (tptp.has_part_2 X _let_54) (tptp.has_part_2 X _let_55) (tptp.is_inside_2 _let_55 _let_53) (tptp.is_inside_2 _let_56 _let_53) (tptp.has_function_2 _let_1 _let_51) (tptp.site_2 _let_51 _let_1) (tptp.has_function_2 _let_1 _let_52) (tptp.site_2 _let_52 _let_1) (tptp.is_inside_2 _let_1 _let_53) (tptp.has_region_2 _let_43 _let_46) (tptp.called_2 _let_40 |tptp.'MP1'|) (tptp.has_part_2 _let_8 _let_49) (tptp.has_region_2 _let_8 _let_37) (tptp.is_inside_2 _let_45 _let_49) (tptp.is_inside_2 _let_43 _let_49) (tptp.is_at_2 _let_43 _let_8) (tptp.has_part_2 _let_8 _let_42) (tptp.called_2 _let_42 |tptp.'MP2'|) (tptp.has_region_2 _let_8 _let_46) (tptp.is_outside_2 _let_46 _let_8) (tptp.has_part_2 _let_8 _let_43) (tptp.is_across_2 _let_43 _let_48) (tptp.has_region_2 _let_8 _let_48) (tptp.has_part_2 _let_8 _let_40) (not (= _let_40 _let_42)) (not (= _let_42 _let_43)) (tptp.is_across_2 _let_43 _let_8) (tptp.has_part_2 _let_8 _let_45) (not (= _let_42 _let_40)) (not (= _let_43 _let_42)) (= _let_43 _let_13) (= _let_43 _let_12) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_61 _let_38) (= (tptp.fn_diatom_17 X) (tptp.fn_protist_cell_13 X)) (= (tptp.fn_diatom_16 X) (tptp.fn_protist_cell_12 X)) (= _let_77 (tptp.fn_protist_cell_5 X)) (= _let_76 (tptp.fn_protist_cell_7 X)) (= _let_49 _let_17) (= _let_75 (tptp.fn_protist_cell_15 X)) (= _let_74 (tptp.fn_protist_cell_17 X)) (= _let_73 (tptp.fn_protist_cell_16 X)) (= _let_72 (tptp.fn_protist_cell_3 X)) (= _let_71 (tptp.fn_protist_cell_6 X)) (= _let_70 (tptp.fn_protist_cell_2 X)) (= _let_69 (tptp.fn_protist_cell_4 X)) (= _let_68 (tptp.fn_protist_cell_8 X)) (= _let_67 (tptp.fn_protist_cell_20 X)) (= _let_66 (tptp.fn_protist_cell_19 X)) (= _let_65 (tptp.fn_protist_cell_9 X)) (= _let_64 (tptp.fn_protist_cell_25 X)) (= _let_63 (tptp.fn_protist_cell_32 X)) (= _let_8 _let_3) (= _let_62 (tptp.fn_protist_cell_34 X)) (= _let_61 _let_36) (= (tptp.fn_diatom_14 X) (tptp.fn_organism_6 X)) (= (tptp.fn_diatom_15 X) (tptp.fn_organism_1 X)) (= _let_60 _let_35) (= _let_60 _let_34) (= _let_59 (tptp.fn_organism_2 X)) (= _let_58 (tptp.fn_organism_5 X)) (= _let_57 (tptp.fn_organism_4 X)) (= _let_56 _let_33) (= _let_56 _let_32) (= _let_55 _let_31) (= _let_55 _let_30) (= X _let_2) (= _let_54 _let_29) (= _let_54 _let_28) (= _let_53 _let_27) (= _let_53 _let_26) (= _let_52 _let_25) (= _let_52 _let_24) (= _let_52 _let_23) (= _let_52 _let_22) (= _let_52 _let_21) (= _let_1 (tptp.fn_protist_cell_23 X)) (= _let_51 _let_20) (= _let_51 _let_19) (= _let_37 _let_50) (= _let_49 _let_18) (= _let_43 _let_11) (= _let_43 _let_10) (= _let_49 _let_16) (= _let_48 _let_47) (= _let_46 _let_15) (= _let_46 _let_14) (= _let_45 _let_44) (= _let_43 _let_9) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dicot_2 X))) (let ((_let_2 (tptp.fn_dicot_3 X))) (let ((_let_3 (tptp.fn_dicot_1 X))) (=> (tptp.dicot_1 X) (and (tptp.original_name_2 X |tptp.'Dicot'|) (tptp.user_description_2 X |tptp.'A descriptive term used to refer to angiosperms that have two cotyledons, or embryonic seed leaves.'|) (tptp.concept2words_2 X tptp.dicot) (tptp.angiosperm_1 X) (tptp.root_1 _let_3) (tptp.taproot_1 _let_1) (tptp.root_system_1 _let_2) (not (= _let_3 _let_1)) (not (= _let_1 _let_3)) (tptp.is_inside_2 _let_1 _let_2) (tptp.has_part_2 X _let_3) (tptp.has_region_2 X _let_2) (tptp.is_inside_2 _let_3 _let_2) (tptp.has_part_2 X _let_1) (= _let_3 (tptp.fn_seed_plant_15 X)) (= _let_2 (tptp.fn_seed_plant_9 X)) (= _let_1 (tptp.fn_angiosperm_7 X)))))))) (forall ((X $$unsorted)) (=> (tptp.diencephalon_1 X) (and (tptp.original_name_2 X |tptp.'Diencephalon'|) (tptp.user_description_2 X |tptp.'Region of the brain located in the central portion which houses the thalamus and hypothalamus.'|) (tptp.concept2words_2 X tptp.diencephalon) (tptp.brain_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.diet_1 X) (and (tptp.original_name_2 X |tptp.'Diet'|) (tptp.user_description_2 X |tptp.'The group of foods which make up the source of nutrition for an animal.'|) (tptp.concept2words_2 X tptp.diet) (tptp.tangible_entity_1 X) (tptp.aggregate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_differential_gene_expression_7 X))) (let ((_let_2 (tptp.fn_gene_expression_6 _let_1))) (let ((_let_3 (tptp.fn_differential_gene_expression_8 X))) (let ((_let_4 (tptp.fn_differential_gene_expression_12 X))) (let ((_let_5 (tptp.fn_gene_expression_6 _let_4))) (let ((_let_6 (tptp.fn_differential_gene_expression_11 X))) (let ((_let_7 (tptp.fn_differential_gene_expression_9 X))) (let ((_let_8 (tptp.fn_multicellular_organism_1 _let_7))) (let ((_let_9 (tptp.fn_differential_gene_expression_10 X))) (let ((_let_10 (tptp.fn_differential_gene_expression_3 X))) (let ((_let_11 (tptp.fn_differential_gene_expression_4 X))) (let ((_let_12 (tptp.fn_differential_gene_expression_5 X))) (let ((_let_13 (tptp.fn_differential_gene_expression_6 X))) (=> (tptp.differential_gene_expression_1 X) (and (tptp.original_name_2 X |tptp.'Differential-Gene-Expression'|) (tptp.user_description_2 X |tptp.'Differential gene expression refers to the selective expression of specific genes across cell types in a multicellular organism.'|) (tptp.concept2words_2 X |tptp.'differential gene expression'|) (tptp.concept2words_2 X |tptp.'differential-gene-expression'|) (tptp.regulation_1 X) (tptp.frequency_value_1 _let_10) (tptp.cell_1 _let_11) (tptp.frequency_value_1 _let_12) (tptp.transcriptional_regulation_1 _let_13) (tptp.gene_expression_1 _let_1) (tptp.gene_1 _let_3) (tptp.multicellular_organism_1 _let_7) (tptp.cell_1 _let_9) (tptp.gene_1 _let_6) (tptp.gene_expression_1 _let_4) (tptp.cell_1 _let_8) (tptp.gene_1 _let_5) (tptp.gene_1 _let_2) (tptp.base_2 _let_1 _let_11) (tptp.frequency_2 _let_1 _let_12) (tptp.called_2 _let_1 |tptp.'Gene expression 1'|) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.minCardinality X tptp.subevent_0 |"2"| tptp.gene_expression_0) (tptp.the_scalar_value_2 _let_12 tptp.never_0) (tptp.scalar_unit_class_2 _let_12 tptp.gene_activation_0) (tptp.same_type_2 _let_3 _let_6) (tptp.has_part_2 _let_7 _let_11) (tptp.the_scalar_value_2 _let_10 tptp.often_0) (tptp.scalar_unit_class_2 _let_10 tptp.gene_expression_0) (tptp.same_type_2 _let_6 _let_3) (tptp.frequency_2 _let_4 _let_10) (tptp.base_2 _let_4 _let_9) (tptp.called_2 _let_4 |tptp.'Gene expression 2'|) (tptp.has_part_2 _let_7 _let_9) (tptp.object_2 _let_4 _let_6) (tptp.object_2 _let_1 _let_3) (= _let_9 _let_8) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_differentiated_cell_32 X))) (let ((_let_2 (tptp.fn_animal_plasma_membrane_56 _let_1))) (let ((_let_3 (tptp.fn_differentiated_cell_14 X))) (let ((_let_4 (tptp.fn_cell_differentiation_7 _let_3))) (let ((_let_5 (tptp.fn_animal_cell_58 X))) (let ((_let_6 (tptp.fn_eukaryotic_cell_41 X))) (let ((_let_7 (tptp.fn_animal_plasma_membrane_54 _let_1))) (let ((_let_8 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_9 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_10 (tptp.fn_animal_cell_73 X))) (let ((_let_11 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_12 (tptp.fn_animal_plasma_membrane_67 _let_1))) (let ((_let_13 (tptp.fn_animal_cell_75 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_15 (tptp.fn_animal_plasma_membrane_53 _let_1))) (let ((_let_16 (tptp.fn_animal_plasma_membrane_62 _let_1))) (let ((_let_17 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_18 (tptp.fn_animal_plasma_membrane_47 _let_1))) (let ((_let_19 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_20 (tptp.fn_animal_cell_80 X))) (let ((_let_21 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_22 (tptp.fn_animal_cell_79 X))) (let ((_let_23 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_24 (tptp.fn_animal_cell_60 X))) (let ((_let_25 (tptp.fn_eukaryotic_cell_50 X))) (let ((_let_26 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_27 (tptp.fn_animal_cell_59 X))) (let ((_let_28 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_29 (tptp.fn_animal_cell_52 X))) (let ((_let_30 (tptp.fn_differentiated_cell_28 X))) (let ((_let_31 (tptp.fn_nucleus_6 _let_30))) (let ((_let_32 (tptp.fn_animal_cell_84 X))) (let ((_let_33 (tptp.fn_animal_plasma_membrane_55 _let_1))) (let ((_let_34 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_35 (tptp.fn_animal_cell_85 X))) (let ((_let_36 (tptp.fn_animal_plasma_membrane_51 _let_1))) (let ((_let_37 (tptp.fn_animal_cell_83 X))) (let ((_let_38 (tptp.fn_animal_plasma_membrane_52 _let_1))) (let ((_let_39 (tptp.fn_animal_plasma_membrane_77 _let_1))) (let ((_let_40 (tptp.fn_animal_plasma_membrane_66 _let_1))) (let ((_let_41 (tptp.fn_eukaryotic_cell_46 X))) (let ((_let_42 (tptp.fn_animal_plasma_membrane_58 _let_1))) (let ((_let_43 (tptp.fn_plasma_membrane_66 _let_1))) (let ((_let_44 (tptp.fn_eukaryotic_cell_43 X))) (let ((_let_45 (tptp.fn_animal_plasma_membrane_76 _let_1))) (let ((_let_46 (tptp.fn_differentiated_cell_36 X))) (let ((_let_47 (tptp.fn_differentiated_cell_18 X))) (let ((_let_48 (tptp.fn_differentiated_cell_37 X))) (let ((_let_49 (tptp.fn_differentiated_cell_7 X))) (let ((_let_50 (tptp.fn_differentiated_cell_40 X))) (let ((_let_51 (tptp.fn_differentiated_cell_35 X))) (let ((_let_52 (tptp.fn_differentiated_cell_34 X))) (let ((_let_53 (tptp.fn_differentiated_cell_2 X))) (let ((_let_54 (tptp.fn_differentiated_cell_3 X))) (let ((_let_55 (tptp.fn_differentiated_cell_33 X))) (let ((_let_56 (tptp.fn_differentiated_cell_17 X))) (let ((_let_57 (tptp.fn_differentiated_cell_8 X))) (let ((_let_58 (tptp.fn_differentiated_cell_6 X))) (let ((_let_59 (tptp.fn_differentiated_cell_13 X))) (let ((_let_60 (tptp.fn_differentiated_cell_44 X))) (let ((_let_61 (tptp.fn_differentiated_cell_5 X))) (let ((_let_62 (tptp.fn_differentiated_cell_4 X))) (let ((_let_63 (tptp.fn_differentiated_cell_31 X))) (let ((_let_64 (tptp.fn_differentiated_cell_45 X))) (let ((_let_65 (tptp.fn_differentiated_cell_30 X))) (let ((_let_66 (tptp.fn_differentiated_cell_10 X))) (let ((_let_67 (tptp.fn_differentiated_cell_9 X))) (let ((_let_68 (tptp.fn_differentiated_cell_11 X))) (let ((_let_69 (tptp.fn_differentiated_cell_29 X))) (let ((_let_70 (tptp.fn_differentiated_cell_27 X))) (let ((_let_71 (tptp.fn_differentiated_cell_24 X))) (let ((_let_72 (tptp.fn_differentiated_cell_25 X))) (let ((_let_73 (tptp.fn_differentiated_cell_26 X))) (let ((_let_74 (tptp.fn_differentiated_cell_16 X))) (let ((_let_75 (tptp.fn_differentiated_cell_15 X))) (let ((_let_76 (tptp.fn_differentiated_cell_20 X))) (let ((_let_77 (tptp.fn_differentiated_cell_19 X))) (let ((_let_78 (tptp.fn_differentiated_cell_23 X))) (let ((_let_79 (tptp.fn_differentiated_cell_22 X))) (let ((_let_80 (tptp.fn_differentiated_cell_21 X))) (let ((_let_81 (tptp.fn_differentiated_cell_43 X))) (let ((_let_82 (tptp.fn_differentiated_cell_42 X))) (let ((_let_83 (tptp.fn_animal_plasma_membrane_5 _let_1))) (let ((_let_84 (tptp.fn_differentiated_cell_41 X))) (let ((_let_85 (tptp.fn_nucleus_13 _let_30))) (let ((_let_86 (tptp.fn_differentiated_cell_12 X))) (let ((_let_87 (tptp.fn_differentiated_cell_1 X))) (=> (tptp.differentiated_cell_1 X) (and (tptp.original_name_2 X |tptp.'Differentiated-Cell'|) (tptp.user_description_2 X |tptp.'A differentiated cell is a cell in a multicellular organism that is specialized in its functions, which it may perform in a certain organ or tissue.'|) (tptp.concept2words_2 X |tptp.'differentiated cell'|) (tptp.concept2words_2 X |tptp.'differentiated-cell'|) (tptp.animal_development_cell_1 X) (tptp.er_membrane_1 _let_87) (tptp.electron_transport_chain_pathway_1 _let_53) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_54) (tptp.metabolic_pathway_1 _let_62) (tptp.endergonic_process_1 _let_62) (tptp.chemical_reaction_1 _let_62) (tptp.synthesis_of_organic_molecule_1 _let_62) (tptp.anabolic_pathway_1 _let_62) (tptp.synthesis_of_atp_1 _let_62) (tptp.catabolic_pathway_1 _let_61) (tptp.semiautonomous_organelle_1 _let_58) (tptp.organelle_1 _let_58) (tptp.mitochondrion_1 _let_58) (tptp.transmembrane_protein_1 _let_49) (tptp.tangible_entity_1 _let_49) (tptp.membrane_protein_1 _let_49) (tptp.protein_1 _let_49) (tptp.spatial_entity_1 _let_49) (tptp.polymer_1 _let_49) (tptp.integrin_1 _let_49) (tptp.spatial_entity_1 _let_57) (tptp.polymer_1 _let_57) (tptp.organic_molecule_1 _let_57) (tptp.tangible_entity_1 _let_57) (tptp.membrane_protein_1 _let_57) (tptp.protein_1 _let_57) (tptp.hydrophobic_core_1 _let_67) (tptp.outside_face_1 _let_66) (tptp.extracellular_side_1 _let_66) (tptp.surface_1 _let_66) (tptp.attach_1 _let_68) (tptp.nuclear_membrane_1 _let_86) (tptp.biomembrane_1 _let_86) (tptp.golgi_apparatus_1 _let_59) (tptp.cell_differentiation_1 _let_3) (tptp.microtubule_1 _let_75) (tptp.create_1 _let_74) (tptp.produce_1 _let_74) (tptp.substance_1 _let_56) (tptp.cytosol_1 _let_56) (tptp.tangible_entity_1 _let_47) (tptp.phospholipid_bilayer_1 _let_47) (tptp.support_1 _let_77) (tptp.support_1 _let_76) (tptp.eukaryotic_cellular_respiration_1 _let_80) (tptp.volume_value_1 _let_79) (tptp.size_value_1 _let_78) (tptp.protein_enzyme_1 _let_71) (tptp.protein_enzyme_1 _let_72) (tptp.centrosome_1 _let_73) (tptp.smooth_endoplasmic_reticulum_1 _let_70) (tptp.tangible_entity_1 _let_30) (tptp.nucleus_1 _let_30) (tptp.endoplasmic_reticulum_1 _let_69) (tptp.rough_endoplasmic_reticulum_1 _let_69) (tptp.eukaryotic_chromosome_1 _let_65) (tptp.chromosome_1 _let_65) (tptp.ribosome_1 _let_63) (tptp.eukaryotic_ribosome_1 _let_63) (tptp.tangible_entity_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.animal_plasma_membrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.mixture_1 _let_55) (tptp.cytoplasm_1 _let_55) (tptp.cell_pole_1 _let_52) (tptp.cell_pole_1 _let_51) (tptp.surface_1 _let_46) (tptp.protein_1 _let_48) (tptp.organic_molecule_1 _let_48) (tptp.polymer_1 _let_48) (tptp.spatial_entity_1 _let_48) (tptp.membrane_protein_1 _let_48) (tptp.tangible_entity_1 _let_48) (tptp.transmembrane_protein_1 _let_48) (tptp.integral_protein_1 _let_48) (tptp.transport_protein_1 _let_48) (tptp.sodium_potassium_pump_1 _let_48) (tptp.cellular_work_1 _let_50) (tptp.active_transport_1 _let_50) (tptp.active_movement_of_ions_1 _let_50) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_50) (tptp.hydrophilic_face_1 _let_84) (tptp.glycoprotein_1 _let_82) (tptp.inside_face_1 _let_81) (tptp.surface_1 _let_81) (tptp.cytoplasmic_side_1 _let_81) (tptp.move_1 _let_60) (tptp.peroxisome_1 _let_64) (tptp.nuclear_membrane_1 _let_85) (tptp.biomembrane_1 _let_85) (tptp.hydrophilic_face_1 _let_83) (tptp.glycoprotein_1 _let_45) (tptp.cytoplasmic_side_1 _let_43) (tptp.inside_face_1 _let_42) (tptp.cytoplasmic_side_1 _let_42) (tptp.attach_1 _let_40) (tptp.attach_1 _let_39) (tptp.attach_1 _let_38) (tptp.hydrophobic_core_1 _let_36) (tptp.extracellular_side_1 _let_34) (tptp.outside_face_1 _let_33) (tptp.extracellular_side_1 _let_33) (tptp.surface_1 _let_33) (tptp.eukaryotic_chromosome_1 _let_31) (tptp.tangible_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.protein_1 _let_26) (tptp.spatial_entity_1 _let_26) (tptp.polymer_1 _let_26) (tptp.tangible_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.protein_1 _let_21) (tptp.membrane_protein_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.spatial_entity_1 _let_18) (tptp.polymer_1 _let_18) (tptp.protein_1 _let_18) (tptp.organic_molecule_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.transmembrane_protein_1 _let_17) (tptp.integral_protein_1 _let_17) (tptp.transport_protein_1 _let_17) (tptp.spatial_entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.transmembrane_protein_1 _let_16) (tptp.integral_protein_1 _let_16) (tptp.transport_protein_1 _let_16) (tptp.polymer_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.membrane_protein_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.transmembrane_protein_1 _let_15) (tptp.integral_protein_1 _let_15) (tptp.transport_protein_1 _let_15) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.differentiated_cell_1 _let_4) (tptp.animal_cell_1 _let_2) (tptp.abuts_2 _let_87 _let_86) (tptp.has_region_2 _let_1 _let_84) (tptp.is_inside_2 _let_72 _let_87) (tptp.is_inside_2 _let_71 _let_87) (tptp.site_2 _let_80 _let_55) (tptp.abuts_2 _let_86 _let_87) (tptp.called_2 _let_49 |tptp.'MP2'|) (tptp.has_part_2 _let_30 _let_86) (tptp.result_2 _let_3 X) (tptp.is_outside_2 _let_84 _let_1) (tptp.has_part_2 _let_1 _let_82) (tptp.is_inside_2 _let_82 _let_47) (tptp.has_region_2 _let_1 _let_81) (tptp.is_facing_2 _let_81 _let_55) (tptp.is_oriented_toward_2 _let_81 _let_55) (tptp.object_2 _let_76 X) (tptp.has_part_2 X _let_70) (tptp.the_scalar_value_2 _let_78 tptp.big_0) (tptp.scalar_unit_class_2 _let_78 tptp.prokaryote_0) (tptp.has_region_2 X _let_52) (tptp.is_inside_2 _let_48 _let_47) (tptp.called_2 _let_57 |tptp.'MP1'|) (tptp.called_2 _let_48 |tptp.'MP1'|) (tptp.has_function_2 _let_58 _let_54) (tptp.site_2 _let_61 _let_58) (tptp.is_near_2 _let_73 _let_30) (tptp.is_near_2 _let_30 _let_73) (tptp.has_function_2 X _let_80) (tptp.base_2 _let_80 X) (tptp.volume_2 X _let_79) (tptp.is_between_2 _let_55 _let_1) (tptp.agent_2 _let_77 _let_1) (tptp.object_2 _let_77 X) (tptp.size_2 X _let_78) (tptp.directly_proportional_2 _let_78 _let_79) (tptp.has_part_2 X _let_30) (tptp.has_part_2 X _let_73) (tptp.has_function_2 _let_73 _let_74) (tptp.result_2 _let_74 _let_75) (tptp.has_function_2 _let_75 _let_76) (tptp.is_inside_2 _let_55 _let_1) (tptp.has_part_2 _let_55 _let_71) (not (= _let_71 _let_72)) (tptp.has_part_2 _let_55 _let_72) (tptp.is_between_2 _let_55 _let_30) (not (= _let_72 _let_71)) (tptp.has_part_2 X _let_69) (tptp.abuts_2 _let_70 _let_69) (tptp.abuts_2 _let_69 _let_70) (not (= _let_70 _let_69)) (not (= _let_69 _let_70)) (tptp.has_region_2 _let_48 _let_66) (tptp.object_2 _let_68 _let_48) (tptp.base_2 _let_68 _let_1) (tptp.has_part_2 _let_1 _let_49) (tptp.called_2 _let_49 |tptp.'MP1'|) (tptp.is_outside_2 _let_66 _let_1) (tptp.has_region_2 _let_1 _let_66) (tptp.has_region_2 _let_1 _let_67) (tptp.is_across_2 _let_48 _let_67) (tptp.is_across_2 _let_48 _let_1) (tptp.origin_2 _let_60 _let_64) (tptp.has_part_2 X _let_64) (tptp.has_part_2 X _let_65) (tptp.is_inside_2 _let_65 _let_30) (tptp.is_inside_2 _let_30 _let_56) (tptp.base_2 _let_62 X) (tptp.site_2 _let_62 _let_58) (tptp.has_part_2 X _let_58) (tptp.has_part_2 X _let_63) (tptp.is_inside_2 _let_63 _let_56) (tptp.destination_2 _let_60 _let_58) (tptp.causes_2 _let_60 _let_61) (tptp.base_2 _let_61 X) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_57) (tptp.first_subevent_2 _let_54 _let_53) (tptp.site_2 _let_54 _let_58) (tptp.is_inside_2 _let_58 _let_56) (tptp.is_inside_2 _let_59 _let_56) (tptp.has_part_2 X _let_59) (tptp.is_at_2 _let_48 _let_1) (not (= _let_57 _let_48)) (not (= _let_49 _let_57)) (not (= _let_57 _let_49)) (not (= _let_48 _let_57)) (tptp.base_2 _let_53 X) (tptp.subevent_2 _let_54 _let_53) (tptp.base_2 _let_54 X) (tptp.has_part_2 X _let_55) (tptp.has_part_2 _let_55 _let_56) (tptp.base_2 _let_50 X) (tptp.has_function_2 X _let_50) (tptp.has_region_2 X _let_51) (tptp.is_opposite_2 _let_52 _let_51) (tptp.is_opposite_2 _let_51 _let_52) (tptp.has_region_2 X _let_46) (tptp.is_at_2 _let_47 _let_46) (tptp.has_part_2 _let_1 _let_47) (tptp.has_part_2 _let_1 _let_48) (not (= _let_48 _let_49)) (not (= _let_49 _let_48)) (= _let_86 _let_85) (= X _let_4) (= _let_84 _let_83) (= _let_82 _let_45) (= _let_82 _let_44) (= _let_55 _let_23) (= _let_81 _let_43) (= _let_81 _let_42) (= _let_81 _let_41) (= (tptp.fn_differentiated_cell_39 X) (tptp.fn_animal_cell_49 X)) (= (tptp.fn_differentiated_cell_38 X) (tptp.fn_animal_cell_50 X)) (= _let_80 (tptp.fn_animal_cell_81 X)) (= _let_79 (tptp.fn_animal_cell_56 X)) (= _let_78 (tptp.fn_animal_cell_57 X)) (= _let_77 (tptp.fn_animal_cell_76 X)) (= _let_76 (tptp.fn_animal_cell_61 X)) (= _let_75 (tptp.fn_animal_cell_63 X)) (= _let_74 (tptp.fn_animal_cell_64 X)) (= _let_73 (tptp.fn_animal_cell_74 X)) (= _let_72 (tptp.fn_animal_cell_72 X)) (= _let_71 (tptp.fn_animal_cell_71 X)) (= _let_70 (tptp.fn_animal_cell_54 X)) (= _let_69 (tptp.fn_animal_cell_53 X)) (= _let_1 _let_12) (= _let_68 _let_38) (= _let_68 _let_40) (= _let_68 _let_39) (= _let_68 _let_37) (= _let_67 _let_36) (= _let_67 _let_35) (= _let_66 _let_34) (= _let_66 _let_33) (= _let_66 _let_32) (= _let_65 _let_31) (= _let_30 (tptp.fn_animal_cell_78 X)) (= _let_65 _let_29) (= _let_64 (tptp.fn_animal_cell_45 X)) (= _let_63 (tptp.fn_animal_cell_51 X)) (= _let_58 _let_28) (= _let_62 (tptp.fn_animal_cell_20 X)) (= _let_57 _let_21) (= X _let_2) (= _let_61 (tptp.fn_animal_cell_21 X)) (= _let_60 (tptp.fn_animal_cell_22 X)) (= _let_59 (tptp.fn_animal_cell_82 X)) (= _let_58 _let_27) (= _let_57 _let_26) (= _let_49 _let_21) (= _let_57 _let_18) (= _let_48 _let_14) (= _let_57 _let_25) (= _let_57 _let_24) (= _let_48 _let_19) (= _let_48 _let_18) (= _let_56 (tptp.fn_animal_cell_62 X)) (= _let_55 _let_22) (= _let_54 (tptp.fn_animal_cell_19 X)) (= _let_53 (tptp.fn_animal_cell_18 X)) (= _let_52 (tptp.fn_animal_cell_13 X)) (= _let_51 (tptp.fn_animal_cell_1 X)) (= _let_50 (tptp.fn_animal_cell_90 X)) (= _let_49 _let_20) (= _let_48 _let_17) (= _let_48 _let_16) (= _let_48 _let_15) (= _let_48 _let_13) (= _let_47 _let_9) (= _let_47 _let_8) (= _let_47 _let_7) (= _let_1 _let_11) (= _let_47 _let_6) (= _let_1 _let_10) (= _let_47 _let_5) (= _let_46 (tptp.fn_animal_cell_55 X)) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_41 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_21) (= _let_21 _let_26) (= _let_26 _let_26) (= _let_26 _let_18) (= _let_18 _let_21) (= _let_21 _let_18) (= _let_25 _let_18) (= _let_18 _let_25) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_differentiated_cell_nuclear_transplantation_2 X))) (let ((_let_2 (tptp.fn_differentiated_cell_nuclear_transplantation_3 X))) (let ((_let_3 (tptp.fn_differentiated_cell_nuclear_transplantation_1 X))) (=> (tptp.differentiated_cell_nuclear_transplantation_1 X) (and (tptp.original_name_2 X |tptp.'Differentiated-Cell-Nuclear-Transplantation'|) (tptp.user_description_2 X |tptp.'The technique of placing a nucleus from differentiated cell into an enucleated cell.'|) (tptp.concept2words_2 X tptp.transplant) (tptp.concept2words_2 X |tptp.'differentiated cell nuclear transplantation'|) (tptp.concept2words_2 X |tptp.'differentiated-cell-nuclear-transplantation'|) (tptp.nuclear_transplantation_1 X) (tptp.differentiated_cell_1 _let_3) (tptp.add_1 _let_1) (tptp.enucleated_cell_1 _let_2) (tptp.donor_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.base_2 _let_1 _let_2) (= _let_3 (tptp.fn_nuclear_transplantation_2 X)) (= _let_2 (tptp.fn_nuclear_transplantation_1 X)) (= _let_1 (tptp.fn_nuclear_transplantation_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.differentiated_embryonic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Differentiated-Embryonic-Cell'|) (tptp.user_description_2 X |tptp.'A differentiated cell of the embryo.'|) (tptp.concept2words_2 X |tptp.'differentiated embryonic cell'|) (tptp.concept2words_2 X |tptp.'differentiated-embryonic-cell'|) (tptp.embryonic_cell_1 X) (tptp.differentiated_cell_1 X) (not (tptp.mammary_cell_1 X)) (not (tptp.myoblast_1 X)) (not (tptp.embryonic_stem_cell_1 X)) (not (tptp.undifferentiated_embryonic_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_7 X))) (let ((_let_2 (tptp.fn_thermal_motion_5 _let_1))) (let ((_let_3 (tptp.fn_diffusion_6 X))) (let ((_let_4 (tptp.fn_diffusion_4 X))) (let ((_let_5 (tptp.fn_diffusion_2 X))) (let ((_let_6 (tptp.fn_diffusion_1 X))) (let ((_let_7 (tptp.fn_diffusion_5 X))) (let ((_let_8 (tptp.fn_diffusion_3 X))) (=> (tptp.diffusion_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion'|) (tptp.user_description_2 X |tptp.'Diffusion describes the spread of particles through random motion from regions of higher concentration to regions of lower concentration. Diffusion happens as a result of thermal motion.'|) (tptp.concept2words_2 X |tptp.'downhill diffusion'|) (tptp.concept2words_2 X |tptp.'downhill-diffusion'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X tptp.diffusion) (tptp.spontaneous_change_1 X) (tptp.mixture_1 _let_6) (tptp.mixture_1 _let_5) (tptp.space_1 _let_8) (tptp.concentration_gradient_1 _let_4) (tptp.symmetrical_distribution_1 _let_7) (tptp.chemical_entity_1 _let_3) (tptp.thermal_motion_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.object_2 _let_7 _let_3) (tptp.site_2 _let_7 _let_8) (tptp.is_between_2 _let_4 _let_6) (tptp.is_between_2 _let_4 _let_5) (tptp.by_means_of_2 X _let_1) (tptp.objective_2 X _let_7) (tptp.origin_2 X _let_6) (tptp.destination_2 X _let_5) (tptp.object_2 X _let_3) (tptp.base_2 X _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_of_anion_across_plasma_membrane_34 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_4 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_5 (tptp.fn_passive_transport_25 X))) (let ((_let_6 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_7 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_8 (tptp.fn_diffusion_of_anion_across_plasma_membrane_28 X))) (let ((_let_9 (tptp.fn_plasma_membrane_73 _let_8))) (let ((_let_10 (tptp.fn_diffusion_of_anion_across_plasma_membrane_26 X))) (let ((_let_11 (tptp.fn_thermal_motion_5 _let_10))) (let ((_let_12 (tptp.fn_plasma_membrane_74 _let_8))) (let ((_let_13 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_14 (tptp.fn_passive_transport_24 X))) (let ((_let_15 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_16 (tptp.fn_plasma_membrane_31 _let_8))) (let ((_let_17 (tptp.fn_plasma_membrane_96 _let_8))) (let ((_let_18 (tptp.fn_plasma_membrane_97 _let_8))) (let ((_let_19 (tptp.fn_facilitated_diffusion_6 X))) (let ((_let_20 (tptp.fn_integral_protein_25 _let_1))) (let ((_let_21 (tptp.fn_biomembrane_102 _let_8))) (let ((_let_22 (tptp.fn_diffusion_of_anion_across_plasma_membrane_30 X))) (let ((_let_23 (tptp.fn_block_1 _let_22))) (let ((_let_24 (tptp.fn_plasma_membrane_98 _let_8))) (let ((_let_25 (tptp.fn_plasma_membrane_55 _let_8))) (let ((_let_26 (tptp.fn_plasma_membrane_54 _let_8))) (let ((_let_27 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_28 (tptp.fn_plasma_membrane_68 _let_8))) (let ((_let_29 (tptp.fn_plasma_membrane_71 _let_8))) (let ((_let_30 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_31 (tptp.fn_facilitated_diffusion_48 X))) (let ((_let_32 (tptp.fn_biomembrane_63 _let_8))) (let ((_let_33 (tptp.fn_plasma_membrane_34 _let_8))) (let ((_let_34 (tptp.fn_integral_protein_9 _let_1))) (let ((_let_35 (tptp.fn_facilitated_diffusion_5 X))) (let ((_let_36 (tptp.fn_plasma_membrane_50 _let_8))) (let ((_let_37 (tptp.fn_biomembrane_105 _let_8))) (let ((_let_38 (tptp.fn_plasma_membrane_33 _let_8))) (let ((_let_39 (tptp.fn_plasma_membrane_77 _let_8))) (let ((_let_40 (tptp.fn_facilitated_diffusion_14 X))) (let ((_let_41 (tptp.fn_biomembrane_14 _let_8))) (let ((_let_42 (tptp.fn_plasma_membrane_70 _let_8))) (let ((_let_43 (tptp.fn_facilitated_diffusion_15 X))) (let ((_let_44 (tptp.fn_biomembrane_15 _let_8))) (let ((_let_45 (tptp.fn_plasma_membrane_3 _let_8))) (let ((_let_46 (tptp.fn_facilitated_diffusion_50 X))) (let ((_let_47 (tptp.fn_passive_transport_21 X))) (let ((_let_48 (tptp.fn_plasma_membrane_4 _let_8))) (let ((_let_49 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_50 (tptp.fn_plasma_membrane_85 _let_8))) (let ((_let_51 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_52 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_53 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_54 (tptp.fn_plasma_membrane_84 _let_8))) (let ((_let_55 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_56 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_57 (tptp.fn_plasma_membrane_86 _let_8))) (let ((_let_58 (tptp.fn_facilitated_diffusion_37 X))) (let ((_let_59 (tptp.fn_polymer_6 _let_1))) (let ((_let_60 (tptp.fn_transport_protein_16 _let_1))) (let ((_let_61 (tptp.fn_facilitated_diffusion_45 X))) (let ((_let_62 (tptp.fn_transport_protein_33 _let_1))) (let ((_let_63 (tptp.fn_facilitated_diffusion_16 X))) (let ((_let_64 (tptp.fn_biomembrane_42 _let_8))) (let ((_let_65 (tptp.fn_transmembrane_protein_6 _let_1))) (let ((_let_66 (tptp.fn_facilitated_diffusion_17 X))) (let ((_let_67 (tptp.fn_biomembrane_41 _let_8))) (let ((_let_68 (tptp.fn_biomembrane_47 _let_8))) (let ((_let_69 (tptp.fn_facilitated_diffusion_26 X))) (let ((_let_70 (tptp.fn_diffusion_of_anion_across_plasma_membrane_45 X))) (let ((_let_71 (tptp.fn_kinetic_energy_2 _let_70))) (let ((_let_72 (tptp.fn_diffusion_of_anion_across_plasma_membrane_22 X))) (let ((_let_73 (tptp.fn_diffusion_of_anion_across_plasma_membrane_27 X))) (let ((_let_74 (tptp.fn_thermal_motion_6 _let_10))) (let ((_let_75 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(tptp.fn_diffusion_of_anion_across_plasma_membrane_19 X))) (let ((_let_91 (tptp.fn_plasma_membrane_37 _let_8))) (let ((_let_92 (tptp.fn_diffusion_of_anion_across_plasma_membrane_11 X))) (let ((_let_93 (tptp.fn_plasma_membrane_36 _let_8))) (let ((_let_94 (tptp.fn_diffusion_of_anion_across_plasma_membrane_13 X))) (let ((_let_95 (tptp.fn_diffusion_of_anion_across_plasma_membrane_47 X))) (let ((_let_96 (tptp.fn_diffusion_of_anion_across_plasma_membrane_48 X))) (let ((_let_97 (tptp.fn_plasma_membrane_38 _let_8))) (let ((_let_98 (tptp.fn_diffusion_of_anion_across_plasma_membrane_12 X))) (let ((_let_99 (tptp.fn_diffusion_of_anion_across_plasma_membrane_9 X))) (let ((_let_100 (tptp.fn_plasma_membrane_90 _let_8))) (let ((_let_101 (tptp.fn_plasma_membrane_95 _let_8))) (let ((_let_102 (tptp.fn_plasma_membrane_93 _let_8))) (let ((_let_103 (tptp.fn_plasma_membrane_94 _let_8))) (let ((_let_104 (tptp.fn_diffusion_of_anion_across_plasma_membrane_10 X))) (let ((_let_105 (tptp.fn_diffusion_of_anion_across_plasma_membrane_25 X))) (let ((_let_106 (tptp.fn_diffusion_of_anion_across_plasma_membrane_40 X))) (let ((_let_107 (tptp.fn_diffusion_of_anion_across_plasma_membrane_36 X))) (let ((_let_108 (tptp.fn_diffusion_of_anion_across_plasma_membrane_38 X))) (let ((_let_109 (tptp.fn_diffusion_of_anion_across_plasma_membrane_39 X))) (let ((_let_110 (tptp.fn_transport_protein_23 _let_1))) (let ((_let_111 (tptp.fn_transport_protein_22 _let_1))) (let ((_let_112 (tptp.fn_diffusion_of_anion_across_plasma_membrane_42 X))) (let ((_let_113 (tptp.fn_diffusion_of_anion_across_plasma_membrane_41 X))) (let ((_let_114 (tptp.fn_diffusion_of_anion_across_plasma_membrane_35 X))) (let ((_let_115 (tptp.fn_diffusion_of_anion_across_plasma_membrane_29 X))) (let ((_let_116 (tptp.fn_diffusion_of_anion_across_plasma_membrane_20 X))) (let ((_let_117 (tptp.fn_diffusion_of_anion_across_plasma_membrane_8 X))) (let ((_let_118 (tptp.fn_diffusion_of_anion_across_plasma_membrane_14 X))) (let ((_let_119 (tptp.fn_diffusion_of_anion_across_plasma_membrane_15 X))) (let ((_let_120 (tptp.fn_facilitated_diffusion_34 X))) (let ((_let_121 (tptp.fn_diffusion_of_anion_across_plasma_membrane_21 X))) (let ((_let_122 (tptp.fn_diffusion_of_anion_across_plasma_membrane_24 X))) (let ((_let_123 (tptp.fn_diffusion_of_anion_across_plasma_membrane_31 X))) (let ((_let_124 (tptp.fn_diffusion_of_anion_across_plasma_membrane_37 X))) (let ((_let_125 (tptp.fn_diffusion_of_anion_across_plasma_membrane_2 X))) (let ((_let_126 (tptp.fn_diffusion_of_anion_across_plasma_membrane_1 X))) (=> (tptp.diffusion_of_anion_across_plasma_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion-Of-Anion-Across-Plasma-Membrane'|) (tptp.user_description_2 X |tptp.'The condition inside of the cell is negative compared to the outside, the membrane potential favors the passive transport of cations into the cell and anions out of the cell.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'diffusion of anion across plasma membrane'|) (tptp.concept2words_2 X |tptp.'diffusion-of-anion-across-plasma-membrane'|) (tptp.facilitated_diffusion_of_ion_1 X) (not (tptp.diffusion_of_cation_across_plasma_membrane_1 X)) (tptp.extra_cellular_matrix_1 _let_126) (tptp.cytoplasm_1 _let_125) (tptp.saturated_fatty_acid_1 _let_88) (tptp.attach_1 _let_117) (tptp.aqueous_solution_1 _let_99) (tptp.substance_1 _let_104) (tptp.aqueous_solution_1 _let_104) (tptp.fluidity_value_1 _let_92) (tptp.temperature_value_1 _let_98) (tptp.density_value_1 _let_94) (tptp.inside_face_1 _let_118) (tptp.surface_1 _let_119) (tptp.outside_face_1 _let_119) (tptp.carbon_skeleton_1 _let_79) (tptp.carbohydrate_side_chain_1 _let_83) (tptp.attach_1 _let_81) (tptp.quantity_value_1 _let_90) (tptp.attach_1 _let_116) (tptp.expose_1 _let_121) (tptp.hydrophilic_compound_1 _let_72) (tptp.tangible_entity_1 _let_76) (tptp.phospholipid_bilayer_1 _let_76) (tptp.attach_1 _let_122) (tptp.spatial_entity_1 _let_105) (tptp.membrane_protein_1 _let_105) (tptp.thermal_motion_1 _let_10) (tptp.move_through_1 _let_73) (tptp.move_1 _let_73) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.symmetrical_distribution_1 _let_115) (tptp.block_1 _let_22) (tptp.anion_1 _let_123) (tptp.hydrophobic_compound_1 _let_75) (tptp.spatial_entity_1 _let_75) (tptp.hydrophilic_compound_1 _let_84) (tptp.membrane_protein_1 _let_1) (tptp.protein_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.polymer_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.transmembrane_protein_1 _let_1) (tptp.integral_protein_1 _let_1) (tptp.transport_protein_1 _let_1) (tptp.gradient_1 _let_114) (tptp.concentration_gradient_1 _let_114) (tptp.size_value_1 _let_107) (tptp.expose_1 _let_124) (tptp.monomer_1 _let_108) (tptp.hydrophilic_region_1 _let_109) (tptp.hydrophilic_end_1 _let_109) (tptp.size_value_1 _let_106) (tptp.aqueous_solution_1 _let_113) (tptp.hypotonic_solution_1 _let_113) (tptp.aqueous_solution_1 _let_112) (tptp.hypertonic_solution_1 _let_112) (tptp.kinetic_energy_1 _let_70) (tptp.thermal_energy_1 _let_70) (tptp.barrier_1 _let_86) (tptp.block_1 _let_95) (tptp.block_1 _let_96) (tptp.glycoprotein_1 _let_77) (tptp.property_node_1 _let_111) (tptp.property_node_1 _let_110) (tptp.property_node_1 _let_103) (tptp.property_node_1 _let_102) (tptp.property_node_1 _let_101) (tptp.property_node_1 _let_100) (tptp.temperature_value_1 _let_97) (tptp.density_value_1 _let_93) (tptp.fluidity_value_1 _let_91) (tptp.quantity_value_1 _let_89) (tptp.saturated_fatty_acid_1 _let_87) (tptp.barrier_1 _let_85) (tptp.carbohydrate_side_chain_1 _let_82) (tptp.attach_1 _let_80) (tptp.carbon_skeleton_1 _let_78) (tptp.thermal_energy_1 _let_74) (tptp.tangible_entity_1 _let_71) (tptp.surface_1 _let_68) (tptp.outside_face_1 _let_67) (tptp.inside_face_1 _let_65) (tptp.inside_face_1 _let_64) (tptp.hydrophilic_region_1 _let_62) (tptp.hydrophilic_end_1 _let_62) (tptp.hydrophilic_end_1 _let_60) (tptp.monomer_1 _let_59) (tptp.monomer_1 _let_57) (tptp.monomer_1 _let_56) (tptp.size_value_1 _let_54) (tptp.size_value_1 _let_53) (tptp.size_value_1 _let_52) (tptp.size_value_1 _let_50) (tptp.size_value_1 _let_49) (tptp.membrane_protein_1 _let_48) (tptp.membrane_protein_1 _let_45) (tptp.aqueous_solution_1 _let_44) (tptp.substance_1 _let_42) (tptp.aqueous_solution_1 _let_42) (tptp.aqueous_solution_1 _let_41) (tptp.aqueous_solution_1 _let_39) (tptp.block_1 _let_38) (tptp.hydrophilic_compound_1 _let_37) (tptp.hydrophilic_compound_1 _let_36) (tptp.glycoprotein_1 _let_34) (tptp.glycoprotein_1 _let_33) (tptp.tangible_entity_1 _let_32) (tptp.phospholipid_bilayer_1 _let_32) (tptp.tangible_entity_1 _let_30) (tptp.phospholipid_bilayer_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.phospholipid_bilayer_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.membrane_protein_1 _let_28) (tptp.protein_1 _let_28) (tptp.tangible_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.protein_1 _let_26) (tptp.spatial_entity_1 _let_26) (tptp.polymer_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.transmembrane_protein_1 _let_25) (tptp.integral_protein_1 _let_25) (tptp.transport_protein_1 _let_25) (tptp.hydrophobic_compound_1 _let_24) (tptp.spatial_entity_1 _let_23) (tptp.block_1 _let_21) (tptp.block_1 _let_20) (tptp.block_1 _let_18) (tptp.block_1 _let_17) (tptp.block_1 _let_16) (tptp.move_through_1 _let_13) (tptp.move_through_1 _let_12) (tptp.move_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.biomembrane_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.biomembrane_1 _let_3) (tptp.facilitated_diffusion_1 _let_2) (tptp.called_2 _let_96 |"2"|) (tptp.called_2 _let_95 |"3"|) (tptp.has_function_2 _let_114 X) (tptp.object_2 X _let_72) (tptp.recipient_2 X _let_126) (tptp.donor_2 X _let_125) (tptp.object_2 _let_115 _let_72) (tptp.object_2 _let_115 _let_123) (tptp.destination_2 _let_73 _let_113) (tptp.origin_2 _let_73 _let_112) (tptp.object_2 _let_10 _let_123) (tptp.possesses_2 _let_123 _let_70) (tptp.object_2 _let_124 _let_1) (tptp.site_2 _let_124 _let_109) (tptp.object_2 X _let_123) (tptp.object_2 _let_73 _let_123) (tptp.base_2 _let_122 _let_8) (tptp.object_2 _let_122 _let_105) (tptp.causes_2 _let_10 _let_73) (tptp.by_means_of_2 X _let_10) (tptp.object_2 _let_121 _let_1) (tptp.site_2 _let_121 _let_109) (tptp.has_region_2 _let_8 _let_119) (tptp.is_inside_2 _let_119 _let_104) (tptp.instrument_2 _let_22 _let_8) (tptp.called_2 _let_22 |"1"|) (tptp.has_region_2 _let_8 _let_118) (tptp.is_inside_2 _let_99 _let_118) (tptp.path_2 X _let_8) (tptp.base_2 _let_116 _let_8) (tptp.object_2 _let_116 _let_105) (tptp.object_2 _let_117 _let_105) (tptp.base_2 _let_117 _let_8) (tptp.objective_2 X _let_115) (tptp.destination_2 X _let_113) (tptp.agent_2 X _let_114) (tptp.origin_2 X _let_112) (tptp.is_between_2 _let_114 _let_112) (tptp.is_between_2 _let_114 _let_113) (tptp.is_hypotonic_to_2 _let_113 _let_112) (tptp.is_hypertonic_to_2 _let_112 _let_113) (tptp.the_scalar_value_2 _let_106 tptp.big_0) (tptp.scalar_unit_class_2 _let_106 tptp.polypeptide_0) (tptp.instrument_2 X _let_1) (tptp.subevent_2 X _let_73) (tptp.agent_2 _let_73 _let_1) (tptp.has_region_2 _let_1 _let_109) (tptp.size_2 _let_1 _let_106) (tptp.greater_than_2 _let_106 _let_107) (tptp.size_2 _let_108 _let_107) (tptp.has_part_2 _let_1 _let_108) (tptp.facilitates_2 _let_1 _let_73) (tptp.agent_2 _let_10 _let_70) (tptp.is_at_2 _let_105 _let_8) (tptp.is_between_2 _let_8 _let_104) (tptp.has_function_2 _let_8 _let_22) (tptp.is_impermeable_to_2 _let_8 _let_75) (tptp.called_2 _let_96 |"3"|) (tptp.has_function_2 _let_8 _let_73) (tptp.base_2 _let_73 _let_8) (tptp.is_between_2 _let_8 _let_99) (tptp.directly_proportional_2 _let_98 _let_92) (tptp.temperature_2 _let_8 _let_98) (tptp.has_function_2 _let_8 _let_96) (not (= _let_96 _let_95)) (tptp.called_2 _let_95 |"2"|) (not (= _let_95 _let_96)) (tptp.has_function_2 _let_8 _let_95) (not (= _let_22 _let_95)) (not (= _let_96 _let_22)) (not (= _let_22 _let_96)) (not (= _let_95 _let_22)) (tptp.quantity_2 _let_88 _let_90) (tptp.directly_proportional_2 _let_90 _let_92) (tptp.inversely_proportional_2 _let_94 _let_92) (tptp.density_2 _let_8 _let_94) (tptp.fluidity_2 _let_8 _let_92) (tptp.is_impermeable_to_2 _let_8 _let_84) (tptp.object_2 _let_22 _let_84) (tptp.in_event_2 _let_86 _let_22) (tptp.plays_2 _let_8 _let_86) (tptp.has_part_2 _let_8 _let_88) (tptp.is_inside_2 _let_79 _let_8) (tptp.base_2 _let_81 _let_79) (tptp.object_2 _let_81 _let_83) (tptp.is_outside_2 _let_83 _let_8) (tptp.has_part_2 _let_8 _let_1) (tptp.is_across_2 _let_1 _let_8) (tptp.is_inside_2 _let_1 _let_76) (tptp.is_inside_2 _let_77 _let_76) (tptp.has_part_2 _let_8 _let_77) (tptp.has_part_2 _let_8 _let_76) (tptp.object_2 _let_73 _let_72) (tptp.is_permeable_to_2 _let_8 _let_72) (tptp.possesses_2 _let_72 _let_70) (tptp.object_2 _let_10 _let_72) (tptp.object_2 _let_22 _let_75) (= _let_123 _let_71) (= _let_124 _let_120) (= _let_123 _let_69) (= _let_105 _let_47) (= _let_122 (tptp.fn_passive_transport_20 X)) (= _let_10 (tptp.fn_passive_transport_22 X)) (= _let_109 _let_61) (= _let_121 _let_120) (= _let_104 _let_44) (= _let_104 _let_43) (= _let_119 _let_68) (= _let_119 _let_67) (= _let_119 _let_66) (= _let_22 _let_19) (= _let_99 _let_41) (= _let_99 _let_40) (= _let_118 _let_65) (= _let_118 _let_64) (= _let_118 _let_63) (= _let_117 (tptp.fn_facilitated_diffusion_52 X)) (= _let_105 _let_46) (= _let_116 (tptp.fn_facilitated_diffusion_51 X)) (= _let_8 _let_4) (= _let_115 (tptp.fn_facilitated_diffusion_of_ion_25 X)) (= _let_114 (tptp.fn_facilitated_diffusion_of_ion_26 X)) (= _let_113 (tptp.fn_facilitated_diffusion_of_ion_23 X)) (= _let_112 (tptp.fn_facilitated_diffusion_of_ion_29 X)) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_43 X) _let_111) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_44 X) _let_110) (= _let_109 _let_62) (= _let_109 _let_60) (= _let_73 _let_15) (= X _let_2) (= _let_108 _let_59) (= _let_108 _let_58) (= _let_108 _let_57) (= _let_108 _let_56) (= _let_107 _let_55) (= _let_106 _let_50) (= _let_107 _let_54) (= _let_107 _let_53) (= _let_106 _let_52) (= _let_106 _let_51) (= _let_106 _let_49) (= _let_105 _let_48) (= _let_105 _let_45) (= _let_104 _let_42) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_6 X) _let_103) (= _let_22 _let_20) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_5 X) _let_102) (= _let_75 _let_24) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_4 X) _let_101) (= (tptp.fn_diffusion_of_anion_across_plasma_membrane_3 X) _let_100) (= _let_99 _let_39) (= _let_73 _let_13) (= _let_8 _let_5) (= _let_73 _let_14) (= _let_95 _let_18) (= _let_96 _let_17) (= _let_98 _let_97) (= _let_22 _let_18) (= _let_96 _let_38) (= _let_22 _let_17) (= _let_95 _let_38) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_22 _let_21) (= _let_84 _let_37) (= _let_22 _let_16) (= _let_84 _let_36) (= _let_1 _let_28) (= _let_8 _let_7) (= _let_1 _let_26) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_76 _let_32) (= _let_8 _let_3) (= _let_77 _let_35) (= _let_77 _let_34) (= _let_77 _let_33) (= _let_1 _let_27) (= _let_76 _let_31) (= _let_76 _let_30) (= _let_76 _let_29) (= _let_8 _let_6) (= _let_1 _let_25) (= _let_75 _let_23) (= _let_70 _let_74) (= _let_72 _let_11) (= _let_73 _let_12) (= _let_72 _let_9) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_67) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_17) (= _let_17 _let_38) (= _let_38 _let_18) (= _let_18 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_passive_transport_13 X))) (let ((_let_2 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_5 X))) (let ((_let_3 (tptp.fn_molecule_12 _let_2))) (let ((_let_4 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_7 X))) (let ((_let_5 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_6 X))) (let ((_let_6 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_8 X))) (let ((_let_7 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_4 X))) (let ((_let_8 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_1 X))) (let ((_let_9 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_2 X))) (let ((_let_10 (tptp.fn_diffusion_of_carbon_dioxide_across_cell_membrane_3 X))) (=> (tptp.diffusion_of_carbon_dioxide_across_cell_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion-of-Carbon-Dioxide-Across-Cell-Membrane'|) (tptp.user_description_2 X |tptp.'The passive movement of carbon dioxide from an area of high concentration on one side of the membrane to an area of lower concentration on the other side of the membrane.'|) (tptp.concept2words_2 X |tptp.'diffusion of co2'|) (tptp.concept2words_2 X |tptp.'diffusion of carbon dioxide'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'diffusion of carbon dioxide across cell membrane'|) (tptp.concept2words_2 X |tptp.'diffusion-of-carbon-dioxide-across-cell-membrane'|) (tptp.movement_of_hydrophobic_molecule_across_biomembrane_1 X) (tptp.cell_pole_1 _let_8) (tptp.cell_pole_1 _let_9) (tptp.surface_1 _let_10) (tptp.kinetic_energy_1 _let_7) (tptp.thermal_energy_1 _let_7) (tptp.carbon_dioxide_1 _let_2) (tptp.thermal_motion_1 _let_5) (tptp.move_through_1 _let_4) (tptp.symmetrical_distribution_1 _let_6) (tptp.kinetic_energy_1 _let_3) (tptp.path_2 X _let_10) (tptp.path_2 X _let_9) (tptp.path_2 X _let_8) (tptp.object_2 X _let_2) (tptp.object_2 _let_5 _let_2) (tptp.possesses_2 _let_2 _let_7) (tptp.agent_2 _let_5 _let_7) (tptp.by_means_of_2 X _let_5) (= _let_2 (tptp.fn_passive_transport_14 X)) (= _let_7 _let_3) (= _let_7 _let_1) (= _let_6 (tptp.fn_passive_transport_29 X)) (= _let_5 (tptp.fn_passive_transport_22 X)) (= _let_4 (tptp.fn_passive_transport_24 X)) (= _let_3 _let_1)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_of_cation_across_plasma_membrane_36 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_diffusion_of_cation_across_plasma_membrane_42 X))) (let ((_let_4 (tptp.fn_thermal_motion_5 _let_3))) (let ((_let_5 (tptp.fn_facilitated_diffusion_26 X))) (let ((_let_6 (tptp.fn_passive_transport_14 X))) (let ((_let_7 (tptp.fn_diffusion_of_cation_across_plasma_membrane_38 X))) (let ((_let_8 (tptp.fn_plasma_membrane_73 _let_7))) (let ((_let_9 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_10 (tptp.fn_plasma_membrane_55 _let_7))) (let ((_let_11 (tptp.fn_plasma_membrane_54 _let_7))) (let ((_let_12 (tptp.fn_plasma_membrane_68 _let_7))) (let ((_let_13 (tptp.fn_transport_protein_5 _let_1))) (let ((_let_14 (tptp.fn_facilitated_diffusion_53 X))) (let ((_let_15 (tptp.fn_transport_protein_4 _let_1))) (let ((_let_16 (tptp.fn_facilitated_diffusion_54 X))) (let ((_let_17 (tptp.fn_transport_protein_12 _let_1))) (let ((_let_18 (tptp.fn_plasma_membrane_71 _let_7))) (let ((_let_19 (tptp.fn_facilitated_diffusion_48 X))) (let ((_let_20 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_21 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_22 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_23 (tptp.fn_plasma_membrane_74 _let_7))) (let ((_let_24 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_25 (tptp.fn_passive_transport_24 X))) (let ((_let_26 (tptp.fn_transport_protein_10 _let_1))) (let ((_let_27 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_28 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_29 (tptp.fn_plasma_membrane_85 _let_7))) (let ((_let_30 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_31 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_32 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_33 (tptp.fn_plasma_membrane_84 _let_7))) (let ((_let_34 (tptp.fn_transport_protein_33 _let_1))) (let ((_let_35 (tptp.fn_transport_protein_16 _let_1))) (let ((_let_36 (tptp.fn_facilitated_diffusion_45 X))) (let ((_let_37 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_38 (tptp.fn_transport_protein_32 _let_1))) (let ((_let_39 (tptp.fn_facilitated_diffusion_35 X))) (let ((_let_40 (tptp.fn_integral_protein_6 _let_1))) (let ((_let_41 (tptp.fn_transport_protein_14 _let_1))) (let ((_let_42 (tptp.fn_facilitated_diffusion_38 X))) (let ((_let_43 (tptp.fn_transport_protein_17 _let_1))) (let ((_let_44 (tptp.fn_facilitated_diffusion_39 X))) (let ((_let_45 (tptp.fn_molecule_11 _let_1))) (let ((_let_46 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_47 (tptp.fn_plasma_membrane_86 _let_7))) (let ((_let_48 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_49 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_50 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_51 (tptp.fn_passive_transport_25 X))) (let ((_let_52 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_53 (tptp.fn_plasma_membrane_33 _let_7))) (let ((_let_54 (tptp.fn_facilitated_diffusion_6 X))) (let ((_let_55 (tptp.fn_transport_protein_31 _let_1))) (let ((_let_56 (tptp.fn_integral_protein_25 _let_1))) (let ((_let_57 (tptp.fn_biomembrane_102 _let_7))) (let ((_let_58 (tptp.fn_plasma_membrane_96 _let_7))) (let ((_let_59 (tptp.fn_plasma_membrane_97 _let_7))) (let ((_let_60 (tptp.fn_biomembrane_101 _let_7))) (let ((_let_61 (tptp.fn_plasma_membrane_34 _let_7))) (let ((_let_62 (tptp.fn_integral_protein_9 _let_1))) (let ((_let_63 (tptp.fn_plasma_membrane_3 _let_7))) (let ((_let_64 (tptp.fn_facilitated_diffusion_50 X))) (let ((_let_65 (tptp.fn_plasma_membrane_4 _let_7))) (let ((_let_66 (tptp.fn_plasma_membrane_77 _let_7))) (let ((_let_67 (tptp.fn_facilitated_diffusion_14 X))) (let ((_let_68 (tptp.fn_biomembrane_14 _let_7))) (let ((_let_69 (tptp.fn_plasma_membrane_70 _let_7))) (let ((_let_70 (tptp.fn_facilitated_diffusion_15 X))) (let ((_let_71 (tptp.fn_biomembrane_15 _let_7))) (let ((_let_72 (tptp.fn_facilitated_diffusion_of_ion_25 X))) (let ((_let_73 (tptp.fn_passive_transport_29 X))) (let ((_let_74 (tptp.fn_facilitated_diffusion_16 X))) (let ((_let_75 (tptp.fn_biomembrane_42 _let_7))) (let ((_let_76 (tptp.fn_facilitated_diffusion_17 X))) (let ((_let_77 (tptp.fn_biomembrane_41 _let_7))) (let ((_let_78 (tptp.fn_transmembrane_protein_5 _let_1))) (let ((_let_79 (tptp.fn_biomembrane_47 _let_7))) (let ((_let_80 (tptp.fn_facilitated_diffusion_44 X))) (let ((_let_81 (tptp.fn_integral_protein_29 _let_1))) (let ((_let_82 (tptp.fn_facilitated_diffusion_31 X))) (let ((_let_83 (tptp.fn_molecule_10 _let_1))) (let ((_let_84 (tptp.fn_polymer_1 _let_1))) (let ((_let_85 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_let_147 _let_145) (tptp.in_event_2 _let_149 _let_147) (not (= _let_141 _let_143)) (not (= _let_142 _let_141)) (not (= _let_141 _let_142)) (not (= _let_143 _let_141)) (not (= _let_142 _let_143)) (not (= _let_143 _let_142)) (tptp.is_inside_2 _let_136 _let_7) (tptp.base_2 _let_138 _let_136) (tptp.object_2 _let_138 _let_140) (tptp.is_outside_2 _let_140 _let_7) (tptp.has_function_2 _let_7 _let_141) (tptp.has_part_2 _let_7 _let_127) (tptp.quantity_2 _let_127 _let_129) (tptp.directly_proportional_2 _let_129 _let_131) (tptp.inversely_proportional_2 _let_133 _let_131) (tptp.has_region_2 _let_1 _let_108) (tptp.facilitates_2 _let_1 _let_87) (tptp.has_region_2 _let_1 _let_97) (tptp.has_region_2 _let_1 _let_96) (tptp.the_scalar_value_2 _let_94 tptp.big_0) (tptp.scalar_unit_class_2 _let_94 tptp.polypeptide_0) (not (= _let_120 _let_115)) (tptp.has_part_2 _let_1 _let_120) (tptp.has_part_2 _let_1 _let_121) (tptp.size_2 _let_121 _let_95) (not (= _let_115 _let_120)) (tptp.has_part_2 _let_1 _let_115) (tptp.is_inside_2 _let_115 _let_117) (tptp.has_region_2 _let_1 _let_117) (tptp.has_part_2 _let_1 _let_119) (tptp.has_part_2 _let_119 _let_114) (tptp.site_2 _let_91 _let_108) (tptp.is_inside_2 _let_110 _let_108) (tptp.has_part_2 _let_1 _let_110) (tptp.has_region_2 _let_1 _let_112) (tptp.is_at_2 _let_114 _let_112) (tptp.possesses_2 _let_1 _let_100) (tptp.quantity_2 _let_100 _let_102) (tptp.directly_proportional_2 _let_104 _let_102) (tptp.speed_2 _let_106 _let_104) (tptp.object_2 _let_106 _let_1) (tptp.site_2 _let_92 _let_96) (tptp.is_at_2 _let_98 _let_96) (tptp.has_part_2 _let_1 _let_98) (tptp.is_opposite_2 _let_97 _let_96) (tptp.is_opposite_2 _let_96 _let_97) (tptp.instrument_2 X _let_1) (tptp.subevent_2 X _let_87) (tptp.agent_2 _let_87 _let_1) (tptp.size_2 _let_1 _let_94) (tptp.greater_than_2 _let_94 _let_95) (tptp.has_function_2 _let_1 _let_91) (tptp.agent_2 _let_91 _let_1) (tptp.has_function_2 _let_1 _let_92) (tptp.agent_2 _let_92 _let_1) (tptp.is_inside_2 _let_1 _let_93) (tptp.agent_2 _let_3 _let_85) (tptp.possesses_2 _let_89 _let_85) (tptp.object_2 _let_3 _let_89) (= _let_172 _let_88) (= _let_172 _let_86) (= _let_162 _let_73) (= _let_3 (tptp.fn_passive_transport_22 X)) (= _let_89 _let_6) (= _let_89 _let_8) (= _let_89 _let_5) (= _let_171 _let_168) (= _let_115 _let_42) (= _let_120 _let_45) (= _let_120 _let_44) (= _let_170 _let_84) (= _let_170 _let_83) (= _let_170 _let_82) (= _let_169 _let_168) (= _let_96 _let_36) (= _let_167 _let_81) (= _let_167 _let_80) (= _let_141 _let_54) (= _let_157 _let_71) (= _let_157 _let_70) (= _let_166 _let_79) (= _let_166 _let_78) (= _let_166 _let_77) (= _let_166 _let_76) (= _let_155 _let_68) (= _let_155 _let_67) (= _let_165 _let_75) (= _let_165 _let_74) (= _let_164 (tptp.fn_facilitated_diffusion_52 X)) (= _let_153 _let_64) (= _let_163 (tptp.fn_facilitated_diffusion_51 X)) (= _let_162 _let_72) (= _let_161 (tptp.fn_facilitated_diffusion_of_ion_26 X)) (= _let_160 (tptp.fn_facilitated_diffusion_of_ion_23 X)) (= _let_159 (tptp.fn_facilitated_diffusion_of_ion_29 X)) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_63 X) _let_158) (= _let_157 _let_69) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_64 X) _let_156) (= _let_155 _let_66) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_66 X) _let_154) (= _let_153 _let_65) (= _let_153 _let_63) (= _let_143 _let_58) (= _let_142 _let_59) (= _let_1 _let_12) (= _let_7 _let_52) (= _let_1 _let_10) (= _let_152 _let_62) (= _let_152 _let_61) (= _let_93 _let_21) (= _let_93 _let_20) (= _let_93 _let_18) (= _let_151 _let_150) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_145 _let_144) (= _let_7 _let_49) (= _let_87 _let_26) (= _let_87 _let_25) (= _let_7 _let_51) (= _let_87 _let_23) (= _let_143 _let_59) (= _let_142 _let_60) (= _let_142 _let_58) (= _let_141 _let_57) (= _let_7 _let_50) (= _let_141 _let_56) (= _let_7 _let_48) (= _let_141 _let_55) (= _let_141 _let_53) (= _let_140 _let_139) (= _let_138 _let_137) (= _let_136 _let_135) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_65 X) _let_134) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_97 _let_34) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_44 X) _let_125) (= _let_96 _let_35) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_45 X) _let_124) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_46 X) _let_123) (= (tptp.fn_diffusion_of_cation_across_plasma_membrane_43 X) _let_122) (= _let_1 _let_11) (= _let_121 _let_47) (= _let_121 _let_46) (= _let_120 _let_43) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_115 _let_41) (= _let_114 _let_113) (= _let_112 _let_111) (= _let_110 _let_109) (= _let_108 _let_107) (= _let_106 _let_105) (= _let_104 _let_103) (= _let_102 _let_101) (= _let_100 _let_99) (= _let_98 _let_39) (= _let_98 _let_40) (= _let_96 _let_37) (= _let_98 _let_38) (= _let_97 _let_35) (= _let_96 _let_34) (= _let_94 _let_29) (= _let_95 _let_33) (= _let_95 _let_32) (= _let_95 _let_31) (= _let_94 _let_30) (= _let_94 _let_28) (= _let_94 _let_27) (= _let_87 _let_24) (= _let_87 _let_22) (= X _let_2) (= _let_93 _let_19) (= _let_93 _let_17) (= _let_92 _let_16) (= _let_92 _let_15) (= _let_1 _let_9) (= _let_91 _let_14) (= _let_91 _let_13) (= _let_85 _let_90) (= _let_89 _let_4) (= _let_88 _let_86) (= _let_86 _let_83) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_58) (= _let_58 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_48 _let_50) (= _let_50 _let_48) (= _let_49 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_34) (= _let_34 _let_35) (= _let_35 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.diffusion_of_dye_in_water_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion-Of-Dye-In-Water'|) (tptp.user_description_2 X |tptp.'Diffusion of dye in water increases entropy by producing a more random mixture than exists when there are localized concentrations of the dye.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'diffusion of dye in water'|) (tptp.concept2words_2 X |tptp.'diffusion-of-dye-in-water'|) (tptp.diffusion_of_solute_in_water_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_passive_transport_13 X))) (let ((_let_2 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_12 X))) (let ((_let_3 (tptp.fn_molecule_12 _let_2))) (let ((_let_4 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_9 X))) (let ((_let_5 (tptp.fn_cellular_respiration_68 _let_4))) (let ((_let_6 (tptp.fn_passive_transport_14 X))) (let ((_let_7 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_5 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_13 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_8 X))) (let ((_let_12 (tptp.fn_transfer_1 _let_11))) (let ((_let_13 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_7 X))) (let ((_let_14 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_6 X))) (let ((_let_15 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_4 X))) (let ((_let_16 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_10 X))) (let ((_let_17 (tptp.fn_dissolve_5 _let_16))) (let ((_let_18 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_11 X))) (let ((_let_19 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_1 X))) (let ((_let_20 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_2 X))) (let ((_let_21 (tptp.fn_diffusion_of_oxygen_across_plasma_membrane_3 X))) (=> (tptp.diffusion_of_oxygen_across_plasma_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion-of-Oxygen-Across-Plasma-Membrane'|) (tptp.user_description_2 X |tptp.'The passive movement of oxygen from an area of high concentration on one side of the membrane to an area of lower concentration on the other side of the plasma membrane.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'diffusion of oxygen across plasma membrane'|) (tptp.concept2words_2 X |tptp.'diffusion-of-oxygen-across-plasma-membrane'|) (tptp.movement_of_hydrophobic_molecule_across_biomembrane_1 X) (tptp.surface_1 _let_19) (tptp.cell_pole_1 _let_20) (tptp.cell_pole_1 _let_21) (tptp.kinetic_energy_1 _let_15) (tptp.thermal_energy_1 _let_15) (tptp.move_1 _let_7) (tptp.thermal_motion_1 _let_7) (tptp.symmetrical_distribution_1 _let_14) (tptp.move_through_1 _let_13) (tptp.reduction_1 _let_11) (tptp.cellular_respiration_1 _let_4) (tptp.dissolve_1 _let_16) (tptp.water_1 _let_18) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.molecule_1 _let_2) (tptp.oxygen_molecule_1 _let_2) (tptp.random_motion_1 _let_9) (tptp.substance_1 _let_17) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.oxygen_molecule_1 _let_5) (tptp.kinetic_energy_1 _let_3) (tptp.supports_2 _let_4 X) (tptp.causes_2 _let_4 _let_11) (tptp.object_2 _let_16 _let_2) (tptp.path_2 X _let_21) (tptp.path_2 X _let_20) (tptp.path_2 X _let_19) (tptp.object_2 _let_11 _let_2) (tptp.object_2 _let_9 _let_2) (tptp.object_2 _let_7 _let_2) (tptp.base_2 _let_16 _let_18) (tptp.object_2 _let_13 _let_2) (tptp.object_2 X _let_2) (tptp.object_2 _let_14 _let_2) (tptp.possesses_2 _let_2 _let_15) (tptp.raw_material_2 _let_4 _let_2) (tptp.agent_2 _let_7 _let_15) (tptp.by_means_of_2 X _let_7) (tptp.causes_2 _let_7 _let_13) (tptp.subevent_2 X _let_13) (tptp.objective_2 X _let_14) (= _let_2 _let_12) (= _let_2 _let_10) (= _let_2 _let_8) (= _let_18 _let_17) (= _let_2 _let_6) (= _let_15 _let_3) (= _let_2 _let_5) (= _let_15 _let_1) (= _let_14 (tptp.fn_passive_transport_29 X)) (= _let_13 (tptp.fn_passive_transport_24 X)) (= _let_7 (tptp.fn_passive_transport_22 X)) (= _let_12 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_53 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_43 X))) (let ((_let_4 (tptp.fn_hypotonic_solution_2 _let_3))) (let ((_let_5 (tptp.fn_diffusion_of_cation_across_plasma_membrane_33 X))) (let ((_let_6 (tptp.fn_hypotonic_solution_3 _let_3))) (let ((_let_7 (tptp.fn_aqueous_solution_14 _let_3))) (let ((_let_8 (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_4 X))) (let ((_let_9 (tptp.fn_attach_1 _let_8))) (let ((_let_10 (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_51 X))) (let ((_let_11 (tptp.fn_animal_plasma_membrane_47 _let_10))) (let ((_let_12 (tptp.fn_plasma_membrane_3 _let_10))) (let ((_let_13 (tptp.fn_diffusion_of_cation_across_plasma_membrane_36 X))) (let ((_let_14 (tptp.fn_plasma_membrane_55 _let_10))) (let ((_let_15 (tptp.fn_animal_plasma_membrane_62 _let_10))) (let ((_let_16 (tptp.fn_animal_plasma_membrane_53 _let_10))) (let ((_let_17 (tptp.fn_plasma_membrane_54 _let_10))) (let ((_let_18 (tptp.fn_plasma_membrane_68 _let_10))) (let ((_let_19 (tptp.fn_gated_channel_17 _let_1))) (let ((_let_20 (tptp.fn_diffusion_of_cation_across_plasma_membrane_24 X))) (let ((_let_21 (tptp.fn_integral_protein_6 _let_1))) (let ((_let_22 (tptp.fn_animal_plasma_membrane_4 _let_10))) (let ((_let_23 (tptp.fn_gated_channel_25 _let_1))) (let ((_let_24 (tptp.fn_diffusion_of_cation_across_plasma_membrane_14 X))) (let ((_let_25 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_26 (tptp.fn_gated_channel_24 _let_1))) (let ((_let_27 (tptp.fn_diffusion_of_cation_across_plasma_membrane_17 X))) (let ((_let_28 (tptp.fn_gated_channel_21 _let_1))) (let ((_let_29 (tptp.fn_animal_plasma_membrane_70 _let_10))) (let ((_let_30 (tptp.fn_animal_plasma_membrane_91 _let_10))) (let ((_let_31 (tptp.fn_gated_channel_19 _let_1))) (let ((_let_32 (tptp.fn_gated_channel_26 _let_1))) (let ((_let_33 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(tptp.tangible_entity_1 _let_16) (tptp.transmembrane_protein_1 _let_16) (tptp.integral_protein_1 _let_16) (tptp.transport_protein_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.transmembrane_protein_1 _let_15) (tptp.integral_protein_1 _let_15) (tptp.transport_protein_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.transmembrane_protein_1 _let_14) (tptp.integral_protein_1 _let_14) (tptp.transport_protein_1 _let_14) (tptp.membrane_protein_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.protein_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.water_1 _let_7) (tptp.chemical_1 _let_6) (tptp.water_1 _let_6) (tptp.hypertonic_solution_1 _let_4) (tptp.facilitated_diffusion_1 _let_2) (tptp.causes_2 _let_116 X) (tptp.causes_2 _let_98 _let_116) (tptp.agent_2 _let_98 _let_168) (tptp.object_2 _let_120 _let_166) (tptp.object_2 _let_124 _let_167) (tptp.path_2 _let_114 _let_156) (tptp.site_2 X _let_49) (tptp.object_2 X _let_166) (tptp.called_2 _let_129 |"3"|) (tptp.called_2 _let_128 |"2"|) (tptp.called_2 _let_127 |"3"|) (tptp.object_2 _let_98 _let_49) (tptp.object_2 _let_94 _let_166) (tptp.base_2 X _let_49) (tptp.has_part_2 _let_49 _let_10) (tptp.is_permeable_to_2 _let_10 _let_166) (tptp.object_2 _let_114 _let_166) (tptp.has_region_2 _let_1 _let_165) (tptp.object_2 _let_164 _let_1) (tptp.site_2 _let_164 _let_106) (tptp.is_at_2 _let_106 _let_165) (tptp.object_2 _let_114 _let_118) (tptp.has_part_2 _let_10 _let_1) (tptp.instrument_2 X _let_1) (tptp.is_across_2 _let_1 _let_10) (tptp.has_region_2 _let_10 _let_162) (tptp.called_2 _let_129 |"1"|) (tptp.has_region_2 _let_10 _let_163) (tptp.is_inside_2 _let_163 _let_154) (tptp.is_between_2 _let_10 _let_161) (tptp.is_inside_2 _let_161 _let_162) (tptp.path_2 X _let_10) (tptp.object_2 _let_152 _let_148) (tptp.is_outside_2 _let_156 _let_10) (tptp.instrument_2 _let_129 _let_10) (tptp.base_2 _let_114 _let_10) (tptp.called_2 _let_127 |"1"|) (tptp.is_between_2 _let_10 _let_154) (tptp.base_2 _let_8 _let_10) (tptp.has_part_2 _let_10 _let_149) (tptp.is_inside_2 _let_149 _let_117) (tptp.has_part_2 _let_10 _let_117) (tptp.plays_2 _let_10 _let_151) (tptp.in_event_2 _let_151 _let_152) (tptp.is_outside_2 _let_143 _let_10) (tptp.object_2 _let_145 _let_143) (tptp.base_2 _let_145 _let_146) (tptp.is_inside_2 _let_146 _let_10) (tptp.is_impermeable_to_2 _let_10 _let_148) (tptp.fluidity_2 _let_10 _let_133) (tptp.directly_proportional_2 _let_139 _let_133) (tptp.quantity_2 _let_141 _let_139) (tptp.has_part_2 _let_10 _let_141) (tptp.has_function_2 _let_10 _let_114) (tptp.base_2 _let_137 _let_10) (tptp.object_2 _let_137 _let_104) (tptp.is_at_2 _let_104 _let_10) (tptp.has_function_2 _let_10 _let_129) (not (= _let_129 _let_128)) (not (= _let_128 _let_129)) (tptp.density_2 _let_10 _let_131) (tptp.inversely_proportional_2 _let_131 _let_133) (tptp.directly_proportional_2 _let_135 _let_133) (tptp.temperature_2 _let_10 _let_135) (tptp.has_function_2 _let_10 _let_128) (tptp.has_function_2 _let_10 _let_127) (not (= _let_128 _let_127)) (not (= _let_127 _let_128)) (not (= _let_129 _let_127)) (not (= _let_127 _let_129)) (tptp.raw_material_2 X _let_121) (tptp.object_2 _let_124 _let_119) (tptp.causes_2 X _let_124) (tptp.result_2 X _let_125) (tptp.quantity_2 _let_125 _let_123) (tptp.base_2 X _let_119) (tptp.possesses_2 _let_119 _let_121) (tptp.quantity_2 _let_121 _let_122) (tptp.directly_proportional_2 _let_122 _let_123) (tptp.is_between_2 _let_119 _let_3) (tptp.is_between_2 _let_119 _let_100) (tptp.objective_2 X _let_120) (tptp.object_2 _let_94 _let_118) (tptp.agent_2 X _let_119) (tptp.has_function_2 _let_119 X) (tptp.by_means_of_2 X _let_94) (tptp.causes_2 _let_94 _let_114) (tptp.subevent_2 X _let_114) (tptp.destination_2 X _let_3) (tptp.destination_2 _let_114 _let_3) (tptp.origin_2 _let_114 _let_100) (tptp.origin_2 X _let_100) (tptp.object_2 X _let_118) (tptp.has_region_2 _let_1 _let_107) (tptp.facilitates_2 _let_1 _let_114) (tptp.has_region_2 _let_1 _let_113) (tptp.has_function_2 _let_1 _let_111) (tptp.is_inside_2 _let_1 _let_117) (tptp.object_2 _let_116 _let_1) (tptp.agent_2 _let_114 _let_1) (tptp.agent_2 _let_111 _let_1) (tptp.object_2 _let_109 _let_1) (tptp.has_part_2 _let_1 _let_112) (tptp.is_inside_2 _let_112 _let_113) (tptp.has_region_2 _let_1 _let_106) (tptp.site_2 _let_111 _let_106) (tptp.has_part_2 _let_1 _let_105) (tptp.is_at_2 _let_105 _let_106) (tptp.site_2 _let_109 _let_106) (tptp.is_opposite_2 _let_107 _let_106) (tptp.is_opposite_2 _let_106 _let_107) (not (= _let_103 _let_101)) (not (= _let_101 _let_103)) (tptp.has_part_2 _let_3 _let_101) (tptp.has_solute_2 _let_3 _let_103) (tptp.has_part_2 _let_3 _let_103) (tptp.is_hypertonic_to_2 _let_100 _let_3) (tptp.is_hypotonic_to_2 _let_3 _let_100) (tptp.has_solvent_2 _let_3 _let_101) (tptp.object_2 _let_8 _let_104) (= _let_49 _let_99) (= _let_166 _let_95) (= _let_49 _let_97) (= _let_49 _let_96) (= _let_10 _let_63) (= _let_114 _let_42) (= _let_166 _let_93) (= _let_165 _let_92) (= _let_165 _let_91) (= _let_164 (tptp.fn_diffusion_of_cation_across_plasma_membrane_7 X)) (= _let_118 _let_54) (= _let_1 _let_18) (= _let_1 _let_17) (= _let_10 _let_62) (= _let_162 _let_87) (= _let_154 _let_81) (= _let_154 _let_80) (= _let_163 _let_90) (= _let_163 _let_89) (= _let_163 _let_88) (= _let_161 _let_84) (= _let_162 _let_86) (= _let_162 _let_85) (= _let_161 _let_83) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_16 X) _let_160) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_17 X) _let_159) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_15 X) _let_158) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_18 X) _let_157) (= _let_156 _let_155) (= _let_129 _let_75) (= _let_10 _let_61) (= _let_114 _let_39) (= _let_154 _let_82) (= _let_154 _let_79) (= _let_10 _let_65) (= _let_8 _let_153) (= _let_152 _let_75) (= _let_151 _let_150) (= _let_117 _let_51) (= _let_10 _let_64) (= _let_117 _let_50) (= _let_117 _let_47) (= _let_117 _let_46) (= _let_149 _let_78) (= _let_149 _let_77) (= _let_148 _let_147) (= _let_146 _let_33) (= _let_145 _let_144) (= _let_143 _let_142) (= _let_114 _let_40) (= _let_141 _let_140) (= _let_139 _let_138) (= _let_128 _let_66) (= _let_10 _let_58) (= _let_129 _let_76) (= _let_104 _let_12) (= _let_104 _let_11) (= _let_137 _let_136) (= _let_135 _let_134) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_127 _let_67) (= _let_129 _let_68) (= _let_129 _let_74) (= _let_127 _let_69) (= _let_128 _let_73) (= _let_128 _let_72) (= _let_128 _let_67) (= _let_10 _let_60) (= _let_127 _let_71) (= _let_10 _let_59) (= _let_127 _let_70) (= _let_10 _let_57) (= _let_127 _let_68) (= _let_127 _let_66) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_30 X) (tptp.fn_passive_transport_16 X)) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_29 X) (tptp.fn_passive_transport_7 X)) (= _let_126 (tptp.fn_passive_transport_6 X)) (= _let_125 (tptp.fn_passive_transport_17 X)) (= _let_124 (tptp.fn_passive_transport_23 X)) (= (tptp.fn_diffusion_of_sodium_ion_across_plasma_membrane_of_nerve_cell_31 X) (tptp.fn_passive_transport_15 X)) (= _let_123 (tptp.fn_passive_transport_19 X)) (= _let_122 (tptp.fn_passive_transport_18 X)) (= _let_121 (tptp.fn_passive_transport_27 X)) (= _let_119 _let_56) (= _let_120 (tptp.fn_diffusion_of_cation_across_plasma_membrane_37 X)) (= X _let_2) (= _let_114 _let_38) (= _let_94 (tptp.fn_diffusion_of_cation_across_plasma_membrane_42 X)) (= _let_119 _let_55) (= _let_118 _let_53) (= _let_118 _let_52) (= _let_100 _let_5) (= _let_114 _let_36) (= _let_3 (tptp.fn_diffusion_of_cation_across_plasma_membrane_41 X)) (= _let_114 _let_41) (= _let_113 _let_34) (= _let_117 _let_45) (= _let_1 _let_14) (= _let_117 _let_48) (= _let_117 _let_44) (= _let_116 _let_115) (= _let_114 _let_37) (= _let_114 _let_43) (= _let_114 _let_35) (= _let_113 _let_33) (= _let_113 _let_32) (= _let_112 _let_31) (= _let_1 _let_16) (= _let_112 _let_30) (= _let_1 _let_15) (= _let_112 _let_29) (= _let_112 _let_28) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_27) (= _let_107 _let_26) (= _let_105 _let_21) (= _let_106 _let_25) (= _let_106 _let_24) (= _let_106 _let_23) (= _let_1 _let_11) (= _let_105 _let_22) (= _let_1 _let_13) (= _let_105 _let_20) (= _let_105 _let_19) (= _let_104 _let_9) (= _let_101 _let_7) (= _let_103 _let_102) (= _let_101 _let_6) (= _let_100 _let_4) (= _let_99 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_89) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_81) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_68) (= _let_68 _let_76) (= _let_76 _let_76) (= _let_76 _let_68) (= _let_75 _let_68) (= _let_68 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_72) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_66 _let_72) (= _let_72 _let_72) (= _let_72 _let_66) (= _let_67 _let_67) (= _let_67 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_42) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_11 _let_16) (= _let_16 _let_11) (= _let_11 _let_15) (= _let_15 _let_11) (= _let_11 _let_14) (= _let_15 _let_14) (= _let_14 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_of_solute_in_water_1 X))) (=> (tptp.diffusion_of_solute_in_water_1 X) (and (tptp.original_name_2 X |tptp.'Diffusion-Of-Solute-In-Water'|) (tptp.user_description_2 X |tptp.'Diffusion of a solute in water increases entropy by producing a more random mixture than exists when there are localized concentrations of the solute.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'diffusion of solute in water'|) (tptp.concept2words_2 X |tptp.'diffusion-of-solute-in-water'|) (tptp.diffusion_1 X) (tptp.water_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_60 X))) (let ((_let_2 (tptp.fn_water_96 _let_1))) (let ((_let_3 (tptp.fn_osmosis_24 X))) (let ((_let_4 (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_28 X))) (let ((_let_5 (tptp.fn_transfer_1 _let_4))) (let ((_let_6 (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_24 X))) (let ((_let_7 (tptp.fn_transfer_1 _let_6))) (let ((_let_8 (tptp.fn_water_30 _let_1))) (let ((_let_9 (tptp.fn_osmosis_2 X))) (let ((_let_10 (tptp.fn_water_98 _let_1))) (let ((_let_11 (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_31 X))) (let ((_let_12 (tptp.fn_water_molecule_74 _let_11))) (let ((_let_13 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(tptp.kinetic_energy_1 _let_50) (tptp.water_1 _let_48) (tptp.water_1 _let_47) (tptp.chemical_1 _let_47) (tptp.chemical_1 _let_46) (tptp.chemical_1 _let_45) (tptp.chemical_1 _let_44) (tptp.substance_1 _let_43) (tptp.chemical_1 _let_43) (tptp.hypertonic_solution_1 _let_41) (tptp.hypotonic_solution_1 _let_39) (tptp.tangible_entity_1 _let_37) (tptp.spatial_entity_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.substance_1 _let_27) (tptp.water_1 _let_26) (tptp.chemical_1 _let_25) (tptp.water_1 _let_25) (tptp.lose_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.tangible_entity_1 _let_18) (tptp.water_molecule_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.polar_molecule_1 _let_15) (tptp.hydrophilic_compound_1 _let_15) (tptp.water_molecule_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.water_molecule_1 _let_12) (tptp.entity_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.polar_molecule_1 _let_10) (tptp.water_molecule_1 _let_10) (tptp.create_1 _let_8) (tptp.entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.thermal_energy_1 _let_2) (tptp.object_2 _let_124 _let_1) (tptp.object_2 _let_124 _let_49) (tptp.object_2 _let_28 _let_49) (tptp.directly_proportional_2 _let_140 _let_123) (tptp.water_potential_2 _let_24 _let_134) (tptp.pressure_potential_2 _let_24 _let_139) (tptp.water_potential_2 _let_38 _let_133) (tptp.recipient_2 X _let_108) (tptp.donor_2 X _let_106) (tptp.path_2 X _let_138) (tptp.path_2 X _let_137) (tptp.path_2 X _let_136) (tptp.object_2 X _let_1) (tptp.object_2 _let_52 _let_1) (tptp.donor_2 _let_52 _let_108) (tptp.recipient_2 _let_52 _let_106) (tptp.recipient_2 _let_126 _let_108) (tptp.donor_2 _let_126 _let_106) (tptp.called_2 _let_128 |tptp.'Rate_MoveThrough2'|) (tptp.called_2 _let_131 |tptp.'Rate_MoveThrough1'|) (tptp.is_inside_2 _let_135 _let_59) (tptp.is_outside_2 _let_135 _let_38) (tptp.is_outside_2 _let_135 _let_24) (tptp.greater_than_or_equal_to_2 _let_134 _let_133) (tptp.greater_than_2 _let_134 _let_133) (not (= _let_49 _let_109)) (not (= _let_49 _let_111)) (tptp.instrument_2 _let_57 _let_59) (not (= _let_109 _let_49)) (not (= _let_111 _let_49)) (tptp.called_2 _let_133 |tptp.'Waterpotential'|) (tptp.instrument_2 _let_19 _let_98) (tptp.object_2 _let_19 _let_11) (tptp.base_2 _let_4 _let_1) (tptp.instrument_2 _let_13 _let_98) (tptp.agent_2 _let_32 _let_82) (tptp.agent_2 _let_19 _let_16) (tptp.object_2 _let_19 _let_16) (tptp.object_2 _let_34 _let_1) (tptp.object_2 _let_6 _let_82) (tptp.donor_2 _let_6 _let_1) (tptp.plays_2 _let_1 _let_36) (tptp.base_2 _let_19 _let_1) (tptp.agent_2 _let_19 _let_11) (tptp.has_part_2 _let_55 _let_59) (tptp.path_2 _let_52 _let_59) (tptp.object_2 _let_112 _let_109) (tptp.rate_2 _let_52 _let_131) (tptp.rate_2 _let_126 _let_128) (tptp.path_2 X _let_59) (tptp.base_2 _let_125 _let_59) (tptp.object_2 _let_125 _let_117) (tptp.base_2 X _let_55) (tptp.objective_2 X _let_124) (tptp.quantity_2 _let_120 _let_123) (tptp.raw_material_2 X _let_121) (tptp.by_means_of_2 X _let_28) (tptp.causes_2 _let_28 _let_113) (tptp.base_2 X _let_120) (tptp.possesses_2 _let_120 _let_121) (tptp.quantity_2 _let_121 _let_122) (tptp.directly_proportional_2 _let_123 _let_122) (tptp.agent_2 X _let_120) (tptp.is_between_2 _let_120 _let_38) (tptp.destination_2 X _let_38) (tptp.origin_2 X _let_24) (tptp.is_between_2 _let_120 _let_24) (tptp.next_event_2 _let_85 _let_113) (tptp.object_2 _let_88 _let_82) (tptp.agent_2 _let_113 _let_82) (tptp.agent_2 _let_34 _let_82) (tptp.subevent_2 X _let_113) (tptp.object_2 _let_113 _let_49) (tptp.object_2 X _let_49) (tptp.agent_2 _let_28 _let_104) (tptp.is_at_2 _let_117 _let_59) (tptp.is_impermeable_to_2 _let_59 _let_109) (tptp.plays_2 _let_59 _let_115) (tptp.in_event_2 _let_115 _let_57) (tptp.is_impermeable_to_2 _let_59 _let_111) (tptp.object_2 _let_112 _let_111) (tptp.has_function_2 _let_59 _let_112) (tptp.has_function_2 _let_59 _let_113) (tptp.base_2 _let_113 _let_59) (tptp.is_at_2 _let_11 _let_94) (tptp.has_part_2 _let_1 _let_11) (tptp.base_2 _let_87 _let_1) (tptp.instrument_2 _let_87 _let_98) (tptp.possesses_2 _let_1 _let_98) (tptp.has_part_2 _let_1 _let_16) (tptp.object_2 _let_92 _let_1) (tptp.agent_2 _let_92 _let_82) (tptp.agent_2 _let_96 _let_82) (tptp.object_2 _let_96 _let_1) (tptp.same_type_2 _let_11 _let_16) (tptp.same_type_2 _let_16 _let_11) (tptp.is_above_2 _let_94 _let_16) (tptp.has_region_2 _let_1 _let_94) (tptp.base_2 _let_80 _let_1) (tptp.causes_2 _let_92 _let_80) (tptp.base_2 _let_90 _let_1) (tptp.from_value_2 _let_90 _let_78) (tptp.volume_2 _let_1 _let_78) (tptp.base_2 _let_88 _let_1) (tptp.donor_2 _let_88 _let_1) (tptp.called_2 _let_11 |"1"|) (tptp.agent_2 _let_87 _let_11) (tptp.agent_2 _let_87 _let_16) (tptp.object_2 _let_87 _let_16) (tptp.object_2 _let_87 _let_11) (tptp.causes_2 _let_84 _let_85) (tptp.by_means_of_2 _let_84 _let_4) (tptp.object_2 _let_4 _let_82) (tptp.from_value_2 _let_80 _let_78) (not (= _let_100 _let_1)) (not (= _let_1 _let_100)) (tptp.has_part_2 _let_24 _let_1) (tptp.has_solute_2 _let_24 _let_100) (tptp.has_part_2 _let_24 _let_100) (tptp.is_hypotonic_to_2 _let_24 _let_38) (tptp.is_hypertonic_to_2 _let_38 _let_24) (tptp.has_solvent_2 _let_24 _let_1) (tptp.has_solute_2 _let_38 _let_99) (tptp.has_part_2 _let_38 _let_99) (not (= _let_101 _let_99)) (not (= _let_99 _let_101)) (tptp.has_solvent_2 _let_38 _let_101) (tptp.has_part_2 _let_38 _let_101) (tptp.object_2 _let_13 _let_16) (tptp.agent_2 _let_13 _let_16) (tptp.object_2 _let_13 _let_11) (tptp.agent_2 _let_13 _let_11) (tptp.possesses_2 _let_49 _let_104) (tptp.is_between_2 _let_59 _let_106) (tptp.is_between_2 _let_59 _let_108) (tptp.base_2 _let_13 _let_1) (tptp.object_2 _let_28 _let_1) (tptp.donor_2 _let_4 _let_1) (tptp.object_2 _let_57 _let_109) (tptp.object_2 _let_32 _let_1) (= _let_16 _let_21) (= _let_16 _let_20) (= _let_1 _let_35) (= _let_82 _let_7) (= _let_1 _let_31) (= _let_1 _let_37) (= _let_59 _let_56) (= _let_109 _let_61) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_53 X) _let_132) (= _let_131 _let_130) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_52 X) _let_129) (= _let_128 _let_127) (= _let_117 _let_71) (= _let_125 (tptp.fn_passive_transport_20 X)) (= _let_59 _let_54) (= _let_55 (tptp.fn_passive_transport_1 X)) (= _let_124 (tptp.fn_passive_transport_29 X)) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_15 X) (tptp.fn_passive_transport_16 X)) (= _let_113 _let_68) (= _let_28 (tptp.fn_passive_transport_22 X)) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_19 X) (tptp.fn_passive_transport_30 X)) (= _let_123 (tptp.fn_passive_transport_28 X)) (= _let_122 (tptp.fn_passive_transport_18 X)) (= _let_121 (tptp.fn_passive_transport_27 X)) (= _let_120 _let_76) (= _let_24 _let_40) (= _let_38 _let_42) (= _let_120 _let_75) (= _let_85 _let_9) (= _let_88 _let_23) (= _let_34 (tptp.fn_osmosis_1 X)) (= _let_82 _let_3) (= _let_119 _let_74) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_51 X) (tptp.fn_osmosis_18 X)) (= _let_119 _let_73) (= _let_118 (tptp.fn_osmosis_17 X)) (= _let_49 (tptp.fn_osmosis_20 X)) (= _let_113 _let_66) (= _let_104 _let_51) (= _let_117 _let_72) (= _let_117 _let_70) (= _let_117 _let_69) (= _let_109 _let_60) (= _let_57 _let_116) (= _let_115 _let_114) (= _let_59 _let_53) (= _let_113 _let_67) (= _let_113 _let_65) (= _let_112 _let_64) (= _let_112 _let_63) (= _let_112 _let_62) (= _let_111 _let_110) (= _let_1 _let_33) (= _let_109 _let_58) (= _let_1 _let_30) (= _let_1 _let_29) (= _let_108 _let_107) (= _let_106 _let_105) (= _let_104 _let_50) (= _let_11 _let_12) (= _let_13 _let_103) (= _let_16 _let_17) (= _let_13 _let_102) (= _let_101 _let_48) (= _let_101 _let_47) (= _let_1 _let_26) (= _let_100 _let_46) (= _let_100 _let_45) (= _let_1 _let_25) (= _let_99 _let_44) (= _let_99 _let_43) (= _let_24 _let_39) (= _let_38 _let_41) (= _let_11 _let_14) (= _let_98 _let_97) (= _let_1 _let_27) (= _let_16 _let_18) (= _let_96 _let_95) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_22) (= _let_16 _let_15) (= _let_87 _let_86) (= _let_11 _let_10) (= _let_85 _let_8) (= _let_84 _let_83) (= _let_82 _let_5) (= _let_4 _let_22) (= _let_82 _let_2) (= (tptp.fn_diffusion_of_water_across_membrane_separating_two_isotonic_solution_18 X) _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_56) (= _let_56 _let_53) (= _let_53 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_50) (= _let_50 _let_47) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_45 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_35) (= _let_35 _let_37) (= _let_37 _let_33) (= _let_33 _let_35) (= _let_35 _let_31) (= _let_31 _let_33) (= _let_33 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_26 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_18 _let_18) (= _let_18 _let_20) (= _let_20 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_12 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_3) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.digestion_1 X) (and (tptp.original_name_2 X |tptp.'Digestion'|) (tptp.user_description_2 X |tptp.'Digestion is the mechanical and chemical breaking down of food into smaller components, to a form that can be absorbed, for instance, by a blood stream. Digestion is a form of catabolism'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X tptp.digestion) (tptp.animal_process_1 X) (tptp.system_1 (tptp.fn_digestion_1 X))))) (forall ((X $$unsorted)) (=> (tptp.digestive_enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Enzyme'|) (tptp.user_description_2 X |tptp.'Enzymes that break down macromolecules into simpler molecules during digestion.'|) (tptp.concept2words_2 X |tptp.'digestive enzyme'|) (tptp.concept2words_2 X |tptp.'digestive-enzyme'|) (tptp.hydrolase_1 X) (tptp.secretory_protein_1 X) (not (tptp.insulin_1 X)) (not (tptp.lysosomal_enzyme_1 X)) (not (tptp.nuclease_1 X)) (not (tptp.ribonuclease_1 X))))) (forall ((X $$unsorted)) (=> (tptp.digestive_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Fluid'|) (tptp.user_description_2 X |tptp.'Liquids in organisms which aid in the process of digestion.'|) (tptp.concept2words_2 X |tptp.'digestive fluid'|) (tptp.concept2words_2 X |tptp.'digestive-fluid'|) (tptp.secreted_fluid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.digestive_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Hormone'|) (tptp.user_description_2 X |tptp.'A hormone that aids and regulates the digestion processes in mammals.'|) (tptp.concept2words_2 X |tptp.'digestive hormone'|) (tptp.concept2words_2 X |tptp.'digestive-hormone'|) (tptp.hormone_1 X)))) (forall ((X $$unsorted)) (=> (tptp.digestive_organ_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Organ'|) (tptp.user_description_2 X |tptp.'Organ which is part of the digestive system of animals.'|) (tptp.concept2words_2 X |tptp.'digestive organ'|) (tptp.concept2words_2 X |tptp.'digestive-organ'|) (tptp.animal_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.digestive_peptide_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Peptide-Hormone'|) (tptp.user_description_2 X |tptp.'Peptide hormones secreted by the thyroid gland.'|) (tptp.concept2words_2 X |tptp.'digestive peptide hormone'|) (tptp.concept2words_2 X |tptp.'digestive-peptide-hormone'|) (tptp.peptide_hormone_1 X)))) (forall ((X $$unsorted)) (=> (tptp.digestive_process_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Process'|) (tptp.user_description_2 X |tptp.'A process which occurs during digestion, the second stage of food processing in animals.'|) (tptp.concept2words_2 X |tptp.'digestive process'|) (tptp.concept2words_2 X |tptp.'digestive-process'|) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_digestive_system_1 X))) (=> (tptp.digestive_system_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-System'|) (tptp.user_description_2 X |tptp.'A system of organs responsible for the digestion and absorption of nutrients from food.'|) (tptp.concept2words_2 X |tptp.'digestive system'|) (tptp.concept2words_2 X |tptp.'digestive-system'|) (tptp.animal_system_1 X) (tptp.digestive_organ_1 _let_1) (tptp.element_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.digestive_tract_1 X) (and (tptp.original_name_2 X |tptp.'Digestive-Tract'|) (tptp.user_description_2 X |tptp.'The organs through which food and liquids pass when they are swallowed, digested, and eliminated.'|) (tptp.concept2words_2 X |tptp.'alimentary canal'|) (tptp.concept2words_2 X |tptp.'alimentary-canal'|) (tptp.concept2words_2 X |tptp.'digestive tract'|) (tptp.concept2words_2 X |tptp.'digestive-tract'|) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.digit_1 X) (and (tptp.original_name_2 X |tptp.'Digit'|) (tptp.user_description_2 X |tptp.'In vertebrate anatomy, a digit is one of the appendages of the hand or foot, such as a toe or finger.'|) (tptp.concept2words_2 X tptp.digit) (tptp.anatomical_appendage_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dihybrid_4 X))) (let ((_let_2 (tptp.fn_cross_breeding_event_11 _let_1))) (let ((_let_3 (tptp.fn_cross_breeding_event_9 _let_1))) (let ((_let_4 (tptp.fn_cross_breeding_event_10 _let_1))) (let ((_let_5 (tptp.fn_cross_breeding_event_1 _let_1))) (let ((_let_6 (tptp.fn_dihybrid_2 X))) (let ((_let_7 (tptp.fn_dihybrid_3 X))) (let ((_let_8 (tptp.fn_dihybrid_1 X))) (=> (tptp.dihybrid_1 X) (and (tptp.original_name_2 X |tptp.'Dihybrid'|) (tptp.user_description_2 X |tptp.'An organism that is heterozygous with respect to two genes of interest. All the offspring from a cross between parents doubly homozygous for different alleles are dihybrids. For example, parents of genotypes AABB and aabb produce a dihybrid of genotype AaBb.'|) (tptp.concept2words_2 X tptp.dihybrid) (tptp.hybrid_1 X) (not (tptp.monohybrid_1 X)) (tptp.homozygous_1 _let_8) (tptp.allele_1 _let_6) (tptp.allele_1 _let_7) (tptp.cross_breeding_event_1 _let_1) (tptp.organism_1 _let_5) (tptp.organism_1 _let_4) (tptp.organism_1 _let_3) (tptp.organism_1 _let_2) (tptp.agent_2 _let_1 _let_8) (tptp.minCardinality _let_1 tptp.agent_0 |"2"| tptp.homozygous_0) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.result_2 _let_1 X) (= X _let_5) (= X _let_4) (= X _let_3) (= X _let_2) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dihybrid_epistasis_20 X))) (let ((_let_2 (tptp.fn_organism_role_2 _let_1))) (let ((_let_3 (tptp.fn_dihybrid_epistasis_19 X))) (let ((_let_4 (tptp.fn_organism_role_2 _let_3))) (let ((_let_5 (tptp.fn_dihybrid_epistasis_11 X))) (let ((_let_6 (tptp.fn_cross_breeding_event_11 _let_5))) (let ((_let_7 (tptp.fn_cross_breeding_event_1 _let_5))) (let ((_let_8 (tptp.fn_dihybrid_epistasis_13 X))) (let ((_let_9 (tptp.fn_express_3 _let_8))) (let ((_let_10 (tptp.fn_cross_breeding_event_9 _let_5))) (let ((_let_11 (tptp.fn_dihybrid_epistasis_10 X))) (let ((_let_12 (tptp.fn_express_3 _let_11))) (let ((_let_13 (tptp.fn_cross_breeding_event_10 _let_5))) (let ((_let_14 (tptp.fn_dihybrid_epistasis_12 X))) (let ((_let_15 (tptp.fn_express_3 _let_14))) (let ((_let_16 (tptp.fn_dihybrid_epistasis_15 X))) (let ((_let_17 (tptp.fn_dihybrid_epistasis_14 X))) (let ((_let_18 (tptp.fn_dihybrid_epistasis_16 X))) (let ((_let_19 (tptp.fn_parent_3 _let_3))) (let ((_let_20 (tptp.fn_dihybrid_epistasis_18 X))) (let ((_let_21 (tptp.fn_parent_3 _let_1))) (let ((_let_22 (tptp.fn_dihybrid_epistasis_17 X))) (let ((_let_23 (tptp.fn_dihybrid_epistasis_5 X))) (let ((_let_24 (tptp.fn_dihybrid_epistasis_2 X))) (let ((_let_25 (tptp.fn_dihybrid_epistasis_3 X))) (let ((_let_26 (tptp.fn_dihybrid_epistasis_1 X))) (let ((_let_27 (tptp.fn_dihybrid_epistasis_8 X))) (let ((_let_28 (tptp.fn_dihybrid_epistasis_6 X))) (let ((_let_29 (tptp.fn_dihybrid_epistasis_4 X))) (=> (tptp.dihybrid_epistasis_1 X) (and (tptp.original_name_2 X |tptp.'Dihybrid-Epistasis'|) (tptp.user_description_2 X |tptp.'A dihybrid cross which includes epistatic interaction.'|) (tptp.concept2words_2 X |tptp.'epistasis of dihybrid'|) (tptp.concept2words_2 X |tptp.'dihybrid epistasis'|) (tptp.concept2words_2 X |tptp.'dihybrid-epistasis'|) (tptp.epistasis_1 X) (tptp.mating_1 _let_26) (tptp.trait_1 _let_24) (tptp.trait_1 _let_25) (tptp.character_1 _let_29) (tptp.trait_1 _let_23) (tptp.sex_value_1 _let_28) (tptp.sex_value_1 _let_27) (tptp.express_1 _let_11) (tptp.cross_breeding_event_1 _let_5) (tptp.express_1 _let_14) (tptp.express_1 _let_8) (tptp.tangible_entity_1 _let_17) (tptp.organism_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.organism_1 _let_16) (tptp.tangible_entity_1 _let_18) (tptp.organism_1 _let_18) (tptp.heterozygote_1 _let_22) (tptp.heterozygote_1 _let_20) (tptp.parent_1 _let_3) (tptp.parent_1 _let_1) (tptp.organism_1 _let_21) (tptp.organism_1 _let_19) (tptp.tangible_entity_1 _let_15) (tptp.organism_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.organism_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.organism_1 _let_7) (tptp.organism_1 _let_6) (tptp.event_1 _let_4) (tptp.event_1 _let_2) (tptp.the_categorical_value_2 _let_27 tptp.male_0) (tptp.the_categorical_value_2 _let_28 tptp.female_0) (tptp.element_2 _let_29 _let_23) (tptp.element_2 _let_29 _let_25) (tptp.element_2 _let_29 _let_24) (tptp.sex_2 _let_20 _let_28) (tptp.sex_2 _let_22 _let_27) (tptp.experiencer_2 _let_26 _let_22) (tptp.experiencer_2 _let_26 _let_20) (tptp.result_2 _let_26 _let_18) (tptp.result_2 _let_26 _let_16) (tptp.result_2 _let_26 _let_17) (tptp.object_2 _let_8 _let_25) (tptp.object_2 _let_14 _let_24) (tptp.by_means_of_2 X _let_5) (tptp.agent_2 _let_5 _let_22) (tptp.agent_2 _let_5 _let_20) (tptp.object_2 _let_11 _let_23) (tptp.agent_2 _let_14 _let_18) (tptp.agent_2 _let_11 _let_17) (tptp.agent_2 _let_8 _let_16) (tptp.plays_2 _let_22 _let_1) (tptp.plays_2 _let_20 _let_3) (tptp.in_event_2 _let_3 X) (tptp.result_2 _let_5 _let_18) (tptp.result_2 _let_5 _let_17) (tptp.result_2 _let_5 _let_16) (tptp.in_event_2 _let_1 X) (= _let_18 _let_15) (= _let_17 _let_12) (= _let_16 _let_9) (= _let_22 _let_21) (= _let_20 _let_19) (= X _let_4) (= _let_18 _let_13) (= _let_17 _let_10) (= _let_16 _let_7) (= _let_16 _let_6) (= X _let_2) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_4 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dihydroxyacetone_phosphate_2 X))) (let ((_let_2 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_3 (tptp.fn_triose_10 X))) (let ((_let_4 (tptp.fn_monosaccharide_12 X))) (let ((_let_5 (tptp.fn_carbohydrate_36 X))) (let ((_let_6 (tptp.fn_dihydroxyacetone_phosphate_6 X))) (let ((_let_7 (tptp.fn_polar_covalent_bond_18 _let_6))) (let ((_let_8 (tptp.fn_polar_covalent_bond_19 _let_6))) (let ((_let_9 (tptp.fn_ketone_8 X))) (let ((_let_10 (tptp.fn_triose_6 X))) (let ((_let_11 (tptp.fn_monosaccharide_5 X))) (let ((_let_12 (tptp.fn_functional_group_1 _let_1))) (let ((_let_13 (tptp.fn_dihydroxyacetone_phosphate_13 X))) (let ((_let_14 (tptp.fn_anabolic_pathway_6 _let_13))) (let ((_let_15 (tptp.fn_dihydroxyacetone_phosphate_12 X))) (let ((_let_16 (tptp.fn_functional_group_1 _let_15))) (let ((_let_17 (tptp.fn_ketone_11 X))) (let ((_let_18 (tptp.fn_triose_12 X))) (let ((_let_19 (tptp.fn_monosaccharide_17 X))) (let ((_let_20 (tptp.fn_carbohydrate_34 X))) (let ((_let_21 (tptp.fn_ketone_12 X))) (let ((_let_22 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_23 (tptp.fn_triose_9 X))) (let ((_let_24 (tptp.fn_triose_14 X))) (let ((_let_25 (tptp.fn_monosaccharide_13 X))) (let ((_let_26 (tptp.fn_monosaccharide_18 X))) (let ((_let_27 (tptp.fn_carbohydrate_38 X))) (let ((_let_28 (tptp.fn_carbohydrate_39 X))) (let ((_let_29 (tptp.fn_ketone_10 X))) (let ((_let_30 (tptp.fn_ketone_7 X))) (let ((_let_31 (tptp.fn_triose_11 X))) (let ((_let_32 (tptp.fn_monosaccharide_16 X))) (let ((_let_33 (tptp.fn_ketone_9 X))) (let ((_let_34 (tptp.fn_triose_7 X))) (let ((_let_35 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_36 (tptp.fn_triose_8 X))) (let ((_let_37 (tptp.fn_monosaccharide_9 X))) (let ((_let_38 (tptp.fn_carbohydrate_32 X))) (let ((_let_39 (tptp.fn_triose_13 X))) (let ((_let_40 (tptp.fn_monosaccharide_10 X))) (let ((_let_41 (tptp.fn_carbohydrate_33 X))) (let ((_let_42 (tptp.fn_dihydroxyacetone_phosphate_11 X))) (let ((_let_43 (tptp.fn_dihydroxyacetone_phosphate_3 X))) (let ((_let_44 (tptp.fn_dihydroxyacetone_phosphate_9 X))) (let ((_let_45 (tptp.fn_dihydroxyacetone_phosphate_10 X))) (let ((_let_46 (tptp.fn_dihydroxyacetone_phosphate_5 X))) (let ((_let_47 (tptp.fn_dihydroxyacetone_phosphate_4 X))) (let ((_let_48 (tptp.fn_dihydroxyacetone_phosphate_8 X))) (let ((_let_49 (tptp.fn_dihydroxyacetone_phosphate_7 X))) (let ((_let_50 (tptp.fn_dihydroxyacetone_phosphate_1 X))) (=> (tptp.dihydroxyacetone_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Dihydroxyacetone-Phosphate'|) (tptp.user_description_2 X |tptp.'Dihydroxyacetone phosphate (DHAP) is a biochemical compound involved in many reactions, from the Calvin cycle in plants to the ether-lipid biosynthesis process in Leishmania mexicana. Its major biochemical role is in the glycolysis metabolic pathway.'|) (tptp.concept2words_2 X tptp.dhap) (tptp.concept2words_2 X |tptp.'dihydroxyacetone phosphate'|) (tptp.concept2words_2 X |tptp.'dihydroxyacetone-phosphate'|) (tptp.triose_1 X) (tptp.ketose_1 X) (not (tptp.acetone_1 X)) (tptp.glyceraldehyde_3_phosphate_1 _let_50) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.functional_group_1 _let_43) (tptp.carbonyl_group_1 _let_43) (tptp.carbon_skeleton_1 _let_47) (tptp.chemical_bond_1 _let_46) (tptp.double_bond_1 _let_46) (tptp.polar_covalent_bond_1 _let_6) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.hydrogen_1 _let_49) (tptp.entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.oxygen_1 _let_48) (tptp.entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.oxygen_1 _let_44) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.carbon_1 _let_45) (tptp.carbon_1 _let_42) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.phosphate_group_1 _let_15) (tptp.synthesis_of_fat_1 _let_13) (tptp.hydrogen_1 _let_35) (tptp.oxygen_1 _let_22) (tptp.chemical_entity_1 _let_16) (tptp.chemical_entity_1 _let_14) (tptp.chemical_entity_1 _let_12) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.polar_covalent_bond_1 _let_2) (tptp.has_isomer_2 _let_50 X) (tptp.has_state_2 _let_50 X) (tptp.has_isomer_2 X _let_50) (tptp.has_state_2 X _let_50) (tptp.has_region_2 X _let_15) (tptp.raw_material_2 _let_13 X) (tptp.is_inside_2 _let_42 _let_43) (tptp.has_part_2 X _let_44) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_49) (not (= _let_48 _let_49)) (not (= _let_49 _let_48)) (not (= _let_45 _let_49)) (not (= _let_49 _let_45)) (tptp.possesses_2 X _let_6) (tptp.is_between_2 _let_6 _let_44) (not (= _let_44 _let_48)) (not (= _let_48 _let_44)) (not (= _let_45 _let_48)) (not (= _let_48 _let_45)) (tptp.is_inside_2 _let_48 _let_1) (tptp.is_inside_2 _let_49 _let_1) (tptp.is_between_2 _let_6 _let_49) (tptp.is_between_2 _let_6 _let_48) (not (= _let_44 _let_49)) (not (= _let_49 _let_44)) (tptp.possesses_2 X _let_46) (tptp.is_inside_2 _let_45 _let_43) (tptp.has_part_2 X _let_42) (tptp.has_region_2 X _let_47) (tptp.is_inside_2 _let_45 _let_47) (tptp.has_part_2 X _let_45) (tptp.has_part_2 X _let_48) (tptp.is_between_2 _let_46 _let_45) (tptp.is_between_2 _let_46 _let_42) (tptp.is_inside_2 _let_42 _let_47) (not (= _let_45 _let_42)) (not (= _let_42 _let_45)) (tptp.has_region_2 X _let_43) (tptp.is_inside_2 _let_44 _let_43) (tptp.is_between_2 _let_46 _let_44) (not (= _let_45 _let_44)) (not (= _let_44 _let_45)) (tptp.is_between_2 _let_6 _let_42) (= X _let_16) (= X _let_14) (= _let_42 _let_10) (= X _let_12) (= _let_45 _let_11) (= _let_48 _let_23) (= _let_48 _let_25) (= _let_48 _let_22) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_44 _let_27) (= _let_44 _let_22) (= _let_49 _let_38) (= _let_1 _let_41) (= _let_49 _let_37) (= _let_1 _let_40) (= _let_49 _let_36) (= _let_1 _let_39) (= _let_49 _let_35) (= _let_48 _let_24) (= _let_48 _let_21) (= _let_47 _let_34) (= _let_42 _let_11) (= _let_47 _let_33) (= _let_42 _let_9) (= _let_46 _let_31) (= _let_46 _let_32) (= _let_46 _let_30) (= _let_44 _let_23) (= _let_45 _let_10) (= _let_45 _let_29) (= _let_44 _let_28) (= _let_44 _let_26) (= _let_44 _let_25) (= _let_44 _let_24) (= _let_44 _let_21) (= _let_43 _let_20) (= _let_43 _let_19) (= _let_43 _let_18) (= _let_43 _let_17) (= _let_42 _let_8) (= _let_42 _let_7) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_25) (= _let_25 _let_23) (= _let_23 _let_25) (= _let_24 _let_24) (= _let_22 _let_24) (= _let_24 _let_22) (= _let_21 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_10) (= _let_10 _let_10) (= _let_29 _let_29) (= _let_29 _let_10) (= _let_10 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dikaryotic_1 X) (and (tptp.original_name_2 X |tptp.'Dikaryotic'|) (tptp.user_description_2 X |tptp.'Said of a fungal mycelium in which each cell contains two haploid nuclei that do not fuse.'|) (tptp.concept2words_2 X tptp.dikaryotic) (tptp.mycelium_1 X) (not (tptp.heterokaryon_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dim_4 X))) (let ((_let_2 (tptp.fn_dim_5 X))) (let ((_let_3 (tptp.fn_dim_1 X))) (=> (tptp.dim_1 X) (and (tptp.original_name_2 X |tptp.'Dim'|) (tptp.concept2words_2 X tptp.dim) (tptp.concept2words_2 X tptp.dip) (tptp.concept2words_2 X tptp.darken) (tptp.concept2words_2 X tptp.decrease) (tptp.decrease_1 X) (not (tptp.dry_1 X)) (not (tptp.cool_1 X)) (not (tptp.contract_1 X)) (not (tptp.microtubule_shortening_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.brightness_value_1 _let_1) (tptp.brightness_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_1 _let_2) (= (tptp.fn_dim_3 X) (tptp.fn_decrease_2 X)) (= (tptp.fn_dim_2 X) (tptp.fn_decrease_1 X)) (= _let_2 (tptp.fn_decrease_4 X)) (= _let_1 (tptp.fn_decrease_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.dimension_constant_1 X) (and (tptp.original_name_2 X |tptp.'Dimension-Constant'|) (tptp.concept2words_2 X |tptp.'constant of dimension'|) (tptp.concept2words_2 X |tptp.'dimension constant'|) (tptp.concept2words_2 X |tptp.'dimension-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dimension_value_1 X) (and (tptp.original_name_2 X |tptp.'Dimension-Value'|) (tptp.concept2words_2 X tptp.dimension) (tptp.concept2words_2 X |tptp.'value of dimension'|) (tptp.concept2words_2 X |tptp.'dimension value'|) (tptp.concept2words_2 X |tptp.'dimension-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dimer_1 X))) (let ((_let_2 (tptp.fn_dimer_2 X))) (=> (tptp.dimer_1 X) (and (tptp.original_name_2 X |tptp.'Dimer'|) (tptp.user_description_2 X |tptp.'A molecule made up of two smaller, identical molecules.'|) (tptp.concept2words_2 X tptp.dimer) (tptp.molecule_1 X) (tptp.monomer_1 _let_1) (tptp.monomer_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dimerization_3 X))) (let ((_let_2 (tptp.fn_dimerization_2 X))) (let ((_let_3 (tptp.fn_dimerization_1 X))) (=> (tptp.dimerization_1 X) (and (tptp.original_name_2 X |tptp.'Dimerization'|) (tptp.user_description_2 X |tptp.'The formation of a chemical dimer from two identical subunits.'|) (tptp.concept2words_2 X tptp.dimerization) (tptp.chemical_reaction_1 X) (tptp.monomer_1 _let_3) (tptp.monomer_1 _let_2) (tptp.dimer_1 _let_1) (tptp.raw_material_2 X _let_3) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1) (= _let_2 (tptp.fn_chemical_reaction_2 X)) (= _let_1 (tptp.fn_chemical_reaction_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.dinner_1 X) (and (tptp.original_name_2 X |tptp.'Dinner'|) (tptp.concept2words_2 X tptp.dinner) (tptp.concept2words_2 X |tptp.'dinner party'|) (tptp.concept2words_2 X tptp.dinner_party) (tptp.meal_1 X) (not (tptp.supper_1 X)) (not (tptp.lunch_1 X)) (not (tptp.brunch_1 X)) (not (tptp.breakfast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protist_cell_22 X))) (let ((_let_2 (tptp.fn_dinoflagellate_16 X))) (let ((_let_3 (tptp.fn_attach_2 _let_2))) (let ((_let_4 (tptp.fn_dinoflagellate_5 X))) (let ((_let_5 (tptp.fn_attach_2 _let_4))) (let ((_let_6 (tptp.fn_dinoflagellate_18 X))) (let ((_let_7 (tptp.fn_plasma_membrane_71 _let_6))) (let ((_let_8 (tptp.fn_protist_cell_18 X))) (let ((_let_9 (tptp.fn_biomembrane_63 _let_6))) (let ((_let_10 (tptp.fn_plasma_membrane_55 _let_6))) (let ((_let_11 (tptp.fn_plasma_membrane_54 _let_6))) (let ((_let_12 (tptp.fn_plasma_membrane_3 _let_6))) (let ((_let_13 (tptp.fn_plasma_membrane_4 _let_6))) (let ((_let_14 (tptp.fn_attach_1 _let_2))) (let ((_let_15 (tptp.fn_plasma_membrane_65 _let_6))) (let ((_let_16 (tptp.fn_biomembrane_41 _let_6))) (let ((_let_17 (tptp.fn_plasma_membrane_68 _let_6))) (let ((_let_18 (tptp.fn_dinoflagellate_31 X))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_18))) (let ((_let_20 (tptp.fn_protist_cell_29 X))) (let ((_let_21 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_18))) (let ((_let_22 (tptp.fn_protist_cell_30 X))) (let ((_let_23 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_18))) (let ((_let_24 (tptp.fn_dinoflagellate_22 X))) (let ((_let_25 (tptp.fn_flagellum_35 _let_24))) (let ((_let_26 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_18))) (let ((_let_27 (tptp.fn_protist_cell_24 X))) (let ((_let_28 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_18))) (let ((_let_29 (tptp.fn_protist_cell_28 X))) (let ((_let_30 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_18))) (let ((_let_31 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_18))) (let ((_let_32 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_18))) (let ((_let_33 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_18))) (let ((_let_34 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_18))) (let ((_let_35 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_18))) (let ((_let_36 (tptp.fn_protist_cell_14 X))) (let ((_let_37 (tptp.fn_dinoflagellate_25 X))) (let ((_let_38 (tptp.fn_dinoflagellate_12 X))) (let ((_let_39 (tptp.fn_plasma_membrane_6 _let_6))) (let ((_let_40 (tptp.fn_dinoflagellate_14 X))) (let ((_let_41 (tptp.fn_dinoflagellate_15 X))) (let ((_let_42 (tptp.fn_dinoflagellate_13 X))) (let ((_let_43 (tptp.fn_dinoflagellate_11 X))) (let ((_let_44 (tptp.fn_dinoflagellate_8 X))) (let ((_let_45 (tptp.fn_dinoflagellate_10 X))) (let ((_let_46 (tptp.fn_dinoflagellate_28 X))) (let ((_let_47 (tptp.fn_dinoflagellate_32 X))) (let ((_let_48 (tptp.fn_dinoflagellate_17 X))) (let ((_let_49 (tptp.fn_dinoflagellate_9 X))) (let ((_let_50 (tptp.fn_dinoflagellate_6 X))) (let ((_let_51 (tptp.fn_dinoflagellate_19 X))) (let ((_let_52 (tptp.fn_dinoflagellate_33 X))) (let ((_let_53 (tptp.fn_dinoflagellate_20 X))) (let ((_let_54 (tptp.fn_dinoflagellate_21 X))) (let ((_let_55 (tptp.fn_dinoflagellate_30 X))) (let ((_let_56 (tptp.fn_dinoflagellate_26 X))) (let ((_let_57 (tptp.fn_dinoflagellate_23 X))) (let ((_let_58 (tptp.fn_dinoflagellate_34 X))) (let ((_let_59 (tptp.fn_dinoflagellate_27 X))) (let ((_let_60 (tptp.fn_dinoflagellate_29 X))) (let ((_let_61 (tptp.fn_plasma_membrane_52 _let_6))) (let ((_let_62 (tptp.fn_catabolic_pathway_10 _let_53))) (let ((_let_63 (tptp.fn_dinoflagellate_24 X))) (let ((_let_64 (tptp.fn_dinoflagellate_4 X))) (let ((_let_65 (tptp.fn_dinoflagellate_1 X))) (let ((_let_66 (tptp.fn_dinoflagellate_3 X))) (=> (tptp.dinoflagellate_1 X) (and (tptp.original_name_2 X |tptp.'Dinoflagellate'|) (tptp.user_description_2 X |tptp.'The dinoflagellates are a large group of flagellate protists. Most are marine plankton, but they are common in fresh water habitats as well.'|) (tptp.concept2words_2 X tptp.dinoflagellate) (tptp.alveolate_1 X) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X)) (tptp.energy_1 _let_65) (tptp.length_value_1 _let_66) (tptp.protein_enzyme_1 _let_64) (tptp.attach_1 _let_4) (tptp.cellular_work_1 _let_50) (tptp.eukaryotic_ribosome_1 _let_44) (tptp.chromosome_1 _let_49) (tptp.eukaryotic_chromosome_1 _let_49) (tptp.tangible_entity_1 _let_45) (tptp.nucleus_1 _let_45) (tptp.substance_1 _let_43) (tptp.cytosol_1 _let_43) (tptp.membrane_protein_1 _let_38) (tptp.protein_1 _let_38) (tptp.spatial_entity_1 _let_38) (tptp.polymer_1 _let_38) (tptp.tangible_entity_1 _let_38) (tptp.transmembrane_protein_1 _let_38) (tptp.integral_protein_1 _let_38) (tptp.transport_protein_1 _let_38) (tptp.tangible_entity_1 _let_42) (tptp.membrane_protein_1 _let_42) (tptp.protein_1 _let_42) (tptp.spatial_entity_1 _let_42) (tptp.polymer_1 _let_42) (tptp.hydrophobic_core_1 _let_40) (tptp.outside_face_1 _let_41) (tptp.extracellular_side_1 _let_41) (tptp.attach_1 _let_2) (tptp.mixture_1 _let_48) (tptp.cytoplasm_1 _let_48) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.semiautonomous_organelle_1 _let_51) (tptp.organelle_1 _let_51) (tptp.mitochondrion_1 _let_51) (tptp.catabolic_pathway_1 _let_53) (tptp.eukaryotic_cellular_respiration_1 _let_53) (tptp.size_value_1 _let_54) (tptp.flagellum_1 _let_24) (tptp.protein_enzyme_1 _let_57) (tptp.organic_molecule_1 _let_63) (tptp.tangible_entity_1 _let_37) (tptp.phospholipid_bilayer_1 _let_37) (tptp.surface_1 _let_56) (tptp.specific_heat_value_1 _let_59) (tptp.synthesis_reaction_1 _let_46) (tptp.chemical_reaction_1 _let_46) (tptp.anabolic_pathway_1 _let_46) (tptp.synthesis_of_lipid_1 _let_46) (tptp.temperature_value_1 _let_60) (tptp.volume_value_1 _let_55) (tptp.smooth_endoplasmic_reticulum_1 _let_18) (tptp.golgi_apparatus_1 _let_47) (tptp.rough_endoplasmic_reticulum_1 _let_52) (tptp.water_1 _let_58) (tptp.organic_molecule_1 _let_62) (tptp.attach_1 _let_61) (tptp.hydrophobic_core_1 _let_39) (tptp.golgi_apparatus_1 _let_35) (tptp.synthesis_reaction_1 _let_34) (tptp.synthesis_reaction_1 _let_33) (tptp.chemical_reaction_1 _let_32) (tptp.synthesis_of_lipid_1 _let_32) (tptp.chemical_reaction_1 _let_31) (tptp.synthesis_of_lipid_1 _let_31) (tptp.anabolic_pathway_1 _let_31) (tptp.synthesis_of_lipid_1 _let_30) (tptp.synthesis_of_lipid_1 _let_28) (tptp.nucleus_1 _let_26) (tptp.cell_1 _let_25) (tptp.eukaryotic_cell_1 _let_23) (tptp.cell_1 _let_23) (tptp.eukaryotic_ribosome_1 _let_21) (tptp.substance_1 _let_19) (tptp.cytosol_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.outside_face_1 _let_16) (tptp.extracellular_side_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.membrane_protein_1 _let_13) (tptp.membrane_protein_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.protein_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.transmembrane_protein_1 _let_10) (tptp.integral_protein_1 _let_10) (tptp.transport_protein_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (not (= _let_57 _let_64)) (tptp.the_cardinal_value_2 _let_66 |"30.0e0"|) (tptp.cardinal_unit_class_2 _let_66 tptp.micrometer_0) (tptp.length_2 X _let_66) (not (= _let_64 _let_57)) (tptp.raw_material_2 _let_53 _let_65) (tptp.has_part_2 _let_48 _let_64) (tptp.object_2 _let_2 _let_38) (tptp.base_2 _let_4 _let_6) (tptp.base_2 _let_2 _let_6) (tptp.has_part_2 X _let_24) (tptp.object_2 _let_4 _let_38) (tptp.has_part_2 X _let_58) (tptp.specific_heat_2 _let_58 _let_59) (tptp.correspondence_2 _let_60 _let_59) (tptp.temperature_2 X _let_60) (tptp.has_part_2 X _let_49) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_52) (tptp.the_scalar_value_2 _let_54 tptp.big_0) (tptp.scalar_unit_class_2 _let_54 tptp.prokaryote_0) (tptp.base_2 _let_46 X) (tptp.has_part_2 _let_48 _let_57) (tptp.has_region_2 X _let_56) (tptp.is_at_2 _let_37 _let_56) (tptp.base_2 _let_53 X) (tptp.has_function_2 X _let_53) (tptp.size_2 X _let_54) (tptp.directly_proportional_2 _let_54 _let_55) (tptp.volume_2 X _let_55) (tptp.is_inside_2 _let_52 _let_43) (tptp.abuts_2 _let_18 _let_52) (tptp.abuts_2 _let_52 _let_18) (not (= _let_18 _let_52)) (not (= _let_52 _let_18)) (tptp.base_2 _let_50 X) (tptp.has_function_2 X _let_50) (tptp.has_part_2 X _let_51) (tptp.is_inside_2 _let_51 _let_43) (tptp.has_part_2 _let_48 _let_43) (tptp.has_part_2 X _let_48) (tptp.is_between_2 _let_48 _let_6) (tptp.is_inside_2 _let_48 _let_6) (tptp.is_between_2 _let_48 _let_45) (tptp.is_inside_2 _let_49 _let_45) (tptp.site_2 _let_46 _let_18) (tptp.has_function_2 _let_18 _let_46) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_47) (tptp.is_inside_2 _let_47 _let_43) (tptp.is_inside_2 _let_18 _let_43) (tptp.is_inside_2 _let_44 _let_43) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_45) (tptp.is_inside_2 _let_45 _let_43) (tptp.called_2 _let_42 |tptp.'MP2'|) (tptp.has_region_2 _let_6 _let_40) (tptp.has_region_2 _let_38 _let_41) (tptp.has_region_2 _let_6 _let_41) (tptp.is_outside_2 _let_41 _let_6) (tptp.has_part_2 _let_6 _let_42) (not (= _let_42 _let_38)) (tptp.is_at_2 _let_38 _let_6) (not (= _let_38 _let_42)) (tptp.has_part_2 _let_6 _let_37) (tptp.is_inside_2 _let_38 _let_37) (tptp.is_across_2 _let_38 _let_6) (tptp.has_part_2 _let_6 _let_38) (tptp.is_across_2 _let_38 _let_40) (= _let_38 _let_14) (= _let_6 _let_5) (= _let_6 _let_3) (= _let_63 _let_62) (= X _let_25) (= _let_4 _let_61) (= (tptp.fn_dinoflagellate_36 X) (tptp.fn_organism_1 X)) (= (tptp.fn_dinoflagellate_37 X) (tptp.fn_organism_6 X)) (= _let_60 (tptp.fn_organism_2 X)) (= _let_59 (tptp.fn_organism_5 X)) (= _let_58 (tptp.fn_organism_4 X)) (= _let_57 (tptp.fn_protist_cell_33 X)) (= (tptp.fn_dinoflagellate_35 X) (tptp.fn_protist_cell_12 X)) (= (tptp.fn_dinoflagellate_7 X) (tptp.fn_protist_cell_13 X)) (= _let_37 _let_8) (= _let_56 (tptp.fn_protist_cell_15 X)) (= _let_55 (tptp.fn_protist_cell_17 X)) (= _let_54 (tptp.fn_protist_cell_16 X)) (= _let_53 (tptp.fn_protist_cell_32 X)) (= _let_52 (tptp.fn_protist_cell_25 X)) (= _let_51 (tptp.fn_protist_cell_34 X)) (= _let_50 (tptp.fn_protist_cell_9 X)) (= _let_49 (tptp.fn_protist_cell_19 X)) (= _let_6 _let_1) (= _let_48 (tptp.fn_protist_cell_35 X)) (= _let_47 _let_36) (= _let_47 _let_35) (= _let_46 _let_34) (= _let_46 _let_33) (= _let_46 _let_32) (= _let_46 _let_31) (= _let_46 _let_29) (= _let_46 _let_30) (= _let_46 _let_28) (= _let_45 _let_27) (= _let_45 _let_26) (= X _let_23) (= _let_44 _let_22) (= _let_44 _let_21) (= _let_18 (tptp.fn_protist_cell_23 X)) (= _let_43 _let_20) (= _let_43 _let_19) (= _let_38 _let_13) (= _let_38 _let_12) (= _let_38 _let_11) (= _let_42 _let_17) (= _let_42 _let_11) (= _let_41 _let_16) (= _let_41 _let_15) (= _let_40 _let_39) (= _let_38 _let_10) (= _let_37 _let_9) (= _let_37 _let_7) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_11) (= _let_11 _let_17) (= _let_17 _let_11) (= _let_11 _let_15) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dinosaur_1 X) (and (tptp.original_name_2 X |tptp.'Dinosaur'|) (tptp.user_description_2 X |tptp.'Member of a very diverse clade of reptiles demonstrating a remarkable diversity of morphology and habitat. Most went extinct at the end of the Cretaceous; the only extant dinosaurs are the birds.'|) (tptp.concept2words_2 X tptp.dinosaur) (tptp.reptile_1 X) (tptp.extinct_vertebrate_1 X) (not (tptp.crocodilia_1 X)) (not (tptp.lepidosaur_1 X)) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dinucleotide_1 X) (and (tptp.original_name_2 X |tptp.'Dinucleotide'|) (tptp.user_description_2 X |tptp.'A molecule consisting of two nucleotides connected by their phosphate groups.'|) (tptp.concept2words_2 X tptp.dinucleotide) (tptp.organic_molecule_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dionaea_muscipula_3 X))) (let ((_let_2 (tptp.fn_shoot_2 _let_1))) (let ((_let_3 (tptp.fn_dionaea_muscipula_16 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_dionaea_muscipula_4 X))) (let ((_let_6 (tptp.fn_leaf_51 _let_5))) (let ((_let_7 (tptp.fn_leaf_50 _let_5))) (let ((_let_8 (tptp.fn_leaf_14 _let_5))) (let ((_let_9 (tptp.fn_dionaea_muscipula_10 X))) (let ((_let_10 (tptp.fn_leaf_16 _let_5))) (let ((_let_11 (tptp.fn_dionaea_muscipula_6 X))) (let ((_let_12 (tptp.fn_leaf_45 _let_5))) (let ((_let_13 (tptp.fn_dionaea_muscipula_9 X))) (let ((_let_14 (tptp.fn_dionaea_muscipula_7 X))) (let ((_let_15 (tptp.fn_leaf_41 _let_5))) (let ((_let_16 (tptp.fn_dionaea_muscipula_15 X))) (let ((_let_17 (tptp.fn_leaf_47 _let_5))) (let ((_let_18 (tptp.fn_dionaea_muscipula_13 X))) (let ((_let_19 (tptp.fn_dionaea_muscipula_8 X))) (let ((_let_20 (tptp.fn_leaf_6 _let_5))) (let ((_let_21 (tptp.fn_dionaea_muscipula_5 X))) (let ((_let_22 (tptp.fn_leaf_10 _let_5))) (let ((_let_23 (tptp.fn_dionaea_muscipula_11 X))) (let ((_let_24 (tptp.fn_leaf_48 _let_5))) (let ((_let_25 (tptp.fn_dionaea_muscipula_14 X))) (let ((_let_26 (tptp.fn_leaf_43 _let_5))) (let ((_let_27 (tptp.fn_dionaea_muscipula_12 X))) (let ((_let_28 (tptp.fn_dionaea_muscipula_1 X))) (=> (tptp.dionaea_muscipula_1 X) (and (tptp.original_name_2 X |tptp.'Dionaea-Muscipula'|) (tptp.user_description_2 X |tptp.'Dionaea muscipula, (Venus flytrap) is an insectivorous plant that catches and digests animal prey.'|) (tptp.concept2words_2 X |tptp.'dionaea muscipula'|) (tptp.concept2words_2 X |tptp.'dionaea-muscipula'|) (tptp.angiosperm_1 X) (tptp.rate_value_1 _let_28) (tptp.shoot_1 _let_1) (tptp.spatial_entity_1 _let_5) (tptp.leaf_1 _let_5) (tptp.dermal_tissue_system_1 _let_21) (tptp.waxy_cuticle_1 _let_11) (tptp.epidermis_1 _let_14) (tptp.epidermis_1 _let_19) (tptp.spongy_mesophyll_1 _let_13) (tptp.waxy_cuticle_1 _let_9) (tptp.biological_region_1 _let_23) (tptp.air_space_1 _let_27) (tptp.enter_1 _let_18) (tptp.move_into_1 _let_25) (tptp.atmosphere_1 _let_16) (tptp.move_1 _let_3) (tptp.air_space_1 _let_26) (tptp.move_into_1 _let_24) (tptp.biological_region_1 _let_22) (tptp.dermal_tissue_system_1 _let_20) (tptp.enter_1 _let_17) (tptp.atmosphere_1 _let_15) (tptp.spongy_mesophyll_1 _let_12) (tptp.waxy_cuticle_1 _let_10) (tptp.waxy_cuticle_1 _let_8) (tptp.epidermis_1 _let_7) (tptp.epidermis_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.leaf_1 _let_2) (tptp.is_above_2 _let_11 _let_19) (tptp.is_above_2 _let_14 _let_9) (tptp.rate_2 _let_3 _let_28) (tptp.the_scalar_value_2 _let_28 tptp.fast_0) (tptp.scalar_unit_class_2 _let_28 tptp.action_0) (tptp.object_2 _let_3 _let_5) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_5) (tptp.has_region_2 _let_13 _let_27) (tptp.element_2 _let_21 _let_19) (tptp.destination_2 _let_18 _let_27) (tptp.is_inside_2 _let_27 _let_5) (tptp.base_2 _let_25 _let_5) (tptp.has_part_2 _let_5 _let_14) (tptp.element_2 _let_21 _let_14) (tptp.has_region_2 _let_5 _let_21) (tptp.is_inside_2 _let_23 _let_5) (tptp.destination_2 _let_25 _let_23) (tptp.is_outside_2 _let_16 _let_5) (tptp.origin_2 _let_18 _let_16) (tptp.base_2 _let_18 _let_5) (tptp.has_part_2 _let_5 _let_19) (not (= _let_19 _let_14)) (not (= _let_14 _let_19)) (tptp.has_part_2 _let_5 _let_9) (not (= _let_9 _let_11)) (tptp.has_part_2 _let_5 _let_11) (tptp.has_part_2 _let_5 _let_13) (tptp.is_above_2 _let_13 _let_14) (not (= _let_11 _let_9)) (= _let_5 _let_4) (= _let_1 (tptp.fn_seed_plant_2 X)) (= _let_5 _let_2) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_14 _let_7) (= _let_19 _let_6) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_6) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dipeptidase_1 X) (and (tptp.original_name_2 X |tptp.'Dipeptidase'|) (tptp.user_description_2 X |tptp.'Enzyme produced by the small intestine which hydrolyzes the bond between dipeptides during the chemical digestion of proteins.'|) (tptp.concept2words_2 X tptp.dipeptidase) (tptp.protease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diploid_cell_2 X))) (let ((_let_2 (tptp.fn_diploid_cell_1 X))) (=> (tptp.diploid_cell_1 X) (and (tptp.original_name_2 X |tptp.'Diploid-Cell'|) (tptp.user_description_2 X |tptp.'A diploid cell carries the normal complement of two complementary sets of chromosomes in diploid organims.'|) (tptp.concept2words_2 X |tptp.'2n cell'|) (tptp.concept2words_2 X |tptp.'2n-cell'|) (tptp.concept2words_2 X |tptp.'cell of diploid'|) (tptp.concept2words_2 X |tptp.'diploid cell'|) (tptp.concept2words_2 X |tptp.'diploid-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.locus_1 _let_2) (tptp.gene_1 _let_1) (tptp.has_region_2 X _let_2) (tptp.is_at_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diploid_chromosome_7 X))) (let ((_let_2 (tptp.fn_diploid_chromosome_5 X))) (let ((_let_3 (tptp.fn_diploid_chromosome_6 X))) (let ((_let_4 (tptp.fn_diploid_chromosome_4 X))) (let ((_let_5 (tptp.fn_diploid_chromosome_1 X))) (let ((_let_6 (tptp.fn_diploid_chromosome_2 X))) (let ((_let_7 (tptp.fn_diploid_chromosome_3 X))) (=> (tptp.diploid_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Diploid-Chromosome'|) (tptp.user_description_2 X |tptp.'Chromosome which consists of two sister chromatids. Diploid chromosomes are produces during the S phase of the cell cycle prior to cell division.'|) (tptp.concept2words_2 X |tptp.'chromosome of diploid'|) (tptp.concept2words_2 X |tptp.'diploid chromosome'|) (tptp.concept2words_2 X |tptp.'diploid-chromosome'|) (tptp.eukaryotic_chromosome_1 X) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.sister_chromatid_1 _let_6) (tptp.sister_chromatid_1 _let_7) (tptp.shape_value_1 _let_4) (tptp.end_1 _let_2) (tptp.entity_1 _let_3) (tptp.dna_1 _let_3) (tptp.polymer_1 _let_3) (tptp.telomere_1 _let_1) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.has_state_2 _let_5 X) (= (tptp.fn_diploid_chromosome_8 X) (tptp.fn_eukaryotic_chromosome_1 X)) (= _let_4 (tptp.fn_eukaryotic_chromosome_2 X)) (= _let_3 (tptp.fn_eukaryotic_chromosome_3 X)) (= _let_2 (tptp.fn_eukaryotic_chromosome_5 X)) (= _let_1 (tptp.fn_eukaryotic_chromosome_4 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diploid_number_6 X))) (let ((_let_2 (tptp.fn_haploid_number_1 _let_1))) (=> (tptp.diploid_number_1 X) (and (tptp.original_name_2 X |tptp.'Diploid-Number'|) (tptp.user_description_2 X |tptp.'The number of chromosomes pesent in somatic cells of diploid organisms, abbreviated 2n.'|) (tptp.concept2words_2 X |tptp.'number of diploid'|) (tptp.concept2words_2 X |tptp.'diploid number'|) (tptp.concept2words_2 X |tptp.'diploid-number'|) (tptp.quantity_value_1 X) (not (tptp.haploid_number_1 X)) (tptp.system_1 (tptp.fn_diploid_number_3 X)) (tptp.haploid_number_1 _let_1) (tptp.property_node_1 _let_2) (tptp.called_2 _let_1 |tptp.'Haploid'|) (tptp.called_2 X |tptp.'Diploid'|) (= (tptp.fn_diploid_number_5 X) _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.diploid_organism_1 X) (and (tptp.original_name_2 X |tptp.'Diploid-Organism'|) (tptp.user_description_2 X |tptp.'An organism whose cells contain two homologous chromosomes (2n), one set inherited from each parent.'|) (tptp.concept2words_2 X |tptp.'organism of diploid'|) (tptp.concept2words_2 X |tptp.'diploid organism'|) (tptp.concept2words_2 X |tptp.'diploid-organism'|) (tptp.offspring_1 X) (not (tptp.recombinant_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_diplomonad_2 X))) (let ((_let_2 (tptp.fn_golgi_apparatus_91 _let_1))) (let ((_let_3 (tptp.fn_protist_cell_29 X))) (let ((_let_4 (tptp.fn_golgi_apparatus_22 _let_1))) (let ((_let_5 (tptp.fn_diplomonad_7 X))) (let ((_let_6 (tptp.fn_flagellum_35 _let_5))) (let ((_let_7 (tptp.fn_golgi_apparatus_90 _let_1))) (let ((_let_8 (tptp.fn_protist_cell_24 X))) (let ((_let_9 (tptp.fn_golgi_apparatus_82 _let_1))) (let ((_let_10 (tptp.fn_protist_cell_22 X))) (let ((_let_11 (tptp.fn_golgi_apparatus_92 _let_1))) (let ((_let_12 (tptp.fn_protist_cell_33 X))) (let ((_let_13 (tptp.fn_diplomonad_29 X))) (let ((_let_14 (tptp.fn_er_membrane_33 _let_13))) (let ((_let_15 (tptp.fn_er_membrane_32 _let_13))) (let ((_let_16 (tptp.fn_diplomonad_12 X))) (let ((_let_17 (tptp.fn_golgi_apparatus_93 _let_1))) (let ((_let_18 (tptp.fn_diplomonad_20 X))) (let ((_let_19 (tptp.fn_golgi_apparatus_89 _let_1))) (let ((_let_20 (tptp.fn_diplomonad_9 X))) (let ((_let_21 (tptp.fn_golgi_apparatus_15 _let_1))) (let ((_let_22 (tptp.fn_diplomonad_5 X))) (let ((_let_23 (tptp.fn_golgi_apparatus_65 _let_1))) (let ((_let_24 (tptp.fn_diplomonad_22 X))) (let ((_let_25 (tptp.fn_diplomonad_21 X))) (let ((_let_26 (tptp.fn_diplomonad_24 X))) (let ((_let_27 (tptp.fn_diplomonad_11 X))) (let ((_let_28 (tptp.fn_golgi_apparatus_88 _let_1))) (let ((_let_29 (tptp.fn_diplomonad_10 X))) (let ((_let_30 (tptp.fn_golgi_apparatus_86 _let_1))) (let ((_let_31 (tptp.fn_diplomonad_18 X))) (let ((_let_32 (tptp.fn_golgi_apparatus_87 _let_1))) (let ((_let_33 (tptp.fn_diplomonad_16 X))) (let ((_let_34 (tptp.fn_golgi_apparatus_10 _let_1))) (let ((_let_35 (tptp.fn_golgi_apparatus_11 _let_1))) (let ((_let_36 (tptp.fn_diplomonad_4 X))) (let ((_let_37 (tptp.fn_diplomonad_13 X))) (let ((_let_38 (tptp.fn_diplomonad_17 X))) (let ((_let_39 (tptp.fn_diplomonad_6 X))) (let ((_let_40 (tptp.fn_diplomonad_23 X))) (let ((_let_41 (tptp.fn_diplomonad_31 X))) (let ((_let_42 (tptp.fn_diplomonad_8 X))) (let ((_let_43 (tptp.fn_diplomonad_19 X))) (let ((_let_44 (tptp.fn_diplomonad_14 X))) (let ((_let_45 (tptp.fn_diplomonad_15 X))) (let ((_let_46 (tptp.fn_catabolic_pathway_10 _let_42))) (let ((_let_47 (tptp.fn_diplomonad_3 X))) (let ((_let_48 (tptp.fn_diplomonad_30 X))) (let ((_let_49 (tptp.fn_diplomonad_1 X))) (=> (tptp.diplomonad_1 X) (and (tptp.original_name_2 X |tptp.'Diplomonad'|) (tptp.user_description_2 X |tptp.'A unicellular protist that has two nuclei and four flagella per cell. Many are parasitic.'|) (tptp.concept2words_2 X tptp.diplomonad) (tptp.unicellular_organism_1 X) (tptp.protist_cell_1 X) (not (tptp.alveolate_1 X)) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X)) (tptp.protein_enzyme_1 _let_49) (tptp.golgi_apparatus_1 _let_1) (tptp.organic_molecule_1 _let_47) (tptp.mixture_1 _let_36) (tptp.cytoplasm_1 _let_36) (tptp.eukaryotic_chromosome_1 _let_22) (tptp.chromosome_1 _let_22) (tptp.semiautonomous_organelle_1 _let_39) (tptp.organelle_1 _let_39) (tptp.mitochondrion_1 _let_39) (tptp.flagellum_1 _let_5) (tptp.catabolic_pathway_1 _let_42) (tptp.eukaryotic_cellular_respiration_1 _let_42) (tptp.synthesis_reaction_1 _let_20) (tptp.metabolic_pathway_1 _let_20) (tptp.chemical_reaction_1 _let_20) (tptp.anabolic_pathway_1 _let_20) (tptp.synthesis_of_lipid_1 _let_20) (tptp.synthesis_of_atp_1 _let_29) (tptp.protein_enzyme_1 _let_27) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.tangible_entity_1 _let_37) (tptp.phospholipid_bilayer_1 _let_37) (tptp.specific_heat_value_1 _let_44) (tptp.temperature_value_1 _let_45) (tptp.size_value_1 _let_33) (tptp.surface_1 _let_38) (tptp.volume_value_1 _let_31) (tptp.water_1 _let_43) (tptp.smooth_endoplasmic_reticulum_1 _let_18) (tptp.tangible_entity_1 _let_25) (tptp.nucleus_1 _let_25) (tptp.endoplasmic_reticulum_1 _let_24) (tptp.rough_endoplasmic_reticulum_1 _let_24) (tptp.eukaryotic_ribosome_1 _let_40) (tptp.spatial_entity_1 _let_26) (tptp.biomembrane_1 _let_26) (tptp.plasma_membrane_1 _let_26) (tptp.er_membrane_1 _let_13) (tptp.aqueous_solution_1 _let_48) (tptp.cellular_work_1 _let_41) (tptp.organic_molecule_1 _let_46) (tptp.property_node_1 _let_35) (tptp.property_node_1 _let_34) (tptp.size_value_1 _let_32) (tptp.volume_value_1 _let_30) (tptp.synthesis_of_atp_1 _let_28) (tptp.endoplasmic_reticulum_1 _let_23) (tptp.rough_endoplasmic_reticulum_1 _let_23) (tptp.eukaryotic_chromosome_1 _let_21) (tptp.chromosome_1 _let_21) (tptp.synthesis_reaction_1 _let_19) (tptp.metabolic_pathway_1 _let_19) (tptp.chemical_reaction_1 _let_19) (tptp.anabolic_pathway_1 _let_19) (tptp.synthesis_of_lipid_1 _let_19) (tptp.smooth_endoplasmic_reticulum_1 _let_17) (tptp.aqueous_solution_1 _let_15) (tptp.aqueous_solution_1 _let_14) (tptp.protein_enzyme_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.nucleus_1 _let_7) (tptp.cell_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.is_inside_2 _let_48 _let_13) (not (= _let_49 _let_27)) (not (= _let_27 _let_49)) (tptp.has_part_2 _let_36 _let_49) (tptp.has_part_2 X _let_5) (tptp.is_between_2 _let_13 _let_48) (tptp.has_part_2 X _let_43) (tptp.specific_heat_2 _let_43 _let_44) (tptp.correspondence_2 _let_45 _let_44) (tptp.temperature_2 X _let_45) (tptp.is_between_2 _let_36 _let_26) (tptp.is_between_2 _let_36 _let_25) (tptp.has_part_2 _let_36 _let_27) (tptp.is_inside_2 _let_27 _let_13) (tptp.base_2 _let_41 X) (tptp.has_function_2 X _let_41) (tptp.has_function_2 X _let_42) (tptp.base_2 _let_42 X) (tptp.has_part_2 _let_36 _let_16) (tptp.is_inside_2 _let_39 _let_16) (tptp.has_part_2 X _let_39) (tptp.has_part_2 X _let_40) (tptp.is_inside_2 _let_40 _let_16) (tptp.has_part_2 X _let_36) (tptp.is_inside_2 _let_36 _let_26) (tptp.has_part_2 _let_26 _let_37) (tptp.is_at_2 _let_37 _let_38) (tptp.has_region_2 X _let_38) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_22 _let_25) (tptp.size_2 X _let_33) (tptp.the_scalar_value_2 _let_33 tptp.big_0) (tptp.scalar_unit_class_2 _let_33 tptp.prokaryote_0) (tptp.has_part_2 X _let_18) (tptp.volume_2 X _let_31) (tptp.directly_proportional_2 _let_33 _let_31) (tptp.abuts_2 _let_18 _let_24) (tptp.abuts_2 _let_24 _let_18) (tptp.site_2 _let_20 _let_18) (tptp.agent_2 _let_20 _let_27) (tptp.agent_2 _let_29 _let_27) (tptp.base_2 _let_29 X) (tptp.has_part_2 X _let_24) (not (= _let_24 _let_18)) (tptp.is_inside_2 _let_24 _let_16) (tptp.is_inside_2 _let_25 _let_16) (tptp.has_part_2 X _let_25) (tptp.has_part_2 X _let_26) (not (= _let_18 _let_24)) (tptp.is_inside_2 _let_1 _let_16) (tptp.is_inside_2 _let_18 _let_16) (tptp.has_function_2 _let_18 _let_20) (tptp.base_2 _let_20 X) (tptp.has_part_2 X _let_22) (= X _let_6) (= _let_48 _let_15) (= _let_48 _let_14) (= _let_47 _let_46) (= (tptp.fn_diplomonad_28 X) (tptp.fn_organism_6 X)) (= (tptp.fn_diplomonad_27 X) (tptp.fn_organism_1 X)) (= _let_45 (tptp.fn_organism_2 X)) (= _let_44 (tptp.fn_organism_5 X)) (= _let_43 (tptp.fn_organism_4 X)) (= _let_25 _let_8) (= _let_13 (tptp.fn_protist_cell_31 X)) (= _let_27 _let_12) (= _let_42 (tptp.fn_protist_cell_32 X)) (= _let_41 (tptp.fn_protist_cell_9 X)) (= _let_40 (tptp.fn_protist_cell_30 X)) (= _let_39 (tptp.fn_protist_cell_34 X)) (= _let_16 _let_3) (= _let_38 (tptp.fn_protist_cell_15 X)) (= _let_37 (tptp.fn_protist_cell_18 X)) (= _let_26 _let_10) (= _let_36 (tptp.fn_protist_cell_35 X)) (= (tptp.fn_diplomonad_25 X) _let_35) (= (tptp.fn_diplomonad_26 X) _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_27 _let_11) (= _let_26 _let_9) (= _let_25 _let_7) (= _let_24 _let_23) (= _let_22 _let_21) (= X _let_4) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_2) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.diplopode_1 X) (and (tptp.original_name_2 X |tptp.'Diplopode'|) (tptp.user_description_2 X |tptp.'Member of an arthropod taxon characterized by a conspicuously segmented body, with each segment bearing two pairs of legs; for example, millipedes.'|) (tptp.concept2words_2 X tptp.millipede) (tptp.concept2words_2 X tptp.diplopode) (tptp.arthropod_1 X) (not (tptp.cheliceriform_1 X)) (not (tptp.crustacean_1 X)) (not (tptp.daphnia_1 X)) (not (tptp.hexapod_1 X)) (not (tptp.myriapod_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dipole_dipole_interaction_1 X) (and (tptp.original_name_2 X |tptp.'Dipole-Dipole-Interaction'|) (tptp.user_description_2 X |tptp.'A weak, attractive force between two polar molecules in close proximity to each other. The positive end of one polar molecule is attracted to the negative end of another polar molecule.'|) (tptp.concept2words_2 X |tptp.'dipole dipole interaction'|) (tptp.concept2words_2 X |tptp.'dipole-dipole-interaction'|) (tptp.weak_interaction_1 X)))) (forall ((X $$unsorted)) (=> (tptp.diptera_1 X) (and (tptp.original_name_2 X |tptp.'Diptera'|) (tptp.user_description_2 X |tptp.'An order of insects that possesses two pairs of wings, including flies and mosquitos.'|) (tptp.concept2words_2 X tptp.diptera) (tptp.insect_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.direct_repeats_1 X) (and (tptp.original_name_2 X |tptp.'Direct-Repeats'|) (tptp.user_description_2 X |tptp.'Genetic sequences consisting of a specific sequence repeated at least twice.'|) (tptp.concept2words_2 X |tptp.'direct repeats'|) (tptp.concept2words_2 X |tptp.'direct repeat'|) (tptp.concept2words_2 X |tptp.'direct-repeat'|) (tptp.eukaryote_dna_sequence_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.direction_2 X X1) (tptp.move_1 X) (tptp.angle_value_1 X1)) (and (tptp.directed_motion_1 X) (= (tptp.fn_directed_motion_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_directed_motion_1 X))) (=> (tptp.directed_motion_1 X) (and (tptp.original_name_2 X |tptp.'Directed-Motion'|) (tptp.user_description_2 X |tptp.'The movement has a specific direction.'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X |tptp.'directed motion'|) (tptp.concept2words_2 X |tptp.'directed-motion'|) (tptp.move_1 X) (not (tptp.random_motion_1 X)) (tptp.angle_value_1 _let_1) (tptp.direction_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.direction_constant_1 X) (and (tptp.original_name_2 X |tptp.'Direction-Constant'|) (tptp.concept2words_2 X |tptp.'constant of direction'|) (tptp.concept2words_2 X |tptp.'direction constant'|) (tptp.concept2words_2 X |tptp.'direction-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.direction_scale_1 X) (and (tptp.original_name_2 X |tptp.'Direction-Scale'|) (tptp.concept2words_2 X |tptp.'scale of direction'|) (tptp.concept2words_2 X |tptp.'direction scale'|) (tptp.concept2words_2 X |tptp.'direction-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.directional_selection_1 X) (and (tptp.original_name_2 X |tptp.'Directional-Selection'|) (tptp.user_description_2 X |tptp.'Natural selection in which a single phenotype is favored, which causes the overall mean value for the phenotypic range to shift in one direction.'|) (tptp.concept2words_2 X |tptp.'directional selection'|) (tptp.concept2words_2 X |tptp.'directional-selection'|) (tptp.selection_force_1 X) (not (tptp.balancing_selection_1 X)) (not (tptp.disruptive_selection_1 X))))) (forall ((X $$unsorted)) (=> (tptp.disaccharidase_1 X) (and (tptp.original_name_2 X |tptp.'Disaccharidase'|) (tptp.user_description_2 X |tptp.'Enzyme which catalyzes the hydrolysis od disaccharides into monosaccharides.'|) (tptp.concept2words_2 X tptp.disaccharidase) (tptp.digestive_enzyme_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_disaccharide_31 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_carbohydrate_37 X))) (let ((_let_4 (tptp.fn_polar_covalent_bond_16 _let_1))) (let ((_let_5 (tptp.fn_carbohydrate_30 X))) (let ((_let_6 (tptp.fn_polar_covalent_bond_13 _let_1))) (let ((_let_7 (tptp.fn_carbohydrate_22 X))) (let ((_let_8 (tptp.fn_polar_covalent_bond_21 _let_1))) (let ((_let_9 (tptp.fn_carbohydrate_23 X))) (let ((_let_10 (tptp.fn_polar_covalent_bond_5 _let_1))) (let ((_let_11 (tptp.fn_carbohydrate_25 X))) (let ((_let_12 (tptp.fn_disaccharide_26 X))) (let ((_let_13 (tptp.fn_condensation_reaction_3 _let_12))) (let ((_let_14 (tptp.fn_disaccharide_9 X))) (let ((_let_15 (tptp.fn_attract_2 _let_14))) (let ((_let_16 (tptp.fn_endergonic_reaction_9 _let_12))) (let ((_let_17 (tptp.fn_carbohydrate_38 X))) (let ((_let_18 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_19 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_20 (tptp.fn_carbohydrate_39 X))) (let ((_let_21 (tptp.fn_disaccharide_7 X))) (let ((_let_22 (tptp.fn_carbonyl_group_9 _let_21))) (let ((_let_23 (tptp.fn_carbohydrate_32 X))) (let ((_let_24 (tptp.fn_disaccharide_44 X))) (let ((_let_25 (tptp.fn_share_1 _let_24))) (let ((_let_26 (tptp.fn_share_3 _let_24))) (let ((_let_27 (tptp.fn_carbohydrate_35 X))) (let ((_let_28 (tptp.fn_carbonyl_group_8 _let_21))) (let ((_let_29 (tptp.fn_carbohydrate_5 X))) (let ((_let_30 (tptp.fn_carbonyl_group_7 _let_21))) (let ((_let_31 (tptp.fn_disaccharide_29 X))) (let ((_let_32 (tptp.fn_share_1 _let_31))) (let ((_let_33 (tptp.fn_share_3 _let_31))) (let ((_let_34 (tptp.fn_carbohydrate_12 X))) (let ((_let_35 (tptp.fn_polar_covalent_bond_2 _let_1))) (let ((_let_36 (tptp.fn_carbohydrate_11 X))) (let ((_let_37 (tptp.fn_polar_covalent_bond_1 _let_1))) (let ((_let_38 (tptp.fn_disaccharide_6 X))) (let ((_let_39 (tptp.fn_covalent_bond_17 _let_38))) (let ((_let_40 (tptp.fn_carbohydrate_29 X))) (let ((_let_41 (tptp.fn_polar_covalent_bond_12 _let_1))) (let ((_let_42 (tptp.fn_carbohydrate_31 X))) (let ((_let_43 (tptp.fn_polar_covalent_bond_11 _let_1))) (let ((_let_44 (tptp.fn_covalent_bond_15 _let_38))) (let ((_let_45 (tptp.fn_carbohydrate_45 X))) (let ((_let_46 (tptp.fn_polar_covalent_bond_4 _let_1))) (let ((_let_47 (tptp.fn_disaccharide_11 X))) (let ((_let_48 (tptp.fn_carbohydrate_5 _let_47))) (let ((_let_49 (tptp.fn_disaccharide_22 X))) (let ((_let_50 (tptp.fn_polar_covalent_bond_18 _let_49))) (let ((_let_51 (tptp.fn_organic_molecule_1 _let_47))) (let ((_let_52 (tptp.fn_disaccharide_16 X))) (let ((_let_53 (tptp.fn_attract_2 _let_52))) (let ((_let_54 (tptp.fn_disaccharide_17 X))) (let ((_let_55 (tptp.fn_share_1 _let_54))) (let ((_let_56 (tptp.fn_share_3 _let_54))) (let ((_let_57 (tptp.fn_carbohydrate_36 _let_47))) (let ((_let_58 (tptp.fn_molecule_10 _let_47))) (let ((_let_59 (tptp.fn_carbohydrate_37 _let_47))) (let ((_let_60 (tptp.fn_polar_covalent_bond_17 _let_49))) (let ((_let_61 (tptp.fn_carbohydrate_30 _let_47))) (let ((_let_62 (tptp.fn_polar_covalent_bond_16 _let_49))) (let ((_let_63 (tptp.fn_carbohydrate_14 _let_47))) (let ((_let_64 (tptp.fn_carbohydrate_40 _let_47))) (let ((_let_65 (tptp.fn_carbonyl_group_4 _let_21))) (let ((_let_66 (tptp.fn_covalent_bond_18 _let_38))) (let ((_let_67 (tptp.fn_polar_covalent_bond_19 _let_49))) (let ((_let_68 (tptp.fn_organic_molecule_2 _let_47))) (let ((_let_69 (tptp.fn_molecule_11 _let_47))) (let ((_let_70 (tptp.fn_disaccharide_43 X))) (let ((_let_71 (tptp.fn_disaccharide_2 X))) (let ((_let_72 (tptp.fn_disaccharide_37 X))) (let ((_let_73 (tptp.fn_disaccharide_41 X))) (let ((_let_74 (tptp.fn_disaccharide_40 X))) (let ((_let_75 (tptp.fn_disaccharide_38 X))) (let ((_let_76 (tptp.fn_disaccharide_33 X))) (let ((_let_77 (tptp.fn_disaccharide_13 X))) (let ((_let_78 (tptp.fn_disaccharide_32 X))) (let ((_let_79 (tptp.fn_disaccharide_47 X))) (let ((_let_80 (tptp.fn_disaccharide_46 X))) (let ((_let_81 (tptp.fn_disaccharide_45 X))) (let ((_let_82 (tptp.fn_disaccharide_48 X))) (let ((_let_83 (tptp.fn_disaccharide_14 X))) (let ((_let_84 (tptp.fn_disaccharide_3 X))) (let ((_let_85 (tptp.fn_disaccharide_36 X))) (let ((_let_86 (tptp.fn_disaccharide_42 X))) (let ((_let_87 (tptp.fn_disaccharide_34 X))) (let ((_let_88 (tptp.fn_disaccharide_35 X))) (let ((_let_89 (tptp.fn_disaccharide_39 X))) (let ((_let_90 (tptp.fn_disaccharide_5 X))) (let ((_let_91 (tptp.fn_disaccharide_27 X))) (let ((_let_92 (tptp.fn_disaccharide_28 X))) (let ((_let_93 (tptp.fn_disaccharide_8 X))) (let ((_let_94 (tptp.fn_disaccharide_51 X))) (let ((_let_95 (tptp.fn_disaccharide_24 X))) (let ((_let_96 (tptp.fn_carbohydrate_38 _let_47))) (let ((_let_97 (tptp.fn_disaccharide_25 X))) (let ((_let_98 (tptp.fn_carbohydrate_31 _let_47))) (let ((_let_99 (tptp.fn_disaccharide_19 X))) (let ((_let_100 (tptp.fn_carbohydrate_29 _let_47))) (let ((_let_101 (tptp.fn_disaccharide_18 X))) (let ((_let_102 (tptp.fn_disaccharide_20 X))) (let ((_let_103 (tptp.fn_disaccharide_21 X))) (let ((_let_104 (tptp.fn_carbonyl_group_10 _let_21))) (let ((_let_105 (tptp.fn_disaccharide_30 X))) (let ((_let_106 (tptp.fn_disaccharide_4 X))) (let ((_let_107 (tptp.fn_disaccharide_23 X))) (let ((_let_108 (tptp.fn_condensation_reaction_1 _let_12))) (let ((_let_109 (tptp.fn_disaccharide_10 X))) (let ((_let_110 (tptp.fn_condensation_reaction_2 _let_12))) (let ((_let_111 (tptp.fn_disaccharide_12 X))) (let ((_let_112 (tptp.fn_solubility_value_1 _let_111))) (let ((_let_113 (tptp.fn_hydrophilic_region_2 _let_93))) (let ((_let_114 (tptp.fn_disaccharide_1 X))) (=> (tptp.disaccharide_1 X) (and (tptp.original_name_2 X |tptp.'Disaccharide'|) (tptp.user_description_2 X |tptp.'Disaccharides are made of two monosaccharides; for example, sucrose, table sugar, is made of the monosaccharides glucose and fructose.'|) (tptp.concept2words_2 X |tptp.'di saccharide'|) (tptp.concept2words_2 X |tptp.'di-saccharide'|) (tptp.concept2words_2 X tptp.disaccharide) (tptp.sugar_1 X) (not (tptp.aldose_1 X)) (not (tptp.nucleic_acid_1 X)) (not (tptp.oligosaccharide_1 X)) (not (tptp.polypeptide_1 X)) (not (tptp.polysaccharide_1 X)) (not (tptp.protein_1 X)) (not (tptp.sporopollenin_1 X)) (not (tptp.sister_chromatid_1 X)) (tptp.glycosidic_linkage_1 _let_114) (tptp.unequal_sharing_1 _let_71) (tptp.carbon_skeleton_1 _let_84) (tptp.valence_electron_1 _let_106) (tptp.electron_1 _let_90) (tptp.valence_electron_1 _let_90) (tptp.covalent_bond_1 _let_38) (tptp.double_bond_1 _let_38) (tptp.carbonyl_group_1 _let_21) (tptp.hydrophilic_region_1 _let_93) (tptp.attract_1 _let_14) (tptp.monosaccharide_1 _let_109) (tptp.monosaccharide_1 _let_47) (tptp.solubility_value_1 _let_111) (tptp.entity_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.atom_1 _let_77) (tptp.oxygen_1 _let_77) (tptp.entity_1 _let_83) (tptp.chemical_entity_1 _let_83) (tptp.atom_1 _let_83) (tptp.carbon_1 _let_83) (tptp.attract_1 _let_52) (tptp.share_1 _let_54) (tptp.unequal_sharing_1 _let_54) (tptp.entity_1 _let_101) (tptp.electron_1 _let_101) (tptp.valence_electron_1 _let_101) (tptp.electron_1 _let_99) (tptp.valence_electron_1 _let_99) (tptp.hold_together_1 _let_102) (tptp.unequal_sharing_1 _let_103) (tptp.chemical_bond_1 _let_49) (tptp.polar_covalent_bond_1 _let_49) (tptp.entity_1 _let_107) (tptp.chemical_entity_1 _let_107) (tptp.atom_1 _let_107) (tptp.entity_1 _let_95) (tptp.chemical_entity_1 _let_95) (tptp.atom_1 _let_95) (tptp.carbon_1 _let_95) (tptp.entity_1 _let_97) (tptp.atom_1 _let_97) (tptp.chemical_entity_1 _let_97) (tptp.oxygen_1 _let_97) (tptp.dehydration_reaction_1 _let_12) (tptp.entity_1 _let_91) (tptp.electron_1 _let_91) (tptp.valence_electron_1 _let_91) (tptp.electron_1 _let_92) (tptp.valence_electron_1 _let_92) (tptp.share_1 _let_31) (tptp.unequal_sharing_1 _let_31) (tptp.hold_together_1 _let_105) (tptp.polar_covalent_bond_1 _let_1) (tptp.entity_1 _let_78) (tptp.chemical_entity_1 _let_78) (tptp.atom_1 _let_78) (tptp.hydrogen_1 _let_78) (tptp.entity_1 _let_76) (tptp.atom_1 _let_76) (tptp.chemical_entity_1 _let_76) (tptp.oxygen_1 _let_76) (tptp.hydroxyl_group_1 _let_87) (tptp.electron_shell_1 _let_88) (tptp.first_electron_shell_1 _let_88) (tptp.electronegativity_value_1 _let_85) (tptp.electron_1 _let_72) (tptp.valence_electron_1 _let_72) (tptp.proton_1 _let_75) (tptp.electron_shell_1 _let_89) (tptp.center_1 _let_74) (tptp.atomic_nucleus_1 _let_73) (tptp.electronegativity_value_1 _let_86) (tptp.hold_together_1 _let_70) (tptp.share_1 _let_24) (tptp.unequal_sharing_1 _let_24) (tptp.quantity_value_1 _let_81) (tptp.speed_value_1 _let_80) (tptp.constant_motion_1 _let_79) (tptp.kinetic_energy_1 _let_82) (tptp.attract_1 _let_113) (tptp.property_node_1 _let_112) (tptp.molecule_1 _let_110) (tptp.molecule_1 _let_108) (tptp.hold_together_1 _let_104) (tptp.entity_1 _let_100) (tptp.electron_1 _let_100) (tptp.valence_electron_1 _let_100) (tptp.electron_1 _let_98) (tptp.valence_electron_1 _let_98) (tptp.entity_1 _let_96) (tptp.atom_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.oxygen_1 _let_96) (tptp.atom_1 _let_69) (tptp.atom_1 _let_68) (tptp.chemical_entity_1 _let_68) (tptp.entity_1 _let_67) (tptp.chemical_entity_1 _let_67) (tptp.atom_1 _let_67) (tptp.valence_electron_1 _let_66) (tptp.valence_electron_1 _let_65) (tptp.attract_1 _let_64) (tptp.attract_1 _let_63) (tptp.unequal_sharing_1 _let_62) (tptp.unequal_sharing_1 _let_61) (tptp.hold_together_1 _let_60) (tptp.hold_together_1 _let_59) (tptp.chemical_bond_1 _let_58) (tptp.polar_covalent_bond_1 _let_57) (tptp.entity_1 _let_56) (tptp.entity_1 _let_55) (tptp.entity_1 _let_53) (tptp.carbon_1 _let_51) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.carbon_1 _let_48) (tptp.property_node_1 _let_46) (tptp.valence_electron_1 _let_44) (tptp.electron_1 _let_43) (tptp.valence_electron_1 _let_43) (tptp.valence_electron_1 _let_41) (tptp.share_1 _let_39) (tptp.electronegativity_value_1 _let_37) (tptp.electronegativity_value_1 _let_35) (tptp.entity_1 _let_33) (tptp.entity_1 _let_32) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.carbon_1 _let_30) (tptp.double_bond_1 _let_28) (tptp.entity_1 _let_26) (tptp.entity_1 _let_25) (tptp.oxygen_1 _let_22) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.entity_1 _let_15) (tptp.molecule_1 _let_13) (tptp.proton_1 _let_10) (tptp.center_1 _let_8) (tptp.atomic_nucleus_1 _let_6) (tptp.unequal_sharing_1 _let_4) (tptp.hold_together_1 _let_2) (tptp.has_part_2 X _let_47) (tptp.has_part_2 X _let_109) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.monosaccharide_0) (tptp.has_function_2 X _let_14) (tptp.solubility_in_water_2 X _let_111) (tptp.possesses_2 X _let_114) (tptp.the_scalar_value_2 _let_111 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_111 tptp.carbohydrate_0) (not (= _let_107 _let_97)) (not (= _let_97 _let_107)) (tptp.agent_2 _let_31 _let_83) (tptp.agent_2 _let_54 _let_95) (tptp.agent_2 _let_24 _let_78) (tptp.agent_2 _let_52 _let_95) (tptp.site_2 _let_14 _let_93) (tptp.agent_2 _let_14 X) (tptp.raw_material_2 _let_12 _let_109) (not (= _let_109 _let_47)) (tptp.raw_material_2 _let_12 _let_47) (tptp.result_2 _let_12 X) (not (= _let_47 _let_109)) (tptp.object_2 _let_31 _let_92) (tptp.result_2 _let_31 _let_38) (tptp.object_2 _let_31 _let_106) (tptp.has_part_2 _let_47 _let_107) (tptp.agent_2 _let_24 _let_76) (tptp.has_part_2 _let_76 _let_72) (tptp.object_2 _let_24 _let_72) (tptp.result_2 _let_24 _let_1) (tptp.agent_2 _let_31 _let_77) (tptp.agent_2 _let_103 _let_95) (tptp.agent_2 _let_103 _let_107) (tptp.is_between_2 _let_49 _let_107) (tptp.is_between_2 _let_49 _let_95) (tptp.object_2 _let_102 _let_95) (tptp.object_2 _let_102 _let_107) (not (= _let_107 _let_95)) (not (= _let_95 _let_107)) (tptp.agent_2 _let_105 _let_38) (tptp.object_2 _let_105 _let_77) (tptp.is_inside_2 _let_83 _let_21) (tptp.is_between_2 _let_38 _let_83) (tptp.has_function_2 _let_38 _let_105) (tptp.object_2 _let_105 _let_83) (tptp.has_part_2 _let_83 _let_106) (tptp.agent_2 _let_54 _let_97) (tptp.object_2 _let_52 _let_101) (tptp.object_2 _let_54 _let_101) (tptp.object_2 _let_54 _let_99) (tptp.object_2 _let_52 _let_99) (tptp.possesses_2 _let_47 _let_49) (tptp.has_function_2 _let_49 _let_102) (tptp.agent_2 _let_102 _let_49) (tptp.result_2 _let_103 _let_49) (tptp.has_part_2 _let_47 _let_95) (not (= _let_95 _let_97)) (tptp.has_part_2 _let_97 _let_99) (not (= _let_97 _let_95)) (not (= _let_101 _let_99)) (not (= _let_99 _let_101)) (tptp.has_part_2 _let_76 _let_75) (tptp.the_cardinal_value_2 _let_85 |"2.1"|) (tptp.cardinal_unit_class_2 _let_85 tptp.unity_0) (tptp.has_region_2 _let_76 _let_89) (tptp.has_region_2 _let_76 _let_74) (tptp.has_region_2 _let_76 _let_73) (tptp.is_between_2 _let_1 _let_78) (tptp.has_region_2 X _let_93) (tptp.is_between_2 _let_1 _let_76) (tptp.electronegativity_2 _let_76 _let_86) (tptp.the_cardinal_value_2 _let_86 |"3.44"|) (tptp.cardinal_unit_class_2 _let_86 tptp.unity_0) (tptp.possesses_2 X _let_1) (tptp.result_2 _let_31 _let_1) (tptp.object_2 _let_31 _let_91) (not (= _let_92 _let_91)) (not (= _let_91 _let_92)) (tptp.is_inside_2 _let_76 _let_87) (not (= _let_76 _let_83)) (not (= _let_83 _let_77)) (tptp.has_part_2 _let_77 _let_90) (tptp.object_2 _let_31 _let_90) (not (= _let_83 _let_76)) (not (= _let_77 _let_83)) (tptp.has_part_2 X _let_77) (tptp.has_region_2 X _let_87) (tptp.is_inside_2 _let_78 _let_87) (tptp.has_region_2 _let_78 _let_88) (not (= _let_88 _let_89)) (not (= _let_89 _let_88)) (tptp.object_2 _let_70 _let_76) (tptp.object_2 _let_70 _let_78) (tptp.electronegativity_2 _let_78 _let_85) (not (= _let_86 _let_85)) (not (= _let_85 _let_86)) (tptp.is_between_2 _let_38 _let_77) (tptp.possesses_2 X _let_38) (tptp.has_part_2 X _let_83) (tptp.is_inside_2 _let_83 _let_84) (tptp.has_region_2 X _let_84) (tptp.object_2 _let_79 X) (tptp.speed_2 _let_79 _let_80) (tptp.directly_proportional_2 _let_80 _let_81) (tptp.quantity_2 _let_82 _let_81) (tptp.possesses_2 X _let_82) (tptp.agent_2 _let_71 _let_76) (tptp.agent_2 _let_71 _let_78) (not (= _let_78 _let_76)) (not (= _let_77 _let_78)) (not (= _let_78 _let_77)) (not (= _let_76 _let_78)) (tptp.has_part_2 X _let_76) (not (= _let_76 _let_77)) (tptp.is_inside_2 _let_77 _let_21) (tptp.has_region_2 X _let_21) (tptp.has_part_2 X _let_78) (not (= _let_77 _let_76)) (tptp.is_inside_2 _let_75 _let_73) (tptp.is_at_2 _let_73 _let_74) (tptp.has_function_2 _let_1 _let_70) (tptp.agent_2 _let_70 _let_1) (tptp.result_2 _let_71 _let_1) (tptp.object_2 _let_71 _let_72) (tptp.is_near_2 _let_72 _let_73) (tptp.is_near_2 _let_73 _let_72) (= _let_83 _let_33) (= _let_83 _let_32) (= _let_95 _let_56) (= _let_95 _let_55) (= _let_78 _let_26) (= _let_78 _let_25) (= _let_95 _let_53) (= _let_14 _let_113) (= (tptp.fn_disaccharide_15 X) _let_112) (= X _let_15) (= X _let_16) (= X _let_13) (= _let_47 _let_110) (= _let_109 _let_108) (= _let_92 _let_44) (= _let_106 _let_66) (= _let_31 _let_39) (= _let_24 _let_4) (= _let_107 _let_69) (= _let_107 _let_68) (= _let_95 _let_51) (= _let_107 _let_67) (= _let_95 _let_50) (= _let_77 _let_22) (= _let_106 _let_65) (= _let_105 _let_104) (= _let_38 _let_28) (= _let_83 _let_30) (= _let_52 _let_64) (= _let_52 _let_63) (= _let_54 _let_61) (= _let_103 _let_62) (= _let_103 _let_61) (= _let_102 _let_60) (= _let_102 _let_59) (= _let_49 _let_58) (= _let_49 _let_57) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_48) (= _let_75 _let_11) (= (tptp.fn_disaccharide_49 X) (tptp.fn_carbohydrate_43 X)) (= _let_74 _let_9) (= (tptp.fn_disaccharide_50 X) (tptp.fn_carbohydrate_42 X)) (= _let_73 _let_7) (= _let_94 _let_46) (= _let_94 _let_45) (= (tptp.fn_disaccharide_52 X) (tptp.fn_carbohydrate_44 X)) (= _let_93 (tptp.fn_carbohydrate_2 X)) (= _let_76 _let_19) (= _let_92 _let_43) (= _let_92 _let_42) (= _let_31 _let_4) (= _let_91 _let_41) (= _let_91 _let_40) (= _let_1 (tptp.fn_carbohydrate_36 X)) (= _let_31 _let_5) (= _let_90 _let_42) (= _let_77 _let_17) (= _let_89 (tptp.fn_carbohydrate_24 X)) (= _let_88 (tptp.fn_carbohydrate_28 X)) (= _let_87 (tptp.fn_carbohydrate_33 X)) (= _let_85 _let_35) (= _let_86 _let_37) (= _let_86 _let_36) (= _let_85 _let_34) (= _let_70 _let_3) (= _let_84 (tptp.fn_carbohydrate_6 X)) (= _let_83 _let_29) (= _let_38 _let_27) (= _let_82 (tptp.fn_carbohydrate_7 X)) (= _let_81 (tptp.fn_carbohydrate_10 X)) (= _let_80 (tptp.fn_carbohydrate_9 X)) (= _let_79 (tptp.fn_carbohydrate_8 X)) (= _let_71 _let_5) (= _let_78 _let_23) (= _let_21 (tptp.fn_carbohydrate_34 X)) (= _let_76 _let_18) (= _let_77 _let_19) (= _let_77 _let_20) (= _let_76 _let_17) (= _let_75 _let_10) (= _let_74 _let_8) (= _let_73 _let_6) (= _let_72 _let_43) (= _let_71 _let_4) (= _let_70 _let_2) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_57 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_4) (= _let_4 _let_5) (= _let_5 _let_37) (= _let_36 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_19) (= _let_22 _let_19) (= _let_19 _let_22) (= _let_22 _let_17) (= _let_17 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.disappear_1 X) (and (tptp.original_name_2 X |tptp.'Disappear'|) (tptp.user_description_2 X |tptp.'To become invisible or unnoticeable.'|) (tptp.concept2words_2 X tptp.disappear) (tptp.alter_1 X)))) (forall ((X $$unsorted)) (=> (tptp.discourse_1 X) (and (tptp.original_name_2 X |tptp.'Discourse'|) (tptp.description_2 X |tptp.'a communicative exchange'|) (tptp.concept2words_2 X tptp.discourse) (tptp.activity_1 X) (not (tptp.session_1 X)) (not (tptp.discussion_1 X))))) (forall ((X $$unsorted)) (=> (tptp.discovery_1 X) (and (tptp.original_name_2 X |tptp.'Discovery'|) (tptp.concept2words_2 X tptp.discover) (tptp.concept2words_2 X tptp.discovery) (tptp.concept2words_2 X tptp.find) (tptp.concept2words_2 X tptp.uncovering) (tptp.action_1 X)))) (forall ((X $$unsorted)) (=> (tptp.discovery_science_1 X) (and (tptp.original_name_2 X |tptp.'Discovery-Science'|) (tptp.user_description_2 X |tptp.'The process of scientific inquiry that focuses on describing nature.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'science of discovery'|) (tptp.concept2words_2 X |tptp.'discovery science'|) (tptp.concept2words_2 X |tptp.'discovery-science'|) (tptp.science_as_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.discrete_character_1 X) (and (tptp.original_name_2 X |tptp.'Discrete-Character'|) (tptp.user_description_2 X |tptp.'A trait that can be classified on an either-or basis, usually because it is determined by a single gene locus with different alleles that affect distinct phenotypes.'|) (tptp.concept2words_2 X |tptp.'discrete character'|) (tptp.concept2words_2 X |tptp.'discrete-character'|) (tptp.character_1 X)))) (forall ((X $$unsorted)) (=> (tptp.discussion_1 X) (and (tptp.original_name_2 X |tptp.'Discussion'|) (tptp.description_2 X |tptp.'a discourse between two or more conversants with free-flowing dialog on a particular topic or topics'|) (tptp.concept2words_2 X tptp.discussion) (tptp.concept2words_2 X tptp.treatment) (tptp.concept2words_2 X tptp.discourse) (tptp.concept2words_2 X |tptp.'give and take'|) (tptp.concept2words_2 X |tptp.'give-and-take'|) (tptp.concept2words_2 X tptp.word) (tptp.concept2words_2 X tptp.discuss) (tptp.activity_1 X) (not (tptp.session_1 X)) (not (tptp.discourse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.disease_1 X) (and (tptp.original_name_2 X |tptp.'Disease'|) (tptp.user_description_2 X |tptp.'An abnormal condition that causes improper function in the body of an organism.'|) (tptp.concept2words_2 X tptp.disorder) (tptp.concept2words_2 X tptp.illness) (tptp.concept2words_2 X tptp.disease) (tptp.intangible_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.disease_process_1 X) (and (tptp.original_name_2 X |tptp.'Disease-Process'|) (tptp.user_description_2 X |tptp.'Process related to the progression of a disease.'|) (tptp.concept2words_2 X |tptp.'process of disease'|) (tptp.concept2words_2 X |tptp.'disease process'|) (tptp.concept2words_2 X |tptp.'disease-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dispersal_1 X) (and (tptp.original_name_2 X |tptp.'Dispersal'|) (tptp.user_description_2 X |tptp.'Movement of individuals or gametes away from their parental population. Dispersal allows individuals to colonize new areas and can result in expanded geographic ranges.'|) (tptp.concept2words_2 X tptp.disperse) (tptp.concept2words_2 X tptp.dispersal) (tptp.dispersion_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_disperse_1 X))) (let ((_let_2 (tptp.fn_disperse_2 X))) (let ((_let_3 (tptp.fn_disperse_3 X))) (=> (tptp.disperse_1 X) (and (tptp.original_name_2 X |tptp.'Disperse'|) (tptp.concept2words_2 X tptp.disperse) (tptp.concept2words_2 X |tptp.'break up'|) (tptp.concept2words_2 X tptp.break_up) (tptp.concept2words_2 X tptp.dispel) (tptp.concept2words_2 X tptp.dissipate) (tptp.concept2words_2 X tptp.scatter) (tptp.concept2words_2 X |tptp.'spread out'|) (tptp.concept2words_2 X tptp.spread_out) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_3) (tptp.origin_2 X _let_3) (tptp.object_2 X _let_2) (tptp.object_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.dispersion_1 X) (and (tptp.original_name_2 X |tptp.'Dispersion'|) (tptp.user_description_2 X |tptp.'The pattern of distribution of individuals within a defined geographic space.'|) (tptp.concept2words_2 X tptp.disperse) (tptp.concept2words_2 X tptp.dispersion) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dispersive_model_3 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_dispersive_model_5 X))) (let ((_let_4 (tptp.fn_attach_1 _let_1))) (let ((_let_5 (tptp.fn_dispersive_model_4 X))) (let ((_let_6 (tptp.fn_dispersive_model_2 X))) (let ((_let_7 (tptp.fn_dispersive_model_1 X))) (=> (tptp.dispersive_model_1 X) (and (tptp.original_name_2 X |tptp.'Dispersive-model'|) (tptp.user_description_2 X |tptp.'Dispersive replication would produce two DNA molecules with sections of both old and new DNA interspersed along each strand'|) (tptp.concept2words_2 X |tptp.'dispersive model'|) (tptp.concept2words_2 X |tptp.'dispersive-model'|) (tptp.dna_replication_1 X) (tptp.dna_strand_1 _let_7) (tptp.synthesis_reaction_1 _let_6) (tptp.attach_1 _let_1) (tptp.dna_piece_1 _let_5) (tptp.dna_piece_1 _let_3) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_6) (tptp.first_subevent_2 X _let_6) (tptp.result_2 _let_1 _let_7) (tptp.next_event_2 _let_6 _let_1) (tptp.result_2 _let_6 _let_5) (tptp.object_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.disruptive_selection_1 X) (and (tptp.original_name_2 X |tptp.'Disruptive-Selection'|) (tptp.user_description_2 X |tptp.'Natural selection in which individuals with intermediate phenotypes are selected against. As a result, individuals on both extremes of a phenotypic range are favored.'|) (tptp.concept2words_2 X |tptp.'disruptive selection'|) (tptp.concept2words_2 X |tptp.'disruptive-selection'|) (tptp.selection_force_1 X) (not (tptp.balancing_selection_1 X)) (not (tptp.directional_selection_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dissolution_of_salt_molecule_in_water_7 X))) (let ((_let_2 (tptp.fn_salt_solution_2 _let_1))) (let ((_let_3 (tptp.fn_dissolve_4 X))) (let ((_let_4 (tptp.fn_solution_5 _let_1))) (let ((_let_5 (tptp.fn_dissolve_5 X))) (let ((_let_6 (tptp.fn_solution_6 _let_1))) (let ((_let_7 (tptp.fn_dissolve_1 X))) (let ((_let_8 (tptp.fn_dissolution_of_salt_molecule_in_water_6 X))) (let ((_let_9 (tptp.fn_dissolution_of_salt_molecule_in_water_3 X))) (let ((_let_10 (tptp.fn_dissolution_of_salt_molecule_in_water_5 X))) (let ((_let_11 (tptp.fn_dissolution_of_salt_molecule_in_water_4 X))) (let ((_let_12 (tptp.fn_dissolution_of_salt_molecule_in_water_2 X))) (let ((_let_13 (tptp.fn_dissolution_of_salt_molecule_in_water_1 X))) (=> (tptp.dissolution_of_salt_molecule_in_water_1 X) (and (tptp.original_name_2 X |tptp.'Dissolution-Of-Salt-Molecule-In-Water'|) (tptp.user_description_2 X |tptp.'Dissolving an ionic compound (salt). The component ions of the compound separate in solution to form ions.'|) (tptp.concept2words_2 X |tptp.'dissolving of salt in water'|) (tptp.concept2words_2 X tptp.dissolve) (tptp.concept2words_2 X |tptp.'dissolution of salt molecule in water'|) (tptp.concept2words_2 X |tptp.'dissolution-of-salt-molecule-in-water'|) (tptp.dissolve_1 X) (tptp.spatial_entity_1 _let_13) (tptp.surface_1 _let_12) (tptp.solute_1 _let_9) (tptp.solvent_1 _let_11) (tptp.water_1 _let_10) (tptp.chemical_1 _let_8) (tptp.substance_1 _let_8) (tptp.salt_substance_1 _let_8) (tptp.solution_1 _let_1) (tptp.salt_solution_1 _let_1) (tptp.chemical_1 _let_6) (tptp.chemical_1 _let_4) (tptp.salt_substance_1 _let_2) (tptp.is_inside_2 _let_13 _let_8) (tptp.origin_2 X _let_12) (tptp.toward_2 X _let_13) (tptp.has_region_2 _let_8 _let_12) (tptp.has_part_2 _let_1 _let_10) (tptp.result_2 X _let_1) (tptp.has_solvent_2 _let_1 _let_10) (not (= _let_10 _let_8)) (not (= _let_8 _let_10)) (tptp.in_event_2 _let_11 X) (tptp.object_2 X _let_8) (tptp.plays_2 _let_8 _let_9) (tptp.in_event_2 _let_9 X) (tptp.base_2 X _let_10) (tptp.plays_2 _let_10 _let_11) (tptp.has_part_2 _let_1 _let_8) (tptp.has_solute_2 _let_1 _let_8) (= _let_10 _let_7) (= _let_1 (tptp.fn_dissolve_3 X)) (= _let_10 _let_6) (= _let_11 (tptp.fn_dissolve_6 X)) (= _let_10 _let_5) (= _let_9 (tptp.fn_dissolve_7 X)) (= _let_8 _let_3) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dissolve_4 X))) (let ((_let_2 (tptp.fn_dissolution_of_sugar_molecule_in_water_4 X))) (let ((_let_3 (tptp.fn_solution_5 _let_2))) (let ((_let_4 (tptp.fn_dissolve_5 X))) (let ((_let_5 (tptp.fn_solution_6 _let_2))) (let ((_let_6 (tptp.fn_dissolution_of_sugar_molecule_in_water_3 X))) (let ((_let_7 (tptp.fn_dissolution_of_sugar_molecule_in_water_2 X))) (let ((_let_8 (tptp.fn_dissolution_of_sugar_molecule_in_water_5 X))) (let ((_let_9 (tptp.fn_dissolution_of_sugar_molecule_in_water_1 X))) (=> (tptp.dissolution_of_sugar_molecule_in_water_1 X) (and (tptp.original_name_2 X |tptp.'Dissolution-Of-Sugar-Molecule-In-Water'|) (tptp.user_description_2 X |tptp.'The dissolving of sugar molecules.'|) (tptp.concept2words_2 X |tptp.'dissolving of sugar in water'|) (tptp.concept2words_2 X tptp.dissolve) (tptp.concept2words_2 X |tptp.'dissolution of sugar molecule in water'|) (tptp.concept2words_2 X |tptp.'dissolution-of-sugar-molecule-in-water'|) (tptp.dissolve_1 X) (tptp.solvent_1 _let_9) (tptp.solute_1 _let_7) (tptp.sugar_substance_1 _let_6) (tptp.sugar_solution_1 _let_2) (tptp.water_1 _let_8) (tptp.chemical_1 _let_5) (tptp.chemical_1 _let_3) (tptp.is_inside_2 _let_6 _let_8) (tptp.result_2 X _let_2) (tptp.has_solute_2 _let_2 _let_6) (tptp.has_part_2 _let_2 _let_8) (tptp.has_solvent_2 _let_2 _let_8) (tptp.has_part_2 _let_2 _let_6) (not (= _let_6 _let_8)) (not (= _let_8 _let_6)) (tptp.in_event_2 _let_9 X) (tptp.object_2 X _let_6) (tptp.plays_2 _let_6 _let_7) (tptp.in_event_2 _let_7 X) (tptp.base_2 X _let_8) (tptp.plays_2 _let_8 _let_9) (= _let_2 (tptp.fn_dissolve_3 X)) (= _let_6 _let_3) (= _let_8 _let_5) (= _let_9 (tptp.fn_dissolve_6 X)) (= _let_8 _let_4) (= _let_7 (tptp.fn_dissolve_7 X)) (= _let_6 _let_1) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dissolve_7 X))) (let ((_let_2 (tptp.fn_solute_1 _let_1))) (let ((_let_3 (tptp.fn_dissolve_4 X))) (let ((_let_4 (tptp.fn_dissolve_6 X))) (let ((_let_5 (tptp.fn_solvent_1 _let_4))) (let ((_let_6 (tptp.fn_dissolve_5 X))) (let ((_let_7 (tptp.fn_dissolve_3 X))) (let ((_let_8 (tptp.fn_dissolve_1 X))) (let ((_let_9 (tptp.fn_dissolve_2 X))) (=> (tptp.dissolve_1 X) (and (tptp.original_name_2 X |tptp.'Dissolve'|) (tptp.user_description_2 X |tptp.'A dissolve event creates a solution from two substances.'|) (tptp.concept2words_2 X tptp.dissolve) (tptp.create_1 X) (tptp.substance_1 _let_8) (tptp.substance_1 _let_9) (tptp.solution_1 _let_7) (tptp.substance_1 _let_3) (tptp.substance_1 _let_6) (tptp.solvent_1 _let_4) (tptp.solute_1 _let_1) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.has_solute_2 _let_7 _let_9) (tptp.has_solvent_2 _let_7 _let_8) (tptp.in_event_2 _let_4 X) (tptp.in_event_2 _let_1 X) (tptp.object_2 X _let_3) (tptp.base_2 X _let_6) (tptp.result_2 X _let_7) (tptp.plays_2 _let_6 _let_4) (tptp.plays_2 _let_3 _let_1) (= _let_7 (tptp.fn_create_1 X)) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.distal_1 X) (and (tptp.original_name_2 X |tptp.'Distal'|) (tptp.user_description_2 X |tptp.'Region of appendages farthest away from the trunk or core of the body. Opposite of proximal.'|) (tptp.concept2words_2 X tptp.distal) (tptp.anatomical_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.distal_tubule_1 X) (and (tptp.original_name_2 X |tptp.'Distal-Tubule'|) (tptp.user_description_2 X |tptp.'The portion of a nephron between the loop of Henle and the collecting duct.'|) (tptp.concept2words_2 X tptp.dct) (tptp.concept2words_2 X |tptp.'distal convoluted tubule'|) (tptp.concept2words_2 X |tptp.'distal-convoluted-tubule'|) (tptp.concept2words_2 X |tptp.'tubule of distal'|) (tptp.concept2words_2 X |tptp.'distal tubule'|) (tptp.concept2words_2 X |tptp.'distal-tubule'|) (tptp.tubule_1 X) (tptp.cuboidal_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.distance_between_genes_1 X) (and (tptp.original_name_2 X |tptp.'Distance-Between-Genes'|) (tptp.user_description_2 X |tptp.'Relative distance between genes.'|) (tptp.concept2words_2 X |tptp.'distance between gene'|) (tptp.concept2words_2 X |tptp.'distance-between-gene'|) (tptp.relative_relationship_1 X) (not (tptp.tangible_entity_1 X)) (not (tptp.region_1 X)) (not (tptp.band_pattern_1 X)) (not (tptp.chiasma_1 X)) (not (tptp.nicks_in_damaged_dna_1 X)) (not (tptp.replication_fork_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.waste_product_1 X))))) (forall ((X $$unsorted)) (=> (tptp.distance_constant_1 X) (and (tptp.original_name_2 X |tptp.'Distance-Constant'|) (tptp.concept2words_2 X |tptp.'constant of distance'|) (tptp.concept2words_2 X |tptp.'distance constant'|) (tptp.concept2words_2 X |tptp.'distance-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.distance_scale_1 X) (and (tptp.original_name_2 X |tptp.'Distance-Scale'|) (tptp.concept2words_2 X |tptp.'scale of distance'|) (tptp.concept2words_2 X |tptp.'distance scale'|) (tptp.concept2words_2 X |tptp.'distance-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.distilled_water_1 X) (and (tptp.original_name_2 X |tptp.'Distilled-Water'|) (tptp.user_description_2 X |tptp.'Water that is been boiled to steam and condensed into a clean container to remove impurities.'|) (tptp.concept2words_2 X |tptp.'distilled water'|) (tptp.concept2words_2 X |tptp.'distilled-water'|) (tptp.water_1 X)))) (forall ((X $$unsorted)) (=> (tptp.distinguishing_1 X) (and (tptp.original_name_2 X |tptp.'Distinguishing'|) (tptp.user_description_2 X |tptp.'Determine the difference between things, in order to recognize, identify, or classify them'|) (tptp.concept2words_2 X tptp.distinguish) (tptp.concept2words_2 X tptp.differentiate) (tptp.concept2words_2 X tptp.mark) (tptp.concept2words_2 X tptp.identify) (tptp.concept2words_2 X tptp.distinction) (tptp.concept2words_2 X tptp.differentiation) (tptp.concept2words_2 X tptp.distinguishing) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_distinguishing_defective_chromosome_1 X))) (let ((_let_2 (tptp.fn_distinguishing_defective_chromosome_2 X))) (let ((_let_3 (tptp.fn_distinguishing_defective_chromosome_3 X))) (=> (tptp.distinguishing_defective_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Distinguishing-Defective-Chromosome'|) (tptp.user_description_2 X |tptp.'An act to identify defective chromosome by means of karyotyping.'|) (tptp.concept2words_2 X tptp.distinguish) (tptp.concept2words_2 X |tptp.'distinguishing defective chromosome'|) (tptp.concept2words_2 X |tptp.'distinguishing-defective-chromosome'|) (tptp.distinguishing_1 X) (not (tptp.codon_recognition_1 X)) (not (tptp.compare_genes_1 X)) (not (tptp.dna_proofreading_1 X)) (not (tptp.identify_cell_by_protein_expression_1 X)) (not (tptp.identify_cell_clones_with_gene_of_interest_1 X)) (tptp.defective_chromosome_1 _let_1) (tptp.chromosome_1 _let_2) (tptp.karyotyping_1 _let_3) (tptp.by_means_of_2 X _let_3) (tptp.base_2 X _let_2) (tptp.minCardinality X tptp.base_0 |"2"| tptp.chromosome_0) (tptp.object_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.distributing_1 X) (and (tptp.original_name_2 X |tptp.'Distributing'|) (tptp.concept2words_2 X tptp.distribute) (tptp.concept2words_2 X tptp.spread) (tptp.concept2words_2 X tptp.distribution) (tptp.concept2words_2 X tptp.dispersion) (tptp.concept2words_2 X tptp.distributing) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_distribution_of_daughter_chromosomes_12 X))) (let ((_let_2 (tptp.fn_kinetochore_25 _let_1))) (let ((_let_3 (tptp.fn_distribution_of_daughter_chromosomes_22 X))) (let ((_let_4 (tptp.fn_move_apart_1 _let_3))) (let ((_let_5 (tptp.fn_distribution_of_daughter_chromosomes_18 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_distribution_of_daughter_chromosomes_15 X))) (let ((_let_8 (tptp.fn_kinetochore_25 _let_7))) (let ((_let_9 (tptp.fn_move_apart_2 _let_3))) (let ((_let_10 (tptp.fn_distribution_of_daughter_chromosomes_19 X))) (let ((_let_11 (tptp.fn_move_1 _let_10))) (let ((_let_12 (tptp.fn_distribution_of_daughter_chromosomes_5 X))) (let ((_let_13 (tptp.fn_microtubule_shortening_2 _let_12))) (let ((_let_14 (tptp.fn_distribution_of_daughter_chromosomes_16 X))) (let ((_let_15 (tptp.fn_attach_1 _let_14))) (let ((_let_16 (tptp.fn_distribution_of_daughter_chromosomes_4 X))) (let ((_let_17 (tptp.fn_microtubule_shortening_2 _let_16))) (let ((_let_18 (tptp.fn_distribution_of_daughter_chromosomes_11 X))) (let ((_let_19 (tptp.fn_attach_1 _let_18))) (let ((_let_20 (tptp.fn_distribution_of_daughter_chromosomes_20 X))) (let ((_let_21 (tptp.fn_kinetochore_24 _let_1))) (let ((_let_22 (tptp.fn_distribution_of_daughter_chromosomes_13 X))) (let ((_let_23 (tptp.fn_distribution_of_daughter_chromosomes_21 X))) (let ((_let_24 (tptp.fn_kinetochore_24 _let_7))) (let ((_let_25 (tptp.fn_distribution_of_daughter_chromosomes_14 X))) (let ((_let_26 (tptp.fn_microtubule_shortening_4 _let_12))) (let ((_let_27 (tptp.fn_distribution_of_daughter_chromosomes_7 X))) (let ((_let_28 (tptp.fn_microtubule_shortening_3 _let_12))) (let ((_let_29 (tptp.fn_distribution_of_daughter_chromosomes_17 X))) (let ((_let_30 (tptp.fn_distribution_of_daughter_chromosomes_6 X))) (let ((_let_31 (tptp.fn_microtubule_shortening_4 _let_16))) (let ((_let_32 (tptp.fn_distribution_of_daughter_chromosomes_9 X))) (let ((_let_33 (tptp.fn_microtubule_shortening_3 _let_16))) (let ((_let_34 (tptp.fn_distribution_of_daughter_chromosomes_10 X))) (let ((_let_35 (tptp.fn_distribution_of_daughter_chromosomes_8 X))) (let ((_let_36 (tptp.fn_distribution_of_daughter_chromosomes_2 X))) (let ((_let_37 (tptp.fn_cell_1 _let_36))) (let ((_let_38 (tptp.fn_distribution_of_daughter_chromosomes_3 X))) (let ((_let_39 (tptp.fn_attach_2 _let_18))) (let ((_let_40 (tptp.fn_attach_2 _let_14))) (let ((_let_41 (tptp.fn_distribution_of_daughter_chromosomes_1 X))) (=> (tptp.distribution_of_daughter_chromosomes_1 X) (and (tptp.original_name_2 X |tptp.'Distribution-Of-Daughter-Chromosomes'|) (tptp.user_description_2 X |tptp.'During mitosis, the process in which microtubule shortening in the spindle moves each complete set of chromosomes to opposite cell poles prior to cytokinesis.'|) (tptp.concept2words_2 X |tptp.'distribution of daughter chromosome'|) (tptp.concept2words_2 X |tptp.'distribution-of-daughter-chromosome'|) (tptp.mitotic_event_1 X) (tptp.cell_pole_1 _let_41) (tptp.cell_1 _let_36) (tptp.cell_pole_1 _let_38) (tptp.microtubule_shortening_1 _let_16) (tptp.microtubule_shortening_1 _let_12) (tptp.kinetochore_microtubule_1 _let_30) (tptp.remove_1 _let_27) (tptp.kinetochore_microtubule_1 _let_35) (tptp.remove_1 _let_32) (tptp.spatial_entity_1 _let_34) (tptp.tubulin_1 _let_34) (tptp.attach_1 _let_18) (tptp.spatial_entity_1 _let_1) (tptp.kinetochore_1 _let_1) (tptp.centromere_1 _let_22) (tptp.centromere_1 _let_25) (tptp.spatial_entity_1 _let_7) (tptp.kinetochore_1 _let_7) (tptp.attach_1 _let_14) (tptp.spatial_entity_1 _let_29) (tptp.tubulin_1 _let_29) (tptp.move_1 _let_5) (tptp.move_1 _let_10) (tptp.eukaryotic_chromosome_1 _let_20) (tptp.eukaryotic_chromosome_1 _let_23) (tptp.move_apart_1 _let_3) (tptp.spatial_entity_1 _let_40) (tptp.spatial_entity_1 _let_39) (tptp.cell_pole_1 _let_37) (tptp.spatial_entity_1 _let_33) (tptp.tubulin_1 _let_33) (tptp.remove_1 _let_31) (tptp.spatial_entity_1 _let_28) (tptp.tubulin_1 _let_28) (tptp.remove_1 _let_26) (tptp.centromere_1 _let_24) (tptp.centromere_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.microtubule_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.microtubule_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.chromosome_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.chromosome_1 _let_2) (tptp.has_region_2 _let_36 _let_41) (tptp.first_subevent_2 _let_3 _let_10) (tptp.first_subevent_2 _let_3 _let_5) (tptp.subevent_2 _let_3 _let_10) (tptp.subevent_2 _let_3 _let_5) (tptp.destination_2 _let_10 _let_38) (tptp.destination_2 _let_5 _let_41) (tptp.first_subevent_2 X _let_12) (tptp.first_subevent_2 X _let_16) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_16) (tptp.site_2 _let_14 _let_25) (tptp.site_2 _let_18 _let_22) (tptp.called_2 _let_12 |"2"|) (tptp.enables_2 _let_12 _let_3) (tptp.called_2 _let_16 |"1"|) (tptp.enables_2 _let_16 _let_3) (tptp.base_2 _let_14 _let_7) (tptp.base_2 _let_18 _let_1) (tptp.object_2 _let_5 _let_20) (tptp.object_2 _let_14 _let_30) (tptp.object_2 _let_10 _let_23) (tptp.object_2 _let_18 _let_35) (tptp.object_2 _let_3 _let_23) (tptp.object_2 _let_3 _let_20) (tptp.object_2 _let_12 _let_30) (tptp.object_2 _let_16 _let_35) (tptp.has_region_2 _let_36 _let_38) (tptp.subevent_2 _let_16 _let_32) (tptp.object_2 _let_32 _let_34) (tptp.has_part_2 _let_35 _let_34) (tptp.base_2 _let_32 _let_35) (tptp.subevent_2 _let_12 _let_27) (tptp.object_2 _let_27 _let_29) (tptp.has_part_2 _let_30 _let_29) (tptp.base_2 _let_27 _let_30) (tptp.has_region_2 _let_20 _let_22) (tptp.has_part_2 _let_20 _let_1) (tptp.has_region_2 _let_23 _let_25) (tptp.has_part_2 _let_23 _let_7) (= _let_7 _let_40) (= _let_1 _let_39) (= _let_20 _let_6) (= _let_30 _let_15) (= _let_23 _let_11) (= _let_35 _let_19) (= _let_23 _let_9) (= _let_20 _let_4) (= _let_38 _let_37) (= _let_35 _let_17) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_13) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_8) (= _let_22 _let_21) (= _let_20 _let_2) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.disturbance_1 X) (and (tptp.original_name_2 X |tptp.'Disturbance'|) (tptp.user_description_2 X |tptp.'A temporary perturbation away from average environmental conditions that causes major change in the biological makeup of an ecosystem. Examples include fire, flood, and insect outbreaks.'|) (tptp.concept2words_2 X tptp.disturb) (tptp.concept2words_2 X tptp.disturbance) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_disulfide_bond_4 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_disulfide_bond_3 X))) (let ((_let_4 (tptp.fn_molecule_10 _let_3))) (let ((_let_5 (tptp.fn_polymer_1 _let_3))) (let ((_let_6 (tptp.fn_disulfide_bond_7 X))) (let ((_let_7 (tptp.fn_disulfide_bond_6 X))) (let ((_let_8 (tptp.fn_disulfide_bond_8 X))) (let ((_let_9 (tptp.fn_disulfide_bond_5 X))) (let ((_let_10 (tptp.fn_disulfide_bond_1 X))) (let ((_let_11 (tptp.fn_disulfide_bond_2 X))) (=> (tptp.disulfide_bond_1 X) (and (tptp.original_name_2 X |tptp.'Disulfide-Bond'|) (tptp.user_description_2 X |tptp.'The disulfide bond is a covalent bond, usually derived by the coupling of two thiol groups. The linkage is also called an SS-bond or disulfide bridge.'|) (tptp.concept2words_2 X |tptp.'disulfide bridge'|) (tptp.concept2words_2 X |tptp.'disulfide-bridge'|) (tptp.concept2words_2 X |tptp.'disulphide bond'|) (tptp.concept2words_2 X |tptp.'disulphide bridge'|) (tptp.concept2words_2 X |tptp.'disulphide-bridge'|) (tptp.concept2words_2 X |tptp.'disulfide bond'|) (tptp.concept2words_2 X |tptp.'disulfide-bond'|) (tptp.single_bond_1 X) (tptp.nonpolar_covalent_bond_1 X) (not (tptp.ester_linkage_1 X)) (not (tptp.hydrogen_bond_1 X)) (not (tptp.hydrophobic_interaction_1 X)) (not (tptp.ionic_bond_1 X)) (tptp.attach_1 _let_10) (tptp.protein_folding_1 _let_11) (tptp.protein_1 _let_3) (tptp.create_1 _let_1) (tptp.sulfur_1 _let_9) (tptp.sulfur_1 _let_7) (tptp.hold_together_1 _let_6) (tptp.share_1 _let_8) (tptp.covalent_bond_1 _let_5) (tptp.chemical_bond_1 _let_4) (tptp.entity_1 _let_2) (tptp.causes_2 _let_11 _let_1) (tptp.instrument_2 _let_10 X) (tptp.causes_2 _let_10 _let_1) (tptp.possesses_2 _let_3 X) (tptp.result_2 _let_1 X) (tptp.is_between_2 X _let_9) (not (= _let_9 _let_7)) (tptp.object_2 _let_6 _let_7) (tptp.object_2 _let_6 _let_9) (tptp.agent_2 _let_8 _let_9) (not (= _let_7 _let_9)) (tptp.has_function_2 X _let_6) (tptp.agent_2 _let_6 X) (tptp.is_between_2 X _let_7) (tptp.agent_2 _let_8 _let_7) (tptp.result_2 _let_8 X) (= X _let_5) (= X _let_4) (= X _let_2) (= _let_9 (tptp.fn_covalent_bond_20 X)) (= _let_8 (tptp.fn_covalent_bond_17 X)) (= _let_7 (tptp.fn_covalent_bond_19 X)) (= _let_6 (tptp.fn_covalent_bond_14 X)) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.diurnal_closing_of_stoma_1 X) (and (tptp.original_name_2 X |tptp.'Diurnal-Closing-of-Stoma'|) (tptp.user_description_2 X |tptp.'Stomata are openings in a plant_'s leaves that allow for gas exchange between the plant and the atmosphere. The plants close their stomata daily in response to light, carbon dioxide depletion, and an internal clock in guard cells.'|) (tptp.concept2words_2 X |tptp.'closing of stomata at night'|) (tptp.concept2words_2 X |tptp.'stoma closing at night'|) (tptp.concept2words_2 X |tptp.'stoma opening during day'|) (tptp.concept2words_2 X |tptp.'close diurnally'|) (tptp.concept2words_2 X |tptp.'diurnal closing of stoma'|) (tptp.concept2words_2 X |tptp.'diurnal-closing-of-stoma'|) (tptp.closing_of_stoma_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_let_fall_1 X))) (let ((_let_2 (tptp.fn_let_fall_3 X))) (let ((_let_3 (tptp.fn_dive_2 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_dive_1 X))) (=> (tptp.dive_1 X) (and (tptp.original_name_2 X |tptp.'Dive'|) (tptp.concept2words_2 X tptp.dive) (tptp.let_fall_1 X) (tptp.animal_1 _let_5) (tptp.propel_1 _let_3) (tptp.spatial_entity_1 _let_4) (tptp.causes_2 _let_3 X) (tptp.agent_2 _let_3 _let_5) (tptp.object_2 _let_3 _let_5) (tptp.object_2 X _let_5) (tptp.agent_2 X _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_5 _let_1) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.divide_1 X) (and (tptp.original_name_2 X |tptp.'Divide'|) (tptp.concept2words_2 X tptp.divide) (tptp.concept2words_2 X |tptp.'carve up'|) (tptp.concept2words_2 X tptp.carve_up) (tptp.concept2words_2 X tptp.dissever) (tptp.concept2words_2 X tptp.separate) (tptp.concept2words_2 X tptp.split) (tptp.concept2words_2 X |tptp.'split up'|) (tptp.concept2words_2 X tptp.split_up) (tptp.break_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dividing_eukaryotic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Dividing-Eukaryotic-Cell'|) (tptp.user_description_2 X |tptp.'A eukaryotic cell that is involved in the process of mitosis or meiosis.'|) (tptp.concept2words_2 X |tptp.'eukaryotic cell undergoing cell division'|) (tptp.concept2words_2 X |tptp.'eukaryotic-cell-undergoing-cell division'|) (tptp.concept2words_2 X |tptp.'dividing eukaryotic cell'|) (tptp.concept2words_2 X |tptp.'dividing-eukaryotic-cell'|) (tptp.eukaryotic_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_6 X))) (let ((_let_2 (tptp.fn_ester_linkage_28 _let_1))) (let ((_let_3 (tptp.fn_nucleic_acid_15 X))) (let ((_let_4 (tptp.fn_dna_13 X))) (let ((_let_5 (tptp.fn_nucleoside_6 _let_4))) (let ((_let_6 (tptp.fn_molecule_9 X))) (let ((_let_7 (tptp.fn_nucleic_acid_19 X))) (let ((_let_8 (tptp.fn_molecule_10 X))) (let ((_let_9 (tptp.fn_dna_14 X))) (let ((_let_10 (tptp.fn_molecule_10 _let_9))) (let ((_let_11 (tptp.fn_organic_molecule_1 _let_4))) (let ((_let_12 (tptp.fn_organic_molecule_2 _let_4))) (let ((_let_13 (tptp.fn_ester_linkage_27 _let_1))) (let ((_let_14 (tptp.fn_dna_7 X))) (let ((_let_15 (tptp.fn_ester_linkage_19 _let_1))) (let ((_let_16 (tptp.fn_dna_8 X))) (let ((_let_17 (tptp.fn_dna_9 X))) (let ((_let_18 (tptp.fn_dna_15 X))) (let ((_let_19 (tptp.fn_nucleoside_20 _let_4))) (let ((_let_20 (tptp.fn_dna_11 X))) (let ((_let_21 (tptp.fn_dna_strand_68 _let_20))) (let ((_let_22 (tptp.fn_dna_5 X))) (let ((_let_23 (tptp.fn_dna_strand_54 _let_20))) (let ((_let_24 (tptp.fn_dna_10 X))) (let ((_let_25 (tptp.fn_dna_12 X))) (let ((_let_26 (tptp.fn_dna_2 X))) (let ((_let_27 (tptp.fn_dna_3 X))) (let ((_let_28 (tptp.fn_dna_4 X))) (let ((_let_29 (tptp.fn_dna_1 X))) (=> (tptp.dna_1 X) (and (tptp.original_name_2 X |tptp.'DNA'|) (tptp.user_description_2 X |tptp.'The molecule that encodes genetic instructions for the development and function of living organisms. It takes the shape of a double-stranded helix, each strand consisting of a series of nucleotide monomers. The nucleotide monomers contain a deoxyribose sugar and one of four nitrogenous bases: adenine (A), guanine (G), cytosine (C), or thymine (T).'|) (tptp.concept2words_2 X |tptp.'deoxyribonucleic acid'|) (tptp.concept2words_2 X |tptp.'deoxy ribonucleic acid'|) (tptp.concept2words_2 X |tptp.'deoxy-ribonucleic acid'|) (tptp.concept2words_2 X |tptp.'dna molecule'|) (tptp.concept2words_2 X |tptp.'dna-molecule'|) (tptp.concept2words_2 X |tptp.'genetic material'|) (tptp.concept2words_2 X |tptp.'genetic-material'|) (tptp.concept2words_2 X |tptp.'dna double helix'|) (tptp.concept2words_2 X |tptp.'dna-double-helix'|) (tptp.concept2words_2 X |tptp.'double helical dna'|) (tptp.concept2words_2 X |tptp.'double-helical-dna'|) (tptp.concept2words_2 X |tptp.'deoxyribonucleic-acid'|) (tptp.concept2words_2 X tptp.dna) (tptp.nucleic_acid_1 X) (tptp.nucleotide_1 _let_29) (tptp.monomer_1 _let_29) (tptp.dna_strand_1 _let_26) (tptp.deoxyribonucleoside_monophosphate_1 _let_27) (tptp.deoxyribose_1 _let_28) (tptp.deoxyribonucleoside_monophosphate_1 _let_22) (tptp.ester_linkage_1 _let_1) (tptp.oxygen_1 _let_14) (tptp.hold_together_1 _let_16) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.carbon_1 _let_17) (tptp.deoxyribonucleoside_monophosphate_1 _let_24) (tptp.dna_strand_1 _let_20) (tptp.number_5_prime_carbon_1 _let_25) (tptp.nucleoside_1 _let_4) (tptp.deoxyribose_1 _let_9) (tptp.covalent_bond_1 _let_18) (tptp.chemical_bond_1 _let_18) (tptp.phosphodiester_bond_1 _let_18) (tptp.deoxyribonucleoside_monophosphate_1 _let_23) (tptp.deoxyribonucleoside_monophosphate_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.molecule_1 _let_19) (tptp.organic_molecule_1 _let_19) (tptp.pentose_1 _let_19) (tptp.hold_together_1 _let_15) (tptp.oxygen_1 _let_13) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.carbon_1 _let_11) (tptp.chemical_bond_1 _let_10) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (tptp.has_part_2 _let_20 _let_29) (tptp.has_part_2 _let_20 _let_28) (tptp.has_part_2 _let_20 _let_27) (not (= _let_20 _let_26)) (tptp.complement_2 _let_20 _let_26) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.dna_strand_0) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_20) (not (= _let_26 _let_20)) (tptp.complement_2 _let_26 _let_20) (tptp.possesses_2 _let_9 _let_18) (tptp.has_part_2 _let_4 _let_25) (tptp.has_part_2 _let_20 _let_24) (tptp.has_part_2 _let_20 _let_22) (tptp.has_part_2 _let_4 _let_9) (tptp.has_part_2 _let_9 _let_17) (tptp.is_between_2 _let_18 _let_17) (tptp.possesses_2 X _let_18) (tptp.element_2 _let_18 _let_1) (tptp.called_2 _let_1 |"2"|) (not (= _let_17 _let_14)) (not (= _let_14 _let_17)) (tptp.agent_2 _let_16 _let_1) (tptp.object_2 _let_16 _let_17) (tptp.is_between_2 _let_1 _let_17) (tptp.is_between_2 _let_1 _let_14) (tptp.has_function_2 _let_1 _let_16) (tptp.object_2 _let_16 _let_14) (= _let_18 _let_10) (= _let_25 _let_12) (= _let_25 _let_11) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_17 _let_5) (= _let_9 _let_19) (= _let_17 _let_6) (= _let_17 _let_3) (= _let_1 (tptp.fn_nucleic_acid_16 X)) (= _let_18 _let_8) (= _let_18 _let_7) (= _let_17 _let_2) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_binding_domain_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Binding-Domain'|) (tptp.user_description_2 X |tptp.'A part of a protein_'s three-dimensional structure that binds to DNA.'|) (tptp.concept2words_2 X |tptp.'dna binding domain'|) (tptp.concept2words_2 X |tptp.'dna-binding domain'|) (tptp.concept2words_2 X |tptp.'dna-binding-domain'|) (tptp.protein_domain_1 X) (not (tptp.variable_domain_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_breakdown_18 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_dna_breakdown_2 X))) (let ((_let_4 (tptp.fn_phosphate_group_5 _let_3))) (let ((_let_5 (tptp.fn_dna_breakdown_6 X))) (let ((_let_6 (tptp.fn_nucleotide_13 _let_5))) (let ((_let_7 (tptp.fn_dna_breakdown_7 X))) (let ((_let_8 (tptp.fn_hydrolysis_4 _let_7))) (let ((_let_9 (tptp.fn_dna_breakdown_10 X))) (let ((_let_10 (tptp.fn_hydroxyl_group_4 _let_9))) (let ((_let_11 (tptp.fn_phosphate_group_22 _let_3))) (let ((_let_12 (tptp.fn_nucleotide_10 _let_5))) (let ((_let_13 (tptp.fn_phosphate_group_41 _let_3))) (let ((_let_14 (tptp.fn_nucleotide_29 _let_5))) (let ((_let_15 (tptp.fn_phosphate_group_6 _let_3))) (let ((_let_16 (tptp.fn_nucleotide_30 _let_5))) (let ((_let_17 (tptp.fn_functional_group_1 _let_3))) (let ((_let_18 (tptp.fn_functional_group_1 _let_9))) (let ((_let_19 (tptp.fn_hydrolysis_9 _let_7))) (let ((_let_20 (tptp.fn_polymer_breakdown_2 X))) (let ((_let_21 (tptp.fn_exergonic_reaction_11 _let_7))) (let ((_let_22 (tptp.fn_decomposition_reaction_4 _let_7))) (let ((_let_23 (tptp.fn_hydrolysis_10 _let_7))) (let ((_let_24 (tptp.fn_exergonic_reaction_10 _let_7))) (let ((_let_25 (tptp.fn_hydrolysis_7 _let_7))) (let ((_let_26 (tptp.fn_hydrolysis_8 _let_7))) (let ((_let_27 (tptp.fn_hydrolysis_5 _let_7))) (let ((_let_28 (tptp.fn_hydroxyl_group_6 _let_9))) (let ((_let_29 (tptp.fn_hydrolysis_3 _let_7))) (let ((_let_30 (tptp.fn_hydrolysis_11 _let_7))) (let ((_let_31 (tptp.fn_reactant_3 _let_1))) (let ((_let_32 (tptp.fn_dna_breakdown_5 X))) (let ((_let_33 (tptp.fn_dna_breakdown_9 X))) (let ((_let_34 (tptp.fn_dna_breakdown_1 X))) (let ((_let_35 (tptp.fn_dna_breakdown_4 X))) (let ((_let_36 (tptp.fn_nucleotide_15 _let_5))) (let ((_let_37 (tptp.fn_nucleotide_9 _let_5))) (let ((_let_38 (tptp.fn_dna_breakdown_3 X))) (let ((_let_39 (tptp.fn_dna_breakdown_16 X))) (let ((_let_40 (tptp.fn_dna_breakdown_14 X))) (let ((_let_41 (tptp.fn_dna_breakdown_8 X))) (let ((_let_42 (tptp.fn_hydrolysis_13 _let_7))) (let ((_let_43 (tptp.fn_dna_breakdown_11 X))) (let ((_let_44 (tptp.fn_hydrolysis_17 _let_7))) (let ((_let_45 (tptp.fn_dna_breakdown_17 X))) (let ((_let_46 (tptp.fn_hydrolysis_16 _let_7))) (let ((_let_47 (tptp.fn_dna_breakdown_12 X))) (let ((_let_48 (tptp.fn_hydrolysis_15 _let_7))) (let ((_let_49 (tptp.fn_dna_breakdown_13 X))) (let ((_let_50 (tptp.fn_hydrolysis_19 _let_7))) (let ((_let_51 (tptp.fn_hydrolysis_18 _let_7))) (let ((_let_52 (tptp.fn_organic_molecule_2 _let_43))) (let ((_let_53 (tptp.fn_dna_breakdown_15 X))) (=> (tptp.dna_breakdown_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Breakdown'|) (tptp.user_description_2 X |tptp.'The process in which DNA breaks down into their simpler components.'|) (tptp.concept2words_2 X |tptp.'break down'|) (tptp.concept2words_2 X |tptp.'breakdown of dna'|) (tptp.concept2words_2 X |tptp.'dna breakdown'|) (tptp.concept2words_2 X |tptp.'dna-breakdown'|) (tptp.polymer_breakdown_1 X) (tptp.chemical_bond_1 _let_34) (tptp.double_bond_1 _let_34) (tptp.functional_group_1 _let_3) (tptp.phosphate_group_1 _let_3) (tptp.carbon_1 _let_38) (tptp.phosphorus_1 _let_35) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.oxygen_1 _let_32) (tptp.monomer_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.nucleotide_1 _let_5) (tptp.hydrolysis_1 _let_7) (tptp.hydrogen_1 _let_41) (tptp.oxygen_1 _let_33) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.hydroxyl_group_1 _let_9) (tptp.functional_group_1 _let_9) (tptp.dna_1 _let_43) (tptp.quantity_value_1 _let_47) (tptp.quantity_value_1 _let_49) (tptp.tangible_entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.hydrogen_1 _let_40) (tptp.atom_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.chemical_entity_1 _let_39) (tptp.water_molecule_1 _let_39) (tptp.chemical_energy_1 _let_45) (tptp.reactant_1 _let_1) (tptp.atom_1 _let_52) (tptp.chemical_entity_1 _let_52) (tptp.property_node_1 _let_51) (tptp.property_node_1 _let_50) (tptp.quantity_value_1 _let_48) (tptp.quantity_value_1 _let_46) (tptp.chemical_energy_1 _let_44) (tptp.hydroxyl_group_1 _let_42) (tptp.carbon_1 _let_37) (tptp.phosphate_group_1 _let_36) (tptp.chemical_entity_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.hydrogen_1 _let_29) (tptp.hydrogen_1 _let_28) (tptp.hydrogen_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.hydrogen_1 _let_26) (tptp.entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.hydrogen_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.water_molecule_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_21) (tptp.chemical_entity_1 _let_19) (tptp.chemical_entity_1 _let_18) (tptp.chemical_entity_1 _let_17) (tptp.phosphorus_1 _let_16) (tptp.phosphorus_1 _let_15) (tptp.chemical_bond_1 _let_14) (tptp.double_bond_1 _let_14) (tptp.double_bond_1 _let_13) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.oxygen_1 _let_10) (tptp.oxygen_1 _let_8) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.oxygen_1 _let_4) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.has_state_2 _let_53 _let_5) (tptp.greater_than_or_equal_to_2 _let_47 _let_49) (tptp.subevent_2 X _let_7) (tptp.result_2 X _let_5) (tptp.has_part_2 _let_43 _let_53) (tptp.in_event_2 _let_1 X) (tptp.raw_material_2 X _let_43) (tptp.plays_2 _let_43 _let_1) (tptp.result_2 _let_7 _let_5) (tptp.has_part_2 _let_5 _let_41) (not (= _let_43 _let_39)) (not (= _let_39 _let_43)) (tptp.raw_material_2 _let_7 _let_43) (tptp.possesses_2 _let_43 _let_45) (tptp.quantity_2 _let_45 _let_47) (tptp.greater_than_2 _let_47 _let_49) (not (= _let_33 _let_41)) (not (= _let_41 _let_33)) (tptp.raw_material_2 _let_7 _let_39) (tptp.has_part_2 _let_39 _let_40) (tptp.has_state_2 _let_40 _let_41) (tptp.is_inside_2 _let_41 _let_9) (tptp.is_inside_2 _let_33 _let_9) (not (= _let_35 _let_32)) (not (= _let_33 _let_35)) (not (= _let_32 _let_35)) (tptp.is_inside_2 _let_32 _let_3) (tptp.is_inside_2 _let_33 _let_3) (not (= _let_35 _let_33)) (tptp.is_inside_2 _let_35 _let_3) (not (= _let_33 _let_32)) (not (= _let_32 _let_33)) (tptp.is_between_2 _let_34 _let_35) (tptp.is_between_2 _let_34 _let_33) (not (= _let_38 _let_33)) (tptp.possesses_2 _let_5 _let_34) (tptp.has_part_2 _let_5 _let_38) (not (= _let_33 _let_38)) (tptp.has_part_2 _let_5 _let_33) (tptp.has_part_2 _let_5 _let_32) (tptp.has_region_2 _let_5 _let_3) (tptp.has_part_2 _let_5 _let_35) (tptp.has_region_2 _let_5 _let_9) (= _let_5 _let_20) (= _let_53 _let_52) (= _let_43 _let_31) (= X _let_2) (= _let_5 _let_22) (= _let_5 _let_21) (= _let_5 _let_19) (= (tptp.fn_dna_breakdown_19 X) _let_51) (= (tptp.fn_dna_breakdown_20 X) _let_50) (= _let_49 _let_48) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_30) (= _let_33 _let_10) (= _let_33 _let_8) (= _let_41 _let_28) (= _let_9 _let_42) (= _let_41 _let_29) (= _let_41 _let_27) (= _let_40 _let_26) (= _let_40 _let_25) (= _let_39 _let_24) (= _let_39 _let_23) (= _let_5 _let_18) (= _let_34 _let_14) (= _let_38 _let_37) (= _let_33 _let_6) (= _let_32 _let_12) (= _let_5 _let_17) (= _let_3 _let_36) (= _let_35 _let_16) (= _let_35 _let_15) (= _let_34 _let_13) (= _let_33 _let_4) (= _let_32 _let_11) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_chip_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Chip'|) (tptp.user_description_2 X |tptp.'A high density array of short DNA molecules bound to a solid surface for use in probing a biological sample to determine gene expression, marker pattern or nucleotide sequence of DNA.'|) (tptp.concept2words_2 X |tptp.'chip of dna'|) (tptp.concept2words_2 X |tptp.'dna chip'|) (tptp.concept2words_2 X |tptp.'dna-chip'|) (tptp.scientific_device_1 X) (not (tptp.pet_scanner_1 X)) (not (tptp.spectrophotometer_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_nucleic_acid_sequence_5 X))) (let ((_let_2 (tptp.fn_codon_1 X))) (let ((_let_3 (tptp.fn_dna_codon_6 X))) (let ((_let_4 (tptp.fn_chemical_bond_4 _let_3))) (let ((_let_5 (tptp.fn_chemical_bond_1 _let_3))) (let ((_let_6 (tptp.fn_phosphodiester_bond_14 _let_3))) (let ((_let_7 (tptp.fn_chemical_bond_3 _let_3))) (let ((_let_8 (tptp.fn_dna_codon_9 X))) (let ((_let_9 (tptp.fn_dna_codon_4 X))) (let ((_let_10 (tptp.fn_dna_codon_5 X))) (let ((_let_11 (tptp.fn_dna_codon_7 X))) (let ((_let_12 (tptp.fn_dna_codon_8 X))) (let ((_let_13 (tptp.fn_dna_codon_1 X))) (=> (tptp.dna_codon_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Codon'|) (tptp.user_description_2 X |tptp.'A DNA codon is three nucleotides in a DNA molecule whose sequence of nitrogenous bases coldes for one specific amino acid.'|) (tptp.concept2words_2 X |tptp.'codon of dna'|) (tptp.concept2words_2 X |tptp.'dna codon'|) (tptp.concept2words_2 X |tptp.'dna-codon'|) (tptp.codon_1 X) (not (tptp.rna_codon_1 X)) (tptp.dna_strand_1 _let_13) (tptp.size_value_1 _let_9) (tptp.size_value_1 _let_10) (tptp.phosphodiester_bond_1 _let_3) (tptp.hold_together_1 _let_11) (tptp.deoxyribonucleoside_monophosphate_1 _let_12) (tptp.deoxyribonucleoside_monophosphate_1 _let_8) (tptp.hold_together_1 _let_7) (tptp.hold_together_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.possesses_2 X _let_3) (tptp.is_at_2 X _let_13) (tptp.next_element_2 _let_12 _let_8) (tptp.is_between_2 _let_3 _let_8) (tptp.object_2 _let_11 _let_8) (tptp.element_2 X _let_12) (tptp.next_element_2 _let_8 _let_12) (tptp.has_function_2 _let_3 _let_11) (tptp.agent_2 _let_11 _let_3) (tptp.size_2 _let_8 _let_10) (tptp.first_element_2 X _let_8) (tptp.element_2 X _let_8) (tptp.size_2 X _let_9) (tptp.greater_than_2 _let_9 _let_10) (= _let_11 _let_7) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_12 (tptp.fn_codon_2 X)) (= _let_11 _let_6) (= (tptp.fn_dna_codon_3 X) (tptp.fn_nucleic_acid_sequence_4 X)) (= (tptp.fn_dna_codon_2 X) (tptp.fn_nucleic_acid_sequence_3 X)) (= _let_10 (tptp.fn_nucleic_acid_sequence_1 X)) (= _let_9 (tptp.fn_nucleic_acid_sequence_2 X)) (= _let_8 _let_1) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_damage_6 X))) (let ((_let_2 (tptp.fn_dna_11 _let_1))) (let ((_let_3 (tptp.fn_dna_2 _let_1))) (let ((_let_4 (tptp.fn_dna_damage_7 X))) (let ((_let_5 (tptp.fn_dna_damage_2 X))) (let ((_let_6 (tptp.fn_dna_damage_4 X))) (let ((_let_7 (tptp.fn_dna_damage_5 X))) (let ((_let_8 (tptp.fn_dna_damage_1 X))) (let ((_let_9 (tptp.fn_dna_damage_3 X))) (=> (tptp.dna_damage_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Damage'|) (tptp.user_description_2 X |tptp.'Injuries to the DNA that change the normal structure of the molecule which can result in a mutation or can block DNA replication.'|) (tptp.concept2words_2 X tptp.damage) (tptp.concept2words_2 X |tptp.'damage of dna'|) (tptp.concept2words_2 X |tptp.'dna damage'|) (tptp.concept2words_2 X |tptp.'dna-damage'|) (tptp.damage_1 X) (tptp.cell_1 _let_8) (tptp.change_1 _let_5) (tptp.nucleotide_1 _let_9) (tptp.damaged_dna_strand_1 _let_6) (tptp.tangible_entity_1 _let_7) (tptp.tangible_entity_1 _let_1) (tptp.dna_1 _let_1) (tptp.dna_strand_1 _let_4) (tptp.dna_strand_1 _let_3) (tptp.dna_strand_1 _let_2) (tptp.object_2 _let_5 _let_9) (tptp.base_2 _let_5 _let_4) (tptp.base_2 X _let_8) (tptp.agent_2 X _let_7) (tptp.result_2 X _let_6) (tptp.subevent_2 X _let_5) (tptp.object_2 X _let_1) (tptp.has_part_2 _let_1 _let_4) (= _let_1 (tptp.fn_impair_1 X)) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_double_helix_9 X))) (let ((_let_2 (tptp.fn_dna_strand_68 _let_1))) (let ((_let_3 (tptp.fn_dna_strand_54 _let_1))) (let ((_let_4 (tptp.fn_dna_double_helix_10 X))) (let ((_let_5 (tptp.fn_dna_strand_11 _let_4))) (let ((_let_6 (tptp.fn_dna_double_helix_17 X))) (let ((_let_7 (tptp.fn_dna_strand_12 _let_4))) (let ((_let_8 (tptp.fn_dna_double_helix_16 X))) (let ((_let_9 (tptp.fn_dna_double_helix_12 X))) (let ((_let_10 (tptp.fn_dna_strand_14 _let_1))) (let ((_let_11 (tptp.fn_dna_double_helix_11 X))) (let ((_let_12 (tptp.fn_dna_strand_12 _let_1))) (let ((_let_13 (tptp.fn_dna_double_helix_14 X))) (let ((_let_14 (tptp.fn_dna_strand_11 _let_1))) (let ((_let_15 (tptp.fn_dna_double_helix_15 X))) (let ((_let_16 (tptp.fn_dna_double_helix_13 X))) (let ((_let_17 (tptp.fn_sugar_phosphate_backbone_1 _let_16))) (let ((_let_18 (tptp.fn_dna_double_helix_18 X))) (let ((_let_19 (tptp.fn_sugar_phosphate_backbone_1 _let_18))) (let ((_let_20 (tptp.fn_dna_double_helix_3 X))) (let ((_let_21 (tptp.fn_dna_double_helix_4 X))) (let ((_let_22 (tptp.fn_dna_double_helix_8 X))) (let ((_let_23 (tptp.fn_dna_double_helix_6 X))) (let ((_let_24 (tptp.fn_dna_double_helix_5 X))) (=> (tptp.dna_double_helix_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Double-Helix'|) (tptp.user_description_2 X |tptp.'The native shape of DNA molecules, in which two polynucleotide strands in antiparallel orientation spiral around an imaginary central axis.'|) (tptp.concept2words_2 X |tptp.'dna double helix'|) (tptp.concept2words_2 X |tptp.'dna-double-helix'|) (tptp.cellular_structure_1 X) (tptp.shape_value_1 _let_20) (tptp.shape_value_1 _let_21) (tptp.atom_1 _let_24) (tptp.length_value_1 _let_23) (tptp.deoxyribonucleoside_monophosphate_1 _let_22) (tptp.parallel_dna_strand_1 _let_1) (tptp.antiparallel_dna_strand_1 _let_4) (tptp.gene_1 _let_11) (tptp.deoxyribonucleoside_monophosphate_1 _let_9) (tptp.sugar_phosphate_backbone_1 _let_16) (tptp.number_3_prime_end_1 _let_13) (tptp.number_5_prime_end_1 _let_15) (tptp.number_3_prime_end_1 _let_8) (tptp.number_5_prime_end_1 _let_6) (tptp.sugar_phosphate_backbone_1 _let_18) (tptp.nucleic_acid_1 _let_19) (tptp.nucleic_acid_1 _let_17) (tptp.number_5_prime_end_1 _let_14) (tptp.number_3_prime_end_1 _let_12) (tptp.gene_1 _let_10) (tptp.number_3_prime_end_1 _let_7) (tptp.number_5_prime_end_1 _let_5) (tptp.deoxyribonucleoside_monophosphate_1 _let_3) (tptp.deoxyribonucleoside_monophosphate_1 _let_2) (tptp.the_scalar_value_2 _let_23 tptp.long_0) (tptp.scalar_unit_class_2 _let_23 tptp.cellular_structure_0) (tptp.is_outside_2 _let_18 X) (tptp.is_opposite_2 _let_6 _let_13) (tptp.is_opposite_2 _let_8 _let_15) (tptp.is_opposite_2 _let_15 _let_8) (tptp.is_opposite_2 _let_13 _let_6) (tptp.is_outside_2 _let_16 X) (tptp.has_part_2 _let_11 _let_24) (tptp.length_2 X _let_23) (not (= _let_4 _let_1)) (tptp.complement_2 _let_4 _let_1) (tptp.shape_2 _let_4 _let_20) (not (= _let_1 _let_4)) (tptp.complement_2 _let_1 _let_4) (tptp.has_part_2 _let_1 _let_22) (tptp.shape_2 _let_1 _let_21) (tptp.the_categorical_value_2 _let_21 tptp.helix_0) (tptp.the_categorical_value_2 _let_20 tptp.helix_0) (tptp.has_region_2 _let_4 _let_18) (tptp.has_region_2 _let_1 _let_16) (tptp.has_region_2 _let_1 _let_15) (tptp.has_region_2 _let_1 _let_13) (tptp.has_part_2 _let_1 _let_11) (tptp.has_part_2 _let_1 _let_9) (tptp.has_region_2 _let_4 _let_8) (tptp.has_region_2 _let_4 _let_6) (= _let_4 _let_19) (= _let_1 _let_17) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_elongation_6 X))) (let ((_let_2 (tptp.fn_synthesis_of_leading_strand_63 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_dna_elongation_7 X))) (let ((_let_5 (tptp.fn_synthesis_of_lagging_strand_37 _let_4))) (let ((_let_6 (tptp.fn_anabolic_pathway_5 _let_4))) (let ((_let_7 (tptp.fn_dna_elongation_9 X))) (let ((_let_8 (tptp.fn_dna_elongation_8 X))) (let ((_let_9 (tptp.fn_dna_elongation_3 X))) (let ((_let_10 (tptp.fn_dna_elongation_2 X))) (let ((_let_11 (tptp.fn_dna_elongation_1 X))) (let ((_let_12 (tptp.fn_dna_elongation_5 X))) (let ((_let_13 (tptp.fn_dna_elongation_4 X))) (=> (tptp.dna_elongation_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Elongation'|) (tptp.user_description_2 X |tptp.'The process of DNA elongation occurs at the replication fork, present at the end of each replication bubble'|) (tptp.concept2words_2 X tptp.elongate) (tptp.concept2words_2 X |tptp.'elongation of dna'|) (tptp.concept2words_2 X |tptp.'dna elongation'|) (tptp.concept2words_2 X |tptp.'dna-elongation'|) (tptp.dna_replication_phase_1 X) (tptp.deoxyribonucleotide_1 _let_11) (tptp.atp_1 _let_10) (tptp.replication_fork_1 _let_9) (tptp.dna_polymerase_1 _let_13) (tptp.dna_strand_1 _let_12) (tptp.synthesis_of_leading_strand_1 _let_1) (tptp.synthesis_of_lagging_strand_1 _let_4) (tptp.chemical_entity_1 _let_8) (tptp.lagging_strand_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.leading_strand_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.lagging_strand_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.leading_strand_1 _let_2) (tptp.agent_2 X _let_13) (tptp.object_2 X _let_12) (tptp.result_2 X _let_7) (tptp.result_2 X _let_8) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.raw_material_2 X _let_11) (tptp.raw_material_2 X _let_10) (tptp.site_2 X _let_9) (tptp.result_2 _let_4 _let_8) (tptp.result_2 _let_1 _let_7) (= _let_8 _let_6) (= _let_8 _let_5) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_fingerprint_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Fingerprint'|) (tptp.user_description_2 X |tptp.'An individual_'s unique sequence of DNA base pairs, determined by exposing a sample of the person_'s DNA to molecular probes.'|) (tptp.concept2words_2 X |tptp.'genetic fingerprint'|) (tptp.concept2words_2 X |tptp.'fingerprint of dna'|) (tptp.concept2words_2 X |tptp.'dna fingerprint'|) (tptp.concept2words_2 X |tptp.'dna-fingerprint'|) (tptp.band_pattern_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dna_fingerprinting_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Fingerprinting'|) (tptp.user_description_2 X |tptp.'The process of using genetic markers to create specific banding patterns at particular loci which can be used to identify individuals.'|) (tptp.concept2words_2 X tptp.fingerpring) (tptp.concept2words_2 X |tptp.'fingerprinting of dna'|) (tptp.concept2words_2 X |tptp.'dna fingerprinting'|) (tptp.concept2words_2 X |tptp.'dna-fingerprinting'|) (tptp.biotechnology_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.frequency_2 X X1) (tptp.dna_methylation_1 X) (tptp.frequency_value_1 X1)) (and (tptp.dna_hypermethylation_1 X) (= (tptp.fn_dna_hypermethylation_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_hypermethylation_4 X))) (let ((_let_2 (tptp.fn_add_1 _let_1))) (let ((_let_3 (tptp.fn_dna_hypermethylation_5 X))) (let ((_let_4 (tptp.fn_add_2 _let_1))) (let ((_let_5 (tptp.fn_dna_hypermethylation_6 X))) (let ((_let_6 (tptp.fn_dna_hypermethylation_1 X))) (=> (tptp.dna_hypermethylation_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Hypermethylation'|) (tptp.user_description_2 X |tptp.'The addition of a large number of methyl groups to DNA bases, usually cytosine, in the chromosomes of plants, animals, and fungi to inactivate genes.'|) (tptp.concept2words_2 X tptp.hypermethylate) (tptp.concept2words_2 X |tptp.'dna hypermethylation'|) (tptp.concept2words_2 X |tptp.'dna-hypermethylation'|) (tptp.dna_methylation_1 X) (tptp.frequency_value_1 _let_6) (tptp.add_1 _let_1) (tptp.methyl_group_1 _let_3) (tptp.dna_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.frequency_2 X _let_6) (tptp.subevent_2 X _let_1) (tptp.the_scalar_value_2 _let_6 tptp.often_0) (tptp.scalar_unit_class_2 _let_6 tptp.dna_methylation_0) (tptp.base_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_library_1 X))) (=> (tptp.dna_library_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Library'|) (tptp.user_description_2 X |tptp.'A group of information containing many cloned genes.'|) (tptp.concept2words_2 X |tptp.'library of dna'|) (tptp.concept2words_2 X |tptp.'dna library'|) (tptp.concept2words_2 X |tptp.'dna-library'|) (tptp.aggregate_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X)) (tptp.cloned_gene_1 _let_1) (tptp.element_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_10 X))) (let ((_let_2 (tptp.fn_ligase_1 X))) (let ((_let_3 (tptp.fn_protein_enzyme_9 X))) (let ((_let_4 (tptp.fn_polymer_4 X))) (let ((_let_5 (tptp.fn_protein_enzyme_3 X))) (let ((_let_6 (tptp.fn_protein_9 X))) (let ((_let_7 (tptp.fn_dna_ligase_17 X))) (let ((_let_8 (tptp.fn_dna_ligase_3 X))) (let ((_let_9 (tptp.fn_dna_ligase_14 X))) (let ((_let_10 (tptp.fn_dna_ligase_18 X))) (let ((_let_11 (tptp.fn_dna_ligase_16 X))) (let ((_let_12 (tptp.fn_dna_ligase_13 X))) (let ((_let_13 (tptp.fn_dna_ligase_15 X))) (let ((_let_14 (tptp.fn_dna_ligase_12 X))) (let ((_let_15 (tptp.fn_attach_2 _let_14))) (let ((_let_16 (tptp.fn_dna_ligase_10 X))) (let ((_let_17 (tptp.fn_attach_1 _let_14))) (let ((_let_18 (tptp.fn_dna_ligase_11 X))) (let ((_let_19 (tptp.fn_dna_ligase_7 X))) (let ((_let_20 (tptp.fn_attach_2 _let_19))) (let ((_let_21 (tptp.fn_dna_ligase_9 X))) (let ((_let_22 (tptp.fn_dna_ligase_4 X))) (let ((_let_23 (tptp.fn_attach_2 _let_22))) (let ((_let_24 (tptp.fn_dna_ligase_6 X))) (let ((_let_25 (tptp.fn_attach_1 _let_19))) (let ((_let_26 (tptp.fn_dna_ligase_8 X))) (let ((_let_27 (tptp.fn_attach_1 _let_22))) (let ((_let_28 (tptp.fn_dna_ligase_5 X))) (let ((_let_29 (tptp.fn_dna_ligase_1 X))) (let ((_let_30 (tptp.fn_dna_ligase_2 X))) (=> (tptp.dna_ligase_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Ligase'|) (tptp.user_description_2 X |tptp.'The enzyme that catalyzes the formation of a phosphodiester bond between the 3_' end of one piece of DNA and the 5_' end of another.'|) (tptp.concept2words_2 X |tptp.'ligase of dna'|) (tptp.concept2words_2 X |tptp.'dna ligase'|) (tptp.concept2words_2 X |tptp.'dna-ligase'|) (tptp.ligase_1 X) (tptp.recombinant_dna_technology_1 _let_29) (tptp.novel_dna_sequence_1 _let_30) (tptp.r_group_1 _let_8) (tptp.attach_1 _let_22) (tptp.sticky_end_fragment_1 _let_28) (tptp.sticky_end_fragment_1 _let_24) (tptp.attach_1 _let_19) (tptp.okazaki_fragments_1 _let_26) (tptp.okazaki_fragments_1 _let_21) (tptp.dna_piece_1 _let_16) (tptp.dna_piece_1 _let_18) (tptp.attach_1 _let_14) (tptp.size_value_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.monomer_1 _let_9) (tptp.molecule_1 _let_9) (tptp.amino_acid_1 _let_9) (tptp.size_value_1 _let_13) (tptp.monomer_1 _let_11) (tptp.active_site_1 _let_7) (tptp.protein_domain_1 _let_10) (tptp.spatial_entity_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.spatial_entity_1 _let_20) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.agent_2 _let_29 X) (tptp.subevent_2 _let_29 _let_22) (tptp.result_2 _let_22 _let_30) (tptp.agent_2 _let_19 X) (tptp.has_function_2 X _let_19) (tptp.has_function_2 X _let_14) (tptp.has_function_2 X _let_29) (tptp.agent_2 _let_14 X) (tptp.object_2 _let_22 _let_28) (tptp.object_2 _let_19 _let_26) (tptp.base_2 _let_22 _let_24) (tptp.base_2 _let_19 _let_21) (tptp.object_2 _let_14 _let_18) (tptp.base_2 _let_14 _let_16) (tptp.size_2 X _let_13) (tptp.has_part_2 X _let_11) (tptp.size_2 _let_11 _let_12) (tptp.greater_than_2 _let_13 _let_12) (tptp.the_scalar_value_2 _let_13 tptp.big_0) (tptp.scalar_unit_class_2 _let_13 tptp.polypeptide_0) (tptp.has_region_2 X _let_7) (tptp.is_inside_2 _let_8 _let_7) (tptp.has_region_2 _let_9 _let_8) (tptp.is_at_2 _let_9 _let_10) (tptp.has_region_2 X _let_10) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_21 _let_20) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_13 _let_6) (= _let_13 _let_5) (= _let_12 (tptp.fn_protein_enzyme_4 X)) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 (tptp.fn_protein_enzyme_5 X)) (= _let_9 (tptp.fn_protein_enzyme_11 X)) (= _let_8 (tptp.fn_protein_enzyme_12 X)) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_mapping_1 X))) (=> (tptp.dna_mapping_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Mapping'|) (tptp.user_description_2 X |tptp.'A technique to map the base pair sequence of a genome.'|) (tptp.concept2words_2 X |tptp.'genome mapping'|) (tptp.concept2words_2 X tptp.map) (tptp.concept2words_2 X |tptp.'mapping of dna'|) (tptp.concept2words_2 X |tptp.'dna mapping'|) (tptp.concept2words_2 X |tptp.'dna-mapping'|) (tptp.dna_technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X)) (tptp.genetic_map_1 _let_1) (tptp.result_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_methylation_11 X))) (let ((_let_2 (tptp.fn_methylated_dna_5 _let_1))) (let ((_let_3 (tptp.fn_molecule_11 _let_1))) (let ((_let_4 (tptp.fn_methylated_dna_1 _let_1))) (let ((_let_5 (tptp.fn_dna_methylation_14 X))) (let ((_let_6 (tptp.fn_carbon_skeleton_4 _let_5))) (let ((_let_7 (tptp.fn_dna_methylation_15 X))) (let ((_let_8 (tptp.fn_phosphodiester_bond_15 _let_7))) (let ((_let_9 (tptp.fn_phosphodiester_bond_16 _let_7))) (let ((_let_10 (tptp.fn_dna_methylation_8 X))) (let ((_let_11 (tptp.fn_nuclease_4 _let_10))) (let ((_let_12 (tptp.fn_restriction_nuclease_26 _let_10))) (let ((_let_13 (tptp.fn_nuclease_5 _let_10))) (let ((_let_14 (tptp.fn_chemical_reaction_2 X))) (let ((_let_15 (tptp.fn_dna_methylation_12 X))) (let ((_let_16 (tptp.fn_dna_methylation_13 X))) (let ((_let_17 (tptp.fn_molecule_10 _let_1))) (let ((_let_18 (tptp.fn_dna_methylation_9 X))) (let ((_let_19 (tptp.fn_dna_methylation_10 X))) (let ((_let_20 (tptp.fn_dna_methylation_6 X))) (let ((_let_21 (tptp.fn_dna_methylation_2 X))) (let ((_let_22 (tptp.fn_dna_methylation_5 X))) (let ((_let_23 (tptp.fn_dna_methylation_4 X))) (let ((_let_24 (tptp.fn_dna_methylation_1 X))) (let ((_let_25 (tptp.fn_dna_methylation_7 X))) (let ((_let_26 (tptp.fn_dna_methylation_3 X))) (=> (tptp.dna_methylation_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Methylation'|) (tptp.user_description_2 X |tptp.'The attachment of methyl groups (--CH3) to DNA bases after DNA is synthesized, usually regulating the expression of genes.'|) (tptp.concept2words_2 X tptp.methylate) (tptp.concept2words_2 X |tptp.'methylation of dna'|) (tptp.concept2words_2 X |tptp.'dna methylation'|) (tptp.concept2words_2 X |tptp.'dna-methylation'|) (tptp.methylation_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X)) (tptp.sugar_phosphate_backbone_1 _let_24) (tptp.gene_regulation_1 _let_21) (tptp.genomic_imprinting_1 _let_26) (tptp.cdna_1 _let_23) (tptp.dna_1 _let_22) (tptp.gene_expression_1 _let_20) (tptp.gene_inactivation_1 _let_25) (tptp.restriction_nuclease_1 _let_10) (tptp.lyse_1 _let_18) (tptp.impair_1 _let_18) (tptp.break_1 _let_18) (tptp.dna_1 _let_19) (tptp.chemical_entity_1 _let_1) (tptp.molecule_1 _let_1) (tptp.methylated_dna_1 _let_1) (tptp.atom_1 _let_15) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.carbon_skeleton_1 _let_5) (tptp.phosphodiester_bond_1 _let_7) (tptp.chemical_bond_1 _let_7) (tptp.chemical_bond_1 _let_17) (tptp.nucleic_acid_1 _let_13) (tptp.break_1 _let_12) (tptp.lyse_1 _let_12) (tptp.impair_1 _let_12) (tptp.break_1 _let_11) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.carbon_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.carbon_1 _let_6) (tptp.carbon_1 _let_4) (tptp.atom_1 _let_3) (tptp.atom_1 _let_2) (tptp.inhibits_2 _let_25 _let_20) (tptp.enables_2 _let_25 _let_26) (tptp.by_means_of_2 _let_25 X) (tptp.agent_2 _let_20 _let_22) (tptp.abuts_2 _let_22 _let_23) (tptp.has_region_2 _let_1 _let_24) (tptp.has_region_2 _let_1 _let_5) (tptp.abuts_2 _let_23 _let_22) (tptp.supports_2 X _let_21) (tptp.inhibits_2 X _let_20) (tptp.prevents_2 X _let_18) (tptp.raw_material_2 X _let_19) (tptp.result_2 X _let_1) (tptp.is_between_2 _let_7 _let_16) (tptp.is_inside_2 _let_16 _let_5) (tptp.agent_2 _let_18 _let_10) (tptp.object_2 _let_18 _let_19) (tptp.is_between_2 _let_7 _let_15) (not (= _let_15 _let_16)) (not (= _let_16 _let_15)) (tptp.has_part_2 _let_1 _let_16) (tptp.has_part_2 _let_1 _let_15) (tptp.possesses_2 _let_1 _let_7) (= _let_19 _let_14) (= _let_1 (tptp.fn_chemical_reaction_1 X)) (= _let_16 _let_9) (= _let_16 _let_8) (= _let_16 _let_6) (= _let_19 _let_13) (= _let_18 _let_12) (= _let_18 _let_11) (= _let_15 _let_3) (= _let_7 _let_17) (= _let_16 _let_4) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_microarray_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Microarray'|) (tptp.user_description_2 X |tptp.'A method used to detect and measure the expression of thousands of genes simultaneously. Small spots of DNA fixed to a glass slide are hybridized with labeled samples of cDNA which can then be detected by their labels.'|) (tptp.concept2words_2 X |tptp.'perform dna microarray analysis'|) (tptp.concept2words_2 X |tptp.'dna microarray'|) (tptp.concept2words_2 X |tptp.'dna-microarray'|) (tptp.dna_technique_1 X) (tptp.biotechnology_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dna_piece_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Piece'|) (tptp.user_description_2 X |tptp.'Small pieces of DNA that make up the entire DNA strand.'|) (tptp.concept2words_2 X |tptp.'piece of dna'|) (tptp.concept2words_2 X |tptp.'dna piece'|) (tptp.concept2words_2 X |tptp.'dna-piece'|) (tptp.dna_sequence_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_polymerase_47 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_4 (tptp.fn_protein_enzyme_8 X))) (let ((_let_5 (tptp.fn_protein_enzyme_10 X))) (let ((_let_6 (tptp.fn_enzyme_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_11 X))) (let ((_let_8 (tptp.fn_protein_14 X))) (let ((_let_9 (tptp.fn_protein_enzyme_3 X))) (let ((_let_10 (tptp.fn_protein_9 X))) (let ((_let_11 (tptp.fn_protein_enzyme_9 X))) (let ((_let_12 (tptp.fn_polymer_4 X))) (let ((_let_13 (tptp.fn_dna_polymerase_35 X))) (let ((_let_14 (tptp.fn_replace_2 _let_13))) (let ((_let_15 (tptp.fn_replace_1 _let_13))) (let ((_let_16 (tptp.fn_replace_3 _let_13))) (let ((_let_17 (tptp.fn_dna_polymerase_33 X))) (let ((_let_18 (tptp.fn_remove_2 _let_17))) (let ((_let_19 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_20 (tptp.fn_dna_polymerase_46 X))) (let ((_let_21 (tptp.fn_dna_polymerase_45 X))) (let ((_let_22 (tptp.fn_dna_polymerase_30 X))) (let ((_let_23 (tptp.fn_dna_polymerase_37 X))) (let ((_let_24 (tptp.fn_dna_polymerase_38 X))) (let ((_let_25 (tptp.fn_dna_polymerase_27 X))) (let ((_let_26 (tptp.fn_dna_polymerase_40 X))) (let ((_let_27 (tptp.fn_dna_polymerase_39 X))) (let ((_let_28 (tptp.fn_dna_polymerase_32 X))) (let ((_let_29 (tptp.fn_dna_polymerase_29 X))) (let ((_let_30 (tptp.fn_dna_polymerase_28 X))) (let ((_let_31 (tptp.fn_dna_polymerase_31 X))) (let ((_let_32 (tptp.fn_dna_polymerase_25 X))) (let ((_let_33 (tptp.fn_dna_polymerase_24 X))) (let ((_let_34 (tptp.fn_dna_polymerase_26 X))) (let ((_let_35 (tptp.fn_dna_polymerase_44 X))) (let ((_let_36 (tptp.fn_dna_polymerase_41 X))) (let ((_let_37 (tptp.fn_dna_polymerase_42 X))) (let ((_let_38 (tptp.fn_dna_polymerase_43 X))) (let ((_let_39 (tptp.fn_dna_polymerase_36 X))) (let ((_let_40 (tptp.fn_dna_polymerase_34 X))) (let ((_let_41 (tptp.fn_dna_polymerase_13 X))) (let ((_let_42 (tptp.fn_dna_polymerase_12 X))) (let ((_let_43 (tptp.fn_dna_polymerase_14 X))) (let ((_let_44 (tptp.fn_dna_polymerase_15 X))) (let ((_let_45 (tptp.fn_dna_polymerase_16 X))) (let ((_let_46 (tptp.fn_dna_polymerase_17 X))) (let ((_let_47 (tptp.fn_dna_polymerase_18 X))) (let ((_let_48 (tptp.fn_dna_polymerase_19 X))) (let ((_let_49 (tptp.fn_dna_polymerase_20 X))) (let ((_let_50 (tptp.fn_dna_polymerase_21 X))) (let ((_let_51 (tptp.fn_dna_polymerase_22 X))) (=> (tptp.dna_polymerase_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Polymerase'|) (tptp.user_description_2 X |tptp.'An enzyme that catalyzes the addition of a nucleotide to the 3_' end of a nucleic acid chain.'|) (tptp.concept2words_2 X |tptp.'polymerase of dna'|) (tptp.concept2words_2 X |tptp.'dna polymerase'|) (tptp.concept2words_2 X |tptp.'dna-polymerase'|) (tptp.polymerase_1 X) (tptp.system_1 (tptp.fn_dna_polymerase_9 X)) (tptp.atomic_number_value_1 _let_42) (tptp.quantity_value_1 _let_41) (tptp.quantity_value_1 _let_43) (tptp.valence_electron_1 _let_44) (tptp.valence_electron_1 _let_45) (tptp.quantity_value_1 _let_46) (tptp.quantity_value_1 _let_47) (tptp.atomic_number_value_1 _let_48) (tptp.create_1 _let_49) (tptp.dna_proofreading_1 _let_50) (tptp.hydrophobic_region_1 _let_51) (tptp.chemical_reaction_1 _let_33) (tptp.decrease_1 _let_32) (tptp.catalyst_1 _let_34) (tptp.protein_domain_1 _let_25) (tptp.hydrophilic_region_1 _let_30) (tptp.surface_1 _let_29) (tptp.active_site_1 _let_22) (tptp.polypeptide_1 _let_31) (tptp.monomer_1 _let_28) (tptp.remove_1 _let_17) (tptp.dna_strand_1 _let_40) (tptp.replace_1 _let_13) (tptp.deoxyribonucleoside_monophosphate_1 _let_39) (tptp.r_group_1 _let_23) (tptp.spatial_entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.monomer_1 _let_24) (tptp.molecule_1 _let_24) (tptp.amino_acid_1 _let_24) (tptp.size_value_1 _let_27) (tptp.size_value_1 _let_26) (tptp.quantity_value_1 _let_36) (tptp.speed_value_1 _let_37) (tptp.constant_motion_1 _let_38) (tptp.kinetic_energy_1 _let_35) (tptp.atom_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.carbon_1 _let_20) (tptp.carbon_skeleton_1 _let_1) (tptp.carbon_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_2) (tptp.has_region_2 X _let_51) (tptp.agent_2 _let_50 X) (tptp.agent_2 _let_49 X) (tptp.by_means_of_2 _let_17 _let_13) (tptp.agent_2 _let_17 X) (tptp.called_2 _let_48 |tptp.'Atomic_Number'|) (= _let_48 _let_47) (tptp.called_2 _let_47 |tptp.'Number_Proton'|) (= _let_47 _let_48) (= _let_47 _let_46) (tptp.called_2 _let_46 |tptp.'Number_Electron'|) (= _let_46 _let_47) (tptp.quantity_2 _let_45 _let_46) (not (= _let_45 _let_44)) (not (= _let_44 _let_45)) (tptp.quantity_2 _let_44 _let_43) (tptp.called_2 _let_43 |tptp.'Number_Electron'|) (= _let_43 _let_41) (tptp.called_2 _let_41 |tptp.'Number_Proton'|) (= _let_41 _let_42) (= _let_41 _let_43) (tptp.called_2 _let_42 |tptp.'Atomic_Number'|) (= _let_42 _let_41) (tptp.base_2 _let_17 _let_40) (tptp.base_2 _let_13 _let_40) (tptp.object_2 _let_13 _let_39) (tptp.called_2 _let_39 |tptp.'new entity'|) (tptp.possesses_2 X _let_35) (tptp.quantity_2 _let_35 _let_36) (tptp.directly_proportional_2 _let_37 _let_36) (tptp.speed_2 _let_38 _let_37) (tptp.object_2 _let_38 X) (tptp.plays_2 X _let_34) (tptp.in_event_2 _let_34 _let_33) (tptp.has_function_2 X _let_32) (tptp.enables_2 _let_32 _let_33) (tptp.site_2 _let_33 _let_22) (tptp.facilitates_2 _let_22 _let_33) (tptp.has_function_2 X _let_33) (tptp.has_region_2 X _let_29) (tptp.is_at_2 _let_30 _let_29) (tptp.has_region_2 X _let_30) (tptp.has_part_2 X _let_31) (tptp.has_part_2 _let_31 _let_24) (tptp.the_scalar_value_2 _let_26 tptp.big_0) (tptp.scalar_unit_class_2 _let_26 tptp.polypeptide_0) (tptp.size_2 X _let_26) (tptp.greater_than_2 _let_26 _let_27) (tptp.size_2 _let_28 _let_27) (tptp.has_part_2 X _let_28) (tptp.has_part_2 X _let_21) (tptp.has_region_2 X _let_22) (tptp.is_inside_2 _let_23 _let_22) (tptp.has_region_2 _let_24 _let_23) (tptp.is_at_2 _let_24 _let_25) (tptp.has_region_2 X _let_25) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_20) (tptp.is_inside_2 _let_20 _let_1) (not (= _let_21 _let_20)) (not (= _let_20 _let_21)) (= _let_40 _let_18) (= _let_40 _let_16) (= _let_39 _let_15) (= _let_39 _let_14) (= (tptp.fn_dna_polymerase_48 X) (tptp.fn_protein_10 X)) (= (tptp.fn_dna_polymerase_49 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_dna_polymerase_50 X) (tptp.fn_molecule_2 X)) (= _let_38 (tptp.fn_molecule_8 X)) (= _let_37 (tptp.fn_molecule_3 X)) (= _let_36 (tptp.fn_molecule_4 X)) (= _let_35 (tptp.fn_molecule_12 X)) (= _let_34 (tptp.fn_enzyme_6 X)) (= _let_22 _let_6) (= _let_33 (tptp.fn_enzyme_4 X)) (= _let_32 (tptp.fn_enzyme_5 X)) (= _let_24 _let_8) (= _let_31 (tptp.fn_protein_8 X)) (= _let_30 (tptp.fn_protein_1 X)) (= _let_29 (tptp.fn_protein_5 X)) (= _let_21 _let_4) (= _let_28 _let_12) (= _let_28 _let_11) (= _let_27 (tptp.fn_protein_enzyme_4 X)) (= _let_26 _let_10) (= _let_26 _let_9) (= _let_25 (tptp.fn_protein_enzyme_5 X)) (= _let_24 _let_7) (= _let_23 (tptp.fn_protein_enzyme_12 X)) (= _let_22 _let_5) (= _let_21 _let_3) (= _let_20 _let_19) (= X _let_2) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_polymerase_i_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Polymerase-I'|) (tptp.user_description_2 X |tptp.'An enzyme that synthesizes DNA nucleotides to replace RNA primer nucleotides on each of the Okazaki fragments on the lagging strand of the DNA molecule.'|) (tptp.concept2words_2 X |tptp.'dna pol i'|) (tptp.concept2words_2 X |tptp.'dna-pol-i'|) (tptp.concept2words_2 X |tptp.'dna polymerase i'|) (tptp.concept2words_2 X |tptp.'dna-polymerase-i'|) (tptp.dna_polymerase_1 X) (not (tptp.dna_polymerase_ii_1 X)) (not (tptp.dna_polymerase_iii_1 X)) (not (tptp.taq_polymerase_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dna_polymerase_ii_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Polymerase-II'|) (tptp.user_description_2 X |tptp.'An enzyme, secondary to DNA polymerase I, involved in DNA repair.'|) (tptp.concept2words_2 X |tptp.'dna pol ii'|) (tptp.concept2words_2 X |tptp.'dna-pol-ii'|) (tptp.concept2words_2 X |tptp.'dna polymerase ii'|) (tptp.concept2words_2 X |tptp.'dna-polymerase-ii'|) (tptp.dna_polymerase_1 X) (not (tptp.dna_polymerase_i_1 X)) (not (tptp.dna_polymerase_iii_1 X)) (not (tptp.taq_polymerase_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_polymerase_iii_1 X))) (let ((_let_2 (tptp.fn_synthesis_of_leading_strand_68 _let_1))) (=> (tptp.dna_polymerase_iii_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Polymerase-III'|) (tptp.user_description_2 X |tptp.'An enzyme that synthesizes DNA by adding nucleotides to the end of the RNA primer and complementary to the parental, template DNA strand.'|) (tptp.concept2words_2 X |tptp.'dna pol iii'|) (tptp.concept2words_2 X |tptp.'dna-pol-iii'|) (tptp.concept2words_2 X |tptp.'dna polymerase iii'|) (tptp.concept2words_2 X |tptp.'dna-polymerase-iii'|) (tptp.dna_polymerase_1 X) (not (tptp.dna_polymerase_i_1 X)) (not (tptp.dna_polymerase_ii_1 X)) (not (tptp.taq_polymerase_1 X)) (tptp.synthesis_of_leading_strand_1 _let_1) (tptp.dna_polymerase_iii_1 _let_2) (tptp.has_function_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_primase_5 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_protein_enzyme_8 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_dna_primase_20 X))) (let ((_let_6 (tptp.fn_disulfide_bond_3 _let_5))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_11 X))) (let ((_let_10 (tptp.fn_protein_14 X))) (let ((_let_11 (tptp.fn_protein_enzyme_10 X))) (let ((_let_12 (tptp.fn_enzyme_2 X))) (let ((_let_13 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_14 (tptp.fn_dna_primase_9 X))) (let ((_let_15 (tptp.fn_dna_primase_10 X))) (let ((_let_16 (tptp.fn_dna_primase_8 X))) (let ((_let_17 (tptp.fn_dna_primase_19 X))) (let ((_let_18 (tptp.fn_dna_primase_11 X))) (let ((_let_19 (tptp.fn_dna_primase_2 X))) (let ((_let_20 (tptp.fn_dna_primase_16 X))) (let ((_let_21 (tptp.fn_dna_primase_6 X))) (let ((_let_22 (tptp.fn_dna_primase_3 X))) (let ((_let_23 (tptp.fn_dna_primase_4 X))) (let ((_let_24 (tptp.fn_dna_primase_7 X))) (let ((_let_25 (tptp.fn_dna_primase_12 X))) (let ((_let_26 (tptp.fn_dna_primase_13 X))) (let ((_let_27 (tptp.fn_dna_primase_15 X))) (let ((_let_28 (tptp.fn_dna_primase_1 X))) (let ((_let_29 (tptp.fn_dna_primase_18 X))) (let ((_let_30 (tptp.fn_dna_primase_17 X))) (let ((_let_31 (tptp.fn_dna_primase_14 X))) (=> (tptp.dna_primase_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Primase'|) (tptp.user_description_2 X |tptp.'An enzyme that catalyzes the synthesis of a short segment (called a primer) of RNA or DNA that is complementary to a single-stranded DNA template.'|) (tptp.concept2words_2 X tptp.primase) (tptp.concept2words_2 X |tptp.'dna primase'|) (tptp.concept2words_2 X |tptp.'dna-primase'|) (tptp.transferase_1 X) (tptp.kinetic_energy_1 _let_28) (tptp.protein_domain_1 _let_19) (tptp.hydrophilic_region_1 _let_22) (tptp.surface_1 _let_23) (tptp.carbon_skeleton_1 _let_1) (tptp.active_site_1 _let_21) (tptp.polypeptide_1 _let_24) (tptp.monomer_1 _let_16) (tptp.carbon_1 _let_14) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.size_value_1 _let_18) (tptp.chemical_reaction_1 _let_25) (tptp.decrease_1 _let_26) (tptp.constant_motion_1 _let_31) (tptp.catalyst_1 _let_27) (tptp.spatial_entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.monomer_1 _let_20) (tptp.molecule_1 _let_20) (tptp.amino_acid_1 _let_20) (tptp.speed_value_1 _let_30) (tptp.quantity_value_1 _let_29) (tptp.size_value_1 _let_17) (tptp.disulfide_bond_1 _let_5) (tptp.carbon_1 _let_13) (tptp.protein_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.possesses_2 X _let_5) (tptp.possesses_2 X _let_28) (tptp.quantity_2 _let_28 _let_29) (tptp.directly_proportional_2 _let_30 _let_29) (tptp.speed_2 _let_31 _let_30) (tptp.object_2 _let_31 X) (tptp.in_event_2 _let_27 _let_25) (tptp.plays_2 X _let_27) (tptp.has_function_2 X _let_25) (tptp.site_2 _let_25 _let_21) (tptp.facilitates_2 _let_21 _let_25) (tptp.enables_2 _let_26 _let_25) (tptp.has_function_2 X _let_26) (tptp.has_region_2 X _let_22) (tptp.is_at_2 _let_22 _let_23) (tptp.has_region_2 X _let_23) (tptp.has_part_2 X _let_24) (tptp.has_part_2 _let_24 _let_20) (tptp.has_region_2 X _let_21) (tptp.is_at_2 _let_20 _let_19) (tptp.has_part_2 X _let_15) (tptp.the_scalar_value_2 _let_18 tptp.big_0) (tptp.scalar_unit_class_2 _let_18 tptp.polypeptide_0) (tptp.has_part_2 X _let_16) (tptp.size_2 _let_16 _let_17) (tptp.greater_than_2 _let_18 _let_17) (tptp.size_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.is_inside_2 _let_14 _let_1) (tptp.has_part_2 X _let_14) (tptp.has_region_2 X _let_1) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= X _let_6) (= _let_31 (tptp.fn_molecule_8 X)) (= _let_30 (tptp.fn_molecule_3 X)) (= _let_29 (tptp.fn_molecule_4 X)) (= _let_28 (tptp.fn_molecule_12 X)) (= _let_27 (tptp.fn_enzyme_6 X)) (= _let_26 (tptp.fn_enzyme_5 X)) (= _let_21 _let_12) (= _let_25 (tptp.fn_enzyme_4 X)) (= _let_20 _let_10) (= _let_24 (tptp.fn_protein_8 X)) (= _let_23 (tptp.fn_protein_5 X)) (= _let_22 (tptp.fn_protein_1 X)) (= _let_21 _let_11) (= _let_20 _let_9) (= _let_15 _let_3) (= _let_19 (tptp.fn_protein_enzyme_5 X)) (= _let_18 _let_8) (= _let_18 _let_7) (= _let_17 (tptp.fn_protein_enzyme_4 X)) (= _let_16 (tptp.fn_protein_enzyme_9 X)) (= X _let_4) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_nucleic_acid_20 X))) (let ((_let_2 (tptp.fn_primer_2 X))) (let ((_let_3 (tptp.fn_primer_3 X))) (let ((_let_4 (tptp.fn_dna_primer_23 X))) (let ((_let_5 (tptp.fn_nucleotide_3 _let_4))) (let ((_let_6 (tptp.fn_nucleoside_monophosphate_25 _let_4))) (let ((_let_7 (tptp.fn_nucleotide_9 _let_4))) (let ((_let_8 (tptp.fn_organic_molecule_2 _let_4))) (let ((_let_9 (tptp.fn_nucleic_acid_19 X))) (let ((_let_10 (tptp.fn_molecule_10 X))) (let ((_let_11 (tptp.fn_dna_primer_25 X))) (let ((_let_12 (tptp.fn_chemical_bond_4 _let_11))) (let ((_let_13 (tptp.fn_chemical_bond_1 _let_11))) (let ((_let_14 (tptp.fn_dna_primer_24 X))) (let ((_let_15 (tptp.fn_attach_1 _let_14))) (let ((_let_16 (tptp.fn_dna_primer_17 X))) (let ((_let_17 (tptp.fn_polymer_synthesis_23 _let_16))) (let ((_let_18 (tptp.fn_anabolic_pathway_5 _let_16))) (let ((_let_19 (tptp.fn_dna_primer_16 X))) (let ((_let_20 (tptp.fn_dna_primer_15 X))) (let ((_let_21 (tptp.fn_dna_primer_22 X))) (let ((_let_22 (tptp.fn_dna_primer_13 X))) (let ((_let_23 (tptp.fn_dna_primer_14 X))) (let ((_let_24 (tptp.fn_dna_primer_20 X))) (let ((_let_25 (tptp.fn_carbon_skeleton_4 _let_24))) (let ((_let_26 (tptp.fn_dna_primer_21 X))) (let ((_let_27 (tptp.fn_dna_primer_26 X))) (let ((_let_28 (tptp.fn_dna_primer_19 X))) (let ((_let_29 (tptp.fn_kinetic_energy_2 _let_28))) (let ((_let_30 (tptp.fn_dna_primer_18 X))) (let ((_let_31 (tptp.fn_dna_primer_1 X))) (let ((_let_32 (tptp.fn_dna_primer_3 X))) (let ((_let_33 (tptp.fn_dna_primer_2 X))) (let ((_let_34 (tptp.fn_dna_primer_4 X))) (let ((_let_35 (tptp.fn_dna_primer_5 X))) (let ((_let_36 (tptp.fn_dna_primer_6 X))) (let ((_let_37 (tptp.fn_dna_primer_8 X))) (let ((_let_38 (tptp.fn_dna_primer_7 X))) (let ((_let_39 (tptp.fn_dna_primer_9 X))) (let ((_let_40 (tptp.fn_dna_primer_10 X))) (let ((_let_41 (tptp.fn_dna_primer_12 X))) (let ((_let_42 (tptp.fn_dna_primer_11 X))) (=> (tptp.dna_primer_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Primer'|) (tptp.user_description_2 X |tptp.'Primer is a strand of nucleic acid that serves as a starting point for DNA synthesis. They are required because the enzymes that catalyze replication, DNA polymerases, can only add new nucleotides to an existing strand of DNA. The polymerase starts replication at the 3_'-end of the primer, and copies the opposite strand.'|) (tptp.concept2words_2 X |tptp.'primer of dna'|) (tptp.concept2words_2 X |tptp.'dna primer'|) (tptp.concept2words_2 X |tptp.'dna-primer'|) (tptp.primer_1 X) (not (tptp.rna_primer_1 X)) (tptp.dna_1 _let_31) (tptp.dna_1 _let_33) (tptp.gene_1 _let_32) (tptp.polymerase_chain_reaction_1 _let_34) (tptp.copy_1 _let_35) (tptp.determined_by_1 _let_36) (tptp.dna_strand_1 _let_38) (tptp.monomer_1 _let_37) (tptp.transcription_1 _let_39) (tptp.eukaryotic_gene_regulation_1 _let_40) (tptp.eukaryote_1 _let_42) (tptp.attach_1 _let_41) (tptp.size_value_1 _let_22) (tptp.size_value_1 _let_23) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.carbon_1 _let_20) (tptp.carbon_skeleton_1 _let_19) (tptp.polymer_synthesis_1 _let_16) (tptp.dna_sequence_1 _let_30) (tptp.kinetic_energy_1 _let_28) (tptp.carbon_skeleton_1 _let_24) (tptp.carbon_1 _let_26) (tptp.deoxyribonucleoside_monophosphate_1 _let_21) (tptp.organic_molecule_1 _let_4) (tptp.nucleoside_monophosphate_1 _let_4) (tptp.nucleotide_1 _let_4) (tptp.attach_1 _let_14) (tptp.covalent_bond_1 _let_11) (tptp.phosphodiester_bond_1 _let_11) (tptp.chemical_bond_1 _let_11) (tptp.dna_1 _let_27) (tptp.tangible_entity_1 _let_29) (tptp.carbon_1 _let_25) (tptp.chemical_entity_1 _let_18) (tptp.polymer_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.carbon_1 _let_7) (tptp.carbon_skeleton_1 _let_6) (tptp.carbon_skeleton_1 _let_5) (tptp.enables_2 _let_41 _let_39) (tptp.agent_2 _let_41 X) (tptp.has_part_2 _let_42 X) (tptp.by_means_of_2 _let_40 _let_41) (tptp.enables_2 _let_40 _let_39) (tptp.complement_2 X _let_33) (tptp.complement_2 X _let_31) (tptp.has_part_2 X _let_21) (tptp.has_region_2 _let_30 _let_24) (tptp.has_part_2 _let_30 _let_38) (tptp.has_part_2 _let_30 _let_37) (tptp.has_part_2 _let_30 _let_26) (tptp.object_2 _let_36 _let_30) (tptp.agent_2 _let_36 X) (tptp.by_means_of_2 _let_34 _let_35) (tptp.base_2 _let_34 _let_30) (tptp.abuts_2 _let_32 _let_33) (tptp.abuts_2 _let_32 _let_31) (tptp.abuts_2 _let_33 _let_32) (tptp.complement_2 _let_33 X) (tptp.abuts_2 _let_31 _let_32) (tptp.complement_2 _let_31 X) (tptp.instrument_2 _let_16 X) (tptp.object_2 _let_14 _let_21) (tptp.possesses_2 _let_30 _let_28) (tptp.result_2 _let_16 _let_27) (tptp.is_inside_2 _let_26 _let_24) (tptp.size_2 X _let_22) (tptp.greater_than_2 _let_22 _let_23) (tptp.size_2 _let_4 _let_23) (tptp.has_part_2 X _let_4) (tptp.possesses_2 X _let_11) (tptp.is_inside_2 _let_20 _let_19) (tptp.has_part_2 _let_4 _let_20) (tptp.has_region_2 _let_4 _let_19) (tptp.is_between_2 _let_11 _let_21) (= _let_21 _let_15) (= _let_30 _let_29) (= _let_27 _let_18) (= _let_27 _let_17) (= _let_26 _let_25) (= _let_11 _let_10) (= _let_11 _let_9) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_23 (tptp.fn_nucleic_acid_28 X)) (= _let_22 (tptp.fn_nucleic_acid_29 X)) (= _let_21 _let_13) (= _let_21 _let_12) (= _let_20 _let_8) (= _let_20 _let_7) (= _let_19 _let_6) (= _let_19 _let_5) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_proofreading_2 X))) (let ((_let_2 (tptp.fn_increase_in_accuracy_of_dna_replication_2 _let_1))) (let ((_let_3 (tptp.fn_dna_proofreading_5 X))) (let ((_let_4 (tptp.fn_dna_replication_3 _let_3))) (let ((_let_5 (tptp.fn_dna_proofreading_6 X))) (let ((_let_6 (tptp.fn_dna_polymerase_21 _let_5))) (let ((_let_7 (tptp.fn_dna_proofreading_3 X))) (let ((_let_8 (tptp.fn_dna_repair_8 _let_7))) (let ((_let_9 (tptp.fn_dna_proofreading_4 X))) (let ((_let_10 (tptp.fn_dna_proofreading_1 X))) (=> (tptp.dna_proofreading_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Proofreading'|) (tptp.user_description_2 X |tptp.'Error correction of newly-synthesized DNA where DNA polymerase reverses its direction by one base pair of DNA and excises the incorrect base pair and replaces it with the correct base pair. Not all DNA polymerases have the ability to proofread.'|) (tptp.concept2words_2 X tptp.proofread) (tptp.concept2words_2 X |tptp.'dna proofreading'|) (tptp.concept2words_2 X |tptp.'dna-proofreading'|) (tptp.distinguishing_1 X) (not (tptp.codon_recognition_1 X)) (not (tptp.compare_genes_1 X)) (not (tptp.distinguishing_defective_chromosome_1 X)) (not (tptp.identify_cell_by_protein_expression_1 X)) (not (tptp.identify_cell_clones_with_gene_of_interest_1 X)) (tptp.make_error_1 _let_10) (tptp.increase_in_accuracy_of_dna_replication_1 _let_1) (tptp.dna_repair_1 _let_7) (tptp.damaged_dna_strand_1 _let_9) (tptp.dna_replication_1 _let_3) (tptp.dna_polymerase_1 _let_5) (tptp.damaged_dna_strand_1 _let_8) (tptp.dna_proofreading_1 _let_6) (tptp.dna_proofreading_1 _let_4) (tptp.dna_proofreading_1 _let_2) (tptp.objective_2 _let_10 _let_3) (tptp.prevents_2 X _let_10) (tptp.subevent_2 X _let_7) (tptp.object_2 X _let_9) (tptp.objective_2 _let_1 _let_3) (tptp.agent_2 X _let_5) (tptp.object_2 _let_7 _let_9) (tptp.subevent_2 _let_3 X) (tptp.by_means_of_2 _let_1 X) (tptp.causes_2 X _let_1) (= X _let_6) (= _let_9 _let_8) (= X _let_4) (= X _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_repair_7 X))) (let ((_let_2 (tptp.fn_dna_2 _let_1))) (let ((_let_3 (tptp.fn_dna_11 _let_1))) (let ((_let_4 (tptp.fn_repair_1 X))) (let ((_let_5 (tptp.fn_dna_repair_6 X))) (let ((_let_6 (tptp.fn_perceive_1 _let_5))) (let ((_let_7 (tptp.fn_dna_repair_8 X))) (let ((_let_8 (tptp.fn_dna_repair_3 X))) (let ((_let_9 (tptp.fn_dna_repair_1 X))) (let ((_let_10 (tptp.fn_dna_repair_5 X))) (let ((_let_11 (tptp.fn_dna_repair_4 X))) (let ((_let_12 (tptp.fn_dna_repair_2 X))) (=> (tptp.dna_repair_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Repair'|) (tptp.user_description_2 X |tptp.'DNA repair refers to a collection of processes by which a cell identifies and corrects damage to the DNA molecules that encode its genome.'|) (tptp.concept2words_2 X tptp.repair) (tptp.concept2words_2 X |tptp.'repair of dna'|) (tptp.concept2words_2 X |tptp.'dna repair'|) (tptp.concept2words_2 X |tptp.'dna-repair'|) (tptp.repair_1 X) (tptp.dna_polymerase_1 _let_9) (tptp.repair_enzyme_1 _let_12) (tptp.cell_1 _let_8) (tptp.repair_enzyme_1 _let_11) (tptp.protein_1 _let_10) (tptp.recognize_1 _let_5) (tptp.dna_1 _let_1) (tptp.damaged_dna_strand_1 _let_7) (tptp.entity_1 _let_6) (tptp.dna_strand_1 _let_3) (tptp.dna_strand_1 _let_2) (tptp.agent_2 _let_5 _let_12) (tptp.base_2 X _let_1) (tptp.agent_2 X _let_11) (tptp.agent_2 X _let_10) (tptp.agent_2 X _let_9) (tptp.site_2 X _let_8) (tptp.subevent_2 X _let_5) (tptp.object_2 _let_5 _let_7) (tptp.object_2 X _let_7) (tptp.has_part_2 _let_1 _let_7) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_replication_22 X))) (let ((_let_2 (tptp.fn_dna_replication_initiation_14 _let_1))) (let ((_let_3 (tptp.fn_dna_replication_19 X))) (let ((_let_4 (tptp.fn_copy_1 _let_3))) (let ((_let_5 (tptp.fn_dna_replication_26 X))) (let ((_let_6 (tptp.fn_enzyme_4 _let_5))) (let ((_let_7 (tptp.fn_dna_replication_13 X))) (let ((_let_8 (tptp.fn_reactant_2 _let_7))) (let ((_let_9 (tptp.fn_synthesis_of_nucleic_acid_9 X))) (let ((_let_10 (tptp.fn_polymer_synthesis_20 X))) (let ((_let_11 (tptp.fn_synthesis_of_nucleic_acid_14 X))) (let ((_let_12 (tptp.fn_dna_replication_14 X))) (let ((_let_13 (tptp.fn_dehydration_reaction_7 _let_12))) (let ((_let_14 (tptp.fn_dehydration_reaction_8 _let_12))) (let ((_let_15 (tptp.fn_synthesis_of_nucleic_acid_7 X))) (let ((_let_16 (tptp.fn_dehydration_reaction_6 _let_12))) (let ((_let_17 (tptp.fn_polymer_synthesis_11 X))) (let ((_let_18 (tptp.fn_synthesis_of_nucleic_acid_8 X))) (let ((_let_19 (tptp.fn_dehydration_reaction_1 _let_12))) (let ((_let_20 (tptp.fn_synthesis_of_nucleic_acid_10 X))) (let ((_let_21 (tptp.fn_synthesis_of_nucleic_acid_11 X))) (let ((_let_22 (tptp.fn_polymer_synthesis_12 X))) (let ((_let_23 (tptp.fn_dehydration_reaction_3 _let_12))) (let ((_let_24 (tptp.fn_polymer_synthesis_15 X))) (let ((_let_25 (tptp.fn_dehydration_reaction_2 _let_12))) (let ((_let_26 (tptp.fn_synthesis_of_nucleic_acid_6 X))) (let ((_let_27 (tptp.fn_polymer_synthesis_23 X))) (let ((_let_28 (tptp.fn_create_1 _let_12))) (let ((_let_29 (tptp.fn_create_1 _let_3))) (let ((_let_30 (tptp.fn_reactant_3 _let_7))) (let ((_let_31 (tptp.fn_polymer_synthesis_19 X))) (let ((_let_32 (tptp.fn_dna_replication_21 X))) (let ((_let_33 (tptp.fn_organic_molecule_2 _let_32))) (let ((_let_34 (tptp.fn_dna_replication_18 X))) (let ((_let_35 (tptp.fn_dna_replication_12 X))) (let ((_let_36 (tptp.fn_dna_replication_28 X))) (let ((_let_37 (tptp.fn_dna_replication_29 X))) (let ((_let_38 (tptp.fn_dna_replication_16 X))) (let ((_let_39 (tptp.fn_dna_replication_17 X))) (let ((_let_40 (tptp.fn_dna_replication_33 X))) (let ((_let_41 (tptp.fn_dna_replication_23 X))) (let ((_let_42 (tptp.fn_dna_replication_15 X))) (let ((_let_43 (tptp.fn_enzyme_6 _let_5))) (let ((_let_44 (tptp.fn_dna_replication_30 X))) (let ((_let_45 (tptp.fn_dna_replication_31 X))) (let ((_let_46 (tptp.fn_dehydration_reaction_5 _let_12))) (let ((_let_47 (tptp.fn_dna_replication_32 X))) (let ((_let_48 (tptp.fn_dna_replication_20 X))) (let ((_let_49 (tptp.fn_dna_replication_24 X))) (let ((_let_50 (tptp.fn_dna_elongation_4 _let_49))) (let ((_let_51 (tptp.fn_dna_replication_27 X))) (let ((_let_52 (tptp.fn_copy_2 _let_3))) (let ((_let_53 (tptp.fn_dna_replication_25 X))) (let ((_let_54 (tptp.fn_dna_replication_9 X))) (let ((_let_55 (tptp.fn_dna_replication_2 X))) (let ((_let_56 (tptp.fn_dna_replication_3 X))) (let ((_let_57 (tptp.fn_dna_replication_4 X))) (let ((_let_58 (tptp.fn_dna_replication_6 X))) (let ((_let_59 (tptp.fn_dna_replication_5 X))) (let ((_let_60 (tptp.fn_dna_replication_8 X))) (let ((_let_61 (tptp.fn_dna_replication_7 X))) (let ((_let_62 (tptp.fn_dna_replication_10 X))) (=> (tptp.dna_replication_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication'|) (tptp.user_description_2 X |tptp.'DNA replication is process by which a cell_'s DNA makes its own exact copy. The DNA_'s two strands serve as templates for the synthesis of a complementary daughter strand for themselves. The daughter strand remains attached to their template parental strand to result in new DNA copy having parental strand and the newly synthesized as its component strands. This model of replication is called _'semiconservative model of DNA replication_'. The process involves _'DNA polymerase_' and primase_' enzymes.'|) (tptp.concept2words_2 X |tptp.'dna synthesis'|) (tptp.concept2words_2 X |tptp.'dna-synthesis'|) (tptp.concept2words_2 X tptp.copy) (tptp.concept2words_2 X |tptp.'replication of dna'|) (tptp.concept2words_2 X |tptp.'dna replication'|) (tptp.concept2words_2 X |tptp.'dna-replication'|) (tptp.synthesis_of_nucleic_acid_1 X) (not (tptp.reverse_transcription_1 X)) (not (tptp.transcription_1 X)) (not (tptp.translation_1 X)) (tptp.dna_replication_termination_1 _let_55) (tptp.dna_proofreading_1 _let_56) (tptp.mismatch_repair_1 _let_57) (tptp.dna_ligase_1 _let_59) (tptp.dna_primase_1 _let_58) (tptp.number_5_prime_end_1 _let_61) (tptp.number_3_prime_end_1 _let_60) (tptp.structural_complexity_value_1 _let_54) (tptp.charge_value_1 _let_62) (tptp.molecule_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.monomer_1 _let_35) (tptp.reactant_1 _let_7) (tptp.create_1 _let_12) (tptp.dehydration_reaction_1 _let_12) (tptp.monomer_1 _let_42) (tptp.monomer_1 _let_38) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.oxygen_1 _let_39) (tptp.atom_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.copy_1 _let_3) (tptp.free_energy_1 _let_48) (tptp.tangible_entity_1 _let_32) (tptp.entity_1 _let_32) (tptp.organic_molecule_1 _let_32) (tptp.dna_1 _let_32) (tptp.dna_replication_initiation_1 _let_1) (tptp.dna_1 _let_41) (tptp.dna_elongation_1 _let_49) (tptp.template_1 _let_53) (tptp.helicase_1 _let_5) (tptp.dna_polymerase_iii_1 _let_51) (tptp.hydrophilic_compound_1 _let_36) (tptp.molecule_1 _let_36) (tptp.polar_molecule_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.water_molecule_1 _let_36) (tptp.free_energy_1 _let_37) (tptp.catalyst_1 _let_44) (tptp.atp_1 _let_45) (tptp.monomer_1 _let_45) (tptp.hydroxyl_group_1 _let_47) (tptp.chemical_bond_1 _let_40) (tptp.polar_covalent_bond_1 _let_40) (tptp.template_1 _let_52) (tptp.dna_polymerase_1 _let_50) (tptp.hydroxyl_group_1 _let_46) (tptp.catalyst_1 _let_43) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.chemical_entity_1 _let_30) (tptp.entity_1 _let_29) (tptp.entity_1 _let_28) (tptp.chemical_bond_1 _let_25) (tptp.polar_covalent_bond_1 _let_25) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.free_energy_1 _let_19) (tptp.water_molecule_1 _let_16) (tptp.molecule_1 _let_14) (tptp.chemical_entity_1 _let_13) (tptp.molecule_1 _let_13) (tptp.chemical_reaction_1 _let_8) (tptp.chemical_reaction_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.dna_1 _let_2) (tptp.has_state_2 _let_45 _let_42) (tptp.the_categorical_value_2 _let_62 tptp.partial_negative_0) (tptp.the_cardinal_value_2 _let_62 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_62 tptp.unity_0) (tptp.structural_complexity_2 _let_36 _let_54) (tptp.in_event_2 _let_53 X) (tptp.next_event_2 _let_56 _let_57) (tptp.next_event_2 _let_49 _let_55) (tptp.object_2 X _let_32) (tptp.by_means_of_2 X _let_3) (tptp.destination_2 X _let_61) (tptp.origin_2 X _let_60) (tptp.agent_2 X _let_59) (tptp.agent_2 X _let_58) (tptp.agent_2 X _let_51) (tptp.subevent_2 X _let_57) (tptp.subevent_2 X _let_56) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_49) (tptp.subevent_2 X _let_55) (tptp.structural_complexity_2 _let_41 _let_54) (tptp.next_event_2 _let_1 _let_49) (tptp.result_2 _let_3 _let_41) (tptp.plays_2 _let_45 _let_7) (tptp.raw_material_2 X _let_45) (tptp.object_2 _let_3 _let_32) (tptp.plays_2 _let_32 _let_53) (tptp.agent_2 _let_49 _let_51) (tptp.base_2 _let_1 _let_32) (tptp.possesses_2 _let_41 _let_48) (tptp.possesses_2 _let_36 _let_48) (not (= _let_36 _let_45)) (not (= _let_45 _let_36)) (tptp.possesses_2 _let_45 _let_37) (tptp.raw_material_2 _let_12 _let_45) (not (= _let_45 _let_35)) (tptp.has_region_2 _let_35 _let_47) (tptp.is_inside_2 _let_39 _let_47) (not (= _let_35 _let_45)) (tptp.plays_2 _let_5 _let_44) (tptp.has_function_2 _let_5 X) (tptp.in_event_2 _let_44 X) (tptp.result_2 X _let_41) (tptp.result_2 _let_12 _let_41) (tptp.has_part_2 _let_41 _let_38) (tptp.has_part_2 _let_41 _let_42) (tptp.has_part_2 _let_35 _let_39) (tptp.is_between_2 _let_40 _let_39) (tptp.possesses_2 _let_35 _let_40) (tptp.in_event_2 _let_7 X) (tptp.result_2 _let_12 _let_36) (tptp.result_2 X _let_36) (tptp.raw_material_2 X _let_35) (tptp.has_state_2 _let_35 _let_38) (tptp.subevent_2 X _let_12) (tptp.raw_material_2 _let_12 _let_35) (tptp.possesses_2 _let_35 _let_37) (not (= _let_36 _let_35)) (not (= _let_35 _let_36)) (tptp.exactCardinality _let_32 tptp.has_part_0 |"2"| tptp.dna_strand_0) (= _let_41 _let_29) (= X _let_8) (= _let_45 _let_30) (= _let_53 _let_52) (= _let_32 _let_4) (= _let_51 _let_50) (= _let_32 _let_2) (= _let_48 _let_19) (= _let_36 _let_17) (= _let_48 _let_31) (= _let_37 _let_19) (= _let_47 _let_46) (= _let_45 _let_14) (= _let_44 _let_43) (= X _let_6) (= _let_41 _let_27) (= _let_41 _let_28) (= _let_42 _let_20) (= _let_41 _let_26) (= _let_40 _let_25) (= _let_40 _let_24) (= _let_39 _let_23) (= _let_39 _let_22) (= _let_7 (tptp.fn_synthesis_of_nucleic_acid_12 X)) (= _let_38 _let_21) (= _let_38 _let_20) (= _let_35 _let_11) (= _let_35 _let_10) (= _let_37 _let_18) (= _let_36 _let_13) (= _let_35 _let_14) (= _let_36 _let_16) (= _let_36 _let_15) (= _let_35 _let_13) (= _let_35 _let_9) (= _let_12 (tptp.fn_synthesis_of_nucleic_acid_13 X)) (= _let_34 _let_33) (= _let_19 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_14) (= _let_14 _let_14) (= _let_14 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_13) (= _let_17 _let_13) (= _let_13 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_13) (= _let_13 _let_13) (= _let_13 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_replication_in_eukaryotes_16 X))) (let ((_let_2 (tptp.fn_polymer_3 _let_1))) (let ((_let_3 (tptp.fn_dna_replication_in_eukaryotes_18 X))) (let ((_let_4 (tptp.fn_increase_4 _let_3))) (let ((_let_5 (tptp.fn_dna_replication_in_eukaryotes_27 X))) (let ((_let_6 (tptp.fn_nucleic_acid_20 _let_5))) (let ((_let_7 (tptp.fn_polymer_4 _let_5))) (let ((_let_8 (tptp.fn_dna_replication_31 X))) (let ((_let_9 (tptp.fn_dna_replication_in_eukaryotes_30 X))) (let ((_let_10 (tptp.fn_functional_group_1 _let_9))) (let ((_let_11 (tptp.fn_dna_replication_in_eukaryotes_12 X))) (let ((_let_12 (tptp.fn_atp_35 _let_11))) (let ((_let_13 (tptp.fn_atp_37 _let_11))) (let ((_let_14 (tptp.fn_nucleoside_triphosphate_32 _let_11))) (let ((_let_15 (tptp.fn_ribonucleotide_8 _let_11))) (let ((_let_16 (tptp.fn_hydroxyl_group_4 _let_9))) (let ((_let_17 (tptp.fn_molecule_10 _let_11))) (let ((_let_18 (tptp.fn_hydroxyl_group_7 _let_9))) (let ((_let_19 (tptp.fn_polymer_6 _let_5))) (let ((_let_20 (tptp.fn_dna_replication_16 X))) (let ((_let_21 (tptp.fn_synthesis_of_nucleic_acid_10 X))) (let ((_let_22 (tptp.fn_dna_replication_in_eukaryotes_21 X))) (let ((_let_23 (tptp.fn_telomerase_10 _let_22))) (let ((_let_24 (tptp.fn_dna_replication_in_eukaryotes_26 X))) (let ((_let_25 (tptp.fn_nucleus_11 _let_24))) (let ((_let_26 (tptp.fn_dna_replication_28 X))) (let ((_let_27 (tptp.fn_synthesis_of_nucleic_acid_7 X))) (let ((_let_28 (tptp.fn_anabolic_pathway_5 X))) (let ((_let_29 (tptp.fn_dna_replication_12 X))) (let ((_let_30 (tptp.fn_synthesis_of_nucleic_acid_9 X))) (let ((_let_31 (tptp.fn_dna_replication_14 X))) (let ((_let_32 (tptp.fn_synthesis_of_nucleic_acid_13 X))) (let ((_let_33 (tptp.fn_dna_replication_9 X))) (let ((_let_34 (tptp.fn_anabolic_pathway_3 X))) (let ((_let_35 (tptp.fn_dna_replication_in_eukaryotes_17 X))) (let ((_let_36 (tptp.fn_polymer_2 _let_1))) (let ((_let_37 (tptp.fn_dna_replication_in_eukaryotes_10 X))) (let ((_let_38 (tptp.fn_dna_replication_in_eukaryotes_31 X))) (let ((_let_39 (tptp.fn_dna_replication_in_eukaryotes_32 X))) (let ((_let_40 (tptp.fn_dna_replication_in_eukaryotes_34 X))) (let ((_let_41 (tptp.fn_dna_replication_in_eukaryotes_43 X))) (let ((_let_42 (tptp.fn_dna_replication_in_eukaryotes_36 X))) (let ((_let_43 (tptp.fn_dna_replication_in_eukaryotes_38 X))) (let ((_let_44 (tptp.fn_dna_replication_in_eukaryotes_15 X))) (let ((_let_45 (tptp.fn_dna_replication_in_eukaryotes_44 X))) (let ((_let_46 (tptp.fn_dna_replication_in_eukaryotes_35 X))) (let ((_let_47 (tptp.fn_dna_replication_in_eukaryotes_13 X))) (let ((_let_48 (tptp.fn_dna_replication_in_eukaryotes_39 X))) (let ((_let_49 (tptp.fn_dna_replication_in_eukaryotes_41 X))) (let ((_let_50 (tptp.fn_dna_replication_in_eukaryotes_42 X))) (let ((_let_51 (tptp.fn_dna_replication_in_eukaryotes_40 X))) (let ((_let_52 (tptp.fn_dna_replication_in_eukaryotes_28 X))) (let ((_let_53 (tptp.fn_dna_replication_in_eukaryotes_45 X))) (let ((_let_54 (tptp.fn_dna_replication_in_eukaryotes_33 X))) (let ((_let_55 (tptp.fn_dna_replication_in_eukaryotes_29 X))) (let ((_let_56 (tptp.fn_dna_replication_in_eukaryotes_14 X))) (let ((_let_57 (tptp.fn_dna_replication_in_eukaryotes_37 X))) (let ((_let_58 (tptp.fn_telomerase_4 _let_22))) (let ((_let_59 (tptp.fn_telomerase_3 _let_22))) (let ((_let_60 (tptp.fn_dna_replication_in_eukaryotes_9 X))) (let ((_let_61 (tptp.fn_dna_replication_in_eukaryotes_23 X))) (let ((_let_62 (tptp.fn_increase_4 _let_61))) (let ((_let_63 (tptp.fn_dna_replication_in_eukaryotes_20 X))) (let ((_let_64 (tptp.fn_increase_1 _let_61))) (let ((_let_65 (tptp.fn_dna_replication_in_eukaryotes_8 X))) (let ((_let_66 (tptp.fn_eukaryotic_cell_26 _let_65))) (let ((_let_67 (tptp.fn_dna_replication_in_eukaryotes_25 X))) (let ((_let_68 (tptp.fn_add_1 _let_67))) (let ((_let_69 (tptp.fn_dna_replication_in_eukaryotes_24 X))) (let ((_let_70 (tptp.fn_dna_replication_in_eukaryotes_22 X))) (let ((_let_71 (tptp.fn_add_1 _let_70))) (let ((_let_72 (tptp.fn_dna_replication_in_eukaryotes_19 X))) (let ((_let_73 (tptp.fn_dna_replication_in_eukaryotes_2 X))) (let ((_let_74 (tptp.fn_dna_replication_in_eukaryotes_1 X))) (let ((_let_75 (tptp.fn_dna_replication_in_eukaryotes_3 X))) (let ((_let_76 (tptp.fn_dna_replication_in_eukaryotes_6 X))) (let ((_let_77 (tptp.fn_dna_replication_in_eukaryotes_4 X))) (let ((_let_78 (tptp.fn_dna_replication_in_eukaryotes_5 X))) (=> (tptp.dna_replication_in_eukaryotes_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-In-Eukaryotes'|) (tptp.user_description_2 X |tptp.'The process in which existing DNA acts as a template for the cell to make a copy of the DNA . Replication in eukaryotes occurs during the S phase of the cell cycle and is regulated by cyclin-dependent kinases.'|) (tptp.concept2words_2 X |tptp.'replication in eukaryotes'|) (tptp.concept2words_2 X tptp.copy) (tptp.concept2words_2 X |tptp.'dna replication in eukaryote'|) (tptp.concept2words_2 X |tptp.'dna-replication-in-eukaryote'|) (tptp.dna_replication_1 X) (not (tptp.dna_replication_in_prokaryotes_1 X)) (tptp.time_interval_1 _let_74) (tptp.time_interval_1 _let_73) (tptp.eukaryote_1 _let_75) (tptp.number_3_prime_end_1 _let_77) (tptp.number_5_prime_end_1 _let_78) (tptp.telomere_1 _let_76) (tptp.eukaryotic_cell_1 _let_65) (tptp.structural_complexity_value_1 _let_60) (tptp.monomer_1 _let_37) (tptp.nucleoside_monophosphate_1 _let_37) (tptp.chemical_entity_1 _let_11) (tptp.monomer_1 _let_11) (tptp.molecule_1 _let_11) (tptp.ribonucleotide_1 _let_11) (tptp.nucleoside_triphosphate_1 _let_11) (tptp.atp_1 _let_11) (tptp.helicase_1 _let_47) (tptp.structural_complexity_value_1 _let_56) (tptp.dna_replication_termination_1 _let_44) (tptp.dna_with_shortened_telomere_1 _let_1) (tptp.polymer_1 _let_1) (tptp.property_value_1 _let_35) (tptp.length_value_1 _let_35) (tptp.increase_1 _let_3) (tptp.deoxyribonucleotide_1 _let_72) (tptp.length_value_1 _let_63) (tptp.telomerase_1 _let_22) (tptp.add_1 _let_70) (tptp.increase_1 _let_61) (tptp.deoxyribonucleotide_1 _let_69) (tptp.add_1 _let_67) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.dna_1 _let_5) (tptp.polymer_1 _let_5) (tptp.nucleic_acid_1 _let_5) (tptp.hydrophilic_compound_1 _let_52) (tptp.molecule_1 _let_52) (tptp.polar_molecule_1 _let_52) (tptp.chemical_entity_1 _let_52) (tptp.water_molecule_1 _let_52) (tptp.create_1 _let_55) (tptp.dehydration_reaction_1 _let_55) (tptp.hydroxyl_group_1 _let_9) (tptp.oxygen_1 _let_38) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.polar_covalent_bond_1 _let_39) (tptp.chemical_bond_1 _let_39) (tptp.free_energy_1 _let_54) (tptp.monomer_1 _let_40) (tptp.dna_polymerase_iii_1 _let_46) (tptp.tangible_entity_1 _let_42) (tptp.entity_1 _let_42) (tptp.organic_molecule_1 _let_42) (tptp.dna_1 _let_42) (tptp.copy_1 _let_57) (tptp.template_1 _let_43) (tptp.catalyst_1 _let_48) (tptp.reactant_1 _let_51) (tptp.mismatch_repair_1 _let_49) (tptp.dna_proofreading_1 _let_50) (tptp.dna_replication_initiation_1 _let_41) (tptp.dna_elongation_1 _let_45) (tptp.molecule_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.monomer_1 _let_53) (tptp.spatial_entity_1 _let_71) (tptp.spatial_entity_1 _let_68) (tptp.tangible_entity_1 _let_66) (tptp.nucleus_1 _let_66) (tptp.property_node_1 _let_64) (tptp.property_value_1 _let_62) (tptp.dna_with_shortened_telomere_1 _let_59) (tptp.increase_1 _let_58) (tptp.property_node_1 _let_36) (tptp.dna_replication_in_eukaryotes_1 _let_25) (tptp.dna_replication_1 _let_23) (tptp.monomer_1 _let_19) (tptp.polar_covalent_bond_1 _let_18) (tptp.chemical_bond_1 _let_17) (tptp.oxygen_1 _let_16) (tptp.oxygen_1 _let_15) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_14) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_10) (tptp.monomer_1 _let_7) (tptp.nucleoside_monophosphate_1 _let_6) (tptp.property_value_1 _let_4) (tptp.length_value_1 _let_2) (not (= _let_53 _let_11)) (tptp.is_inside_2 _let_24 _let_65) (tptp.causes_2 _let_67 _let_61) (tptp.site_2 _let_67 _let_78) (tptp.agent_2 _let_61 _let_22) (tptp.base_2 _let_61 _let_76) (tptp.causes_2 _let_70 _let_61) (tptp.next_event_2 _let_70 _let_67) (tptp.agent_2 _let_70 _let_22) (tptp.site_2 _let_70 _let_77) (tptp.length_2 _let_76 _let_63) (tptp.subevent_2 _let_3 _let_70) (tptp.subevent_2 _let_3 _let_61) (tptp.subevent_2 _let_3 _let_67) (tptp.time_during_2 _let_3 _let_73) (tptp.result_2 _let_44 _let_1) (tptp.next_event_2 _let_44 _let_3) (tptp.time_during_2 _let_44 _let_74) (tptp.raw_material_2 X _let_11) (tptp.experiencer_2 X _let_75) (tptp.time_before_2 _let_74 _let_73) (tptp.structural_complexity_2 _let_11 _let_60) (not (= _let_11 _let_53)) (tptp.has_state_2 _let_11 _let_37) (tptp.has_region_2 _let_11 _let_9) (tptp.object_2 _let_70 _let_72) (tptp.object_2 _let_67 _let_69) (tptp.site_2 X _let_24) (tptp.has_part_2 _let_65 _let_24) (tptp.to_value_2 _let_61 _let_63) (tptp.greater_than_2 _let_56 _let_60) (tptp.subevent_2 X _let_3) (tptp.agent_2 _let_3 _let_22) (tptp.base_2 _let_3 _let_1) (tptp.is_inside_2 _let_38 _let_9) (tptp.is_between_2 _let_39 _let_38) (tptp.object_2 X _let_42) (tptp.result_2 _let_55 _let_52) (tptp.subevent_2 X _let_50) (tptp.has_state_2 _let_53 _let_40) (tptp.by_means_of_2 X _let_57) (tptp.result_2 X _let_5) (tptp.structural_complexity_2 _let_5 _let_56) (tptp.object_2 _let_57 _let_42) (tptp.result_2 _let_57 _let_5) (tptp.result_2 _let_55 _let_5) (tptp.raw_material_2 _let_55 _let_11) (tptp.possesses_2 _let_11 _let_54) (tptp.subevent_2 X _let_55) (tptp.raw_material_2 _let_55 _let_53) (tptp.raw_material_2 X _let_53) (tptp.result_2 X _let_52) (tptp.structural_complexity_2 _let_52 _let_56) (tptp.in_event_2 _let_51 X) (tptp.plays_2 _let_11 _let_51) (not (= _let_11 _let_52)) (not (= _let_52 _let_53)) (tptp.possesses_2 _let_53 _let_54) (not (= _let_52 _let_11)) (not (= _let_53 _let_52)) (tptp.has_function_2 _let_47 X) (tptp.plays_2 _let_47 _let_48) (tptp.in_event_2 _let_48 X) (tptp.subevent_2 X _let_49) (tptp.next_event_2 _let_50 _let_49) (tptp.next_event_2 _let_45 _let_44) (tptp.agent_2 _let_45 _let_46) (tptp.agent_2 X _let_46) (tptp.subevent_2 X _let_45) (tptp.next_event_2 _let_41 _let_45) (tptp.subevent_2 X _let_41) (tptp.base_2 _let_41 _let_42) (tptp.plays_2 _let_42 _let_43) (tptp.in_event_2 _let_43 X) (tptp.subevent_2 X _let_44) (tptp.has_part_2 _let_5 _let_40) (tptp.length_2 _let_1 _let_35) (tptp.has_part_2 _let_5 _let_37) (tptp.has_part_2 _let_11 _let_38) (tptp.to_value_2 _let_3 _let_35) (tptp.possesses_2 _let_11 _let_39) (= _let_11 _let_10) (= _let_72 _let_71) (= _let_69 _let_68) (= X _let_25) (= _let_24 _let_66) (= (tptp.fn_dna_replication_in_eukaryotes_11 X) _let_64) (= _let_63 _let_62) (= (tptp.fn_dna_replication_in_eukaryotes_7 X) (tptp.fn_anabolic_pathway_2 X)) (= _let_60 (tptp.fn_anabolic_pathway_4 X)) (= X _let_23) (= _let_1 _let_59) (= _let_3 _let_58) (= _let_39 _let_18) (= _let_38 _let_16) (= _let_40 _let_21) (= _let_40 _let_20) (= (tptp.fn_dna_replication_in_eukaryotes_47 X) (tptp.fn_dna_replication_1 X)) (= _let_5 (tptp.fn_dna_replication_23 X)) (= _let_57 (tptp.fn_dna_replication_19 X)) (= _let_56 _let_34) (= _let_56 _let_33) (= _let_52 _let_28) (= _let_55 _let_32) (= _let_55 _let_31) (= _let_54 (tptp.fn_dna_replication_29 X)) (= _let_52 _let_27) (= _let_53 _let_30) (= _let_53 _let_29) (= _let_52 _let_26) (= _let_11 _let_8) (= _let_51 (tptp.fn_dna_replication_13 X)) (= _let_50 (tptp.fn_dna_replication_3 X)) (= _let_49 (tptp.fn_dna_replication_4 X)) (= _let_48 (tptp.fn_dna_replication_30 X)) (= _let_47 (tptp.fn_dna_replication_26 X)) (= _let_46 (tptp.fn_dna_replication_27 X)) (= _let_45 (tptp.fn_dna_replication_24 X)) (= _let_44 (tptp.fn_dna_replication_2 X)) (= _let_43 (tptp.fn_dna_replication_25 X)) (= _let_42 (tptp.fn_dna_replication_21 X)) (= _let_41 (tptp.fn_dna_replication_22 X)) (= _let_40 _let_19) (= _let_39 _let_17) (= _let_35 _let_4) (= _let_38 _let_15) (= _let_38 _let_14) (= _let_38 _let_13) (= _let_38 _let_12) (= _let_37 _let_7) (= _let_37 _let_6) (= (tptp.fn_dna_replication_in_eukaryotes_46 X) _let_36) (= _let_35 _let_2) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_replication_12 X))) (let ((_let_2 (tptp.fn_synthesis_of_nucleic_acid_9 X))) (let ((_let_3 (tptp.fn_dna_replication_28 X))) (let ((_let_4 (tptp.fn_synthesis_of_nucleic_acid_7 X))) (let ((_let_5 (tptp.fn_anabolic_pathway_5 X))) (let ((_let_6 (tptp.fn_synthesis_of_nucleic_acid_14 X))) (let ((_let_7 (tptp.fn_dna_replication_23 X))) (let ((_let_8 (tptp.fn_dna_replication_in_prokaryotes_11 X))) (let ((_let_9 (tptp.fn_chromosome_4 _let_8))) (let ((_let_10 (tptp.fn_dna_replication_9 X))) (let ((_let_11 (tptp.fn_anabolic_pathway_3 X))) (let ((_let_12 (tptp.fn_dna_replication_14 X))) (let ((_let_13 (tptp.fn_synthesis_of_nucleic_acid_13 X))) (let ((_let_14 (tptp.fn_dna_replication_15 X))) (let ((_let_15 (tptp.fn_synthesis_of_nucleic_acid_10 X))) (let ((_let_16 (tptp.fn_synthesis_of_nucleic_acid_2 X))) (let ((_let_17 (tptp.fn_anabolic_pathway_4 X))) (let ((_let_18 (tptp.fn_synthesis_of_nucleic_acid_1 X))) (let ((_let_19 (tptp.fn_anabolic_pathway_2 X))) (let ((_let_20 (tptp.fn_dna_replication_in_prokaryotes_8 X))) (let ((_let_21 (tptp.fn_prokaryote_12 _let_20))) (let ((_let_22 (tptp.fn_cell_28 _let_20))) (let ((_let_23 (tptp.fn_dna_replication_in_prokaryotes_16 X))) (let ((_let_24 (tptp.fn_dna_replication_in_prokaryotes_14 X))) (let ((_let_25 (tptp.fn_dna_replication_in_prokaryotes_3 X))) (let ((_let_26 (tptp.fn_dna_replication_in_prokaryotes_5 X))) (let ((_let_27 (tptp.fn_dna_replication_in_prokaryotes_13 X))) (let ((_let_28 (tptp.fn_dna_replication_in_prokaryotes_10 X))) (let ((_let_29 (tptp.fn_dna_replication_in_prokaryotes_7 X))) (let ((_let_30 (tptp.fn_dna_replication_in_prokaryotes_4 X))) (let ((_let_31 (tptp.fn_dna_replication_in_prokaryotes_12 X))) (let ((_let_32 (tptp.fn_dna_replication_in_prokaryotes_6 X))) (let ((_let_33 (tptp.fn_dna_replication_in_prokaryotes_15 X))) (let ((_let_34 (tptp.fn_dna_replication_in_prokaryotes_2 X))) (let ((_let_35 (tptp.fn_dna_replication_in_prokaryotes_9 X))) (=> (tptp.dna_replication_in_prokaryotes_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-In-Prokaryotes'|) (tptp.user_description_2 X |tptp.'The process by which a cell makes an exact copy of its DNA. In prokaryotes is bi-directional and originates at a single origin of replication (OriC).'|) (tptp.concept2words_2 X |tptp.'replication in prokaryotes'|) (tptp.concept2words_2 X tptp.copy) (tptp.concept2words_2 X |tptp.'dna replication in prokaryote'|) (tptp.concept2words_2 X |tptp.'dna-replication-in-prokaryote'|) (tptp.dna_replication_1 X) (not (tptp.dna_replication_in_eukaryotes_1 X)) (tptp.molecule_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.monomer_1 _let_25) (tptp.copy_1 _let_30) (tptp.monomer_1 _let_26) (tptp.monomer_1 _let_32) (tptp.free_energy_1 _let_29) (tptp.cell_1 _let_20) (tptp.prokaryote_1 _let_20) (tptp.mixture_1 _let_35) (tptp.cytoplasm_1 _let_35) (tptp.structural_complexity_value_1 _let_28) (tptp.chromosome_1 _let_8) (tptp.create_1 _let_31) (tptp.dehydration_reaction_1 _let_31) (tptp.entity_1 _let_27) (tptp.dna_1 _let_27) (tptp.hydrophilic_compound_1 _let_24) (tptp.molecule_1 _let_24) (tptp.polar_molecule_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.water_molecule_1 _let_24) (tptp.structural_complexity_value_1 _let_33) (tptp.molecule_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.monomer_1 _let_23) (tptp.mixture_1 _let_22) (tptp.cytoplasm_1 _let_22) (tptp.mixture_1 _let_21) (tptp.cytoplasm_1 _let_21) (tptp.entity_1 _let_9) (tptp.dna_1 _let_9) (tptp.site_2 X _let_35) (tptp.base_2 X _let_20) (tptp.has_part_2 _let_20 _let_35) (tptp.has_part_2 _let_8 _let_27) (tptp.greater_than_2 _let_28 _let_33) (tptp.has_state_2 _let_23 _let_32) (tptp.structural_complexity_2 _let_23 _let_33) (tptp.raw_material_2 X _let_25) (tptp.structural_complexity_2 _let_25 _let_33) (not (= _let_23 _let_25)) (not (= _let_25 _let_23)) (tptp.has_part_2 _let_27 _let_32) (tptp.subevent_2 X _let_31) (tptp.result_2 _let_31 _let_24) (tptp.result_2 _let_30 _let_27) (tptp.by_means_of_2 X _let_30) (tptp.result_2 X _let_27) (tptp.result_2 _let_31 _let_27) (tptp.raw_material_2 _let_31 _let_25) (tptp.structural_complexity_2 _let_24 _let_28) (tptp.structural_complexity_2 _let_27 _let_28) (tptp.possesses_2 _let_27 _let_29) (tptp.possesses_2 _let_24 _let_29) (tptp.result_2 X _let_24) (tptp.raw_material_2 X _let_23) (not (= _let_23 _let_24)) (not (= _let_24 _let_25)) (tptp.has_state_2 _let_25 _let_26) (tptp.has_part_2 _let_27 _let_26) (not (= _let_24 _let_23)) (not (= _let_25 _let_24)) (= _let_20 (tptp.fn_metabolic_pathway_1 X)) (= _let_35 _let_22) (= _let_35 _let_21) (= _let_27 _let_9) (= _let_32 _let_15) (= _let_34 _let_19) (= _let_33 _let_17) (= _let_34 _let_18) (= _let_33 _let_16) (= _let_25 _let_6) (= _let_32 _let_14) (= (tptp.fn_dna_replication_in_prokaryotes_1 X) (tptp.fn_dna_replication_1 X)) (= _let_31 _let_13) (= _let_31 _let_12) (= _let_30 (tptp.fn_dna_replication_19 X)) (= _let_29 (tptp.fn_dna_replication_20 X)) (= _let_24 _let_5) (= _let_28 _let_11) (= _let_28 _let_10) (= _let_27 _let_7) (= _let_26 (tptp.fn_dna_replication_16 X)) (= _let_25 _let_2) (= _let_25 _let_1) (= _let_24 _let_4) (= _let_24 _let_3) (= _let_23 _let_2) (= _let_23 _let_1) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_2) (= _let_2 _let_6) (= _let_6 _let_6) (= _let_6 _let_1) (= _let_1 _let_1) (= _let_1 _let_4) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_replication_initiation_15 X))) (let ((_let_2 (tptp.fn_chromosome_5 _let_1))) (let ((_let_3 (tptp.fn_dna_replication_initiation_9 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_dna_replication_initiation_10 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_dna_replication_initiation_11 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_dna_replication_initiation_18 X))) (let ((_let_10 (tptp.fn_move_apart_1 _let_9))) (let ((_let_11 (tptp.fn_dna_replication_initiation_25 X))) (let ((_let_12 (tptp.fn_attach_2 _let_11))) (let ((_let_13 (tptp.fn_move_apart_2 _let_9))) (let ((_let_14 (tptp.fn_dna_replication_initiation_28 X))) (let ((_let_15 (tptp.fn_attach_2 _let_14))) (let ((_let_16 (tptp.fn_move_apart_3 _let_9))) (let ((_let_17 (tptp.fn_dna_replication_initiation_30 X))) (let ((_let_18 (tptp.fn_coil_1 _let_17))) (let ((_let_19 (tptp.fn_dna_replication_initiation_29 X))) (let ((_let_20 (tptp.fn_perceive_1 _let_19))) (let ((_let_21 (tptp.fn_chromosome_3 _let_1))) (let ((_let_22 (tptp.fn_dna_replication_initiation_31 X))) (let ((_let_23 (tptp.fn_chromosome_8 _let_1))) (let ((_let_24 (tptp.fn_chromosome_4 _let_1))) (let ((_let_25 (tptp.fn_dna_replication_initiation_14 X))) (let ((_let_26 (tptp.fn_dna_replication_initiation_19 X))) (let ((_let_27 (tptp.fn_chromosome_7 _let_1))) (let ((_let_28 (tptp.fn_dna_replication_initiation_32 X))) (let ((_let_29 (tptp.fn_dna_replication_initiation_26 X))) (let ((_let_30 (tptp.fn_helicase_3 _let_29))) (let ((_let_31 (tptp.fn_dna_replication_initiation_12 X))) (let ((_let_32 (tptp.fn_impair_1 _let_31))) (let ((_let_33 (tptp.fn_dna_replication_initiation_13 X))) (let ((_let_34 (tptp.fn_dna_replication_initiation_27 X))) (let ((_let_35 (tptp.fn_dna_replication_initiation_23 X))) (let ((_let_36 (tptp.fn_add_1 _let_35))) (let ((_let_37 (tptp.fn_dna_replication_initiation_22 X))) (let ((_let_38 (tptp.fn_dna_replication_initiation_20 X))) (let ((_let_39 (tptp.fn_create_1 _let_38))) (let ((_let_40 (tptp.fn_dna_replication_initiation_17 X))) (let ((_let_41 (tptp.fn_attach_1 _let_14))) (let ((_let_42 (tptp.fn_dna_replication_initiation_16 X))) (let ((_let_43 (tptp.fn_attach_1 _let_11))) (let ((_let_44 (tptp.fn_dna_replication_initiation_24 X))) (let ((_let_45 (tptp.fn_add_2 _let_35))) (let ((_let_46 (tptp.fn_dna_replication_initiation_21 X))) (let ((_let_47 (tptp.fn_dna_replication_initiation_7 X))) (let ((_let_48 (tptp.fn_dna_replication_initiation_8 X))) (let ((_let_49 (tptp.fn_dna_replication_initiation_3 X))) (let ((_let_50 (tptp.fn_dna_replication_initiation_6 X))) (let ((_let_51 (tptp.fn_dna_replication_initiation_4 X))) (let ((_let_52 (tptp.fn_dna_replication_initiation_5 X))) (let ((_let_53 (tptp.fn_dna_replication_initiation_1 X))) (let ((_let_54 (tptp.fn_dna_replication_initiation_2 X))) (=> (tptp.dna_replication_initiation_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-Initiation'|) (tptp.user_description_2 X |tptp.'The events that begin the cell_'s process of copying its DNA, including unwinding of the DNA at the origin of replication, synthesis of new DNA strands, and the formation of a replication fork.'|) (tptp.concept2words_2 X |tptp.'replication initiation'|) (tptp.concept2words_2 X |tptp.'dna replication initiation'|) (tptp.concept2words_2 X |tptp.'initiate replication'|) (tptp.concept2words_2 X |tptp.'dna-replication-initiation'|) (tptp.dna_replication_phase_1 X) (tptp.dna_strand_1 _let_53) (tptp.dna_strand_1 _let_54) (tptp.dna_polymerase_1 _let_49) (tptp.expand_1 _let_51) (tptp.dna_piece_1 _let_52) (tptp.rna_priming_1 _let_50) (tptp.phosphate_group_1 _let_47) (tptp.energy_1 _let_48) (tptp.move_1 _let_3) (tptp.move_1 _let_5) (tptp.move_1 _let_7) (tptp.break_1 _let_31) (tptp.pyrophosphate_1 _let_33) (tptp.entity_1 _let_25) (tptp.dna_1 _let_25) (tptp.chromosome_1 _let_1) (tptp.replication_initiator_protein_1 _let_42) (tptp.replication_bubble_1 _let_40) (tptp.move_apart_1 _let_9) (tptp.spatial_entity_1 _let_26) (tptp.dna_strand_1 _let_26) (tptp.create_1 _let_38) (tptp.primer_1 _let_46) (tptp.deoxyribonucleotide_1 _let_37) (tptp.add_1 _let_35) (tptp.single_strand_binding_protein_1 _let_44) (tptp.attach_1 _let_11) (tptp.helicase_1 _let_29) (tptp.dna_sequence_1 _let_34) (tptp.attach_1 _let_14) (tptp.recognize_1 _let_19) (tptp.coil_1 _let_17) (tptp.protein_1 _let_22) (tptp.origin_of_replication_1 _let_28) (tptp.spatial_entity_1 _let_45) (tptp.spatial_entity_1 _let_43) (tptp.spatial_entity_1 _let_41) (tptp.entity_1 _let_39) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_32) (tptp.move_apart_1 _let_30) (tptp.origin_of_replication_1 _let_27) (tptp.entity_1 _let_24) (tptp.dna_1 _let_24) (tptp.coil_1 _let_23) (tptp.protein_1 _let_21) (tptp.entity_1 _let_20) (tptp.entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.dna_strand_1 _let_2) (not (= _let_53 _let_54)) (tptp.complement_2 _let_53 _let_54) (not (= _let_54 _let_53)) (tptp.complement_2 _let_54 _let_53) (tptp.next_event_2 _let_19 _let_14) (tptp.agent_2 _let_19 _let_42) (tptp.next_event_2 _let_14 _let_9) (tptp.has_part_2 _let_34 _let_54) (tptp.has_part_2 _let_34 _let_53) (tptp.is_inside_2 _let_34 _let_28) (tptp.is_at_2 _let_34 _let_26) (tptp.next_event_2 _let_11 _let_50) (tptp.agent_2 _let_35 _let_49) (tptp.exactCardinality _let_35 tptp.result_0 |"1"| tptp.pyrophosphate_0) (tptp.exactCardinality _let_35 tptp.result_0 |"1"| tptp.dna_piece_0) (tptp.result_2 _let_35 _let_33) (tptp.result_2 _let_35 _let_52) (tptp.next_event_2 _let_35 _let_31) (tptp.raw_material_2 _let_35 _let_48) (tptp.next_event_2 _let_38 _let_11) (tptp.base_2 _let_51 _let_40) (tptp.base_2 X _let_25) (tptp.result_2 X _let_40) (tptp.result_2 X _let_52) (tptp.minCardinality X tptp.site_0 |"1"| tptp.origin_of_replication_0) (tptp.site_2 X _let_28) (tptp.minCardinality X tptp.subevent_0 |"2"| tptp.add_0) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_35) (tptp.subevent_2 X _let_50) (tptp.subevent_2 X _let_51) (tptp.subevent_2 X _let_38) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_19) (tptp.first_subevent_2 X _let_19) (tptp.causes_2 _let_9 _let_38) (tptp.next_event_2 _let_9 _let_38) (tptp.agent_2 _let_9 _let_42) (tptp.first_subevent_2 _let_9 _let_3) (tptp.subevent_2 _let_9 _let_3) (tptp.next_event_2 _let_50 _let_51) (tptp.next_event_2 _let_50 _let_35) (tptp.has_part_2 _let_1 _let_34) (tptp.agent_2 _let_31 _let_49) (tptp.exactCardinality _let_31 tptp.result_0 |"2"| tptp.phosphate_group_0) (tptp.result_2 _let_31 _let_48) (tptp.result_2 _let_31 _let_47) (tptp.origin_2 _let_7 _let_34) (tptp.origin_2 _let_5 _let_34) (tptp.origin_2 _let_3 _let_34) (tptp.base_2 _let_35 _let_46) (tptp.object_2 _let_11 _let_44) (tptp.object_2 _let_7 _let_26) (tptp.base_2 _let_11 _let_26) (tptp.object_2 _let_5 _let_26) (tptp.object_2 _let_9 _let_26) (tptp.object_2 _let_3 _let_26) (tptp.object_2 _let_14 _let_42) (tptp.result_2 _let_38 _let_40) (tptp.object_2 _let_35 _let_37) (tptp.object_2 _let_19 _let_34) (tptp.object_2 _let_17 _let_34) (tptp.origin_2 _let_9 _let_34) (tptp.base_2 _let_14 _let_34) (tptp.object_2 _let_31 _let_33) (tptp.agent_2 _let_9 _let_29) (tptp.has_region_2 _let_1 _let_28) (tptp.has_part_2 _let_1 _let_25) (tptp.has_part_2 _let_25 _let_26) (tptp.has_part_2 _let_1 _let_22) (tptp.agent_2 _let_17 _let_22) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_26 _let_8) (= _let_26 _let_12) (= _let_26 _let_6) (= _let_26 _let_13) (= _let_26 _let_10) (= _let_26 _let_4) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_37 _let_36) (= _let_34 _let_20) (= _let_34 _let_18) (= _let_34 _let_16) (= _let_34 _let_15) (= _let_33 _let_32) (= _let_9 _let_30) (= _let_28 _let_27) (= _let_26 _let_2) (= _let_25 _let_24) (= _let_17 _let_23) (= _let_22 _let_21) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_6 _let_10) (= _let_10 _let_4) (= _let_4 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_replication_phase_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-Phase'|) (tptp.user_description_2 X |tptp.'Phase of DNA Replication'|) (tptp.concept2words_2 X |tptp.'undergo the dna replication phase'|) (tptp.concept2words_2 X |tptp.'undergo the dna-replication phase'|) (tptp.concept2words_2 X |tptp.'dna replication phase'|) (tptp.concept2words_2 X |tptp.'dna-replication-phase'|) (tptp.nucleic_acid_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dna_replication_termination_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-Termination'|) (tptp.user_description_2 X |tptp.'The completion of the cell_'s process of copying its DNA.'|) (tptp.concept2words_2 X |tptp.'terminate replication'|) (tptp.concept2words_2 X |tptp.'dna replication termination'|) (tptp.concept2words_2 X |tptp.'dna-replication-termination'|) (tptp.dna_replication_phase_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.experiencer_2 X X1) (tptp.dna_replication_termination_1 X) (tptp.eukaryote_1 X1)) (and (tptp.dna_replication_termination_in_eukaryotes_1 X) (= (tptp.fn_dna_replication_termination_in_eukaryotes_6 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_replication_termination_in_eukaryotes_9 X))) (let ((_let_2 (tptp.fn_telomerase_4 _let_1))) (let ((_let_3 (tptp.fn_dna_replication_termination_in_eukaryotes_8 X))) (let ((_let_4 (tptp.fn_dna_replication_termination_in_eukaryotes_11 X))) (let ((_let_5 (tptp.fn_chemical_reaction_1 _let_4))) (let ((_let_6 (tptp.fn_dna_replication_termination_in_eukaryotes_10 X))) (let ((_let_7 (tptp.fn_dna_replication_termination_in_eukaryotes_5 X))) (let ((_let_8 (tptp.fn_dna_replication_termination_in_eukaryotes_4 X))) (let ((_let_9 (tptp.fn_dna_replication_termination_in_eukaryotes_3 X))) (let ((_let_10 (tptp.fn_dna_replication_termination_in_eukaryotes_2 X))) (let ((_let_11 (tptp.fn_dna_replication_termination_in_eukaryotes_1 X))) (let ((_let_12 (tptp.fn_dna_replication_termination_in_eukaryotes_6 X))) (=> (tptp.dna_replication_termination_in_eukaryotes_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Replication-Termination-In-Eukaryotes'|) (tptp.user_description_2 X |tptp.'DNA replication completes in eukaryotes with Telomerase enzyme extending the 3_' end of one of the DNA strand to complete it while Primase and DNA polymerase completing the synthesis of second DNA strand'|) (tptp.concept2words_2 X |tptp.'terminate replication'|) (tptp.concept2words_2 X |tptp.'dna replication termination in eukaryote'|) (tptp.concept2words_2 X |tptp.'dna-replication-termination-in-eukaryote'|) (tptp.dna_replication_termination_1 X) (tptp.number_3_prime_end_1 _let_11) (tptp.telomere_with_3_prime_overhang_1 _let_10) (tptp.parental_strands_1 _let_9) (tptp.dna_primase_1 _let_8) (tptp.dna_polymerase_1 _let_7) (tptp.eukaryote_1 _let_12) (tptp.elongation_1 _let_3) (tptp.telomerase_1 _let_1) (tptp.daughter_strands_1 _let_6) (tptp.synthesis_reaction_1 _let_4) (tptp.chemical_entity_1 _let_5) (tptp.increase_1 _let_2) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_4) (tptp.result_2 X _let_6) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.daughter_strands_0) (tptp.first_subevent_2 X _let_3) (tptp.experiencer_2 X _let_12) (tptp.object_2 _let_3 _let_11) (tptp.next_event_2 _let_3 _let_4) (tptp.result_2 _let_3 _let_6) (tptp.result_2 _let_3 _let_10) (tptp.exactCardinality _let_3 tptp.result_0 |"1"| tptp.daughter_strands_0) (tptp.exactCardinality _let_4 tptp.result_0 |"3"| tptp.daughter_strands_0) (tptp.exactCardinality _let_4 tptp.result_0 |"1"| tptp.daughter_strands_0) (tptp.base_2 _let_4 _let_9) (tptp.agent_2 _let_4 _let_8) (tptp.agent_2 _let_4 _let_7) (tptp.result_2 _let_4 _let_6) (tptp.agent_2 _let_3 _let_1) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_sequence_1 X))) (let ((_let_2 (tptp.fn_dna_sequence_2 X))) (=> (tptp.dna_sequence_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Sequence'|) (tptp.user_description_2 X |tptp.'DNA sequence is a sequence of DNA which performs a specific function based on the specific pattern of arrangement of its deoxyribonucleotide components along its length.'|) (tptp.concept2words_2 X |tptp.'sequence of dna'|) (tptp.concept2words_2 X |tptp.'dna sequence'|) (tptp.concept2words_2 X |tptp.'dna-sequence'|) (tptp.nucleic_acid_sequence_1 X) (tptp.deoxyribonucleoside_monophosphate_1 _let_1) (tptp.deoxyribonucleoside_monophosphate_1 _let_2) (tptp.element_2 X _let_1) (tptp.next_element_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.first_element_2 X _let_1) (= _let_2 (tptp.fn_nucleic_acid_sequence_6 X)) (= _let_1 (tptp.fn_nucleic_acid_sequence_5 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_sequencing_6 X))) (let ((_let_2 (tptp.fn_dna_sequencing_5 X))) (let ((_let_3 (tptp.fn_dna_sequencing_4 X))) (let ((_let_4 (tptp.fn_dna_sequencing_2 X))) (let ((_let_5 (tptp.fn_dna_sequencing_3 X))) (let ((_let_6 (tptp.fn_dna_sequencing_1 X))) (=> (tptp.dna_sequencing_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Sequencing'|) (tptp.user_description_2 X |tptp.'A method for determining the order of the nucleotide bases (adenine, guanine, cytosine, and thymine) in a molecule of DNA.'|) (tptp.concept2words_2 X tptp.sequence) (tptp.concept2words_2 X |tptp.'dna sequencing'|) (tptp.concept2words_2 X |tptp.'dna-sequencing'|) (tptp.determine_order_1 X) (tptp.cloning_vector_1 _let_6) (tptp.role_1 _let_4) (tptp.sequencing_machine_1 _let_5) (tptp.dna_sequence_1 _let_3) (tptp.dna_piece_1 _let_2) (tptp.dna_piece_1 _let_1) (tptp.instrument_2 X _let_6) (tptp.plays_2 _let_5 _let_4) (tptp.in_event_2 _let_4 X) (tptp.has_part_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_2) (tptp.object_2 X _let_1) (tptp.next_element_2 _let_1 _let_2) (tptp.object_2 X _let_2) (tptp.result_2 X _let_3) (= _let_3 (tptp.fn_determine_order_5 X)) (= _let_2 (tptp.fn_determine_order_4 X)) (= _let_1 (tptp.fn_determine_order_3 X))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_strand_60 X))) (let ((_let_2 (tptp.fn_nucleoside_20 _let_1))) (let ((_let_3 (tptp.fn_dna_strand_68 X))) (let ((_let_4 (tptp.fn_deoxyribonucleotide_8 _let_3))) (let ((_let_5 (tptp.fn_dna_strand_61 X))) (let ((_let_6 (tptp.fn_carbohydrate_36 _let_5))) (let ((_let_7 (tptp.fn_molecule_10 _let_5))) (let ((_let_8 (tptp.fn_nucleoside_10 _let_1))) (let ((_let_9 (tptp.fn_carbohydrate_30 _let_5))) (let ((_let_10 (tptp.fn_dna_strand_75 X))) (let ((_let_11 (tptp.fn_phosphodiester_bond_6 _let_10))) (let ((_let_12 (tptp.fn_nucleoside_11 _let_1))) (let ((_let_13 (tptp.fn_carbohydrate_38 _let_5))) (let ((_let_14 (tptp.fn_phosphodiester_bond_27 _let_10))) (let ((_let_15 (tptp.fn_phosphodiester_bond_18 _let_10))) (let ((_let_16 (tptp.fn_dna_strand_50 X))) (let ((_let_17 (tptp.fn_chemical_element_11 _let_16))) (let ((_let_18 (tptp.fn_dna_strand_45 X))) (let ((_let_19 (tptp.fn_molecule_11 _let_18))) (let ((_let_20 (tptp.fn_phosphodiester_bond_15 _let_10))) (let ((_let_21 (tptp.fn_phosphodiester_bond_16 _let_10))) (let ((_let_22 (tptp.fn_molecule_11 _let_5))) (let ((_let_23 (tptp.fn_nucleoside_7 _let_1))) (let ((_let_24 (tptp.fn_nucleoside_monophosphate_11 _let_3))) (let ((_let_25 (tptp.fn_deoxyribonucleotide_7 _let_3))) (let ((_let_26 (tptp.fn_organic_molecule_1 _let_1))) (let ((_let_27 (tptp.fn_organic_molecule_2 _let_1))) (let ((_let_28 (tptp.fn_dna_strand_54 X))) (let ((_let_29 (tptp.fn_nucleoside_monophosphate_11 _let_28))) (let ((_let_30 (tptp.fn_deoxyribonucleotide_7 _let_28))) (let ((_let_31 (tptp.fn_dna_strand_62 X))) (let ((_let_32 (tptp.fn_organic_molecule_1 _let_31))) (let ((_let_33 (tptp.fn_organic_molecule_2 _let_31))) (let ((_let_34 (tptp.fn_nucleoside_21 _let_31))) (let ((_let_35 (tptp.fn_dna_strand_66 X))) (let ((_let_36 (tptp.fn_cytosine_1 _let_35))) (let ((_let_37 (tptp.fn_dna_strand_17 X))) (let ((_let_38 (tptp.fn_share_1 _let_37))) (let ((_let_39 (tptp.fn_share_3 _let_37))) (let ((_let_40 (tptp.fn_dna_strand_89 X))) (let ((_let_41 (tptp.fn_share_3 _let_40))) (let ((_let_42 (tptp.fn_dna_strand_86 X))) (let ((_let_43 (tptp.fn_share_3 _let_42))) (let ((_let_44 (tptp.fn_dna_strand_33 X))) (let ((_let_45 (tptp.fn_share_3 _let_44))) (let ((_let_46 (tptp.fn_nucleic_acid_26 X))) (let ((_let_47 (tptp.fn_share_1 _let_40))) (let ((_let_48 (tptp.fn_nucleic_acid_6 X))) (let ((_let_49 (tptp.fn_share_1 _let_42))) (let ((_let_50 (tptp.fn_dna_strand_20 X))) (let ((_let_51 (tptp.fn_share_1 _let_50))) (let ((_let_52 (tptp.fn_share_1 _let_44))) (let ((_let_53 (tptp.fn_share_3 _let_50))) (let ((_let_54 (tptp.fn_share_2 _let_37))) (let ((_let_55 (tptp.fn_nucleic_acid_25 X))) (let ((_let_56 (tptp.fn_dna_strand_88 X))) (let ((_let_57 (tptp.fn_covalent_bond_15 _let_56))) (let ((_let_58 (tptp.fn_dna_strand_18 X))) (let ((_let_59 (tptp.fn_covalent_bond_15 _let_58))) (let ((_let_60 (tptp.fn_dna_strand_19 X))) (let ((_let_61 (tptp.fn_covalent_bond_15 _let_60))) (let ((_let_62 (tptp.fn_covalent_bond_18 _let_60))) (let ((_let_63 (tptp.fn_share_2 _let_40))) (let ((_let_64 (tptp.fn_nucleic_acid_24 X))) (let ((_let_65 (tptp.fn_covalent_bond_18 _let_56))) (let ((_let_66 (tptp.fn_covalent_bond_18 _let_58))) (let ((_let_67 (tptp.fn_nucleic_acid_27 X))) (let ((_let_68 (tptp.fn_covalent_bond_20 _let_56))) (let ((_let_69 (tptp.fn_covalent_bond_20 _let_58))) (let ((_let_70 (tptp.fn_covalent_bond_20 _let_60))) (let ((_let_71 (tptp.fn_covalent_bond_19 _let_56))) (let ((_let_72 (tptp.fn_covalent_bond_19 _let_58))) (let ((_let_73 (tptp.fn_covalent_bond_19 _let_60))) (let ((_let_74 (tptp.fn_nucleic_acid_23 X))) (let ((_let_75 (tptp.fn_covalent_bond_17 _let_60))) (let ((_let_76 (tptp.fn_nucleic_acid_12 X))) (let ((_let_77 (tptp.fn_covalent_bond_16 _let_56))) (let ((_let_78 (tptp.fn_covalent_bond_17 _let_56))) (let ((_let_79 (tptp.fn_phosphodiester_bond_6 _let_60))) (let ((_let_80 (tptp.fn_nucleic_acid_20 X))) (let ((_let_81 (tptp.fn_dna_strand_74 X))) (let ((_let_82 (tptp.fn_attach_1 _let_81))) (let ((_let_83 (tptp.fn_attach_2 _let_81))) (let ((_let_84 (tptp.fn_nucleoside_monophosphate_25 _let_3))) (let ((_let_85 (tptp.fn_nucleotide_3 _let_3))) (let ((_let_86 (tptp.fn_nucleoside_monophosphate_24 _let_3))) (let ((_let_87 (tptp.fn_nucleoside_monophosphate_26 _let_3))) (let ((_let_88 (tptp.fn_organic_molecule_1 _let_3))) (let ((_let_89 (tptp.fn_nucleoside_monophosphate_24 _let_28))) (let ((_let_90 (tptp.fn_organic_molecule_1 _let_28))) (let ((_let_91 (tptp.fn_nucleoside_monophosphate_26 _let_28))) (let ((_let_92 (tptp.fn_deoxyribonucleotide_5 _let_3))) (let ((_let_93 (tptp.fn_organic_molecule_2 _let_3))) (let ((_let_94 (tptp.fn_chemical_element_12 _let_16))) (let ((_let_95 (tptp.fn_organic_molecule_2 _let_28))) (let ((_let_96 (tptp.fn_deoxyribonucleotide_5 _let_28))) (let ((_let_97 (tptp.fn_dna_strand_49 X))) (let ((_let_98 (tptp.fn_dna_strand_53 X))) (let ((_let_99 (tptp.fn_dna_strand_56 X))) (let ((_let_100 (tptp.fn_carbohydrate_11 _let_5))) (let ((_let_101 (tptp.fn_dna_strand_51 X))) (let ((_let_102 (tptp.fn_carbohydrate_45 _let_5))) (let ((_let_103 (tptp.fn_dna_strand_55 X))) (let ((_let_104 (tptp.fn_dna_strand_57 X))) (let ((_let_105 (tptp.fn_dna_strand_76 X))) (let ((_let_106 (tptp.fn_nucleoside_21 _let_1))) (let ((_let_107 (tptp.fn_dna_strand_67 X))) (let ((_let_108 (tptp.fn_dna_strand_65 X))) (let ((_let_109 (tptp.fn_dna_strand_29 X))) (let ((_let_110 (tptp.fn_dna_strand_28 X))) (let ((_let_111 (tptp.fn_dna_strand_83 X))) (let ((_let_112 (tptp.fn_dna_strand_34 X))) (let ((_let_113 (tptp.fn_nucleic_acid_35 X))) (let ((_let_114 (tptp.fn_dna_strand_15 X))) (let ((_let_115 (tptp.fn_dna_strand_31 X))) (let ((_let_116 (tptp.fn_dna_strand_37 X))) (let ((_let_117 (tptp.fn_dna_strand_35 X))) (let ((_let_118 (tptp.fn_dna_strand_27 X))) (let ((_let_119 (tptp.fn_dna_strand_87 X))) (let ((_let_120 (tptp.fn_dna_strand_21 X))) (let ((_let_121 (tptp.fn_dna_strand_22 X))) (let ((_let_122 (tptp.fn_dna_strand_43 X))) (let ((_let_123 (tptp.fn_dna_strand_44 X))) (let ((_let_124 (tptp.fn_dna_strand_30 X))) (let ((_let_125 (tptp.fn_dna_strand_84 X))) (let ((_let_126 (tptp.fn_dna_strand_39 X))) (let ((_let_127 (tptp.fn_dna_strand_38 X))) (let ((_let_128 (tptp.fn_dna_strand_40 X))) (let ((_let_129 (tptp.fn_dna_strand_41 X))) (let ((_let_130 (tptp.fn_dna_strand_47 X))) (let ((_let_131 (tptp.fn_dna_strand_46 X))) (let ((_let_132 (tptp.fn_dna_strand_42 X))) (let ((_let_133 (tptp.fn_nucleoside_monophosphate_22 _let_3))) (let ((_let_134 (tptp.fn_dna_strand_71 X))) (let ((_let_135 (tptp.fn_nucleoside_monophosphate_14 _let_3))) (let ((_let_136 (tptp.fn_dna_strand_70 X))) (let ((_let_137 (tptp.fn_nucleoside_monophosphate_13 _let_3))) (let ((_let_138 (tptp.fn_dna_strand_69 X))) (let ((_let_139 (tptp.fn_nucleoside_monophosphate_12 _let_3))) (let ((_let_140 (tptp.fn_dna_strand_72 X))) (let ((_let_141 (tptp.fn_dna_strand_73 X))) (let ((_let_142 (tptp.fn_dna_strand_58 X))) (let ((_let_143 (tptp.fn_nucleoside_monophosphate_36 _let_3))) (let ((_let_144 (tptp.fn_nucleoside_monophosphate_35 _let_3))) (let ((_let_145 (tptp.fn_covalent_bond_1 _let_56))) (let ((_let_146 (tptp.fn_dna_strand_85 X))) (let ((_let_147 (tptp.fn_dna_strand_63 X))) (let ((_let_148 (tptp.fn_dna_strand_59 X))) (let ((_let_149 (tptp.fn_covalent_bond_17 _let_58))) (let ((_let_150 (tptp.fn_dna_strand_52 X))) (let ((_let_151 (tptp.fn_dna_strand_64 X))) (let ((_let_152 (tptp.fn_dna_strand_16 X))) (let ((_let_153 (tptp.fn_molecule_10 _let_18))) (let ((_let_154 (tptp.fn_dna_strand_32 X))) (let ((_let_155 (tptp.fn_dna_strand_12 X))) (let ((_let_156 (tptp.fn_dna_strand_11 X))) (let ((_let_157 (tptp.fn_dna_strand_14 X))) (let ((_let_158 (tptp.fn_dna_strand_13 X))) (=> (tptp.dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Strand'|) (tptp.user_description_2 X |tptp.'DNA strand is a strand of the DNA having a double helical structure'|) (tptp.concept2words_2 X |tptp.'strand of dna'|) (tptp.concept2words_2 X |tptp.'dna strand'|) (tptp.concept2words_2 X |tptp.'dna-strand'|) (tptp.nucleic_acid_strand_1 X) (not (tptp.tata_box_1 X)) (not (tptp.constant_region_dna_sequence_1 X)) (not (tptp.control_element_1 X)) (not (tptp.episome_1 X)) (not (tptp.genetic_marker_1 X)) (not (tptp.pseudogene_1 X)) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.restriction_site_1 X)) (not (tptp.telomere_1 X)) (not (tptp.transcription_unit_1 X)) (not (tptp.transposon_1 X)) (not (tptp.ttaggg_1 X)) (tptp.system_1 (tptp.fn_dna_strand_1 X)) (tptp.system_1 (tptp.fn_dna_strand_2 X)) (tptp.system_1 (tptp.fn_dna_strand_3 X)) (tptp.system_1 (tptp.fn_dna_strand_4 X)) (tptp.system_1 (tptp.fn_dna_strand_5 X)) (tptp.system_1 (tptp.fn_dna_strand_6 X)) (tptp.system_1 (tptp.fn_dna_strand_7 X)) (tptp.system_1 (tptp.fn_dna_strand_8 X)) (tptp.system_1 (tptp.fn_dna_strand_9 X)) (tptp.system_1 (tptp.fn_dna_strand_10 X)) (tptp.number_5_prime_end_1 _let_156) (tptp.number_3_prime_end_1 _let_155) (tptp.thymine_1 _let_158) (tptp.gene_1 _let_157) (tptp.system_1 _let_114) (tptp.system_1 _let_152) (tptp.unequal_sharing_1 _let_37) (tptp.share_1 _let_37) (tptp.phosphodiester_bond_1 _let_58) (tptp.phosphodiester_bond_1 _let_60) (tptp.share_1 _let_50) (tptp.unequal_sharing_1 _let_50) (tptp.asymmetrical_distribution_1 _let_120) (tptp.constant_motion_1 _let_121) (tptp.entity_1 _let_118) (tptp.chemical_entity_1 _let_118) (tptp.atom_1 _let_118) (tptp.oxygen_1 _let_118) (tptp.hydrogen_1 _let_110) (tptp.chemical_entity_1 _let_110) (tptp.atom_1 _let_110) (tptp.entity_1 _let_110) (tptp.oxygen_1 _let_109) (tptp.entity_1 _let_109) (tptp.system_1 _let_124) (tptp.atomic_number_value_1 _let_115) (tptp.phosphodiester_bond_1 _let_154) (tptp.unequal_sharing_1 _let_44) (tptp.tangible_entity_1 _let_112) (tptp.electron_1 _let_112) (tptp.valence_electron_1 _let_112) (tptp.entity_1 _let_112) (tptp.quantity_value_1 _let_117) (tptp.quantity_value_1 _let_116) (tptp.atom_1 _let_127) (tptp.chemical_entity_1 _let_127) (tptp.carbon_1 _let_126) (tptp.carbon_skeleton_1 _let_128) (tptp.kinetic_energy_1 _let_129) (tptp.constant_motion_1 _let_132) (tptp.size_value_1 _let_122) (tptp.size_value_1 _let_123) (tptp.pentose_1 _let_18) (tptp.speed_value_1 _let_131) (tptp.quantity_value_1 _let_130) (tptp.chemical_bond_1 _let_97) (tptp.polar_covalent_bond_1 _let_97) (tptp.electronegative_element_1 _let_16) (tptp.electronegativity_value_1 _let_101) (tptp.atom_1 _let_150) (tptp.share_1 _let_98) (tptp.unequal_sharing_1 _let_98) (tptp.deoxyribonucleoside_monophosphate_1 _let_28) (tptp.number_5_prime_carbon_1 _let_103) (tptp.entity_1 _let_99) (tptp.atom_1 _let_99) (tptp.chemical_entity_1 _let_99) (tptp.oxygen_1 _let_99) (tptp.number_5_prime_carbon_1 _let_104) (tptp.entity_1 _let_142) (tptp.number_5_prime_carbon_1 _let_142) (tptp.atom_1 _let_142) (tptp.carbon_1 _let_142) (tptp.entity_1 _let_148) (tptp.chemical_entity_1 _let_148) (tptp.atom_1 _let_148) (tptp.carbon_1 _let_148) (tptp.nucleoside_1 _let_1) (tptp.organic_molecule_1 _let_1) (tptp.deoxyribose_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.pentose_1 _let_5) (tptp.molecule_1 _let_5) (tptp.carbohydrate_1 _let_5) (tptp.nucleoside_1 _let_31) (tptp.organic_molecule_1 _let_31) (tptp.entity_1 _let_147) (tptp.number_5_prime_carbon_1 _let_147) (tptp.atom_1 _let_147) (tptp.carbon_1 _let_147) (tptp.entity_1 _let_151) (tptp.carbon_1 _let_151) (tptp.atom_1 _let_151) (tptp.chemical_entity_1 _let_151) (tptp.guanine_1 _let_108) (tptp.nitrogenous_base_1 _let_108) (tptp.cytosine_1 _let_35) (tptp.adenine_1 _let_107) (tptp.deoxyribonucleoside_monophosphate_1 _let_3) (tptp.speed_value_1 _let_138) (tptp.quantity_value_1 _let_136) (tptp.kinetic_energy_1 _let_134) (tptp.constant_motion_1 _let_140) (tptp.carbon_skeleton_1 _let_141) (tptp.attach_1 _let_81) (tptp.chemical_bond_1 _let_10) (tptp.phosphodiester_bond_1 _let_10) (tptp.number_5_prime_carbon_1 _let_105) (tptp.tangible_entity_1 _let_111) (tptp.electron_1 _let_111) (tptp.valence_electron_1 _let_111) (tptp.entity_1 _let_111) (tptp.constant_motion_1 _let_125) (tptp.asymmetrical_distribution_1 _let_146) (tptp.share_1 _let_42) (tptp.unequal_sharing_1 _let_42) (tptp.chemical_bond_1 _let_119) (tptp.covalent_bond_1 _let_119) (tptp.phosphodiester_bond_1 _let_119) (tptp.phosphodiester_bond_1 _let_56) (tptp.unequal_sharing_1 _let_40) (tptp.chemical_bond_1 _let_153) (tptp.share_1 _let_149) (tptp.asymmetrical_distribution_1 _let_145) (tptp.property_node_1 _let_144) (tptp.property_node_1 _let_143) (tptp.constant_motion_1 _let_139) (tptp.speed_value_1 _let_137) (tptp.quantity_value_1 _let_135) (tptp.kinetic_energy_1 _let_133) (tptp.nitrogenous_base_1 _let_106) (tptp.property_node_1 _let_102) (tptp.electronegativity_value_1 _let_100) (tptp.entity_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.atom_1 _let_96) (tptp.carbon_1 _let_96) (tptp.atom_1 _let_95) (tptp.chemical_entity_1 _let_95) (tptp.atom_1 _let_94) (tptp.atom_1 _let_93) (tptp.chemical_entity_1 _let_93) (tptp.entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.atom_1 _let_92) (tptp.carbon_1 _let_92) (tptp.entity_1 _let_91) (tptp.atom_1 _let_91) (tptp.number_5_prime_carbon_1 _let_91) (tptp.carbon_1 _let_91) (tptp.carbon_1 _let_90) (tptp.entity_1 _let_89) (tptp.number_5_prime_carbon_1 _let_89) (tptp.atom_1 _let_89) (tptp.carbon_1 _let_89) (tptp.carbon_1 _let_88) (tptp.entity_1 _let_87) (tptp.atom_1 _let_87) (tptp.number_5_prime_carbon_1 _let_87) (tptp.carbon_1 _let_87) (tptp.entity_1 _let_86) (tptp.number_5_prime_carbon_1 _let_86) (tptp.atom_1 _let_86) (tptp.carbon_1 _let_86) (tptp.carbon_skeleton_1 _let_85) (tptp.carbon_skeleton_1 _let_84) (tptp.spatial_entity_1 _let_83) (tptp.spatial_entity_1 _let_82) (tptp.share_1 _let_79) (tptp.share_1 _let_78) (tptp.constant_motion_1 _let_77) (tptp.share_1 _let_75) (tptp.entity_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.atom_1 _let_73) (tptp.entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.entity_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.atom_1 _let_71) (tptp.entity_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.atom_1 _let_70) (tptp.entity_1 _let_69) (tptp.chemical_entity_1 _let_69) (tptp.atom_1 _let_69) (tptp.entity_1 _let_68) (tptp.chemical_entity_1 _let_68) (tptp.atom_1 _let_68) (tptp.valence_electron_1 _let_66) (tptp.valence_electron_1 _let_65) (tptp.entity_1 _let_63) (tptp.valence_electron_1 _let_62) (tptp.valence_electron_1 _let_61) (tptp.valence_electron_1 _let_59) (tptp.valence_electron_1 _let_57) (tptp.entity_1 _let_54) (tptp.entity_1 _let_53) (tptp.entity_1 _let_52) (tptp.entity_1 _let_51) (tptp.entity_1 _let_49) (tptp.entity_1 _let_47) (tptp.entity_1 _let_45) (tptp.entity_1 _let_43) (tptp.entity_1 _let_41) (tptp.entity_1 _let_39) (tptp.entity_1 _let_38) (tptp.guanine_1 _let_36) (tptp.nitrogenous_base_1 _let_34) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.carbon_1 _let_32) (tptp.nucleoside_1 _let_30) (tptp.nucleoside_1 _let_29) (tptp.atom_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.carbon_1 _let_26) (tptp.nucleoside_1 _let_25) (tptp.nucleoside_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.atom_1 _let_22) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_1 _let_20) (tptp.atom_1 _let_19) (tptp.atom_1 _let_17) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_15) (tptp.atom_1 _let_14) (tptp.oxygen_1 _let_14) (tptp.entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.unequal_sharing_1 _let_12) (tptp.share_1 _let_11) (tptp.unequal_sharing_1 _let_9) (tptp.chemical_bond_1 _let_8) (tptp.polar_covalent_bond_1 _let_8) (tptp.chemical_bond_1 _let_7) (tptp.polar_covalent_bond_1 _let_6) (tptp.deoxyribose_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.molecule_1 _let_2) (tptp.organic_molecule_1 _let_2) (tptp.pentose_1 _let_2) (tptp.result_2 _let_37 _let_58) (tptp.has_part_2 _let_16 _let_99) (tptp.the_scalar_value_2 _let_101 tptp.high_0) (tptp.scalar_unit_class_2 _let_101 tptp.atom_0) (tptp.called_2 _let_148 |tptp.'A2'|) (tptp.has_part_2 _let_1 _let_158) (tptp.has_part_2 _let_1 _let_35) (tptp.has_part_2 X _let_157) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.deoxyribonucleoside_monophosphate_0) (tptp.has_region_2 X _let_156) (tptp.has_region_2 X _let_155) (tptp.base_2 _let_81 _let_3) (tptp.object_2 _let_81 _let_3) (tptp.agent_2 _let_44 _let_109) (tptp.agent_2 _let_44 _let_110) (tptp.agent_2 _let_42 _let_109) (tptp.agent_2 _let_50 _let_110) (tptp.agent_2 _let_42 _let_110) (tptp.has_part_2 X _let_28) (tptp.result_2 _let_50 _let_60) (tptp.possesses_2 _let_18 _let_10) (tptp.is_between_2 _let_10 _let_99) (tptp.has_part_2 X _let_3) (tptp.size_2 _let_3 _let_123) (tptp.result_2 _let_40 _let_56) (not (= _let_142 _let_148)) (not (= _let_148 _let_142)) (tptp.has_part_2 _let_28 _let_151) (not (= _let_147 _let_151)) (not (= _let_151 _let_147)) (tptp.is_between_2 _let_60 _let_118) (tptp.agent_2 _let_42 _let_118) (tptp.object_2 _let_42 _let_111) (tptp.has_part_2 _let_16 _let_150) (tptp.same_type_2 _let_99 _let_150) (tptp.same_type_2 _let_150 _let_99) (tptp.object_2 _let_44 _let_112) (tptp.object_2 _let_40 _let_111) (tptp.is_between_2 _let_58 _let_118) (tptp.agent_2 _let_44 _let_118) (tptp.result_2 _let_44 _let_154) (tptp.is_between_2 _let_154 _let_118) (tptp.agent_2 _let_40 _let_118) (tptp.has_part_2 _let_3 _let_148) (tptp.complement_2 _let_108 _let_35) (tptp.complement_2 _let_35 _let_108) (tptp.has_part_2 _let_28 _let_31) (tptp.has_part_2 _let_28 _let_147) (tptp.called_2 _let_147 |tptp.'A2'|) (tptp.object_2 _let_121 _let_112) (tptp.object_2 _let_50 _let_111) (tptp.is_between_2 _let_56 _let_118) (tptp.agent_2 _let_50 _let_118) (tptp.object_2 _let_50 _let_112) (tptp.object_2 _let_146 _let_112) (tptp.causes_2 _let_125 _let_146) (tptp.has_part_2 _let_1 _let_5) (tptp.object_2 _let_140 _let_3) (tptp.has_part_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_142) (tptp.has_region_2 _let_3 _let_141) (tptp.is_inside_2 _let_142 _let_141) (tptp.called_2 _let_142 |tptp.'A2'|) (tptp.possesses_2 _let_3 _let_134) (tptp.quantity_2 _let_134 _let_136) (tptp.directly_proportional_2 _let_138 _let_136) (tptp.speed_2 _let_140 _let_138) (tptp.called_2 _let_115 |tptp.'Atomic_Number'|) (tptp.has_part_2 _let_118 _let_111) (tptp.called_2 _let_116 |tptp.'Number_Proton'|) (tptp.object_2 _let_125 _let_112) (tptp.agent_2 _let_50 _let_109) (tptp.size_2 X _let_122) (tptp.greater_than_2 _let_122 _let_123) (tptp.is_between_2 _let_119 _let_118) (tptp.result_2 _let_42 _let_119) (tptp.object_2 _let_42 _let_112) (tptp.object_2 _let_120 _let_112) (tptp.causes_2 _let_121 _let_120) (tptp.agent_2 _let_37 _let_110) (not (= _let_110 _let_109)) (not (= _let_109 _let_118)) (not (= _let_118 _let_110)) (not (= _let_110 _let_118)) (not (= _let_109 _let_110)) (not (= _let_118 _let_109)) (tptp.quantity_2 _let_112 _let_117) (tptp.object_2 _let_37 _let_112) (tptp.agent_2 _let_37 _let_118) (not (= _let_111 _let_112)) (not (= _let_112 _let_111)) (tptp.called_2 _let_117 |tptp.'Number_Electron'|) (= _let_116 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_115 _let_116) (tptp.electronegativity_2 _let_99 _let_101) (tptp.agent_2 _let_98 _let_99) (tptp.result_2 _let_98 _let_97) (tptp.possesses_2 _let_5 _let_97) (not (= _let_103 _let_99)) (not (= _let_99 _let_103)) (tptp.result_2 _let_98 _let_10) (tptp.agent_2 _let_98 _let_103) (tptp.is_between_2 _let_10 _let_103) (tptp.is_between_2 _let_97 _let_103) (tptp.has_part_2 _let_1 _let_104) (tptp.has_part_2 _let_31 _let_105) (tptp.has_part_2 _let_1 _let_107) (tptp.has_part_2 _let_31 _let_108) (tptp.agent_2 _let_37 _let_109) (tptp.agent_2 _let_40 _let_110) (tptp.agent_2 _let_40 _let_109) (tptp.object_2 _let_37 _let_111) (tptp.object_2 _let_40 _let_112) (= _let_3 _let_83) (= _let_3 _let_82) (= _let_109 _let_45) (= _let_110 _let_52) (= _let_109 _let_43) (= _let_110 _let_53) (= _let_110 _let_51) (= _let_110 _let_49) (= _let_28 (tptp.fn_polymer_4 X)) (= _let_50 _let_79) (= _let_99 _let_19) (= _let_10 _let_153) (= _let_152 _let_113) (= _let_3 _let_80) (= _let_142 _let_88) (= _let_147 _let_90) (= _let_151 _let_96) (= _let_151 _let_95) (= _let_111 _let_62) (= _let_111 _let_61) (= _let_42 _let_75) (= _let_118 _let_73) (= _let_118 _let_70) (= _let_99 _let_17) (= _let_150 _let_17) (= _let_150 _let_94) (= _let_112 _let_66) (= _let_111 _let_59) (= _let_40 _let_78) (= _let_40 _let_149) (= _let_118 _let_72) (= _let_44 _let_149) (= _let_118 _let_69) (= _let_148 _let_93) (= _let_148 _let_92) (= _let_108 _let_36) (= _let_31 _let_30) (= _let_31 _let_29) (= _let_147 _let_91) (= _let_147 _let_89) (= _let_121 _let_77) (= _let_111 _let_57) (= _let_125 _let_77) (= _let_146 _let_145) (= _let_112 _let_65) (= _let_50 _let_78) (= _let_118 _let_71) (= _let_118 _let_68) (= _let_5 _let_4) (= _let_1 _let_25) (= _let_1 _let_24) (= (tptp.fn_dna_strand_79 X) _let_144) (= (tptp.fn_dna_strand_80 X) _let_143) (= _let_142 _let_87) (= _let_142 _let_86) (= _let_141 _let_85) (= _let_141 _let_84) (= _let_140 _let_139) (= _let_138 _let_137) (= _let_136 _let_135) (= _let_134 _let_133) (= (tptp.fn_dna_strand_77 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_dna_strand_78 X) (tptp.fn_molecule_1 X)) (= _let_132 (tptp.fn_molecule_8 X)) (= _let_131 (tptp.fn_molecule_3 X)) (= _let_130 (tptp.fn_molecule_4 X)) (= _let_129 (tptp.fn_molecule_12 X)) (= _let_128 (tptp.fn_organic_molecule_3 X)) (= _let_127 (tptp.fn_organic_molecule_2 X)) (= _let_126 (tptp.fn_organic_molecule_1 X)) (= (tptp.fn_dna_strand_26 X) (tptp.fn_nucleic_acid_32 X)) (= (tptp.fn_dna_strand_25 X) (tptp.fn_nucleic_acid_31 X)) (= (tptp.fn_dna_strand_82 X) (tptp.fn_nucleic_acid_33 X)) (= (tptp.fn_dna_strand_23 X) (tptp.fn_nucleic_acid_30 X)) (= _let_125 _let_76) (= _let_50 _let_74) (= _let_124 _let_113) (= (tptp.fn_dna_strand_24 X) (tptp.fn_nucleic_acid_36 X)) (= (tptp.fn_dna_strand_81 X) (tptp.fn_nucleic_acid_34 X)) (= _let_123 (tptp.fn_nucleic_acid_28 X)) (= _let_122 (tptp.fn_nucleic_acid_29 X)) (= _let_121 _let_76) (= _let_120 (tptp.fn_nucleic_acid_11 X)) (= _let_112 _let_55) (= _let_42 _let_74) (= _let_119 (tptp.fn_nucleic_acid_22 X)) (= _let_109 _let_46) (= _let_110 _let_48) (= _let_118 _let_67) (= _let_37 _let_74) (= _let_111 _let_55) (= _let_112 _let_64) (= _let_117 (tptp.fn_nucleic_acid_10 X)) (= _let_116 (tptp.fn_nucleic_acid_9 X)) (= _let_115 (tptp.fn_nucleic_acid_7 X)) (= (tptp.fn_dna_strand_36 X) (tptp.fn_nucleic_acid_8 X)) (= _let_114 _let_113) (= _let_112 _let_63) (= _let_111 _let_54) (= _let_109 _let_41) (= _let_110 _let_47) (= _let_109 _let_39) (= _let_109 _let_38) (= _let_108 _let_34) (= _let_107 _let_106) (= _let_105 _let_33) (= _let_105 _let_32) (= _let_104 _let_27) (= _let_104 _let_26) (= _let_103 _let_22) (= _let_103 _let_23) (= _let_98 _let_11) (= _let_99 _let_15) (= _let_99 _let_14) (= _let_103 _let_21) (= _let_103 _let_20) (= (tptp.fn_dna_strand_48 X) _let_102) (= _let_101 _let_100) (= _let_99 _let_13) (= _let_98 _let_12) (= _let_98 _let_9) (= _let_5 _let_2) (= _let_97 _let_8) (= _let_97 _let_7) (= _let_97 _let_6) (= _let_95 _let_95) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_17) (= _let_17 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_86 _let_86) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_84) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_80) (= _let_80 _let_80) (= _let_80 _let_77) (= _let_76 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_74) (= _let_74 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_70 _let_73) (= _let_73 _let_70) (= _let_70 _let_71) (= _let_71 _let_72) (= _let_72 _let_72) (= _let_72 _let_69) (= _let_68 _let_71) (= _let_71 _let_68) (= _let_68 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_55) (= _let_55 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_57 _let_61) (= _let_61 _let_59) (= _let_59 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_48) (= _let_48 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_43 _let_46) (= _let_46 _let_46) (= _let_46 _let_41) (= _let_39 _let_45) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.dna_technique_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Technique'|) (tptp.user_description_2 X |tptp.'Laboratory techniques used when working with DNA'|) (tptp.concept2words_2 X |tptp.'technique of dna'|) (tptp.concept2words_2 X |tptp.'dna technique'|) (tptp.concept2words_2 X |tptp.'dna-technique'|) (tptp.technique_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_template_2 X))) (let ((_let_2 (tptp.fn_dna_template_3 X))) (let ((_let_3 (tptp.fn_dna_template_1 X))) (=> (tptp.dna_template_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Template'|) (tptp.user_description_2 X |tptp.'A DNA strand that acts as a template for DNA replication or for transcription.'|) (tptp.concept2words_2 X |tptp.'template strand'|) (tptp.concept2words_2 X |tptp.'template-strand'|) (tptp.concept2words_2 X |tptp.'template of dna'|) (tptp.concept2words_2 X |tptp.'dna template'|) (tptp.concept2words_2 X |tptp.'dna-template'|) (tptp.dna_strand_1 X) (tptp.promoter_1 _let_3) (tptp.transcription_unit_1 _let_1) (tptp.terminator_sequence_1 _let_2) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_2) (tptp.abuts_2 _let_3 _let_1) (tptp.abuts_2 _let_1 _let_3) (tptp.abuts_2 _let_1 _let_2) (tptp.abuts_2 _let_2 _let_1))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.transfer_1 X) (tptp.nucleic_acid_process_1 X) (tptp.dna_piece_1 X1)) (and (tptp.dna_transfer_1 X) (= (tptp.fn_dna_transfer_7 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_transfer_7 X))) (let ((_let_2 (tptp.fn_dna_transfer_5 X))) (let ((_let_3 (tptp.fn_dna_transfer_1 X))) (let ((_let_4 (tptp.fn_dna_transfer_2 X))) (let ((_let_5 (tptp.fn_dna_transfer_3 X))) (let ((_let_6 (tptp.fn_dna_transfer_4 X))) (=> (tptp.dna_transfer_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Transfer'|) (tptp.user_description_2 X |tptp.'Transfer of DNA fragment from one bacterial cell to another bacterial cell resulting in a recombinant bacteria.'|) (tptp.concept2words_2 X |tptp.'natural process of recombination in bacteria'|) (tptp.concept2words_2 X |tptp.'natural processes of recombination in bacteria'|) (tptp.concept2words_2 X |tptp.'bacterial gene transfer'|) (tptp.concept2words_2 X tptp.transfer) (tptp.concept2words_2 X |tptp.'transfer of dna'|) (tptp.concept2words_2 X |tptp.'dna transfer'|) (tptp.concept2words_2 X |tptp.'dna-transfer'|) (tptp.nucleic_acid_process_1 X) (tptp.transfer_1 X) (tptp.recombination_1 _let_3) (tptp.recombinant_1 _let_4) (tptp.prokaryote_1 _let_5) (tptp.bacterium_1 _let_6) (tptp.genetic_variation_1 _let_2) (tptp.dna_piece_1 _let_1) (tptp.object_2 _let_2 _let_6) (tptp.destination_2 X _let_5) (tptp.result_2 X _let_4) (tptp.enables_2 X _let_3) (tptp.causes_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_transfer_1 X))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_virus_2 X))) (let ((_let_2 (tptp.fn_dna_virus_1 X))) (=> (tptp.dna_virus_1 X) (and (tptp.original_name_2 X |tptp.'DNA-Virus'|) (tptp.user_description_2 X |tptp.'A virus whose genetic material is DNA.'|) (tptp.concept2words_2 X |tptp.'virus of dna'|) (tptp.concept2words_2 X |tptp.'dna virus'|) (tptp.concept2words_2 X |tptp.'dna-virus'|) (tptp.virus_1 X) (tptp.genome_1 _let_2) (tptp.dna_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.element_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_with_shortened_telomere_8 X))) (let ((_let_2 (tptp.fn_chromosome_4 _let_1))) (let ((_let_3 (tptp.fn_nucleic_acid_20 X))) (let ((_let_4 (tptp.fn_polymer_4 X))) (let ((_let_5 (tptp.fn_dna_with_shortened_telomere_16 X))) (let ((_let_6 (tptp.fn_dna_with_shortened_telomere_15 X))) (let ((_let_7 (tptp.fn_dna_with_shortened_telomere_17 X))) (let ((_let_8 (tptp.fn_dna_with_shortened_telomere_14 X))) (let ((_let_9 (tptp.fn_dna_with_shortened_telomere_9 X))) (let ((_let_10 (tptp.fn_dna_with_shortened_telomere_12 X))) (let ((_let_11 (tptp.fn_dna_with_shortened_telomere_5 X))) (let ((_let_12 (tptp.fn_dna_with_shortened_telomere_6 X))) (let ((_let_13 (tptp.fn_dna_with_shortened_telomere_11 X))) (let ((_let_14 (tptp.fn_dna_with_shortened_telomere_18 X))) (let ((_let_15 (tptp.fn_dna_with_shortened_telomere_4 X))) (let ((_let_16 (tptp.fn_dna_with_shortened_telomere_13 X))) (let ((_let_17 (tptp.fn_dna_with_shortened_telomere_2 X))) (let ((_let_18 (tptp.fn_telomere_3 _let_17))) (let ((_let_19 (tptp.fn_telomere_8 _let_17))) (let ((_let_20 (tptp.fn_dna_with_shortened_telomere_1 X))) (let ((_let_21 (tptp.fn_telomere_5 _let_17))) (let ((_let_22 (tptp.fn_chromosome_8 _let_1))) (let ((_let_23 (tptp.fn_dna_with_shortened_telomere_10 X))) (let ((_let_24 (tptp.fn_chromosome_3 _let_1))) (let ((_let_25 (tptp.fn_dna_with_shortened_telomere_7 X))) (=> (tptp.dna_with_shortened_telomere_1 X) (and (tptp.original_name_2 X |tptp.'DNA-With-Shortened-Telomere'|) (tptp.user_description_2 X |tptp.'The shortening of the telomere regions of the chromosomes which are located at the ends of each chromosome.'|) (tptp.concept2words_2 X |tptp.'dna with shortened telomere'|) (tptp.concept2words_2 X |tptp.'dna-with-shortened-telomere'|) (tptp.dna_1 X) (tptp.size_value_1 _let_20) (tptp.telomere_1 _let_17) (tptp.size_value_1 _let_15) (tptp.quantity_value_1 _let_11) (tptp.speed_value_1 _let_12) (tptp.protein_1 _let_25) (tptp.chromosome_1 _let_1) (tptp.eukaryotic_chromosome_1 _let_1) (tptp.carbon_skeleton_1 _let_9) (tptp.coil_1 _let_23) (tptp.constant_motion_1 _let_13) (tptp.kinetic_energy_1 _let_10) (tptp.size_value_1 _let_16) (tptp.carbon_1 _let_8) (tptp.dna_strand_1 _let_6) (tptp.dna_strand_1 _let_5) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.monomer_1 _let_14) (tptp.nucleoside_monophosphate_1 _let_14) (tptp.protein_1 _let_24) (tptp.coil_1 _let_22) (tptp.property_node_1 _let_21) (tptp.size_value_1 _let_19) (tptp.eukaryotic_chromosome_1 _let_18) (tptp.entity_1 _let_2) (tptp.dna_1 _let_2) (tptp.the_scalar_value_2 _let_20 tptp.small_0) (tptp.scalar_unit_class_2 _let_20 tptp.telomere_0) (tptp.has_part_2 _let_1 X) (tptp.object_2 _let_23 X) (tptp.agent_2 _let_23 _let_25) (tptp.has_part_2 _let_1 _let_25) (tptp.is_at_2 _let_17 _let_1) (tptp.has_part_2 _let_1 _let_17) (tptp.size_2 _let_17 _let_20) (tptp.has_part_2 X _let_14) (tptp.size_2 _let_14 _let_15) (tptp.greater_than_2 _let_16 _let_15) (tptp.size_2 X _let_16) (tptp.possesses_2 X _let_10) (tptp.quantity_2 _let_10 _let_11) (tptp.directly_proportional_2 _let_12 _let_11) (tptp.speed_2 _let_13 _let_12) (tptp.object_2 _let_13 X) (tptp.has_part_2 X _let_7) (not (= _let_7 _let_8)) (tptp.is_inside_2 _let_8 _let_9) (tptp.has_region_2 X _let_9) (tptp.has_part_2 X _let_8) (not (= _let_8 _let_7)) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_5) (tptp.complement_2 _let_6 _let_5) (tptp.complement_2 _let_5 _let_6) (not (= _let_6 _let_5)) (not (= _let_5 _let_6)) (= _let_25 _let_24) (= _let_23 _let_22) (= X _let_2) (= (tptp.fn_dna_with_shortened_telomere_3 X) _let_21) (= _let_20 _let_19) (= _let_1 _let_18) (= (tptp.fn_dna_with_shortened_telomere_19 X) (tptp.fn_nucleic_acid_33 X)) (= (tptp.fn_dna_with_shortened_telomere_22 X) (tptp.fn_nucleic_acid_34 X)) (= _let_16 (tptp.fn_nucleic_acid_29 X)) (= _let_15 (tptp.fn_nucleic_acid_28 X)) (= _let_14 _let_4) (= _let_14 _let_3) (= (tptp.fn_dna_with_shortened_telomere_21 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_dna_with_shortened_telomere_20 X) (tptp.fn_molecule_1 X)) (= _let_13 (tptp.fn_molecule_8 X)) (= _let_12 (tptp.fn_molecule_3 X)) (= _let_11 (tptp.fn_molecule_4 X)) (= _let_10 (tptp.fn_molecule_12 X)) (= _let_9 (tptp.fn_organic_molecule_3 X)) (= _let_8 (tptp.fn_organic_molecule_1 X)) (= _let_7 (tptp.fn_organic_molecule_2 X)) (= _let_6 (tptp.fn_dna_2 X)) (= _let_5 (tptp.fn_dna_11 X)) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_document_1 X))) (let ((_let_2 (tptp.fn_express_1 _let_1))) (=> (tptp.document_1 X) (and (tptp.original_name_2 X |tptp.'Document'|) (tptp.description_2 X |tptp.'a written message'|) (tptp.concept2words_2 X tptp.document) (tptp.concept2words_2 X |tptp.'written document'|) (tptp.concept2words_2 X tptp.written_document) (tptp.concept2words_2 X tptp.papers) (tptp.message_1 X) (not (tptp.message_field_1 X)) (not (tptp.recording_1 X)) (tptp.write_1 _let_1) (tptp.message_1 _let_2) (tptp.result_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammal_cloning_18 X))) (let ((_let_2 (tptp.fn_mammal_cloning_13 X))) (let ((_let_3 (tptp.fn_mammal_cloning_16 X))) (let ((_let_4 (tptp.fn_mammal_cloning_17 X))) (let ((_let_5 (tptp.fn_mammal_cloning_14 X))) (let ((_let_6 (tptp.fn_mammal_cloning_15 X))) (let ((_let_7 (tptp.fn_mammal_cloning_9 X))) (let ((_let_8 (tptp.fn_dolly_cloning_6 X))) (let ((_let_9 (tptp.fn_dolly_cloning_15 X))) (let ((_let_10 (tptp.fn_dolly_cloning_9 X))) (let ((_let_11 (tptp.fn_dolly_cloning_10 X))) (let ((_let_12 (tptp.fn_dolly_cloning_11 X))) (let ((_let_13 (tptp.fn_dolly_cloning_13 X))) (let ((_let_14 (tptp.fn_dolly_cloning_14 X))) (let ((_let_15 (tptp.fn_dolly_cloning_8 X))) (let ((_let_16 (tptp.fn_dolly_cloning_12 X))) (let ((_let_17 (tptp.fn_dolly_cloning_7 X))) (let ((_let_18 (tptp.fn_add_2 _let_9))) (let ((_let_19 (tptp.fn_dolly_cloning_5 X))) (let ((_let_20 (tptp.fn_dolly_cloning_4 X))) (let ((_let_21 (tptp.fn_dolly_cloning_3 X))) (let ((_let_22 (tptp.fn_dolly_cloning_2 X))) (let ((_let_23 (tptp.fn_dolly_cloning_1 X))) (=> (tptp.dolly_cloning_1 X) (and (tptp.original_name_2 X |tptp.'Dolly-Cloning'|) (tptp.user_description_2 X |tptp.'Dolly, a cloned sheep, was the first reported production of a healthy clone proving that a cell taken from a specific part of the body could recreate a whole individual.'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cloning of dolly'|) (tptp.concept2words_2 X |tptp.'dolly cloning'|) (tptp.concept2words_2 X |tptp.'dolly-cloning'|) (tptp.mammal_cloning_1 X) (tptp.g0_phase_1 _let_23) (tptp.egg_1 _let_22) (tptp.egg_cell_1 _let_22) (tptp.enucleated_cell_1 _let_22) (tptp.time_interval_1 _let_21) (tptp.time_interval_1 _let_20) (tptp.egg_cell_1 _let_19) (tptp.enucleated_cell_1 _let_19) (tptp.remove_1 _let_8) (tptp.life_cycle_1 _let_17) (tptp.growth_1 _let_15) (tptp.mammary_cell_1 _let_10) (tptp.change_1 _let_11) (tptp.culturing_1 _let_12) (tptp.add_1 _let_16) (tptp.culture_medium_1 _let_13) (tptp.transfer_1 _let_14) (tptp.add_1 _let_9) (tptp.fusion_1 _let_9) (tptp.spatial_entity_1 _let_18) (tptp.time_during_2 _let_16 _let_21) (tptp.time_during_2 _let_12 _let_20) (tptp.object_2 _let_23 _let_10) (tptp.next_event_2 _let_17 _let_15) (tptp.result_2 _let_8 _let_22) (tptp.time_before_2 _let_21 _let_20) (tptp.base_2 _let_9 _let_19) (tptp.subevent_2 X _let_17) (tptp.subevent_2 X _let_16) (tptp.next_event_2 _let_16 _let_12) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_9) (tptp.next_event_2 _let_12 _let_11) (tptp.base_2 _let_12 _let_13) (tptp.destination_2 _let_14 _let_13) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_8) (tptp.next_event_2 _let_8 _let_9) (tptp.object_2 _let_9 _let_10) (tptp.object_2 _let_11 _let_10) (tptp.subevent_2 X _let_11) (= _let_19 _let_18) (= _let_17 (tptp.fn_mammal_cloning_8 X)) (= _let_12 _let_7) (= _let_16 _let_5) (= _let_15 (tptp.fn_mammal_cloning_7 X)) (= _let_14 (tptp.fn_mammal_cloning_19 X)) (= _let_13 (tptp.fn_mammal_cloning_24 X)) (= _let_12 _let_6) (= _let_11 (tptp.fn_mammal_cloning_11 X)) (= _let_10 (tptp.fn_mammal_cloning_25 X)) (= _let_9 _let_5) (= _let_9 _let_4) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_8 _let_1) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.domain_1 X) (and (tptp.original_name_2 X |tptp.'Domain'|) (tptp.user_description_2 X |tptp.'In biological taxonomy, a category higher than the kingdom level. Modern taxonomists currently recognize three biological domains: Bacteria, Archaea, and Eukarya.'|) (tptp.concept2words_2 X tptp.domain) (tptp.taxon_1 X)))) (forall ((X $$unsorted)) (=> (tptp.domain_bacteria_1 X) (and (tptp.original_name_2 X |tptp.'Domain-Bacteria'|) (tptp.user_description_2 X |tptp.'One of two prokaryotic domains, the other being Archaea.'|) (tptp.concept2words_2 X tptp.eubacteria) (tptp.concept2words_2 X |tptp.'domain bacteria'|) (tptp.concept2words_2 X |tptp.'bacteria of domain'|) (tptp.concept2words_2 X |tptp.'domain bacterium'|) (tptp.concept2words_2 X |tptp.'domain-bacteria'|) (tptp.domain_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dominance_hierarchy_1 X) (and (tptp.original_name_2 X |tptp.'Dominance-Hierarchy'|) (tptp.user_description_2 X |tptp.'A linear pecking order of animals, where position in the order dictates one_'s social position in the group.'|) (tptp.concept2words_2 X |tptp.'hierarchy of dominance'|) (tptp.concept2words_2 X |tptp.'dominance hierarchy'|) (tptp.concept2words_2 X |tptp.'dominance-hierarchy'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dominant_1 X) (and (tptp.original_name_2 X |tptp.'Dominant'|) (tptp.user_description_2 X |tptp.'Genotype in which one copy of the allele is sufficient to yield a phenotype of the trait.'|) (tptp.concept2words_2 X tptp.dominant) (tptp.genotype_1 X) (not (tptp.recessive_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dominant_allele_1 X) (and (tptp.original_name_2 X |tptp.'Dominant-Allele'|) (tptp.user_description_2 X |tptp.'An allele that is fully expressed in the phenotype of a heterozygote.'|) (tptp.concept2words_2 X |tptp.'allele of dominant'|) (tptp.concept2words_2 X |tptp.'dominant allele'|) (tptp.concept2words_2 X |tptp.'dominant-allele'|) (tptp.allele_1 X) (not (tptp.recessive_allele_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dominant_male_2 X))) (let ((_let_2 (tptp.fn_dominant_male_1 X))) (=> (tptp.dominant_male_1 X) (and (tptp.original_name_2 X |tptp.'Dominant-Male'|) (tptp.user_description_2 X |tptp.'A male who has the dominant allele for an X chromosome gene.'|) (tptp.concept2words_2 X |tptp.'male of dominant'|) (tptp.concept2words_2 X |tptp.'dominant male'|) (tptp.concept2words_2 X |tptp.'dominant-male'|) (tptp.dominant_1 X) (not (tptp.heterozygous_female_1 X)) (not (tptp.homozygous_dominant_female_1 X)) (not (tptp.recessive_male_1 X)) (not (tptp.x_dominant_and_y_1 X)) (tptp.x_chromosome_dominant_1 _let_2) (tptp.code_for_1 _let_1) (tptp.donor_2 _let_1 X) (tptp.has_part_2 X _let_2) (tptp.agent_2 _let_1 X) (= _let_1 (tptp.fn_genotype_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.dominant_phenotype_1 X) (and (tptp.original_name_2 X |tptp.'Dominant-Phenotype'|) (tptp.user_description_2 X |tptp.'The phenotype of a genotype containing the dominant allele; the parental phenotype that is expressed in a heterozygote,'|) (tptp.concept2words_2 X |tptp.'phenotype of dominant'|) (tptp.concept2words_2 X |tptp.'dominant phenotype'|) (tptp.concept2words_2 X |tptp.'dominant-phenotype'|) (tptp.phenotype_1 X) (not (tptp.blood_type_phenotype_1 X)) (not (tptp.codominant_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.mutant_phenotype_1 X)) (not (tptp.mutant_type_1 X)) (not (tptp.parental_type_1 X)) (not (tptp.phenotype_of_offspring_1 X)) (not (tptp.phenotype_of_parent_1 X)) (not (tptp.trait_on_a_range_1 X)) (not (tptp.trait_on_a_scale_1 X)) (not (tptp.wild_type_1 X)) (not (tptp.x_chromosome_phenotype_dominant_1 X)) (not (tptp.x_chromosome_phenotype_recessive_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dominant_species_1 X))) (=> (tptp.dominant_species_1 X) (and (tptp.original_name_2 X |tptp.'Dominant-Species'|) (tptp.user_description_2 X |tptp.'A species whose abundance or biomass is substantially higher than other species in the community. Many ecological communities are defined by their dominant species, which can control the abundance and distribution of other species.'|) (tptp.concept2words_2 X |tptp.'dominant-species'|) (tptp.concept2words_2 X |tptp.'species of dominant'|) (tptp.concept2words_2 X |tptp.'dominant species'|) (tptp.concept2words_2 X |tptp.'dominant-specy'|) (tptp.ecological_role_1 X) (tptp.species_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dominant_trait_3 X))) (let ((_let_2 (tptp.fn_gene_13 _let_1))) (let ((_let_3 (tptp.fn_dominant_trait_2 X))) (let ((_let_4 (tptp.fn_gene_14 _let_1))) (let ((_let_5 (tptp.fn_gene_15 _let_1))) (let ((_let_6 (tptp.fn_dominant_trait_1 X))) (=> (tptp.dominant_trait_1 X) (and (tptp.original_name_2 X |tptp.'Dominant-Trait'|) (tptp.user_description_2 X |tptp.'A genetic trait in which one copy of the gene is sufficient to yield a phenotype of the trait.'|) (tptp.concept2words_2 X |tptp.'trait of dominant'|) (tptp.concept2words_2 X |tptp.'dominant trait'|) (tptp.concept2words_2 X |tptp.'dominant-trait'|) (tptp.trait_1 X) (not (tptp.heterozygous_trait_incomplete_dominance_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.recessive_trait_1 X)) (tptp.inheritance_1 _let_6) (tptp.code_for_1 _let_3) (tptp.dominant_allele_1 _let_1) (tptp.inheritance_1 _let_5) (tptp.trait_1 _let_4) (tptp.code_for_1 _let_2) (tptp.minCardinality _let_6 tptp.object_0 |"1"| tptp.dominant_allele_0) (tptp.object_2 _let_6 _let_1) (tptp.agent_2 _let_3 _let_1) (tptp.result_2 _let_3 X) (= _let_6 _let_5) (= X _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_donate_1 X))) (=> (tptp.donate_1 X) (and (tptp.original_name_2 X |tptp.'Donate'|) (tptp.concept2words_2 X tptp.donate) (tptp.concept2words_2 X tptp.give) (tptp.give_1 X) (tptp.tangible_entity_1 _let_1) (tptp.beneficiary_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_donor_role_1 X))) (=> (tptp.donor_role_1 X) (and (tptp.original_name_2 X |tptp.'Donor-Role'|) (tptp.concept2words_2 X tptp.donor) (tptp.concept2words_2 X tptp.giver) (tptp.concept2words_2 X tptp.presenter) (tptp.concept2words_2 X |tptp.'role of donor'|) (tptp.concept2words_2 X |tptp.'donor role'|) (tptp.concept2words_2 X |tptp.'donor-role'|) (tptp.role_1 X) (tptp.entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_door_2 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_door_1 X))) (=> (tptp.door_1 X) (and (tptp.original_name_2 X |tptp.'Door'|) (tptp.description_2 X |tptp.'an architectural structure that is part of another architectural structure and playing a portal-covering'|) (tptp.concept2words_2 X tptp.door) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X)) (not (tptp.laboratory_1 X)) (tptp.architectural_structure_1 _let_3) (tptp.portal_covering_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 _let_3 X) (tptp.plays_2 X _let_1) (= X _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.dopamine_1 X) (and (tptp.original_name_2 X |tptp.'Dopamine'|) (tptp.user_description_2 X |tptp.'A catecholamine neurotransmitter.'|) (tptp.concept2words_2 X tptp.dopamine) (tptp.catecholamine_1 X) (not (tptp.epinephrine_1 X)) (not (tptp.melatonin_1 X)) (not (tptp.norepinephrine_1 X)) (not (tptp.t3_1 X)) (not (tptp.t4_1 X)) (not (tptp.serotonin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dormancy_1 X) (and (tptp.original_name_2 X |tptp.'Dormancy'|) (tptp.user_description_2 X |tptp.'A period in an organism_'s life cycle when growth, development, and activity are temporarily stopped.'|) (tptp.concept2words_2 X tptp.dormancy) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dorsal_1 X) (and (tptp.original_name_2 X |tptp.'Dorsal'|) (tptp.user_description_2 X |tptp.'Region on the back of the body. Opposite of ventral.'|) (tptp.concept2words_2 X tptp.back) (tptp.concept2words_2 X tptp.dorsal) (tptp.anatomical_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dorsal_lip_1 X) (and (tptp.original_name_2 X |tptp.'Dorsal-Lip'|) (tptp.user_description_2 X |tptp.'In amphibian embryos, the dorsal edge of the blastopore, which is important in establishing the neural tube and logitudinal axis.'|) (tptp.concept2words_2 X |tptp.'lip of dorsal'|) (tptp.concept2words_2 X |tptp.'dorsal lip'|) (tptp.concept2words_2 X |tptp.'dorsal-lip'|) (tptp.embryonic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dorsal_ventral_axis_1 X) (and (tptp.original_name_2 X |tptp.'Dorsal-Ventral-Axis'|) (tptp.user_description_2 X |tptp.'A body axis connecting the dorsal and ventral side.'|) (tptp.concept2words_2 X |tptp.'back belly axis'|) (tptp.concept2words_2 X |tptp.'dorsal ventral axis'|) (tptp.concept2words_2 X |tptp.'dorsal-ventral axis'|) (tptp.concept2words_2 X |tptp.'dorsal-ventral-axis'|) (tptp.body_axis_1 X) (not (tptp.anterior_posterior_axis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.double_bond_1 X) (and (tptp.original_name_2 X |tptp.'Double-Bond'|) (tptp.user_description_2 X |tptp.'A type of covalent bond in which two pairs of valence electrons are shared between two atoms.'|) (tptp.concept2words_2 X |tptp.'double covalent bond'|) (tptp.concept2words_2 X |tptp.'double-covalent-bond'|) (tptp.concept2words_2 X |tptp.'bond of double'|) (tptp.concept2words_2 X |tptp.'double bond'|) (tptp.concept2words_2 X |tptp.'double-bond'|) (tptp.covalent_bond_1 X) (not (tptp.single_bond_1 X))))) (forall ((X $$unsorted)) (=> (tptp.double_circulation_1 X) (and (tptp.original_name_2 X |tptp.'Double-Circulation'|) (tptp.user_description_2 X |tptp.'In vertebrate circulatory systems, the condition of having separate pulmonary and systemic loops, with blood passing through the heart at the end of each loop.'|) (tptp.concept2words_2 X |tptp.'circulation of double'|) (tptp.concept2words_2 X |tptp.'double circulation'|) (tptp.concept2words_2 X |tptp.'double-circulation'|) (tptp.cardiovascular_system_1 X) (not (tptp.single_circulation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.double_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'Double-Fertilization'|) (tptp.user_description_2 X |tptp.'Fertilization mechanism in angiosperms in which the female gametophyte joins with two sperm. One sperm fertilizes the egg cell to produce the zygote and the other sperm joins with the two polar haploid nuclei of the female gametophyte to form the endosperm.'|) (tptp.concept2words_2 X |tptp.'undergo double fertilization'|) (tptp.concept2words_2 X |tptp.'fertilization of double'|) (tptp.concept2words_2 X |tptp.'double fertilization'|) (tptp.concept2words_2 X |tptp.'double-fertilization'|) (tptp.plant_fertilization_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_down_syndrome_2 X))) (let ((_let_2 (tptp.fn_down_syndrome_3 X))) (let ((_let_3 (tptp.fn_down_syndrome_1 X))) (=> (tptp.down_syndrome_1 X) (and (tptp.original_name_2 X |tptp.'Down-Syndrome'|) (tptp.user_description_2 X |tptp.'Trisomy 21; a human genetic disease in which patients have three copies of chromsome 21. Down Syndrome is characterized by some degree of mental retardation and a variety of physical defects.'|) (tptp.concept2words_2 X |tptp.'trisomy 21'|) (tptp.concept2words_2 X |tptp.'trisomy-21'|) (tptp.concept2words_2 X |tptp.'syndrome of down'|) (tptp.concept2words_2 X |tptp.'down syndrome'|) (tptp.concept2words_2 X |tptp.'down-syndrome'|) (tptp.chromosomal_disorder_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.alkaptonuria_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X)) (tptp.chromosome_21_1 _let_3) (tptp.person_1 _let_1) (tptp.has_condition_1 _let_2) (tptp.has_part_2 _let_1 _let_3) (tptp.exactCardinality _let_1 tptp.has_part_0 |"3"| tptp.chromosome_21_0) (tptp.object_2 _let_2 X) (tptp.experiencer_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.downy_mildew_1 X) (and (tptp.original_name_2 X |tptp.'Downy-Mildew'|) (tptp.user_description_2 X |tptp.'Group of molds from the Peronosporaceae, which cause disease in agricultural and other plants.'|) (tptp.concept2words_2 X tptp.oomycota) (tptp.concept2words_2 X |tptp.'downy mildew'|) (tptp.concept2words_2 X |tptp.'downy-mildew'|) (tptp.oomycete_1 X)))) (forall ((X $$unsorted)) (=> (tptp.dragonfly_1 X) (and (tptp.original_name_2 X |tptp.'Dragonfly'|) (tptp.user_description_2 X |tptp.'An insect of the order Odonata, distinguised from damselfies by the habit of holding their wings perpendicular to the body when at rest. Dragonflies have large compound eyes and hunt their insect prey on the wing.'|) (tptp.concept2words_2 X tptp.dragonfly) (tptp.odonata_1 X) (not (tptp.damselfly_1 X))))) (forall ((X $$unsorted)) (=> (tptp.drawer_1 X) (and (tptp.original_name_2 X |tptp.'Drawer'|) (tptp.concept2words_2 X tptp.drawer) (tptp.furniture_1 X) (not (tptp.shelf_1 X)) (not (tptp.cabinet_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_drosophila_development_94 X))) (let ((_let_2 (tptp.fn_synthesis_of_mrna_3 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_rna_8 _let_1))) (let ((_let_4 (tptp.fn_drosophila_development_84 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_drosophila_development_90 X))) (let ((_let_7 (tptp.fn_transfer_1 _let_6))) (let ((_let_8 (tptp.fn_drosophila_development_92 X))) (let ((_let_9 (tptp.fn_bicoid_mrna_7 _let_8))) (let ((_let_10 (tptp.fn_drosophila_development_131 X))) (let ((_let_11 (tptp.fn_embryogenesis_43 _let_10))) (let ((_let_12 (tptp.fn_drosophila_development_118 X))) (let ((_let_13 (tptp.fn_add_2 _let_12))) (let ((_let_14 (tptp.fn_drosophila_development_153 X))) (let ((_let_15 (tptp.fn_gene_activation_10 _let_14))) (let ((_let_16 (tptp.fn_gene_regulation_1 _let_14))) (let ((_let_17 (tptp.fn_gene_activation_7 _let_14))) (let ((_let_18 (tptp.fn_drosophila_development_147 X))) (let ((_let_19 (tptp.fn_gene_activation_7 _let_18))) (let ((_let_20 (tptp.fn_gene_activation_9 _let_18))) (let ((_let_21 (tptp.fn_gene_activation_10 _let_18))) (let ((_let_22 (tptp.fn_gene_regulation_1 _let_18))) (let ((_let_23 (tptp.fn_drosophila_development_157 X))) (let ((_let_24 (tptp.fn_segmentation_gene_2 _let_23))) (let ((_let_25 (tptp.fn_drosophila_development_161 X))) (let ((_let_26 (tptp.fn_gene_activation_7 _let_25))) (let ((_let_27 (tptp.fn_drosophila_development_173 X))) (let ((_let_28 (tptp.fn_kinetic_energy_2 _let_27))) (let ((_let_29 (tptp.fn_gene_activation_10 _let_25))) (let ((_let_30 (tptp.fn_gene_regulation_1 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_let_128) (tptp.time_interval_1 _let_106) (tptp.pattern_formation_1 _let_108) (tptp.entity_1 _let_185) (tptp.entity_1 _let_182) (tptp.animal_1 _let_179) (tptp.entity_1 _let_176) (tptp.entity_1 _let_173) (tptp.entity_1 _let_170) (tptp.entity_1 _let_167) (tptp.spatial_entity_1 _let_165) (tptp.entity_1 _let_163) (tptp.entity_1 _let_160) (tptp.spatial_entity_1 _let_157) (tptp.entity_1 _let_154) (tptp.entity_1 _let_152) (tptp.entity_1 _let_150) (tptp.gene_1 _let_147) (tptp.entity_1 _let_145) (tptp.entity_1 _let_143) (tptp.spatial_entity_1 _let_140) (tptp.entity_1 _let_139) (tptp.multinucleated_cell_1 _let_136) (tptp.chemical_entity_1 _let_132) (tptp.protein_1 _let_132) (tptp.mixture_1 _let_129) (tptp.constant_motion_1 _let_127) (tptp.oogenesis_1 _let_125) (tptp.carbon_1 _let_121) (tptp.create_1 _let_118) (tptp.entity_1 _let_115) (tptp.produce_1 _let_113) (tptp.egg_shell_1 _let_110) (tptp.chemical_entity_1 _let_103) (tptp.protein_1 _let_103) (tptp.transcription_factor_1 _let_103) (tptp.entity_1 _let_100) (tptp.entity_1 _let_98) (tptp.entity_1 _let_96) (tptp.zygote_1 _let_91) (tptp.create_1 _let_89) (tptp.blastula_1 _let_87) (tptp.fertilization_1 _let_82) (tptp.pattern_formation_1 _let_80) (tptp.create_1 _let_78) (tptp.create_1 _let_76) (tptp.synthesis_of_protein_1 _let_75) (tptp.transcription_1 _let_73) (tptp.chemical_entity_1 _let_71) (tptp.protein_1 _let_71) (tptp.transcription_factor_1 _let_71) (tptp.chemical_entity_1 _let_69) (tptp.protein_1 _let_69) (tptp.transcription_factor_1 _let_69) (tptp.gene_expression_1 _let_67) (tptp.anterior_end_1 _let_63) (tptp.collecting_1 _let_61) (tptp.synthesis_of_mrna_1 _let_60) (tptp.chemical_entity_1 _let_59) (tptp.chemical_entity_1 _let_58) (tptp.protein_1 _let_56) (tptp.gene_1 _let_54) (tptp.entity_1 _let_53) (tptp.gene_1 _let_53) (tptp.gene_1 _let_52) (tptp.entity_1 _let_51) (tptp.gene_1 _let_51) (tptp.entity_1 _let_49) (tptp.larva_1 _let_47) (tptp.gene_expression_1 _let_45) (tptp.gene_expression_1 _let_44) (tptp.gene_expression_1 _let_42) (tptp.gene_expression_1 _let_40) (tptp.eight_cell_stage_1 _let_38) (tptp.chemical_entity_1 _let_37) (tptp.protein_1 _let_37) (tptp.thing_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.chemical_entity_1 _let_33) (tptp.protein_1 _let_32) (tptp.gene_1 _let_30) (tptp.entity_1 _let_29) (tptp.gene_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.gene_expression_1 _let_26) (tptp.gene_expression_1 _let_24) (tptp.gene_1 _let_22) (tptp.entity_1 _let_21) (tptp.gene_1 _let_21) (tptp.gene_expression_1 _let_20) (tptp.gene_expression_1 _let_19) (tptp.gene_expression_1 _let_17) (tptp.gene_1 _let_16) (tptp.entity_1 _let_15) (tptp.gene_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.egg_1 _let_11) (tptp.egg_1 _let_9) (tptp.entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.rna_1 _let_3) (tptp.mrna_1 _let_2) (tptp.time_during_2 _let_102 _let_193) (tptp.is_inside_2 _let_130 _let_255) (tptp.subevent_2 _let_251 _let_156) (tptp.next_event_2 _let_260 _let_228) (tptp.site_2 _let_4 _let_64) (tptp.object_2 _let_230 _let_92) (tptp.object_2 _let_229 _let_259) (tptp.destination_2 _let_6 _let_65) (tptp.next_event_2 _let_6 _let_62) (tptp.origin_2 _let_6 _let_258) (tptp.next_event_2 _let_74 _let_6) (tptp.site_2 _let_74 _let_258) (tptp.base_2 _let_62 _let_65) (tptp.causes_2 _let_57 _let_144) (tptp.next_event_2 _let_55 _let_57) (tptp.has_region_2 _let_256 _let_257) (tptp.has_region_2 _let_256 _let_255) (tptp.sex_2 _let_254 _let_209) (tptp.has_part_2 _let_254 _let_240) (tptp.base_2 _let_178 _let_247) (tptp.object_2 _let_178 _let_219) (tptp.base_2 _let_159 _let_203) (tptp.result_2 _let_159 _let_253) (tptp.object_2 _let_149 _let_253) (tptp.object_2 _let_151 _let_161) (tptp.subevent_2 _let_233 _let_250) (tptp.subevent_2 _let_233 _let_46) (tptp.subevent_2 _let_233 _let_181) (tptp.subevent_2 _let_233 _let_252) (tptp.subevent_2 _let_233 _let_251) (tptp.time_during_2 _let_233 _let_190) (tptp.result_2 _let_233 _let_219) (tptp.base_2 _let_252 _let_232) (tptp.next_event_2 _let_252 _let_48) (tptp.next_event_2 _let_252 _let_181) (tptp.base_2 _let_181 _let_232) (tptp.next_event_2 _let_181 _let_48) (tptp.next_event_2 _let_46 _let_251) (tptp.object_2 _let_250 _let_109) (tptp.is_outside_2 _let_111 _let_109) (tptp.subevent_2 _let_117 _let_249) (tptp.subevent_2 _let_117 _let_25) (tptp.subevent_2 _let_117 _let_85) (tptp.subevent_2 _let_117 _let_50) (tptp.subevent_2 _let_117 _let_95) (tptp.subevent_2 _let_117 _let_217) (tptp.subevent_2 _let_117 _let_14) (tptp.subevent_2 _let_117 _let_68) (tptp.subevent_2 _let_117 _let_18) (tptp.subevent_2 _let_117 _let_72) (tptp.subevent_2 _let_117 _let_41) (tptp.subevent_2 _let_117 _let_105) (tptp.subevent_2 _let_117 _let_248) (tptp.next_event_2 _let_117 _let_169) (tptp.object_2 _let_237 _let_203) (tptp.site_2 _let_237 _let_101) (tptp.is_outside_2 _let_247 _let_219) (tptp.next_event_2 _let_36 _let_12) (tptp.base_2 _let_36 _let_246) (tptp.has_part_2 _let_246 _let_94) (tptp.time_during_2 _let_12 _let_188) (tptp.next_event_2 _let_12 _let_221) (tptp.next_event_2 _let_184 _let_12) (tptp.time_during_2 _let_184 _let_189) (tptp.agent_2 _let_184 _let_243) (tptp.agent_2 _let_184 _let_112) (tptp.raw_material_2 _let_238 _let_116) (tptp.object_2 _let_238 _let_242) (tptp.is_outside_2 _let_242 _let_186) (tptp.is_beside_2 _let_242 _let_243) (tptp.is_beside_2 _let_242 _let_112) (tptp.base_2 _let_114 _let_243) (tptp.is_beside_2 _let_112 _let_242) (tptp.has_part_2 _let_244 _let_245) (tptp.has_part_2 _let_244 _let_243) (tptp.has_part_2 _let_244 _let_112) (tptp.is_beside_2 _let_243 _let_242) (tptp.has_part_2 _let_124 _let_224) (tptp.has_part_2 _let_124 _let_226) (tptp.is_beside_2 _let_226 _let_225) (tptp.is_beside_2 _let_224 _let_225) (tptp.site_2 _let_235 _let_177) (tptp.object_2 _let_235 _let_241) (tptp.next_event_2 _let_239 _let_12) (tptp.time_during_2 _let_239 _let_189) (tptp.base_2 _let_239 _let_240) (tptp.subevent_2 X _let_239) (tptp.subevent_2 X _let_238) (tptp.subevent_2 X _let_184) (tptp.subevent_2 X _let_233) (tptp.subevent_2 X _let_220) (tptp.subevent_2 X _let_178) (tptp.base_2 _let_90 _let_203) (tptp.subevent_2 _let_81 _let_117) (tptp.subevent_2 _let_81 _let_237) (tptp.subevent_2 _let_81 _let_236) (tptp.subevent_2 _let_81 _let_235) (tptp.subevent_2 _let_81 _let_175) (tptp.subevent_2 _let_81 _let_57) (tptp.subevent_2 _let_81 _let_55) (tptp.subevent_2 _let_81 _let_144) (tptp.subevent_2 _let_81 _let_172) (tptp.subevent_2 _let_81 _let_169) (tptp.subevent_2 _let_81 _let_234) (tptp.next_event_2 _let_81 _let_233) (tptp.result_2 _let_81 _let_232) (tptp.time_during_2 _let_81 _let_191) (tptp.time_during_2 _let_31 _let_195) (tptp.next_event_2 _let_31 _let_201) (tptp.subevent_2 _let_10 _let_135) (tptp.subevent_2 _let_10 _let_227) (tptp.subevent_2 _let_10 _let_231) (tptp.subevent_2 _let_10 _let_4) (tptp.subevent_2 _let_10 _let_230) (tptp.subevent_2 _let_10 _let_229) (tptp.subevent_2 _let_10 _let_228) (tptp.subevent_2 _let_10 _let_215) (tptp.subevent_2 _let_10 _let_201) (tptp.result_2 _let_126 _let_225) (tptp.subevent_2 _let_227 _let_126) (tptp.is_beside_2 _let_225 _let_226) (tptp.is_beside_2 _let_225 _let_224) (tptp.subevent_2 _let_135 _let_223) (tptp.exactCardinality _let_135 tptp.subevent_0 |"10"| tptp.mitosis_0) (tptp.exactCardinality _let_135 tptp.subevent_0 |"10"| tptp.s_phase_0) (tptp.object_2 _let_221 _let_222) (tptp.time_during_2 _let_221 _let_196) (tptp.object_2 _let_220 _let_219) (tptp.has_region_2 _let_164 _let_97) (tptp.is_at_2 _let_171 _let_164) (tptp.has_part_2 _let_218 _let_171) (tptp.subevent_2 _let_169 _let_131) (tptp.site_2 _let_169 _let_164) (tptp.exactCardinality _let_105 tptp.object_0 |"2"| tptp.gap_gene_0) (tptp.next_event_2 _let_105 _let_217) (tptp.called_2 _let_84 |tptp.'Transcription factor 3'|) (tptp.next_event_2 _let_72 _let_95) (tptp.next_event_2 _let_119 _let_18) (tptp.agent_2 _let_119 _let_70) (tptp.called_2 _let_70 |tptp.'Transcription factor 2'|) (tptp.next_event_2 _let_68 _let_119) (tptp.next_event_2 _let_14 _let_68) (tptp.called_2 _let_104 |tptp.'Trnascription factor 1'|) (tptp.site_2 _let_217 _let_197) (tptp.agent_2 _let_217 _let_104) (tptp.next_event_2 _let_217 _let_162) (tptp.next_event_2 _let_162 _let_14) (tptp.agent_2 _let_162 _let_104) (tptp.agent_2 _let_95 _let_84) (tptp.has_part_2 _let_23 _let_216) (tptp.has_part_2 _let_23 _let_122) (tptp.has_region_2 _let_23 _let_120) (not (= _let_23 _let_123)) (not (= _let_123 _let_23)) (tptp.next_event_2 _let_85 _let_50) (tptp.agent_2 _let_215 _let_214) (tptp.in_event_2 _let_213 _let_210) (tptp.plays_2 _let_211 _let_213) (tptp.object_2 _let_212 _let_88) (tptp.agent_2 _let_212 _let_205) (tptp.is_outside_2 _let_205 _let_88) (tptp.raw_material_2 _let_210 _let_211) (tptp.base_2 _let_210 _let_88) (tptp.has_part_2 _let_88 _let_205) (tptp.time_during_2 _let_86 _let_192) (tptp.is_outside_2 _let_166 _let_158) (tptp.the_categorical_value_2 _let_209 tptp.female_0) (tptp.plays_2 _let_206 _let_208) (tptp.in_event_2 _let_208 _let_207) (tptp.base_2 _let_207 _let_88) (tptp.raw_material_2 _let_207 _let_206) (tptp.agent_2 _let_204 _let_205) (tptp.object_2 _let_204 _let_88) (tptp.base_2 _let_153 _let_203) (tptp.result_2 _let_153 _let_202) (tptp.object_2 _let_142 _let_155) (tptp.object_2 _let_138 _let_202) (tptp.time_during_2 _let_201 _let_194) (tptp.directly_proportional_2 _let_199 _let_200) (tptp.quantity_2 _let_27 _let_200) (tptp.speed_2 _let_128 _let_199) (tptp.has_region_2 _let_198 _let_197) (tptp.time_before_2 _let_188 _let_196) (tptp.time_before_2 _let_188 _let_106) (tptp.time_before_2 _let_106 _let_187) (tptp.time_before_2 _let_195 _let_194) (tptp.time_before_2 _let_193 _let_192) (tptp.time_before_2 _let_191 _let_190) (tptp.time_before_2 _let_189 _let_188) (tptp.time_during_2 _let_108 _let_187) (tptp.object_2 _let_6 _let_8) (tptp.object_2 _let_4 _let_8) (tptp.result_2 _let_184 _let_186) (tptp.result_2 _let_181 _let_183) (tptp.result_2 _let_48 _let_109) (tptp.result_2 _let_178 _let_180) (tptp.result_2 _let_175 _let_177) (tptp.result_2 _let_172 _let_174) (tptp.result_2 _let_169 _let_171) (tptp.object_2 _let_57 _let_134) (tptp.result_2 _let_119 _let_168) (tptp.object_2 _let_156 _let_166) (tptp.result_2 _let_162 _let_164) (tptp.result_2 _let_159 _let_161) (tptp.base_2 _let_156 _let_158) (tptp.result_2 _let_153 _let_155) (tptp.agent_2 _let_151 _let_34) (tptp.agent_2 _let_149 _let_34) (tptp.object_2 _let_131 _let_148) (tptp.result_2 _let_144 _let_146) (tptp.agent_2 _let_142 _let_34) (tptp.base_2 _let_4 _let_141) (tptp.agent_2 _let_138 _let_34) (tptp.result_2 _let_135 _let_137) (tptp.result_2 _let_55 _let_134) (tptp.object_2 _let_25 _let_23) (tptp.result_2 _let_131 _let_133) (tptp.destination_2 _let_57 _let_130) (tptp.possesses_2 _let_23 _let_27) (tptp.object_2 _let_128 _let_23) (tptp.object_2 _let_41 _let_43) (tptp.base_2 _let_126 _let_124) (tptp.result_2 _let_36 _let_94) (tptp.object_2 _let_105 _let_43) (tptp.next_event_2 _let_41 _let_105) (tptp.object_2 _let_50 _let_123) (tptp.next_event_2 _let_25 _let_85) (tptp.is_inside_2 _let_122 _let_120) (tptp.subevent_2 _let_117 _let_119) (tptp.base_2 _let_114 _let_112) (tptp.result_2 _let_114 _let_116) (tptp.object_2 _let_46 _let_109) (tptp.is_inside_2 _let_109 _let_111) (tptp.next_event_2 _let_10 _let_108) (tptp.time_during_2 _let_10 _let_106) (tptp.time_before_2 _let_106 _let_107) (tptp.subevent_2 X _let_10) (tptp.subevent_2 _let_10 _let_86) (tptp.next_event_2 _let_102 _let_86) (tptp.agent_2 _let_14 _let_104) (tptp.result_2 _let_105 _let_104) (tptp.subevent_2 _let_10 _let_102) (tptp.has_region_2 _let_65 _let_64) (tptp.site_2 _let_62 _let_64) (tptp.object_2 _let_62 _let_8) (tptp.result_2 _let_1 _let_8) (tptp.next_event_2 _let_18 _let_72) (tptp.agent_2 _let_18 _let_70) (tptp.result_2 _let_68 _let_70) (tptp.object_2 _let_68 _let_66) (tptp.object_2 _let_14 _let_66) (tptp.first_subevent_2 _let_1 _let_74) (tptp.subevent_2 _let_1 _let_74) (tptp.base_2 _let_12 _let_65) (tptp.next_event_2 _let_12 _let_10) (tptp.subevent_2 _let_10 _let_81) (tptp.subevent_2 _let_10 _let_79) (tptp.subevent_2 _let_10 _let_77) (tptp.subevent_2 _let_10 _let_31) (tptp.result_2 _let_72 _let_84) (tptp.object_2 _let_72 _let_83) (tptp.object_2 _let_18 _let_83) (tptp.object_2 _let_85 _let_23) (tptp.result_2 _let_86 _let_88) (tptp.subevent_2 _let_81 _let_90) (tptp.result_2 _let_12 _let_92) (tptp.result_2 _let_31 _let_93) (tptp.information_content_2 _let_34 _let_94) (tptp.result_2 _let_95 _let_97) (tptp.result_2 _let_77 _let_99) (tptp.result_2 _let_90 _let_101) (= _let_8 _let_7) (= _let_8 _let_5) (= _let_186 _let_185) (= _let_183 _let_182) (= _let_109 _let_49) (= _let_180 _let_179) (= _let_177 _let_176) (= _let_174 _let_173) (= _let_171 _let_170) (= _let_134 _let_58) (= _let_168 _let_167) (= _let_166 _let_165) (= _let_164 _let_163) (= _let_161 _let_160) (= _let_158 _let_157) (= _let_155 _let_154) (= _let_34 _let_152) (= _let_34 _let_150) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_34 _let_143) (= _let_141 _let_140) (= _let_34 _let_139) (= _let_137 _let_136) (= _let_134 _let_59) (= _let_134 _let_56) (= _let_23 _let_30) (= _let_23 _let_29) (= _let_133 _let_132) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_23 _let_28) (= _let_43 _let_54) (= _let_126 _let_125) (= _let_94 _let_37) (= _let_105 _let_45) (= _let_43 _let_53) (= _let_105 _let_44) (= _let_105 _let_42) (= _let_123 _let_52) (= _let_123 _let_51) (= _let_85 _let_26) (= _let_122 _let_121) (= _let_119 _let_118) (= _let_116 _let_115) (= _let_114 _let_113) (= _let_111 _let_110) (= _let_109 _let_47) (= _let_108 (tptp.fn_animal_development_26 X)) (= _let_107 (tptp.fn_animal_development_4 X)) (= _let_106 (tptp.fn_animal_development_3 X)) (= _let_102 _let_39) (= _let_86 (tptp.fn_animal_development_14 X)) (= _let_10 (tptp.fn_animal_development_31 X)) (= _let_105 _let_40) (= _let_104 _let_103) (= _let_102 _let_38) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_94 _let_35) (= _let_93 _let_33) (= _let_93 _let_32) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_85 _let_24) (= _let_84 _let_71) (= _let_72 _let_20) (= _let_83 _let_22) (= _let_83 _let_21) (= _let_65 _let_13) (= _let_65 _let_11) (= _let_12 _let_82) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_77 _let_76) (= _let_31 _let_75) (= _let_74 _let_73) (= _let_72 _let_19) (= _let_72 _let_17) (= _let_70 _let_71) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_16) (= _let_66 _let_15) (= _let_65 _let_9) (= _let_64 _let_63) (= _let_62 _let_61) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_1 _let_60) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_56) (= _let_56 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.drosophila_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Drosophila-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in fruit fly.'|) (tptp.concept2words_2 X |tptp.'drosophila homeotic gene'|) (tptp.concept2words_2 X |tptp.'drosophila-homeotic-gene'|) (tptp.insect_homeotic_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_drosophila_melanogaster_32 X))) (let ((_let_2 (tptp.fn_reproduce_1 _let_1))) (let ((_let_3 (tptp.fn_reproduce_2 _let_1))) (let ((_let_4 (tptp.fn_drosophila_melanogaster_33 X))) (let ((_let_5 (tptp.fn_scientist_1 _let_4))) (let ((_let_6 (tptp.fn_drosophila_melanogaster_34 X))) (let ((_let_7 (tptp.fn_inheritance_1 _let_6))) (let ((_let_8 (tptp.fn_fruit_fly_5 X))) (let ((_let_9 (tptp.fn_multicellular_organism_1 X))) (let ((_let_10 (tptp.fn_organism_3 X))) (let ((_let_11 (tptp.fn_transfer_1 _let_6))) (let ((_let_12 (tptp.fn_drosophila_melanogaster_29 X))) (let ((_let_13 (tptp.fn_drosophila_melanogaster_25 X))) (let ((_let_14 (tptp.fn_drosophila_melanogaster_22 X))) (let ((_let_15 (tptp.fn_drosophila_melanogaster_30 X))) (let ((_let_16 (tptp.fn_drosophila_melanogaster_44 X))) (let ((_let_17 (tptp.fn_drosophila_melanogaster_37 X))) (let ((_let_18 (tptp.fn_drosophila_melanogaster_42 X))) (let ((_let_19 (tptp.fn_drosophila_melanogaster_19 X))) (let ((_let_20 (tptp.fn_drosophila_melanogaster_20 X))) (let ((_let_21 (tptp.fn_drosophila_melanogaster_28 X))) (let ((_let_22 (tptp.fn_drosophila_melanogaster_27 X))) (let ((_let_23 (tptp.fn_drosophila_melanogaster_43 X))) (let ((_let_24 (tptp.fn_drosophila_melanogaster_24 X))) (let ((_let_25 (tptp.fn_drosophila_melanogaster_26 X))) (let ((_let_26 (tptp.fn_drosophila_melanogaster_21 X))) (let ((_let_27 (tptp.fn_drosophila_melanogaster_41 X))) (let ((_let_28 (tptp.fn_drosophila_melanogaster_40 X))) (let ((_let_29 (tptp.fn_drosophila_melanogaster_39 X))) (let ((_let_30 (tptp.fn_drosophila_melanogaster_23 X))) (let ((_let_31 (tptp.fn_drosophila_melanogaster_38 X))) (let ((_let_32 (tptp.fn_drosophila_melanogaster_31 X))) (let ((_let_33 (tptp.fn_scientist_2 _let_4))) (let ((_let_34 (tptp.fn_drosophila_melanogaster_36 X))) (let ((_let_35 (tptp.fn_drosophila_melanogaster_35 X))) (let ((_let_36 (tptp.fn_drosophila_melanogaster_1 X))) (let ((_let_37 (tptp.fn_drosophila_melanogaster_3 X))) (let ((_let_38 (tptp.fn_drosophila_melanogaster_2 X))) (let ((_let_39 (tptp.fn_drosophila_melanogaster_4 X))) (let ((_let_40 (tptp.fn_drosophila_melanogaster_6 X))) (let ((_let_41 (tptp.fn_drosophila_melanogaster_7 X))) (let ((_let_42 (tptp.fn_drosophila_melanogaster_10 X))) (let ((_let_43 (tptp.fn_drosophila_melanogaster_8 X))) (let ((_let_44 (tptp.fn_drosophila_melanogaster_9 X))) (let ((_let_45 (tptp.fn_drosophila_melanogaster_15 X))) (let ((_let_46 (tptp.fn_drosophila_melanogaster_16 X))) (let ((_let_47 (tptp.fn_drosophila_melanogaster_17 X))) (=> (tptp.drosophila_melanogaster_1 X) (and (tptp.original_name_2 X |tptp.'Drosophila-Melanogaster'|) (tptp.user_description_2 X |tptp.'A species of Diptera, or the order of flies, in the family Drosophilidae. The species is commonly known as the common fruit fly or vinegar fly. This species is one of the most commonly used model organisms in biology'|) (tptp.concept2words_2 X |tptp.'d. melanogaster'|) (tptp.concept2words_2 X |tptp.'drosophila melanogaster'|) (tptp.concept2words_2 X tptp.fruitfly) (tptp.concept2words_2 X |tptp.'drosophila-melanogaster'|) (tptp.fruit_fly_1 X) (not (tptp.arabidopsis_thaliana_1 X)) (not (tptp.caenorhabditis_elegans_1 X)) (not (tptp.zebrafish_1 X)) (tptp.cell_1 _let_36) (tptp.genetic_linkage_mapping_1 _let_38) (tptp.linkage_map_1 _let_37) (tptp.phenotype_1 _let_39) (tptp.size_value_1 _let_40) (tptp.size_value_1 _let_41) (tptp.frequency_value_1 _let_43) (tptp.frequency_value_1 _let_44) (tptp.frequency_value_1 _let_42) (tptp.worth_value_1 _let_45) (tptp.tangible_entity_1 _let_46) (tptp.grow_1 _let_47) (tptp.support_1 _let_19) (tptp.exoskeleton_1 _let_20) (tptp.tangible_entity_1 _let_26) (tptp.crop_1 _let_26) (tptp.anus_1 _let_14) (tptp.rectum_1 _let_30) (tptp.esophagus_1 _let_24) (tptp.hindgut_1 _let_13) (tptp.midgut_1 _let_25) (tptp.foregut_1 _let_22) (tptp.mouth_1 _let_21) (tptp.digestive_system_1 _let_12) (tptp.temperature_value_1 _let_15) (tptp.autosome_1 _let_32) (tptp.reproduce_1 _let_1) (tptp.scientist_1 _let_4) (tptp.inheritance_1 _let_6) (tptp.entity_1 _let_35) (tptp.genotype_1 _let_35) (tptp.study_1 _let_34) (tptp.water_1 _let_17) (tptp.cell_1 _let_31) (tptp.gamete_1 _let_31) (tptp.heterotroph_1 _let_29) (tptp.nutrition_1 _let_28) (tptp.gastric_cecum_1 _let_27) (tptp.specific_heat_value_1 _let_18) (tptp.take_in_1 _let_23) (tptp.locomotion_1 _let_16) (tptp.study_1 _let_33) (tptp.entity_1 _let_11) (tptp.entity_1 _let_7) (tptp.entity_1 _let_5) (tptp.living_entity_1 _let_3) (tptp.living_entity_1 _let_2) (tptp.object_2 _let_47 X) (tptp.raw_material_2 _let_47 _let_46) (tptp.worth_2 _let_46 _let_45) (tptp.the_scalar_value_2 _let_45 tptp.cheap_0) (tptp.scalar_unit_class_2 _let_45 tptp.tangible_entity_0) (tptp.size_2 _let_32 _let_41) (tptp.object_2 _let_1 X) (tptp.frequency_2 _let_1 _let_42) (tptp.greater_than_or_equal_to_2 _let_42 _let_44) (tptp.the_scalar_value_2 _let_42 tptp.often_0) (tptp.scalar_unit_class_2 _let_42 tptp.reproduce_0) (tptp.greater_than_or_equal_to_2 _let_43 _let_42) (tptp.the_scalar_value_2 _let_41 tptp.big_0) (tptp.scalar_unit_class_2 _let_41 tptp.chromosome_0) (tptp.size_2 X _let_40) (tptp.the_scalar_value_2 _let_40 tptp.small_0) (tptp.scalar_unit_class_2 _let_40 tptp.animal_0) (tptp.object_2 _let_6 _let_39) (tptp.object_2 _let_34 _let_39) (tptp.object_2 _let_34 _let_35) (tptp.agent_2 _let_38 _let_4) (tptp.object_2 _let_38 _let_35) (tptp.result_2 _let_38 _let_37) (not (= _let_31 _let_36)) (not (= _let_36 _let_31)) (tptp.object_2 _let_6 _let_35) (tptp.has_part_2 X _let_35) (tptp.recipient_2 _let_6 X) (tptp.agent_2 _let_34 _let_4) (tptp.object_2 _let_34 X) (tptp.agent_2 _let_1 X) (tptp.base_2 _let_1 X) (tptp.result_2 _let_1 X) (tptp.has_part_2 X _let_32) (tptp.has_part_2 X _let_31) (tptp.element_2 _let_12 _let_25) (tptp.element_2 _let_12 _let_22) (tptp.agent_2 _let_28 X) (tptp.in_event_2 _let_29 _let_28) (tptp.plays_2 X _let_29) (tptp.has_part_2 X _let_30) (tptp.is_inside_2 _let_30 _let_13) (tptp.is_inside_2 _let_26 _let_22) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_27) (tptp.is_inside_2 _let_27 _let_25) (tptp.next_element_2 _let_25 _let_13) (tptp.base_2 _let_23 X) (tptp.agent_2 _let_23 X) (tptp.has_part_2 X _let_24) (tptp.is_inside_2 _let_24 _let_22) (tptp.next_element_2 _let_22 _let_25) (tptp.object_2 _let_19 X) (tptp.has_function_2 _let_20 _let_19) (tptp.has_part_2 X _let_20) (tptp.has_part_2 X _let_21) (tptp.is_inside_2 _let_21 _let_22) (tptp.object_2 _let_16 X) (tptp.agent_2 _let_16 X) (tptp.has_part_2 X _let_17) (tptp.specific_heat_2 _let_17 _let_18) (tptp.correspondence_2 _let_15 _let_18) (tptp.has_region_2 X _let_12) (tptp.element_2 _let_12 _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (tptp.temperature_2 X _let_15) (= _let_35 _let_11) (= _let_35 _let_10) (= X _let_7) (= X _let_5) (= _let_34 _let_33) (= X _let_3) (= X _let_2) (= _let_32 (tptp.fn_fruit_fly_6 X)) (= (tptp.fn_drosophila_melanogaster_45 X) (tptp.fn_fruit_fly_2 X)) (= _let_31 _let_9) (= _let_31 _let_8) (= (tptp.fn_drosophila_melanogaster_46 X) (tptp.fn_fruit_fly_1 X)) (= _let_30 (tptp.fn_fruit_fly_17 X)) (= _let_29 (tptp.fn_fruit_fly_23 X)) (= _let_28 (tptp.fn_fruit_fly_31 X)) (= _let_27 (tptp.fn_fruit_fly_24 X)) (= _let_26 (tptp.fn_fruit_fly_18 X)) (= _let_25 (tptp.fn_fruit_fly_28 X)) (= _let_24 (tptp.fn_fruit_fly_37 X)) (= _let_23 (tptp.fn_fruit_fly_13 X)) (= _let_22 (tptp.fn_fruit_fly_27 X)) (= _let_21 (tptp.fn_fruit_fly_38 X)) (= _let_20 (tptp.fn_fruit_fly_11 X)) (= _let_19 (tptp.fn_fruit_fly_10 X)) (= _let_18 (tptp.fn_fruit_fly_25 X)) (= _let_17 (tptp.fn_fruit_fly_21 X)) (= _let_16 (tptp.fn_fruit_fly_39 X)) (= _let_15 (tptp.fn_fruit_fly_26 X)) (= _let_14 (tptp.fn_fruit_fly_36 X)) (= _let_13 (tptp.fn_fruit_fly_29 X)) (= _let_12 (tptp.fn_fruit_fly_30 X)) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.drought_1 X) (and (tptp.original_name_2 X |tptp.'Drought'|) (tptp.user_description_2 X |tptp.'Extended period of time in which precipitation is below normal in an ecosystem.'|) (tptp.concept2words_2 X tptp.drought) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.drug_1 X) (and (tptp.original_name_2 X |tptp.'Drug'|) (tptp.user_description_2 X |tptp.'Drug is a chemical substance which is introduced into the body of an organism affects the processes of the mind or body'|) (tptp.concept2words_2 X tptp.drug) (tptp.chemical_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.drug_resistance_1 X) (and (tptp.original_name_2 X |tptp.'Drug-Resistance'|) (tptp.user_description_2 X |tptp.'The reduction in effectiveness of an antimicrobial drug, due to the microbes_' evolved ability to overcome the intended effects of the drug.'|) (tptp.concept2words_2 X |tptp.'resistance of drug'|) (tptp.concept2words_2 X |tptp.'drug resistance'|) (tptp.concept2words_2 X |tptp.'drug-resistance'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.drug_resistance_process_1 X) (and (tptp.original_name_2 X |tptp.'Drug-Resistance-Process'|) (tptp.user_description_2 X |tptp.'The process by which pathogens evolve resistance to drugs meant to harm them.'|) (tptp.concept2words_2 X |tptp.'be resistant'|) (tptp.concept2words_2 X |tptp.'drug resistance process'|) (tptp.concept2words_2 X |tptp.'drug-resistance-process'|) (tptp.cell_survival_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dry_4 X))) (let ((_let_2 (tptp.fn_dry_5 X))) (let ((_let_3 (tptp.fn_dry_1 X))) (=> (tptp.dry_1 X) (and (tptp.original_name_2 X |tptp.'Dry'|) (tptp.concept2words_2 X tptp.dry) (tptp.concept2words_2 X |tptp.'dry out'|) (tptp.concept2words_2 X tptp.dry_out) (tptp.concept2words_2 X tptp.decrease) (tptp.decrease_1 X) (not (tptp.dim_1 X)) (not (tptp.contract_1 X)) (not (tptp.microtubule_shortening_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.wetness_value_1 _let_1) (tptp.wetness_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_1 _let_2) (= (tptp.fn_dry_3 X) (tptp.fn_decrease_2 X)) (= (tptp.fn_dry_2 X) (tptp.fn_decrease_1 X)) (= _let_2 (tptp.fn_decrease_4 X)) (= _let_1 (tptp.fn_decrease_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dubnium_6 X))) (let ((_let_2 (tptp.fn_dubnium_7 X))) (let ((_let_3 (tptp.fn_dubnium_1 X))) (let ((_let_4 (tptp.fn_dubnium_2 X))) (=> (tptp.dubnium_1 X) (and (tptp.original_name_2 X |tptp.'Dubnium'|) (tptp.user_description_2 X |tptp.'Dubnium is a metal atom with atomic number 105. It is represented by the symbol Db.'|) (tptp.concept2words_2 X tptp.dubnium) (tptp.concept2words_2 X |tptp.'Db'|) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"157"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"105"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"105"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"262"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"105"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"262"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_dubnium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_dubnium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (=> (tptp.duchenne_muscular_dystrophy_1 X) (and (tptp.original_name_2 X |tptp.'Duchenne-Muscular-Dystrophy'|) (tptp.user_description_2 X |tptp.'A human genetic disease caused by a sex-linked recessive allele; characterized by progressive weakening and a loss of muscle tissue.'|) (tptp.concept2words_2 X |tptp.'duchenne muscular dystrophy'|) (tptp.concept2words_2 X |tptp.'duchenne-muscular-dystrophy'|) (tptp.sex_linked_human_genetic_disorder_1 X) (not (tptp.color_blindness_1 X)) (not (tptp.hemophilia_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_duck_1 X))) (=> (tptp.duck_1 X) (and (tptp.original_name_2 X |tptp.'Duck'|) (tptp.user_description_2 X |tptp.'Common name for a water bird of the Anatidae family, characterized by web feet adapted for swimming and a serrated bill for clipping aquatic vegetation.'|) (tptp.concept2words_2 X tptp.duck) (tptp.bird_1 X) (tptp.webbed_toe_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.duct_1 X) (and (tptp.original_name_2 X |tptp.'Duct'|) (tptp.user_description_2 X |tptp.'A channel that leads from a gland or an organ.'|) (tptp.concept2words_2 X tptp.duct) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_duodenum_1 X))) (=> (tptp.duodenum_1 X) (and (tptp.original_name_2 X |tptp.'Duodenum'|) (tptp.user_description_2 X |tptp.'The proximal section of the small intestine. The duodenum has secretory functions.'|) (tptp.concept2words_2 X tptp.duodenum) (tptp.organ_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X)) (tptp.lumen_1 _let_1) (tptp.is_inside_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.duplicate_1 X) (and (tptp.original_name_2 X |tptp.'Duplicate'|) (tptp.concept2words_2 X tptp.duplicate) (tptp.concept2words_2 X tptp.copy) (tptp.copy_1 X)))) (forall ((X $$unsorted)) (=> (tptp.duplication_1 X) (and (tptp.original_name_2 X |tptp.'Duplication'|) (tptp.user_description_2 X |tptp.'Abnormal chromosome structure due to fusion with a piece from a homologous chromosome, resulting in the duplication of a fragment of chromosome.'|) (tptp.concept2words_2 X tptp.duplication) (tptp.chromosomal_arrangement_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_duplication_of_chromosome_fragment_1 X))) (let ((_let_2 (tptp.fn_duplication_of_chromosome_fragment_2 X))) (let ((_let_3 (tptp.fn_duplication_of_chromosome_fragment_3 X))) (=> (tptp.duplication_of_chromosome_fragment_1 X) (and (tptp.original_name_2 X |tptp.'Duplication-Of-Chromosome-Fragment'|) (tptp.user_description_2 X |tptp.'An alteration of chromosome structure that occurs during meiosis if a lost chromosomal fragment becomes attached as an extra segment to a sister chromatid.'|) (tptp.concept2words_2 X tptp.duplicate) (tptp.concept2words_2 X |tptp.'duplication of chromosome fragment'|) (tptp.concept2words_2 X |tptp.'duplication-of-chromosome-fragment'|) (tptp.change_chromosome_structure_1 X) (tptp.duplicate_1 X) (not (tptp.repeated_gene_duplication_1 X)) (not (tptp.chromosomal_translocation_1 X)) (not (tptp.deletion_of_chromosome_fragment_1 X)) (not (tptp.inversion_of_chromosome_fragment_1 X)) (tptp.chromosome_fragment_1 _let_1) (tptp.gain_1 _let_2) (tptp.chromosome_1 _let_3) (tptp.subevent_2 X _let_2) (tptp.first_subevent_2 X _let_2) (tptp.recipient_2 _let_2 _let_3) (tptp.object_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.duration_constant_1 X) (and (tptp.original_name_2 X |tptp.'Duration-Constant'|) (tptp.concept2words_2 X |tptp.'constant of duration'|) (tptp.concept2words_2 X |tptp.'duration constant'|) (tptp.concept2words_2 X |tptp.'duration-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.duration_scale_1 X) (and (tptp.original_name_2 X |tptp.'Duration-Scale'|) (tptp.concept2words_2 X |tptp.'scale of duration'|) (tptp.concept2words_2 X |tptp.'duration scale'|) (tptp.concept2words_2 X |tptp.'duration-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.duration_value_1 X) (and (tptp.original_name_2 X |tptp.'Duration-Value'|) (tptp.description_2 X |tptp.'duration of an Event of Time-Interval'|) (tptp.concept2words_2 X tptp.length) (tptp.concept2words_2 X tptp.time) (tptp.concept2words_2 X tptp.continuance) (tptp.concept2words_2 X tptp.duration) (tptp.concept2words_2 X tptp.age) (tptp.concept2words_2 X |tptp.'total duration'|) (tptp.concept2words_2 X |tptp.'value of duration'|) (tptp.concept2words_2 X |tptp.'duration value'|) (tptp.concept2words_2 X |tptp.'duration-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.dye_1 X) (and (tptp.original_name_2 X |tptp.'Dye'|) (tptp.user_description_2 X |tptp.'A solution containing colored pigments which is used to stain a material or substrate.'|) (tptp.concept2words_2 X tptp.dye) (tptp.aqueous_solution_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dynein_24 X))) (let ((_let_2 (tptp.fn_dynein_walking_11 _let_1))) (let ((_let_3 (tptp.fn_dynein_8 X))) (let ((_let_4 (tptp.fn_dynein_17 X))) (let ((_let_5 (tptp.fn_dynein_10 X))) (let ((_let_6 (tptp.fn_dynein_18 X))) (let ((_let_7 (tptp.fn_dynein_12 X))) (let ((_let_8 (tptp.fn_dynein_14 X))) (let ((_let_9 (tptp.fn_dynein_15 X))) (let ((_let_10 (tptp.fn_dynein_6 X))) (let ((_let_11 (tptp.fn_dynein_7 X))) (let ((_let_12 (tptp.fn_dynein_9 X))) (let ((_let_13 (tptp.fn_dynein_22 X))) (let ((_let_14 (tptp.fn_dynein_11 X))) (let ((_let_15 (tptp.fn_dynein_16 X))) (let ((_let_16 (tptp.fn_dynein_23 X))) (let ((_let_17 (tptp.fn_dynein_13 X))) (let ((_let_18 (tptp.fn_dynein_20 X))) (let ((_let_19 (tptp.fn_dynein_21 X))) (let ((_let_20 (tptp.fn_dynein_19 X))) (let ((_let_21 (tptp.fn_dynein_1 X))) (=> (tptp.dynein_1 X) (and (tptp.original_name_2 X |tptp.'Dynein'|) (tptp.user_description_2 X |tptp.'Large motor proteins located in cilia and flagella that are responsible for the bending movements of the organelle.'|) (tptp.concept2words_2 X tptp.dynein) (tptp.molecular_motor_1 X) (tptp.change_1 _let_21) (tptp.constant_motion_1 _let_10) (tptp.change_of_shape_1 _let_11) (tptp.polypeptide_1 _let_3) (tptp.move_1 _let_12) (tptp.protein_domain_1 _let_5) (tptp.size_value_1 _let_14) (tptp.kinetic_energy_1 _let_7) (tptp.attach_1 _let_17) (tptp.quantity_value_1 _let_8) (tptp.speed_value_1 _let_9) (tptp.size_value_1 _let_15) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.monomer_1 _let_4) (tptp.molecule_1 _let_4) (tptp.amino_acid_1 _let_4) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.carbon_skeleton_1 _let_20) (tptp.hydrophilic_region_1 _let_18) (tptp.surface_1 _let_19) (tptp.carbon_1 _let_13) (tptp.monomer_1 _let_16) (tptp.dynein_walking_1 _let_1) (tptp.dynein_1 _let_2) (tptp.subevent_2 _let_1 _let_21) (tptp.object_2 _let_21 X) (tptp.object_2 _let_1 X) (tptp.has_function_2 X _let_1) (tptp.the_scalar_value_2 _let_14 tptp.big_0) (tptp.scalar_unit_class_2 _let_14 tptp.polypeptide_0) (tptp.has_region_2 X _let_20) (tptp.is_inside_2 _let_13 _let_20) (tptp.enables_2 _let_17 _let_12) (tptp.base_2 _let_17 X) (tptp.has_region_2 X _let_18) (tptp.is_at_2 _let_18 _let_19) (tptp.has_region_2 X _let_19) (tptp.size_2 X _let_14) (tptp.greater_than_2 _let_14 _let_15) (tptp.size_2 _let_16 _let_15) (tptp.has_part_2 X _let_16) (tptp.has_function_2 X _let_12) (tptp.object_2 _let_11 X) (tptp.causes_2 _let_11 _let_12) (tptp.agent_2 _let_12 X) (tptp.has_part_2 X _let_13) (not (= _let_13 _let_6)) (not (= _let_6 _let_13)) (tptp.possesses_2 X _let_7) (tptp.quantity_2 _let_7 _let_8) (tptp.directly_proportional_2 _let_9 _let_8) (tptp.speed_2 _let_10 _let_9) (tptp.object_2 _let_10 X) (tptp.has_part_2 X _let_3) (tptp.has_part_2 _let_3 _let_4) (tptp.is_at_2 _let_4 _let_5) (tptp.has_region_2 X _let_5) (tptp.has_part_2 X _let_6) (= X _let_2) (= (tptp.fn_dynein_4 X) (tptp.fn_motor_protein_27 X)) (= (tptp.fn_dynein_5 X) (tptp.fn_motor_protein_25 X)) (= (tptp.fn_dynein_3 X) (tptp.fn_motor_protein_26 X)) (= (tptp.fn_dynein_2 X) (tptp.fn_motor_protein_28 X)) (= _let_20 (tptp.fn_motor_protein_10 X)) (= _let_19 (tptp.fn_motor_protein_9 X)) (= _let_18 (tptp.fn_motor_protein_8 X)) (= _let_17 (tptp.fn_motor_protein_6 X)) (= _let_16 (tptp.fn_motor_protein_12 X)) (= _let_15 (tptp.fn_motor_protein_17 X)) (= _let_14 (tptp.fn_motor_protein_22 X)) (= _let_13 (tptp.fn_motor_protein_11 X)) (= _let_12 (tptp.fn_motor_protein_14 X)) (= _let_11 (tptp.fn_motor_protein_3 X)) (= _let_10 (tptp.fn_motor_protein_20 X)) (= _let_9 (tptp.fn_motor_protein_19 X)) (= _let_8 (tptp.fn_motor_protein_18 X)) (= _let_7 (tptp.fn_motor_protein_21 X)) (= _let_6 (tptp.fn_motor_protein_13 X)) (= _let_5 (tptp.fn_motor_protein_24 X)) (= _let_4 (tptp.fn_motor_protein_16 X)) (= _let_3 (tptp.fn_motor_protein_23 X)) (= _let_2 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dynein_walking_6 X))) (let ((_let_2 (tptp.fn_dynein_7 _let_1))) (let ((_let_3 (tptp.fn_dynein_1 _let_1))) (let ((_let_4 (tptp.fn_dynein_9 _let_1))) (let ((_let_5 (tptp.fn_dynein_walking_9 X))) (let ((_let_6 (tptp.fn_dynein_walking_8 X))) (let ((_let_7 (tptp.fn_motor_protein_2 _let_1))) (let ((_let_8 (tptp.fn_dynein_walking_7 X))) (let ((_let_9 (tptp.fn_motor_protein_1 _let_1))) (let ((_let_10 (tptp.fn_dynein_walking_11 X))) (let ((_let_11 (tptp.fn_motor_protein_2 _let_10))) (let ((_let_12 (tptp.fn_dynein_walking_10 X))) (let ((_let_13 (tptp.fn_motor_protein_1 _let_10))) (let ((_let_14 (tptp.fn_motor_protein_3 _let_10))) (let ((_let_15 (tptp.fn_dynein_walking_12 X))) (let ((_let_16 (tptp.fn_dynein_walking_4 X))) (let ((_let_17 (tptp.fn_slide_1 _let_16))) (let ((_let_18 (tptp.fn_dynein_walking_5 X))) (let ((_let_19 (tptp.fn_slide_2 _let_16))) (let ((_let_20 (tptp.fn_dynein_walking_13 X))) (let ((_let_21 (tptp.fn_move_1 _let_16))) (let ((_let_22 (tptp.fn_dynein_walking_1 X))) (=> (tptp.dynein_walking_1 X) (and (tptp.original_name_2 X |tptp.'Dynein-Walking'|) (tptp.user_description_2 X |tptp.'Dynein proteins connect adjacent microtubule doublets in cilia and flagella and appear to'|) (tptp.concept2words_2 X tptp.walk) (tptp.concept2words_2 X |tptp.'walking of dynein'|) (tptp.concept2words_2 X |tptp.'dynein walking'|) (tptp.concept2words_2 X |tptp.'dynein-walking'|) (tptp.biomolecular_process_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X)) (tptp.dynein_walking_1 _let_22) (tptp.slide_1 _let_16) (tptp.microtubule_doublet_1 _let_18) (tptp.spatial_entity_1 _let_1) (tptp.motor_protein_1 _let_1) (tptp.dynein_1 _let_1) (tptp.shape_value_1 _let_8) (tptp.change_1 _let_6) (tptp.change_of_shape_1 _let_6) (tptp.move_1 _let_5) (tptp.shape_value_1 _let_12) (tptp.dynein_1 _let_10) (tptp.change_of_shape_1 _let_15) (tptp.conduit_1 _let_20) (tptp.spatial_entity_1 _let_21) (tptp.conduit_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.change_of_shape_1 _let_14) (tptp.property_node_1 _let_13) (tptp.shape_value_1 _let_11) (tptp.property_node_1 _let_9) (tptp.shape_value_1 _let_7) (tptp.move_1 _let_4) (tptp.change_1 _let_3) (tptp.change_of_shape_1 _let_2) (tptp.result_2 _let_15 _let_1) (tptp.enables_2 _let_15 _let_16) (tptp.has_state_2 _let_10 _let_1) (tptp.has_function_2 _let_10 X) (tptp.first_subevent_2 X _let_15) (tptp.base_2 X _let_18) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_15) (tptp.object_2 X _let_10) (not (= _let_12 _let_8)) (not (= _let_8 _let_12)) (tptp.has_function_2 _let_1 _let_22) (tptp.agent_2 _let_16 _let_1) (tptp.object_2 _let_22 _let_1) (tptp.object_2 _let_16 _let_1) (tptp.path_2 _let_16 _let_18) (tptp.object_2 _let_15 _let_10) (tptp.shape_2 _let_10 _let_12) (tptp.shape_2 _let_1 _let_8) (tptp.has_function_2 _let_1 _let_5) (tptp.agent_2 _let_5 _let_1) (tptp.object_2 _let_6 _let_1) (tptp.causes_2 _let_6 _let_5) (= _let_1 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_15 _let_14) (= (tptp.fn_dynein_walking_3 X) _let_13) (= _let_12 _let_11) (= (tptp.fn_dynein_walking_2 X) _let_9) (= _let_8 _let_7) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dysprosium_11 X))) (let ((_let_2 (tptp.fn_dysprosium_14 X))) (let ((_let_3 (tptp.fn_dysprosium_12 X))) (let ((_let_4 (tptp.fn_dysprosium_13 X))) (let ((_let_5 (tptp.fn_dysprosium_5 X))) (let ((_let_6 (tptp.fn_dysprosium_6 X))) (let ((_let_7 (tptp.fn_dysprosium_7 X))) (let ((_let_8 (tptp.fn_dysprosium_4 X))) (=> (tptp.dysprosium_1 X) (and (tptp.original_name_2 X |tptp.'Dysprosium'|) (tptp.user_description_2 X |tptp.'Dysprosium is a metal atom with atomic number 66. It is represented by the symbol Dy.'|) (tptp.concept2words_2 X tptp.dysprosium) (tptp.concept2words_2 X tptp.dy) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"97"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"66"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"66"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"12"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.22"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"163"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"66"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"162.5"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_dysprosium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_dysprosium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_dysprosium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_e_site_7 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_e_site_1 X))) (let ((_let_4 (tptp.fn_e_site_2 X))) (let ((_let_5 (tptp.fn_e_site_3 X))) (let ((_let_6 (tptp.fn_e_site_5 X))) (let ((_let_7 (tptp.fn_e_site_6 X))) (let ((_let_8 (tptp.fn_e_site_4 X))) (=> (tptp.e_site_1 X) (and (tptp.original_name_2 X |tptp.'E-Site'|) (tptp.description_2 X |tptp.'The site on the ribosome where the tRNA that has just given up the growing polypeptide chain dissociates from the ribosome.'|) (tptp.user_description_2 X |tptp.'The third of three RNA binding sites on a ribisome that binds a tRNA molecule that has just transferred its amino acid to the growing polypeptide chain before it exits the ribisome.'|) (tptp.concept2words_2 X |tptp.'exit site'|) (tptp.concept2words_2 X |tptp.'exit-site'|) (tptp.concept2words_2 X |tptp.'site of e'|) (tptp.concept2words_2 X |tptp.'e site'|) (tptp.concept2words_2 X |tptp.'e-site'|) (tptp.ribosome_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.role_1 _let_3) (tptp.large_ribosomal_subunit_1 _let_4) (tptp.ribosome_1 _let_5) (tptp.translocation_during_translation_1 _let_8) (tptp.role_1 _let_6) (tptp.five_prime_end_of_mrna_1 _let_7) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.is_near_2 _let_7 X) (tptp.in_event_2 _let_6 _let_8) (tptp.is_near_2 X _let_7) (tptp.plays_2 X _let_3) (tptp.plays_2 X _let_6) (tptp.has_part_2 _let_5 _let_4) (tptp.has_region_2 _let_4 X) (tptp.in_event_2 _let_3 _let_1) (tptp.base_2 _let_1 X) (= X _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.ear_1 X) (and (tptp.original_name_2 X |tptp.'Ear'|) (tptp.user_description_2 X |tptp.'The vertebrate sense organ for hearing and equilibrium.'|) (tptp.concept2words_2 X tptp.ear) (tptp.sensory_organ_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.asvd))) (=> (tptp.early_atherosclerosis_1 X) (and (tptp.original_name_2 X |tptp.'Early-Atherosclerosis'|) (tptp.user_description_2 X |tptp.'Cholesterol accumulates in the blood, where it contributes to early atherosclerosis (the buildup of fat deposits on blood vessel linings).'|) (tptp.concept2words_2 X |tptp.'arteriosclerotic vascular disease'|) (tptp.concept2words_2 X |tptp.'arteriosclerotic-vascular-disease'|) _let_1 (tptp.concept2words_2 X |tptp.'hardening of the arteries'|) (tptp.concept2words_2 X |tptp.'hardening-of-the-arteries'|) _let_1 (tptp.concept2words_2 X |tptp.'early atherosclerosis'|) (tptp.concept2words_2 X |tptp.'early-atherosclerosis'|) (tptp.atherosclerosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_early_embryo_1 X))) (=> (tptp.early_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Early-Embryo'|) (tptp.user_description_2 X |tptp.'An embryo in the early stages of development is called as early embryo.'|) (tptp.concept2words_2 X |tptp.'early embryo'|) (tptp.concept2words_2 X |tptp.'early-embryo'|) (tptp.embryo_1 X) (not (tptp.abnormal_cloned_embryo_1 X)) (not (tptp.animal_embryo_1 X)) (not (tptp.cloned_embryo_1 X)) (not (tptp.eight_cell_embryo_1 X)) (not (tptp.embryoid_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X)) (tptp.undifferentiated_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_embryo_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.early_invertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Early-Invertebrate'|) (tptp.user_description_2 X |tptp.'An invertebrate which appeared early in the geological record.'|) (tptp.concept2words_2 X |tptp.'early invertebrate'|) (tptp.concept2words_2 X |tptp.'early-invertebrate'|) (tptp.invertebrate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.early_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Early-Prokaryote'|) (tptp.user_description_2 X |tptp.'Early prokaryotes were Earth_'s sole inhabitants from at least 3.5 billion years ago to about 2.1 billion years ago.'|) (tptp.concept2words_2 X |tptp.'early prokaryote'|) (tptp.concept2words_2 X |tptp.'early-prokaryote'|) (tptp.prokaryote_1 X)))) (forall ((X $$unsorted)) (=> (tptp.early_vertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Early-vertebrate'|) (tptp.user_description_2 X |tptp.'A vertebrate which appeared early in the geological record.'|) (tptp.concept2words_2 X |tptp.'early vertebrate'|) (tptp.concept2words_2 X |tptp.'early-vertebrate'|) (tptp.vertebrate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_earth_8 X))) (let ((_let_2 (tptp.fn_temperature_fluctuation_3 _let_1))) (let ((_let_3 (tptp.fn_earth_7 X))) (let ((_let_4 (tptp.fn_earth_6 X))) (let ((_let_5 (tptp.fn_earth_2 X))) (let ((_let_6 (tptp.fn_earth_1 X))) (let ((_let_7 (tptp.fn_earth_5 X))) (let ((_let_8 (tptp.fn_earth_3 X))) (let ((_let_9 (tptp.fn_earth_4 X))) (=> (tptp.earth_1 X) (and (tptp.original_name_2 X |tptp.'Earth'|) (tptp.user_description_2 X |tptp.'Earth (or the Earth) is the third planet from the Sun and the densest and fifth-largest of the eight planets in the Solar System'|) (tptp.concept2words_2 X tptp.terra) (tptp.concept2words_2 X tptp.earth) (tptp.celestial_body_1 X) (tptp.ice_1 _let_6) (tptp.water_vapor_1 _let_5) (tptp.gravity_1 _let_8) (tptp.maintenance_1 _let_9) (tptp.water_1 _let_7) (tptp.atmosphere_1 _let_4) (tptp.tangible_entity_1 _let_3) (tptp.temperature_fluctuation_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.base_2 _let_9 _let_3) (tptp.agent_2 _let_9 _let_7) (tptp.prevents_2 _let_9 _let_1) (tptp.possesses_2 X _let_8) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.has_region_2 X _let_4) (tptp.is_inside_2 _let_5 _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.earth_pole_1 X) (and (tptp.original_name_2 X |tptp.'Earth-Pole'|) (tptp.user_description_2 X |tptp.'One of the two poles on Earth (North and South Pole). The poles mark the ends of the axis that the Earth spins on.'|) (tptp.concept2words_2 X |tptp.'earth_'s poles'|) (tptp.concept2words_2 X |tptp.'pole of earth'|) (tptp.concept2words_2 X |tptp.'earth pole'|) (tptp.concept2words_2 X |tptp.'earth-pole'|) (tptp.pole_1 X) (tptp.geographic_region_1 X) (not (tptp.glacier_1 X)) (not (tptp.tropical_region_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_earthworm_17 X))) (let ((_let_2 (tptp.fn_polypeptide_82 _let_1))) (let ((_let_3 (tptp.fn_polypeptide_83 _let_1))) (let ((_let_4 (tptp.fn_polypeptide_125 _let_1))) (let ((_let_5 (tptp.fn_earthworm_30 X))) (let ((_let_6 (tptp.fn_animal_nutritional_requirement_62 _let_5))) (let ((_let_7 (tptp.fn_polypeptide_91 _let_1))) (let ((_let_8 (tptp.fn_earthworm_16 X))) (let ((_let_9 (tptp.fn_amino_acid_17 _let_8))) (let ((_let_10 (tptp.fn_polypeptide_44 _let_1))) (let ((_let_11 (tptp.fn_polypeptide_120 _let_1))) (let ((_let_12 (tptp.fn_polypeptide_118 _let_1))) (let ((_let_13 (tptp.fn_polypeptide_89 _let_1))) (let ((_let_14 (tptp.fn_amino_acid_28 _let_8))) (let ((_let_15 (tptp.fn_amino_acid_22 _let_8))) (let ((_let_16 (tptp.fn_polypeptide_119 _let_1))) (let ((_let_17 (tptp.fn_amino_acid_24 _let_8))) (let ((_let_18 (tptp.fn_polypeptide_15 _let_1))) (let ((_let_19 (tptp.fn_amino_acid_11 _let_8))) (let ((_let_20 (tptp.fn_polypeptide_100 _let_1))) (let ((_let_21 (tptp.fn_amino_acid_27 _let_8))) (let ((_let_22 (tptp.fn_polypeptide_101 _let_1))) (let ((_let_23 (tptp.fn_animal_nutritional_requirement_6 _let_5))) (let ((_let_24 (tptp.fn_earthworm_23 X))) (let ((_let_25 (tptp.fn_move_out_of_1 _let_24))) (let ((_let_26 (tptp.fn_earthworm_29 X))) (let ((_let_27 (tptp.fn_earthworm_26 X))) (let ((_let_28 (tptp.fn_earthworm_27 X))) (let ((_let_29 (tptp.fn_earthworm_28 X))) (let ((_let_30 (tptp.fn_earthworm_24 X))) (let ((_let_31 (tptp.fn_earthworm_25 X))) (let ((_let_32 (tptp.fn_animal_nutritional_requirement_61 _let_5))) (let ((_let_33 (tptp.fn_earthworm_15 X))) (let ((_let_34 (tptp.fn_animal_nutritional_requirement_48 _let_5))) (let ((_let_35 (tptp.fn_earthworm_14 X))) (let ((_let_36 (tptp.fn_animal_nutritional_requirement_4 _let_5))) (let ((_let_37 (tptp.fn_earthworm_21 X))) (let ((_let_38 (tptp.fn_animal_nutritional_requirement_46 _let_5))) (let ((_let_39 (tptp.fn_earthworm_13 X))) (let ((_let_40 (tptp.fn_animal_nutritional_requirement_40 _let_5))) (let ((_let_41 (tptp.fn_earthworm_20 X))) (let ((_let_42 (tptp.fn_mixture_1 _let_41))) (let ((_let_43 (tptp.fn_earthworm_18 X))) (let ((_let_44 (tptp.fn_mixture_2 _let_41))) (let ((_let_45 (tptp.fn_earthworm_19 X))) (let ((_let_46 (tptp.fn_earthworm_22 X))) (let ((_let_47 (tptp.fn_feces_1 _let_46))) (let ((_let_48 (tptp.fn_move_1 _let_24))) (let ((_let_49 (tptp.fn_earthworm_10 X))) (let ((_let_50 (tptp.fn_earthworm_1 X))) (let ((_let_51 (tptp.fn_earthworm_2 X))) (let ((_let_52 (tptp.fn_earthworm_3 X))) (let ((_let_53 (tptp.fn_earthworm_4 X))) (let ((_let_54 (tptp.fn_earthworm_6 X))) (let ((_let_55 (tptp.fn_earthworm_5 X))) (let ((_let_56 (tptp.fn_earthworm_7 X))) (let ((_let_57 (tptp.fn_earthworm_8 X))) (let ((_let_58 (tptp.fn_earthworm_9 X))) (let ((_let_59 (tptp.fn_earthworm_11 X))) (let ((_let_60 (tptp.fn_earthworm_12 X))) (=> (tptp.earthworm_1 X) (and (tptp.original_name_2 X |tptp.'Earthworm'|) (tptp.user_description_2 X |tptp.'A segmented worm of the phylum Annelida, commonly found living in soil.'|) (tptp.concept2words_2 X tptp.earthworm) (tptp.oligochaete_1 X) (tptp.mouth_1 _let_50) (tptp.extracellular_digestion_1 _let_51) (tptp.biological_region_1 _let_52) (tptp.region_1 _let_53) (tptp.secretor_1 _let_55) (tptp.tangible_entity_1 _let_54) (tptp.esophagus_1 _let_56) (tptp.intestine_1 _let_57) (tptp.anus_1 _let_58) (tptp.pharynx_1 _let_49) (tptp.gizzard_1 _let_59) (tptp.crop_1 _let_60) (tptp.protein_1 _let_39) (tptp.chemical_entity_1 _let_35) (tptp.carbohydrate_1 _let_35) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.carbon_1 _let_33) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.monomer_1 _let_8) (tptp.molecule_1 _let_8) (tptp.amino_acid_1 _let_8) (tptp.organic_molecule_1 _let_1) (tptp.polypeptide_1 _let_1) (tptp.substance_1 _let_43) (tptp.chemical_1 _let_45) (tptp.tangible_entity_1 _let_41) (tptp.mixture_1 _let_41) (tptp.nutrition_1 _let_37) (tptp.spatial_entity_1 _let_46) (tptp.feces_1 _let_46) (tptp.move_out_of_1 _let_24) (tptp.tangible_entity_1 _let_30) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.oxygen_1 _let_30) (tptp.tangible_entity_1 _let_31) (tptp.entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.oxygen_1 _let_31) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hydrogen_1 _let_27) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.hydrogen_1 _let_29) (tptp.tangible_entity_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.nitrogen_1 _let_26) (tptp.animal_nutritional_requirement_1 _let_5) (tptp.spatial_entity_1 _let_48) (tptp.tangible_entity_1 _let_47) (tptp.substance_1 _let_44) (tptp.substance_1 _let_42) (tptp.polypeptide_1 _let_40) (tptp.organic_molecule_1 _let_40) (tptp.protein_1 _let_38) (tptp.nutrition_1 _let_36) (tptp.chemical_entity_1 _let_34) (tptp.carbohydrate_1 _let_34) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.carbon_1 _let_32) (tptp.tangible_entity_1 _let_25) (tptp.animal_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.entity_1 _let_22) (tptp.oxygen_1 _let_22) (tptp.atom_1 _let_22) (tptp.oxygen_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.entity_1 _let_20) (tptp.oxygen_1 _let_20) (tptp.atom_1 _let_20) (tptp.oxygen_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.carbon_1 _let_17) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.hydrogen_1 _let_15) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.hydrogen_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.hydrogen_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.nitrogen_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.nitrogen_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.nitrogen_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.nitrogen_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.monomer_1 _let_3) (tptp.molecule_1 _let_3) (tptp.amino_acid_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.monomer_1 _let_2) (tptp.molecule_1 _let_2) (tptp.amino_acid_1 _let_2) (tptp.next_element_2 _let_60 _let_59) (tptp.next_element_2 _let_59 _let_57) (tptp.next_element_2 _let_49 _let_56) (tptp.next_element_2 _let_57 _let_58) (tptp.next_element_2 _let_56 _let_60) (tptp.has_part_2 X _let_50) (tptp.has_part_2 X _let_60) (tptp.has_part_2 X _let_59) (tptp.has_part_2 X _let_49) (tptp.has_part_2 X _let_58) (tptp.has_part_2 X _let_57) (tptp.has_part_2 X _let_56) (tptp.plays_2 X _let_55) (not (= _let_54 _let_43)) (not (= _let_43 _let_54)) (tptp.has_part_2 _let_41 _let_54) (tptp.is_outside_2 _let_53 X) (tptp.is_inside_2 _let_52 X) (tptp.destination_2 _let_24 _let_53) (tptp.origin_2 _let_24 _let_52) (tptp.beneficiary_2 _let_51 X) (tptp.next_element_2 _let_50 _let_49) (tptp.object_2 _let_24 _let_46) (tptp.has_part_2 _let_46 _let_41) (tptp.has_part_2 _let_41 _let_45) (tptp.base_2 _let_24 X) (tptp.has_part_2 _let_41 _let_43) (not (= _let_27 _let_31)) (not (= _let_31 _let_27)) (tptp.element_2 _let_5 _let_26) (tptp.agent_2 _let_37 X) (tptp.element_2 _let_5 _let_33) (tptp.has_part_2 _let_35 _let_33) (tptp.result_2 _let_37 _let_35) (tptp.result_2 _let_37 _let_39) (tptp.has_part_2 _let_39 _let_1) (tptp.has_part_2 _let_8 _let_31) (not (= _let_30 _let_31)) (not (= _let_31 _let_30)) (not (= _let_28 _let_31)) (not (= _let_31 _let_28)) (tptp.has_part_2 _let_8 _let_30) (tptp.has_part_2 _let_8 _let_27) (not (= _let_28 _let_29)) (not (= _let_29 _let_28)) (tptp.has_part_2 _let_8 _let_29) (tptp.has_part_2 _let_8 _let_28) (not (= _let_28 _let_27)) (not (= _let_30 _let_28)) (not (= _let_28 _let_30)) (not (= _let_27 _let_28)) (not (= _let_26 _let_29)) (not (= _let_29 _let_26)) (not (= _let_30 _let_29)) (not (= _let_29 _let_30)) (not (= _let_27 _let_29)) (not (= _let_29 _let_27)) (tptp.has_part_2 _let_1 _let_8) (tptp.has_part_2 _let_8 _let_26) (not (= _let_26 _let_28)) (not (= _let_27 _let_26)) (not (= _let_26 _let_27)) (not (= _let_28 _let_26)) (= _let_46 _let_48) (= _let_41 _let_47) (= _let_45 _let_44) (= X _let_25) (= _let_43 _let_42) (= _let_26 _let_6) (= X _let_23) (= _let_1 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_19) (= _let_31 _let_22) (= _let_30 _let_20) (= _let_31 _let_21) (= _let_29 _let_11) (= _let_27 _let_12) (= _let_30 _let_21) (= _let_29 _let_15) (= _let_27 _let_11) (= _let_30 _let_19) (= _let_29 _let_14) (= _let_30 _let_18) (= _let_29 _let_12) (= _let_28 _let_17) (= _let_28 _let_16) (= _let_27 _let_15) (= _let_27 _let_14) (= _let_27 _let_13) (= _let_27 _let_10) (= _let_26 _let_9) (= _let_26 _let_7) (= _let_26 _let_4) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_25 _let_23) (= _let_23 _let_19) (= _let_19 _let_22) (= _let_22 _let_19) (= _let_19 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_15) (= _let_11 _let_14) (= _let_14 _let_11) (= _let_12 _let_12) (= _let_12 _let_17) (= _let_17 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_earthworm_digestive_system_14 X))) (let ((_let_2 (tptp.fn_esophagus_8 _let_1))) (let ((_let_3 (tptp.fn_earthworm_digestive_system_15 X))) (let ((_let_4 (tptp.fn_earthworm_digestive_system_16 X))) (let ((_let_5 (tptp.fn_organ_1 _let_4))) (let ((_let_6 (tptp.fn_earthworm_digestive_system_17 X))) (let ((_let_7 (tptp.fn_earthworm_digestive_system_12 X))) (let ((_let_8 (tptp.fn_earthworm_digestive_system_8 X))) (let ((_let_9 (tptp.fn_earthworm_digestive_system_7 X))) (let ((_let_10 (tptp.fn_earthworm_digestive_system_6 X))) (let ((_let_11 (tptp.fn_earthworm_digestive_system_3 X))) (let ((_let_12 (tptp.fn_earthworm_digestive_system_5 X))) (let ((_let_13 (tptp.fn_earthworm_digestive_system_4 X))) (let ((_let_14 (tptp.fn_earthworm_digestive_system_1 X))) (let ((_let_15 (tptp.fn_earthworm_digestive_system_2 X))) (=> (tptp.earthworm_digestive_system_1 X) (and (tptp.original_name_2 X |tptp.'Earthworm-Digestive-System'|) (tptp.user_description_2 X |tptp.'A system of organs in a earthworm_'s body which is responsible for the digestion and absorption of nutrients from food.'|) (tptp.concept2words_2 X |tptp.'earthworm digestive system'|) (tptp.concept2words_2 X |tptp.'earthworm-digestive-system'|) (tptp.digestive_system_1 X) (tptp.anus_1 _let_14) (tptp.mouth_1 _let_15) (tptp.intestine_1 _let_11) (tptp.crop_1 _let_13) (tptp.gizzard_1 _let_12) (tptp.quantity_value_1 _let_10) (tptp.length_value_1 _let_9) (tptp.length_value_1 _let_8) (tptp.shape_value_1 _let_7) (tptp.digestive_organ_1 _let_1) (tptp.esophagus_1 _let_1) (tptp.alimentary_canal_1 _let_3) (tptp.pharynx_1 _let_4) (tptp.muscle_1 _let_6) (tptp.tissue_1 _let_5) (tptp.alimentary_canal_1 _let_2) (tptp.element_2 X _let_4) (tptp.element_2 X _let_12) (tptp.element_2 X _let_13) (tptp.element_2 X _let_11) (tptp.element_2 X _let_15) (tptp.element_2 X _let_14) (tptp.has_region_2 X _let_3) (tptp.length_2 _let_1 _let_9) (tptp.next_element_2 _let_1 _let_13) (tptp.shape_2 _let_3 _let_7) (tptp.next_element_2 _let_15 _let_4) (tptp.next_element_2 _let_11 _let_14) (tptp.length_2 _let_11 _let_8) (tptp.next_element_2 _let_13 _let_12) (tptp.next_element_2 _let_12 _let_11) (tptp.next_element_2 _let_4 _let_1) (tptp.the_scalar_value_2 _let_10 tptp.high_0) (tptp.scalar_unit_class_2 _let_10 tptp.tissue_0) (tptp.quantity_2 _let_6 _let_10) (tptp.the_scalar_value_2 _let_9 tptp.short_0) (tptp.scalar_unit_class_2 _let_9 tptp.digestive_organ_0) (tptp.the_scalar_value_2 _let_8 tptp.long_0) (tptp.scalar_unit_class_2 _let_8 tptp.organ_0) (tptp.the_categorical_value_2 _let_7 tptp.line_0) (tptp.has_part_2 _let_4 _let_6) (tptp.element_2 X _let_1) (tptp.is_inside_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_1 (tptp.fn_digestive_system_1 X)) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eat_2 X))) (let ((_let_2 (tptp.fn_eat_3 X))) (let ((_let_3 (tptp.fn_eat_1 X))) (=> (tptp.eat_1 X) (and (tptp.original_name_2 X |tptp.'Eat'|) (tptp.concept2words_2 X tptp.eat) (tptp.concept2words_2 X tptp.feed) (tptp.take_in_1 X) (not (tptp.absorb_1 X)) (not (tptp.absorption_of_energy_by_electron_1 X)) (tptp.food_1 _let_3) (tptp.tangible_entity_1 _let_1) (tptp.animal_1 _let_2) (tptp.plays_2 _let_1 _let_3) (tptp.in_event_2 _let_3 X) (tptp.agent_2 X _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_take_in_1 X)) (= _let_1 (tptp.fn_move_1 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eating_by_protist_11 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_take_in_1 X))) (let ((_let_4 (tptp.fn_eating_by_protist_10 X))) (let ((_let_5 (tptp.fn_barrier_1 _let_4))) (let ((_let_6 (tptp.fn_eating_by_protist_8 X))) (let ((_let_7 (tptp.fn_eating_by_protist_9 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_eating_by_protist_7 X))) (let ((_let_10 (tptp.fn_eating_by_protist_6 X))) (let ((_let_11 (tptp.fn_eating_by_protist_5 X))) (let ((_let_12 (tptp.fn_eating_by_protist_4 X))) (let ((_let_13 (tptp.fn_eating_by_protist_2 X))) (let ((_let_14 (tptp.fn_eating_by_protist_3 X))) (let ((_let_15 (tptp.fn_eating_by_protist_1 X))) (=> (tptp.eating_by_protist_1 X) (and (tptp.original_name_2 X |tptp.'Eating-By-Protist'|) (tptp.user_description_2 X |tptp.'An act representing feed: take in food by protist'|) (tptp.concept2words_2 X tptp.eat) (tptp.concept2words_2 X |tptp.'eating by protist'|) (tptp.concept2words_2 X |tptp.'eating-by-protist'|) (tptp.eat_1 X) (tptp.nutrient_1 _let_15) (tptp.take_in_1 _let_13) (tptp.phagocytosis_1 _let_14) (tptp.monosaccharide_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.protist_1 _let_6) (tptp.take_apart_1 _let_7) (tptp.barrier_1 _let_4) (tptp.container_1 _let_1) (tptp.barrier_1 _let_1) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 _let_9 _let_15) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_13) (tptp.origin_2 X _let_10) (tptp.destination_2 X _let_11) (tptp.next_event_2 _let_13 _let_7) (tptp.next_event_2 _let_14 _let_13) (tptp.result_2 _let_7 _let_12) (tptp.is_inside_2 _let_11 _let_6) (tptp.is_outside_2 _let_10 _let_6) (tptp.plays_2 _let_6 _let_4) (tptp.base_2 X _let_6) (tptp.agent_2 X _let_6) (tptp.object_2 _let_7 _let_9) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_6 _let_1) (= _let_6 _let_5) (= _let_6 _let_3) (= _let_9 _let_8) (= _let_1 (tptp.fn_move_into_2 X)) (= _let_6 _let_2) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.ebola_virus_1 X) (and (tptp.original_name_2 X |tptp.'Ebola-Virus'|) (tptp.user_description_2 X |tptp.'A virus that that causes hemorrhagic fever, an often fatal syndrome characterized by fever, vomiting, massive bleeding, and circulatory system collapse.'|) (tptp.concept2words_2 X |tptp.'virus of ebola'|) (tptp.concept2words_2 X |tptp.'ebola virus'|) (tptp.concept2words_2 X |tptp.'ebola-virus'|) (tptp.rna_virus_1 X) (not (tptp.hantavirus_1 X)) (not (tptp.influenza_virus_1 X)) (not (tptp.nipah_virus_1 X)) (not (tptp.retrovirus_1 X)) (not (tptp.rna_virus_class_iv_1 X)) (not (tptp.rna_virus_class_v_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecdysone_1 X) (and (tptp.original_name_2 X |tptp.'Ecdysone'|) (tptp.user_description_2 X |tptp.'A steroid hormone, secreted by the prothoracic glands, that triggers molting in arthropods.'|) (tptp.concept2words_2 X tptp.ecdysone) (tptp.steroid_hormone_1 X) (not (tptp.aldosterone_1 X)) (not (tptp.brassinosteroid_1 X)) (not (tptp.corticosteroid_1 X)) (not (tptp.estradiol_1 X)) (not (tptp.progesterone_1 X)) (not (tptp.testosterone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecdysozoan_1 X) (and (tptp.original_name_2 X |tptp.'Ecdysozoan'|) (tptp.user_description_2 X |tptp.'Member of a group of protostome animal phyla, including arthropods and nematodes, that molt their exoskeleton. The grouping is also supported by molecular evidence.'|) (tptp.concept2words_2 X tptp.ecdysozoan) (tptp.animal_1 X)))) (forall ((X $$unsorted)) (=> (tptp.echidna_1 X) (and (tptp.original_name_2 X |tptp.'Echidna'|) (tptp.user_description_2 X |tptp.'Also known as spiny ant eaters. Echidnas are monotremes (egg-laying mammals) that superficially resemble hedgehogs.'|) (tptp.concept2words_2 X tptp.echidna) (tptp.monotreme_1 X)))) (forall ((X $$unsorted)) (=> (tptp.echinoderm_1 X) (and (tptp.original_name_2 X |tptp.'Echinoderm'|) (tptp.user_description_2 X |tptp.'Member of the phylum Echinodermata, a group of sessils marine invertebrates characterized by pentaradial symmetry as adults, bilateral symmetry as larvae, and a unique water vascular system. Echinoderms include sea stars, brittle stars, sea urchins, sand dollars, sea cucumbers, and feather stars.'|) (tptp.concept2words_2 X tptp.echinoderm) (tptp.deuterostomia_1 X) (not (tptp.ammonite_1 X)) (not (tptp.annelid_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.lophotrochozoan_1 X)) (not (tptp.mollusc_1 X)) (not (tptp.nematode_1 X)) (not (tptp.nemertea_1 X)) (not (tptp.phoronid_1 X)) (not (tptp.platyhelminthes_1 X)) (not (tptp.porifera_1 X)) (not (tptp.rotifer_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ecological_community_3 X))) (let ((_let_2 (tptp.fn_ecological_community_1 X))) (let ((_let_3 (tptp.fn_ecological_community_5 X))) (let ((_let_4 (tptp.fn_ecological_community_2 X))) (let ((_let_5 (tptp.fn_ecological_community_4 X))) (=> (tptp.ecological_community_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Community'|) (tptp.user_description_2 X |tptp.'All the organisms that inhabit a particular area; an assemblage of populations of different species living close enough together for potential interaction.'|) (tptp.concept2words_2 X |tptp.'community as ecological grouping'|) (tptp.concept2words_2 X |tptp.'ecological community'|) (tptp.concept2words_2 X |tptp.'ecological-community'|) (tptp.community_1 X) (tptp.population_1 _let_2) (tptp.interact_1 _let_4) (tptp.population_1 _let_1) (tptp.species_1 _let_5) (tptp.species_1 _let_3) (tptp.element_2 _let_1 _let_5) (tptp.element_2 _let_1 _let_3) (not (= _let_1 _let_2)) (tptp.experiencer_2 _let_4 _let_5) (tptp.experiencer_2 _let_4 _let_3) (tptp.element_2 X _let_2) (tptp.element_2 X _let_1) (not (= _let_2 _let_1)))))))))) (forall ((X $$unsorted)) (=> (tptp.ecological_grouping_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Grouping'|) (tptp.user_description_2 X |tptp.'Groups of individuals or areas related by their interactions with each other and the environment.'|) (tptp.concept2words_2 X |tptp.'ecological grouping'|) (tptp.concept2words_2 X |tptp.'ecological-grouping'|) (tptp.classification_unit_1 X) (not (tptp.ingroup_1 X)) (not (tptp.outgroup_1 X)) (not (tptp.polyphyletic_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecological_model_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Model'|) (tptp.user_description_2 X |tptp.'A model representating an ecological theory or process.'|) (tptp.concept2words_2 X |tptp.'ecological model'|) (tptp.concept2words_2 X |tptp.'ecological-model'|) (tptp.model_1 X) (not (tptp.closed_system_1 X)) (not (tptp.cognitive_map_1 X)) (not (tptp.five_kingdom_system_1 X)) (not (tptp.fluid_mosaic_model_1 X)) (not (tptp.molecular_formula_1 X)) (not (tptp.open_system_1 X)) (not (tptp.representation_of_data_1 X)) (not (tptp.sandwich_model_1 X)) (not (tptp.stable_system_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.unstable_system_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecological_niche_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Niche'|) (tptp.user_description_2 X |tptp.'A description of how an individual or speces responds to the distribution of biotic and abiotic factors in the environment, and how it in turns alters the distribution of those factors.'|) (tptp.concept2words_2 X |tptp.'ecological niche'|) (tptp.concept2words_2 X |tptp.'ecological-niche'|) (tptp.ecological_role_1 X) (not (tptp.keystone_species_1 X)) (not (tptp.pollinator_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecological_process_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Process'|) (tptp.user_description_2 X |tptp.'Any process that occurs at the level of ecosystems.'|) (tptp.concept2words_2 X |tptp.'ecological process'|) (tptp.concept2words_2 X |tptp.'ecological-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ecological_pyramid_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Pyramid'|) (tptp.user_description_2 X |tptp.'A diagram that represents the productivity or biomass of each trophic level in a 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X _let_2) (tptp.experiencer_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.ecological_role_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Role'|) (tptp.user_description_2 X |tptp.'Roles specifically related to ecology and ecosystems.'|) (tptp.concept2words_2 X |tptp.'ecological role'|) (tptp.concept2words_2 X |tptp.'ecological-role'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ecological_species_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Species'|) (tptp.user_description_2 X |tptp.'A group of organisms in an ecosystem that interact in similar ways with the abiotic and biotic factors of their environment.'|) (tptp.concept2words_2 X |tptp.'ecological species'|) (tptp.concept2words_2 X |tptp.'ecological-specy'|) (tptp.species_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ecological_species_concept_1 X) (and (tptp.original_name_2 X |tptp.'Ecological-Species-Concept'|) (tptp.user_description_2 X |tptp.'A definition of species in terms of ecological niche, the sum 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_let_7) (tptp.cell_1 _let_4) (tptp.plant_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.element_2 _let_19 _let_36) (tptp.element_2 _let_18 _let_11) (tptp.element_2 _let_20 _let_35) (tptp.element_2 _let_35 _let_34) (tptp.plays_2 _let_6 _let_33) (tptp.plays_2 _let_26 _let_32) (tptp.plays_2 _let_25 _let_31) (tptp.plays_2 _let_24 _let_30) (tptp.plays_2 _let_24 _let_29) (tptp.has_part_2 _let_27 _let_28) (tptp.element_2 X _let_27) (tptp.element_2 X _let_26) (tptp.element_2 X _let_25) (tptp.element_2 X _let_24) (tptp.element_2 X _let_21) (tptp.element_2 X _let_23) (tptp.element_2 X _let_22) (tptp.element_2 X _let_8) (tptp.element_2 _let_21 _let_16) (tptp.element_2 _let_21 _let_20) (tptp.element_2 _let_17 _let_1) (tptp.element_2 _let_16 _let_19) (tptp.element_2 _let_16 _let_18) (tptp.element_2 _let_16 _let_17) (tptp.element_2 _let_16 _let_15) (tptp.element_2 _let_15 _let_14) (tptp.base_2 _let_3 _let_5) (tptp.plays_2 _let_1 _let_12) (tptp.plays_2 _let_11 _let_9) 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(tptp.concept2words_2 X |tptp.'ecosystem-fragmentation'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ecosystem_service_1 X) (and (tptp.original_name_2 X |tptp.'Ecosystem-Service'|) (tptp.user_description_2 X |tptp.'A process occuring within an ecosystem that directly or indirectly benefits humankind.'|) (tptp.concept2words_2 X |tptp.'service of ecosystem'|) (tptp.concept2words_2 X |tptp.'ecosystem service'|) (tptp.concept2words_2 X |tptp.'ecosystem-service'|) (tptp.community_ecology_1 X) (not (tptp.nonequilibrium_model_1 X)) (not (tptp.gross_primary_production_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ecotherm_1 X) (and (tptp.original_name_2 X |tptp.'Ecotherm'|) (tptp.user_description_2 X |tptp.'Animal which maintains its body temperature largely through external enironmental means, such as warmth from the sun or cooling from shade.'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ecotone_1 X) (and (tptp.original_name_2 X |tptp.'Ecotone'|) 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In vertebrates, ectoderm also gives rise to structures of the nervous system, lining of the mouth and anus, and epidermal skin coverings (hair, feathers, and scales).'|) (tptp.concept2words_2 X tptp.ectoderm) (tptp.germ_layer_1 X) (not (tptp.mesoderm_1 X)) (not (tptp.endoderm_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ectomycorrhiza_1 X) (and (tptp.original_name_2 X |tptp.'Ectomycorrhiza'|) (tptp.user_description_2 X |tptp.'Association of a fungus with a plant root system in which the fungus surrounds the roots but does not cause invagination of the host (plant) cells plasma membranes.'|) (tptp.concept2words_2 X tptp.ectomycorrhiza) (tptp.mycorrhiza_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ectomycorrhizal_fungus_1 X))) (=> (tptp.ectomycorrhizal_fungus_1 X) (and (tptp.original_name_2 X |tptp.'Ectomycorrhizal-Fungus'|) (tptp.user_description_2 X |tptp.'A fungus that forms an ectomycorrhizal relationship with a plant root system.'|) (tptp.concept2words_2 X |tptp.'ectomycorrhizal fungus'|) (tptp.concept2words_2 X |tptp.'ectomycorrhizal-fungus'|) (tptp.multicellular_organism_1 X) (tptp.symbiotic_fungi_1 X) (not (tptp.endophyte_1 X)) (tptp.fungal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_multicellular_organism_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.ectoparasite_1 X) (and (tptp.original_name_2 X |tptp.'Ectoparasite'|) (tptp.user_description_2 X |tptp.'A parasite that lives on and feeds from the external surface of the host_'s body.'|) (tptp.concept2words_2 X tptp.ectoparasite) (tptp.parasite_1 X) (not (tptp.endoparasite_1 X)) (not (tptp.parasitoid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ectoproct_1 X) (and (tptp.original_name_2 X |tptp.'Ectoproct'|) (tptp.user_description_2 X |tptp.'Sessile, colonial animal of the phylum Bryozoa.'|) (tptp.concept2words_2 X tptp.ectoproct) (tptp.lophotrochozoan_1 X) (not (tptp.brachiopod_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ectothermy_1 X) (and (tptp.original_name_2 X |tptp.'Ectothermy'|) (tptp.user_description_2 X |tptp.'Regulation of body temperature using primarily external heat sources.'|) (tptp.concept2words_2 X tptp.ectothermic) (tptp.concept2words_2 X |tptp.'cold blooded'|) (tptp.concept2words_2 X |tptp.'cold-blooded'|) (tptp.concept2words_2 X tptp.ectothermy) (tptp.thermoregulation_1 X) (not (tptp.endothermic_1 X))))) (forall ((X $$unsorted)) (=> (tptp.edentata_1 X) (and (tptp.original_name_2 X |tptp.'Edentata'|) (tptp.user_description_2 X |tptp.'A polyphyletic grouping of mammals that includes armadillos, anteaters, sloths, and aardvarks.'|) (tptp.concept2words_2 X tptp.xenarthra) (tptp.concept2words_2 X tptp.edentata) (tptp.placental_mammal_1 X) (not (tptp.bat_1 X)) (not (tptp.elephant_1 X)) (not (tptp.primate_1 X)) (not (tptp.rodent_1 X)) (not (tptp.ungulate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ediacaran_biota_1 X) (and (tptp.original_name_2 X |tptp.'Ediacaran-Biota'|) (tptp.user_description_2 X |tptp.'A group of soft-bodied eukaryotic organisms that existed in the Ediacaran Period (about 635-542 million years ago). The Ediacaran fossils are enigmatic and difficult to place in groups of known organisms.'|) (tptp.concept2words_2 X |tptp.'ediacaran biota'|) (tptp.concept2words_2 X |tptp.'ediacaran-biota'|) (tptp.clade_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_edit_1 X))) (=> (tptp.edit_1 X) (and (tptp.original_name_2 X |tptp.'Edit'|) (tptp.concept2words_2 X tptp.edit) (tptp.concept2words_2 X tptp.redact) (tptp.concept2words_2 X tptp.revise) (tptp.concept2words_2 X tptp.rewrite) (tptp.action_1 X) (tptp.document_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.educational_institution_1 X) (and (tptp.original_name_2 X |tptp.'Educational-Institution'|) (tptp.description_2 X |tptp.'an institution for teaching, studying, research, etc.'|) (tptp.concept2words_2 X |tptp.'educational institution'|) (tptp.concept2words_2 X tptp.educational_institution) (tptp.concept2words_2 X tptp.school) (tptp.concept2words_2 X |tptp.'educational-institution'|) (tptp.institution_1 X) (not (tptp.company_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_effect_of_pdgf_on_cell_division_17 X))) (let ((_let_2 (tptp.fn_person_60 _let_1))) (let ((_let_3 (tptp.fn_effect_of_pdgf_on_cell_division_16 X))) (let ((_let_4 (tptp.fn_effect_of_pdgf_on_cell_division_19 X))) (let ((_let_5 (tptp.fn_piece_of_tissue_1 _let_4))) (let ((_let_6 (tptp.fn_effect_of_pdgf_on_cell_division_21 X))) (let ((_let_7 (tptp.fn_effect_of_pdgf_on_cell_division_23 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_effect_of_pdgf_on_cell_division_22 X))) (let ((_let_10 (tptp.fn_effect_of_pdgf_on_cell_division_30 X))) (let ((_let_11 (tptp.fn_add_2 _let_10))) (let ((_let_12 (tptp.fn_effect_of_pdgf_on_cell_division_26 X))) (let ((_let_13 (tptp.fn_effect_of_pdgf_on_cell_division_32 X))) (let ((_let_14 (tptp.fn_cell_division_3 _let_13))) (let ((_let_15 (tptp.fn_effect_of_pdgf_on_cell_division_31 X))) (let ((_let_16 (tptp.fn_effect_of_pdgf_on_cell_division_20 X))) (let ((_let_17 (tptp.fn_impair_1 _let_16))) (let ((_let_18 (tptp.fn_effect_of_pdgf_on_cell_division_18 X))) (let ((_let_19 (tptp.fn_add_1 _let_10))) (let ((_let_20 (tptp.fn_effect_of_pdgf_on_cell_division_29 X))) (let ((_let_21 (tptp.fn_effect_of_pdgf_on_cell_division_28 X))) (let ((_let_22 (tptp.fn_transfer_1 _let_21))) (let ((_let_23 (tptp.fn_effect_of_pdgf_on_cell_division_24 X))) (let ((_let_24 (tptp.fn_effect_of_pdgf_on_cell_division_27 X))) (let ((_let_25 (tptp.fn_transfer_1 _let_24))) (let ((_let_26 (tptp.fn_effect_of_pdgf_on_cell_division_25 X))) (let ((_let_27 (tptp.fn_effect_of_pdgf_on_cell_division_6 X))) (let ((_let_28 (tptp.fn_effect_of_pdgf_on_cell_division_5 X))) (let ((_let_29 (tptp.fn_effect_of_pdgf_on_cell_division_11 X))) (let ((_let_30 (tptp.fn_effect_of_pdgf_on_cell_division_7 X))) (let ((_let_31 (tptp.fn_effect_of_pdgf_on_cell_division_8 X))) (let ((_let_32 (tptp.fn_effect_of_pdgf_on_cell_division_9 X))) (let ((_let_33 (tptp.fn_effect_of_pdgf_on_cell_division_10 X))) (let ((_let_34 (tptp.fn_effect_of_pdgf_on_cell_division_12 X))) (let ((_let_35 (tptp.fn_effect_of_pdgf_on_cell_division_13 X))) (let ((_let_36 (tptp.fn_effect_of_pdgf_on_cell_division_14 X))) (let ((_let_37 (tptp.fn_effect_of_pdgf_on_cell_division_15 X))) (=> (tptp.effect_of_pdgf_on_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Effect-Of-PDGF-On-Cell-Division'|) (tptp.user_description_2 X |tptp.'PDGF, or platelet derived growth factor, acts as a signaling molecule which promotes cell division.'|) (tptp.concept2words_2 X |tptp.'effect of pdgf on cell division'|) (tptp.concept2words_2 X |tptp.'effect-of-pdgf-on-cell-division'|) (tptp.experiment_1 X) (tptp.incubation_1 _let_28) (tptp.duration_value_1 _let_27) (tptp.incubation_1 _let_30) (tptp.duration_value_1 _let_31) (tptp.temperature_value_1 _let_32) (tptp.temperature_value_1 _let_33) (tptp.culture_medium_1 _let_29) (tptp.suspension_1 _let_34) (tptp.enzyme_1 _let_35) (tptp.extra_cellular_matrix_1 _let_36) (tptp.cell_1 _let_37) (tptp.tissue_1 _let_3) (tptp.bone_1 _let_3) (tptp.person_1 _let_1) (tptp.connective_tissue_1 _let_18) (tptp.piece_of_tissue_1 _let_4) (tptp.shear_1 _let_16) (tptp.tissue_1 _let_6) (tptp.substance_1 _let_9) (tptp.destroy_1 _let_7) (tptp.fibroblast_1 _let_23) (tptp.fibroblast_1 _let_26) (tptp.culture_medium_1 _let_12) (tptp.transfer_1 _let_24) (tptp.transfer_1 _let_21) (tptp.platelet_derived_growth_factor_1 _let_20) (tptp.add_1 _let_10) (tptp.fibroblast_1 _let_15) (tptp.cell_division_1 _let_13) (tptp.entity_1 _let_25) (tptp.entity_1 _let_22) (tptp.spatial_entity_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.cell_1 _let_14) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.tissue_1 _let_5) (tptp.tissue_1 _let_2) (tptp.bone_1 _let_2) (tptp.first_subevent_2 X _let_16) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_28) (tptp.subevent_2 X _let_30) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_7) (tptp.base_2 X _let_37) (tptp.has_part_2 _let_1 _let_18) (tptp.result_2 _let_16 _let_4) (tptp.minCardinality _let_16 tptp.result_0 |"1"| tptp.piece_of_tissue_0) (tptp.next_event_2 _let_16 _let_7) (tptp.has_region_2 _let_6 _let_36) (tptp.is_inside_2 _let_9 _let_36) (tptp.has_part_2 _let_34 _let_26) (tptp.has_part_2 _let_34 _let_23) (tptp.minCardinality _let_34 tptp.has_part_0 |"1"| tptp.fibroblast_0) (tptp.agent_2 _let_7 _let_35) (tptp.result_2 _let_7 _let_34) (tptp.next_event_2 _let_7 _let_30) (tptp.next_event_2 _let_7 _let_21) (tptp.next_event_2 _let_7 _let_24) (tptp.has_state_2 _let_23 _let_15) (tptp.has_part_2 _let_12 _let_15) (tptp.temperature_2 _let_12 _let_32) (tptp.temperature_2 _let_29 _let_33) (tptp.destination_2 _let_24 _let_29) (not (= _let_24 _let_21)) (tptp.destination_2 _let_21 _let_12) (not (= _let_21 _let_24)) (tptp.next_event_2 _let_21 _let_10) (tptp.called_2 _let_21 |"1"|) (tptp.next_event_2 _let_10 _let_28) (tptp.next_event_2 _let_10 _let_30) (tptp.the_cardinal_value_2 _let_33 |"37.0e0"|) (tptp.cardinal_unit_class_2 _let_33 tptp.celsius_0) (tptp.the_cardinal_value_2 _let_32 |"37.0e0"|) (tptp.cardinal_unit_class_2 _let_32 tptp.celsius_0) (tptp.the_cardinal_value_2 _let_31 |"24.0e0"|) (tptp.cardinal_unit_class_2 _let_31 tptp.hour_0) (tptp.object_2 _let_30 _let_12) (tptp.duration_2 _let_30 _let_31) (tptp.next_event_2 _let_30 _let_13) (tptp.called_2 _let_30 |"1"|) (tptp.the_cardinal_value_2 _let_27 |"24.0e0"|) (tptp.cardinal_unit_class_2 _let_27 tptp.hour_0) (tptp.object_2 _let_28 _let_29) (tptp.duration_2 _let_28 _let_27) (tptp.base_2 _let_13 _let_15) (tptp.object_2 _let_24 _let_26) (tptp.object_2 _let_21 _let_23) (tptp.object_2 _let_10 _let_20) (tptp.object_2 _let_16 _let_18) (tptp.object_2 _let_13 _let_15) (tptp.base_2 _let_10 _let_12) (tptp.object_2 _let_7 _let_9) (tptp.material_2 _let_4 _let_6) (tptp.has_part_2 _let_1 _let_3) (= _let_26 _let_25) (= _let_23 _let_22) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.effector_cell_1 X) (and (tptp.original_name_2 X |tptp.'Effector-Cell'|) (tptp.user_description_2 X |tptp.'(1) The cell in a muscle, gland, or organ that responds to a stimulus from a neuron. (2) In the immune system, a white blood cell that has gone through clonal selection and can mediate an acquired immune response.'|) (tptp.concept2words_2 X |tptp.'cell of effector'|) (tptp.concept2words_2 X |tptp.'effector cell'|) (tptp.concept2words_2 X |tptp.'effector-cell'|) (tptp.immune_cell_1 X) (not (tptp.antigen_presenting_cell_1 X)) (not (tptp.eosinophil_1 X)) (not (tptp.mast_cell_1 X)) (not (tptp.natural_killer_cell_1 X)) (not (tptp.neutrophil_1 X)) (not (tptp.recombinant_immune_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.efferent_arteriole_1 X) (and (tptp.original_name_2 X |tptp.'Efferent-Arteriole'|) (tptp.user_description_2 X |tptp.'In the kidney, the blood vessel draining a nephron.'|) (tptp.concept2words_2 X |tptp.'efferent arteriole'|) (tptp.concept2words_2 X |tptp.'efferent-arteriole'|) (tptp.arteriole_1 X) (not (tptp.afferent_arteriole_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_egg_2 X))) (let ((_let_2 (tptp.fn_egg_1 X))) (=> (tptp.egg_1 X) (and (tptp.original_name_2 X |tptp.'Egg'|) (tptp.user_description_2 X |tptp.'An egg is a reproductive structure in animals within which the embryo first begins to develop. Eggs may contain nutrients for the developing embryo, as well as a hardened shell for protection.'|) (tptp.concept2words_2 X tptp.ovum) (tptp.concept2words_2 X |tptp.'unfertilized egg'|) (tptp.concept2words_2 X |tptp.'unfertilized egg cell'|) (tptp.concept2words_2 X tptp.egg) (tptp.life_stage_1 X) (tptp.metabolism_1 _let_2) (tptp.anterior_end_1 _let_1) (tptp.base_2 _let_2 X) (tptp.has_region_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.egg_activation_1 X) (and (tptp.original_name_2 X |tptp.'Egg-Activation'|) (tptp.user_description_2 X |tptp.'A sharp increase in an animal egg_'s metabolic activities due to calcium entry into the egg in response to sperm penetration. Egg activation includes the cortical reaction, the reactivation of meiosis, and DNA synthesis.'|) (tptp.concept2words_2 X |tptp.'activation of egg'|) (tptp.concept2words_2 X |tptp.'egg activation'|) (tptp.concept2words_2 X |tptp.'egg-activation'|) (tptp.regulation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.egg_cell_1 X) (and (tptp.original_name_2 X |tptp.'Egg-Cell'|) (tptp.user_description_2 X |tptp.'An egg cell is the female gamete or female sex cell.'|) (tptp.concept2words_2 X |tptp.'cell of egg'|) (tptp.concept2words_2 X |tptp.'egg cell'|) (tptp.concept2words_2 X |tptp.'egg-cell'|) (tptp.gamete_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_egg_laying_animal_1 X))) (let ((_let_2 (tptp.fn_egg_laying_process_1 _let_1))) (=> (tptp.egg_laying_animal_1 X) (and (tptp.original_name_2 X |tptp.'Egg-Laying-Animal'|) (tptp.user_description_2 X |tptp.'An animal producing egg during thr process of reproduction is an egg laying animal.'|) (tptp.concept2words_2 X |tptp.'oviparous animal'|) (tptp.concept2words_2 X |tptp.'egg laying animal'|) (tptp.concept2words_2 X |tptp.'egg-laying-animal'|) (tptp.animal_1 X) (tptp.egg_laying_process_1 _let_1) (tptp.egg_laying_animal_1 _let_2) (tptp.base_2 _let_1 X) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_egg_laying_process_1 X))) (=> (tptp.egg_laying_process_1 X) (and (tptp.original_name_2 X |tptp.'Egg-Laying-Process'|) (tptp.user_description_2 X |tptp.'The process of an animal producing egg during the process of reproduction is an egg laying process.'|) (tptp.concept2words_2 X tptp.oviposition) (tptp.concept2words_2 X tptp.lay) (tptp.concept2words_2 X |tptp.'egg laying process'|) (tptp.concept2words_2 X |tptp.'egg-laying-process'|) (tptp.reproductive_process_1 X) (tptp.egg_laying_animal_1 _let_1) (tptp.base_2 X _let_1) (= _let_1 (tptp.fn_reproduction_2 X)))))) (forall ((X $$unsorted)) (=> (tptp.egg_shell_1 X) (and (tptp.original_name_2 X |tptp.'Egg-Shell'|) (tptp.user_description_2 X |tptp.'An outer covering around the zygote of the egg is called egg shell.'|) (tptp.concept2words_2 X |tptp.'shell of egg'|) (tptp.concept2words_2 X |tptp.'egg shell'|) (tptp.concept2words_2 X |tptp.'egg-shell'|) (tptp.shell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eight_cell_embryo_1 X))) (=> (tptp.eight_cell_embryo_1 X) (and (tptp.original_name_2 X |tptp.'Eight-Cell-Embryo'|) (tptp.user_description_2 X |tptp.'An embryo that has divided into eight cells is called an eight cell embryo.'|) (tptp.concept2words_2 X |tptp.'eight cell embryo'|) (tptp.concept2words_2 X |tptp.'eight-cell-embryo'|) (tptp.embryo_1 X) (not (tptp.abnormal_cloned_embryo_1 X)) (not (tptp.animal_embryo_1 X)) (not (tptp.cloned_embryo_1 X)) (not (tptp.early_embryo_1 X)) (not (tptp.embryoid_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X)) (tptp.cell_1 _let_1) (tptp.has_part_2 X _let_1) (tptp.exactCardinality X tptp.has_part_0 |"8"| tptp.cell_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eight_cell_stage_1 X))) (let ((_let_2 (tptp.fn_eight_cell_stage_2 X))) (=> (tptp.eight_cell_stage_1 X) (and (tptp.original_name_2 X |tptp.'Eight-Cell-Stage'|) (tptp.user_description_2 X |tptp.'The developmental stage of an organism where the embryo has divided into eight cells is called an eight cell stage.'|) (tptp.concept2words_2 X |tptp.'undergo the eight cell stage'|) (tptp.concept2words_2 X |tptp.'eight cell stage'|) (tptp.concept2words_2 X |tptp.'eight-cell-stage'|) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X)) (tptp.eight_cell_embryo_1 _let_1) (tptp.embryogenesis_1 _let_2) (tptp.subevent_2 _let_2 X) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_einsteinium_9 X))) (let ((_let_2 (tptp.fn_einsteinium_12 X))) (let ((_let_3 (tptp.fn_einsteinium_10 X))) (let ((_let_4 (tptp.fn_einsteinium_11 X))) (let ((_let_5 (tptp.fn_einsteinium_4 X))) (let ((_let_6 (tptp.fn_einsteinium_5 X))) (let ((_let_7 (tptp.fn_einsteinium_3 X))) (=> (tptp.einsteinium_1 X) (and (tptp.original_name_2 X |tptp.'Einsteinium'|) (tptp.user_description_2 X |tptp.'Einsteinium is a metal atom with atomic number 99. It is represented by the symbol Es.'|) (tptp.concept2words_2 X tptp.einsteinium) (tptp.concept2words_2 X tptp.es) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"153"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"99"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"99"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"13"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"252"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"99"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"252"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_einsteinium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_einsteinium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_einsteinium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.ejaculation_1 X) (and (tptp.original_name_2 X |tptp.'Ejaculation'|) (tptp.user_description_2 X |tptp.'The forceful ejection of semen from the male reproductive tract.'|) (tptp.concept2words_2 X tptp.ejaculate) (tptp.concept2words_2 X tptp.ejaculation) (tptp.reproductive_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ejaculatory_duct_1 X) (and (tptp.original_name_2 X |tptp.'Ejaculatory-Duct'|) (tptp.user_description_2 X |tptp.'In mammals, short paired tubes that transport semen from the vas deferens to the urethra. The ejaculatory ducts pass through the prostate gland and open into the urethra.'|) (tptp.concept2words_2 X |tptp.'ductus ejaculatorii'|) (tptp.concept2words_2 X |tptp.'ductus-ejaculatorii'|) (tptp.concept2words_2 X |tptp.'ejaculatory duct'|) (tptp.concept2words_2 X |tptp.'ejaculatory-duct'|) (tptp.duct_1 X) (tptp.columnlike_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electric_current_2 X))) (let ((_let_2 (tptp.fn_electric_current_1 X))) (=> (tptp.electric_current_1 X) (and (tptp.original_name_2 X |tptp.'Electric-Current'|) (tptp.user_description_2 X |tptp.'Flow of electric charge through a medium.'|) (tptp.concept2words_2 X |tptp.'current of electric'|) (tptp.concept2words_2 X |tptp.'electric current'|) (tptp.concept2words_2 X |tptp.'electric-current'|) (tptp.energy_1 X) (tptp.measure_1 _let_2) (tptp.galvanometer_1 _let_1) (tptp.object_2 _let_2 X) (tptp.instrument_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.electric_current_pulse_1 X) (and (tptp.original_name_2 X |tptp.'Electric-Current-Pulse'|) (tptp.user_description_2 X |tptp.'The pulses of electric current.'|) (tptp.concept2words_2 X |tptp.'pulse of electric current'|) (tptp.concept2words_2 X |tptp.'pulse of electrical current'|) (tptp.concept2words_2 X |tptp.'electric current pulse'|) (tptp.concept2words_2 X |tptp.'electric-current-pulse'|) (tptp.energy_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electric_force_1 X) (and (tptp.original_name_2 X |tptp.'Electric-Force'|) (tptp.user_description_2 X |tptp.'A force exerted by electrically charged particles.'|) (tptp.concept2words_2 X |tptp.'force of electric'|) (tptp.concept2words_2 X |tptp.'electric force'|) (tptp.concept2words_2 X |tptp.'electric-force'|) (tptp.force_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrical_power_plant_1 X) (and (tptp.original_name_2 X |tptp.'Electrical-Power-Plant'|) (tptp.user_description_2 X |tptp.'Man-made system that generates, manages, and dispenses power to communities.'|) (tptp.concept2words_2 X |tptp.'power plant'|) (tptp.concept2words_2 X |tptp.'electrical power plant'|) (tptp.concept2words_2 X |tptp.'electrical-power-plant'|) (tptp.factory_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.laboratory_1 X))))) (forall ((X $$unsorted)) (=> (tptp.electrical_signal_1 X) (and (tptp.original_name_2 X |tptp.'Electrical-Signal'|) (tptp.user_description_2 X |tptp.'A change in membrane voltage across the membrane of a neuron caused by depolarization initiated by a stimulus.'|) (tptp.concept2words_2 X |tptp.'action potential'|) (tptp.concept2words_2 X |tptp.'electrical signal'|) (tptp.concept2words_2 X |tptp.'electrical-signal'|) (tptp.signal_1 X) (not (tptp.elicitor_1 X)) (not (tptp.florigen_1 X)) (not (tptp.local_regulator_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electrical_signaling_6 X))) (let ((_let_2 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_1 X))) (let ((_let_4 (tptp.fn_long_distance_cell_communication_4 X))) (let ((_let_5 (tptp.fn_electrical_signaling_4 X))) (let ((_let_6 (tptp.fn_cellular_response_3 _let_5))) (let ((_let_7 (tptp.fn_electrical_signaling_5 X))) (let ((_let_8 (tptp.fn_cell_signaling_event_1 _let_7))) (let ((_let_9 (tptp.fn_electrical_signaling_8 X))) (let ((_let_10 (tptp.fn_signal_reception_3 _let_9))) (let ((_let_11 (tptp.fn_intracellular_process_1 _let_5))) (let ((_let_12 (tptp.fn_electrical_signaling_7 X))) (let ((_let_13 (tptp.fn_electrical_signaling_12 X))) (let ((_let_14 (tptp.fn_electrical_signaling_10 X))) (let ((_let_15 (tptp.fn_electrical_signaling_2 X))) (let ((_let_16 (tptp.fn_electrical_signaling_3 X))) (let ((_let_17 (tptp.fn_electrical_signaling_11 X))) (let ((_let_18 (tptp.fn_signal_reception_5 _let_9))) (let ((_let_19 (tptp.fn_electrical_signaling_9 X))) (let ((_let_20 (tptp.fn_electrical_signaling_1 X))) (=> (tptp.electrical_signaling_1 X) (and (tptp.original_name_2 X |tptp.'Electrical-Signaling'|) (tptp.user_description_2 X |tptp.'A mode of long-distance communication by neurons.'|) (tptp.concept2words_2 X |tptp.'nerve signaling'|) (tptp.concept2words_2 X |tptp.'neural signaling'|) (tptp.concept2words_2 X tptp.signal) (tptp.concept2words_2 X |tptp.'electrical signaling'|) (tptp.concept2words_2 X |tptp.'electrical-signaling'|) (tptp.long_distance_cell_communication_1 X) (tptp.receptor_1 _let_20) (tptp.living_entity_1 _let_15) (tptp.cell_1 _let_15) (tptp.signal_generation_1 _let_16) (tptp.cellular_response_1 _let_5) (tptp.signal_transduction_1 _let_7) (tptp.cell_signaling_1 _let_1) (tptp.cell_1 _let_12) (tptp.signal_reception_1 _let_9) (tptp.chemical_entity_1 _let_19) (tptp.biological_region_1 _let_14) (tptp.secretion_1 _let_17) (tptp.signal_transmission_1 _let_13) (tptp.chemical_entity_1 _let_18) (tptp.cell_1 _let_11) (tptp.cell_1 _let_10) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.cell_1 _let_2) (tptp.complement_2 _let_20 _let_19) (tptp.complement_2 _let_19 _let_20) (tptp.first_subevent_2 X _let_9) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_9) (tptp.agent_2 X _let_19) (tptp.instrument_2 _let_9 _let_20) (tptp.next_event_2 _let_9 _let_7) (tptp.recipient_2 _let_9 _let_15) (tptp.next_event_2 _let_7 _let_5) (tptp.object_2 _let_9 _let_19) (tptp.base_2 _let_9 _let_15) (tptp.base_2 _let_7 _let_15) (tptp.object_2 X _let_12) (tptp.base_2 _let_5 _let_15) (tptp.first_subevent_2 X _let_16) (tptp.subevent_2 X _let_13) (tptp.next_event_2 _let_16 _let_13) (tptp.subevent_2 _let_16 _let_17) (tptp.base_2 _let_17 _let_15) (tptp.agent_2 X _let_15) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_13 _let_1) (tptp.origin_2 _let_13 _let_14) (tptp.is_outside_2 _let_14 _let_15) (tptp.agent_2 _let_16 _let_15) (tptp.base_2 _let_1 _let_12) (= _let_19 _let_18) (= _let_15 _let_10) (= _let_15 _let_8) (= _let_12 _let_3) (= _let_15 _let_11) (= _let_15 _let_6) (= _let_17 (tptp.fn_long_distance_cell_communication_6 X)) (= _let_16 (tptp.fn_long_distance_cell_communication_3 X)) (= _let_15 _let_4) (= _let_14 (tptp.fn_long_distance_cell_communication_9 X)) (= _let_13 (tptp.fn_long_distance_cell_communication_5 X)) (= _let_1 (tptp.fn_long_distance_cell_communication_8 X)) (= _let_12 _let_2) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.electrical_synapse_1 X) (and (tptp.original_name_2 X |tptp.'Electrical-Synapse'|) (tptp.user_description_2 X |tptp.'Synapses that allow action potentials to spread directly from the presynaptic cell to the postsynaptic cell.'|) (tptp.concept2words_2 X |tptp.'electrical synapse'|) (tptp.concept2words_2 X |tptp.'electrical-synapse'|) (tptp.synapse_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrically_charged_amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Electrically-Charged-Amino-Acid'|) (tptp.user_description_2 X |tptp.'An amino acid has hydrophillic properties due to the presence of an electrically charged side chain.'|) (tptp.concept2words_2 X |tptp.'electrically charged amino acid'|) (tptp.concept2words_2 X |tptp.'electrically-charged-amino-acid'|) (tptp.hydrophilic_amino_acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrocardiogram_1 X) (and (tptp.original_name_2 X |tptp.'Electrocardiogram'|) (tptp.user_description_2 X |tptp.'A medical test that records the electrical activity of the heart.'|) (tptp.concept2words_2 X tptp.electrocardiogram) (tptp.diagnostic_procedure_1 X) (not (tptp.abortion_1 X)) (not (tptp.assisted_reproductive_technology_1 X)) (not (tptp.genetic_testing_1 X)) (not (tptp.immunization_1 X)) (not (tptp.newborn_screening_1 X)) (not (tptp.paternity_testing_1 X)) (not (tptp.tubal_ligation_1 X)) (not (tptp.ultrasound_imaging_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electrochemical_gradient_18 X))) (let ((_let_2 (tptp.fn_electrochemical_gradient_17 X))) (let ((_let_3 (tptp.fn_electrochemical_gradient_12 X))) (let ((_let_4 (tptp.fn_gradient_3 _let_3))) (let ((_let_5 (tptp.fn_electrochemical_gradient_14 X))) (let ((_let_6 (tptp.fn_gradient_2 _let_3))) (let ((_let_7 (tptp.fn_electrochemical_gradient_15 X))) (let ((_let_8 (tptp.fn_gradient_4 _let_3))) (let ((_let_9 (tptp.fn_gradient_5 _let_3))) (let ((_let_10 (tptp.fn_electrochemical_gradient_11 X))) (let ((_let_11 (tptp.fn_gradient_3 _let_10))) (let ((_let_12 (tptp.fn_electrochemical_gradient_13 X))) (let ((_let_13 (tptp.fn_gradient_2 _let_10))) (let ((_let_14 (tptp.fn_electrochemical_gradient_16 X))) (let ((_let_15 (tptp.fn_gradient_4 _let_10))) (let ((_let_16 (tptp.fn_gradient_5 _let_10))) (=> (tptp.electrochemical_gradient_1 X) (and (tptp.original_name_2 X |tptp.'Electrochemical-Gradient'|) (tptp.user_description_2 X |tptp.'An electrochemical gradient is a spatial variation of both electrical potential and chemical concentration across a membrane.'|) (tptp.concept2words_2 X |tptp.'ion gradient'|) (tptp.concept2words_2 X |tptp.'ion-gradient'|) (tptp.concept2words_2 X |tptp.'electrochemical gradient'|) (tptp.concept2words_2 X |tptp.'electrochemical-gradient'|) (tptp.gradient_1 X) (tptp.system_1 (tptp.fn_electrochemical_gradient_2 X)) (tptp.concentration_gradient_1 _let_10) (tptp.membrane_potential_1 _let_3) (tptp.quantity_value_1 _let_12) (tptp.quantity_value_1 _let_5) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_14) (tptp.quantity_value_1 _let_2) (tptp.quantity_value_1 _let_1) (tptp.property_node_1 _let_16) (tptp.property_node_1 _let_15) (tptp.quantity_value_1 _let_13) (tptp.quantity_value_1 _let_11) (tptp.property_node_1 _let_9) (tptp.property_node_1 _let_8) (tptp.quantity_value_1 _let_6) (tptp.quantity_value_1 _let_4) (tptp.has_part_2 X _let_10) (tptp.possesses_2 X _let_3) (tptp.called_2 _let_12 |tptp.'CG'|) (tptp.called_2 _let_5 |tptp.'MP'|) 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_let_1))) (let ((_let_3 (tptp.fn_protein_pump_3 X))) (let ((_let_4 (tptp.fn_facilitated_diffusion_49 _let_1))) (let ((_let_5 (tptp.fn_transport_protein_35 X))) (let ((_let_6 (tptp.fn_integral_protein_24 X))) (let ((_let_7 (tptp.fn_electrogenic_pump_29 X))) (let ((_let_8 (tptp.fn_membrane_potential_2 _let_7))) (let ((_let_9 (tptp.fn_electrogenic_pump_28 X))) (let ((_let_10 (tptp.fn_active_movement_of_ions_19 _let_9))) (let ((_let_11 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_12 (tptp.fn_protein_pump_1 X))) (let ((_let_13 (tptp.fn_transport_protein_10 X))) (let ((_let_14 (tptp.fn_active_transport_22 _let_9))) (let ((_let_15 (tptp.fn_protein_pump_5 X))) (let ((_let_16 (tptp.fn_electrogenic_pump_9 X))) (let ((_let_17 (tptp.fn_block_1 _let_16))) (let ((_let_18 (tptp.fn_facilitated_diffusion_54 _let_1))) (let ((_let_19 (tptp.fn_transport_protein_4 X))) (let ((_let_20 (tptp.fn_facilitated_diffusion_53 _let_1))) (let ((_let_21 (tptp.fn_transport_protein_5 X))) (let ((_let_22 (tptp.fn_facilitated_diffusion_55 _let_1))) (let ((_let_23 (tptp.fn_transport_protein_34 X))) (let ((_let_24 (tptp.fn_facilitated_diffusion_48 _let_1))) (let ((_let_25 (tptp.fn_transport_protein_12 X))) (let ((_let_26 (tptp.fn_integral_protein_27 X))) (let ((_let_27 (tptp.fn_facilitated_diffusion_45 _let_1))) (let ((_let_28 (tptp.fn_transport_protein_33 X))) (let ((_let_29 (tptp.fn_transport_protein_16 X))) (let ((_let_30 (tptp.fn_facilitated_diffusion_46 _let_1))) (let ((_let_31 (tptp.fn_transport_protein_6 X))) (let ((_let_32 (tptp.fn_facilitated_diffusion_27 _let_1))) (let ((_let_33 (tptp.fn_transport_protein_8 X))) (let ((_let_34 (tptp.fn_facilitated_diffusion_41 _let_1))) (let ((_let_35 (tptp.fn_transport_protein_15 X))) (let ((_let_36 (tptp.fn_facilitated_diffusion_36 _let_1))) (let ((_let_37 (tptp.fn_transport_protein_13 X))) (let ((_let_38 (tptp.fn_facilitated_diffusion_43 _let_1))) (let ((_let_39 (tptp.fn_transport_protein_18 X))) (let ((_let_40 (tptp.fn_facilitated_diffusion_38 _let_1))) (let ((_let_41 (tptp.fn_transport_protein_14 X))) (let ((_let_42 (tptp.fn_facilitated_diffusion_42 _let_1))) (let ((_let_43 (tptp.fn_facilitated_diffusion_35 _let_1))) (let ((_let_44 (tptp.fn_transport_protein_32 X))) (let ((_let_45 (tptp.fn_facilitated_diffusion_33 _let_1))) (let ((_let_46 (tptp.fn_transport_protein_26 X))) (let ((_let_47 (tptp.fn_facilitated_diffusion_29 _let_1))) (let ((_let_48 (tptp.fn_transport_protein_25 X))) (let ((_let_49 (tptp.fn_facilitated_diffusion_30 _let_1))) (let ((_let_50 (tptp.fn_transport_protein_24 X))) (let ((_let_51 (tptp.fn_facilitated_diffusion_32 _let_1))) (let ((_let_52 (tptp.fn_transport_protein_27 X))) (let ((_let_53 (tptp.fn_facilitated_diffusion_40 _let_1))) (let ((_let_54 (tptp.fn_transport_protein_7 X))) (let ((_let_55 (tptp.fn_facilitated_diffusion_39 _let_1))) (let ((_let_56 (tptp.fn_transport_protein_17 X))) (let ((_let_57 (tptp.fn_facilitated_diffusion_37 _let_1))) (let ((_let_58 (tptp.fn_transport_protein_21 X))) (let ((_let_59 (tptp.fn_facilitated_diffusion_28 _let_1))) (let ((_let_60 (tptp.fn_transport_protein_19 X))) (let ((_let_61 (tptp.fn_facilitated_diffusion_47 _let_1))) (let ((_let_62 (tptp.fn_transport_protein_20 X))) (let ((_let_63 (tptp.fn_integral_protein_16 X))) (let ((_let_64 (tptp.fn_facilitated_diffusion_6 _let_1))) (let ((_let_65 (tptp.fn_integral_protein_25 X))) (let ((_let_66 (tptp.fn_transport_protein_9 X))) (let ((_let_67 (tptp.fn_protein_6 X))) (let ((_let_68 (tptp.fn_polymer_1 X))) (let ((_let_69 (tptp.fn_electrogenic_pump_30 X))) (let ((_let_70 (tptp.fn_electrogenic_pump_35 X))) (let ((_let_71 (tptp.fn_electrogenic_pump_6 X))) (let ((_let_72 (tptp.fn_electrogenic_pump_24 X))) (let ((_let_73 (tptp.fn_electrogenic_pump_7 X))) (let ((_let_74 (tptp.fn_electrogenic_pump_8 X))) (let ((_let_75 (tptp.fn_electrogenic_pump_5 X))) (let ((_let_76 (tptp.fn_electrogenic_pump_19 X))) (let ((_let_77 (tptp.fn_electrogenic_pump_34 X))) (let ((_let_78 (tptp.fn_electrogenic_pump_27 X))) (let ((_let_79 (tptp.fn_electrogenic_pump_26 X))) (let ((_let_80 (tptp.fn_electrogenic_pump_13 X))) (let ((_let_81 (tptp.fn_electrogenic_pump_17 X))) (let ((_let_82 (tptp.fn_electrogenic_pump_11 X))) (let ((_let_83 (tptp.fn_electrogenic_pump_15 X))) (let ((_let_84 (tptp.fn_electrogenic_pump_12 X))) (let ((_let_85 (tptp.fn_electrogenic_pump_32 X))) (let ((_let_86 (tptp.fn_electrogenic_pump_10 X))) (let ((_let_87 (tptp.fn_electrogenic_pump_23 X))) (let ((_let_88 (tptp.fn_electrogenic_pump_22 X))) (let ((_let_89 (tptp.fn_electrogenic_pump_20 X))) (let ((_let_90 (tptp.fn_electrogenic_pump_33 X))) (let ((_let_91 (tptp.fn_electrogenic_pump_14 X))) (let ((_let_92 (tptp.fn_electrogenic_pump_16 X))) (let ((_let_93 (tptp.fn_electrogenic_pump_25 X))) (let ((_let_94 (tptp.fn_electrogenic_pump_18 X))) (let ((_let_95 (tptp.fn_facilitated_diffusion_21 _let_1))) (let ((_let_96 (tptp.fn_facilitated_diffusion_22 _let_1))) (let ((_let_97 (tptp.fn_facilitated_diffusion_23 _let_1))) (let ((_let_98 (tptp.fn_facilitated_diffusion_24 _let_1))) (let ((_let_99 (tptp.fn_electrogenic_pump_21 X))) (let ((_let_100 (tptp.fn_electrogenic_pump_4 X))) (let ((_let_101 (tptp.fn_electrogenic_pump_31 X))) (let ((_let_102 (tptp.fn_create_1 _let_101))) (let ((_let_103 (tptp.fn_electrogenic_pump_2 X))) (let ((_let_104 (tptp.fn_electrogenic_pump_1 X))) (let ((_let_105 (tptp.fn_electrogenic_pump_3 X))) (=> (tptp.electrogenic_pump_1 X) (and (tptp.original_name_2 X |tptp.'Electrogenic-Pump'|) (tptp.user_description_2 X |tptp.'Ion pump that generates net charge flow as a result of its activity. The sodium potassium exchange pump transports two potassium ions inward across the cell membrane for each three sodiums transported outward. This produces a net outward current that contributes to the internal negativity of the cell.'|) (tptp.concept2words_2 X |tptp.'ion pump'|) (tptp.concept2words_2 X |tptp.'ion-pump'|) (tptp.concept2words_2 X |tptp.'electrogenic pump'|) (tptp.concept2words_2 X |tptp.'electrogenic-pump'|) (tptp.protein_pump_1 X) (not (tptp.atp_hydrolyzing_transport_protein_1 X)) (tptp.maintenance_1 _let_104) (tptp.detach_1 _let_103) (tptp.hydrophobic_compound_1 _let_105) (tptp.surface_1 _let_100) (tptp.move_through_1 _let_75) (tptp.chemical_entity_1 _let_71) (tptp.attract_1 _let_73) (tptp.repel_1 _let_74) (tptp.block_1 _let_16) (tptp.constant_motion_1 _let_86) (tptp.carbon_skeleton_1 _let_82) (tptp.hydrophilic_region_1 _let_84) (tptp.hydrophilic_end_1 _let_84) (tptp.hydrophobic_region_1 _let_80) (tptp.entity_1 _let_91) (tptp.atom_1 _let_91) (tptp.chemical_entity_1 _let_91) (tptp.carbon_1 _let_83) (tptp.monomer_1 _let_92) (tptp.hydrophobic_amino_acid_1 _let_81) (tptp.size_value_1 _let_94) (tptp.tangible_entity_1 _let_76) (tptp.phospholipid_bilayer_1 _let_76) (tptp.kinetic_energy_1 _let_89) (tptp.covalent_bond_1 _let_99) (tptp.peptide_bond_1 _let_99) (tptp.quantity_value_1 _let_88) (tptp.speed_value_1 _let_87) (tptp.hydrophilic_compound_1 _let_72) (tptp.spatial_entity_1 _let_72) (tptp.size_value_1 _let_93) (tptp.spatial_entity_1 _let_79) (tptp.chemical_entity_1 _let_79) (tptp.monomer_1 _let_79) (tptp.molecule_1 _let_79) (tptp.amino_acid_1 _let_79) (tptp.protein_domain_1 _let_78) (tptp.active_movement_of_ions_1 _let_9) (tptp.entity_1 _let_7) (tptp.membrane_potential_1 _let_7) (tptp.membrane_1 _let_69) (tptp.spatial_entity_1 _let_69) (tptp.biomembrane_1 _let_69) (tptp.create_1 _let_101) (tptp.polar_amino_acid_1 _let_85) (tptp.polypeptide_1 _let_90) (tptp.hydrophilic_region_1 _let_77) (tptp.hydrophilic_end_1 _let_77) (tptp.move_through_1 _let_70) (tptp.move_1 _let_70) (tptp.facilitated_diffusion_1 _let_1) (tptp.entity_1 _let_102) (tptp.property_node_1 _let_98) (tptp.property_node_1 _let_97) (tptp.property_node_1 _let_96) (tptp.property_node_1 _let_95) (tptp.block_1 _let_64) (tptp.size_value_1 _let_61) (tptp.size_value_1 _let_59) (tptp.monomer_1 _let_57) (tptp.atom_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.polypeptide_1 _let_53) (tptp.kinetic_energy_1 _let_51) (tptp.quantity_value_1 _let_49) (tptp.speed_value_1 _let_47) (tptp.constant_motion_1 _let_45) (tptp.polar_amino_acid_1 _let_43) (tptp.hydrophilic_end_1 _let_42) (tptp.carbon_1 _let_40) (tptp.carbon_skeleton_1 _let_38) (tptp.hydrophobic_amino_acid_1 _let_36) (tptp.hydrophobic_region_1 _let_34) (tptp.spatial_entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.monomer_1 _let_32) (tptp.molecule_1 _let_32) (tptp.amino_acid_1 _let_32) (tptp.protein_domain_1 _let_30) (tptp.hydrophilic_region_1 _let_27) (tptp.hydrophilic_end_1 _let_27) (tptp.tangible_entity_1 _let_24) (tptp.phospholipid_bilayer_1 _let_24) (tptp.move_through_1 _let_22) (tptp.repel_1 _let_20) (tptp.attract_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.move_1 _let_14) (tptp.move_through_1 _let_14) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.biomembrane_1 _let_8) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.transport_protein_1 _let_2) (not (= _let_72 _let_105)) (not (= _let_105 _let_72)) (tptp.agent_2 _let_9 X) (tptp.subevent_2 _let_9 _let_103) (tptp.agent_2 _let_104 X) (tptp.object_2 _let_104 _let_7) (tptp.has_function_2 X _let_9) (tptp.has_function_2 X _let_101) (tptp.has_function_2 X _let_104) (tptp.is_across_2 _let_7 _let_69) (tptp.agent_2 _let_101 X) (tptp.is_at_2 _let_77 _let_100) (tptp.next_event_2 _let_70 _let_103) (tptp.object_2 _let_16 _let_72) (tptp.result_2 _let_101 _let_7) (tptp.subevent_2 _let_9 _let_70) (tptp.path_2 _let_9 _let_69) (tptp.possesses_2 X _let_99) (tptp.possesses_2 _let_69 _let_7) (tptp.has_region_2 X _let_100) (not (= _let_70 _let_75)) (not (= _let_75 _let_70)) (tptp.is_between_2 _let_99 _let_91) (tptp.is_between_2 _let_99 _let_83) (tptp.facilitates_2 _let_77 _let_73) (tptp.facilitates_2 _let_80 _let_74) (tptp.is_inside_2 _let_80 _let_69) (tptp.has_function_2 X _let_1) (tptp.has_part_2 X _let_83) (tptp.the_scalar_value_2 _let_94 tptp.big_0) (tptp.scalar_unit_class_2 _let_94 tptp.polypeptide_0) (tptp.called_2 _let_16 |"1"|) (tptp.site_2 _let_73 _let_77) (tptp.has_function_2 _let_69 _let_16) (tptp.instrument_2 _let_16 _let_69) (tptp.has_function_2 _let_69 _let_75) (tptp.has_part_2 X _let_92) (tptp.size_2 _let_92 _let_93) (tptp.greater_than_2 _let_94 _let_93) (tptp.size_2 X _let_94) (tptp.has_region_2 X _let_80) (tptp.has_part_2 _let_90 _let_79) (tptp.has_part_2 X _let_90) (tptp.has_part_2 X _let_91) (not (= _let_83 _let_91)) (not (= _let_91 _let_83)) (tptp.object_2 _let_86 X) (tptp.speed_2 _let_86 _let_87) (tptp.directly_proportional_2 _let_87 _let_88) (tptp.quantity_2 _let_89 _let_88) (tptp.possesses_2 X _let_89) (tptp.is_at_2 _let_85 _let_77) (tptp.has_part_2 X _let_85) (tptp.has_region_2 X _let_84) (tptp.is_opposite_2 _let_84 _let_77) (tptp.is_opposite_2 _let_77 _let_84) (tptp.site_2 _let_74 _let_80) (tptp.is_inside_2 _let_81 _let_80) (tptp.has_part_2 X _let_81) (tptp.has_region_2 X _let_82) (tptp.is_inside_2 _let_83 _let_82) (tptp.path_2 _let_1 _let_69) (tptp.subevent_2 _let_1 _let_75) (tptp.facilitates_2 X _let_75) (tptp.has_region_2 X _let_78) (tptp.is_at_2 _let_79 _let_78) (tptp.agent_2 _let_75 X) (tptp.base_2 _let_75 _let_69) (tptp.has_part_2 _let_69 _let_76) (tptp.is_inside_2 X _let_76) (tptp.has_region_2 X _let_77) (tptp.instrument_2 _let_1 X) (tptp.has_function_2 X _let_73) (tptp.agent_2 _let_73 X) (tptp.has_function_2 X _let_74) (tptp.agent_2 _let_74 X) (tptp.has_part_2 _let_69 X) (tptp.base_2 _let_70 _let_69) (tptp.object_2 _let_70 _let_72) (tptp.is_across_2 X _let_69) (tptp.has_function_2 _let_69 _let_70) (tptp.object_2 _let_70 _let_71) (not (= _let_72 _let_71)) (not (= _let_71 _let_72)) (= _let_72 _let_17) (= _let_7 _let_102) (= _let_70 _let_14) (= _let_69 _let_10) (= _let_99 _let_68) (= _let_99 _let_67) (= _let_69 _let_8) (= _let_100 (tptp.fn_integral_protein_29 X)) (= _let_99 _let_66) (= _let_77 _let_28) (= (tptp.fn_electrogenic_pump_36 X) _let_98) (= (tptp.fn_electrogenic_pump_37 X) _let_97) (= (tptp.fn_electrogenic_pump_38 X) _let_96) (= (tptp.fn_electrogenic_pump_39 X) _let_95) (= _let_16 _let_65) (= _let_16 _let_64) (= _let_94 _let_63) (= _let_94 _let_62) (= _let_94 _let_61) (= _let_93 _let_60) (= _let_93 _let_59) (= _let_92 _let_58) (= _let_92 _let_57) (= _let_91 _let_56) (= _let_91 _let_55) (= _let_90 _let_54) (= _let_90 _let_53) (= _let_89 _let_52) (= _let_89 _let_51) (= _let_88 _let_50) (= _let_88 _let_49) (= _let_87 _let_48) (= _let_87 _let_47) (= _let_86 _let_46) (= _let_86 _let_45) (= _let_85 _let_44) (= _let_85 _let_43) (= _let_84 _let_28) (= _let_84 _let_42) (= _let_83 _let_41) (= _let_83 _let_40) (= _let_82 _let_39) (= _let_82 _let_38) (= _let_81 _let_37) (= _let_80 _let_35) (= _let_81 _let_36) (= _let_80 _let_34) (= _let_79 _let_33) (= _let_79 _let_32) (= _let_78 _let_31) (= _let_78 _let_30) (= _let_77 _let_29) (= _let_77 _let_27) (= _let_76 _let_26) (= _let_76 _let_25) (= _let_76 _let_24) (= _let_69 _let_4) (= _let_75 _let_23) (= _let_75 _let_22) (= _let_74 _let_21) (= _let_74 _let_20) (= _let_73 _let_19) (= _let_73 _let_18) (= _let_1 (tptp.fn_transport_protein_28 X)) (= X _let_2) (= _let_69 _let_11) (= _let_69 _let_6) (= _let_72 _let_15) (= _let_71 (tptp.fn_protein_pump_4 X)) (= _let_69 _let_5) (= _let_70 _let_13) (= _let_70 _let_12) (= _let_69 _let_3) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_61 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_28) (= _let_42 _let_42) (= _let_42 _let_28) (= _let_28 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.electrolyte_1 X) (and (tptp.original_name_2 X |tptp.'Electrolyte'|) (tptp.user_description_2 X |tptp.'A solute that produces ions in a solution'|) (tptp.concept2words_2 X tptp.electrolyte) (tptp.chemical_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrolyte_entity_1 X) (and (tptp.original_name_2 X |tptp.'Electrolyte-Entity'|) (tptp.user_description_2 X |tptp.'An electrolyte is a solute that produces ions in solution; an electrolytic solution conducts an electric current.'|) (tptp.concept2words_2 X |tptp.'entity of electrolyte'|) (tptp.concept2words_2 X |tptp.'electrolyte entity'|) (tptp.concept2words_2 X |tptp.'electrolyte-entity'|) (tptp.chemical_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrolyte_status_constant_1 X) (and (tptp.original_name_2 X |tptp.'Electrolyte-Status-Constant'|) (tptp.concept2words_2 X |tptp.'electrolyte status constant'|) (tptp.concept2words_2 X |tptp.'electrolyte-status-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electrolyte_status_value_1 X) (and (tptp.original_name_2 X |tptp.'Electrolyte-Status-Value'|) (tptp.description_2 X |tptp.'The degree of ionization for a solution, e.g. non-electrolyte, weak-electrolyte, or strong-electrolyte.'|) (tptp.concept2words_2 X |tptp.'status of electrolyte'|) (tptp.concept2words_2 X |tptp.'electrolyte status'|) (tptp.concept2words_2 X |tptp.'electrolyte-status'|) (tptp.concept2words_2 X |tptp.'electrolyte status value'|) (tptp.concept2words_2 X |tptp.'electrolyte-status-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.electromagnet_1 X) (and (tptp.original_name_2 X |tptp.'Electromagnet'|) (tptp.user_description_2 X |tptp.'A type of magnet whose magnetic field is produced by the flow of electric current.'|) (tptp.concept2words_2 X |tptp.'electromagnetic lens'|) (tptp.concept2words_2 X |tptp.'electromagnetic-lens'|) (tptp.concept2words_2 X tptp.electromagnet) (tptp.lens_1 X) (not (tptp.glass_lens_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electromagnetic_energy_4 X))) (let ((_let_2 (tptp.fn_electromagnetic_energy_3 X))) (=> (tptp.electromagnetic_energy_1 X) (and (tptp.original_name_2 X |tptp.'Electromagnetic-Energy'|) (tptp.user_description_2 X |tptp.'The energy that comes from electromagnetic radiation.'|) (tptp.concept2words_2 X |tptp.'electromagnetic radiation'|) (tptp.concept2words_2 X |tptp.'electromagnetic-radiation'|) (tptp.concept2words_2 X |tptp.'electromagentic wave'|) (tptp.concept2words_2 X |tptp.'electromagnetic energy'|) (tptp.concept2words_2 X |tptp.'electromagnetic-energy'|) (tptp.radiation_1 X) (tptp.quantity_value_1 _let_2) (tptp.length_value_1 _let_1) (tptp.wavelength_2 X _let_1) (tptp.quantity_2 X _let_2) (tptp.inversely_proportional_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.electromagnetic_process_1 X) (and (tptp.original_name_2 X |tptp.'Electromagnetic-Process'|) (tptp.user_description_2 X |tptp.'A process related to electromagnetic radiation.'|) (tptp.concept2words_2 X |tptp.'electromagnetic process'|) (tptp.concept2words_2 X |tptp.'electromagnetic-process'|) (tptp.physical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electromagnetic_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Electromagnetic-Receptor'|) (tptp.user_description_2 X |tptp.'A sensory receptor that responds to electromagnetic energy such as light, magnetism, or electricity.'|) (tptp.concept2words_2 X |tptp.'electromagnetic receptor'|) (tptp.concept2words_2 X |tptp.'electromagnetic-receptor'|) (tptp.sensory_receptor_1 X) (not (tptp.chemoreceptor_1 X)) (not (tptp.exteroceptor_1 X)) (not (tptp.mechanoreceptor_1 X)) (not (tptp.nociceptor_1 X)) (not (tptp.pain_receptor_1 X)) (not (tptp.thermoreceptor_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electromagnetic_spectrum_4 X))) (let ((_let_2 (tptp.fn_gamma_rays_7 _let_1))) (let ((_let_3 (tptp.fn_electromagnetic_spectrum_2 X))) (let ((_let_4 (tptp.fn_microwaves_1 _let_3))) (let ((_let_5 (tptp.fn_electromagnetic_spectrum_5 X))) (let ((_let_6 (tptp.fn_x_rays_1 _let_5))) (let ((_let_7 (tptp.fn_electromagnetic_spectrum_1 X))) (let ((_let_8 (tptp.fn_radio_waves_7 _let_7))) (let ((_let_9 (tptp.fn_electromagnetic_spectrum_6 X))) (let ((_let_10 (tptp.fn_ultraviolet_rays_5 _let_9))) (let ((_let_11 (tptp.fn_electromagnetic_spectrum_7 X))) (let ((_let_12 (tptp.fn_infrared_rays_5 _let_11))) (let ((_let_13 (tptp.fn_electromagnetic_spectrum_3 X))) (let ((_let_14 (tptp.fn_visible_light_7 _let_13))) (=> (tptp.electromagnetic_spectrum_1 X) (and (tptp.original_name_2 X |tptp.'Electromagnetic-Spectrum'|) (tptp.user_description_2 X |tptp.'The full range of electromagnetic radiation which varies greatly in wavelength.'|) (tptp.concept2words_2 X |tptp.'electromagnetic spectrum'|) (tptp.concept2words_2 X |tptp.'electromagnetic-spectrum'|) (tptp.spectrum_1 X) (tptp.radio_waves_1 _let_7) (tptp.microwaves_1 _let_3) (tptp.visible_light_1 _let_13) (tptp.gamma_rays_1 _let_1) (tptp.x_rays_1 _let_5) (tptp.ultraviolet_rays_1 _let_9) (tptp.infrared_rays_1 _let_11) (tptp.electromagnetic_spectrum_1 _let_14) (tptp.electromagnetic_spectrum_1 _let_12) (tptp.electromagnetic_spectrum_1 _let_10) (tptp.electromagnetic_spectrum_1 _let_8) (tptp.electromagnetic_spectrum_1 _let_6) (tptp.electromagnetic_spectrum_1 _let_4) (tptp.electromagnetic_spectrum_1 _let_2) (tptp.element_2 X _let_13) (tptp.element_2 X _let_11) (tptp.element_2 X _let_9) (tptp.element_2 X _let_7) (tptp.element_2 X _let_5) (tptp.element_2 X _let_3) (tptp.element_2 X _let_1) (= X _let_14) (= X _let_12) (= X _let_10) (= X _let_8) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_1 X))) (let ((_let_2 (tptp.fn_electron_3 X))) (let ((_let_3 (tptp.fn_electron_4 X))) (let ((_let_4 (tptp.fn_electron_6 X))) (=> (tptp.electron_1 X) (and (tptp.original_name_2 X |tptp.'Electron'|) (tptp.user_description_2 X |tptp.'A subatomic particle that carries a charge of -1. An atom has one or more electrons orbiting its nucleus.'|) (tptp.concept2words_2 X tptp.electron) (tptp.subatomic_particle_1 X) (tptp.charge_value_1 _let_1) (tptp.potential_energy_1 _let_2) (tptp.mass_value_1 _let_3) (tptp.mass_value_1 _let_4) (tptp.system_1 (tptp.fn_electron_8 X)) (tptp.called_2 _let_4 tptp.mass_proton) (tptp.the_cardinal_value_2 _let_4 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.dalton_0) (tptp.called_2 _let_3 tptp.mass_electron) (tptp.the_cardinal_value_2 _let_1 |"-1.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.mass_2 X _let_3) (tptp.possesses_2 X _let_2) (tptp.charge_2 X _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_beam_2 X))) (let ((_let_2 (tptp.fn_electron_beam_1 X))) (=> (tptp.electron_beam_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Beam'|) (tptp.user_description_2 X |tptp.'A stream of electrons observed in a vacuum or in gas.'|) (tptp.concept2words_2 X |tptp.'beam of electron'|) (tptp.concept2words_2 X |tptp.'electron beam'|) (tptp.concept2words_2 X |tptp.'electron-beam'|) (tptp.radiation_1 X) (not (tptp.radioactive_emissions_1 X)) (not (tptp.ultraviolet_rays_1 X)) (not (tptp.visible_light_1 X)) (tptp.electron_1 _let_2) (tptp.electron_1 _let_1) (tptp.next_element_2 _let_1 _let_2) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.electron_0) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_carrier_2 X))) (let ((_let_2 (tptp.fn_carry_1 _let_1))) (let ((_let_3 (tptp.fn_agent_role_1 X))) (let ((_let_4 (tptp.fn_electron_carrier_1 X))) (let ((_let_5 (tptp.fn_move_1 _let_1))) (let ((_let_6 (tptp.fn_electron_carrier_3 X))) (=> (tptp.electron_carrier_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Carrier'|) (tptp.user_description_2 X |tptp.'Coenzyme in a pathway that accepts high-energy electrons.'|) (tptp.concept2words_2 X |tptp.'carrier of electron'|) (tptp.concept2words_2 X |tptp.'electron carrier'|) (tptp.concept2words_2 X |tptp.'electron-carrier'|) (tptp.agent_role_1 X) (tptp.chemical_entity_1 _let_4) (tptp.carry_1 _let_1) (tptp.electron_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.in_event_2 X _let_1) (tptp.object_2 _let_1 _let_6) (tptp.plays_2 _let_4 X) (tptp.agent_2 _let_1 _let_4) (= _let_6 _let_5) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.electron_carrier_of_cellular_respiration_1 X) (and (tptp.original_name_2 X |tptp.'Electron-carrier-of-Cellular-Respiration'|) (tptp.user_description_2 X |tptp.'A coenzyme that accepts electrons stripped from glucose at various steps of cellular respiration, then gives them up in the electron transport chain. These coenzymes include NAD+ and FAD+, which become NADH and FADH2 when they carry electrons.'|) (tptp.concept2words_2 X |tptp.'electron carrier of cellular respiration'|) (tptp.concept2words_2 X |tptp.'electron-carrier-of-cellular-respiration'|) (tptp.electron_carrier_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electron_carrier_of_photosynthesis_1 X) (and (tptp.original_name_2 X |tptp.'Electron-carrier-of-Photosynthesis'|) (tptp.user_description_2 X |tptp.'A coenzyme, NADP+, that accepts electrons from the electron transport chain in photosynthesis, then gives them up in the Calvin Cycle, in order to make sugar.'|) (tptp.concept2words_2 X |tptp.'nadp+ of photosynthesis'|) (tptp.concept2words_2 X |tptp.'nadph of photosynthesis'|) (tptp.concept2words_2 X tptp.nadph) (tptp.concept2words_2 X |tptp.'nadp+'|) (tptp.concept2words_2 X |tptp.'electron carrier of photosynthesis'|) (tptp.concept2words_2 X |tptp.'electron-carrier-of-photosynthesis'|) (tptp.electron_carrier_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electron_configuration_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Configuration'|) (tptp.user_description_2 X |tptp.'The distribution of electrons in an atom_'s electron orbitals.'|) (tptp.concept2words_2 X |tptp.'configuration of electron'|) (tptp.concept2words_2 X |tptp.'electron configuration'|) (tptp.concept2words_2 X |tptp.'electron-configuration'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_donor_1 X))) (let ((_let_2 (tptp.fn_lose_1 _let_1))) (let ((_let_3 (tptp.fn_donor_role_1 X))) (let ((_let_4 (tptp.fn_electron_donor_2 X))) (=> (tptp.electron_donor_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Donor'|) (tptp.user_description_2 X |tptp.'An electron donor is a role played by a chemical entity that donates electrons to another compound.'|) (tptp.concept2words_2 X |tptp.'donor of electron'|) (tptp.concept2words_2 X |tptp.'electron donor'|) (tptp.concept2words_2 X |tptp.'electron-donor'|) (tptp.donor_role_1 X) (tptp.oxidation_1 _let_1) (tptp.chemical_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.in_event_2 X _let_1) (tptp.plays_2 _let_4 X) (tptp.donor_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_microscope_1 X))) (let ((_let_2 (tptp.fn_electron_microscope_2 X))) (=> (tptp.electron_microscope_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Microscope'|) (tptp.user_description_2 X |tptp.'A microscope that has a thousand times the resolving power of a light microscope. A transmission electron microscope (TEM) is used to study the internal structure of thin sections of cells and a scanning electron microscope (SEM) is used to study the fine details of cell surfaces. Electron microscopy requires a specimen to be fixed onto a slide and cannot be used to examine living specimens.'|) (tptp.concept2words_2 X |tptp.'microscope of electron'|) (tptp.concept2words_2 X |tptp.'electron microscope'|) (tptp.concept2words_2 X |tptp.'electron-microscope'|) (tptp.microscope_1 X) (not (tptp.light_microscope_1 X)) (not (tptp.transmission_electron_microscope_1 X)) (tptp.electromagnet_1 _let_1) (tptp.length_value_1 _let_2) (tptp.the_cardinal_value_2 _let_2 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.nanometer_0) (tptp.optical_resolution_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_microscopy_9 X))) (let ((_let_2 (tptp.fn_expand_1 _let_1))) (let ((_let_3 (tptp.fn_electron_microscopy_2 X))) (let ((_let_4 (tptp.fn_condense_1 _let_3))) (let ((_let_5 (tptp.fn_electron_microscopy_10 X))) (let ((_let_6 (tptp.fn_produce_1 _let_5))) (let ((_let_7 (tptp.fn_electron_microscopy_3 X))) (let ((_let_8 (tptp.fn_condense_1 _let_7))) (let ((_let_9 (tptp.fn_electron_microscopy_7 X))) (let ((_let_10 (tptp.fn_electron_microscope_1 _let_9))) (let ((_let_11 (tptp.fn_electron_microscopy_11 X))) (let ((_let_12 (tptp.fn_electron_microscopy_8 X))) (let ((_let_13 (tptp.fn_artifact_1 _let_12))) (let ((_let_14 (tptp.fn_electron_microscopy_6 X))) (let ((_let_15 (tptp.fn_electron_microscopy_4 X))) (let ((_let_16 (tptp.fn_sense_1 _let_15))) (let ((_let_17 (tptp.fn_electron_microscopy_5 X))) (let ((_let_18 (tptp.fn_electron_microscopy_1 X))) (=> (tptp.electron_microscopy_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Microscopy'|) (tptp.user_description_2 X |tptp.'Electron microscopy uses the electron microscope, a type of microscope that produces an electronically-magnified image of a specimen for detailed observation.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'microscopy of electron'|) (tptp.concept2words_2 X |tptp.'electron microscopy'|) (tptp.concept2words_2 X |tptp.'electron-microscopy'|) (tptp.microscopy_1 X) (not (tptp.confocal_microscopy_1 X)) (not (tptp.light_microscopy_1 X)) (tptp.photographic_film_1 _let_18) (tptp.condense_1 _let_3) (tptp.condense_1 _let_7) (tptp.see_1 _let_15) (tptp.eye_1 _let_17) (tptp.electron_beam_1 _let_14) (tptp.microscope_1 _let_9) (tptp.electron_microscope_1 _let_9) (tptp.image_1 _let_12) (tptp.expand_1 _let_1) (tptp.produce_1 _let_5) (tptp.create_1 _let_5) (tptp.electromagnet_1 _let_11) (tptp.tangible_entity_1 _let_16) (tptp.create_1 _let_13) (tptp.electromagnet_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.abuts_2 _let_11 _let_9) (tptp.next_event_2 _let_5 _let_1) (tptp.agent_2 _let_1 _let_11) (tptp.next_event_2 _let_1 _let_3) (tptp.abuts_2 _let_9 _let_11) (tptp.abuts_2 _let_9 _let_14) (tptp.first_subevent_2 X _let_7) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_1) 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(tptp.electron_recipient_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Recipient'|) (tptp.user_description_2 X |tptp.'An electron recipient is a role played by an object that accepts electrons from another compound.'|) (tptp.concept2words_2 X |tptp.'electron acceptor'|) (tptp.concept2words_2 X |tptp.'electron-acceptor'|) (tptp.concept2words_2 X |tptp.'recipient of electron'|) (tptp.concept2words_2 X |tptp.'electron recipient'|) (tptp.concept2words_2 X |tptp.'electron-recipient'|) (tptp.recipient_role_1 X) (tptp.reduction_1 _let_2) (tptp.chemical_entity_1 _let_4) (tptp.entity_1 _let_3) (tptp.in_event_2 X _let_2) (tptp.recipient_2 _let_2 _let_4) (tptp.plays_2 _let_4 X) (= _let_4 _let_3) (= _let_4 _let_1) (= _let_3 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_shell_3 X))) (let ((_let_2 (tptp.fn_electron_shell_2 X))) (let ((_let_3 (tptp.fn_electron_shell_1 X))) (=> (tptp.electron_shell_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Shell'|) (tptp.user_description_2 X |tptp.'One of the energy levels at which electrons can exist in an atom. 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The two electrons of NADH captured in glycolysis must be conveyed into the mitochondrion by one of several electron shuttle systems.'|) (tptp.concept2words_2 X |tptp.'electron shuttle system'|) (tptp.concept2words_2 X |tptp.'electron-shuttle-system'|) (tptp.electron_transport_assembly_1 X) (not (tptp.thylakoid_electron_transport_chain_1 X)) (not (tptp.chylomicron_1 X)) (not (tptp.cytochrome_complex_1 X)) (not (tptp.electron_transport_chain_1 X)) (not (tptp.microfibril_1 X)) (not (tptp.signal_recognition_particle_1 X)) (tptp.proton_motive_force_1 _let_24) (tptp.cytosol_1 _let_27) (tptp.protein_enzyme_1 _let_28) (tptp.nad_plus_1 _let_25) (tptp.nadh_1 _let_26) (tptp.crista_1 _let_5) (tptp.tangible_entity_1 _let_9) (tptp.membrane_1 _let_9) (tptp.entity_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.inner_membrane_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.mitochondrial_matrix_1 _let_7) (tptp.transfer_1 _let_18) (tptp.transfer_1 _let_21) (tptp.organic_molecule_1 _let_15) (tptp.nadh_1 _let_15) (tptp.molecule_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.electron_1 _let_20) (tptp.glycolysis_1 _let_3) (tptp.electron_1 _let_23) (tptp.fad_1 _let_10) (tptp.fadh2_1 _let_12) (tptp.electron_1 _let_14) (tptp.reduction_1 _let_1) (tptp.nadh_1 _let_17) (tptp.entity_1 _let_22) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_16) (tptp.electron_1 _let_13) (tptp.fadh2_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.membrane_1 _let_8) (tptp.entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.inner_membrane_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.mitochondrial_matrix_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.nadh_1 _let_4) (tptp.molecule_1 _let_4) (tptp.chemical_entity_1 _let_2) (not (= _let_17 _let_26)) (tptp.is_inside_2 _let_10 _let_7) (not (= _let_26 _let_17)) (tptp.is_inside_2 _let_26 _let_27) (tptp.is_inside_2 _let_25 _let_7) (tptp.has_function_2 X _let_21) (tptp.has_function_2 X _let_18) (tptp.has_part_2 X _let_28) (tptp.has_part_2 _let_9 X) (tptp.is_inside_2 _let_15 _let_27) (tptp.exactCardinality _let_21 tptp.donor_0 |"2"| tptp.nadh_0) (tptp.donor_2 _let_21 _let_26) (tptp.recipient_2 _let_21 _let_10) (tptp.exactCardinality _let_21 tptp.result_0 |"1"| tptp.fadh2_0) (tptp.result_2 _let_21 _let_12) (tptp.agent_2 _let_21 _let_24) (tptp.agent_2 _let_21 X) (tptp.donor_2 _let_18 _let_15) (tptp.recipient_2 _let_18 _let_25) (tptp.exactCardinality _let_18 tptp.result_0 |"1"| tptp.nadh_0) (tptp.result_2 _let_18 _let_17) (tptp.agent_2 _let_18 _let_24) (tptp.agent_2 _let_18 X) (tptp.object_2 _let_21 _let_23) (tptp.object_2 _let_18 _let_20) (tptp.recipient_2 _let_1 _let_15) (not (= _let_15 _let_17)) (tptp.donor_2 _let_1 _let_17) (not (= _let_17 _let_15)) (tptp.result_2 _let_3 _let_15) (tptp.object_2 _let_1 _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (not (= _let_17 _let_14)) (not (= _let_14 _let_17)) (tptp.has_state_2 _let_10 _let_12) (tptp.has_oxidized_form_2 _let_12 _let_10) (tptp.has_reduced_form_2 _let_10 _let_12) (tptp.is_inside_2 _let_7 _let_9) (tptp.is_outside_2 _let_9 _let_7) (tptp.has_part_2 _let_9 _let_5) (tptp.is_along_2 _let_7 _let_5) (tptp.is_along_2 _let_5 _let_7) (= _let_23 _let_22) (= _let_20 _let_19) (= _let_15 _let_4) (= _let_17 _let_16) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.electron_transport_assembly_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Transport-Assembly'|) (tptp.user_description_2 X |tptp.'A molecular assembly which shuttles electrons to do cellular work.Light-Harvesting-Complexes have parts including electron transport assemblies, antenna pigments, and accessory pigments.'|) (tptp.concept2words_2 X |tptp.'electron transport assembly'|) (tptp.concept2words_2 X |tptp.'electron-transport-assembly'|) (tptp.molecular_assembly_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_transport_chain_6 X))) (let ((_let_2 (tptp.fn_membrane_protein_1 _let_1))) (let ((_let_3 (tptp.fn_electron_transport_chain_5 X))) (let ((_let_4 (tptp.fn_biomembrane_32 _let_3))) (let ((_let_5 (tptp.fn_electron_transport_chain_9 X))) (let ((_let_6 (tptp.fn_biomembrane_30 _let_3))) (let ((_let_7 (tptp.fn_electron_transport_chain_7 X))) (let ((_let_8 (tptp.fn_biomembrane_29 _let_3))) (let ((_let_9 (tptp.fn_electron_transport_chain_8 X))) (let ((_let_10 (tptp.fn_electron_transport_chain_3 X))) (let ((_let_11 (tptp.fn_electron_transport_chain_4 X))) (let ((_let_12 (tptp.fn_electron_transport_chain_2 X))) (let ((_let_13 (tptp.fn_electron_transport_chain_1 X))) (=> (tptp.electron_transport_chain_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Transport-Chain'|) (tptp.user_description_2 X |tptp.'A series of membrane proteins that couples electron transfer from a donor molecule (such as NADH) to a acceptor molecule (such as O2) with the transfer of protons across a membrane. Electron transport chains are used to capture the energy from sunlight in photosynthesis, and from redox reactions such as cellular respiration.'|) (tptp.concept2words_2 X |tptp.'group of transport molecules at thylakoid membrane of chloroplast'|) (tptp.concept2words_2 X |tptp.'respiratory chain'|) (tptp.concept2words_2 X |tptp.'respiratory-chain'|) (tptp.concept2words_2 X |tptp.'electron transport chain'|) (tptp.concept2words_2 X |tptp.'electron-transport-chain'|) (tptp.electron_transport_assembly_1 X) (not (tptp.chylomicron_1 X)) (not (tptp.cytochrome_complex_1 X)) (not (tptp.electron_shuttle_system_1 X)) (not (tptp.microfibril_1 X)) (not (tptp.signal_recognition_particle_1 X)) (tptp.electron_transport_chain_reaction_1 _let_13) (tptp.protein_1 _let_12) (tptp.protein_complex_1 _let_10) (tptp.organic_molecule_1 _let_11) (tptp.biomembrane_1 _let_3) (tptp.membrane_protein_1 _let_1) (tptp.glycoprotein_1 _let_7) (tptp.glycolipid_1 _let_9) (tptp.saturated_fatty_acid_1 _let_5) (tptp.glycolipid_1 _let_8) (tptp.glycoprotein_1 _let_6) (tptp.saturated_fatty_acid_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.has_part_2 _let_3 _let_11) (tptp.has_part_2 _let_3 _let_10) (tptp.has_part_2 _let_3 _let_12) (tptp.element_2 X _let_12) (tptp.element_2 X _let_10) (tptp.element_2 X _let_11) (tptp.minCardinality X tptp.element_0 |"1"| tptp.protein_complex_0) (tptp.has_function_2 X _let_13) (not (= _let_12 _let_11)) (not (= _let_12 _let_10)) (not (= _let_10 _let_12)) (not (= _let_10 _let_11)) (not (= _let_11 _let_12)) (not (= _let_11 _let_10)) (tptp.has_part_2 _let_3 _let_9) (tptp.has_part_2 _let_3 _let_7) (tptp.has_part_2 _let_3 _let_5) (tptp.has_part_2 _let_3 _let_1) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_transport_chain_pathway_39 X))) (let ((_let_2 (tptp.fn_reactant_2 _let_1))) (let ((_let_3 (tptp.fn_electron_transport_chain_pathway_10 X))) (let ((_let_4 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((_let_73 (tptp.fn_electron_transport_chain_reaction_7 _let_15))) (let ((_let_74 (tptp.fn_electron_transport_chain_pathway_43 X))) (let ((_let_75 (tptp.fn_electron_transport_chain_reaction_5 _let_15))) (let ((_let_76 (tptp.fn_reactant_2 _let_13))) (let ((_let_77 (tptp.fn_electron_transport_chain_reaction_1 _let_15))) (let ((_let_78 (tptp.fn_electron_transport_chain_reaction_25 _let_27))) (let ((_let_79 (tptp.fn_electron_transport_chain_pathway_5 X))) (let ((_let_80 (tptp.fn_electron_transport_chain_reaction_20 _let_27))) (let ((_let_81 (tptp.fn_electron_transport_chain_pathway_6 X))) (let ((_let_82 (tptp.fn_electron_transport_chain_reaction_21 _let_27))) (let ((_let_83 (tptp.fn_electron_transport_chain_pathway_7 X))) (let ((_let_84 (tptp.fn_electron_transport_chain_reaction_22 _let_27))) (let ((_let_85 (tptp.fn_electron_transport_chain_pathway_8 X))) (let ((_let_86 (tptp.fn_electron_transport_chain_reaction_26 _let_27))) (let ((_let_87 (tptp.fn_electron_transport_chain_reaction_4 _let_27))) (let ((_let_88 (tptp.fn_electron_transport_chain_pathway_14 X))) (let ((_let_89 (tptp.fn_electron_transport_chain_reaction_9 _let_27))) (let ((_let_90 (tptp.fn_electron_transport_chain_reaction_7 _let_27))) (let ((_let_91 (tptp.fn_electron_transport_chain_pathway_42 X))) (let ((_let_92 (tptp.fn_electron_transport_chain_reaction_1 _let_27))) (let ((_let_93 (tptp.fn_electron_transport_chain_reaction_27 _let_27))) (let ((_let_94 (tptp.fn_electron_transport_chain_reaction_23 _let_27))) (let ((_let_95 (tptp.fn_electron_transport_chain_pathway_9 X))) (let ((_let_96 (tptp.fn_electron_transport_chain_pathway_1 X))) (=> (tptp.electron_transport_chain_pathway_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Transport-Chain-Pathway'|) (tptp.user_description_2 X |tptp.'The process in which energy is released from electron carriers in a stepwise manner through a series of redox reactions along an electron transport chain. The released energy is used to pump protons across a membrane, resulting in a proton motive force which can perform cellular work.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'transfer energy'|) (tptp.concept2words_2 X |tptp.'electron transport chain pathway'|) (tptp.concept2words_2 X |tptp.'electron-transport-chain-pathway'|) (tptp.metabolic_pathway_1 X) (tptp.proton_motive_force_1 _let_96) (tptp.electron_transport_chain_1 _let_71) (tptp.chemical_entity_1 _let_79) (tptp.chemical_energy_1 _let_81) (tptp.quantity_value_1 _let_83) (tptp.quantity_value_1 _let_85) (tptp.chemical_energy_1 _let_95) (tptp.reactant_1 _let_3) (tptp.cell_1 _let_49) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_31) (tptp.cellular_work_1 _let_31) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_33) (tptp.cellular_work_1 _let_33) (tptp.electron_transport_chain_1 _let_88) (tptp.electron_transport_chain_reaction_1 _let_27) (tptp.chemical_reaction_1 _let_15) (tptp.electron_transport_chain_reaction_1 _let_15) (tptp.redox_reaction_1 _let_7) (tptp.release_1 _let_10) (tptp.chemical_entity_1 _let_43) (tptp.tangible_entity_1 _let_44) (tptp.electron_1 _let_44) (tptp.atom_1 _let_50) (tptp.oxidation_1 _let_52) (tptp.reduction_1 _let_5) (tptp.atom_1 _let_54) (tptp.electronegativity_value_1 _let_56) (tptp.electronegativity_value_1 _let_58) (tptp.redox_reaction_1 _let_20) (tptp.chemical_entity_1 _let_46) (tptp.release_1 _let_24) (tptp.reduction_1 _let_22) (tptp.atom_1 _let_48) (tptp.atom_1 _let_62) (tptp.electronegativity_value_1 _let_64) (tptp.electronegativity_value_1 _let_68) (tptp.reactant_1 _let_1) (tptp.nadh_1 _let_45) (tptp.fadh2_1 _let_42) (tptp.tangible_entity_1 _let_91) (tptp.free_energy_1 _let_91) (tptp.tangible_entity_1 _let_74) (tptp.free_energy_1 _let_74) (tptp.reactant_1 _let_13) (tptp.chemical_energy_1 _let_94) (tptp.property_node_1 _let_93) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_92) (tptp.release_1 _let_90) (tptp.redox_reaction_1 _let_89) (tptp.electron_transport_chain_1 _let_87) (tptp.property_node_1 _let_86) (tptp.quantity_value_1 _let_84) (tptp.quantity_value_1 _let_82) (tptp.chemical_energy_1 _let_80) (tptp.chemical_entity_1 _let_78) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_77) (tptp.chemical_reaction_1 _let_76) (tptp.reactant_1 _let_75) (tptp.release_1 _let_73) (tptp.redox_reaction_1 _let_72) (tptp.electron_transport_chain_1 _let_70) (tptp.property_node_1 _let_69) (tptp.electronegativity_value_1 _let_67) (tptp.reduction_1 _let_66) (tptp.property_node_1 _let_65) (tptp.electronegativity_value_1 _let_63) (tptp.atom_1 _let_61) (tptp.property_node_1 _let_60) (tptp.property_node_1 _let_59) (tptp.electronegativity_value_1 _let_57) (tptp.electronegativity_value_1 _let_55) (tptp.reduction_1 _let_53) (tptp.oxidation_1 _let_51) (tptp.atom_1 _let_47) (tptp.tangible_entity_1 _let_41) (tptp.free_energy_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.free_energy_1 _let_38) (tptp.atom_1 _let_37) (tptp.atom_1 _let_36) (tptp.cell_1 _let_34) (tptp.cell_1 _let_32) (tptp.chemical_entity_1 _let_30) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_28) (tptp.chemical_entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.chemical_entity_1 _let_23) (tptp.chemical_entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.electron_1 _let_19) (tptp.electron_1 _let_18) (tptp.chemical_entity_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.chemical_entity_1 _let_14) (tptp.chemical_entity_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_reaction_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.is_inside_2 _let_74 _let_42) (tptp.is_inside_2 _let_91 _let_45) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_27) (tptp.result_2 X _let_96) (tptp.greater_than_or_equal_to_2 _let_64 _let_68) (tptp.greater_than_2 _let_64 _let_68) (not (= _let_22 _let_5)) (not (= _let_20 _let_7)) (not (= _let_5 _let_22)) (not (= _let_7 _let_20)) (tptp.called_2 _let_15 |tptp.'FADH2'|) (not (= _let_15 _let_27)) (tptp.called_2 _let_27 |tptp.'NADH'|) (not (= _let_27 _let_15)) (not (= _let_88 _let_71)) (not (= _let_71 _let_88)) (tptp.plays_2 _let_42 _let_13) (tptp.raw_material_2 _let_15 _let_42) (tptp.raw_material_2 _let_27 _let_45) (tptp.possesses_2 _let_45 _let_95) (tptp.base_2 X _let_49) (tptp.in_event_2 _let_3 X) (tptp.raw_material_2 X _let_45) (tptp.plays_2 _let_45 _let_3) (tptp.in_event_2 _let_1 X) (tptp.raw_material_2 X _let_42) (tptp.plays_2 _let_42 _let_1) (tptp.quantity_2 _let_95 _let_85) (tptp.subevent_2 _let_27 _let_33) (tptp.has_function_2 _let_88 _let_27) (tptp.agent_2 _let_27 _let_88) (tptp.subevent_2 _let_27 _let_20) (tptp.causes_2 _let_20 _let_24) (tptp.object_2 _let_24 _let_91) (tptp.result_2 _let_27 _let_79) (tptp.possesses_2 _let_79 _let_81) (tptp.quantity_2 _let_81 _let_83) (tptp.greater_than_2 _let_85 _let_83) (tptp.subevent_2 _let_15 _let_31) (tptp.in_event_2 _let_13 _let_15) (tptp.agent_2 _let_15 _let_71) (tptp.has_function_2 _let_71 _let_15) (tptp.subevent_2 _let_15 _let_7) (tptp.causes_2 _let_7 _let_10) (tptp.object_2 _let_10 _let_74) (tptp.electronegativity_2 _let_48 _let_68) (tptp.subevent_2 _let_20 _let_22) (tptp.recipient_2 _let_22 _let_46) (tptp.raw_material_2 _let_20 _let_46) (tptp.has_atom_2 _let_46 _let_62) (tptp.electronegativity_2 _let_62 _let_64) (tptp.electronegativity_2 _let_50 _let_58) (tptp.subevent_2 _let_7 _let_52) (tptp.recipient_2 _let_52 _let_43) (tptp.greater_than_or_equal_to_2 _let_56 _let_58) (tptp.subevent_2 _let_7 _let_5) (tptp.raw_material_2 _let_7 _let_43) (tptp.has_atom_2 _let_43 _let_54) (tptp.electronegativity_2 _let_54 _let_56) (tptp.greater_than_2 _let_56 _let_58) (tptp.object_2 _let_52 _let_44) (tptp.object_2 _let_5 _let_44) (tptp.recipient_2 _let_5 _let_43) (not (= _let_43 _let_44)) (not (= _let_44 _let_43)) (not (= _let_42 _let_44)) (not (= _let_44 _let_42)) (not (= _let_42 _let_43)) (not (= _let_43 _let_42)) (tptp.donor_2 _let_5 _let_42) (not (= _let_45 _let_46)) (not (= _let_46 _let_45)) (tptp.has_atom_2 _let_45 _let_48) (tptp.raw_material_2 _let_20 _let_45) (tptp.base_2 _let_31 _let_49) (tptp.base_2 _let_33 _let_49) (tptp.has_atom_2 _let_42 _let_50) (tptp.raw_material_2 _let_7 _let_42) (tptp.donor_2 _let_52 _let_42) (tptp.donor_2 _let_22 _let_45) (tptp.base_2 _let_24 _let_45) (tptp.base_2 _let_10 _let_42) (= _let_42 _let_16) (= _let_42 _let_14) (= _let_45 _let_28) (= _let_49 _let_35) (= _let_45 _let_26) (= X _let_4) (= _let_42 _let_12) (= X _let_2) (= _let_95 _let_94) (= (tptp.fn_electron_transport_chain_pathway_3 X) _let_93) (= _let_33 _let_92) (= _let_91 _let_41) (= _let_91 _let_40) (= _let_24 _let_90) (= _let_20 _let_89) (= _let_88 _let_87) (= (tptp.fn_electron_transport_chain_pathway_2 X) _let_86) (= _let_85 _let_84) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_31 _let_77) (= _let_15 _let_76) (= _let_13 _let_75) (= _let_74 _let_39) (= _let_74 _let_38) (= _let_10 _let_73) (= _let_7 _let_72) (= _let_71 _let_70) (= (tptp.fn_electron_transport_chain_pathway_18 X) _let_69) (= _let_68 _let_67) (= _let_46 _let_21) (= _let_22 _let_66) (= (tptp.fn_electron_transport_chain_pathway_17 X) _let_65) (= _let_64 _let_63) (= _let_62 _let_61) (= (tptp.fn_electron_transport_chain_pathway_15 X) _let_60) (= (tptp.fn_electron_transport_chain_pathway_16 X) _let_59) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_36) (= _let_43 _let_8) (= _let_5 _let_53) (= _let_43 _let_9) (= _let_44 _let_19) (= _let_42 _let_11) (= _let_45 _let_25) (= _let_52 _let_51) (= _let_50 _let_37) (= _let_50 _let_36) (= _let_42 _let_9) (= _let_42 _let_8) (= _let_49 _let_34) (= _let_49 _let_32) (= _let_48 _let_47) (= _let_45 _let_23) (= _let_46 _let_30) (= _let_46 _let_29) (= _let_45 _let_21) (= _let_44 _let_18) (= _let_43 _let_17) (= _let_42 _let_6) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_21 _let_30) (= _let_30 _let_30) (= _let_30 _let_21) (= _let_21 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_21 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_18) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_8) (= _let_17 _let_9) (= _let_9 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_12 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_transport_chain_reaction_4 X))) (let ((_let_2 (tptp.fn_electron_transport_chain_1 _let_1))) (let ((_let_3 (tptp.fn_electron_transport_chain_reaction_5 X))) (let ((_let_4 (tptp.fn_reactant_2 _let_3))) (let ((_let_5 (tptp.fn_electron_transport_chain_reaction_9 X))) (let ((_let_6 (tptp.fn_redox_reaction_16 _let_5))) (let ((_let_7 (tptp.fn_redox_reaction_12 _let_5))) (let ((_let_8 (tptp.fn_electron_transport_chain_reaction_16 X))) (let ((_let_9 (tptp.fn_oxidation_7 _let_8))) (let ((_let_10 (tptp.fn_redox_reaction_7 _let_5))) (let ((_let_11 (tptp.fn_oxidation_9 _let_8))) (let ((_let_12 (tptp.fn_redox_reaction_2 _let_5))) (let ((_let_13 (tptp.fn_redox_reaction_13 _let_5))) (let ((_let_14 (tptp.fn_oxidation_1 _let_8))) (let ((_let_15 (tptp.fn_oxidation_10 _let_8))) (let ((_let_16 (tptp.fn_electron_transport_chain_reaction_15 X))) (let ((_let_17 (tptp.fn_reduction_1 _let_16))) (let ((_let_18 (tptp.fn_electron_transport_chain_reaction_7 X))) (let ((_let_19 (tptp.fn_release_2 _let_18))) (let ((_let_20 (tptp.fn_electron_transport_chain_reaction_25 X))) (let ((_let_21 (tptp.fn_electron_transport_chain_reaction_20 X))) (let ((_let_22 (tptp.fn_electron_transport_chain_reaction_21 X))) (let ((_let_23 (tptp.fn_electron_transport_chain_reaction_22 X))) (let ((_let_24 (tptp.fn_electron_transport_chain_reaction_23 X))) (let ((_let_25 (tptp.fn_electron_transport_chain_reaction_24 X))) (let ((_let_26 (tptp.fn_electron_transport_chain_reaction_17 X))) (let ((_let_27 (tptp.fn_electron_transport_chain_reaction_14 X))) (let ((_let_28 (tptp.fn_electron_transport_chain_reaction_10 X))) (let ((_let_29 (tptp.fn_redox_reaction_1 _let_5))) (let ((_let_30 (tptp.fn_electron_transport_chain_reaction_11 X))) (let ((_let_31 (tptp.fn_redox_reaction_11 _let_5))) (let ((_let_32 (tptp.fn_redox_reaction_10 _let_5))) (let ((_let_33 (tptp.fn_redox_reaction_14 _let_5))) (let ((_let_34 (tptp.fn_electron_transport_chain_reaction_12 X))) (let ((_let_35 (tptp.fn_redox_reaction_3 _let_5))) (let ((_let_36 (tptp.fn_redox_reaction_15 _let_5))) (let ((_let_37 (tptp.fn_electron_transport_chain_reaction_13 X))) (let ((_let_38 (tptp.fn_electron_transport_chain_reaction_6 X))) (let ((_let_39 (tptp.fn_release_1 _let_18))) (let ((_let_40 (tptp.fn_electron_transport_chain_reaction_8 X))) (let ((_let_41 (tptp.fn_electron_transport_chain_reaction_2 X))) (let ((_let_42 (tptp.fn_electron_transport_chain_reaction_1 X))) (=> (tptp.electron_transport_chain_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Transport-Chain-Reaction'|) (tptp.user_description_2 X |tptp.'An electron transport chain (ETC) couples a reaction between an electron donor (such as NADH) and an electron acceptor (such as O2) to the transfer of H+ ions across a membrane, through a set of mediating biochemical reactions. These H+ ions are used to produce adenosine triphosphate (ATP), the main energy intermediate in living organisms, as they move back across the membrane. Electron transport chains are used for extracting energy from sunlight (photosynthesis) and from redox reactions such as the oxidation of sugars (respiration).'|) (tptp.concept2words_2 X |tptp.'etc reaction'|) (tptp.concept2words_2 X |tptp.'etc-reaction'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'electron transport chain reaction'|) (tptp.concept2words_2 X |tptp.'electron-transport-chain-reaction'|) (tptp.exergonic_reaction_1 X) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_42) (tptp.proton_motive_force_1 _let_41) (tptp.system_1 (tptp.fn_electron_transport_chain_reaction_3 X)) (tptp.electron_transport_chain_1 _let_1) (tptp.reactant_1 _let_3) (tptp.molecule_1 _let_38) (tptp.release_1 _let_18) (tptp.free_energy_1 _let_40) (tptp.redox_reaction_1 _let_5) (tptp.atom_1 _let_28) (tptp.electronegativity_value_1 _let_30) (tptp.electronegativity_value_1 _let_34) (tptp.atom_1 _let_37) (tptp.tangible_entity_1 _let_27) (tptp.electron_1 _let_27) (tptp.reduction_1 _let_16) (tptp.oxidation_1 _let_8) (tptp.chemical_entity_1 _let_26) (tptp.chemical_energy_1 _let_21) (tptp.quantity_value_1 _let_22) (tptp.quantity_value_1 _let_23) (tptp.chemical_energy_1 _let_24) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_20) (tptp.tangible_entity_1 _let_39) (tptp.property_node_1 _let_36) (tptp.property_node_1 _let_35) (tptp.electronegativity_value_1 _let_33) (tptp.reduction_1 _let_32) (tptp.oxidation_1 _let_31) (tptp.electronegativity_value_1 _let_29) (tptp.tangible_entity_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_14) (tptp.atom_1 _let_13) (tptp.atom_1 _let_12) (tptp.electron_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.electron_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.chemical_reaction_1 _let_4) (tptp.electron_transport_chain_reaction_1 _let_2) (tptp.causes_2 _let_5 _let_18) (tptp.raw_material_2 _let_5 _let_38) (tptp.agent_2 X _let_1) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.redox_reaction_0) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_42) (tptp.result_2 X _let_41) (tptp.is_inside_2 _let_40 _let_38) (tptp.base_2 _let_18 _let_38) (tptp.object_2 _let_18 _let_40) (tptp.donor_2 _let_16 _let_38) (tptp.in_event_2 _let_3 X) (tptp.has_function_2 _let_1 X) (tptp.has_atom_2 _let_38 _let_37) (tptp.donor_2 _let_8 _let_38) (not (= _let_26 _let_38)) (not (= _let_38 _let_26)) (not (= _let_27 _let_38)) (not (= _let_38 _let_27)) (tptp.recipient_2 _let_16 _let_26) (tptp.electronegativity_2 _let_37 _let_34) (tptp.greater_than_2 _let_30 _let_34) (tptp.greater_than_or_equal_to_2 _let_30 _let_34) (tptp.recipient_2 _let_8 _let_26) (tptp.object_2 _let_8 _let_27) (tptp.object_2 _let_16 _let_27) (tptp.subevent_2 _let_5 _let_16) (tptp.subevent_2 _let_5 _let_8) (tptp.raw_material_2 _let_5 _let_26) (tptp.has_atom_2 _let_26 _let_28) (tptp.electronegativity_2 _let_28 _let_30) (not (= _let_27 _let_26)) (not (= _let_26 _let_27)) (tptp.possesses_2 _let_25 _let_24) (tptp.raw_material_2 X _let_25) (tptp.result_2 X _let_20) (tptp.possesses_2 _let_20 _let_21) (tptp.quantity_2 _let_21 _let_22) (tptp.greater_than_2 _let_23 _let_22) (tptp.quantity_2 _let_24 _let_23) (= _let_38 _let_19) (= _let_40 _let_39) (= _let_38 _let_17) (= X _let_4) (= X _let_2) (= _let_37 _let_14) (= _let_38 _let_9) (= _let_27 _let_11) (= _let_26 _let_9) (= _let_38 _let_15) (= _let_37 _let_13) (= (tptp.fn_electron_transport_chain_reaction_18 X) _let_36) (= (tptp.fn_electron_transport_chain_reaction_19 X) _let_35) (= _let_34 _let_33) (= _let_16 _let_32) (= _let_8 _let_31) (= _let_30 _let_29) (= _let_28 _let_13) (= _let_28 _let_12) (= _let_27 _let_10) (= _let_26 _let_7) (= _let_26 _let_6) (= (tptp.fn_electron_transport_chain_reaction_27 X) (tptp.fn_exergonic_reaction_1 X)) (= (tptp.fn_electron_transport_chain_reaction_26 X) (tptp.fn_exergonic_reaction_2 X)) (= _let_25 (tptp.fn_exergonic_reaction_10 X)) (= _let_24 (tptp.fn_exergonic_reaction_3 X)) (= _let_23 (tptp.fn_exergonic_reaction_4 X)) (= _let_22 (tptp.fn_exergonic_reaction_5 X)) (= _let_21 (tptp.fn_exergonic_reaction_6 X)) (= _let_20 (tptp.fn_exergonic_reaction_11 X)) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_9) (= _let_15 _let_9) (= _let_9 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_8 X))) (let ((_let_2 (tptp.fn_active_movement_of_ions_19 _let_1))) (let ((_let_3 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_31 X))) (let ((_let_4 (tptp.fn_prokaryote_13 _let_3))) (let ((_let_5 (tptp.fn_active_transport_18 _let_1))) (let ((_let_6 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_10 X))) (let ((_let_7 (tptp.fn_plasma_membrane_74 _let_6))) (let ((_let_8 (tptp.fn_active_transport_22 _let_1))) (let ((_let_9 (tptp.fn_plasma_membrane_65 _let_6))) (let ((_let_10 (tptp.fn_active_movement_of_ions_13 _let_1))) (let ((_let_11 (tptp.fn_biomembrane_41 _let_6))) (let ((_let_12 (tptp.fn_plasma_membrane_66 _let_6))) (let ((_let_13 (tptp.fn_prokaryote_16 _let_3))) (let ((_let_14 (tptp.fn_plasma_membrane_71 _let_6))) (let ((_let_15 (tptp.fn_active_movement_of_ions_17 _let_1))) (let ((_let_16 (tptp.fn_biomembrane_63 _let_6))) (let ((_let_17 (tptp.fn_prokaryote_12 _let_3))) (let ((_let_18 (tptp.fn_cell_28 _let_3))) (let ((_let_19 (tptp.fn_active_movement_of_ions_10 _let_1))) (let ((_let_20 (tptp.fn_plasma_membrane_55 _let_6))) (let ((_let_21 (tptp.fn_electron_transport_chain_reaction_24 X))) (let ((_let_22 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_22 X))) (let ((_let_23 (tptp.fn_redox_reaction_16 _let_22))) (let ((_let_24 (tptp.fn_redox_reaction_12 _let_22))) (let ((_let_25 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_9 X))) (let ((_let_26 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_14 X))) (let ((_let_27 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_18 X))) (let ((_let_28 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_13 X))) (let ((_let_29 (tptp.fn_plasma_membrane_34 _let_6))) (let ((_let_30 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_17 X))) (let ((_let_31 (tptp.fn_plasma_membrane_68 _let_6))) (let ((_let_32 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_16 X))) (let ((_let_33 (tptp.fn_plasma_membrane_54 _let_6))) (let ((_let_34 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_15 X))) (let ((_let_35 (tptp.fn_plasma_membrane_6 _let_6))) (let ((_let_36 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_12 X))) (let ((_let_37 (tptp.fn_prokaryote_14 _let_3))) (let ((_let_38 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_20 X))) (let ((_let_39 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_19 X))) (let ((_let_40 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_30 X))) (let ((_let_41 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_29 X))) (let ((_let_42 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_28 X))) (let ((_let_43 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_27 X))) (let ((_let_44 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_26 X))) (let ((_let_45 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_11 X))) (let ((_let_46 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_32 X))) (let ((_let_47 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_21 X))) (let ((_let_48 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_25 X))) (let ((_let_49 (tptp.fn_catalyst_1 _let_48))) (let ((_let_50 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_1 X))) (let ((_let_51 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_2 X))) (let ((_let_52 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_7 X))) (let ((_let_53 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_3 X))) (let ((_let_54 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_4 X))) (let ((_let_55 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_6 X))) (let ((_let_56 (tptp.fn_electron_transport_chain_reaction_in_prokaryote_5 X))) (=> (tptp.electron_transport_chain_reaction_in_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Electron-Transport-Chain-Reaction-In-Prokaryote'|) (tptp.user_description_2 X |tptp.'An electron transport chain (ETC) couples a reaction between an electron donor (such as NADH) and an electron acceptor (such as O2) to the transfer of H+ ions across the plasma membrane of a prokaryote, through a set of mediating biochemical reactions. These H+ ions are used to produce adenosine triphosphate (ATP), the main energy intermediate in living organisms, as they move back across the plasma membrane of the prokaryote. Electron transport chains are used for extracting energy from sunlight (photosynthesis) and from redox reactions such as the oxidation of sugars (respiration).'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'electron transport chain reaction in prokaryote'|) (tptp.concept2words_2 X |tptp.'electron-transport-chain-reaction-in-prokaryote'|) (tptp.electron_transport_chain_reaction_1 X) (tptp.redox_reaction_1 _let_50) (tptp.redox_reaction_1 _let_51) (tptp.redox_reaction_1 _let_53) (tptp.redox_reaction_1 _let_54) (tptp.inner_membrane_1 _let_56) (tptp.decrease_1 _let_55) (tptp.redox_reaction_1 _let_52) (tptp.active_transport_1 _let_1) (tptp.active_movement_of_ions_1 _let_1) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_1) (tptp.move_through_1 _let_25) (tptp.move_1 _let_25) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.plasma_membrane_1 _let_6) (tptp.transmembrane_protein_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.tangible_entity_1 _let_45) (tptp.membrane_protein_1 _let_45) (tptp.protein_1 _let_45) (tptp.molecule_1 _let_45) (tptp.polymer_1 _let_45) (tptp.transport_protein_1 _let_45) (tptp.integral_protein_1 _let_45) (tptp.carrier_protein_1 _let_45) (tptp.hydrophobic_core_1 _let_36) (tptp.tangible_entity_1 _let_28) (tptp.phospholipid_bilayer_1 _let_28) (tptp.outside_face_1 _let_26) (tptp.surface_1 _let_26) (tptp.extracellular_side_1 _let_26) (tptp.tangible_entity_1 _let_34) (tptp.membrane_protein_1 _let_34) (tptp.protein_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.polymer_1 _let_34) (tptp.tangible_entity_1 _let_32) (tptp.membrane_protein_1 _let_32) (tptp.protein_1 _let_32) (tptp.glycoprotein_1 _let_30) (tptp.surface_1 _let_27) (tptp.cytoplasmic_side_1 _let_27) (tptp.mixture_1 _let_39) (tptp.cytoplasm_1 _let_39) (tptp.cell_wall_1 _let_38) (tptp.nadh_1 _let_47) (tptp.redox_reaction_1 _let_22) (tptp.catalyst_1 _let_48) (tptp.chemical_energy_1 _let_44) (tptp.quantity_value_1 _let_43) (tptp.quantity_value_1 _let_42) (tptp.chemical_energy_1 _let_41) (tptp.chemical_entity_1 _let_40) (tptp.prokaryote_1 _let_3) (tptp.prokaryotic_electron_transport_chain_1 _let_46) (tptp.chemical_reaction_1 _let_49) (tptp.cell_wall_1 _let_37) (tptp.hydrophobic_core_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.membrane_protein_1 _let_33) (tptp.protein_1 _let_33) (tptp.spatial_entity_1 _let_33) (tptp.polymer_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.membrane_protein_1 _let_31) (tptp.protein_1 _let_31) (tptp.glycoprotein_1 _let_29) (tptp.chemical_entity_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.tangible_entity_1 _let_20) (tptp.transmembrane_protein_1 _let_20) (tptp.integral_protein_1 _let_20) (tptp.transport_protein_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.membrane_protein_1 _let_19) (tptp.protein_1 _let_19) (tptp.molecule_1 _let_19) (tptp.polymer_1 _let_19) (tptp.transport_protein_1 _let_19) (tptp.integral_protein_1 _let_19) (tptp.carrier_protein_1 _let_19) (tptp.mixture_1 _let_18) (tptp.cytoplasm_1 _let_18) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.phospholipid_bilayer_1 _let_14) (tptp.surface_1 _let_13) (tptp.cytoplasmic_side_1 _let_13) (tptp.cytoplasmic_side_1 _let_12) (tptp.outside_face_1 _let_11) (tptp.outside_face_1 _let_10) (tptp.surface_1 _let_10) (tptp.extracellular_side_1 _let_9) (tptp.move_1 _let_8) (tptp.move_through_1 _let_8) (tptp.move_through_1 _let_7) (tptp.move_1 _let_7) (tptp.biomembrane_1 _let_5) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.membrane_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (not (= _let_50 _let_22)) (not (= _let_51 _let_22)) (not (= _let_53 _let_52)) (not (= _let_54 _let_52)) (tptp.base_2 X _let_3) (tptp.experiencer_2 X _let_3) (tptp.site_2 X _let_56) (tptp.enables_2 _let_55 X) (not (= _let_52 _let_54)) (not (= _let_52 _let_53)) (not (= _let_52 _let_22)) (not (= _let_22 _let_52)) (not (= _let_22 _let_51)) (not (= _let_22 _let_50)) (tptp.raw_material_2 _let_22 _let_47) (tptp.in_event_2 _let_48 X) (tptp.subevent_2 _let_1 _let_25) (tptp.agent_2 X _let_46) (tptp.has_function_2 _let_46 X) (tptp.raw_material_2 X _let_47) (tptp.possesses_2 _let_47 _let_44) (tptp.path_2 _let_1 _let_6) (tptp.is_across_2 _let_45 _let_36) (tptp.has_region_2 _let_45 _let_26) (not (= _let_34 _let_45)) (not (= _let_45 _let_34)) (tptp.agent_2 _let_1 _let_45) (tptp.is_across_2 _let_45 _let_6) (tptp.has_part_2 _let_6 _let_45) (tptp.is_inside_2 _let_45 _let_28) (tptp.quantity_2 _let_44 _let_43) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_40) (tptp.possesses_2 _let_40 _let_41) (tptp.quantity_2 _let_41 _let_42) (tptp.greater_than_2 _let_43 _let_42) (tptp.is_facing_2 _let_27 _let_39) (tptp.is_oriented_toward_2 _let_27 _let_39) (tptp.has_part_2 _let_3 _let_6) (tptp.is_inside_2 _let_6 _let_38) (tptp.has_part_2 _let_3 _let_38) (tptp.has_part_2 _let_3 _let_39) (tptp.is_inside_2 _let_39 _let_6) (tptp.has_region_2 _let_6 _let_36) (tptp.called_2 _let_32 |tptp.'MP1'|) (tptp.has_part_2 _let_6 _let_34) (tptp.called_2 _let_34 |tptp.'MP2'|) (tptp.has_part_2 _let_6 _let_28) (tptp.is_inside_2 _let_30 _let_28) (tptp.has_part_2 _let_6 _let_30) (tptp.has_part_2 _let_6 _let_32) (not (= _let_32 _let_34)) (not (= _let_34 _let_32)) (tptp.has_function_2 _let_6 _let_25) (tptp.base_2 _let_25 _let_6) (tptp.has_region_2 _let_6 _let_26) (tptp.is_outside_2 _let_26 _let_6) (tptp.has_region_2 _let_6 _let_27) (= _let_47 _let_24) (= _let_47 _let_23) (= X _let_49) (= _let_47 _let_21) (= _let_46 (tptp.fn_electron_transport_chain_reaction_4 X)) (= _let_28 _let_15) (= _let_45 _let_20) (= _let_45 _let_19) (= _let_44 (tptp.fn_electron_transport_chain_reaction_23 X)) (= _let_1 (tptp.fn_electron_transport_chain_reaction_1 X)) (= (tptp.fn_electron_transport_chain_reaction_in_prokaryote_24 X) (tptp.fn_electron_transport_chain_reaction_27 X)) (= (tptp.fn_electron_transport_chain_reaction_in_prokaryote_23 X) (tptp.fn_electron_transport_chain_reaction_26 X)) (= _let_43 (tptp.fn_electron_transport_chain_reaction_22 X)) (= _let_42 (tptp.fn_electron_transport_chain_reaction_21 X)) (= _let_41 (tptp.fn_electron_transport_chain_reaction_20 X)) (= _let_40 (tptp.fn_electron_transport_chain_reaction_25 X)) (= _let_27 _let_13) (= _let_39 _let_18) (= _let_39 _let_17) (= _let_38 _let_37) (= _let_6 _let_4) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_16) (= _let_28 _let_14) (= _let_27 _let_12) (= _let_26 _let_11) (= _let_6 _let_2) (= _let_26 _let_10) (= _let_26 _let_9) (= _let_25 _let_8) (= _let_6 _let_5) (= _let_25 _let_7) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_2) (= _let_2 _let_5) (= _let_5 _let_2) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.electronegative_element_1 X) (and (tptp.original_name_2 X |tptp.'Electronegative-Element'|) (tptp.user_description_2 X |tptp.'A pure chemical substance composed of entirely one kind of atom with the power to attract electrons to themselves.'|) (tptp.concept2words_2 X |tptp.'electronegative element'|) (tptp.concept2words_2 X |tptp.'electronegative-element'|) (tptp.chemical_element_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electronegativity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Electronegativity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of electronegativity'|) (tptp.concept2words_2 X |tptp.'electronegativity constant'|) (tptp.concept2words_2 X |tptp.'electronegativity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electronegativity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Electronegativity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of electronegativity'|) (tptp.concept2words_2 X |tptp.'electronegativity scale'|) (tptp.concept2words_2 X |tptp.'electronegativity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.electronegativity_value_1 X) (and (tptp.original_name_2 X |tptp.'Electronegativity-Value'|) (tptp.description_2 X |tptp.'A measurement of how much an atom tends to steal electrons from atoms that it_'s bonded to. Elements at the top right of the periodic table (excluding the noble gases) are very electronegative while atoms in the bottom left are not very electronegative (aka electropositive).'|) (tptp.concept2words_2 X tptp.electronegativity) (tptp.concept2words_2 X |tptp.'value of electronegativity'|) (tptp.concept2words_2 X |tptp.'electronegativity value'|) (tptp.concept2words_2 X |tptp.'electronegativity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.electroporation_1 X) (and (tptp.original_name_2 X |tptp.'Electroporation'|) (tptp.user_description_2 X |tptp.'A technique to introduce recombinant DNA into cells by applying a brief electrical pulse to a solution containing the cells. The pulse creates temporary holes in the cells plasma membranes, through which DNA can enter.'|) (tptp.concept2words_2 X |tptp.'perform electroporation'|) (tptp.concept2words_2 X tptp.electroporation) (tptp.biotechnology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_elephant_2 X))) (let ((_let_2 (tptp.fn_vertebrate_cell_5 _let_1))) (let ((_let_3 (tptp.fn_elephant_1 X))) (=> (tptp.elephant_1 X) (and (tptp.original_name_2 X |tptp.'Elephant'|) (tptp.user_description_2 X |tptp.'Large land mammals of the order Proboscidea, including African bush elephants, African forest elephants, and Asian elephants.'|) (tptp.concept2words_2 X tptp.elephant) (tptp.placental_mammal_1 X) (not (tptp.bat_1 X)) (not (tptp.edentata_1 X)) (not (tptp.primate_1 X)) (not (tptp.rodent_1 X)) (not (tptp.ungulate_1 X)) (tptp.non_motile_cilium_1 _let_3) (tptp.mammalian_cell_1 _let_1) (tptp.vertebrate_cell_1 _let_1) (tptp.non_motile_cilium_1 _let_2) (tptp.exactCardinality _let_1 tptp.has_part_0 |"56"| tptp.eukaryotic_chromosome_0) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_mammal_75 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.elevator_1 X) (and (tptp.original_name_2 X |tptp.'Elevator'|) (tptp.concept2words_2 X tptp.elevator) (tptp.concept2words_2 X tptp.lift) (tptp.room_1 X) (not (tptp.hallway_1 X)) (not (tptp.bathroom_1 X))))) (forall ((X $$unsorted)) (=> (tptp.elicitor_1 X) (and (tptp.original_name_2 X |tptp.'Elicitor'|) (tptp.user_description_2 X |tptp.'In plants, a molecule that induces the production of other compounds.'|) (tptp.chemical_messenger_1 X) (not (tptp.electrical_signal_1 X)) (not (tptp.florigen_1 X)) (not (tptp.local_regulator_1 X))))) (forall ((X $$unsorted)) (=> (tptp.elimination_1 X) (and (tptp.original_name_2 X |tptp.'Elimination'|) (tptp.user_description_2 X |tptp.'The final stage of food processing in animals, in which undigested material is passed out of th digestive system.'|) (tptp.concept2words_2 X tptp.eliminate) (tptp.concept2words_2 X tptp.elimination) (tptp.animal_process_1 X) (not (tptp.food_absorption_1 X)) (not (tptp.extracellular_digestion_1 X)) (not (tptp.ingestion_1 X))))) (forall ((X $$unsorted)) (=> (tptp.elongation_1 X) (and (tptp.original_name_2 X |tptp.'Elongation'|) (tptp.user_description_2 X |tptp.'The phase of polypeptide synthesis in which amino acids are added one at a time. There are three steps to elongation: codon recognition, formation of the new peptide bond, and translocation of the ribosome along the mRNA transcript.'|) (tptp.concept2words_2 X tptp.elongate) (tptp.concept2words_2 X tptp.elongation) (tptp.grow_1 X) (not (tptp.culturing_1 X)) (not (tptp.microtubule_elongation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_elongation_factor_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.elongation_factor_1 X) (and (tptp.original_name_2 X |tptp.'Elongation-Factor'|) (tptp.user_description_2 X |tptp.'Elongation factors are proteins involved at various events of the elongation phase of the translation process (Synthesis of polypeptide)'|) (tptp.concept2words_2 X |tptp.'elongation factor'|) (tptp.concept2words_2 X |tptp.'elongation-factor'|) (tptp.concept2words_2 X tptp.ef) (tptp.concept2words_2 X |tptp.'factor of elongation'|) (tptp.regulatory_protein_1 X) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embody_2 X))) (let ((_let_2 (tptp.fn_embody_1 X))) (=> (tptp.embody_1 X) (and (tptp.original_name_2 X |tptp.'Embody'|) (tptp.concept2words_2 X tptp.embody) (tptp.concept2words_2 X tptp.create) (tptp.create_1 X) (tptp.message_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_create_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.embolus_1 X) (and (tptp.original_name_2 X |tptp.'Embolus'|) (tptp.user_description_2 X |tptp.'Any detached mass (solid, liquid, or gaseous) carried by circulation, which is capable of clogging arterial capillary beds.'|) (tptp.concept2words_2 X tptp.embolus) (tptp.thrombus_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryo_1 X))) (=> (tptp.embryo_1 X) (and (tptp.original_name_2 X |tptp.'Embryo'|) (tptp.user_description_2 X |tptp.'A multicellular diploid eukaryote in its earliest stage of development, from the time of first cell division until birth, hatching, or germination. In humans, it is called an embryo until about eight weeks after fertilization, and from then it is instead called a fetus.'|) (tptp.concept2words_2 X tptp.embryo) (tptp.life_stage_1 X) (tptp.eukaryotic_cell_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.embryo_sac_1 X) (and (tptp.original_name_2 X |tptp.'Embryo-Sac'|) (tptp.user_description_2 X |tptp.'In angiosperms, the megagametophyte of female plants, which produces one or several egg cells, depending on species.'|) (tptp.concept2words_2 X |tptp.'sac of embryo'|) (tptp.concept2words_2 X |tptp.'embryo sac'|) (tptp.concept2words_2 X |tptp.'embryo-sac'|) (tptp.sac_1 X) (tptp.gametophyte_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryogenesis_29 X))) (let ((_let_2 (tptp.fn_synthesis_of_protein_16 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_embryogenesis_34 X))) (let ((_let_5 (tptp.fn_two_cell_stage_1 _let_4))) (let ((_let_6 (tptp.fn_embryogenesis_33 X))) (let ((_let_7 (tptp.fn_eight_cell_stage_2 _let_6))) (let ((_let_8 (tptp.fn_embryogenesis_37 X))) (let ((_let_9 (tptp.fn_embryonic_induction_9 _let_8))) (let ((_let_10 (tptp.fn_embryogenesis_35 X))) (let ((_let_11 (tptp.fn_cell_division_2 _let_10))) (let ((_let_12 (tptp.fn_embryogenesis_39 X))) (let ((_let_13 (tptp.fn_embryonic_induction_9 _let_12))) (let ((_let_14 (tptp.fn_embryogenesis_38 X))) (let ((_let_15 (tptp.fn_cell_differentiation_19 _let_14))) (let ((_let_16 (tptp.fn_embryogenesis_47 X))) (let ((_let_17 (tptp.fn_locomotion_1 _let_16))) (let ((_let_18 (tptp.fn_embryogenesis_58 X))) (let ((_let_19 (tptp.fn_signal_transmission_3 _let_18))) (let ((_let_20 (tptp.fn_embryogenesis_25 X))) (let ((_let_21 (tptp.fn_cell_communication_leading_to_apoptosis_6 _let_20))) (let ((_let_22 (tptp.fn_embryogenesis_26 X))) (let ((_let_23 (tptp.fn_cell_communication_leading_to_apoptosis_3 _let_20))) (let ((_let_24 (tptp.fn_embryogenesis_28 X))) (let ((_let_25 (tptp.fn_cell_communication_leading_to_apoptosis_5 _let_20))) (let ((_let_26 (tptp.fn_embryogenesis_27 X))) (let ((_let_27 (tptp.fn_embryogenesis_54 X))) (let ((_let_28 (tptp.fn_cell_differentiation_20 _let_27))) (let ((_let_29 (tptp.fn_embryogenesis_46 X))) (let ((_let_30 (tptp.fn_embryogenesis_32 X))) (let ((_let_31 (tptp.fn_embryogenesis_52 X))) (let ((_let_32 (tptp.fn_morphogenesis_4 _let_31))) (let ((_let_33 (tptp.fn_embryogenesis_36 X))) (let ((_let_34 (tptp.fn_embryogenesis_56 X))) (let ((_let_35 (tptp.fn_embryogenesis_45 X))) (let ((_let_36 (tptp.fn_locomotion_1 _let_35))) (let ((_let_37 (tptp.fn_embryogenesis_44 X))) (let ((_let_38 (tptp.fn_embryogenesis_41 X))) (let ((_let_39 (tptp.fn_fertilization_2 _let_38))) (let ((_let_40 (tptp.fn_embryogenesis_42 X))) (let ((_let_41 (tptp.fn_embryogenesis_48 X))) (let ((_let_42 (tptp.fn_signal_transmission_2 _let_18))) (let ((_let_43 (tptp.fn_embryogenesis_57 X))) (let ((_let_44 (tptp.fn_embryogenesis_30 X))) (let ((_let_45 (tptp.fn_create_1 _let_44))) (let ((_let_46 (tptp.fn_embryogenesis_31 X))) (let ((_let_47 (tptp.fn_embryogenesis_55 X))) (let ((_let_48 (tptp.fn_m_phase_20 _let_47))) (let ((_let_49 (tptp.fn_embryogenesis_50 X))) (let ((_let_50 (tptp.fn_add_2 _let_38))) (let ((_let_51 (tptp.fn_embryogenesis_43 X))) (let ((_let_52 (tptp.fn_embryogenesis_40 X))) (let ((_let_53 (tptp.fn_cell_division_3 _let_52))) (let ((_let_54 (tptp.fn_embryogenesis_49 X))) (let ((_let_55 (tptp.fn_embryogenesis_51 X))) (let ((_let_56 (tptp.fn_create_1 _let_55))) (let ((_let_57 (tptp.fn_embryogenesis_53 X))) (let ((_let_58 (tptp.fn_embryogenesis_2 X))) (let ((_let_59 (tptp.fn_embryogenesis_3 X))) (let ((_let_60 (tptp.fn_embryogenesis_4 X))) (let ((_let_61 (tptp.fn_embryogenesis_6 X))) (let ((_let_62 (tptp.fn_embryogenesis_8 X))) (let ((_let_63 (tptp.fn_embryogenesis_7 X))) (let ((_let_64 (tptp.fn_embryogenesis_10 X))) (let ((_let_65 (tptp.fn_embryogenesis_9 X))) (let ((_let_66 (tptp.fn_embryogenesis_11 X))) (let ((_let_67 (tptp.fn_embryogenesis_12 X))) (let ((_let_68 (tptp.fn_embryogenesis_13 X))) (let ((_let_69 (tptp.fn_embryogenesis_14 X))) (let ((_let_70 (tptp.fn_embryogenesis_15 X))) (let ((_let_71 (tptp.fn_embryogenesis_16 X))) (let ((_let_72 (tptp.fn_embryogenesis_5 X))) (let ((_let_73 (tptp.fn_embryogenesis_20 X))) (let ((_let_74 (tptp.fn_embryogenesis_19 X))) (let ((_let_75 (tptp.fn_embryogenesis_17 X))) (let ((_let_76 (tptp.fn_embryogenesis_18 X))) (let ((_let_77 (tptp.fn_embryogenesis_23 X))) (let ((_let_78 (tptp.fn_embryogenesis_21 X))) (let ((_let_79 (tptp.fn_embryogenesis_22 X))) (let ((_let_80 (tptp.fn_embryogenesis_24 X))) (=> (tptp.embryogenesis_1 X) (and (tptp.original_name_2 X |tptp.'Embryogenesis'|) (tptp.user_description_2 X |tptp.'Embryogenesis is the process by which the embryo is formed and develops, until it develops into a fetus.'|) (tptp.concept2words_2 X |tptp.'embryonic development'|) (tptp.concept2words_2 X |tptp.'embryonic-development'|) (tptp.concept2words_2 X 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X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X)) (tptp.time_interval_1 _let_58) (tptp.time_interval_1 _let_59) (tptp.unitless_value_1 _let_60) (tptp.organ_development_1 _let_72) (tptp.regulation_1 _let_61) (tptp.anatomical_structure_1 _let_63) (tptp.embryo_1 _let_62) (tptp.cell_differentiation_1 _let_65) (tptp.spatial_entity_1 _let_64) (tptp.cell_signaling_1 _let_66) (tptp.cell_differentiation_1 _let_67) (tptp.cell_division_1 _let_68) (tptp.asymmetrical_distribution_1 _let_69) (tptp.cell_differentiation_for_tissue_formation_1 _let_70) (tptp.pattern_formation_1 _let_71) (tptp.cell_differentiation_1 _let_75) (tptp.transcriptional_regulation_1 _let_76) (tptp.cellular_response_1 _let_74) (tptp.cell_differentiation_induction_1 _let_73) (tptp.spatial_entity_1 _let_78) (tptp.spatial_entity_1 _let_79) (tptp.block_1 _let_77) (tptp.signal_1 _let_80) (tptp.cell_communication_leading_to_apoptosis_1 _let_20) (tptp.cell_signaling_1 _let_22) (tptp.signal_transduction_1 _let_26) (tptp.apoptosis_1 _let_24) (tptp.synthesis_of_protein_1 _let_1) (tptp.create_1 _let_44) (tptp.concentration_gradient_1 _let_46) (tptp.chemical_entity_1 _let_30) (tptp.protein_1 _let_30) (tptp.eight_cell_stage_1 _let_6) (tptp.two_cell_stage_1 _let_4) (tptp.cell_division_1 _let_10) (tptp.cell_1 _let_33) (tptp.embryonic_cell_1 _let_33) (tptp.embryonic_induction_1 _let_8) (tptp.cell_differentiation_1 _let_14) (tptp.embryonic_induction_1 _let_12) (tptp.cell_division_1 _let_52) (tptp.fertilization_1 _let_38) (tptp.sperm_cell_1 _let_40) (tptp.egg_1 _let_51) (tptp.organic_molecule_1 _let_37) (tptp.go_to_1 _let_35) (tptp.gene_expression_1 _let_29) (tptp.go_to_1 _let_16) (tptp.protein_1 _let_41) (tptp.zygote_1 _let_54) (tptp.zygote_1 _let_49) (tptp.create_1 _let_55) (tptp.morphogenesis_1 _let_31) (tptp.tissue_1 _let_57) (tptp.cell_differentiation_1 _let_27) (tptp.m_phase_1 _let_47) (tptp.eukaryotic_cell_1 _let_34) (tptp.embryonic_cell_1 _let_34) (tptp.cytoplasmic_determinant_1 _let_43) (tptp.signal_transmission_1 _let_18) (tptp.entity_1 _let_56) (tptp.cell_1 _let_53) (tptp.spatial_entity_1 _let_50) (tptp.eukaryotic_cell_1 _let_48) (tptp.cell_1 _let_48) (tptp.entity_1 _let_45) (tptp.signal_1 _let_42) (tptp.gamete_1 _let_39) (tptp.spatial_entity_1 _let_36) (tptp.cell_communication_leading_to_apoptosis_1 _let_32) (tptp.gene_expression_1 _let_28) (tptp.signal_transduction_1 _let_25) (tptp.apoptosis_1 _let_23) (tptp.cell_signaling_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.eukaryotic_cell_1 _let_15) (tptp.embryonic_cell_1 _let_13) (tptp.cell_1 _let_11) (tptp.embryonic_cell_1 _let_9) (tptp.embryogenesis_1 _let_7) (tptp.embryogenesis_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.protein_1 _let_2) (tptp.in_event_2 _let_80 _let_18) (tptp.is_between_2 _let_34 _let_79) (tptp.is_between_2 _let_34 _let_78) (tptp.instrument_2 _let_77 _let_34) (tptp.causes_2 _let_73 _let_75) (tptp.subevent_2 _let_74 _let_76) (tptp.next_event_2 _let_74 _let_75) (tptp.causes_2 _let_76 _let_75) (tptp.called_2 _let_27 |tptp.'Cell Differentiation 1'|) (tptp.object_2 X _let_62) (tptp.subevent_2 X _let_74) (tptp.subevent_2 X _let_73) (tptp.subevent_2 X _let_72) (tptp.subevent_2 X _let_61) (tptp.subevent_2 X _let_44) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_71) (tptp.subevent_2 X _let_70) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_68) (tptp.subevent_2 X _let_52) (tptp.subevent_2 X _let_67) (tptp.subevent_2 X _let_27) (tptp.subevent_2 X _let_47) (tptp.subevent_2 X _let_31) (tptp.subevent_2 X _let_55) (tptp.called_2 _let_41 |tptp.'Cytoplasmic determinant 2'|) (tptp.causes_2 _let_69 _let_35) (tptp.causes_2 _let_69 _let_16) (tptp.object_2 _let_69 _let_37) (tptp.agent_2 _let_29 _let_37) (tptp.called_2 _let_37 |tptp.'Cytoplasmic Determinant 1'|) (tptp.next_event_2 _let_38 X) (tptp.called_2 _let_68 |tptp.'Cell Division 2'|) (tptp.causes_2 _let_68 _let_35) (tptp.causes_2 _let_68 _let_16) (tptp.called_2 _let_52 |tptp.'Cell Division 1'|) (tptp.called_2 _let_67 |tptp.'Cell Differentiation 2'|) (tptp.next_event_2 _let_12 _let_14) (tptp.causes_2 _let_12 _let_14) (tptp.called_2 _let_14 |tptp.'Cell Differentiation 3'|) (tptp.base_2 _let_14 _let_34) (tptp.next_event_2 _let_66 _let_8) (tptp.causes_2 _let_66 _let_8) (tptp.causes_2 _let_66 _let_65) (tptp.next_event_2 _let_8 _let_65) (tptp.called_2 _let_65 |tptp.'Cell Differentiation 4'|) (tptp.base_2 _let_65 _let_33) (tptp.is_outside_2 _let_33 _let_64) (tptp.result_2 _let_10 _let_34) (tptp.next_event_2 _let_4 _let_6) (tptp.has_part_2 _let_62 _let_63) (tptp.has_part_2 _let_46 _let_30) (tptp.object_2 _let_61 _let_63) (tptp.agent_2 _let_61 _let_46) (tptp.base_2 _let_61 _let_62) (tptp.causes_2 _let_44 _let_61) (tptp.the_scalar_value_2 _let_60 tptp.important_0) (tptp.scalar_unit_class_2 _let_60 tptp.biological_process_0) (tptp.importance_2 _let_24 _let_60) (tptp.time_during_2 _let_24 _let_59) (tptp.time_before_2 _let_58 _let_59) (tptp.time_during_2 _let_26 _let_58) (tptp.result_2 _let_55 _let_57) (tptp.object_2 _let_52 _let_54) (tptp.base_2 _let_38 _let_51) (tptp.result_2 _let_10 _let_33) (tptp.object_2 _let_47 _let_49) (tptp.object_2 _let_14 _let_34) (tptp.result_2 _let_44 _let_46) (tptp.object_2 _let_18 _let_41) (tptp.plays_2 _let_41 _let_43) (tptp.agent_2 _let_16 _let_41) (tptp.object_2 _let_16 _let_41) (tptp.object_2 _let_38 _let_40) (tptp.agent_2 _let_35 _let_37) (tptp.object_2 _let_35 _let_37) (tptp.base_2 _let_12 _let_34) (tptp.base_2 _let_8 _let_33) (tptp.subevent_2 _let_31 _let_20) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_4) (tptp.result_2 _let_1 _let_30) (tptp.subevent_2 _let_27 _let_29) (tptp.subevent_2 _let_22 _let_26) (tptp.next_event_2 _let_26 _let_24) (tptp.subevent_2 _let_22 _let_24) (tptp.subevent_2 _let_20 _let_22) (= _let_57 _let_56) (= _let_54 _let_53) (= _let_51 _let_50) (= _let_33 _let_11) (= _let_49 _let_48) (= _let_34 _let_15) (= _let_46 _let_45) (= _let_43 _let_42) (= _let_41 _let_19) (= _let_41 _let_17) (= _let_40 _let_39) (= _let_37 _let_36) (= _let_34 _let_13) (= _let_33 _let_9) (= _let_20 _let_32) (= X _let_7) (= X _let_5) (= _let_30 _let_3) (= _let_30 _let_2) (= _let_29 _let_28) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryoid_1 X))) (=> (tptp.embryoid_1 X) (and (tptp.original_name_2 X |tptp.'Embryoid'|) (tptp.user_description_2 X |tptp.'A mass of plant or animal tissue that resembles an embryo is called as embryoid.'|) (tptp.concept2words_2 X tptp.embryoid) (tptp.embryo_1 X) (not (tptp.abnormal_cloned_embryo_1 X)) (not (tptp.animal_embryo_1 X)) (not (tptp.cloned_embryo_1 X)) (not (tptp.early_embryo_1 X)) (not (tptp.eight_cell_embryo_1 X)) (not (tptp.plant_embryo_1 X)) (not (tptp.segmented_embryo_1 X)) (not (tptp.two_cell_embryo_1 X)) (tptp.cell_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.embryology_1 X) (and (tptp.original_name_2 X |tptp.'Embryology'|) (tptp.user_description_2 X |tptp.'The study of the early growth and development of animals, from the fertilization of the egg to the larval or fetus stage.'|) (tptp.concept2words_2 X tptp.embryology) (tptp.developmental_biology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.embryonic_brain_region_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Brain-Region'|) (tptp.user_description_2 X |tptp.'Bulges in the neural tube in the developing embryo that will develop into the four regions of the adult brain.'|) (tptp.concept2words_2 X |tptp.'embryonic brain region'|) (tptp.concept2words_2 X |tptp.'embryonic-brain-region'|) (tptp.brain_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.embryonic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Cell'|) (tptp.user_description_2 X |tptp.'The cell of an embryo.'|) (tptp.concept2words_2 X |tptp.'embryonic cell'|) (tptp.concept2words_2 X |tptp.'embryonic-cell'|) (tptp.animal_development_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.embryonic_gonad_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Gonad'|) (tptp.user_description_2 X |tptp.'In animals, germ-line progenitors associate with gonadal somatic cells to form the embryonic gonads.'|) (tptp.concept2words_2 X |tptp.'embryonic gonad'|) (tptp.concept2words_2 X |tptp.'embryonic-gonad'|) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_signaling_7 X))) (let ((_let_2 (tptp.fn_cell_differentiation_induction_3 X))) (let ((_let_3 (tptp.fn_cell_signaling_2 X))) (let ((_let_4 (tptp.fn_embryonic_induction_12 X))) (let ((_let_5 (tptp.fn_cell_signaling_event_1 _let_4))) (let ((_let_6 (tptp.fn_cell_differentiation_induction_5 X))) (let ((_let_7 (tptp.fn_embryonic_induction_7 X))) (let ((_let_8 (tptp.fn_signal_reception_3 _let_7))) (let ((_let_9 (tptp.fn_embryonic_induction_8 X))) (let ((_let_10 (tptp.fn_make_contact_2 _let_9))) (let ((_let_11 (tptp.fn_chemical_signaling_6 X))) (let ((_let_12 (tptp.fn_cell_differentiation_induction_4 X))) (let ((_let_13 (tptp.fn_signal_reception_5 _let_7))) (let ((_let_14 (tptp.fn_cell_signaling_5 X))) (let ((_let_15 (tptp.fn_make_contact_1 _let_9))) (let ((_let_16 (tptp.fn_embryonic_induction_10 X))) (let ((_let_17 (tptp.fn_create_1 _let_16))) (let ((_let_18 (tptp.fn_signal_reception_6 _let_7))) (let ((_let_19 (tptp.fn_embryonic_induction_5 X))) (let ((_let_20 (tptp.fn_embryonic_induction_9 X))) (let ((_let_21 (tptp.fn_embryonic_induction_6 X))) (let ((_let_22 (tptp.fn_embryonic_induction_4 X))) (let ((_let_23 (tptp.fn_embryonic_induction_11 X))) (let ((_let_24 (tptp.fn_embryonic_induction_1 X))) (let ((_let_25 (tptp.fn_embryonic_induction_2 X))) (let ((_let_26 (tptp.fn_embryonic_induction_3 X))) (=> (tptp.embryonic_induction_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Induction'|) (tptp.user_description_2 X |tptp.'The influence of one cell group (inducer) over a neighboring cell group (induced) during.'|) (tptp.concept2words_2 X |tptp.'embryonic induction'|) (tptp.concept2words_2 X |tptp.'embryonic-induction'|) (tptp.cell_differentiation_induction_1 X) (tptp.receptor_1 _let_24) (tptp.eukaryotic_gene_regulation_1 _let_25) (tptp.gene_expression_1 _let_26) (tptp.transcriptional_regulation_1 _let_22) (tptp.ligand_binding_1 _let_19) (tptp.cellular_response_1 _let_21) (tptp.signal_reception_1 _let_7) (tptp.make_contact_1 _let_9) (tptp.embryonic_cell_1 _let_20) (tptp.produce_1 _let_16) (tptp.embryonic_cell_1 _let_23) (tptp.signal_transduction_1 _let_4) (tptp.cell_signaling_event_1 _let_4) (tptp.ligand_binding_1 _let_18) (tptp.entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.spatial_entity_1 _let_10) (tptp.cell_1 _let_8) (tptp.cell_1 _let_5) (tptp.is_near_2 _let_23 _let_20) (tptp.complement_2 _let_23 _let_24) (tptp.subevent_2 _let_26 _let_16) (tptp.result_2 _let_26 _let_23) (tptp.base_2 _let_26 _let_23) (tptp.base_2 _let_25 _let_23) (tptp.subevent_2 X _let_9) (tptp.donor_2 X _let_23) (tptp.is_near_2 _let_20 _let_23) (tptp.instrument_2 _let_7 _let_24) (tptp.complement_2 _let_24 _let_23) (tptp.result_2 _let_16 _let_23) (tptp.object_2 _let_9 _let_23) (tptp.base_2 _let_9 _let_20) (tptp.agent_2 X _let_23) (tptp.object_2 _let_7 _let_23) (tptp.object_2 _let_19 _let_23) (tptp.base_2 _let_21 _let_20) (tptp.base_2 X _let_20) (tptp.base_2 _let_7 _let_20) (tptp.recipient_2 _let_7 _let_20) (tptp.base_2 _let_22 _let_20) (tptp.subevent_2 _let_21 _let_22) (tptp.first_subevent_2 X _let_7) (tptp.subevent_2 X _let_4) (tptp.next_event_2 _let_4 _let_21) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_7) (tptp.next_event_2 _let_7 _let_4) (tptp.subevent_2 _let_7 _let_19) (tptp.base_2 _let_4 _let_20) (= _let_23 _let_17) (= _let_23 _let_15) (= _let_20 _let_10) (= _let_7 _let_3) (= _let_23 _let_14) (= _let_23 _let_13) (= _let_20 _let_8) (= _let_20 _let_6) (= _let_22 (tptp.fn_cell_differentiation_induction_1 X)) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_21 _let_12) (= _let_21 _let_11) (= _let_4 (tptp.fn_chemical_signaling_8 X)) (= _let_20 _let_5) (= _let_19 _let_18) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryonic_lethal_1 X))) (=> (tptp.embryonic_lethal_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Lethal'|) (tptp.user_description_2 X |tptp.'A mutation whose phenotype results in the death of an embryo or larva.'|) (tptp.concept2words_2 X |tptp.'embryonic lethal'|) (tptp.concept2words_2 X |tptp.'embryonic-lethal'|) (tptp.development_related_mutation_1 X) (tptp.death_1 _let_1) (tptp.causes_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryonic_morphogenesis_1 X))) (=> (tptp.embryonic_morphogenesis_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Morphogenesis'|) (tptp.user_description_2 X |tptp.'Embryonic morphogenesis is the biological process that causes an embryo to develop its shape. It is one of three fundamental aspects of developmental biology along with the control of cell growth and cellular differentiation.'|) (tptp.concept2words_2 X |tptp.'embryonic morphogenesis'|) (tptp.concept2words_2 X |tptp.'embryonic-morphogenesis'|) (tptp.embryonic_process_1 X) (tptp.embryogenesis_1 _let_1) (tptp.subevent_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryonic_morphogenesis_1 X))) (let ((_let_2 (tptp.fn_embryonic_morphogenesis_in_animal_2 X))) (let ((_let_3 (tptp.fn_animal_development_31 _let_2))) (let ((_let_4 (tptp.fn_embryonic_morphogenesis_in_animal_3 X))) (let ((_let_5 (tptp.fn_embryonic_morphogenesis_in_animal_1 X))) (=> (tptp.embryonic_morphogenesis_in_animal_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Morphogenesis-In-Animal'|) (tptp.user_description_2 X |tptp.'Embryonic morphogenesis in animal is the biological process that causes an animal embryo to develop its shape. It is one of three fundamental aspects of developmental biology along with the control of cell growth and cellular differentiation.'|) (tptp.concept2words_2 X |tptp.'embryonic morphogenesis in animal'|) (tptp.concept2words_2 X |tptp.'embryonic-morphogenesis-in-animal'|) (tptp.embryonic_morphogenesis_1 X) (tptp.morphogenetic_movement_1 _let_5) (tptp.animal_development_1 _let_2) (tptp.embryogenesis_1 _let_4) (tptp.embryogenesis_1 _let_3) (tptp.subevent_2 X _let_5) (tptp.subevent_2 _let_2 _let_4) (tptp.subevent_2 _let_4 X) (= _let_4 _let_3) (= _let_4 _let_1) (= _let_3 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.embryonic_process_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Process'|) (tptp.user_description_2 X |tptp.'Process related to the development of the embryo stage.'|) (tptp.concept2words_2 X |tptp.'embryonic process'|) (tptp.concept2words_2 X |tptp.'embryonic-process'|) (tptp.developmental_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.embryonic_region_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Region'|) (tptp.user_description_2 X |tptp.'The region of an embryo is called as embryonic region.'|) (tptp.concept2words_2 X |tptp.'embryonic region'|) (tptp.concept2words_2 X |tptp.'embryonic-region'|) (tptp.biological_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.embryonic_stages_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Stages'|) (tptp.user_description_2 X |tptp.'Stages of a developing animal embryo.'|) (tptp.concept2words_2 X |tptp.'stages of embryo development'|) (tptp.concept2words_2 X |tptp.'stages-of-embryo-development'|) (tptp.concept2words_2 X |tptp.'embryonic stage'|) (tptp.concept2words_2 X |tptp.'embryonic-stage'|) (tptp.living_entity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_embryonic_stem_cell_36 X))) (let ((_let_2 (tptp.fn_animal_plasma_membrane_56 _let_1))) (let ((_let_3 (tptp.fn_embryonic_stem_cell_41 X))) (let ((_let_4 (tptp.fn_embryo_1 _let_3))) (let ((_let_5 (tptp.fn_stem_cell_15 X))) (let 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(tptp.has_part_2 X _let_78) (tptp.is_between_2 _let_78 _let_1) (tptp.first_subevent_2 _let_72 _let_71) (tptp.site_2 _let_72 _let_77) (tptp.is_inside_2 _let_77 _let_73) (tptp.has_part_2 _let_78 _let_73) (tptp.is_between_2 _let_78 _let_22) (tptp.has_function_2 X _let_74) (tptp.base_2 _let_74 X) (tptp.has_part_2 X _let_75) (tptp.abuts_2 _let_76 _let_75) (tptp.abuts_2 _let_75 _let_76) (tptp.base_2 _let_71 X) (tptp.subevent_2 _let_72 _let_71) (tptp.base_2 _let_72 X) (tptp.has_part_2 X _let_22) (tptp.is_inside_2 _let_22 _let_73) (tptp.has_function_2 X _let_68) (tptp.base_2 _let_68 X) (tptp.has_part_2 X _let_69) (tptp.is_inside_2 _let_69 _let_22) (tptp.is_near_2 _let_22 _let_70) (tptp.is_near_2 _let_70 _let_22) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_66) (tptp.is_at_2 _let_66 _let_1) (tptp.has_part_2 _let_1 _let_67) (not (= _let_67 _let_66)) (not (= _let_66 _let_67)) (= _let_61 _let_105) (= X _let_4) (= _let_102 _let_62) (= _let_57 _let_104) (= _let_90 _let_10) (= _let_103 _let_65) (= _let_103 _let_64) (= _let_102 _let_63) (= _let_102 _let_60) (= _let_101 _let_59) (= _let_101 _let_58) (= _let_90 _let_9) (= _let_100 _let_56) (= _let_100 _let_55) (= _let_100 _let_54) (= _let_99 _let_53) (= _let_99 _let_52) (= _let_98 _let_51) (= _let_98 _let_50) (= (tptp.fn_embryonic_stem_cell_11 X) (tptp.fn_stem_cell_40 X)) (= (tptp.fn_embryonic_stem_cell_10 X) (tptp.fn_stem_cell_39 X)) (= _let_97 (tptp.fn_stem_cell_37 X)) (= _let_95 _let_49) (= _let_96 (tptp.fn_stem_cell_38 X)) (= _let_90 _let_8) (= _let_67 _let_14) (= _let_95 _let_15) (= _let_95 _let_48) (= _let_94 (tptp.fn_stem_cell_28 X)) (= _let_93 (tptp.fn_stem_cell_29 X)) (= _let_92 (tptp.fn_stem_cell_31 X)) (= _let_91 (tptp.fn_stem_cell_27 X)) (= _let_90 _let_11) (= _let_90 _let_13) (= _let_90 _let_7) (= _let_66 _let_8) (= _let_84 _let_45) (= _let_84 _let_44) (= _let_84 _let_43) (= _let_84 _let_42) (= _let_89 (tptp.fn_stem_cell_24 X)) (= _let_88 (tptp.fn_stem_cell_25 X)) (= _let_87 (tptp.fn_stem_cell_14 X)) (= _let_86 _let_47) (= _let_86 _let_46) (= _let_85 (tptp.fn_stem_cell_30 X)) (= _let_84 _let_41) (= _let_83 (tptp.fn_stem_cell_3 X)) (= _let_82 (tptp.fn_stem_cell_35 X)) (= _let_77 _let_38) (= _let_81 _let_40) (= _let_81 _let_39) (= _let_80 (tptp.fn_stem_cell_42 X)) (= _let_79 (tptp.fn_stem_cell_4 X)) (= _let_78 (tptp.fn_stem_cell_36 X)) (= _let_77 _let_37) (= _let_77 _let_36) (= _let_76 (tptp.fn_stem_cell_16 X)) (= _let_75 _let_35) (= _let_75 _let_34) (= _let_74 _let_33) (= _let_74 _let_32) (= _let_73 _let_31) (= _let_73 _let_30) (= _let_22 _let_25) (= _let_72 _let_29) (= _let_72 _let_28) (= _let_71 _let_27) (= _let_71 _let_26) (= _let_70 (tptp.fn_stem_cell_32 X)) (= _let_69 _let_23) (= _let_22 _let_24) (= _let_69 _let_21) (= _let_68 _let_20) (= _let_68 _let_19) (= _let_67 _let_13) (= _let_67 _let_18) (= _let_67 _let_17) (= _let_66 _let_16) (= _let_66 _let_13) (= _let_66 _let_9) (= _let_66 _let_15) (= _let_66 _let_14) (= _let_66 _let_11) (= _let_66 _let_12) (= _let_66 _let_10) (= _let_66 _let_7) (= X _let_2) (= _let_1 _let_6) (= _let_1 _let_5) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_15) (= _let_15 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_11) (= _let_13 _let_11) (= _let_11 _let_13) (= _let_10 _let_13) (= _let_13 _let_10) (= _let_7 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_13) (= _let_14 _let_14) (= _let_13 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_12 _let_10) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.embryonic_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Embryonic-Tissue'|) (tptp.user_description_2 X |tptp.'The tissue in an embryo is called as embryonic tissue.'|) (tptp.concept2words_2 X |tptp.'embryonic tissue'|) (tptp.concept2words_2 X |tptp.'embryonic-tissue'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.emergent_property_1 X) (and (tptp.original_name_2 X |tptp.'Emergent-Property'|) (tptp.user_description_2 X |tptp.'A notably different property that arises with each step upward in the hierarchy of life, owing to the arrangement and interactions of parts as complexity increases.'|) (tptp.concept2words_2 X |tptp.'emergent property'|) (tptp.concept2words_2 X |tptp.'emergent-property'|) (tptp.character_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_emerging_virus_7 X))) (let ((_let_2 (tptp.fn_emerging_virus_9 X))) (let ((_let_3 (tptp.fn_viral_infection_15 _let_2))) (let ((_let_4 (tptp.fn_emerging_virus_8 X))) (let ((_let_5 (tptp.fn_emerging_virus_1 X))) (let ((_let_6 (tptp.fn_emerging_virus_6 X))) (let ((_let_7 (tptp.fn_emerging_virus_5 X))) (let ((_let_8 (tptp.fn_emerging_virus_4 X))) (let ((_let_9 (tptp.fn_emerging_virus_3 X))) (let ((_let_10 (tptp.fn_emerging_virus_2 X))) (=> (tptp.emerging_virus_1 X) (and (tptp.original_name_2 X |tptp.'Emerging-Virus'|) (tptp.user_description_2 X |tptp.'An emerging virus is a term applied to a newly discovered virus.'|) (tptp.concept2words_2 X |tptp.'emerging virus'|) (tptp.concept2words_2 X |tptp.'emerging-virus'|) (tptp.virus_1 X) (tptp.population_1 _let_5) (tptp.population_1 _let_10) (tptp.nucleic_acid_1 _let_9) (tptp.change_1 _let_8) (tptp.change_1 _let_7) (tptp.mutation_1 _let_6) (tptp.viral_infection_1 _let_1) (tptp.infection_1 _let_1) (tptp.virus_1 _let_4) (tptp.viral_infection_1 _let_2) (tptp.virus_1 _let_3) (tptp.object_2 _let_2 _let_10) (tptp.next_event_2 _let_2 _let_1) (tptp.has_part_2 _let_4 _let_9) (tptp.object_2 _let_8 _let_4) (tptp.result_2 _let_8 X) (tptp.object_2 _let_7 _let_4) (tptp.result_2 _let_7 X) (tptp.next_event_2 _let_6 _let_2) (tptp.result_2 _let_6 X) (tptp.object_2 _let_1 _let_5) (tptp.agent_2 _let_2 _let_4) (tptp.agent_2 _let_1 X) (= _let_4 _let_3) (= _let_1 (tptp.fn_virus_22 X))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.emigration_1 X) (and (tptp.original_name_2 X |tptp.'Emigration'|) (tptp.user_description_2 X |tptp.'Migration out of a population.'|) (tptp.concept2words_2 X tptp.emigrate) (tptp.concept2words_2 X tptp.emigration) (tptp.demography_1 X) (not (tptp.demographic_transition_1 X)) (not (tptp.immigration_1 X))))) (forall ((X $$unsorted)) (=> (tptp.emit_1 X) (and (tptp.original_name_2 X |tptp.'Emit'|) (tptp.concept2words_2 X tptp.emit) (tptp.concept2words_2 X |tptp.'give out'|) (tptp.concept2words_2 X tptp.give_out) (tptp.concept2words_2 X |tptp.'give off'|) (tptp.concept2words_2 X tptp.give_off) (tptp.move_out_of_1 X)))) (forall ((X $$unsorted)) (=> (tptp.emotion_1 X) (and (tptp.original_name_2 X |tptp.'Emotion'|) (tptp.user_description_2 X |tptp.'An affective state of consciousness such as joy, anger, fear, etc. distinguished from volitional and cognitive states of consciousness.'|) (tptp.concept2words_2 X tptp.emote) (tptp.concept2words_2 X tptp.emotion) (tptp.social_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.emulsification_1 X) (and (tptp.original_name_2 X |tptp.'Emulsification'|) (tptp.user_description_2 X |tptp.'The mixing of a lipid substance with an aqueous substance, in which the fat droplets are very small and prevented from coalescing into larger particles.'|) (tptp.concept2words_2 X tptp.emulsification) (tptp.general_chemical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.emulsifier_1 X) (and (tptp.original_name_2 X |tptp.'Emulsifier'|) (tptp.user_description_2 X |tptp.'A chemical which stabilizes a mixture of liquids and prevents their separation.'|) (tptp.concept2words_2 X tptp.emulsifier) (tptp.agent_role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.encephalitis_1 X) (and (tptp.original_name_2 X |tptp.'Encephalitis'|) (tptp.user_description_2 X |tptp.'An acute inflammation of the brain.'|) (tptp.concept2words_2 X tptp.encephalitis) (tptp.infectious_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.end_1 X) (and (tptp.original_name_2 X |tptp.'End'|) (tptp.user_description_2 X |tptp.'The either extremity of something that has length.'|) (tptp.concept2words_2 X tptp.end) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.end_replication_problem_1 X) (and (tptp.original_name_2 X |tptp.'End-replication-problem'|) (tptp.user_description_2 X |tptp.'The shortening of the DNA molecules with each round of DNA replication due to the gap that is left at the 5_' end of each new strand because DNA polymerase can only add nucleotides to a 3_' end.'|) (tptp.concept2words_2 X |tptp.'end replication problem'|) (tptp.concept2words_2 X |tptp.'end-replication-problem'|) (tptp.dna_replication_in_eukaryotes_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endangered_species_1 X) (and (tptp.original_name_2 X |tptp.'Endangered-Species'|) (tptp.user_description_2 X |tptp.'A population facing a high risk of extinction due to low population numbers or changing environmental conditions.'|) (tptp.concept2words_2 X |tptp.'endangered species'|) (tptp.concept2words_2 X |tptp.'endangered-specy'|) (tptp.ecological_species_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endemic_1 X) (and (tptp.original_name_2 X |tptp.'Endemic'|) (tptp.user_description_2 X |tptp.'In ecology, refers to a species that occurs only in a specific, comparatively small geographic area.'|) (tptp.concept2words_2 X tptp.endemic) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endergonic_process_4 X))) (let ((_let_2 (tptp.fn_free_energy_1 _let_1))) (let ((_let_3 (tptp.fn_endergonic_process_3 X))) (let ((_let_4 (tptp.fn_endergonic_process_1 X))) (=> (tptp.endergonic_process_1 X) (and (tptp.original_name_2 X |tptp.'Endergonic-Process'|) (tptp.user_description_2 X |tptp.'A process in which free energy is absorbed from the surroundings'|) (tptp.concept2words_2 X |tptp.'non spontaneous process'|) (tptp.concept2words_2 X |tptp.'non-spontaneous-process'|) (tptp.concept2words_2 X |tptp.'endergonic process'|) (tptp.concept2words_2 X |tptp.'endergonic-process'|) (tptp.energy_related_process_1 X) (not (tptp.exergonic_process_1 X)) (tptp.free_energy_change_value_1 _let_4) (tptp.resource_1 _let_3) (tptp.free_energy_1 _let_1) (tptp.role_1 _let_2) (tptp.the_scalar_value_2 _let_4 tptp.positive_energy_0) (tptp.scalar_unit_class_2 _let_4 tptp.exergonic_process_0) (tptp.raw_material_2 X _let_1) (tptp.free_energy_change_2 X _let_4) (tptp.plays_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.free_energy_change_2 X X1) (tptp.free_energy_change_value_1 X1) (tptp.energy_reaction_1 X) (tptp.endergonic_process_1 X)) (and (tptp.endergonic_reaction_1 X) (= (tptp.fn_endergonic_reaction_10 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endergonic_reaction_10 X))) (let ((_let_2 (tptp.fn_endergonic_reaction_9 X))) (let ((_let_3 (tptp.fn_endergonic_reaction_8 X))) (let ((_let_4 (tptp.fn_endergonic_reaction_5 X))) (let ((_let_5 (tptp.fn_endergonic_reaction_2 X))) (let ((_let_6 (tptp.fn_endergonic_reaction_4 X))) (let ((_let_7 (tptp.fn_endergonic_reaction_3 X))) (=> (tptp.endergonic_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Endergonic-Reaction'|) (tptp.user_description_2 X |tptp.'An endergonic reaction (also called an unfavorable reaction or a nonspontaneous reaction) is a chemical reaction in which the standard change in free energy is positive, and energy is absorbed'|) (tptp.concept2words_2 X |tptp.'non spontaneous reaction,'|) (tptp.concept2words_2 X |tptp.'non-spontaneous reaction,'|) (tptp.concept2words_2 X |tptp.'unfavorable reaction'|) (tptp.concept2words_2 X |tptp.'unfavorable-reaction'|) (tptp.concept2words_2 X |tptp.'nonspontaneous reaction'|) (tptp.concept2words_2 X |tptp.'nonspontaneous-reaction'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'non spontaneous reaction'|) (tptp.concept2words_2 X |tptp.'non-spontaneous reaction'|) (tptp.concept2words_2 X |tptp.'endergonic reaction'|) (tptp.concept2words_2 X |tptp.'endergonic-reaction'|) (tptp.endergonic_process_1 X) (tptp.energy_reaction_1 X) (tptp.free_energy_1 _let_5) (tptp.free_energy_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.quantity_value_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.free_energy_change_value_1 _let_1) (tptp.possesses_2 _let_3 _let_5) (tptp.possesses_2 _let_2 _let_7) (tptp.called_2 _let_4 |tptp.'FE_r'|) (tptp.greater_than_2 _let_6 _let_4) (tptp.called_2 _let_6 |tptp.'FE_p'|) (tptp.quantity_2 _let_7 _let_6) (tptp.quantity_2 _let_5 _let_4) (tptp.the_scalar_value_2 _let_1 tptp.positive_energy_0) (tptp.scalar_unit_class_2 _let_1 tptp.exergonic_reaction_0) (tptp.raw_material_2 X _let_3) (tptp.result_2 X _let_2) (tptp.free_energy_change_2 X _let_1) (= _let_3 (tptp.fn_chemical_reaction_2 X)) (= _let_2 (tptp.fn_chemical_reaction_1 X)) (= (tptp.fn_endergonic_reaction_11 X) (tptp.fn_endergonic_process_2 X)) (= _let_1 (tptp.fn_endergonic_process_1 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.endocrine_cell_1 X) (and (tptp.original_name_2 X |tptp.'Endocrine-Cell'|) (tptp.user_description_2 X |tptp.'Cells that regulate reproduction, development, energy metabolism, growth, and behavior via cell signaling by secreting hormones, a type of chemical messenger.'|) (tptp.concept2words_2 X |tptp.'cell of endocrine system'|) (tptp.concept2words_2 X |tptp.'cell-of-endocrine-system'|) (tptp.concept2words_2 X |tptp.'cell of endocrine'|) (tptp.concept2words_2 X |tptp.'endocrine cell'|) (tptp.concept2words_2 X |tptp.'endocrine-cell'|) (tptp.secretory_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endocrine_gland_1 X) (and (tptp.original_name_2 X |tptp.'Endocrine-Gland'|) (tptp.user_description_2 X |tptp.'A gland that secretes hormones directly into the blood rather than through a duct.'|) (tptp.concept2words_2 X |tptp.'gland of endocrine'|) (tptp.concept2words_2 X |tptp.'endocrine gland'|) (tptp.concept2words_2 X |tptp.'endocrine-gland'|) (tptp.gland_1 X) (not (tptp.bartholins_gland_1 X)) (not (tptp.bulbourethral_gland_1 X)) (not (tptp.mammary_glands_1 X)) (not (tptp.prostate_gland_1 X)) (not (tptp.salivary_gland_1 X)) (not (tptp.seminal_vesicle_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endocrine_system_1 X) (and (tptp.original_name_2 X |tptp.'Endocrine-System'|) (tptp.user_description_2 X |tptp.'The internal system of hormone-secreting ductless endocrine glands, hormones, and the molecular markers on target cells, that function together to achieve and maintain homeostasis.'|) (tptp.concept2words_2 X |tptp.'system of endocrine'|) (tptp.concept2words_2 X |tptp.'endocrine system'|) (tptp.concept2words_2 X |tptp.'endocrine-system'|) (tptp.animal_system_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endocytosis_7 X))) (let ((_let_2 (tptp.fn_consume_1 _let_1))) (let ((_let_3 (tptp.fn_endergonic_process_4 X))) (let ((_let_4 (tptp.fn_consume_2 _let_1))) (let ((_let_5 (tptp.fn_cellular_work_14 X))) (let ((_let_6 (tptp.fn_bulk_transport_1 X))) (let ((_let_7 (tptp.fn_endocytosis_20 X))) (let ((_let_8 (tptp.fn_cell_30 _let_7))) (let ((_let_9 (tptp.fn_bulk_transport_6 X))) (let ((_let_10 (tptp.fn_endocytosis_15 X))) (let ((_let_11 (tptp.fn_take_in_1 _let_10))) (let ((_let_12 (tptp.fn_endocytosis_25 X))) (let ((_let_13 (tptp.fn_create_1 _let_12))) (let ((_let_14 (tptp.fn_endocytosis_18 X))) (let ((_let_15 (tptp.fn_endocytosis_10 X))) (let ((_let_16 (tptp.fn_endocytosis_22 X))) (let ((_let_17 (tptp.fn_endocytosis_14 X))) (let ((_let_18 (tptp.fn_endocytosis_21 X))) (let ((_let_19 (tptp.fn_endocytosis_6 X))) (let ((_let_20 (tptp.fn_bulk_transport_2 X))) (let ((_let_21 (tptp.fn_endocytosis_13 X))) (let ((_let_22 (tptp.fn_endocytosis_8 X))) (let ((_let_23 (tptp.fn_endocytosis_9 X))) (let ((_let_24 (tptp.fn_endocytosis_19 X))) (let ((_let_25 (tptp.fn_cell_28 _let_7))) (let ((_let_26 (tptp.fn_endocytosis_16 X))) (let ((_let_27 (tptp.fn_cell_5 _let_7))) (let ((_let_28 (tptp.fn_endocytosis_12 X))) (let ((_let_29 (tptp.fn_cell_3 _let_7))) (let ((_let_30 (tptp.fn_eukaryotic_cell_32 _let_7))) (let ((_let_31 (tptp.fn_endocytosis_17 X))) (let ((_let_32 (tptp.fn_endocytosis_24 X))) (let ((_let_33 (tptp.fn_increase_3 _let_32))) (let ((_let_34 (tptp.fn_endocytosis_26 X))) (let ((_let_35 (tptp.fn_increase_2 _let_32))) (let ((_let_36 (tptp.fn_move_1 _let_10))) (let ((_let_37 (tptp.fn_endocytosis_23 X))) (let ((_let_38 (tptp.fn_endocytosis_4 X))) (let ((_let_39 (tptp.fn_endocytosis_5 X))) (let ((_let_40 (tptp.fn_endocytosis_3 X))) (let ((_let_41 (tptp.fn_endocytosis_2 X))) (=> (tptp.endocytosis_1 X) (and (tptp.original_name_2 X |tptp.'Endocytosis'|) (tptp.user_description_2 X |tptp.'Endocytosis is the process by which cells absorb molecules (such as proteins) by engulfing them. It is used by all cells of the body because most substances important to them are large polar molecules that cannot pass through the hydrophobic plasma or cell membrane.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X tptp.endocytosis) (tptp.bulk_transport_1 X) (not (tptp.calvin_cycle_1 X)) (not (tptp.light_reaction_1 X)) (tptp.angle_value_1 _let_41) (tptp.extracellular_side_1 _let_40) (tptp.time_interval_1 _let_38) (tptp.time_interval_1 _let_39) (tptp.tangible_entity_1 _let_19) (tptp.consume_1 _let_1) (tptp.release_1 _let_22) (tptp.organic_molecule_1 _let_23) (tptp.free_energy_1 _let_15) (tptp.entity_1 _let_15) (tptp.shape_value_1 _let_28) (tptp.plasma_membrane_1 _let_21) (tptp.carry_1 _let_17) (tptp.take_in_1 _let_10) (tptp.mixture_1 _let_26) (tptp.cytoplasm_1 _let_26) (tptp.produce_1 _let_31) (tptp.cavity_1 _let_14) (tptp.energy_1 _let_24) (tptp.entity_1 _let_24) (tptp.chemical_energy_1 _let_24) (tptp.tangible_entity_1 _let_7) (tptp.eukaryotic_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.vesicle_1 _let_18) (tptp.resource_1 _let_16) (tptp.tangible_entity_1 _let_37) (tptp.increase_1 _let_32) (tptp.create_1 _let_12) (tptp.length_value_1 _let_34) (tptp.spatial_entity_1 _let_36) (tptp.property_node_1 _let_35) (tptp.property_value_1 _let_33) (tptp.cellular_work_1 _let_30) (tptp.property_node_1 _let_29) (tptp.shape_value_1 _let_27) (tptp.mixture_1 _let_25) (tptp.cytoplasm_1 _let_25) (tptp.entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.plasma_membrane_1 _let_8) (tptp.resource_1 _let_4) (tptp.entity_1 _let_2) (tptp.time_during_2 _let_1 _let_39) (tptp.time_during_2 _let_22 _let_38) (tptp.the_categorical_value_2 _let_28 tptp.hollow_volume_0) (tptp.has_region_2 _let_21 _let_14) (tptp.direction_2 _let_17 _let_41) (tptp.the_scalar_value_2 _let_41 tptp.down_0) (tptp.scalar_unit_class_2 _let_41 tptp.move_0) (tptp.next_event_2 _let_10 _let_17) (tptp.origin_2 _let_10 _let_40) (tptp.destination_2 _let_10 _let_26) (tptp.is_inside_2 _let_26 _let_7) (tptp.next_event_2 _let_31 _let_10) (tptp.causes_2 _let_31 _let_10) (tptp.depth_2 _let_14 _let_34) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_31) (tptp.subevent_2 X _let_32) (tptp.destination_2 X _let_26) (tptp.first_subevent_2 X _let_12) (tptp.origin_2 X _let_40) (tptp.is_outside_2 _let_40 _let_7) (tptp.time_before_2 _let_39 _let_38) (tptp.next_event_2 _let_32 _let_31) (tptp.site_2 _let_12 _let_21) (tptp.next_event_2 _let_12 _let_32) (tptp.object_2 _let_10 _let_37) (tptp.agent_2 _let_10 _let_7) (tptp.base_2 _let_10 _let_7) (tptp.raw_material_2 X _let_15) (tptp.from_value_2 _let_32 _let_34) (tptp.base_2 X _let_7) (tptp.has_part_2 _let_7 _let_18) (tptp.result_2 _let_31 _let_18) (tptp.has_part_2 _let_7 _let_21) (tptp.is_inside_2 _let_26 _let_21) (tptp.has_part_2 _let_7 _let_26) (tptp.shape_2 _let_7 _let_28) (tptp.subevent_2 X _let_22) (tptp.object_2 _let_1 _let_24) (tptp.plays_2 _let_24 _let_16) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_22) (tptp.base_2 _let_22 _let_23) (tptp.raw_material_2 X _let_23) (tptp.raw_material_2 X _let_24) (tptp.instrument_2 X _let_18) (tptp.path_2 X _let_21) (tptp.subevent_2 X _let_12) (tptp.object_2 X _let_19) (tptp.subevent_2 X _let_17) (tptp.agent_2 _let_17 _let_18) (tptp.has_function_2 _let_18 _let_17) (tptp.object_2 _let_17 _let_19) (tptp.is_inside_2 _let_19 _let_18) (tptp.in_event_2 _let_16 _let_1) (tptp.result_2 _let_12 _let_14) (tptp.object_2 _let_1 _let_15) (= _let_37 _let_36) (= _let_7 _let_11) (= _let_15 _let_3) (= (tptp.fn_endocytosis_27 X) _let_35) (= _let_34 _let_33) (= _let_31 _let_20) (= X _let_30) (= _let_7 _let_9) (= (tptp.fn_endocytosis_11 X) _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_21 _let_8) (= _let_16 _let_5) (= _let_24 (tptp.fn_cellular_work_15 X)) (= _let_23 (tptp.fn_cellular_work_10 X)) (= _let_22 (tptp.fn_cellular_work_12 X)) (= _let_1 (tptp.fn_cellular_work_11 X)) (= _let_21 _let_6) (= _let_12 _let_20) (= _let_19 (tptp.fn_bulk_transport_4 X)) (= _let_18 (tptp.fn_bulk_transport_5 X)) (= _let_17 (tptp.fn_bulk_transport_3 X)) (= _let_16 _let_4) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.endoderm_1 X) (and (tptp.original_name_2 X |tptp.'Endoderm'|) (tptp.user_description_2 X |tptp.'The innermost of three embryonic germ layers in animals, giving rise to the archenteron. In vertebrates, the endoderm also gives rise to the lining of the digestive tract and to the liver, lungs, and pancreas.'|) (tptp.concept2words_2 X tptp.endoderm) (tptp.germ_layer_1 X) (not (tptp.ectoderm_1 X)) (not (tptp.mesoderm_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endodermal_cell_11 X))) (let ((_let_2 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_3 (tptp.fn_endodermal_cell_7 X))) (let ((_let_4 (tptp.fn_endodermis_1 _let_3))) (let ((_let_5 (tptp.fn_plant_cell_63 X))) (let ((_let_6 (tptp.fn_eukaryotic_cell_23 X))) (let ((_let_7 (tptp.fn_plant_cell_83 X))) (let ((_let_8 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_9 (tptp.fn_plant_cell_80 X))) (let ((_let_10 (tptp.fn_cellular_respiration_63 _let_1))) (let ((_let_11 (tptp.fn_plant_cell_91 X))) (let ((_let_12 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_13 (tptp.fn_plant_cell_58 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_45 X))) (let ((_let_15 (tptp.fn_plant_cell_77 X))) (let ((_let_16 (tptp.fn_eukaryotic_cell_20 X))) (let ((_let_17 (tptp.fn_plant_cell_100 X))) (let ((_let_18 (tptp.fn_eukaryotic_cell_24 X))) (let ((_let_19 (tptp.fn_plant_cell_84 X))) (let ((_let_20 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_21 (tptp.fn_plant_cell_90 X))) (let ((_let_22 (tptp.fn_eukaryotic_cell_19 X))) (let ((_let_23 (tptp.fn_plant_cell_95 X))) (let ((_let_24 (tptp.fn_eukaryotic_cell_30 X))) (let ((_let_25 (tptp.fn_endodermal_cell_36 X))) (let ((_let_26 (tptp.fn_endodermal_cell_8 X))) (let ((_let_27 (tptp.fn_endodermal_cell_37 X))) (let ((_let_28 (tptp.fn_endodermal_cell_9 X))) (let ((_let_29 (tptp.fn_endodermal_cell_33 X))) (let ((_let_30 (tptp.fn_endodermal_cell_2 X))) (let ((_let_31 (tptp.fn_endodermal_cell_3 X))) (let ((_let_32 (tptp.fn_endodermal_cell_27 X))) (let ((_let_33 (tptp.fn_endodermal_cell_26 X))) (let ((_let_34 (tptp.fn_endodermal_cell_29 X))) (let ((_let_35 (tptp.fn_endodermal_cell_14 X))) (let ((_let_36 (tptp.fn_endodermal_cell_4 X))) (let ((_let_37 (tptp.fn_endodermal_cell_10 X))) (let ((_let_38 (tptp.fn_endodermal_cell_15 X))) (let ((_let_39 (tptp.fn_endodermal_cell_5 X))) (let ((_let_40 (tptp.fn_endodermal_cell_35 X))) (let ((_let_41 (tptp.fn_endodermal_cell_28 X))) (let ((_let_42 (tptp.fn_endodermal_cell_21 X))) (let ((_let_43 (tptp.fn_endodermal_cell_16 X))) (let ((_let_44 (tptp.fn_endodermal_cell_30 X))) (let ((_let_45 (tptp.fn_endodermal_cell_20 X))) (let ((_let_46 (tptp.fn_endodermal_cell_23 X))) (let ((_let_47 (tptp.fn_endodermal_cell_34 X))) (let ((_let_48 (tptp.fn_endodermal_cell_19 X))) (let ((_let_49 (tptp.fn_endodermal_cell_18 X))) (let ((_let_50 (tptp.fn_endodermal_cell_24 X))) (let ((_let_51 (tptp.fn_endodermal_cell_22 X))) (let ((_let_52 (tptp.fn_endodermal_cell_17 X))) (let ((_let_53 (tptp.fn_endodermal_cell_25 X))) (let ((_let_54 (tptp.fn_endodermal_cell_12 X))) (let ((_let_55 (tptp.fn_endodermal_cell_13 X))) (let ((_let_56 (tptp.fn_catabolic_pathway_10 _let_1))) (let ((_let_57 (tptp.fn_endodermal_cell_6 X))) (let ((_let_58 (tptp.fn_endodermal_cell_1 X))) (=> (tptp.endodermal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Endodermal-Cell'|) (tptp.user_description_2 X |tptp.'The single layer of plant cells that is located between the cortex and the vascular (xylem and phloem) tissues.'|) (tptp.concept2words_2 X |tptp.'endodermal cell'|) (tptp.concept2words_2 X |tptp.'endodermal-cell'|) (tptp.plant_cell_1 X) (tptp.er_membrane_1 _let_58) (tptp.grow_1 _let_30) (tptp.absorb_1 _let_31) (tptp.ribosome_1 _let_36) (tptp.eukaryotic_ribosome_1 _let_36) (tptp.tangible_entity_1 _let_39) (tptp.nucleus_1 _let_39) (tptp.organic_molecule_1 _let_57) (tptp.endodermis_1 _let_3) (tptp.spatial_entity_1 _let_26) (tptp.mixture_1 _let_26) (tptp.suspension_1 _let_26) (tptp.colloid_1 _let_26) (tptp.cytoplasm_1 _let_26) (tptp.organelle_1 _let_28) (tptp.mitochondrion_1 _let_28) (tptp.semiautonomous_organelle_1 _let_28) (tptp.smooth_endoplasmic_reticulum_1 _let_37) (tptp.cellular_respiration_1 _let_1) (tptp.catabolic_pathway_1 _let_1) (tptp.metabolic_pathway_1 _let_1) (tptp.eukaryotic_cellular_respiration_1 _let_1) (tptp.protein_enzyme_1 _let_54) (tptp.protein_enzyme_1 _let_55) (tptp.aqueous_solution_1 _let_35) (tptp.liquid_substance_1 _let_35) (tptp.solution_1 _let_35) (tptp.substance_1 _let_35) (tptp.cytosol_1 _let_35) (tptp.golgi_apparatus_1 _let_38) (tptp.rough_endoplasmic_reticulum_1 _let_43) (tptp.endoplasmic_reticulum_1 _let_43) (tptp.synthesis_reaction_1 _let_52) (tptp.metabolic_pathway_1 _let_52) (tptp.chemical_reaction_1 _let_52) (tptp.anabolic_pathway_1 _let_52) (tptp.synthesis_of_lipid_1 _let_52) (tptp.peroxisome_1 _let_49) (tptp.eukaryotic_chromosome_1 _let_48) (tptp.chromosome_1 _let_48) (tptp.tangible_entity_1 _let_45) (tptp.phospholipid_bilayer_1 _let_45) (tptp.defense_1 _let_42) (tptp.size_value_1 _let_51) (tptp.surface_1 _let_46) (tptp.volume_value_1 _let_50) (tptp.exchange_1 _let_53) (tptp.spatial_entity_1 _let_33) (tptp.vacuole_1 _let_33) (tptp.central_vacuole_1 _let_33) (tptp.spatial_entity_1 _let_32) (tptp.vesicle_1 _let_32) (tptp.central_vacuole_1 _let_32) (tptp.cell_wall_1 _let_41) (tptp.plant_cell_wall_1 _let_41) (tptp.cytoskeleton_1 _let_34) (tptp.membrane_1 _let_44) (tptp.spatial_entity_1 _let_44) (tptp.biomembrane_1 _let_44) (tptp.plasma_membrane_1 _let_44) (tptp.chemical_reaction_1 _let_29) (tptp.oxidative_phosphorylation_1 _let_29) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_29) (tptp.support_1 _let_47) (tptp.maintenance_1 _let_40) (tptp.cellular_work_1 _let_25) (tptp.cytoplasmic_streaming_1 _let_27) (tptp.organic_molecule_1 _let_56) (tptp.oxidative_phosphorylation_1 _let_10) (tptp.endodermal_cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.site_2 _let_1 _let_26) (tptp.is_inside_2 _let_54 _let_58) (tptp.is_inside_2 _let_55 _let_58) (tptp.has_part_2 _let_3 X) (tptp.agent_2 _let_42 _let_41) (tptp.is_inside_2 _let_43 _let_35) (tptp.has_function_2 _let_41 _let_47) (tptp.has_part_2 X _let_32) (tptp.has_function_2 _let_34 _let_27) (tptp.has_part_2 _let_26 _let_55) (tptp.size_2 X _let_51) (tptp.has_part_2 _let_26 _let_54) (not (= _let_55 _let_54)) (not (= _let_54 _let_55)) (tptp.is_inside_2 _let_37 _let_35) (tptp.is_inside_2 _let_28 _let_35) (tptp.has_function_2 _let_28 _let_1) (tptp.subevent_2 _let_1 _let_29) (tptp.site_2 _let_52 _let_37) (tptp.abuts_2 _let_43 _let_37) (tptp.abuts_2 _let_37 _let_43) (not (= _let_43 _let_37)) (not (= _let_37 _let_43)) (tptp.has_function_2 _let_37 _let_52) (tptp.base_2 _let_52 X) (tptp.base_2 _let_53 X) (tptp.agent_2 _let_53 X) (tptp.has_part_2 X _let_34) (tptp.is_outside_2 _let_41 _let_44) (tptp.has_part_2 X _let_41) (tptp.volume_2 X _let_50) (tptp.directly_proportional_2 _let_51 _let_50) (tptp.the_scalar_value_2 _let_51 tptp.big_0) (tptp.scalar_unit_class_2 _let_51 tptp.prokaryote_0) (tptp.is_inside_2 _let_26 _let_44) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_49) (tptp.is_inside_2 _let_49 _let_35) (tptp.has_part_2 _let_26 _let_35) (tptp.agent_2 _let_47 _let_41) (tptp.object_2 _let_47 X) (tptp.has_part_2 X _let_39) (tptp.is_inside_2 _let_48 _let_39) (tptp.has_part_2 X _let_48) (tptp.is_between_2 _let_26 _let_39) (tptp.is_between_2 _let_26 _let_44) (tptp.has_part_2 _let_44 _let_45) (tptp.is_at_2 _let_45 _let_46) (tptp.has_region_2 X _let_46) (tptp.object_2 _let_40 X) (tptp.agent_2 _let_40 _let_41) (tptp.has_function_2 _let_41 _let_42) (tptp.object_2 _let_42 X) (tptp.has_part_2 X _let_43) (tptp.agent_2 _let_31 _let_33) (tptp.has_part_2 X _let_33) (tptp.has_part_2 X _let_38) (tptp.is_inside_2 _let_38 _let_35) (tptp.is_inside_2 _let_39 _let_35) (tptp.agent_2 _let_27 _let_34) (tptp.is_inside_2 _let_34 _let_35) (tptp.is_inside_2 _let_36 _let_35) (tptp.has_part_2 X _let_36) (tptp.has_part_2 X _let_37) (tptp.object_2 _let_30 X) (tptp.causes_2 _let_31 _let_30) (tptp.agent_2 _let_31 _let_32) (not (= _let_33 _let_32)) (not (= _let_32 _let_33)) (tptp.object_2 _let_27 _let_26) (tptp.base_2 _let_27 X) (tptp.has_part_2 X _let_28) (tptp.has_function_2 _let_28 _let_29) (tptp.base_2 _let_29 X) (tptp.has_function_2 X _let_1) (tptp.base_2 _let_1 X) (tptp.has_function_2 X _let_25) (tptp.base_2 _let_25 X) (tptp.has_part_2 X _let_26) (= X _let_4) (= _let_57 _let_56) (= (tptp.fn_endodermal_cell_31 X) (tptp.fn_plant_cell_56 X)) (= (tptp.fn_endodermal_cell_32 X) (tptp.fn_plant_cell_57 X)) (= _let_55 (tptp.fn_plant_cell_11 X)) (= _let_54 (tptp.fn_plant_cell_92 X)) (= _let_29 _let_10) (= _let_53 (tptp.fn_plant_cell_71 X)) (= _let_52 (tptp.fn_plant_cell_76 X)) (= _let_51 (tptp.fn_plant_cell_62 X)) (= _let_50 (tptp.fn_plant_cell_60 X)) (= _let_49 (tptp.fn_plant_cell_93 X)) (= _let_48 _let_24) (= _let_48 _let_23) (= _let_39 _let_20) (= _let_47 (tptp.fn_plant_cell_21 X)) (= _let_46 (tptp.fn_plant_cell_61 X)) (= _let_45 (tptp.fn_plant_cell_65 X)) (= _let_44 (tptp.fn_plant_cell_97 X)) (= _let_43 _let_22) (= _let_43 _let_21) (= _let_42 (tptp.fn_plant_cell_78 X)) (= _let_41 (tptp.fn_plant_cell_82 X)) (= _let_40 (tptp.fn_plant_cell_1 X)) (= _let_39 _let_19) (= _let_38 _let_18) (= _let_38 _let_17) (= _let_37 _let_16) (= _let_37 _let_15) (= _let_36 _let_14) (= _let_35 _let_12) (= _let_36 _let_13) (= _let_35 _let_11) (= _let_34 (tptp.fn_plant_cell_94 X)) (= _let_33 (tptp.fn_plant_cell_81 X)) (= _let_32 (tptp.fn_plant_cell_87 X)) (= _let_31 (tptp.fn_plant_cell_27 X)) (= _let_30 (tptp.fn_plant_cell_24 X)) (= _let_29 _let_9) (= _let_28 (tptp.fn_plant_cell_59 X)) (= _let_27 (tptp.fn_plant_cell_89 X)) (= _let_26 _let_8) (= _let_26 _let_7) (= _let_25 (tptp.fn_plant_cell_15 X)) (= X _let_2) (= _let_1 _let_6) (= _let_1 _let_5) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endodermis_1 X))) (=> (tptp.endodermis_1 X) (and (tptp.original_name_2 X |tptp.'Endodermis'|) (tptp.user_description_2 X |tptp.'The innermost layer of cortex in some plants. It forms a cylinder one cell thick that functions as a boundary between the cortex itself and the stele.'|) (tptp.concept2words_2 X tptp.endodermis) (tptp.dermal_tissue_1 X) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X)) (tptp.endodermal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_tissue_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endomembranous_system_50 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_29 _let_1))) (let ((_let_3 (tptp.fn_endomembranous_system_9 X))) (let ((_let_4 (tptp.fn_expand_1 _let_3))) (let ((_let_5 (tptp.fn_endomembranous_system_8 X))) (let ((_let_6 (tptp.fn_expand_1 _let_5))) (let ((_let_7 (tptp.fn_endomembranous_system_51 X))) (let ((_let_8 (tptp.fn_locomotion_1 _let_7))) (let ((_let_9 (tptp.fn_endomembranous_system_10 X))) (let ((_let_10 (tptp.fn_add_2 _let_9))) (let ((_let_11 (tptp.fn_endomembranous_system_52 X))) (let ((_let_12 (tptp.fn_synthesis_of_endomembranous_system_membrane_60 _let_11))) (let ((_let_13 (tptp.fn_synthesis_of_endomembranous_system_membrane_64 _let_11))) (let ((_let_14 (tptp.fn_endomembranous_system_53 X))) (let ((_let_15 (tptp.fn_movement_of_endomembranous_system_membrane_9 _let_14))) (let ((_let_16 (tptp.fn_endomembranous_system_43 X))) (let ((_let_17 (tptp.fn_move_1 _let_16))) (let ((_let_18 (tptp.fn_endomembranous_system_25 X))) (let ((_let_19 (tptp.fn_attach_2 _let_18))) (let ((_let_20 (tptp.fn_endomembranous_system_47 X))) (let ((_let_21 (tptp.fn_plasma_membrane_54 _let_20))) (let ((_let_22 (tptp.fn_synthesis_of_endomembranous_system_membrane_54 _let_11))) (let ((_let_23 (tptp.fn_plasma_membrane_66 _let_20))) (let ((_let_24 (tptp.fn_eukaryotic_cell_46 _let_1))) (let ((_let_25 (tptp.fn_plasma_membrane_88 _let_20))) (let ((_let_26 (tptp.fn_endomembranous_system_29 X))) (let ((_let_27 (tptp.fn_glycoprotein_17 _let_26))) (let ((_let_28 (tptp.fn_plasma_membrane_55 _let_20))) (let ((_let_29 (tptp.fn_plasma_membrane_3 _let_20))) (let ((_let_30 (tptp.fn_plasma_membrane_4 _let_20))) (let ((_let_31 (tptp.fn_attach_1 _let_18))) (let ((_let_32 (tptp.fn_plasma_membrane_65 _let_20))) (let ((_let_33 (tptp.fn_biomembrane_41 _let_20))) (let ((_let_34 (tptp.fn_plasma_membrane_71 _let_20))) (let ((_let_35 (tptp.fn_biomembrane_63 _let_20))) (let ((_let_36 (tptp.fn_synthesis_of_endomembranous_system_membrane_51 _let_11))) (let ((_let_37 (tptp.fn_eukaryotic_cell_26 _let_1))) (let ((_let_38 (tptp.fn_endomembranous_system_32 X))) (let ((_let_39 (tptp.fn_rough_endoplasmic_reticulum_27 _let_38))) (let ((_let_40 (tptp.fn_endomembranous_system_24 X))) (let ((_let_41 (tptp.fn_nucleus_17 _let_40))) (let ((_let_42 (tptp.fn_endomembranous_system_45 X))) (let ((_let_43 (tptp.fn_nuclear_membrane_18 _let_42))) (let ((_let_44 (tptp.fn_nucleus_9 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(tptp.is_inside_2 _let_104 _let_105) (tptp.has_part_2 _let_20 _let_104) (not (= _let_100 _let_109)) (not (= _let_109 _let_100)) (tptp.called_2 _let_109 |tptp.'MP1'|) (tptp.has_part_2 _let_20 _let_109) (tptp.has_part_2 _let_20 _let_100) (tptp.is_outside_2 _let_103 _let_20) (tptp.has_region_2 _let_20 _let_103) (tptp.has_region_2 _let_20 _let_107) (tptp.is_across_2 _let_104 _let_107) (tptp.is_at_2 _let_104 _let_20) (tptp.has_part_2 _let_20 _let_105) (tptp.is_across_2 _let_104 _let_20) (tptp.has_region_2 _let_104 _let_103) (tptp.is_outside_2 _let_102 _let_20) (tptp.has_region_2 _let_20 _let_101) (tptp.called_2 _let_100 |tptp.'MP2'|) (tptp.has_part_2 _let_20 _let_26) (not (= _let_113 _let_117)) (not (= _let_117 _let_113)) (tptp.has_region_2 _let_42 _let_117) (tptp.is_inside_2 _let_113 _let_42) (tptp.has_region_2 _let_42 _let_113) (tptp.has_part_2 _let_40 _let_42) (not (= _let_116 _let_111)) (not (= _let_111 _let_116)) (tptp.is_along_2 _let_42 _let_115) (tptp.is_along_2 _let_115 _let_42) (tptp.is_between_2 _let_42 _let_116) (tptp.is_between_2 _let_42 _let_111) (tptp.is_outside_2 _let_117 _let_42) (tptp.is_inside_2 _let_117 _let_116) (tptp.has_part_2 _let_40 _let_116) (tptp.has_part_2 _let_40 _let_115) (tptp.is_outside_2 _let_113 _let_111) (tptp.is_oriented_toward_2 _let_101 _let_119) (tptp.is_facing_2 _let_101 _let_119) (tptp.is_between_2 _let_119 _let_20) (tptp.is_inside_2 _let_119 _let_20) (tptp.has_part_2 _let_1 _let_119) (tptp.is_between_2 _let_119 _let_40) (tptp.has_part_2 _let_119 _let_118) (tptp.has_region_2 _let_60 _let_121) (tptp.is_inside_2 _let_120 _let_121) (tptp.has_part_2 _let_60 _let_120) (tptp.is_inside_2 _let_122 _let_124) (tptp.has_region_2 _let_51 _let_122) (tptp.agent_2 _let_125 _let_51) (tptp.has_part_2 _let_20 _let_126) (tptp.has_region_2 _let_38 _let_122) (tptp.donor_2 _let_127 _let_38) (tptp.has_part_2 _let_26 _let_102) (tptp.has_part_2 _let_42 _let_60) (tptp.is_inside_2 _let_121 _let_42) (tptp.agent_2 _let_16 _let_78) (tptp.has_part_2 _let_20 _let_129) (tptp.base_2 _let_3 _let_20) (tptp.base_2 _let_5 _let_20) (tptp.object_2 _let_7 _let_20) (tptp.base_2 _let_9 _let_20) (tptp.base_2 _let_66 _let_51) (tptp.object_2 _let_18 _let_104) (= _let_20 _let_17) (= _let_1 _let_59) (= _let_1 _let_57) (= _let_66 _let_155) (= _let_154 _let_153) (= _let_131 _let_92) (= _let_131 _let_90) (= _let_7 _let_87) (= _let_51 _let_69) (= _let_150 _let_96) (= _let_78 _let_83) (= _let_151 _let_97) (= _let_149 _let_94) (= _let_16 _let_81) (= _let_42 _let_47) (= _let_20 _let_15) (= _let_152 _let_98) (= _let_152 _let_87) (= _let_151 _let_86) (= _let_20 _let_13) (= _let_150 _let_95) (= _let_7 _let_86) (= _let_78 _let_82) (= _let_149 _let_93) (= _let_131 _let_89) (= _let_16 _let_80) (= _let_20 _let_12) (= _let_148 _let_147) (= _let_105 _let_36) (= _let_146 _let_80) (= _let_3 _let_145) (= _let_144 _let_143) (= _let_5 _let_142) (= _let_141 _let_140) (= _let_100 _let_22) (= _let_129 _let_85) (= _let_9 _let_139) (= _let_138 _let_137) (= _let_129 _let_84) (= _let_126 _let_75) (= _let_136 _let_135) (= _let_1 _let_54) (= _let_134 _let_133) (= _let_127 _let_77) (= _let_20 _let_19) (= _let_18 _let_132) (= _let_125 _let_73) (= _let_131 _let_91) (= _let_118 _let_52) (= _let_131 _let_88) (= _let_38 _let_130) (= _let_1 _let_55) (= _let_51 _let_68) (= _let_104 _let_31) (= _let_51 _let_67) (= _let_20 _let_10) (= _let_20 _let_8) (= _let_20 _let_6) (= _let_20 _let_4) (= _let_129 _let_74) (= _let_16 _let_79) (= _let_60 _let_128) (= _let_121 _let_64) (= _let_102 _let_27) (= _let_122 _let_71) (= _let_127 _let_76) (= _let_126 _let_74) (= _let_125 _let_72) (= _let_124 _let_123) (= _let_122 _let_70) (= _let_121 _let_65) (= _let_121 _let_63) (= _let_120 _let_62) (= _let_120 _let_61) (= _let_101 _let_24) (= _let_20 _let_2) (= _let_1 _let_53) (= _let_119 _let_49) (= _let_40 _let_39) (= _let_40 _let_37) (= _let_119 _let_48) (= _let_118 _let_50) (= _let_117 _let_45) (= _let_116 _let_43) (= _let_42 _let_46) (= _let_117 _let_44) (= _let_116 _let_41) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_103 _let_33) (= _let_107 _let_106) (= _let_104 _let_30) (= _let_104 _let_29) (= _let_105 _let_35) (= _let_105 _let_34) (= _let_104 _let_28) (= _let_103 _let_32) (= _let_102 _let_25) (= _let_101 _let_23) (= _let_100 _let_21) (= _let_26 _let_99) (= _let_98 _let_98) (= _let_87 _let_98) (= _let_98 _let_87) (= _let_87 _let_97) (= _let_97 _let_97) (= _let_97 _let_86) (= _let_86 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_90 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_74) (= _let_74 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_53 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_41) (= _let_41 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_37 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_17) (= _let_17 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_2 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.endometriosis_1 X) (and (tptp.original_name_2 X |tptp.'Endometriosis'|) (tptp.user_description_2 X |tptp.'A medical condition in which endometrial tissue grows outside of the uterus.'|) (tptp.concept2words_2 X tptp.endometriosis) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endometrium_1 X) (and (tptp.original_name_2 X |tptp.'Endometrium'|) (tptp.user_description_2 X |tptp.'The innermost glandular lining of the mammalian uterus.'|) (tptp.concept2words_2 X tptp.endometrium) (tptp.glandular_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endomycorrhizae_1 X) (and (tptp.original_name_2 X |tptp.'Endomycorrhizae'|) (tptp.user_description_2 X |tptp.'A form of mycorrhiza in which the hyphae of the fungus penetrate the cortex of the root cells.'|) (tptp.concept2words_2 X tptp.endomycorrhizae) (tptp.mycorrhiza_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endoparasite_1 X) (and (tptp.original_name_2 X |tptp.'Endoparasite'|) (tptp.user_description_2 X |tptp.'A parasite that lives within the body of its host.'|) (tptp.concept2words_2 X tptp.endoparasite) (tptp.parasite_1 X) (not (tptp.ectoparasite_1 X)) (not (tptp.parasitoid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endophyte_1 X) (and (tptp.original_name_2 X |tptp.'Endophyte'|) (tptp.user_description_2 X |tptp.'An endosymbiotic bacterium or fungus that lives at least part of its life within a plant but does not harm it.'|) (tptp.concept2words_2 X tptp.endophyte) (tptp.symbiotic_fungi_1 X) (not (tptp.ectomycorrhizal_fungus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endoplasmic_reticulum_14 X))) (let ((_let_2 (tptp.fn_mitochondrion_51 _let_1))) (let ((_let_3 (tptp.fn_endoplasmic_reticulum_23 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_endoplasmic_reticulum_11 X))) (let ((_let_6 (tptp.fn_cell_29 _let_5))) (let ((_let_7 (tptp.fn_endoplasmic_reticulum_13 X))) (let ((_let_8 (tptp.fn_peroxisome_40 _let_7))) (let ((_let_9 (tptp.fn_organelle_1 X))) (let ((_let_10 (tptp.fn_endoplasmic_reticulum_20 X))) (let ((_let_11 (tptp.fn_expand_1 _let_10))) (let ((_let_12 (tptp.fn_endoplasmic_reticulum_30 X))) (let ((_let_13 (tptp.fn_biomembrane_29 _let_12))) (let ((_let_14 (tptp.fn_endoplasmic_reticulum_35 X))) (let ((_let_15 (tptp.fn_chemical_reaction_1 _let_14))) (let ((_let_16 (tptp.fn_endoplasmic_reticulum_27 X))) (let ((_let_17 (tptp.fn_attach_1 _let_16))) (let ((_let_18 (tptp.fn_endoplasmic_reticulum_41 X))) (let ((_let_19 (tptp.fn_nucleus_13 _let_18))) (let ((_let_20 (tptp.fn_biomembrane_47 _let_12))) (let ((_let_21 (tptp.fn_er_membrane_7 _let_12))) (let ((_let_22 (tptp.fn_biomembrane_15 _let_12))) (let ((_let_23 (tptp.fn_er_membrane_33 _let_12))) (let ((_let_24 (tptp.fn_organelle_2 X))) (let ((_let_25 (tptp.fn_biomembrane_14 _let_12))) (let ((_let_26 (tptp.fn_er_membrane_28 _let_12))) (let ((_let_27 (tptp.fn_endoplasmic_reticulum_36 X))) (let ((_let_28 (tptp.fn_release_2 _let_27))) (let ((_let_29 (tptp.fn_release_1 _let_27))) (let ((_let_30 (tptp.fn_endoplasmic_reticulum_21 X))) (let ((_let_31 (tptp.fn_create_1 _let_30))) (let ((_let_32 (tptp.fn_cell_14 _let_5))) (let ((_let_33 (tptp.fn_endoplasmic_reticulum_12 X))) (let ((_let_34 (tptp.fn_endoplasmic_reticulum_40 X))) (let ((_let_35 (tptp.fn_biomembrane_54 _let_12))) (let ((_let_36 (tptp.fn_endoplasmic_reticulum_24 X))) (let ((_let_37 (tptp.fn_endoplasmic_reticulum_34 X))) (let ((_let_38 (tptp.fn_endoplasmic_reticulum_28 X))) (let ((_let_39 (tptp.fn_nuclear_membrane_21 _let_38))) (let ((_let_40 (tptp.fn_nuclear_membrane_19 _let_38))) (let ((_let_41 (tptp.fn_endoplasmic_reticulum_37 X))) (let ((_let_42 (tptp.fn_endoplasmic_reticulum_19 X))) (let ((_let_43 (tptp.fn_attach_2 _let_16))) (let ((_let_44 (tptp.fn_endoplasmic_reticulum_29 X))) (let ((_let_45 (tptp.fn_endoplasmic_reticulum_17 X))) (let ((_let_46 (tptp.fn_er_membrane_29 _let_12))) (let ((_let_47 (tptp.fn_endoplasmic_reticulum_31 X))) (let ((_let_48 (tptp.fn_endoplasmic_reticulum_38 X))) (let ((_let_49 (tptp.fn_chemical_reaction_2 _let_48))) (let ((_let_50 (tptp.fn_endoplasmic_reticulum_39 X))) (let ((_let_51 (tptp.fn_endoplasmic_reticulum_15 X))) (let ((_let_52 (tptp.fn_chemical_reaction_2 _let_51))) (let ((_let_53 (tptp.fn_endoplasmic_reticulum_16 X))) (let ((_let_54 (tptp.fn_endoplasmic_reticulum_22 X))) (let ((_let_55 (tptp.fn_endoplasmic_reticulum_25 X))) (let ((_let_56 (tptp.fn_transfer_1 _let_55))) (let ((_let_57 (tptp.fn_endoplasmic_reticulum_26 X))) (let ((_let_58 (tptp.fn_endoplasmic_reticulum_33 X))) (let ((_let_59 (tptp.fn_move_1 _let_58))) (let ((_let_60 (tptp.fn_endoplasmic_reticulum_32 X))) (let ((_let_61 (tptp.fn_produce_1 _let_30))) (let ((_let_62 (tptp.fn_endoplasmic_reticulum_18 X))) (let ((_let_63 (tptp.fn_endoplasmic_reticulum_6 X))) (let ((_let_64 (tptp.fn_endoplasmic_reticulum_8 X))) (let ((_let_65 (tptp.fn_endoplasmic_reticulum_7 X))) (let ((_let_66 (tptp.fn_endoplasmic_reticulum_5 X))) (let ((_let_67 (tptp.fn_endoplasmic_reticulum_3 X))) (let ((_let_68 (tptp.fn_endoplasmic_reticulum_4 X))) (let ((_let_69 (tptp.fn_endoplasmic_reticulum_2 X))) (let ((_let_70 (tptp.fn_endoplasmic_reticulum_1 X))) (=> (tptp.endoplasmic_reticulum_1 X) (and (tptp.original_name_2 X |tptp.'Endoplasmic-Reticulum'|) (tptp.user_description_2 X |tptp.'Endoplasmic reticulum (ER) is an eukaryotic organelle primarily composed of tubules, vesicles, and cisternae which form its thread-like membranous labyrinth. There are two types of ER: RER (Rough endoplasmic reticulum, bearing ribosomes on their surface) and SER(Smooth Endoplasmic reticulum, lacking ribosomes on their surface). An ER serves as a region of synthesis and transition from one part of cell to another for many cellular molecules like protein, glycoprotein, lipids etc. ER has a bilayered membrane which is continuous with the nuclear membrane'|) (tptp.concept2words_2 X tptp.er) (tptp.concept2words_2 X |tptp.'endoplasmic reticulum'|) (tptp.concept2words_2 X |tptp.'endoplasmic-reticulum'|) (tptp.organelle_1 X) (not (tptp.golgi_apparatus_1 X)) (not (tptp.mitochondrion_1 X)) (not (tptp.nucleus_1 X)) (not (tptp.plastid_1 X)) (not (tptp.vesicle_1 X)) (tptp.lysosome_1 _let_70) (tptp.cytosol_1 _let_69) (tptp.cisterna_1 _let_67) (tptp.biomembrane_1 _let_68) (tptp.protein_enzyme_1 _let_66) (tptp.shape_value_1 _let_63) (tptp.shape_value_1 _let_65) (tptp.cisterna_1 _let_64) (tptp.eukaryotic_cell_1 _let_5) (tptp.cell_1 _let_5) (tptp.eukaryotic_ribosome_1 _let_33) (tptp.peroxisome_1 _let_7) (tptp.mitochondrion_1 _let_1) (tptp.synthesis_reaction_1 _let_51) (tptp.chemical_entity_1 _let_53) (tptp.aqueous_solution_1 _let_45) (tptp.phospholipid_1 _let_62) (tptp.hydrophilic_face_1 _let_42) (tptp.surface_1 _let_42) (tptp.expand_1 _let_10) (tptp.produce_1 _let_30) (tptp.transport_vesicle_1 _let_54) (tptp.synthesis_of_lipid_1 _let_3) (tptp.tangible_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.protein_1 _let_36) (tptp.transfer_1 _let_55) (tptp.intracellular_material_1 _let_57) (tptp.attach_1 _let_16) (tptp.spatial_entity_1 _let_38) (tptp.biomembrane_1 _let_38) (tptp.nuclear_membrane_1 _let_38) (tptp.plasma_membrane_1 _let_44) (tptp.tangible_entity_1 _let_12) (tptp.er_membrane_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.cisternal_space_1 _let_47) (tptp.protein_1 _let_60) (tptp.move_1 _let_58) (tptp.chemical_entity_1 _let_37) (tptp.glycolipid_1 _let_37) (tptp.synthesis_reaction_1 _let_14) (tptp.release_1 _let_27) (tptp.intermembrane_space_1 _let_41) (tptp.synthesis_reaction_1 _let_48) (tptp.chemical_entity_1 _let_50) (tptp.substance_1 _let_34) (tptp.cytosol_1 _let_34) (tptp.nucleus_1 _let_18) (tptp.tangible_entity_1 _let_61) (tptp.spatial_entity_1 _let_59) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_52) (tptp.chemical_entity_1 _let_49) (tptp.cisternal_space_1 _let_46) (tptp.spatial_entity_1 _let_43) (tptp.intermembrane_space_1 _let_40) (tptp.attach_1 _let_39) (tptp.tangible_entity_1 _let_35) (tptp.membrane_protein_1 _let_35) (tptp.protein_1 _let_35) (tptp.ribosome_1 _let_32) (tptp.entity_1 _let_31) (tptp.tangible_entity_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.endoplasmic_reticulum_1 _let_26) (tptp.aqueous_solution_1 _let_25) (tptp.aqueous_solution_1 _let_23) (tptp.aqueous_solution_1 _let_22) (tptp.hydrophilic_face_1 _let_21) (tptp.surface_1 _let_20) (tptp.nuclear_membrane_1 _let_19) (tptp.biomembrane_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_15) (tptp.glycolipid_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.cytosol_1 _let_8) (tptp.substance_1 _let_6) (tptp.cytosol_1 _let_6) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.has_part_2 _let_5 _let_18) (tptp.has_part_2 _let_5 X) (tptp.has_part_2 _let_5 _let_70) (tptp.has_part_2 _let_5 _let_7) (tptp.is_inside_2 _let_70 _let_34) (tptp.agent_2 _let_51 _let_66) (tptp.is_inside_2 _let_53 _let_69) (not (= _let_62 _let_37)) (not (= _let_62 _let_36)) (tptp.causes_2 _let_10 _let_30) (tptp.site_2 _let_3 X) (not (= _let_36 _let_62)) (tptp.agent_2 _let_55 X) (tptp.instrument_2 _let_16 X) (tptp.has_part_2 _let_12 _let_62) (tptp.shape_2 _let_67 _let_65) (tptp.has_part_2 _let_67 _let_68) (tptp.abuts_2 _let_47 _let_41) (tptp.path_2 _let_58 X) (not (= _let_37 _let_62)) (tptp.site_2 _let_14 X) (tptp.is_at_2 _let_68 _let_12) (tptp.abuts_2 _let_41 _let_47) (tptp.agent_2 _let_48 _let_66) (tptp.is_inside_2 _let_50 _let_34) (tptp.has_part_2 X _let_67) (tptp.has_part_2 X _let_66) (tptp.has_part_2 X _let_64) (tptp.has_function_2 X _let_3) (tptp.is_inside_2 X _let_34) (tptp.is_inside_2 _let_18 _let_34) (tptp.the_categorical_value_2 _let_63 tptp.tube_0) (tptp.the_categorical_value_2 _let_65 tptp.hollow_volume_0) (tptp.shape_2 _let_64 _let_63) (tptp.raw_material_2 _let_30 _let_62) (tptp.object_2 _let_58 _let_60) (tptp.result_2 _let_14 _let_37) (tptp.result_2 _let_30 _let_54) (tptp.object_2 _let_55 _let_57) (tptp.base_2 _let_10 _let_12) (tptp.object_2 _let_27 _let_54) (tptp.base_2 _let_3 _let_5) (tptp.raw_material_2 _let_51 _let_53) (tptp.is_inside_2 _let_7 _let_34) (tptp.base_2 _let_27 X) (tptp.has_part_2 _let_5 _let_1) (tptp.raw_material_2 _let_48 _let_50) (tptp.has_part_2 X _let_45) (tptp.has_part_2 _let_18 _let_38) (tptp.is_inside_2 _let_47 _let_12) (tptp.has_region_2 X _let_47) (tptp.has_part_2 X _let_12) (tptp.is_outside_2 _let_42 _let_12) (tptp.is_inside_2 _let_42 _let_45) (tptp.is_between_2 _let_12 _let_45) (tptp.is_inside_2 _let_33 _let_34) (tptp.has_part_2 _let_5 _let_33) (tptp.has_part_2 _let_12 _let_37) (tptp.has_part_2 _let_12 _let_36) (tptp.has_region_2 _let_38 _let_41) (tptp.object_2 _let_16 _let_38) (tptp.has_region_2 _let_12 _let_42) (tptp.base_2 _let_16 _let_44) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_37 _let_15) (= _let_54 _let_31) (= _let_57 _let_56) (= _let_12 _let_11) (= _let_54 _let_29) (= _let_5 _let_4) (= _let_53 _let_52) (= _let_34 _let_8) (= X _let_28) (= _let_5 _let_2) (= _let_50 _let_49) (= _let_38 _let_19) (= _let_45 _let_23) (= _let_42 _let_21) (= X _let_26) (= _let_47 _let_46) (= _let_12 _let_9) (= _let_45 _let_24) (= _let_45 _let_25) (= _let_45 _let_22) (= _let_44 _let_43) (= _let_42 _let_20) (= _let_41 _let_40) (= _let_38 _let_17) (= _let_16 _let_39) (= _let_37 _let_13) (= _let_36 _let_35) (= _let_34 _let_6) (= _let_33 _let_32) (= _let_31 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endorphin_1 X))) (let ((_let_2 (tptp.fn_anabolic_pathway_6 _let_1))) (let ((_let_3 (tptp.fn_endorphin_8 X))) (let ((_let_4 (tptp.fn_ligand_binding_3 _let_3))) (let ((_let_5 (tptp.fn_endorphin_4 X))) (let ((_let_6 (tptp.fn_person_61 _let_5))) (let ((_let_7 (tptp.fn_endorphin_2 X))) (let ((_let_8 (tptp.fn_person_8 _let_5))) (let ((_let_9 (tptp.fn_endorphin_3 X))) (let ((_let_10 (tptp.fn_endorphin_5 X))) (let ((_let_11 (tptp.fn_nervous_system_1 _let_10))) (let ((_let_12 (tptp.fn_endorphin_6 X))) (let ((_let_13 (tptp.fn_animal_3 _let_5))) (let ((_let_14 (tptp.fn_attach_2 _let_3))) (let ((_let_15 (tptp.fn_endorphin_7 X))) (=> (tptp.endorphin_1 X) (and (tptp.original_name_2 X |tptp.'Endorphin'|) (tptp.user_description_2 X |tptp.'Opioid molecules produced by the anterior pituitary and the hypothalamus that act as neurotransmitters. Endorphins provide pain relief and an overall sense of well-being.'|) (tptp.concept2words_2 X tptp.endorphin) (tptp.neuropeptide_1 X) (not (tptp.substance_p_1 X)) (tptp.synthesis_of_protein_1 _let_1) (tptp.eukaryotic_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.human_cell_1 _let_7) (tptp.mammalian_cell_1 _let_7) (tptp.human_cell_1 _let_9) (tptp.person_1 _let_5) (tptp.nervous_system_1 _let_10) (tptp.nerve_cell_1 _let_12) (tptp.endorphin_receptor_1 _let_15) (tptp.ligand_binding_1 _let_3) (tptp.spatial_entity_1 _let_14) (tptp.nervous_system_1 _let_13) (tptp.nerve_cell_1 _let_11) (tptp.human_cell_1 _let_8) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.human_cell_1 _let_6) (tptp.mammalian_cell_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (not (= _let_7 _let_9)) (not (= _let_9 _let_7)) (tptp.is_at_2 _let_15 _let_12) (tptp.base_2 _let_3 _let_15) (tptp.has_region_2 _let_5 _let_10) (tptp.element_2 _let_10 _let_12) (tptp.has_part_2 _let_5 _let_9) (tptp.has_part_2 _let_5 _let_7) (tptp.object_2 _let_3 X) (tptp.raw_material_2 _let_1 X) (= _let_15 _let_14) (= _let_10 _let_13) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_7 _let_6) (= X _let_4) (= X _let_2) (= _let_4 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.endorphin_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Endorphin-Receptor'|) (tptp.user_description_2 X |tptp.'Endorphin-receptor sites are present on nerve endings in the brain.'|) (tptp.concept2words_2 X |tptp.'receptor of endorphin'|) (tptp.concept2words_2 X |tptp.'endorphin receptor'|) (tptp.concept2words_2 X |tptp.'endorphin-receptor'|) (tptp.receptor_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endoskeleton_1 X) (and (tptp.original_name_2 X |tptp.'Endoskeleton'|) (tptp.user_description_2 X |tptp.'A skeletal support system that is buried within the soft tissues of an animal. Sponges, echinoderms, and vertebrates have endoskeletons.'|) (tptp.concept2words_2 X tptp.endoskeleton) (tptp.skeleton_1 X) (not (tptp.exoskeleton_1 X)) (not (tptp.hydrostatic_skeleton_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_tissue_1 X))) (let ((_let_2 (tptp.fn_endosperm_6 X))) (let ((_let_3 (tptp.fn_vacuole_12 _let_2))) (let ((_let_4 (tptp.fn_endosperm_5 X))) (let ((_let_5 (tptp.fn_store_1 _let_4))) (let ((_let_6 (tptp.fn_endosperm_2 X))) (let ((_let_7 (tptp.fn_endosperm_4 X))) (let ((_let_8 (tptp.fn_store_1 _let_7))) (let ((_let_9 (tptp.fn_endosperm_3 X))) (let ((_let_10 (tptp.fn_vacuole_3 _let_2))) (let ((_let_11 (tptp.fn_endosperm_1 X))) (=> (tptp.endosperm_1 X) (and (tptp.original_name_2 X |tptp.'Endosperm'|) (tptp.user_description_2 X |tptp.'In angiosperms, a nutrient-rich tissue formed by the union of a sperm with two polar nuclei during double fertilization. The endosperm provides nourishment to the developing embryo in angiosperm seeds.'|) (tptp.concept2words_2 X tptp.endosperm) (tptp.plant_specific_tissue_1 X) (not (tptp.integument_1 X)) (not (tptp.leaf_primordium_1 X)) (not (tptp.meristem_1 X)) (not (tptp.mesophyll_1 X)) (not (tptp.phloem_1 X)) (not (tptp.primary_plant_body_1 X)) (not (tptp.primary_plant_1 X)) (not (tptp.protonema_1 X)) (not (tptp.receptacle_1 X)) (not (tptp.vessel_1 X)) (tptp.plant_cell_1 _let_11) (tptp.carbohydrate_1 _let_6) (tptp.protein_1 _let_9) (tptp.store_1 _let_7) (tptp.store_1 _let_4) (tptp.vacuole_1 _let_2) (tptp.store_1 _let_10) (tptp.entity_1 _let_8) (tptp.entity_1 _let_5) (tptp.cell_1 _let_3) (tptp.base_2 _let_4 _let_2) (tptp.has_part_2 _let_11 _let_2) (tptp.has_part_2 X _let_11) (tptp.base_2 _let_7 _let_2) (tptp.object_2 _let_4 _let_6) (tptp.object_2 _let_7 _let_9) (= _let_4 _let_10) (= _let_11 _let_3) (= _let_11 _let_1) (= _let_7 _let_10) (= _let_9 _let_8) (= _let_6 _let_5) (= _let_3 _let_1))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.endospore_1 X) (and (tptp.original_name_2 X |tptp.'Endospore'|) (tptp.user_description_2 X |tptp.'A dormant, thick-walled non-reproductive cell produced by some bacteria when exposed to harsh conditions. Endospores can lie dormant for many years and be revived when the environment becomes favorable again.'|) (tptp.concept2words_2 X tptp.endospore) (tptp.prokaryote_1 X)))) (forall ((X $$unsorted)) (=> (tptp.endosymbiosis_1 X) (and (tptp.original_name_2 X |tptp.'Endosymbiosis'|) (tptp.user_description_2 X |tptp.'A process in which a unicellular organism (the host) engulfs another cell, which lives within the host cell and ultimately becomes an organelle in the host cell; also refers to the hypothesis that mitochondria and plastids were formerly small prokaryotes that began living within larger cells.'|) (tptp.concept2words_2 X |tptp.'endosymbiont hypothesis'|) (tptp.concept2words_2 X |tptp.'endosymbiont theory'|) (tptp.concept2words_2 X |tptp.'primary endosymbiosis'|) (tptp.concept2words_2 X tptp.endosymbiosis) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endothelin_1 X) (and (tptp.original_name_2 X |tptp.'Endothelin'|) (tptp.user_description_2 X |tptp.'A peptide produced by a blood vessels endothelium that causes the vessel to constrict, thereby raising blood pressure.'|) (tptp.concept2words_2 X tptp.endothelin) (tptp.polypeptide_1 X) (not (tptp.globins_1 X)) (not (tptp.heavy_chain_1 X)) (not (tptp.light_chain_1 X)) (not (tptp.neuropeptide_1 X)) (not (tptp.peptide_hormone_1 X)) (not (tptp.polypeptide_segment_1 X)) (not (tptp.signal_peptide_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endothelium_1 X) (and (tptp.original_name_2 X |tptp.'Endothelium'|) (tptp.user_description_2 X |tptp.'The thin layer of cells that lines the inner surfaces of blood vessels.'|) (tptp.concept2words_2 X tptp.endothelium) (tptp.tissue_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.epithelium_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endothermic_1 X) (and (tptp.original_name_2 X |tptp.'Endothermic'|) (tptp.user_description_2 X |tptp.'Able to regulate body temperature using primarily the heat generated by metabolism. Endothermic animals typically have a body temperature that is higher than that of the surrounding environment.'|) (tptp.concept2words_2 X tptp.endothermic) (tptp.concept2words_2 X |tptp.'warm blooded'|) (tptp.concept2words_2 X |tptp.'warm-blooded'|) (tptp.thermoregulation_1 X) (not (tptp.ectothermy_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_endothermic_organism_1 X))) (=> (tptp.endothermic_organism_1 X) (and (tptp.original_name_2 X |tptp.'Endothermic-Organism'|) (tptp.user_description_2 X |tptp.'Endothermic organisms are the organisms that are warmed by heat generated by their own metabolism. This heat usually maintains a relatively stable body temperature higher than that of external environment.'|) (tptp.concept2words_2 X |tptp.'organism of endothermic'|) (tptp.concept2words_2 X |tptp.'endothermic organism'|) (tptp.concept2words_2 X |tptp.'endothermic-organism'|) (tptp.eukaryote_1 X) (tptp.thermoregulation_1 _let_1) (tptp.has_function_2 X _let_1) (tptp.base_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.endotoxin_1 X) (and (tptp.original_name_2 X |tptp.'Endotoxin'|) (tptp.user_description_2 X |tptp.'Toxic component of the outer cell membrane of some Gram-negative bacteria. The toxin is released to th environment only when the bacterial cell dies.'|) (tptp.concept2words_2 X tptp.endotoxin) (tptp.toxin_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_1 X) (and (tptp.original_name_2 X |tptp.'Energy'|) (tptp.description_2 X |tptp.'The capacity to do work.'|) (tptp.user_description_2 X |tptp.'Energy is the capacity to do work.'|) (tptp.concept2words_2 X tptp.energy) (tptp.tangible_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_budget_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Budget'|) (tptp.user_description_2 X |tptp.'The way that an organism allocates energy to manage all the processes of life.'|) (tptp.concept2words_2 X |tptp.'budget of energy'|) (tptp.concept2words_2 X |tptp.'energy budget'|) (tptp.concept2words_2 X |tptp.'energy-budget'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_constant_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Constant'|) (tptp.concept2words_2 X |tptp.'constant of energy'|) (tptp.concept2words_2 X |tptp.'energy constant'|) (tptp.concept2words_2 X |tptp.'energy-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted) (X3 $$unsorted)) (=> (and (tptp.subevent_2 X X1) (tptp.result_2 X1 X2) (tptp.raw_material_2 X3 X2) (tptp.subevent_2 X X3) (tptp.exergonic_process_1 X1) (tptp.free_energy_1 X2) (tptp.endergonic_process_1 X3) (tptp.biomolecular_process_1 X)) (and (tptp.energy_coupling_1 X) (= (tptp.fn_energy_coupling_4 X) X3) (= (tptp.fn_energy_coupling_2 X) X2) (= (tptp.fn_energy_coupling_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_energy_coupling_3 X))) (let ((_let_2 (tptp.fn_exergonic_process_3 _let_1))) (let ((_let_3 (tptp.fn_energy_coupling_4 X))) (let ((_let_4 (tptp.fn_endergonic_process_4 _let_3))) (let ((_let_5 (tptp.fn_energy_coupling_2 X))) (=> (tptp.energy_coupling_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Coupling'|) (tptp.user_description_2 X |tptp.'Energy coupling describes how cells use energy harvested from exergonic biochemical reactions, usually in the form of ATP, to power endergonic reactions.'|) (tptp.concept2words_2 X |tptp.'coupling of energy'|) (tptp.concept2words_2 X |tptp.'energy coupling'|) (tptp.concept2words_2 X |tptp.'energy-coupling'|) (tptp.biomolecular_process_1 X) (tptp.free_energy_1 _let_5) (tptp.exergonic_process_1 _let_1) (tptp.endergonic_process_1 _let_3) (tptp.free_energy_1 _let_4) (tptp.free_energy_1 _let_2) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_5) (tptp.raw_material_2 _let_3 _let_5) (tptp.result_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.energy_flow_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Flow'|) (tptp.user_description_2 X |tptp.'The process of energy being transfered throughout a system.'|) (tptp.concept2words_2 X |tptp.'flow of energy'|) (tptp.concept2words_2 X |tptp.'energy flow'|) (tptp.concept2words_2 X |tptp.'energy-flow'|) (tptp.physical_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_energy_flow_in_ecosystem_6 X))) (let ((_let_2 (tptp.fn_locomotion_1 _let_1))) (let ((_let_3 (tptp.fn_energy_flow_in_ecosystem_5 X))) (let ((_let_4 (tptp.fn_move_out_of_1 _let_3))) (let ((_let_5 (tptp.fn_move_into_1 _let_1))) (let ((_let_6 (tptp.fn_locomotion_1 _let_3))) (let ((_let_7 (tptp.fn_energy_flow_in_ecosystem_3 X))) (let ((_let_8 (tptp.fn_energy_flow_in_ecosystem_4 X))) (let ((_let_9 (tptp.fn_energy_flow_in_ecosystem_1 X))) (let ((_let_10 (tptp.fn_energy_flow_in_ecosystem_2 X))) (=> (tptp.energy_flow_in_ecosystem_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Flow-In-Ecosystem'|) (tptp.user_description_2 X |tptp.'The process of flow of energy within ecosystem is called energy flow in ecosystem.'|) (tptp.concept2words_2 X |tptp.'energy flow in ecosystem'|) (tptp.concept2words_2 X |tptp.'energy-flow-in-ecosystem'|) (tptp.energy_flow_1 X) (tptp.environment_1 _let_9) (tptp.ecosystem_1 _let_10) (tptp.thermal_energy_1 _let_7) (tptp.sunlight_1 _let_8) (tptp.exit_1 _let_3) (tptp.enter_1 _let_1) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.first_subevent_2 X _let_1) (tptp.base_2 X _let_10) (tptp.is_inside_2 _let_7 _let_8) (tptp.is_outside_2 _let_9 _let_8) (tptp.result_2 _let_3 _let_7) (tptp.destination_2 _let_3 _let_9) (tptp.origin_2 _let_1 _let_9) (tptp.next_event_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_8) (tptp.base_2 _let_3 _let_8) (tptp.agent_2 _let_1 _let_8) (tptp.object_2 _let_1 _let_8) (tptp.agent_2 _let_3 _let_7) (tptp.object_2 _let_3 _let_7) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_energy_investment_phase_of_glycolysis_15 X))) (let ((_let_2 (tptp.fn_forward_reaction_5 _let_1))) (let ((_let_3 (tptp.fn_energy_investment_phase_of_glycolysis_37 X))) (let ((_let_4 (tptp.fn_enzyme_8 _let_3))) (let ((_let_5 (tptp.fn_energy_investment_phase_of_glycolysis_24 X))) (let ((_let_6 (tptp.fn_isomerization_reaction_2 _let_5))) (let ((_let_7 (tptp.fn_energy_investment_phase_of_glycolysis_16 X))) (let ((_let_8 (tptp.fn_reverse_reaction_6 _let_7))) (let ((_let_9 (tptp.fn_forward_reaction_6 _let_1))) (let ((_let_10 (tptp.fn_reverse_reaction_5 _let_7))) (let ((_let_11 (tptp.fn_energy_investment_phase_of_glycolysis_29 X))) (let ((_let_12 (tptp.fn_glucose_6_phosphate_25 _let_11))) (let ((_let_13 (tptp.fn_energy_investment_phase_of_glycolysis_36 X))) (let ((_let_14 (tptp.fn_hexokinase_9 _let_13))) (let ((_let_15 (tptp.fn_energy_investment_phase_of_glycolysis_25 X))) (let ((_let_16 (tptp.fn_isomerization_reaction_2 _let_15))) (let ((_let_17 (tptp.fn_energy_investment_phase_of_glycolysis_20 X))) (let ((_let_18 (tptp.fn_enzyme_8 _let_17))) (let ((_let_19 (tptp.fn_energy_investment_phase_of_glycolysis_13 X))) (let ((_let_20 (tptp.fn_forward_reaction_5 _let_19))) (let ((_let_21 (tptp.fn_energy_investment_phase_of_glycolysis_28 X))) (let ((_let_22 (tptp.fn_decomposition_reaction_4 _let_21))) (let ((_let_23 (tptp.fn_energy_investment_phase_of_glycolysis_14 X))) (let ((_let_24 (tptp.fn_reverse_reaction_6 _let_23))) (let ((_let_25 (tptp.fn_forward_reaction_6 _let_19))) (let ((_let_26 (tptp.fn_reverse_reaction_5 _let_23))) (let ((_let_27 (tptp.fn_energy_investment_phase_of_glycolysis_30 X))) (let ((_let_28 (tptp.fn_dihydroxyacetone_phosphate_1 _let_27))) (let ((_let_29 (tptp.fn_isomerization_reaction_1 _let_15))) (let ((_let_30 (tptp.fn_decomposition_reaction_2 _let_21))) (let ((_let_31 (tptp.fn_chemical_reaction_1 _let_19))) (let ((_let_32 (tptp.fn_reverse_reaction_7 _let_23))) (let ((_let_33 (tptp.fn_glucose_6_phosphate_24 _let_11))) (let ((_let_34 (tptp.fn_energy_investment_phase_of_glycolysis_26 X))) (let ((_let_35 (tptp.fn_phosphorylation_1 _let_34))) (let ((_let_36 (tptp.fn_phosphorylation_5 _let_34))) (let ((_let_37 (tptp.fn_isomerization_reaction_1 _let_5))) (let ((_let_38 (tptp.fn_energy_investment_phase_of_glycolysis_38 X))) (let ((_let_39 (tptp.fn_phosphofructokinase_28 _let_38))) (let ((_let_40 (tptp.fn_energy_investment_phase_of_glycolysis_32 X))) (let ((_let_41 (tptp.fn_phosphorylated_intermediate_1 _let_40))) (let ((_let_42 (tptp.fn_energy_investment_phase_of_glycolysis_23 X))) (let ((_let_43 (tptp.fn_phosphorylation_1 _let_42))) (let ((_let_44 (tptp.fn_chemical_reaction_1 _let_1))) (let ((_let_45 (tptp.fn_reverse_reaction_7 _let_7))) (let ((_let_46 (tptp.fn_phosphorylation_5 _let_42))) (let ((_let_47 (tptp.fn_phosphofructokinase_24 _let_38))) (let ((_let_48 (tptp.fn_kinase_1 _let_38))) (let ((_let_49 (tptp.fn_phosphorylation_2 _let_34))) (let ((_let_50 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_51 (tptp.fn_phosphofructokinase_51 _let_38))) (let ((_let_52 (tptp.fn_decomposition_reaction_5 _let_21))) (let ((_let_53 (tptp.fn_phosphofructokinase_17 _let_38))) (let ((_let_54 (tptp.fn_phosphorylated_intermediate_3 _let_40))) (let ((_let_55 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_56 (tptp.fn_glucose_6_phosphate_26 _let_11))) (let ((_let_57 (tptp.fn_energy_investment_phase_of_glycolysis_22 X))) (let ((_let_58 (tptp.fn_energy_investment_phase_of_glycolysis_27 X))) (let ((_let_59 (tptp.fn_energy_investment_phase_of_glycolysis_33 X))) (let ((_let_60 (tptp.fn_energy_investment_phase_of_glycolysis_31 X))) (let ((_let_61 (tptp.fn_phosphorylation_2 _let_42))) (let ((_let_62 (tptp.fn_energy_investment_phase_of_glycolysis_40 X))) (let ((_let_63 (tptp.fn_energy_investment_phase_of_glycolysis_39 X))) (let ((_let_64 (tptp.fn_forward_reaction_8 _let_1))) (let ((_let_65 (tptp.fn_energy_investment_phase_of_glycolysis_17 X))) (let ((_let_66 (tptp.fn_forward_reaction_1 _let_1))) (let ((_let_67 (tptp.fn_energy_investment_phase_of_glycolysis_19 X))) (let ((_let_68 (tptp.fn_forward_reaction_2 _let_1))) (let ((_let_69 (tptp.fn_energy_investment_phase_of_glycolysis_18 X))) (let ((_let_70 (tptp.fn_forward_reaction_4 _let_1))) (let ((_let_71 (tptp.fn_forward_reaction_3 _let_1))) (let ((_let_72 (tptp.fn_hexokinase_6 _let_13))) (let ((_let_73 (tptp.fn_energy_investment_phase_of_glycolysis_35 X))) (let ((_let_74 (tptp.fn_hexokinase_8 _let_13))) (let ((_let_75 (tptp.fn_energy_investment_phase_of_glycolysis_12 X))) (let ((_let_76 (tptp.fn_energy_investment_phase_of_glycolysis_21 X))) (let ((_let_77 (tptp.fn_energy_investment_phase_of_glycolysis_34 X))) (let ((_let_78 (tptp.fn_enzyme_4 _let_3))) (let ((_let_79 (tptp.fn_enzyme_4 _let_17))) (let ((_let_80 (tptp.fn_energy_investment_phase_of_glycolysis_8 X))) (let ((_let_81 (tptp.fn_energy_investment_phase_of_glycolysis_7 X))) (let ((_let_82 (tptp.fn_energy_investment_phase_of_glycolysis_5 X))) (let ((_let_83 (tptp.fn_energy_investment_phase_of_glycolysis_6 X))) (let ((_let_84 (tptp.fn_energy_investment_phase_of_glycolysis_9 X))) (=> (tptp.energy_investment_phase_of_glycolysis_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Investment-Phase-Of-Glycolysis'|) (tptp.user_description_2 X |tptp.'The first half of glycolysis, which consists of a series of chemical reactions, in which there is a net expenditure of energy.'|) (tptp.concept2words_2 X |tptp.'undergo energy investment phase of glycolysis'|) (tptp.concept2words_2 X |tptp.'energy investment phase of glycolysis'|) (tptp.concept2words_2 X |tptp.'energy-investment-phase-of-glycolysis'|) (tptp.catabolic_pathway_1 X) (tptp.free_energy_change_value_1 _let_82) (tptp.free_energy_change_value_1 _let_83) (tptp.free_energy_change_value_1 _let_81) (tptp.free_energy_change_value_1 _let_80) (tptp.free_energy_change_value_1 _let_84) (tptp.decrease_1 _let_75) (tptp.forward_reaction_1 _let_19) (tptp.reverse_reaction_1 _let_23) (tptp.forward_reaction_1 _let_1) (tptp.reverse_reaction_1 _let_7) (tptp.chemical_1 _let_65) (tptp.rate_value_1 _let_69) (tptp.concentration_value_1 _let_67) (tptp.isomerase_1 _let_17) (tptp.free_energy_change_value_1 _let_76) (tptp.glucose_1 _let_57) (tptp.chemical_reaction_1 _let_42) (tptp.phosphorylation_1 _let_42) (tptp.chemical_reaction_1 _let_5) (tptp.isomerization_reaction_1 _let_5) (tptp.chemical_reaction_1 _let_15) (tptp.isomerization_reaction_1 _let_15) (tptp.chemical_reaction_1 _let_34) (tptp.phosphorylation_1 _let_34) (tptp.chemical_entity_1 _let_58) (tptp.molecule_1 _let_58) (tptp.glyceraldehyde_3_phosphate_1 _let_58) (tptp.decomposition_reaction_1 _let_21) (tptp.molecule_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.glucose_6_phosphate_1 _let_11) (tptp.spatial_entity_1 _let_27) (tptp.molecule_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.dihydroxyacetone_phosphate_1 _let_27) (tptp.chemical_entity_1 _let_60) (tptp.fructose_6_phosphate_1 _let_60) (tptp.molecule_1 _let_60) (tptp.chemical_entity_1 _let_40) (tptp.phosphorylated_intermediate_1 _let_40) (tptp.fructose_1_comma_6_bisphosphate_1 _let_40) (tptp.atp_1 _let_59) (tptp.organic_molecule_1 _let_77) (tptp.molecule_1 _let_77) (tptp.atp_1 _let_77) (tptp.catalyst_1 _let_73) (tptp.hexokinase_1 _let_13) (tptp.phosphoglucoisomerase_1 _let_3) (tptp.phosphofructokinase_1 _let_38) (tptp.adp_1 _let_63) (tptp.adp_1 _let_62) (tptp.chemical_reaction_1 _let_79) (tptp.chemical_reaction_1 _let_78) (tptp.decrease_1 _let_74) (tptp.catalyst_1 _let_72) (tptp.property_node_1 _let_71) (tptp.property_node_1 _let_70) (tptp.rate_value_1 _let_68) (tptp.concentration_value_1 _let_66) (tptp.chemical_1 _let_64) (tptp.chemical_entity_1 _let_61) (tptp.glucose_1 _let_56) (tptp.molecule_1 _let_54) (tptp.atp_1 _let_53) (tptp.chemical_entity_1 _let_52) (tptp.fructose_1_comma_6_bisphosphate_1 _let_51) (tptp.chemical_entity_1 _let_49) (tptp.phosphorylation_1 _let_48) (tptp.chemical_reaction_1 _let_47) (tptp.phosphorylation_1 _let_47) (tptp.chemical_entity_1 _let_46) (tptp.chemical_entity_1 _let_45) (tptp.chemical_entity_1 _let_44) (tptp.molecule_1 _let_43) (tptp.chemical_entity_1 _let_41) (tptp.molecule_1 _let_41) (tptp.fructose_6_phosphate_1 _let_39) (tptp.molecule_1 _let_37) (tptp.chemical_entity_1 _let_36) (tptp.molecule_1 _let_35) (tptp.molecule_1 _let_33) (tptp.chemical_entity_1 _let_32) (tptp.chemical_entity_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.molecule_1 _let_29) (tptp.glyceraldehyde_3_phosphate_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.chemical_entity_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.molecule_1 _let_16) (tptp.chemical_reaction_1 _let_14) (tptp.phosphorylation_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_8) (tptp.molecule_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.the_cardinal_value_2 _let_84 |"23.9e0"|) (tptp.cardinal_unit_class_2 _let_84 tptp.kilo_cal_per_mole_0) (tptp.the_cardinal_value_2 _let_80 |"-14.2e0"|) (tptp.cardinal_unit_class_2 _let_80 tptp.kilo_cal_per_mole_0) (tptp.the_cardinal_value_2 _let_81 |"1.67e0"|) (tptp.cardinal_unit_class_2 _let_81 tptp.kilo_cal_per_mole_0) (tptp.the_cardinal_value_2 _let_83 |"-16.7e0"|) (tptp.cardinal_unit_class_2 _let_83 tptp.kilo_cal_per_mole_0) (tptp.the_cardinal_value_2 _let_82 |"7.56e0"|) (tptp.cardinal_unit_class_2 _let_82 tptp.kilo_cal_per_mole_0) (tptp.free_energy_change_2 _let_21 _let_84) (tptp.next_event_2 _let_21 _let_15) (tptp.free_energy_change_2 _let_34 _let_83) (tptp.next_event_2 _let_34 _let_5) (not (= _let_34 _let_42)) (tptp.free_energy_change_2 _let_15 _let_82) (not (= _let_15 _let_5)) (tptp.subevent_2 _let_15 _let_23) (tptp.subevent_2 _let_15 _let_19) (tptp.exactCardinality X tptp.raw_material_0 |"2"| tptp.atp_0) (tptp.raw_material_2 X _let_59) (tptp.raw_material_2 X _let_57) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.glyceraldehyde_3_phosphate_0) (tptp.result_2 X _let_62) (tptp.result_2 X _let_58) (tptp.first_subevent_2 X _let_34) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_42) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_34) (not (= _let_5 _let_15)) (tptp.free_energy_change_2 _let_5 _let_81) (tptp.next_event_2 _let_5 _let_42) (tptp.subevent_2 _let_5 _let_7) (tptp.subevent_2 _let_5 _let_1) (not (= _let_42 _let_34)) (tptp.next_event_2 _let_42 _let_21) (tptp.free_energy_change_2 _let_42 _let_80) (tptp.the_cardinal_value_2 _let_76 |"2.23e0"|) (tptp.cardinal_unit_class_2 _let_76 tptp.kilo_cal_per_mole_0) (tptp.raw_material_2 _let_23 _let_58) (tptp.result_2 _let_23 _let_27) (tptp.result_2 _let_21 _let_27) (tptp.result_2 _let_19 _let_58) (tptp.result_2 _let_21 _let_58) (tptp.raw_material_2 _let_19 _let_27) (tptp.result_2 X _let_63) (tptp.raw_material_2 X _let_77) (tptp.result_2 _let_7 _let_11) (tptp.raw_material_2 _let_7 _let_60) (tptp.raw_material_2 _let_21 _let_40) (tptp.result_2 _let_1 _let_60) (tptp.has_function_2 _let_17 _let_15) (tptp.raw_material_2 _let_15 _let_27) (tptp.has_function_2 _let_3 _let_5) (tptp.raw_material_2 _let_5 _let_11) (tptp.has_state_2 _let_60 _let_40) (not (= _let_77 _let_40)) (not (= _let_40 _let_77)) (tptp.raw_material_2 _let_42 _let_77) (tptp.result_2 _let_42 _let_40) (tptp.has_function_2 _let_38 _let_42) (tptp.raw_material_2 _let_42 _let_60) (tptp.free_energy_change_2 X _let_76) (tptp.has_function_2 _let_13 _let_34) (tptp.in_event_2 _let_73 _let_34) (tptp.plays_2 _let_13 _let_73) (tptp.has_function_2 _let_13 _let_75) (tptp.enables_2 _let_75 _let_34) (tptp.raw_material_2 _let_1 _let_11) (tptp.result_2 _let_34 _let_11) (tptp.raw_material_2 _let_34 _let_57) (tptp.has_state_2 _let_57 _let_11) (tptp.has_isomer_2 _let_58 _let_27) (tptp.has_isomer_2 _let_27 _let_58) (not (= _let_11 _let_59)) (not (= _let_59 _let_11)) (tptp.raw_material_2 _let_34 _let_59) (tptp.result_2 _let_5 _let_60) (tptp.result_2 _let_42 _let_62) (tptp.result_2 _let_34 _let_63) (tptp.result_2 _let_15 _let_58) (= _let_58 _let_32) (= _let_27 _let_26) (= _let_27 _let_24) (= _let_27 _let_22) (= _let_58 _let_31) (= _let_58 _let_30) (= _let_27 _let_25) (= _let_27 _let_20) (= _let_63 _let_50) (= _let_77 _let_55) (= _let_11 _let_10) (= _let_11 _let_8) (= _let_60 _let_45) (= _let_40 _let_52) (= _let_60 _let_44) (= _let_27 _let_18) (= _let_15 _let_79) (= _let_11 _let_6) (= _let_11 _let_4) (= _let_5 _let_78) (= _let_60 _let_41) (= _let_77 _let_54) (= _let_77 _let_53) (= _let_40 _let_51) (= _let_60 _let_46) (= _let_60 _let_43) (= _let_60 _let_39) (= _let_42 _let_48) (= _let_42 _let_47) (= (tptp.fn_energy_investment_phase_of_glycolysis_11 X) (tptp.fn_exergonic_reaction_9 X)) (= _let_76 (tptp.fn_exergonic_reaction_8 X)) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_34 _let_14) (= (tptp.fn_energy_investment_phase_of_glycolysis_41 X) _let_71) (= (tptp.fn_energy_investment_phase_of_glycolysis_42 X) _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_11 _let_9) (= _let_11 _let_2) (= _let_63 _let_49) (= _let_62 _let_61) (= _let_60 _let_37) (= _let_59 _let_36) (= _let_59 _let_35) (= _let_59 _let_33) (= _let_27 _let_16) (= _let_58 _let_29) (= _let_58 _let_28) (= _let_34 _let_12) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_41 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_33 _let_33) (= _let_33 _let_35) (= _let_35 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_16) (= _let_16 _let_16) (= _let_16 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_energy_payoff_phase_of_glycolysis_33 X))) (let ((_let_2 (tptp.fn_reduction_1 _let_1))) (let ((_let_3 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_let_109) (tptp.covalent_bond_1 _let_109) (tptp.kinetic_energy_1 _let_113) (tptp.constant_motion_1 _let_119) (tptp.carbon_skeleton_1 _let_107) (tptp.speed_value_1 _let_117) (tptp.quantity_value_1 _let_115) (tptp.chemical_entity_1 _let_15) (tptp.number_1_comma_3_bisphosphoglycerate_1 _let_15) (tptp.organic_molecule_1 _let_157) (tptp.chemical_entity_1 _let_157) (tptp.adp_1 _let_157) (tptp.adp_1 _let_178) (tptp.organic_molecule_1 _let_165) (tptp.molecule_1 _let_165) (tptp.chemical_entity_1 _let_165) (tptp.ribonucleotide_1 _let_165) (tptp.nucleoside_triphosphate_1 _let_165) (tptp.atp_1 _let_165) (tptp.reduction_1 _let_1) (tptp.oxidizing_agent_1 _let_201) (tptp.phosphoglyceromutase_1 _let_203) (tptp.enolase_1 _let_87) (tptp.pyruvate_kinase_1 _let_219) (tptp.free_energy_change_value_1 _let_180) (tptp.organic_molecule_1 _let_179) (tptp.molecule_1 _let_179) (tptp.chemical_entity_1 _let_179) (tptp.ribonucleotide_1 _let_179) (tptp.nucleoside_triphosphate_1 _let_179) (tptp.atp_1 _let_179) 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(tptp.rate_value_1 _let_100) (tptp.reactant_1 _let_21) (tptp.chemical_entity_1 _let_6) (tptp.dehydrogenase_1 _let_6) (tptp.triose_phosphate_dehydrogenase_1 _let_6) (tptp.quantity_value_1 _let_146) (tptp.speed_value_1 _let_148) (tptp.constant_motion_1 _let_150) (tptp.functional_group_1 _let_125) (tptp.phosphate_group_1 _let_125) (tptp.carbon_skeleton_1 _let_144) (tptp.oxygen_1 _let_123) (tptp.entity_1 _let_123) (tptp.chemical_entity_1 _let_123) (tptp.atom_1 _let_123) (tptp.entity_1 _let_140) (tptp.chemical_entity_1 _let_140) (tptp.atom_1 _let_140) (tptp.phosphorus_1 _let_140) (tptp.entity_1 _let_142) (tptp.chemical_entity_1 _let_142) (tptp.atom_1 _let_142) (tptp.carbon_1 _let_142) (tptp.entity_1 _let_138) (tptp.chemical_entity_1 _let_138) (tptp.atom_1 _let_138) (tptp.oxygen_1 _let_138) (tptp.kinetic_energy_1 _let_132) (tptp.covalent_bond_1 _let_128) (tptp.single_bond_1 _let_128) (tptp.double_bond_1 _let_126) (tptp.phosphorylation_1 _let_202) (tptp.chemical_reaction_1 _let_82) 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(tptp.cardinal_unit_class_2 _let_221 tptp.kilo_cal_per_mole_0) (tptp.has_function_2 _let_6 _let_202) (tptp.subevent_2 _let_82 _let_8) (tptp.subevent_2 _let_82 _let_202) (tptp.first_subevent_2 _let_82 _let_8) (tptp.next_event_2 _let_82 _let_39) (tptp.exactCardinality _let_96 tptp.has_part_0 |"3"| tptp.carbon_0) (tptp.has_function_2 _let_219 _let_77) (tptp.raw_material_2 _let_82 _let_183) (tptp.plays_2 _let_30 _let_28) (tptp.result_2 _let_85 _let_211) (tptp.raw_material_2 _let_202 _let_218) (tptp.result_2 _let_89 _let_215) (tptp.result_2 _let_82 _let_15) (tptp.has_function_2 _let_87 _let_85) (tptp.raw_material_2 _let_85 _let_215) (tptp.raw_material_2 _let_89 _let_213) (tptp.result_2 _let_8 _let_96) (tptp.raw_material_2 _let_77 _let_211) (tptp.in_event_2 _let_21 _let_8) (tptp.result_2 X _let_165) (tptp.plays_2 _let_30 _let_21) (tptp.raw_material_2 X _let_30) (tptp.has_function_2 _let_53 _let_39) (tptp.in_event_2 _let_210 _let_39) (tptp.plays_2 _let_157 _let_210) (tptp.raw_material_2 X _let_157) (tptp.result_2 _let_85 _let_208) (tptp.has_part_2 _let_96 _let_206) (tptp.has_function_2 _let_203 _let_89) (not (= _let_183 _let_96)) (not (= _let_96 _let_183)) (not (= _let_30 _let_6)) (not (= _let_6 _let_30)) (not (= _let_183 _let_6)) (not (= _let_6 _let_183)) (tptp.is_specific_to_2 _let_6 _let_183) (tptp.raw_material_2 X _let_183) (tptp.raw_material_2 _let_8 _let_183) (tptp.result_2 _let_202 _let_15) (tptp.raw_material_2 _let_202 _let_96) (not (= _let_96 _let_15)) (not (= _let_15 _let_96)) (tptp.donor_2 _let_3 _let_183) (tptp.plays_2 _let_183 _let_199) (tptp.in_event_2 _let_199 _let_3) (tptp.in_event_2 _let_201 _let_3) (tptp.plays_2 _let_30 _let_201) (tptp.plays_2 _let_183 _let_197) (tptp.donor_2 _let_1 _let_183) (not (= _let_183 _let_30)) (tptp.plays_2 _let_30 _let_195) (tptp.in_event_2 _let_195 _let_1) (tptp.in_event_2 _let_197 _let_1) (not (= _let_30 _let_183)) (tptp.has_atom_2 _let_30 _let_190) (tptp.electronegativity_2 _let_190 _let_192) (tptp.recipient_2 _let_1 _let_30) (tptp.recipient_2 _let_3 _let_30) (tptp.raw_material_2 _let_8 _let_30) (not (= _let_30 _let_95)) (not (= _let_95 _let_183)) (tptp.has_atom_2 _let_183 _let_185) (tptp.electronegativity_2 _let_185 _let_187) (not (= _let_95 _let_30)) (not (= _let_183 _let_95)) (not (= _let_182 _let_105)) (not (= _let_105 _let_182)) (tptp.free_energy_change_2 X _let_180) (tptp.result_2 _let_77 _let_179) (tptp.raw_material_2 _let_77 _let_178) (not (= _let_179 _let_178)) (not (= _let_178 _let_179)) (tptp.subevent_2 _let_8 _let_1) (tptp.object_2 _let_1 _let_95) (tptp.object_2 _let_3 _let_95) (tptp.subevent_2 _let_8 _let_3) (tptp.free_energy_change_2 _let_39 _let_175) (tptp.called_2 _let_37 |tptp.'Terminal PO4 Group'|) (tptp.called_2 _let_160 |tptp.'FE_r'|) (tptp.result_2 _let_39 _let_165) (tptp.has_part_2 _let_165 _let_155) (tptp.has_region_2 _let_165 _let_168) (tptp.has_part_2 _let_165 _let_154) (tptp.has_part_2 _let_165 _let_153) (tptp.is_inside_2 _let_153 _let_169) (tptp.is_inside_2 _let_154 _let_169) (tptp.is_inside_2 _let_154 _let_37) (tptp.is_inside_2 _let_155 _let_37) (tptp.is_inside_2 _let_155 _let_169) (tptp.has_region_2 _let_165 _let_169) (tptp.has_region_2 _let_165 _let_37) (not (= _let_37 _let_168)) (not (= _let_168 _let_169)) (not (= _let_169 _let_37)) (not (= _let_37 _let_169)) (not (= _let_168 _let_37)) (not (= _let_169 _let_168)) (tptp.quantity_2 _let_167 _let_162) (tptp.possesses_2 _let_165 _let_167) (tptp.possesses_2 _let_165 _let_156) (tptp.is_between_2 _let_156 _let_153) (tptp.is_inside_2 _let_153 _let_168) (tptp.structural_complexity_2 _let_157 _let_163) (tptp.greater_than_2 _let_164 _let_163) (tptp.structural_complexity_2 _let_165 _let_164) (not (= _let_157 _let_165)) (not (= _let_165 _let_157)) (tptp.raw_material_2 _let_39 _let_157) (tptp.possesses_2 _let_157 _let_158) (tptp.quantity_2 _let_158 _let_160) (tptp.greater_than_2 _let_162 _let_160) (tptp.called_2 _let_162 |tptp.'FE_p'|) (tptp.is_inside_2 _let_155 _let_168) (tptp.is_inside_2 _let_154 _let_168) (tptp.is_between_2 _let_156 _let_154) (not (= _let_155 _let_154)) (not (= _let_154 _let_155)) (tptp.is_inside_2 _let_153 _let_37) (not (= _let_154 _let_153)) (not (= _let_153 _let_154)) (not (= _let_155 _let_153)) (not (= _let_153 _let_155)) (tptp.is_inside_2 _let_138 _let_125) (tptp.has_part_2 _let_15 _let_123) (tptp.is_between_2 _let_126 _let_123) (tptp.is_between_2 _let_126 _let_140) (tptp.is_between_2 _let_128 _let_140) (tptp.is_between_2 _let_128 _let_138) (tptp.is_between_2 _let_126 _let_138) (tptp.is_between_2 _let_126 _let_142) (not (= _let_138 _let_142)) (tptp.is_inside_2 _let_138 _let_130) (tptp.is_inside_2 _let_137 _let_130) (not (= _let_142 _let_138)) (tptp.has_part_2 _let_15 _let_140) (not (= _let_123 _let_140)) (not (= _let_142 _let_123)) (not (= _let_123 _let_142)) (not (= _let_140 _let_123)) (tptp.is_between_2 _let_122 _let_142) (tptp.has_part_2 _let_15 _let_142) (tptp.is_inside_2 _let_142 _let_130) (tptp.has_part_2 _let_15 _let_138) (not (= _let_138 _let_140)) (tptp.is_inside_2 _let_140 _let_125) (not (= _let_123 _let_138)) (not (= _let_138 _let_123)) (not (= _let_140 _let_138)) (tptp.has_part_2 _let_15 _let_137) (not (= _let_137 _let_138)) (not (= _let_138 _let_137)) (tptp.possesses_2 _let_15 _let_128) (tptp.is_between_2 _let_128 _let_123) (tptp.is_inside_2 _let_123 _let_130) (tptp.has_region_2 _let_15 _let_130) (tptp.possesses_2 _let_15 _let_122) (tptp.is_between_2 _let_122 _let_123) (tptp.is_inside_2 _let_123 _let_125) (tptp.has_region_2 _let_15 _let_125) (tptp.possesses_2 _let_15 _let_126) (tptp.is_between_2 _let_109 _let_105) (tptp.has_state_2 _let_30 _let_104) (tptp.quantity_2 _let_113 _let_115) (tptp.directly_proportional_2 _let_117 _let_115) (tptp.speed_2 _let_119 _let_117) (tptp.object_2 _let_119 _let_30) (tptp.has_reduced_form_2 _let_30 _let_104) (tptp.has_oxidized_form_2 _let_104 _let_30) (tptp.has_state_2 _let_104 _let_30) (tptp.possesses_2 _let_30 _let_109) (tptp.result_2 _let_111 _let_109) (tptp.result_2 _let_111 _let_30) (tptp.possesses_2 _let_30 _let_113) (tptp.has_part_2 _let_30 _let_105) (tptp.is_inside_2 _let_105 _let_107) (tptp.has_region_2 _let_30 _let_107) (not (= _let_104 _let_30)) (not (= _let_30 _let_104)) (tptp.has_function_2 _let_6 _let_8) (tptp.quantity_2 _let_6 _let_98) (tptp.directly_proportional_2 _let_98 _let_100) (not (= _let_6 _let_96)) (not (= _let_96 _let_6)) (tptp.plays_2 _let_6 _let_94) (tptp.in_event_2 _let_94 _let_82) (tptp.has_function_2 _let_6 _let_82) (not (= _let_95 _let_6)) (not (= _let_6 _let_95)) (= _let_77 _let_220) (= _let_183 _let_83) (= _let_30 _let_29) (= _let_211 _let_86) (= _let_218 _let_217) (= _let_215 _let_90) (= _let_15 _let_216) (= _let_215 _let_92) (= _let_215 _let_91) (= _let_215 _let_88) (= _let_85 _let_214) (= _let_213 _let_212) (= _let_96 _let_18) (= _let_211 _let_84) (= _let_8 _let_22) (= X _let_22) (= _let_30 _let_27) (= X _let_81) (= _let_157 _let_54) (= _let_210 _let_209) (= _let_39 _let_81) (= _let_208 _let_207) (= _let_206 _let_205) (= _let_89 _let_204) (= _let_96 _let_4) (= X _let_80) (= _let_96 _let_17) (= _let_202 _let_134) (= _let_96 _let_16) (= _let_201 _let_200) (= _let_199 _let_198) (= _let_197 _let_196) (= _let_195 _let_194) (= _let_183 _let_2) (= (tptp.fn_energy_payoff_phase_of_glycolysis_8 X) _let_193) (= _let_192 _let_191) (= _let_190 _let_189) (= _let_30 _let_26) (= _let_30 _let_4) (= (tptp.fn_energy_payoff_phase_of_glycolysis_7 X) _let_188) (= _let_187 _let_186) (= _let_185 _let_184) (= _let_183 _let_5) (= _let_183 _let_14) (= _let_183 _let_23) (= _let_30 _let_25) (= _let_30 _let_10) (= _let_30 _let_24) (= _let_30 _let_23) (= _let_182 _let_181) (= (tptp.fn_energy_payoff_phase_of_glycolysis_58 X) (tptp.fn_exergonic_reaction_9 X)) (= _let_180 (tptp.fn_exergonic_reaction_8 X)) (= _let_179 _let_79) (= _let_179 _let_78) (= _let_178 _let_177) (= _let_8 _let_20) (= _let_3 _let_76) (= _let_3 _let_75) (= _let_1 _let_74) (= _let_95 _let_11) (= _let_95 _let_9) (= _let_1 _let_73) (= (tptp.fn_energy_payoff_phase_of_glycolysis_55 X) _let_176) (= _let_175 _let_174) (= _let_173 _let_72) (= _let_173 _let_71) (= _let_172 _let_70) (= _let_172 _let_69) (= (tptp.fn_energy_payoff_phase_of_glycolysis_102 X) _let_171) (= (tptp.fn_energy_payoff_phase_of_glycolysis_103 X) _let_170) (= _let_169 _let_47) (= _let_155 _let_45) (= _let_154 _let_43) (= _let_169 _let_68) (= _let_168 _let_47) (= _let_169 _let_67) (= _let_165 _let_66) (= _let_37 _let_46) (= _let_168 _let_48) (= _let_168 _let_46) (= _let_153 _let_41) (= _let_153 _let_40) (= _let_165 _let_64) (= _let_156 _let_51) (= _let_156 _let_50) (= _let_167 _let_166) (= _let_165 _let_65) (= _let_164 _let_62) (= _let_165 _let_63) (= _let_164 _let_61) (= _let_157 _let_56) (= _let_163 _let_60) (= _let_163 _let_59) (= _let_162 _let_161) (= _let_160 _let_159) (= _let_158 _let_58) (= _let_158 _let_57) (= _let_157 _let_55) (= _let_157 _let_52) (= _let_156 _let_49) (= _let_155 _let_44) (= _let_154 _let_42) (= _let_153 _let_38) (= (tptp.fn_energy_payoff_phase_of_glycolysis_79 X) _let_152) (= (tptp.fn_energy_payoff_phase_of_glycolysis_80 X) _let_151) (= _let_150 _let_149) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_126 _let_36) (= _let_144 _let_143) (= _let_142 _let_141) (= _let_140 _let_139) (= _let_123 _let_34) (= _let_138 _let_33) (= _let_138 _let_34) (= _let_137 _let_136) (= _let_135 _let_134) (= _let_133 _let_17) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_35) (= _let_125 _let_124) (= _let_123 _let_33) (= _let_122 _let_36) (= (tptp.fn_energy_payoff_phase_of_glycolysis_19 X) _let_121) (= (tptp.fn_energy_payoff_phase_of_glycolysis_18 X) _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_32) (= _let_105 _let_31) (= _let_104 _let_103) (= (tptp.fn_energy_payoff_phase_of_glycolysis_77 X) _let_102) (= _let_8 _let_19) (= (tptp.fn_energy_payoff_phase_of_glycolysis_78 X) _let_101) (= _let_100 _let_99) (= _let_98 _let_97) (= _let_96 _let_14) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_95 _let_13) (= _let_6 _let_2) (= _let_95 _let_12) (= _let_95 _let_10) (= _let_95 _let_7) (= _let_82 _let_80) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_91) (= _let_91 _let_90) (= _let_90 _let_88) (= _let_88 _let_86) (= _let_86 _let_84) (= _let_84 _let_83) (= _let_83 _let_14) (= _let_5 _let_14) (= _let_14 _let_5) (= _let_5 _let_5) (= _let_2 _let_5) (= _let_5 _let_2) (= _let_2 _let_2) (= _let_2 _let_23) (= _let_22 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_47) (= _let_47 _let_68) (= _let_68 _let_47) (= _let_47 _let_67) (= _let_67 _let_67) (= _let_67 _let_65) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_64 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_34) (= _let_34 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_10) (= _let_4 _let_10) (= _let_10 _let_4) (= _let_25 _let_4) (= _let_4 _let_25) (= _let_24 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_4) (= _let_4 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.energy_polarity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Polarity-Scale'|) (tptp.concept2words_2 X |tptp.'energy polarity scale'|) (tptp.concept2words_2 X |tptp.'energy-polarity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Reaction'|) (tptp.user_description_2 X |tptp.'A reaction that describes changes in energy.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of energy'|) (tptp.concept2words_2 X |tptp.'energy reaction'|) (tptp.concept2words_2 X |tptp.'energy-reaction'|) (tptp.chemical_reaction_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_related_process_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Related-Process'|) (tptp.user_description_2 X |tptp.'A process related to the movement or exchange of energy or heat.'|) (tptp.concept2words_2 X |tptp.'energy related process'|) (tptp.concept2words_2 X |tptp.'energy-related-process'|) (tptp.general_chemical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.energy_source_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Source'|) (tptp.user_description_2 X |tptp.'The source of energy for the life processes of an organism.'|) (tptp.concept2words_2 X |tptp.'source of energy'|) (tptp.concept2words_2 X |tptp.'energy source'|) (tptp.concept2words_2 X |tptp.'energy-source'|) (tptp.resource_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_energy_transformation_by_organism_2 X))) (let ((_let_2 (tptp.fn_energy_transformation_by_organism_3 X))) (let ((_let_3 (tptp.fn_energy_transformation_by_organism_1 X))) (=> (tptp.energy_transformation_by_organism_1 X) (and (tptp.original_name_2 X |tptp.'Energy-Transformation-by-Organism'|) (tptp.user_description_2 X |tptp.'It is the process of transformation of energy by an organism.'|) (tptp.concept2words_2 X tptp.transform) (tptp.concept2words_2 X |tptp.'energy transformation by organism'|) (tptp.concept2words_2 X |tptp.'energy-transformation-by-organism'|) (tptp.change_of_state_1 X) (not (tptp.transformation_in_bacterial_genetics_1 X)) (tptp.energy_1 _let_3) (tptp.energy_1 _let_1) (tptp.organism_1 _let_2) (not (= _let_3 _let_1)) (not (= _let_1 _let_3)) (tptp.object_2 X _let_1) (tptp.result_2 X _let_3) (tptp.experiencer_2 X _let_2) (tptp.raw_material_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_engelmanns_experiment_35 X))) (let ((_let_2 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_4 (tptp.fn_engelmanns_experiment_40 X))) (let ((_let_5 (tptp.fn_prokaryote_13 _let_4))) (let ((_let_6 (tptp.fn_engelmanns_experiment_30 X))) (let ((_let_7 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_6))) (let ((_let_8 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_9 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_10 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_11 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_12 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_13 (tptp.fn_prokaryote_12 _let_4))) (let ((_let_14 (tptp.fn_cell_28 _let_4))) (let ((_let_15 (tptp.fn_prokaryote_10 _let_4))) (let ((_let_16 (tptp.fn_cell_29 _let_4))) (let ((_let_17 (tptp.fn_engelmanns_experiment_43 X))) (let ((_let_18 (tptp.fn_culturing_7 _let_17))) (let ((_let_19 (tptp.fn_engelmanns_experiment_29 X))) (let ((_let_20 (tptp.fn_anaerobe_5 _let_19))) (let ((_let_21 (tptp.fn_engelmanns_experiment_31 X))) (let ((_let_22 (tptp.fn_metabolism_1 _let_21))) (let ((_let_23 (tptp.fn_engelmanns_experiment_37 X))) (let ((_let_24 (tptp.fn_move_1 _let_23))) (let ((_let_25 (tptp.fn_engelmanns_experiment_39 X))) (let ((_let_26 (tptp.fn_attract_1 _let_25))) (let ((_let_27 (tptp.fn_cell_24 _let_4))) (let ((_let_28 (tptp.fn_organism_3 _let_4))) (let ((_let_29 (tptp.fn_engelmanns_experiment_42 X))) (let ((_let_30 (tptp.fn_anabolic_pathway_5 _let_29))) (let ((_let_31 (tptp.fn_attract_2 _let_25))) (let ((_let_32 (tptp.fn_engelmanns_experiment_26 X))) (let ((_let_33 (tptp.fn_engelmanns_experiment_28 X))) (let ((_let_34 (tptp.fn_engelmanns_experiment_27 X))) (let ((_let_35 (tptp.fn_engelmanns_experiment_25 X))) (let ((_let_36 (tptp.fn_engelmanns_experiment_36 X))) (let ((_let_37 (tptp.fn_prokaryote_14 _let_4))) (let ((_let_38 (tptp.fn_engelmanns_experiment_33 X))) (let ((_let_39 (tptp.fn_cell_14 _let_4))) (let ((_let_40 (tptp.fn_engelmanns_experiment_34 X))) (let ((_let_41 (tptp.fn_engelmanns_experiment_32 X))) (let ((_let_42 (tptp.fn_engelmanns_experiment_41 X))) (let ((_let_43 (tptp.fn_impair_1 _let_42))) (let ((_let_44 (tptp.fn_engelmanns_experiment_24 X))) (let ((_let_45 (tptp.fn_engelmanns_experiment_22 X))) (let ((_let_46 (tptp.fn_anabolic_pathway_5 _let_45))) (let ((_let_47 (tptp.fn_engelmanns_experiment_23 X))) (let ((_let_48 (tptp.fn_engelmanns_experiment_38 X))) (let ((_let_49 (tptp.fn_engelmanns_experiment_20 X))) (let ((_let_50 (tptp.fn_engelmanns_experiment_13 X))) (let ((_let_51 (tptp.fn_engelmanns_experiment_12 X))) (let ((_let_52 (tptp.fn_engelmanns_experiment_7 X))) (let ((_let_53 (tptp.fn_engelmanns_experiment_19 X))) (let ((_let_54 (tptp.fn_engelmanns_experiment_18 X))) (let ((_let_55 (tptp.fn_engelmanns_experiment_17 X))) (let ((_let_56 (tptp.fn_engelmanns_experiment_16 X))) (let ((_let_57 (tptp.fn_engelmanns_experiment_15 X))) (let ((_let_58 (tptp.fn_engelmanns_experiment_14 X))) (let ((_let_59 (tptp.fn_engelmanns_experiment_11 X))) (let ((_let_60 (tptp.fn_engelmanns_experiment_21 X))) (let ((_let_61 (tptp.fn_engelmanns_experiment_10 X))) (let ((_let_62 (tptp.fn_engelmanns_experiment_9 X))) (let ((_let_63 (tptp.fn_engelmanns_experiment_8 X))) (let ((_let_64 (tptp.fn_engelmanns_experiment_6 X))) (let ((_let_65 (tptp.fn_engelmanns_experiment_5 X))) (=> (tptp.engelmanns_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Engelmanns-Experiment'|) (tptp.user_description_2 X |tptp.'Experiment conductied by Theodor W. 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_let_32) (tptp.protein_1 _let_32) (tptp.spatial_entity_1 _let_32) (tptp.polymer_1 _let_32) (tptp.membrane_protein_1 _let_34) (tptp.protein_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.polymer_1 _let_34) (tptp.tangible_entity_1 _let_34) (tptp.transmembrane_protein_1 _let_34) (tptp.integral_protein_1 _let_34) (tptp.transport_protein_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.phospholipid_bilayer_1 _let_33) (tptp.anaerobe_1 _let_19) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_6) (tptp.metabolism_1 _let_21) (tptp.genotype_1 _let_41) (tptp.genome_1 _let_41) (tptp.cell_wall_1 _let_38) (tptp.prokaryotic_ribosome_1 _let_40) (tptp.membrane_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.mixture_1 _let_36) (tptp.cytoplasm_1 _let_36) (tptp.move_1 _let_23) (tptp.oxygen_molecule_1 _let_48) (tptp.attract_1 _let_25) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.organism_1 _let_4) (tptp.cell_1 _let_4) (tptp.prokaryote_1 _let_4) (tptp.divide_1 _let_42) (tptp.photosynthesis_1 _let_29) (tptp.culturing_1 _let_17) (tptp.chemical_entity_1 _let_46) (tptp.tangible_entity_1 _let_43) (tptp.ribosome_1 _let_39) (tptp.cell_wall_1 _let_37) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.genotype_1 _let_28) (tptp.genome_1 _let_27) (tptp.entity_1 _let_26) (tptp.spatial_entity_1 _let_24) (tptp.organism_1 _let_22) (tptp.organism_1 _let_20) (tptp.cell_1 _let_18) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.mixture_1 _let_14) (tptp.cytoplasm_1 _let_14) (tptp.mixture_1 _let_13) (tptp.cytoplasm_1 _let_13) (tptp.membrane_protein_1 _let_12) (tptp.membrane_protein_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.transmembrane_protein_1 _let_10) (tptp.integral_protein_1 _let_10) (tptp.transport_protein_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.membrane_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.biomembrane_1 _let_5) (tptp.plasma_membrane_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.membrane_protein_1 _let_3) (tptp.protein_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.protein_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.polymer_1 _let_2) (tptp.directly_proportional_2 _let_65 _let_64) (tptp.greater_than_2 _let_52 _let_65) (tptp.directly_proportional_2 _let_52 _let_63) (tptp.greater_than_2 _let_63 _let_64) (tptp.rate_2 _let_45 _let_65) (tptp.raw_material_2 _let_45 _let_54) (tptp.raw_material_2 _let_45 _let_55) (tptp.raw_material_2 _let_45 _let_56) (tptp.raw_material_2 _let_45 _let_57) (tptp.raw_material_2 _let_45 _let_58) (tptp.quantity_2 _let_47 _let_64) (tptp.subevent_2 X _let_17) (tptp.subevent_2 X _let_29) (tptp.subevent_2 X _let_42) (tptp.supports_2 X _let_60) (tptp.first_subevent_2 X _let_17) (tptp.site_2 _let_21 _let_36) (tptp.toward_2 _let_23 _let_48) (tptp.quantity_2 _let_48 _let_63) (tptp.next_event_2 _let_25 _let_23) (tptp.result_2 _let_60 _let_62) (tptp.object_2 _let_60 _let_61) (tptp.object_2 _let_60 _let_59) (tptp.result_2 _let_42 _let_51) (tptp.result_2 _let_42 _let_50) (tptp.result_2 _let_42 _let_58) (tptp.result_2 _let_42 _let_57) (tptp.result_2 _let_42 _let_56) (tptp.result_2 _let_42 _let_55) (tptp.result_2 _let_42 _let_54) (tptp.agent_2 _let_42 _let_53) (tptp.next_event_2 _let_42 _let_29) (tptp.rate_2 _let_29 _let_52) (tptp.raw_material_2 _let_29 _let_51) (tptp.raw_material_2 _let_29 _let_50) (tptp.next_event_2 _let_29 _let_25) (tptp.object_2 _let_17 _let_49) (tptp.next_event_2 _let_17 _let_42) (tptp.agent_2 _let_25 _let_48) (tptp.object_2 _let_25 _let_4) (tptp.object_2 _let_23 _let_4) (tptp.result_2 _let_29 _let_48) (tptp.result_2 _let_45 _let_47) (tptp.object_2 _let_42 _let_44) (tptp.base_2 _let_21 _let_4) (tptp.plays_2 _let_4 _let_19) (tptp.object_2 _let_17 _let_4) (tptp.path_2 _let_6 _let_1) (not (= _let_32 _let_34)) (not (= _let_34 _let_32)) (tptp.has_part_2 _let_1 _let_34) (tptp.is_at_2 _let_34 _let_1) (tptp.has_part_2 _let_1 _let_32) (tptp.is_across_2 _let_34 _let_1) (tptp.is_inside_2 _let_34 _let_33) (tptp.has_part_2 _let_1 _let_33) (tptp.called_2 _let_32 |tptp.'MP2'|) (tptp.has_part_2 _let_4 _let_1) (tptp.has_part_2 _let_4 _let_36) (tptp.is_inside_2 _let_36 _let_1) (tptp.is_inside_2 _let_1 _let_38) (tptp.has_part_2 _let_4 _let_38) (tptp.has_part_2 _let_36 _let_35) (tptp.has_part_2 _let_4 _let_41) (tptp.is_inside_2 _let_40 _let_35) (tptp.has_part_2 _let_4 _let_40) (= _let_48 _let_31) (= _let_4 _let_26) (= _let_4 _let_24) (= _let_48 _let_30) (= _let_47 _let_46) (= _let_44 _let_43) (= _let_4 _let_22) (= _let_4 _let_20) (= _let_4 _let_18) (= _let_1 _let_7) (= _let_41 _let_28) (= _let_41 _let_27) (= _let_40 _let_39) (= _let_1 _let_5) (= _let_38 _let_37) (= _let_36 _let_14) (= _let_35 _let_16) (= _let_36 _let_13) (= _let_35 _let_15) (= _let_34 _let_12) (= _let_34 _let_11) (= _let_34 _let_2) (= _let_32 _let_3) (= _let_34 _let_10) (= _let_33 _let_9) (= _let_33 _let_8) (= _let_32 _let_2) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_2 _let_11) (= _let_11 _let_2) (= _let_10 _let_2) (= _let_2 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.engineering_1 X) (and (tptp.original_name_2 X |tptp.'Engineering'|) (tptp.concept2words_2 X tptp.technology) (tptp.concept2words_2 X tptp.application) (tptp.concept2words_2 X tptp.profession) (tptp.concept2words_2 X tptp.engineer) (tptp.concept2words_2 X tptp.engineering) (tptp.development_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enhancer_7 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_enhancer_13 X))) (let ((_let_4 (tptp.fn_kinetic_energy_2 _let_3))) (let ((_let_5 (tptp.fn_enhancer_14 X))) (let ((_let_6 (tptp.fn_chemical_bond_4 _let_5))) (let ((_let_7 (tptp.fn_chemical_bond_1 _let_5))) (let ((_let_8 (tptp.fn_attach_1 _let_1))) (let ((_let_9 (tptp.fn_enhancer_6 X))) (let ((_let_10 (tptp.fn_enhancer_8 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_4 _let_10))) (let ((_let_12 (tptp.fn_enhancer_10 X))) (let ((_let_13 (tptp.fn_carbon_skeleton_2 _let_10))) (let ((_let_14 (tptp.fn_enhancer_11 X))) (let ((_let_15 (tptp.fn_kinetic_energy_1 _let_3))) (let ((_let_16 (tptp.fn_enhancer_9 X))) (let ((_let_17 (tptp.fn_enhancer_4 X))) (let ((_let_18 (tptp.fn_intron_6 _let_17))) (let ((_let_19 (tptp.fn_enhancer_5 X))) (let ((_let_20 (tptp.fn_enhancer_12 X))) (let ((_let_21 (tptp.fn_enhancer_3 X))) (let ((_let_22 (tptp.fn_enhancer_1 X))) (let ((_let_23 (tptp.fn_enhancer_2 X))) (=> (tptp.enhancer_1 X) (and (tptp.original_name_2 X |tptp.'Enhancer'|) (tptp.user_description_2 X |tptp.'A segment of eukaryotic DNA containing multiple control elements, usually located far from the gene whose transcription it regulates.'|) (tptp.concept2words_2 X tptp.enhancer) (tptp.control_element_1 X) (not (tptp.proximal_control_element_1 X)) (tptp.quantity_value_1 _let_22) (tptp.speed_value_1 _let_23) (tptp.exon_1 _let_21) (tptp.intron_1 _let_17) (tptp.exon_1 _let_19) (tptp.activator_1 _let_9) (tptp.attach_1 _let_1) (tptp.carbon_skeleton_1 _let_10) (tptp.constant_motion_1 _let_16) (tptp.carbon_1 _let_12) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.deoxyribonucleoside_monophosphate_1 _let_20) (tptp.kinetic_energy_1 _let_3) (tptp.phosphodiester_bond_1 _let_5) (tptp.exon_1 _let_18) (tptp.constant_motion_1 _let_15) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.carbon_1 _let_11) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.quantity_2 _let_3 _let_22) (tptp.is_between_2 _let_17 _let_21) (tptp.speed_2 _let_16 _let_23) (tptp.directly_proportional_2 _let_23 _let_22) (tptp.has_region_2 X _let_10) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_17) (tptp.has_part_2 X _let_20) (tptp.possesses_2 X _let_5) (tptp.is_between_2 _let_5 _let_20) (tptp.is_between_2 _let_17 _let_19) (tptp.agent_2 _let_1 X) (tptp.possesses_2 X _let_3) (tptp.object_2 _let_16 X) (tptp.is_inside_2 _let_12 _let_10) (not (= _let_14 _let_12)) (not (= _let_12 _let_14)) (tptp.base_2 _let_1 X) (tptp.object_2 _let_1 _let_9) (= _let_20 _let_7) (= _let_20 _let_6) (= _let_19 _let_18) (= _let_1 (tptp.fn_control_element_1 X)) (= _let_16 _let_15) (= X _let_4) (= _let_14 _let_13) (= _let_12 _let_11) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_3 X))) (let ((_let_3 (tptp.fn_protein_enzyme_7 X))) (let ((_let_4 (tptp.fn_organic_molecule_1 X))) (let ((_let_5 (tptp.fn_protein_enzyme_8 X))) (let ((_let_6 (tptp.fn_organic_molecule_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_10 X))) (let ((_let_10 (tptp.fn_enzyme_2 X))) (let ((_let_11 (tptp.fn_protein_enzyme_11 X))) (let ((_let_12 (tptp.fn_protein_14 X))) (let ((_let_13 (tptp.fn_enolase_16 X))) (let ((_let_14 (tptp.fn_enolase_12 X))) (let ((_let_15 (tptp.fn_enolase_11 X))) (let ((_let_16 (tptp.fn_enolase_10 X))) (let ((_let_17 (tptp.fn_enolase_3 X))) (let ((_let_18 (tptp.fn_enolase_13 X))) (let ((_let_19 (tptp.fn_enolase_19 X))) (let ((_let_20 (tptp.fn_enolase_15 X))) (let ((_let_21 (tptp.fn_enolase_4 X))) (let ((_let_22 (tptp.fn_enolase_18 X))) (let ((_let_23 (tptp.fn_enolase_17 X))) (let ((_let_24 (tptp.fn_enolase_14 X))) (let ((_let_25 (tptp.fn_enolase_2 X))) (let ((_let_26 (tptp.fn_enolase_9 X))) (let ((_let_27 (tptp.fn_enolase_8 X))) (let ((_let_28 (tptp.fn_enolase_20 X))) (let ((_let_29 (tptp.fn_enolase_5 X))) (let ((_let_30 (tptp.fn_enolase_6 X))) (let ((_let_31 (tptp.fn_enolase_7 X))) (let ((_let_32 (tptp.fn_enolase_1 X))) (let ((_let_33 (tptp.fn_disulfide_bond_3 _let_32))) (=> (tptp.enolase_1 X) (and (tptp.original_name_2 X |tptp.'Enolase'|) (tptp.user_description_2 X |tptp.'An enzyme that removes a molecule of water from 2-phosphoglyceric acid to form phosphoenolpyruvic acid (PEP).'|) (tptp.concept2words_2 X |tptp.'phosphopyruvate dehydratase'|) (tptp.concept2words_2 X |tptp.'phosphopyruvate-dehydratase'|) (tptp.concept2words_2 X tptp.enolase) (tptp.lyase_1 X) (tptp.disulfide_bond_1 _let_32) (tptp.catalyst_1 _let_25) (tptp.size_value_1 _let_17) (tptp.spatial_entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.monomer_1 _let_21) (tptp.molecule_1 _let_21) (tptp.amino_acid_1 _let_21) (tptp.quantity_value_1 _let_29) (tptp.speed_value_1 _let_30) (tptp.constant_motion_1 _let_31) (tptp.decrease_1 _let_27) (tptp.chemical_reaction_1 _let_26) (tptp.size_value_1 _let_16) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_1 _let_14) (tptp.monomer_1 _let_18) (tptp.polypeptide_1 _let_24) (tptp.active_site_1 _let_20) (tptp.carbon_skeleton_1 _let_13) (tptp.surface_1 _let_23) (tptp.hydrophilic_region_1 _let_22) (tptp.protein_domain_1 _let_19) (tptp.kinetic_energy_1 _let_28) (tptp.protein_1 _let_33) (tptp.possesses_2 X _let_32) (tptp.possesses_2 X _let_28) (tptp.quantity_2 _let_28 _let_29) (tptp.directly_proportional_2 _let_30 _let_29) (tptp.speed_2 _let_31 _let_30) (tptp.object_2 _let_31 X) (tptp.has_function_2 X _let_27) (tptp.enables_2 _let_27 _let_26) (tptp.plays_2 X _let_25) (tptp.in_event_2 _let_25 _let_26) (tptp.site_2 _let_26 _let_20) (tptp.facilitates_2 _let_20 _let_26) (tptp.has_function_2 X _let_26) (tptp.has_region_2 X _let_22) (tptp.is_at_2 _let_22 _let_23) (tptp.has_region_2 X _let_23) (tptp.has_part_2 X _let_24) (tptp.has_part_2 _let_24 _let_21) (tptp.is_at_2 _let_21 _let_19) (tptp.has_part_2 X _let_15) (tptp.the_scalar_value_2 _let_16 tptp.big_0) (tptp.scalar_unit_class_2 _let_16 tptp.polypeptide_0) (tptp.has_region_2 X _let_20) (tptp.size_2 X _let_16) (tptp.greater_than_2 _let_16 _let_17) (tptp.size_2 _let_18 _let_17) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= X _let_33) (= _let_31 (tptp.fn_molecule_8 X)) (= _let_30 (tptp.fn_molecule_3 X)) (= _let_29 (tptp.fn_molecule_4 X)) (= _let_28 (tptp.fn_molecule_12 X)) (= _let_27 (tptp.fn_enzyme_5 X)) (= _let_20 _let_10) (= _let_26 (tptp.fn_enzyme_4 X)) (= _let_25 (tptp.fn_enzyme_6 X)) (= _let_21 _let_12) (= _let_24 (tptp.fn_protein_8 X)) (= _let_23 (tptp.fn_protein_5 X)) (= _let_22 (tptp.fn_protein_1 X)) (= _let_21 _let_11) (= _let_20 _let_9) (= _let_19 (tptp.fn_protein_enzyme_5 X)) (= _let_18 (tptp.fn_protein_enzyme_9 X)) (= _let_17 (tptp.fn_protein_enzyme_4 X)) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_13 _let_2) (= _let_13 _let_1) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.ensemble_1 X) (and (tptp.original_name_2 X |tptp.'Ensemble'|) (tptp.description_2 X |tptp.'A collection of distinct structures which function together to carry out some task, as the respiratory enzyme complex on mitochondrial membranes.'|) (tptp.concept2words_2 X tptp.ensemble) (tptp.concept2words_2 X |tptp.'tout ensemble'|) (tptp.concept2words_2 X tptp.tout_ensemble) (tptp.aggregate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.enter_1 X) (and (tptp.original_name_2 X |tptp.'Enter'|) (tptp.concept2words_2 X |tptp.'move into'|) (tptp.concept2words_2 X |tptp.'go into'|) (tptp.concept2words_2 X |tptp.'go in'|) (tptp.concept2words_2 X |tptp.'get into'|) (tptp.concept2words_2 X |tptp.'come in'|) (tptp.concept2words_2 X tptp.enter) (tptp.concept2words_2 X tptp.come_in) (tptp.concept2words_2 X tptp.get_into) (tptp.concept2words_2 X |tptp.'get in'|) (tptp.concept2words_2 X tptp.get_in) (tptp.concept2words_2 X tptp.go_into) (tptp.concept2words_2 X tptp.go_in) (tptp.concept2words_2 X tptp.move_into) (tptp.move_into_1 X) (tptp.locomotion_1 X) (not (tptp.take_in_1 X)) (not (tptp.load_1 X)) (not (tptp.capillary_action_1 X)) (not (tptp.implant_1 X)) (not (tptp.package_recombinants_in_capsid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.enteric_division_1 X) (and (tptp.original_name_2 X |tptp.'Enteric-Division'|) (tptp.user_description_2 X |tptp.'System of neurons in the digestive tract, including the gallbladder and panceas. It is regulated by the parasympathetic and sympathetic division of the autonomic nervous system.'|) (tptp.concept2words_2 X |tptp.'enteric division'|) (tptp.concept2words_2 X |tptp.'enteric-division'|) (tptp.nervous_system_1 X) (not (tptp.central_nervous_system_1 X)) (not (tptp.nerve_net_1 X)) (not (tptp.peripheral_nervous_system_1 X))))) (forall ((X $$unsorted)) (=> (tptp.enterogastrone_1 X) (and (tptp.original_name_2 X |tptp.'Enterogastrone'|) (tptp.user_description_2 X |tptp.'A class of gastrointestinal hormones released from the duodenum in response to the presence of lipids. Includes CCK and secretin.'|) (tptp.concept2words_2 X tptp.enterogastrone) (tptp.digestive_hormone_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enteropeptidase_1 X))) (=> (tptp.enteropeptidase_1 X) (and (tptp.original_name_2 X |tptp.'Enteropeptidase'|) (tptp.user_description_2 X |tptp.'An intestinal enzyme that directly or indirectly triggers activation of digestive enzymes within the intestinal lumen.'|) (tptp.concept2words_2 X tptp.enterokinase) (tptp.concept2words_2 X tptp.enteropeptidase) (tptp.protease_1 X) (tptp.hydrophobic_region_1 _let_1) (tptp.has_region_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.entity_1 X) (and (tptp.original_name_2 X |tptp.'Entity'|) (tptp.concept2words_2 X tptp.product) (tptp.concept2words_2 X tptp.part) (tptp.concept2words_2 X tptp.value) (tptp.concept2words_2 X |tptp.'user equation expression'|) (tptp.concept2words_2 X |tptp.'user-equation-expression'|) (tptp.concept2words_2 X tptp.resultant_role) (tptp.concept2words_2 X |tptp.'resultant role'|) (tptp.concept2words_2 X |tptp.'recycled during'|) (tptp.concept2words_2 X |tptp.'recycled-during'|) (tptp.concept2words_2 X tptp.recipient_role) (tptp.concept2words_2 X |tptp.'recipient role'|) (tptp.concept2words_2 X tptp.recipient) (tptp.concept2words_2 X |tptp.'previous element'|) (tptp.concept2words_2 X tptp.participant) (tptp.concept2words_2 X tptp.affected_role) (tptp.concept2words_2 X tptp.patient_role) (tptp.concept2words_2 X |tptp.'affected role'|) (tptp.concept2words_2 X |tptp.'patient role'|) (tptp.concept2words_2 X |tptp.'next element'|) (tptp.concept2words_2 X |tptp.'next-element'|) (tptp.concept2words_2 X tptp.instrumental_role) (tptp.concept2words_2 X |tptp.'instrumental role'|) (tptp.concept2words_2 X tptp.tool) (tptp.concept2words_2 X tptp.instrument) (tptp.concept2words_2 X |tptp.'has structure'|) (tptp.concept2words_2 X |tptp.'has-structure'|) (tptp.concept2words_2 X |tptp.'element of first'|) (tptp.concept2words_2 X |tptp.'first element'|) (tptp.concept2words_2 X |tptp.'first-element'|) (tptp.concept2words_2 X tptp.experiencer) (tptp.concept2words_2 X |tptp.'equation use'|) (tptp.concept2words_2 X |tptp.'equation-use'|) (tptp.concept2words_2 X |tptp.'symbol of equation'|) (tptp.concept2words_2 X |tptp.'equation symbol'|) (tptp.concept2words_2 X |tptp.'equation-symbol'|) (tptp.concept2words_2 X |tptp.'expression of equation'|) (tptp.concept2words_2 X |tptp.'equation expression'|) (tptp.concept2words_2 X |tptp.'equation-expression'|) (tptp.concept2words_2 X tptp.donor) (tptp.concept2words_2 X |tptp.'base object'|) (tptp.concept2words_2 X tptp.agentive_role) (tptp.concept2words_2 X |tptp.'agentive role'|) (tptp.concept2words_2 X tptp.actor) (tptp.concept2words_2 X tptp.doer) (tptp.concept2words_2 X tptp.worker) (tptp.concept2words_2 X tptp.agent) (tptp.concept2words_2 X tptp.object) (tptp.concept2words_2 X tptp.element) (tptp.concept2words_2 X tptp.entity) (tptp.thing_1 X) (not (tptp.concept_word_frame_1 X)) (not (tptp.temporal_entity_1 X)) (not (tptp.role_1 X)) (not (tptp.event_1 X))))) (forall ((X $$unsorted)) (=> (tptp.entityproperty_1 X) (and (tptp.original_name_2 X |tptp.'EntityProperty'|) (tptp.concept2words_2 X tptp.entityproperty) (tptp.property_1 X)))) (forall ((X $$unsorted)) (=> (tptp.entrance_1 X) (and (tptp.original_name_2 X |tptp.'Entrance'|) (tptp.concept2words_2 X tptp.entrance) (tptp.concept2words_2 X tptp.entranceway) (tptp.concept2words_2 X tptp.entryway) (tptp.concept2words_2 X tptp.entry) (tptp.concept2words_2 X tptp.entree) (tptp.portal_1 X) (not (tptp.outlet_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_entry_of_arsenic_in_groundwater_4 X))) (let ((_let_2 (tptp.fn_locomotion_1 _let_1))) (let ((_let_3 (tptp.fn_entry_of_arsenic_in_groundwater_2 X))) (let ((_let_4 (tptp.fn_move_into_1 _let_1))) (let ((_let_5 (tptp.fn_entry_of_arsenic_in_groundwater_3 X))) (let ((_let_6 (tptp.fn_entry_of_arsenic_in_groundwater_1 X))) (=> (tptp.entry_of_arsenic_in_groundwater_1 X) (and (tptp.original_name_2 X |tptp.'Entry-Of-Arsenic-In-Groundwater'|) (tptp.user_description_2 X |tptp.'Contamination of groundwater due to naturally occurring high concentrations of arsenic in deep wells.'|) (tptp.concept2words_2 X |tptp.'entry of arsenic in groundwater'|) (tptp.concept2words_2 X |tptp.'entry-of-arsenic-in-groundwater'|) (tptp.ecological_process_1 X) (tptp.soil_1 _let_6) (tptp.arsenic_1 _let_3) (tptp.groundwater_1 _let_5) (tptp.enter_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.by_means_of_2 X _let_1) (tptp.base_2 X _let_5) (tptp.object_2 X _let_3) (tptp.has_part_2 _let_6 _let_3) (tptp.base_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (tptp.agent_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_entry_of_glucose_in_liver_cell_8 X))) (let ((_let_2 (tptp.fn_cotransporter_12 _let_1))) (let ((_let_3 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_4 (tptp.fn_energy_coupling_3 X))) (let ((_let_5 (tptp.fn_entry_of_glucose_in_liver_cell_5 X))) (let ((_let_6 (tptp.fn_exergonic_process_3 _let_5))) (let ((_let_7 (tptp.fn_passive_transport_17 _let_5))) (let ((_let_8 (tptp.fn_cotransporter_10 _let_1))) (let ((_let_9 (tptp.fn_facilitated_diffusion_26 _let_5))) (let ((_let_10 (tptp.fn_cotransporter_6 _let_1))) (let ((_let_11 (tptp.fn_passive_transport_25 _let_5))) (let ((_let_12 (tptp.fn_cotransporter_4 _let_1))) (let ((_let_13 (tptp.fn_facilitated_diffusion_49 _let_5))) (let ((_let_14 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_15 (tptp.fn_carrier_protein_18 _let_1))) (let ((_let_16 (tptp.fn_cotransporter_16 _let_1))) (let ((_let_17 (tptp.fn_cotransport_7 X))) (let ((_let_18 (tptp.fn_entry_of_glucose_in_liver_cell_9 X))) (let ((_let_19 (tptp.fn_eukaryotic_cell_32 _let_18))) (let ((_let_20 (tptp.fn_entry_of_glucose_in_liver_cell_2 X))) (let ((_let_21 (tptp.fn_entry_of_glucose_in_liver_cell_3 X))) (let ((_let_22 (tptp.fn_entry_of_glucose_in_liver_cell_7 X))) (let ((_let_23 (tptp.fn_facilitated_diffusion_25 _let_5))) (let ((_let_24 (tptp.fn_entry_of_glucose_in_liver_cell_6 X))) (let ((_let_25 (tptp.fn_entry_of_glucose_in_liver_cell_4 X))) (let ((_let_26 (tptp.fn_passive_transport_1 _let_5))) (=> (tptp.entry_of_glucose_in_liver_cell_1 X) (and (tptp.original_name_2 X |tptp.'Entry-Of-Glucose-In-Liver-Cell'|) (tptp.user_description_2 X |tptp.'Glucose carried in blood to the human liver enters liver cells rapidly through specific transport proteins in the plasma membrane.'|) (tptp.concept2words_2 X tptp.enter) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'entry of glucose in liver cell'|) (tptp.concept2words_2 X |tptp.'entry-of-glucose-in-liver-cell'|) (tptp.cotransport_1 X) (tptp.system_1 (tptp.fn_entry_of_glucose_in_liver_cell_1 X)) (tptp.energy_1 _let_20) (tptp.entity_1 _let_20) (tptp.free_energy_1 _let_20) (tptp.spatial_entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.glucose_1 _let_25) (tptp.passive_transport_1 _let_5) (tptp.facilitated_diffusion_1 _let_5) (tptp.exergonic_process_1 _let_5) (tptp.endergonic_process_1 _let_24) (tptp.work_1 _let_24) (tptp.cellular_work_1 _let_24) (tptp.active_transport_using_atp_1 _let_24) (tptp.membrane_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.biomembrane_1 _let_22) (tptp.carrier_protein_1 _let_1) (tptp.transport_protein_1 _let_1) (tptp.cotransporter_1 _let_1) (tptp.liver_cell_1 _let_18) (tptp.cell_1 _let_26) (tptp.transport_protein_1 _let_23) (tptp.cellular_work_1 _let_19) (tptp.endergonic_process_1 _let_16) (tptp.work_1 _let_16) (tptp.cellular_work_1 _let_16) (tptp.active_transport_using_atp_1 _let_16) (tptp.membrane_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.biomembrane_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.membrane_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.energy_1 _let_8) (tptp.entity_1 _let_8) (tptp.free_energy_1 _let_8) (tptp.free_energy_1 _let_7) (tptp.free_energy_1 _let_6) (tptp.facilitated_diffusion_1 _let_3) (tptp.cotransport_1 _let_2) (tptp.base_2 X _let_18) (tptp.called_2 _let_24 |tptp.'AT2'|) (not (= _let_25 _let_21)) (not (= _let_21 _let_25)) (tptp.base_2 _let_24 _let_18) (tptp.base_2 _let_5 _let_18) (tptp.subevent_2 X _let_5) (tptp.object_2 X _let_25) (tptp.object_2 _let_24 _let_25) (tptp.instrument_2 _let_5 _let_1) (tptp.agent_2 _let_24 _let_1) (tptp.agent_2 X _let_1) (tptp.subevent_2 X _let_24) (tptp.path_2 _let_24 _let_22) (tptp.path_2 X _let_22) (tptp.object_2 X _let_21) (tptp.is_across_2 _let_1 _let_22) (tptp.has_part_2 _let_22 _let_1) (tptp.has_function_2 _let_1 X) (tptp.object_2 X _let_20) (tptp.raw_material_2 _let_24 _let_20) (tptp.path_2 _let_5 _let_22) (tptp.result_2 _let_5 _let_20) (tptp.object_2 _let_5 _let_21) (= _let_24 _let_19) (= _let_18 _let_26) (= _let_5 _let_4) (= _let_24 _let_17) (= _let_25 (tptp.fn_cotransport_16 X)) (= _let_21 _let_10) (= _let_24 _let_16) (= _let_20 _let_8) (= X _let_2) (= _let_22 _let_15) (= _let_1 _let_23) (= _let_22 _let_13) (= _let_22 _let_12) (= _let_5 _let_3) (= _let_22 _let_14) (= _let_22 _let_11) (= _let_21 _let_9) (= _let_20 _let_7) (= _let_20 _let_6) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enucleated_cell_1 X))) (let ((_let_2 (tptp.fn_remove_2 _let_1))) (let ((_let_3 (tptp.fn_remove_1 _let_1))) (let ((_let_4 (tptp.fn_enucleated_cell_2 X))) (=> (tptp.enucleated_cell_1 X) (and (tptp.original_name_2 X |tptp.'Enucleated-Cell'|) (tptp.user_description_2 X |tptp.'An enucleated cell is a cell where the nucleus, and thus all genetic information, has been removed.'|) (tptp.concept2words_2 X |tptp.'enucleated cell'|) (tptp.concept2words_2 X |tptp.'enucleated-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.remove_1 _let_1) (tptp.nucleus_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.object_2 _let_1 _let_4) (tptp.base_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.environment_1 X) (and (tptp.original_name_2 X |tptp.'Environment'|) (tptp.user_description_2 X |tptp.'All living and nonliving things that occur naturally on the Earth or in some region of the Earth.'|) (tptp.concept2words_2 X tptp.surrounding) (tptp.concept2words_2 X tptp.environment) (tptp.region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzymatic_reaction_14 X))) (let ((_let_2 (tptp.fn_enzyme_4 _let_1))) (let ((_let_3 (tptp.fn_enzyme_8 _let_1))) (let ((_let_4 (tptp.fn_enzymatic_reaction_15 X))) (let ((_let_5 (tptp.fn_chemical_3 _let_4))) (let ((_let_6 (tptp.fn_enzymatic_reaction_10 X))) (let ((_let_7 (tptp.fn_attach_1 _let_6))) (let ((_let_8 (tptp.fn_enzyme_2 _let_1))) (let ((_let_9 (tptp.fn_enzymatic_reaction_13 X))) (let ((_let_10 (tptp.fn_enzymatic_reaction_12 X))) (let ((_let_11 (tptp.fn_enzyme_7 _let_1))) (let ((_let_12 (tptp.fn_enzymatic_reaction_9 X))) (let ((_let_13 (tptp.fn_enzymatic_reaction_11 X))) (let ((_let_14 (tptp.fn_enzyme_substrate_complex_9 _let_13))) (let ((_let_15 (tptp.fn_enzymatic_reaction_17 X))) (let ((_let_16 (tptp.fn_enzyme_substrate_complex_2 _let_13))) (let ((_let_17 (tptp.fn_enzymatic_reaction_16 X))) (let ((_let_18 (tptp.fn_attach_2 _let_6))) (let ((_let_19 (tptp.fn_enzymatic_reaction_4 X))) (let ((_let_20 (tptp.fn_enzymatic_reaction_3 X))) (let ((_let_21 (tptp.fn_enzymatic_reaction_5 X))) (let ((_let_22 (tptp.fn_enzymatic_reaction_8 X))) (let ((_let_23 (tptp.fn_enzymatic_reaction_7 X))) (=> (tptp.enzymatic_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Enzymatic-Reaction'|) (tptp.user_description_2 X |tptp.'A chemical reaction that is catalyzed by an enzyme.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'enzymatic reaction'|) (tptp.concept2words_2 X |tptp.'enzymatic-reaction'|) (tptp.chemical_reaction_1 X) (tptp.rate_value_1 _let_20) (tptp.concentration_value_1 _let_19) (tptp.quantity_value_1 _let_21) (tptp.weak_interaction_1 _let_23) (tptp.hydrogen_bond_1 _let_22) (tptp.substrate_1 _let_12) (tptp.attach_1 _let_6) (tptp.enzyme_substrate_complex_1 _let_13) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.active_site_1 _let_9) (tptp.spatial_entity_1 _let_1) (tptp.enzyme_1 _let_1) (tptp.chemical_1 _let_4) (tptp.chemical_entity_1 _let_17) (tptp.enzyme_1 _let_15) (tptp.spatial_entity_1 _let_18) (tptp.chemical_entity_1 _let_16) (tptp.enzyme_1 _let_14) (tptp.reactant_1 _let_11) (tptp.active_site_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.chemical_reaction_1 _let_2) (tptp.enables_2 _let_6 X) (tptp.site_2 _let_6 _let_9) (tptp.result_2 _let_6 _let_13) (tptp.instrument_2 _let_6 _let_23) (tptp.instrument_2 _let_6 _let_22) (tptp.directly_proportional_2 _let_21 _let_20) (tptp.has_state_2 _let_10 _let_17) (tptp.rate_2 X _let_20) (tptp.quantity_2 _let_1 _let_21) (tptp.is_specific_to_2 _let_1 _let_10) (tptp.has_state_2 _let_1 _let_15) (tptp.concentration_2 _let_4 _let_19) (tptp.directly_proportional_2 _let_20 _let_19) (tptp.base_2 _let_6 _let_1) (tptp.object_2 _let_6 _let_10) (tptp.has_part_2 _let_4 _let_10) (tptp.element_2 _let_13 _let_17) (tptp.element_2 _let_13 _let_15) (tptp.has_function_2 _let_1 X) (tptp.has_region_2 _let_1 _let_9) (tptp.site_2 X _let_9) (tptp.raw_material_2 X _let_10) (tptp.plays_2 _let_10 _let_12) (= _let_1 _let_18) (= _let_10 _let_7) (= _let_10 _let_5) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_10 _let_3) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzyme_6 X))) (let ((_let_2 (tptp.fn_catalyst_2 _let_1))) (let ((_let_3 (tptp.fn_catalyst_1 _let_1))) (let ((_let_4 (tptp.fn_enzyme_7 X))) (let ((_let_5 (tptp.fn_reactant_2 _let_4))) (let ((_let_6 (tptp.fn_enzyme_4 X))) (let ((_let_7 (tptp.fn_reactant_3 _let_4))) (let ((_let_8 (tptp.fn_enzyme_8 X))) (let ((_let_9 (tptp.fn_enzyme_5 X))) (let ((_let_10 (tptp.fn_decrease_3 _let_9))) (let ((_let_11 (tptp.fn_enzyme_9 X))) (let ((_let_12 (tptp.fn_decrease_2 _let_9))) (let ((_let_13 (tptp.fn_enzyme_2 X))) (let ((_let_14 (tptp.fn_enzyme_1 X))) (=> (tptp.enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme'|) (tptp.user_description_2 X |tptp.'An enzyme is a macromolecule that acts as a catalyst, a chemical agent that speeds up a reaction without being consumed by the reaction.'|) (tptp.concept2words_2 X tptp.enzymes) (tptp.concept2words_2 X tptp.enzyme) (tptp.organic_molecule_1 X) (tptp.activation_energy_1 _let_14) (tptp.active_site_1 _let_13) (tptp.chemical_reaction_1 _let_6) (tptp.decrease_1 _let_9) (tptp.catalyst_1 _let_1) (tptp.reactant_1 _let_4) (tptp.chemical_entity_1 _let_8) (tptp.quantity_value_1 _let_11) (tptp.property_node_1 _let_12) (tptp.property_value_1 _let_10) (tptp.chemical_entity_1 _let_7) (tptp.chemical_reaction_1 _let_5) (tptp.chemical_reaction_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.facilitates_2 _let_13 _let_6) (tptp.site_2 _let_6 _let_13) (tptp.enables_2 _let_9 _let_6) (tptp.quantity_2 _let_14 _let_11) (tptp.has_region_2 X _let_13) (tptp.has_function_2 X _let_9) (tptp.from_value_2 _let_9 _let_11) (tptp.in_event_2 _let_4 _let_6) (tptp.raw_material_2 _let_6 _let_8) (tptp.plays_2 _let_8 _let_4) (tptp.in_event_2 _let_1 _let_6) (tptp.has_function_2 X _let_6) (tptp.plays_2 X _let_1) (= (tptp.fn_enzyme_3 X) _let_12) (= _let_11 _let_10) (= _let_8 _let_7) (= _let_6 _let_5) (= X _let_2) (= _let_6 _let_3) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzyme_regulator_2 X))) (let ((_let_2 (tptp.fn_enzyme_activator_5 X))) (let ((_let_3 (tptp.fn_cofactor_1 _let_2))) (let ((_let_4 (tptp.fn_enzyme_activator_4 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_enzyme_activator_2 X))) (let ((_let_7 (tptp.fn_allosteric_enzyme_11 _let_6))) (let ((_let_8 (tptp.fn_enzyme_activator_1 X))) (let ((_let_9 (tptp.fn_conformational_change_4 _let_8))) (let ((_let_10 (tptp.fn_enzyme_activator_6 X))) (let ((_let_11 (tptp.fn_enzyme_activator_7 X))) (let ((_let_12 (tptp.fn_enzyme_activator_3 X))) (let ((_let_13 (tptp.fn_attach_2 _let_4))) (=> (tptp.enzyme_activator_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Activator'|) (tptp.user_description_2 X |tptp.'Enzyme activators are molecules that bind to enzymes and increase their activity. These molecules are often involved in the allosteric regulation of enzymes in the control of metabolism.'|) (tptp.concept2words_2 X |tptp.'activator of enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme activator'|) (tptp.concept2words_2 X |tptp.'enzyme-activator'|) (tptp.enzyme_regulator_1 X) (tptp.conformational_change_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.allosteric_enzyme_1 _let_6) (tptp.spatial_entity_1 _let_12) (tptp.allosteric_site_1 _let_12) (tptp.attach_1 _let_4) (tptp.cofactor_1 _let_2) (tptp.regulation_1 _let_10) (tptp.spatial_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.molecule_1 _let_11) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_9) (tptp.allosteric_site_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.causes_2 _let_4 _let_8) (tptp.site_2 _let_4 _let_12) (tptp.base_2 _let_4 _let_6) (tptp.object_2 _let_8 _let_12) (tptp.object_2 _let_4 _let_11) (tptp.plays_2 _let_11 _let_2) (tptp.has_region_2 _let_6 _let_12) (tptp.has_function_2 _let_11 _let_10) (tptp.in_event_2 X _let_10) (tptp.agent_2 _let_10 _let_11) (tptp.plays_2 _let_11 X) (= _let_6 _let_13) (= _let_12 _let_9) (= _let_11 _let_5) (= _let_11 _let_3) (= _let_12 _let_7) (= _let_11 _let_1) (= _let_10 (tptp.fn_enzyme_regulator_3 X)) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.enzyme_complement_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Complement'|) (tptp.user_description_2 X |tptp.'It refers to complementation of a small fragment of enzyme to inactive/mutant enzyme forming a stable heteromeric enzyme complex.'|) (tptp.concept2words_2 X |tptp.'complement of enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme complement'|) (tptp.concept2words_2 X |tptp.'enzyme-complement'|) (tptp.enzyme_regulator_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzyme_regulator_3 X))) (let ((_let_2 (tptp.fn_inhibitor_3 X))) (let ((_let_3 (tptp.fn_enzyme_regulator_2 X))) (let ((_let_4 (tptp.fn_inhibitor_2 X))) (let ((_let_5 (tptp.fn_enzyme_inhibitor_4 X))) (let ((_let_6 (tptp.fn_cofactor_1 _let_5))) (let ((_let_7 (tptp.fn_enzyme_inhibitor_5 X))) (let ((_let_8 (tptp.fn_attach_1 _let_7))) (let ((_let_9 (tptp.fn_enzyme_regulator_1 X))) (let ((_let_10 (tptp.fn_attach_2 _let_7))) (let ((_let_11 (tptp.fn_enzyme_inhibitor_2 X))) (let ((_let_12 (tptp.fn_enzyme_inhibitor_3 X))) (let ((_let_13 (tptp.fn_enzyme_inhibitor_7 X))) (let ((_let_14 (tptp.fn_enzyme_4 _let_13))) (let ((_let_15 (tptp.fn_enzyme_inhibitor_6 X))) (let ((_let_16 (tptp.fn_enzyme_inhibitor_1 X))) (=> (tptp.enzyme_inhibitor_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Inhibitor'|) (tptp.user_description_2 X |tptp.'Enzyme inhibitors are molecules that bind to enzymes and decrease their activity.'|) (tptp.concept2words_2 X |tptp.'inhibitor of enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme inhibitor'|) (tptp.concept2words_2 X |tptp.'enzyme-inhibitor'|) (tptp.inhibitor_1 X) (tptp.enzyme_regulator_1 X) (tptp.receptor_site_1 _let_16) (tptp.inhibition_1 _let_11) (tptp.regulation_1 _let_11) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.molecule_1 _let_12) (tptp.cofactor_1 _let_5) (tptp.attach_1 _let_7) (tptp.chemical_reaction_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.enzyme_1 _let_13) (tptp.protein_enzyme_1 _let_13) (tptp.chemical_reaction_1 _let_14) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.site_2 _let_7 _let_16) (tptp.agent_2 _let_15 _let_13) (tptp.has_region_2 _let_13 _let_16) (tptp.base_2 _let_7 _let_13) (tptp.object_2 _let_7 _let_12) (tptp.plays_2 _let_12 _let_5) (tptp.has_function_2 _let_13 _let_15) (tptp.plays_2 _let_12 X) (tptp.in_event_2 X _let_11) (tptp.agent_2 _let_11 _let_12) (tptp.has_function_2 _let_12 _let_11) (tptp.object_2 _let_11 _let_13) (= _let_13 _let_10) (= _let_12 _let_8) (= _let_12 _let_6) (= _let_15 _let_14) (= _let_13 _let_9) (= _let_12 _let_4) (= _let_12 _let_3) (= _let_11 _let_2) (= _let_11 _let_1) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzyme_regulator_3 X))) (let ((_let_2 (tptp.fn_enzyme_regulator_2 X))) (let ((_let_3 (tptp.fn_enzyme_regulator_1 X))) (=> (tptp.enzyme_regulator_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Regulator'|) (tptp.user_description_2 X |tptp.'A chemical compound which serves to regulate or control enzymatic activity.'|) (tptp.concept2words_2 X |tptp.'regulator of enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme regulator'|) (tptp.concept2words_2 X |tptp.'enzyme-regulator'|) (tptp.regulator_molecule_1 X) (tptp.protein_enzyme_1 _let_3) (tptp.molecule_1 _let_2) (tptp.regulation_1 _let_1) (tptp.agent_2 _let_1 _let_2) (tptp.object_2 _let_1 _let_3) (tptp.in_event_2 X _let_1) (tptp.has_function_2 _let_2 _let_1) (tptp.plays_2 _let_2 X) (= _let_2 (tptp.fn_regulator_molecule_3 X)) (= _let_1 (tptp.fn_regulator_molecule_2 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_enzyme_substrate_complex_9 X))) (let ((_let_2 (tptp.fn_molecule_12 _let_1))) (let ((_let_3 (tptp.fn_enzyme_substrate_complex_6 X))) (let ((_let_4 (tptp.fn_molecule_4 _let_1))) (let ((_let_5 (tptp.fn_enzyme_substrate_complex_5 X))) (let ((_let_6 (tptp.fn_molecule_3 _let_1))) (let ((_let_7 (tptp.fn_enzyme_substrate_complex_4 X))) (let ((_let_8 (tptp.fn_molecule_8 _let_1))) (let ((_let_9 (tptp.fn_enzyme_substrate_complex_8 X))) (let ((_let_10 (tptp.fn_molecule_1 _let_1))) (let ((_let_11 (tptp.fn_molecule_2 _let_1))) (let ((_let_12 (tptp.fn_molecule_7 _let_1))) (let ((_let_13 (tptp.fn_enzyme_substrate_complex_7 X))) (let ((_let_14 (tptp.fn_enzyme_substrate_complex_3 X))) (let ((_let_15 (tptp.fn_reactant_3 _let_14))) (let ((_let_16 (tptp.fn_enzyme_substrate_complex_2 X))) (let ((_let_17 (tptp.fn_enzyme_substrate_complex_1 X))) (=> (tptp.enzyme_substrate_complex_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Substrate-Complex'|) (tptp.user_description_2 X |tptp.'The complex formed during a chemical reaction (involving only one substrate), when the substrate molecule binds to the active site of the particular enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme substrate complex'|) (tptp.concept2words_2 X |tptp.'enzyme-substrate complex'|) (tptp.concept2words_2 X |tptp.'enzyme-substrate-complex'|) (tptp.protein_related_aggregates_1 X) (tptp.carbon_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.substrate_1 _let_14) (tptp.speed_value_1 _let_7) (tptp.quantity_value_1 _let_5) (tptp.kinetic_energy_1 _let_3) (tptp.atom_1 _let_13) (tptp.constant_motion_1 _let_9) (tptp.enzyme_1 _let_1) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_12) (tptp.property_node_1 _let_11) (tptp.property_node_1 _let_10) (tptp.constant_motion_1 _let_8) (tptp.speed_value_1 _let_6) (tptp.quantity_value_1 _let_4) (tptp.kinetic_energy_1 _let_2) (tptp.has_part_2 _let_1 _let_17) (not (= _let_13 _let_17)) (not (= _let_17 _let_13)) (tptp.element_2 X _let_1) (tptp.element_2 X _let_16) (tptp.plays_2 _let_16 _let_14) (tptp.has_part_2 _let_1 _let_13) (= _let_16 _let_15) (= _let_13 _let_12) (= (tptp.fn_enzyme_substrate_complex_10 X) _let_11) (= (tptp.fn_enzyme_substrate_complex_11 X) _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.synthesis_of_protein_1 X) (tptp.protein_enzyme_1 X1)) (and (tptp.enzyme_synthesis_1 X) (= (tptp.fn_enzyme_synthesis_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_synthesis_of_protein_16 X))) (let ((_let_2 (tptp.fn_anabolic_pathway_5 X))) (let ((_let_3 (tptp.fn_enzyme_synthesis_2 X))) (=> (tptp.enzyme_synthesis_1 X) (and (tptp.original_name_2 X |tptp.'Enzyme-Synthesis'|) (tptp.user_description_2 X |tptp.'The formation of an enzyme, a biological catalyst which is a type of protein.'|) (tptp.concept2words_2 X tptp.synthesize) (tptp.concept2words_2 X |tptp.'synthesis of enzyme'|) (tptp.concept2words_2 X |tptp.'enzyme synthesis'|) (tptp.concept2words_2 X |tptp.'enzyme-synthesis'|) (tptp.synthesis_of_protein_1 X) (not (tptp.synthesis_of_glycoprotein_1 X)) (not (tptp.synthesis_of_human_protein_in_bacteria_1 X)) (not (tptp.synthesis_of_insulin_1 X)) (not (tptp.synthesis_of_membrane_protein_1 X)) (tptp.protein_enzyme_1 _let_3) (tptp.result_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.eosinophil_1 X) (and (tptp.original_name_2 X |tptp.'Eosinophil'|) (tptp.user_description_2 X |tptp.'A type of white blood cell with low phagocytic activity that is thought to play a role in defense against parasitic worms by releasing enzymes toxic to these invaders.'|) (tptp.concept2words_2 X tptp.eosinophil) (tptp.immune_cell_1 X) (not (tptp.antigen_presenting_cell_1 X)) (not (tptp.effector_cell_1 X)) (not (tptp.mast_cell_1 X)) (not (tptp.natural_killer_cell_1 X)) (not (tptp.neutrophil_1 X)) (not (tptp.recombinant_immune_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ephemeroptera_1 X) (and (tptp.original_name_2 X |tptp.'Ephemeroptera'|) (tptp.user_description_2 X |tptp.'Order of the class Insecta having a short lifespan, aquatic larvae, and membranous wings.'|) (tptp.concept2words_2 X tptp.mayflies) (tptp.concept2words_2 X tptp.ephemeroptera) (tptp.insect_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epiblast_1 X) (and (tptp.original_name_2 X |tptp.'Epiblast'|) (tptp.user_description_2 X |tptp.'Tissue type derived from the inner cell mass in mammals or the blastodisc in birds or reptiles.'|) (tptp.concept2words_2 X tptp.epiblast) (tptp.embryonic_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epicotyl_1 X) (and (tptp.original_name_2 X |tptp.'Epicotyl'|) (tptp.user_description_2 X |tptp.'In an angiosperm, the region of the shoot above the cotyledon and below the first pair of leaves.'|) (tptp.concept2words_2 X tptp.epicotyl) (tptp.plant_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epidemic_1 X) (and (tptp.original_name_2 X |tptp.'Epidemic'|) (tptp.user_description_2 X |tptp.'Occurrence of a human disease that is greater than expected based on recent experience.'|) (tptp.concept2words_2 X tptp.epidemic) (tptp.infection_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epidemiology_1 X) (and (tptp.original_name_2 X |tptp.'Epidemiology'|) (tptp.user_description_2 X |tptp.'The study of human health and disease at the population level.'|) (tptp.concept2words_2 X tptp.epidemiology) (tptp.study_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epidermal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Epidermal-Cell'|) (tptp.user_description_2 X |tptp.'Epidermal cells are cells that make up the epidermis.'|) (tptp.concept2words_2 X |tptp.'epidermal cell'|) (tptp.concept2words_2 X |tptp.'epidermal-cell'|) (tptp.eukaryotic_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epidermal_growth_factor_1 X) (and (tptp.original_name_2 X |tptp.'Epidermal-Growth-Factor'|) (tptp.user_description_2 X |tptp.'A protein that stimulates epidermal development.'|) (tptp.concept2words_2 X tptp.egf) (tptp.concept2words_2 X |tptp.'epidermal growth factor'|) (tptp.concept2words_2 X |tptp.'epidermal growth-factor'|) (tptp.concept2words_2 X |tptp.'epidermal-growth-factor'|) (tptp.growth_factor_1 X) (not (tptp.platelet_derived_growth_factor_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_epidermis_4 X))) (let ((_let_2 (tptp.fn_epidermis_1 X))) (let ((_let_3 (tptp.fn_epidermis_3 X))) (let ((_let_4 (tptp.fn_epidermis_2 X))) (=> (tptp.epidermis_1 X) (and (tptp.original_name_2 X |tptp.'Epidermis'|) (tptp.user_description_2 X |tptp.'The outermost layer of tightly packed cells in an animal or plant body. The epidermis forms a boundary between the internal and external environments.'|) (tptp.concept2words_2 X tptp.skin) (tptp.concept2words_2 X tptp.epidermis) (tptp.mixed_epithelial_tissue_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.apical_ectodermal_ridge_1 X)) (not (tptp.bark_1 X)) (not (tptp.callus_1 X)) (not (tptp.calyptra_1 X)) (not (tptp.coleoptile_1 X)) (not (tptp.coleorhiza_1 X)) (not (tptp.endodermis_1 X)) (not (tptp.periderm_1 X)) (not (tptp.root_cap_1 X)) (not (tptp.seed_coat_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X)) (tptp.stoma_1 _let_2) (tptp.symplast_1 _let_4) (tptp.apoplast_1 _let_3) (tptp.epidermal_cell_1 _let_1) (tptp.has_region_2 X _let_4) (tptp.has_region_2 X _let_3) (tptp.has_region_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_tissue_1 X))))))))) (forall ((X $$unsorted)) (=> (tptp.epididymis_1 X) (and (tptp.original_name_2 X |tptp.'Epididymis'|) (tptp.user_description_2 X |tptp.'A coiled tubule in male amniotes that transfers sperm from the testis to the vas deferens. The epididymis is the site of sperm maturation.'|) (tptp.concept2words_2 X tptp.epididymis) (tptp.reproductive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.epigenesis_1 X) (and (tptp.original_name_2 X |tptp.'Epigenesis'|) (tptp.user_description_2 X |tptp.'The theory that an individual is developed by successive differentiation of an unstructured egg rather than by a simple enlarging of a preformed entity.'|) (tptp.concept2words_2 X tptp.epigenesis) (tptp.theory_1 X) (not (tptp.gradualism_theory_1 X)) (not (tptp.lamarcks_theory_of_evolution_1 X))))) (forall ((X $$unsorted)) (=> (tptp.epigenetic_inheritance_1 X) (and (tptp.original_name_2 X |tptp.'Epigenetic-Inheritance'|) (tptp.user_description_2 X |tptp.'The inheritance of changes in gene expression or cellular-level phenotype that are heritable but not directly due to variation in nucleotide sequence.'|) (tptp.concept2words_2 X |tptp.'inherit epigenetically'|) (tptp.concept2words_2 X |tptp.'epigenetic inheritance'|) (tptp.concept2words_2 X |tptp.'epigenetic-inheritance'|) (tptp.inheritance_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_epiglottis_1 X))) (=> (tptp.epiglottis_1 X) (and (tptp.original_name_2 X |tptp.'Epiglottis'|) (tptp.user_description_2 X |tptp.'Flap of cartilage which closes during swallowing to direct food into the esophagus and prevent it from entering the airway.'|) (tptp.concept2words_2 X tptp.epiglottis) (tptp.valve_1 X) (tptp.connective_tissue_1 X) (tptp.cartilage_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.epinephrine_1 X) (and (tptp.original_name_2 X |tptp.'Epinephrine'|) (tptp.user_description_2 X |tptp.'A catecholamine that acts as both a hormone and a neurotransmitter. When secreted as a hormone by the adrenal glands it is a crucial component of the flight-or-fight response. Also known as adrenalin.'|) (tptp.concept2words_2 X tptp.epinephrine) (tptp.concept2words_2 X tptp.adrenaline) (tptp.catecholamine_1 X) (not (tptp.dopamine_1 X)) (not (tptp.melatonin_1 X)) (not (tptp.norepinephrine_1 X)) (not (tptp.t3_1 X)) (not (tptp.t4_1 X))))) (forall ((X $$unsorted)) (=> (tptp.epiphyte_1 X) (and (tptp.original_name_2 X |tptp.'Epiphyte'|) (tptp.user_description_2 X |tptp.'A plant that receives water and nutrients from the air and precipitation, but grows on the surface of another plant, using it only for support.'|) (tptp.concept2words_2 X tptp.epiphyte) (tptp.plant_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_episome_3 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_episome_1 X))) (let ((_let_4 (tptp.fn_episome_2 X))) (=> (tptp.episome_1 X) (and (tptp.original_name_2 X |tptp.'Episome'|) (tptp.user_description_2 X |tptp.'Episomes are plasmids that can integrate themselves into the chromosomal DNA of the host organism.'|) (tptp.concept2words_2 X tptp.episome) (tptp.dna_sequence_1 X) (not (tptp.tata_box_1 X)) (not (tptp.constant_region_dna_sequence_1 X)) (not (tptp.control_element_1 X)) (not (tptp.dna_strand_1 X)) (not (tptp.genetic_marker_1 X)) (not (tptp.pseudogene_1 X)) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.restriction_site_1 X)) (not (tptp.telomere_1 X)) (not (tptp.transcription_unit_1 X)) (not (tptp.transposon_1 X)) (not (tptp.ttaggg_1 X)) (not (tptp.variable_region_dna_sequence_1 X)) (tptp.replication_1 _let_3) (tptp.dna_1 _let_4) (tptp.move_into_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.destination_2 _let_1 _let_4) (tptp.next_event_2 _let_1 _let_3) (tptp.object_2 _let_3 X) (tptp.object_2 _let_1 X) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_epistasis_2 X))) (let ((_let_2 (tptp.fn_epistasis_1 X))) (=> (tptp.epistasis_1 X) (and (tptp.original_name_2 X |tptp.'Epistasis'|) (tptp.user_description_2 X |tptp.'A type of gene interaction in which one gene alters the phenotypic effects of another gene that is independently inherited.'|) (tptp.concept2words_2 X tptp.epistasis) (tptp.gene_interactions_1 X) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.gene_regulation_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.gene_regulation_1 _let_2) (tptp.gene_1 _let_1) (tptp.by_means_of_2 X _let_2) (tptp.agent_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.epithelial_cell_1 X) (and (tptp.original_name_2 X |tptp.'Epithelial-Cell'|) (tptp.user_description_2 X |tptp.'Cell which makes up epithelial tissues.'|) (tptp.concept2words_2 X |tptp.'epithelial cell'|) (tptp.concept2words_2 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(tptp.is_opposite_2 _let_130 _let_132) (tptp.is_opposite_2 _let_132 _let_130) (tptp.causes_2 _let_126 _let_118) (tptp.base_2 _let_118 _let_7) (tptp.has_function_2 _let_7 _let_128) (tptp.base_2 _let_128 _let_7) (tptp.has_region_2 _let_7 _let_130) (tptp.size_2 _let_7 _let_120) (tptp.directly_proportional_2 _let_120 _let_122) (tptp.volume_2 _let_7 _let_122) (tptp.has_part_2 _let_7 _let_124) (tptp.origin_2 _let_126 _let_124) (tptp.base_2 _let_116 _let_7) (tptp.subevent_2 _let_97 _let_116) (tptp.base_2 _let_97 _let_7) (tptp.has_part_2 _let_7 _let_84) (tptp.site_2 _let_118 _let_84) (tptp.is_between_2 _let_83 _let_4) (tptp.is_across_2 _let_103 _let_4) (tptp.object_2 _let_114 _let_103) (tptp.base_2 _let_114 _let_4) (tptp.has_part_2 _let_4 _let_107) (tptp.base_2 _let_109 _let_7) (tptp.has_function_2 _let_7 _let_109) (tptp.has_part_2 _let_7 _let_83) (tptp.has_part_2 _let_83 _let_111) (not (= _let_111 _let_113)) (not (= _let_113 _let_111)) (tptp.has_region_2 _let_4 _let_106) (tptp.is_across_2 _let_103 _let_106) (not (= _let_103 _let_107)) (not (= _let_107 _let_103)) (not (= _let_102 _let_107)) (not (= _let_107 _let_102)) (tptp.is_inside_2 _let_105 _let_78) (tptp.has_part_2 _let_7 _let_105) (tptp.has_part_2 _let_7 _let_4) (tptp.has_part_2 _let_4 _let_103) (tptp.is_at_2 _let_103 _let_4) (tptp.has_region_2 _let_4 _let_100) (tptp.is_outside_2 _let_100 _let_4) (tptp.has_part_2 _let_4 _let_102) (not (= _let_102 _let_103)) (tptp.is_inside_2 _let_103 _let_87) (not (= _let_103 _let_102)) (tptp.has_function_2 _let_84 _let_97) (tptp.site_2 _let_97 _let_84) (tptp.site_2 _let_99 _let_84) (tptp.base_2 _let_99 _let_7) (tptp.has_part_2 _let_7 _let_95) (tptp.is_inside_2 _let_91 _let_76) (tptp.has_part_2 _let_7 _let_91) (tptp.has_part_2 _let_7 _let_93) (tptp.abuts_2 _let_95 _let_93) (tptp.abuts_2 _let_93 _let_95) (tptp.object_2 _let_86 _let_7) (tptp.agent_2 _let_86 _let_4) (tptp.has_part_2 _let_4 _let_87) (tptp.is_at_2 _let_87 _let_89) (tptp.has_region_2 _let_7 _let_89) (tptp.is_between_2 _let_83 _let_76) (tptp.has_part_2 _let_83 _let_78) (tptp.is_inside_2 _let_84 _let_78) (tptp.is_near_2 _let_82 _let_76) (tptp.is_near_2 _let_76 _let_82) (tptp.has_part_2 _let_7 _let_76) (tptp.is_inside_2 _let_76 _let_78) (tptp.is_inside_2 _let_80 _let_78) (tptp.has_part_2 _let_7 _let_80) (tptp.has_part_2 _let_7 _let_82) (= _let_215 _let_214) (= _let_177 _let_70) (= _let_1 _let_212) (= _let_7 _let_6) (= _let_210 _let_209) (= _let_149 _let_59) (= _let_83 _let_10) (= _let_180 _let_72) (= _let_149 _let_57) (= _let_208 _let_74) (= _let_208 _let_73) (= (tptp.fn_epithelium_9 X) _let_207) (= (tptp.fn_epithelium_10 X) _let_206) (= (tptp.fn_epithelium_8 X) _let_205) (= (tptp.fn_epithelium_6 X) _let_204) (= _let_203 _let_202) (= (tptp.fn_epithelium_7 X) _let_201) (= _let_200 _let_199) (= _let_198 _let_197) (= _let_196 _let_195) (= (tptp.fn_epithelium_11 X) _let_194) (= _let_193 _let_192) (= _let_191 _let_190) (= _let_189 _let_188) (= _let_187 _let_186) (= _let_185 _let_184) (= _let_183 _let_182) (= (tptp.fn_epithelium_13 X) _let_181) (= _let_180 _let_71) (= (tptp.fn_epithelium_12 X) _let_179) (= (tptp.fn_epithelium_5 X) _let_178) (= _let_177 _let_68) (= (tptp.fn_epithelium_3 X) _let_176) (= _let_175 _let_174) (= (tptp.fn_epithelium_2 X) _let_173) (= _let_172 _let_171) (= _let_148 _let_45) (= (tptp.fn_epithelium_4 X) _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_150 _let_45) (= _let_150 _let_53) (= _let_163 _let_67) (= _let_163 _let_66) (= _let_162 _let_72) (= _let_148 _let_54) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_157 _let_156) (= _let_155 _let_65) (= _let_155 _let_64) (= _let_153 _let_61) (= _let_154 _let_63) (= _let_154 _let_62) (= _let_153 _let_60) (= _let_152 _let_151) (= _let_150 _let_54) (= _let_149 _let_56) (= _let_107 _let_33) (= _let_148 _let_55) (= _let_148 _let_53) (= _let_69 _let_45) (= _let_147 _let_52) (= _let_147 _let_51) (= _let_9 _let_50) (= _let_9 _let_49) (= _let_146 _let_145) (= _let_144 _let_143) (= _let_69 _let_46) (= _let_142 _let_48) (= _let_142 _let_47) (= _let_69 _let_44) (= _let_139 _let_43) (= _let_141 _let_140) (= _let_139 _let_42) (= _let_139 _let_41) (= _let_139 _let_26) (= _let_138 _let_40) (= _let_138 _let_39) (= _let_137 _let_15) (= _let_137 _let_38) (= _let_7 _let_3) (= _let_136 _let_2) (= (tptp.fn_epithelium_15 X) _let_135) (= (tptp.fn_epithelium_14 X) _let_134) (= _let_133 _let_37) (= _let_133 _let_36) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_118 _let_117) (= _let_84 _let_12) (= _let_116 _let_115) (= _let_107 _let_32) (= _let_107 _let_31) (= _let_107 _let_30) (= _let_114 _let_35) (= _let_103 _let_26) (= _let_114 _let_34) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_29) (= _let_106 _let_28) (= _let_106 _let_27) (= _let_7 _let_5) (= _let_7 _let_2) (= _let_105 _let_104) (= _let_103 _let_25) (= _let_102 _let_101) (= _let_100 _let_24) (= _let_100 _let_23) (= _let_100 _let_22) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_21) (= _let_87 _let_20) (= _let_87 _let_17) (= _let_4 _let_15) (= _let_87 _let_19) (= _let_4 _let_14) (= _let_87 _let_18) (= _let_87 _let_16) (= _let_4 _let_13) (= _let_86 _let_85) (= _let_84 _let_11) (= _let_83 _let_8) (= _let_82 _let_81) (= _let_80 _let_79) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_74 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_45) (= _let_45 _let_53) (= _let_53 _let_54) (= _let_54 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_45) (= _let_45 _let_55) (= _let_55 _let_55) (= _let_55 _let_45) (= _let_45 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_26 _let_41) (= _let_41 _let_26) (= _let_26 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_15) (= _let_15 _let_15) (= _let_38 _let_15) (= _let_15 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_2 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.epitope_1 X) (and (tptp.original_name_2 X |tptp.'Epitope'|) (tptp.user_description_2 X |tptp.'Also known as an antigenic determinant, an epitope is the part of an antigen that is recognized by the immune system, particularly B cells, T cells, and antibodies.'|) (tptp.concept2words_2 X tptp.epitope) (tptp.binding_site_1 X) (not (tptp.active_site_1 X)) (not (tptp.alpha_helix_1 X)) (not (tptp.protein_domain_1 X))))) (forall ((X $$unsorted)) (=> (tptp.epstein_barr_virus_1 X) (and (tptp.original_name_2 X |tptp.'Epstein-Barr-Virus'|) (tptp.user_description_2 X |tptp.'A herpesvirus that is responsible for mononucleosis and Burkitts lymphoma.'|) (tptp.concept2words_2 X |tptp.'epstein barr virus'|) (tptp.concept2words_2 X |tptp.'epstein-barr-virus'|) (tptp.herpesvirus_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equal_sharing_1 X) (and (tptp.original_name_2 X |tptp.'Equal-Sharing'|) (tptp.user_description_2 X |tptp.'It refers to division or apportion, esp equally.'|) (tptp.concept2words_2 X tptp.share) (tptp.concept2words_2 X |tptp.'sharing of equal'|) (tptp.concept2words_2 X |tptp.'equal sharing'|) (tptp.concept2words_2 X |tptp.'equal-sharing'|) (tptp.share_1 X) (not (tptp.unequal_sharing_1 X))))) (forall ((X $$unsorted)) (=> (tptp.equation_big_node_1 X) (and (tptp.original_name_2 X |tptp.'Equation-Big-Node'|) (tptp.concept2words_2 X |tptp.'equation big node'|) (tptp.concept2words_2 X |tptp.'equation-big-node'|) (tptp.group_node_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equation_set_1 X) (and (tptp.original_name_2 X |tptp.'Equation-Set'|) (tptp.concept2words_2 X tptp.equation) (tptp.concept2words_2 X |tptp.'equation set'|) (tptp.concept2words_2 X |tptp.'equation-set'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equational_cell_division_1 X) (and (tptp.original_name_2 X |tptp.'Equational-Cell-Division'|) (tptp.user_description_2 X |tptp.'A type of cell division in which the number of chromosomes remains constant.'|) (tptp.concept2words_2 X |tptp.'divide equationally'|) (tptp.concept2words_2 X |tptp.'equational cell division'|) (tptp.concept2words_2 X |tptp.'equational-cell-division'|) (tptp.cell_division_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equilibrium_1 X) (and (tptp.original_name_2 X |tptp.'Equilibrium'|) (tptp.user_description_2 X |tptp.'A condition in which all acting influences are canceled by others, resulting in a stable, balanced, or unchanging system.'|) (tptp.concept2words_2 X tptp.equilibrize) (tptp.concept2words_2 X tptp.equilibrium) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equilibrium_constant_expression_1 X) (and (tptp.original_name_2 X |tptp.'Equilibrium-Constant-Expression'|) (tptp.user_description_2 X |tptp.'The expression that describes the relationship among the concentrations (or partial pressures) of the substances present in a system at equlibrium.'|) (tptp.concept2words_2 X |tptp.'equilibrium constant expression'|) (tptp.concept2words_2 X |tptp.'equilibrium-constant-expression'|) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.equilibrium_constant_value_1 X) (and (tptp.original_name_2 X |tptp.'Equilibrium-Constant-Value'|) (tptp.concept2words_2 X |tptp.'equilibrium constant'|) (tptp.concept2words_2 X tptp.ki) (tptp.concept2words_2 X tptp.keq) (tptp.concept2words_2 X tptp.kb) (tptp.concept2words_2 X tptp.ka) (tptp.concept2words_2 X |tptp.'default kb'|) (tptp.concept2words_2 X |tptp.'default-kb'|) (tptp.concept2words_2 X |tptp.'default ka'|) (tptp.concept2words_2 X |tptp.'default-ka'|) (tptp.concept2words_2 X |tptp.'equilibrium constant value'|) (tptp.concept2words_2 X |tptp.'equilibrium-constant-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_er_membrane_22 X))) (let ((_let_2 (tptp.fn_phospholipid_layer_1 _let_1))) (let ((_let_3 (tptp.fn_er_membrane_27 X))) (let ((_let_4 (tptp.fn_phospholipid_bilayer_36 _let_3))) (let ((_let_5 (tptp.fn_er_membrane_21 X))) (let ((_let_6 (tptp.fn_phospholipid_layer_1 _let_5))) (let ((_let_7 (tptp.fn_phospholipid_bilayer_35 _let_3))) (let ((_let_8 (tptp.fn_phospholipid_layer_2 _let_1))) (let ((_let_9 (tptp.fn_phospholipid_layer_2 _let_5))) (let ((_let_10 (tptp.fn_phospholipid_bilayer_39 _let_3))) (let ((_let_11 (tptp.fn_biomembrane_83 X))) (let ((_let_12 (tptp.fn_phospholipid_layer_17 _let_1))) (let ((_let_13 (tptp.fn_phospholipid_bilayer_26 _let_3))) (let ((_let_14 (tptp.fn_phospholipid_bilayer_3 _let_3))) (let ((_let_15 (tptp.fn_biomembrane_75 X))) (let ((_let_16 (tptp.fn_biomembrane_15 X))) (let ((_let_17 (tptp.fn_biomembrane_14 X))) (let ((_let_18 (tptp.fn_biomembrane_41 X))) (let ((_let_19 (tptp.fn_biomembrane_47 X))) (let ((_let_20 (tptp.fn_er_membrane_29 X))) (let ((_let_21 (tptp.fn_cisternal_space_1 _let_20))) (let ((_let_22 (tptp.fn_er_membrane_23 X))) (let ((_let_23 (tptp.fn_carbon_skeleton_4 _let_22))) (let ((_let_24 (tptp.fn_er_membrane_38 X))) (let ((_let_25 (tptp.fn_polar_covalent_bond_19 _let_24))) (let ((_let_26 (tptp.fn_polar_covalent_bond_18 _let_24))) (let ((_let_27 (tptp.fn_er_membrane_10 X))) (let ((_let_28 (tptp.fn_phospholipid_layer_15 _let_1))) (let ((_let_29 (tptp.fn_er_membrane_24 X))) (let ((_let_30 (tptp.fn_er_membrane_47 X))) (let ((_let_31 (tptp.fn_phospholipid_layer_15 _let_5))) (let ((_let_32 (tptp.fn_er_membrane_9 X))) (let ((_let_33 (tptp.fn_er_membrane_48 X))) (let ((_let_34 (tptp.fn_er_membrane_8 X))) (let ((_let_35 (tptp.fn_phospholipid_bilayer_33 _let_3))) (let ((_let_36 (tptp.fn_phospholipid_bilayer_34 _let_3))) (let ((_let_37 (tptp.fn_er_membrane_37 X))) (let ((_let_38 (tptp.fn_er_membrane_45 X))) (let ((_let_39 (tptp.fn_er_membrane_44 X))) (let ((_let_40 (tptp.fn_er_membrane_14 X))) (let ((_let_41 (tptp.fn_er_membrane_19 X))) (let ((_let_42 (tptp.fn_er_membrane_15 X))) (let ((_let_43 (tptp.fn_er_membrane_33 X))) (let ((_let_44 (tptp.fn_er_membrane_17 X))) (let ((_let_45 (tptp.fn_er_membrane_16 X))) (let ((_let_46 (tptp.fn_er_membrane_12 X))) (let ((_let_47 (tptp.fn_er_membrane_18 X))) (let ((_let_48 (tptp.fn_er_membrane_36 X))) (let ((_let_49 (tptp.fn_er_membrane_20 X))) (let ((_let_50 (tptp.fn_er_membrane_35 X))) (let ((_let_51 (tptp.fn_er_membrane_34 X))) (let ((_let_52 (tptp.fn_er_membrane_13 X))) (let ((_let_53 (tptp.fn_er_membrane_32 X))) (let ((_let_54 (tptp.fn_er_membrane_40 X))) (let ((_let_55 (tptp.fn_carbon_skeleton_2 _let_22))) (let ((_let_56 (tptp.fn_er_membrane_39 X))) (let ((_let_57 (tptp.fn_carbon_skeleton_5 _let_22))) (let ((_let_58 (tptp.fn_er_membrane_11 X))) (let ((_let_59 (tptp.fn_er_membrane_28 X))) (let ((_let_60 (tptp.fn_organelle_1 _let_59))) (let ((_let_61 (tptp.fn_er_membrane_31 X))) (let ((_let_62 (tptp.fn_cytosol_1 _let_61))) (let ((_let_63 (tptp.fn_er_membrane_30 X))) (let ((_let_64 (tptp.fn_er_membrane_26 X))) (let ((_let_65 (tptp.fn_attach_1 _let_64))) (let ((_let_66 (tptp.fn_er_membrane_25 X))) (let ((_let_67 (tptp.fn_er_membrane_2 X))) (let ((_let_68 (tptp.fn_er_membrane_1 X))) (let ((_let_69 (tptp.fn_er_membrane_3 X))) (let ((_let_70 (tptp.fn_er_membrane_4 X))) (let ((_let_71 (tptp.fn_er_membrane_5 X))) (let ((_let_72 (tptp.fn_er_membrane_6 X))) (let ((_let_73 (tptp.fn_er_membrane_7 X))) (=> (tptp.er_membrane_1 X) (and (tptp.original_name_2 X |tptp.'ER-Membrane'|) (tptp.user_description_2 X |tptp.'ER membrane acts as a barrier enclosing the enzymes and other components in the endoplasmic reticulum of the eukaryotic cells'|) (tptp.concept2words_2 X |tptp.'membrane of er'|) (tptp.concept2words_2 X |tptp.'er membrane'|) (tptp.concept2words_2 X |tptp.'er-membrane'|) (tptp.biomembrane_1 X) (not (tptp.chloroplast_membrane_1 X)) (not (tptp.lysosomal_membrane_1 X)) (not (tptp.mitochondrial_membrane_1 X)) (not (tptp.nuclear_membrane_1 X)) (not (tptp.plasma_membrane_1 X)) (tptp.protein_complex_1 _let_68) (tptp.pore_1 _let_67) (tptp.outside_face_1 _let_69) (tptp.plasma_membrane_1 _let_70) (tptp.inside_face_1 _let_71) (tptp.hydrophilic_face_1 _let_72) (tptp.hydrophilic_face_1 _let_73) (tptp.hydrophobic_core_1 _let_34) (tptp.hydrophilic_face_1 _let_32) (tptp.hydrophobic_face_1 _let_27) (tptp.phosphorus_1 _let_58) (tptp.inside_face_1 _let_46) (tptp.surface_1 _let_52) (tptp.outside_face_1 _let_52) (tptp.carbohydrate_side_chain_1 _let_40) (tptp.carbon_skeleton_1 _let_42) (tptp.temperature_value_1 _let_45) (tptp.fluidity_value_1 _let_44) (tptp.density_value_1 _let_47) (tptp.attach_1 _let_41) (tptp.chemical_entity_1 _let_49) (tptp.phospholipid_layer_1 _let_5) (tptp.phospholipid_layer_1 _let_1) (tptp.carbon_skeleton_1 _let_22) (tptp.fatty_acid_tail_1 _let_29) (tptp.carbohydrate_1 _let_66) (tptp.attach_1 _let_64) (tptp.tangible_entity_1 _let_3) (tptp.phospholipid_bilayer_1 _let_3) (tptp.endoplasmic_reticulum_1 _let_59) (tptp.cisternal_space_1 _let_20) (tptp.cytoplasm_1 _let_63) (tptp.cytosol_1 _let_61) (tptp.aqueous_solution_1 _let_53) (tptp.aqueous_solution_1 _let_43) (tptp.move_through_1 _let_51) (tptp.hydrophobic_compound_1 _let_50) (tptp.hydrophilic_compound_1 _let_48) (tptp.glycoprotein_1 _let_37) (tptp.ester_linkage_1 _let_24) (tptp.carbon_1 _let_56) (tptp.entity_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.atom_1 _let_54) (tptp.carbon_1 _let_54) (tptp.quantity_value_1 _let_39) (tptp.saturated_fatty_acid_1 _let_38) (tptp.hydrophobic_face_1 _let_30) (tptp.hydrophilic_head_1 _let_33) (tptp.spatial_entity_1 _let_65) (tptp.cytoplasm_1 _let_62) (tptp.biomembrane_1 _let_60) (tptp.chemical_bond_1 _let_57) (tptp.atom_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.phospholipid_layer_1 _let_36) (tptp.phospholipid_layer_1 _let_35) (tptp.fatty_acid_tail_1 _let_31) (tptp.fatty_acid_tail_1 _let_28) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.carbon_1 _let_23) (tptp.aqueous_solution_1 _let_21) (tptp.hydrophobic_core_1 _let_14) (tptp.hydrophilic_head_1 _let_13) (tptp.hydrophilic_head_1 _let_12) (tptp.hydrophilic_face_1 _let_10) (tptp.hydrophilic_face_1 _let_9) (tptp.hydrophilic_face_1 _let_8) (tptp.hydrophobic_face_1 _let_7) (tptp.hydrophobic_face_1 _let_6) (tptp.hydrophobic_face_1 _let_4) (tptp.hydrophobic_face_1 _let_2) (tptp.is_at_2 _let_54 _let_29) (tptp.is_inside_2 _let_56 _let_22) (tptp.called_2 _let_24 |tptp.'EL1'|) (tptp.is_inside_2 _let_73 _let_43) (tptp.is_outside_2 _let_73 X) (tptp.is_outside_2 _let_72 _let_53) (tptp.is_inside_2 _let_72 X) (tptp.is_outside_2 _let_71 _let_53) (not (= _let_43 _let_53)) (not (= _let_53 _let_43)) (not (= _let_61 _let_20)) (tptp.is_inside_2 _let_63 _let_70) (not (= _let_20 _let_61)) (tptp.is_inside_2 _let_20 X) (tptp.has_region_2 _let_59 _let_20) (tptp.is_inside_2 _let_69 _let_43) (tptp.has_region_2 X _let_67) (tptp.has_part_2 X _let_66) (tptp.is_along_2 _let_67 _let_68) (tptp.is_along_2 _let_68 _let_67) (not (= _let_1 _let_5)) (not (= _let_5 _let_1)) (tptp.is_inside_2 _let_32 _let_46) (tptp.object_2 _let_64 _let_66) (tptp.has_part_2 _let_63 _let_61) (tptp.is_inside_2 _let_53 _let_20) (tptp.has_part_2 _let_59 X) (tptp.is_between_2 _let_24 _let_58) (not (= _let_54 _let_58)) (not (= _let_58 _let_54)) (tptp.is_inside_2 _let_54 _let_22) (tptp.is_between_2 _let_24 _let_54) (tptp.is_between_2 _let_24 _let_56) (not (= _let_56 _let_54)) (not (= _let_54 _let_56)) (tptp.is_impermeable_to_2 X _let_50) (tptp.is_between_2 X _let_53) (tptp.is_inside_2 _let_32 _let_52) (tptp.fluidity_2 X _let_44) (tptp.has_function_2 X _let_51) (tptp.path_2 _let_51 _let_34) (tptp.base_2 _let_51 X) (tptp.object_2 _let_51 _let_49) (tptp.is_permeable_to_2 X _let_49) (tptp.has_region_2 X _let_52) (tptp.is_inside_2 _let_52 _let_53) (tptp.inversely_proportional_2 _let_47 _let_44) (tptp.density_2 X _let_47) (tptp.is_impermeable_to_2 X _let_48) (not (= _let_48 _let_49)) (not (= _let_49 _let_50)) (not (= _let_49 _let_48)) (not (= _let_50 _let_49)) (tptp.directly_proportional_2 _let_39 _let_44) (tptp.directly_proportional_2 _let_45 _let_44) (tptp.temperature_2 X _let_45) (tptp.has_region_2 X _let_46) (tptp.is_inside_2 _let_43 _let_46) (tptp.is_outside_2 _let_40 X) (tptp.object_2 _let_41 _let_40) (tptp.base_2 _let_41 _let_42) (tptp.is_inside_2 _let_42 X) (tptp.is_between_2 X _let_43) (tptp.has_part_2 X _let_3) (tptp.is_inside_2 _let_37 _let_3) (tptp.has_part_2 X _let_37) (tptp.has_part_2 X _let_38) (tptp.quantity_2 _let_38 _let_39) (tptp.has_region_2 _let_3 _let_1) (tptp.is_at_2 _let_33 _let_32) (tptp.has_region_2 _let_3 _let_5) (tptp.is_along_2 _let_1 _let_5) (tptp.is_along_2 _let_5 _let_1) (tptp.has_region_2 _let_3 _let_34) (tptp.is_inside_2 _let_30 _let_34) (tptp.is_along_2 _let_30 _let_27) (tptp.is_inside_2 _let_27 _let_34) (tptp.is_between_2 _let_34 _let_32) (tptp.is_along_2 _let_27 _let_30) (tptp.has_region_2 _let_5 _let_32) (tptp.has_region_2 _let_1 _let_32) (tptp.is_inside_2 _let_33 _let_32) (tptp.is_inside_2 _let_29 _let_27) (tptp.has_region_2 _let_1 _let_27) (tptp.is_inside_2 _let_29 _let_30) (tptp.has_region_2 _let_5 _let_30) (= _let_66 _let_65) (= _let_63 _let_62) (= _let_53 _let_21) (= X _let_60) (= _let_54 _let_25) (= _let_58 _let_25) (= _let_58 _let_26) (= _let_24 _let_57) (= _let_56 _let_55) (= _let_54 _let_23) (= (tptp.fn_er_membrane_41 X) (tptp.fn_biomembrane_3 X)) (= (tptp.fn_er_membrane_43 X) (tptp.fn_biomembrane_26 X)) (= _let_53 _let_17) (= (tptp.fn_er_membrane_46 X) (tptp.fn_biomembrane_39 X)) (= _let_32 _let_11) (= (tptp.fn_er_membrane_42 X) (tptp.fn_biomembrane_19 X)) (= _let_34 _let_15) (= _let_53 _let_16) (= _let_52 _let_19) (= _let_52 _let_18) (= _let_51 (tptp.fn_biomembrane_52 X)) (= _let_50 (tptp.fn_biomembrane_48 X)) (= _let_49 (tptp.fn_biomembrane_55 X)) (= _let_48 (tptp.fn_biomembrane_72 X)) (= _let_47 (tptp.fn_biomembrane_4 X)) (= _let_43 _let_17) (= _let_46 (tptp.fn_biomembrane_42 X)) (= _let_45 (tptp.fn_biomembrane_25 X)) (= _let_44 (tptp.fn_biomembrane_18 X)) (= _let_43 _let_16) (= _let_42 (tptp.fn_biomembrane_71 X)) (= _let_41 (tptp.fn_biomembrane_73 X)) (= _let_40 (tptp.fn_biomembrane_70 X)) (= _let_39 (tptp.fn_biomembrane_31 X)) (= _let_38 (tptp.fn_biomembrane_32 X)) (= _let_37 (tptp.fn_biomembrane_30 X)) (= _let_3 (tptp.fn_biomembrane_63 X)) (= _let_33 _let_13) (= _let_1 _let_36) (= _let_5 _let_35) (= _let_32 _let_10) (= _let_27 _let_4) (= _let_30 _let_7) (= _let_34 _let_14) (= _let_32 _let_9) (= _let_33 _let_12) (= _let_32 _let_8) (= _let_29 _let_31) (= _let_30 _let_6) (= _let_29 _let_28) (= _let_27 _let_2) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_17) (= _let_17 _let_17) (= _let_16 _let_18) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_erbium_11 X))) (let ((_let_2 (tptp.fn_erbium_14 X))) (let ((_let_3 (tptp.fn_erbium_12 X))) (let ((_let_4 (tptp.fn_erbium_13 X))) (let ((_let_5 (tptp.fn_erbium_5 X))) (let ((_let_6 (tptp.fn_erbium_6 X))) (let ((_let_7 (tptp.fn_erbium_7 X))) (let ((_let_8 (tptp.fn_erbium_4 X))) (=> (tptp.erbium_1 X) (and (tptp.original_name_2 X |tptp.'Erbium'|) (tptp.user_description_2 X |tptp.'Erbium is a metal atom with atomic number 68. It is represented by the symbol Er.'|) (tptp.concept2words_2 X tptp.erbium) (tptp.concept2words_2 X tptp.er) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"99"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"68"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"68"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"14"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.24"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"167"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"68"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"167.3"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_erbium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_erbium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_erbium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_erythrocyte_60 X))) (let ((_let_2 (tptp.fn_hemoglobin_1 _let_1))) (let ((_let_3 (tptp.fn_erythrocyte_17 X))) (let ((_let_4 (tptp.fn_synthesis_of_endomembranous_system_membrane_28 _let_3))) (let ((_let_5 (tptp.fn_erythrocyte_23 X))) (let ((_let_6 (tptp.fn_carry_1 _let_5))) (let ((_let_7 (tptp.fn_erythrocyte_48 X))) (let ((_let_8 (tptp.fn_support_1 _let_7))) (let ((_let_9 (tptp.fn_erythrocyte_20 X))) (let ((_let_10 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_9))) (let ((_let_11 (tptp.fn_erythrocyte_50 X))) (let ((_let_12 (tptp.fn_rough_endoplasmic_reticulum_62 _let_11))) (let ((_let_13 (tptp.fn_erythrocyte_53 X))) (let ((_let_14 (tptp.fn_cytoplasm_7 _let_13))) (let ((_let_15 (tptp.fn_vertebrate_cell_22 X))) (let ((_let_16 (tptp.fn_erythrocyte_24 X))) (let ((_let_17 (tptp.fn_pore_complex_7 _let_16))) (let ((_let_18 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_9))) (let ((_let_19 (tptp.fn_rough_endoplasmic_reticulum_27 _let_11))) (let ((_let_20 (tptp.fn_vertebrate_cell_9 X))) (let ((_let_21 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_9))) (let ((_let_22 (tptp.fn_rough_endoplasmic_reticulum_23 _let_11))) (let ((_let_23 (tptp.fn_cytoplasm_8 _let_13))) (let ((_let_24 (tptp.fn_vertebrate_cell_21 X))) (let ((_let_25 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_26 (tptp.fn_vertebrate_cell_19 X))) (let ((_let_27 (tptp.fn_synthesis_of_endomembranous_system_membrane_70 _let_3))) (let ((_let_28 (tptp.fn_vertebrate_cell_26 X))) (let ((_let_29 (tptp.fn_erythrocyte_40 X))) (let ((_let_30 (tptp.fn_integrin_30 _let_29))) (let ((_let_31 (tptp.fn_erythrocyte_31 X))) (let ((_let_32 (tptp.fn_fibronectin_53 _let_31))) (let ((_let_33 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_34 (tptp.fn_integral_protein_24 _let_31))) (let ((_let_35 (tptp.fn_vertebrate_cell_6 X))) (let ((_let_36 (tptp.fn_integrin_29 _let_29))) (let ((_let_37 (tptp.fn_fibronectin_47 _let_31))) (let ((_let_38 (tptp.fn_vertebrate_cell_27 X))) (let ((_let_39 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_40 (tptp.fn_vertebrate_cell_18 X))) (let ((_let_41 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_9))) (let ((_let_42 (tptp.fn_vertebrate_cell_25 X))) (let ((_let_43 (tptp.fn_rough_endoplasmic_reticulum_56 _let_11))) (let ((_let_44 (tptp.fn_vertebrate_cell_24 X))) (let ((_let_45 (tptp.fn_erythrocyte_21 X))) (let ((_let_46 (tptp.fn_nucleus_6 _let_45))) (let ((_let_47 (tptp.fn_erythrocyte_67 X))) (let ((_let_48 (tptp.fn_beta_globin_38 _let_47))) (let ((_let_49 (tptp.fn_erythrocyte_64 X))) (let ((_let_50 (tptp.fn_light_reflection_1 _let_49))) (let ((_let_51 (tptp.fn_erythrocyte_65 X))) (let ((_let_52 (tptp.fn_make_contact_2 _let_51))) (let ((_let_53 (tptp.fn_hemoglobin_12 _let_1))) (let ((_let_54 (tptp.fn_protein_9 _let_1))) (let ((_let_55 (tptp.fn_hemoglobin_10 _let_1))) (let ((_let_56 (tptp.fn_polymer_4 _let_1))) (let ((_let_57 (tptp.fn_integrin_8 _let_29))) (let ((_let_58 (tptp.fn_fibronectin_45 _let_31))) (let ((_let_59 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_60 (tptp.fn_integrin_9 _let_29))) (let ((_let_61 (tptp.fn_pore_complex_5 _let_16))) (let ((_let_62 (tptp.fn_nucleus_13 _let_45))) (let ((_let_63 (tptp.fn_eukaryotic_cell_37 X))) (let ((_let_64 (tptp.fn_synthesis_of_endomembranous_system_membrane_60 _let_3))) (let ((_let_65 (tptp.fn_fibronectin_37 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(tptp.is_between_2 _let_124 _let_152) (tptp.is_between_2 _let_124 _let_151) (tptp.base_2 _let_153 _let_1) (tptp.next_event_2 _let_51 _let_49) (tptp.next_event_2 _let_51 _let_153) (tptp.site_2 _let_106 _let_47) (tptp.facilitates_2 _let_145 _let_106) (tptp.has_part_2 _let_1 _let_143) (tptp.recipient_2 _let_147 _let_11) (tptp.has_part_2 _let_13 _let_150) (tptp.has_part_2 _let_90 _let_152) (tptp.has_part_2 _let_90 _let_151) (tptp.agent_2 _let_7 _let_83) (tptp.site_2 _let_94 _let_13) (tptp.called_2 _let_29 |tptp.'MP2'|) (tptp.called_2 _let_29 |tptp.'MP1'|) (tptp.recipient_2 _let_148 _let_9) (tptp.called_2 _let_31 |tptp.'MP2'|) (tptp.the_categorical_value_2 _let_142 tptp.disc_like_0) (tptp.has_function_2 X _let_5) (tptp.is_inside_2 _let_150 _let_138) (not (= _let_150 _let_137)) (not (= _let_137 _let_150)) (tptp.is_inside_2 _let_149 _let_77) (tptp.base_2 _let_51 _let_1) (tptp.agent_2 _let_49 _let_1) (tptp.is_at_2 _let_111 _let_84) (not (= _let_109 _let_111)) (not (= _let_111 _let_109)) (tptp.object_2 _let_7 X) (tptp.subevent_2 _let_70 _let_148) (tptp.subevent_2 _let_70 _let_147) (tptp.has_part_2 _let_13 _let_149) (tptp.donor_2 _let_148 _let_11) (tptp.agent_2 _let_147 _let_9) (tptp.has_part_2 _let_1 _let_47) (tptp.agent_2 _let_5 X) (tptp.has_part_2 _let_143 _let_145) (tptp.result_2 _let_3 _let_113) (tptp.shape_2 X _let_142) (tptp.is_oriented_toward_2 _let_136 _let_13) (tptp.is_inside_2 _let_139 _let_113) (tptp.has_region_2 _let_140 _let_139) (tptp.has_part_2 _let_113 _let_140) (tptp.is_facing_2 _let_136 _let_13) (tptp.has_part_2 _let_13 _let_137) (tptp.is_inside_2 _let_137 _let_138) (tptp.abuts_2 _let_113 _let_138) (tptp.abuts_2 _let_138 _let_113) (tptp.has_region_2 _let_83 _let_135) (tptp.is_across_2 _let_111 _let_135) (tptp.has_region_2 _let_83 _let_136) (tptp.has_part_2 _let_90 _let_132) (tptp.is_at_2 _let_132 _let_134) (tptp.has_region_2 _let_90 _let_134) (tptp.first_subevent_2 _let_3 _let_130) (tptp.subevent_2 _let_3 _let_130) (tptp.site_2 _let_130 _let_9) (tptp.has_function_2 _let_9 _let_130) (tptp.base_2 _let_130 X) (tptp.has_part_2 _let_45 _let_126) (tptp.is_along_2 _let_126 _let_113) (tptp.is_between_2 _let_113 _let_128) (tptp.has_part_2 _let_45 _let_128) (tptp.is_along_2 _let_113 _let_126) (tptp.has_part_2 _let_90 _let_118) (tptp.object_2 _let_120 _let_118) (tptp.agent_2 _let_120 _let_122) (tptp.has_part_2 _let_90 _let_122) (tptp.has_region_2 _let_90 _let_124) (tptp.object_2 _let_116 _let_111) (not (= _let_111 _let_31)) (tptp.is_across_2 _let_111 _let_83) (tptp.is_at_2 _let_111 _let_83) (tptp.called_2 _let_111 |tptp.'MP1'|) (not (= _let_31 _let_111)) (not (= _let_31 _let_109)) (tptp.is_at_2 _let_109 _let_84) (tptp.is_inside_2 _let_109 _let_84) (tptp.has_part_2 _let_83 _let_109) (tptp.base_2 _let_116 _let_83) (not (= _let_109 _let_31)) (tptp.is_at_2 _let_16 _let_113) (tptp.has_part_2 _let_113 _let_16) (tptp.is_inside_2 _let_115 _let_16) (tptp.has_region_2 _let_113 _let_115) (tptp.has_part_2 _let_45 _let_113) (tptp.called_2 _let_110 |tptp.'MP1'|) (tptp.has_part_2 _let_83 _let_111) (not (= _let_111 _let_29)) (not (= _let_29 _let_111)) (tptp.is_at_2 _let_109 _let_83) (tptp.called_2 _let_109 |tptp.'MP1'|) (tptp.has_part_2 _let_83 _let_110) (not (= _let_111 _let_110)) (tptp.is_inside_2 _let_111 _let_84) (tptp.is_inside_2 _let_31 _let_84) (tptp.has_part_2 _let_83 _let_31) (not (= _let_110 _let_111)) (not (= _let_29 _let_109)) (tptp.is_across_2 _let_109 _let_83) (tptp.has_part_2 _let_83 _let_29) (not (= _let_29 _let_110)) (not (= _let_110 _let_109)) (not (= _let_109 _let_29)) (not (= _let_110 _let_29)) (not (= _let_109 _let_110)) (tptp.the_scalar_value_2 _let_101 tptp.big_0) (tptp.scalar_unit_class_2 _let_101 tptp.polypeptide_0) (tptp.agent_2 _let_106 _let_1) (tptp.has_part_2 X _let_1) (tptp.size_2 _let_1 _let_101) (tptp.greater_than_2 _let_101 _let_103) (tptp.size_2 _let_104 _let_103) (tptp.has_part_2 _let_1 _let_104) (tptp.has_function_2 _let_1 _let_106) (tptp.has_part_2 X _let_86) (tptp.has_region_2 X _let_99) (tptp.is_inside_2 _let_88 _let_77) (tptp.site_2 _let_80 _let_78) (tptp.is_between_2 _let_13 _let_83) (tptp.is_inside_2 _let_13 _let_83) (tptp.is_at_2 _let_84 _let_100) (tptp.has_region_2 X _let_100) (tptp.size_2 X _let_96) (tptp.has_function_2 _let_93 _let_97) (tptp.object_2 _let_97 X) (tptp.has_region_2 X _let_98) (tptp.is_opposite_2 _let_99 _let_98) (tptp.is_opposite_2 _let_98 _let_99) (tptp.has_function_2 X _let_94) (tptp.base_2 _let_94 X) (tptp.volume_2 X _let_95) (tptp.directly_proportional_2 _let_96 _let_95) (tptp.the_scalar_value_2 _let_96 tptp.big_0) (tptp.scalar_unit_class_2 _let_96 tptp.prokaryote_0) (tptp.base_2 _let_91 X) (tptp.has_function_2 X _let_91) (tptp.has_part_2 X _let_76) (tptp.has_function_2 _let_76 _let_92) (tptp.result_2 _let_92 _let_93) (tptp.has_function_2 _let_78 _let_82) (tptp.has_part_2 X _let_78) (tptp.has_part_2 X _let_11) (not (= _let_9 _let_11)) (not (= _let_11 _let_9)) (tptp.agent_2 _let_89 _let_83) (tptp.object_2 _let_89 X) (tptp.has_part_2 X _let_90) (tptp.is_inside_2 _let_90 _let_45) (tptp.is_between_2 _let_13 _let_45) (tptp.first_subevent_2 _let_82 _let_81) (tptp.site_2 _let_82 _let_78) (tptp.site_2 _let_87 _let_78) (tptp.base_2 _let_87 X) (tptp.has_part_2 X _let_88) (tptp.origin_2 _let_79 _let_85) (tptp.has_part_2 X _let_85) (tptp.has_part_2 X _let_13) (tptp.has_part_2 _let_13 _let_77) (tptp.is_inside_2 _let_86 _let_77) (tptp.base_2 _let_81 X) (tptp.subevent_2 _let_82 _let_81) (tptp.base_2 _let_82 X) (tptp.has_part_2 X _let_83) (tptp.has_part_2 _let_83 _let_84) (tptp.destination_2 _let_79 _let_78) (tptp.causes_2 _let_79 _let_80) (tptp.base_2 _let_80 X) (tptp.has_part_2 X _let_9) (tptp.abuts_2 _let_9 _let_11) (tptp.abuts_2 _let_11 _let_9) (tptp.has_part_2 X _let_45) (tptp.is_inside_2 _let_45 _let_77) (tptp.is_inside_2 _let_78 _let_77) (tptp.is_near_2 _let_76 _let_45) (tptp.is_near_2 _let_45 _let_76) (= _let_1 _let_52) (= _let_1 _let_50) (= X _let_8) (= _let_148 _let_73) (= _let_147 _let_71) (= _let_149 _let_75) (= _let_149 _let_74) (= _let_148 _let_72) (= _let_147 _let_69) (= _let_47 _let_146) (= _let_1 _let_48) (= X _let_6) (= _let_145 _let_144) (= (tptp.fn_erythrocyte_27 X) (tptp.fn_cell_3 X)) (= _let_142 (tptp.fn_cell_5 X)) (= _let_141 (tptp.fn_eukaryotic_cell_38 X)) (= _let_113 _let_64) (= _let_140 _let_68) (= _let_140 _let_67) (= _let_139 (tptp.fn_eukaryotic_cell_17 X)) (= _let_113 _let_63) (= _let_138 (tptp.fn_eukaryotic_cell_39 X)) (= _let_137 (tptp.fn_eukaryotic_cell_21 X)) (= _let_13 _let_39) (= _let_136 (tptp.fn_eukaryotic_cell_46 X)) (= _let_135 (tptp.fn_eukaryotic_cell_48 X)) (= _let_134 _let_133) (= _let_132 _let_131) (= X _let_4) (= _let_9 _let_27) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_113 _let_62) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_118 _let_117) (= _let_116 _let_66) (= _let_111 _let_59) (= _let_111 _let_58) (= _let_116 _let_65) (= _let_109 _let_58) (= _let_45 _let_17) (= _let_115 _let_114) (= _let_113 _let_61) (= _let_111 _let_60) (= _let_83 _let_34) (= _let_31 _let_112) (= _let_84 _let_36) (= _let_111 _let_57) (= _let_110 _let_60) (= _let_83 _let_30) (= _let_109 _let_57) (= (tptp.fn_erythrocyte_70 X) _let_108) (= (tptp.fn_erythrocyte_71 X) _let_107) (= X _let_2) (= _let_106 _let_105) (= _let_104 _let_56) (= _let_104 _let_55) (= _let_103 _let_102) (= _let_101 _let_54) (= _let_101 _let_53) (= (tptp.fn_erythrocyte_14 X) (tptp.fn_vertebrate_cell_29 X)) (= (tptp.fn_erythrocyte_15 X) (tptp.fn_vertebrate_cell_28 X)) (= _let_100 (tptp.fn_vertebrate_cell_17 X)) (= _let_99 (tptp.fn_vertebrate_cell_15 X)) (= _let_98 (tptp.fn_vertebrate_cell_16 X)) (= _let_97 (tptp.fn_vertebrate_cell_12 X)) (= _let_96 (tptp.fn_vertebrate_cell_14 X)) (= _let_95 (tptp.fn_vertebrate_cell_13 X)) (= _let_94 (tptp.fn_vertebrate_cell_10 X)) (= _let_93 (tptp.fn_vertebrate_cell_7 X)) (= _let_92 (tptp.fn_vertebrate_cell_8 X)) (= _let_91 (tptp.fn_vertebrate_cell_30 X)) (= _let_78 _let_25) (= _let_90 _let_46) (= _let_90 _let_44) (= _let_89 (tptp.fn_vertebrate_cell_11 X)) (= _let_88 _let_43) (= _let_88 _let_42) (= _let_87 (tptp.fn_vertebrate_cell_3 X)) (= _let_86 _let_41) (= _let_86 _let_40) (= _let_77 _let_23) (= X _let_14) (= _let_13 _let_38) (= _let_85 (tptp.fn_vertebrate_cell_32 X)) (= _let_83 _let_32) (= _let_84 _let_37) (= _let_84 _let_35) (= _let_83 _let_33) (= _let_83 _let_28) (= _let_82 (tptp.fn_vertebrate_cell_2 X)) (= _let_81 (tptp.fn_vertebrate_cell_1 X)) (= _let_11 (tptp.fn_vertebrate_cell_20 X)) (= _let_9 _let_26) (= _let_80 (tptp.fn_vertebrate_cell_4 X)) (= _let_79 (tptp.fn_vertebrate_cell_31 X)) (= _let_78 _let_24) (= _let_77 _let_22) (= _let_77 _let_21) (= _let_77 _let_20) (= _let_76 (tptp.fn_vertebrate_cell_23 X)) (= X _let_12) (= _let_45 _let_19) (= X _let_10) (= _let_45 _let_18) (= _let_45 _let_15) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_53 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_30 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_12) (= _let_12 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_8 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.erythromycin_1 X) (and (tptp.original_name_2 X |tptp.'Erythromycin'|) (tptp.user_description_2 X |tptp.'An antibiotic used to treat certain infections caused by bacteria.'|) (tptp.concept2words_2 X tptp.erythromycin) (tptp.antibiotic_1 X) (not (tptp.ampicillin_1 X)) (not (tptp.antimicrobial_protein_1 X)) (not (tptp.penicillin_1 X)) (not (tptp.tetracycline_1 X)) (not (tptp.vancomycin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.erythropoietin_1 X) (and (tptp.original_name_2 X |tptp.'Erythropoietin'|) (tptp.user_description_2 X |tptp.'A glycoprotein hormone that controls the production of red blood cells. It also plays a role in wound healing and the brain_'s response to neuronal injury.'|) (tptp.concept2words_2 X tptp.erythropoietin) (tptp.concept2words_2 X tptp.epo) (tptp.concept2words_2 X tptp.hematopoietin) (tptp.concept2words_2 X tptp.hemopoietin) (tptp.peptide_hormone_1 X) (not (tptp.bmp_4_1 X)) (not (tptp.growth_hormone_1 X)) (not (tptp.inhibin_1 X)) (not (tptp.leptin_1 X)) (not (tptp.prolactin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bacterium_16 X))) (let ((_let_2 (tptp.fn_prokaryote_12 X))) (let ((_let_3 (tptp.fn_bacterium_5 X))) (let ((_let_4 (tptp.fn_cell_26 X))) (let ((_let_5 (tptp.fn_escherichia_coli_8 X))) (let ((_let_6 (tptp.fn_escherichia_coli_10 X))) (let ((_let_7 (tptp.fn_escherichia_coli_7 X))) (let ((_let_8 (tptp.fn_escherichia_coli_18 X))) (let ((_let_9 (tptp.fn_escherichia_coli_9 X))) (let ((_let_10 (tptp.fn_escherichia_coli_15 X))) (let ((_let_11 (tptp.fn_escherichia_coli_12 X))) (let ((_let_12 (tptp.fn_escherichia_coli_13 X))) (let ((_let_13 (tptp.fn_escherichia_coli_14 X))) (let ((_let_14 (tptp.fn_escherichia_coli_21 X))) (let ((_let_15 (tptp.fn_escherichia_coli_19 X))) (let ((_let_16 (tptp.fn_escherichia_coli_11 X))) (let ((_let_17 (tptp.fn_escherichia_coli_17 X))) (let ((_let_18 (tptp.fn_escherichia_coli_16 X))) (let ((_let_19 (tptp.fn_escherichia_coli_20 X))) (let ((_let_20 (tptp.fn_model_organism_6 _let_19))) (let ((_let_21 (tptp.fn_escherichia_coli_1 X))) (=> (tptp.escherichia_coli_1 X) (and (tptp.original_name_2 X |tptp.'Escherichia-Coli'|) (tptp.user_description_2 X |tptp.'A Gram-negative bacterium that is commonly part of the normal flora in the intestines of endothermic animals. Many strains of E. coli are harmless, but some cause food poisoning in humans.'|) (tptp.concept2words_2 X |tptp.'e.coli'|) (tptp.concept2words_2 X |tptp.'gram negative bacteria'|) (tptp.concept2words_2 X |tptp.'gram-negative-bacteria'|) (tptp.concept2words_2 X |tptp.'e. coli'|) (tptp.concept2words_2 X |tptp.'e.-coli'|) (tptp.concept2words_2 X |tptp.'escherichia coli'|) (tptp.concept2words_2 X |tptp.'escherichia-coli'|) (tptp.proteobacteria_1 X) (not (tptp.cellulose_digesting_bacteria_1 X)) (not (tptp.gram_positive_bacteria_1 X)) (not (tptp.mycoplasma_1 X)) (not (tptp.rhizobacterium_1 X)) (tptp.length_value_1 _let_21) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.plasma_membrane_1 _let_5) (tptp.ribosome_1 _let_9) (tptp.prokaryotic_ribosome_1 _let_9) (tptp.cell_wall_1 _let_6) (tptp.water_1 _let_16) (tptp.volume_value_1 _let_11) (tptp.surface_1 _let_12) (tptp.nucleoid_1 _let_13) (tptp.size_value_1 _let_10) (tptp.temperature_value_1 _let_18) (tptp.specific_heat_value_1 _let_17) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.substance_1 _let_15) (tptp.cytosol_1 _let_15) (tptp.model_organism_1 _let_19) (tptp.chromosome_1 _let_14) (tptp.prokaryotic_chromosome_1 _let_14) (tptp.organism_1 _let_20) (tptp.length_2 _let_14 _let_21) (tptp.the_scalar_value_2 _let_21 tptp.long_0) (tptp.scalar_unit_class_2 _let_21 tptp.cellular_structure_0) (tptp.is_inside_2 _let_9 _let_15) (tptp.plays_2 X _let_19) (tptp.temperature_2 X _let_18) (tptp.has_part_2 X _let_16) (tptp.specific_heat_2 _let_16 _let_17) (tptp.correspondence_2 _let_18 _let_17) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (tptp.has_part_2 _let_7 _let_15) (tptp.size_2 X _let_10) (tptp.directly_proportional_2 _let_10 _let_11) (tptp.volume_2 X _let_11) (tptp.has_region_2 X _let_12) (tptp.is_at_2 _let_8 _let_12) (tptp.has_part_2 X _let_9) (tptp.has_part_2 _let_5 _let_8) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_5 _let_6) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_7) (tptp.is_inside_2 _let_7 _let_5) (= X _let_20) (= (tptp.fn_escherichia_coli_3 X) (tptp.fn_organism_6 X)) (= (tptp.fn_escherichia_coli_4 X) (tptp.fn_organism_1 X)) (= _let_18 (tptp.fn_organism_2 X)) (= _let_17 (tptp.fn_organism_5 X)) (= _let_16 (tptp.fn_organism_4 X)) (= _let_15 (tptp.fn_prokaryote_10 X)) (= _let_14 (tptp.fn_prokaryote_9 X)) (= _let_13 (tptp.fn_prokaryote_18 X)) (= (tptp.fn_escherichia_coli_5 X) (tptp.fn_cell_10 X)) (= (tptp.fn_escherichia_coli_6 X) (tptp.fn_cell_23 X)) (= _let_8 _let_4) (= _let_12 (tptp.fn_cell_4 X)) (= _let_11 (tptp.fn_cell_22 X)) (= _let_10 (tptp.fn_cell_11 X)) (= _let_9 (tptp.fn_bacterium_14 X)) (= _let_8 _let_3) (= _let_7 _let_2) (= _let_7 _let_1) (= _let_6 (tptp.fn_bacterium_12 X)) (= _let_5 (tptp.fn_bacterium_15 X)) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_esophagus_11 X))) (let ((_let_2 (tptp.fn_peristalsis_1 _let_1))) (let ((_let_3 (tptp.fn_peristalsis_6 _let_1))) (let ((_let_4 (tptp.fn_esophagus_7 X))) (let ((_let_5 (tptp.fn_peristalsis_2 _let_1))) (let ((_let_6 (tptp.fn_esophagus_8 X))) (let ((_let_7 (tptp.fn_peristalsis_8 _let_1))) (let ((_let_8 (tptp.fn_esophagus_10 X))) (let ((_let_9 (tptp.fn_esophagus_9 X))) (let ((_let_10 (tptp.fn_esophagus_4 X))) (let ((_let_11 (tptp.fn_esophagus_1 X))) (let ((_let_12 (tptp.fn_esophagus_2 X))) (let ((_let_13 (tptp.fn_esophagus_3 X))) (let ((_let_14 (tptp.fn_esophagus_5 X))) (let ((_let_15 (tptp.fn_esophagus_6 X))) (=> (tptp.esophagus_1 X) (and (tptp.original_name_2 X |tptp.'Esophagus'|) (tptp.user_description_2 X |tptp.'A muscular tube that conducts food, via peristalsis, from the pharynx to the stomach.'|) (tptp.concept2words_2 X tptp.esophagus) (tptp.digestive_organ_1 X) (tptp.pyloric_sphincter_1 _let_11) (tptp.end_1 _let_12) (tptp.end_1 _let_13) (tptp.stomach_1 _let_10) (tptp.sphincter_1 _let_14) (tptp.striated_muscle_1 _let_15) (tptp.move_1 _let_4) (tptp.alimentary_canal_1 _let_6) (tptp.tissue_1 _let_9) (tptp.smooth_muscle_1 _let_8) (tptp.peristalsis_1 _let_1) (tptp.smooth_muscle_1 _let_7) (tptp.alimentary_canal_1 _let_5) (tptp.move_1 _let_3) (tptp.esophagus_1 _let_2) (tptp.base_2 _let_1 X) (tptp.has_part_2 X _let_15) (tptp.has_part_2 X _let_8) (tptp.has_function_2 X _let_1) (tptp.called_2 _let_14 |tptp.'SP1'|) (tptp.is_inside_2 _let_14 _let_6) (tptp.is_between_2 _let_14 _let_10) (tptp.is_between_2 _let_14 X) (tptp.is_inside_2 _let_10 _let_6) (tptp.called_2 _let_13 |tptp.'E2'|) (tptp.called_2 _let_12 |tptp.'E1'|) (tptp.has_region_2 _let_6 _let_13) (tptp.has_region_2 _let_6 _let_12) (tptp.destination_2 _let_4 _let_10) (tptp.called_2 _let_11 |tptp.'SP2'|) (tptp.is_inside_2 _let_11 _let_6) (tptp.is_between_2 _let_11 _let_10) (tptp.has_part_2 X _let_9) (tptp.facilitates_2 _let_8 _let_1) (tptp.enables_2 _let_1 _let_4) (tptp.origin_2 _let_4 X) (tptp.is_inside_2 X _let_6) (= _let_9 (tptp.fn_organ_1 X)) (= _let_8 _let_7) (= _let_6 _let_5) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_essential_amino_acid_38 X))) (let ((_let_2 (tptp.fn_carboxyl_group_69 _let_1))) (let ((_let_3 (tptp.fn_molecule_10 X))) (let ((_let_4 (tptp.fn_essential_amino_acid_22 X))) (let ((_let_5 (tptp.fn_hold_1 _let_4))) (let ((_let_6 (tptp.fn_essential_amino_acid_32 X))) (let ((_let_7 (tptp.fn_covalent_bond_15 _let_6))) (let ((_let_8 (tptp.fn_carboxyl_group_62 _let_1))) (let ((_let_9 (tptp.fn_carboxyl_group_58 _let_1))) (let ((_let_10 (tptp.fn_covalent_bond_18 _let_6))) (let ((_let_11 (tptp.fn_covalent_bond_24 _let_6))) (let ((_let_12 (tptp.fn_carboxyl_group_65 _let_1))) (let ((_let_13 (tptp.fn_covalent_bond_22 _let_6))) (let ((_let_14 (tptp.fn_essential_amino_acid_39 X))) (let ((_let_15 (tptp.fn_nitrogen_13 _let_14))) (let ((_let_16 (tptp.fn_nitrogen_18 _let_14))) (let ((_let_17 (tptp.fn_carboxyl_group_40 _let_1))) (let ((_let_18 (tptp.fn_essential_amino_acid_23 X))) (let ((_let_19 (tptp.fn_share_2 _let_18))) (let ((_let_20 (tptp.fn_nitrogen_10 _let_14))) (let ((_let_21 (tptp.fn_atom_18 _let_14))) (let ((_let_22 (tptp.fn_share_3 _let_18))) (let ((_let_23 (tptp.fn_amino_acid_17 X))) (let ((_let_24 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_25 (tptp.fn_hold_2 _let_4))) (let ((_let_26 (tptp.fn_share_1 _let_18))) (let ((_let_27 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_28 (tptp.fn_amino_acid_22 X))) (let ((_let_29 (tptp.fn_amino_acid_28 X))) (let ((_let_30 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_31 (tptp.fn_molecule_11 X))) (let ((_let_32 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_33 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_34 (tptp.fn_amino_acid_11 X))) (let ((_let_35 (tptp.fn_amino_acid_27 X))) (let ((_let_36 (tptp.fn_carboxyl_group_16 _let_1))) (let ((_let_37 (tptp.fn_covalent_bond_11 _let_6))) (let ((_let_38 (tptp.fn_carboxyl_group_63 _let_1))) (let ((_let_39 (tptp.fn_amino_acid_15 X))) (let ((_let_40 (tptp.fn_covalent_bond_12 _let_6))) (let ((_let_41 (tptp.fn_carboxyl_group_67 _let_1))) (let ((_let_42 (tptp.fn_carboxyl_group_47 _let_1))) (let ((_let_43 (tptp.fn_covalent_bond_14 _let_6))) (let ((_let_44 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_45 (tptp.fn_amino_acid_24 X))) (let ((_let_46 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_47 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_48 (tptp.fn_carboxyl_group_49 _let_1))) (let ((_let_49 (tptp.fn_amino_acid_12 X))) (let ((_let_50 (tptp.fn_carboxyl_group_56 _let_1))) (let ((_let_51 (tptp.fn_amino_acid_10 X))) (let ((_let_52 (tptp.fn_functional_group_1 _let_1))) (let ((_let_53 (tptp.fn_essential_amino_acid_28 X))) (let ((_let_54 (tptp.fn_transfer_1 _let_53))) (let ((_let_55 (tptp.fn_amino_acid_13 X))) (let ((_let_56 (tptp.fn_amino_acid_14 X))) (let ((_let_57 (tptp.fn_essential_amino_acid_25 X))) (let ((_let_58 (tptp.fn_covalent_bond_17 _let_6))) (let ((_let_59 (tptp.fn_essential_amino_acid_24 X))) (let ((_let_60 (tptp.fn_essential_amino_acid_26 X))) (let ((_let_61 (tptp.fn_essential_amino_acid_27 X))) (let ((_let_62 (tptp.fn_essential_amino_acid_40 X))) (let ((_let_63 (tptp.fn_essential_amino_acid_35 X))) (let ((_let_64 (tptp.fn_essential_amino_acid_42 X))) (let ((_let_65 (tptp.fn_essential_amino_acid_19 X))) (let ((_let_66 (tptp.fn_essential_amino_acid_20 X))) (let ((_let_67 (tptp.fn_essential_amino_acid_8 X))) (let ((_let_68 (tptp.fn_carboxyl_group_55 _let_1))) (let ((_let_69 (tptp.fn_essential_amino_acid_44 X))) (let ((_let_70 (tptp.fn_essential_amino_acid_36 X))) (let ((_let_71 (tptp.fn_carboxyl_group_22 _let_1))) (let ((_let_72 (tptp.fn_essential_amino_acid_21 X))) (let ((_let_73 (tptp.fn_essential_amino_acid_41 X))) (let ((_let_74 (tptp.fn_essential_amino_acid_10 X))) (let ((_let_75 (tptp.fn_essential_amino_acid_12 X))) (let ((_let_76 (tptp.fn_essential_amino_acid_18 X))) (let ((_let_77 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_78 (tptp.fn_essential_amino_acid_43 X))) (let ((_let_79 (tptp.fn_essential_amino_acid_15 X))) (let ((_let_80 (tptp.fn_essential_amino_acid_11 X))) (let ((_let_81 (tptp.fn_essential_amino_acid_37 X))) (let ((_let_82 (tptp.fn_essential_amino_acid_33 X))) (let ((_let_83 (tptp.fn_essential_amino_acid_14 X))) (let ((_let_84 (tptp.fn_essential_amino_acid_13 X))) (let ((_let_85 (tptp.fn_essential_amino_acid_17 X))) (let ((_let_86 (tptp.fn_essential_amino_acid_9 X))) (let ((_let_87 (tptp.fn_essential_amino_acid_34 X))) (let ((_let_88 (tptp.fn_essential_amino_acid_16 X))) (let ((_let_89 (tptp.fn_essential_amino_acid_31 X))) (let ((_let_90 (tptp.fn_food_3 _let_89))) (let ((_let_91 (tptp.fn_essential_amino_acid_30 X))) (let ((_let_92 (tptp.fn_obtain_1 _let_53))) (let ((_let_93 (tptp.fn_essential_amino_acid_29 X))) (let ((_let_94 (tptp.fn_essential_amino_acid_4 X))) (let ((_let_95 (tptp.fn_essential_amino_acid_5 X))) (let ((_let_96 (tptp.fn_essential_amino_acid_2 X))) (let ((_let_97 (tptp.fn_essential_amino_acid_1 X))) (let ((_let_98 (tptp.fn_essential_amino_acid_3 X))) (=> (tptp.essential_amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Essential-Amino-Acid'|) (tptp.user_description_2 X |tptp.'An amino acid that cannot be synthesized by the body and thus must be supplied in the diet.'|) (tptp.concept2words_2 X |tptp.'essential amino acid'|) (tptp.concept2words_2 X |tptp.'essential-amino-acid'|) (tptp.amino_acid_1 X) (tptp.single_bond_1 _let_97) (tptp.single_bond_1 _let_96) (tptp.nutritional_requirement_1 _let_98) (tptp.nutrition_1 _let_94) (tptp.nutrient_1 _let_95) (tptp.hold_together_1 _let_67) (tptp.hold_together_1 _let_86) (tptp.share_1 _let_74) (tptp.share_1 _let_80) (tptp.share_1 _let_75) (tptp.speed_value_1 _let_84) (tptp.quantity_value_1 _let_83) (tptp.share_1 _let_79) (tptp.hold_together_1 _let_88) (tptp.constant_motion_1 _let_85) (tptp.entity_1 _let_76) (tptp.tangible_entity_1 _let_76) (tptp.electron_1 _let_76) (tptp.valence_electron_1 _let_76) (tptp.electron_shell_1 _let_65) (tptp.electron_shell_1 _let_66) (tptp.electron_shell_1 _let_72) (tptp.hold_1 _let_4) (tptp.hold_together_1 _let_4) (tptp.share_1 _let_18) (tptp.atomic_nucleus_1 _let_59) (tptp.tangible_entity_1 _let_57) (tptp.electron_1 _let_57) (tptp.valence_electron_1 _let_57) (tptp.entity_1 _let_60) (tptp.electron_1 _let_60) (tptp.valence_electron_1 _let_60) (tptp.atomic_nucleus_1 _let_61) (tptp.obtain_1 _let_53) (tptp.organism_1 _let_93) (tptp.substance_1 _let_91) (tptp.food_1 _let_89) (tptp.tangible_entity_1 _let_6) (tptp.chemical_bond_1 _let_6) (tptp.single_bond_1 _let_6) (tptp.covalent_bond_1 _let_6) (tptp.kinetic_energy_1 _let_82) (tptp.carbon_skeleton_1 _let_87) (tptp.entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.atom_1 _let_63) (tptp.hydrogen_1 _let_63) (tptp.entity_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.atom_1 _let_70) (tptp.carbon_1 _let_70) (tptp.amino_group_1 _let_81) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.chemical_entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.nitrogen_1 _let_14) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.hydrogen_1 _let_62) (tptp.entity_1 _let_62) (tptp.tangible_entity_1 _let_62) (tptp.oxygen_1 _let_73) (tptp.entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.atom_1 _let_64) (tptp.oxygen_1 _let_64) (tptp.entity_1 _let_78) (tptp.valence_electron_1 _let_78) (tptp.hold_together_1 _let_69) (tptp.entity_1 _let_92) (tptp.tangible_entity_1 _let_90) (tptp.entity_1 _let_77) (tptp.valence_electron_1 _let_77) (tptp.electron_shell_1 _let_71) (tptp.hold_together_1 _let_68) (tptp.share_1 _let_58) (tptp.entity_1 _let_54) (tptp.chemical_entity_1 _let_52) (tptp.share_1 _let_50) (tptp.share_1 _let_48) (tptp.electron_1 _let_47) (tptp.valence_electron_1 _let_47) (tptp.entity_1 _let_46) (tptp.tangible_entity_1 _let_46) (tptp.electron_1 _let_46) (tptp.valence_electron_1 _let_46) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.carbon_1 _let_44) (tptp.hold_together_1 _let_43) (tptp.hold_together_1 _let_42) (tptp.hold_together_1 _let_41) (tptp.electron_shell_1 _let_40) (tptp.electron_shell_1 _let_38) (tptp.electron_shell_1 _let_37) (tptp.electron_shell_1 _let_36) (tptp.oxygen_1 _let_33) (tptp.oxygen_1 _let_32) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hydrogen_1 _let_27) (tptp.entity_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.entity_1 _let_22) (tptp.atomic_nucleus_1 _let_21) (tptp.atomic_nucleus_1 _let_20) (tptp.entity_1 _let_19) (tptp.electron_1 _let_17) (tptp.valence_electron_1 _let_17) (tptp.valence_electron_1 _let_16) (tptp.valence_electron_1 _let_15) (tptp.atomic_nucleus_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.atomic_nucleus_1 _let_11) (tptp.valence_electron_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.electron_1 _let_9) (tptp.valence_electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.valence_electron_1 _let_8) (tptp.valence_electron_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.single_bond_1 _let_2) (not (= _let_97 _let_6)) (not (= _let_96 _let_6)) (tptp.element_2 _let_98 X) (tptp.donor_2 _let_53 _let_91) (tptp.plays_2 X _let_95) (not (= _let_6 _let_97)) (not (= _let_6 _let_96)) (tptp.beneficiary_2 _let_94 _let_93) (tptp.base_2 _let_94 _let_93) (tptp.in_event_2 _let_95 _let_94) (tptp.agent_2 _let_53 _let_93) (tptp.recipient_2 _let_53 _let_93) (tptp.plays_2 _let_91 _let_89) (tptp.possesses_2 X _let_6) (tptp.is_between_2 _let_6 _let_63) (tptp.object_2 _let_53 X) (tptp.is_between_2 _let_6 _let_62) (tptp.object_2 _let_4 _let_14) (tptp.is_between_2 _let_6 _let_14) (tptp.agent_2 _let_79 _let_64) (tptp.agent_2 _let_80 _let_70) (tptp.has_part_2 X _let_62) (tptp.object_2 _let_88 _let_70) (tptp.object_2 _let_88 _let_64) (tptp.has_part_2 X _let_70) (tptp.has_part_2 X _let_14) (tptp.is_inside_2 _let_14 _let_81) (not (= _let_70 _let_14)) (not (= _let_14 _let_70)) (not (= _let_62 _let_70)) (tptp.object_2 _let_88 _let_62) (tptp.object_2 _let_88 _let_73) (tptp.agent_2 _let_79 _let_73) (tptp.agent_2 _let_79 _let_70) (not (= _let_70 _let_62)) (tptp.object_2 _let_86 _let_64) (tptp.object_2 _let_86 _let_70) (tptp.is_inside_2 _let_70 _let_87) (tptp.has_region_2 X _let_87) (tptp.has_part_2 X _let_73) (not (= _let_62 _let_14)) (not (= _let_14 _let_63)) (tptp.has_part_2 X _let_63) (not (= _let_14 _let_62)) (not (= _let_63 _let_14)) (not (= _let_70 _let_63)) (not (= _let_63 _let_70)) (tptp.directly_proportional_2 _let_84 _let_83) (tptp.speed_2 _let_85 _let_84) (tptp.object_2 _let_85 X) (tptp.has_part_2 X _let_64) (tptp.has_region_2 _let_64 _let_66) (tptp.is_inside_2 _let_62 _let_81) (tptp.has_region_2 X _let_81) (tptp.possesses_2 X _let_82) 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_let_50) (= _let_80 _let_51) (= _let_62 _let_29) (= (tptp.fn_essential_amino_acid_6 X) (tptp.fn_amino_acid_3 X)) (= _let_64 _let_35) (= _let_88 _let_56) (= _let_79 _let_49) (= _let_88 _let_55) (= _let_73 _let_35) (= _let_87 (tptp.fn_amino_acid_23 X)) (= _let_86 _let_55) (= _let_63 _let_28) (= _let_70 _let_45) (= _let_14 _let_24) (= _let_14 _let_23) (= _let_66 _let_39) (= _let_64 _let_34) (= _let_85 (tptp.fn_amino_acid_5 X)) (= _let_84 (tptp.fn_amino_acid_6 X)) (= (tptp.fn_essential_amino_acid_7 X) (tptp.fn_amino_acid_4 X)) (= _let_83 (tptp.fn_amino_acid_7 X)) (= _let_82 (tptp.fn_amino_acid_16 X)) (= _let_81 (tptp.fn_amino_acid_25 X)) (= _let_62 _let_28) (= _let_63 _let_29) (= _let_73 _let_34) (= X _let_52) (= _let_1 (tptp.fn_amino_acid_26 X)) (= _let_59 _let_12) (= _let_80 _let_50) (= _let_6 _let_2) (= _let_76 _let_47) (= _let_79 _let_48) (= _let_78 _let_77) (= _let_76 _let_46) (= _let_75 _let_50) (= _let_74 _let_48) (= _let_64 _let_33) (= _let_73 _let_32) (= _let_73 _let_33) (= 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X))) (=> (tptp.essential_chemical_element_for_life_1 X) (and (tptp.original_name_2 X |tptp.'Essential-Chemical-Element-For-Life'|) (tptp.user_description_2 X |tptp.'The essential chemical elements for life are carbon, calcium, hydrogen, nitrogen, oxygen, phosphorus, potassium, sulfur.'|) (tptp.concept2words_2 X |tptp.'chemical elements essential for life'|) (tptp.concept2words_2 X |tptp.'chemical elements important for life'|) (tptp.concept2words_2 X |tptp.'essential chemical element for life'|) (tptp.concept2words_2 X |tptp.'essential-chemical-element-for-life'|) (tptp.chemical_element_1 X) (tptp.life_cycle_1 _let_1) (tptp.raw_material_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.essential_chemical_entity_1 X) (and (tptp.original_name_2 X |tptp.'Essential-Chemical-Entity'|) (tptp.user_description_2 X |tptp.'In plants, a chemical element required for the plant to grow from a seed and complete its lifecycle, producing another generation in the form of seeds.'|) 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((_let_39 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_40 (tptp.fn_organic_acid_14 X))) (let ((_let_41 (tptp.fn_carboxyl_group_57 _let_1))) (let ((_let_42 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_43 (tptp.fn_carboxyl_group_40 _let_1))) (let ((_let_44 (tptp.fn_fatty_acid_62 X))) (let ((_let_45 (tptp.fn_carboxyl_group_49 _let_1))) (let ((_let_46 (tptp.fn_fatty_acid_14 X))) (let ((_let_47 (tptp.fn_fatty_acid_61 X))) (let ((_let_48 (tptp.fn_fatty_acid_37 X))) (let ((_let_49 (tptp.fn_carboxyl_group_20 _let_1))) (let ((_let_50 (tptp.fn_second_electron_shell_9 _let_37))) (let ((_let_51 (tptp.fn_fatty_acid_38 X))) (let ((_let_52 (tptp.fn_second_electron_shell_14 _let_37))) (let ((_let_53 (tptp.fn_carboxyl_group_38 _let_1))) (let ((_let_54 (tptp.fn_fatty_acid_35 X))) (let ((_let_55 (tptp.fn_fatty_acid_36 X))) (let ((_let_56 (tptp.fn_second_electron_shell_21 _let_37))) (let ((_let_57 (tptp.fn_fatty_acid_22 X))) (let ((_let_58 (tptp.fn_fatty_acid_15 X))) (let ((_let_59 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(let ((_let_98 (tptp.fn_essential_fatty_acid_40 X))) (let ((_let_99 (tptp.fn_essential_fatty_acid_24 X))) (let ((_let_100 (tptp.fn_essential_fatty_acid_15 X))) (let ((_let_101 (tptp.fn_essential_fatty_acid_7 X))) (let ((_let_102 (tptp.fn_essential_fatty_acid_8 X))) (let ((_let_103 (tptp.fn_essential_fatty_acid_10 X))) (let ((_let_104 (tptp.fn_functional_group_1 _let_1))) (let ((_let_105 (tptp.fn_essential_fatty_acid_11 X))) (let ((_let_106 (tptp.fn_essential_fatty_acid_26 X))) (let ((_let_107 (tptp.fn_essential_fatty_acid_2 X))) (let ((_let_108 (tptp.fn_essential_fatty_acid_1 X))) (let ((_let_109 (tptp.fn_essential_fatty_acid_3 X))) (let ((_let_110 (tptp.fn_essential_fatty_acid_4 X))) (=> (tptp.essential_fatty_acid_1 X) (and (tptp.original_name_2 X |tptp.'Essential-Fatty-Acid'|) (tptp.user_description_2 X |tptp.'A fatty acid that an animal requires but cannot synthesize. It therefore must be obtained in the diet.'|) (tptp.concept2words_2 X |tptp.'essential fatty acid'|) (tptp.concept2words_2 X |tptp.'essential-fatty-acid'|) (tptp.fatty_acid_1 X) (tptp.nutrient_1 _let_108) (tptp.nutrition_1 _let_107) (tptp.organism_1 _let_109) (tptp.nutritional_requirement_1 _let_110) (tptp.atomic_nucleus_1 _let_90) (tptp.share_1 _let_76) (tptp.share_1 _let_101) (tptp.share_1 _let_102) (tptp.hold_together_1 _let_70) (tptp.hold_1 _let_103) (tptp.hold_together_1 _let_103) (tptp.hold_1 _let_105) (tptp.hold_together_1 _let_105) (tptp.electron_shell_1 _let_87) (tptp.atomic_nucleus_1 _let_79) (tptp.center_1 _let_93) (tptp.first_electron_shell_1 _let_100) (tptp.entity_1 _let_75) (tptp.tangible_entity_1 _let_75) (tptp.electron_1 _let_75) (tptp.valence_electron_1 _let_75) (tptp.attract_1 _let_82) (tptp.center_1 _let_92) (tptp.tangible_entity_1 _let_72) (tptp.entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.carbon_1 _let_72) (tptp.entity_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.atom_1 _let_77) (tptp.hydrogen_1 _let_77) (tptp.atom_1 _let_69) (tptp.chemical_entity_1 _let_69) (tptp.entity_1 _let_69) (tptp.tangible_entity_1 _let_69) (tptp.oxygen_1 _let_69) (tptp.atom_1 _let_67) (tptp.chemical_entity_1 _let_67) (tptp.entity_1 _let_67) (tptp.tangible_entity_1 _let_67) (tptp.oxygen_1 _let_67) (tptp.tangible_entity_1 _let_78) (tptp.entity_1 _let_78) (tptp.chemical_entity_1 _let_78) (tptp.atom_1 _let_78) (tptp.carbon_1 _let_78) (tptp.carbon_skeleton_1 _let_99) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.end_1 _let_106) (tptp.entity_1 _let_84) (tptp.proton_1 _let_84) (tptp.hold_1 _let_71) (tptp.hold_together_1 _let_71) (tptp.share_1 _let_85) (tptp.center_1 _let_89) (tptp.second_electron_shell_1 _let_37) (tptp.entity_1 _let_91) (tptp.proton_1 _let_91) (tptp.s_orbital_1 _let_97) (tptp.p_orbital_1 _let_95) (tptp.electron_shell_1 _let_68) (tptp.center_1 _let_66) (tptp.atomic_nucleus_1 _let_74) (tptp.entity_1 _let_73) (tptp.tangible_entity_1 _let_73) (tptp.electron_1 _let_73) (tptp.valence_electron_1 _let_73) (tptp.tangible_entity_1 _let_86) (tptp.electron_1 _let_86) (tptp.entity_1 _let_86) (tptp.valence_electron_1 _let_86) (tptp.electron_shell_1 _let_98) (tptp.first_electron_shell_1 _let_98) (tptp.entity_1 _let_80) (tptp.tangible_entity_1 _let_80) (tptp.electron_1 _let_80) (tptp.valence_electron_1 _let_80) (tptp.atomic_nucleus_1 _let_88) (tptp.chemical_entity_1 _let_104) (tptp.s_orbital_1 _let_96) (tptp.p_orbital_1 _let_94) (tptp.entity_1 _let_83) (tptp.proton_1 _let_83) (tptp.attract_1 _let_81) (tptp.first_electron_shell_1 _let_56) (tptp.entity_1 _let_53) (tptp.proton_1 _let_53) (tptp.atomic_nucleus_1 _let_52) (tptp.center_1 _let_50) (tptp.center_1 _let_49) (tptp.share_1 _let_45) (tptp.electron_1 _let_43) (tptp.valence_electron_1 _let_43) (tptp.electron_1 _let_42) (tptp.valence_electron_1 _let_42) (tptp.atomic_nucleus_1 _let_41) (tptp.atom_1 _let_38) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.hydrogen_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.electron_1 _let_33) (tptp.valence_electron_1 _let_33) (tptp.share_1 _let_30) (tptp.atomic_nucleus_1 _let_28) (tptp.atomic_nucleus_1 _let_27) (tptp.entity_1 _let_22) (tptp.valence_electron_1 _let_22) (tptp.entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.electron_1 _let_21) (tptp.valence_electron_1 _let_21) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.carbon_1 _let_18) (tptp.hold_together_1 _let_16) (tptp.oxygen_1 _let_14) (tptp.hold_together_1 _let_12) (tptp.hold_together_1 _let_11) (tptp.electron_shell_1 _let_9) (tptp.center_1 _let_6) (tptp.center_1 _let_5) (tptp.oxygen_1 _let_2) (not (= _let_68 _let_37)) (tptp.element_2 _let_110 X) (tptp.plays_2 X _let_108) (not (= _let_37 _let_68)) (tptp.beneficiary_2 _let_107 _let_109) (tptp.base_2 _let_107 _let_109) (tptp.in_event_2 _let_108 _let_107) (tptp.is_at_2 _let_72 _let_106) (tptp.is_inside_2 _let_78 _let_99) (tptp.has_part_2 X _let_72) (tptp.has_region_2 _let_78 _let_92) (tptp.object_2 _let_105 _let_67) (tptp.is_inside_2 _let_88 _let_100) (tptp.object_2 _let_71 _let_77) (tptp.object_2 _let_71 _let_72) (tptp.has_part_2 _let_72 _let_91) (tptp.is_at_2 _let_74 _let_66) (not (= _let_89 _let_66)) (not (= _let_66 _let_89)) (tptp.object_2 _let_103 _let_67) (tptp.object_2 _let_103 _let_78) (tptp.agent_2 _let_101 _let_78) (tptp.has_part_2 X _let_69) (tptp.agent_2 _let_85 _let_69) (tptp.agent_2 _let_85 _let_78) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (tptp.agent_2 _let_102 _let_67) (tptp.agent_2 _let_102 _let_78) (tptp.is_at_2 _let_78 _let_106) (tptp.has_region_2 X _let_106) (tptp.has_part_2 X _let_77) (tptp.has_part_2 X _let_67) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_78 _let_1) (tptp.object_2 _let_105 _let_78) (tptp.object_2 _let_105 _let_69) (tptp.agent_2 _let_101 _let_67) (tptp.object_2 _let_101 _let_86) (tptp.object_2 _let_102 _let_86) (not (= _let_80 _let_86)) (not (= _let_86 _let_80)) (tptp.has_region_2 _let_72 _let_100) (tptp.object_2 _let_70 _let_72) (tptp.object_2 _let_70 _let_67) (not (= _let_100 _let_68)) (not (= _let_68 _let_100)) (tptp.agent_2 _let_101 _let_69) (tptp.object_2 _let_101 _let_80) (tptp.object_2 _let_102 _let_80) (tptp.agent_2 _let_102 _let_69) (tptp.object_2 _let_103 _let_69) (tptp.has_region_2 _let_69 _let_98) (tptp.has_region_2 _let_69 _let_92) (not (= _let_92 _let_66)) (not (= _let_87 _let_98)) (not (= _let_98 _let_87)) (not (= _let_66 _let_92)) (tptp.object_2 _let_76 _let_73) (tptp.object_2 _let_85 _let_73) (tptp.object_2 _let_85 _let_75) (not (= _let_86 _let_73)) (not (= _let_73 _let_86)) (not (= _let_98 _let_37)) (not (= _let_37 _let_98)) (not (= _let_100 _let_98)) (not (= _let_87 _let_100)) (not (= _let_100 _let_87)) (not (= _let_98 _let_100)) (tptp.agent_2 _let_76 _let_67) (tptp.agent_2 _let_76 _let_72) (tptp.has_region_2 _let_72 _let_93) (not (= _let_92 _let_93)) (not (= _let_93 _let_92)) (tptp.has_part_2 X _let_78) (not (= _let_78 _let_72)) (tptp.has_region_2 _let_72 _let_37) (not (= _let_72 _let_78)) (not (= _let_87 _let_37)) (not (= _let_37 _let_87)) (tptp.has_region_2 X _let_99) (tptp.is_inside_2 _let_72 _let_99) (not (= _let_72 _let_77)) (not (= _let_77 _let_72)) (not (= _let_67 _let_77)) (not (= _let_77 _let_67)) (tptp.has_region_2 _let_78 _let_90) (tptp.has_region_2 _let_78 _let_89) (tptp.is_inside_2 _let_98 _let_37) (not (= _let_93 _let_66)) (not (= _let_66 _let_93)) (not (= _let_93 _let_89)) (not (= _let_89 _let_93)) (tptp.has_region_2 _let_72 _let_89) (tptp.is_inside_2 _let_72 _let_1) (tptp.is_near_2 _let_90 _let_80) (tptp.is_near_2 _let_80 _let_90) (not (= _let_90 _let_79)) (not (= _let_79 _let_88)) (not (= _let_79 _let_90)) (not (= _let_88 _let_79)) (tptp.is_at_2 _let_88 _let_93) (tptp.is_near_2 _let_79 _let_75) (tptp.is_near_2 _let_75 _let_79) (not (= _let_89 _let_92)) (tptp.is_at_2 _let_79 _let_89) (not (= _let_92 _let_89)) (tptp.is_at_2 _let_90 _let_92) (not (= _let_73 _let_75)) (not (= _let_75 _let_80)) (not (= _let_80 _let_75)) (not (= _let_75 _let_73)) (tptp.is_near_2 _let_73 _let_88) (tptp.is_near_2 _let_88 _let_73) (not (= _let_88 _let_74)) (tptp.is_near_2 _let_74 _let_86) (tptp.is_near_2 _let_86 _let_74) (not (= _let_74 _let_90)) (tptp.is_inside_2 _let_91 _let_88) (not (= _let_74 _let_88)) (not (= _let_90 _let_74)) (not (= _let_69 _let_78)) (tptp.has_region_2 _let_69 _let_89) (not (= _let_78 _let_69)) (tptp.has_part_2 _let_78 _let_80) (tptp.object_2 _let_85 _let_80) (tptp.agent_2 _let_85 _let_72) (not (= _let_72 _let_67)) (not (= _let_67 _let_78)) (tptp.has_region_2 _let_72 _let_88) (not (= _let_67 _let_72)) (not (= _let_78 _let_67)) (tptp.agent_2 _let_76 _let_78) (tptp.agent_2 _let_76 _let_69) (not (= _let_69 _let_67)) (tptp.has_region_2 _let_69 _let_87) (not (= _let_67 _let_69)) (tptp.has_part_2 _let_67 _let_86) (tptp.object_2 _let_85 _let_86) (tptp.agent_2 _let_85 _let_67) (tptp.object_2 _let_70 _let_78) (tptp.has_part_2 _let_78 _let_84) (tptp.agent_2 _let_82 _let_84) (tptp.object_2 _let_82 _let_80) (tptp.object_2 _let_76 _let_80) (not (= _let_69 _let_77)) (not (= _let_77 _let_69)) (tptp.has_region_2 _let_69 _let_79) (tptp.object_2 _let_71 _let_69) (tptp.object_2 _let_71 _let_78) (tptp.object_2 _let_70 _let_77) (tptp.is_inside_2 _let_77 _let_1) (tptp.is_inside_2 _let_69 _let_1) (tptp.has_part_2 _let_69 _let_75) (tptp.object_2 _let_76 _let_75) (tptp.has_region_2 _let_67 _let_74) (tptp.is_inside_2 _let_67 _let_1) (not (= _let_72 _let_69)) (tptp.has_part_2 _let_72 _let_73) (not (= _let_69 _let_72)) (tptp.object_2 _let_71 _let_67) (tptp.object_2 _let_70 _let_69) (tptp.has_region_2 _let_67 _let_68) (tptp.has_region_2 _let_67 _let_66) (tptp.has_region_2 _let_78 _let_98) (tptp.has_region_2 _let_78 _let_37) (= _let_105 _let_17) (= _let_88 _let_48) (= _let_91 _let_54) (= _let_71 _let_17) (= _let_74 _let_29) (= _let_66 _let_8) (= _let_89 _let_51) (= _let_101 _let_59) (= _let_103 _let_64) (= _let_103 _let_63) (= _let_106 (tptp.fn_fatty_acid_3 X)) (= _let_102 _let_61) (= _let_105 _let_65) (= _let_105 _let_62) (= _let_78 _let_40) (= _let_78 _let_39) (= X _let_104) (= _let_1 _let_26) (= _let_1 _let_25) (= _let_1 _let_24) (= _let_102 _let_31) (= _let_80 _let_23) (= _let_86 _let_34) (= _let_101 _let_58) (= _let_67 _let_4) (= _let_70 _let_13) (= _let_68 _let_10) (= _let_103 _let_62) (= _let_69 _let_3) (= _let_102 _let_59) (= _let_80 _let_44) (= _let_101 _let_60) (= _let_69 _let_15) (= _let_101 _let_32) (= _let_66 _let_7) (= _let_92 _let_51) (= _let_69 _let_4) (= _let_75 _let_34) (= _let_85 _let_46) (= _let_86 _let_44) (= _let_73 _let_23) (= _let_87 _let_47) (= _let_100 (tptp.fn_fatty_acid_24 X)) (= _let_98 _let_57) (= _let_93 _let_51) (= _let_92 _let_8) (= _let_93 _let_55) (= _let_76 _let_32) (= _let_76 _let_31) (= _let_87 _let_10) (= _let_37 (tptp.fn_fatty_acid_23 X)) (= _let_72 _let_20) (= _let_78 _let_20) (= _let_78 _let_19) (= _let_67 _let_3) (= _let_77 _let_36) (= _let_72 _let_19) (= _let_99 (tptp.fn_fatty_acid_27 X)) (= _let_90 _let_52) (= _let_89 _let_50) (= _let_98 _let_56) (= _let_78 _let_38) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_66 _let_6) (= _let_80 _let_43) (= _let_93 _let_5) (= _let_79 _let_28) (= _let_89 _let_49) (= _let_92 _let_5) (= _let_75 _let_21) (= _let_73 _let_22) (= _let_91 _let_53) (= _let_88 _let_27) (= _let_86 _let_42) (= _let_90 _let_41) (= _let_74 _let_28) (= _let_89 _let_5) (= _let_80 _let_42) (= _let_88 _let_28) (= _let_87 _let_9) (= _let_86 _let_22) (= _let_85 _let_45) (= _let_70 _let_12) (= _let_84 _let_83) (= _let_82 _let_81) (= _let_80 _let_21) (= _let_79 _let_41) (= _let_71 _let_16) (= _let_78 _let_18) (= _let_77 _let_35) (= _let_76 _let_30) (= _let_75 _let_33) (= _let_74 _let_27) (= _let_73 _let_21) (= _let_72 _let_18) (= _let_71 _let_12) (= _let_70 _let_11) (= _let_69 _let_14) (= _let_68 _let_9) (= _let_67 _let_2) (= _let_66 _let_5) (= _let_17 _let_65) (= _let_65 _let_65) (= _let_65 _let_17) (= _let_17 _let_62) (= _let_62 _let_62) (= _let_62 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_31) (= _let_31 _let_59) (= _let_59 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_32) (= _let_32 _let_32) (= _let_32 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_51) (= _let_51 _let_55) (= _let_55 _let_55) (= _let_55 _let_5) (= _let_5 _let_51) (= _let_51 _let_8) (= _let_8 _let_5) (= _let_5 _let_5) (= _let_5 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_41) (= _let_41 _let_41) (= _let_41 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_5) (= _let_5 _let_48) (= _let_48 _let_27) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_10) (= _let_10 _let_47) (= _let_47 _let_47) (= _let_47 _let_10) (= _let_9 _let_34) (= _let_34 _let_34) (= _let_34 _let_44) (= _let_44 _let_42) (= _let_42 _let_22) (= _let_22 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_23) (= _let_23 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_21) (= _let_21 _let_28) (= _let_28 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_20 _let_39) (= _let_39 _let_39) (= _let_39 _let_20) (= _let_20 _let_20) (= _let_19 _let_38) (= _let_38 _let_38) (= _let_38 _let_18) (= _let_18 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_21) (= _let_21 _let_21) (= _let_21 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_12) (= _let_12 _let_3) (= _let_3 _let_15) (= _let_15 _let_3) (= _let_4 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ester_8 X))) (let ((_let_2 (tptp.fn_carbonyl_group_7 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_1 X))) (let ((_let_4 (tptp.fn_ester_10 X))) (let ((_let_5 (tptp.fn_covalent_bond_19 _let_4))) (let ((_let_6 (tptp.fn_carbonyl_group_9 _let_1))) (let ((_let_7 (tptp.fn_molecule_11 X))) (let ((_let_8 (tptp.fn_organic_molecule_2 X))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_4))) (let ((_let_10 (tptp.fn_ester_3 X))) (let ((_let_11 (tptp.fn_ester_6 X))) (let ((_let_12 (tptp.fn_ester_5 X))) (let ((_let_13 (tptp.fn_ester_4 X))) (let ((_let_14 (tptp.fn_ester_11 X))) (let ((_let_15 (tptp.fn_ester_9 X))) (let ((_let_16 (tptp.fn_carbonyl_group_8 _let_1))) (let ((_let_17 (tptp.fn_ester_7 X))) (let ((_let_18 (tptp.fn_ester_12 X))) (let ((_let_19 (tptp.fn_carbonyl_group_10 _let_1))) (let ((_let_20 (tptp.fn_ester_13 X))) (let ((_let_21 (tptp.fn_ester_15 X))) (let ((_let_22 (tptp.fn_covalent_bond_14 _let_4))) (let ((_let_23 (tptp.fn_ester_14 X))) (let ((_let_24 (tptp.fn_functional_group_1 _let_1))) (=> (tptp.ester_1 X) (and (tptp.original_name_2 X |tptp.'Ester'|) (tptp.user_description_2 X |tptp.'An organic compound formed when the hydrogen of an acid is replaced by an alkyl or other organic group. Many naturally occurring fats and essential oils are esters of fatty acids.'|) (tptp.concept2words_2 X tptp.ester) (tptp.organic_molecule_1 X) (tptp.kinetic_energy_1 _let_10) (tptp.constant_motion_1 _let_13) (tptp.speed_value_1 _let_12) (tptp.quantity_value_1 _let_11) (tptp.double_bond_1 _let_17) (tptp.carbonyl_group_1 _let_1) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_15) (tptp.single_bond_1 _let_4) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.carbon_1 _let_14) (tptp.entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.hold_together_1 _let_20) (tptp.hold_together_1 _let_23) (tptp.carbon_skeleton_1 _let_21) (tptp.chemical_entity_1 _let_24) (tptp.hold_together_1 _let_22) (tptp.hold_together_1 _let_19) (tptp.double_bond_1 _let_16) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.oxygen_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (tptp.possesses_2 X _let_17) (tptp.has_part_2 X _let_15) (tptp.is_between_2 _let_4 _let_18) (tptp.possesses_2 X _let_4) (tptp.is_between_2 _let_4 _let_15) (tptp.has_region_2 X _let_1) (tptp.is_between_2 _let_4 _let_14) (tptp.object_2 _let_23 _let_14) (tptp.object_2 _let_23 _let_18) (not (= _let_15 _let_18)) (not (= _let_18 _let_15)) (tptp.has_part_2 X _let_14) (tptp.is_inside_2 _let_14 _let_21) (tptp.has_region_2 X _let_21) (tptp.has_part_2 X _let_18) (not (= _let_18 _let_14)) (not (= _let_14 _let_18)) (tptp.is_inside_2 _let_18 _let_1) (tptp.object_2 _let_20 _let_18) (tptp.object_2 _let_20 _let_14) (tptp.is_inside_2 _let_14 _let_1) (tptp.is_between_2 _let_17 _let_14) (tptp.is_between_2 _let_17 _let_18) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (tptp.possesses_2 X _let_10) (tptp.quantity_2 _let_10 _let_11) (tptp.directly_proportional_2 _let_12 _let_11) (tptp.speed_2 _let_13 _let_12) (tptp.object_2 _let_13 X) (= _let_15 _let_7) (= _let_4 (tptp.fn_molecule_10 X)) (= X _let_24) (= _let_15 _let_5) (= _let_18 _let_9) (= _let_23 _let_22) (= _let_14 _let_5) (= _let_18 _let_8) (= _let_21 (tptp.fn_organic_molecule_3 X)) (= _let_14 _let_3) (= _let_20 _let_19) (= _let_18 _let_6) (= _let_17 _let_16) (= _let_15 _let_6) (= _let_14 _let_2) (= (tptp.fn_ester_1 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_ester_2 X) (tptp.fn_molecule_1 X)) (= _let_13 (tptp.fn_molecule_8 X)) (= _let_12 (tptp.fn_molecule_3 X)) (= _let_11 (tptp.fn_molecule_4 X)) (= _let_10 (tptp.fn_molecule_12 X)) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ester_linkage_12 X))) (let ((_let_2 (tptp.fn_first_electron_shell_7 _let_1))) (let ((_let_3 (tptp.fn_polar_covalent_bond_14 X))) (let ((_let_4 (tptp.fn_ester_linkage_28 X))) (let ((_let_5 (tptp.fn_carbon_18 _let_4))) (let ((_let_6 (tptp.fn_polar_covalent_bond_13 X))) (let ((_let_7 (tptp.fn_atom_18 _let_4))) (let ((_let_8 (tptp.fn_first_electron_shell_5 _let_1))) (let ((_let_9 (tptp.fn_carbon_10 _let_4))) (let ((_let_10 (tptp.fn_ester_linkage_10 X))) (let ((_let_11 (tptp.fn_electron_shell_2 _let_10))) (let ((_let_12 (tptp.fn_first_electron_shell_4 _let_1))) (let ((_let_13 (tptp.fn_ester_linkage_11 X))) (let ((_let_14 (tptp.fn_second_electron_shell_5 _let_13))) (let ((_let_15 (tptp.fn_electron_shell_3 _let_10))) (let ((_let_16 (tptp.fn_polar_covalent_bond_11 X))) (let ((_let_17 (tptp.fn_polar_covalent_bond_12 X))) (let ((_let_18 (tptp.fn_second_electron_shell_11 _let_13))) (let ((_let_19 (tptp.fn_ester_linkage_9 X))) (let ((_let_20 (tptp.fn_constant_motion_1 _let_19))) (let ((_let_21 (tptp.fn_ester_linkage_30 X))) (let ((_let_22 (tptp.fn_constant_motion_1 _let_21))) (let ((_let_23 (tptp.fn_ester_linkage_31 X))) (let ((_let_24 (tptp.fn_attract_1 _let_23))) (let ((_let_25 (tptp.fn_second_electron_shell_14 _let_13))) (let ((_let_26 (tptp.fn_atom_14 _let_4))) (let ((_let_27 (tptp.fn_ester_linkage_45 X))) (let ((_let_28 (tptp.fn_atomic_nucleus_8 _let_27))) (let ((_let_29 (tptp.fn_polar_covalent_bond_7 X))) (let ((_let_30 (tptp.fn_second_electron_shell_18 _let_13))) (let ((_let_31 (tptp.fn_polar_covalent_bond_23 X))) (let ((_let_32 (tptp.fn_polar_covalent_bond_21 X))) (let ((_let_33 (tptp.fn_atomic_nucleus_3 _let_27))) (let ((_let_34 (tptp.fn_second_electron_shell_9 _let_13))) (let ((_let_35 (tptp.fn_polar_covalent_bond_5 X))) (let ((_let_36 (tptp.fn_second_electron_shell_20 _let_13))) (let ((_let_37 (tptp.fn_atomic_nucleus_9 _let_27))) (let ((_let_38 (tptp.fn_polar_covalent_bond_6 X))) (let ((_let_39 (tptp.fn_second_electron_shell_19 _let_13))) (let ((_let_40 (tptp.fn_carbon_17 _let_4))) (let ((_let_41 (tptp.fn_atom_8 _let_4))) (let ((_let_42 (tptp.fn_atomic_nucleus_2 _let_27))) (let ((_let_43 (tptp.fn_carbon_19 _let_4))) (let ((_let_44 (tptp.fn_atom_11 _let_4))) (let ((_let_45 (tptp.fn_atomic_nucleus_1 _let_27))) (let ((_let_46 (tptp.fn_carbon_16 _let_4))) (let ((_let_47 (tptp.fn_atom_17 _let_4))) (let ((_let_48 (tptp.fn_polar_covalent_bond_18 X))) (let ((_let_49 (tptp.fn_atomic_nucleus_4 _let_27))) (let ((_let_50 (tptp.fn_first_electron_shell_3 _let_1))) (let ((_let_51 (tptp.fn_electron_shell_1 _let_10))) (let ((_let_52 (tptp.fn_carbon_12 _let_4))) (let ((_let_53 (tptp.fn_polar_covalent_bond_10 X))) (let ((_let_54 (tptp.fn_atom_5 _let_4))) (let ((_let_55 (tptp.fn_carbon_2 _let_4))) (let ((_let_56 (tptp.fn_polar_covalent_bond_2 X))) (let ((_let_57 (tptp.fn_polar_covalent_bond_20 X))) (let ((_let_58 (tptp.fn_polar_covalent_bond_22 X))) (let ((_let_59 (tptp.fn_atom_9 _let_4))) (let ((_let_60 (tptp.fn_second_electron_shell_13 _let_13))) (let ((_let_61 (tptp.fn_polar_covalent_bond_19 X))) (let ((_let_62 (tptp.fn_ester_linkage_20 X))) (let ((_let_63 (tptp.fn_first_electron_shell_6 _let_1))) (let ((_let_64 (tptp.fn_ester_linkage_14 X))) (let ((_let_65 (tptp.fn_first_electron_shell_1 _let_1))) (let ((_let_66 (tptp.fn_ester_linkage_13 X))) (let ((_let_67 (tptp.fn_first_electron_shell_2 _let_1))) (let ((_let_68 (tptp.fn_ester_linkage_15 X))) (let ((_let_69 (tptp.fn_ester_linkage_19 X))) (let ((_let_70 (tptp.fn_ester_linkage_32 X))) (let ((_let_71 (tptp.fn_ester_linkage_26 X))) (let ((_let_72 (tptp.fn_ester_linkage_42 X))) (let ((_let_73 (tptp.fn_ester_linkage_29 X))) (let ((_let_74 (tptp.fn_ester_linkage_34 X))) (let ((_let_75 (tptp.fn_ester_linkage_35 X))) (let ((_let_76 (tptp.fn_ester_linkage_37 X))) (let ((_let_77 (tptp.fn_ester_linkage_44 X))) (let ((_let_78 (tptp.fn_ester_linkage_43 X))) (let ((_let_79 (tptp.fn_ester_linkage_39 X))) (let ((_let_80 (tptp.fn_ester_linkage_38 X))) (let ((_let_81 (tptp.fn_ester_linkage_33 X))) (let ((_let_82 (tptp.fn_ester_linkage_24 X))) (let ((_let_83 (tptp.fn_ester_linkage_22 X))) (let ((_let_84 (tptp.fn_atomic_nucleus_5 _let_27))) (let ((_let_85 (tptp.fn_atomic_nucleus_7 _let_27))) (let ((_let_86 (tptp.fn_atomic_nucleus_6 _let_27))) (let ((_let_87 (tptp.fn_carbon_20 _let_4))) (let ((_let_88 (tptp.fn_ester_linkage_25 X))) (let ((_let_89 (tptp.fn_carbon_7 _let_4))) (let ((_let_90 (tptp.fn_carbon_11 _let_4))) (let ((_let_91 (tptp.fn_ester_linkage_21 X))) (let ((_let_92 (tptp.fn_ester_linkage_41 X))) (let ((_let_93 (tptp.fn_carbon_1 _let_4))) (let ((_let_94 (tptp.fn_carbon_8 _let_4))) (let ((_let_95 (tptp.fn_ester_linkage_27 X))) (let ((_let_96 (tptp.fn_second_electron_shell_21 _let_13))) (let ((_let_97 (tptp.fn_ester_linkage_40 X))) (let ((_let_98 (tptp.fn_ester_linkage_6 X))) (let ((_let_99 (tptp.fn_ester_linkage_7 X))) (let ((_let_100 (tptp.fn_ester_linkage_8 X))) (=> (tptp.ester_linkage_1 X) (and (tptp.original_name_2 X |tptp.'Ester-Linkage'|) (tptp.user_description_2 X |tptp.'The bonding between fatty acids and glycerol that characterizes true fats.'|) (tptp.concept2words_2 X |tptp.'ester bond'|) (tptp.concept2words_2 X |tptp.'ester-bond'|) (tptp.concept2words_2 X |tptp.'linkage of ester'|) (tptp.concept2words_2 X |tptp.'ester linkage'|) (tptp.concept2words_2 X |tptp.'ester-linkage'|) (tptp.single_bond_1 X) (tptp.polar_covalent_bond_1 X) (not (tptp.disulfide_bond_1 X)) (not (tptp.hydrogen_bond_1 X)) (not (tptp.hydrophobic_interaction_1 X)) (not (tptp.ionic_bond_1 X)) (tptp.asymmetrical_distribution_1 _let_98) (tptp.quantity_value_1 _let_99) (tptp.asymmetrical_distribution_1 _let_100) (tptp.constant_motion_1 _let_19) (tptp.electron_shell_1 _let_10) (tptp.second_electron_shell_1 _let_13) (tptp.first_electron_shell_1 _let_1) (tptp.quantity_value_1 _let_66) (tptp.potential_energy_1 _let_64) (tptp.atomic_orbital_1 _let_68) (tptp.s_orbital_1 _let_68) (tptp.hold_together_1 _let_69) (tptp.electron_1 _let_62) (tptp.system_1 _let_91) (tptp.atomic_number_value_1 _let_83) (tptp.quantity_value_1 _let_82) (tptp.quantity_value_1 _let_88) (tptp.entity_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.electron_1 _let_71) (tptp.valence_electron_1 _let_71) (tptp.oxygen_1 _let_95) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.electron_1 _let_73) (tptp.valence_electron_1 _let_73) (tptp.constant_motion_1 _let_21) (tptp.attract_1 _let_23) (tptp.unequal_sharing_1 _let_70) (tptp.proton_1 _let_81) (tptp.quantity_value_1 _let_74) (tptp.quantity_value_1 _let_75) (tptp.atomic_number_value_1 _let_76) (tptp.system_1 _let_80) (tptp.proton_1 _let_79) (tptp.electronegativity_value_1 _let_97) (tptp.electronegativity_value_1 _let_92) (tptp.atomic_nucleus_1 _let_72) (tptp.center_1 _let_78) (tptp.center_1 _let_77) (tptp.atomic_nucleus_1 _let_27) (tptp.first_electron_shell_1 _let_96) (tptp.property_node_1 _let_94) (tptp.property_node_1 _let_93) (tptp.system_1 _let_90) (tptp.equation_big_node_1 _let_89) (tptp.equation_set_1 _let_87) (tptp.property_node_1 _let_86) (tptp.attract_1 _let_85) (tptp.property_node_1 _let_84) (tptp.property_node_1 _let_67) (tptp.quantity_value_1 _let_65) (tptp.potential_energy_1 _let_63) (tptp.atom_1 _let_60) (tptp.electron_shell_1 _let_59) (tptp.electronegativity_value_1 _let_55) (tptp.quantity_value_1 _let_54) (tptp.quantity_value_1 _let_52) (tptp.atom_1 _let_51) (tptp.atom_1 _let_50) (tptp.atom_1 _let_49) (tptp.atomic_number_value_1 _let_47) (tptp.atomic_number_value_1 _let_46) (tptp.atomic_number_value_1 _let_45) (tptp.quantity_value_1 _let_44) (tptp.quantity_value_1 _let_43) (tptp.quantity_value_1 _let_42) (tptp.proton_1 _let_41) (tptp.proton_1 _let_40) (tptp.system_1 _let_39) (tptp.proton_1 _let_37) (tptp.proton_1 _let_36) (tptp.center_1 _let_34) (tptp.center_1 _let_33) (tptp.atomic_number_value_1 _let_30) (tptp.electron_1 _let_28) (tptp.electron_1 _let_26) (tptp.atomic_nucleus_1 _let_25) (tptp.entity_1 _let_24) (tptp.tangible_entity_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.electron_1 _let_18) (tptp.atomic_orbital_1 _let_15) (tptp.s_orbital_1 _let_14) (tptp.s_orbital_1 _let_12) (tptp.electron_1 _let_11) (tptp.electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_5) (tptp.atomic_nucleus_1 _let_2) (tptp.object_2 _let_100 _let_71) (tptp.causes_2 _let_19 _let_100) (not (= _let_10 _let_1)) (not (= _let_10 _let_13)) (not (= _let_13 _let_10)) (not (= _let_1 _let_10)) (tptp.greater_than_2 _let_66 _let_99) (tptp.greater_than_or_equal_to_2 _let_66 _let_99) (not (= _let_62 _let_73)) (tptp.the_cardinal_value_2 _let_88 |"4"|) (tptp.cardinal_unit_class_2 _let_88 tptp.unity_0) (not (= _let_95 _let_4)) (tptp.has_region_2 _let_4 _let_13) (not (= _let_4 _let_95)) (not (= _let_73 _let_62)) (tptp.causes_2 _let_21 _let_98) (tptp.object_2 _let_98 _let_71) (tptp.the_cardinal_value_2 _let_76 |"8"|) (tptp.cardinal_unit_class_2 _let_76 tptp.unity_0) (tptp.the_cardinal_value_2 _let_97 |"3.44"|) (tptp.cardinal_unit_class_2 _let_97 tptp.unity_0) (tptp.object_2 _let_23 _let_71) (tptp.object_2 _let_21 _let_71) (tptp.object_2 _let_19 _let_71) (tptp.has_region_2 _let_4 _let_1) (tptp.has_region_2 _let_10 _let_68) (tptp.is_inside_2 _let_73 _let_68) (tptp.agent_2 _let_23 _let_79) (tptp.object_2 _let_23 _let_73) (tptp.has_region_2 _let_95 _let_10) (tptp.agent_2 _let_70 _let_95) (tptp.object_2 _let_69 _let_95) (tptp.is_between_2 X _let_95) (tptp.electronegativity_2 _let_95 _let_97) (not (= _let_92 _let_97)) (not (= _let_97 _let_92)) (tptp.has_part_2 _let_95 _let_79) (tptp.atomic_number_2 _let_95 _let_76) (tptp.has_region_2 _let_95 _let_72) (tptp.has_region_2 _let_95 _let_78) (tptp.has_region_2 _let_13 _let_68) (tptp.is_inside_2 _let_71 _let_68) (tptp.has_part_2 _let_95 _let_71) (tptp.has_region_2 _let_95 _let_13) (tptp.is_inside_2 _let_1 _let_13) (tptp.has_region_2 _let_4 _let_10) (tptp.has_region_2 _let_4 _let_77) (tptp.agent_2 _let_70 _let_4) (tptp.object_2 _let_69 _let_4) (tptp.has_part_2 _let_4 _let_73) (tptp.quantity_2 _let_73 _let_88) (tptp.is_between_2 X _let_4) (tptp.called_2 _let_88 |tptp.'Number_Electron'|) (tptp.the_cardinal_value_2 _let_83 |"6"|) (tptp.cardinal_unit_class_2 _let_83 tptp.unity_0) (tptp.has_region_2 _let_4 _let_27) (tptp.has_part_2 _let_4 _let_81) (tptp.has_part_2 _let_4 _let_62) (tptp.electronegativity_2 _let_4 _let_92) (tptp.the_cardinal_value_2 _let_92 |"2.55"|) (tptp.cardinal_unit_class_2 _let_92 tptp.unity_0) (tptp.atomic_number_2 _let_4 _let_83) (= _let_82 _let_88) (= _let_88 _let_82) (tptp.agent_2 _let_23 _let_81) (tptp.called_2 _let_83 |tptp.'Atomic_Number'|) (tptp.is_inside_2 _let_81 _let_27) (tptp.quantity_2 _let_81 _let_82) (tptp.called_2 _let_82 |tptp.'Number_Proton'|) (= _let_83 _let_82) (= _let_82 _let_83) (tptp.called_2 _let_75 |tptp.'Number_Proton'|) (tptp.called_2 _let_76 |tptp.'Atomic_Number'|) (tptp.object_2 _let_70 _let_73) (tptp.is_at_2 _let_27 _let_77) (not (= _let_77 _let_78)) (tptp.is_at_2 _let_72 _let_78) (tptp.is_inside_2 _let_79 _let_72) (tptp.quantity_2 _let_79 _let_75) (not (= _let_78 _let_77)) (tptp.called_2 _let_74 |tptp.'Number_Electron'|) (= _let_76 _let_75) (= _let_75 _let_76) (not (= _let_27 _let_72)) (tptp.is_near_2 _let_27 _let_73) (not (= _let_73 _let_71)) (tptp.quantity_2 _let_71 _let_74) (= _let_74 _let_75) (not (= _let_72 _let_27)) (tptp.is_near_2 _let_73 _let_27) (not (= _let_71 _let_73)) (= _let_75 _let_74) (tptp.has_function_2 X _let_69) (tptp.agent_2 _let_69 X) (tptp.result_2 _let_70 X) (tptp.object_2 _let_70 _let_71) (tptp.is_near_2 _let_71 _let_72) (tptp.is_near_2 _let_72 _let_71) (tptp.is_inside_2 _let_62 _let_68) (tptp.is_inside_2 _let_27 _let_1) (tptp.is_near_2 _let_27 _let_62) (tptp.possesses_2 _let_62 _let_64) (tptp.quantity_2 _let_64 _let_66) (tptp.is_near_2 _let_62 _let_27) (= _let_71 _let_24) (= _let_71 _let_22) (= _let_71 _let_20) (= _let_73 _let_11) (= _let_68 _let_15) (= _let_79 _let_37) (= _let_10 _let_58) (= (tptp.fn_ester_linkage_16 X) (tptp.fn_polar_covalent_bond_4 X)) (= _let_92 _let_56) (= _let_97 (tptp.fn_polar_covalent_bond_1 X)) (= _let_95 _let_61) (= _let_79 _let_36) (= _let_76 _let_30) (= _let_72 _let_25) (= _let_80 _let_39) (= _let_78 _let_34) (= _let_1 _let_96) (= _let_95 _let_60) (= _let_71 _let_18) (= _let_68 _let_14) (= _let_10 _let_59) (= _let_10 _let_57) (= _let_77 _let_32) (= _let_88 _let_53) (= _let_88 _let_54) (= _let_4 _let_50) (= _let_4 _let_49) (= _let_4 _let_48) (= _let_27 _let_5) (= _let_81 _let_40) (= (tptp.fn_ester_linkage_18 X) _let_94) (= _let_4 _let_51) (= _let_62 _let_11) (= _let_62 _let_9) (= (tptp.fn_ester_linkage_17 X) _let_93) (= _let_92 _let_55) (= _let_91 _let_90) (= (tptp.fn_ester_linkage_49 X) _let_89) (= _let_82 _let_43) (= _let_88 _let_52) (= (tptp.fn_ester_linkage_23 X) _let_87) (= _let_83 _let_46) (= (tptp.fn_ester_linkage_47 X) _let_86) (= _let_23 _let_85) (= (tptp.fn_ester_linkage_48 X) _let_84) (= _let_83 _let_47) (= _let_83 _let_45) (= _let_81 _let_41) (= _let_82 _let_44) (= _let_82 _let_42) (= _let_81 _let_37) (= _let_80 _let_38) (= _let_79 _let_35) (= _let_78 _let_32) (= _let_77 _let_33) (= _let_77 _let_31) (= (tptp.fn_ester_linkage_36 X) (tptp.fn_polar_covalent_bond_8 X)) (= _let_76 _let_29) (= _let_75 (tptp.fn_polar_covalent_bond_9 X)) (= _let_74 _let_53) (= _let_73 _let_28) (= _let_27 _let_7) (= _let_73 _let_26) (= _let_27 _let_6) (= _let_73 _let_16) (= _let_73 _let_17) (= _let_27 _let_3) (= _let_71 _let_17) (= _let_72 _let_3) (= _let_72 _let_6) (= _let_71 _let_16) (= _let_70 (tptp.fn_polar_covalent_bond_16 X)) (= _let_69 (tptp.fn_polar_covalent_bond_17 X)) (= _let_68 _let_12) (= (tptp.fn_ester_linkage_46 X) _let_67) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_8) (= _let_27 _let_2) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_43 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_37) (= _let_37 _let_37) (= _let_37 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_11) (= _let_11 _let_28) (= _let_28 _let_28) (= _let_26 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_16 _let_26) (= _let_26 _let_16) (= _let_17 _let_25) (= _let_25 _let_3) (= _let_6 _let_3) (= _let_3 _let_6) (= _let_6 _let_24) (= _let_24 _let_22) (= _let_20 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.estivation_1 X) (and (tptp.original_name_2 X |tptp.'Estivation'|) (tptp.user_description_2 X |tptp.'A type of torpor (a physiological state in which activity is low and metabolism decreases) that happens in the summer.'|) (tptp.concept2words_2 X tptp.estivate) (tptp.concept2words_2 X tptp.estivation) (tptp.torpor_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_estradiol_9 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_hydrophobic_compound_3 X))) (let ((_let_4 (tptp.fn_steroid_9 X))) (let ((_let_5 (tptp.fn_hydrophobic_compound_2 X))) (let ((_let_6 (tptp.fn_steroid_10 X))) (let ((_let_7 (tptp.fn_hormone_1 X))) (let ((_let_8 (tptp.fn_steroid_13 X))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_10 (tptp.fn_hormone_2 X))) (let ((_let_11 (tptp.fn_steroid_11 X))) (let ((_let_12 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_13 (tptp.fn_steroid_12 X))) (let ((_let_14 (tptp.fn_hormone_3 X))) (let ((_let_15 (tptp.fn_estradiol_10 X))) (let ((_let_16 (tptp.fn_estradiol_8 X))) (let ((_let_17 (tptp.fn_estradiol_14 X))) (let ((_let_18 (tptp.fn_estradiol_12 X))) (let ((_let_19 (tptp.fn_estradiol_13 X))) (let ((_let_20 (tptp.fn_estradiol_7 X))) (let ((_let_21 (tptp.fn_estradiol_11 X))) (let ((_let_22 (tptp.fn_estradiol_4 X))) (let ((_let_23 (tptp.fn_estradiol_5 X))) (let ((_let_24 (tptp.fn_estradiol_6 X))) (let ((_let_25 (tptp.fn_estradiol_3 X))) (=> (tptp.estradiol_1 X) (and (tptp.original_name_2 X |tptp.'Estradiol'|) (tptp.user_description_2 X |tptp.'Estradiol is an important type of estrogen, or female sex hormone which promote the development and maintenance of the female reproductive system.'|) (tptp.concept2words_2 X tptp.estradiol) (tptp.estrogen_1 X) (not (tptp.aldosterone_1 X)) (not (tptp.brassinosteroid_1 X)) (not (tptp.corticosteroid_1 X)) (not (tptp.ecdysone_1 X)) (not (tptp.progesterone_1 X)) (not (tptp.testosterone_1 X)) (tptp.constant_motion_1 _let_25) (tptp.kinetic_energy_1 _let_22) (tptp.quantity_value_1 _let_23) (tptp.speed_value_1 _let_24) (tptp.carbon_skeleton_1 _let_20) (tptp.repel_1 _let_16) (tptp.carbon_skeleton_1 _let_1) (tptp.hydrophobic_region_1 _let_15) (tptp.cyclohexane_1 _let_21) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.cyclopentane_1 _let_19) (tptp.carbon_1 _let_17) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.carbon_1 _let_9) (tptp.organic_molecule_1 _let_2) (tptp.is_at_2 _let_19 _let_15) (tptp.has_function_2 _let_19 _let_16) (tptp.is_inside_2 _let_20 _let_1) (tptp.possesses_2 X _let_22) (tptp.quantity_2 _let_22 _let_23) (tptp.directly_proportional_2 _let_24 _let_23) (tptp.speed_2 _let_25 _let_24) (tptp.object_2 _let_25 X) (tptp.has_part_2 X _let_19) (tptp.has_region_2 _let_19 _let_20) (tptp.has_region_2 _let_21 _let_20) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_17) (tptp.is_inside_2 _let_17 _let_1) (not (= _let_18 _let_17)) (not (= _let_17 _let_18)) (tptp.has_region_2 X _let_15) (tptp.facilitates_2 _let_15 _let_16) (tptp.agent_2 _let_16 X) (tptp.has_function_2 X _let_16) (tptp.site_2 _let_16 _let_15) (= (tptp.fn_estradiol_2 X) (tptp.fn_steroid_4 X)) (= (tptp.fn_estradiol_1 X) (tptp.fn_steroid_3 X)) (= _let_25 (tptp.fn_steroid_5 X)) (= _let_24 (tptp.fn_steroid_8 X)) (= _let_23 (tptp.fn_steroid_7 X)) (= _let_22 (tptp.fn_steroid_6 X)) (= _let_21 (tptp.fn_steroid_14 X)) (= _let_20 (tptp.fn_steroid_16 X)) (= _let_19 (tptp.fn_steroid_15 X)) (= _let_18 _let_13) (= _let_18 _let_14) (= _let_18 _let_12) (= _let_17 _let_11) (= _let_17 _let_10) (= _let_17 _let_9) (= _let_1 _let_8) (= _let_1 _let_7) (= X _let_2) (= _let_16 _let_6) (= _let_16 _let_5) (= _let_15 _let_4) (= _let_15 _let_3) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.estrogen_1 X) (and (tptp.original_name_2 X |tptp.'Estrogen'|) (tptp.user_description_2 X |tptp.'A class of steroid hormones that are responsible for the development and maintenance of female function in mammals.'|) (tptp.concept2words_2 X tptp.estrogen) (tptp.sex_hormone_1 X) (not (tptp.androgen_1 X)) (not (tptp.cytokinin_1 X)) (not (tptp.progestin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.estrogen_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Estrogen-Receptor'|) (tptp.user_description_2 X |tptp.'Receptor that binds estrogen.'|) (tptp.concept2words_2 X |tptp.'receptor to estrogen'|) (tptp.concept2words_2 X |tptp.'receptor of estrogen'|) (tptp.concept2words_2 X |tptp.'estrogen receptor'|) (tptp.concept2words_2 X |tptp.'estrogen-receptor'|) (tptp.nuclear_receptor_1 X)))) (forall ((X $$unsorted)) (=> (tptp.estrous_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Estrous-Cycle'|) (tptp.user_description_2 X |tptp.'A reproductive cycle that occurs in most female mammals. In animals that undergo estrous cycles, the nonpregnant endometrial layer is resorbed instead of shed, and females are sexually responsive only at the midpoint of the cycle, called estrus.'|) (tptp.concept2words_2 X |tptp.'estrous cycle'|) (tptp.concept2words_2 X |tptp.'estrous-cycle'|) (tptp.female_reproductive_cycle_events_1 X)))) (forall ((X $$unsorted)) (=> (tptp.estuary_1 X) (and (tptp.original_name_2 X |tptp.'Estuary'|) (tptp.user_description_2 X |tptp.'An area where fresh water merges with the ocean, often a river delta.'|) (tptp.concept2words_2 X tptp.estuary) (tptp.aquatic_ecosystem_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ethane_1 X) (and (tptp.original_name_2 X |tptp.'Ethane'|) (tptp.user_description_2 X |tptp.'A hydrocarbon composed of two carbon atoms and six hydrogen atoms.'|) (tptp.concept2words_2 X tptp.ethane) (tptp.hydrocarbon_molecule_1 X) (not (tptp.methane_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ethanol_substance_4 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_ethanol_substance_2 X))) (let ((_let_4 (tptp.fn_ethanol_substance_1 X))) (=> (tptp.ethanol_substance_1 X) (and (tptp.original_name_2 X |tptp.'Ethanol-Substance'|) (tptp.user_description_2 X |tptp.'Ethanol is a volatile, flammable, colorless liquid substance. It is a type of alcohol found in alcoholic beverages.'|) (tptp.concept2words_2 X |tptp.'substance of ethanol'|) (tptp.concept2words_2 X |tptp.'ethanol substance'|) (tptp.concept2words_2 X |tptp.'ethanol-substance'|) (tptp.liquid_substance_1 X) (tptp.ethyl_alcohol_1 _let_4) (tptp.heat_of_vaporization_value_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_cardinal_value_2 _let_3 |"200.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.calorie_per_gram_0) (tptp.has_part_2 X _let_4) (tptp.heat_of_vaporization_2 X _let_3) (tptp.solubility_in_water_2 X _let_1) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.substance_0) (= (tptp.fn_ethanol_substance_5 X) _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ether_1 X))) (let ((_let_2 (tptp.fn_solvent_1 _let_1))) (=> (tptp.ether_1 X) (and (tptp.original_name_2 X |tptp.'Ether'|) (tptp.user_description_2 X |tptp.'Ethers are organic compounds that contain an ether group an oxygen atom connected to two alkyl or aryl groups.'|) (tptp.concept2words_2 X tptp.ether) (tptp.nonpolar_substance_1 X) (tptp.solvent_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.ethics_1 X) (and (tptp.original_name_2 X |tptp.'Ethics'|) (tptp.user_description_2 X |tptp.'A system of moral principles.'|) (tptp.concept2words_2 X tptp.ethics) (tptp.concept2words_2 X tptp.ethic) (tptp.information_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.cdna_library_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ethology_1 X) (and (tptp.original_name_2 X |tptp.'Ethology'|) (tptp.user_description_2 X |tptp.'The scientific study of how animals behave, particularly in their natural environments.'|) (tptp.concept2words_2 X tptp.ethology) (tptp.behavioral_ecology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ethyl_alcohol_20 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_11 _let_1))) (let ((_let_3 (tptp.fn_polar_covalent_bond_12 _let_1))) (let ((_let_4 (tptp.fn_polar_covalent_bond_13 _let_1))) (let ((_let_5 (tptp.fn_ethyl_alcohol_24 X))) (let ((_let_6 (tptp.fn_second_electron_shell_14 _let_5))) (let ((_let_7 (tptp.fn_polar_covalent_bond_14 _let_1))) (let ((_let_8 (tptp.fn_ethyl_alcohol_21 X))) (let ((_let_9 (tptp.fn_hydrogen_15 _let_8))) (let ((_let_10 (tptp.fn_polar_covalent_bond_23 _let_1))) (let ((_let_11 (tptp.fn_hydrogen_14 _let_8))) (let ((_let_12 (tptp.fn_polar_covalent_bond_21 _let_1))) (let ((_let_13 (tptp.fn_second_electron_shell_9 _let_5))) (let ((_let_14 (tptp.fn_polar_covalent_bond_5 _let_1))) (let ((_let_15 (tptp.fn_second_electron_shell_20 _let_5))) (let ((_let_16 (tptp.fn_alcohol_6 X))) (let ((_let_17 (tptp.fn_organic_molecule_2 X))) (let ((_let_18 (tptp.fn_ethyl_alcohol_19 X))) (let ((_let_19 (tptp.fn_hold_2 _let_18))) (let ((_let_20 (tptp.fn_ethyl_alcohol_18 X))) (let ((_let_21 (tptp.fn_share_1 _let_20))) (let ((_let_22 (tptp.fn_share_3 _let_20))) (let ((_let_23 (tptp.fn_alcohol_7 X))) (let ((_let_24 (tptp.fn_second_electron_shell_13 _let_5))) (let ((_let_25 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_26 (tptp.fn_organic_molecule_1 X))) (let ((_let_27 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_28 (tptp.fn_ethyl_alcohol_17 X))) (let ((_let_29 (tptp.fn_polar_covalent_bond_19 _let_28))) (let ((_let_30 (tptp.fn_polar_covalent_bond_18 _let_28))) (let ((_let_31 (tptp.fn_polar_covalent_bond_17 _let_1))) (let ((_let_32 (tptp.fn_polar_covalent_bond_16 _let_1))) (let ((_let_33 (tptp.fn_ethyl_alcohol_29 X))) (let ((_let_34 (tptp.fn_ethyl_alcohol_27 X))) (let ((_let_35 (tptp.fn_ethyl_alcohol_33 X))) (let ((_let_36 (tptp.fn_ethyl_alcohol_28 X))) (let ((_let_37 (tptp.fn_ethyl_alcohol_32 X))) (let ((_let_38 (tptp.fn_ethyl_alcohol_26 X))) (let ((_let_39 (tptp.fn_ethyl_alcohol_23 X))) (let ((_let_40 (tptp.fn_hydrogen_16 _let_8))) (let ((_let_41 (tptp.fn_ethyl_alcohol_31 X))) (let ((_let_42 (tptp.fn_hydrogen_13 _let_8))) (let ((_let_43 (tptp.fn_ethyl_alcohol_30 X))) (let ((_let_44 (tptp.fn_ethyl_alcohol_22 X))) (let ((_let_45 (tptp.fn_second_electron_shell_21 _let_5))) (let ((_let_46 (tptp.fn_ethyl_alcohol_25 X))) (let ((_let_47 (tptp.fn_ethyl_alcohol_16 X))) (let ((_let_48 (tptp.fn_ethyl_alcohol_15 X))) (let ((_let_49 (tptp.fn_ethyl_alcohol_10 X))) (let ((_let_50 (tptp.fn_ethyl_alcohol_9 X))) (let ((_let_51 (tptp.fn_ethyl_alcohol_5 X))) (let ((_let_52 (tptp.fn_ethyl_alcohol_4 X))) (let ((_let_53 (tptp.fn_ethyl_alcohol_1 X))) (let ((_let_54 (tptp.fn_ethyl_alcohol_2 X))) (=> (tptp.ethyl_alcohol_1 X) (and (tptp.original_name_2 X |tptp.'Ethyl-Alcohol'|) (tptp.user_description_2 X |tptp.'Ethanol is a volatile, flammable, colorless liquid substance with the chemical formula C2H5OH. It is a type of alcohol found in alcoholic beverages.'|) (tptp.concept2words_2 X tptp.ethanol) (tptp.concept2words_2 X |tptp.'alcohol of ethyl'|) (tptp.concept2words_2 X |tptp.'ethyl alcohol'|) (tptp.concept2words_2 X |tptp.'ethyl-alcohol'|) (tptp.alcohol_1 X) (not (tptp.alcohol_hormone_1 X)) (not (tptp.alcoholic_beverage_1 X)) (not (tptp.glycerol_1 X)) (tptp.polar_covalent_bond_1 _let_53) (tptp.hydrophilic_region_1 _let_54) (tptp.mass_value_1 _let_52) (tptp.charge_value_1 _let_51) (tptp.system_1 (tptp.fn_ethyl_alcohol_7 X)) (tptp.mass_value_1 _let_50) (tptp.mass_value_1 _let_49) (tptp.oxygen_1 _let_48) (tptp.hydrogen_1 _let_47) (tptp.polar_covalent_bond_1 _let_28) (tptp.share_1 _let_20) (tptp.unequal_sharing_1 _let_20) (tptp.hold_1 _let_18) (tptp.hold_together_1 _let_18) (tptp.chemical_bond_1 _let_1) (tptp.polar_covalent_bond_1 _let_1) (tptp.entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.carbon_1 _let_44) (tptp.proton_1 _let_39) (tptp.second_electron_shell_1 _let_5) (tptp.first_electron_shell_1 _let_46) (tptp.center_1 _let_38) (tptp.atomic_nucleus_1 _let_34) (tptp.electron_1 _let_36) (tptp.valence_electron_1 _let_36) (tptp.electron_1 _let_33) (tptp.valence_electron_1 _let_33) (tptp.proton_1 _let_43) (tptp.electron_shell_1 _let_41) (tptp.first_electron_shell_1 _let_41) (tptp.center_1 _let_37) (tptp.atomic_nucleus_1 _let_35) (tptp.first_electron_shell_1 _let_45) (tptp.proton_1 _let_42) (tptp.electron_shell_1 _let_40) (tptp.first_electron_shell_1 _let_40) (tptp.unequal_sharing_1 _let_32) (tptp.hold_together_1 _let_31) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.atom_1 _let_24) (tptp.entity_1 _let_22) (tptp.entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.proton_1 _let_15) (tptp.proton_1 _let_14) (tptp.center_1 _let_13) (tptp.center_1 _let_12) (tptp.center_1 _let_11) (tptp.center_1 _let_10) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.atomic_nucleus_1 _let_4) (tptp.valence_electron_1 _let_3) (tptp.electron_1 _let_2) (tptp.valence_electron_1 _let_2) (not (= _let_41 _let_46)) (not (= _let_46 _let_41)) (not (= _let_1 _let_53)) (tptp.possesses_2 X _let_53) (tptp.has_region_2 X _let_54) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (not (= _let_28 _let_53)) (not (= _let_53 _let_28)) (not (= _let_53 _let_1)) (tptp.called_2 _let_52 tptp.mass_electron) (tptp.the_categorical_value_2 _let_51 tptp.partial_negative_0) (tptp.the_cardinal_value_2 _let_51 |"0"|) (tptp.cardinal_unit_class_2 _let_51 tptp.unity_0) (tptp.called_2 _let_50 tptp.mass_proton) (tptp.the_cardinal_value_2 _let_50 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_50 tptp.dalton_0) (tptp.called_2 _let_49 tptp.mass_electron) (tptp.agent_2 _let_20 _let_8) (tptp.object_2 _let_18 _let_8) (tptp.is_between_2 _let_28 _let_48) (not (= _let_47 _let_48)) (not (= _let_48 _let_47)) (not (= _let_8 _let_44)) (not (= _let_44 _let_8)) (tptp.object_2 _let_18 _let_44) (tptp.is_between_2 _let_28 _let_47) (tptp.is_between_2 _let_1 _let_44) (tptp.agent_2 _let_20 _let_44) (tptp.object_2 _let_20 _let_36) (not (= _let_47 _let_44)) (not (= _let_44 _let_47)) (tptp.has_part_2 _let_44 _let_39) (tptp.is_inside_2 _let_46 _let_5) (tptp.has_region_2 _let_44 _let_5) (tptp.has_region_2 _let_44 _let_34) (tptp.is_inside_2 _let_34 _let_46) (tptp.has_region_2 _let_44 _let_46) (tptp.has_region_2 _let_44 _let_38) (tptp.has_part_2 X _let_8) (tptp.is_between_2 _let_1 _let_8) (tptp.possesses_2 X _let_1) (tptp.has_part_2 X _let_44) (tptp.has_region_2 _let_8 _let_37) (tptp.has_region_2 _let_8 _let_35) (tptp.is_inside_2 _let_35 _let_41) (tptp.has_region_2 _let_8 _let_41) (tptp.has_part_2 _let_8 _let_43) (tptp.is_inside_2 _let_43 _let_35) (tptp.is_inside_2 _let_39 _let_34) (tptp.is_at_2 _let_34 _let_38) (tptp.is_near_2 _let_34 _let_36) (tptp.is_near_2 _let_36 _let_34) (not (= _let_33 _let_36)) (not (= _let_36 _let_33)) (not (= _let_35 _let_34)) (tptp.is_at_2 _let_35 _let_37) (not (= _let_37 _let_38)) (not (= _let_34 _let_35)) (tptp.is_near_2 _let_36 _let_35) (tptp.is_near_2 _let_35 _let_36) (not (= _let_38 _let_37)) (tptp.has_function_2 _let_1 _let_18) (tptp.agent_2 _let_18 _let_1) (tptp.result_2 _let_20 _let_1) (tptp.object_2 _let_20 _let_33) (tptp.is_near_2 _let_33 _let_34) (tptp.is_near_2 _let_34 _let_33) (= _let_8 _let_22) (= _let_8 _let_21) (= _let_8 _let_19) (= _let_47 _let_29) (= _let_48 _let_29) (= _let_48 _let_30) (= _let_44 _let_26) (= _let_47 _let_17) (= _let_47 _let_27) (= _let_44 _let_25) (= _let_39 _let_15) (= _let_38 _let_13) (= _let_46 _let_45) (= _let_34 _let_6) (= _let_44 _let_24) (= _let_44 _let_23) (= _let_1 (tptp.fn_alcohol_9 X)) (= _let_8 _let_17) (= _let_8 _let_16) (= _let_37 _let_11) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_35 _let_9) (= _let_39 _let_14) (= _let_33 _let_3) (= _let_36 _let_2) (= _let_38 _let_12) (= _let_37 _let_10) (= _let_36 _let_3) (= _let_35 _let_7) (= _let_34 _let_4) (= _let_33 _let_2) (= _let_20 _let_32) (= _let_18 _let_31) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_17) (= _let_17 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_3) (= _let_2 _let_3) (= _let_3 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hormone_2 X))) (let ((_let_2 (tptp.fn_hydrocarbon_molecule_16 X))) (let ((_let_3 (tptp.fn_hormone_3 X))) (let ((_let_4 (tptp.fn_ethylene_1 X))) (=> (tptp.ethylene_1 X) (and (tptp.original_name_2 X |tptp.'Ethylene'|) (tptp.user_description_2 X |tptp.'The only gaseous plant hormone. Among its many effects are response to mechanical stress, programmed cell death, leaf abscission, and fruit ripening.'|) (tptp.concept2words_2 X |tptp.'ripening gas'|) (tptp.concept2words_2 X |tptp.'ethylene gas,'|) (tptp.concept2words_2 X |tptp.'ethylene gas'|) (tptp.concept2words_2 X tptp.c2h4) (tptp.concept2words_2 X tptp.ethylene) (tptp.hydrocarbon_molecule_1 X) (tptp.plant_hormone_1 X) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.carbon_0) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.hydrogen_0) (tptp.has_part_2 X _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_euchromatin_5 X))) (let ((_let_2 (tptp.fn_euchromatin_7 X))) (let ((_let_3 (tptp.fn_euchromatin_6 X))) (let ((_let_4 (tptp.fn_euchromatin_4 X))) (let ((_let_5 (tptp.fn_euchromatin_3 X))) (let ((_let_6 (tptp.fn_euchromatin_9 X))) (let ((_let_7 (tptp.fn_euchromatin_10 X))) (let ((_let_8 (tptp.fn_euchromatin_11 X))) (let ((_let_9 (tptp.fn_eukaryotic_chromatin_8 _let_8))) (let ((_let_10 (tptp.fn_chromatin_packing_5 _let_6))) (let ((_let_11 (tptp.fn_chromosome_2 _let_8))) (let ((_let_12 (tptp.fn_euchromatin_1 X))) (let ((_let_13 (tptp.fn_euchromatin_2 X))) (=> (tptp.euchromatin_1 X) (and (tptp.original_name_2 X |tptp.'Euchromatin'|) (tptp.user_description_2 X |tptp.'The less condensed form of eukaryotic chromatin that is available for transcription.'|) (tptp.concept2words_2 X tptp.euchromatin) (tptp.eukaryotic_chromatin_1 X) (tptp.nuclear_matrix_1 _let_12) (tptp.nuclear_lamina_1 _let_13) (tptp.attach_1 _let_5) (tptp.histone_1 _let_4) (tptp.chromosome_arm_1 _let_1) (tptp.chromosome_arm_1 _let_3) (tptp.centromere_1 _let_2) (tptp.chromatin_packing_1 _let_6) (tptp.density_value_1 _let_7) (tptp.heterochromatin_1 _let_8) (tptp.density_value_1 _let_11) (tptp.chromosome_1 _let_10) (tptp.chromatin_packing_1 _let_9) (tptp.abuts_2 X _let_13) (tptp.abuts_2 X _let_12) (tptp.abuts_2 _let_13 X) (tptp.abuts_2 _let_12 X) (tptp.density_2 _let_8 _let_7) (tptp.the_scalar_value_2 _let_7 tptp.dense_0) (tptp.scalar_unit_class_2 _let_7 tptp.euchromatin_0) (tptp.object_2 _let_6 X) (tptp.result_2 _let_6 _let_8) (tptp.density_2 X _let_7) (tptp.result_2 _let_6 X) (tptp.object_2 _let_5 _let_4) (tptp.result_2 _let_5 X) (tptp.has_region_2 X _let_2) (tptp.has_part_2 X _let_1) (tptp.is_between_2 _let_2 _let_1) (tptp.is_between_2 _let_2 _let_3) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_4) (= _let_7 _let_11) (= X _let_10) (= _let_6 _let_9) (= (tptp.fn_euchromatin_8 X) (tptp.fn_chromosome_1 X)) (= _let_7 (tptp.fn_chromosome_2 X)) (= _let_6 (tptp.fn_eukaryotic_chromatin_8 X)) (= _let_5 (tptp.fn_eukaryotic_chromatin_14 X)) (= _let_4 (tptp.fn_eukaryotic_chromatin_13 X)) (= _let_3 (tptp.fn_eukaryotic_chromatin_2 X)) (= _let_2 (tptp.fn_eukaryotic_chromatin_12 X)) (= _let_1 (tptp.fn_eukaryotic_chromatin_1 X)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eudicot_37 X))) (let ((_let_2 (tptp.fn_plant_cell_63 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_4 (tptp.fn_eudicot_46 X))) (let ((_let_5 (tptp.fn_eukaryotic_cellular_respiration_62 _let_4))) (let ((_let_6 (tptp.fn_eudicot_47 X))) (let ((_let_7 (tptp.fn_photosynthesis_38 _let_6))) (let ((_let_8 (tptp.fn_eukaryotic_cellular_respiration_68 _let_4))) (let ((_let_9 (tptp.fn_eudicot_26 X))) (let ((_let_10 (tptp.fn_pyruvate_oxidation_3 _let_9))) (let ((_let_11 (tptp.fn_pyruvate_oxidation_7 _let_9))) (let ((_let_12 (tptp.fn_eudicot_24 X))) (let ((_let_13 (tptp.fn_glycolysis_108 _let_12))) (let ((_let_14 (tptp.fn_exergonic_reaction_6 _let_9))) (let ((_let_15 (tptp.fn_eukaryotic_cellular_respiration_42 _let_4))) (let ((_let_16 (tptp.fn_eukaryotic_cellular_respiration_111 _let_4))) (let ((_let_17 (tptp.fn_pyruvate_oxidation_84 _let_9))) (let ((_let_18 (tptp.fn_glycolysis_74 _let_12))) (let ((_let_19 (tptp.fn_exergonic_reaction_11 _let_9))) (let ((_let_20 (tptp.fn_eukaryotic_cellular_respiration_96 _let_4))) (let ((_let_21 (tptp.fn_cellular_respiration_63 _let_4))) (let ((_let_22 (tptp.fn_eukaryotic_cellular_respiration_101 _let_4))) (let ((_let_23 (tptp.fn_plant_cell_59 _let_1))) (let ((_let_24 (tptp.fn_seed_plant_13 X))) (let ((_let_25 (tptp.fn_metabolic_pathway_1 _let_6))) (let ((_let_26 (tptp.fn_metabolic_pathway_1 _let_4))) (let ((_let_27 (tptp.fn_seed_plant_2 X))) (let ((_let_28 (tptp.fn_vascular_plant_26 X))) (let ((_let_29 (tptp.fn_photosynthesis_25 _let_6))) (let ((_let_30 (tptp.fn_eudicot_20 X))) (let ((_let_31 (tptp.fn_glucose_2 _let_30))) (let ((_let_32 (tptp.fn_anabolic_pathway_3 _let_6))) (let ((_let_33 (tptp.fn_photosynthesis_40 _let_6))) (let ((_let_34 (tptp.fn_eudicot_11 X))) (let ((_let_35 (tptp.fn_store_1 _let_34))) (let ((_let_36 (tptp.fn_pyruvate_oxidation_85 _let_9))) (let ((_let_37 (tptp.fn_glycolysis_55 _let_12))) (let ((_let_38 (tptp.fn_anabolic_pathway_5 _let_6))) (let ((_let_39 (tptp.fn_photosynthesis_37 _let_6))) (let ((_let_40 (tptp.fn_store_2 _let_34))) (let ((_let_41 (tptp.fn_eudicot_52 X))) (let ((_let_42 (tptp.fn_eudicot_27 X))) (let ((_let_43 (tptp.fn_eudicot_22 X))) (let ((_let_44 (tptp.fn_eukaryotic_cellular_respiration_82 _let_4))) (let ((_let_45 (tptp.fn_eukaryotic_cellular_respiration_94 _let_4))) (let ((_let_46 (tptp.fn_eudicot_25 X))) (let ((_let_47 (tptp.fn_eudicot_23 X))) (let ((_let_48 (tptp.fn_eudicot_39 X))) (let ((_let_49 (tptp.fn_eudicot_38 X))) (let ((_let_50 (tptp.fn_eudicot_42 X))) (let ((_let_51 (tptp.fn_eudicot_44 X))) (let ((_let_52 (tptp.fn_eudicot_56 X))) (let ((_let_53 (tptp.fn_eudicot_43 X))) (let ((_let_54 (tptp.fn_eudicot_18 X))) (let ((_let_55 (tptp.fn_eudicot_41 X))) (let ((_let_56 (tptp.fn_eudicot_55 X))) (let ((_let_57 (tptp.fn_eudicot_57 X))) (let ((_let_58 (tptp.fn_eudicot_40 X))) (let ((_let_59 (tptp.fn_photosynthesis_50 _let_6))) (let ((_let_60 (tptp.fn_eudicot_28 X))) (let ((_let_61 (tptp.fn_photosynthesis_51 _let_6))) (let ((_let_62 (tptp.fn_eudicot_35 X))) (let ((_let_63 (tptp.fn_photosynthesis_52 _let_6))) (let ((_let_64 (tptp.fn_eudicot_34 X))) (let ((_let_65 (tptp.fn_photosynthesis_47 _let_6))) (let ((_let_66 (tptp.fn_eudicot_54 X))) (let ((_let_67 (tptp.fn_photosynthesis_24 _let_6))) (let ((_let_68 (tptp.fn_eudicot_29 X))) (let ((_let_69 (tptp.fn_eudicot_33 X))) (let ((_let_70 (tptp.fn_photosynthesis_57 _let_6))) (let ((_let_71 (tptp.fn_photosynthesis_46 _let_6))) (let ((_let_72 (tptp.fn_eudicot_53 X))) (let ((_let_73 (tptp.fn_photosynthesis_3 _let_6))) (let ((_let_74 (tptp.fn_eudicot_30 X))) (let ((_let_75 (tptp.fn_photosynthesis_4 _let_6))) (let ((_let_76 (tptp.fn_eudicot_31 X))) (let ((_let_77 (tptp.fn_photosynthesis_6 _let_6))) (let ((_let_78 (tptp.fn_photosynthesis_34 _let_6))) (let ((_let_79 (tptp.fn_eudicot_19 X))) (let ((_let_80 (tptp.fn_eudicot_36 X))) (let ((_let_81 (tptp.fn_photosynthesis_56 _let_6))) (let ((_let_82 (tptp.fn_photosynthesis_53 _let_6))) (let ((_let_83 (tptp.fn_eudicot_32 X))) (let ((_let_84 (tptp.fn_photosynthesis_55 _let_6))) (let ((_let_85 (tptp.fn_photosynthesis_54 _let_6))) (let ((_let_86 (tptp.fn_photosynthesis_5 _let_6))) (let ((_let_87 (tptp.fn_eudicot_8 X))) (let ((_let_88 (tptp.fn_eudicot_9 X))) (let ((_let_89 (tptp.fn_eudicot_10 X))) (let ((_let_90 (tptp.fn_eudicot_21 X))) (let ((_let_91 (tptp.fn_cellular_respiration_68 _let_4))) (let ((_let_92 (tptp.fn_eudicot_49 X))) (let ((_let_93 (tptp.fn_eudicot_48 X))) (let ((_let_94 (tptp.fn_eudicot_45 X))) (let ((_let_95 (tptp.fn_barrier_1 _let_94))) (let ((_let_96 (tptp.fn_eudicot_1 X))) (let ((_let_97 (tptp.fn_eudicot_2 X))) (let ((_let_98 (tptp.fn_eudicot_5 X))) (let ((_let_99 (tptp.fn_eudicot_4 X))) (=> (tptp.eudicot_1 X) (and (tptp.original_name_2 X |tptp.'Eudicot'|) (tptp.user_description_2 X |tptp.'Member of a large clade of angiosperms that have two cotyledons, or embryonic seed leaves.'|) (tptp.concept2words_2 X tptp.eudicot) (tptp.angiosperm_1 X) (tptp.electron_1 _let_96) (tptp.length_value_1 _let_97) (tptp.cytoplasm_1 _let_99) (tptp.plasma_membrane_1 _let_98) (tptp.length_value_1 _let_87) (tptp.length_value_1 _let_88) (tptp.stem_1 _let_89) (tptp.store_1 _let_34) (tptp.shoot_1 _let_54) (tptp.visible_light_1 _let_79) (tptp.energy_1 _let_79) (tptp.spatial_entity_1 _let_30) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.sugar_1 _let_30) (tptp.glucose_1 _let_30) (tptp.organic_molecule_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.pyruvate_1 _let_90) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.organic_molecule_1 _let_43) (tptp.molecule_1 _let_43) (tptp.nadh_1 _let_43) (tptp.organelle_1 _let_47) (tptp.mitochondrion_1 _let_47) (tptp.semiautonomous_organelle_1 _let_47) (tptp.glycolysis_1 _let_12) (tptp.chemical_reaction_1 _let_46) (tptp.oxidative_phosphorylation_1 _let_46) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_46) (tptp.exergonic_reaction_1 _let_9) (tptp.pyruvate_oxidation_1 _let_9) (tptp.chemical_energy_1 _let_42) (tptp.free_energy_1 _let_60) (tptp.structural_complexity_value_1 _let_68) (tptp.size_value_1 _let_74) (tptp.size_value_1 _let_76) (tptp.free_energy_1 _let_83) (tptp.structural_complexity_value_1 _let_69) (tptp.quantity_value_1 _let_64) (tptp.quantity_value_1 _let_62) (tptp.entity_1 _let_80) (tptp.chemical_energy_1 _let_80) (tptp.plant_cell_1 _let_1) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.nutrition_1 _let_49) (tptp.photoautotroph_1 _let_48) (tptp.root_system_1 _let_58) (tptp.shoot_system_1 _let_55) (tptp.water_1 _let_50) (tptp.temperature_value_1 _let_53) (tptp.specific_heat_value_1 _let_51) (tptp.container_1 _let_94) (tptp.cellular_respiration_1 _let_4) (tptp.metabolic_pathway_1 _let_4) (tptp.eukaryotic_cellular_respiration_1 _let_4) (tptp.photosynthesis_1 _let_6) (tptp.anabolic_pathway_1 _let_6) (tptp.metabolic_pathway_1 _let_6) (tptp.taproot_1 _let_93) (tptp.oxygen_molecule_1 _let_92) (tptp.spatial_entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.hydrophobic_compound_1 _let_41) (tptp.molecule_1 _let_41) (tptp.tangible_entity_1 _let_41) (tptp.carbon_dioxide_1 _let_41) (tptp.oxidation_1 _let_72) (tptp.chemical_entity_1 _let_66) (tptp.store_1 _let_56) (tptp.starch_storage_by_plant_1 _let_52) (tptp.tuber_1 _let_57) (tptp.tangible_entity_1 _let_95) (tptp.oxygen_molecule_1 _let_91) (tptp.property_node_1 _let_86) (tptp.property_node_1 _let_85) (tptp.property_node_1 _let_84) (tptp.free_energy_1 _let_82) (tptp.property_node_1 _let_81) (tptp.visible_light_1 _let_78) (tptp.energy_1 _let_78) (tptp.property_node_1 _let_77) (tptp.size_value_1 _let_75) (tptp.size_value_1 _let_73) (tptp.oxidation_1 _let_71) (tptp.property_node_1 _let_70) (tptp.structural_complexity_value_1 _let_67) (tptp.chemical_entity_1 _let_65) (tptp.quantity_value_1 _let_63) (tptp.quantity_value_1 _let_61) (tptp.free_energy_1 _let_59) (tptp.pyruvate_oxidation_1 _let_45) (tptp.glycolysis_1 _let_44) (tptp.spatial_entity_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.sugar_1 _let_39) (tptp.chemical_entity_1 _let_38) (tptp.pyruvate_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.organic_molecule_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.pyruvate_1 _let_36) (tptp.entity_1 _let_35) (tptp.chemical_energy_1 _let_33) (tptp.structural_complexity_value_1 _let_32) (tptp.structural_complexity_value_1 _let_31) (tptp.structural_complexity_value_1 _let_29) (tptp.cell_1 _let_26) (tptp.cell_1 _let_25) (tptp.organelle_1 _let_23) (tptp.mitochondrion_1 _let_23) (tptp.semiautonomous_organelle_1 _let_23) (tptp.organelle_1 _let_22) (tptp.mitochondrion_1 _let_22) (tptp.semiautonomous_organelle_1 _let_22) (tptp.oxidative_phosphorylation_1 _let_21) (tptp.chemical_reaction_1 _let_20) (tptp.oxidative_phosphorylation_1 _let_20) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.organic_molecule_1 _let_18) (tptp.nadh_1 _let_18) (tptp.molecule_1 _let_18) (tptp.nadh_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.organic_molecule_1 _let_16) (tptp.molecule_1 _let_16) (tptp.entity_1 _let_16) (tptp.nadh_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.organic_molecule_1 _let_15) (tptp.molecule_1 _let_15) (tptp.nadh_1 _let_15) (tptp.chemical_energy_1 _let_14) (tptp.chemical_energy_1 _let_13) (tptp.chemical_energy_1 _let_11) (tptp.chemical_energy_1 _let_10) (tptp.chemical_energy_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.hydrophobic_compound_1 _let_7) (tptp.molecule_1 _let_7) (tptp.carbon_dioxide_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.carbon_dioxide_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.metabolic_pathway_1 _let_2) (tptp.eukaryotic_cellular_respiration_1 _let_2) (tptp.result_2 _let_4 _let_90) (tptp.site_2 _let_4 _let_99) (tptp.site_2 _let_6 _let_99) (tptp.is_between_2 _let_99 _let_98) (tptp.is_inside_2 _let_99 _let_98) (tptp.the_scalar_value_2 _let_97 tptp.tall_0) (tptp.scalar_unit_class_2 _let_97 tptp.vascular_plant_0) (tptp.length_2 X _let_97) (not (= _let_41 _let_96)) (tptp.has_function_2 _let_41 _let_72) (not (= _let_96 _let_41)) (tptp.base_2 _let_34 _let_30) (tptp.object_2 _let_34 _let_80) (tptp.size_2 _let_30 _let_76) (tptp.result_2 _let_6 _let_30) (tptp.possesses_2 _let_30 _let_83) (tptp.result_2 _let_12 _let_90) (tptp.structural_complexity_2 _let_30 _let_69) (tptp.plays_2 X _let_94) (tptp.has_part_2 X _let_93) (tptp.is_inside_2 _let_93 _let_58) (tptp.raw_material_2 _let_4 _let_92) (tptp.raw_material_2 _let_46 _let_92) (tptp.raw_material_2 _let_9 _let_90) (tptp.possesses_2 _let_90 _let_42) (tptp.has_part_2 _let_1 _let_47) (tptp.has_function_2 _let_47 _let_4) (tptp.base_2 _let_4 _let_1) (tptp.has_function_2 _let_1 _let_4) (tptp.height_2 X _let_87) (tptp.directly_proportional_2 _let_88 _let_87) (tptp.thickness_2 _let_89 _let_88) (tptp.has_part_2 _let_54 _let_89) (tptp.quantity_2 _let_83 _let_64) (tptp.called_2 _let_62 |tptp.'FE_r'|) (tptp.raw_material_2 _let_6 _let_79) (not (= _let_80 _let_79)) (not (= _let_79 _let_80)) (tptp.donor_2 _let_72 _let_66) (tptp.recipient_2 _let_72 _let_41) (tptp.size_2 _let_41 _let_74) (tptp.greater_than_2 _let_76 _let_74) (tptp.structural_complexity_2 _let_41 _let_68) (tptp.greater_than_2 _let_69 _let_68) (not (= _let_66 _let_41)) (not (= _let_41 _let_66)) (tptp.raw_material_2 _let_6 _let_41) (tptp.possesses_2 _let_41 _let_60) (tptp.quantity_2 _let_60 _let_62) (tptp.greater_than_2 _let_64 _let_62) (tptp.called_2 _let_64 |tptp.'FE_p'|) (tptp.has_function_2 X _let_52) (tptp.has_region_2 X _let_58) (tptp.subevent_2 _let_52 _let_56) (tptp.site_2 _let_56 _let_57) (tptp.has_part_2 X _let_57) (tptp.has_function_2 X _let_6) (tptp.by_means_of_2 _let_49 _let_6) (tptp.correspondence_2 _let_53 _let_51) (tptp.temperature_2 X _let_53) (tptp.has_part_2 X _let_54) (tptp.is_inside_2 _let_54 _let_55) (tptp.has_region_2 X _let_55) (tptp.base_2 _let_52 X) (tptp.agent_2 _let_52 X) (tptp.has_part_2 X _let_1) (tptp.base_2 _let_6 _let_1) (tptp.experiencer_2 _let_6 X) (tptp.plays_2 X _let_48) (tptp.in_event_2 _let_48 _let_49) (tptp.agent_2 _let_49 X) (tptp.has_part_2 X _let_50) (tptp.specific_heat_2 _let_50 _let_51) (tptp.subevent_2 _let_4 _let_9) (tptp.result_2 _let_9 _let_43) (tptp.site_2 _let_9 _let_47) (tptp.first_subevent_2 _let_4 _let_12) (tptp.subevent_2 _let_4 _let_12) (tptp.result_2 _let_4 _let_43) (tptp.raw_material_2 _let_46 _let_43) (tptp.subevent_2 _let_4 _let_46) (tptp.result_2 _let_4 _let_41) (tptp.possesses_2 _let_41 _let_42) (tptp.possesses_2 _let_43 _let_42) (tptp.result_2 _let_12 _let_43) (tptp.next_event_2 _let_12 _let_9) (= _let_30 _let_40) (= _let_80 _let_35) (= _let_30 _let_39) (= _let_90 _let_37) (= _let_30 _let_38) (= _let_69 _let_32) (= _let_69 _let_31) (= X _let_95) (= _let_93 (tptp.fn_seed_plant_15 X)) (= _let_46 _let_21) (= _let_92 _let_91) (= _let_42 _let_10) (= _let_90 _let_36) (= _let_1 _let_26) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_47 _let_23) (= (tptp.fn_eudicot_7 X) (tptp.fn_vascular_plant_7 X)) (= (tptp.fn_eudicot_6 X) (tptp.fn_vascular_plant_1 X)) (= _let_54 _let_28) (= _let_89 (tptp.fn_vascular_plant_11 X)) (= _let_88 (tptp.fn_vascular_plant_2 X)) (= _let_87 (tptp.fn_vascular_plant_8 X)) (= (tptp.fn_eudicot_14 X) _let_86) (= (tptp.fn_eudicot_15 X) _let_85) (= (tptp.fn_eudicot_13 X) _let_84) (= _let_83 _let_82) (= (tptp.fn_eudicot_12 X) _let_81) (= _let_80 _let_33) (= _let_79 _let_78) (= (tptp.fn_eudicot_17 X) _let_77) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_72 _let_71) (= (tptp.fn_eudicot_16 X) _let_70) (= _let_69 _let_29) (= _let_68 _let_67) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_41 _let_7) (= (tptp.fn_eudicot_50 X) (tptp.fn_seed_plant_17 X)) (= (tptp.fn_eudicot_51 X) (tptp.fn_seed_plant_16 X)) (= _let_58 (tptp.fn_seed_plant_9 X)) (= _let_57 (tptp.fn_seed_plant_1 X)) (= _let_56 (tptp.fn_seed_plant_4 X)) (= _let_55 (tptp.fn_seed_plant_8 X)) (= _let_54 _let_27) (= _let_53 (tptp.fn_seed_plant_12 X)) (= _let_1 _let_25) (= _let_6 (tptp.fn_seed_plant_7 X)) (= _let_1 _let_24) (= _let_52 (tptp.fn_seed_plant_3 X)) (= _let_51 (tptp.fn_seed_plant_6 X)) (= _let_50 (tptp.fn_seed_plant_14 X)) (= _let_49 (tptp.fn_seed_plant_10 X)) (= _let_48 (tptp.fn_seed_plant_11 X)) (= _let_47 _let_22) (= _let_46 _let_20) (= _let_43 _let_16) (= _let_9 _let_45) (= _let_12 _let_44) (= _let_43 _let_19) (= _let_42 _let_14) (= _let_43 _let_18) (= _let_42 _let_13) (= _let_43 _let_17) (= _let_42 _let_11) (= _let_43 _let_15) (= _let_42 _let_8) (= _let_41 _let_5) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_39 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_euglena_7 X))) (let ((_let_2 (tptp.fn_photoautotroph_18 _let_1))) (let ((_let_3 (tptp.fn_euglena_13 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_euglena_31 X))) (let ((_let_6 (tptp.fn_metabolic_pathway_1 _let_5))) (let ((_let_7 (tptp.fn_euglena_14 X))) (let ((_let_8 (tptp.fn_metabolic_pathway_1 _let_7))) (let ((_let_9 (tptp.fn_euglenozoan_22 X))) (let ((_let_10 (tptp.fn_protist_cell_29 X))) (let ((_let_11 (tptp.fn_euglena_11 X))) (let ((_let_12 (tptp.fn_peroxisome_40 _let_11))) (let ((_let_13 (tptp.fn_euglenozoan_26 X))) (let ((_let_14 (tptp.fn_protist_cell_23 X))) (let ((_let_15 (tptp.fn_euglenozoan_21 X))) (let ((_let_16 (tptp.fn_protist_cell_28 X))) (let ((_let_17 (tptp.fn_euglenozoan_11 X))) (let ((_let_18 (tptp.fn_protist_cell_14 X))) (let ((_let_19 (tptp.fn_euglenozoan_12 X))) (let ((_let_20 (tptp.fn_protist_cell_24 X))) (let ((_let_21 (tptp.fn_euglenozoan_9 X))) (let ((_let_22 (tptp.fn_protist_cell_22 X))) (let ((_let_23 (tptp.fn_euglenozoan_31 X))) (let ((_let_24 (tptp.fn_protist_cell_25 X))) (let ((_let_25 (tptp.fn_euglenozoan_20 X))) (let ((_let_26 (tptp.fn_protist_cell_19 X))) (let ((_let_27 (tptp.fn_euglenozoan_15 X))) (let ((_let_28 (tptp.fn_protist_cell_16 X))) (let ((_let_29 (tptp.fn_euglenozoan_13 X))) (let ((_let_30 (tptp.fn_protist_cell_17 X))) (let ((_let_31 (tptp.fn_photoautotroph_19 _let_1))) (let ((_let_32 (tptp.fn_euglena_30 X))) (let ((_let_33 (tptp.fn_enzyme_4 _let_32))) (let ((_let_34 (tptp.fn_euglena_37 X))) (let ((_let_35 (tptp.fn_euglena_5 X))) (let ((_let_36 (tptp.fn_euglena_12 X))) (let ((_let_37 (tptp.fn_euglena_10 X))) (let ((_let_38 (tptp.fn_euglena_36 X))) (let ((_let_39 (tptp.fn_euglena_28 X))) (let ((_let_40 (tptp.fn_euglena_22 X))) (let ((_let_41 (tptp.fn_euglena_3 X))) (let ((_let_42 (tptp.fn_euglena_27 X))) (let ((_let_43 (tptp.fn_euglena_16 X))) (let ((_let_44 (tptp.fn_euglena_20 X))) (let ((_let_45 (tptp.fn_euglena_8 X))) (let ((_let_46 (tptp.fn_euglena_9 X))) (let ((_let_47 (tptp.fn_euglena_26 X))) (let ((_let_48 (tptp.fn_euglena_23 X))) (let ((_let_49 (tptp.fn_euglena_25 X))) (let ((_let_50 (tptp.fn_euglena_24 X))) (let ((_let_51 (tptp.fn_euglena_15 X))) (let ((_let_52 (tptp.fn_euglena_18 X))) (let ((_let_53 (tptp.fn_euglena_17 X))) (let ((_let_54 (tptp.fn_euglena_19 X))) (let ((_let_55 (tptp.fn_euglena_21 X))) (let ((_let_56 (tptp.fn_euglena_4 X))) (let ((_let_57 (tptp.fn_euglena_6 X))) (let ((_let_58 (tptp.fn_photoautotroph_17 _let_1))) (let ((_let_59 (tptp.fn_euglena_29 X))) (let ((_let_60 (tptp.fn_euglena_2 X))) (=> (tptp.euglena_1 X) (and (tptp.original_name_2 X |tptp.'Euglena'|) (tptp.user_description_2 X |tptp.'A genus of unicellular protists, of the class Euglenoidea of the phylum Euglenozoa.'|) (tptp.concept2words_2 X tptp.euglena) (tptp.euglenid_1 X) (not (tptp.kinetoplastid_1 X)) (not (tptp.trypanosome_1 X)) (tptp.structural_complexity_value_1 _let_60) (tptp.cellular_work_1 _let_41) (tptp.anabolic_pathway_1 _let_56) (tptp.synthesis_of_atp_1 _let_56) (tptp.substance_1 _let_35) (tptp.cytosol_1 _let_35) (tptp.spatial_entity_1 _let_57) (tptp.nuclear_membrane_1 _let_57) (tptp.biomembrane_1 _let_57) (tptp.photoautotroph_1 _let_1) (tptp.protein_enzyme_1 _let_45) (tptp.protein_enzyme_1 _let_46) (tptp.synthesis_reaction_1 _let_37) (tptp.metabolic_pathway_1 _let_37) (tptp.chemical_reaction_1 _let_37) (tptp.anabolic_pathway_1 _let_37) (tptp.synthesis_of_lipid_1 _let_37) (tptp.peroxisome_1 _let_11) (tptp.smooth_endoplasmic_reticulum_1 _let_36) (tptp.synthesis_of_atp_1 _let_3) (tptp.synthesis_of_atp_1 _let_7) (tptp.specific_heat_value_1 _let_51) (tptp.tangible_entity_1 _let_43) (tptp.phospholipid_bilayer_1 _let_43) (tptp.eukaryotic_cellular_respiration_1 _let_53) (tptp.temperature_value_1 _let_52) (tptp.size_value_1 _let_54) (tptp.surface_1 _let_44) (tptp.volume_value_1 _let_55) (tptp.tangible_entity_1 _let_40) (tptp.nucleus_1 _let_40) (tptp.endoplasmic_reticulum_1 _let_48) (tptp.rough_endoplasmic_reticulum_1 _let_48) (tptp.water_1 _let_50) (tptp.eukaryotic_chromosome_1 _let_49) (tptp.chromosome_1 _let_49) (tptp.eukaryotic_ribosome_1 _let_47) (tptp.spatial_entity_1 _let_42) (tptp.biomembrane_1 _let_42) (tptp.plasma_membrane_1 _let_42) (tptp.mixture_1 _let_39) (tptp.cytoplasm_1 _let_39) (tptp.nutrition_1 _let_59) (tptp.protein_enzyme_1 _let_32) (tptp.chemical_reaction_1 _let_5) (tptp.metabolic_pathway_1 _let_5) (tptp.photosynthesis_1 _let_5) (tptp.golgi_apparatus_1 _let_38) (tptp.semiautonomous_organelle_1 _let_34) (tptp.organelle_1 _let_34) (tptp.mitochondrion_1 _let_34) (tptp.nutrition_1 _let_58) (tptp.chemical_reaction_1 _let_33) (tptp.photosynthesis_1 _let_31) (tptp.cytosol_1 _let_12) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.cell_1 _let_4) (tptp.organism_1 _let_2) (tptp.has_part_2 _let_39 _let_32) (tptp.agent_2 _let_7 _let_45) (tptp.the_scalar_value_2 _let_60 tptp.very_complex_0) (tptp.scalar_unit_class_2 _let_60 tptp.biomembrane_0) (tptp.agent_2 _let_3 _let_46) (tptp.agent_2 _let_37 _let_46) (tptp.structural_complexity_2 _let_57 _let_60) (tptp.agent_2 _let_56 _let_45) (tptp.has_function_2 _let_32 _let_5) (tptp.base_2 _let_7 X) (tptp.base_2 _let_5 X) (tptp.base_2 _let_3 X) (tptp.has_part_2 X _let_11) (tptp.is_inside_2 _let_11 _let_35) (tptp.by_means_of_2 _let_59 _let_5) (tptp.in_event_2 _let_1 _let_59) (tptp.agent_2 _let_59 X) (tptp.plays_2 X _let_1) (tptp.has_part_2 _let_40 _let_57) (tptp.site_2 _let_37 _let_36) (tptp.the_scalar_value_2 _let_54 tptp.big_0) (tptp.scalar_unit_class_2 _let_54 tptp.prokaryote_0) (tptp.has_region_2 X _let_44) (tptp.has_part_2 X _let_40) (tptp.base_2 _let_56 X) (tptp.site_2 _let_53 _let_39) (tptp.is_between_2 _let_39 _let_42) (tptp.size_2 X _let_54) (tptp.directly_proportional_2 _let_54 _let_55) (tptp.volume_2 X _let_55) (tptp.temperature_2 X _let_52) (tptp.has_part_2 X _let_48) (not (= _let_48 _let_36)) (tptp.has_part_2 X _let_36) (tptp.has_function_2 X _let_53) (tptp.base_2 _let_53 X) (not (= _let_36 _let_48)) (tptp.is_inside_2 _let_49 _let_40) (tptp.has_part_2 X _let_49) (tptp.has_part_2 X _let_50) (tptp.specific_heat_2 _let_50 _let_51) (tptp.correspondence_2 _let_52 _let_51) (tptp.has_part_2 X _let_47) (tptp.is_inside_2 _let_47 _let_35) (tptp.is_inside_2 _let_48 _let_35) (tptp.abuts_2 _let_36 _let_48) (tptp.abuts_2 _let_48 _let_36) (tptp.is_inside_2 _let_39 _let_42) (tptp.has_part_2 _let_39 _let_45) (not (= _let_45 _let_46)) (tptp.has_part_2 _let_39 _let_46) (tptp.is_between_2 _let_39 _let_40) (not (= _let_46 _let_45)) (tptp.base_2 _let_41 X) (tptp.has_function_2 X _let_41) (tptp.has_part_2 X _let_42) (tptp.has_part_2 _let_42 _let_43) (tptp.is_at_2 _let_43 _let_44) (tptp.is_inside_2 _let_38 _let_35) (tptp.has_part_2 X _let_38) (tptp.has_part_2 X _let_39) (tptp.has_part_2 _let_39 _let_35) (tptp.is_inside_2 _let_40 _let_35) (tptp.has_part_2 X _let_34) (tptp.is_inside_2 _let_34 _let_35) (tptp.is_inside_2 _let_36 _let_35) (tptp.has_function_2 _let_36 _let_37) (tptp.base_2 _let_37 X) (= _let_5 _let_33) (= X _let_8) (= X _let_6) (= X _let_4) (= _let_11 (tptp.fn_eukaryotic_cell_61 X)) (= _let_35 _let_12) (= _let_5 _let_31) (= X _let_2) (= _let_59 _let_58) (= _let_57 (tptp.fn_protist_cell_27 X)) (= (tptp.fn_euglena_32 X) (tptp.fn_euglenozoan_5 X)) (= (tptp.fn_euglena_34 X) (tptp.fn_euglenozoan_7 X)) (= _let_56 (tptp.fn_euglenozoan_24 X)) (= (tptp.fn_euglena_35 X) (tptp.fn_euglenozoan_8 X)) (= (tptp.fn_euglena_33 X) (tptp.fn_euglenozoan_6 X)) (= _let_55 _let_30) (= _let_55 _let_29) (= _let_54 _let_28) (= _let_54 _let_27) (= _let_53 (tptp.fn_euglenozoan_23 X)) (= _let_52 (tptp.fn_euglenozoan_16 X)) (= _let_51 (tptp.fn_euglenozoan_18 X)) (= _let_50 (tptp.fn_euglenozoan_10 X)) (= _let_49 _let_26) (= _let_49 _let_25) (= _let_48 _let_24) (= _let_48 _let_23) (= _let_47 (tptp.fn_euglenozoan_19 X)) (= _let_46 (tptp.fn_euglenozoan_3 X)) (= _let_45 (tptp.fn_euglenozoan_28 X)) (= _let_44 (tptp.fn_euglenozoan_14 X)) (= _let_43 (tptp.fn_euglenozoan_17 X)) (= _let_42 _let_22) (= _let_42 _let_21) (= _let_41 (tptp.fn_euglenozoan_34 X)) (= _let_40 _let_20) (= _let_40 _let_19) (= _let_39 (tptp.fn_euglenozoan_25 X)) (= _let_38 _let_18) (= _let_38 _let_17) (= _let_37 _let_16) (= _let_37 _let_15) (= _let_36 _let_14) (= _let_35 _let_10) (= _let_36 _let_13) (= _let_35 _let_9) (= _let_34 (tptp.fn_euglenozoan_30 X)) (= _let_33 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.euglenid_1 X) (and (tptp.original_name_2 X |tptp.'Euglenid'|) (tptp.user_description_2 X |tptp.'Member of a group of flagellated protists, distinguished by the presence of a layer of proteinaceous strips lying under the plasma membrane that give the cell its shape.'|) (tptp.concept2words_2 X tptp.euglenid) (tptp.euglenozoan_1 X) (not (tptp.kinetoplastid_1 X)) (not (tptp.trypanosome_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_euglenozoan_11 X))) (let ((_let_2 (tptp.fn_golgi_apparatus_91 _let_1))) (let ((_let_3 (tptp.fn_protist_cell_29 X))) (let ((_let_4 (tptp.fn_golgi_apparatus_90 _let_1))) (let ((_let_5 (tptp.fn_protist_cell_24 X))) (let ((_let_6 (tptp.fn_golgi_apparatus_22 _let_1))) (let ((_let_7 (tptp.fn_euglenozoan_27 X))) (let ((_let_8 (tptp.fn_flagellum_35 _let_7))) (let ((_let_9 (tptp.fn_golgi_apparatus_82 _let_1))) (let ((_let_10 (tptp.fn_protist_cell_22 X))) (let ((_let_11 (tptp.fn_euglenozoan_24 X))) (let ((_let_12 (tptp.fn_synthesis_of_atp_10 _let_11))) (let ((_let_13 (tptp.fn_anabolic_pathway_6 _let_11))) (let ((_let_14 (tptp.fn_euglenozoan_22 X))) (let ((_let_15 (tptp.fn_euglenozoan_12 X))) (let ((_let_16 (tptp.fn_golgi_apparatus_15 _let_1))) (let ((_let_17 (tptp.fn_euglenozoan_20 X))) (let ((_let_18 (tptp.fn_golgi_apparatus_93 _let_1))) (let ((_let_19 (tptp.fn_euglenozoan_26 X))) (let ((_let_20 (tptp.fn_golgi_apparatus_65 _let_1))) (let ((_let_21 (tptp.fn_euglenozoan_31 X))) (let ((_let_22 (tptp.fn_golgi_apparatus_89 _let_1))) (let ((_let_23 (tptp.fn_euglenozoan_21 X))) (let ((_let_24 (tptp.fn_golgi_apparatus_86 _let_1))) (let ((_let_25 (tptp.fn_euglenozoan_13 X))) (let ((_let_26 (tptp.fn_golgi_apparatus_87 _let_1))) (let ((_let_27 (tptp.fn_euglenozoan_15 X))) (let ((_let_28 (tptp.fn_golgi_apparatus_10 _let_1))) (let ((_let_29 (tptp.fn_golgi_apparatus_11 _let_1))) (let ((_let_30 (tptp.fn_golgi_apparatus_88 _let_1))) (let ((_let_31 (tptp.fn_euglenozoan_9 X))) (let ((_let_32 (tptp.fn_euglenozoan_25 X))) (let ((_let_33 (tptp.fn_euglenozoan_17 X))) (let ((_let_34 (tptp.fn_euglenozoan_14 X))) (let ((_let_35 (tptp.fn_euglenozoan_34 X))) (let ((_let_36 (tptp.fn_euglenozoan_30 X))) (let ((_let_37 (tptp.fn_euglenozoan_19 X))) (let ((_let_38 (tptp.fn_euglenozoan_23 X))) (let ((_let_39 (tptp.fn_euglenozoan_28 X))) (let ((_let_40 (tptp.fn_euglenozoan_33 X))) (let ((_let_41 (tptp.fn_euglenozoan_10 X))) (let ((_let_42 (tptp.fn_euglenozoan_18 X))) (let ((_let_43 (tptp.fn_euglenozoan_16 X))) (let ((_let_44 (tptp.fn_chromosome_6 _let_17))) (let ((_let_45 (tptp.fn_euglenozoan_32 X))) (let ((_let_46 (tptp.fn_euglenozoan_29 X))) (let ((_let_47 (tptp.fn_euglenozoan_2 X))) (let ((_let_48 (tptp.fn_euglenozoan_1 X))) (let ((_let_49 (tptp.fn_euglenozoan_4 X))) (let ((_let_50 (tptp.fn_euglenozoan_3 X))) (=> (tptp.euglenozoan_1 X) (and (tptp.original_name_2 X |tptp.'Euglenozoan'|) (tptp.user_description_2 X |tptp.'Member of a clade of flagellated protists; can be photosynthetic, heterotrophic, or parasitic.'|) (tptp.concept2words_2 X tptp.euglenozoan) (tptp.unicellular_organism_1 X) (tptp.protist_cell_1 X) (tptp.chromosome_arm_1 _let_48) (tptp.chromosome_arm_1 _let_47) (tptp.protein_enzyme_1 _let_50) (tptp.cytosol_1 _let_49) (tptp.spatial_entity_1 _let_31) (tptp.biomembrane_1 _let_31) (tptp.plasma_membrane_1 _let_31) (tptp.water_1 _let_41) (tptp.golgi_apparatus_1 _let_1) (tptp.tangible_entity_1 _let_15) (tptp.nucleus_1 _let_15) (tptp.volume_value_1 _let_25) (tptp.surface_1 _let_34) (tptp.size_value_1 _let_27) (tptp.temperature_value_1 _let_43) (tptp.tangible_entity_1 _let_33) (tptp.phospholipid_bilayer_1 _let_33) (tptp.specific_heat_value_1 _let_42) (tptp.eukaryotic_ribosome_1 _let_37) (tptp.eukaryotic_chromosome_1 _let_17) (tptp.chromosome_1 _let_17) (tptp.synthesis_reaction_1 _let_23) (tptp.metabolic_pathway_1 _let_23) (tptp.chemical_reaction_1 _let_23) (tptp.anabolic_pathway_1 _let_23) (tptp.synthesis_of_lipid_1 _let_23) (tptp.substance_1 _let_14) (tptp.cytosol_1 _let_14) (tptp.eukaryotic_cellular_respiration_1 _let_38) (tptp.anabolic_pathway_1 _let_11) (tptp.synthesis_of_atp_1 _let_11) (tptp.mixture_1 _let_32) (tptp.cytoplasm_1 _let_32) (tptp.smooth_endoplasmic_reticulum_1 _let_19) (tptp.flagellum_1 _let_7) (tptp.protein_enzyme_1 _let_39) (tptp.adp_1 _let_46) (tptp.semiautonomous_organelle_1 _let_36) (tptp.organelle_1 _let_36) (tptp.mitochondrion_1 _let_36) (tptp.endoplasmic_reticulum_1 _let_21) (tptp.rough_endoplasmic_reticulum_1 _let_21) (tptp.centromere_1 _let_45) (tptp.er_membrane_1 _let_40) (tptp.cellular_work_1 _let_35) (tptp.centromere_1 _let_44) (tptp.synthesis_of_atp_1 _let_30) (tptp.property_node_1 _let_29) (tptp.property_node_1 _let_28) (tptp.size_value_1 _let_26) (tptp.volume_value_1 _let_24) (tptp.synthesis_reaction_1 _let_22) (tptp.metabolic_pathway_1 _let_22) (tptp.chemical_reaction_1 _let_22) (tptp.anabolic_pathway_1 _let_22) (tptp.synthesis_of_lipid_1 _let_22) (tptp.endoplasmic_reticulum_1 _let_20) (tptp.rough_endoplasmic_reticulum_1 _let_20) (tptp.smooth_endoplasmic_reticulum_1 _let_18) (tptp.eukaryotic_chromosome_1 _let_16) (tptp.chromosome_1 _let_16) (tptp.chemical_entity_1 _let_13) (tptp.organic_molecule_1 _let_12) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.cell_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.nucleus_1 _let_4) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.has_part_2 _let_17 _let_48) (tptp.has_part_2 _let_17 _let_47) (tptp.site_2 _let_38 _let_32) (tptp.has_part_2 _let_32 _let_50) (tptp.is_inside_2 _let_50 _let_40) (not (= _let_50 _let_39)) (not (= _let_39 _let_50)) (tptp.is_inside_2 _let_46 _let_49) (tptp.is_between_2 _let_45 _let_48) (tptp.is_between_2 _let_45 _let_47) (tptp.raw_material_2 _let_11 _let_46) (tptp.has_region_2 _let_17 _let_45) (tptp.has_part_2 X _let_7) (tptp.temperature_2 X _let_43) (tptp.has_part_2 X _let_41) (tptp.specific_heat_2 _let_41 _let_42) (tptp.correspondence_2 _let_43 _let_42) (tptp.is_between_2 _let_32 _let_15) (tptp.is_between_2 _let_32 _let_31) (tptp.has_part_2 _let_32 _let_14) (tptp.has_part_2 _let_32 _let_39) (tptp.is_inside_2 _let_39 _let_40) (tptp.base_2 _let_38 X) (tptp.has_function_2 X _let_38) (tptp.has_part_2 X _let_37) (tptp.base_2 _let_35 X) (tptp.has_function_2 X _let_35) (tptp.has_part_2 X _let_36) (tptp.is_inside_2 _let_36 _let_14) (tptp.is_inside_2 _let_37 _let_14) (tptp.has_part_2 X _let_32) (tptp.is_inside_2 _let_32 _let_31) (tptp.has_part_2 _let_31 _let_33) (tptp.is_at_2 _let_33 _let_34) (tptp.has_region_2 X _let_34) (tptp.has_part_2 X _let_31) (tptp.base_2 _let_11 X) (tptp.has_part_2 X _let_1) (tptp.site_2 _let_23 _let_19) (tptp.has_part_2 X _let_15) (tptp.size_2 X _let_27) (tptp.abuts_2 _let_19 _let_21) (tptp.has_part_2 X _let_21) (tptp.volume_2 X _let_25) (tptp.directly_proportional_2 _let_27 _let_25) (tptp.the_scalar_value_2 _let_27 tptp.big_0) (tptp.scalar_unit_class_2 _let_27 tptp.prokaryote_0) (tptp.abuts_2 _let_21 _let_19) (not (= _let_21 _let_19)) (tptp.is_inside_2 _let_21 _let_14) (tptp.is_inside_2 _let_19 _let_14) (tptp.has_function_2 _let_19 _let_23) (tptp.base_2 _let_23 X) (not (= _let_19 _let_21)) (tptp.is_inside_2 _let_1 _let_14) (tptp.is_inside_2 _let_15 _let_14) (tptp.is_inside_2 _let_17 _let_15) (tptp.has_part_2 X _let_17) (tptp.has_part_2 X _let_19) (= _let_46 _let_13) (= _let_46 _let_12) (= _let_45 _let_44) (= X _let_8) (= (tptp.fn_euglenozoan_5 X) (tptp.fn_organism_6 X)) (= (tptp.fn_euglenozoan_6 X) (tptp.fn_organism_1 X)) (= _let_43 (tptp.fn_organism_2 X)) (= _let_42 (tptp.fn_organism_5 X)) (= _let_41 (tptp.fn_organism_4 X)) (= _let_15 _let_5) (= _let_40 (tptp.fn_protist_cell_31 X)) (= _let_39 (tptp.fn_protist_cell_33 X)) (= _let_38 (tptp.fn_protist_cell_32 X)) (= _let_37 (tptp.fn_protist_cell_30 X)) (= _let_14 _let_3) (= _let_36 (tptp.fn_protist_cell_34 X)) (= _let_35 (tptp.fn_protist_cell_9 X)) (= _let_34 (tptp.fn_protist_cell_15 X)) (= _let_33 (tptp.fn_protist_cell_18 X)) (= _let_31 _let_10) (= _let_32 (tptp.fn_protist_cell_35 X)) (= _let_31 _let_9) (= _let_11 _let_30) (= (tptp.fn_euglenozoan_8 X) _let_29) (= (tptp.fn_euglenozoan_7 X) _let_28) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= X _let_6) (= _let_17 _let_16) (= _let_15 _let_4) (= _let_14 _let_2) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.eukarya_1 X) (and (tptp.original_name_2 X |tptp.'Eukarya'|) (tptp.user_description_2 X |tptp.'The taxonomic category above kingdom level which includes all eukaryotic organisms.'|) (tptp.concept2words_2 X tptp.eukarya) (tptp.domain_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.eukarya))) (=> (tptp.eukaryote_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryote'|) (tptp.description_2 X |tptp.'Living organism composed of one or more cells with a distinct nucleus and cytoplasm.'|) (tptp.user_description_2 X |tptp.'Member of the domain Eukarya, which includes all eukaryotic organisms.'|) (tptp.concept2words_2 X tptp.eukaryote) _let_1 _let_1 (tptp.organism_1 X) (not (tptp.prokaryote_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.eukaryote_dna_sequence_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryote-DNA-Sequence'|) (tptp.user_description_2 X |tptp.'A DNA sequence found only in eukaryotes.'|) (tptp.concept2words_2 X |tptp.'eukaryote dna sequence'|) (tptp.concept2words_2 X |tptp.'eukaryote-dna-sequence'|) (tptp.dna_sequence_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_calvin_cycle_44 X))) (let ((_let_2 (tptp.fn_enzyme_4 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_calvin_cycle_37 X))) (let ((_let_4 (tptp.fn_three_phosphoglycerate_7 _let_3))) (let ((_let_5 (tptp.fn_three_phosphoglycerate_9 _let_3))) (let ((_let_6 (tptp.fn_three_phosphoglycerate_4 _let_3))) (let ((_let_7 (tptp.fn_three_phosphoglycerate_12 _let_3))) (let ((_let_8 (tptp.fn_eukaryotic_calvin_cycle_20 X))) (let ((_let_9 (tptp.fn_covalent_bond_19 _let_8))) (let ((_let_10 (tptp.fn_covalent_bond_20 _let_8))) (let ((_let_11 (tptp.fn_three_phosphoglycerate_13 _let_3))) (let ((_let_12 (tptp.fn_eukaryotic_calvin_cycle_22 X))) (let ((_let_13 (tptp.fn_covalent_bond_19 _let_12))) (let ((_let_14 (tptp.fn_covalent_bond_20 _let_12))) (let ((_let_15 (tptp.fn_eukaryotic_calvin_cycle_53 X))) (let ((_let_16 (tptp.fn_move_1 _let_15))) (let ((_let_17 (tptp.fn_calvin_cycle_81 X))) (let ((_let_18 (tptp.fn_calvin_cycle_55 X))) (let ((_let_19 (tptp.fn_anabolic_pathway_6 X))) (let ((_let_20 (tptp.fn_calvin_cycle_69 X))) (let ((_let_21 (tptp.fn_calvin_cycle_34 X))) (let ((_let_22 (tptp.fn_calvin_cycle_82 X))) (let ((_let_23 (tptp.fn_eukaryotic_calvin_cycle_52 X))) (let ((_let_24 (tptp.fn_consume_1 _let_23))) (let ((_let_25 (tptp.fn_eukaryotic_calvin_cycle_42 X))) (let ((_let_26 (tptp.fn_chloroplast_83 _let_25))) (let ((_let_27 (tptp.fn_chloroplast_74 _let_25))) (let ((_let_28 (tptp.fn_chloroplast_55 _let_25))) (let ((_let_29 (tptp.fn_three_phosphoglycerate_3 _let_3))) (let ((_let_30 (tptp.fn_eukaryotic_calvin_cycle_23 X))) (let ((_let_31 (tptp.fn_eukaryotic_calvin_cycle_26 X))) (let ((_let_32 (tptp.fn_three_phosphoglycerate_8 _let_3))) (let ((_let_33 (tptp.fn_eukaryotic_calvin_cycle_21 X))) (let ((_let_34 (tptp.fn_three_phosphoglycerate_17 _let_3))) (let ((_let_35 (tptp.fn_eukaryotic_calvin_cycle_17 X))) (let ((_let_36 (tptp.fn_three_phosphoglycerate_14 _let_3))) (let ((_let_37 (tptp.fn_eukaryotic_calvin_cycle_34 X))) (let ((_let_38 (tptp.fn_three_phosphoglycerate_15 _let_3))) (let ((_let_39 (tptp.fn_eukaryotic_calvin_cycle_33 X))) (let ((_let_40 (tptp.fn_three_phosphoglycerate_1 _let_3))) (let ((_let_41 (tptp.fn_three_phosphoglycerate_6 _let_3))) (let ((_let_42 (tptp.fn_eukaryotic_calvin_cycle_30 X))) (let ((_let_43 (tptp.fn_three_phosphoglycerate_11 _let_3))) (let ((_let_44 (tptp.fn_eukaryotic_calvin_cycle_27 X))) (let ((_let_45 (tptp.fn_eukaryotic_calvin_cycle_24 X))) (let ((_let_46 (tptp.fn_eukaryotic_calvin_cycle_25 X))) (let ((_let_47 (tptp.fn_three_phosphoglycerate_19 _let_3))) (let ((_let_48 (tptp.fn_eukaryotic_calvin_cycle_31 X))) (let ((_let_49 (tptp.fn_three_phosphoglycerate_10 _let_3))) (let ((_let_50 (tptp.fn_eukaryotic_calvin_cycle_29 X))) (let ((_let_51 (tptp.fn_three_phosphoglycerate_16 _let_3))) (let ((_let_52 (tptp.fn_eukaryotic_calvin_cycle_16 X))) (let ((_let_53 (tptp.fn_three_phosphoglycerate_18 _let_3))) (let ((_let_54 (tptp.fn_eukaryotic_calvin_cycle_32 X))) (let ((_let_55 (tptp.fn_three_phosphoglycerate_5 _let_3))) (let ((_let_56 (tptp.fn_eukaryotic_calvin_cycle_28 X))) (let ((_let_57 (tptp.fn_three_phosphoglycerate_20 _let_3))) (let ((_let_58 (tptp.fn_eukaryotic_calvin_cycle_19 X))) (let ((_let_59 (tptp.fn_three_phosphoglycerate_2 _let_3))) (let ((_let_60 (tptp.fn_eukaryotic_calvin_cycle_49 X))) (let ((_let_61 (tptp.fn_eukaryotic_calvin_cycle_14 X))) (let ((_let_62 (tptp.fn_eukaryotic_calvin_cycle_15 X))) (let ((_let_63 (tptp.fn_eukaryotic_calvin_cycle_69 X))) (let ((_let_64 (tptp.fn_eukaryotic_calvin_cycle_10 X))) (let ((_let_65 (tptp.fn_eukaryotic_calvin_cycle_48 X))) (let ((_let_66 (tptp.fn_eukaryotic_calvin_cycle_50 X))) (let ((_let_67 (tptp.fn_eukaryotic_calvin_cycle_40 X))) (let ((_let_68 (tptp.fn_eukaryotic_calvin_cycle_18 X))) (let ((_let_69 (tptp.fn_eukaryotic_calvin_cycle_68 X))) (let ((_let_70 (tptp.fn_eukaryotic_calvin_cycle_66 X))) (let ((_let_71 (tptp.fn_eukaryotic_calvin_cycle_39 X))) (let ((_let_72 (tptp.fn_eukaryotic_calvin_cycle_55 X))) (let ((_let_73 (tptp.fn_eukaryotic_calvin_cycle_51 X))) (let ((_let_74 (tptp.fn_eukaryotic_calvin_cycle_61 X))) (let ((_let_75 (tptp.fn_eukaryotic_calvin_cycle_62 X))) (let ((_let_76 (tptp.fn_eukaryotic_calvin_cycle_63 X))) (let ((_let_77 (tptp.fn_eukaryotic_calvin_cycle_64 X))) (let ((_let_78 (tptp.fn_eukaryotic_calvin_cycle_54 X))) (let ((_let_79 (tptp.fn_eukaryotic_calvin_cycle_41 X))) (let ((_let_80 (tptp.fn_eukaryotic_calvin_cycle_38 X))) (let ((_let_81 (tptp.fn_eukaryotic_calvin_cycle_60 X))) (let ((_let_82 (tptp.fn_eukaryotic_calvin_cycle_59 X))) (let ((_let_83 (tptp.fn_eukaryotic_calvin_cycle_58 X))) (let ((_let_84 (tptp.fn_eukaryotic_calvin_cycle_8 X))) (let ((_let_85 (tptp.fn_eukaryotic_calvin_cycle_9 X))) (let ((_let_86 (tptp.fn_eukaryotic_calvin_cycle_67 X))) (let ((_let_87 (tptp.fn_eukaryotic_calvin_cycle_56 X))) (let ((_let_88 (tptp.fn_eukaryotic_calvin_cycle_65 X))) (let ((_let_89 (tptp.fn_eukaryotic_calvin_cycle_35 X))) (let ((_let_90 (tptp.fn_eukaryotic_calvin_cycle_36 X))) (let ((_let_91 (tptp.fn_eukaryotic_calvin_cycle_57 X))) (let ((_let_92 (tptp.fn_eukaryotic_calvin_cycle_47 X))) (let ((_let_93 (tptp.fn_enzyme_5 _let_1))) (let ((_let_94 (tptp.fn_eukaryotic_calvin_cycle_46 X))) (let ((_let_95 (tptp.fn_enzyme_6 _let_1))) (let ((_let_96 (tptp.fn_eukaryotic_calvin_cycle_45 X))) (let ((_let_97 (tptp.fn_eukaryotic_calvin_cycle_43 X))) (let ((_let_98 (tptp.fn_eukaryotic_calvin_cycle_1 X))) (let ((_let_99 (tptp.fn_eukaryotic_calvin_cycle_2 X))) (let ((_let_100 (tptp.fn_eukaryotic_calvin_cycle_3 X))) (let ((_let_101 (tptp.fn_eukaryotic_calvin_cycle_5 X))) (let ((_let_102 (tptp.fn_eukaryotic_calvin_cycle_4 X))) (=> (tptp.eukaryotic_calvin_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Calvin-Cycle'|) (tptp.user_description_2 X |tptp.'It is the calvin cycle taking place in Eukaryotic photosynthetic cell. Here the calvin cycle reactions take place in Stroma.'|) (tptp.concept2words_2 X |tptp.'undergo the eukaryotic calvin cycle'|) (tptp.concept2words_2 X |tptp.'eukaryotic calvin cycle'|) (tptp.concept2words_2 X |tptp.'eukaryotic-calvin-cycle'|) (tptp.calvin_cycle_1 X) (tptp.time_interval_1 _let_98) (tptp.time_interval_1 _let_99) (tptp.time_interval_1 _let_100) (tptp.heat_1 _let_102) (tptp.tangible_entity_1 _let_101) (tptp.structural_complexity_value_1 _let_84) (tptp.structural_complexity_value_1 _let_85) (tptp.organic_molecule_1 _let_64) (tptp.chemical_entity_1 _let_61) (tptp.hydrophobic_compound_1 _let_61) (tptp.molecule_1 _let_61) (tptp.carbon_dioxide_1 _let_61) (tptp.carbon_fixation_1 _let_62) (tptp.chemical_entity_1 _let_52) (tptp.molecule_1 _let_52) (tptp.phosphorylation_1 _let_35) (tptp.phosphorylation_1 _let_68) (tptp.kinetic_energy_1 _let_58) (tptp.covalent_bond_1 _let_8) (tptp.double_bond_1 _let_8) (tptp.single_bond_1 _let_33) (tptp.covalent_bond_1 _let_12) (tptp.double_bond_1 _let_12) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.carbon_1 _let_30) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.oxygen_1 _let_45) (tptp.entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.phosphorus_1 _let_46) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.oxygen_1 _let_31) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.hydrogen_1 _let_44) (tptp.carbon_skeleton_1 _let_56) (tptp.functional_group_1 _let_50) (tptp.phosphate_group_1 _let_50) (tptp.carboxyl_group_1 _let_42) (tptp.constant_motion_1 _let_48) (tptp.molecule_1 _let_54) (tptp.speed_value_1 _let_39) (tptp.quantity_value_1 _let_37) (tptp.structural_complexity_value_1 _let_89) (tptp.nadp_plus_1 _let_90) (tptp.organic_molecule_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.three_phosphoglycerate_1 _let_3) (tptp.move_1 _let_80) (tptp.regeneration_of_ribulose_bisphosphate_1 _let_71) (tptp.reduction_in_calvin_cycle_1 _let_67) (tptp.phosphate_ion_1 _let_79) (tptp.chloroplast_1 _let_25) (tptp.eukaryotic_cell_1 _let_97) (tptp.polymer_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.protein_1 _let_1) (tptp.protein_enzyme_1 _let_1) (tptp.enzyme_1 _let_1) (tptp.catalyst_1 _let_96) (tptp.decrease_1 _let_94) (tptp.time_interval_1 _let_92) (tptp.chemical_reaction_1 _let_65) (tptp.electron_1 _let_60) (tptp.spatial_entity_1 _let_60) (tptp.entity_1 _let_66) (tptp.tangible_entity_1 _let_66) (tptp.chemical_entity_1 _let_66) (tptp.number_1_comma_3_bisphosphoglycerate_1 _let_66) (tptp.redox_reaction_1 _let_73) (tptp.consume_1 _let_23) (tptp.move_1 _let_15) (tptp.free_energy_1 _let_78) (tptp.adp_1 _let_72) (tptp.entity_1 _let_87) (tptp.spatial_entity_1 _let_87) (tptp.chemical_entity_1 _let_87) (tptp.organic_molecule_1 _let_87) (tptp.glyceraldehyde_3_phosphate_1 _let_87) (tptp.atom_1 _let_91) (tptp.electronegativity_value_1 _let_83) (tptp.electronegativity_value_1 _let_82) (tptp.atom_1 _let_81) (tptp.nadph_1 _let_74) (tptp.free_energy_1 _let_75) (tptp.quantity_value_1 _let_76) (tptp.quantity_value_1 _let_77) (tptp.renewable_resource_1 _let_88) (tptp.reactant_1 _let_70) (tptp.atp_1 _let_86) (tptp.chemical_entity_1 _let_69) (tptp.nadph_1 _let_69) (tptp.chemical_entity_1 _let_63) (tptp.monosaccharide_1 _let_63) (tptp.pentose_1 _let_63) (tptp.ketone_1 _let_63) (tptp.ribulose_bisphosphate_1 _let_63) (tptp.catalyst_1 _let_95) (tptp.decrease_1 _let_93) (tptp.property_node_1 _let_59) (tptp.kinetic_energy_1 _let_57) (tptp.carbon_skeleton_1 _let_55) (tptp.molecule_1 _let_53) (tptp.chemical_entity_1 _let_51) (tptp.molecule_1 _let_51) (tptp.functional_group_1 _let_49) (tptp.phosphate_group_1 _let_49) (tptp.constant_motion_1 _let_47) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.hydrogen_1 _let_43) (tptp.carboxyl_group_1 _let_41) (tptp.property_node_1 _let_40) (tptp.speed_value_1 _let_38) (tptp.quantity_value_1 _let_36) (tptp.phosphorylation_1 _let_34) (tptp.single_bond_1 _let_32) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_29) (tptp.enzyme_1 _let_28) (tptp.polymer_1 _let_28) (tptp.protein_1 _let_28) (tptp.protein_enzyme_1 _let_28) (tptp.chemical_entity_1 _let_27) (tptp.enzyme_1 _let_27) (tptp.protein_1 _let_27) (tptp.protein_enzyme_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.protein_1 _let_26) (tptp.protein_enzyme_1 _let_26) (tptp.entity_1 _let_24) (tptp.spatial_entity_1 _let_16) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.phosphorus_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.double_bond_1 _let_5) (tptp.double_bond_1 _let_4) (tptp.chemical_reaction_1 _let_2) (tptp.objective_2 _let_23 _let_102) (tptp.is_near_2 _let_101 _let_66) (tptp.object_2 _let_102 _let_101) (tptp.is_near_2 _let_66 _let_101) (tptp.object_2 _let_65 _let_64) (tptp.time_before_2 _let_92 _let_100) (tptp.has_part_2 _let_97 _let_25) (tptp.time_during_2 X _let_98) (tptp.time_during_2 _let_71 _let_100) (tptp.time_before_2 _let_99 _let_98) (tptp.possesses_2 _let_61 _let_75) (tptp.object_2 _let_23 _let_66) (tptp.has_part_2 _let_25 _let_1) (tptp.base_2 X _let_97) (tptp.base_2 _let_62 _let_97) (tptp.has_function_2 _let_1 _let_94) (tptp.enables_2 _let_94 X) (tptp.in_event_2 _let_96 X) (tptp.plays_2 _let_1 _let_96) (tptp.has_function_2 _let_1 X) (tptp.toward_2 _let_15 _let_66) (tptp.subevent_2 X _let_71) (tptp.time_during_2 _let_67 _let_92) (tptp.subevent_2 _let_62 _let_65) (tptp.greater_than_or_equal_to_2 _let_82 _let_83) (tptp.electronegativity_2 _let_91 _let_83) (tptp.has_atom_2 _let_74 _let_91) (tptp.raw_material_2 _let_73 _let_74) (tptp.result_2 _let_73 _let_87) (tptp.result_2 X _let_72) (tptp.structural_complexity_2 _let_72 _let_89) (tptp.structural_complexity_2 _let_90 _let_89) (tptp.result_2 X _let_90) (tptp.raw_material_2 X _let_86) (tptp.in_event_2 _let_88 X) (tptp.subevent_2 X _let_62) (tptp.first_subevent_2 X _let_62) (tptp.subevent_2 X _let_67) (tptp.result_2 _let_67 _let_87) (tptp.raw_material_2 _let_71 _let_86) (tptp.raw_material_2 _let_67 _let_86) (tptp.next_event_2 _let_67 _let_71) (tptp.raw_material_2 _let_71 _let_87) (tptp.plays_2 _let_87 _let_88) (tptp.structural_complexity_2 _let_69 _let_84) (tptp.greater_than_2 _let_85 _let_84) (tptp.structural_complexity_2 _let_79 _let_85) (tptp.result_2 X _let_79) (tptp.raw_material_2 X _let_69) (tptp.object_2 _let_80 _let_60) (tptp.toward_2 _let_80 _let_66) (tptp.has_atom_2 _let_66 _let_81) (tptp.electronegativity_2 _let_81 _let_82) (tptp.greater_than_2 _let_82 _let_83) (tptp.possesses_2 _let_69 _let_75) (tptp.raw_material_2 _let_68 _let_3) (tptp.raw_material_2 _let_67 _let_3) (tptp.subevent_2 _let_67 _let_73) (tptp.raw_material_2 _let_73 _let_66) (not (= _let_66 _let_74)) (not (= _let_74 _let_66)) (tptp.plays_2 _let_69 _let_70) (tptp.in_event_2 _let_70 X) (tptp.raw_material_2 X _let_63) (tptp.result_2 _let_71 _let_63) (tptp.result_2 _let_71 _let_72) (tptp.result_2 _let_68 _let_66) (not (= _let_66 _let_69)) (not (= _let_69 _let_60)) (not (= _let_60 _let_66)) (not (= _let_66 _let_60)) (not (= _let_69 _let_66)) (not (= _let_60 _let_69)) (tptp.result_2 _let_62 _let_3) (tptp.next_event_2 _let_62 _let_67) (tptp.subevent_2 _let_67 _let_68) (not (= _let_3 _let_63)) (not (= _let_63 _let_3)) (tptp.raw_material_2 _let_65 _let_64) (tptp.result_2 _let_65 _let_3) (not (= _let_3 _let_66)) (not (= _let_3 _let_64)) (not (= _let_64 _let_3)) (not (= _let_66 _let_3)) (tptp.raw_material_2 X _let_61) (tptp.raw_material_2 _let_62 _let_61) (tptp.raw_material_2 _let_62 _let_63) (not (= _let_64 _let_63)) (not (= _let_63 _let_64)) (tptp.possesses_2 _let_3 _let_8) (tptp.is_inside_2 _let_30 _let_42) (tptp.has_region_2 _let_3 _let_42) (tptp.is_between_2 _let_33 _let_45) (tptp.possesses_2 _let_3 _let_33) (not (= _let_44 _let_45)) (not (= _let_45 _let_30)) (not (= _let_30 _let_45)) (not (= _let_45 _let_44)) (tptp.is_inside_2 _let_45 _let_50) (tptp.has_region_2 _let_3 _let_50) (not (= _let_45 _let_46)) (not (= _let_46 _let_31)) (not (= _let_31 _let_45)) (not (= _let_45 _let_31)) (not (= _let_46 _let_45)) (not (= _let_31 _let_46)) (tptp.is_between_2 _let_8 _let_31) (not (= _let_31 _let_30)) (not (= _let_30 _let_31)) (not (= _let_31 _let_44)) (tptp.is_inside_2 _let_31 _let_42) (not (= _let_44 _let_31)) (tptp.has_part_2 _let_3 _let_44) (tptp.is_between_2 _let_12 _let_30) (tptp.is_between_2 _let_12 _let_31) (tptp.is_inside_2 _let_31 _let_50) (tptp.is_inside_2 _let_46 _let_50) (tptp.is_between_2 _let_8 _let_46) (tptp.has_part_2 _let_3 _let_30) (tptp.has_part_2 _let_3 _let_45) (tptp.is_between_2 _let_12 _let_45) (tptp.possesses_2 _let_3 _let_12) (tptp.has_part_2 _let_3 _let_31) (tptp.has_part_2 _let_3 _let_46) (tptp.is_between_2 _let_33 _let_46) (tptp.is_between_2 _let_33 _let_30) (tptp.is_inside_2 _let_45 _let_42) (tptp.is_inside_2 _let_44 _let_42) (tptp.is_between_2 _let_33 _let_31) (tptp.is_between_2 _let_8 _let_30) (tptp.is_between_2 _let_12 _let_46) (tptp.is_between_2 _let_8 _let_45) (tptp.object_2 _let_15 _let_60) (= _let_66 _let_24) (= _let_1 _let_28) (= _let_1 _let_27) (= _let_1 _let_26) (= _let_97 (tptp.fn_calvin_cycle_56 X)) (= _let_96 _let_95) (= X _let_2) (= _let_94 _let_93) (= _let_15 (tptp.fn_calvin_cycle_8 X)) (= _let_92 (tptp.fn_calvin_cycle_93 X)) (= (tptp.fn_eukaryotic_calvin_cycle_70 X) (tptp.fn_calvin_cycle_1 X)) (= _let_65 _let_21) (= (tptp.fn_eukaryotic_calvin_cycle_71 X) (tptp.fn_calvin_cycle_2 X)) (= (tptp.fn_eukaryotic_calvin_cycle_11 X) (tptp.fn_calvin_cycle_17 X)) (= (tptp.fn_eukaryotic_calvin_cycle_72 X) (tptp.fn_calvin_cycle_29 X)) (= (tptp.fn_eukaryotic_calvin_cycle_7 X) (tptp.fn_calvin_cycle_36 X)) (= (tptp.fn_eukaryotic_calvin_cycle_73 X) (tptp.fn_calvin_cycle_28 X)) (= (tptp.fn_eukaryotic_calvin_cycle_6 X) (tptp.fn_calvin_cycle_35 X)) (= _let_91 (tptp.fn_calvin_cycle_3 X)) (= _let_90 (tptp.fn_calvin_cycle_10 X)) (= _let_89 (tptp.fn_calvin_cycle_16 X)) (= _let_88 (tptp.fn_calvin_cycle_76 X)) (= _let_87 (tptp.fn_calvin_cycle_78 X)) (= _let_86 (tptp.fn_calvin_cycle_63 X)) (= _let_85 (tptp.fn_calvin_cycle_38 X)) (= _let_84 (tptp.fn_calvin_cycle_37 X)) (= _let_83 (tptp.fn_calvin_cycle_4 X)) (= _let_82 (tptp.fn_calvin_cycle_5 X)) (= _let_81 (tptp.fn_calvin_cycle_12 X)) (= _let_80 (tptp.fn_calvin_cycle_79 X)) (= _let_79 (tptp.fn_calvin_cycle_74 X)) (= _let_78 (tptp.fn_calvin_cycle_31 X)) (= _let_77 (tptp.fn_calvin_cycle_32 X)) (= _let_76 (tptp.fn_calvin_cycle_33 X)) (= _let_75 (tptp.fn_calvin_cycle_30 X)) (= _let_74 (tptp.fn_calvin_cycle_88 X)) (= _let_73 (tptp.fn_calvin_cycle_87 X)) (= _let_72 (tptp.fn_calvin_cycle_67 X)) (= _let_71 (tptp.fn_calvin_cycle_89 X)) (= _let_70 (tptp.fn_calvin_cycle_39 X)) (= _let_69 (tptp.fn_calvin_cycle_77 X)) (= _let_60 _let_17) (= _let_68 (tptp.fn_calvin_cycle_68 X)) (= _let_67 (tptp.fn_calvin_cycle_84 X)) (= _let_66 _let_22) (= _let_65 _let_20) (= _let_3 (tptp.fn_calvin_cycle_73 X)) (= _let_64 (tptp.fn_calvin_cycle_70 X)) (= _let_63 (tptp.fn_calvin_cycle_75 X)) (= _let_62 (tptp.fn_calvin_cycle_57 X)) (= _let_61 _let_19) (= _let_61 _let_18) (= _let_60 _let_16) (= _let_45 _let_10) (= _let_45 _let_9) (= _let_46 _let_14) (= _let_46 _let_13) (= (tptp.fn_eukaryotic_calvin_cycle_12 X) _let_59) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_12 _let_5) (= _let_50 _let_49) (= _let_8 _let_5) (= _let_45 _let_6) (= _let_12 _let_4) (= _let_31 _let_7) (= _let_48 _let_47) (= _let_46 _let_11) (= _let_45 _let_7) (= _let_44 _let_43) (= _let_42 _let_41) (= (tptp.fn_eukaryotic_calvin_cycle_13 X) _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_6) (= _let_8 _let_4) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_5) (= _let_4 _let_4) (= _let_4 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_6) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_30 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_16 X))) (let ((_let_3 (tptp.fn_attach_2 _let_2))) (let ((_let_4 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_5 (tptp.fn_plasma_membrane_66 _let_4))) (let ((_let_6 (tptp.fn_cell_27 X))) (let ((_let_7 (tptp.fn_plasma_membrane_65 _let_4))) (let ((_let_8 (tptp.fn_biomembrane_41 _let_4))) (let ((_let_9 (tptp.fn_plasma_membrane_55 _let_4))) (let ((_let_10 (tptp.fn_plasma_membrane_3 _let_4))) (let ((_let_11 (tptp.fn_plasma_membrane_4 _let_4))) (let ((_let_12 (tptp.fn_attach_1 _let_2))) (let ((_let_13 (tptp.fn_plasma_membrane_71 _let_4))) (let ((_let_14 (tptp.fn_biomembrane_63 _let_4))) (let ((_let_15 (tptp.fn_cell_26 X))) (let ((_let_16 (tptp.fn_eukaryotic_cell_54 X))) (let ((_let_17 (tptp.fn_telomere_3 _let_16))) (let ((_let_18 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_19 (tptp.fn_nucleus_6 _let_18))) (let ((_let_20 (tptp.fn_cell_25 X))) (let ((_let_21 (tptp.fn_telomere_1 _let_16))) (let ((_let_22 (tptp.fn_eukaryotic_cell_30 X))) (let ((_let_23 (tptp.fn_eukaryotic_chromosome_5 _let_22))) (let ((_let_24 (tptp.fn_eukaryotic_cell_40 X))) (let ((_let_25 (tptp.fn_glycolipid_4 _let_24))) (let ((_let_26 (tptp.fn_eukaryotic_cell_37 X))) (let ((_let_27 (tptp.fn_biomembrane_71 _let_26))) (let ((_let_28 (tptp.fn_lipid_14 _let_24))) (let ((_let_29 (tptp.fn_glycolipid_13 _let_24))) (let ((_let_30 (tptp.fn_glycolipid_7 _let_24))) (let ((_let_31 (tptp.fn_eukaryotic_cell_20 X))) (let ((_let_32 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_31))) (let ((_let_33 (tptp.fn_eukaryotic_cell_58 X))) (let ((_let_34 (tptp.fn_hold_2 _let_33))) (let ((_let_35 (tptp.fn_eukaryotic_cell_19 X))) (let ((_let_36 (tptp.fn_endoplasmic_reticulum_14 _let_35))) (let ((_let_37 (tptp.fn_eukaryotic_cell_33 X))) (let ((_let_38 (tptp.fn_mitochondrial_dna_26 _let_37))) (let ((_let_39 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_31))) (let ((_let_40 (tptp.fn_endoplasmic_reticulum_11 _let_35))) (let ((_let_41 (tptp.fn_eukaryotic_cell_23 X))) (let ((_let_42 (tptp.fn_metabolic_pathway_1 _let_41))) (let ((_let_43 (tptp.fn_eukaryotic_cell_32 X))) (let ((_let_44 (tptp.fn_cellular_work_2 _let_43))) (let ((_let_45 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_46 (tptp.fn_mitochondrion_51 _let_45))) (let ((_let_47 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_31))) (let ((_let_48 (tptp.fn_cell_14 X))) (let ((_let_49 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_31))) (let ((_let_50 (tptp.fn_cell_29 X))) (let ((_let_51 (tptp.fn_eukaryotic_cell_39 X))) (let ((_let_52 (tptp.fn_er_membrane_33 _let_51))) (let ((_let_53 (tptp.fn_er_membrane_32 _let_51))) (let ((_let_54 (tptp.fn_endoplasmic_reticulum_25 _let_31))) (let ((_let_55 (tptp.fn_eukaryotic_cell_34 X))) (let ((_let_56 (tptp.fn_exchange_4 _let_55))) (let ((_let_57 (tptp.fn_rough_endoplasmic_reticulum_55 _let_35))) (let ((_let_58 (tptp.fn_exchange_3 _let_55))) (let ((_let_59 (tptp.fn_eukaryotic_cell_46 X))) (let ((_let_60 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_61 (tptp.fn_eukaryotic_cell_50 X))) (let ((_let_62 (tptp.fn_eukaryotic_cell_47 X))) (let ((_let_63 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_64 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_65 (tptp.fn_eukaryotic_cell_49 X))) (let ((_let_66 (tptp.fn_plasma_membrane_34 _let_4))) (let ((_let_67 (tptp.fn_eukaryotic_cell_43 X))) (let ((_let_68 (tptp.fn_eukaryotic_cell_41 X))) (let ((_let_69 (tptp.fn_plasma_membrane_6 _let_4))) (let ((_let_70 (tptp.fn_eukaryotic_cell_48 X))) (let ((_let_71 (tptp.fn_chromosome_4 _let_22))) (let ((_let_72 (tptp.fn_eukaryotic_cell_56 X))) (let ((_let_73 (tptp.fn_chromosome_8 _let_22))) (let ((_let_74 (tptp.fn_eukaryotic_cell_51 X))) (let ((_let_75 (tptp.fn_chromosome_3 _let_22))) (let ((_let_76 (tptp.fn_eukaryotic_cell_55 X))) (let ((_let_77 (tptp.fn_chromosome_6 _let_22))) (let ((_let_78 (tptp.fn_eukaryotic_cell_53 X))) (let ((_let_79 (tptp.fn_eukaryotic_cell_52 X))) (let ((_let_80 (tptp.fn_eukaryotic_chromosome_4 _let_22))) (let ((_let_81 (tptp.fn_eukaryotic_cell_17 X))) (let ((_let_82 (tptp.fn_eukaryotic_cell_18 X))) (let ((_let_83 (tptp.fn_biomembrane_29 _let_26))) (let ((_let_84 (tptp.fn_organelle_1 _let_45))) (let ((_let_85 (tptp.fn_eukaryotic_cell_22 X))) (let ((_let_86 (tptp.fn_nucleus_13 _let_18))) (let ((_let_87 (tptp.fn_eukaryotic_cell_45 X))) (let ((_let_88 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_89 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_31))) (let ((_let_90 (tptp.fn_eukaryotic_cell_24 X))) (let ((_let_91 (tptp.fn_smooth_endoplasmic_reticulum_12 _let_31))) (let ((_let_92 (tptp.fn_eukaryotic_cell_61 X))) (let ((_let_93 (tptp.fn_eukaryotic_cell_27 X))) (let ((_let_94 (tptp.fn_eukaryotic_cell_59 X))) (let ((_let_95 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_96 (tptp.fn_eukaryotic_cell_13 X))) (let ((_let_97 (tptp.fn_eukaryotic_cell_14 X))) (let ((_let_98 (tptp.fn_eukaryotic_cell_44 X))) (let ((_let_99 (tptp.fn_eukaryotic_cell_21 X))) (let ((_let_100 (tptp.fn_eukaryotic_cell_38 X))) (let ((_let_101 (tptp.fn_eukaryotic_cell_36 X))) (let ((_let_102 (tptp.fn_eukaryotic_cell_35 X))) (let ((_let_103 (tptp.fn_semiautonomous_organelle_2 _let_45))) (let ((_let_104 (tptp.fn_hold_1 _let_33))) (let ((_let_105 (tptp.fn_eukaryotic_cell_57 X))) (let ((_let_106 (tptp.fn_eukaryotic_cell_1 X))) (let ((_let_107 (tptp.fn_eukaryotic_cell_4 X))) (let ((_let_108 (tptp.fn_eukaryotic_cell_2 X))) (let ((_let_109 (tptp.fn_eukaryotic_cell_3 X))) (let ((_let_110 (tptp.fn_eukaryotic_cell_10 X))) (let ((_let_111 (tptp.fn_eukaryotic_cell_9 X))) (let ((_let_112 (tptp.fn_eukaryotic_cell_6 X))) (let ((_let_113 (tptp.fn_eukaryotic_cell_5 X))) (=> (tptp.eukaryotic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Cell'|) (tptp.user_description_2 X |tptp.'Eukaryotic cells contain complex structures enclosed within membranes. Almost all species of large organisms are eukaryotes, including animals, plants and fungi, although most species of eukaryotic protists are microorganisms.The defining membrane-bound structure that sets eukaryotic cells apart from prokaryotic cells is the nucleus. Eukaryotic cells are typically much larger than prokaryotes'|) (tptp.concept2words_2 X |tptp.'eukaryotic cell'|) (tptp.concept2words_2 X |tptp.'eukaryotic-cell'|) (tptp.cell_1 X) (tptp.chemiosmosis_1 _let_106) (tptp.dna_polymerase_ii_1 _let_108) (tptp.dna_polymerase_iii_1 _let_109) (tptp.dna_polymerase_i_1 _let_107) (tptp.quantity_value_1 _let_113) (tptp.quantity_value_1 _let_112) (tptp.chromosome_arm_1 _let_111) (tptp.chromosome_arm_1 _let_110) (tptp.length_value_1 _let_96) (tptp.length_value_1 _let_97) (tptp.spatial_entity_1 _let_63) (tptp.membrane_protein_1 _let_63) (tptp.tangible_entity_1 _let_63) (tptp.transmembrane_protein_1 _let_63) (tptp.integral_protein_1 _let_63) (tptp.transport_protein_1 _let_63) (tptp.attach_1 _let_2) (tptp.carbon_skeleton_1 _let_81) (tptp.chemical_entity_1 _let_82) (tptp.entity_1 _let_82) (tptp.atom_1 _let_82) (tptp.carbon_1 _let_82) (tptp.rough_endoplasmic_reticulum_1 _let_35) (tptp.smooth_endoplasmic_reticulum_1 _let_31) (tptp.protein_enzyme_1 _let_99) (tptp.inner_membrane_1 _let_85) (tptp.eukaryotic_cellular_respiration_1 _let_41) (tptp.golgi_apparatus_1 _let_90) (tptp.semiautonomous_organelle_1 _let_45) (tptp.mitochondrion_1 _let_45) (tptp.organelle_1 _let_45) (tptp.tangible_entity_1 _let_18) (tptp.nucleus_1 _let_18) (tptp.size_value_1 _let_93) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.eukaryotic_chromosome_1 _let_22) (tptp.chromosome_1 _let_22) (tptp.mixture_1 _let_95) (tptp.cytoplasm_1 _let_95) (tptp.cellular_work_1 _let_43) (tptp.dna_1 _let_37) (tptp.mitochondrial_dna_1 _let_37) (tptp.exchange_1 _let_55) (tptp.transfer_1 _let_102) (tptp.transfer_1 _let_101) (tptp.nuclear_membrane_1 _let_26) (tptp.biomembrane_1 _let_26) (tptp.aqueous_solution_1 _let_100) (tptp.er_membrane_1 _let_51) (tptp.lipid_1 _let_24) (tptp.glycolipid_1 _let_24) (tptp.tangible_entity_1 _let_68) (tptp.phospholipid_bilayer_1 _let_68) (tptp.substance_1 _let_88) (tptp.cytosol_1 _let_88) (tptp.glycoprotein_1 _let_67) (tptp.surface_1 _let_98) (tptp.ribosome_1 _let_87) (tptp.eukaryotic_ribosome_1 _let_87) (tptp.surface_1 _let_59) (tptp.cytoplasmic_side_1 _let_59) (tptp.outside_face_1 _let_62) (tptp.extracellular_side_1 _let_62) (tptp.hydrophobic_core_1 _let_70) (tptp.tangible_entity_1 _let_65) (tptp.membrane_protein_1 _let_65) (tptp.protein_1 _let_65) (tptp.tangible_entity_1 _let_61) (tptp.membrane_protein_1 _let_61) (tptp.protein_1 _let_61) (tptp.spatial_entity_1 _let_61) (tptp.polymer_1 _let_61) (tptp.coil_1 _let_74) (tptp.end_1 _let_79) (tptp.centromere_1 _let_78) (tptp.telomere_1 _let_16) (tptp.protein_1 _let_76) (tptp.entity_1 _let_72) (tptp.dna_1 _let_72) (tptp.intermediate_filament_1 _let_105) (tptp.hold_1 _let_33) (tptp.volume_value_1 _let_94) (tptp.peroxisome_1 _let_92) (tptp.tangible_entity_1 _let_104) (tptp.dna_1 _let_103) (tptp.peroxisome_1 _let_91) (tptp.golgi_apparatus_1 _let_89) (tptp.nuclear_membrane_1 _let_86) (tptp.biomembrane_1 _let_86) (tptp.biomembrane_1 _let_84) (tptp.glycolipid_1 _let_83) (tptp.telomere_1 _let_80) (tptp.centromere_1 _let_77) (tptp.protein_1 _let_75) (tptp.coil_1 _let_73) (tptp.entity_1 _let_71) (tptp.dna_1 _let_71) (tptp.hydrophobic_core_1 _let_69) (tptp.glycoprotein_1 _let_66) (tptp.tangible_entity_1 _let_64) (tptp.membrane_protein_1 _let_64) (tptp.protein_1 _let_64) (tptp.tangible_entity_1 _let_60) (tptp.membrane_protein_1 _let_60) (tptp.protein_1 _let_60) (tptp.spatial_entity_1 _let_60) (tptp.polymer_1 _let_60) (tptp.transfer_1 _let_58) (tptp.transfer_1 _let_57) (tptp.transfer_1 _let_56) (tptp.transfer_1 _let_54) (tptp.aqueous_solution_1 _let_53) (tptp.aqueous_solution_1 _let_52) (tptp.substance_1 _let_49) (tptp.cytosol_1 _let_49) (tptp.eukaryotic_ribosome_1 _let_47) (tptp.eukaryotic_cell_1 _let_46) (tptp.cell_1 _let_44) (tptp.cell_1 _let_42) (tptp.eukaryotic_cell_1 _let_40) (tptp.cell_1 _let_40) (tptp.eukaryotic_cell_1 _let_39) (tptp.cell_1 _let_39) (tptp.mitochondrion_1 _let_38) (tptp.mitochondrion_1 _let_36) 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_let_78 _let_110) (tptp.abuts_2 _let_51 _let_26) (tptp.is_inside_2 _let_100 _let_51) (tptp.abuts_2 _let_26 _let_51) (tptp.recipient_2 _let_101 _let_35) (tptp.recipient_2 _let_102 _let_31) (tptp.quantity_2 _let_37 _let_112) (tptp.greater_than_or_equal_to_2 _let_113 _let_112) (tptp.greater_than_2 _let_113 _let_112) (tptp.is_between_2 _let_95 _let_4) (tptp.is_between_2 _let_95 _let_18) (tptp.has_part_2 _let_22 _let_111) (tptp.has_part_2 _let_22 _let_110) (tptp.the_scalar_value_2 _let_93 tptp.big_0) (tptp.scalar_unit_class_2 _let_93 tptp.prokaryote_0) (tptp.has_function_2 X _let_43) (tptp.has_function_2 X _let_41) (tptp.has_part_2 X _let_109) (tptp.has_part_2 X _let_108) (tptp.has_part_2 X _let_107) (tptp.is_inside_2 _let_45 _let_88) (tptp.site_2 _let_106 _let_85) (tptp.is_inside_2 _let_99 _let_51) (not (= _let_31 _let_35)) (tptp.abuts_2 _let_31 _let_35) (not (= _let_35 _let_31)) (tptp.abuts_2 _let_35 _let_31) (tptp.the_cardinal_value_2 _let_97 |"10.0e0"|) (tptp.cardinal_unit_class_2 _let_97 tptp.micrometer_0) (tptp.object_2 _let_2 _let_63) (tptp.agent_2 _let_33 _let_105) (tptp.base_2 _let_2 _let_4) (tptp.object_2 _let_33 _let_18) (tptp.has_part_2 X _let_22) (tptp.base_2 _let_43 X) (tptp.base_2 _let_41 X) (tptp.has_part_2 _let_45 _let_37) (tptp.subevent_2 _let_55 _let_102) (tptp.subevent_2 _let_55 _let_101) (tptp.donor_2 _let_102 _let_35) (tptp.agent_2 _let_101 _let_31) (tptp.is_between_2 _let_51 _let_100) (tptp.has_part_2 X _let_35) (tptp.has_part_2 X _let_45) (tptp.has_part_2 X _let_4) (tptp.has_part_2 _let_95 _let_99) (tptp.has_region_2 X _let_98) (tptp.is_at_2 _let_68 _let_98) (tptp.is_oriented_toward_2 _let_59 _let_95) (tptp.is_facing_2 _let_59 _let_95) (tptp.has_part_2 _let_95 _let_88) (tptp.diameter_2 X _let_96) (tptp.greater_than_or_equal_to_2 _let_96 _let_97) (tptp.size_2 X _let_93) (tptp.directly_proportional_2 _let_93 _let_94) (tptp.volume_2 X _let_94) (tptp.has_part_2 X _let_95) (tptp.is_inside_2 _let_95 _let_4) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_31) (tptp.has_part_2 X _let_87) (tptp.is_inside_2 _let_87 _let_88) (tptp.is_inside_2 _let_90 _let_88) (tptp.has_part_2 X _let_90) (tptp.has_part_2 _let_18 _let_26) (not (= _let_63 _let_61)) (not (= _let_61 _let_63)) (tptp.has_region_2 _let_4 _let_70) (tptp.is_across_2 _let_63 _let_70) (tptp.has_part_2 _let_4 _let_63) (not (= _let_61 _let_65)) (not (= _let_65 _let_61)) (tptp.is_inside_2 _let_63 _let_68) (tptp.has_part_2 _let_4 _let_68) (tptp.has_part_2 _let_4 _let_61) (tptp.is_inside_2 _let_67 _let_68) (tptp.has_part_2 _let_4 _let_67) (tptp.is_outside_2 _let_62 _let_4) (tptp.has_region_2 _let_63 _let_62) (tptp.is_across_2 _let_63 _let_4) (tptp.called_2 _let_65 |tptp.'MP1'|) (tptp.has_part_2 _let_4 _let_65) (tptp.is_at_2 _let_63 _let_4) (tptp.has_region_2 _let_4 _let_62) (tptp.called_2 _let_61 |tptp.'MP2'|) (tptp.has_region_2 _let_4 _let_59) (tptp.has_region_2 _let_22 _let_78) (tptp.has_part_2 _let_22 _let_76) (tptp.agent_2 _let_74 _let_76) (tptp.object_2 _let_74 _let_72) (tptp.has_part_2 _let_22 _let_72) (tptp.has_part_2 _let_22 _let_16) (tptp.has_region_2 _let_22 _let_79) (tptp.is_at_2 _let_16 _let_79) (tptp.has_part_2 _let_24 _let_82) (tptp.is_inside_2 _let_82 _let_81) (tptp.has_region_2 _let_24 _let_81) (tptp.is_inside_2 _let_22 _let_18) (tptp.has_part_2 _let_26 _let_24) (tptp.is_inside_2 _let_81 _let_26) (tptp.has_part_2 _let_45 _let_85) (= _let_63 _let_12) (= _let_105 _let_104) (= _let_4 _let_3) (= _let_18 _let_34) (= _let_22 _let_20) (= X _let_44) (= X _let_42) (= _let_37 _let_103) (= _let_45 _let_38) (= _let_102 _let_58) (= _let_101 _let_56) (= _let_102 _let_57) (= _let_101 _let_54) (= _let_100 _let_53) (= _let_100 _let_52) (= X _let_46) (= _let_45 _let_36) (= X _let_40) (= (tptp.fn_eukaryotic_cell_28 X) (tptp.fn_cell_10 X)) (= _let_99 (tptp.fn_cell_9 X)) (= (tptp.fn_eukaryotic_cell_12 X) (tptp.fn_cell_17 X)) (= (tptp.fn_eukaryotic_cell_60 X) (tptp.fn_cell_23 X)) (= _let_68 _let_15) (= _let_98 (tptp.fn_cell_4 X)) (= _let_59 _let_6) (= (tptp.fn_eukaryotic_cell_11 X) (tptp.fn_cell_16 X)) (= _let_97 (tptp.fn_cell_19 X)) (= _let_96 (tptp.fn_cell_18 X)) (= _let_4 _let_1) (= _let_95 (tptp.fn_cell_28 X)) (= _let_94 (tptp.fn_cell_22 X)) (= _let_93 (tptp.fn_cell_11 X)) (= _let_18 _let_32) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_50) (= _let_88 _let_49) (= _let_87 _let_48) (= _let_87 _let_47) (= X _let_39) (= _let_26 _let_86) (= _let_85 _let_84) (= _let_24 _let_83) (= _let_81 _let_27) (= _let_22 _let_19) (= _let_82 _let_30) (= _let_82 _let_29) (= _let_81 _let_28) (= _let_81 _let_25) (= _let_22 _let_17) (= _let_16 _let_80) (= _let_79 _let_23) (= _let_79 _let_21) (= _let_78 _let_77) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_72 _let_71) (= _let_70 _let_69) (= _let_68 _let_14) (= _let_68 _let_13) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_63 _let_11) (= _let_63 _let_10) (= _let_63 _let_9) (= _let_62 _let_8) (= _let_62 _let_7) (= _let_61 _let_60) (= _let_59 _let_5) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_44) (= _let_44 _let_46) (= _let_46 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_21 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.experiencer_2 X X1) (tptp.cell_cycle_1 X) (tptp.eukaryote_1 X1)) (and (tptp.eukaryotic_cell_cycle_1 X) (= (tptp.fn_eukaryotic_cell_cycle_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_cell_cycle_3 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_cycle_1 X))) (=> (tptp.eukaryotic_cell_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Cell-Cycle'|) (tptp.user_description_2 X |tptp.'An ordered sequence of events in the life of a cell, from its origin in the division of a parent cell until its own division into two. The eukaryotic cell cycle is composed of interphase, (including G1, S & G2 subphases) and M phase (including mitosis and cytokinesis).'|) (tptp.concept2words_2 X |tptp.'undergo the eukaryotic cell cycle'|) (tptp.concept2words_2 X |tptp.'eukaryotic cell cycle'|) (tptp.concept2words_2 X |tptp.'eukaryotic-cell-cycle'|) (tptp.cell_cycle_1 X) (not (tptp.gametogenesis_1 X)) (not (tptp.prokaryotic_cell_cycle_1 X)) (tptp.eukaryote_1 _let_2) (tptp.eukaryotic_cell_1 _let_1) (tptp.experiencer_2 X _let_2) (tptp.base_2 X _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_cell_cycle_4 X))))))) (forall ((X $$unsorted)) (=> (tptp.eukaryotic_cell_structure_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Cell-Structure'|) (tptp.user_description_2 X |tptp.'A structure at the cellular level found in Eukaryotes.'|) (tptp.concept2words_2 X |tptp.'structure of eukaryote'|) (tptp.concept2words_2 X |tptp.'structure-of-eukaryote'|) (tptp.concept2words_2 X |tptp.'eukaryote structure'|) (tptp.concept2words_2 X |tptp.'eukaryote-structure'|) (tptp.concept2words_2 X |tptp.'eukaryotic cell structure'|) (tptp.concept2words_2 X |tptp.'eukaryotic-cell-structure'|) (tptp.cellular_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_cellular_respiration_15 X))) (let ((_let_2 (tptp.fn_synthesis_of_atp_6 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cellular_respiration_100 X))) (let ((_let_4 (tptp.fn_chemiosmosis_34 _let_3))) (let ((_let_5 (tptp.fn_synthesis_of_atp_13 _let_1))) (let ((_let_6 (tptp.fn_chemiosmosis_100 _let_3))) (let ((_let_7 (tptp.fn_eukaryotic_cellular_respiration_96 X))) (let ((_let_8 (tptp.fn_eukaryotic_oxidative_phosphorylation_336 _let_7))) (let ((_let_9 (tptp.fn_synthesis_of_organic_molecule_1 _let_1))) (let ((_let_10 (tptp.fn_eukaryotic_cellular_respiration_82 X))) (let ((_let_11 (tptp.fn_glycolysis_75 _let_10))) (let ((_let_12 (tptp.fn_eukaryotic_cellular_respiration_95 X))) (let ((_let_13 (tptp.fn_citric_acid_cycle_19 _let_12))) (let ((_let_14 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_let_373) (tptp.base_2 _let_373 _let_63) (tptp.has_part_2 _let_63 _let_374) (not (= _let_374 _let_265)) (not (= _let_265 _let_374)) (tptp.raw_material_2 _let_12 _let_63) (tptp.plays_2 _let_63 _let_371) (tptp.in_event_2 _let_371 _let_12) (tptp.raw_material_2 _let_12 _let_53) (tptp.possesses_2 _let_53 _let_356) (tptp.has_function_2 _let_343 _let_10) (tptp.result_2 _let_366 _let_241) (tptp.raw_material_2 _let_10 _let_364) (tptp.raw_material_2 _let_10 _let_347) (tptp.raw_material_2 _let_368 _let_276) (tptp.result_2 _let_368 _let_74) (not (= _let_362 _let_74)) (not (= _let_74 _let_362)) (tptp.raw_material_2 _let_366 _let_364) (tptp.raw_material_2 _let_366 _let_310) (tptp.raw_material_2 _let_10 _let_310) (tptp.result_2 _let_10 _let_256) (tptp.possesses_2 _let_256 _let_348) (tptp.result_2 _let_10 _let_241) (not (= _let_241 _let_364)) (not (= _let_364 _let_310)) (not (= _let_310 _let_241)) (not (= _let_241 _let_310)) (not (= _let_364 _let_241)) (not (= _let_310 _let_364)) (tptp.possesses_2 _let_276 _let_356) (tptp.quantity_2 _let_356 _let_350) (tptp.greater_than_or_equal_to_2 _let_350 _let_349) (not (= _let_362 _let_276)) (not (= _let_276 _let_362)) (tptp.raw_material_2 _let_10 _let_276) (tptp.structural_complexity_2 _let_276 _let_360) (tptp.greater_than_2 _let_360 _let_353) (tptp.structural_complexity_2 _let_74 _let_353) (not (= _let_74 _let_361)) (not (= _let_361 _let_74)) (tptp.possesses_2 _let_63 _let_356) (tptp.structural_complexity_2 _let_63 _let_352) (tptp.greater_than_2 _let_353 _let_352) (tptp.possesses_2 _let_74 _let_348) (tptp.quantity_2 _let_348 _let_349) (tptp.greater_than_2 _let_350 _let_349) (not (= _let_276 _let_74)) (not (= _let_74 _let_276)) (tptp.called_2 _let_235 |tptp.'FE_r'|) (tptp.greater_than_2 _let_238 _let_235) (tptp.quantity_2 _let_245 _let_238) (tptp.possesses_2 _let_241 _let_245) (tptp.result_2 _let_1 _let_241) (tptp.greater_than_2 _let_232 _let_242) (tptp.structural_complexity_2 _let_241 _let_232) (tptp.called_2 _let_238 |tptp.'FE_p'|) (tptp.quantity_2 _let_236 _let_235) (tptp.is_opposite_2 _let_252 _let_255) (tptp.is_opposite_2 _let_255 _let_252) (tptp.has_region_2 _let_27 _let_255) (tptp.has_region_2 _let_27 _let_253) (tptp.is_at_2 _let_252 _let_253) (tptp.has_region_2 _let_27 _let_252) (tptp.path_2 _let_250 _let_249) (tptp.has_region_2 _let_27 _let_249) (tptp.element_2 _let_27 _let_248) (tptp.is_inside_2 _let_27 _let_247) (tptp.element_2 _let_27 _let_246) (tptp.has_reduced_form_2 _let_53 _let_256) (tptp.has_oxidized_form_2 _let_256 _let_53) (not (= _let_53 _let_256)) (not (= _let_256 _let_53)) (tptp.has_state_2 _let_53 _let_256) (tptp.has_state_2 _let_256 _let_53) (tptp.object_2 _let_269 _let_63) (tptp.speed_2 _let_269 _let_258) (tptp.directly_proportional_2 _let_258 _let_261) (tptp.quantity_2 _let_267 _let_261) (tptp.possesses_2 _let_63 _let_267) (tptp.has_part_2 _let_63 _let_265) (tptp.is_inside_2 _let_265 _let_264) (tptp.has_region_2 _let_63 _let_264) (tptp.object_2 _let_288 _let_74) (tptp.speed_2 _let_288 _let_271) (tptp.directly_proportional_2 _let_271 _let_274) (tptp.quantity_2 _let_286 _let_274) (tptp.possesses_2 _let_74 _let_286) (not (= _let_284 _let_280)) (not (= _let_280 _let_284)) (tptp.has_part_2 _let_74 _let_284) (tptp.agent_2 _let_282 _let_74) (tptp.has_function_2 _let_74 _let_282) (tptp.has_oxidized_form_2 _let_74 _let_276) (tptp.has_reduced_form_2 _let_276 _let_74) (tptp.has_part_2 _let_74 _let_280) (tptp.has_region_2 _let_74 _let_278) (tptp.is_inside_2 _let_280 _let_278) (tptp.has_state_2 _let_276 _let_74) (tptp.has_state_2 _let_74 _let_276) (tptp.instrument_2 _let_296 _let_302) (tptp.has_region_2 _let_293 _let_302) (tptp.element_2 _let_300 _let_293) (tptp.has_region_2 _let_299 _let_300) (tptp.has_part_2 _let_18 _let_299) (tptp.is_along_2 _let_298 _let_292) (tptp.is_along_2 _let_292 _let_298) (tptp.is_inside_2 _let_298 _let_33) (tptp.has_region_2 _let_25 _let_298) (tptp.has_part_2 _let_25 _let_18) (tptp.has_function_2 _let_33 _let_250) (tptp.is_outside_2 _let_33 _let_298) (tptp.is_inside_2 _let_297 _let_298) (tptp.is_between_2 _let_33 _let_297) (tptp.has_part_2 _let_18 _let_33) (tptp.called_2 _let_296 |"1"|) (tptp.has_function_2 _let_18 _let_296) (tptp.has_region_2 _let_18 _let_295) (tptp.is_between_2 _let_295 _let_33) (tptp.base_2 _let_250 _let_33) (tptp.called_2 _let_293 |tptp.'P1'|) (tptp.has_part_2 _let_33 _let_292) (tptp.is_impermeable_to_2 _let_33 _let_291) (tptp.has_part_2 _let_33 _let_247) (tptp.is_impermeable_to_2 _let_33 _let_290) (tptp.has_part_2 _let_33 _let_27) (tptp.is_impermeable_to_2 _let_33 _let_289) (tptp.has_region_2 _let_33 _let_253) (not (= _let_313 _let_308)) (not (= _let_308 _let_309)) (not (= _let_309 _let_308)) (not (= _let_308 _let_313)) (tptp.subevent_2 _let_314 _let_308) (tptp.subevent_2 _let_3 _let_314) (tptp.object_2 _let_250 _let_321) (tptp.next_event_2 _let_308 _let_250) (tptp.causes_2 _let_308 _let_320) (tptp.base_2 _let_320 _let_27) (tptp.base_2 _let_308 _let_27) (not (= _let_309 _let_313)) (tptp.object_2 _let_309 _let_246) (tptp.next_event_2 _let_313 _let_309) (tptp.causes_2 _let_313 _let_309) (not (= _let_313 _let_309)) (tptp.first_subevent_2 _let_314 _let_313) (tptp.is_hypertonic_to_2 _let_311 _let_305) (tptp.is_hypotonic_to_2 _let_305 _let_311) (tptp.has_part_2 _let_311 _let_317) (tptp.object_2 _let_303 _let_317) (tptp.subevent_2 _let_3 _let_303) (tptp.structural_complexity_2 _let_310 _let_242) (tptp.raw_material_2 _let_1 _let_310) (tptp.subevent_2 _let_3 _let_1) (tptp.agent_2 _let_3 _let_27) (tptp.object_2 _let_314 _let_27) (tptp.raw_material_2 _let_3 _let_310) (tptp.causes_2 _let_3 _let_318) (tptp.causes_2 _let_303 _let_318) (tptp.origin_2 _let_303 _let_311) (tptp.has_solute_2 _let_311 _let_317) (tptp.base_2 _let_316 _let_27) (tptp.causes_2 _let_315 _let_316) (tptp.base_2 _let_315 _let_27) (tptp.result_2 _let_314 _let_27) (tptp.result_2 _let_3 _let_241) (tptp.first_subevent_2 _let_3 _let_303) (tptp.called_2 _let_313 |"2"|) (tptp.subevent_2 _let_314 _let_313) (tptp.object_2 _let_308 _let_248) (tptp.subevent_2 _let_303 _let_308) (tptp.origin_2 _let_312 _let_311) (tptp.possesses_2 _let_310 _let_236) (tptp.called_2 _let_309 |"3"|) (tptp.called_2 _let_308 |"1"|) (tptp.has_region_2 _let_246 _let_307) (tptp.causes_2 _let_3 _let_306) (tptp.destination_2 _let_303 _let_305) (tptp.object_2 _let_303 _let_304) (tptp.subevent_2 _let_303 _let_250) (tptp.result_2 _let_60 _let_63) (tptp.result_2 _let_325 _let_63) (tptp.subevent_2 _let_60 _let_325) (tptp.first_subevent_2 _let_60 _let_323) (tptp.subevent_2 _let_60 _let_323) (tptp.result_2 _let_60 _let_74) (tptp.origin_2 _let_329 _let_311) (tptp.result_2 _let_329 _let_330) (tptp.agent_2 _let_3 _let_330) (tptp.raw_material_2 _let_3 _let_330) (tptp.raw_material_2 _let_7 _let_330) (not (= _let_289 _let_304)) (not (= _let_311 _let_305)) (not (= _let_305 _let_311)) (not (= _let_304 _let_289)) (tptp.is_permeable_to_2 _let_33 _let_304) (tptp.is_outside_2 _let_311 _let_33) (tptp.causes_2 _let_331 _let_308) (tptp.subevent_2 _let_303 _let_331) (tptp.object_2 _let_303 _let_321) (tptp.object_2 _let_312 _let_321) (tptp.destination_2 _let_312 _let_305) (not (= _let_304 _let_291)) (not (= _let_291 _let_304)) (not (= _let_304 _let_290)) (not (= _let_290 _let_304)) (tptp.called_2 _let_304 |"1"|) (tptp.object_2 _let_306 _let_321) (tptp.object_2 _let_329 _let_321) (tptp.agent_2 _let_329 _let_27) (tptp.is_across_2 _let_27 _let_33) (tptp.path_2 _let_312 _let_33) (tptp.has_function_2 _let_27 _let_7) (tptp.base_2 _let_309 _let_27) (tptp.subevent_2 _let_314 _let_309) (tptp.subevent_2 _let_314 _let_315) (tptp.causes_2 _let_308 _let_315) (tptp.is_inside_2 _let_305 _let_33) (tptp.is_between_2 _let_248 _let_305) (tptp.is_between_2 _let_248 _let_311) (tptp.origin_2 _let_327 _let_311) (tptp.destination_2 _let_327 _let_305) (tptp.result_2 _let_328 _let_330) (tptp.subevent_2 _let_7 _let_328) (tptp.has_function_2 _let_25 _let_7) (tptp.site_2 _let_3 _let_25) (tptp.subevent_2 _let_7 _let_3) (tptp.raw_material_2 _let_7 _let_310) (tptp.agent_2 _let_7 _let_27) (tptp.has_function_2 _let_27 _let_303) (tptp.path_2 _let_303 _let_33) (tptp.path_2 _let_327 _let_33) (tptp.is_inside_2 _let_305 _let_248) (tptp.destination_2 _let_329 _let_305) (tptp.path_2 _let_329 _let_33) (tptp.result_2 _let_7 _let_241) (tptp.first_subevent_2 _let_7 _let_328) (tptp.next_event_2 _let_328 _let_3) (tptp.called_2 _let_249 |tptp.'HC1'|) (tptp.facilitates_2 _let_249 _let_303) (tptp.agent_2 _let_312 _let_27) (tptp.agent_2 _let_327 _let_27) (tptp.has_part_2 _let_317 _let_321) (tptp.object_2 _let_327 _let_321) (tptp.facilitates_2 _let_246 _let_7) (tptp.site_2 _let_7 _let_25) (tptp.object_2 _let_318 _let_304) (tptp.next_event_2 _let_332 _let_308) (tptp.next_event_2 _let_308 _let_332) (tptp.causes_2 _let_308 _let_313) (tptp.base_2 _let_313 _let_27) (tptp.subevent_2 _let_314 _let_316) (tptp.subevent_2 _let_314 _let_320) (tptp.causes_2 _let_320 _let_334) (tptp.base_2 _let_334 _let_27) (tptp.is_between_2 _let_333 _let_305) (tptp.is_between_2 _let_333 _let_311) (tptp.origin_2 _let_332 _let_311) (tptp.agent_2 _let_303 _let_333) (tptp.first_subevent_2 _let_303 _let_332) (tptp.path_2 _let_332 _let_249) (tptp.subevent_2 _let_329 _let_332) (tptp.destination_2 _let_332 _let_305) (tptp.subevent_2 _let_303 _let_332) (tptp.object_2 _let_332 _let_321) (tptp.called_2 _let_332 |tptp.'MT1'|) (tptp.greater_than_2 _let_335 _let_338) (tptp.size_2 _let_97 _let_335) (tptp.directly_proportional_2 _let_341 _let_345) (tptp.quantity_2 _let_25 _let_341) (tptp.is_inside_2 _let_343 _let_298) (tptp.has_part_2 _let_25 _let_343) (tptp.the_scalar_value_2 _let_335 tptp.big_0) (tptp.scalar_unit_class_2 _let_335 tptp.polypeptide_0) (tptp.has_part_2 _let_18 _let_97) (tptp.size_2 _let_293 _let_338) (tptp.is_permeable_to_2 _let_33 _let_321) (not (= _let_321 _let_291)) (not (= _let_291 _let_321)) (not (= _let_290 _let_321)) (not (= _let_321 _let_290)) (tptp.called_2 _let_321 |"1"|) (tptp.base_2 _let_332 _let_248) (tptp.has_function_2 _let_33 _let_332) (tptp.base_2 _let_332 _let_33) (tptp.next_event_2 _let_332 _let_331) (tptp.agent_2 _let_331 _let_321) (not (= _let_27 _let_343)) (tptp.agent_2 _let_303 _let_27) (tptp.by_means_of_2 _let_332 _let_303) (tptp.facilitates_2 _let_27 _let_332) (not (= _let_343 _let_27)) (tptp.is_at_2 _let_343 _let_33) (tptp.object_2 _let_318 _let_333) (tptp.object_2 _let_318 _let_321) (tptp.agent_2 _let_332 _let_321) (tptp.agent_2 _let_332 _let_27) (tptp.site_2 _let_7 _let_307) (tptp.has_region_2 _let_27 _let_307) (tptp.agent_2 _let_308 _let_321) (tptp.base_2 _let_3 _let_27) (not (= _let_332 _let_250)) (not (= _let_250 _let_332)) (tptp.called_2 _let_250 |tptp.'MT2'|) (tptp.is_inside_2 _let_253 _let_311) (tptp.is_between_2 _let_33 _let_311) (tptp.raw_material_2 _let_12 _let_347) (tptp.object_2 _let_68 _let_74) (= _let_361 _let_215) (= _let_361 _let_214) (= _let_361 _let_212) (= _let_321 _let_167) (= _let_377 _let_228) (= _let_330 _let_177) (= X _let_389) (= _let_347 _let_197) (= _let_347 _let_195) (= _let_256 _let_57) (= _let_7 _let_169) (= (tptp.fn_eukaryotic_cellular_respiration_158 X) (tptp.fn_cellular_respiration_11 X)) (= (tptp.fn_eukaryotic_cellular_respiration_47 X) (tptp.fn_cellular_respiration_6 X)) (= _let_388 (tptp.fn_cellular_respiration_3 X)) (= _let_348 _let_201) (= _let_387 (tptp.fn_cellular_respiration_64 X)) (= _let_256 _let_56) (= _let_60 (tptp.fn_cellular_respiration_54 X)) (= _let_241 _let_14) (= _let_386 (tptp.fn_cellular_respiration_10 X)) (= _let_385 (tptp.fn_cellular_respiration_7 X)) (= _let_375 _let_226) (= _let_53 _let_59) (= _let_12 (tptp.fn_cellular_respiration_62 X)) (= _let_10 (tptp.fn_cellular_respiration_60 X)) (= _let_74 _let_56) (= _let_378 _let_230) (= _let_384 _let_383) (= _let_382 _let_381) (= _let_68 _let_230) (= _let_380 _let_379) (= _let_378 _let_229) (= _let_74 _let_73) (= _let_377 _let_227) (= _let_74 _let_72) (= _let_376 _let_230) (= _let_241 _let_13) (= _let_74 _let_70) (= _let_348 _let_200) (= _let_375 _let_225) (= _let_372 _let_220) (= _let_372 _let_219) (= _let_372 _let_218) (= _let_265 _let_66) (= _let_265 _let_65) (= _let_374 _let_224) (= _let_374 _let_223) (= _let_372 _let_217) (= _let_373 _let_222) (= _let_373 _let_221) (= _let_372 _let_216) (= _let_356 _let_209) (= _let_53 _let_58) (= _let_371 _let_370) (= _let_63 _let_62) (= _let_343 _let_192) (= _let_343 _let_191) (= (tptp.fn_eukaryotic_cellular_respiration_115 X) _let_369) (= _let_347 _let_194) (= _let_368 _let_367) (= _let_348 _let_199) (= _let_256 _let_55) (= _let_366 _let_365) (= _let_310 _let_141) (= _let_364 _let_363) (= _let_310 _let_140) (= _let_241 _let_11) (= _let_349 _let_203) (= _let_350 _let_205) (= _let_356 _let_208) (= _let_362 _let_210) (= _let_361 _let_210) (= _let_74 _let_55) (= _let_353 _let_207) (= _let_360 _let_359) (= _let_276 _let_77) (= (tptp.fn_eukaryotic_cellular_respiration_112 X) _let_358) (= (tptp.fn_eukaryotic_cellular_respiration_113 X) _let_357) (= _let_356 _let_198) (= (tptp.fn_eukaryotic_cellular_respiration_118 X) _let_355) (= (tptp.fn_eukaryotic_cellular_respiration_81 X) _let_354) (= _let_353 _let_206) (= _let_352 _let_351) (= _let_350 _let_204) (= _let_349 _let_202) (= _let_348 _let_198) (= _let_276 _let_76) (= _let_74 _let_69) (= _let_347 _let_193) (= _let_311 _let_148) (= _let_291 _let_90) (= _let_290 _let_86) (= _let_248 _let_38) (= _let_331 _let_179) (= _let_303 _let_116) (= _let_343 _let_189) (= _let_333 _let_183) (= _let_318 _let_162) (= _let_332 _let_47) (= _let_332 _let_181) (= _let_307 _let_130) (= _let_307 _let_129) (= _let_308 _let_135) (= _let_321 _let_165) (= _let_27 _let_26) (= _let_338 _let_187) (= (tptp.fn_eukaryotic_cellular_respiration_43 X) _let_346) (= _let_345 _let_344) (= _let_343 _let_190) (= _let_343 _let_188) (= (tptp.fn_eukaryotic_cellular_respiration_44 X) _let_342) (= _let_341 _let_340) (= (tptp.fn_eukaryotic_cellular_respiration_155 X) _let_339) (= _let_338 _let_186) (= _let_97 _let_337) (= _let_335 _let_185) (= (tptp.fn_eukaryotic_cellular_respiration_154 X) _let_336) (= _let_335 _let_184) (= _let_308 _let_134) (= _let_313 _let_153) (= _let_316 _let_157) (= _let_314 _let_151) (= _let_320 _let_153) (= _let_334 _let_157) (= _let_311 _let_147) (= _let_333 _let_182) (= _let_249 _let_42) (= _let_329 _let_172) (= _let_305 _let_123) (= _let_332 _let_43) (= _let_303 _let_115) (= _let_321 _let_164) (= _let_332 _let_180) (= _let_329 _let_173) (= _let_289 _let_83) (= _let_331 _let_178) (= _let_291 _let_89) (= _let_304 _let_120) (= _let_290 _let_85) (= _let_306 _let_127) (= _let_321 _let_119) (= _let_329 _let_144) (= _let_312 _let_144) (= _let_27 _let_24) (= _let_309 _let_133) (= _let_314 _let_150) (= _let_308 _let_133) (= _let_315 _let_155) (= _let_311 _let_146) (= _let_330 _let_175) (= _let_330 _let_174) (= _let_310 _let_137) (= _let_303 _let_117) (= _let_248 _let_37) (= _let_305 _let_122) (= _let_329 _let_143) (= _let_241 _let_8) (= _let_328 _let_171) (= _let_3 _let_125) (= _let_328 _let_170) (= _let_3 _let_124) (= _let_303 _let_114) (= _let_312 _let_143) (= _let_27 _let_22) (= _let_317 _let_159) (= _let_327 _let_326) (= _let_321 _let_163) (= _let_246 _let_30) (= _let_7 _let_168) (= _let_25 _let_107) (= _let_318 _let_161) (= _let_304 _let_119) (= _let_63 _let_61) (= _let_325 _let_324) (= _let_323 _let_322) (= _let_74 _let_67) (= _let_309 _let_131) (= _let_321 _let_118) (= _let_320 _let_152) (= _let_308 _let_132) (= _let_242 _let_17) (= _let_242 _let_16) (= _let_310 _let_139) (= _let_310 _let_138) (= _let_1 _let_319) (= _let_27 _let_21) (= _let_318 _let_160) (= _let_317 _let_158) (= _let_316 _let_156) (= _let_315 _let_154) (= _let_27 _let_20) (= _let_241 _let_6) (= _let_314 _let_149) (= _let_313 _let_152) (= _let_248 _let_36) (= _let_312 _let_142) (= _let_311 _let_145) (= _let_310 _let_136) (= _let_236 _let_4) (= _let_309 _let_132) (= _let_308 _let_131) (= _let_246 _let_29) (= _let_307 _let_128) (= _let_306 _let_126) (= _let_305 _let_121) (= _let_304 _let_118) (= _let_303 _let_113) (= _let_250 _let_45) (= _let_302 _let_301) (= _let_293 _let_95) (= _let_300 _let_112) (= _let_300 _let_111) (= _let_18 _let_98) (= _let_299 _let_110) (= _let_299 _let_109) (= _let_299 _let_108) (= _let_33 _let_80) (= _let_292 _let_93) (= _let_298 _let_105) (= _let_18 _let_96) (= _let_25 _let_106) (= _let_250 _let_47) (= _let_298 _let_104) (= _let_297 _let_103) (= _let_297 _let_102) (= _let_296 _let_101) (= _let_296 _let_100) (= _let_296 _let_99) (= _let_295 _let_294) (= _let_250 _let_48) (= _let_33 _let_79) (= _let_250 _let_44) (= _let_293 _let_94) (= _let_292 _let_92) (= _let_291 _let_91) (= _let_291 _let_88) (= _let_247 _let_34) (= _let_247 _let_32) (= _let_290 _let_87) (= _let_290 _let_84) (= _let_33 _let_81) (= _let_27 _let_19) (= _let_289 _let_82) (= _let_253 _let_52) (= _let_253 _let_51) (= _let_33 _let_78) (= _let_253 _let_50) (= _let_288 _let_287) (= _let_286 _let_285) (= _let_284 _let_283) (= _let_282 _let_281) (= _let_280 _let_279) (= _let_278 _let_277) (= _let_276 _let_75) (= (tptp.fn_eukaryotic_cellular_respiration_45 X) _let_275) (= _let_274 _let_273) (= (tptp.fn_eukaryotic_cellular_respiration_46 X) _let_272) (= _let_271 _let_270) (= _let_269 _let_268) (= _let_267 _let_266) (= _let_265 _let_64) (= _let_264 _let_263) (= (tptp.fn_eukaryotic_cellular_respiration_16 X) _let_262) (= _let_261 _let_260) (= (tptp.fn_eukaryotic_cellular_respiration_17 X) _let_259) (= _let_258 _let_257) (= _let_256 _let_54) (= _let_255 _let_254) (= _let_253 _let_49) (= _let_252 _let_251) (= _let_250 _let_46) (= _let_250 _let_43) (= _let_27 _let_23) (= _let_249 _let_41) (= _let_249 _let_40) (= _let_248 _let_39) (= _let_248 _let_35) (= _let_247 _let_31) (= _let_246 _let_28) (= _let_245 _let_244) (= _let_241 _let_9) (= (tptp.fn_eukaryotic_cellular_respiration_21 X) _let_243) (= _let_242 _let_15) (= _let_241 _let_5) (= (tptp.fn_eukaryotic_cellular_respiration_18 X) _let_240) (= (tptp.fn_eukaryotic_cellular_respiration_19 X) _let_239) (= _let_238 _let_237) (= _let_236 _let_2) (= _let_235 _let_234) (= (tptp.fn_eukaryotic_cellular_respiration_20 X) _let_233) (= _let_232 _let_231) (= _let_230 _let_229) (= _let_229 _let_229) (= _let_229 _let_228) (= _let_228 _let_227) (= _let_227 _let_227) (= _let_227 _let_226) (= _let_226 _let_226) (= _let_226 _let_225) (= _let_225 _let_225) (= _let_225 _let_224) (= _let_223 _let_224) (= _let_224 _let_223) (= _let_223 _let_221) (= _let_221 _let_222) (= _let_222 _let_221) (= _let_221 _let_220) (= _let_220 _let_219) (= _let_219 _let_219) (= _let_219 _let_218) (= _let_218 _let_218) (= _let_218 _let_217) (= _let_217 _let_217) (= _let_216 _let_217) (= _let_217 _let_216) (= _let_216 _let_216) (= _let_216 _let_215) (= _let_215 _let_214) (= _let_214 _let_214) (= _let_214 _let_212) (= _let_212 _let_212) (= _let_212 _let_210) (= _let_210 _let_209) (= _let_209 _let_208) (= _let_208 _let_208) (= _let_208 _let_198) (= _let_198 _let_207) (= _let_207 _let_207) (= _let_207 _let_206) (= _let_206 _let_206) (= _let_206 _let_205) (= _let_205 _let_205) (= _let_205 _let_204) (= _let_204 _let_204) (= _let_204 _let_203) (= _let_203 _let_202) (= _let_202 _let_202) (= _let_202 _let_201) (= _let_201 _let_200) (= _let_200 _let_200) (= _let_200 _let_199) (= _let_199 _let_199) (= _let_199 _let_198) (= _let_198 _let_198) (= _let_198 _let_197) (= _let_197 _let_195) (= _let_195 _let_194) (= _let_194 _let_193) (= _let_193 _let_192) (= _let_192 _let_191) (= _let_191 _let_191) (= _let_191 _let_190) (= _let_189 _let_190) (= _let_190 _let_189) (= _let_189 _let_189) (= _let_189 _let_188) (= _let_188 _let_188) (= _let_188 _let_187) (= _let_187 _let_186) (= _let_186 _let_186) (= _let_186 _let_185) (= _let_184 _let_185) (= _let_185 _let_184) (= _let_184 _let_184) (= _let_184 _let_183) (= _let_183 _let_182) (= _let_182 _let_182) (= _let_182 _let_43) (= _let_47 _let_43) (= _let_43 _let_47) (= _let_181 _let_47) (= _let_47 _let_181) (= _let_181 _let_181) (= _let_181 _let_180) (= _let_180 _let_180) (= _let_180 _let_179) (= _let_179 _let_179) (= _let_179 _let_178) (= _let_178 _let_178) (= _let_178 _let_177) (= _let_177 _let_175) (= _let_175 _let_175) (= _let_174 _let_174) (= _let_174 _let_175) (= _let_175 _let_174) (= _let_174 _let_172) (= _let_172 _let_173) (= _let_173 _let_172) (= _let_172 _let_144) (= _let_143 _let_171) (= _let_170 _let_170) (= _let_170 _let_171) (= _let_171 _let_170) (= _let_170 _let_169) (= _let_169 _let_169) (= _let_169 _let_168) (= _let_168 _let_168) (= _let_168 _let_167) (= _let_167 _let_165) (= _let_165 _let_165) (= _let_165 _let_164) (= _let_164 _let_164) (= _let_164 _let_119) (= _let_163 _let_119) (= _let_119 _let_163) (= _let_163 _let_163) (= _let_163 _let_118) (= _let_118 _let_153) (= _let_152 _let_162) (= _let_162 _let_162) (= _let_162 _let_161) (= _let_161 _let_161) (= _let_161 _let_160) (= _let_160 _let_160) (= _let_160 _let_159) (= _let_159 _let_158) (= _let_158 _let_158) (= _let_158 _let_157) (= _let_157 _let_156) (= _let_156 _let_156) (= _let_156 _let_155) (= _let_155 _let_155) (= _let_155 _let_154) (= _let_154 _let_154) (= _let_154 _let_153) (= _let_153 _let_153) (= _let_153 _let_152) (= _let_152 _let_152) (= _let_152 _let_151) (= _let_151 _let_151) (= _let_151 _let_150) (= _let_150 _let_150) (= _let_150 _let_149) (= _let_149 _let_149) (= _let_149 _let_148) (= _let_148 _let_148) (= _let_148 _let_147) (= _let_147 _let_147) (= _let_147 _let_146) (= _let_146 _let_146) (= _let_146 _let_145) (= _let_145 _let_145) (= _let_145 _let_144) (= _let_144 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_143 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_139 _let_139) (= _let_138 _let_139) (= _let_139 _let_138) (= _let_137 _let_138) (= _let_138 _let_138) (= _let_138 _let_137) (= _let_137 _let_136) (= _let_136 _let_136) (= _let_136 _let_133) (= _let_133 _let_131) (= _let_132 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_134 _let_133) (= _let_133 _let_133) (= _let_133 _let_132) (= _let_132 _let_132) (= _let_131 _let_132) (= _let_132 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_129 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_129 _let_128) (= _let_128 _let_127) (= _let_127 _let_126) (= _let_126 _let_125) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_121) (= _let_121 _let_121) (= _let_121 _let_119) (= _let_119 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_116 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_116 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_112) (= _let_111 _let_112) (= _let_112 _let_111) (= _let_111 _let_109) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_108 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_104 _let_102) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_99 _let_99) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_94 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_90) (= _let_90 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_56) (= _let_56 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_70 _let_55) (= _let_55 _let_69) (= _let_67 _let_67) (= _let_67 _let_69) (= _let_69 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_48 _let_47) (= _let_47 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_43) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chromosome_3 X))) (let ((_let_2 (tptp.fn_eukaryotic_chromatin_14 X))) (let ((_let_3 (tptp.fn_attach_1 _let_2))) (let ((_let_4 (tptp.fn_eukaryotic_chromatin_12 X))) (let ((_let_5 (tptp.fn_eukaryotic_chromatin_15 X))) (let ((_let_6 (tptp.fn_condense_1 _let_5))) (let ((_let_7 (tptp.fn_eukaryotic_chromatin_13 X))) (let ((_let_8 (tptp.fn_eukaryotic_chromatin_8 X))) (let ((_let_9 (tptp.fn_eukaryotic_chromatin_6 X))) (let ((_let_10 (tptp.fn_eukaryotic_chromatin_5 X))) (let ((_let_11 (tptp.fn_eukaryotic_chromatin_3 X))) (let ((_let_12 (tptp.fn_eukaryotic_chromatin_7 X))) (let ((_let_13 (tptp.fn_eukaryotic_chromatin_2 X))) (let ((_let_14 (tptp.fn_eukaryotic_chromatin_1 X))) (=> (tptp.eukaryotic_chromatin_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Chromatin'|) (tptp.user_description_2 X |tptp.'The genetic material composed of DNA and histone protein that condense to form chromosomes during eukaryotic cell division.'|) (tptp.concept2words_2 X |tptp.'eukaryotic chromatin'|) (tptp.concept2words_2 X |tptp.'eukaryotic-chromatin'|) (tptp.chromosome_1 X) (not (tptp.prokaryotic_chromatin_1 X)) (tptp.chromosome_arm_1 _let_14) (tptp.chromosome_arm_1 _let_13) (tptp.structural_complexity_value_1 _let_11) (tptp.length_value_1 _let_10) (tptp.length_value_1 _let_9) (tptp.size_value_1 _let_12) (tptp.chromatin_packing_1 _let_8) (tptp.centromere_1 _let_4) (tptp.histone_1 _let_7) (tptp.attach_1 _let_2) (tptp.condense_1 _let_5) (tptp.tangible_entity_1 _let_6) (tptp.spatial_entity_1 _let_3) (tptp.is_between_2 _let_4 _let_14) (tptp.is_between_2 _let_4 _let_13) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_13) (tptp.structural_complexity_2 X _let_11) (tptp.size_2 X _let_12) (tptp.length_2 X _let_9) (tptp.thickness_2 X _let_10) (tptp.the_scalar_value_2 _let_11 tptp.complex_0) (tptp.scalar_unit_class_2 _let_11 tptp.prokaryotic_chromatin_0) (tptp.result_2 _let_2 X) (tptp.object_2 _let_5 X) (tptp.the_scalar_value_2 _let_10 tptp.thin_0) (tptp.scalar_unit_class_2 _let_10 tptp.chromosome_0) (tptp.the_scalar_value_2 _let_9 tptp.long_0) (tptp.scalar_unit_class_2 _let_9 tptp.chromosome_0) (tptp.result_2 _let_8 X) (tptp.object_2 _let_2 _let_7) (tptp.has_part_2 X _let_7) (tptp.base_2 _let_5 X) (tptp.has_region_2 X _let_4) (= _let_7 _let_3) (= _let_7 _let_1) (= X _let_6) (= _let_4 (tptp.fn_chromosome_6 X)) (= _let_3 _let_1)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_chromosome_4 X))) (let ((_let_2 (tptp.fn_telomere_3 _let_1))) (let ((_let_3 (tptp.fn_telomere_1 _let_1))) (let ((_let_4 (tptp.fn_eukaryotic_chromosome_5 X))) (let ((_let_5 (tptp.fn_eukaryotic_chromosome_3 X))) (let ((_let_6 (tptp.fn_polymer_3 _let_5))) (let ((_let_7 (tptp.fn_eukaryotic_chromosome_6 X))) (let ((_let_8 (tptp.fn_polymer_2 _let_5))) (let ((_let_9 (tptp.fn_eukaryotic_chromosome_2 X))) (=> (tptp.eukaryotic_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Chromosome'|) (tptp.user_description_2 X |tptp.'A chromosome present in eukaryotic cells.'|) (tptp.concept2words_2 X |tptp.'eukaryotic chromosome'|) (tptp.concept2words_2 X |tptp.'eukaryotic-chromosome'|) (tptp.chromosome_1 X) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_fragment_1 X)) (not (tptp.defective_chromosome_1 X)) (tptp.shape_value_1 _let_9) (tptp.entity_1 _let_5) (tptp.dna_1 _let_5) (tptp.polymer_1 _let_5) (tptp.telomere_1 _let_1) (tptp.end_1 _let_4) (tptp.length_value_1 _let_7) (tptp.property_node_1 _let_8) (tptp.length_value_1 _let_6) (tptp.end_1 _let_3) (tptp.eukaryotic_chromosome_1 _let_2) (tptp.shape_2 _let_5 _let_9) (tptp.the_scalar_value_2 _let_7 tptp.long_0) (tptp.scalar_unit_class_2 _let_7 tptp.nucleic_acid_0) (tptp.the_categorical_value_2 _let_9 tptp.line_0) (tptp.has_part_2 X _let_5) (tptp.length_2 _let_5 _let_7) (tptp.is_at_2 _let_1 _let_4) (tptp.has_region_2 X _let_4) (tptp.has_part_2 X _let_1) (= _let_5 (tptp.fn_chromosome_4 X)) (= (tptp.fn_eukaryotic_chromosome_7 X) _let_8) (= _let_7 _let_6) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_cilium_6 X))) (let ((_let_2 (tptp.fn_eukaryotic_cilium_4 X))) (let ((_let_3 (tptp.fn_eukaryotic_cilium_5 X))) (let ((_let_4 (tptp.fn_eukaryotic_cilium_2 X))) (let ((_let_5 (tptp.fn_eukaryotic_cilium_1 X))) (let ((_let_6 (tptp.fn_eukaryotic_cilium_3 X))) (=> (tptp.eukaryotic_cilium_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Cilium'|) (tptp.user_description_2 X |tptp.'Cilium present on the eukaryotic cell.'|) (tptp.concept2words_2 X |tptp.'eukaryotic cilia'|) (tptp.concept2words_2 X |tptp.'eukaryotic cilium'|) (tptp.concept2words_2 X |tptp.'eukaryotic-cilium'|) (tptp.cilium_1 X) (tptp.molecular_assembly_1 _let_5) (tptp.eukaryotic_cell_1 _let_4) (tptp.center_1 _let_6) (tptp.periphery_1 _let_2) (tptp.microtubule_doublet_1 _let_3) (tptp.microtubule_doublet_1 _let_1) (tptp.element_2 _let_5 _let_1) (tptp.element_2 _let_5 _let_3) (tptp.exactCardinality _let_5 tptp.element_0 |"9"| tptp.microtubule_doublet_0) (tptp.has_region_2 _let_5 _let_2) (tptp.has_region_2 _let_5 _let_6) (tptp.has_part_2 X _let_5) (tptp.has_part_2 _let_4 X) (tptp.is_at_2 _let_3 _let_2) (tptp.called_2 _let_3 |tptp.'MD2'|) (tptp.is_at_2 _let_1 _let_2) (tptp.called_2 _let_1 |tptp.'MD1'|)))))))))) (forall ((X $$unsorted)) (=> (tptp.eukaryotic_clade_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Clade'|) (tptp.user_description_2 X |tptp.'The group of eukaryotic species that includes an ancestral species and all its descendants.'|) (tptp.concept2words_2 X |tptp.'eukaryotic clade'|) (tptp.concept2words_2 X |tptp.'eukaryotic-clade'|) (tptp.clade_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_flagellum_1 X))) (=> (tptp.eukaryotic_flagellum_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Flagellum'|) (tptp.user_description_2 X |tptp.'Flagellum present at the eukaryotic cell.'|) (tptp.concept2words_2 X |tptp.'eukaryotic flagellum'|) (tptp.concept2words_2 X |tptp.'eukaryotic-flagellum'|) (tptp.flagellum_1 X) (tptp.eukaryotic_cell_1 _let_1) (tptp.has_part_2 _let_1 X) (= _let_1 (tptp.fn_flagellum_35 X)))))) (forall ((X $$unsorted)) (=> (tptp.eukaryotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Gene'|) (tptp.user_description_2 X |tptp.'A gene of a eukaryotic organism.'|) (tptp.concept2words_2 X |tptp.'eukaryotic gene'|) (tptp.concept2words_2 X |tptp.'eukaryotic-gene'|) (tptp.gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_gene_activation_1 X))) (=> (tptp.eukaryotic_gene_activation_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Gene-Activation'|) (tptp.user_description_2 X |tptp.'The process of activation of a eukaryotic gene so that it is expressed at a particular time and location.'|) (tptp.concept2words_2 X tptp.activate) (tptp.concept2words_2 X |tptp.'eukaryotic gene activation'|) (tptp.concept2words_2 X |tptp.'eukaryotic-gene-activation'|) (tptp.gene_activation_1 X) (tptp.eukaryotic_gene_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_gene_activation_10 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.gene_expression_1 X) (tptp.eukaryotic_cell_1 X1)) (and (tptp.eukaryotic_gene_expression_1 X) (= (tptp.fn_eukaryotic_gene_expression_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_gene_expression_1 X))) (=> (tptp.eukaryotic_gene_expression_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Gene-Expression'|) (tptp.user_description_2 X |tptp.'The process by which DNA directs the synthesis of proteins or, in some cases, just RNAs, in eukaryotic cells.'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'eukaryotic gene expression'|) (tptp.concept2words_2 X |tptp.'eukaryotic-gene-expression'|) (tptp.gene_expression_1 X) (tptp.eukaryotic_cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_gene_regulation_1 X))) (=> (tptp.eukaryotic_gene_regulation_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Gene-Regulation'|) (tptp.user_description_2 X |tptp.'The regulation of gene transcription in eukaryotic cells.'|) (tptp.concept2words_2 X |tptp.'eukaryotic regulation of transcription'|) (tptp.concept2words_2 X |tptp.'eukaryotic transcription regulation'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'eukaryotic gene regulation'|) (tptp.concept2words_2 X |tptp.'eukaryotic-gene-regulation'|) (tptp.gene_regulation_1 X) (tptp.eukaryotic_gene_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_gene_regulation_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.eukaryotic_genome_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Genome'|) (tptp.user_description_2 X |tptp.'The complete complement of a eukaryotic organism_'s genes along with its noncoding nucleic acid sequences.'|) (tptp.concept2words_2 X |tptp.'eukaryotic genome'|) (tptp.concept2words_2 X |tptp.'eukaryotic-genome'|) (tptp.genome_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_dna_strand_68 X))) (let ((_let_2 (tptp.fn_polymer_4 X))) (let ((_let_3 (tptp.fn_eukaryotic_lagging_strand_5 X))) (let ((_let_4 (tptp.fn_nucleoside_20 _let_3))) (let ((_let_5 (tptp.fn_eukaryotic_lagging_strand_6 X))) (let ((_let_6 (tptp.fn_nucleoside_7 _let_3))) (let ((_let_7 (tptp.fn_eukaryotic_lagging_strand_4 X))) (let ((_let_8 (tptp.fn_nucleoside_8 _let_3))) (let ((_let_9 (tptp.fn_eukaryotic_lagging_strand_3 X))) (let ((_let_10 (tptp.fn_eukaryotic_lagging_strand_7 X))) (let ((_let_11 (tptp.fn_eukaryotic_lagging_strand_1 X))) (let ((_let_12 (tptp.fn_eukaryotic_lagging_strand_2 X))) (=> (tptp.eukaryotic_lagging_strand_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Lagging-Strand'|) (tptp.user_description_2 X |tptp.'The eukaryotic lagging strand is the new discontinuous complementary DNA strand synthesized along the template strand as the overall direction of replication is opposite to the lagging strand_'s 5_' to 3_' direction.'|) (tptp.concept2words_2 X |tptp.'eukaryotic lagging strand'|) (tptp.concept2words_2 X |tptp.'eukaryotic-lagging-strand'|) (tptp.lagging_strand_1 X) (tptp.dna_replication_in_eukaryotes_1 _let_11) (tptp.role_1 _let_12) (tptp.nitrogen_1 _let_9) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.number_5_prime_carbon_1 _let_7) (tptp.organic_molecule_1 _let_3) (tptp.nucleoside_1 _let_3) (tptp.deoxyribose_1 _let_5) (tptp.monomer_1 _let_10) (tptp.deoxyribonucleoside_monophosphate_1 _let_10) (tptp.nitrogen_1 _let_8) (tptp.entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.carbon_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.organic_molecule_1 _let_4) (tptp.pentose_1 _let_4) (tptp.plays_2 X _let_12) (tptp.in_event_2 _let_12 _let_11) (tptp.has_part_2 X _let_10) (tptp.has_part_2 _let_10 _let_3) (tptp.has_part_2 _let_5 _let_7) (tptp.has_part_2 _let_3 _let_5) (= _let_3 (tptp.fn_dna_strand_60 X)) (= _let_10 _let_2) (= _let_10 _let_1) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_light_reaction_2 X))) (let ((_let_2 (tptp.fn_facilitated_diffusion_of_ion_23 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_light_reaction_17 X))) (let ((_let_4 (tptp.fn_chemiosmosis_109 _let_3))) (let ((_let_5 (tptp.fn_eukaryotic_light_reaction_10 X))) (let ((_let_6 (tptp.fn_thylakoid_space_2 _let_5))) (let ((_let_7 (tptp.fn_thylakoid_space_3 _let_5))) (let ((_let_8 (tptp.fn_eukaryotic_light_reaction_3 X))) (let ((_let_9 (tptp.fn_hypotonic_solution_7 _let_8))) (let ((_let_10 (tptp.fn_facilitated_diffusion_of_ion_27 _let_1))) (let ((_let_11 (tptp.fn_hypotonic_solution_3 _let_8))) (let ((_let_12 (tptp.fn_aqueous_solution_14 _let_8))) (let ((_let_13 (tptp.fn_chemiosmosis_100 _let_3))) (let ((_let_14 (tptp.fn_light_reaction_48 X))) (let ((_let_15 (tptp.fn_eukaryotic_light_reaction_6 X))) (let ((_let_16 (tptp.fn_granum_1 _let_15))) (let ((_let_17 (tptp.fn_granum_3 _let_15))) (let ((_let_18 (tptp.fn_granum_2 _let_15))) (let ((_let_19 (tptp.fn_eukaryotic_light_reaction_4 X))) (let ((_let_20 (tptp.fn_chloroplast_91 _let_19))) (let ((_let_21 (tptp.fn_thylakoid_space_4 _let_5))) (let ((_let_22 (tptp.fn_facilitated_diffusion_49 _let_1))) (let ((_let_23 (tptp.fn_light_reaction_51 X))) (let ((_let_24 (tptp.fn_eukaryotic_light_reaction_8 X))) (let ((_let_25 (tptp.fn_eukaryotic_light_reaction_9 X))) (let ((_let_26 (tptp.fn_chemiosmosis_7 _let_3))) (let ((_let_27 (tptp.fn_eukaryotic_light_reaction_14 X))) (let ((_let_28 (tptp.fn_eukaryotic_light_reaction_16 X))) (let ((_let_29 (tptp.fn_chemiosmosis_118 _let_3))) (let ((_let_30 (tptp.fn_eukaryotic_light_reaction_18 X))) (let ((_let_31 (tptp.fn_chemiosmosis_119 _let_3))) (let ((_let_32 (tptp.fn_chemiosmosis_31 _let_3))) (let ((_let_33 (tptp.fn_eukaryotic_light_reaction_15 X))) (let ((_let_34 (tptp.fn_eukaryotic_light_reaction_11 X))) (let ((_let_35 (tptp.fn_eukaryotic_light_reaction_12 X))) (let ((_let_36 (tptp.fn_eukaryotic_light_reaction_5 X))) (let ((_let_37 (tptp.fn_eukaryotic_light_reaction_1 X))) (let ((_let_38 (tptp.fn_chloroplast_96 _let_19))) (let ((_let_39 (tptp.fn_eukaryotic_light_reaction_13 X))) (let ((_let_40 (tptp.fn_chloroplast_33 _let_19))) (let ((_let_41 (tptp.fn_eukaryotic_light_reaction_7 X))) (let ((_let_42 (tptp.fn_plant_cell_6 _let_41))) (=> (tptp.eukaryotic_light_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Light-Reaction'|) (tptp.user_description_2 X |tptp.'The light-dependent reactions of photosynthesis in a eukaryotic organism.'|) (tptp.concept2words_2 X |tptp.'eukaryotic light reaction'|) (tptp.concept2words_2 X |tptp.'eukaryotic-light-reaction'|) (tptp.light_reaction_1 X) (tptp.thylakoid_membrane_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.biomembrane_1 _let_37) (tptp.exergonic_process_1 _let_1) (tptp.facilitated_diffusion_of_ion_1 _let_1) (tptp.spontaneous_change_1 _let_1) (tptp.passive_transport_1 _let_1) (tptp.facilitated_diffusion_1 _let_1) (tptp.aqueous_solution_1 _let_8) (tptp.hypotonic_solution_1 _let_8) (tptp.chloroplast_1 _let_19) (tptp.thylakoid_1 _let_36) (tptp.granum_1 _let_15) (tptp.cell_1 _let_41) (tptp.plant_cell_1 _let_41) (tptp.chemical_1 _let_24) (tptp.chemical_1 _let_25) (tptp.water_1 _let_25) (tptp.thylakoid_space_1 _let_5) (tptp.thylakoid_1 _let_34) (tptp.thylakoid_1 _let_35) (tptp.mixture_1 _let_39) (tptp.aqueous_solution_1 _let_39) (tptp.stroma_1 _let_39) (tptp.inorganic_phosphate_1 _let_27) (tptp.chemical_entity_1 _let_33) (tptp.organic_molecule_1 _let_33) (tptp.adp_1 _let_33) (tptp.organic_molecule_1 _let_28) (tptp.molecule_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.ribonucleotide_1 _let_28) (tptp.nucleoside_triphosphate_1 _let_28) (tptp.atp_1 _let_28) (tptp.chemiosmosis_1 _let_3) (tptp.endergonic_process_1 _let_30) (tptp.chemical_reaction_1 _let_30) (tptp.synthesis_of_organic_molecule_1 _let_30) (tptp.anabolic_pathway_1 _let_30) (tptp.synthesis_of_atp_1 _let_30) (tptp.chloroplast_1 _let_42) (tptp.granum_1 _let_40) (tptp.mixture_1 _let_38) (tptp.aqueous_solution_1 _let_38) (tptp.stroma_1 _let_38) (tptp.chemical_entity_1 _let_32) (tptp.organic_molecule_1 _let_32) (tptp.adp_1 _let_32) (tptp.exergonic_process_1 _let_31) (tptp.facilitated_diffusion_of_ion_1 _let_31) (tptp.spontaneous_change_1 _let_31) (tptp.passive_transport_1 _let_31) (tptp.facilitated_diffusion_1 _let_31) (tptp.endergonic_process_1 _let_29) (tptp.chemical_reaction_1 _let_29) (tptp.synthesis_of_organic_molecule_1 _let_29) (tptp.anabolic_pathway_1 _let_29) (tptp.synthesis_of_atp_1 _let_29) (tptp.inorganic_phosphate_1 _let_26) (tptp.spatial_entity_1 _let_22) (tptp.biomembrane_1 _let_22) (tptp.thylakoid_1 _let_21) (tptp.thylakoid_1 _let_20) (tptp.thylakoid_1 _let_18) (tptp.thylakoid_1 _let_17) (tptp.thylakoid_1 _let_16) (tptp.organic_molecule_1 _let_13) (tptp.molecule_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.ribonucleotide_1 _let_13) (tptp.nucleoside_triphosphate_1 _let_13) (tptp.atp_1 _let_13) (tptp.water_1 _let_12) (tptp.chemical_1 _let_11) (tptp.water_1 _let_11) (tptp.chemical_1 _let_10) (tptp.chemical_1 _let_9) (tptp.aqueous_solution_1 _let_7) (tptp.aqueous_solution_1 _let_6) (tptp.aqueous_solution_1 _let_4) (tptp.hypotonic_solution_1 _let_4) (tptp.aqueous_solution_1 _let_2) (tptp.hypotonic_solution_1 _let_2) (tptp.is_inside_2 _let_27 _let_39) (tptp.is_inside_2 _let_33 _let_39) (tptp.is_inside_2 _let_28 _let_39) (tptp.is_inside_2 _let_8 _let_5) (tptp.site_2 X _let_37) (tptp.result_2 X _let_28) (tptp.subevent_2 X _let_3) (tptp.has_region_2 _let_36 _let_5) (tptp.is_between_2 _let_39 _let_36) (tptp.has_part_2 _let_19 _let_39) (tptp.is_inside_2 _let_39 _let_19) (tptp.has_part_2 _let_19 _let_15) (tptp.element_2 _let_15 _let_36) (not (= _let_25 _let_24)) (not (= _let_24 _let_25)) (tptp.has_part_2 _let_8 _let_24) (tptp.has_solvent_2 _let_8 _let_25) (tptp.has_part_2 _let_8 _let_25) (tptp.has_solute_2 _let_8 _let_24) (tptp.subevent_2 _let_3 _let_30) (tptp.raw_material_2 _let_3 _let_33) (tptp.raw_material_2 _let_30 _let_33) (tptp.enables_2 _let_1 _let_30) (tptp.subevent_2 _let_3 _let_1) (tptp.destination_2 _let_1 _let_8) (tptp.first_subevent_2 _let_3 _let_1) (tptp.result_2 _let_3 _let_28) (tptp.result_2 _let_30 _let_28) (tptp.raw_material_2 _let_3 _let_27) (tptp.abuts_2 _let_34 _let_36) (tptp.abuts_2 _let_35 _let_36) (tptp.abuts_2 _let_36 _let_35) (tptp.abuts_2 _let_36 _let_34) (tptp.is_above_2 _let_36 _let_35) (tptp.element_2 _let_15 _let_35) (tptp.element_2 _let_15 _let_34) (tptp.is_above_2 _let_34 _let_36) (tptp.path_2 _let_1 _let_37) (= _let_41 (tptp.fn_metabolic_pathway_1 X)) (= _let_8 _let_7) (= _let_8 _let_6) (= _let_37 _let_23) (= _let_28 _let_14) (= _let_3 (tptp.fn_light_reaction_52 X)) (= _let_36 _let_21) (= _let_19 _let_42) (= _let_36 _let_20) (= _let_15 _let_40) (= _let_39 _let_38) (= _let_37 _let_22) (= _let_34 _let_18) (= _let_34 _let_17) (= _let_36 _let_18) (= _let_36 _let_17) (= _let_36 _let_16) (= _let_35 _let_18) (= _let_35 _let_17) (= _let_34 _let_16) (= _let_33 _let_32) (= _let_8 _let_4) (= _let_1 _let_31) (= _let_30 _let_29) (= _let_28 _let_13) (= _let_27 _let_26) (= _let_25 _let_12) (= _let_25 _let_11) (= _let_8 _let_2) (= _let_24 _let_10) (= _let_24 _let_9) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_17) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_2) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_light_reaction_with_cyclic_electron_flow_1 X))) (=> (tptp.eukaryotic_light_reaction_with_cyclic_electron_flow_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Light-Reaction-With-Cyclic-Electron-Flow'|) (tptp.user_description_2 X |tptp.'The flow of electrons from Photosystem I to ferredoxin to cytochrome complex to plastocyanin and back to Photosystem I.'|) (tptp.concept2words_2 X |tptp.'eukaryotic light reaction with cyclic electron flow'|) (tptp.concept2words_2 X |tptp.'eukaryotic-light-reaction-with-cyclic-electron-flow'|) (tptp.eukaryotic_light_reaction_1 X) (tptp.cyclic_electron_flow_1 _let_1) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_light_reaction_53 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_light_reaction_with_linear_electron_flow_1 X))) (=> (tptp.eukaryotic_light_reaction_with_linear_electron_flow_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Light-Reaction-With-Linear-Electron-Flow'|) (tptp.user_description_2 X |tptp.'The path of electron flow through Photosystems I and II during the light-dependent reactions of photosynthesis in eukaryotic organisms. Linear electron flow produces ATP, NAPDH, and O2.'|) (tptp.concept2words_2 X |tptp.'eukaryotic light reaction with linear electron flow'|) (tptp.concept2words_2 X |tptp.'eukaryotic-light-reaction-with-linear-electron-flow'|) (tptp.eukaryotic_light_reaction_1 X) (tptp.linear_electron_flow_1 _let_1) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_light_reaction_53 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_oxidative_phosphorylation_325 X))) (let ((_let_2 (tptp.fn_chemiosmosis_5 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_oxidative_phosphorylation_101 X))) (let ((_let_4 (tptp.fn_multiprotein_complex_iii_2 _let_3))) (let ((_let_5 (tptp.fn_eukaryotic_oxidative_phosphorylation_155 X))) (let ((_let_6 (tptp.fn_redox_reaction_12 _let_5))) (let ((_let_7 (tptp.fn_redox_reaction_16 _let_5))) (let ((_let_8 (tptp.fn_eukaryotic_oxidative_phosphorylation_413 X))) (let ((_let_9 (tptp.fn_oxidation_7 _let_8))) (let ((_let_10 (tptp.fn_multiprotein_complex_iii_1 _let_3))) (let 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(tptp.fn_eukaryotic_oxidative_phosphorylation_303 X))) (let ((_let_29 (tptp.fn_multiprotein_complex_iii_2 _let_28))) (let ((_let_30 (tptp.fn_eukaryotic_oxidative_phosphorylation_270 X))) (let ((_let_31 (tptp.fn_reduction_1 _let_30))) (let ((_let_32 (tptp.fn_eukaryotic_oxidative_phosphorylation_368 X))) (let ((_let_33 (tptp.fn_redox_reaction_12 _let_32))) (let ((_let_34 (tptp.fn_redox_reaction_16 _let_32))) (let ((_let_35 (tptp.fn_reduction_3 _let_30))) (let ((_let_36 (tptp.fn_eukaryotic_oxidative_phosphorylation_269 X))) (let ((_let_37 (tptp.fn_oxidation_10 _let_36))) (let ((_let_38 (tptp.fn_eukaryotic_oxidative_phosphorylation_369 X))) (let ((_let_39 (tptp.fn_chemical_reaction_1 _let_38))) (let ((_let_40 (tptp.fn_multiprotein_complex_iii_1 _let_28))) (let ((_let_41 (tptp.fn_eukaryotic_oxidative_phosphorylation_259 X))) (let ((_let_42 (tptp.fn_oxidation_10 _let_41))) (let ((_let_43 (tptp.fn_eukaryotic_oxidative_phosphorylation_367 X))) (let ((_let_44 (tptp.fn_redox_reaction_12 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_let_671) (tptp.plays_2 _let_96 _let_683) (not (= _let_681 _let_669)) (not (= _let_669 _let_681)) (tptp.has_oxidized_form_2 _let_96 _let_86) (tptp.has_part_2 _let_96 _let_681) (tptp.has_reduced_form_2 _let_86 _let_96) (tptp.has_state_2 _let_96 _let_86) (tptp.directly_proportional_2 _let_677 _let_679) (tptp.speed_2 _let_675 _let_677) (tptp.object_2 _let_675 _let_96) (tptp.has_region_2 _let_96 _let_673) (tptp.is_inside_2 _let_669 _let_673) (tptp.has_function_2 _let_96 _let_671) (tptp.has_part_2 _let_96 _let_669) (not (= _let_94 _let_690)) (not (= _let_690 _let_94)) (tptp.object_2 _let_690 _let_694) (tptp.possesses_2 _let_692 _let_694) (tptp.donor_2 _let_690 _let_692) (tptp.causes_2 _let_90 _let_690) (tptp.subevent_2 _let_90 _let_94) (tptp.subevent_2 _let_90 _let_687) (tptp.is_opposite_2 _let_699 _let_698) (tptp.is_opposite_2 _let_698 _let_699) (tptp.has_region_2 _let_104 _let_700) (tptp.is_at_2 _let_699 _let_700) (tptp.has_region_2 _let_104 _let_699) (tptp.has_region_2 _let_104 _let_698) (tptp.is_inside_2 _let_104 _let_697) (not (= _let_704 _let_701)) (not (= _let_702 _let_704)) (not (= _let_701 _let_704)) (tptp.is_inside_2 _let_701 _let_705) (tptp.is_inside_2 _let_702 _let_705) (not (= _let_704 _let_702)) (tptp.is_inside_2 _let_704 _let_129) (not (= _let_702 _let_701)) (not (= _let_701 _let_702)) (tptp.is_between_2 _let_703 _let_702) (tptp.subevent_2 _let_168 _let_174) (tptp.object_2 _let_174 _let_708) (tptp.object_2 _let_707 _let_708) (tptp.subevent_2 _let_168 _let_707) (tptp.subevent_2 _let_166 _let_168) (tptp.in_event_2 _let_164 _let_166) (tptp.has_reduced_form_2 _let_180 _let_709) (tptp.has_oxidized_form_2 _let_709 _let_180) (not (= _let_180 _let_709)) (not (= _let_709 _let_180)) (tptp.has_state_2 _let_180 _let_709) (tptp.has_state_2 _let_709 _let_180) (tptp.subevent_2 _let_192 _let_196) (tptp.object_2 _let_196 _let_711) (tptp.object_2 _let_194 _let_711) (tptp.subevent_2 _let_192 _let_194) (tptp.subevent_2 _let_199 _let_204) (tptp.object_2 _let_204 _let_714) (tptp.object_2 _let_201 _let_714) (tptp.subevent_2 _let_199 _let_201) (tptp.subevent_2 _let_206 _let_210) (tptp.object_2 _let_210 _let_717) (tptp.object_2 _let_208 _let_717) (tptp.subevent_2 _let_206 _let_208) (tptp.element_2 _let_212 _let_720) (tptp.next_element_2 _let_720 _let_719) (tptp.element_2 _let_212 _let_719) (tptp.element_2 _let_227 _let_722) (tptp.next_element_2 _let_722 _let_721) (tptp.element_2 _let_227 _let_721) (tptp.object_2 _let_176 _let_723) (tptp.object_2 _let_184 _let_723) (tptp.subevent_2 _let_172 _let_184) (tptp.element_2 _let_245 _let_726) (tptp.next_element_2 _let_726 _let_725) (tptp.element_2 _let_245 _let_725) (not (= _let_725 _let_727)) (tptp.electronegativity_2 _let_729 _let_730) (tptp.has_atom_2 _let_725 _let_729) (not (= _let_727 _let_725)) (tptp.recipient_2 _let_208 _let_727) (not (= _let_717 _let_725)) (not (= _let_725 _let_717)) (tptp.donor_2 _let_208 _let_725) (tptp.greater_than_or_equal_to_2 _let_732 _let_730) (tptp.greater_than_2 _let_732 _let_730) (tptp.electronegativity_2 _let_734 _let_732) (tptp.has_atom_2 _let_727 _let_734) (tptp.raw_material_2 _let_206 _let_727) (tptp.recipient_2 _let_210 _let_727) (not (= _let_717 _let_727)) (not (= _let_727 _let_717)) (not (= _let_721 _let_737)) (tptp.electronegativity_2 _let_746 _let_743) (tptp.has_atom_2 _let_721 _let_746) (not (= _let_737 _let_721)) (tptp.raw_material_2 _let_229 _let_737) (tptp.greater_than_or_equal_to_2 _let_741 _let_743) (tptp.greater_than_2 _let_741 _let_743) (tptp.electronegativity_2 _let_739 _let_741) (tptp.has_atom_2 _let_737 _let_739) (not (= _let_735 _let_737)) (not (= _let_737 _let_735)) (tptp.donor_2 _let_232 _let_721) (not (= _let_721 _let_735)) (not (= _let_735 _let_721)) (tptp.raw_material_2 _let_229 _let_721) (tptp.electronegativity_2 _let_750 _let_752) (tptp.has_atom_2 _let_748 _let_750) (tptp.donor_2 _let_79 _let_748) (not (= _let_748 _let_667)) (not (= _let_667 _let_748)) (not (= _let_650 _let_755)) (tptp.electronegativity_2 _let_757 _let_758) (tptp.has_atom_2 _let_650 _let_757) (not (= _let_755 _let_650)) (tptp.recipient_2 _let_52 _let_755) (not (= _let_754 _let_755)) (not (= _let_755 _let_754)) (not (= _let_726 _let_760)) (tptp.electronegativity_2 _let_762 _let_763) (tptp.has_atom_2 _let_726 _let_762) (not (= _let_760 _let_726)) (tptp.recipient_2 _let_201 _let_760) (not (= _let_714 _let_760)) (not (= _let_760 _let_714)) (tptp.greater_than_or_equal_to_2 _let_765 _let_763) (tptp.greater_than_2 _let_765 _let_763) (tptp.electronegativity_2 _let_767 _let_765) (tptp.has_atom_2 _let_760 _let_767) (tptp.raw_material_2 _let_199 _let_760) (tptp.recipient_2 _let_204 _let_760) (not (= _let_124 _let_768)) (tptp.electronegativity_2 _let_770 _let_771) (tptp.has_atom_2 _let_124 _let_770) (not (= _let_768 _let_124)) (tptp.recipient_2 _let_194 _let_768) (not (= _let_711 _let_768)) (not (= _let_768 _let_711)) (tptp.greater_than_or_equal_to_2 _let_773 _let_771) (tptp.greater_than_2 _let_773 _let_771) (tptp.electronegativity_2 _let_775 _let_773) (tptp.has_atom_2 _let_768 _let_775) (tptp.raw_material_2 _let_192 _let_768) (tptp.recipient_2 _let_196 _let_768) (not (= _let_719 _let_748)) (tptp.electronegativity_2 _let_777 _let_779) (tptp.has_atom_2 _let_719 _let_777) (not (= _let_748 _let_719)) (tptp.raw_material_2 _let_76 _let_748) (not (= _let_667 _let_719)) (not (= _let_719 _let_667)) (tptp.raw_material_2 _let_76 _let_719) (tptp.in_event_2 _let_782 _let_783) (tptp.plays_2 _let_106 _let_782) (tptp.is_across_2 _let_784 _let_106) (tptp.path_2 _let_108 _let_106) (not (= _let_692 _let_785)) (not (= _let_785 _let_692)) (not (= _let_692 _let_787)) (not (= _let_787 _let_785)) (not (= _let_787 _let_692)) (not (= _let_785 _let_787)) (tptp.raw_material_2 _let_90 _let_785) (tptp.recipient_2 _let_687 _let_785) (tptp.has_atom_2 _let_787 _let_789) (tptp.donor_2 _let_687 _let_787) (tptp.has_atom_2 _let_785 _let_786) (tptp.recipient_2 _let_94 _let_785) (not (= _let_722 _let_180)) (not (= _let_180 _let_790)) (tptp.electronegativity_2 _let_794 _let_791) (tptp.has_atom_2 _let_722 _let_794) (not (= _let_180 _let_722)) (not (= _let_790 _let_180)) (tptp.raw_material_2 _let_172 _let_790) (not (= _let_708 _let_722)) (not (= _let_722 _let_708)) (not (= _let_790 _let_723)) (not (= _let_723 _let_790)) (tptp.recipient_2 _let_176 _let_790) (tptp.recipient_2 _let_184 _let_790) (not (= _let_790 _let_709)) (tptp.in_event_2 _let_798 _let_176) (tptp.plays_2 _let_790 _let_798) (not (= _let_709 _let_790)) (tptp.plays_2 _let_709 _let_796) (tptp.in_event_2 _let_796 _let_176) (not (= _let_709 _let_723)) (not (= _let_723 _let_709)) (not (= _let_722 _let_801)) (tptp.in_event_2 _let_800 _let_174) (tptp.in_event_2 _let_803 _let_174) (tptp.plays_2 _let_722 _let_803) (not (= _let_801 _let_722)) (tptp.recipient_2 _let_174 _let_801) (not (= _let_708 _let_801)) (not (= _let_801 _let_708)) (tptp.plays_2 _let_801 _let_800) (tptp.greater_than_or_equal_to_2 _let_804 _let_791) (tptp.greater_than_2 _let_804 _let_791) (tptp.electronegativity_2 _let_806 _let_804) (tptp.has_atom_2 _let_801 _let_806) (tptp.raw_material_2 _let_168 _let_801) (tptp.recipient_2 _let_707 _let_801) (not (= _let_96 _let_807)) (not (= _let_807 _let_692)) (not (= _let_692 _let_807)) (tptp.raw_material_2 _let_88 _let_96) (not (= _let_807 _let_96)) (tptp.raw_material_2 _let_88 _let_807) (tptp.recipient_2 _let_687 _let_807) (tptp.recipient_2 _let_94 _let_807) (tptp.in_event_2 _let_810 _let_232) (tptp.plays_2 _let_737 _let_810) (tptp.recipient_2 _let_232 _let_737) (not (= _let_714 _let_726)) (not (= _let_726 _let_714)) (not (= _let_711 _let_124)) (not (= _let_124 _let_711)) (tptp.is_at_2 _let_124 _let_700) (tptp.element_2 _let_340 _let_807) (tptp.object_2 _let_108 _let_811) (tptp.has_state_2 _let_86 _let_96) (tptp.object_2 _let_113 _let_811) (tptp.element_2 _let_353 _let_812) (tptp.object_2 _let_115 _let_813) (tptp.site_2 _let_1 _let_366) (not (= _let_790 _let_722)) (not (= _let_722 _let_709)) (tptp.has_atom_2 _let_790 _let_814) (not (= _let_722 _let_790)) (not (= _let_709 _let_722)) (tptp.donor_2 _let_184 _let_709) (tptp.recipient_2 _let_79 _let_719) (not (= _let_707 _let_184)) (not (= _let_184 _let_707)) (tptp.donor_2 _let_707 _let_722) (tptp.donor_2 _let_174 _let_722) (tptp.base_2 _let_134 _let_815) (not (= _let_643 _let_816)) (not (= _let_816 _let_643)) (tptp.recipient_2 _let_20 _let_643) (not (= _let_817 _let_720)) (not (= _let_720 _let_817)) (tptp.donor_2 _let_220 _let_817) (not (= _let_818 _let_819)) (not (= _let_819 _let_818)) (tptp.recipient_2 _let_389 _let_818) (tptp.donor_2 _let_201 _let_726) (tptp.object_2 _let_820 _let_363) (tptp.result_2 _let_172 _let_180) (tptp.result_2 _let_88 _let_86) (tptp.plays_2 _let_709 _let_164) (tptp.has_part_2 _let_363 _let_813) (tptp.donor_2 _let_8 _let_821) (tptp.recipient_2 _let_360 _let_822) (tptp.result_2 _let_90 _let_824) (tptp.result_2 _let_168 _let_721) (tptp.result_2 _let_229 _let_825) (tptp.result_2 _let_206 _let_827) (tptp.donor_2 _let_82 _let_748) (tptp.recipient_2 _let_82 _let_719) (tptp.result_2 _let_76 _let_787) (tptp.result_2 _let_192 _let_726) (tptp.result_2 _let_199 _let_725) (tptp.donor_2 _let_94 _let_787) (tptp.donor_2 _let_30 _let_649) (tptp.donor_2 _let_210 _let_725) (tptp.donor_2 _let_54 _let_650) (tptp.donor_2 _let_196 _let_124) (tptp.donor_2 _let_204 _let_726) (= _let_748 _let_270) (= _let_1030 _let_618) (= _let_124 _let_294) (= _let_819 _let_397) (= _let_650 _let_58) (= _let_649 _let_39) (= _let_817 _let_386) (= _let_648 _let_46) (= _let_821 _let_406) (= _let_816 _let_382) (= _let_908 _let_505) (= _let_643 _let_27) (= _let_960 _let_417) (= _let_1048 _let_415) (= _let_1048 _let_633) (= _let_939 _let_542) (= _let_110 _let_509) (= _let_641 _let_18) (= _let_641 _let_17) (= _let_641 _let_14) (= _let_821 _let_6) (= _let_360 _let_388) (= _let_812 _let_361) (= _let_813 _let_365) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_281 X) _let_1056) (= _let_1055 _let_1054) (= _let_1053 _let_1052) (= _let_1051 _let_640) (= _let_1051 _let_639) (= _let_1050 _let_638) (= _let_1050 _let_637) (= _let_825 _let_415) (= _let_1049 _let_636) (= _let_1049 _let_635) (= _let_1048 _let_634) (= _let_825 _let_417) (= _let_825 _let_413) (= _let_1048 _let_632) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_257 X) _let_1047) (= _let_1046 _let_1045) (= _let_1044 _let_1043) (= _let_1039 _let_625) (= _let_1042 _let_631) (= _let_1042 _let_630) (= _let_1041 _let_629) (= _let_1041 _let_628) (= _let_648 _let_44) (= _let_1040 _let_627) (= _let_1040 _let_626) (= _let_1039 _let_42) (= _let_648 _let_45) (= _let_648 _let_42) (= _let_1039 _let_45) (= _let_1030 _let_17) (= _let_963 _let_14) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_446 X) _let_1038) (= _let_1037 _let_1036) (= _let_1035 _let_1034) (= _let_1033 _let_624) (= _let_1033 _let_623) (= _let_1032 _let_622) (= _let_1032 _let_621) (= _let_1031 _let_620) (= _let_1031 _let_619) (= _let_641 _let_16) (= _let_1030 _let_18) (= _let_1030 _let_617) (= _let_641 _let_12) (= _let_172 _let_239) (= _let_166 _let_163) (= _let_47 _let_1029) (= _let_5 _let_100) (= _let_90 _let_100) (= _let_907 _let_502) (= _let_906 _let_500) (= _let_88 _let_666) (= _let_64 _let_63) (= _let_62 _let_1028) (= _let_1027 _let_616) (= _let_1027 _let_615) (= _let_360 _let_1026) (= _let_1022 _let_611) (= _let_1025 _let_611) (= _let_1025 _let_614) (= _let_1024 _let_613) (= _let_1024 _let_612) (= _let_822 _let_410) (= _let_822 _let_409) (= _let_812 _let_359) (= _let_812 _let_358) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_407 X) _let_1023) (= _let_1022 _let_610) (= _let_1021 _let_1020) (= _let_812 _let_356) (= _let_876 _let_472) (= _let_991 _let_584) (= _let_1019 _let_609) (= _let_1019 _let_608) (= _let_1018 _let_584) (= _let_1018 _let_607) (= _let_819 _let_396) (= _let_1017 _let_606) (= _let_1017 _let_605) (= _let_819 _let_393) (= _let_819 _let_358) (= _let_392 _let_498) (= _let_1016 _let_604) (= _let_1016 _let_603) (= _let_220 _let_1015) (= _let_222 _let_1014) (= _let_995 _let_586) (= _let_1013 _let_586) (= _let_1013 _let_602) (= _let_1012 _let_601) (= _let_1012 _let_600) (= _let_817 _let_385) (= _let_817 _let_384) (= _let_52 _let_1011) (= _let_1010 _let_599) (= _let_1010 _let_598) (= _let_758 _let_277) (= _let_1009 _let_277) (= _let_1009 _let_597) (= _let_1008 _let_596) (= _let_1008 _let_595) (= _let_755 _let_273) (= _let_755 _let_272) (= _let_8 _let_1007) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_417 X) _let_1006) (= _let_1005 _let_594) (= _let_1005 _let_472) (= _let_642 _let_7) (= _let_1004 _let_593) (= _let_1004 _let_592) (= _let_642 _let_9) (= _let_642 _let_6) (= _let_878 _let_474) (= _let_1003 _let_1002) (= _let_1001 _let_591) (= _let_1001 _let_590) (= _let_30 _let_1000) (= _let_36 _let_999) (= _let_978 _let_575) (= _let_998 _let_575) (= _let_998 _let_589) (= _let_997 _let_588) (= _let_997 _let_587) (= _let_649 _let_34) (= _let_649 _let_33) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_125 X) _let_996) (= _let_995 _let_585) (= _let_994 _let_993) (= _let_720 _let_224) (= _let_720 _let_223) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_450 X) _let_992) (= _let_991 _let_583) (= _let_990 _let_989) (= _let_882 _let_482) (= _let_818 _let_393) (= _let_882 _let_481) (= _let_20 _let_988) (= _let_983 _let_577) (= _let_987 _let_582) (= _let_987 _let_581) (= _let_986 _let_577) (= _let_986 _let_580) (= _let_816 _let_27) (= _let_985 _let_579) (= _let_985 _let_578) (= _let_816 _let_23) (= _let_816 _let_26) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_448 X) _let_984) (= _let_983 _let_576) (= _let_982 _let_981) (= _let_643 _let_26) (= _let_643 _let_24) (= _let_643 _let_23) (= _let_22 _let_980) (= _let_881 _let_479) (= _let_881 _let_478) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_267 X) _let_979) (= _let_978 _let_574) (= _let_977 _let_976) (= _let_975 _let_573) (= _let_975 _let_35) (= _let_975 _let_37) (= _let_974 _let_973) (= _let_972 _let_971) (= _let_970 _let_969) (= _let_967 _let_572) (= _let_41 _let_968) (= _let_967 _let_571) (= _let_966 _let_965) (= _let_963 _let_570) (= _let_15 _let_964) (= _let_963 _let_569) (= _let_963 _let_568) (= _let_13 _let_962) (= _let_960 _let_566) (= _let_414 _let_961) (= _let_960 _let_567) (= _let_960 _let_565) (= _let_416 _let_959) (= _let_937 _let_537) (= _let_363 _let_403) (= _let_811 _let_348) (= _let_958 _let_957) (= _let_956 _let_955) (= _let_815 _let_380) (= _let_108 _let_67) (= _let_815 _let_378) (= _let_815 _let_379) (= _let_815 _let_377) (= _let_948 _let_560) (= _let_948 _let_559) (= _let_820 _let_400) (= _let_954 _let_953) (= _let_952 _let_951) (= _let_813 _let_348) (= _let_950 _let_564) (= _let_950 _let_563) (= _let_948 _let_558) (= _let_949 _let_562) (= _let_949 _let_561) (= _let_948 _let_557) (= _let_704 _let_132) (= _let_702 _let_133) (= _let_701 _let_143) (= _let_131 _let_549) (= _let_129 _let_158) (= _let_129 _let_155) (= _let_947 _let_161) (= _let_947 _let_159) (= _let_701 _let_142) (= _let_701 _let_141) (= _let_947 _let_154) (= _let_702 _let_132) (= _let_705 _let_154) (= _let_947 _let_155) (= _let_705 _let_155) (= _let_129 _let_157) (= _let_129 _let_156) (= _let_129 _let_154) (= _let_705 _let_159) (= _let_704 _let_153) (= _let_704 _let_152) (= _let_704 _let_133) (= _let_703 _let_145) (= _let_926 _let_527) (= _let_113 _let_351) (= _let_134 _let_374) (= _let_873 _let_470) (= _let_946 _let_556) (= _let_946 _let_555) (= _let_940 _let_552) (= _let_872 _let_467) (= _let_945 _let_554) (= _let_945 _let_553) (= _let_820 _let_401) (= _let_820 _let_399) (= _let_871 _let_462) (= _let_871 _let_461) (= _let_944 (tptp.fn_oxidative_phosphorylation_21 X)) (= _let_937 _let_535) (= _let_936 _let_536) (= _let_924 _let_517) (= _let_459 _let_511) (= _let_943 (tptp.fn_oxidative_phosphorylation_6 X)) (= _let_942 (tptp.fn_oxidative_phosphorylation_13 X)) (= _let_941 (tptp.fn_oxidative_phosphorylation_28 X)) (= _let_940 _let_551) (= _let_940 _let_550) (= _let_131 _let_548) (= _let_131 _let_547) (= _let_131 _let_546) (= _let_131 _let_545) (= _let_134 _let_375) (= _let_134 _let_373) (= _let_939 _let_544) (= _let_866 _let_448) (= _let_939 _let_541) (= _let_866 _let_447) (= _let_939 _let_543) (= _let_939 _let_540) (= _let_938 _let_539) (= _let_938 _let_538) (= _let_937 _let_534) (= _let_937 _let_536) (= _let_935 _let_534) (= _let_936 _let_537) (= _let_936 _let_535) (= _let_935 _let_533) (= _let_935 _let_532) (= _let_110 _let_507) (= _let_110 _let_506) (= _let_59 (tptp.fn_oxidative_phosphorylation_10 X)) (= _let_934 (tptp.fn_oxidative_phosphorylation_9 X)) (= X _let_2) (= _let_508 _let_531) (= _let_508 _let_530) (= _let_1 _let_368) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_81 X) _let_933) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_80 X) _let_932) (= _let_927 _let_529) (= _let_924 _let_520) (= _let_924 _let_519) (= _let_924 _let_518) (= _let_871 _let_460) (= _let_931 _let_930) (= _let_929 _let_928) (= _let_927 _let_528) (= _let_926 _let_526) (= _let_363 _let_402) (= _let_459 _let_514) (= _let_925 _let_525) (= _let_459 _let_513) (= _let_925 _let_524) (= _let_459 _let_512) (= _let_925 _let_523) (= _let_925 _let_522) (= _let_925 _let_521) (= _let_924 _let_516) (= _let_924 _let_515) (= _let_459 _let_510) (= _let_28 _let_50) (= _let_245 _let_244) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_86 X) _let_923) (= _let_49 _let_493) (= _let_366 _let_370) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_85 X) _let_922) (= _let_860 _let_440) (= _let_227 _let_226) (= _let_893 _let_495) (= _let_861 _let_442) (= _let_859 _let_435) (= _let_921 _let_920) (= _let_104 _let_919) (= _let_918 _let_917) (= _let_916 _let_915) (= _let_914 _let_913) (= _let_783 _let_318) (= _let_912 _let_911) (= _let_910 _let_909) (= _let_908 _let_503) (= _let_873 _let_469) (= _let_907 _let_501) (= _let_842 _let_425) (= _let_662 _let_70) (= _let_54 _let_419) (= _let_54 _let_418) (= _let_389 _let_388) (= _let_389 _let_387) (= _let_357 _let_99) (= _let_96 _let_93) (= _let_64 _let_61) (= _let_906 _let_499) (= _let_271 _let_100) (= _let_709 _let_189) (= _let_166 _let_60) (= _let_504 _let_905) (= _let_172 _let_100) (= _let_884 _let_486) (= _let_355 _let_498) (= _let_884 _let_488) (= _let_884 _let_487) (= _let_884 _let_485) (= _let_355 _let_497) (= _let_355 _let_496) (= _let_405 _let_99) (= _let_269 _let_100) (= _let_90 _let_99) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_357 X) _let_904) (= _let_879 _let_476) (= _let_903 _let_902) (= _let_901 _let_900) (= _let_899 _let_898) (= _let_709 _let_188) (= _let_897 _let_896) (= _let_96 _let_92) (= _let_106 _let_306) (= _let_366 _let_369) (= _let_124 _let_293) (= _let_825 _let_412) (= _let_895 _let_894) (= _let_893 _let_494) (= _let_106 _let_307) (= _let_245 _let_243) (= _let_28 _let_48) (= _let_353 _let_892) (= _let_227 _let_225) (= _let_49 _let_492) (= _let_106 _let_305) (= _let_891 _let_890) (= _let_818 _let_394) (= _let_889 _let_393) (= _let_818 _let_361) (= _let_818 _let_359) (= _let_822 _let_356) (= _let_818 _let_358) (= _let_822 _let_396) (= _let_822 _let_408) (= _let_889 _let_491) (= _let_340 _let_888) (= _let_3 _let_887) (= _let_212 _let_886) (= _let_818 _let_391) (= _let_784 _let_323) (= _let_113 _let_352) (= _let_872 _let_466) (= _let_872 _let_465) (= _let_872 _let_464) (= _let_649 _let_37) (= _let_885 _let_490) (= _let_649 _let_35) (= _let_885 _let_489) (= _let_884 _let_481) (= _let_822 _let_394) (= _let_884 _let_482) (= _let_817 _let_223) (= _let_883 _let_484) (= _let_817 _let_221) (= _let_883 _let_483) (= _let_882 _let_480) (= _let_881 _let_477) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_358 X) _let_880) (= _let_879 _let_475) (= _let_878 _let_473) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_418 X) _let_877) (= _let_876 _let_471) (= _let_875 _let_874) (= _let_873 _let_468) (= _let_872 _let_463) (= _let_871 _let_458) (= _let_871 _let_457) (= _let_871 _let_456) (= _let_811 _let_349) (= _let_811 _let_346) (= _let_866 _let_446) (= _let_866 _let_445) (= _let_866 _let_444) (= _let_697 _let_109) (= _let_700 _let_127) (= _let_860 _let_439) (= _let_698 _let_117) (= _let_784 _let_324) (= _let_784 _let_322) (= _let_866 _let_449) (= _let_783 _let_320) (= _let_783 _let_319) (= _let_783 _let_317) (= _let_106 _let_304) (= _let_860 _let_438) (= _let_106 _let_303) (= _let_860 _let_437) (= _let_870 _let_869) (= _let_868 _let_867) (= _let_866 _let_455) (= _let_106 _let_314) (= _let_866 _let_454) (= _let_106 _let_313) (= _let_866 _let_453) (= _let_106 _let_312) (= _let_866 _let_450) (= _let_866 _let_452) (= _let_106 _let_311) (= _let_866 _let_451) (= _let_866 _let_443) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_393 X) _let_865) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_395 X) _let_864) (= _let_863 _let_862) (= _let_106 _let_310) (= _let_697 _let_111) (= _let_106 _let_309) (= _let_697 _let_107) (= _let_861 _let_441) (= _let_700 _let_128) (= _let_106 _let_315) (= _let_700 _let_126) (= _let_860 _let_436) (= _let_859 _let_434) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_394 X) _let_858) (= _let_857 _let_856) (= _let_855 _let_854) (= _let_853 _let_852) (= _let_851 _let_850) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_392 X) _let_849) (= _let_848 _let_433) (= _let_848 _let_432) (= _let_847 _let_431) (= _let_847 _let_430) (= _let_846 _let_429) (= _let_846 _let_428) (= _let_106 _let_308) (= _let_845 _let_427) (= _let_845 _let_426) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_359 X) _let_844) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_360 X) _let_843) (= _let_113 _let_350) (= _let_842 _let_424) (= _let_841 _let_840) (= _let_839 _let_838) (= _let_837 _let_836) (= _let_835 _let_834) (= _let_96 _let_91) (= _let_96 _let_95) (= _let_789 _let_833) (= _let_832 _let_423) (= _let_830 _let_421) (= _let_832 _let_422) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_120 X) _let_831) (= _let_830 _let_420) (= _let_829 _let_828) (= _let_650 _let_55) (= _let_725 _let_249) (= _let_649 _let_31) (= _let_787 _let_95) (= _let_725 _let_248) (= _let_726 _let_252) (= _let_787 _let_329) (= _let_719 _let_217) (= _let_748 _let_218) (= _let_827 _let_826) (= _let_825 _let_411) (= _let_721 _let_231) (= _let_824 _let_823) (= _let_822 _let_407) (= _let_821 _let_404) (= _let_813 _let_364) (= _let_709 _let_187) (= _let_86 _let_98) (= _let_180 _let_191) (= _let_820 _let_398) (= _let_819 _let_395) (= _let_818 _let_390) (= _let_720 _let_221) (= _let_817 _let_383) (= _let_816 _let_381) (= _let_643 _let_21) (= _let_815 _let_376) (= _let_722 _let_238) (= _let_184 _let_241) (= _let_814 _let_372) (= _let_814 _let_371) (= _let_790 _let_185) (= _let_722 _let_237) (= _let_709 _let_185) (= _let_1 _let_367) (= _let_813 _let_362) (= _let_813 _let_346) (= _let_812 _let_354) (= _let_811 _let_345) (= _let_811 _let_344) (= _let_108 _let_66) (= _let_811 _let_347) (= _let_811 _let_343) (= _let_811 _let_342) (= _let_807 _let_341) (= _let_700 _let_125) (= _let_711 _let_198) (= _let_124 _let_292) (= _let_714 _let_203) (= _let_726 _let_253) (= _let_810 _let_809) (= _let_96 _let_89) (= _let_687 _let_808) (= _let_807 _let_339) (= _let_791 _let_332) (= _let_806 _let_338) (= _let_806 _let_337) (= _let_801 _let_238) (= _let_801 _let_333) (= _let_805 _let_335) (= _let_804 _let_332) (= _let_805 _let_334) (= _let_804 _let_336) (= _let_803 _let_802) (= _let_722 _let_183) (= _let_801 _let_186) (= _let_801 _let_330) (= _let_800 _let_799) (= _let_798 _let_797) (= _let_796 _let_795) (= _let_709 _let_183) (= _let_709 _let_186) (= _let_709 _let_182) (= _let_794 _let_793) (= _let_180 _let_190) (= _let_790 _let_190) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_306 X) _let_792) (= _let_791 _let_331) (= _let_722 _let_182) (= _let_708 _let_177) (= _let_722 _let_236) (= _let_708 _let_173) (= _let_723 _let_175) (= _let_790 _let_330) (= _let_790 _let_186) (= _let_790 _let_237) (= _let_790 _let_236) (= _let_692 _let_103) (= _let_789 _let_788) (= _let_787 _let_91) (= _let_785 _let_95) (= _let_786 _let_328) (= _let_786 _let_327) (= _let_785 _let_326) (= _let_785 _let_325) (= _let_784 _let_321) (= _let_106 _let_302) (= _let_783 _let_316) (= _let_782 _let_781) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_123 X) _let_780) (= _let_779 _let_778) (= _let_777 _let_776) (= _let_719 _let_216) (= _let_748 _let_268) (= _let_719 _let_218) (= _let_719 _let_215) (= _let_719 _let_214) (= _let_771 _let_296) (= _let_775 _let_301) (= _let_775 _let_300) (= _let_768 _let_289) (= _let_774 _let_298) (= _let_773 _let_296) (= _let_774 _let_297) (= _let_773 _let_299) (= _let_768 _let_288) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_226 X) _let_772) (= _let_771 _let_295) (= _let_770 _let_769) (= _let_124 _let_291) (= _let_768 _let_290) (= _let_768 _let_198) (= _let_763 _let_282) (= _let_767 _let_287) (= _let_767 _let_286) (= _let_760 _let_279) (= _let_766 _let_284) (= _let_765 _let_282) (= _let_766 _let_283) (= _let_765 _let_285) (= _let_760 _let_278) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_224 X) _let_764) (= _let_763 _let_281) (= _let_762 _let_761) (= _let_726 _let_251) (= _let_760 _let_280) (= _let_760 _let_203) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_246 X) _let_759) (= _let_758 _let_276) (= _let_757 _let_756) (= _let_755 _let_55) (= _let_650 _let_57) (= _let_650 _let_56) (= _let_650 _let_53) (= _let_755 _let_57) (= _let_754 _let_275) (= _let_755 _let_53) (= _let_755 _let_56) (= _let_754 _let_274) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_122 X) _let_753) (= _let_752 _let_751) (= _let_750 _let_749) (= _let_748 _let_217) (= _let_748 _let_215) (= _let_748 _let_216) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_292 X) _let_747) (= _let_746 _let_745) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_293 X) _let_744) (= _let_743 _let_742) (= _let_741 _let_740) (= _let_739 _let_738) (= _let_737 _let_233) (= _let_737 _let_234) (= _let_737 _let_267) (= _let_232 _let_736) (= _let_721 _let_234) (= _let_735 _let_266) (= _let_721 _let_233) (= _let_735 _let_265) (= _let_721 _let_230) (= _let_730 _let_259) (= _let_734 _let_264) (= _let_734 _let_263) (= _let_727 _let_256) (= _let_733 _let_261) (= _let_732 _let_259) (= _let_733 _let_260) (= _let_732 _let_262) (= _let_727 _let_257) (= _let_727 _let_255) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_213 X) _let_731) (= _let_730 _let_258) (= _let_729 _let_728) (= _let_727 _let_254) (= _let_725 _let_247) (= _let_726 _let_250) (= _let_725 _let_246) (= _let_723 _let_177) (= _let_176 _let_724) (= _let_723 _let_242) (= _let_723 _let_173) (= _let_184 _let_240) (= _let_722 _let_235) (= _let_721 _let_228) (= _let_720 _let_219) (= _let_719 _let_213) (= _let_717 _let_211) (= _let_210 _let_718) (= _let_717 _let_209) (= _let_717 _let_207) (= _let_208 _let_716) (= _let_714 _let_205) (= _let_204 _let_715) (= _let_714 _let_202) (= _let_714 _let_200) (= _let_201 _let_713) (= _let_711 _let_197) (= _let_196 _let_712) (= _let_711 _let_195) (= _let_711 _let_193) (= _let_194 _let_710) (= _let_709 _let_181) (= _let_708 _let_175) (= _let_174 _let_179) (= _let_174 _let_178) (= _let_708 _let_171) (= _let_708 _let_170) (= _let_707 _let_169) (= _let_707 _let_167) (= _let_168 _let_239) (= _let_166 _let_165) (= _let_164 _let_706) (= _let_705 _let_162) (= _let_705 _let_158) (= _let_705 _let_161) (= _let_705 _let_160) (= _let_704 _let_151) (= _let_703 _let_150) (= _let_702 _let_139) (= _let_703 _let_149) (= _let_702 _let_138) (= _let_703 _let_148) (= _let_702 _let_137) (= _let_703 _let_147) (= _let_702 _let_136) (= _let_703 _let_146) (= _let_702 _let_135) (= _let_703 _let_144) (= _let_702 _let_130) (= _let_701 _let_140) (= _let_700 _let_123) (= _let_698 _let_118) (= _let_699 _let_122) (= _let_699 _let_121) (= _let_698 _let_116) (= _let_699 _let_120) (= _let_698 _let_114) (= _let_699 _let_119) (= _let_698 _let_112) (= _let_697 _let_105) (= _let_94 _let_696) (= _let_694 _let_695) (= _let_694 _let_693) (= _let_692 _let_102) (= _let_692 _let_101) (= _let_690 _let_691) (= _let_690 _let_689) (= _let_94 _let_688) (= _let_687 _let_686) (= _let_685 _let_684) (= _let_683 _let_682) (= _let_681 _let_680) (= _let_96 _let_87) (= _let_86 _let_97) (= _let_679 _let_678) (= _let_677 _let_676) (= _let_675 _let_674) (= _let_673 _let_672) (= _let_671 _let_670) (= _let_669 _let_668) (= _let_667 _let_83) (= _let_82 _let_85) (= _let_82 _let_84) (= _let_667 _let_80) (= _let_667 _let_81) (= _let_667 _let_78) (= _let_79 _let_77) (= _let_79 _let_75) (= _let_76 _let_666) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_170 X) _let_665) (= _let_664 _let_74) (= _let_664 _let_73) (= _let_663 _let_72) (= _let_663 _let_71) (= _let_662 _let_69) (= _let_64 _let_60) (= _let_108 _let_68) (= _let_108 _let_65) (= (tptp.fn_eukaryotic_oxidative_phosphorylation_169 X) _let_661) (= _let_660 _let_659) (= _let_658 _let_657) (= _let_656 _let_655) (= _let_654 _let_653) (= _let_652 _let_651) (= _let_650 _let_51) (= _let_649 _let_29) (= _let_648 _let_40) (= _let_647 _let_646) (= _let_645 _let_644) (= _let_643 _let_19) (= _let_642 _let_4) (= _let_641 _let_10) (= _let_640 _let_639) (= _let_639 _let_638) (= _let_637 _let_638) (= _let_638 _let_637) (= _let_637 _let_636) (= _let_635 _let_636) (= _let_636 _let_635) (= _let_635 _let_634) (= _let_415 _let_634) (= _let_634 _let_634) (= _let_634 _let_415) (= _let_415 _let_633) (= _let_633 _let_633) (= _let_633 _let_632) (= _let_632 _let_632) (= _let_632 _let_631) (= _let_631 _let_630) (= _let_630 _let_629) (= _let_629 _let_629) (= _let_628 _let_629) (= _let_629 _let_628) (= _let_628 _let_627) (= _let_626 _let_627) (= _let_627 _let_626) (= _let_626 _let_625) (= _let_625 _let_42) (= _let_42 _let_625) (= _let_625 _let_625) (= _let_625 _let_45) (= _let_45 _let_624) (= _let_624 _let_623) (= _let_623 _let_622) (= _let_621 _let_622) (= _let_622 _let_621) (= _let_621 _let_620) (= _let_619 _let_620) (= _let_620 _let_619) (= _let_619 _let_618) (= _let_618 _let_17) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_617 _let_18) (= _let_18 _let_617) (= _let_617 _let_616) (= _let_616 _let_615) (= _let_615 _let_611) (= _let_614 _let_614) (= _let_614 _let_611) (= _let_611 _let_614) (= _let_614 _let_613) (= _let_612 _let_613) (= _let_613 _let_612) (= _let_612 _let_611) (= _let_611 _let_611) (= _let_611 _let_610) (= _let_610 _let_610) (= _let_610 _let_609) (= _let_609 _let_608) (= _let_608 _let_607) (= _let_607 _let_607) (= _let_607 _let_584) (= _let_584 _let_607) (= _let_607 _let_606) (= _let_605 _let_606) (= _let_606 _let_605) (= _let_605 _let_604) (= _let_604 _let_603) (= _let_603 _let_586) (= _let_602 _let_602) (= _let_602 _let_586) (= _let_586 _let_602) (= _let_602 _let_601) (= _let_600 _let_601) (= _let_601 _let_600) (= _let_600 _let_599) (= _let_599 _let_598) (= _let_598 _let_277) (= _let_597 _let_597) (= _let_597 _let_277) (= _let_277 _let_597) (= _let_597 _let_596) (= _let_595 _let_596) (= _let_596 _let_595) (= _let_595 _let_594) (= _let_594 _let_594) (= _let_472 _let_594) (= _let_594 _let_472) (= _let_472 _let_593) (= _let_592 _let_593) (= _let_593 _let_592) (= _let_592 _let_591) (= _let_591 _let_590) (= _let_590 _let_575) (= _let_589 _let_589) (= _let_589 _let_575) (= _let_575 _let_589) (= _let_589 _let_588) (= _let_587 _let_588) (= _let_588 _let_587) (= _let_587 _let_586) (= _let_586 _let_586) (= _let_586 _let_585) (= _let_585 _let_585) (= _let_585 _let_584) (= _let_584 _let_584) (= _let_584 _let_583) (= _let_583 _let_583) (= _let_583 _let_582) (= _let_582 _let_581) (= _let_581 _let_580) (= _let_580 _let_580) (= _let_580 _let_577) (= _let_577 _let_580) (= _let_580 _let_579) (= _let_578 _let_579) (= _let_579 _let_578) (= _let_578 _let_577) (= _let_577 _let_577) (= _let_577 _let_576) (= _let_576 _let_576) (= _let_576 _let_575) (= _let_575 _let_575) (= _let_575 _let_574) (= _let_574 _let_574) (= _let_574 _let_573) (= _let_35 _let_573) (= _let_573 _let_35) (= _let_35 _let_35) (= _let_35 _let_37) (= _let_37 _let_572) (= _let_571 _let_572) (= _let_572 _let_572) (= _let_572 _let_571) (= _let_571 _let_571) (= _let_571 _let_570) (= _let_570 _let_14) (= _let_14 _let_570) (= _let_569 _let_570) (= _let_570 _let_570) (= _let_570 _let_569) (= _let_569 _let_569) (= _let_568 _let_568) (= _let_568 _let_569) (= _let_569 _let_568) (= _let_568 _let_417) (= _let_417 _let_567) (= _let_567 _let_567) (= _let_566 _let_567) (= _let_567 _let_566) (= _let_566 _let_566) (= _let_565 _let_566) (= _let_566 _let_565) (= _let_565 _let_565) (= _let_565 _let_564) (= _let_564 _let_563) (= _let_563 _let_563) (= _let_563 _let_562) (= _let_562 _let_561) (= _let_561 _let_561) (= _let_561 _let_560) (= _let_560 _let_559) (= _let_559 _let_559) (= _let_559 _let_558) (= _let_557 _let_558) (= _let_558 _let_557) (= _let_557 _let_557) (= _let_557 _let_159) (= _let_159 _let_161) (= _let_161 _let_159) (= _let_159 _let_154) (= _let_155 _let_555) (= _let_555 _let_556) (= _let_556 _let_555) (= _let_555 _let_553) (= _let_553 _let_554) (= _let_554 _let_553) (= _let_553 _let_553) (= _let_553 _let_552) (= _let_552 _let_551) (= _let_551 _let_551) (= _let_550 _let_550) (= _let_550 _let_551) (= _let_551 _let_550) (= _let_550 _let_549) (= _let_549 _let_548) (= _let_547 _let_548) (= _let_548 _let_547) (= _let_546 _let_547) (= _let_547 _let_547) (= _let_547 _let_546) (= _let_546 _let_546) (= _let_545 _let_545) (= _let_545 _let_546) (= _let_546 _let_545) (= _let_545 _let_543) (= _let_543 _let_544) (= _let_544 _let_543) (= _let_542 _let_543) (= _let_543 _let_543) (= _let_543 _let_541) (= _let_541 _let_543) (= _let_543 _let_542) (= _let_542 _let_541) (= _let_540 _let_541) (= _let_541 _let_540) (= _let_540 _let_540) (= _let_540 _let_539) (= _let_538 _let_539) (= _let_539 _let_538) (= _let_538 _let_537) (= _let_537 _let_534) (= _let_535 _let_534) (= _let_534 _let_535) (= _let_535 _let_536) (= _let_536 _let_537) (= _let_537 _let_537) (= _let_537 _let_536) (= _let_536 _let_536) (= _let_536 _let_535) (= _let_535 _let_535) (= _let_535 _let_533) (= _let_533 _let_534) (= _let_534 _let_533) (= _let_533 _let_533) (= _let_532 _let_532) (= _let_532 _let_533) (= _let_533 _let_532) (= _let_532 _let_531) (= _let_531 _let_531) (= _let_530 _let_530) (= _let_530 _let_531) (= _let_531 _let_530) (= _let_530 _let_529) (= _let_529 _let_528) (= _let_528 _let_528) (= _let_528 _let_527) (= _let_527 _let_526) (= _let_526 _let_522) (= _let_522 _let_525) (= _let_525 _let_524) (= _let_524 _let_523) (= _let_523 _let_522) (= _let_522 _let_522) (= _let_521 _let_522) (= _let_522 _let_521) (= _let_521 _let_520) (= _let_520 _let_518) (= _let_520 _let_517) (= _let_517 _let_519) (= _let_519 _let_517) (= _let_517 _let_520) (= _let_520 _let_520) (= _let_520 _let_519) (= _let_519 _let_518) (= _let_518 _let_517) (= _let_517 _let_517) (= _let_517 _let_516) (= _let_516 _let_516) (= _let_515 _let_515) (= _let_515 _let_516) (= _let_516 _let_515) (= _let_515 _let_514) (= _let_514 _let_512) (= _let_512 _let_513) (= _let_513 _let_511) (= _let_511 _let_514) (= _let_512 _let_514) (= _let_514 _let_513) (= _let_513 _let_512) (= _let_512 _let_511) (= _let_511 _let_511) (= _let_511 _let_510) (= _let_510 _let_510) (= _let_510 _let_509) (= _let_509 _let_509) (= _let_509 _let_507) (= _let_507 _let_507) (= _let_506 _let_506) (= _let_506 _let_507) (= _let_507 _let_506) (= _let_506 _let_505) (= _let_505 _let_503) (= _let_503 _let_502) (= _let_502 _let_501) (= _let_501 _let_500) (= _let_500 _let_500) (= _let_500 _let_499) (= _let_499 _let_499) (= _let_499 _let_497) (= _let_497 _let_498) (= _let_498 _let_497) (= _let_496 _let_497) (= _let_497 _let_496) (= _let_496 _let_495) (= _let_495 _let_494) (= _let_494 _let_494) (= _let_494 _let_493) (= _let_493 _let_492) (= _let_492 _let_491) (= _let_491 _let_393) (= _let_393 _let_491) (= _let_491 _let_491) (= _let_491 _let_490) (= _let_490 _let_490) (= _let_489 _let_490) (= _let_490 _let_489) (= _let_489 _let_489) (= _let_489 _let_486) (= _let_488 _let_486) (= _let_486 _let_488) (= _let_488 _let_487) (= _let_487 _let_481) (= _let_481 _let_486) (= _let_486 _let_486) (= _let_486 _let_485) (= _let_485 _let_481) (= _let_481 _let_485) (= _let_485 _let_482) (= _let_482 _let_482) (= _let_482 _let_484) (= _let_484 _let_484) (= _let_483 _let_484) (= _let_484 _let_483) (= _let_483 _let_483) (= _let_483 _let_482) (= _let_482 _let_481) (= _let_481 _let_481) (= _let_481 _let_480) (= _let_480 _let_480) (= _let_480 _let_479) (= _let_478 _let_479) (= _let_479 _let_478) (= _let_478 _let_478) (= _let_478 _let_477) (= _let_477 _let_477) (= _let_477 _let_476) (= _let_476 _let_476) (= _let_476 _let_475) (= _let_475 _let_475) (= _let_475 _let_473) (= _let_473 _let_474) (= _let_474 _let_474) (= _let_474 _let_473) (= _let_473 _let_473) (= _let_473 _let_472) (= _let_472 _let_472) (= _let_472 _let_471) (= _let_471 _let_471) (= _let_471 _let_470) (= _let_470 _let_470) (= _let_470 _let_469) (= _let_469 _let_469) (= _let_469 _let_468) (= _let_468 _let_467) (= _let_465 _let_467) (= _let_467 _let_465) (= _let_465 _let_465) (= _let_465 _let_466) (= _let_466 _let_465) (= _let_465 _let_464) (= _let_464 _let_463) (= _let_463 _let_462) (= _let_462 _let_462) (= _let_461 _let_462) (= _let_462 _let_461) (= _let_461 _let_461) (= _let_461 _let_460) (= _let_456 _let_460) (= _let_460 _let_456) (= _let_456 _let_458) (= _let_457 _let_460) (= _let_460 _let_460) (= _let_460 _let_458) (= _let_458 _let_457) (= _let_457 _let_456) (= _let_456 _let_452) (= _let_452 _let_455) (= _let_455 _let_454) (= _let_454 _let_453) (= _let_453 _let_452) (= _let_452 _let_452) (= _let_451 _let_452) (= _let_452 _let_451) (= _let_450 _let_451) (= _let_451 _let_450) (= _let_450 _let_450) (= _let_450 _let_449) (= _let_449 _let_450) (= _let_450 _let_448) (= _let_448 _let_448) (= _let_448 _let_449) (= _let_449 _let_449) (= _let_449 _let_448) (= _let_447 _let_448) (= _let_448 _let_447) (= _let_447 _let_444) (= _let_444 _let_447) (= _let_447 _let_447) (= _let_447 _let_446) (= _let_444 _let_444) (= _let_444 _let_446) (= _let_446 _let_445) (= _let_445 _let_444) (= _let_444 _let_443) (= _let_443 _let_443) (= _let_443 _let_442) (= _let_442 _let_442) (= _let_442 _let_441) (= _let_441 _let_441) (= _let_441 _let_440) (= _let_440 _let_438) (= _let_437 _let_438) (= _let_437 _let_439) (= _let_439 _let_438) (= _let_438 _let_437) (= _let_437 _let_436) (= _let_436 _let_436) (= _let_436 _let_435) (= _let_435 _let_435) (= _let_435 _let_434) (= _let_434 _let_434) (= _let_434 _let_432) (= _let_432 _let_432) (= _let_432 _let_433) (= _let_433 _let_432) (= _let_432 _let_430) (= _let_430 _let_430) (= _let_430 _let_431) (= _let_431 _let_430) (= _let_430 _let_428) (= _let_428 _let_429) (= _let_429 _let_428) (= _let_428 _let_427) (= _let_426 _let_427) (= _let_427 _let_426) (= _let_426 _let_424) (= _let_424 _let_425) (= _let_425 _let_424) (= _let_424 _let_423) (= _let_423 _let_422) (= _let_422 _let_421) (= _let_420 _let_421) (= _let_421 _let_420) (= _let_420 _let_420) (= _let_420 _let_419) (= _let_419 _let_419) (= _let_419 _let_418) (= _let_418 _let_417) (= _let_415 _let_415) (= _let_415 _let_417) (= _let_417 _let_415) (= _let_413 _let_415) (= _let_415 _let_413) (= _let_413 _let_413) (= _let_413 _let_412) (= _let_412 _let_412) (= _let_412 _let_411) (= _let_411 _let_356) (= _let_356 _let_394) (= _let_394 _let_356) (= _let_356 _let_410) (= _let_410 _let_410) (= _let_410 _let_356) (= _let_356 _let_396) (= _let_409 _let_410) (= _let_410 _let_409) (= _let_409 _let_396) (= _let_396 _let_409) (= _let_409 _let_409) (= _let_409 _let_408) (= _let_408 _let_396) (= _let_396 _let_408) (= _let_408 _let_408) (= _let_407 _let_408) (= _let_408 _let_407) (= _let_407 _let_407) (= _let_407 _let_406) (= _let_406 _let_6) (= _let_404 _let_6) (= _let_6 _let_404) (= _let_404 _let_404) (= _let_404 _let_403) (= _let_403 _let_403) (= _let_403 _let_402) (= _let_402 _let_402) (= _let_402 _let_401) (= _let_400 _let_401) (= _let_401 _let_400) (= _let_400 _let_399) (= _let_399 _let_399) (= _let_399 _let_398) (= _let_398 _let_397) (= _let_397 _let_393) (= _let_393 _let_397) (= _let_397 _let_396) (= _let_396 _let_396) (= _let_396 _let_358) (= _let_358 _let_395) (= _let_395 _let_395) (= _let_395 _let_394) (= _let_359 _let_361) (= _let_361 _let_394) (= _let_394 _let_361) (= _let_359 _let_394) (= _let_358 _let_394) (= _let_394 _let_359) (= _let_393 _let_358) (= _let_358 _let_393) (= _let_393 _let_393) (= _let_393 _let_391) (= _let_391 _let_391) (= _let_391 _let_390) (= _let_390 _let_390) (= _let_390 _let_388) (= _let_388 _let_387) (= _let_387 _let_386) (= _let_386 _let_223) (= _let_223 _let_223) (= _let_221 _let_385) (= _let_385 _let_385) (= _let_385 _let_221) (= _let_221 _let_384) (= _let_384 _let_385) (= _let_385 _let_384) (= _let_384 _let_384) (= _let_384 _let_383) (= _let_383 _let_383) (= _let_383 _let_382) (= _let_382 _let_23) (= _let_23 _let_382) (= _let_382 _let_27) (= _let_27 _let_27) (= _let_26 _let_381) (= _let_381 _let_381) (= _let_381 _let_380) (= _let_380 _let_378) (= _let_378 _let_378) (= _let_378 _let_379) (= _let_379 _let_378) (= _let_377 _let_378) (= _let_378 _let_377) (= _let_377 _let_377) (= _let_377 _let_376) (= _let_376 _let_375) (= _let_375 _let_374) (= _let_374 _let_375) (= _let_375 _let_375) (= _let_375 _let_373) (= _let_373 _let_374) (= _let_374 _let_373) (= _let_373 _let_373) (= _let_373 _let_371) (= _let_371 _let_372) (= _let_372 _let_371) (= _let_371 _let_370) (= _let_370 _let_369) (= _let_369 _let_368) (= _let_368 _let_368) (= _let_368 _let_367) (= _let_367 _let_365) (= _let_365 _let_365) (= _let_365 _let_348) (= _let_348 _let_348) (= _let_348 _let_364) (= _let_364 _let_364) (= _let_364 _let_362) (= _let_362 _let_362) (= _let_362 _let_346) (= _let_346 _let_361) (= _let_361 _let_361) (= _let_361 _let_359) (= _let_359 _let_359) (= _let_358 _let_359) (= _let_359 _let_358) (= _let_358 _let_358) (= _let_358 _let_356) (= _let_356 _let_356) (= _let_356 _let_354) (= _let_354 _let_352) (= _let_351 _let_352) (= _let_352 _let_351) (= _let_351 _let_350) (= _let_350 _let_349) (= _let_348 _let_349) (= _let_349 _let_348) (= _let_348 _let_347) (= _let_347 _let_345) (= _let_345 _let_347) (= _let_347 _let_343) (= _let_343 _let_344) (= _let_344 _let_342) (= _let_346 _let_342) (= _let_342 _let_344) (= _let_344 _let_346) (= _let_346 _let_345) (= _let_345 _let_344) (= _let_344 _let_343) (= _let_343 _let_342) (= _let_342 _let_341) (= _let_341 _let_339) (= _let_339 _let_339) (= _let_339 _let_338) (= _let_337 _let_338) (= _let_338 _let_337) (= _let_337 _let_336) (= _let_336 _let_336) (= _let_336 _let_332) (= _let_332 _let_336) (= _let_336 _let_335) (= _let_335 _let_334) (= _let_334 _let_238) (= _let_333 _let_238) (= _let_238 _let_333) (= _let_333 _let_333) (= _let_333 _let_330) (= _let_330 _let_330) (= _let_330 _let_332) (= _let_332 _let_332) (= _let_332 _let_331) (= _let_331 _let_331) (= _let_331 _let_190) (= _let_190 _let_237) (= _let_237 _let_190) (= _let_185 _let_190) (= _let_190 _let_185) (= _let_185 _let_330) (= _let_330 _let_185) (= _let_186 _let_330) (= _let_330 _let_186) (= _let_236 _let_330) (= _let_330 _let_236) (= _let_236 _let_186) (= _let_186 _let_236) (= _let_236 _let_95) (= _let_95 _let_329) (= _let_329 _let_329) (= _let_329 _let_91) (= _let_91 _let_328) (= _let_327 _let_328) (= _let_328 _let_327) (= _let_327 _let_326) (= _let_326 _let_326) (= _let_326 _let_95) (= _let_95 _let_95) (= _let_95 _let_326) (= _let_326 _let_325) (= _let_325 _let_95) (= _let_95 _let_325) (= _let_325 _let_325) (= _let_325 _let_322) (= _let_322 _let_322) (= _let_322 _let_324) (= _let_324 _let_322) (= _let_322 _let_323) (= _let_323 _let_322) (= _let_321 _let_322) (= _let_322 _let_321) (= _let_321 _let_321) (= _let_321 _let_320) (= _let_320 _let_319) (= _let_318 _let_319) (= _let_319 _let_318) (= _let_318 _let_318) (= _let_318 _let_317) (= _let_317 _let_317) (= _let_317 _let_316) (= _let_316 _let_315) (= _let_315 _let_314) (= _let_312 _let_315) (= _let_315 _let_311) (= _let_311 _let_314) (= _let_314 _let_313) (= _let_313 _let_312) (= _let_312 _let_311) (= _let_310 _let_311) (= _let_311 _let_310) (= _let_310 _let_310) (= _let_309 _let_310) (= _let_310 _let_309) (= _let_308 _let_309) (= _let_309 _let_309) (= _let_309 _let_308) (= _let_308 _let_307) (= _let_307 _let_308) (= _let_308 _let_308) (= _let_308 _let_306) (= _let_306 _let_307) (= _let_307 _let_307) (= _let_307 _let_305) (= _let_305 _let_304) (= _let_303 _let_306) (= _let_306 _let_305) (= _let_305 _let_305) (= _let_305 _let_302) (= _let_302 _let_304) (= _let_304 _let_303) (= _let_303 _let_302) (= _let_302 _let_302) (= _let_302 _let_301) (= _let_300 _let_301) (= _let_301 _let_300) (= _let_300 _let_299) (= _let_299 _let_299) (= _let_299 _let_296) (= _let_296 _let_299) (= _let_299 _let_298) (= _let_298 _let_297) (= _let_297 _let_296) (= _let_296 _let_296) (= _let_296 _let_295) (= _let_295 _let_295) (= _let_295 _let_294) (= _let_294 _let_293) (= _let_293 _let_293) (= _let_293 _let_292) (= _let_292 _let_292) (= _let_291 _let_292) (= _let_292 _let_291) (= _let_291 _let_291) (= _let_291 _let_289) (= _let_289 _let_289) (= _let_289 _let_290) (= _let_290 _let_290) (= _let_290 _let_289) (= _let_288 _let_289) (= _let_289 _let_288) (= _let_288 _let_288) (= _let_288 _let_198) (= _let_198 _let_198) (= _let_198 _let_287) (= _let_286 _let_287) (= _let_287 _let_286) (= _let_286 _let_285) (= _let_285 _let_285) (= _let_285 _let_282) (= _let_282 _let_285) (= _let_285 _let_284) (= _let_284 _let_283) (= _let_283 _let_282) (= _let_282 _let_282) (= _let_282 _let_281) (= _let_281 _let_281) (= _let_281 _let_279) (= _let_279 _let_279) (= _let_279 _let_280) (= _let_280 _let_280) (= _let_280 _let_279) (= _let_278 _let_279) (= _let_279 _let_278) (= _let_278 _let_278) (= _let_278 _let_203) (= _let_203 _let_203) (= _let_203 _let_277) (= _let_277 _let_277) (= _let_277 _let_276) (= _let_276 _let_276) (= _let_276 _let_275) (= _let_275 _let_275) (= _let_274 _let_275) (= _let_275 _let_274) (= _let_274 _let_274) (= _let_274 _let_57) (= _let_57 _let_55) (= _let_55 _let_57) (= _let_53 _let_57) (= _let_57 _let_53) (= _let_53 _let_273) (= _let_273 _let_273) (= _let_273 _let_53) (= _let_53 _let_272) (= _let_272 _let_273) (= _let_273 _let_272) (= _let_272 _let_272) (= _let_272 _let_56) (= _let_56 _let_56) (= _let_56 _let_270) (= _let_270 _let_217) (= _let_217 _let_217) (= _let_218 _let_215) (= _let_268 _let_215) (= _let_215 _let_268) (= _let_268 _let_268) (= _let_268 _let_216) (= _let_216 _let_216) (= _let_216 _let_234) (= _let_234 _let_234) (= _let_267 _let_267) (= _let_267 _let_234) (= _let_234 _let_267) (= _let_267 _let_266) (= _let_265 _let_266) (= _let_266 _let_266) (= _let_266 _let_265) (= _let_265 _let_264) (= _let_263 _let_264) (= _let_264 _let_263) (= _let_263 _let_262) (= _let_262 _let_262) (= _let_262 _let_259) (= _let_259 _let_262) (= _let_262 _let_261) (= _let_261 _let_260) (= _let_260 _let_259) (= _let_259 _let_259) (= _let_259 _let_258) (= _let_258 _let_258) (= _let_258 _let_256) (= _let_256 _let_256) (= _let_256 _let_257) (= _let_257 _let_257) (= _let_257 _let_256) (= _let_255 _let_256) (= _let_256 _let_255) (= _let_255 _let_255) (= _let_255 _let_254) (= _let_254 _let_254) (= _let_254 _let_253) (= _let_252 _let_253) (= _let_253 _let_253) (= _let_253 _let_252) (= _let_252 _let_251) (= _let_251 _let_251) (= _let_251 _let_250) (= _let_250 _let_250) (= _let_250 _let_249) (= _let_249 _let_248) (= _let_248 _let_248) (= _let_248 _let_247) (= _let_247 _let_247) (= _let_247 _let_246) (= _let_246 _let_246) (= _let_246 _let_244) (= _let_244 _let_243) (= _let_243 _let_243) (= _let_243 _let_175) (= _let_175 _let_242) (= _let_242 _let_177) (= _let_177 _let_242) (= _let_242 _let_175) (= _let_177 _let_177) (= _let_175 _let_173) (= _let_173 _let_177) (= _let_173 _let_173) (= _let_173 _let_241) (= _let_241 _let_241) (= _let_241 _let_240) (= _let_240 _let_240) (= _let_240 _let_239) (= _let_239 _let_100) (= _let_100 _let_238) (= _let_238 _let_238) (= _let_238 _let_237) (= _let_237 _let_237) (= _let_183 _let_237) (= _let_237 _let_182) (= _let_182 _let_237) (= _let_237 _let_183) (= _let_183 _let_183) (= _let_183 _let_236) (= _let_236 _let_182) (= _let_182 _let_236) (= _let_236 _let_236) (= _let_236 _let_235) (= _let_235 _let_235) (= _let_235 _let_234) (= _let_233 _let_234) (= _let_234 _let_233) (= _let_231 _let_233) (= _let_233 _let_233) (= _let_233 _let_231) (= _let_231 _let_230) (= _let_230 _let_230) (= _let_230 _let_228) (= _let_228 _let_228) (= _let_228 _let_226) (= _let_226 _let_226) (= _let_226 _let_225) (= _let_225 _let_225) (= _let_225 _let_224) (= _let_223 _let_224) (= _let_224 _let_223) (= _let_221 _let_223) (= _let_223 _let_221) (= _let_221 _let_221) (= _let_221 _let_219) (= _let_219 _let_219) (= _let_219 _let_217) (= _let_217 _let_218) (= _let_218 _let_218) (= _let_218 _let_217) (= _let_217 _let_216) (= _let_215 _let_216) (= _let_216 _let_215) (= _let_215 _let_215) (= _let_214 _let_215) (= _let_215 _let_214) (= _let_214 _let_214) (= _let_214 _let_213) (= _let_213 _let_213) (= _let_213 _let_211) (= _let_209 _let_211) (= _let_211 _let_209) (= _let_207 _let_209) (= _let_209 _let_207) (= _let_207 _let_205) (= _let_203 _let_205) (= _let_205 _let_205) (= _let_205 _let_203) (= _let_203 _let_202) (= _let_202 _let_202) (= _let_200 _let_202) (= _let_202 _let_200) (= _let_200 _let_198) (= _let_198 _let_197) (= _let_197 _let_197) (= _let_195 _let_197) (= _let_197 _let_195) (= _let_195 _let_195) (= _let_193 _let_195) (= _let_195 _let_193) (= _let_193 _let_191) (= _let_191 _let_190) (= _let_190 _let_190) (= _let_190 _let_188) (= _let_188 _let_189) (= _let_189 _let_188) (= _let_187 _let_188) (= _let_188 _let_188) (= _let_188 _let_187) (= _let_187 _let_187) (= _let_187 _let_186) (= _let_186 _let_186) (= _let_186 _let_185) (= _let_185 _let_186) (= _let_186 _let_182) (= _let_182 _let_185) (= _let_185 _let_185) (= _let_185 _let_182) (= _let_182 _let_182) (= _let_182 _let_183) (= _let_183 _let_182) (= _let_182 _let_181) (= _let_181 _let_181) (= _let_181 _let_179) (= _let_179 _let_179) (= _let_178 _let_179) (= _let_179 _let_178) (= _let_178 _let_177) (= _let_177 _let_175) (= _let_175 _let_177) (= _let_177 _let_173) (= _let_173 _let_175) (= _let_175 _let_171) (= _let_171 _let_171) (= _let_171 _let_173) (= _let_173 _let_171) (= _let_170 _let_171) (= _let_171 _let_170) (= _let_170 _let_169) (= _let_169 _let_169) (= _let_167 _let_169) (= _let_169 _let_167) (= _let_167 _let_163) (= _let_163 _let_165) (= _let_165 _let_165) (= _let_165 _let_163) (= _let_163 _let_60) (= _let_60 _let_162) (= _let_162 _let_162) (= _let_158 _let_162) (= _let_162 _let_158) (= _let_161 _let_158) (= _let_158 _let_161) (= _let_160 _let_161) (= _let_161 _let_161) (= _let_161 _let_160) (= _let_154 _let_160) (= _let_160 _let_160) (= _let_160 _let_154) (= _let_159 _let_155) (= _let_155 _let_159) (= _let_159 _let_159) (= _let_159 _let_158) (= _let_158 _let_158) (= _let_158 _let_157) (= _let_157 _let_157) (= _let_157 _let_156) (= _let_156 _let_155) (= _let_155 _let_156) (= _let_156 _let_154) (= _let_154 _let_155) (= _let_155 _let_155) (= _let_155 _let_154) (= _let_154 _let_154) (= _let_154 _let_153) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_132 _let_152) (= _let_152 _let_152) (= _let_152 _let_132) (= _let_132 _let_133) (= _let_133 _let_133) (= _let_133 _let_151) (= _let_151 _let_151) (= _let_151 _let_150) (= _let_149 _let_150) (= _let_150 _let_149) (= _let_148 _let_149) (= _let_149 _let_149) (= _let_149 _let_148) (= _let_148 _let_148) (= _let_147 _let_148) (= _let_148 _let_147) (= _let_147 _let_147) (= _let_146 _let_147) (= _let_147 _let_146) (= _let_145 _let_146) (= _let_146 _let_145) (= _let_145 _let_145) (= _let_145 _let_144) (= _let_144 _let_143) (= _let_143 _let_142) (= _let_142 _let_142) (= _let_141 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_138) (= _let_138 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_137 _let_138) (= _let_138 _let_137) (= _let_137 _let_137) (= _let_136 _let_137) (= _let_137 _let_136) (= _let_136 _let_136) (= _let_135 _let_136) (= _let_136 _let_135) (= _let_133 _let_135) (= _let_135 _let_135) (= _let_135 _let_133) (= _let_133 _let_132) (= _let_132 _let_132) (= _let_132 _let_130) (= _let_130 _let_130) (= _let_130 _let_127) (= _let_127 _let_128) (= _let_128 _let_127) (= _let_127 _let_126) (= _let_126 _let_126) (= _let_125 _let_126) (= _let_126 _let_125) (= _let_125 _let_125) (= _let_125 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_120 _let_121) (= _let_119 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_116) (= _let_118 _let_117) (= _let_117 _let_118) (= _let_118 _let_116) (= _let_114 _let_116) (= _let_114 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_112 _let_116) (= _let_116 _let_114) (= _let_114 _let_112) (= _let_112 _let_112) (= _let_112 _let_111) (= _let_109 _let_111) (= _let_111 _let_109) (= _let_109 _let_107) (= _let_107 _let_107) (= _let_105 _let_107) (= _let_107 _let_105) (= _let_105 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_103) (= _let_101 _let_103) (= _let_103 _let_103) (= _let_103 _let_101) (= _let_101 _let_101) (= _let_101 _let_102) (= _let_102 _let_101) (= _let_101 _let_100) (= _let_100 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_95) (= _let_93 _let_93) (= _let_93 _let_95) (= _let_95 _let_93) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_87) (= _let_87 _let_87) (= _let_87 _let_91) (= _let_91 _let_91) (= _let_91 _let_89) (= _let_87 _let_89) (= _let_89 _let_89) (= _let_89 _let_87) (= _let_87 _let_85) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_81 _let_83) (= _let_83 _let_83) (= _let_83 _let_81) (= _let_81 _let_81) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_78 _let_80) (= _let_80 _let_78) (= _let_78 _let_77) (= _let_75 _let_77) (= _let_77 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_60) (= _let_60 _let_63) (= _let_63 _let_60) (= _let_60 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_56) (= _let_56 _let_53) (= _let_53 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_42 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_31 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_24 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_14 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) 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(tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.oxygen_1 _let_2) (tptp.entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.result_2 _let_135 _let_1) (tptp.result_2 _let_132 _let_1) (not (= _let_128 _let_117)) (not (= _let_117 _let_128)) (tptp.called_2 _let_22 |tptp.'C-O'|) (tptp.has_function_2 _let_28 _let_128) (tptp.in_event_2 _let_81 X) (not (= _let_124 _let_121)) (not (= _let_121 _let_124)) (not (= _let_120 _let_123)) (not (= _let_123 _let_120)) (tptp.called_2 _let_180 |tptp.'C-O'|) (tptp.time_before_2 _let_182 _let_189) (tptp.time_before_2 _let_187 _let_186) (tptp.time_before_2 _let_188 _let_187) (tptp.time_during_2 _let_53 _let_188) (tptp.next_event_2 _let_53 _let_7) (tptp.time_during_2 _let_7 _let_187) (tptp.time_during_2 _let_160 _let_186) (tptp.by_means_of_2 _let_75 _let_72) (tptp.destination_2 _let_75 _let_184) (tptp.origin_2 _let_75 _let_185) (tptp.is_outside_2 _let_185 _let_179) (tptp.is_inside_2 _let_184 _let_179) 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_let_1)) (tptp.has_atom_2 _let_140 _let_144) (tptp.electronegativity_2 _let_144 _let_145) (tptp.greater_than_or_equal_to_2 _let_146 _let_145) (tptp.greater_than_2 _let_146 _let_145) (not (= _let_142 _let_1)) (not (= _let_142 _let_140)) (not (= _let_140 _let_1)) (tptp.has_region_2 _let_1 _let_143) (tptp.is_inside_2 _let_107 _let_143) (not (= _let_1 _let_142)) (not (= _let_140 _let_142)) (not (= _let_1 _let_140)) (not (= _let_140 _let_139)) (not (= _let_139 _let_140)) (not (= _let_141 _let_140)) (not (= _let_1 _let_141)) (not (= _let_141 _let_1)) (not (= _let_140 _let_141)) (tptp.result_2 X _let_136) (tptp.structural_complexity_2 _let_136 _let_137) (tptp.structural_complexity_2 _let_138 _let_137) (not (= _let_139 _let_138)) (not (= _let_138 _let_139)) (tptp.result_2 _let_135 _let_19) (tptp.result_2 _let_134 _let_3) (tptp.agent_2 _let_128 _let_28) (tptp.result_2 _let_126 _let_31) (tptp.has_reduced_form_2 _let_1 _let_101) (tptp.has_oxidized_form_2 _let_101 _let_1) (not (= _let_1 _let_101)) (not (= _let_101 _let_1)) (tptp.has_state_2 _let_1 _let_101) (tptp.has_region_2 _let_1 _let_116) (tptp.is_inside_2 _let_114 _let_116) (tptp.is_between_2 _let_19 _let_114) (tptp.result_2 _let_113 _let_19) (tptp.result_2 _let_113 _let_1) (tptp.possesses_2 _let_1 _let_111) (tptp.quantity_2 _let_111 _let_98) (tptp.directly_proportional_2 _let_103 _let_98) (tptp.speed_2 _let_109 _let_103) (tptp.object_2 _let_109 _let_1) (not (= _let_107 _let_92)) (not (= _let_92 _let_107)) (tptp.has_part_2 _let_1 _let_107) (tptp.possesses_2 _let_1 _let_3) (tptp.is_between_2 _let_3 _let_92) (tptp.has_state_2 _let_101 _let_1) (tptp.has_function_2 _let_180 _let_121) (tptp.result_2 _let_120 _let_180) (tptp.agent_2 _let_120 _let_118) (tptp.object_2 _let_117 _let_118) (tptp.agent_2 _let_117 _let_22) (tptp.agent_2 _let_124 _let_181) (tptp.result_2 _let_123 _let_181) (tptp.agent_2 _let_123 _let_118) (tptp.object_2 _let_122 _let_118) (tptp.has_function_2 _let_26 _let_122) (tptp.object_2 _let_128 _let_118) (tptp.is_between_2 _let_181 _let_118) (tptp.has_function_2 _let_181 _let_124) (tptp.object_2 _let_124 _let_118) (tptp.is_between_2 _let_28 _let_118) (tptp.agent_2 _let_126 _let_118) (tptp.result_2 _let_125 _let_28) (tptp.agent_2 _let_130 _let_118) (tptp.is_between_2 _let_180 _let_118) (tptp.agent_2 _let_121 _let_180) (tptp.object_2 _let_121 _let_118) (tptp.is_between_2 _let_31 _let_118) (tptp.agent_2 _let_125 _let_118) (tptp.has_function_2 _let_31 _let_129) (tptp.result_2 _let_131 _let_19) (tptp.result_2 _let_132 _let_3) (tptp.result_2 _let_7 _let_133) (= _let_162 _let_76) (= _let_179 _let_178) (= _let_1 _let_13) (= _let_162 _let_74) (= _let_129 _let_37) (= _let_1 _let_11) (= _let_173 _let_82) (= _let_140 _let_54) (= _let_75 _let_177) (= _let_162 _let_73) (= _let_176 _let_85) (= _let_176 _let_84) (= _let_170 _let_79) (= _let_175 _let_83) (= _let_138 _let_9) (= _let_141 _let_56) (= _let_131 _let_45) (= _let_19 _let_15) (= (tptp.fn_eukaryotic_pyruvate_oxidation_51 X) (tptp.fn_pyruvate_oxidation_47 X)) (= _let_114 _let_17) (= _let_117 _let_24) (= _let_3 _let_15) (= (tptp.fn_eukaryotic_pyruvate_oxidation_12 X) (tptp.fn_pyruvate_oxidation_14 X)) (= (tptp.fn_eukaryotic_pyruvate_oxidation_11 X) (tptp.fn_pyruvate_oxidation_13 X)) (= _let_175 _let_41) (= _let_134 _let_45) (= (tptp.fn_eukaryotic_pyruvate_oxidation_104 X) (tptp.fn_pyruvate_oxidation_30 X)) (= _let_125 _let_41) (= _let_130 _let_43) (= _let_22 _let_172) (= _let_174 (tptp.fn_pyruvate_oxidation_10 X)) (= _let_7 _let_47) (= _let_173 _let_80) (= _let_31 _let_172) (= _let_129 _let_24) (= _let_122 _let_38) (= _let_26 (tptp.fn_pyruvate_oxidation_64 X)) (= _let_171 (tptp.fn_pyruvate_oxidation_90 X)) (= _let_170 _let_78) (= _let_169 (tptp.fn_pyruvate_oxidation_58 X)) (= _let_168 _let_43) (= _let_167 _let_41) (= _let_166 (tptp.fn_pyruvate_oxidation_89 X)) (= _let_165 _let_23) (= _let_165 _let_37) (= _let_165 _let_24) (= _let_164 _let_38) (= _let_118 _let_35) (= _let_163 _let_25) (= _let_118 _let_34) (= _let_163 _let_27) (= _let_163 _let_77) (= _let_118 _let_36) (= _let_162 _let_71) (= _let_161 (tptp.fn_pyruvate_oxidation_88 X)) (= _let_160 (tptp.fn_pyruvate_oxidation_77 X)) (= _let_133 _let_49) (= _let_159 (tptp.fn_pyruvate_oxidation_7 X)) (= _let_158 (tptp.fn_pyruvate_oxidation_74 X)) (= _let_157 _let_70) (= _let_157 _let_69) (= _let_156 (tptp.fn_pyruvate_oxidation_15 X)) (= _let_155 (tptp.fn_pyruvate_oxidation_22 X)) (= _let_154 (tptp.fn_pyruvate_oxidation_27 X)) (= _let_153 (tptp.fn_pyruvate_oxidation_28 X)) (= _let_152 (tptp.fn_pyruvate_oxidation_21 X)) (= _let_151 _let_68) (= _let_151 _let_67) (= _let_148 _let_65) (= _let_150 _let_57) (= _let_150 _let_55) (= _let_138 _let_52) (= _let_149 _let_51) (= _let_149 _let_66) (= _let_1 _let_9) (= _let_7 _let_46) (= _let_148 _let_64) (= _let_147 _let_63) (= _let_147 _let_62) (= _let_146 _let_61) (= _let_145 _let_59) (= _let_146 _let_60) (= _let_145 _let_58) (= _let_144 (tptp.fn_pyruvate_oxidation_34 X)) (= _let_107 _let_17) (= _let_143 (tptp.fn_pyruvate_oxidation_23 X)) (= _let_142 _let_56) (= _let_140 _let_8) (= _let_1 _let_8) (= _let_141 _let_57) (= _let_1 _let_6) (= _let_141 _let_55) (= _let_140 _let_52) (= _let_139 _let_56) (= _let_138 _let_51) (= _let_137 (tptp.fn_pyruvate_oxidation_57 X)) (= _let_136 (tptp.fn_pyruvate_oxidation_87 X)) (= _let_135 _let_44) (= _let_134 _let_50) (= _let_126 _let_40) (= _let_133 _let_48) (= _let_132 _let_50) (= _let_131 _let_44) (= _let_130 _let_40) (= _let_118 _let_33) (= _let_121 _let_42) (= _let_125 _let_40) (= _let_118 _let_32) (= _let_129 _let_42) (= _let_128 _let_127) (= _let_118 _let_30) (= _let_124 _let_127) (= _let_126 _let_39) (= _let_118 _let_29) (= _let_125 _let_39) (= _let_124 _let_37) (= _let_123 _let_83) (= _let_118 _let_27) (= _let_122 _let_37) (= _let_121 _let_23) (= _let_120 _let_119) (= _let_118 _let_25) (= _let_117 _let_23) (= _let_116 _let_115) (= _let_114 _let_21) (= _let_114 _let_20) (= _let_114 _let_16) (= _let_19 _let_14) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_5) (= _let_107 _let_18) (= _let_107 _let_16) (= _let_106 _let_105) (= _let_92 _let_5) (= _let_92 _let_4) (= _let_3 _let_14) (= (tptp.fn_eukaryotic_pyruvate_oxidation_102 X) _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= (tptp.fn_eukaryotic_pyruvate_oxidation_101 X) _let_99) (= _let_98 _let_97) (= _let_96 _let_95) (= _let_94 _let_93) (= _let_92 _let_2) (= _let_91 _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_41) (= _let_41 _let_82) (= _let_82 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_23) (= _let_23 _let_37) (= _let_24 _let_77) (= _let_77 _let_77) (= _let_77 _let_25) (= _let_25 _let_27) (= _let_27 _let_77) (= _let_77 _let_76) (= _let_76 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_55) (= _let_55 _let_57) (= _let_57 _let_55) (= _let_55 _let_66) (= _let_66 _let_51) (= _let_51 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_8) (= _let_52 _let_8) (= _let_8 _let_52) (= _let_52 _let_9) (= _let_9 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_45) (= _let_45 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_40) (= _let_40 _let_37) (= _let_37 _let_24) (= _let_24 _let_24) (= _let_24 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_34) (= _let_35 _let_36) (= _let_36 _let_34) (= _let_36 _let_35) (= _let_34 _let_36) (= _let_36 _let_36) (= _let_36 _let_32) (= _let_32 _let_29) (= _let_34 _let_25) (= _let_25 _let_35) (= _let_35 _let_27) (= _let_27 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_17) (= _let_17 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_16 _let_20) (= _let_20 _let_16) (= _let_14 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_5) (= _let_5 _let_5) (= _let_16 _let_5) (= _let_5 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_ribosome_2 X))) (=> (tptp.eukaryotic_ribosome_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Ribosome'|) (tptp.user_description_2 X |tptp.'These are the ribosome molecule found in an Eukaryote. They are slightly larger than the ribosomes found in Prokaryotes'|) (tptp.concept2words_2 X |tptp.'eukaryotic ribosome'|) (tptp.concept2words_2 X |tptp.'eukaryotic-ribosome'|) (tptp.ribosome_1 X) (not (tptp.prokaryotic_ribosome_1 X)) (tptp.size_value_1 _let_1) (tptp.the_scalar_value_2 _let_1 tptp.big_0) (tptp.scalar_unit_class_2 _let_1 tptp.prokaryotic_ribosome_0) (tptp.size_2 X _let_1) (= (tptp.fn_eukaryotic_ribosome_1 X) (tptp.fn_ribosome_1 X)) (= _let_1 (tptp.fn_ribosome_5 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.site_2 X X1) (tptp.transcription_1 X) (tptp.nucleus_1 X1)) (and (tptp.eukaryotic_transcription_1 X) (= (tptp.fn_eukaryotic_transcription_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_transcription_3 X))) (let ((_let_2 (tptp.fn_nucleus_3 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_transcription_5 X))) (let ((_let_4 (tptp.fn_eukaryotic_transcription_4 X))) (let ((_let_5 (tptp.fn_eukaryotic_transcription_1 X))) (=> (tptp.eukaryotic_transcription_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Transcription'|) (tptp.user_description_2 X |tptp.'The synthesis of RNA using a DNA template in the nucleus of the cell.'|) (tptp.concept2words_2 X |tptp.'transcription in eukaryotes'|) (tptp.concept2words_2 X tptp.transcribe) (tptp.concept2words_2 X |tptp.'eukaryotic transcription'|) (tptp.concept2words_2 X |tptp.'eukaryotic-transcription'|) (tptp.transcription_1 X) (tptp.dna_1 _let_5) (tptp.nucleus_1 _let_1) (tptp.transcription_termination_in_eukaryotes_1 _let_4) (tptp.eukaryotic_transcription_initiation_1 _let_3) (tptp.synthesis_of_rna_1 _let_2) (tptp.is_inside_2 _let_5 _let_1) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_3) (tptp.site_2 X _let_1) (= _let_4 (tptp.fn_transcription_20 X)) (= _let_3 (tptp.fn_transcription_1 X)) (= X _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_transcription_initiation_4 X))) (let ((_let_2 (tptp.fn_eukaryotic_transcription_initiation_5 X))) (let ((_let_3 (tptp.fn_eukaryotic_transcription_initiation_8 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_eukaryotic_transcription_initiation_7 X))) (let ((_let_6 (tptp.fn_eukaryotic_transcription_initiation_6 X))) (let ((_let_7 (tptp.fn_attach_2 _let_6))) (let ((_let_8 (tptp.fn_detach_2 _let_2))) (let ((_let_9 (tptp.fn_eukaryotic_transcription_initiation_10 X))) (let ((_let_10 (tptp.fn_attach_1 _let_3))) (let ((_let_11 (tptp.fn_eukaryotic_transcription_initiation_9 X))) (let ((_let_12 (tptp.fn_eukaryotic_transcription_initiation_3 X))) (let ((_let_13 (tptp.fn_eukaryotic_transcription_initiation_1 X))) (let ((_let_14 (tptp.fn_eukaryotic_transcription_initiation_2 X))) (=> (tptp.eukaryotic_transcription_initiation_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Transcription-Initiation'|) (tptp.user_description_2 X |tptp.'The events that begin the process of RNA synthesis including the binding of RNA polymerase to a collection of proteins, called transcription factors, that are bound to the DNA molecule at the promotor sequence .'|) (tptp.concept2words_2 X |tptp.'eukaryotic transcription initiation'|) (tptp.concept2words_2 X |tptp.'eukaryotic-transcription-initiation'|) (tptp.transcription_initiation_1 X) (tptp.create_1 _let_13) (tptp.tata_box_1 _let_14) (tptp.eukaryote_1 _let_12) (tptp.eukaryotic_gene_activation_1 _let_1) (tptp.cellular_process_1 _let_1) (tptp.detach_1 _let_2) (tptp.attach_1 _let_6) (tptp.promoter_1 _let_5) (tptp.attach_1 _let_3) (tptp.rna_polymerase_1 _let_11) (tptp.dna_strand_1 _let_9) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_4) (tptp.subevent_2 _let_1 _let_13) (tptp.subevent_2 _let_1 _let_3) (tptp.subevent_2 _let_1 _let_6) (tptp.next_event_2 _let_6 _let_3) (tptp.site_2 _let_6 _let_14) (tptp.causes_2 _let_3 _let_13) (tptp.experiencer_2 X _let_12) (tptp.object_2 _let_3 _let_11) (tptp.base_2 _let_2 _let_9) (tptp.base_2 _let_6 _let_5) (tptp.base_2 _let_3 _let_5) (tptp.subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_2) (tptp.subevent_2 X _let_2) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_5 _let_7) (= _let_5 _let_4) (= _let_2 (tptp.fn_transcription_initiation_5 X)) (= _let_1 (tptp.fn_transcription_initiation_7 X))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_translation_20 X))) (let ((_let_2 (tptp.fn_eukaryotic_translation_20 X))) (let ((_let_3 (tptp.fn_cell_14 _let_2))) (let ((_let_4 (tptp.fn_translation_23 X))) (let ((_let_5 (tptp.fn_anabolic_pathway_5 X))) (let ((_let_6 (tptp.fn_translation_12 X))) (let ((_let_7 (tptp.fn_polymer_synthesis_24 X))) (let ((_let_8 (tptp.fn_translation_16 X))) (let ((_let_9 (tptp.fn_polymer_synthesis_11 X))) (let ((_let_10 (tptp.fn_translation_28 X))) (let ((_let_11 (tptp.fn_polymer_synthesis_19 X))) (let ((_let_12 (tptp.fn_translation_36 X))) (let ((_let_13 (tptp.fn_translation_11 X))) (let ((_let_14 (tptp.fn_polymer_synthesis_22 X))) (let ((_let_15 (tptp.fn_translation_15 X))) (let ((_let_16 (tptp.fn_polymer_synthesis_7 X))) (let ((_let_17 (tptp.fn_polymer_synthesis_20 X))) (let ((_let_18 (tptp.fn_translation_18 X))) (let ((_let_19 (tptp.fn_eukaryotic_translation_13 X))) (let ((_let_20 (tptp.fn_functional_group_1 _let_19))) (let ((_let_21 (tptp.fn_polymer_synthesis_18 X))) (let ((_let_22 (tptp.fn_translation_27 X))) (let ((_let_23 (tptp.fn_polymer_synthesis_12 X))) (let ((_let_24 (tptp.fn_hydroxyl_group_4 _let_19))) (let ((_let_25 (tptp.fn_eukaryotic_translation_29 X))) (let ((_let_26 (tptp.fn_eukaryotic_translation_23 X))) (let ((_let_27 (tptp.fn_eukaryotic_translation_27 X))) (let ((_let_28 (tptp.fn_eukaryotic_translation_28 X))) (let ((_let_29 (tptp.fn_eukaryotic_translation_25 X))) (let ((_let_30 (tptp.fn_eukaryotic_translation_26 X))) (let ((_let_31 (tptp.fn_eukaryotic_translation_35 X))) (let ((_let_32 (tptp.fn_eukaryotic_translation_32 X))) (let ((_let_33 (tptp.fn_eukaryotic_translation_14 X))) (let ((_let_34 (tptp.fn_eukaryotic_translation_8 X))) (let ((_let_35 (tptp.fn_eukaryotic_translation_33 X))) (let ((_let_36 (tptp.fn_eukaryotic_translation_11 X))) (let ((_let_37 (tptp.fn_eukaryotic_translation_9 X))) (let ((_let_38 (tptp.fn_eukaryotic_translation_31 X))) (let ((_let_39 (tptp.fn_eukaryotic_translation_30 X))) (let ((_let_40 (tptp.fn_eukaryotic_translation_34 X))) (let ((_let_41 (tptp.fn_eukaryotic_translation_19 X))) (let ((_let_42 (tptp.fn_eukaryotic_translation_18 X))) (let ((_let_43 (tptp.fn_eukaryotic_translation_12 X))) (let ((_let_44 (tptp.fn_eukaryotic_translation_10 X))) (let ((_let_45 (tptp.fn_eukaryotic_cell_31 _let_2))) (let ((_let_46 (tptp.fn_eukaryotic_translation_24 X))) (let ((_let_47 (tptp.fn_eukaryotic_translation_21 X))) (let ((_let_48 (tptp.fn_add_1 _let_47))) (let ((_let_49 (tptp.fn_eukaryotic_translation_22 X))) (let ((_let_50 (tptp.fn_eukaryotic_translation_4 X))) (let ((_let_51 (tptp.fn_eukaryotic_translation_6 X))) (let ((_let_52 (tptp.fn_eukaryotic_translation_5 X))) (let ((_let_53 (tptp.fn_eukaryotic_translation_3 X))) (let ((_let_54 (tptp.fn_eukaryotic_translation_2 X))) (let ((_let_55 (tptp.fn_eukaryotic_translation_1 X))) (=> (tptp.eukaryotic_translation_1 X) (and (tptp.original_name_2 X |tptp.'Eukaryotic-Translation'|) (tptp.user_description_2 X |tptp.'The synthesis of a polypeptide using the genetic information encoded in an mRNA molecule. The nucleotide code is translated into a particular sequence of amino acids.'|) (tptp.concept2words_2 X |tptp.'protein synthesis in eukaryotes'|) (tptp.concept2words_2 X |tptp.'translation in eukaryotes'|) (tptp.concept2words_2 X |tptp.'translation in eukaryotic cell'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'eukaryotic translation'|) (tptp.concept2words_2 X |tptp.'eukaryotic-translation'|) (tptp.translation_1 X) (tptp.rna_splicing_1 _let_55) (tptp.post_transcriptional_modification_of_rna_1 _let_54) (tptp.polyadenylation_1 _let_53) (tptp.time_interval_1 _let_50) (tptp.time_interval_1 _let_52) (tptp.time_interval_1 _let_51) (tptp.monomer_1 _let_34) (tptp.reactant_1 _let_37) (tptp.chemical_bond_1 _let_44) (tptp.polar_covalent_bond_1 _let_44) (tptp.structural_complexity_value_1 _let_36) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.oxygen_1 _let_43) (tptp.hydroxyl_group_1 _let_19) (tptp.monomer_1 _let_33) (tptp.quantity_value_1 _let_42) (tptp.quantity_value_1 _let_41) (tptp.cell_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.add_1 _let_47) (tptp.five_prime_cap_1 _let_49) (tptp.ribosome_1 _let_26) (tptp.mixture_1 _let_46) (tptp.cytoplasm_1 _let_46) (tptp.polymer_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.polypeptide_1 _let_29) (tptp.dehydration_reaction_1 _let_30) (tptp.translation_elongation_1 _let_27) (tptp.translation_termination_1 _let_28) (tptp.translation_initiation_1 _let_25) (tptp.chemical_entity_1 _let_39) (tptp.amino_acid_1 _let_39) (tptp.monomer_1 _let_39) (tptp.monomer_1 _let_38) (tptp.free_energy_1 _let_32) (tptp.structural_complexity_value_1 _let_35) (tptp.free_energy_1 _let_40) (tptp.molecule_1 _let_31) (tptp.polar_molecule_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.water_molecule_1 _let_31) (tptp.spatial_entity_1 _let_48) (tptp.mixture_1 _let_45) (tptp.cytoplasm_1 _let_45) (tptp.oxygen_1 _let_24) (tptp.chemical_entity_1 _let_20) (tptp.ribosome_1 _let_3) (tptp.site_2 X _let_46) (tptp.site_2 X _let_26) (tptp.subevent_2 X _let_55) (tptp.subevent_2 X _let_54) (tptp.subevent_2 X _let_53) (tptp.subevent_2 X _let_47) (tptp.instrument_2 X _let_26) (tptp.time_during_2 _let_27 _let_51) (tptp.time_during_2 _let_28 _let_50) (tptp.time_during_2 _let_25 _let_52) (tptp.time_before_2 _let_52 _let_51) (tptp.time_before_2 _let_51 _let_50) (tptp.object_2 _let_47 _let_49) (tptp.has_region_2 _let_39 _let_19) (tptp.base_2 X _let_2) (tptp.has_part_2 _let_2 _let_26) (tptp.has_part_2 _let_2 _let_46) (tptp.is_inside_2 _let_43 _let_19) (tptp.structural_complexity_2 _let_39 _let_36) (tptp.plays_2 _let_39 _let_37) (tptp.raw_material_2 _let_30 _let_39) (tptp.possesses_2 _let_39 _let_44) (tptp.called_2 _let_41 |tptp.'FE_r'|) (tptp.has_state_2 _let_39 _let_38) (tptp.quantity_2 _let_32 _let_42) (not (= _let_31 _let_39)) (not (= _let_39 _let_31)) (not (= _let_34 _let_39)) (not (= _let_39 _let_34)) (tptp.has_part_2 _let_39 _let_43) (tptp.is_between_2 _let_44 _let_43) (tptp.raw_material_2 X _let_39) (tptp.possesses_2 _let_39 _let_40) (tptp.quantity_2 _let_40 _let_41) (tptp.greater_than_2 _let_42 _let_41) (tptp.called_2 _let_42 |tptp.'FE_p'|) (tptp.raw_material_2 X _let_34) (tptp.subevent_2 X _let_28) (tptp.has_part_2 _let_29 _let_38) (tptp.in_event_2 _let_37 X) (tptp.structural_complexity_2 _let_31 _let_35) (tptp.result_2 X _let_31) (tptp.result_2 X _let_29) (tptp.structural_complexity_2 _let_29 _let_35) (tptp.greater_than_2 _let_35 _let_36) (tptp.result_2 _let_30 _let_31) (tptp.possesses_2 _let_31 _let_32) (tptp.possesses_2 _let_29 _let_32) (tptp.has_part_2 _let_29 _let_33) (tptp.has_state_2 _let_34 _let_33) (tptp.subevent_2 X _let_27) (tptp.next_event_2 _let_25 _let_27) (tptp.first_subevent_2 X _let_25) (tptp.subevent_2 X _let_30) (tptp.result_2 _let_30 _let_29) (tptp.subevent_2 X _let_25) (tptp.site_2 _let_25 _let_26) (tptp.instrument_2 _let_27 _let_26) (tptp.next_event_2 _let_27 _let_28) (tptp.result_2 _let_28 _let_29) (= _let_49 _let_48) (= _let_39 _let_20) (= _let_2 (tptp.fn_metabolic_pathway_1 X)) (= _let_26 _let_3) (= _let_46 _let_45) (= _let_43 _let_24) (= _let_30 _let_7) (= _let_38 _let_16) (= (tptp.fn_eukaryotic_translation_16 X) (tptp.fn_polymer_synthesis_6 X)) (= _let_32 _let_11) (= (tptp.fn_eukaryotic_translation_15 X) (tptp.fn_polymer_synthesis_5 X)) (= _let_31 _let_9) (= _let_34 _let_14) (= _let_44 (tptp.fn_polymer_synthesis_15 X)) (= _let_43 _let_23) (= _let_42 (tptp.fn_polymer_synthesis_9 X)) (= _let_41 (tptp.fn_polymer_synthesis_10 X)) (= _let_40 _let_22) (= _let_40 _let_21) (= _let_39 _let_18) (= _let_39 _let_17) (= _let_34 _let_13) (= _let_38 _let_15) (= _let_37 (tptp.fn_translation_13 X)) (= (tptp.fn_eukaryotic_translation_17 X) (tptp.fn_translation_37 X)) (= (tptp.fn_eukaryotic_translation_7 X) (tptp.fn_translation_10 X)) (= _let_36 (tptp.fn_translation_26 X)) (= _let_35 (tptp.fn_translation_29 X)) (= _let_29 _let_5) (= _let_34 _let_12) (= _let_33 (tptp.fn_translation_14 X)) (= _let_32 _let_10) (= _let_31 _let_8) (= _let_30 _let_6) (= _let_29 _let_4) (= _let_28 (tptp.fn_translation_19 X)) (= _let_27 (tptp.fn_translation_8 X)) (= _let_26 _let_1) (= _let_25 (tptp.fn_translation_17 X)) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eumetazoan_9 X))) (let ((_let_2 (tptp.fn_polypeptide_82 _let_1))) (let ((_let_3 (tptp.fn_polypeptide_83 _let_1))) (let ((_let_4 (tptp.fn_polypeptide_119 _let_1))) (let ((_let_5 (tptp.fn_polypeptide_126 _let_1))) (let ((_let_6 (tptp.fn_eumetazoan_8 X))) (let ((_let_7 (tptp.fn_amino_acid_24 _let_6))) (let ((_let_8 (tptp.fn_polypeptide_118 _let_1))) (let ((_let_9 (tptp.fn_polypeptide_44 _let_1))) (let ((_let_10 (tptp.fn_amino_acid_22 _let_6))) (let ((_let_11 (tptp.fn_amino_acid_28 _let_6))) (let ((_let_12 (tptp.fn_polypeptide_15 _let_1))) (let ((_let_13 (tptp.fn_amino_acid_27 _let_6))) (let ((_let_14 (tptp.fn_polypeptide_100 _let_1))) (let ((_let_15 (tptp.fn_amino_acid_11 _let_6))) (let ((_let_16 (tptp.fn_polypeptide_125 _let_1))) (let ((_let_17 (tptp.fn_amino_acid_17 _let_6))) (let ((_let_18 (tptp.fn_eumetazoan_28 X))) (let ((_let_19 (tptp.fn_animal_nutritional_requirement_62 _let_18))) (let ((_let_20 (tptp.fn_polypeptide_120 _let_1))) (let ((_let_21 (tptp.fn_polypeptide_101 _let_1))) (let ((_let_22 (tptp.fn_eumetazoan_10 X))) (let ((_let_23 (tptp.fn_cellular_work_utilizing_atp_41 _let_22))) (let ((_let_24 (tptp.fn_eumetazoan_15 X))) (let ((_let_25 (tptp.fn_cellular_respiration_36 _let_24))) (let ((_let_26 (tptp.fn_catabolic_pathway_9 _let_24))) (let ((_let_27 (tptp.fn_eumetazoan_14 X))) (let ((_let_28 (tptp.fn_phosphorylation_1 _let_27))) (let ((_let_29 (tptp.fn_phosphorylation_5 _let_27))) (let ((_let_30 (tptp.fn_eumetazoan_19 X))) (let ((_let_31 (tptp.fn_chemical_bond_2 _let_30))) (let ((_let_32 (tptp.fn_cellular_work_utilizing_atp_45 _let_22))) (let ((_let_33 (tptp.fn_eumetazoan_7 X))) (let ((_let_34 (tptp.fn_hold_2 _let_33))) (let ((_let_35 (tptp.fn_animal_nutritional_requirement_52 _let_18))) (let ((_let_36 (tptp.fn_animal_nutritional_requirement_54 _let_18))) (let ((_let_37 (tptp.fn_cellular_work_2 _let_22))) (let ((_let_38 (tptp.fn_eumetazoan_20 X))) (let ((_let_39 (tptp.fn_tissue_1 _let_38))) (let ((_let_40 (tptp.fn_eumetazoan_25 X))) (let ((_let_41 (tptp.fn_eumetazoan_24 X))) (let ((_let_42 (tptp.fn_eumetazoan_23 X))) (let ((_let_43 (tptp.fn_eumetazoan_27 X))) (let ((_let_44 (tptp.fn_eumetazoan_26 X))) (let ((_let_45 (tptp.fn_eumetazoan_29 X))) (let ((_let_46 (tptp.fn_eumetazoan_11 X))) (let ((_let_47 (tptp.fn_organic_molecule_2 _let_46))) (let ((_let_48 (tptp.fn_eumetazoan_18 X))) (let ((_let_49 (tptp.fn_organic_molecule_1 _let_46))) (let ((_let_50 (tptp.fn_eumetazoan_17 X))) (let ((_let_51 (tptp.fn_eumetazoan_12 X))) (let ((_let_52 (tptp.fn_molecule_10 _let_46))) (let ((_let_53 (tptp.fn_eumetazoan_4 X))) (let ((_let_54 (tptp.fn_organic_molecule_3 _let_46))) (let ((_let_55 (tptp.fn_eumetazoan_16 X))) (let ((_let_56 (tptp.fn_animal_nutritional_requirement_61 _let_18))) (let ((_let_57 (tptp.fn_eumetazoan_6 X))) (let ((_let_58 (tptp.fn_eumetazoan_5 X))) (let ((_let_59 (tptp.fn_animal_nutritional_requirement_48 _let_18))) (let ((_let_60 (tptp.fn_eumetazoan_2 X))) (let ((_let_61 (tptp.fn_animal_nutritional_requirement_53 _let_18))) (let ((_let_62 (tptp.fn_eumetazoan_3 X))) (let ((_let_63 (tptp.fn_animal_nutritional_requirement_60 _let_18))) (let ((_let_64 (tptp.fn_animal_nutritional_requirement_4 _let_18))) (let ((_let_65 (tptp.fn_eumetazoan_22 X))) (let ((_let_66 (tptp.fn_animal_nutritional_requirement_46 _let_18))) (let ((_let_67 (tptp.fn_eumetazoan_1 X))) (let ((_let_68 (tptp.fn_animal_nutritional_requirement_40 _let_18))) (let ((_let_69 (tptp.fn_animal_nutritional_requirement_6 _let_18))) (let ((_let_70 (tptp.fn_cellular_work_utilizing_atp_44 _let_22))) (let ((_let_71 (tptp.fn_eumetazoan_13 X))) (let ((_let_72 (tptp.fn_eumetazoan_21 X))) (let ((_let_73 (tptp.fn_eukaryotic_cell_32 _let_72))) (=> (tptp.eumetazoan_1 X) (and (tptp.original_name_2 X |tptp.'Eumetazoan'|) (tptp.user_description_2 X |tptp.'Any animal that has true tissues.'|) (tptp.concept2words_2 X tptp.eumetazoa) (tptp.concept2words_2 X tptp.eumetazoan) (tptp.animal_1 X) (tptp.protein_1 _let_67) (tptp.chemical_entity_1 _let_60) (tptp.carbohydrate_1 _let_60) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.hydrogen_1 _let_62) (tptp.entity_1 _let_53) (tptp.atom_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.oxygen_1 _let_53) (tptp.tangible_entity_1 _let_53) (tptp.entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.oxygen_1 _let_58) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.carbon_1 _let_57) (tptp.hold_together_1 _let_33) (tptp.hold_1 _let_33) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.monomer_1 _let_6) (tptp.molecule_1 _let_6) (tptp.amino_acid_1 _let_6) (tptp.organic_molecule_1 _let_1) (tptp.polypeptide_1 _let_1) (tptp.cellular_work_1 _let_22) (tptp.cellular_work_utilizing_atp_1 _let_22) (tptp.tangible_entity_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.ribonucleotide_1 _let_46) (tptp.nucleoside_triphosphate_1 _let_46) (tptp.atp_1 _let_46) (tptp.molecule_1 _let_46) (tptp.organic_molecule_1 _let_46) (tptp.energy_1 _let_51) (tptp.entity_1 _let_51) (tptp.chemical_energy_1 _let_51) (tptp.release_1 _let_71) (tptp.phosphorylation_1 _let_27) (tptp.cellular_respiration_1 _let_24) (tptp.carbon_skeleton_1 _let_55) (tptp.carbon_1 _let_50) (tptp.atom_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.chemical_bond_1 _let_30) (tptp.tissue_1 _let_38) (tptp.animal_cell_1 _let_72) (tptp.nutrition_1 _let_65) (tptp.tangible_entity_1 _let_42) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.oxygen_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.hydrogen_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.carbon_1 _let_40) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.hydrogen_1 _let_44) (tptp.tangible_entity_1 _let_43) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.nitrogen_1 _let_43) (tptp.animal_nutritional_requirement_1 _let_18) (tptp.tangible_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.oxygen_1 _let_45) (tptp.cellular_work_1 _let_73) (tptp.release_1 _let_70) (tptp.animal_1 _let_69) (tptp.polypeptide_1 _let_68) (tptp.organic_molecule_1 _let_68) (tptp.protein_1 _let_66) (tptp.nutrition_1 _let_64) (tptp.hold_together_1 _let_63) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.hydrogen_1 _let_61) (tptp.chemical_entity_1 _let_59) (tptp.carbohydrate_1 _let_59) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.carbon_1 _let_56) (tptp.carbon_skeleton_1 _let_54) (tptp.chemical_bond_1 _let_52) (tptp.carbon_1 _let_49) (tptp.atom_1 _let_47) (tptp.chemical_entity_1 _let_47) (tptp.eukaryotic_cell_1 _let_39) (tptp.cell_1 _let_37) (tptp.entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.oxygen_1 _let_36) (tptp.entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.tangible_entity_1 _let_34) (tptp.energy_1 _let_32) (tptp.entity_1 _let_32) (tptp.chemical_energy_1 _let_32) (tptp.chemical_energy_1 _let_31) (tptp.chemical_entity_1 _let_29) (tptp.molecule_1 _let_28) (tptp.organic_molecule_1 _let_26) (tptp.organic_molecule_1 _let_25) (tptp.molecule_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.ribonucleotide_1 _let_25) (tptp.nucleoside_triphosphate_1 _let_25) (tptp.atp_1 _let_25) (tptp.tangible_entity_1 _let_23) (tptp.molecule_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.organic_molecule_1 _let_23) (tptp.ribonucleotide_1 _let_23) (tptp.nucleoside_triphosphate_1 _let_23) (tptp.atp_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.oxygen_1 _let_21) (tptp.atom_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.hydrogen_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.nitrogen_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.nitrogen_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.nitrogen_1 _let_16) (tptp.oxygen_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.entity_1 _let_14) (tptp.oxygen_1 _let_14) (tptp.atom_1 _let_14) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.carbon_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.monomer_1 _let_3) (tptp.molecule_1 _let_3) (tptp.amino_acid_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.monomer_1 _let_2) (tptp.molecule_1 _let_2) (tptp.amino_acid_1 _let_2) (tptp.has_part_2 X _let_38) (tptp.subevent_2 _let_22 _let_27) (tptp.raw_material_2 _let_27 _let_46) (tptp.has_part_2 _let_38 _let_72) (tptp.base_2 _let_22 _let_72) (tptp.result_2 _let_24 _let_46) (tptp.subevent_2 _let_22 _let_71) (tptp.base_2 _let_71 _let_46) (tptp.raw_material_2 _let_22 _let_46) (tptp.raw_material_2 _let_22 _let_51) (tptp.agent_2 _let_65 X) (not (= _let_62 _let_53)) (not (= _let_53 _let_62)) (tptp.element_2 _let_18 _let_43) (tptp.result_2 _let_65 _let_60) (tptp.result_2 _let_65 _let_67) (tptp.has_part_2 _let_67 _let_1) (tptp.object_2 _let_33 _let_57) (tptp.object_2 _let_33 _let_58) (not (= _let_57 _let_58)) (not (= _let_58 _let_57)) (tptp.has_part_2 _let_60 _let_57) (tptp.has_part_2 _let_60 _let_58) (not (= _let_58 _let_62)) (tptp.has_part_2 _let_60 _let_62) (tptp.has_part_2 _let_60 _let_53) (not (= _let_62 _let_58)) (tptp.element_2 _let_18 _let_57) (not (= _let_53 _let_57)) (not (= _let_58 _let_53)) (not (= _let_53 _let_58)) (not (= _let_57 _let_53)) (tptp.has_part_2 _let_46 _let_50) (tptp.has_region_2 _let_46 _let_55) (tptp.is_inside_2 _let_50 _let_55) (not (= _let_44 _let_42)) (not (= _let_42 _let_40)) (not (= _let_40 _let_45)) (not (= _let_42 _let_44)) (not (= _let_40 _let_42)) (not (= _let_45 _let_40)) (tptp.has_part_2 _let_6 _let_45) (tptp.has_part_2 _let_1 _let_6) (not (= _let_41 _let_40)) (not (= _let_40 _let_43)) (not (= _let_43 _let_41)) (not (= _let_41 _let_43)) (not (= _let_44 _let_43)) (not (= _let_40 _let_41)) (not (= _let_43 _let_40)) (not (= _let_43 _let_44)) (not (= _let_40 _let_44)) (not (= _let_44 _let_41)) (not (= _let_41 _let_44)) (not (= _let_44 _let_40)) (tptp.has_part_2 _let_6 _let_44) (tptp.has_part_2 _let_6 _let_43) (not (= _let_42 _let_41)) (not (= _let_41 _let_42)) (tptp.has_part_2 _let_6 _let_41) (tptp.has_part_2 _let_6 _let_40) (not (= _let_42 _let_45)) (not (= _let_45 _let_44)) (not (= _let_44 _let_45)) (not (= _let_45 _let_42)) (tptp.has_part_2 _let_6 _let_42) (not (= _let_48 _let_50)) (not (= _let_50 _let_48)) (tptp.has_part_2 _let_46 _let_48) (tptp.possesses_2 _let_30 _let_51) (tptp.possesses_2 _let_46 _let_30) (tptp.object_2 _let_33 _let_53) (= _let_46 _let_29) (= _let_46 _let_28) (= _let_72 _let_39) (= _let_72 _let_37) (= _let_22 _let_73) (= _let_46 _let_26) (= _let_46 _let_25) (= _let_51 _let_32) (= _let_46 _let_23) (= _let_71 _let_70) (= X _let_69) (= _let_43 _let_19) (= _let_1 _let_68) (= _let_67 _let_66) (= _let_65 _let_64) (= _let_33 _let_63) (= _let_53 _let_36) (= _let_62 _let_61) (= _let_58 _let_35) (= _let_60 _let_59) (= _let_58 _let_36) (= _let_53 _let_35) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_53 _let_34) (= _let_30 _let_52) (= _let_51 _let_31) (= _let_50 _let_49) (= _let_48 _let_47) (= _let_42 _let_14) (= _let_42 _let_13) (= _let_42 _let_15) (= _let_40 _let_5) (= _let_45 _let_15) (= _let_45 _let_21) (= _let_45 _let_12) (= _let_6 _let_3) (= _let_41 _let_11) (= _let_41 _let_9) (= _let_44 _let_8) (= _let_41 _let_10) (= _let_44 _let_11) (= _let_44 _let_10) (= _let_44 _let_20) (= _let_43 _let_17) (= _let_43 _let_16) (= _let_42 _let_12) (= _let_41 _let_8) (= _let_40 _let_7) (= _let_6 _let_2) (= _let_40 _let_4) (= _let_39 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_15 _let_21) (= _let_21 _let_15) (= _let_15 _let_15) (= _let_12 _let_15) (= _let_15 _let_12) (= _let_8 _let_11) (= _let_11 _let_11) (= _let_11 _let_8) (= _let_8 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_europium_9 X))) (let ((_let_2 (tptp.fn_europium_12 X))) (let ((_let_3 (tptp.fn_europium_10 X))) (let ((_let_4 (tptp.fn_europium_11 X))) (let ((_let_5 (tptp.fn_europium_4 X))) (let ((_let_6 (tptp.fn_europium_5 X))) (let ((_let_7 (tptp.fn_europium_3 X))) (=> (tptp.europium_1 X) (and (tptp.original_name_2 X |tptp.'Europium'|) (tptp.user_description_2 X |tptp.'Europium is a metal atom with atomic number 63. It is represented by the symbol Eu.'|) (tptp.concept2words_2 X tptp.europium) (tptp.concept2words_2 X tptp.eu) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"89"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"63"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"63"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"9"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"152"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"63"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"152"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_europium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_europium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_europium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.euryarchaeota_1 X) (and (tptp.original_name_2 X |tptp.'Euryarchaeota'|) (tptp.user_description_2 X |tptp.'Phylum of archaen organisms, including methanogens, halophiles, and some thermophiles.'|) (tptp.concept2words_2 X tptp.euryarchaeota) (tptp.archaea_1 X) (not (tptp.crenarchaeota_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_euryhaline_1 X))) (let ((_let_2 (tptp.fn_osmoregulator_3 _let_1))) (=> (tptp.euryhaline_1 X) (and (tptp.original_name_2 X |tptp.'Euryhaline'|) (tptp.user_description_2 X |tptp.'Able to tolerate substantial changes in external osmolarity.'|) (tptp.concept2words_2 X tptp.euryhaline) (tptp.organism_1 X) (not (tptp.regulator_animal_1 X)) (tptp.osmoregulator_1 _let_1) (tptp.organism_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.eurypterid_1 X) (and (tptp.original_name_2 X |tptp.'Eurypterid'|) (tptp.user_description_2 X |tptp.'Member of an extinct group of chelicerates called sea scorpions.'|) (tptp.concept2words_2 X |tptp.'water scorpion'|) (tptp.concept2words_2 X |tptp.'water-scorpion'|) (tptp.concept2words_2 X tptp.eurypterid) (tptp.cheliceriform_1 X) (tptp.extinct_invertebrate_1 X) (not (tptp.arachnid_1 X)) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.eustachian_tube_1 X) (and (tptp.original_name_2 X |tptp.'Eustachian-Tube'|) (tptp.user_description_2 X |tptp.'The tube that links the middle ear and the nasopharynx.'|) (tptp.concept2words_2 X |tptp.'eustachian tube'|) (tptp.concept2words_2 X |tptp.'eustachian-tube'|) (tptp.sensory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.eutherian_1 X) (and (tptp.original_name_2 X |tptp.'Eutherian'|) (tptp.user_description_2 X |tptp.'A placental mammal, in which embryonic and fetal development occur within the uterus.'|) (tptp.concept2words_2 X tptp.eutherian) (tptp.mammal_1 X) (not (tptp.insectivora_1 X)) (not (tptp.lagomorpha_1 X)) (not (tptp.marsupial_1 X)) (not (tptp.monotreme_1 X))))) (forall ((X $$unsorted)) (=> (tptp.eutrophic_lake_1 X) (and (tptp.original_name_2 X |tptp.'Eutrophic-Lake'|) (tptp.user_description_2 X |tptp.'A lake that has a high rate of biological productivity supported by a high rate of nutrient cycling.'|) (tptp.concept2words_2 X |tptp.'eutrophic lake'|) (tptp.concept2words_2 X |tptp.'eutrophic-lake'|) (tptp.lake_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.eutrophication_1 X) (and (tptp.original_name_2 X |tptp.'Eutrophication'|) (tptp.user_description_2 X |tptp.'A process by which nutrients such as phosphate and nitrate become highly concentrated in a body of water. This results in rapid population increases of cyanobacteria and phytoplankton.'|) (tptp.concept2words_2 X tptp.eutrophication) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporation_12 X))) (let ((_let_2 (tptp.fn_locomotion_1 _let_1))) (let ((_let_3 (tptp.fn_evaporation_24 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_evaporation_10 X))) (let ((_let_6 (tptp.fn_attract_2 _let_5))) (let ((_let_7 (tptp.fn_evaporation_14 X))) (let ((_let_8 (tptp.fn_molecule_7 _let_7))) (let ((_let_9 (tptp.fn_evaporation_22 X))) (let ((_let_10 (tptp.fn_chemical_bond_4 _let_9))) (let ((_let_11 (tptp.fn_chemical_bond_1 _let_9))) (let ((_let_12 (tptp.fn_evaporation_11 X))) (let ((_let_13 (tptp.fn_molecule_7 _let_12))) (let ((_let_14 (tptp.fn_molecule_12 _let_7))) (let ((_let_15 (tptp.fn_evaporation_17 X))) (let ((_let_16 (tptp.fn_molecule_4 _let_7))) (let ((_let_17 (tptp.fn_evaporation_16 X))) (let ((_let_18 (tptp.fn_molecule_3 _let_7))) (let ((_let_19 (tptp.fn_evaporation_15 X))) (let ((_let_20 (tptp.fn_molecule_8 _let_7))) (let ((_let_21 (tptp.fn_evaporation_18 X))) (let ((_let_22 (tptp.fn_molecule_1 _let_7))) (let ((_let_23 (tptp.fn_evaporation_19 X))) (let ((_let_24 (tptp.fn_molecule_2 _let_7))) (let ((_let_25 (tptp.fn_chemical_bond_3 _let_9))) (let ((_let_26 (tptp.fn_evaporation_20 X))) (let ((_let_27 (tptp.fn_evaporation_21 X))) (let ((_let_28 (tptp.fn_evaporation_23 X))) (let ((_let_29 (tptp.fn_impair_1 _let_28))) (let ((_let_30 (tptp.fn_leave_1 _let_1))) (let ((_let_31 (tptp.fn_evaporation_13 X))) (let ((_let_32 (tptp.fn_attract_1 _let_5))) (let ((_let_33 (tptp.fn_evaporation_3 X))) (let ((_let_34 (tptp.fn_evaporation_4 X))) (let ((_let_35 (tptp.fn_evaporation_5 X))) (let ((_let_36 (tptp.fn_evaporation_8 X))) (let ((_let_37 (tptp.fn_evaporation_7 X))) (let ((_let_38 (tptp.fn_evaporation_6 X))) (=> (tptp.evaporation_1 X) (and (tptp.original_name_2 X |tptp.'Evaporation'|) (tptp.user_description_2 X |tptp.'A state change during which a liquid substance becomes a gas.'|) (tptp.concept2words_2 X tptp.vaporisation) (tptp.concept2words_2 X tptp.vaporization) (tptp.concept2words_2 X tptp.vaporise) (tptp.concept2words_2 X tptp.vaporize) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X tptp.evaporation) (tptp.change_of_state_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.rate_value_1 _let_33) (tptp.temperature_value_1 _let_34) (tptp.gas_substance_1 _let_35) (tptp.time_interval_1 _let_38) (tptp.time_interval_1 _let_37) (tptp.temperature_value_1 _let_36) (tptp.attract_1 _let_5) (tptp.entity_1 _let_12) (tptp.molecule_1 _let_12) (tptp.leave_1 _let_1) (tptp.liquid_substance_1 _let_31) (tptp.entity_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.molecule_1 _let_7) (tptp.speed_value_1 _let_19) (tptp.quantity_value_1 _let_17) (tptp.kinetic_energy_1 _let_15) (tptp.constant_motion_1 _let_21) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.hold_together_1 _let_26) (tptp.atom_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.tangible_entity_1 _let_9) (tptp.chemical_bond_1 _let_9) (tptp.break_1 _let_28) (tptp.move_1 _let_3) (tptp.entity_1 _let_32) (tptp.spatial_entity_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.hold_together_1 _let_25) (tptp.property_node_1 _let_24) (tptp.property_node_1 _let_22) (tptp.constant_motion_1 _let_20) (tptp.speed_value_1 _let_18) (tptp.quantity_value_1 _let_16) (tptp.kinetic_energy_1 _let_14) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_8) (tptp.entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.greater_than_2 _let_36 _let_34) (tptp.base_2 _let_5 _let_31) (not (= _let_12 _let_7)) (tptp.time_before_2 _let_38 _let_37) (tptp.time_during_2 _let_1 _let_37) (tptp.temperature_2 _let_35 _let_36) (tptp.object_2 X _let_31) (tptp.result_2 X _let_35) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_28) (tptp.rate_2 X _let_33) (tptp.has_part_2 _let_31 _let_7) (tptp.has_part_2 _let_31 _let_12) (tptp.temperature_2 _let_31 _let_34) (not (= _let_7 _let_12)) (tptp.directly_proportional_2 _let_34 _let_33) (tptp.next_event_2 _let_28 _let_1) (tptp.next_event_2 _let_3 _let_28) (tptp.object_2 _let_5 _let_12) (tptp.agent_2 _let_5 _let_7) (tptp.origin_2 _let_1 _let_31) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_28 _let_9) (tptp.object_2 _let_1 _let_7) (tptp.agent_2 _let_1 _let_7) (tptp.has_part_2 _let_12 _let_27) (tptp.agent_2 _let_26 _let_9) (tptp.is_between_2 _let_9 _let_23) (tptp.object_2 _let_26 _let_23) (tptp.object_2 _let_26 _let_27) (tptp.is_between_2 _let_9 _let_27) (tptp.has_function_2 _let_9 _let_26) (tptp.has_part_2 _let_7 _let_23) (tptp.possesses_2 _let_7 _let_15) (tptp.quantity_2 _let_15 _let_17) (tptp.directly_proportional_2 _let_19 _let_17) (tptp.speed_2 _let_21 _let_19) (tptp.object_2 _let_21 _let_7) (= _let_12 _let_32) (= _let_7 _let_6) (= _let_31 _let_30) (= _let_7 _let_4) (= _let_9 _let_29) (= _let_7 _let_2) (= _let_27 _let_13) (= _let_27 _let_11) (= _let_26 _let_25) (= _let_23 _let_10) (= (tptp.fn_evaporation_25 X) _let_24) (= _let_23 _let_8) (= (tptp.fn_evaporation_26 X) _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporation_13 X))) (let ((_let_2 (tptp.fn_evaporation_by_heat_11 X))) (let ((_let_3 (tptp.fn_heat_1 _let_2))) (let ((_let_4 (tptp.fn_evaporation_4 X))) (let ((_let_5 (tptp.fn_heat_4 _let_2))) (let ((_let_6 (tptp.fn_evaporation_8 X))) (let ((_let_7 (tptp.fn_heat_5 _let_2))) (let ((_let_8 (tptp.fn_evaporation_by_heat_13 X))) (let ((_let_9 (tptp.fn_evaporation_by_heat_8 X))) (let ((_let_10 (tptp.fn_evaporation_by_heat_7 X))) (let ((_let_11 (tptp.fn_evaporation_by_heat_6 X))) (let ((_let_12 (tptp.fn_evaporation_by_heat_12 X))) (let ((_let_13 (tptp.fn_evaporation_by_heat_10 X))) (let ((_let_14 (tptp.fn_evaporation_by_heat_9 X))) (let ((_let_15 (tptp.fn_evaporation_by_heat_16 X))) (let ((_let_16 (tptp.fn_evaporation_by_heat_5 X))) (let ((_let_17 (tptp.fn_evaporation_by_heat_4 X))) (let ((_let_18 (tptp.fn_evaporation_by_heat_3 X))) (=> (tptp.evaporation_by_heat_1 X) (and (tptp.original_name_2 X |tptp.'Evaporation-By-Heat'|) (tptp.user_description_2 X |tptp.'The vaporization of a liquid from its surface caused by the application of heat to the liquid.'|) (tptp.concept2words_2 X |tptp.'evaporation by heat'|) (tptp.concept2words_2 X |tptp.'evaporation-by-heat'|) (tptp.evaporation_1 X) (tptp.speed_value_1 _let_18) (tptp.intensity_value_1 _let_17) (tptp.temperature_value_1 _let_16) (tptp.attract_1 _let_11) (tptp.entity_1 _let_10) (tptp.molecule_1 _let_10) (tptp.entity_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.molecule_1 _let_9) (tptp.temperature_value_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.liquid_substance_1 _let_13) (tptp.heat_1 _let_2) (tptp.leave_1 _let_12) (tptp.move_1 _let_8) (tptp.rate_value_1 _let_15) (tptp.temperature_value_1 _let_7) (tptp.temperature_value_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.speed_2 _let_8 _let_18) (tptp.next_event_2 _let_2 _let_8) (tptp.intensity_2 _let_2 _let_17) (tptp.directly_proportional_2 _let_17 _let_18) (tptp.directly_proportional_2 _let_17 _let_15) (tptp.first_subevent_2 X _let_2) (tptp.subevent_2 X _let_2) (tptp.base_2 _let_2 _let_13) (tptp.from_value_2 _let_2 _let_14) (tptp.to_value_2 _let_2 _let_16) (tptp.greater_than_2 _let_16 _let_14) (tptp.origin_2 _let_12 _let_13) (tptp.base_2 _let_11 _let_13) (tptp.subevent_2 X _let_12) (tptp.object_2 X _let_13) (tptp.temperature_2 _let_13 _let_14) (tptp.directly_proportional_2 _let_14 _let_15) (tptp.rate_2 X _let_15) (tptp.object_2 _let_12 _let_9) (tptp.agent_2 _let_12 _let_9) (tptp.has_part_2 _let_13 _let_9) (tptp.has_part_2 _let_13 _let_10) (tptp.object_2 _let_11 _let_10) (tptp.subevent_2 X _let_8) (tptp.object_2 _let_8 _let_9) (tptp.agent_2 _let_11 _let_9) (not (= _let_10 _let_9)) (not (= _let_9 _let_10)) (= _let_13 _let_3) (= _let_14 _let_5) (= _let_16 _let_7) (= (tptp.fn_evaporation_by_heat_14 X) (tptp.fn_evaporation_2 X)) (= (tptp.fn_evaporation_by_heat_17 X) (tptp.fn_evaporation_1 X)) (= (tptp.fn_evaporation_by_heat_15 X) (tptp.fn_evaporation_9 X)) (= _let_16 _let_6) (= _let_15 (tptp.fn_evaporation_3 X)) (= _let_14 _let_4) (= _let_13 _let_1) (= _let_12 (tptp.fn_evaporation_12 X)) (= _let_11 (tptp.fn_evaporation_10 X)) (= _let_10 (tptp.fn_evaporation_11 X)) (= _let_9 (tptp.fn_evaporation_14 X)) (= _let_8 (tptp.fn_evaporation_24 X)) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_5 X))) (let ((_let_2 (tptp.fn_evaporation_12 _let_1))) (let ((_let_3 (tptp.fn_evaporation_24 _let_1))) (let ((_let_4 (tptp.fn_evaporation_13 _let_1))) (let ((_let_5 (tptp.fn_cool_1 X))) (let ((_let_6 (tptp.fn_evaporation_4 _let_1))) (let ((_let_7 (tptp.fn_cool_4 X))) (let ((_let_8 (tptp.fn_evaporative_cooling_14 X))) (let ((_let_9 (tptp.fn_evaporative_cooling_11 X))) (let ((_let_10 (tptp.fn_evaporation_14 _let_1))) (let ((_let_11 (tptp.fn_evaporative_cooling_13 X))) (let ((_let_12 (tptp.fn_evaporation_11 _let_1))) (let ((_let_13 (tptp.fn_evaporative_cooling_7 X))) (let ((_let_14 (tptp.fn_evaporation_17 _let_1))) (let ((_let_15 (tptp.fn_evaporative_cooling_12 X))) (let ((_let_16 (tptp.fn_evaporation_16 _let_1))) (let ((_let_17 (tptp.fn_evaporative_cooling_8 X))) (let ((_let_18 (tptp.fn_evaporation_25 _let_1))) (let ((_let_19 (tptp.fn_evaporative_cooling_6 X))) (let ((_let_20 (tptp.fn_evaporation_2 _let_1))) (let ((_let_21 (tptp.fn_evaporative_cooling_2 X))) (let ((_let_22 (tptp.fn_molecule_12 _let_13))) (let ((_let_23 (tptp.fn_evaporative_cooling_10 X))) (let ((_let_24 (tptp.fn_molecule_4 _let_13))) (let ((_let_25 (tptp.fn_evaporative_cooling_9 X))) (let ((_let_26 (tptp.fn_molecule_2 _let_13))) (let ((_let_27 (tptp.fn_evaporative_cooling_1 X))) (=> (tptp.evaporative_cooling_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling'|) (tptp.user_description_2 X |tptp.'Water evaporates from the surface of the liquid, resulting in cooling of the remaining water.'|) (tptp.concept2words_2 X |tptp.'cooling of water body'|) (tptp.concept2words_2 X |tptp.'cooling of body with water'|) (tptp.concept2words_2 X |tptp.'cooling through evaporation'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling'|) (tptp.cool_1 X) (tptp.surface_1 _let_27) (tptp.temperature_value_1 _let_21) (tptp.evaporation_1 _let_1) (tptp.temperature_value_1 _let_19) (tptp.entity_1 _let_13) (tptp.molecule_1 _let_13) (tptp.quantity_value_1 _let_17) (tptp.quantity_value_1 _let_25) (tptp.kinetic_energy_1 _let_23) (tptp.tangible_entity_1 _let_9) (tptp.liquid_substance_1 _let_9) (tptp.kinetic_energy_1 _let_15) (tptp.entity_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.molecule_1 _let_11) (tptp.move_1 _let_8) (tptp.leave_1 _let_8) (tptp.property_node_1 _let_26) (tptp.quantity_value_1 _let_24) (tptp.kinetic_energy_1 _let_22) (tptp.property_node_1 _let_20) (tptp.property_node_1 _let_18) (tptp.quantity_value_1 _let_16) (tptp.kinetic_energy_1 _let_14) (tptp.entity_1 _let_12) (tptp.molecule_1 _let_12) (tptp.entity_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.molecule_1 _let_10) (tptp.temperature_value_1 _let_6) (tptp.liquid_substance_1 _let_4) (tptp.move_1 _let_3) (tptp.leave_1 _let_2) (tptp.is_at_2 _let_11 _let_27) (tptp.has_region_2 _let_9 _let_27) (tptp.greater_than_2 _let_17 _let_25) (tptp.causes_2 _let_1 X) (tptp.base_2 X _let_9) (tptp.possesses_2 _let_13 _let_23) (tptp.quantity_2 _let_23 _let_25) (tptp.from_value_2 X _let_19) (tptp.greater_than_2 _let_19 _let_21) (tptp.to_value_2 X _let_21) (tptp.has_part_2 _let_9 _let_13) (tptp.object_2 _let_8 _let_11) (tptp.object_2 _let_1 _let_9) (tptp.temperature_2 _let_9 _let_19) (tptp.agent_2 _let_8 _let_11) (tptp.possesses_2 _let_11 _let_15) (tptp.quantity_2 _let_15 _let_17) (tptp.subevent_2 _let_1 _let_8) (tptp.origin_2 _let_8 _let_9) (tptp.has_part_2 _let_9 _let_11) (not (= _let_13 _let_11)) (not (= _let_11 _let_13)) (= _let_9 _let_5) (= (tptp.fn_evaporative_cooling_3 X) _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= (tptp.fn_evaporative_cooling_16 X) (tptp.fn_cool_2 X)) (= _let_21 (tptp.fn_cool_5 X)) (= _let_19 _let_7) (= (tptp.fn_evaporative_cooling_15 X) _let_20) (= _let_19 _let_6) (= (tptp.fn_evaporative_cooling_4 X) _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_4) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_in_terrestrial_organism_4 X))) (let ((_let_2 (tptp.fn_evaporative_cooling_from_human_skin_4 X))) (let ((_let_3 (tptp.fn_kinetic_energy_2 _let_2))) (let ((_let_4 (tptp.fn_evaporative_cooling_from_human_skin_6 X))) (let ((_let_5 (tptp.fn_decrease_3 _let_4))) (let ((_let_6 (tptp.fn_evaporative_cooling_from_human_skin_3 X))) (let ((_let_7 (tptp.fn_decrease_2 _let_4))) (let ((_let_8 (tptp.fn_evaporative_cooling_from_human_skin_7 X))) (let ((_let_9 (tptp.fn_evaporative_cooling_from_human_skin_5 X))) (let ((_let_10 (tptp.fn_evaporative_cooling_from_human_skin_2 X))) (let ((_let_11 (tptp.fn_evaporative_cooling_from_human_skin_1 X))) (=> (tptp.evaporative_cooling_from_human_skin_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-From-Human-Skin'|) (tptp.user_description_2 X |tptp.'The cooling of the bodies of terrestrial animals by the evaporation of water (sweat) from their skin.'|) (tptp.concept2words_2 X tptp.sweating) (tptp.concept2words_2 X tptp.perspiring) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling from human skin'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-from-human-skin'|) (tptp.evaporative_cooling_in_terrestrial_organism_1 X) (not (tptp.evaporative_cooling_from_leaf_1 X)) (tptp.skin_1 _let_11) (tptp.person_1 _let_10) (tptp.quantity_value_1 _let_6) (tptp.thermal_energy_1 _let_2) (tptp.damage_1 _let_9) (tptp.decrease_1 _let_4) (tptp.water_evaporation_1 _let_8) (tptp.property_node_1 _let_7) (tptp.property_value_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.next_event_2 _let_8 _let_4) (tptp.causes_2 _let_8 _let_4) (tptp.prevents_2 _let_4 _let_9) (tptp.quantity_2 _let_2 _let_6) (tptp.subevent_2 X _let_4) (tptp.site_2 X _let_11) (tptp.possesses_2 _let_10 _let_2) (tptp.base_2 X _let_10) (tptp.object_2 _let_9 _let_10) (tptp.prevents_2 X _let_9) (tptp.subevent_2 X _let_8) (tptp.from_value_2 _let_4 _let_6) (= _let_10 _let_3) (= _let_10 _let_1) (= _let_9 (tptp.fn_evaporative_cooling_in_terrestrial_organism_5 X)) (= _let_8 (tptp.fn_evaporative_cooling_in_terrestrial_organism_3 X)) (= (tptp.fn_evaporative_cooling_from_human_skin_8 X) _let_7) (= _let_6 _let_5) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_6 X))) (let ((_let_2 (tptp.fn_evaporative_cooling_from_leaf_4 X))) (let ((_let_3 (tptp.fn_plant_14 _let_2))) (let ((_let_4 (tptp.fn_evaporative_cooling_from_leaf_6 X))) (let ((_let_5 (tptp.fn_evaporative_cooling_from_leaf_5 X))) (let ((_let_6 (tptp.fn_evaporative_cooling_from_leaf_3 X))) (let ((_let_7 (tptp.fn_evaporative_cooling_from_leaf_1 X))) (let ((_let_8 (tptp.fn_evaporative_cooling_from_leaf_2 X))) (=> (tptp.evaporative_cooling_from_leaf_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-From-Leaf'|) (tptp.user_description_2 X |tptp.'Evaporation of water from the xylem in the leaf into the atmosphere to keep the leaf from burning in the sun.'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling from leaf'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-from-leaf'|) (tptp.evaporative_cooling_in_terrestrial_organism_1 X) (not (tptp.evaporative_cooling_from_human_skin_1 X)) (tptp.heat_1 _let_7) (tptp.thermal_energy_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.liquid_substance_1 _let_6) (tptp.terrestrial_plant_1 _let_2) (tptp.temperature_value_1 _let_5) (tptp.temperature_value_1 _let_4) (tptp.temperature_value_1 _let_3) (tptp.agent_2 _let_7 _let_8) (tptp.prevents_2 _let_7 X) (tptp.base_2 X _let_2) (tptp.temperature_2 _let_2 _let_4) (tptp.from_value_2 X _let_4) (tptp.greater_than_2 _let_4 _let_5) (tptp.to_value_2 X _let_5) (tptp.base_2 X _let_6) (tptp.temperature_2 _let_6 _let_4) (= _let_2 (tptp.fn_evaporative_cooling_in_terrestrial_organism_4 X)) (= _let_4 _let_3) (= (tptp.fn_evaporative_cooling_from_leaf_8 X) (tptp.fn_evaporative_cooling_15 X)) (= (tptp.fn_evaporative_cooling_from_leaf_7 X) (tptp.fn_evaporative_cooling_16 X)) (= _let_6 (tptp.fn_evaporative_cooling_11 X)) (= _let_5 (tptp.fn_evaporative_cooling_2 X)) (= _let_4 _let_1) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_in_lake_8 X))) (let ((_let_2 (tptp.fn_evaporative_cooling_in_lake_6 X))) (let ((_let_3 (tptp.fn_evaporative_cooling_in_lake_5 X))) (let ((_let_4 (tptp.fn_evaporative_cooling_in_lake_7 X))) (let ((_let_5 (tptp.fn_evaporative_cooling_in_lake_2 X))) (let ((_let_6 (tptp.fn_evaporative_cooling_in_lake_1 X))) (=> (tptp.evaporative_cooling_in_lake_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-In-Lake'|) (tptp.user_description_2 X |tptp.'Evaporation of water from the surface of the lake cooling the lake. This contributes to the stability of temperature in the lake.'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling in lake'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-in-lake'|) (tptp.evaporative_cooling_of_water_1 X) (not (tptp.evaporative_cooling_in_terrestrial_organism_1 X)) (not (tptp.evaporative_cooling_in_pond_1 X)) (tptp.lake_1 _let_6) (tptp.water_evaporation_1 _let_5) (tptp.tangible_entity_1 _let_3) (tptp.liquid_substance_1 _let_3) (tptp.temperature_value_1 _let_2) (tptp.evaporation_1 _let_4) (tptp.temperature_value_1 _let_1) (tptp.base_2 _let_5 _let_6) (tptp.subevent_2 X _let_5) (= (tptp.fn_evaporative_cooling_in_lake_3 X) (tptp.fn_evaporative_cooling_15 X)) (= (tptp.fn_evaporative_cooling_in_lake_4 X) (tptp.fn_evaporative_cooling_16 X)) (= _let_4 (tptp.fn_evaporative_cooling_5 X)) (= _let_3 (tptp.fn_evaporative_cooling_11 X)) (= _let_2 (tptp.fn_evaporative_cooling_2 X)) (= _let_1 (tptp.fn_evaporative_cooling_6 X))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.evaporative_cooling_of_water_1 X) (tptp.pond_1 X1)) (and (tptp.evaporative_cooling_in_pond_1 X) (= (tptp.fn_evaporative_cooling_in_pond_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_in_pond_7 X))) (let ((_let_2 (tptp.fn_evaporative_cooling_in_pond_6 X))) (let ((_let_3 (tptp.fn_evaporative_cooling_in_pond_5 X))) (let ((_let_4 (tptp.fn_evaporative_cooling_in_pond_4 X))) (let ((_let_5 (tptp.fn_evaporative_cooling_in_pond_2 X))) (let ((_let_6 (tptp.fn_evaporative_cooling_in_pond_1 X))) (=> (tptp.evaporative_cooling_in_pond_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-In-Pond'|) (tptp.user_description_2 X |tptp.'Evaporation of water from the surface of the pond cooling the pond. This contributes to the stability of temperature in the pond.'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling in pond'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-in-pond'|) (tptp.evaporative_cooling_of_water_1 X) (not (tptp.evaporative_cooling_in_lake_1 X)) (not (tptp.evaporative_cooling_in_terrestrial_organism_1 X)) (tptp.water_evaporation_1 _let_6) (tptp.pond_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.quantity_value_1 _let_3) (tptp.density_value_1 _let_2) (tptp.density_value_1 _let_1) (tptp.system_1 (tptp.fn_evaporative_cooling_in_pond_11 X)) (tptp.base_2 X _let_5) (tptp.subevent_2 X _let_6) (tptp.base_2 _let_6 _let_5) (= _let_4 _let_3) (tptp.called_2 _let_4 |tptp.'Quantity_H'|) (= _let_3 _let_4) (tptp.called_2 _let_3 |tptp.'Quantity_OH'|) (tptp.called_2 _let_2 |tptp.'Concentration_H'|) (tptp.called_2 _let_1 |tptp.'Concentration_OH'|)))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.evaporative_cooling_of_water_1 X) (tptp.terrestrial_organism_1 X1)) (and (tptp.evaporative_cooling_in_terrestrial_organism_1 X) (= (tptp.fn_evaporative_cooling_in_terrestrial_organism_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_in_terrestrial_organism_5 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (let ((_let_3 (tptp.fn_cool_1 X))) (let ((_let_4 (tptp.fn_evaporative_cooling_in_terrestrial_organism_4 X))) (let ((_let_5 (tptp.fn_evaporative_cooling_in_terrestrial_organism_2 X))) (let ((_let_6 (tptp.fn_evaporative_cooling_in_terrestrial_organism_3 X))) (=> (tptp.evaporative_cooling_in_terrestrial_organism_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-In-Terrestrial-Organism'|) (tptp.user_description_2 X |tptp.'Evaporation of water from the surface of a land-dwelling organism. This contributes to the stability of temperature in the organism.'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling in terrestrial organism'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-in-terrestrial-organism'|) (tptp.evaporative_cooling_of_water_1 X) (not (tptp.evaporative_cooling_in_lake_1 X)) (not (tptp.evaporative_cooling_in_pond_1 X)) (tptp.thermal_energy_1 _let_5) (tptp.water_evaporation_1 _let_6) (tptp.terrestrial_organism_1 _let_4) (tptp.damage_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.prevents_2 X _let_1) (tptp.subevent_2 X _let_6) (tptp.agent_2 _let_1 _let_5) (tptp.base_2 X _let_4) (tptp.object_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.evaporative_cooling_1 X) (tptp.water_1 X1)) (and (tptp.evaporative_cooling_of_water_1 X) (= (tptp.fn_evaporative_cooling_of_water_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evaporative_cooling_of_water_1 X))) (=> (tptp.evaporative_cooling_of_water_1 X) (and (tptp.original_name_2 X |tptp.'Evaporative-Cooling-Of-Water'|) (tptp.user_description_2 X |tptp.'The process in which the surface of an object becomes cooler during evaporation, a result of the molecules with the greatest kinetic energy changing from the liquid to the gaseous state.'|) (tptp.concept2words_2 X tptp.evaporate) (tptp.concept2words_2 X |tptp.'evaporative cooling of water'|) (tptp.concept2words_2 X |tptp.'evaporative-cooling-of-water'|) (tptp.evaporative_cooling_1 X) (tptp.water_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_evapotranspiration_7 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_evapotranspiration_9 X))) (let ((_let_4 (tptp.fn_evaporation_14 _let_3))) (let ((_let_5 (tptp.fn_water_84 _let_1))) (let ((_let_6 (tptp.fn_water_106 _let_1))) (let ((_let_7 (tptp.fn_water_83 _let_1))) (let ((_let_8 (tptp.fn_evaporation_11 _let_3))) (let ((_let_9 (tptp.fn_water_79 _let_1))) (let ((_let_10 (tptp.fn_evapotranspiration_21 X))) (let ((_let_11 (tptp.fn_polar_molecule_2 _let_10))) (let ((_let_12 (tptp.fn_water_81 _let_1))) (let ((_let_13 (tptp.fn_water_80 _let_1))) (let ((_let_14 (tptp.fn_water_molecule_63 _let_10))) (let ((_let_15 (tptp.fn_water_molecule_64 _let_10))) (let ((_let_16 (tptp.fn_water_molecule_72 _let_10))) (let ((_let_17 (tptp.fn_polar_molecule_3 _let_10))) (let ((_let_18 (tptp.fn_evaporation_12 _let_3))) (let ((_let_19 (tptp.fn_evaporation_24 _let_3))) (let ((_let_20 (tptp.fn_evapotranspiration_16 X))) (let ((_let_21 (tptp.fn_water_93 _let_1))) (let ((_let_22 (tptp.fn_evapotranspiration_23 X))) (let ((_let_23 (tptp.fn_water_92 _let_1))) (let ((_let_24 (tptp.fn_evapotranspiration_17 X))) (let ((_let_25 (tptp.fn_evapotranspiration_19 X))) (let ((_let_26 (tptp.fn_water_107 _let_1))) (let ((_let_27 (tptp.fn_evapotranspiration_18 X))) (let ((_let_28 (tptp.fn_evapotranspiration_15 X))) (let ((_let_29 (tptp.fn_evapotranspiration_14 X))) (let ((_let_30 (tptp.fn_evapotranspiration_12 X))) (let ((_let_31 (tptp.fn_water_molecule_1 _let_10))) (let ((_let_32 (tptp.fn_evapotranspiration_11 X))) (let ((_let_33 (tptp.fn_water_molecule_2 _let_10))) (let ((_let_34 (tptp.fn_water_molecule_3 _let_10))) (let ((_let_35 (tptp.fn_evapotranspiration_10 X))) (let ((_let_36 (tptp.fn_water_molecule_4 _let_10))) (let ((_let_37 (tptp.fn_evapotranspiration_13 X))) (let ((_let_38 (tptp.fn_evapotranspiration_22 X))) (let ((_let_39 (tptp.fn_evaporation_13 _let_3))) (let ((_let_40 (tptp.fn_evapotranspiration_20 X))) (let ((_let_41 (tptp.fn_electromagnetic_energy_3 _let_40))) (let ((_let_42 (tptp.fn_evapotranspiration_24 X))) (let ((_let_43 (tptp.fn_electromagnetic_energy_2 _let_40))) (let ((_let_44 (tptp.fn_evaporation_5 _let_3))) (let ((_let_45 (tptp.fn_evapotranspiration_8 X))) (let ((_let_46 (tptp.fn_evapotranspiration_1 X))) (let ((_let_47 (tptp.fn_evapotranspiration_2 X))) (let ((_let_48 (tptp.fn_evapotranspiration_3 X))) (=> (tptp.evapotranspiration_1 X) (and (tptp.original_name_2 X |tptp.'Evapotranspiration'|) (tptp.user_description_2 X |tptp.'The total evaporation of water from an ecosystem, including evaporation from soil and the outside of plants, as well as the transpiration of water from within plants through stomata.'|) (tptp.concept2words_2 X tptp.evapotranspiration) (tptp.water_cycle_process_1 X) (not (tptp.transpiration_1 X)) (tptp.landscape_1 _let_46) (tptp.transpiration_1 _let_47) (tptp.rate_value_1 _let_48) (tptp.liquid_substance_1 _let_1) (tptp.water_1 _let_1) (tptp.water_vapor_1 _let_45) (tptp.evaporation_1 _let_3) (tptp.shape_value_1 _let_35) (tptp.polarity_value_1 _let_32) (tptp.tangible_entity_1 _let_30) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.hydrogen_1 _let_30) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.oxygen_1 _let_37) (tptp.tangible_entity_1 _let_29) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.hydrogen_1 _let_29) (tptp.tangible_entity_1 _let_28) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.hydrogen_1 _let_28) (tptp.tangible_entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.hydrogen_1 _let_20) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.oxygen_1 _let_24) (tptp.hydrogen_bond_1 _let_27) (tptp.entity_1 _let_25) (tptp.molecule_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.tangible_entity_1 _let_25) (tptp.polar_molecule_1 _let_25) (tptp.hydrophilic_compound_1 _let_25) (tptp.water_molecule_1 _let_25) (tptp.sunlight_1 _let_40) (tptp.molecule_1 _let_10) (tptp.entity_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.polar_molecule_1 _let_10) (tptp.water_molecule_1 _let_10) (tptp.move_1 _let_38) (tptp.leave_1 _let_38) (tptp.temperature_value_1 _let_22) (tptp.quantity_value_1 _let_42) (tptp.gas_substance_1 _let_44) (tptp.property_node_1 _let_43) (tptp.quantity_value_1 _let_41) (tptp.liquid_substance_1 _let_39) (tptp.property_node_1 _let_36) (tptp.shape_value_1 _let_34) (tptp.property_node_1 _let_33) (tptp.polarity_value_1 _let_31) (tptp.hydrogen_bond_1 _let_26) (tptp.property_node_1 _let_23) (tptp.temperature_value_1 _let_21) (tptp.move_1 _let_19) (tptp.leave_1 _let_18) (tptp.atom_1 _let_17) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.hydrogen_1 _let_15) (tptp.entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.hydrogen_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.hydrogen_1 _let_12) (tptp.entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.oxygen_1 _let_9) (tptp.entity_1 _let_8) (tptp.molecule_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.polar_molecule_1 _let_7) (tptp.hydrophilic_compound_1 _let_7) (tptp.water_molecule_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_6) (tptp.entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.hydrogen_1 _let_5) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.directly_proportional_2 _let_48 _let_42) (tptp.directly_proportional_2 _let_48 _let_22) (tptp.rate_2 X _let_48) (tptp.subevent_2 X _let_47) (tptp.subevent_2 X _let_3) (tptp.base_2 _let_3 _let_46) (tptp.agent_2 _let_3 _let_40) (tptp.result_2 _let_3 _let_45) (not (= _let_25 _let_10)) (not (= _let_10 _let_25)) (tptp.quantity_2 _let_40 _let_42) (tptp.subevent_2 _let_3 _let_38) (tptp.agent_2 _let_38 _let_10) (tptp.object_2 _let_38 _let_10) (tptp.origin_2 _let_38 _let_1) (tptp.object_2 _let_3 _let_1) (not (= _let_29 _let_30)) (not (= _let_30 _let_28)) (not (= _let_28 _let_30)) (not (= _let_30 _let_29)) (tptp.has_part_2 _let_10 _let_30) (tptp.has_part_2 _let_1 _let_10) (not (= _let_24 _let_29)) (not (= _let_29 _let_20)) (not (= _let_20 _let_29)) (tptp.same_type_2 _let_25 _let_10) (not (= _let_29 _let_24)) (tptp.has_part_2 _let_25 _let_29) (tptp.same_type_2 _let_10 _let_25) (not (= _let_20 _let_28)) (tptp.has_part_2 _let_25 _let_28) (not (= _let_28 _let_20)) (tptp.is_between_2 _let_27 _let_20) (tptp.possesses_2 _let_1 _let_27) (tptp.has_part_2 _let_1 _let_25) (tptp.is_between_2 _let_27 _let_24) (tptp.has_part_2 _let_25 _let_24) (tptp.temperature_2 _let_1 _let_22) (tptp.called_2 _let_10 |"1"|) (tptp.has_part_2 _let_10 _let_20) (tptp.has_part_2 _let_10 _let_37) (tptp.polarity_2 _let_10 _let_32) (tptp.correspondence_2 _let_32 _let_35) (tptp.shape_2 _let_10 _let_35) (tptp.the_categorical_value_2 _let_35 tptp.v_like_0) (not (= _let_37 _let_24)) (not (= _let_24 _let_37)) (= _let_45 _let_44) (= _let_25 _let_8) (= (tptp.fn_evapotranspiration_26 X) _let_43) (= _let_42 _let_41) (= _let_1 _let_39) (= _let_10 _let_4) (= _let_38 _let_19) (= _let_38 _let_18) (= _let_24 _let_11) (= _let_37 _let_17) (= _let_37 _let_16) (= (tptp.fn_evapotranspiration_5 X) _let_36) (= _let_35 _let_34) (= (tptp.fn_evapotranspiration_6 X) _let_33) (= _let_32 _let_31) (= _let_28 _let_14) (= _let_28 _let_13) (= _let_30 _let_15) (= _let_30 _let_6) (= _let_29 _let_12) (= _let_29 _let_13) (= _let_28 _let_12) (= _let_20 _let_6) (= _let_27 _let_26) (= _let_25 _let_7) (= _let_24 _let_9) (= (tptp.fn_evapotranspiration_25 X) _let_23) (= _let_22 _let_21) (= _let_10 _let_2) (= _let_20 _let_5) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_6) (= _let_6 _let_15) (= _let_15 _let_6) (= _let_6 _let_12) (= _let_12 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.event_1 X) (and (tptp.original_name_2 X |tptp.'Event'|) (tptp.concept2words_2 X tptp.measure) (tptp.concept2words_2 X tptp.role) (tptp.concept2words_2 X tptp.support) (tptp.concept2words_2 X |tptp.'sub event'|) (tptp.concept2words_2 X |tptp.'sub-event'|) (tptp.concept2words_2 X tptp.phase) (tptp.concept2words_2 X tptp.step) (tptp.concept2words_2 X tptp.stage) (tptp.concept2words_2 X tptp.pathway) (tptp.concept2words_2 X tptp.subevent) (tptp.concept2words_2 X tptp.prevent) (tptp.concept2words_2 X |tptp.'previous event'|) (tptp.concept2words_2 X tptp.objective) (tptp.concept2words_2 X |tptp.'next event'|) (tptp.concept2words_2 X |tptp.'next-event'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X |tptp.'event of in'|) (tptp.concept2words_2 X |tptp.'in event'|) (tptp.concept2words_2 X |tptp.'in-event'|) (tptp.concept2words_2 X |tptp.'has goal'|) (tptp.concept2words_2 X |tptp.'has-goal'|) (tptp.concept2words_2 X tptp.purpose) (tptp.concept2words_2 X tptp.function) (tptp.concept2words_2 X |tptp.'has function'|) (tptp.concept2words_2 X |tptp.'has-function'|) (tptp.concept2words_2 X |tptp.'first step'|) (tptp.concept2words_2 X |tptp.'first subevent'|) (tptp.concept2words_2 X |tptp.'first-subevent'|) (tptp.concept2words_2 X tptp.facilitate) (tptp.concept2words_2 X tptp.enable) (tptp.concept2words_2 X tptp.during) (tptp.concept2words_2 X tptp.cause) (tptp.concept2words_2 X tptp.mean) (tptp.concept2words_2 X tptp.means) (tptp.concept2words_2 X |tptp.'by means of'|) (tptp.concept2words_2 X |tptp.'by-means-of'|) (tptp.concept2words_2 X tptp.event) (tptp.thing_1 X) (not (tptp.concept_word_frame_1 X)) (not (tptp.temporal_entity_1 X)) (not (tptp.role_1 X)) (not (tptp.entity_1 X))))) (forall ((X $$unsorted)) (=> (tptp.eventproperty_1 X) (and (tptp.original_name_2 X |tptp.'EventProperty'|) (tptp.concept2words_2 X tptp.eventproperty) (tptp.property_1 X)))) (forall ((X $$unsorted)) (=> (tptp.evolution_1 X) (and (tptp.original_name_2 X |tptp.'Evolution'|) (tptp.user_description_2 X |tptp.'Descent with modification; the idea that living species are descendants of ancestral species that were different from the present-day ones; also defined more narrowly as the change in the genetic composition of a population from generation to generation.'|) (tptp.concept2words_2 X tptp.evolve) (tptp.concept2words_2 X tptp.evolution) (tptp.biology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.evolution_of_mitosis_hypothesis_1 X) (and (tptp.original_name_2 X |tptp.'Evolution-Of-Mitosis-Hypothesis'|) (tptp.user_description_2 X |tptp.'Hypothesis which seeks to explain the origin of eukaryotic evolution by comparing it to binary fission in prokaryotes.'|) (tptp.concept2words_2 X |tptp.'evolution of mitosis hypothesis'|) (tptp.concept2words_2 X |tptp.'evolution-of-mitosis-hypothesis'|) (tptp.hypothesis_1 X)))) (forall ((X $$unsorted)) (=> (tptp.evolutionary_developmental_biology_1 X) (and (tptp.original_name_2 X |tptp.'Evolutionary-Developmental-Biology'|) (tptp.user_description_2 X |tptp.'The interface between evolutionary biology and the study of how organisms develop. Involves the comparison of development in related groups of organisms and the formation of hypotheses as to how developmental processes evolved.'|) (tptp.concept2words_2 X |tptp.'evolutionary developmental biology'|) (tptp.concept2words_2 X |tptp.'evolutionary-developmental-biology'|) (tptp.evolution_1 X) (not (tptp.human_evolution_1 X)) (not (tptp.macroevolution_1 X)) (not (tptp.microevolution_1 X))))) (forall ((X $$unsorted)) (=> (tptp.evolutionary_process_1 X) (and (tptp.original_name_2 X |tptp.'Evolutionary-Process'|) (tptp.user_description_2 X |tptp.'A process related to biological evolution.'|) (tptp.concept2words_2 X |tptp.'evolutionary process'|) (tptp.concept2words_2 X |tptp.'evolutionary-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.evolutionary_representation_1 X) (and (tptp.original_name_2 X |tptp.'Evolutionary-Representation'|) (tptp.user_description_2 X |tptp.'A method of representing evolutionary data.'|) (tptp.concept2words_2 X |tptp.'evolutionary representation'|) (tptp.concept2words_2 X |tptp.'evolutionary-representation'|) (tptp.representation_of_data_1 X)))) (forall ((X $$unsorted)) (=> (tptp.exaptation_1 X) (and (tptp.original_name_2 X |tptp.'Exaptation'|) (tptp.user_description_2 X |tptp.'A structure that has evolved for a certain function but is co-opted for a different function.'|) (tptp.concept2words_2 X tptp.exaptation) (tptp.trait_1 X)))) (forall ((X $$unsorted)) (=> (tptp.excavata_1 X) (and (tptp.original_name_2 X |tptp.'Excavata'|) (tptp.user_description_2 X |tptp.'One of five major groups of eukaryotic organisms proposed in a current taxonomic scheme. Most excavates have two or more flagella and a characteristic ventral feeding groove.'|) (tptp.concept2words_2 X tptp.excavata) (tptp.eukaryotic_clade_1 X) (not (tptp.archaeplastid_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.unikonta_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exchange_4 X))) (let ((_let_2 (tptp.fn_transfer_1 _let_1))) (let ((_let_3 (tptp.fn_exchange_2 X))) (let ((_let_4 (tptp.fn_exchange_3 X))) (let ((_let_5 (tptp.fn_transfer_1 _let_4))) (let ((_let_6 (tptp.fn_exchange_1 X))) (=> (tptp.exchange_1 X) (and (tptp.original_name_2 X |tptp.'Exchange'|) (tptp.user_description_2 X |tptp.'The act of changing one thing for another thing.'|) (tptp.concept2words_2 X tptp.exchange) (tptp.alter_1 X) (tptp.entity_1 _let_6) (tptp.entity_1 _let_3) (tptp.transfer_1 _let_4) (tptp.transfer_1 _let_1) (tptp.entity_1 _let_5) (tptp.entity_1 _let_2) (tptp.object_2 X _let_6) (tptp.object_2 X _let_3) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_4 _let_6) (tptp.object_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.excited_nerve_cell_1 X) (and (tptp.original_name_2 X |tptp.'Excited-Nerve-Cell'|) (tptp.user_description_2 X |tptp.'Nerve cells when excited are called excited nerve cell.'|) (tptp.concept2words_2 X |tptp.'excited nerve cell'|) (tptp.concept2words_2 X |tptp.'excited nerve-cell'|) (tptp.concept2words_2 X |tptp.'excited-nerve-cell'|) (tptp.nerve_cell_1 X) (not (tptp.resting_nerve_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.excreted_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Excreted-Fluid'|) (tptp.user_description_2 X |tptp.'Fluids which are produced and eliminated from an organism as waste.'|) (tptp.concept2words_2 X |tptp.'excreted fluid'|) (tptp.concept2words_2 X |tptp.'excreted-fluid'|) (tptp.bodily_fluid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_excretion_4 X))) (let ((_let_2 (tptp.fn_waste_1 _let_1))) (let ((_let_3 (tptp.fn_excretion_2 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_excretion_3 X))) (let ((_let_6 (tptp.fn_move_out_of_1 _let_3))) (let ((_let_7 (tptp.fn_excretion_5 X))) (let ((_let_8 (tptp.fn_excretion_1 X))) (=> (tptp.excretion_1 X) (and (tptp.original_name_2 X |tptp.'Excretion'|) (tptp.user_description_2 X |tptp.'Excretion is the removal of waste products from an organism.'|) (tptp.concept2words_2 X tptp.excrete) (tptp.concept2words_2 X tptp.excretion) (tptp.animal_process_1 X) (tptp.biological_region_1 _let_8) (tptp.move_out_of_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.waste_1 _let_1) (tptp.organism_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.has_region_2 _let_7 _let_8) (tptp.object_2 X _let_5) (tptp.by_means_of_2 X _let_3) (tptp.base_2 X _let_7) (tptp.is_inside_2 _let_5 _let_7) (tptp.path_2 _let_3 _let_8) (tptp.base_2 _let_3 _let_7) (tptp.object_2 _let_3 _let_5) (tptp.plays_2 _let_5 _let_1) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_excretion_of_nitrogenous_waste_by_animal_2 X))) (let ((_let_2 (tptp.fn_excretion_of_nitrogenous_waste_by_animal_3 X))) (let ((_let_3 (tptp.fn_excretion_of_nitrogenous_waste_by_animal_1 X))) (=> (tptp.excretion_of_nitrogenous_waste_by_animal_1 X) (and (tptp.original_name_2 X |tptp.'Excretion-Of-Nitrogenous-Waste-By-Animal'|) (tptp.user_description_2 X |tptp.'Excretion of nitrogenous wastes is the process by which nitrogenous waste products of metabolism and other non-useful materials are eliminated from an organism in the form of ammonia, urea or other waste products.'|) (tptp.concept2words_2 X tptp.excrete) (tptp.concept2words_2 X |tptp.'excretion of nitrogenous waste by animal'|) (tptp.concept2words_2 X |tptp.'excretion-of-nitrogenous-waste-by-animal'|) (tptp.excretion_1 X) (tptp.urea_1 _let_3) (tptp.ammonia_1 _let_1) (tptp.animal_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_3) (tptp.object_2 X _let_1) (tptp.is_inside_2 _let_1 _let_2) (tptp.base_2 X _let_2) (= _let_2 (tptp.fn_excretion_5 X)) (= _let_1 (tptp.fn_excretion_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.excretory_organ_1 X) (and (tptp.original_name_2 X |tptp.'Excretory-Organ'|) (tptp.user_description_2 X |tptp.'Organ which is part of the excretory system of animals.'|) (tptp.concept2words_2 X |tptp.'excretory organ'|) (tptp.concept2words_2 X |tptp.'excretory-organ'|) (tptp.animal_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.excretory_system_1 X) (and (tptp.original_name_2 X |tptp.'Excretory-System'|) (tptp.user_description_2 X |tptp.'A system of organs responsible for the maintaneance of water balance and the removal of nitrogenous waste products of metabolism.'|) (tptp.concept2words_2 X |tptp.'excretory system'|) (tptp.concept2words_2 X |tptp.'excretory-system'|) (tptp.animal_system_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exergonic_process_2 X))) (let ((_let_2 (tptp.fn_exergonic_process_3 X))) (=> (tptp.exergonic_process_1 X) (and (tptp.original_name_2 X |tptp.'Exergonic-Process'|) (tptp.user_description_2 X |tptp.'A process in which there is a net release of free energy.'|) (tptp.concept2words_2 X |tptp.'spontaneous process'|) (tptp.concept2words_2 X |tptp.'spontaneous-process'|) (tptp.concept2words_2 X |tptp.'undergo exergonic process'|) (tptp.concept2words_2 X tptp.release) (tptp.concept2words_2 X |tptp.'exergonic process'|) (tptp.concept2words_2 X |tptp.'exergonic-process'|) (tptp.energy_related_process_1 X) (not (tptp.endergonic_process_1 X)) (tptp.free_energy_change_value_1 _let_1) (tptp.free_energy_1 _let_2) (tptp.free_energy_change_2 X _let_1) (tptp.result_2 X _let_2) (tptp.the_scalar_value_2 _let_1 tptp.negative_energy_0) (tptp.scalar_unit_class_2 _let_1 tptp.endergonic_process_0)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.free_energy_change_2 X X1) (tptp.free_energy_change_value_1 X1) (tptp.energy_reaction_1 X) (tptp.exergonic_process_1 X)) (and (tptp.exergonic_reaction_1 X) (= (tptp.fn_exergonic_reaction_8 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exergonic_reaction_8 X))) (let ((_let_2 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_3 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_4 (tptp.fn_exergonic_reaction_6 X))) (let ((_let_5 (tptp.fn_exergonic_reaction_3 X))) (let ((_let_6 (tptp.fn_exergonic_reaction_4 X))) (let ((_let_7 (tptp.fn_exergonic_reaction_5 X))) (=> (tptp.exergonic_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Exergonic-Reaction'|) (tptp.user_description_2 X |tptp.'An exergonic reaction is a chemical reaction where the change in the Gibbs free energy is negative, indicating a spontaneous reaction.'|) (tptp.concept2words_2 X |tptp.'favorable reaction'|) (tptp.concept2words_2 X |tptp.'favorable-reaction'|) (tptp.concept2words_2 X |tptp.'spontaneous reaction'|) (tptp.concept2words_2 X |tptp.'spontaneous-reaction'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'exergonic reaction'|) (tptp.concept2words_2 X |tptp.'exergonic-reaction'|) (tptp.exergonic_process_1 X) (tptp.energy_reaction_1 X) (tptp.chemical_energy_1 _let_5) (tptp.quantity_value_1 _let_6) (tptp.quantity_value_1 _let_7) (tptp.chemical_energy_1 _let_4) (tptp.free_energy_change_value_1 _let_1) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.negative_energy_0) (tptp.scalar_unit_class_2 _let_1 tptp.endergonic_reaction_0) (tptp.quantity_2 _let_4 _let_7) (tptp.greater_than_2 _let_6 _let_7) (tptp.quantity_2 _let_5 _let_6) (tptp.possesses_2 _let_3 _let_5) (tptp.possesses_2 _let_2 _let_4) (tptp.raw_material_2 X _let_3) (tptp.result_2 X _let_2) (tptp.free_energy_change_2 X _let_1) (= _let_3 (tptp.fn_chemical_reaction_2 X)) (= _let_2 (tptp.fn_chemical_reaction_1 X)) (= (tptp.fn_exergonic_reaction_9 X) (tptp.fn_exergonic_process_1 X)) (= _let_1 (tptp.fn_exergonic_process_2 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.exit_1 X) (and (tptp.original_name_2 X |tptp.'Exit'|) (tptp.concept2words_2 X |tptp.'go out'|) (tptp.concept2words_2 X |tptp.'get out'|) (tptp.concept2words_2 X tptp.exit) (tptp.concept2words_2 X tptp.go_out) (tptp.concept2words_2 X tptp.get_out) (tptp.concept2words_2 X tptp.leave) (tptp.move_out_of_1 X) (tptp.locomotion_1 X) (not (tptp.withdraw_1 X))))) (forall ((X $$unsorted)) (=> (tptp.exocrine_gland_1 X) (and (tptp.original_name_2 X |tptp.'Exocrine-Gland'|) (tptp.user_description_2 X |tptp.'Glands which have ducts to carry secreted substances onto body surfaces or into body cavities.'|) (tptp.concept2words_2 X |tptp.'exocrine gland'|) (tptp.concept2words_2 X |tptp.'exocrine-gland'|) (tptp.gland_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_bulk_transport_4 X))) (let ((_let_2 (tptp.fn_exocytosis_48 X))) (let ((_let_3 (tptp.fn_release_1 _let_2))) (let ((_let_4 (tptp.fn_bulk_transport_1 X))) (let ((_let_5 (tptp.fn_exocytosis_23 X))) (let ((_let_6 (tptp.fn_add_2 _let_5))) (let ((_let_7 (tptp.fn_exocytosis_27 X))) (let ((_let_8 (tptp.fn_make_contact_2 _let_7))) (let ((_let_9 (tptp.fn_exocytosis_26 X))) (let ((_let_10 (tptp.fn_plasma_membrane_65 _let_9))) (let ((_let_11 (tptp.fn_biomembrane_41 _let_9))) (let ((_let_12 (tptp.fn_exocytosis_31 X))) (let ((_let_13 (tptp.fn_cytoplasm_7 _let_12))) (let ((_let_14 (tptp.fn_bulk_transport_6 X))) (let ((_let_15 (tptp.fn_release_2 _let_2))) (let ((_let_16 (tptp.fn_bulk_transport_5 X))) (let ((_let_17 (tptp.fn_make_contact_1 _let_7))) (let ((_let_18 (tptp.fn_add_1 _let_5))) (let ((_let_19 (tptp.fn_exocytosis_21 X))) (let ((_let_20 (tptp.fn_reverse_reaction_7 _let_19))) (let ((_let_21 (tptp.fn_exocytosis_20 X))) (let ((_let_22 (tptp.fn_chemical_reaction_1 _let_21))) (let ((_let_23 (tptp.fn_forward_reaction_5 _let_21))) (let ((_let_24 (tptp.fn_reverse_reaction_6 _let_19))) (let ((_let_25 (tptp.fn_reverse_reaction_5 _let_19))) (let ((_let_26 (tptp.fn_forward_reaction_6 _let_21))) (let ((_let_27 (tptp.fn_exocytosis_35 X))) (let ((_let_28 (tptp.fn_organic_molecule_2 _let_27))) (let ((_let_29 (tptp.fn_exocytosis_42 X))) (let ((_let_30 (tptp.fn_organic_molecule_1 _let_27))) (let ((_let_31 (tptp.fn_exocytosis_41 X))) (let ((_let_32 (tptp.fn_organic_molecule_3 _let_27))) (let ((_let_33 (tptp.fn_exocytosis_39 X))) (let ((_let_34 (tptp.fn_molecule_4 _let_27))) (let ((_let_35 (tptp.fn_exocytosis_38 X))) (let ((_let_36 (tptp.fn_molecule_2 _let_27))) (let ((_let_37 (tptp.fn_molecule_3 _let_27))) (let ((_let_38 (tptp.fn_exocytosis_37 X))) (let ((_let_39 (tptp.fn_molecule_1 _let_27))) (let ((_let_40 (tptp.fn_molecule_12 _let_27))) (let ((_let_41 (tptp.fn_exocytosis_40 X))) (let ((_let_42 (tptp.fn_molecule_8 _let_27))) (let ((_let_43 (tptp.fn_exocytosis_43 X))) (let ((_let_44 (tptp.fn_exocytosis_30 X))) (let ((_let_45 (tptp.fn_cytoplasm_3 _let_12))) (let ((_let_46 (tptp.fn_exocytosis_29 X))) (let ((_let_47 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_let_29) (tptp.chemical_entity_1 _let_29) (tptp.constant_motion_1 _let_43) (tptp.organic_molecule_1 _let_50) (tptp.container_1 _let_57) (tptp.release_1 _let_2) (tptp.atom_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.cytoplasm_1 _let_59) (tptp.container_1 _let_56) (tptp.cellular_work_1 _let_48) (tptp.negatively_charged_region_1 _let_45) (tptp.constant_motion_1 _let_42) (tptp.kinetic_energy_1 _let_40) (tptp.property_node_1 _let_39) (tptp.speed_value_1 _let_37) (tptp.property_node_1 _let_36) (tptp.quantity_value_1 _let_34) (tptp.carbon_skeleton_1 _let_32) (tptp.carbon_1 _let_30) (tptp.atom_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.spatial_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.spatial_entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.chemical_entity_1 _let_22) (tptp.chemical_entity_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.cell_1 _let_13) (tptp.outside_face_1 _let_11) (tptp.extracellular_side_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_3) (tptp.origin_2 _let_2 _let_12) (tptp.destination_2 _let_2 _let_44) (tptp.time_during_2 _let_55 _let_64) (tptp.is_oriented_toward_2 _let_58 _let_12) (tptp.in_event_2 _let_76 X) (tptp.time_before_2 _let_70 _let_64) (tptp.time_before_2 _let_71 _let_70) (tptp.time_before_2 _let_64 _let_77) (tptp.time_before_2 _let_64 _let_67) (tptp.time_before_2 _let_67 _let_71) (tptp.time_before_2 _let_78 _let_77) (tptp.plays_2 _let_47 _let_76) (tptp.plays_2 _let_47 _let_75) (tptp.is_inside_2 _let_12 _let_9) (tptp.is_outside_2 _let_74 _let_9) (tptp.base_2 _let_73 _let_12) (tptp.possesses_2 _let_61 _let_72) (tptp.has_isomer_2 _let_61 _let_60) (tptp.time_during_2 _let_7 _let_71) (tptp.next_event_2 _let_7 _let_65) (tptp.raw_material_2 _let_65 _let_61) (tptp.time_during_2 _let_65 _let_70) (tptp.base_2 _let_65 _let_9) (tptp.agent_2 _let_65 _let_69) (tptp.next_event_2 _let_65 _let_5) (tptp.subevent_2 _let_65 _let_19) (tptp.subevent_2 _let_65 _let_21) (tptp.result_2 _let_65 _let_60) (tptp.has_part_2 _let_9 _let_61) (tptp.is_between_2 _let_9 _let_46) (tptp.is_outside_2 _let_9 _let_12) (tptp.has_region_2 _let_9 _let_58) (tptp.has_function_2 _let_9 X) (tptp.next_event_2 _let_54 _let_7) (tptp.path_2 _let_54 _let_68) (tptp.time_during_2 _let_54 _let_67) (tptp.first_subevent_2 X _let_55) (tptp.direction_2 X _let_66) (tptp.origin_2 X _let_12) (tptp.destination_2 X _let_44) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_65) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_5) (tptp.time_during_2 _let_5 _let_64) (tptp.next_event_2 _let_5 _let_2) (tptp.result_2 _let_19 _let_61) (tptp.raw_material_2 _let_21 _let_61) (tptp.base_2 _let_7 _let_9) (tptp.object_2 _let_5 _let_53) (tptp.object_2 _let_7 _let_53) (tptp.base_2 _let_5 _let_9) (tptp.has_part_2 _let_61 _let_63) (tptp.result_2 _let_21 _let_60) (tptp.raw_material_2 _let_19 _let_60) (tptp.is_facing_2 _let_58 _let_12) (tptp.base_2 _let_2 _let_47) (tptp.plays_2 _let_47 _let_57) (tptp.in_event_2 _let_57 _let_2) (tptp.object_2 _let_2 _let_27) (tptp.object_2 _let_54 _let_27) (tptp.subevent_2 X _let_55) (tptp.result_2 _let_55 _let_53) (tptp.is_inside_2 _let_27 _let_53) (tptp.object_2 X _let_27) (tptp.instrument_2 X _let_53) (tptp.agent_2 _let_54 _let_53) (tptp.path_2 X _let_9) (tptp.has_part_2 _let_47 _let_9) (tptp.has_part_2 _let_47 _let_53) (tptp.has_function_2 _let_53 _let_54) (tptp.subevent_2 X _let_54) (tptp.subevent_2 X _let_52) (tptp.next_event_2 _let_52 _let_49) (tptp.subevent_2 X _let_49) (tptp.base_2 _let_49 _let_50) (tptp.raw_material_2 X _let_50) (tptp.raw_material_2 X _let_51) (tptp.object_2 _let_52 _let_51) (tptp.has_part_2 _let_47 _let_12) (tptp.base_2 X _let_47) (not (= _let_31 _let_29)) (tptp.has_part_2 _let_27 _let_31) (tptp.has_region_2 _let_27 _let_33) (tptp.is_inside_2 _let_31 _let_33) (not (= _let_29 _let_31)) (tptp.has_part_2 _let_27 _let_29) (tptp.object_2 _let_43 _let_27) (tptp.speed_2 _let_43 _let_38) (tptp.directly_proportional_2 _let_38 _let_35) (tptp.quantity_2 _let_41 _let_35) (tptp.possesses_2 _let_27 _let_41) (tptp.is_outside_2 _let_44 _let_9) (tptp.has_region_2 _let_9 _let_44) (tptp.has_region_2 _let_12 _let_46) (= _let_61 _let_25) (= _let_61 _let_24) (= _let_61 _let_26) (= _let_61 _let_23) (= _let_9 _let_8) (= _let_53 _let_18) (= _let_53 _let_17) (= _let_9 _let_6) (= _let_63 _let_62) (= _let_60 _let_22) (= _let_60 _let_20) (= _let_12 _let_59) (= _let_27 _let_3) (= _let_57 _let_56) (= _let_47 _let_15) (= _let_27 _let_1) (= _let_55 (tptp.fn_bulk_transport_2 X)) (= _let_54 (tptp.fn_bulk_transport_3 X)) (= _let_53 _let_16) (= _let_47 _let_14) (= _let_9 _let_4) (= _let_52 (tptp.fn_cellular_work_11 X)) (= _let_51 (tptp.fn_cellular_work_15 X)) (= _let_50 (tptp.fn_cellular_work_10 X)) (= _let_49 (tptp.fn_cellular_work_12 X)) (= X _let_48) (= _let_47 _let_13) (= _let_46 _let_45) (= _let_44 _let_11) (= _let_44 _let_10) (= _let_43 _let_42) (= _let_41 _let_40) (= (tptp.fn_exocytosis_45 X) _let_39) (= _let_38 _let_37) (= (tptp.fn_exocytosis_46 X) _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exocytosis_48 X))) (let ((_let_2 (tptp.fn_exocytosis_18 X))) (let ((_let_3 (tptp.fn_exocytosis_33 X))) (let ((_let_4 (tptp.fn_bulk_transport_6 X))) (let ((_let_5 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_19 X))) (let ((_let_6 (tptp.fn_atp_28 _let_5))) (let ((_let_7 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_11 X))) (let ((_let_8 (tptp.fn_release_1 _let_7))) (let ((_let_9 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_22 X))) (let ((_let_10 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_7 X))) (let ((_let_11 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_6 X))) (let ((_let_12 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_12 X))) (let ((_let_13 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_17 X))) (let ((_let_14 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_14 X))) (let ((_let_15 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_13 X))) (let ((_let_16 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_16 X))) (let ((_let_17 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_15 X))) (let ((_let_18 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_21 X))) (let ((_let_19 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_20 X))) (let ((_let_20 (tptp.fn_atp_66 _let_5))) (let ((_let_21 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_10 X))) (let ((_let_22 (tptp.fn_atp_67 _let_5))) (let ((_let_23 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_9 X))) (let ((_let_24 (tptp.fn_atp_68 _let_5))) (let ((_let_25 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_8 X))) (let ((_let_26 (tptp.fn_atp_22 _let_5))) (let ((_let_27 (tptp.fn_atp_23 _let_5))) (let ((_let_28 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_18 X))) (let ((_let_29 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_4 X))) (let ((_let_30 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_2 X))) (let ((_let_31 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_3 X))) (let ((_let_32 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_5 X))) (let ((_let_33 (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_1 X))) (=> (tptp.exocytosis_of_polysaccharide_across_plasma_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Exocytosis-Of-Polysaccharide-Across-Plasma-Membrane'|) (tptp.user_description_2 X |tptp.'The cellular secretion of sugar polymer molecules by the fusion of vesicles containing them with the plasma membrane.'|) (tptp.concept2words_2 X |tptp.'perform exocytosis'|) (tptp.concept2words_2 X |tptp.'exocytosis of polysaccharide across plasma membrane'|) (tptp.concept2words_2 X |tptp.'exocytosis-of-polysaccharide-across-plasma-membrane'|) (tptp.exocytosis_1 X) (tptp.detach_1 _let_33) (tptp.dephosphorylation_of_atp_1 _let_30) (tptp.attach_1 _let_31) (tptp.phosphorylation_of_protein_1 _let_29) (tptp.change_1 _let_32) (tptp.time_interval_1 _let_11) (tptp.time_interval_1 _let_10) (tptp.constant_motion_1 _let_25) (tptp.speed_value_1 _let_23) (tptp.quantity_value_1 _let_21) (tptp.release_1 _let_7) (tptp.carry_1 _let_12) (tptp.fusion_1 _let_15) (tptp.make_contact_1 _let_14) (tptp.rearrangement_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.cell_1 _let_16) (tptp.transport_vesicle_1 _let_13) (tptp.polysaccharide_1 _let_28) (tptp.organic_molecule_1 _let_5) (tptp.atp_1 _let_5) (tptp.thermal_energy_1 _let_19) (tptp.consume_1 _let_18) (tptp.produce_1 _let_9) (tptp.property_node_1 _let_27) (tptp.property_node_1 _let_26) (tptp.constant_motion_1 _let_24) (tptp.speed_value_1 _let_22) (tptp.quantity_value_1 _let_20) (tptp.tangible_entity_1 _let_8) (tptp.kinetic_energy_1 _let_6) (tptp.time_during_2 _let_7 _let_11) (tptp.object_2 _let_7 _let_13) (tptp.object_2 X _let_13) (tptp.subevent_2 X _let_33) (tptp.subevent_2 X _let_30) (tptp.subevent_2 X _let_31) (tptp.subevent_2 X _let_29) (tptp.subevent_2 X _let_32) (tptp.is_inside_2 _let_28 _let_16) (tptp.next_event_2 _let_32 _let_33) (tptp.next_event_2 _let_29 _let_32) (tptp.causes_2 _let_29 _let_32) (tptp.instrument_2 _let_29 _let_5) (tptp.next_event_2 _let_31 _let_30) (tptp.next_event_2 _let_30 _let_29) (tptp.time_during_2 _let_18 _let_10) (tptp.object_2 _let_7 _let_19) (tptp.is_inside_2 _let_28 _let_13) (tptp.object_2 X _let_28) (tptp.object_2 _let_7 _let_28) (tptp.raw_material_2 X _let_5) (tptp.base_2 _let_7 _let_5) (tptp.possesses_2 _let_5 _let_19) (tptp.quantity_2 _let_19 _let_21) (tptp.directly_proportional_2 _let_23 _let_21) (tptp.speed_2 _let_25 _let_23) (tptp.object_2 _let_25 _let_5) (tptp.subevent_2 X _let_17) (tptp.time_during_2 _let_15 _let_10) (tptp.subevent_2 X _let_18) (tptp.next_event_2 _let_18 _let_7) (tptp.base_2 X _let_16) (tptp.subevent_2 X _let_15) (tptp.next_event_2 _let_17 _let_15) (tptp.next_event_2 _let_15 _let_7) (tptp.base_2 _let_7 _let_16) (tptp.has_part_2 _let_16 _let_13) (tptp.instrument_2 X _let_13) (tptp.subevent_2 X _let_7) (tptp.object_2 _let_15 _let_13) (tptp.time_before_2 _let_10 _let_11) (= _let_19 _let_8) (= _let_5 (tptp.fn_exocytosis_44 X)) (= _let_28 (tptp.fn_exocytosis_35 X)) (= (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_24 X) _let_27) (= (tptp.fn_exocytosis_of_polysaccharide_across_plasma_membrane_23 X) _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_6) (= _let_18 (tptp.fn_exocytosis_17 X)) (= _let_17 (tptp.fn_exocytosis_2 X)) (= _let_16 _let_4) (= _let_7 _let_2) (= _let_16 _let_3) (= _let_7 _let_1) (= _let_15 (tptp.fn_exocytosis_23 X)) (= _let_14 (tptp.fn_exocytosis_27 X)) (= _let_13 (tptp.fn_exocytosis_24 X)) (= _let_12 (tptp.fn_exocytosis_25 X)) (= _let_11 (tptp.fn_exocytosis_10 X)) (= _let_10 (tptp.fn_exocytosis_12 X)) (= _let_9 (tptp.fn_exocytosis_36 X)) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.exoenzyme_1 X) (and (tptp.original_name_2 X |tptp.'Exoenzyme'|) (tptp.user_description_2 X |tptp.'An enzyme secreted outside a cell, and that functions outside the secreting cell.'|) (tptp.concept2words_2 X tptp.exoenzyme) (tptp.protein_enzyme_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exon_1 X))) (=> (tptp.exon_1 X) (and (tptp.original_name_2 X |tptp.'Exon'|) (tptp.user_description_2 X |tptp.'(1) A nucleotide sequence in a primary RNA transcript that remains after RNA processing. (2) The region of DNA from which this sequence was transcribed.'|) (tptp.concept2words_2 X |tptp.'coding segment'|) (tptp.concept2words_2 X |tptp.'coding-segment'|) (tptp.concept2words_2 X tptp.exon) (tptp.eukaryote_dna_sequence_1 X) (tptp.codon_1 _let_1) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.codon_0) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exoskeleton_2 X))) (let ((_let_2 (tptp.fn_exoskeleton_3 X))) (let ((_let_3 (tptp.fn_exoskeleton_5 X))) (let ((_let_4 (tptp.fn_exoskeleton_4 X))) (=> (tptp.exoskeleton_1 X) (and (tptp.original_name_2 X |tptp.'Exoskeleton'|) (tptp.user_description_2 X |tptp.'An external skeleton which occurs in certain animals and functions in protection and for attachment of muscles.'|) (tptp.concept2words_2 X tptp.exoskeleton) (tptp.skeleton_1 X) (not (tptp.endoskeleton_1 X)) (not (tptp.hydrostatic_skeleton_1 X)) (tptp.consistency_value_1 _let_1) (tptp.chitin_1 _let_2) (tptp.organism_1 _let_4) (tptp.defense_1 _let_3) (tptp.object_2 _let_3 _let_4) (tptp.agent_2 _let_3 X) (tptp.has_part_2 _let_4 X) (tptp.has_function_2 X _let_3) (tptp.consistency_2 X _let_1) (tptp.has_part_2 X _let_2) (tptp.the_categorical_value_2 _let_1 tptp.hard_0)))))))) (forall ((X $$unsorted)) (=> (tptp.exotoxin_1 X) (and (tptp.original_name_2 X |tptp.'Exotoxin'|) (tptp.user_description_2 X |tptp.'A toxic protein secreted by bacteria and other pathogens and damages the host by destroying cells or disrupting cellular metabolism. Examples include the botulinum toxin produced by Clostridium botulinum and the diphtheria toxin produced by Corynebacterium diphtheriae.'|) (tptp.concept2words_2 X tptp.exotoxin) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_expand_4 X))) (let ((_let_2 (tptp.fn_expand_5 X))) (let ((_let_3 (tptp.fn_expand_1 X))) (=> (tptp.expand_1 X) (and (tptp.original_name_2 X |tptp.'Expand'|) (tptp.concept2words_2 X tptp.expand) (tptp.concept2words_2 X |tptp.'spread out'|) (tptp.concept2words_2 X tptp.spread_out) (tptp.concept2words_2 X tptp.enlarge) (tptp.concept2words_2 X tptp.magnify) (tptp.increase_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.condense_1 X)) (not (tptp.brighten_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.volume_value_1 _let_1) (tptp.volume_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_2 _let_1) (= (tptp.fn_expand_3 X) (tptp.fn_increase_2 X)) (= (tptp.fn_expand_2 X) (tptp.fn_increase_1 X)) (= _let_2 (tptp.fn_increase_4 X)) (= _let_1 (tptp.fn_increase_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.expansin_1 X) (and (tptp.original_name_2 X |tptp.'Expansin'|) (tptp.user_description_2 X |tptp.'Expansin is a class of plant enzymes that break hydrogen bonds between plant cell consituents such as cellulose which enable plants cells to grow.'|) (tptp.concept2words_2 X tptp.expansin) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.experiment_1 X) (and (tptp.original_name_2 X |tptp.'Experiment'|) (tptp.user_description_2 X |tptp.'An act or operation undertaken in order to discover some unknown principle or effect, or to test, establish, or illustrate some suggest or known truth; practical test; proof.'|) (tptp.concept2words_2 X tptp.experiment) (tptp.study_1 X) (tptp.scientific_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.experimental_group_1 X) (and (tptp.original_name_2 X |tptp.'Experimental-Group'|) (tptp.user_description_2 X |tptp.'In an experiment, the group of test subjects that is subjected to the experimental treatment, as opposed to the control group.'|) (tptp.concept2words_2 X |tptp.'experimental group'|) (tptp.concept2words_2 X |tptp.'experimental-group'|) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.exponential_population_growth_1 X) (and (tptp.original_name_2 X |tptp.'Exponential-Population-Growth'|) (tptp.user_description_2 X |tptp.'A model of population growth in which the population continuously doubles each generation.'|) (tptp.concept2words_2 X |tptp.'exponential population growth'|) (tptp.concept2words_2 X |tptp.'exponential-population-growth'|) (tptp.population_process_1 X) (not (tptp.demography_1 X)) (not (tptp.extinction_vortex_1 X)) (not (tptp.logistic_population_growth_1 X)) (not (tptp.propagation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_expose_1 X))) (=> (tptp.expose_1 X) (and (tptp.original_name_2 X |tptp.'Expose'|) (tptp.concept2words_2 X tptp.expose) (tptp.concept2words_2 X tptp.disclose) (tptp.concept2words_2 X tptp.display) (tptp.concept2words_2 X tptp.exhibit) (tptp.make_accessible_1 X) (not (tptp.unobstruct_1 X)) (not (tptp.unblock_1 X)) (not (tptp.activate_1 X)) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_make_accessible_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_express_1 X))) (let ((_let_2 (tptp.fn_express_2 X))) (let ((_let_3 (tptp.fn_express_3 X))) (=> (tptp.express_1 X) (and (tptp.original_name_2 X |tptp.'Express'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X tptp.show) (tptp.concept2words_2 X tptp.evince) (tptp.concept2words_2 X tptp.utter) (tptp.concept2words_2 X tptp.carry) (tptp.concept2words_2 X tptp.convey) (tptp.concept2words_2 X tptp.state) (tptp.action_1 X) (tptp.message_1 _let_1) (tptp.information_1 _let_2) (tptp.tangible_entity_1 _let_3) (tptp.agent_2 X _let_3) (tptp.object_2 X _let_2) (tptp.result_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cloning_vector_4 X))) (let ((_let_2 (tptp.fn_expression_vector_6 X))) (let ((_let_3 (tptp.fn_move_together_1 _let_2))) (let ((_let_4 (tptp.fn_move_together_2 _let_2))) (let ((_let_5 (tptp.fn_expression_vector_5 X))) (let ((_let_6 (tptp.fn_code_for_1 _let_5))) (let ((_let_7 (tptp.fn_expression_vector_11 X))) (let ((_let_8 (tptp.fn_synthesis_of_protein_16 _let_7))) (let ((_let_9 (tptp.fn_anabolic_pathway_5 _let_7))) (let ((_let_10 (tptp.fn_code_for_2 _let_5))) (let ((_let_11 (tptp.fn_expression_vector_12 X))) (let ((_let_12 (tptp.fn_expression_vector_7 X))) (let ((_let_13 (tptp.fn_expression_vector_4 X))) (let ((_let_14 (tptp.fn_move_together_3 _let_2))) (let ((_let_15 (tptp.fn_expression_vector_9 X))) (let ((_let_16 (tptp.fn_expression_vector_8 X))) (let ((_let_17 (tptp.fn_perceive_1 _let_16))) (let ((_let_18 (tptp.fn_expression_vector_10 X))) (let ((_let_19 (tptp.fn_expression_vector_3 X))) (let ((_let_20 (tptp.fn_expression_vector_1 X))) (let ((_let_21 (tptp.fn_expression_vector_2 X))) (=> (tptp.expression_vector_1 X) (and (tptp.original_name_2 X |tptp.'Expression-Vector'|) (tptp.user_description_2 X |tptp.'A plasmid genetically engineered to contain the promotor sequences upstream of the sequence (gene) of interest, allowing the gene to be expessed when the plasmid is inserted into a host cell.'|) (tptp.concept2words_2 X |tptp.'vector of expression'|) (tptp.concept2words_2 X |tptp.'expression vector'|) (tptp.concept2words_2 X |tptp.'expression-vector'|) (tptp.cloning_vector_1 X) (not (tptp.bacterial_artificial_chromosome_1 X)) (not (tptp.cloning_phage_1 X)) (not (tptp.cloning_plasmid_1 X)) (tptp.eukaryote_1 _let_20) (tptp.gene_expression_1 _let_21) (tptp.prokaryote_1 _let_19) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.protein_1 _let_13) (tptp.code_for_1 _let_5) (tptp.move_together_1 _let_2) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.foreign_dna_1 _let_12) (tptp.recognize_1 _let_16) (tptp.restriction_site_1 _let_15) (tptp.promoter_1 _let_18) (tptp.synthesis_of_protein_1 _let_7) (tptp.carry_1 _let_11) (tptp.entity_1 _let_17) (tptp.spatial_entity_1 _let_14) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_9) (tptp.protein_1 _let_8) (tptp.entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.site_2 _let_11 _let_19) (tptp.agent_2 _let_7 X) (tptp.abuts_2 _let_18 _let_15) (tptp.abuts_2 _let_15 _let_18) (tptp.agent_2 _let_16 _let_19) (tptp.object_2 _let_21 _let_12) (tptp.has_part_2 _let_20 _let_13) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_18) (tptp.agent_2 _let_5 _let_12) (tptp.object_2 _let_2 _let_12) (tptp.result_2 _let_5 _let_13) (tptp.object_2 _let_16 _let_18) (tptp.destination_2 _let_2 _let_15) (tptp.result_2 _let_7 _let_13) (tptp.agent_2 _let_11 X) (tptp.object_2 _let_11 _let_12) (= _let_12 _let_6) (= _let_12 _let_4) (= _let_12 _let_3) (= _let_13 _let_10) (= _let_18 _let_17) (= _let_15 _let_14) (= _let_13 _let_9) (= _let_13 _let_8) (= _let_12 _let_1) (= _let_11 (tptp.fn_cloning_vector_5 X)) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extension_of_replication_bubble_1 X))) (let ((_let_2 (tptp.fn_replication_fork_1 _let_1))) (let ((_let_3 (tptp.fn_extension_of_replication_bubble_2 X))) (=> (tptp.extension_of_replication_bubble_1 X) (and (tptp.original_name_2 X |tptp.'Extension-of-Replication-Bubble'|) (tptp.user_description_2 X |tptp.'The elongation of the open section of the chromosome between the replication forks that is open for DNA replication.'|) (tptp.concept2words_2 X tptp.extend) (tptp.concept2words_2 X |tptp.'extension of replication bubble'|) (tptp.concept2words_2 X |tptp.'extension-of-replication-bubble'|) (tptp.expand_1 X) (tptp.replication_fork_1 _let_1) (tptp.replication_bubble_1 _let_3) (tptp.replication_bubble_1 _let_2) (tptp.object_2 X _let_3) (tptp.site_2 X _let_1) (tptp.is_beside_2 _let_3 _let_1) (tptp.is_beside_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.work_1 X) (tptp.person_1 X1)) (and (tptp.extensive_work_by_human_1 X) (= (tptp.fn_extensive_work_by_human_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extensive_work_by_human_3 X))) (let ((_let_2 (tptp.fn_cool_1 _let_1))) (let ((_let_3 (tptp.fn_extensive_work_by_human_2 X))) (=> (tptp.extensive_work_by_human_1 X) (and (tptp.original_name_2 X |tptp.'Extensive-Work-By-Human'|) (tptp.user_description_2 X |tptp.'Work done by a person that requires a major physical effort, such as running or climbing.'|) (tptp.concept2words_2 X |tptp.'human working hard'|) (tptp.concept2words_2 X |tptp.'human-working-hard'|) (tptp.concept2words_2 X |tptp.'human exercising hard'|) (tptp.concept2words_2 X |tptp.'human-exercising-hard'|) (tptp.concept2words_2 X |tptp.'perform extensive work'|) (tptp.concept2words_2 X |tptp.'extensive work by human'|) (tptp.concept2words_2 X |tptp.'extensive-work-by-human'|) (tptp.work_1 X) (tptp.person_1 _let_3) (tptp.evaporative_cooling_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.agent_2 X _let_3) (tptp.base_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.external_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'External-Fertilization'|) (tptp.user_description_2 X |tptp.'Fertilization that takes place between gametes that have been discharged into the environment.'|) (tptp.concept2words_2 X tptp.fertilize) (tptp.concept2words_2 X |tptp.'fertilization of external'|) (tptp.concept2words_2 X |tptp.'external fertilization'|) (tptp.concept2words_2 X |tptp.'external-fertilization'|) (tptp.fertilization_1 X)))) (forall ((X $$unsorted)) (=> (tptp.exteroceptor_1 X) (and (tptp.original_name_2 X |tptp.'Exteroceptor'|) (tptp.user_description_2 X |tptp.'A class of sensory receptors that detect stimuli outside the body such as heat, light, pressure, and chemicals.'|) (tptp.concept2words_2 X tptp.exteroceptor) (tptp.sensory_receptor_1 X) (not (tptp.chemoreceptor_1 X)) (not (tptp.electromagnetic_receptor_1 X)) (not (tptp.mechanoreceptor_1 X)) (not (tptp.nociceptor_1 X)) (not (tptp.pain_receptor_1 X)) (not (tptp.thermoreceptor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.extinct_bird_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Bird'|) (tptp.user_description_2 X |tptp.'A group of birds which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct bird'|) (tptp.concept2words_2 X |tptp.'extinct-bird'|) (tptp.bird_1 X) (tptp.extinct_vertebrate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinct_hominid_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Hominid'|) (tptp.user_description_2 X |tptp.'A group of hominids which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct hominid'|) (tptp.concept2words_2 X |tptp.'extinct-hominid'|) (tptp.hominid_1 X) (tptp.extinct_vertebrate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinct_invertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Invertebrate'|) (tptp.user_description_2 X |tptp.'A group of invertebrates which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct invertebrate'|) (tptp.concept2words_2 X |tptp.'extinct-invertebrate'|) (tptp.extinct_species_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinct_plant_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Plant'|) (tptp.user_description_2 X |tptp.'A group of plants which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct plant'|) (tptp.concept2words_2 X |tptp.'extinct-plant'|) (tptp.plant_1 X) (tptp.extinct_species_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinct_species_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Species'|) (tptp.user_description_2 X |tptp.'A group of organisms which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct species'|) (tptp.concept2words_2 X |tptp.'extinct-specy'|) (tptp.organism_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinct_vertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Extinct-Vertebrate'|) (tptp.user_description_2 X |tptp.'A group of vertebrates which existed in the past but has no currently living members.'|) (tptp.concept2words_2 X |tptp.'extinct vertebrate'|) (tptp.concept2words_2 X |tptp.'extinct-vertebrate'|) (tptp.extinct_species_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinction_1 X) (and (tptp.original_name_2 X |tptp.'Extinction'|) (tptp.user_description_2 X |tptp.'The end of a lineage of organisms.'|) (tptp.concept2words_2 X tptp.extinguish) (tptp.concept2words_2 X tptp.extinction) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extinction_vortex_1 X) (and (tptp.original_name_2 X |tptp.'Extinction-Vortex'|) (tptp.user_description_2 X |tptp.'A downward population trend in which the effects of small population size (e.g., inbreeding and genetic drift) combine to cause an already-small population to shrink further. Unless the spiral is reversed, the population will go extinct.'|) (tptp.concept2words_2 X |tptp.'vortex of extinction'|) (tptp.concept2words_2 X |tptp.'extinction vortex'|) (tptp.concept2words_2 X |tptp.'extinction-vortex'|) (tptp.population_process_1 X) (not (tptp.demography_1 X)) (not (tptp.exponential_population_growth_1 X)) (not (tptp.logistic_population_growth_1 X)) (not (tptp.propagation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extra_cellular_fluid_2 X))) (let ((_let_2 (tptp.fn_plasma_membrane_70 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_77 _let_1))) (let ((_let_4 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_5 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_6 (tptp.fn_extra_cellular_fluid_3 X))) (let ((_let_7 (tptp.fn_extra_cellular_fluid_4 X))) (let ((_let_8 (tptp.fn_extra_cellular_fluid_1 X))) (let ((_let_9 (tptp.fn_cell_30 _let_8))) (=> (tptp.extra_cellular_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Extra-Cellular-Fluid'|) (tptp.user_description_2 X |tptp.'Extracellular fluid (ECF) usually denotes all body fluid outside of cells.'|) (tptp.concept2words_2 X |tptp.'extracellular fluid'|) (tptp.concept2words_2 X |tptp.'extra cellular fluid'|) (tptp.concept2words_2 X |tptp.'extra-cellular-fluid'|) (tptp.biological_fluid_1 X) (tptp.cell_1 _let_8) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.substance_1 _let_6) (tptp.aqueous_solution_1 _let_6) (tptp.outside_face_1 _let_7) (tptp.extracellular_side_1 _let_7) (tptp.plasma_membrane_1 _let_9) (tptp.outside_face_1 _let_5) (tptp.extracellular_side_1 _let_4) (tptp.aqueous_solution_1 _let_3) (tptp.substance_1 _let_2) (tptp.aqueous_solution_1 _let_2) (tptp.is_along_2 _let_7 X) (tptp.is_outside_2 X _let_8) (tptp.is_along_2 X _let_7) (tptp.has_part_2 _let_8 _let_1) (tptp.is_between_2 _let_1 _let_6) (tptp.is_inside_2 _let_7 _let_6) (tptp.is_outside_2 _let_7 _let_1) (tptp.has_region_2 _let_1 _let_7) (= _let_1 _let_9) (= _let_7 _let_5) (= _let_7 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extra_cellular_matrix_14 X))) (let ((_let_2 (tptp.fn_cell_28 _let_1))) (let ((_let_3 (tptp.fn_animal_cell_79 _let_1))) (let ((_let_4 (tptp.fn_extra_cellular_matrix_19 X))) (let ((_let_5 (tptp.fn_cytosol_1 _let_4))) (let ((_let_6 (tptp.fn_extra_cellular_matrix_15 X))) (let ((_let_7 (tptp.fn_solution_5 _let_6))) (let ((_let_8 (tptp.fn_solution_6 _let_6))) (let ((_let_9 (tptp.fn_extra_cellular_matrix_12 X))) (let ((_let_10 (tptp.fn_integrin_7 _let_9))) (let ((_let_11 (tptp.fn_integrin_9 _let_9))) (let ((_let_12 (tptp.fn_integrin_30 _let_9))) (let ((_let_13 (tptp.fn_animal_cell_73 _let_1))) (let ((_let_14 (tptp.fn_transmembrane_protein_4 _let_9))) (let ((_let_15 (tptp.fn_integrin_10 _let_9))) (let ((_let_16 (tptp.fn_integrin_39 _let_9))) (let ((_let_17 (tptp.fn_integrin_5 _let_9))) (let ((_let_18 (tptp.fn_integrin_36 _let_9))) (let ((_let_19 (tptp.fn_integrin_2 _let_9))) (let ((_let_20 (tptp.fn_animal_cell_77 _let_1))) (let ((_let_21 (tptp.fn_extra_cellular_matrix_18 X))) (let ((_let_22 (tptp.fn_cell_29 _let_1))) (let ((_let_23 (tptp.fn_solution_5 _let_4))) (let ((_let_24 (tptp.fn_extra_cellular_matrix_20 X))) (let ((_let_25 (tptp.fn_solution_6 _let_4))) (let ((_let_26 (tptp.fn_extra_cellular_matrix_22 X))) (let ((_let_27 (tptp.fn_chemical_3 _let_24))) (let ((_let_28 (tptp.fn_extra_cellular_matrix_21 X))) (let ((_let_29 (tptp.fn_extra_cellular_matrix_16 X))) (let ((_let_30 (tptp.fn_chemical_3 _let_29))) (let ((_let_31 (tptp.fn_extra_cellular_matrix_17 X))) (let ((_let_32 (tptp.fn_extra_cellular_matrix_10 X))) (let ((_let_33 (tptp.fn_extra_cellular_matrix_11 X))) (let ((_let_34 (tptp.fn_animal_cell_80 _let_1))) (let ((_let_35 (tptp.fn_extra_cellular_matrix_13 X))) (let ((_let_36 (tptp.fn_extra_cellular_matrix_9 X))) (let ((_let_37 (tptp.fn_integrin_6 _let_9))) (let ((_let_38 (tptp.fn_extra_cellular_matrix_3 X))) (let ((_let_39 (tptp.fn_extra_cellular_matrix_2 X))) (let ((_let_40 (tptp.fn_extra_cellular_matrix_1 X))) (=> (tptp.extra_cellular_matrix_1 X) (and (tptp.original_name_2 X |tptp.'Extra-Cellular-Matrix'|) (tptp.user_description_2 X |tptp.'The extracellular matrix (ECM) is the extracellular part of animal tissue that usually provides structural support to the animal cells in addition to performing various other important functions. The extracellular matrix is the defining feature of connective tissue in animals.'|) (tptp.concept2words_2 X |tptp.'extracellular matrix'|) (tptp.concept2words_2 X |tptp.'extracellular-matrix'|) (tptp.concept2words_2 X tptp.ecm) (tptp.concept2words_2 X |tptp.'extra cellular matrix'|) (tptp.concept2words_2 X |tptp.'extra-cellular-matrix'|) (tptp.organismal_region_1 X) (not (tptp.body_axis_1 X)) (tptp.fiber_1 _let_40) (tptp.concentration_value_1 _let_39) (tptp.concentration_value_1 _let_38) (tptp.system_1 (tptp.fn_extra_cellular_matrix_5 X)) (tptp.protein_1 _let_36) (tptp.spatial_entity_1 _let_36) (tptp.motor_protein_1 _let_36) (tptp.spatial_entity_1 _let_32) (tptp.polymer_1 _let_32) (tptp.organic_molecule_1 _let_32) (tptp.tangible_entity_1 _let_32) (tptp.membrane_protein_1 _let_32) (tptp.protein_1 _let_32) (tptp.glycoprotein_1 _let_32) (tptp.integral_protein_1 _let_32) (tptp.fibronectin_1 _let_32) (tptp.tangible_entity_1 _let_33) (tptp.spatial_entity_1 _let_33) (tptp.biomembrane_1 _let_33) (tptp.animal_plasma_membrane_1 _let_33) (tptp.plasma_membrane_1 _let_33) (tptp.transmembrane_protein_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.membrane_protein_1 _let_9) (tptp.protein_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.polymer_1 _let_9) (tptp.integrin_1 _let_9) (tptp.attach_1 _let_35) (tptp.eukaryotic_cell_1 _let_1) (tptp.animal_cell_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.aqueous_solution_1 _let_6) (tptp.chemical_1 _let_29) (tptp.calcium_ion_1 _let_31) (tptp.mixture_1 _let_21) (tptp.cytoplasm_1 _let_21) (tptp.solution_1 _let_4) (tptp.substance_1 _let_4) (tptp.cytosol_1 _let_4) (tptp.chemical_1 _let_24) (tptp.calcium_ion_1 _let_28) (tptp.water_1 _let_26) (tptp.eukaryotic_cell_1 _let_37) (tptp.animal_cell_1 _let_37) (tptp.tangible_entity_1 _let_37) (tptp.cell_1 _let_37) (tptp.transmembrane_protein_1 _let_34) (tptp.tangible_entity_1 _let_34) (tptp.membrane_protein_1 _let_34) (tptp.protein_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.polymer_1 _let_34) (tptp.integrin_1 _let_34) (tptp.chemical_entity_1 _let_30) (tptp.chemical_entity_1 _let_27) (tptp.chemical_1 _let_25) (tptp.chemical_1 _let_23) (tptp.substance_1 _let_22) (tptp.cytosol_1 _let_22) (tptp.extra_cellular_matrix_1 _let_20) (tptp.extra_cellular_matrix_1 _let_19) (tptp.protein_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.motor_protein_1 _let_17) (tptp.attach_1 _let_16) (tptp.attach_1 _let_15) (tptp.biomembrane_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.animal_plasma_membrane_1 _let_13) (tptp.plasma_membrane_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.animal_plasma_membrane_1 _let_12) (tptp.plasma_membrane_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.protein_1 _let_11) (tptp.glycoprotein_1 _let_10) (tptp.integral_protein_1 _let_10) (tptp.fibronectin_1 _let_10) (tptp.chemical_1 _let_8) (tptp.chemical_1 _let_7) (tptp.cytoplasm_1 _let_5) (tptp.mixture_1 _let_3) (tptp.cytoplasm_1 _let_3) (tptp.mixture_1 _let_2) (tptp.cytoplasm_1 _let_2) (tptp.is_inside_2 _let_40 X) (tptp.called_2 _let_9 |tptp.'MP2'|) (tptp.is_inside_2 _let_6 X) (tptp.concentration_2 _let_31 _let_38) (tptp.concentration_2 _let_28 _let_39) (tptp.called_2 _let_39 |tptp.'Concentration_Ca2PlusAnimalCell'|) (tptp.called_2 _let_38 |tptp.'Concentration_Ca2PlusExtraCellularMatrix'|) (tptp.has_part_2 _let_6 _let_29) (tptp.has_solute_2 _let_6 _let_29) (tptp.is_between_2 _let_21 _let_33) (tptp.is_inside_2 _let_21 _let_33) (tptp.object_2 _let_35 _let_9) (tptp.base_2 _let_35 _let_36) (tptp.is_inside_2 _let_36 X) (tptp.is_outside_2 X _let_1) (tptp.has_part_2 _let_1 _let_33) (tptp.has_part_2 _let_33 _let_9) (tptp.has_part_2 _let_33 _let_32) (tptp.called_2 _let_32 |tptp.'MP1'|) (not (= _let_32 _let_9)) (not (= _let_9 _let_32)) (tptp.has_part_2 _let_21 _let_4) (tptp.has_part_2 _let_1 _let_21) (not (= _let_26 _let_24)) (not (= _let_24 _let_26)) (tptp.has_part_2 _let_4 _let_24) (tptp.has_solvent_2 _let_4 _let_26) (tptp.has_part_2 _let_4 _let_26) (tptp.has_solute_2 _let_4 _let_24) (tptp.has_part_2 _let_24 _let_28) (tptp.has_part_2 _let_29 _let_31) (= _let_29 _let_8) (= _let_29 _let_7) (= _let_21 _let_3) (= X _let_20) (= _let_1 _let_37) (= X _let_19) (= _let_36 _let_18) (= _let_36 _let_17) (= _let_35 _let_16) (= _let_35 _let_15) (= _let_33 _let_14) (= _let_33 _let_13) (= _let_9 _let_34) (= _let_33 _let_12) (= _let_32 _let_11) (= _let_32 _let_10) (= _let_31 _let_30) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_21 _let_5) (= _let_4 _let_22) (= _let_21 _let_2) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_3) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.extracellular_digestion_1 X) (and (tptp.original_name_2 X |tptp.'Extracellular-Digestion'|) (tptp.user_description_2 X |tptp.'Digestion of food in which enzymes are secreted from cells onto the food, which is thus broken down outside the cells. Such digestion occurs within the lumen of a digestive tract organ that is continuous with the outside of the animal_'s body.'|) (tptp.concept2words_2 X |tptp.'extracellular digestion'|) (tptp.concept2words_2 X |tptp.'extracellular-digestion'|) (tptp.digestive_process_1 X) (not (tptp.food_absorption_1 X)) (not (tptp.elimination_1 X)) (not (tptp.ingestion_1 X)) (tptp.system_1 (tptp.fn_extracellular_digestion_1 X))))) (forall ((X $$unsorted)) (=> (tptp.extracellular_side_1 X) (and (tptp.original_name_2 X |tptp.'Extracellular-Side'|) (tptp.user_description_2 X |tptp.'Region on the outside of a cell.'|) (tptp.concept2words_2 X |tptp.'extracellular side'|) (tptp.concept2words_2 X |tptp.'extracellular-side'|) (tptp.outside_face_1 X)))) (forall ((X $$unsorted)) (=> (tptp.extraembryonic_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Extraembryonic-Membrane'|) (tptp.user_description_2 X |tptp.'One of the four membranes--yolk sac, amnion, chorion, and allantois--located external to the embryo and which support the embryo as it develops. Found in reptiles (including birds) and mammals.'|) (tptp.concept2words_2 X |tptp.'extraembryonic membrane'|) (tptp.concept2words_2 X |tptp.'extraembryonic-membrane'|) (tptp.biomembrane_1 X) (not (tptp.basement_membrane_1 X)) (not (tptp.middle_lamella_1 X)) (not (tptp.zona_pellucida_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extranuclear_gene_4 X))) (let ((_let_2 (tptp.fn_nucleic_acid_29 _let_1))) (let ((_let_3 (tptp.fn_extranuclear_gene_3 X))) (let ((_let_4 (tptp.fn_nucleic_acid_33 _let_1))) (let ((_let_5 (tptp.fn_extranuclear_gene_1 X))) (=> (tptp.extranuclear_gene_1 X) (and (tptp.original_name_2 X |tptp.'Extranuclear-Gene'|) (tptp.user_description_2 X |tptp.'Eukaryotic genes that are located in mitochondria or plant plastids that do not display Mendelian inheritance.'|) (tptp.concept2words_2 X |tptp.'cytoplasmic gene'|) (tptp.concept2words_2 X |tptp.'cytoplasmic-gene'|) (tptp.concept2words_2 X |tptp.'extranuclear gene'|) (tptp.concept2words_2 X |tptp.'extranuclear-gene'|) (tptp.eukaryotic_gene_1 X) (tptp.nucleus_1 _let_5) (tptp.size_value_1 _let_3) (tptp.circular_dna_1 _let_1) (tptp.property_node_1 _let_4) (tptp.size_value_1 _let_2) (tptp.is_outside_2 X _let_5) (tptp.is_at_2 X _let_1) (tptp.the_scalar_value_2 _let_3 tptp.small_0) (tptp.scalar_unit_class_2 _let_3 tptp.chromosome_0) (tptp.size_2 _let_1 _let_3) (= (tptp.fn_extranuclear_gene_2 X) _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.extreme_halophile_1 X) (and (tptp.original_name_2 X |tptp.'Extreme-Halophile'|) (tptp.user_description_2 X |tptp.'An organism that survives and thrives in a highly saline environment such as the Dead Sea or the Great Salt Lake.'|) (tptp.concept2words_2 X |tptp.'halophile of extreme'|) (tptp.concept2words_2 X |tptp.'extreme halophile'|) (tptp.concept2words_2 X |tptp.'extreme-halophile'|) (tptp.extremophile_1 X) (not (tptp.extreme_thermophile_1 X))))) (forall ((X $$unsorted)) (=> (tptp.extreme_thermophile_1 X) (and (tptp.original_name_2 X |tptp.'Extreme-Thermophile'|) (tptp.user_description_2 X |tptp.'An organism that thrives in hot environments (often 60-80 deg C or hotter).'|) (tptp.extremophile_1 X) (not (tptp.extreme_halophile_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_extremophile_1 X))) (=> (tptp.extremophile_1 X) (and (tptp.original_name_2 X |tptp.'Extremophile'|) (tptp.user_description_2 X |tptp.'An organism that lives in an environment whose conditions are so extreme that few other species can survive there. Extremophiles include extreme halophiles and extreme thermophiles.'|) (tptp.role_1 X) (tptp.prokaryote_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.eye_1 X) (and (tptp.original_name_2 X |tptp.'Eye'|) (tptp.user_description_2 X |tptp.'An eye is a light-detecting organ present in many animals which operates to help produce the sense of vision.'|) (tptp.concept2words_2 X tptp.eye) (tptp.sensory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.eye_cup_1 X) (and (tptp.original_name_2 X |tptp.'Eye-Cup'|) (tptp.user_description_2 X |tptp.'A simple eye used to detect light and dark, found in planarians and some other invertebrates.'|) (tptp.concept2words_2 X |tptp.'cup of eye'|) (tptp.concept2words_2 X |tptp.'eye cup'|) (tptp.concept2words_2 X |tptp.'eye-cup'|) (tptp.sensory_organ_1 X) (not (tptp.antenna_1 X)) (not (tptp.cochlea_1 X)) (not (tptp.inner_ear_1 X)) (not (tptp.lateral_line_1 X)) (not (tptp.organ_of_corti_1 X)) (not (tptp.organ_of_equilibrium_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_prokaryote_13 X))) (let ((_let_2 (tptp.fn_f_plus_cell_7 X))) (let ((_let_3 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_2))) (let ((_let_4 (tptp.fn_f_plus_cell_2 X))) (let ((_let_5 (tptp.fn_f_plus_cell_5 X))) (let ((_let_6 (tptp.fn_conjugation_7 _let_5))) (let ((_let_7 (tptp.fn_f_plus_cell_3 X))) (let ((_let_8 (tptp.fn_dna_transfer_3 _let_5))) (let ((_let_9 (tptp.fn_f_plus_cell_6 X))) (let ((_let_10 (tptp.fn_transfer_1 _let_5))) (let ((_let_11 (tptp.fn_f_plus_cell_4 X))) (let ((_let_12 (tptp.fn_f_plus_cell_1 X))) (=> (tptp.f_plus_cell_1 X) (and (tptp.original_name_2 X |tptp.'F+Cell'|) (tptp.user_description_2 X |tptp.'F+ bacteria possess F factor as a plasmid independent of the bacterial genome. The F plasmid contains only F factor DNA and no DNA from the bacterial genome.'|) (tptp.concept2words_2 X |tptp.'f+ donor'|) (tptp.concept2words_2 X |tptp.'f donor'|) (tptp.concept2words_2 X |tptp.'hfr donor'|) (tptp.concept2words_2 X tptp.hfr) (tptp.concept2words_2 X |tptp.'f factor cell'|) (tptp.concept2words_2 X |tptp.'f-factor-cell'|) (tptp.concept2words_2 X |tptp.'f+cell'|) (tptp.prokaryote_1 X) (tptp.f_plasmid_1 _let_12) (tptp.membrane_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.prokaryote_1 _let_7) (tptp.f_plasmid_1 _let_11) (tptp.conjugation_1 _let_5) (tptp.prokaryote_1 _let_9) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_2) (tptp.entity_1 _let_10) (tptp.prokaryote_1 _let_8) (tptp.prokaryote_1 _let_6) (tptp.membrane_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (not (= _let_7 _let_9)) (tptp.donor_2 _let_5 X) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_11) (not (= _let_9 _let_7)) (tptp.object_2 _let_5 _let_11) (tptp.path_2 _let_2 _let_4) (tptp.destination_2 _let_5 _let_9) (tptp.origin_2 _let_5 _let_7) (tptp.has_part_2 X _let_4) (= _let_11 _let_10) (= _let_4 _let_3) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_1) (= _let_3 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_f_cell_3 X))) (let ((_let_2 (tptp.fn_f_plus_cell_5 _let_1))) (let ((_let_3 (tptp.fn_f_cell_2 X))) (let ((_let_4 (tptp.fn_f_cell_1 X))) (=> (tptp.f_cell_1 X) (and (tptp.original_name_2 X |tptp.'F-Cell'|) (tptp.user_description_2 X |tptp.'Cells that lack F plasmids are called F-negative or F-minus (F-) and as such can function as recipient cells.'|) (tptp.concept2words_2 X |tptp.'cell missing f plasmid'|) (tptp.concept2words_2 X |tptp.'f minus cell'|) (tptp.concept2words_2 X |tptp.'f-minus-cell'|) (tptp.concept2words_2 X |tptp.'cell of f'|) (tptp.concept2words_2 X |tptp.'f cell'|) (tptp.concept2words_2 X |tptp.'f-cell'|) (tptp.prokaryote_1 X) (tptp.f_plus_cell_1 _let_4) (tptp.conjugation_1 _let_3) (tptp.f_plus_cell_1 _let_1) (tptp.conjugation_1 _let_2) (tptp.recipient_2 _let_3 X) (tptp.result_2 _let_3 _let_4) (tptp.donor_2 _let_3 _let_1) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_f_factor_7 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_f_factor_14 X))) (let ((_let_4 (tptp.fn_code_for_1 _let_3))) (let ((_let_5 (tptp.fn_f_factor_12 X))) (let ((_let_6 (tptp.fn_carbon_skeleton_4 _let_5))) (let ((_let_7 (tptp.fn_f_factor_9 X))) (let ((_let_8 (tptp.fn_carbon_skeleton_2 _let_5))) (let ((_let_9 (tptp.fn_f_factor_11 X))) (let ((_let_10 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_11 (tptp.fn_f_factor_8 X))) (let ((_let_12 (tptp.fn_code_for_2 _let_3))) (let ((_let_13 (tptp.fn_f_factor_13 X))) (let ((_let_14 (tptp.fn_f_factor_15 X))) (let ((_let_15 (tptp.fn_attach_1 _let_14))) (let ((_let_16 (tptp.fn_f_factor_10 X))) (let ((_let_17 (tptp.fn_f_factor_1 X))) (let ((_let_18 (tptp.fn_f_factor_2 X))) (let ((_let_19 (tptp.fn_f_factor_3 X))) (let ((_let_20 (tptp.fn_f_factor_4 X))) (=> (tptp.f_factor_1 X) (and (tptp.original_name_2 X |tptp.'F-Factor'|) (tptp.user_description_2 X |tptp.'The F factor is a segment of DNA in bacteria which codes for the ability to form pili for bacterial conjugation. The f factor may exist as part of a separate plasmid or be contained within the bacterial chromosome.'|) (tptp.concept2words_2 X |tptp.'factor of f'|) (tptp.concept2words_2 X |tptp.'f factor'|) (tptp.concept2words_2 X |tptp.'f-factor'|) (tptp.prokaryote_dna_sequence_1 X) (tptp.conjugation_1 _let_17) (tptp.dna_strand_1 _let_18) (tptp.quantity_value_1 _let_19) (tptp.speed_value_1 _let_20) (tptp.kinetic_energy_1 _let_1) (tptp.constant_motion_1 _let_11) (tptp.carbon_1 _let_7) (tptp.deoxyribonucleoside_monophosphate_1 _let_16) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.carbon_skeleton_1 _let_5) (tptp.sex_pili_1 _let_13) (tptp.code_for_1 _let_3) (tptp.attach_1 _let_14) (tptp.spatial_entity_1 _let_15) (tptp.entity_1 _let_12) (tptp.constant_motion_1 _let_10) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.carbon_1 _let_6) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.quantity_2 _let_1 _let_19) (tptp.speed_2 _let_11 _let_20) (tptp.directly_proportional_2 _let_20 _let_19) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_16) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_5) (tptp.agent_2 _let_17 X) (tptp.object_2 _let_14 _let_16) (tptp.result_2 _let_3 _let_13) (tptp.agent_2 _let_3 X) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_11 X) (tptp.is_inside_2 _let_7 _let_5) (not (= _let_9 _let_7)) (not (= _let_7 _let_9)) (= _let_16 _let_15) (= _let_13 _let_12) (= X _let_4) (= _let_11 _let_10) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_f_plasmid_8 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_f_plasmid_13 X))) (let ((_let_4 (tptp.fn_code_for_1 _let_3))) (let ((_let_5 (tptp.fn_f_plasmid_10 X))) (let ((_let_6 (tptp.fn_carbon_skeleton_4 _let_5))) (let ((_let_7 (tptp.fn_f_plasmid_17 X))) (let ((_let_8 (tptp.fn_carbon_skeleton_2 _let_5))) (let ((_let_9 (tptp.fn_f_plasmid_18 X))) (let ((_let_10 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_11 (tptp.fn_f_plasmid_9 X))) (let ((_let_12 (tptp.fn_f_plasmid_11 X))) (let ((_let_13 (tptp.fn_dna_transfer_1 _let_12))) (let ((_let_14 (tptp.fn_f_plasmid_12 X))) (let ((_let_15 (tptp.fn_f_plasmid_16 X))) (let ((_let_16 (tptp.fn_attach_2 _let_15))) (let ((_let_17 (tptp.fn_f_plasmid_14 X))) (let ((_let_18 (tptp.fn_attach_1 _let_15))) (let ((_let_19 (tptp.fn_f_plasmid_15 X))) (let ((_let_20 (tptp.fn_f_plasmid_20 X))) (let ((_let_21 (tptp.fn_attach_1 _let_20))) (let ((_let_22 (tptp.fn_f_plasmid_19 X))) (let ((_let_23 (tptp.fn_f_plasmid_3 X))) (let ((_let_24 (tptp.fn_f_plasmid_2 X))) (let ((_let_25 (tptp.fn_f_plasmid_1 X))) (let ((_let_26 (tptp.fn_f_plasmid_4 X))) (let ((_let_27 (tptp.fn_f_plasmid_5 X))) (=> (tptp.f_plasmid_1 X) (and (tptp.original_name_2 X |tptp.'F-Plasmid'|) (tptp.user_description_2 X |tptp.'The plasmid form of the F factor.'|) (tptp.concept2words_2 X |tptp.'plasmid of f'|) (tptp.concept2words_2 X |tptp.'f plasmid'|) (tptp.concept2words_2 X |tptp.'f-plasmid'|) (tptp.prokaryote_dna_sequence_1 X) (tptp.plasmid_1 X) (not (tptp.r_plasmid_1 X)) (not (tptp.ti_plasmid_1 X)) (tptp.dna_strand_1 _let_25) (tptp.deoxyribose_1 _let_24) (tptp.adaptation_1 _let_23) (tptp.quantity_value_1 _let_26) (tptp.speed_value_1 _let_27) (tptp.kinetic_energy_1 _let_1) (tptp.constant_motion_1 _let_11) (tptp.carbon_skeleton_1 _let_5) (tptp.conjugation_1 _let_12) (tptp.random_recombination_1 _let_14) (tptp.code_for_1 _let_3) (tptp.plasmid_1 _let_17) (tptp.f_factor_1 _let_19) (tptp.attach_1 _let_15) (tptp.carbon_1 _let_7) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.deoxyribonucleoside_monophosphate_1 _let_22) (tptp.attach_1 _let_20) (tptp.spatial_entity_1 _let_21) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.recombination_1 _let_13) (tptp.constant_motion_1 _let_10) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.carbon_1 _let_6) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.quantity_2 _let_1 _let_26) (tptp.speed_2 _let_11 _let_27) (tptp.directly_proportional_2 _let_27 _let_26) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_25) (tptp.has_part_2 X _let_24) (tptp.minCardinality X tptp.has_part_0 |"25"| tptp.gene_0) (tptp.has_goal_2 X _let_12) (tptp.has_region_2 X _let_5) (tptp.enables_2 _let_14 _let_23) (tptp.enables_2 _let_3 _let_12) (tptp.result_2 _let_15 X) (tptp.object_2 _let_20 _let_22) (tptp.object_2 _let_15 _let_19) (tptp.base_2 _let_15 _let_17) (tptp.enables_2 _let_12 _let_14) (tptp.agent_2 _let_3 X) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_11 X) (tptp.is_inside_2 _let_7 _let_5) (not (= _let_9 _let_7)) (not (= _let_7 _let_9)) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_14 _let_13) (= X _let_4) (= _let_11 _let_10) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_generation_5 X))) (let ((_let_2 (tptp.fn_generation_6 X))) (let ((_let_3 (tptp.fn_f1_generation_3 X))) (let ((_let_4 (tptp.fn_f2_generation_2 _let_3))) (let ((_let_5 (tptp.fn_f1_generation_2 X))) (let ((_let_6 (tptp.fn_f2_generation_1 _let_3))) (let ((_let_7 (tptp.fn_f1_generation_4 X))) (let ((_let_8 (tptp.fn_f1_generation_1 X))) (=> (tptp.f1_generation_1 X) (and (tptp.original_name_2 X |tptp.'F1-Generation'|) (tptp.user_description_2 X |tptp.'The first filial, or hybrid, offspring in a series of genetic crosses.'|) (tptp.concept2words_2 X |tptp.'f1 generation'|) (tptp.concept2words_2 X |tptp.'f1-generation'|) (tptp.generation_1 X) (not (tptp.p_generation_1 X)) (tptp.self_pollination_1 _let_8) (tptp.cross_breeding_event_1 _let_5) (tptp.f2_generation_1 _let_3) (tptp.hybrid_1 _let_7) (tptp.f1_generation_1 _let_6) (tptp.cross_breeding_event_1 _let_4) (tptp.by_means_of_2 _let_5 _let_8) (tptp.element_2 X _let_7) (tptp.result_2 _let_5 _let_3) (tptp.agent_2 _let_5 X) (= _let_7 _let_2) (= _let_7 _let_1) (= X _let_6) (= _let_5 _let_4) (= _let_2 _let_1)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_f2_generation_2 X))) (let ((_let_2 (tptp.fn_cross_breeding_event_11 _let_1))) (let ((_let_3 (tptp.fn_cross_breeding_event_9 _let_1))) (let ((_let_4 (tptp.fn_cross_breeding_event_10 _let_1))) (let ((_let_5 (tptp.fn_cross_breeding_event_1 _let_1))) (let ((_let_6 (tptp.fn_f2_generation_3 X))) (let ((_let_7 (tptp.fn_f2_generation_1 X))) (=> (tptp.f2_generation_1 X) (and (tptp.original_name_2 X |tptp.'F2-Generation'|) (tptp.user_description_2 X |tptp.'Offspring resulting from interbreeding of the hybrid F1 generation.'|) (tptp.concept2words_2 X |tptp.'f2 generation'|) (tptp.concept2words_2 X |tptp.'f2-generation'|) (tptp.generation_1 X) (tptp.f1_generation_1 _let_7) (tptp.cross_breeding_event_1 _let_1) (tptp.organism_1 _let_6) (tptp.organism_1 _let_5) (tptp.organism_1 _let_4) (tptp.organism_1 _let_3) (tptp.organism_1 _let_2) (tptp.next_element_2 X _let_6) (tptp.result_2 _let_1 X) (tptp.agent_2 _let_1 _let_7) (tptp.next_element_2 _let_6 X) (tptp.result_2 _let_1 _let_6) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.face_region_1 X) (and (tptp.original_name_2 X |tptp.'Face-Region'|) (tptp.user_description_2 X |tptp.'Refers to any of the surfaces of a molecule, organ or other object.'|) (tptp.concept2words_2 X |tptp.'region of face'|) (tptp.concept2words_2 X |tptp.'face region'|) (tptp.concept2words_2 X |tptp.'face-region'|) (tptp.surface_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_2 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_3 (tptp.fn_passive_transport_25 X))) (let ((_let_4 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_5 (tptp.fn_facilitated_diffusion_52 X))) (let ((_let_6 (tptp.fn_attach_2 _let_5))) (let ((_let_7 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_8 (tptp.fn_biomembrane_52 _let_7))) (let ((_let_9 (tptp.fn_passive_transport_24 X))) (let ((_let_10 (tptp.fn_biomembrane_41 _let_7))) (let ((_let_11 (tptp.fn_biomembrane_47 _let_7))) (let ((_let_12 (tptp.fn_biomembrane_102 _let_7))) (let ((_let_13 (tptp.fn_integral_protein_25 _let_1))) (let ((_let_14 (tptp.fn_biomembrane_55 _let_7))) (let ((_let_15 (tptp.fn_passive_transport_14 X))) (let ((_let_16 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_17 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_18 (tptp.fn_biomembrane_54 _let_7))) (let ((_let_19 (tptp.fn_facilitated_diffusion_43 X))) (let ((_let_20 (tptp.fn_carbon_skeleton_3 _let_19))) (let ((_let_21 (tptp.fn_facilitated_diffusion_34 X))) (let ((_let_22 (tptp.fn_expose_1 _let_21))) (let ((_let_23 (tptp.fn_transmembrane_protein_2 _let_1))) (let ((_let_24 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_25 (tptp.fn_carbon_skeleton_4 _let_19))) (let ((_let_26 (tptp.fn_integral_protein_31 _let_1))) (let ((_let_27 (tptp.fn_carbon_skeleton_2 _let_19))) (let ((_let_28 (tptp.fn_integral_protein_33 _let_1))) (let ((_let_29 (tptp.fn_molecule_11 _let_1))) (let ((_let_30 (tptp.fn_carbon_skeleton_5 _let_19))) (let ((_let_31 (tptp.fn_molecule_10 _let_1))) (let ((_let_32 (tptp.fn_polymer_1 _let_1))) (let ((_let_33 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_34 (tptp.fn_biomembrane_56 _let_7))) (let ((_let_35 (tptp.fn_passive_transport_21 X))) (let ((_let_36 (tptp.fn_attach_1 _let_5))) (let ((_let_37 (tptp.fn_biomembrane_31 _let_7))) (let ((_let_38 (tptp.fn_facilitated_diffusion_8 X))) (let ((_let_39 (tptp.fn_biomembrane_39 _let_7))) (let ((_let_40 (tptp.fn_biomembrane_25 _let_7))) (let ((_let_41 (tptp.fn_facilitated_diffusion_9 X))) (let ((_let_42 (tptp.fn_biomembrane_26 _let_7))) (let ((_let_43 (tptp.fn_biomembrane_70 _let_7))) (let ((_let_44 (tptp.fn_facilitated_diffusion_19 X))) (let ((_let_45 (tptp.fn_biomembrane_4 _let_7))) (let ((_let_46 (tptp.fn_facilitated_diffusion_10 X))) (let ((_let_47 (tptp.fn_biomembrane_3 _let_7))) (let ((_let_48 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_49 (tptp.fn_biomembrane_18 _let_7))) (let ((_let_50 (tptp.fn_facilitated_diffusion_7 X))) (let ((_let_51 (tptp.fn_biomembrane_71 _let_7))) (let ((_let_52 (tptp.fn_facilitated_diffusion_18 X))) (let ((_let_53 (tptp.fn_biomembrane_73 _let_7))) (let ((_let_54 (tptp.fn_facilitated_diffusion_20 X))) (let ((_let_55 (tptp.fn_biomembrane_42 _let_7))) (let ((_let_56 (tptp.fn_facilitated_diffusion_16 X))) (let ((_let_57 (tptp.fn_biomembrane_14 _let_7))) (let ((_let_58 (tptp.fn_facilitated_diffusion_14 X))) (let ((_let_59 (tptp.fn_biomembrane_19 _let_7))) (let ((_let_60 (tptp.fn_biomembrane_100 _let_7))) (let ((_let_61 (tptp.fn_facilitated_diffusion_13 X))) (let ((_let_62 (tptp.fn_facilitated_diffusion_17 X))) (let ((_let_63 (tptp.fn_biomembrane_15 _let_7))) (let ((_let_64 (tptp.fn_facilitated_diffusion_15 X))) (let ((_let_65 (tptp.fn_biomembrane_101 _let_7))) (let ((_let_66 (tptp.fn_facilitated_diffusion_12 X))) (let ((_let_67 (tptp.fn_facilitated_diffusion_6 X))) (let ((_let_68 (tptp.fn_facilitated_diffusion_26 X))) (let ((_let_69 (tptp.fn_biomembrane_30 _let_7))) (let ((_let_70 (tptp.fn_facilitated_diffusion_5 X))) (let ((_let_71 (tptp.fn_facilitated_diffusion_48 X))) (let ((_let_72 (tptp.fn_biomembrane_32 _let_7))) (let ((_let_73 (tptp.fn_facilitated_diffusion_11 X))) (let ((_let_74 (tptp.fn_facilitated_diffusion_45 X))) (let ((_let_75 (tptp.fn_transmembrane_protein_3 _let_1))) (let ((_let_76 (tptp.fn_facilitated_diffusion_42 X))) (let ((_let_77 (tptp.fn_facilitated_diffusion_38 X))) (let ((_let_78 (tptp.fn_facilitated_diffusion_39 X))) (let ((_let_79 (tptp.fn_facilitated_diffusion_31 X))) (let ((_let_80 (tptp.fn_integral_protein_30 _let_1))) (let ((_let_81 (tptp.fn_facilitated_diffusion_37 X))) (let ((_let_82 (tptp.fn_integral_protein_20 _let_1))) (let ((_let_83 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_84 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_85 (tptp.fn_integral_protein_15 _let_1))) (let ((_let_86 (tptp.fn_facilitated_diffusion_33 X))) (let ((_let_87 (tptp.fn_integral_protein_19 _let_1))) (let ((_let_88 (tptp.fn_facilitated_diffusion_29 X))) (let ((_let_89 (tptp.fn_integral_protein_18 _let_1))) (let ((_let_90 (tptp.fn_facilitated_diffusion_30 X))) (let ((_let_91 (tptp.fn_integral_protein_17 _let_1))) (let ((_let_92 (tptp.fn_facilitated_diffusion_32 X))) (let ((_let_93 (tptp.fn_integral_protein_8 _let_1))) (let ((_let_94 (tptp.fn_facilitated_diffusion_53 X))) (let ((_let_95 (tptp.fn_integral_protein_28 _let_1))) (let ((_let_96 (tptp.fn_facilitated_diffusion_41 X))) (let ((_let_97 (tptp.fn_integral_protein_5 _let_1))) (let ((_let_98 (tptp.fn_facilitated_diffusion_36 X))) (let ((_let_99 (tptp.fn_integral_protein_13 _let_1))) (let ((_let_100 (tptp.fn_facilitated_diffusion_40 X))) (let ((_let_101 (tptp.fn_integral_protein_21 _let_1))) (let ((_let_102 (tptp.fn_facilitated_diffusion_27 X))) (let ((_let_103 (tptp.fn_integral_protein_14 _let_1))) (let ((_let_104 (tptp.fn_facilitated_diffusion_46 X))) (let ((_let_105 (tptp.fn_integral_protein_37 _let_1))) (let ((_let_106 (tptp.fn_integral_protein_7 _let_1))) (let ((_let_107 (tptp.fn_facilitated_diffusion_54 X))) (let ((_let_108 (tptp.fn_integral_protein_36 _let_1))) (let ((_let_109 (tptp.fn_integral_protein_35 _let_1))) (let ((_let_110 (tptp.fn_integral_protein_34 _let_1))) (let ((_let_111 (tptp.fn_integral_protein_6 _let_1))) (let ((_let_112 (tptp.fn_facilitated_diffusion_35 X))) (let ((_let_113 (tptp.fn_integral_protein_32 _let_1))) (let ((_let_114 (tptp.fn_facilitated_diffusion_51 X))) (let ((_let_115 (tptp.fn_facilitated_diffusion_50 X))) (let ((_let_116 (tptp.fn_integral_protein_29 _let_1))) (let ((_let_117 (tptp.fn_facilitated_diffusion_44 X))) (=> (tptp.facilitated_diffusion_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion'|) (tptp.user_description_2 X |tptp.'Facilitated diffusion (also known as facilitated transport or passive-mediated transport) is a process of passive transport, facilitated by integral proteins. Facilitated diffusion is the spontaneous passage of molecules or ions across a biological membrane passing through specific transmembrane integral proteins. The facilitated diffusion may occur either across biological membranes or through aqueous compartments of an organism.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion'|) (tptp.passive_transport_1 X) (tptp.glycoprotein_1 _let_70) (tptp.block_1 _let_67) (tptp.fluidity_value_1 _let_50) (tptp.quantity_value_1 _let_38) (tptp.temperature_value_1 _let_41) (tptp.density_value_1 _let_46) (tptp.saturated_fatty_acid_1 _let_73) (tptp.block_1 _let_66) (tptp.block_1 _let_61) (tptp.aqueous_solution_1 _let_58) (tptp.aqueous_solution_1 _let_64) (tptp.inside_face_1 _let_56) (tptp.surface_1 _let_62) (tptp.outside_face_1 _let_62) (tptp.carbon_skeleton_1 _let_52) (tptp.carbohydrate_side_chain_1 _let_44) (tptp.attach_1 _let_54) (tptp.transport_protein_1 _let_1) (tptp.spatial_entity_1 _let_68) (tptp.tangible_entity_1 _let_68) (tptp.chemical_entity_1 _let_68) (tptp.spatial_entity_1 _let_102) (tptp.chemical_entity_1 _let_102) (tptp.monomer_1 _let_102) (tptp.molecule_1 _let_102) (tptp.amino_acid_1 _let_102) (tptp.size_value_1 _let_83) (tptp.speed_value_1 _let_88) (tptp.quantity_value_1 _let_90) (tptp.covalent_bond_1 _let_79) (tptp.chemical_bond_1 _let_79) (tptp.kinetic_energy_1 _let_92) (tptp.constant_motion_1 _let_86) (tptp.expose_1 _let_21) (tptp.polar_amino_acid_1 _let_112) (tptp.hydrophobic_amino_acid_1 _let_98) (tptp.monomer_1 _let_81) (tptp.carbon_1 _let_77) (tptp.atom_1 _let_78) (tptp.chemical_entity_1 _let_78) (tptp.polypeptide_1 _let_100) (tptp.hydrophobic_region_1 _let_96) (tptp.hydrophilic_end_1 _let_76) (tptp.carbon_skeleton_1 _let_19) (tptp.outside_face_1 _let_117) (tptp.hydrophilic_region_1 _let_74) (tptp.hydrophilic_end_1 _let_74) (tptp.protein_domain_1 _let_104) (tptp.size_value_1 _let_84) (tptp.tangible_entity_1 _let_71) (tptp.phospholipid_bilayer_1 _let_71) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.spatial_entity_1 _let_115) (tptp.membrane_protein_1 _let_115) (tptp.attach_1 _let_114) (tptp.attach_1 _let_5) (tptp.repel_1 _let_94) (tptp.attract_1 _let_107) (tptp.move_through_1 _let_48) (tptp.surface_1 _let_116) (tptp.carbon_skeleton_1 _let_113) (tptp.polar_amino_acid_1 _let_111) (tptp.property_node_1 _let_110) (tptp.property_node_1 _let_109) (tptp.property_node_1 _let_108) (tptp.attract_1 _let_106) (tptp.property_node_1 _let_105) (tptp.protein_domain_1 _let_103) (tptp.spatial_entity_1 _let_101) (tptp.chemical_entity_1 _let_101) (tptp.monomer_1 _let_101) (tptp.molecule_1 _let_101) (tptp.amino_acid_1 _let_101) (tptp.polypeptide_1 _let_99) (tptp.hydrophobic_amino_acid_1 _let_97) (tptp.hydrophobic_region_1 _let_95) (tptp.repel_1 _let_93) (tptp.kinetic_energy_1 _let_91) (tptp.quantity_value_1 _let_89) (tptp.speed_value_1 _let_87) (tptp.constant_motion_1 _let_85) (tptp.size_value_1 _let_82) (tptp.monomer_1 _let_80) (tptp.hydrophilic_end_1 _let_75) (tptp.saturated_fatty_acid_1 _let_72) (tptp.glycoprotein_1 _let_69) (tptp.block_1 _let_65) (tptp.aqueous_solution_1 _let_63) (tptp.block_1 _let_60) (tptp.property_node_1 _let_59) (tptp.aqueous_solution_1 _let_57) (tptp.inside_face_1 _let_55) (tptp.attach_1 _let_53) (tptp.carbon_skeleton_1 _let_51) (tptp.fluidity_value_1 _let_49) (tptp.property_node_1 _let_47) (tptp.density_value_1 _let_45) (tptp.carbohydrate_side_chain_1 _let_43) (tptp.property_node_1 _let_42) (tptp.temperature_value_1 _let_40) (tptp.property_node_1 _let_39) (tptp.quantity_value_1 _let_37) (tptp.spatial_entity_1 _let_36) (tptp.size_value_1 _let_34) (tptp.size_value_1 _let_33) (tptp.covalent_bond_1 _let_32) (tptp.chemical_bond_1 _let_31) (tptp.chemical_bond_1 _let_30) (tptp.atom_1 _let_29) (tptp.atom_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.carbon_1 _let_26) (tptp.carbon_1 _let_25) (tptp.hydrophilic_region_1 _let_24) (tptp.hydrophilic_end_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.organic_molecule_1 _let_20) (tptp.tangible_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.protein_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.phospholipid_bilayer_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.chemical_entity_1 _let_14) (tptp.block_1 _let_13) (tptp.block_1 _let_12) (tptp.surface_1 _let_11) (tptp.outside_face_1 _let_10) (tptp.move_through_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.facilitates_2 _let_1 _let_48) (tptp.instrument_2 X _let_1) (tptp.site_2 _let_21 _let_74) (tptp.agent_2 _let_48 _let_1) (tptp.object_2 _let_21 _let_1) (tptp.object_2 _let_5 _let_115) (tptp.base_2 _let_5 _let_7) (tptp.site_2 _let_107 _let_74) (tptp.has_region_2 _let_1 _let_117) (tptp.is_at_2 _let_74 _let_117) (tptp.is_at_2 _let_112 _let_74) (tptp.possesses_2 _let_1 _let_79) (tptp.instrument_2 _let_67 _let_7) (tptp.object_2 X _let_68) (tptp.subevent_2 X _let_48) (tptp.path_2 X _let_7) (tptp.base_2 _let_114 _let_7) (tptp.object_2 _let_114 _let_115) (tptp.is_at_2 _let_115 _let_7) (tptp.has_region_2 _let_1 _let_96) (tptp.has_region_2 _let_1 _let_19) (tptp.has_part_2 _let_1 _let_78) (tptp.has_region_2 _let_1 _let_104) (tptp.has_part_2 _let_1 _let_77) (tptp.is_inside_2 _let_1 _let_71) (tptp.has_part_2 _let_1 _let_98) (tptp.has_function_2 _let_1 _let_107) (tptp.has_part_2 _let_1 _let_112) (tptp.possesses_2 _let_1 _let_92) (tptp.agent_2 _let_94 _let_1) (tptp.agent_2 _let_107 _let_1) (tptp.size_2 _let_1 _let_84) (tptp.has_part_2 _let_1 _let_100) (tptp.has_part_2 _let_100 _let_102) (tptp.is_at_2 _let_102 _let_104) (tptp.has_function_2 _let_1 _let_94) (tptp.site_2 _let_94 _let_96) (tptp.is_inside_2 _let_98 _let_96) (tptp.object_2 _let_86 _let_1) (tptp.speed_2 _let_86 _let_88) (tptp.directly_proportional_2 _let_88 _let_90) (tptp.quantity_2 _let_92 _let_90) (tptp.has_part_2 _let_1 _let_81) (tptp.size_2 _let_81 _let_83) (tptp.greater_than_2 _let_84 _let_83) (tptp.the_scalar_value_2 _let_84 tptp.big_0) (tptp.scalar_unit_class_2 _let_84 tptp.polypeptide_0) (tptp.is_inside_2 _let_77 _let_19) (tptp.is_between_2 _let_79 _let_77) (tptp.is_between_2 _let_79 _let_78) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (tptp.has_region_2 _let_1 _let_76) (tptp.is_across_2 _let_1 _let_7) (tptp.has_part_2 _let_7 _let_1) (tptp.has_region_2 _let_1 _let_74) (tptp.is_opposite_2 _let_76 _let_74) (tptp.is_opposite_2 _let_74 _let_76) (tptp.quantity_2 _let_73 _let_38) (tptp.has_part_2 _let_7 _let_73) (tptp.has_part_2 _let_7 _let_71) (tptp.is_inside_2 _let_70 _let_71) (tptp.has_part_2 _let_7 _let_70) (not (= _let_61 _let_67)) (not (= _let_67 _let_61)) (tptp.has_function_2 _let_7 _let_67) (tptp.is_permeable_to_2 _let_7 _let_68) (tptp.object_2 _let_48 _let_68) (tptp.base_2 _let_48 _let_7) (not (= _let_67 _let_66)) (not (= _let_66 _let_61)) (not (= _let_61 _let_66)) (not (= _let_66 _let_67)) (tptp.called_2 _let_67 |"1"|) (tptp.called_2 _let_66 |"2"|) (tptp.has_function_2 _let_7 _let_66) (tptp.is_between_2 _let_7 _let_64) (tptp.is_inside_2 _let_62 _let_64) (tptp.has_region_2 _let_7 _let_62) (tptp.called_2 _let_61 |"3"|) (tptp.has_function_2 _let_7 _let_61) (tptp.temperature_2 _let_7 _let_41) (tptp.directly_proportional_2 _let_41 _let_50) (tptp.directly_proportional_2 _let_38 _let_50) (tptp.fluidity_2 _let_7 _let_50) (tptp.is_between_2 _let_7 _let_58) (tptp.is_inside_2 _let_58 _let_56) (tptp.has_region_2 _let_7 _let_56) (tptp.object_2 _let_54 _let_44) (tptp.base_2 _let_54 _let_52) (tptp.is_inside_2 _let_52 _let_7) (tptp.density_2 _let_7 _let_46) (tptp.inversely_proportional_2 _let_46 _let_50) (tptp.has_function_2 _let_7 _let_48) (tptp.is_outside_2 _let_44 _let_7) (= _let_1 _let_22) (= _let_115 _let_36) (= _let_7 _let_6) (= _let_74 _let_24) (= _let_117 _let_116) (= _let_79 _let_32) (= _let_67 _let_13) (= _let_68 _let_15) (= _let_48 _let_9) (= _let_115 _let_35) (= _let_114 (tptp.fn_passive_transport_20 X)) (= _let_7 _let_3) (= _let_19 _let_113) (= _let_78 _let_28) (= _let_1 _let_20) (= _let_77 _let_26) (= _let_71 _let_17) (= _let_112 _let_111) (= (tptp.fn_facilitated_diffusion_24 X) _let_110) (= (tptp.fn_facilitated_diffusion_23 X) _let_109) (= (tptp.fn_facilitated_diffusion_22 X) _let_108) (= _let_107 _let_106) (= (tptp.fn_facilitated_diffusion_21 X) _let_105) (= _let_104 _let_103) (= _let_102 _let_101) (= _let_100 _let_99) (= _let_98 _let_97) (= _let_96 _let_95) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_84 _let_34) (= _let_84 _let_33) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_79 _let_31) (= _let_78 _let_29) (= _let_79 _let_30) (= _let_78 _let_27) (= _let_77 _let_25) (= _let_76 _let_75) (= _let_74 _let_23) (= _let_1 _let_18) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_73 _let_72) (= _let_71 _let_16) (= _let_70 _let_69) (= _let_68 _let_14) (= _let_67 _let_12) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_11) (= _let_62 _let_10) (= _let_61 _let_60) (= (tptp.fn_facilitated_diffusion_4 X) _let_59) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_8) (= (tptp.fn_facilitated_diffusion_1 X) _let_47) (= _let_46 _let_45) (= _let_44 _let_43) (= (tptp.fn_facilitated_diffusion_2 X) _let_42) (= _let_41 _let_40) (= (tptp.fn_facilitated_diffusion_3 X) _let_39) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_of_hydrated_ions_6 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_facilitated_diffusion_of_hydrated_ions_13 X))) (let ((_let_4 (tptp.fn_hypotonic_solution_2 _let_3))) (let ((_let_5 (tptp.fn_facilitated_diffusion_of_ion_29 X))) (let ((_let_6 (tptp.fn_hypotonic_solution_3 _let_3))) (let ((_let_7 (tptp.fn_aqueous_solution_14 _let_3))) (let ((_let_8 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_9 (tptp.fn_facilitated_diffusion_of_hydrated_ions_7 X))) (let ((_let_10 (tptp.fn_plasma_membrane_55 _let_9))) (let ((_let_11 (tptp.fn_plasma_membrane_54 _let_9))) (let ((_let_12 (tptp.fn_plasma_membrane_68 _let_9))) (let ((_let_13 (tptp.fn_transport_protein_4 _let_1))) (let ((_let_14 (tptp.fn_facilitated_diffusion_54 X))) (let ((_let_15 (tptp.fn_transport_protein_33 _let_1))) (let ((_let_16 (tptp.fn_transport_protein_16 _let_1))) (let ((_let_17 (tptp.fn_facilitated_diffusion_45 X))) (let ((_let_18 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_19 (tptp.fn_facilitated_diffusion_42 X))) (let ((_let_20 (tptp.fn_transport_protein_32 _let_1))) (let ((_let_21 (tptp.fn_integral_protein_6 _let_1))) (let ((_let_22 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_23 (tptp.fn_facilitated_diffusion_37 X))) (let ((_let_24 (tptp.fn_plasma_membrane_86 _let_9))) (let ((_let_25 (tptp.fn_polymer_6 _let_1))) (let ((_let_26 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_27 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_28 (tptp.fn_plasma_membrane_84 _let_9))) (let ((_let_29 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_30 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_31 (tptp.fn_plasma_membrane_85 _let_9))) (let ((_let_32 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_33 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_34 (tptp.fn_passive_transport_24 X))) (let ((_let_35 (tptp.fn_plasma_membrane_74 _let_9))) (let ((_let_36 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_37 (tptp.fn_transport_protein_10 _let_1))) (let ((_let_38 (tptp.fn_transport_protein_22 _let_1))) (let ((_let_39 (tptp.fn_facilitated_diffusion_21 X))) (let ((_let_40 (tptp.fn_transport_protein_14 _let_1))) (let ((_let_41 (tptp.fn_transport_protein_17 _let_1))) (let ((_let_42 (tptp.fn_facilitated_diffusion_of_ion_26 X))) (let ((_let_43 (tptp.fn_passive_transport_26 X))) (let ((_let_44 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_45 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_46 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_47 (tptp.fn_facilitated_diffusion_of_hydrated_ions_36 X))) (let ((_let_48 (tptp.fn_cell_30 _let_47))) (let ((_let_49 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_50 (tptp.fn_plasma_membrane_33 _let_9))) (let ((_let_51 (tptp.fn_transport_protein_31 _let_1))) (let ((_let_52 (tptp.fn_facilitated_diffusion_6 X))) (let ((_let_53 (tptp.fn_integral_protein_25 _let_1))) (let ((_let_54 (tptp.fn_biomembrane_101 _let_9))) (let ((_let_55 (tptp.fn_biomembrane_102 _let_9))) (let ((_let_56 (tptp.fn_membrane_2 _let_9))) (let ((_let_57 (tptp.fn_plasma_membrane_98 _let_9))) (let ((_let_58 (tptp.fn_transport_protein_11 _let_1))) (let ((_let_59 (tptp.fn_biomembrane_99 _let_9))) (let ((_let_60 (tptp.fn_membrane_5 _let_9))) (let ((_let_61 (tptp.fn_facilitated_diffusion_44 X))) (let ((_let_62 (tptp.fn_integral_protein_29 _let_1))) (let ((_let_63 (tptp.fn_facilitated_diffusion_26 X))) (let ((_let_64 (tptp.fn_plasma_membrane_73 _let_9))) (let ((_let_65 (tptp.fn_facilitated_diffusion_of_hydrated_ions_17 X))) (let ((_let_66 (tptp.fn_thermal_motion_5 _let_65))) (let ((_let_67 (tptp.fn_facilitated_diffusion_of_hydrated_ions_14 X))) (let ((_let_68 (tptp.fn_facilitated_diffusion_of_hydrated_ions_21 X))) (let ((_let_69 (tptp.fn_hypotonic_solution_7 _let_3))) (let ((_let_70 (tptp.fn_facilitated_diffusion_of_hydrated_ions_9 X))) (let ((_let_71 (tptp.fn_facilitated_diffusion_of_hydrated_ions_4 X))) (let ((_let_72 (tptp.fn_facilitated_diffusion_of_hydrated_ions_32 X))) (let ((_let_73 (tptp.fn_facilitated_diffusion_of_hydrated_ions_29 X))) (let ((_let_74 (tptp.fn_facilitated_diffusion_of_hydrated_ions_26 X))) (let ((_let_75 (tptp.fn_facilitated_diffusion_of_hydrated_ions_27 X))) (let ((_let_76 (tptp.fn_facilitated_diffusion_of_hydrated_ions_23 X))) (let ((_let_77 (tptp.fn_facilitated_diffusion_of_hydrated_ions_33 X))) (let ((_let_78 (tptp.fn_facilitated_diffusion_of_hydrated_ions_11 X))) (let ((_let_79 (tptp.fn_facilitated_diffusion_of_hydrated_ions_37 X))) (let ((_let_80 (tptp.fn_facilitated_diffusion_of_hydrated_ions_28 X))) (let ((_let_81 (tptp.fn_transport_protein_18 _let_1))) (let ((_let_82 (tptp.fn_facilitated_diffusion_of_hydrated_ions_30 X))) (let ((_let_83 (tptp.fn_transport_protein_23 _let_1))) (let ((_let_84 (tptp.fn_facilitated_diffusion_of_hydrated_ions_10 X))) (let ((_let_85 (tptp.fn_facilitated_diffusion_of_hydrated_ions_3 X))) (let ((_let_86 (tptp.fn_facilitated_diffusion_of_hydrated_ions_16 X))) (let ((_let_87 (tptp.fn_facilitated_diffusion_of_hydrated_ions_5 X))) (let ((_let_88 (tptp.fn_facilitated_diffusion_of_hydrated_ions_20 X))) (let ((_let_89 (tptp.fn_facilitated_diffusion_of_hydrated_ions_19 X))) (let ((_let_90 (tptp.fn_facilitated_diffusion_of_hydrated_ions_35 X))) (let ((_let_91 (tptp.fn_facilitated_diffusion_of_hydrated_ions_15 X))) (let ((_let_92 (tptp.fn_facilitated_diffusion_of_hydrated_ions_12 X))) (let ((_let_93 (tptp.fn_facilitated_diffusion_of_hydrated_ions_22 X))) (let ((_let_94 (tptp.fn_plasma_membrane_6 _let_9))) (let ((_let_95 (tptp.fn_facilitated_diffusion_of_hydrated_ions_34 X))) (let ((_let_96 (tptp.fn_facilitated_diffusion_of_hydrated_ions_8 X))) (let ((_let_97 (tptp.fn_facilitated_diffusion_34 X))) (let ((_let_98 (tptp.fn_facilitated_diffusion_of_hydrated_ions_25 X))) (let ((_let_99 (tptp.fn_facilitated_diffusion_of_hydrated_ions_31 X))) (let ((_let_100 (tptp.fn_facilitated_diffusion_of_hydrated_ions_24 X))) (let ((_let_101 (tptp.fn_facilitated_diffusion_of_hydrated_ions_41 X))) (let ((_let_102 (tptp.fn_facilitated_diffusion_of_hydrated_ions_1 X))) (=> (tptp.facilitated_diffusion_of_hydrated_ions_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Of-Hydrated-Ions'|) (tptp.user_description_2 X |tptp.'The process of moving of a hydrated ions across a biomembrane.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion of hydrated ion'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-of-hydrated-ion'|) (tptp.facilitated_diffusion_of_ion_1 X) (tptp.increase_1 _let_102) (tptp.symmetrical_distribution_1 _let_85) (tptp.attract_1 _let_71) (tptp.quantity_value_1 _let_87) (tptp.channel_protein_1 _let_1) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.spatial_entity_1 _let_96) (tptp.tangible_entity_1 _let_96) (tptp.hydrophobic_compound_1 _let_96) (tptp.chemical_1 _let_70) (tptp.gradient_1 _let_84) (tptp.concentration_gradient_1 _let_84) (tptp.move_1 _let_78) (tptp.move_through_1 _let_78) (tptp.rate_value_1 _let_92) (tptp.aqueous_solution_1 _let_3) (tptp.hypotonic_solution_1 _let_3) (tptp.aqueous_solution_1 _let_67) (tptp.hypertonic_solution_1 _let_67) (tptp.potential_energy_1 _let_91) (tptp.decrease_1 _let_86) (tptp.thermal_motion_1 _let_65) (tptp.quantity_value_1 _let_89) (tptp.quantity_value_1 _let_88) (tptp.chemical_1 _let_68) (tptp.water_1 _let_68) (tptp.block_1 _let_93) (tptp.size_value_1 _let_76) (tptp.expose_1 _let_100) (tptp.expose_1 _let_98) (tptp.polar_amino_acid_1 _let_74) (tptp.monomer_1 _let_75) (tptp.entity_1 _let_80) (tptp.atom_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.carbon_1 _let_80) (tptp.hydrophilic_region_1 _let_73) (tptp.hydrophilic_end_1 _let_73) (tptp.carbon_skeleton_1 _let_82) (tptp.surface_1 _let_99) (tptp.outside_face_1 _let_99) (tptp.hydrophilic_region_1 _let_72) (tptp.hydrophilic_end_1 _let_72) (tptp.size_value_1 _let_77) (tptp.hydrophobic_core_1 _let_95) (tptp.free_energy_1 _let_90) (tptp.cell_1 _let_47) (tptp.hydrated_ion_1 _let_101) (tptp.hydrophobic_core_1 _let_94) (tptp.property_node_1 _let_83) (tptp.carbon_skeleton_1 _let_81) (tptp.chemical_1 _let_69) (tptp.spatial_entity_1 _let_66) (tptp.tangible_entity_1 _let_66) (tptp.chemical_entity_1 _let_64) (tptp.surface_1 _let_62) (tptp.spatial_entity_1 _let_60) (tptp.tangible_entity_1 _let_60) (tptp.hydrophobic_compound_1 _let_59) (tptp.hydrophobic_compound_1 _let_58) (tptp.hydrophobic_compound_1 _let_57) (tptp.block_1 _let_56) (tptp.block_1 _let_55) (tptp.block_1 _let_54) (tptp.block_1 _let_53) (tptp.block_1 _let_51) (tptp.block_1 _let_50) (tptp.biomembrane_1 _let_49) (tptp.plasma_membrane_1 _let_48) (tptp.biomembrane_1 _let_46) (tptp.spatial_entity_1 _let_44) (tptp.biomembrane_1 _let_44) (tptp.entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.carbon_1 _let_40) (tptp.property_node_1 _let_38) (tptp.move_through_1 _let_37) (tptp.move_through_1 _let_35) (tptp.move_1 _let_35) (tptp.move_through_1 _let_33) (tptp.size_value_1 _let_32) (tptp.size_value_1 _let_31) (tptp.size_value_1 _let_29) (tptp.size_value_1 _let_28) (tptp.size_value_1 _let_26) (tptp.monomer_1 _let_25) (tptp.monomer_1 _let_24) (tptp.monomer_1 _let_22) (tptp.polar_amino_acid_1 _let_21) (tptp.polar_amino_acid_1 _let_20) (tptp.hydrophilic_region_1 _let_18) (tptp.hydrophilic_end_1 _let_16) (tptp.hydrophilic_region_1 _let_15) (tptp.hydrophilic_end_1 _let_15) (tptp.attract_1 _let_13) (tptp.tangible_entity_1 _let_12) (tptp.membrane_protein_1 _let_12) (tptp.protein_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.membrane_protein_1 _let_11) (tptp.protein_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.tangible_entity_1 _let_10) (tptp.transmembrane_protein_1 _let_10) (tptp.integral_protein_1 _let_10) (tptp.transport_protein_1 _let_10) (tptp.water_1 _let_7) (tptp.chemical_1 _let_6) (tptp.water_1 _let_6) (tptp.hypertonic_solution_1 _let_4) (tptp.facilitated_diffusion_1 _let_2) (tptp.the_scalar_value_2 _let_92 tptp.slow_0) (tptp.scalar_unit_class_2 _let_92 tptp.move_0) (tptp.supports_2 X _let_102) (tptp.site_2 X _let_95) (tptp.destination_2 _let_78 _let_3) (tptp.origin_2 _let_78 _let_67) (tptp.object_2 _let_85 _let_101) (tptp.object_2 _let_65 _let_101) (tptp.has_part_2 _let_47 _let_9) (tptp.is_permeable_to_2 _let_9 _let_101) (tptp.object_2 X _let_101) (tptp.object_2 _let_78 _let_101) (tptp.object_2 _let_100 _let_1) (tptp.site_2 _let_100 _let_72) (tptp.has_region_2 _let_1 _let_99) (tptp.object_2 _let_98 _let_1) (tptp.site_2 _let_98 _let_72) (tptp.is_at_2 _let_72 _let_99) (tptp.path_2 X _let_9) (tptp.instrument_2 _let_93 _let_9) (tptp.object_2 _let_93 _let_96) (tptp.is_impermeable_to_2 _let_9 _let_96) (tptp.called_2 _let_93 |"1"|) (tptp.is_across_2 _let_1 _let_95) (tptp.has_function_2 _let_9 _let_78) (tptp.base_2 _let_78 _let_9) (tptp.has_part_2 _let_9 _let_1) (tptp.is_across_2 _let_1 _let_9) (tptp.has_function_2 _let_9 _let_93) (tptp.base_2 X _let_47) (tptp.by_means_of_2 X _let_65) (tptp.causes_2 _let_65 _let_78) (tptp.possesses_2 _let_84 _let_91) (tptp.base_2 X _let_84) (tptp.rate_2 X _let_92) (tptp.quantity_2 _let_90 _let_89) (tptp.result_2 X _let_90) (tptp.raw_material_2 X _let_91) (tptp.quantity_2 _let_91 _let_88) (tptp.causes_2 X _let_86) (tptp.object_2 _let_86 _let_84) (tptp.quantity_2 _let_84 _let_87) (tptp.directly_proportional_2 _let_87 _let_88) (tptp.directly_proportional_2 _let_88 _let_89) (tptp.objective_2 X _let_85) (tptp.destination_2 X _let_3) (tptp.is_between_2 _let_84 _let_3) (tptp.is_between_2 _let_84 _let_67) (tptp.origin_2 X _let_67) (tptp.agent_2 X _let_84) (tptp.has_part_2 _let_1 _let_74) (tptp.has_region_2 _let_1 _let_73) (tptp.facilitates_2 _let_1 _let_78) (tptp.has_region_2 _let_1 _let_82) (tptp.agent_2 _let_78 _let_1) (tptp.has_region_2 _let_1 _let_72) (tptp.agent_2 _let_71 _let_1) (tptp.has_part_2 _let_1 _let_80) (tptp.is_inside_2 _let_80 _let_82) (tptp.size_2 _let_1 _let_77) (tptp.instrument_2 X _let_1) (tptp.subevent_2 X _let_78) (tptp.has_part_2 _let_1 _let_75) (tptp.size_2 _let_75 _let_76) (tptp.greater_than_2 _let_77 _let_76) (tptp.the_scalar_value_2 _let_77 tptp.big_0) (tptp.scalar_unit_class_2 _let_77 tptp.polypeptide_0) (tptp.has_function_2 _let_1 _let_71) (tptp.site_2 _let_71 _let_72) (tptp.is_at_2 _let_74 _let_72) (tptp.is_opposite_2 _let_73 _let_72) (tptp.is_opposite_2 _let_72 _let_73) (not (= _let_70 _let_68)) (not (= _let_68 _let_70)) (tptp.has_part_2 _let_3 _let_68) (tptp.has_solute_2 _let_3 _let_70) (tptp.has_part_2 _let_3 _let_70) (tptp.is_hypotonic_to_2 _let_3 _let_67) (tptp.is_hypertonic_to_2 _let_67 _let_3) (tptp.has_solvent_2 _let_3 _let_68) (= _let_101 _let_66) (= _let_9 _let_48) (= _let_101 _let_64) (= _let_101 _let_63) (= _let_100 _let_97) (= _let_99 _let_62) (= _let_99 _let_61) (= _let_98 _let_97) (= _let_93 _let_56) (= _let_96 _let_59) (= _let_96 _let_58) (= _let_96 _let_60) (= _let_96 _let_57) (= _let_95 _let_94) (= _let_93 _let_55) (= _let_93 _let_54) (= _let_93 _let_53) (= _let_93 _let_52) (= _let_93 _let_51) (= _let_93 _let_50) (= _let_1 _let_12) (= _let_9 _let_49) (= _let_9 _let_46) (= _let_1 _let_10) (= _let_78 _let_37) (= _let_9 _let_45) (= _let_9 _let_44) (= _let_78 _let_35) (= _let_47 (tptp.fn_passive_transport_1 X)) (= (tptp.fn_facilitated_diffusion_of_hydrated_ions_40 X) (tptp.fn_passive_transport_15 X)) (= (tptp.fn_facilitated_diffusion_of_hydrated_ions_2 X) (tptp.fn_passive_transport_30 X)) (= _let_78 _let_34) (= _let_65 (tptp.fn_passive_transport_22 X)) (= (tptp.fn_facilitated_diffusion_of_hydrated_ions_18 X) (tptp.fn_passive_transport_7 X)) (= _let_92 (tptp.fn_passive_transport_6 X)) (= (tptp.fn_facilitated_diffusion_of_hydrated_ions_39 X) (tptp.fn_passive_transport_16 X)) (= _let_91 (tptp.fn_passive_transport_27 X)) (= _let_90 (tptp.fn_passive_transport_17 X)) (= _let_89 (tptp.fn_passive_transport_19 X)) (= _let_88 (tptp.fn_passive_transport_18 X)) (= _let_87 (tptp.fn_passive_transport_28 X)) (= _let_84 _let_43) (= _let_86 (tptp.fn_passive_transport_23 X)) (= _let_85 (tptp.fn_facilitated_diffusion_of_ion_25 X)) (= _let_67 _let_5) (= _let_84 _let_42) (= _let_3 (tptp.fn_facilitated_diffusion_of_ion_23 X)) (= _let_73 _let_15) (= _let_72 _let_16) (= (tptp.fn_facilitated_diffusion_of_hydrated_ions_38 X) _let_83) (= _let_82 _let_81) (= _let_80 _let_41) (= _let_80 _let_40) (= _let_79 _let_39) (= _let_79 _let_38) (= _let_78 _let_36) (= _let_78 _let_33) (= X _let_2) (= _let_77 _let_32) (= _let_77 _let_31) (= _let_77 _let_30) (= _let_77 _let_29) (= _let_76 _let_28) (= _let_76 _let_27) (= _let_76 _let_26) (= _let_75 _let_25) (= _let_1 _let_11) (= _let_75 _let_24) (= _let_75 _let_23) (= _let_75 _let_22) (= _let_74 _let_21) (= _let_72 _let_18) (= _let_74 _let_20) (= _let_73 _let_19) (= _let_73 _let_16) (= _let_72 _let_17) (= _let_72 _let_15) (= _let_1 _let_8) (= _let_71 _let_14) (= _let_71 _let_13) (= _let_68 _let_7) (= _let_70 _let_69) (= _let_68 _let_6) (= _let_67 _let_4) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_15) (= _let_15 _let_19) (= _let_19 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_8 _let_11) (= _let_11 _let_8) (= _let_8 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_of_ion_29 X))) (let ((_let_2 (tptp.fn_hypertonic_solution_6 _let_1))) (let ((_let_3 (tptp.fn_passive_transport_of_solute_2 X))) (let ((_let_4 (tptp.fn_hypertonic_solution_7 _let_1))) (let ((_let_5 (tptp.fn_aqueous_solution_14 _let_1))) (let ((_let_6 (tptp.fn_hypertonic_solution_8 _let_1))) (let ((_let_7 (tptp.fn_facilitated_diffusion_of_ion_23 X))) (let ((_let_8 (tptp.fn_hypertonic_solution_5 _let_1))) (let ((_let_9 (tptp.fn_facilitated_diffusion_of_ion_27 X))) (let ((_let_10 (tptp.fn_facilitated_diffusion_of_ion_28 X))) (let ((_let_11 (tptp.fn_facilitated_diffusion_of_ion_26 X))) (let ((_let_12 (tptp.fn_facilitated_diffusion_of_ion_25 X))) (let ((_let_13 (tptp.fn_facilitated_diffusion_of_ion_24 X))) (let ((_let_14 (tptp.fn_facilitated_diffusion_of_ion_30 X))) (let ((_let_15 (tptp.fn_facilitated_diffusion_of_ion_16 X))) (let ((_let_16 (tptp.fn_facilitated_diffusion_of_ion_17 X))) (let ((_let_17 (tptp.fn_facilitated_diffusion_of_ion_18 X))) (let ((_let_18 (tptp.fn_facilitated_diffusion_of_ion_19 X))) (let ((_let_19 (tptp.fn_facilitated_diffusion_of_ion_20 X))) (let ((_let_20 (tptp.fn_facilitated_diffusion_of_ion_21 X))) (let ((_let_21 (tptp.fn_facilitated_diffusion_of_ion_22 X))) (=> (tptp.facilitated_diffusion_of_ion_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Of-Ion'|) (tptp.user_description_2 X |tptp.'The membrane potential acts like a battery, an energy source that affects the traffic of all charged substances across the membrane.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion of ion'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-of-ion'|) (tptp.passive_transport_of_solute_1 X) (tptp.facilitated_diffusion_1 X) (not (tptp.diffusion_of_water_across_membrane_separating_two_isotonic_solution_1 X)) (not (tptp.osmosis_1 X)) (tptp.system_1 (tptp.fn_facilitated_diffusion_of_ion_11 X)) (tptp.density_value_1 _let_15) (tptp.density_value_1 _let_16) (tptp.quantity_value_1 _let_17) (tptp.quantity_value_1 _let_18) (tptp.quantity_value_1 _let_19) (tptp.quantity_value_1 _let_20) (tptp.membrane_potential_1 _let_21) (tptp.aqueous_solution_1 _let_7) (tptp.hypotonic_solution_1 _let_7) (tptp.ion_1 _let_13) (tptp.symmetrical_distribution_1 _let_12) (tptp.gradient_1 _let_11) (tptp.concentration_gradient_1 _let_11) (tptp.chemical_1 _let_9) (tptp.water_1 _let_10) (tptp.chemical_1 _let_10) (tptp.aqueous_solution_1 _let_1) (tptp.hypertonic_solution_1 _let_1) (tptp.ion_1 _let_14) (tptp.chemical_1 _let_8) (tptp.chemical_1 _let_6) (tptp.water_1 _let_5) (tptp.water_1 _let_4) (tptp.chemical_1 _let_4) (tptp.hypotonic_solution_1 _let_2) (tptp.raw_material_2 X _let_21) (= _let_20 _let_19) (tptp.called_2 _let_20 |tptp.'Quantity_OH'|) (= _let_19 _let_20) (tptp.called_2 _let_19 |tptp.'Quantity_H'|) (tptp.called_2 _let_18 |tptp.'Quantity_OH'|) (tptp.called_2 _let_17 |tptp.'Quantity_H'|) (tptp.called_2 _let_16 |tptp.'Concentration_OH'|) (tptp.called_2 _let_15 |tptp.'Concentration_H'|) (tptp.same_type_2 _let_9 _let_10) (tptp.same_type_2 _let_10 _let_9) (tptp.object_2 X _let_14) (tptp.objective_2 X _let_12) (tptp.object_2 _let_12 _let_13) (tptp.destination_2 X _let_7) (tptp.is_between_2 _let_11 _let_7) (tptp.is_between_2 _let_11 _let_1) (tptp.origin_2 X _let_1) (tptp.agent_2 X _let_11) (tptp.has_solvent_2 _let_1 _let_10) (tptp.has_part_2 _let_7 _let_9) (tptp.has_solute_2 _let_7 _let_9) (tptp.has_part_2 _let_1 _let_10) (tptp.is_hypotonic_to_2 _let_7 _let_1) (tptp.is_hypertonic_to_2 _let_1 _let_7) (= _let_14 (tptp.fn_facilitated_diffusion_26 X)) (= _let_13 (tptp.fn_passive_transport_14 X)) (= _let_12 (tptp.fn_passive_transport_29 X)) (= _let_1 (tptp.fn_passive_transport_of_solute_1 X)) (= _let_11 (tptp.fn_passive_transport_of_solute_3 X)) (= _let_7 _let_3) (= _let_10 _let_6) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 _let_8) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_of_polar_molecule_6 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_4 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 X))) (let ((_let_5 (tptp.fn_biomembrane_54 _let_4))) (let ((_let_6 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_7 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_8 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_9 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_10 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_11 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_12 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_13 (tptp.fn_biomembrane_56 _let_4))) (let ((_let_14 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_15 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_16 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_17 (tptp.fn_facilitated_diffusion_37 X))) (let ((_let_18 (tptp.fn_polymer_6 _let_1))) (let ((_let_19 (tptp.fn_passive_transport_14 X))) (let ((_let_20 (tptp.fn_biomembrane_55 _let_4))) (let ((_let_21 (tptp.fn_biomembrane_48 _let_4))) (let ((_let_22 (tptp.fn_membrane_5 _let_4))) (let ((_let_23 (tptp.fn_facilitated_diffusion_of_polar_molecule_15 X))) (let ((_let_24 (tptp.fn_facilitated_diffusion_of_polar_molecule_11 X))) (let ((_let_25 (tptp.fn_facilitated_diffusion_of_polar_molecule_12 X))) (let ((_let_26 (tptp.fn_transport_protein_23 _let_1))) (let ((_let_27 (tptp.fn_transport_protein_22 _let_1))) (let ((_let_28 (tptp.fn_facilitated_diffusion_of_polar_molecule_9 X))) (let ((_let_29 (tptp.fn_facilitated_diffusion_of_polar_molecule_10 X))) (let ((_let_30 (tptp.fn_facilitated_diffusion_of_polar_molecule_7 X))) (let ((_let_31 (tptp.fn_facilitated_diffusion_of_polar_molecule_14 X))) (let ((_let_32 (tptp.fn_facilitated_diffusion_of_polar_molecule_1 X))) (let ((_let_33 (tptp.fn_facilitated_diffusion_of_polar_molecule_2 X))) (let ((_let_34 (tptp.fn_facilitated_diffusion_of_polar_molecule_3 X))) (let ((_let_35 (tptp.fn_facilitated_diffusion_of_polar_molecule_4 X))) (=> (tptp.facilitated_diffusion_of_polar_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Of-Polar-Molecule'|) (tptp.user_description_2 X |tptp.'The proteins mediate the movement of molecules that are too polar or too large to move across a membrane.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion of polar molecule'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-of-polar-molecule'|) (tptp.passive_transport_of_solute_1 X) (tptp.facilitated_diffusion_1 X) (tptp.cell_pole_1 _let_32) (tptp.cell_pole_1 _let_33) (tptp.surface_1 _let_34) (tptp.increase_1 _let_35) (tptp.membrane_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.polymer_1 _let_1) (tptp.tangible_entity_1 _let_1) (tptp.membrane_protein_1 _let_1) (tptp.protein_1 _let_1) (tptp.transmembrane_protein_1 _let_1) (tptp.integral_protein_1 _let_1) (tptp.transport_protein_1 _let_1) (tptp.rate_value_1 _let_30) (tptp.polar_molecule_1 _let_28) (tptp.symmetrical_distribution_1 _let_29) (tptp.size_value_1 _let_24) (tptp.monomer_1 _let_25) (tptp.spatial_entity_1 _let_31) (tptp.tangible_entity_1 _let_31) (tptp.hydrophobic_compound_1 _let_31) (tptp.size_value_1 _let_23) (tptp.property_node_1 _let_27) (tptp.property_node_1 _let_26) (tptp.spatial_entity_1 _let_22) (tptp.tangible_entity_1 _let_22) (tptp.hydrophobic_compound_1 _let_21) (tptp.chemical_entity_1 _let_20) (tptp.monomer_1 _let_18) (tptp.monomer_1 _let_16) (tptp.size_value_1 _let_14) (tptp.size_value_1 _let_13) (tptp.size_value_1 _let_11) (tptp.size_value_1 _let_10) (tptp.biomembrane_1 _let_9) (tptp.biomembrane_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.membrane_protein_1 _let_5) (tptp.protein_1 _let_5) (tptp.facilitated_diffusion_1 _let_2) (tptp.complement_2 _let_28 _let_1) (tptp.the_scalar_value_2 _let_30 tptp.slow_0) (tptp.scalar_unit_class_2 _let_30 tptp.move_0) (tptp.supports_2 X _let_35) (tptp.path_2 X _let_34) (tptp.path_2 X _let_33) (tptp.path_2 X _let_32) (tptp.complement_2 _let_1 _let_28) (tptp.is_permeable_to_2 _let_4 _let_28) (tptp.is_impermeable_to_2 _let_4 _let_31) (tptp.object_2 X _let_28) (tptp.object_2 _let_29 _let_28) (tptp.objective_2 X _let_29) (tptp.rate_2 X _let_30) (tptp.the_scalar_value_2 _let_23 tptp.big_0) (tptp.scalar_unit_class_2 _let_23 tptp.polypeptide_0) (tptp.path_2 X _let_4) (tptp.instrument_2 X _let_1) (tptp.has_part_2 _let_1 _let_25) (tptp.is_across_2 _let_1 _let_4) (tptp.has_part_2 _let_4 _let_1) (tptp.size_2 _let_1 _let_23) (tptp.greater_than_2 _let_23 _let_24) (tptp.size_2 _let_25 _let_24) (= _let_28 _let_20) (= _let_31 _let_22) (= _let_31 _let_21) (= (tptp.fn_facilitated_diffusion_of_polar_molecule_8 X) (tptp.fn_passive_transport_7 X)) (= _let_30 (tptp.fn_passive_transport_6 X)) (= _let_29 (tptp.fn_passive_transport_29 X)) (= _let_28 _let_19) (= (tptp.fn_facilitated_diffusion_of_polar_molecule_16 X) _let_27) (= (tptp.fn_facilitated_diffusion_of_polar_molecule_13 X) _let_26) (= _let_25 _let_18) (= X _let_2) (= _let_25 _let_17) (= _let_25 _let_16) (= _let_24 _let_15) (= _let_24 _let_14) (= _let_23 _let_13) (= _let_23 _let_12) (= _let_23 _let_11) (= _let_23 _let_10) (= _let_4 _let_9) (= _let_1 _let_5) (= _let_4 _let_8) (= _let_1 _let_3) (= _let_4 _let_7) (= _let_4 _let_6) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_3) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_passive_transport_24 X))) (let ((_let_2 (tptp.fn_facilitated_diffusion_using_channel_protein_13 X))) (let ((_let_3 (tptp.fn_passive_transport_29 X))) (let ((_let_4 (tptp.fn_facilitated_diffusion_using_channel_protein_4 X))) (let ((_let_5 (tptp.fn_facilitated_diffusion_using_channel_protein_8 X))) (let ((_let_6 (tptp.fn_passive_transport_14 X))) (let ((_let_7 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_10 X))) (let ((_let_8 (tptp.fn_thermal_motion_5 _let_7))) (let ((_let_9 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_4 X))) (let ((_let_10 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_7 X))) (let ((_let_11 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_12 X))) (let ((_let_12 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_11 X))) (let ((_let_13 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_9 X))) (let ((_let_14 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_3 X))) (let ((_let_15 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_2 X))) (let ((_let_16 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_5 X))) (let ((_let_17 (tptp.fn_passive_transport_of_solute_3 _let_16))) (let ((_let_18 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_6 X))) (let ((_let_19 (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_1 X))) (=> (tptp.facilitated_diffusion_of_water_using_aquaporin_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Of-Water-Using-Aquaporin'|) (tptp.user_description_2 X |tptp.'The movement of water through biomembrane. Flow of water through water channels can occur as a result of diffusion or by filtration.'|) (tptp.concept2words_2 X |tptp.'perform osmosis'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion of water using aquaporin'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-of-water-using-aquaporin'|) (tptp.passive_transport_of_water_1 X) (tptp.facilitated_diffusion_using_channel_protein_1 X) (tptp.cell_survival_1 _let_19) (tptp.hydrophilic_channel_1 _let_15) (tptp.water_molecule_1 _let_14) (tptp.move_through_1 _let_9) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_16) (tptp.membrane_potential_1 _let_18) (tptp.rate_value_1 _let_10) (tptp.plasma_membrane_1 _let_13) (tptp.thermal_motion_1 _let_7) (tptp.thermal_energy_1 _let_12) (tptp.symmetrical_distribution_1 _let_11) (tptp.gradient_1 _let_17) (tptp.concentration_gradient_1 _let_17) (tptp.spatial_entity_1 _let_8) (tptp.tangible_entity_1 _let_8) (tptp.facilitates_2 _let_15 X) (tptp.the_scalar_value_2 _let_10 tptp.slow_0) (tptp.scalar_unit_class_2 _let_10 tptp.move_0) (tptp.supports_2 X _let_19) (tptp.is_across_2 _let_18 _let_13) (tptp.object_2 _let_7 _let_14) (tptp.agent_2 _let_16 _let_18) (tptp.possesses_2 _let_14 _let_12) (tptp.object_2 X _let_14) (tptp.path_2 _let_9 _let_15) (tptp.object_2 _let_11 _let_14) (tptp.path_2 X _let_13) (tptp.has_function_2 _let_13 _let_9) (tptp.base_2 _let_9 _let_13) (tptp.is_permeable_to_2 _let_13 _let_14) (tptp.object_2 _let_9 _let_14) (tptp.agent_2 _let_7 _let_12) (tptp.objective_2 X _let_11) (tptp.by_means_of_2 X _let_7) (tptp.causes_2 _let_7 _let_9) (tptp.subevent_2 X _let_9) (tptp.rate_2 X _let_10) (= _let_14 _let_8) (= _let_18 _let_17) (= _let_15 (tptp.fn_passive_transport_10 X)) (= _let_11 _let_4) (= _let_14 _let_6) (= _let_14 _let_5) (= _let_9 _let_2) (= _let_13 (tptp.fn_facilitated_diffusion_using_channel_protein_18 X)) (= _let_12 (tptp.fn_passive_transport_13 X)) (= _let_11 _let_3) (= (tptp.fn_facilitated_diffusion_of_water_using_aquaporin_8 X) (tptp.fn_passive_transport_7 X)) (= _let_10 (tptp.fn_passive_transport_6 X)) (= _let_9 _let_1) (= _let_7 (tptp.fn_passive_transport_22 X)) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_using_carrier_protein_33 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_4 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_5 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_6 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_7 (tptp.fn_facilitated_diffusion_using_carrier_protein_40 X))) (let ((_let_8 (tptp.fn_biomembrane_48 _let_7))) (let ((_let_9 (tptp.fn_membrane_5 _let_7))) (let ((_let_10 (tptp.fn_facilitated_diffusion_using_carrier_protein_47 X))) (let ((_let_11 (tptp.fn_concentration_gradient_9 _let_10))) (let ((_let_12 (tptp.fn_passive_transport_of_solute_2 X))) (let ((_let_13 (tptp.fn_concentration_gradient_8 _let_10))) (let ((_let_14 (tptp.fn_passive_transport_of_solute_1 X))) (let ((_let_15 (tptp.fn_biomembrane_52 _let_7))) (let ((_let_16 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_17 (tptp.fn_passive_transport_24 X))) (let ((_let_18 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_19 (tptp.fn_biomembrane_55 _let_7))) (let ((_let_20 (tptp.fn_passive_transport_14 X))) (let ((_let_21 (tptp.fn_facilitated_diffusion_using_carrier_protein_45 X))) (let ((_let_22 (tptp.fn_thermal_motion_5 _let_21))) (let ((_let_23 (tptp.fn_facilitated_diffusion_using_carrier_protein_35 X))) (let ((_let_24 (tptp.fn_attach_1 _let_23))) (let ((_let_25 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_26 (tptp.fn_transport_protein_12 _let_1))) (let ((_let_27 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_28 (tptp.fn_facilitated_diffusion_25 X))) (let ((_let_29 (tptp.fn_biomembrane_54 _let_7))) (let ((_let_30 (tptp.fn_transport_protein_4 _let_1))) (let ((_let_31 (tptp.fn_integral_protein_7 _let_1))) (let ((_let_32 (tptp.fn_transport_protein_33 _let_1))) (let ((_let_33 (tptp.fn_transport_protein_16 _let_1))) (let ((_let_34 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_35 (tptp.fn_facilitated_diffusion_45 X))) (let ((_let_36 (tptp.fn_facilitated_diffusion_42 X))) (let ((_let_37 (tptp.fn_transport_protein_14 _let_1))) (let ((_let_38 (tptp.fn_facilitated_diffusion_38 X))) (let ((_let_39 (tptp.fn_transport_protein_17 _let_1))) (let ((_let_40 (tptp.fn_facilitated_diffusion_39 X))) (let ((_let_41 (tptp.fn_transport_protein_9 _let_1))) (let ((_let_42 (tptp.fn_protein_6 _let_1))) (let ((_let_43 (tptp.fn_polymer_1 _let_1))) (let ((_let_44 (tptp.fn_transport_protein_26 _let_1))) (let ((_let_45 (tptp.fn_facilitated_diffusion_33 X))) (let ((_let_46 (tptp.fn_transport_protein_25 _let_1))) (let ((_let_47 (tptp.fn_facilitated_diffusion_29 X))) (let ((_let_48 (tptp.fn_transport_protein_24 _let_1))) (let ((_let_49 (tptp.fn_facilitated_diffusion_30 X))) (let ((_let_50 (tptp.fn_transport_protein_27 _let_1))) (let ((_let_51 (tptp.fn_facilitated_diffusion_32 X))) (let ((_let_52 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_53 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_54 (tptp.fn_biomembrane_56 _let_7))) (let ((_let_55 (tptp.fn_transport_protein_32 _let_1))) (let ((_let_56 (tptp.fn_integral_protein_6 _let_1))) (let ((_let_57 (tptp.fn_facilitated_diffusion_35 X))) (let ((_let_58 (tptp.fn_transport_protein_18 _let_1))) (let ((_let_59 (tptp.fn_facilitated_diffusion_43 X))) (let ((_let_60 (tptp.fn_facilitated_diffusion_using_carrier_protein_46 X))) (let ((_let_61 (tptp.fn_facilitated_diffusion_using_carrier_protein_37 X))) (let ((_let_62 (tptp.fn_facilitated_diffusion_using_carrier_protein_38 X))) (let ((_let_63 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X))) (let ((_let_77 (tptp.fn_facilitated_diffusion_using_carrier_protein_30 X))) (let ((_let_78 (tptp.fn_facilitated_diffusion_using_carrier_protein_29 X))) (let ((_let_79 (tptp.fn_facilitated_diffusion_using_carrier_protein_27 X))) (let ((_let_80 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_81 (tptp.fn_facilitated_diffusion_using_carrier_protein_22 X))) (let ((_let_82 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_83 (tptp.fn_facilitated_diffusion_using_carrier_protein_31 X))) (let ((_let_84 (tptp.fn_facilitated_diffusion_using_carrier_protein_13 X))) (let ((_let_85 (tptp.fn_transport_protein_6 _let_1))) (let ((_let_86 (tptp.fn_facilitated_diffusion_using_carrier_protein_14 X))) (let ((_let_87 (tptp.fn_transport_protein_8 _let_1))) (let ((_let_88 (tptp.fn_facilitated_diffusion_using_carrier_protein_32 X))) (let ((_let_89 (tptp.fn_transport_protein_7 _let_1))) (let ((_let_90 (tptp.fn_facilitated_diffusion_using_carrier_protein_19 X))) (let ((_let_91 (tptp.fn_transport_protein_22 _let_1))) (let ((_let_92 (tptp.fn_facilitated_diffusion_using_carrier_protein_24 X))) (let ((_let_93 (tptp.fn_facilitated_diffusion_using_carrier_protein_16 X))) (let ((_let_94 (tptp.fn_transport_protein_13 _let_1))) (let ((_let_95 (tptp.fn_facilitated_diffusion_using_carrier_protein_23 X))) (let ((_let_96 (tptp.fn_transport_protein_30 _let_1))) (let ((_let_97 (tptp.fn_transport_protein_29 _let_1))) (let ((_let_98 (tptp.fn_transport_protein_23 _let_1))) (let ((_let_99 (tptp.fn_facilitated_diffusion_using_carrier_protein_36 X))) (let ((_let_100 (tptp.fn_facilitated_diffusion_using_carrier_protein_10 X))) (let ((_let_101 (tptp.fn_facilitated_diffusion_using_carrier_protein_8 X))) (let ((_let_102 (tptp.fn_integral_protein_29 _let_1))) (let ((_let_103 (tptp.fn_facilitated_diffusion_using_carrier_protein_48 X))) (let ((_let_104 (tptp.fn_facilitated_diffusion_using_carrier_protein_25 X))) (let ((_let_105 (tptp.fn_facilitated_diffusion_using_carrier_protein_7 X))) (let ((_let_106 (tptp.fn_facilitated_diffusion_using_carrier_protein_3 X))) (let ((_let_107 (tptp.fn_facilitated_diffusion_using_carrier_protein_5 X))) (let ((_let_108 (tptp.fn_facilitated_diffusion_using_carrier_protein_4 X))) (let ((_let_109 (tptp.fn_facilitated_diffusion_using_carrier_protein_6 X))) (=> (tptp.facilitated_diffusion_using_carrier_protein_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Using-Carrier-Protein'|) (tptp.user_description_2 X |tptp.'The transport proteins hold onto their passengers and physically move them across the membrane. The transport protein is specific for the substances it translocates.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion using carrier protein'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-using-carrier-protein'|) (tptp.passive_transport_of_solute_1 X) (tptp.facilitated_diffusion_1 X) (not (tptp.facilitated_diffusion_using_channel_protein_1 X)) (tptp.change_of_shape_1 _let_106) (tptp.shape_value_1 _let_108) (tptp.carrier_protein_1 _let_107) (tptp.shape_value_1 _let_109) (tptp.binding_site_1 _let_105) (tptp.symmetrical_distribution_1 _let_101) (tptp.spatial_entity_1 _let_64) (tptp.tangible_entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.thermal_energy_1 _let_100) (tptp.attract_1 _let_70) (tptp.repel_1 _let_69) (tptp.size_value_1 _let_84) (tptp.protein_domain_1 _let_86) (tptp.hydrophilic_region_1 _let_71) (tptp.hydrophilic_end_1 _let_71) (tptp.carbon_skeleton_1 _let_93) (tptp.hydrophilic_region_1 _let_72) (tptp.hydrophilic_end_1 _let_72) (tptp.hydrophobic_region_1 _let_67) (tptp.polypeptide_1 _let_90) (tptp.entity_1 _let_74) (tptp.atom_1 _let_74) (tptp.chemical_entity_1 _let_74) (tptp.carbon_1 _let_73) (tptp.monomer_1 _let_81) (tptp.hydrophobic_amino_acid_1 _let_95) (tptp.polar_amino_acid_1 _let_92) (tptp.expose_1 _let_104) (tptp.constant_motion_1 _let_76) (tptp.kinetic_energy_1 _let_79) (tptp.covalent_bond_1 _let_75) (tptp.peptide_bond_1 _let_75) (tptp.quantity_value_1 _let_78) (tptp.speed_value_1 _let_77) (tptp.size_value_1 _let_83) (tptp.spatial_entity_1 _let_88) (tptp.chemical_entity_1 _let_88) (tptp.monomer_1 _let_88) (tptp.molecule_1 _let_88) (tptp.amino_acid_1 _let_88) (tptp.carrier_protein_1 _let_1) (tptp.move_through_1 _let_63) (tptp.attach_1 _let_23) (tptp.gradient_1 _let_99) (tptp.concentration_gradient_1 _let_99) (tptp.hypotonic_solution_1 _let_61) (tptp.aqueous_solution_1 _let_61) (tptp.solution_1 _let_61) (tptp.hypertonic_solution_1 _let_62) (tptp.aqueous_solution_1 _let_62) (tptp.solution_1 _let_62) (tptp.tangible_entity_1 _let_65) (tptp.phospholipid_bilayer_1 _let_65) (tptp.spatial_entity_1 _let_7) (tptp.membrane_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.thermal_motion_1 _let_21) (tptp.spatial_entity_1 _let_60) (tptp.tangible_entity_1 _let_60) (tptp.hydrophobic_compound_1 _let_60) (tptp.gradient_1 _let_10) (tptp.concentration_gradient_1 _let_10) (tptp.outside_face_1 _let_103) (tptp.surface_1 _let_102) (tptp.property_node_1 _let_98) (tptp.property_node_1 _let_97) (tptp.property_node_1 _let_96) (tptp.hydrophobic_amino_acid_1 _let_94) (tptp.property_node_1 _let_91) (tptp.polypeptide_1 _let_89) (tptp.spatial_entity_1 _let_87) (tptp.chemical_entity_1 _let_87) (tptp.monomer_1 _let_87) (tptp.molecule_1 _let_87) (tptp.amino_acid_1 _let_87) (tptp.protein_domain_1 _let_85) (tptp.size_value_1 _let_82) (tptp.monomer_1 _let_80) (tptp.repel_1 _let_68) (tptp.hydrophobic_region_1 _let_66) (tptp.carbon_skeleton_1 _let_58) (tptp.polar_amino_acid_1 _let_56) (tptp.polar_amino_acid_1 _let_55) (tptp.size_value_1 _let_54) (tptp.size_value_1 _let_53) (tptp.size_value_1 _let_52) (tptp.kinetic_energy_1 _let_50) (tptp.quantity_value_1 _let_48) (tptp.speed_value_1 _let_46) (tptp.constant_motion_1 _let_44) (tptp.covalent_bond_1 _let_43) (tptp.peptide_bond_1 _let_42) (tptp.peptide_bond_1 _let_41) (tptp.entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.carbon_1 _let_37) (tptp.hydrophilic_region_1 _let_34) (tptp.hydrophilic_end_1 _let_33) (tptp.hydrophilic_region_1 _let_32) (tptp.hydrophilic_end_1 _let_32) (tptp.attract_1 _let_31) (tptp.attract_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.membrane_protein_1 _let_29) (tptp.protein_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.phospholipid_bilayer_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.phospholipid_bilayer_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.phospholipid_bilayer_1 _let_25) (tptp.spatial_entity_1 _let_24) (tptp.spatial_entity_1 _let_22) (tptp.tangible_entity_1 _let_22) (tptp.chemical_entity_1 _let_19) (tptp.move_through_1 _let_16) (tptp.move_through_1 _let_15) (tptp.solution_1 _let_13) (tptp.solution_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.hydrophobic_compound_1 _let_8) (tptp.biomembrane_1 _let_6) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.facilitated_diffusion_1 _let_2) (tptp.next_event_2 _let_106 _let_63) (tptp.object_2 _let_106 _let_1) (tptp.result_2 _let_106 _let_107) (tptp.different_type_2 _let_108 _let_109) (tptp.shape_2 _let_107 _let_109) (tptp.different_type_2 _let_109 _let_108) (tptp.shape_2 _let_1 _let_108) (tptp.has_state_2 _let_1 _let_107) (tptp.has_region_2 _let_1 _let_105) (tptp.subevent_2 X _let_23) (tptp.subevent_2 X _let_106) (tptp.next_event_2 _let_23 _let_106) (tptp.site_2 _let_23 _let_105) (tptp.object_2 _let_23 _let_64) (tptp.object_2 _let_21 _let_64) (tptp.possesses_2 _let_1 _let_75) (tptp.object_2 _let_104 _let_1) (tptp.site_2 _let_104 _let_71) (tptp.has_region_2 _let_1 _let_103) (tptp.is_at_2 _let_71 _let_103) (tptp.object_2 X _let_64) (tptp.base_2 X _let_10) (tptp.causes_2 _let_21 _let_63) (tptp.by_means_of_2 X _let_21) (tptp.agent_2 _let_21 _let_100) (tptp.possesses_2 _let_64 _let_100) (tptp.object_2 _let_101 _let_64) (tptp.objective_2 X _let_101) (tptp.destination_2 X _let_61) (tptp.agent_2 X _let_99) (tptp.origin_2 X _let_62) (tptp.is_between_2 _let_99 _let_62) (tptp.is_between_2 _let_99 _let_61) (tptp.is_hypotonic_to_2 _let_61 _let_62) (tptp.is_hypertonic_to_2 _let_62 _let_61) (tptp.possesses_2 _let_1 _let_79) (tptp.is_across_2 _let_1 _let_7) (tptp.has_part_2 _let_1 _let_74) (tptp.is_inside_2 _let_1 _let_65) (tptp.has_part_2 _let_1 _let_90) (tptp.facilitates_2 _let_1 _let_63) (tptp.has_region_2 _let_1 _let_67) (tptp.instrument_2 X _let_1) (tptp.has_region_2 _let_1 _let_72) (tptp.has_part_2 _let_7 _let_1) (tptp.has_region_2 _let_1 _let_71) (tptp.has_function_2 _let_1 _let_69) (tptp.has_function_2 _let_1 _let_70) (tptp.agent_2 _let_69 _let_1) (tptp.has_part_2 _let_1 _let_95) (tptp.is_inside_2 _let_95 _let_67) (tptp.has_region_2 _let_1 _let_93) (tptp.is_inside_2 _let_73 _let_93) (tptp.has_part_2 _let_1 _let_92) (tptp.is_at_2 _let_92 _let_71) (tptp.size_2 _let_1 _let_84) (tptp.agent_2 _let_63 _let_1) (tptp.subevent_2 X _let_63) (tptp.has_region_2 _let_1 _let_86) (tptp.is_at_2 _let_88 _let_86) (tptp.has_part_2 _let_90 _let_88) (tptp.has_part_2 _let_1 _let_81) (tptp.size_2 _let_81 _let_83) (tptp.greater_than_2 _let_84 _let_83) (tptp.the_scalar_value_2 _let_84 tptp.big_0) (tptp.scalar_unit_class_2 _let_84 tptp.polypeptide_0) (tptp.object_2 _let_76 _let_1) (tptp.speed_2 _let_76 _let_77) (tptp.directly_proportional_2 _let_77 _let_78) (tptp.quantity_2 _let_79 _let_78) (tptp.has_part_2 _let_1 _let_73) (tptp.is_between_2 _let_75 _let_73) (tptp.is_between_2 _let_75 _let_74) (not (= _let_74 _let_73)) (not (= _let_73 _let_74)) (tptp.agent_2 _let_70 _let_1) (tptp.site_2 _let_70 _let_71) (tptp.facilitates_2 _let_71 _let_70) (tptp.is_opposite_2 _let_72 _let_71) (tptp.is_opposite_2 _let_71 _let_72) (tptp.has_function_2 _let_1 X) (tptp.path_2 X _let_7) (tptp.is_inside_2 _let_67 _let_7) (tptp.facilitates_2 _let_67 _let_69) (tptp.site_2 _let_69 _let_67) (tptp.has_part_2 _let_7 _let_65) (tptp.has_function_2 _let_7 _let_63) (tptp.base_2 _let_63 _let_7) (tptp.is_permeable_to_2 _let_7 _let_64) (tptp.object_2 _let_63 _let_64) (tptp.is_impermeable_to_2 _let_7 _let_60) (tptp.is_between_2 _let_10 _let_61) (tptp.is_between_2 _let_10 _let_62) (= _let_64 _let_24) (= _let_64 _let_22) (= _let_75 _let_43) (= _let_75 _let_42) (= _let_104 (tptp.fn_facilitated_diffusion_34 X)) (= _let_103 _let_102) (= _let_10 (tptp.fn_passive_transport_26 X)) (= _let_63 _let_17) (= _let_101 (tptp.fn_passive_transport_29 X)) (= _let_64 _let_20) (= _let_100 (tptp.fn_passive_transport_13 X)) (= _let_21 (tptp.fn_passive_transport_22 X)) (= _let_99 (tptp.fn_passive_transport_of_solute_3 X)) (= _let_61 _let_12) (= _let_62 _let_14) (= _let_65 _let_26) (= _let_72 _let_32) (= _let_7 _let_6) (= _let_71 _let_33) (= (tptp.fn_facilitated_diffusion_using_carrier_protein_41 X) _let_98) (= (tptp.fn_facilitated_diffusion_using_carrier_protein_42 X) _let_97) (= (tptp.fn_facilitated_diffusion_using_carrier_protein_43 X) _let_96) (= _let_95 _let_94) (= _let_93 _let_59) (= _let_93 _let_58) (= _let_92 _let_56) (= _let_92 _let_57) (= _let_92 _let_55) (= (tptp.fn_facilitated_diffusion_using_carrier_protein_44 X) _let_91) (= _let_1 _let_29) (= _let_63 _let_18) (= _let_1 _let_28) (= _let_63 _let_16) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_84 _let_54) (= _let_84 _let_53) (= _let_84 _let_52) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_79 _let_51) (= _let_79 _let_50) (= _let_78 _let_49) (= _let_78 _let_48) (= _let_76 _let_45) (= _let_77 _let_47) (= _let_77 _let_46) (= _let_76 _let_44) (= _let_75 _let_41) (= _let_73 _let_38) (= _let_74 _let_40) (= _let_74 _let_39) (= _let_73 _let_37) (= _let_71 _let_35) (= _let_72 _let_36) (= _let_72 _let_33) (= _let_70 _let_31) (= _let_71 _let_34) (= _let_71 _let_32) (= _let_70 _let_30) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_7 _let_4) (= _let_7 _let_3) (= X _let_2) (= _let_7 _let_5) (= _let_65 _let_27) (= _let_65 _let_25) (= _let_64 _let_19) (= _let_63 _let_15) (= _let_62 _let_13) (= _let_61 _let_11) (= _let_60 _let_9) (= _let_60 _let_8) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_32) (= _let_32 _let_36) (= _let_36 _let_32) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_facilitated_diffusion_using_channel_protein_14 X))) (let ((_let_2 (tptp.fn_transport_protein_28 _let_1))) (let ((_let_3 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_4 (tptp.fn_facilitated_diffusion_49 X))) (let ((_let_5 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_6 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_7 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_8 (tptp.fn_passive_transport_24 X))) (let ((_let_9 (tptp.fn_facilitated_diffusion_55 X))) (let ((_let_10 (tptp.fn_transport_protein_21 _let_1))) (let ((_let_11 (tptp.fn_facilitated_diffusion_37 X))) (let ((_let_12 (tptp.fn_polymer_6 _let_1))) (let ((_let_13 (tptp.fn_transport_protein_19 _let_1))) (let ((_let_14 (tptp.fn_facilitated_diffusion_28 X))) (let ((_let_15 (tptp.fn_transport_protein_20 _let_1))) (let ((_let_16 (tptp.fn_integral_protein_16 _let_1))) (let ((_let_17 (tptp.fn_facilitated_diffusion_47 X))) (let ((_let_18 (tptp.fn_passive_transport_14 X))) (let ((_let_19 (tptp.fn_facilitated_diffusion_26 X))) (let ((_let_20 (tptp.fn_facilitated_diffusion_using_channel_protein_16 X))) (let ((_let_21 (tptp.fn_thermal_motion_5 _let_20))) (let ((_let_22 (tptp.fn_facilitated_diffusion_using_channel_protein_18 X))) (let ((_let_23 (tptp.fn_facilitated_diffusion_using_channel_protein_13 X))) (let ((_let_24 (tptp.fn_facilitated_diffusion_using_channel_protein_20 X))) (let ((_let_25 (tptp.fn_facilitated_diffusion_using_channel_protein_19 X))) (let ((_let_26 (tptp.fn_facilitated_diffusion_using_channel_protein_5 X))) (let ((_let_27 (tptp.fn_transport_protein_22 _let_1))) (let ((_let_28 (tptp.fn_transport_protein_23 _let_1))) (let ((_let_29 (tptp.fn_facilitated_diffusion_using_channel_protein_8 X))) (let ((_let_30 (tptp.fn_facilitated_diffusion_using_channel_protein_9 X))) (let ((_let_31 (tptp.fn_facilitated_diffusion_using_channel_protein_4 X))) (let ((_let_32 (tptp.fn_facilitated_diffusion_using_channel_protein_15 X))) (let ((_let_33 (tptp.fn_facilitated_diffusion_using_channel_protein_11 X))) (let ((_let_34 (tptp.fn_facilitated_diffusion_using_channel_protein_10 X))) (let ((_let_35 (tptp.fn_facilitated_diffusion_using_channel_protein_2 X))) (let ((_let_36 (tptp.fn_facilitated_diffusion_using_channel_protein_12 X))) (let ((_let_37 (tptp.fn_facilitated_diffusion_using_channel_protein_1 X))) (let ((_let_38 (tptp.fn_facilitated_diffusion_using_channel_protein_17 X))) (=> (tptp.facilitated_diffusion_using_channel_protein_1 X) (and (tptp.original_name_2 X |tptp.'Facilitated-Diffusion-Using-Channel-Protein'|) (tptp.user_description_2 X |tptp.'The molecules move with the help of channel protein across the biomembrane.'|) (tptp.concept2words_2 X tptp.diffuse) (tptp.concept2words_2 X |tptp.'facilitated diffusion using channel protein'|) (tptp.concept2words_2 X |tptp.'facilitated-diffusion-using-channel-protein'|) (tptp.facilitated_diffusion_1 X) (not (tptp.facilitated_diffusion_using_carrier_protein_1 X)) (tptp.aqueous_solution_1 _let_37) (tptp.aqueous_solution_1 _let_35) (tptp.symmetrical_distribution_1 _let_31) (tptp.size_value_1 _let_26) (tptp.spatial_entity_1 _let_29) (tptp.tangible_entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.free_energy_1 _let_30) (tptp.quantity_value_1 _let_34) (tptp.quantity_value_1 _let_33) (tptp.gradient_1 _let_36) (tptp.concentration_gradient_1 _let_36) (tptp.move_through_1 _let_23) (tptp.channel_protein_1 _let_1) (tptp.potential_energy_1 _let_32) (tptp.thermal_motion_1 _let_20) (tptp.decrease_1 _let_38) (tptp.spatial_entity_1 _let_22) (tptp.biomembrane_1 _let_22) (tptp.size_value_1 _let_25) (tptp.monomer_1 _let_24) (tptp.property_node_1 _let_28) (tptp.property_node_1 _let_27) (tptp.spatial_entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.size_value_1 _let_16) (tptp.size_value_1 _let_15) (tptp.size_value_1 _let_13) (tptp.monomer_1 _let_12) (tptp.monomer_1 _let_10) (tptp.move_through_1 _let_7) (tptp.biomembrane_1 _let_6) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.facilitated_diffusion_1 _let_2) (tptp.agent_2 X _let_36) (tptp.object_2 _let_20 _let_29) (tptp.is_permeable_to_2 _let_22 _let_29) (tptp.quantity_2 _let_30 _let_34) (tptp.object_2 _let_38 _let_36) (tptp.base_2 X _let_36) (tptp.possesses_2 _let_36 _let_32) (tptp.destination_2 X _let_35) (tptp.is_between_2 _let_36 _let_35) (tptp.is_between_2 _let_36 _let_37) (tptp.origin_2 X _let_37) (tptp.causes_2 X _let_38) (tptp.object_2 _let_31 _let_29) (tptp.objective_2 X _let_31) (tptp.raw_material_2 X _let_32) (tptp.quantity_2 _let_32 _let_33) (tptp.directly_proportional_2 _let_33 _let_34) (tptp.object_2 X _let_29) (tptp.object_2 _let_23 _let_29) (tptp.causes_2 _let_20 _let_23) (tptp.by_means_of_2 X _let_20) (tptp.result_2 X _let_30) (tptp.facilitates_2 _let_1 _let_23) (tptp.has_part_2 _let_22 _let_1) (tptp.agent_2 _let_23 _let_1) (tptp.instrument_2 X _let_1) (tptp.size_2 _let_1 _let_26) (tptp.has_part_2 _let_1 _let_24) (tptp.size_2 _let_24 _let_25) (tptp.greater_than_2 _let_26 _let_25) (tptp.the_scalar_value_2 _let_26 tptp.big_0) (tptp.scalar_unit_class_2 _let_26 tptp.polypeptide_0) (tptp.is_across_2 _let_1 _let_22) (tptp.has_function_2 _let_22 _let_23) (tptp.base_2 _let_23 _let_22) (tptp.path_2 X _let_22) (tptp.subevent_2 X _let_23) (= _let_29 _let_21) (= (tptp.fn_facilitated_diffusion_using_channel_protein_7 X) (tptp.fn_passive_transport_16 X)) (= (tptp.fn_facilitated_diffusion_using_channel_protein_6 X) (tptp.fn_passive_transport_15 X)) (= _let_38 (tptp.fn_passive_transport_23 X)) (= _let_37 (tptp.fn_passive_transport_11 X)) (= _let_36 (tptp.fn_passive_transport_26 X)) (= _let_35 (tptp.fn_passive_transport_12 X)) (= _let_34 (tptp.fn_passive_transport_19 X)) (= _let_33 (tptp.fn_passive_transport_18 X)) (= _let_32 (tptp.fn_passive_transport_27 X)) (= _let_31 (tptp.fn_passive_transport_29 X)) (= _let_30 (tptp.fn_passive_transport_17 X)) (= _let_20 (tptp.fn_passive_transport_22 X)) (= _let_29 _let_19) (= _let_23 _let_8) (= _let_29 _let_18) (= _let_22 _let_6) (= _let_22 _let_5) (= (tptp.fn_facilitated_diffusion_using_channel_protein_21 X) _let_28) (= (tptp.fn_facilitated_diffusion_using_channel_protein_3 X) _let_27) (= _let_26 _let_16) (= _let_26 _let_17) (= _let_26 _let_15) (= _let_25 _let_14) (= _let_25 _let_13) (= _let_24 _let_12) (= _let_24 _let_11) (= _let_24 _let_10) (= X _let_2) (= _let_23 _let_9) (= _let_23 _let_7) (= _let_1 (tptp.fn_facilitated_diffusion_25 X)) (= _let_22 _let_4) (= _let_22 _let_3) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.facilitator_1 X) (and (tptp.original_name_2 X |tptp.'Facilitator'|) (tptp.user_description_2 X |tptp.'A species that has a positive effect on the survival and reproduction of other species in a community and that influences community structure.'|) (tptp.concept2words_2 X tptp.facilitator) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.factory_1 X) (and (tptp.original_name_2 X |tptp.'Factory'|) (tptp.user_description_2 X |tptp.'A building where a product is manufactured.'|) (tptp.concept2words_2 X tptp.factory) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.laboratory_1 X))))) (forall ((X $$unsorted)) (=> (tptp.facultative_anaerobe_1 X) (and (tptp.original_name_2 X |tptp.'Facultative-Anaerobe'|) (tptp.user_description_2 X |tptp.'Cells or organisms with the ability to make ATP by aerobic respiration or by anaerobic respiration. Most facultative anaerobes preferentially utilize aerobic respiration.'|) (tptp.concept2words_2 X |tptp.'facultative anaerobe'|) (tptp.concept2words_2 X |tptp.'facultative-anaerobe'|) (tptp.anaerobe_1 X) (not (tptp.parasite_1 X)) (not (tptp.primary_consumer_1 X)) (not (tptp.secondary_consumer_1 X)) (not (tptp.tertiary_consumer_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fad_3 X))) (let ((_let_2 (tptp.fn_fadh2_1 _let_1))) (let ((_let_3 (tptp.fn_fad_5 X))) (let ((_let_4 (tptp.fn_coenzyme_1 _let_3))) (let ((_let_5 (tptp.fn_fad_4 X))) (let ((_let_6 (tptp.fn_oxidizing_agent_1 _let_5))) (let ((_let_7 (tptp.fn_fad_1 X))) (let ((_let_8 (tptp.fn_fad_2 X))) (=> (tptp.fad_1 X) (and (tptp.original_name_2 X |tptp.'FAD'|) (tptp.user_description_2 X |tptp.'FAD (Flavin Adenine Dinucleotide) is a derivative of the B-vitamin riboflavin.'|) (tptp.concept2words_2 X |tptp.'flavin adenine dinucleotide'|) (tptp.concept2words_2 X |tptp.'electron carrier'|) (tptp.concept2words_2 X |tptp.'electron carrier of cellular respiration'|) (tptp.concept2words_2 X tptp.fad) (tptp.dinucleotide_1 X) (tptp.metabolism_1 _let_7) (tptp.transfer_1 _let_8) (tptp.fadh2_1 _let_1) (tptp.oxidizing_agent_1 _let_5) (tptp.coenzyme_1 _let_3) (tptp.chemical_entity_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.fad_1 _let_2) (tptp.agent_2 _let_8 X) (tptp.has_state_2 X _let_1) (tptp.in_event_2 _let_3 _let_7) (tptp.plays_2 X _let_5) (tptp.plays_2 X _let_3) (tptp.has_reduced_form_2 X _let_1) (tptp.has_oxidized_form_2 _let_1 X) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fadh2_10 X))) (let ((_let_2 (tptp.fn_electron_carrier_1 _let_1))) (let ((_let_3 (tptp.fn_fadh2_11 X))) (let ((_let_4 (tptp.fn_coenzyme_1 _let_3))) (let ((_let_5 (tptp.fn_fadh2_5 X))) (let ((_let_6 (tptp.fn_fadh2_4 X))) (let ((_let_7 (tptp.fn_fadh2_7 X))) (let ((_let_8 (tptp.fn_fadh2_6 X))) (let ((_let_9 (tptp.fn_fadh2_8 X))) (let ((_let_10 (tptp.fn_fadh2_9 X))) (let ((_let_11 (tptp.fn_fadh2_3 X))) (let ((_let_12 (tptp.fn_electron_carrier_2 _let_1))) (let ((_let_13 (tptp.fn_fadh2_2 X))) (let ((_let_14 (tptp.fn_fadh2_1 X))) (=> (tptp.fadh2_1 X) (and (tptp.original_name_2 X |tptp.'FADH2'|) (tptp.user_description_2 X |tptp.'The reduced form of FAD is FADH2. This acts as a reducing agent in most chemical reactions.'|) (tptp.concept2words_2 X |tptp.'flavin adenine dinucleotide'|) (tptp.concept2words_2 X |tptp.'flavin-adenine-dinucleotide'|) (tptp.concept2words_2 X |tptp.'electron carrier of cellular respiration'|) (tptp.concept2words_2 X tptp.fadh2) (tptp.dinucleotide_1 X) (not (tptp.acetyl_coa_1 X)) (not (tptp.coenzyme_a_1 X)) (not (tptp.nad_plus_1 X)) (not (tptp.nadh_1 X)) (not (tptp.nadp_plus_1 X)) (not (tptp.nadph_1 X)) (not (tptp.succinyl_coa_1 X)) (tptp.fad_1 _let_14) (tptp.carry_1 _let_13) (tptp.constant_motion_1 _let_11) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.carbon_1 _let_5) (tptp.kinetic_energy_1 _let_8) (tptp.carbon_skeleton_1 _let_7) (tptp.quantity_value_1 _let_9) (tptp.speed_value_1 _let_10) (tptp.electron_carrier_1 _let_1) (tptp.coenzyme_1 _let_3) (tptp.carry_1 _let_12) (tptp.organic_molecule_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.has_function_2 X _let_13) (tptp.has_state_2 X _let_14) (tptp.has_oxidized_form_2 X _let_14) (tptp.has_reduced_form_2 _let_14 X) (tptp.plays_2 X _let_3) (tptp.in_event_2 _let_1 _let_13) (tptp.agent_2 _let_13 X) (tptp.plays_2 X _let_1) (tptp.possesses_2 X _let_8) (tptp.quantity_2 _let_8 _let_9) (tptp.directly_proportional_2 _let_10 _let_9) (tptp.speed_2 _let_11 _let_10) (tptp.object_2 _let_11 X) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_5 _let_7) (tptp.has_region_2 X _let_7) (not (= _let_6 _let_5)) (not (= _let_5 _let_6)) (= X _let_4) (= X _let_2) (= _let_13 _let_12) (= _let_11 (tptp.fn_molecule_8 X)) (= _let_10 (tptp.fn_molecule_3 X)) (= _let_9 (tptp.fn_molecule_4 X)) (= _let_8 (tptp.fn_molecule_12 X)) (= _let_7 (tptp.fn_organic_molecule_3 X)) (= _let_6 (tptp.fn_organic_molecule_2 X)) (= _let_5 (tptp.fn_organic_molecule_1 X)) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fall_1 X) (and (tptp.original_name_2 X |tptp.'Fall'|) (tptp.concept2words_2 X tptp.fall) (tptp.move_1 X)))) (forall ((X $$unsorted)) (=> (tptp.familial_hypercholesterolemia_1 X) (and (tptp.original_name_2 X |tptp.'Familial-Hypercholesterolemia'|) (tptp.user_description_2 X |tptp.'In humans with familial hypercholesterolemia, an inherited disease characterized by a very high level of cholesterol in the blood, the LDL receptor proteins are defective, and the LDL particles cannot enter cells.'|) (tptp.concept2words_2 X |tptp.'familial hypercholesterolaemia'|) (tptp.concept2words_2 X |tptp.'familial-hypercholesterolaemia'|) (tptp.concept2words_2 X tptp.fh) (tptp.concept2words_2 X |tptp.'familial hypercholesterolemia'|) (tptp.concept2words_2 X |tptp.'familial-hypercholesterolemia'|) (tptp.human_genetic_disorder_1 X)))) (forall ((X $$unsorted)) (=> (tptp.family_1 X) (and (tptp.original_name_2 X |tptp.'Family'|) (tptp.concept2words_2 X tptp.house) (tptp.concept2words_2 X tptp.home) (tptp.concept2words_2 X tptp.family) (tptp.concept2words_2 X tptp.household) (tptp.concept2words_2 X tptp.menage) (tptp.concept2words_2 X |tptp.'family unit'|) (tptp.concept2words_2 X tptp.family_unit) (tptp.group_1 X)))) (forall ((X $$unsorted)) (=> (tptp.family_as_classification_1 X) (and (tptp.original_name_2 X |tptp.'Family-As-Classification'|) (tptp.user_description_2 X |tptp.'In Linnean classification, the taxonomy category above genus and below order.'|) (tptp.concept2words_2 X |tptp.'family as classification'|) (tptp.concept2words_2 X |tptp.'family-as-classification'|) (tptp.taxon_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fang_1 X) (and (tptp.original_name_2 X |tptp.'Fang'|) (tptp.user_description_2 X |tptp.'Specialized elongated canine tooth which is sharply pointed. In some species, fangs are hollow for injecting venom into prey.'|) (tptp.concept2words_2 X tptp.fang) (tptp.canine_tooth_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fasciated_gene_24 X))) (let ((_let_2 (tptp.fn_carbon_16 _let_1))) (let ((_let_3 (tptp.fn_atom_17 _let_1))) (let ((_let_4 (tptp.fn_carbon_19 _let_1))) (let ((_let_5 (tptp.fn_carbon_12 _let_1))) (let ((_let_6 (tptp.fn_atom_11 _let_1))) (let ((_let_7 (tptp.fn_fasciated_gene_35 X))) (let ((_let_8 (tptp.fn_phosphodiester_bond_15 _let_7))) (let ((_let_9 (tptp.fn_phosphodiester_bond_16 _let_7))) (let ((_let_10 (tptp.fn_phosphodiester_bond_27 _let_7))) (let ((_let_11 (tptp.fn_phosphodiester_bond_18 _let_7))) (let ((_let_12 (tptp.fn_fasciated_gene_30 X))) (let ((_let_13 (tptp.fn_share_3 _let_12))) (let ((_let_14 (tptp.fn_fasciated_gene_29 X))) (let ((_let_15 (tptp.fn_share_3 _let_14))) (let ((_let_16 (tptp.fn_phosphodiester_bond_4 _let_7))) (let ((_let_17 (tptp.fn_share_1 _let_14))) (let ((_let_18 (tptp.fn_fasciated_gene_33 X))) (let ((_let_19 (tptp.fn_oxygen_1 _let_18))) (let ((_let_20 (tptp.fn_share_2 _let_12))) (let ((_let_21 (tptp.fn_fasciated_gene_38 X))) (let ((_let_22 (tptp.fn_kinetic_energy_2 _let_21))) (let ((_let_23 (tptp.fn_fasciated_gene_37 X))) (let ((_let_24 (tptp.fn_gene_related_aggregates_1 _let_23))) (let ((_let_25 (tptp.fn_fasciated_gene_31 X))) (let ((_let_26 (tptp.fn_dna_strand_14 _let_25))) (let ((_let_27 (tptp.fn_gene_3 X))) (let ((_let_28 (tptp.fn_fasciated_gene_16 X))) (let ((_let_29 (tptp.fn_intron_6 _let_28))) (let ((_let_30 (tptp.fn_share_1 _let_12))) (let ((_let_31 (tptp.fn_dna_strand_39 _let_25))) (let ((_let_32 (tptp.fn_dna_strand_38 _let_25))) (let ((_let_33 (tptp.fn_carbon_20 _let_1))) (let ((_let_34 (tptp.fn_fasciated_gene_22 X))) (let ((_let_35 (tptp.fn_fasciated_gene_23 X))) (let ((_let_36 (tptp.fn_carbon_9 _let_1))) (let ((_let_37 (tptp.fn_carbon_13 _let_1))) (let ((_let_38 (tptp.fn_carbon_11 _let_1))) (let ((_let_39 (tptp.fn_fasciated_gene_40 X))) (let ((_let_40 (tptp.fn_carbon_7 _let_1))) (let ((_let_41 (tptp.fn_fasciated_gene_26 X))) (let ((_let_42 (tptp.fn_phosphodiester_bond_6 _let_7))) (let ((_let_43 (tptp.fn_oxygen_8 _let_18))) (let ((_let_44 (tptp.fn_fasciated_gene_39 X))) (let ((_let_45 (tptp.fn_fasciated_gene_27 X))) (let ((_let_46 (tptp.fn_fasciated_gene_9 X))) (let ((_let_47 (tptp.fn_fasciated_gene_20 X))) (let ((_let_48 (tptp.fn_fasciated_gene_19 X))) (let ((_let_49 (tptp.fn_fasciated_gene_10 X))) (let ((_let_50 (tptp.fn_fasciated_gene_17 X))) (let ((_let_51 (tptp.fn_fasciated_gene_34 X))) (let ((_let_52 (tptp.fn_fasciated_gene_18 X))) (let ((_let_53 (tptp.fn_kinetic_energy_1 _let_21))) (let ((_let_54 (tptp.fn_fasciated_gene_28 X))) (let ((_let_55 (tptp.fn_fasciated_gene_36 X))) (let ((_let_56 (tptp.fn_organism_3 _let_55))) (let ((_let_57 (tptp.fn_fasciated_gene_25 X))) (let ((_let_58 (tptp.fn_fasciated_gene_32 X))) (let ((_let_59 (tptp.fn_fasciated_gene_2 X))) (let ((_let_60 (tptp.fn_fasciated_gene_3 X))) (let ((_let_61 (tptp.fn_fasciated_gene_6 X))) (let ((_let_62 (tptp.fn_fasciated_gene_7 X))) (let ((_let_63 (tptp.fn_fasciated_gene_8 X))) (let ((_let_64 (tptp.fn_fasciated_gene_1 X))) (=> (tptp.fasciated_gene_1 X) (and (tptp.original_name_2 X |tptp.'Fasciated-Gene'|) (tptp.user_description_2 X |tptp.'Gene associated with fasciation, or lengthening of structures at the apical meristem of plants.'|) (tptp.concept2words_2 X |tptp.'fasciated gene'|) (tptp.concept2words_2 X |tptp.'fasciated-gene'|) (tptp.plant_gene_1 X) (tptp.carbon_1 _let_64) (tptp.nucleoside_monophosphate_1 _let_59) (tptp.monomer_1 _let_59) (tptp.monomer_1 _let_60) (tptp.nucleoside_monophosphate_1 _let_60) (tptp.speed_value_1 _let_61) (tptp.quantity_value_1 _let_62) (tptp.nitrogen_1 _let_63) (tptp.chemical_entity_1 _let_46) (tptp.deoxyribonucleoside_monophosphate_1 _let_46) (tptp.deoxyribonucleoside_monophosphate_1 _let_49) (tptp.intron_1 _let_28) (tptp.exon_1 _let_50) (tptp.exon_1 _let_52) (tptp.size_value_1 _let_48) (tptp.size_value_1 _let_47) (tptp.atomic_number_value_1 _let_34) (tptp.quantity_value_1 _let_35) (tptp.entity_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.atom_1 _let_1) (tptp.carbon_1 _let_1) (tptp.hydrogen_1 _let_57) (tptp.entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.oxygen_1 _let_41) (tptp.entity_1 _let_45) (tptp.valence_electron_1 _let_45) (tptp.constant_motion_1 _let_54) (tptp.share_1 _let_14) (tptp.unequal_sharing_1 _let_12) (tptp.dna_strand_1 _let_25) (tptp.nucleoside_1 _let_25) (tptp.number_5_prime_carbon_1 _let_58) (tptp.entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.code_for_1 _let_51) (tptp.phosphodiester_bond_1 _let_7) (tptp.plant_1 _let_55) (tptp.genotype_1 _let_23) (tptp.gene_related_aggregates_1 _let_23) (tptp.kinetic_energy_1 _let_21) (tptp.valence_electron_1 _let_44) (tptp.system_1 _let_39) (tptp.genotype_1 _let_56) (tptp.constant_motion_1 _let_53) (tptp.valence_electron_1 _let_43) (tptp.share_1 _let_42) (tptp.equation_big_node_1 _let_40) (tptp.system_1 _let_38) (tptp.property_node_1 _let_37) (tptp.property_node_1 _let_36) (tptp.equation_set_1 _let_33) (tptp.atom_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.carbon_1 _let_31) (tptp.entity_1 _let_30) (tptp.exon_1 _let_29) (tptp.gene_1 _let_26) (tptp.gene_1 _let_24) (tptp.tangible_entity_1 _let_22) (tptp.entity_1 _let_20) (tptp.valence_electron_1 _let_19) (tptp.entity_1 _let_17) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_15) (tptp.entity_1 _let_13) (tptp.atom_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.atom_1 _let_10) (tptp.oxygen_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.carbon_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.quantity_value_1 _let_6) (tptp.quantity_value_1 _let_5) (tptp.quantity_value_1 _let_4) (tptp.atomic_number_value_1 _let_3) (tptp.atomic_number_value_1 _let_2) (not (= _let_64 _let_18)) (not (= _let_44 _let_45)) (tptp.quantity_2 _let_21 _let_62) (tptp.element_2 X _let_60) (tptp.element_2 X _let_59) (tptp.first_element_2 X _let_59) (tptp.is_between_2 _let_7 _let_18) (tptp.is_between_2 _let_7 _let_63) (tptp.donor_2 _let_51 X) (not (= _let_18 _let_64)) (tptp.object_2 _let_12 _let_44) (tptp.agent_2 _let_12 _let_1) (tptp.agent_2 _let_12 _let_63) (tptp.agent_2 _let_12 _let_18) (tptp.directly_proportional_2 _let_61 _let_62) (tptp.speed_2 _let_54 _let_61) (not (= _let_45 _let_44)) (tptp.is_between_2 _let_28 _let_50) (tptp.next_element_2 _let_59 _let_60) (tptp.size_2 _let_59 _let_47) (tptp.agent_2 _let_14 _let_41) (tptp.agent_2 _let_14 _let_18) (not (= _let_57 _let_18)) (not (= _let_18 _let_57)) (tptp.has_part_2 _let_25 _let_58) (tptp.agent_2 _let_12 _let_57) (not (= _let_57 _let_41)) (tptp.agent_2 _let_12 _let_41) (tptp.object_2 _let_12 _let_45) (not (= _let_41 _let_57)) (tptp.has_part_2 _let_25 X) (tptp.has_part_2 _let_55 _let_23) (tptp.is_between_2 _let_28 _let_52) (tptp.element_2 _let_23 X) (tptp.possesses_2 X _let_21) (tptp.object_2 _let_54 X) (tptp.next_element_2 _let_52 _let_28) (tptp.element_2 X _let_52) (tptp.has_function_2 X _let_51) (tptp.agent_2 _let_51 X) (tptp.element_2 X _let_46) (tptp.first_element_2 X _let_46) (tptp.size_2 X _let_48) (tptp.next_element_2 _let_46 _let_49) (tptp.element_2 X _let_49) (tptp.element_2 X _let_28) (tptp.next_element_2 _let_28 _let_50) (tptp.element_2 X _let_50) (tptp.possesses_2 X _let_7) (tptp.is_between_2 _let_7 _let_46) (tptp.size_2 _let_46 _let_47) (tptp.greater_than_2 _let_48 _let_47) (= _let_34 _let_35) (= _let_35 _let_34) (tptp.atomic_number_2 _let_1 _let_34) (tptp.called_2 _let_35 |tptp.'Number_Proton'|) (tptp.the_cardinal_value_2 _let_34 |"6"|) (tptp.cardinal_unit_class_2 _let_34 tptp.unity_0) (tptp.called_2 _let_34 |tptp.'Atomic_Number'|) (not (= _let_1 _let_41)) (not (= _let_41 _let_1)) (tptp.result_2 _let_14 _let_7) (tptp.agent_2 _let_14 _let_1) (tptp.is_between_2 _let_7 _let_1) (not (= _let_41 _let_18)) (not (= _let_18 _let_41)) (tptp.has_part_2 _let_18 _let_45) (tptp.has_part_2 _let_18 _let_44) (= _let_41 _let_15) (= _let_57 _let_15) (= _let_18 _let_17) (= _let_58 _let_32) (= _let_58 _let_31) (= _let_45 _let_20) (= _let_41 _let_13) (= _let_57 _let_30) (= X _let_26) (= _let_23 _let_56) (= _let_52 _let_29) (= X _let_24) (= _let_54 _let_53) (= X _let_22) (= (tptp.fn_fasciated_gene_13 X) (tptp.fn_gene_8 X)) (= _let_52 _let_27) (= _let_51 (tptp.fn_gene_13 X)) (= _let_50 (tptp.fn_gene_5 X)) (= _let_28 (tptp.fn_gene_4 X)) (= _let_49 (tptp.fn_gene_10 X)) (= (tptp.fn_fasciated_gene_12 X) (tptp.fn_gene_9 X)) (= _let_48 (tptp.fn_gene_11 X)) (= _let_47 (tptp.fn_gene_12 X)) (= _let_46 (tptp.fn_gene_17 X)) (= _let_7 (tptp.fn_gene_16 X)) (= _let_45 _let_19) (= _let_44 _let_43) (= _let_18 _let_16) (= _let_14 _let_42) (= _let_41 _let_11) (= _let_41 _let_10) (= _let_1 _let_9) (= _let_1 _let_8) (= _let_35 _let_5) (= _let_35 _let_6) (= (tptp.fn_fasciated_gene_11 X) _let_40) (= _let_39 _let_38) (= (tptp.fn_fasciated_gene_14 X) _let_37) (= (tptp.fn_fasciated_gene_15 X) _let_36) (= _let_35 _let_4) (= _let_34 _let_3) (= _let_34 _let_2) (= (tptp.fn_fasciated_gene_21 X) _let_33) (= _let_32 _let_31) (= _let_31 _let_15) (= _let_15 _let_15) (= _let_15 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_5) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fast_block_1 X) (and (tptp.original_name_2 X |tptp.'Fast-Block'|) (tptp.user_description_2 X |tptp.'A rapid depolarization of the egg membrane that is triggered when a sperm fuses to the egg membrane. The depolarization prevents other sperm from fusing with the same egg.'|) (tptp.concept2words_2 X |tptp.'block of fast'|) (tptp.concept2words_2 X |tptp.'fast block'|) (tptp.concept2words_2 X |tptp.'fast-block'|) (tptp.change_in_membrane_potential_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fast_muscle_fiber_1 X) (and (tptp.original_name_2 X |tptp.'Fast-Muscle-Fiber'|) (tptp.user_description_2 X |tptp.'Skeletal muscle fiber that contracts quickly and strongly but fatigues rapidly.'|) (tptp.concept2words_2 X |tptp.'fast muscle fiber'|) (tptp.concept2words_2 X |tptp.'fast-muscle-fiber'|) (tptp.fiber_1 X) (tptp.skeletal_muscle_1 X) (not (tptp.slow_twitch_fiber_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fat_11 X))) (let ((_let_2 (tptp.fn_fat_14 X))) (let ((_let_3 (tptp.fn_fatty_acid_27 _let_2))) (let ((_let_4 (tptp.fn_fat_12 X))) (let ((_let_5 (tptp.fn_fat_13 X))) (let ((_let_6 (tptp.fn_fat_5 X))) (let ((_let_7 (tptp.fn_fat_1 X))) (let ((_let_8 (tptp.fn_fat_3 X))) (let ((_let_9 (tptp.fn_fat_9 X))) (let ((_let_10 (tptp.fn_fat_7 X))) (let ((_let_11 (tptp.fn_fat_2 X))) (let ((_let_12 (tptp.fn_fat_6 X))) (=> (tptp.fat_1 X) (and (tptp.original_name_2 X |tptp.'Fat'|) (tptp.user_description_2 X |tptp.'Fats consist of a wide group of compounds that are generally soluble in organic solvents and largely insoluble in water. Chemically, fats are generally triesters of glycerol and fatty acids. Fats may be either solid or liquid at room temperature, depending on their structure and composition'|) (tptp.concept2words_2 X tptp.triglyceride) (tptp.concept2words_2 X tptp.triacylglycerol) (tptp.concept2words_2 X tptp.tag) (tptp.concept2words_2 X tptp.tg) (tptp.concept2words_2 X tptp.fat) (tptp.lipid_1 X) (tptp.glycerol_1 _let_7) (tptp.shape_value_1 _let_11) (tptp.fatty_acid_tail_1 _let_8) (tptp.glycerol_head_1 _let_6) (tptp.quantity_value_1 _let_12) (tptp.chemical_energy_1 _let_10) (tptp.unitless_value_1 _let_9) (tptp.hydrophobic_region_1 _let_1) (tptp.carbon_skeleton_1 _let_4) (tptp.ester_linkage_1 _let_5) (tptp.fatty_acid_1 _let_2) (tptp.carbon_skeleton_1 _let_3) (tptp.the_scalar_value_2 _let_9 tptp.high_0) (tptp.scalar_unit_class_2 _let_9 tptp.organic_molecule_0) (tptp.quantity_2 _let_10 _let_12) (tptp.the_scalar_value_2 _let_12 tptp.high_0) (tptp.scalar_unit_class_2 _let_12 tptp.tangible_entity_0) (tptp.shape_2 _let_4 _let_11) (tptp.the_categorical_value_2 _let_11 tptp.zig_zag_0) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_2) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.fatty_acid_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.glycerol_0) (tptp.possesses_2 X _let_10) (tptp.exactCardinality X tptp.possesses_0 |"3"| tptp.ester_linkage_0) (tptp.has_region_2 X _let_6) (tptp.has_region_2 X _let_8) (tptp.exactCardinality X tptp.has_region_0 |"3"| tptp.fatty_acid_tail_0) (tptp.importance_2 X _let_9) (tptp.is_inside_2 _let_2 _let_8) (tptp.is_inside_2 _let_7 _let_6) (tptp.possesses_2 X _let_5) (tptp.has_region_2 _let_2 _let_4) (tptp.has_region_2 X _let_1) (= _let_5 (tptp.fn_molecule_10 X)) (= _let_4 _let_3) (= _let_1 (tptp.fn_lipid_16 X))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fat_soluble_vitamin_2 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (=> (tptp.fat_soluble_vitamin_1 X) (and (tptp.original_name_2 X |tptp.'Fat-Soluble-Vitamin'|) (tptp.user_description_2 X |tptp.'A fat-soluble organic molecule required in the diet in very small amounts.'|) (tptp.concept2words_2 X |tptp.'fat soluble vitamin'|) (tptp.concept2words_2 X |tptp.'fat-soluble-vitamin'|) (tptp.vitamin_1 X) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.vitamin_0) (tptp.solubility_in_lipid_2 X _let_1) (= (tptp.fn_fat_soluble_vitamin_1 X) _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fat_substance_1 X))) (=> (tptp.fat_substance_1 X) (and (tptp.original_name_2 X |tptp.'Fat-Substance'|) (tptp.user_description_2 X |tptp.'Substance composed of fat molecules.'|) (tptp.concept2words_2 X |tptp.'substance of fat'|) (tptp.concept2words_2 X |tptp.'fat substance'|) (tptp.concept2words_2 X |tptp.'fat-substance'|) (tptp.substance_1 X) (tptp.fat_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.fate_map_1 X) (and (tptp.original_name_2 X |tptp.'Fate-Map'|) (tptp.user_description_2 X |tptp.'A diagram of an embryo showing the resulting tissues and structures derived from each of the cells.'|) (tptp.concept2words_2 X |tptp.'map of fate'|) (tptp.concept2words_2 X |tptp.'fate map'|) (tptp.concept2words_2 X |tptp.'fate-map'|) (tptp.map_1 X) (tptp.cell_lineage_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fatty_acid_43 X))) (let ((_let_2 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_3 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_4 (tptp.fn_carboxylic_acid_5 X))) (let ((_let_5 (tptp.fn_carboxylic_acid_4 X))) (let ((_let_6 (tptp.fn_organic_acid_13 X))) (let ((_let_7 (tptp.fn_carboxylic_acid_6 X))) (let ((_let_8 (tptp.fn_organic_acid_11 X))) (let ((_let_9 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_10 (tptp.fn_carboxyl_group_58 _let_1))) (let ((_let_11 (tptp.fn_carboxylic_acid_18 X))) (let ((_let_12 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_13 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_14 (tptp.fn_organic_acid_2 X))) (let ((_let_15 (tptp.fn_fatty_acid_24 X))) (let ((_let_16 (tptp.fn_first_electron_shell_5 _let_15))) (let ((_let_17 (tptp.fn_fatty_acid_63 X))) (let ((_let_18 (tptp.fn_share_2 _let_17))) (let ((_let_19 (tptp.fn_fatty_acid_15 X))) (let ((_let_20 (tptp.fn_share_2 _let_19))) (let ((_let_21 (tptp.fn_carboxyl_group_40 _let_1))) (let ((_let_22 (tptp.fn_carboxylic_acid_15 X))) (let ((_let_23 (tptp.fn_carboxyl_group_46 _let_1))) (let ((_let_24 (tptp.fn_carboxyl_group_65 _let_1))) (let ((_let_25 (tptp.fn_carboxylic_acid_13 X))) (let ((_let_26 (tptp.fn_organic_acid_8 X))) (let ((_let_27 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_28 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_29 (tptp.fn_first_electron_shell_3 _let_15))) (let ((_let_30 (tptp.fn_fatty_acid_40 X))) (let ((_let_31 (tptp.fn_share_1 _let_30))) (let ((_let_32 (tptp.fn_fatty_acid_12 X))) (let ((_let_33 (tptp.fn_hold_2 _let_32))) (let ((_let_34 (tptp.fn_share_3 _let_30))) (let ((_let_35 (tptp.fn_carboxyl_group_48 _let_1))) (let ((_let_36 (tptp.fn_first_electron_shell_7 _let_15))) (let ((_let_37 (tptp.fn_carboxyl_group_55 _let_1))) (let ((_let_38 (tptp.fn_carboxylic_acid_25 X))) (let ((_let_39 (tptp.fn_fatty_acid_66 X))) (let ((_let_40 (tptp.fn_hold_2 _let_39))) (let ((_let_41 (tptp.fn_fatty_acid_32 X))) (let ((_let_42 (tptp.fn_hold_2 _let_41))) (let ((_let_43 (tptp.fn_fatty_acid_65 X))) (let ((_let_44 (tptp.fn_hold_2 _let_43))) (let ((_let_45 (tptp.fn_fatty_acid_14 X))) (let ((_let_46 (tptp.fn_share_1 _let_45))) (let ((_let_47 (tptp.fn_fatty_acid_64 X))) (let ((_let_48 (tptp.fn_share_1 _let_47))) (let ((_let_49 (tptp.fn_share_1 _let_17))) (let ((_let_50 (tptp.fn_share_3 _let_45))) (let ((_let_51 (tptp.fn_share_3 _let_47))) (let ((_let_52 (tptp.fn_share_3 _let_17))) (let ((_let_53 (tptp.fn_carboxyl_group_18 _let_1))) (let ((_let_54 (tptp.fn_carboxyl_group_64 _let_1))) (let ((_let_55 (tptp.fn_organic_acid_9 X))) (let ((_let_56 (tptp.fn_carboxylic_acid_12 X))) (let ((_let_57 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_58 (tptp.fn_carboxylic_acid_11 X))) (let ((_let_59 (tptp.fn_fatty_acid_25 X))) (let ((_let_60 (tptp.fn_attract_1 _let_59))) (let ((_let_61 (tptp.fn_carboxyl_group_57 _let_1))) (let ((_let_62 (tptp.fn_carboxyl_group_20 _let_1))) (let ((_let_63 (tptp.fn_organic_acid_5 X))) (let ((_let_64 (tptp.fn_organic_acid_14 X))) (let ((_let_65 (tptp.fn_fatty_acid_23 X))) (let ((_let_66 (tptp.fn_second_electron_shell_13 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((_let_87 (tptp.fn_share_2 _let_86))) (let ((_let_88 (tptp.fn_hydrocarbon_molecule_18 _let_72))) (let ((_let_89 (tptp.fn_hydrocarbon_molecule_19 _let_72))) (let ((_let_90 (tptp.fn_fatty_acid_56 X))) (let ((_let_91 (tptp.fn_carbon_10 _let_90))) (let ((_let_92 (tptp.fn_atom_14 _let_90))) (let ((_let_93 (tptp.fn_second_electron_shell_21 _let_65))) (let ((_let_94 (tptp.fn_fatty_acid_31 X))) (let ((_let_95 (tptp.fn_atom_9 _let_94))) (let ((_let_96 (tptp.fn_second_electron_shell_20 _let_65))) (let ((_let_97 (tptp.fn_attract_2 _let_59))) (let ((_let_98 (tptp.fn_fatty_acid_21 X))) (let ((_let_99 (tptp.fn_fatty_acid_62 X))) (let ((_let_100 (tptp.fn_fatty_acid_58 X))) (let ((_let_101 (tptp.fn_fatty_acid_26 X))) (let ((_let_102 (tptp.fn_fatty_acid_18 X))) (let ((_let_103 (tptp.fn_carboxyl_group_47 _let_1))) (let ((_let_104 (tptp.fn_fatty_acid_34 X))) (let ((_let_105 (tptp.fn_fatty_acid_60 X))) (let ((_let_106 (tptp.fn_fatty_acid_37 X))) (let ((_let_107 (tptp.fn_fatty_acid_11 X))) (let ((_let_108 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_let_123 _let_71) (= _let_108 _let_54) (= _let_99 _let_10) (= _let_122 _let_67) (= _let_100 _let_13) (= _let_121 _let_120) (= _let_115 _let_21) (= _let_119 _let_27) (= _let_101 _let_21) (= _let_102 _let_24) (= _let_116 _let_61) (= _let_101 _let_10) (= _let_104 _let_29) (= _let_118 _let_53) (= _let_117 _let_62) (= _let_109 _let_53) (= _let_116 _let_35) (= _let_94 _let_2) (= _let_115 _let_12) (= _let_100 _let_16) (= _let_106 _let_36) (= _let_106 _let_35) (= _let_100 _let_9) (= _let_45 _let_114) (= _let_113 _let_112) (= _let_111 _let_57) (= _let_47 _let_110) (= _let_109 _let_54) (= _let_108 _let_53) (= _let_94 _let_3) (= _let_107 _let_37) (= _let_106 _let_23) (= _let_105 _let_61) (= _let_98 _let_3) (= _let_104 _let_27) (= _let_39 _let_103) (= _let_102 _let_23) (= _let_101 _let_13) (= _let_100 _let_12) (= _let_99 _let_9) (= _let_98 _let_2) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_93) (= _let_93 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_91) (= _let_91 _let_73) (= _let_73 _let_78) (= _let_78 _let_89) (= _let_89 _let_89) (= _let_89 _let_76) (= _let_76 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_74) (= _let_74 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_82) (= _let_81 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_38) (= _let_38 _let_38) (= _let_38 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_34) (= _let_34 _let_34) (= _let_34 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_28) (= _let_27 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_35) (= _let_35 _let_60) (= _let_60 _let_22) (= _let_12 _let_21) (= _let_21 _let_21) (= _let_21 _let_12) (= _let_12 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_53) (= _let_53 _let_54) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_49) (= _let_49 _let_51) (= _let_51 _let_48) (= _let_48 _let_50) (= _let_50 _let_46) (= _let_46 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_44) (= _let_40 _let_44) (= _let_44 _let_42) (= _let_42 _let_40) (= _let_40 _let_5) (= _let_4 _let_2) (= _let_3 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_23 _let_35) (= _let_35 _let_35) (= _let_35 _let_23) (= _let_23 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_10 _let_21) (= _let_21 _let_10) (= _let_10 _let_13) (= _let_13 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_14 _let_16) (= _let_16 _let_14) (= _let_14 _let_11) (= _let_11 _let_13) (= _let_13 _let_13) (= _let_13 _let_9) (= _let_9 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fatty_acid_tail_6 X))) (let ((_let_2 (tptp.fn_fatty_acid_tail_7 X))) (=> (tptp.fatty_acid_tail_1 X) (and (tptp.original_name_2 X |tptp.'Fatty-Acid-Tail'|) (tptp.user_description_2 X |tptp.'A fatty acid tail is a long tail-like region of a molecule which consists of fatty acids.'|) (tptp.concept2words_2 X |tptp.'hydrophobic tail'|) (tptp.concept2words_2 X |tptp.'hydrocarbon tail'|) (tptp.concept2words_2 X |tptp.'hydrocarbon-tail'|) (tptp.concept2words_2 X |tptp.'fatty acid tail'|) (tptp.concept2words_2 X |tptp.'fatty-acid-tail'|) (tptp.hydrophobic_end_1 X) (tptp.tail_region_1 X) (tptp.system_1 (tptp.fn_fatty_acid_tail_2 X)) (tptp.mass_value_1 _let_1) (tptp.mass_value_1 _let_2) (tptp.called_2 _let_2 tptp.mass_electron) (tptp.called_2 _let_1 tptp.mass_proton) (tptp.the_cardinal_value_2 _let_1 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fe_plus_3_1 X))) (=> (tptp.fe_plus_3_1 X) (and (tptp.original_name_2 X |tptp.'Fe-Plus-3'|) (tptp.user_description_2 X |tptp.'An ion of Iron with 3 positive charge.'|) (tptp.concept2words_2 X |tptp.'fe plus 3'|) (tptp.concept2words_2 X |tptp.'fe-plus-3'|) (tptp.monoatomic_ion_1 X) (tptp.cation_1 X) (tptp.iron_1 _let_1) (tptp.has_ion_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feather_1 X))) (=> (tptp.feather_1 X) (and (tptp.original_name_2 X |tptp.'Feather'|) (tptp.user_description_2 X |tptp.'An epidermal outgrowth that forms the outer covering of birds.'|) (tptp.concept2words_2 X tptp.feather) (tptp.specialised_organ_1 X) (tptp.keratin_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feces_14 X))) (let ((_let_2 (tptp.fn_waste_1 _let_1))) (let ((_let_3 (tptp.fn_feces_15 X))) (let ((_let_4 (tptp.fn_chemical_3 _let_3))) (let ((_let_5 (tptp.fn_feces_12 X))) (let ((_let_6 (tptp.fn_feces_16 X))) (let ((_let_7 (tptp.fn_chemical_digestion_1 _let_6))) (let ((_let_8 (tptp.fn_feces_13 X))) (let ((_let_9 (tptp.fn_feces_11 X))) (let ((_let_10 (tptp.fn_feces_2 X))) (let ((_let_11 (tptp.fn_feces_3 X))) (let ((_let_12 (tptp.fn_feces_1 X))) (let ((_let_13 (tptp.fn_feces_5 X))) (let ((_let_14 (tptp.fn_feces_4 X))) (let ((_let_15 (tptp.fn_feces_9 X))) (let ((_let_16 (tptp.fn_feces_6 X))) (let ((_let_17 (tptp.fn_feces_7 X))) (let ((_let_18 (tptp.fn_feces_8 X))) (let ((_let_19 (tptp.concept2words_2 X |tptp.'bowel-movement'|))) (let ((_let_20 (tptp.concept2words_2 X |tptp.'bowel movement'|))) (=> (tptp.feces_1 X) (and (tptp.original_name_2 X |tptp.'Feces'|) (tptp.user_description_2 X |tptp.'The waste products of digestion.'|) (tptp.concept2words_2 X tptp.faeces) (tptp.concept2words_2 X |tptp.'fecal matter'|) (tptp.concept2words_2 X |tptp.'fecal-matter'|) _let_20 _let_19 (tptp.concept2words_2 X tptp.poop) _let_20 _let_19 (tptp.concept2words_2 X tptp.feces) (tptp.detritus_1 X) (not (tptp.suspension_1 X)) (not (tptp.acid_chyme_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.homogeneous_mixture_1 X)) (not (tptp.loam_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X)) (tptp.tangible_entity_1 _let_12) (tptp.substance_1 _let_10) (tptp.tangible_entity_1 _let_11) (tptp.fiber_1 _let_14) (tptp.cellulose_1 _let_13) (tptp.bacterium_1 _let_16) (tptp.elimination_1 _let_17) (tptp.digestive_system_1 _let_18) (tptp.quantity_value_1 _let_15) (tptp.water_molecule_1 _let_9) (tptp.chemical_entity_1 _let_5) (tptp.activation_energy_1 _let_8) (tptp.waste_1 _let_1) (tptp.chemical_1 _let_3) (tptp.chemical_digestion_1 _let_6) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (not (= _let_5 _let_9)) (not (= _let_9 _let_5)) (tptp.the_scalar_value_2 _let_15 tptp.high_0) (tptp.scalar_unit_class_2 _let_15 tptp.tangible_entity_0) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_16) (tptp.has_function_2 _let_18 _let_17) (tptp.result_2 _let_17 X) (tptp.agent_2 _let_17 _let_18) (tptp.in_event_2 _let_1 _let_17) (tptp.quantity_2 _let_16 _let_15) (tptp.has_part_2 _let_14 _let_13) (tptp.has_state_2 _let_11 _let_12) (tptp.has_part_2 _let_10 _let_11) (tptp.has_part_2 _let_10 _let_3) (tptp.raw_material_2 _let_6 _let_9) (tptp.raw_material_2 _let_6 _let_8) (tptp.has_part_2 _let_3 _let_5) (tptp.plays_2 X _let_1) (= _let_8 _let_7) (= _let_5 _let_4) (= X _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feed_3 X))) (let ((_let_2 (tptp.fn_feed_4 X))) (let ((_let_3 (tptp.fn_feed_1 X))) (let ((_let_4 (tptp.fn_feed_2 X))) (=> (tptp.feed_1 X) (and (tptp.original_name_2 X |tptp.'Feed'|) (tptp.concept2words_2 X tptp.feed) (tptp.concept2words_2 X tptp.give) (tptp.concept2words_2 X tptp.grub) (tptp.supply_1 X) (tptp.living_entity_1 _let_3) (tptp.food_1 _let_4) (tptp.living_entity_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.plays_2 _let_2 _let_4) (tptp.in_event_2 _let_4 X) (tptp.recipient_2 X _let_3) (tptp.object_2 X _let_2) (tptp.donor_2 X _let_1) (tptp.agent_2 X _let_1) (= _let_2 (tptp.fn_transfer_1 X)) (= _let_1 (tptp.fn_relinquish_1 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feedback_inhibition_1 X))) (let ((_let_2 (tptp.fn_inhibitor_3 _let_1))) (let ((_let_3 (tptp.fn_inhibitor_2 _let_1))) (let ((_let_4 (tptp.fn_feedback_inhibition_2 X))) (let ((_let_5 (tptp.fn_chemical_reaction_1 _let_4))) (let ((_let_6 (tptp.fn_feedback_inhibition_3 X))) (=> (tptp.feedback_inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Inhibition'|) (tptp.user_description_2 X |tptp.'A cellular control mechanism in which an enzyme that catalyzes the production of a particular substance in the cell is inhibited when that substance has accumulated to a certain level, thereby balancing the amount provided with the amount needed.'|) (tptp.concept2words_2 X |tptp.'negative feedback'|) (tptp.concept2words_2 X |tptp.'negative-feedback'|) (tptp.concept2words_2 X |tptp.'perform feedback inhibition'|) (tptp.concept2words_2 X |tptp.'inhibition of feedback'|) (tptp.concept2words_2 X |tptp.'feedback inhibition'|) (tptp.concept2words_2 X |tptp.'feedback-inhibition'|) (tptp.inhibition_1 X) (tptp.feedback_mechanism_1 X) (not (tptp.allosteric_regulation_1 X)) (not (tptp.induced_fit_1 X)) (tptp.inhibitor_1 _let_1) (tptp.metabolic_pathway_1 _let_4) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.inhibition_1 _let_2) (tptp.inhibits_2 X _let_4) (tptp.result_2 _let_4 _let_6) (tptp.plays_2 _let_6 _let_1) (tptp.in_event_2 _let_1 X) (tptp.agent_2 X _let_6) (tptp.has_function_2 _let_6 X) (= _let_6 _let_5) (= _let_6 _let_3) (= X _let_2) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.inhibits_2 X X1) (tptp.feedback_inhibition_1 X) (tptp.anabolic_pathway_1 X1)) (and (tptp.feedback_inhibition_of_anabolic_pathway_1 X) (= (tptp.fn_feedback_inhibition_of_anabolic_pathway_8 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feedback_inhibition_of_anabolic_pathway_8 X))) (let ((_let_2 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_3 (tptp.fn_feedback_inhibition_3 X))) (let ((_let_4 (tptp.fn_feedback_inhibition_of_anabolic_pathway_7 X))) (let ((_let_5 (tptp.fn_feedback_inhibition_of_anabolic_pathway_5 X))) (let ((_let_6 (tptp.fn_feedback_inhibition_of_anabolic_pathway_4 X))) (let ((_let_7 (tptp.fn_feedback_inhibition_of_anabolic_pathway_1 X))) (let ((_let_8 (tptp.fn_feedback_inhibition_of_anabolic_pathway_2 X))) (let ((_let_9 (tptp.fn_feedback_inhibition_of_anabolic_pathway_3 X))) (=> (tptp.feedback_inhibition_of_anabolic_pathway_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Inhibition-Of-Anabolic-Pathway'|) (tptp.user_description_2 X |tptp.'A cellular control mechanism in which teh anabolic pathway in the cell is inhibited thereby balancing the substance amount provided with the amount needed.'|) (tptp.concept2words_2 X |tptp.'perform feedback inhibition of an anabolic pathway'|) (tptp.concept2words_2 X |tptp.'feedback inhibition of anabolic pathway'|) (tptp.concept2words_2 X |tptp.'feedback-inhibition-of-anabolic-pathway'|) (tptp.feedback_inhibition_1 X) (tptp.inhibition_1 _let_7) (tptp.protein_enzyme_1 _let_8) (tptp.activity_1 _let_9) (tptp.cell_1 _let_6) (tptp.event_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.metabolic_pathway_1 _let_1) (tptp.anabolic_pathway_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.inhibits_2 _let_7 _let_9) (tptp.agent_2 _let_7 _let_8) (tptp.subevent_2 X _let_7) (tptp.base_2 X _let_6) (tptp.subevent_2 _let_1 _let_5) (tptp.inhibits_2 X _let_1) (tptp.agent_2 X _let_4) (tptp.result_2 _let_1 _let_4) (= _let_1 (tptp.fn_feedback_inhibition_2 X)) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.inhibits_2 X X1) (tptp.feedback_inhibition_1 X) (tptp.glycolysis_1 X1)) (and (tptp.feedback_inhibition_of_glycolysis_1 X) (= (tptp.fn_feedback_inhibition_of_glycolysis_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feedback_inhibition_of_glycolysis_3 X))) (let ((_let_2 (tptp.fn_feedback_inhibition_of_glycolysis_2 X))) (=> (tptp.feedback_inhibition_of_glycolysis_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Inhibition-Of-Glycolysis'|) (tptp.user_description_2 X |tptp.'A method of metabolic control of glycolysis where the end products of the pathway act as inhibitors of enzymes within the glycolytic pathway.'|) (tptp.concept2words_2 X |tptp.'perform feedback inhibition of glycolysis'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X |tptp.'feedback inhibition of glycolysis'|) (tptp.concept2words_2 X |tptp.'feedback-inhibition-of-glycolysis'|) (tptp.feedback_inhibition_1 X) (tptp.cell_1 _let_2) (tptp.glycolysis_1 _let_1) (tptp.base_2 X _let_2) (tptp.inhibits_2 X _let_1) (= _let_1 (tptp.fn_feedback_inhibition_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feedback_inhibition_of_glycolysis_by_atp_2 X))) (let ((_let_2 (tptp.fn_feedback_inhibition_of_glycolysis_by_atp_1 X))) (=> (tptp.feedback_inhibition_of_glycolysis_by_atp_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Inhibition-Of-Glycolysis-By-ATP'|) (tptp.user_description_2 X |tptp.'A method of metabolic control of glycolysis in which excess ATP molecules produced during glycolysis act as an inhibitor of phosphofructokinase (PFK), an enzyme within the glycolytic pathway.'|) (tptp.concept2words_2 X |tptp.'perform feedback inhibition of glycolysis'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X |tptp.'feedback inhibition of glycolysis by atp'|) (tptp.concept2words_2 X |tptp.'feedback-inhibition-of-glycolysis-by-atp'|) (tptp.feedback_inhibition_of_glycolysis_1 X) (not (tptp.feedback_inhibition_of_glycolysis_by_citrate_1 X)) (tptp.collecting_1 _let_2) (tptp.cell_1 _let_1) (tptp.base_2 _let_2 _let_1) (tptp.by_means_of_2 X _let_2) (tptp.base_2 X _let_1) (= _let_1 (tptp.fn_feedback_inhibition_of_glycolysis_2 X))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.inhibits_2 X X2) (tptp.citrate_1 X1) (tptp.feedback_inhibition_of_glycolysis_1 X) (tptp.glycolysis_1 X2)) (and (tptp.feedback_inhibition_of_glycolysis_by_citrate_1 X) (= (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_8 X) X2) (= (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_5 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_6 X))) (let ((_let_2 (tptp.fn_enzyme_inhibitor_2 _let_1))) (let ((_let_3 (tptp.fn_enzyme_regulator_3 _let_1))) (let ((_let_4 (tptp.fn_inhibitor_3 _let_1))) (let ((_let_5 (tptp.fn_enzyme_inhibitor_3 _let_1))) (let ((_let_6 (tptp.fn_enzyme_regulator_2 _let_1))) (let ((_let_7 (tptp.fn_inhibitor_2 _let_1))) (let ((_let_8 (tptp.fn_feedback_inhibition_3 X))) (let ((_let_9 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_4 X))) (let ((_let_10 (tptp.fn_mitochondrion_24 _let_9))) (let ((_let_11 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_7 X))) (let ((_let_12 (tptp.fn_collecting_1 _let_11))) (let ((_let_13 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_5 X))) (let ((_let_14 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_8 X))) (let ((_let_15 (tptp.fn_mitochondrion_23 _let_9))) (let ((_let_16 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_3 X))) (let ((_let_17 (tptp.fn_feedback_inhibition_of_glycolysis_by_citrate_2 X))) (=> (tptp.feedback_inhibition_of_glycolysis_by_citrate_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Inhibition-Of-Glycolysis-By-Citrate'|) (tptp.user_description_2 X |tptp.'High concentrations of ATP and citrate inhibit glycolysis by allosteric regulation of phosphofructokinase. This is referred to as feedback inhibition.'|) (tptp.concept2words_2 X |tptp.'perform feedback inhibition of glycolysis'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X |tptp.'feedback inhibition of glycolysis by citrate'|) (tptp.concept2words_2 X |tptp.'feedback-inhibition-of-glycolysis-by-citrate'|) (tptp.feedback_inhibition_of_glycolysis_1 X) (not (tptp.feedback_inhibition_of_glycolysis_by_atp_1 X)) (tptp.cell_1 _let_17) (tptp.cytoplasm_1 _let_16) (tptp.mitochondrion_1 _let_9) (tptp.citrate_1 _let_13) (tptp.inhibitor_1 _let_1) (tptp.enzyme_regulator_1 _let_1) (tptp.enzyme_inhibitor_1 _let_1) (tptp.collecting_1 _let_11) (tptp.glycolysis_1 _let_14) (tptp.spatial_entity_1 _let_15) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.chemical_entity_1 _let_7) (tptp.molecule_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.molecule_1 _let_5) (tptp.inhibition_1 _let_4) (tptp.regulation_1 _let_3) (tptp.inhibition_1 _let_2) (tptp.regulation_1 _let_2) (tptp.base_2 _let_11 _let_17) (tptp.is_between_2 _let_9 _let_13) (tptp.is_between_2 _let_9 _let_16) (tptp.subevent_2 X _let_11) (tptp.object_2 _let_11 _let_13) (tptp.is_inside_2 _let_13 _let_9) (tptp.is_outside_2 _let_16 _let_9) (tptp.inhibits_2 X _let_14) (tptp.plays_2 _let_13 _let_1) (tptp.in_event_2 _let_1 X) (tptp.agent_2 X _let_13) (tptp.has_function_2 _let_13 X) (= _let_13 _let_12) (= _let_13 _let_10) (= _let_16 _let_15) (= _let_14 (tptp.fn_feedback_inhibition_of_glycolysis_3 X)) (= _let_13 _let_7) (= X _let_4) (= _let_13 _let_8) (= _let_13 _let_6) (= _let_13 _let_5) (= _let_1 (tptp.fn_feedback_inhibition_1 X)) (= X _let_3) (= X _let_2) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.feedback_mechanism_1 X) (and (tptp.original_name_2 X |tptp.'Feedback-Mechanism'|) (tptp.user_description_2 X |tptp.'Mechanism by which the output or product of a process regulates that process.'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'mechanism of feedback'|) (tptp.concept2words_2 X |tptp.'feedback mechanism'|) (tptp.concept2words_2 X |tptp.'feedback-mechanism'|) (tptp.regulation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.feeder_1 X) (and (tptp.original_name_2 X |tptp.'Feeder'|) (tptp.user_description_2 X |tptp.'Role assumed by an organism which refers to the way it obtains food.'|) (tptp.concept2words_2 X tptp.feeder) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.feeding_1 X) (and (tptp.original_name_2 X |tptp.'Feeding'|) (tptp.user_description_2 X |tptp.'The process of ingesting food to supply an animal_'s nutrient and energy needs.'|) (tptp.concept2words_2 X tptp.feed) (tptp.concept2words_2 X tptp.feeding) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.feeding_behavior_1 X) (and (tptp.original_name_2 X |tptp.'Feeding-Behavior'|) (tptp.user_description_2 X |tptp.'Behaviors relating to the obtaining of food by animals.'|) (tptp.concept2words_2 X |tptp.'behavior of feeding'|) (tptp.concept2words_2 X |tptp.'feeding behavior'|) (tptp.concept2words_2 X |tptp.'feeding-behavior'|) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_female_calico_cat_expressing_fur_color_6 X))) (let ((_let_2 (tptp.fn_animal_cell_52 _let_1))) (let ((_let_3 (tptp.fn_female_calico_cat_expressing_fur_color_4 X))) (let ((_let_4 (tptp.fn_code_for_1 _let_3))) (let ((_let_5 (tptp.fn_female_calico_cat_expressing_fur_color_5 X))) (let ((_let_6 (tptp.fn_code_for_2 _let_3))) (let ((_let_7 (tptp.fn_female_calico_cat_expressing_fur_color_3 X))) (let ((_let_8 (tptp.fn_female_calico_cat_expressing_fur_color_1 X))) (=> (tptp.female_calico_cat_expressing_fur_color_1 X) (and (tptp.original_name_2 X |tptp.'Female-Calico-Cat-Expressing-Fur-Color'|) (tptp.user_description_2 X |tptp.'A cat with Oo and white spotting genes is commonly called a calico. The reason for the patchwork effect in female cats heterozygous for the O gene (Oo) is X-inactivation one or the other X chromosome in every cell in the embryo is randomly inactivated (see Barr body), and the gene in the other X chromosome is expressed.'|) (tptp.concept2words_2 X |tptp.'female calico cat expressing fur color'|) (tptp.concept2words_2 X |tptp.'female-calico-cat-expressing-fur-color'|) (tptp.barr_body_mosaic_1 X) (tptp.color_value_1 _let_8) (tptp.fur_1 _let_7) (tptp.code_for_1 _let_3) (tptp.x_chromosome_1 _let_5) (tptp.female_somatic_cell_1 _let_1) (tptp.entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.eukaryotic_chromosome_1 _let_2) (tptp.chromosome_1 _let_2) (tptp.color_2 _let_7 _let_8) (tptp.the_categorical_value_2 _let_8 tptp.orange_0) (tptp.has_part_2 X _let_1) (tptp.agent_2 _let_3 _let_5) (tptp.result_2 _let_3 _let_7) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_7 _let_6) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.female_reproductive_cycle_events_1 X) (and (tptp.original_name_2 X |tptp.'Female-Reproductive-Cycle-Events'|) (tptp.user_description_2 X |tptp.'Events related to the female sexual reproductive cycle in animals.'|) (tptp.concept2words_2 X |tptp.'female reproductive cycle event'|) (tptp.concept2words_2 X |tptp.'female-reproductive-cycle-event'|) (tptp.reproductive_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_female_somatic_cell_1 X))) (let ((_let_2 (tptp.fn_female_somatic_cell_2 X))) (=> (tptp.female_somatic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Female-Somatic-Cell'|) (tptp.user_description_2 X |tptp.'Any cell in a female multicellular organism except a sperm or egg or their precursors.'|) (tptp.concept2words_2 X |tptp.'female somatic cell'|) (tptp.concept2words_2 X |tptp.'female-somatic-cell'|) (tptp.somatic_cell_1 X) (not (tptp.male_somatic_cell_1 X)) (tptp.dna_polymerase_iii_1 _let_1) (tptp.barr_body_1 _let_2) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.x_chromosome_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.barr_body_0) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_animal_cell_52 X)) (= _let_1 (tptp.fn_eukaryotic_cell_3 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fermentation_17 X))) (let ((_let_2 (tptp.fn_glucose_15 _let_1))) (let ((_let_3 (tptp.fn_glucose_33 _let_1))) (let ((_let_4 (tptp.fn_fermentation_54 X))) (let ((_let_5 (tptp.fn_carbon_2 _let_4))) (let ((_let_6 (tptp.fn_glucose_2 _let_1))) (let ((_let_7 (tptp.fn_fermentation_33 X))) (let ((_let_8 (tptp.fn_glycolysis_35 _let_7))) (let ((_let_9 (tptp.fn_glycolysis_81 _let_7))) (let ((_let_10 (tptp.fn_glucose_22 _let_1))) (let ((_let_11 (tptp.fn_glucose_21 _let_1))) (let ((_let_12 (tptp.fn_aldose_4 _let_1))) (let ((_let_13 (tptp.fn_monosaccharide_13 _let_1))) (let ((_let_14 (tptp.fn_aldehyde_5 _let_1))) (let ((_let_15 (tptp.fn_fermentation_24 X))) (let ((_let_16 (tptp.fn_reduction_3 _let_15))) (let ((_let_17 (tptp.fn_glycolysis_77 _let_7))) (let ((_let_18 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_19 (tptp.fn_glucose_24 _let_1))) (let ((_let_20 (tptp.fn_aldose_10 _let_1))) (let ((_let_21 (tptp.fn_monosaccharide_5 _let_1))) (let ((_let_22 (tptp.fn_aldehyde_6 _let_1))) (let ((_let_23 (tptp.fn_aldose_9 _let_1))) (let ((_let_24 (tptp.fn_monosaccharide_18 _let_1))) (let ((_let_25 (tptp.fn_glucose_27 _let_1))) (let ((_let_26 (tptp.fn_aldose_6 _let_1))) (let ((_let_27 (tptp.fn_monosaccharide_17 _let_1))) (let ((_let_28 (tptp.fn_carbohydrate_34 _let_1))) (let ((_let_29 (tptp.fn_aldehyde_10 _let_1))) (let ((_let_30 (tptp.fn_fermentation_32 X))) (let ((_let_31 (tptp.fn_nad_plus_1 _let_30))) (let ((_let_32 (tptp.fn_fermentation_23 X))) (let ((_let_33 (tptp.fn_oxidation_10 _let_32))) (let ((_let_34 (tptp.fn_reduction_1 _let_15))) (let ((_let_35 (tptp.fn_glycolysis_74 _let_7))) (let ((_let_36 (tptp.fn_glycolysis_78 _let_7))) (let ((_let_37 (tptp.fn_fermentation_38 X))) (let ((_let_38 (tptp.fn_chemical_reaction_1 _let_37))) (let ((_let_39 (tptp.fn_nad_plus_20 _let_30))) (let ((_let_40 (tptp.fn_organic_molecule_1 _let_30))) (let ((_let_41 (tptp.fn_aldose_11 _let_1))) (let ((_let_42 (tptp.fn_monosaccharide_6 _let_1))) (let ((_let_43 (tptp.fn_carbohydrate_9 _let_1))) (let ((_let_44 (tptp.fn_aldehyde_9 _let_1))) (let ((_let_45 (tptp.fn_carbohydrate_8 _let_1))) (let ((_let_46 (tptp.fn_aldehyde_4 _let_1))) (let ((_let_47 (tptp.fn_carbohydrate_10 _let_1))) (let ((_let_48 (tptp.fn_aldehyde_8 _let_1))) (let ((_let_49 (tptp.fn_carbohydrate_7 _let_1))) (let ((_let_50 (tptp.fn_aldehyde_7 _let_1))) (let ((_let_51 (tptp.fn_oxidation_9 _let_32))) (let ((_let_52 (tptp.fn_reduction_4 _let_15))) (let ((_let_53 (tptp.fn_redox_reaction_7 _let_37))) (let ((_let_54 (tptp.fn_oxidation_7 _let_32))) (let ((_let_55 (tptp.fn_redox_reaction_16 _let_37))) (let ((_let_56 (tptp.fn_redox_reaction_12 _let_37))) (let ((_let_57 (tptp.fn_oxidation_2 _let_32))) (let ((_let_58 (tptp.fn_redox_reaction_14 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X))) (let ((_let_78 (tptp.fn_glucose_6 _let_1))) (let ((_let_79 (tptp.fn_fermentation_50 X))) (let ((_let_80 (tptp.fn_glucose_1 _let_1))) (let ((_let_81 (tptp.fn_fermentation_56 X))) (let ((_let_82 (tptp.fn_fermentation_55 X))) (let ((_let_83 (tptp.fn_fermentation_51 X))) (let ((_let_84 (tptp.fn_nad_plus_8 _let_30))) (let ((_let_85 (tptp.fn_fermentation_40 X))) (let ((_let_86 (tptp.fn_nad_plus_3 _let_30))) (let ((_let_87 (tptp.fn_nad_plus_9 _let_30))) (let ((_let_88 (tptp.fn_fermentation_39 X))) (let ((_let_89 (tptp.fn_nad_plus_4 _let_30))) (let ((_let_90 (tptp.fn_fermentation_30 X))) (let ((_let_91 (tptp.fn_nad_plus_7 _let_30))) (let ((_let_92 (tptp.fn_fermentation_41 X))) (let ((_let_93 (tptp.fn_fermentation_18 X))) (let ((_let_94 (tptp.fn_nad_plus_17 _let_30))) (let ((_let_95 (tptp.fn_fermentation_12 X))) (let ((_let_96 (tptp.fn_nad_plus_5 _let_30))) (let ((_let_97 (tptp.fn_fermentation_43 X))) (let ((_let_98 (tptp.fn_nad_plus_6 _let_30))) (let ((_let_99 (tptp.fn_fermentation_42 X))) (let ((_let_100 (tptp.fn_aldose_2 _let_1))) (let ((_let_101 (tptp.fn_fermentation_52 X))) (let ((_let_102 (tptp.fn_fermentation_53 X))) (let ((_let_103 (tptp.fn_fermentation_45 X))) (let ((_let_104 (tptp.fn_carbohydrate_43 _let_1))) (let ((_let_105 (tptp.fn_fermentation_57 X))) (let ((_let_106 (tptp.fn_fermentation_44 X))) (let ((_let_107 (tptp.fn_carbohydrate_42 _let_1))) (let ((_let_108 (tptp.fn_fermentation_59 X))) (let ((_let_109 (tptp.fn_fermentation_21 X))) (let ((_let_110 (tptp.fn_fermentation_20 X))) (let ((_let_111 (tptp.fn_oxidation_1 _let_32))) (let ((_let_112 (tptp.fn_fermentation_22 X))) (let ((_let_113 (tptp.fn_fermentation_27 X))) (let ((_let_114 (tptp.fn_oxidation_5 _let_32))) (let ((_let_115 (tptp.fn_fermentation_19 X))) (let ((_let_116 (tptp.fn_glycolysis_3 _let_7))) (let ((_let_117 (tptp.fn_fermentation_9 X))) (let ((_let_118 (tptp.fn_glycolysis_2 _let_7))) (let ((_let_119 (tptp.fn_fermentation_10 X))) (let ((_let_120 (tptp.fn_glycolysis_55 _let_7))) (let ((_let_121 (tptp.fn_fermentation_11 X))) (let ((_let_122 (tptp.fn_fermentation_58 X))) (let ((_let_123 (tptp.fn_glycolysis_79 _let_7))) (let ((_let_124 (tptp.fn_fermentation_29 X))) (let ((_let_125 (tptp.fn_glycolysis_73 _let_7))) (let ((_let_126 (tptp.fn_glycolysis_70 _let_7))) (let ((_let_127 (tptp.fn_fermentation_35 X))) (let ((_let_128 (tptp.fn_fermentation_31 X))) (let ((_let_129 (tptp.fn_fermentation_28 X))) (let ((_let_130 (tptp.fn_fermentation_34 X))) (let ((_let_131 (tptp.fn_glycolysis_56 _let_7))) (let ((_let_132 (tptp.fn_fermentation_37 X))) (let ((_let_133 (tptp.fn_glycolysis_67 _let_7))) (let ((_let_134 (tptp.fn_fermentation_36 X))) (let ((_let_135 (tptp.fn_glycolysis_80 _let_7))) (let ((_let_136 (tptp.fn_fermentation_48 X))) (let ((_let_137 (tptp.fn_glycolysis_108 _let_7))) (let ((_let_138 (tptp.fn_fermentation_47 X))) (let ((_let_139 (tptp.fn_glycolysis_4 _let_7))) (let ((_let_140 (tptp.fn_glycolysis_1 _let_7))) (let ((_let_141 (tptp.fn_glycolysis_97 _let_7))) (let ((_let_142 (tptp.fn_redox_reaction_10 _let_37))) (let ((_let_143 (tptp.fn_fermentation_25 X))) (let ((_let_144 (tptp.fn_fermentation_26 X))) (let ((_let_145 (tptp.fn_fermentation_13 X))) (let ((_let_146 (tptp.fn_redox_reaction_11 _let_37))) (let ((_let_147 (tptp.fn_fermentation_3 X))) (let ((_let_148 (tptp.fn_fermentation_1 X))) (let ((_let_149 (tptp.fn_fermentation_2 X))) (let ((_let_150 (tptp.fn_fermentation_4 X))) (=> (tptp.fermentation_1 X) (and (tptp.original_name_2 X |tptp.'Fermentation'|) (tptp.user_description_2 X |tptp.'Fermentation in food processing typically is the conversion of carbohydrates to alcohols and carbon dioxide or organic acids using yeasts, bacteria, or a combination thereof, under anaerobic conditions.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.ferment) (tptp.concept2words_2 X tptp.fermentation) (tptp.catabolic_pathway_1 X) (not (tptp.cellular_respiration_1 X)) (not (tptp.anaerobic_respiration_1 X)) (tptp.monomer_1 _let_148) (tptp.size_value_1 _let_149) (tptp.size_value_1 _let_147) (tptp.water_molecule_1 _let_150) (tptp.chemical_stability_value_1 _let_117) (tptp.rate_value_1 _let_119) (tptp.pyruvate_1 _let_121) (tptp.chemical_entity_1 _let_121) (tptp.chemical_bond_1 _let_95) (tptp.covalent_bond_1 _let_95) (tptp.organic_molecule_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.aldehyde_1 _let_1) (tptp.carbohydrate_1 _let_1) (tptp.monosaccharide_1 _let_1) (tptp.aldose_1 _let_1) (tptp.glucose_1 _let_1) (tptp.entity_1 _let_93) (tptp.chemical_entity_1 _let_93) (tptp.atom_1 _let_93) (tptp.carbon_1 _let_93) (tptp.iron_1 _let_115) (tptp.atom_1 _let_115) (tptp.chemical_entity_1 _let_115) (tptp.organic_molecule_1 _let_110) (tptp.tangible_entity_1 _let_109) (tptp.electron_1 _let_109) (tptp.atom_1 _let_112) (tptp.oxidation_1 _let_32) (tptp.reduction_1 _let_15) (tptp.atom_1 _let_143) (tptp.electronegativity_value_1 _let_144) (tptp.electronegativity_value_1 _let_113) (tptp.synthesis_of_organic_molecule_1 _let_129) (tptp.anabolic_pathway_1 _let_129) (tptp.chemical_reaction_1 _let_129) (tptp.synthesis_of_atp_1 _let_129) (tptp.substrate_level_phosphorylation_1 _let_129) (tptp.organic_molecule_1 _let_124) (tptp.chemical_entity_1 _let_124) (tptp.molecule_1 _let_124) (tptp.glyceraldehyde_3_phosphate_1 _let_124) (tptp.organic_molecule_1 _let_90) (tptp.molecule_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.nadh_1 _let_90) (tptp.organic_molecule_1 _let_128) (tptp.molecule_1 _let_128) (tptp.chemical_entity_1 _let_128) (tptp.ribonucleotide_1 _let_128) (tptp.nucleoside_triphosphate_1 _let_128) (tptp.atp_1 _let_128) (tptp.spatial_entity_1 _let_30) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.molecule_1 _let_30) (tptp.organic_molecule_1 _let_30) (tptp.nad_plus_1 _let_30) (tptp.glycolysis_1 _let_7) (tptp.synthesis_of_organic_molecule_1 _let_130) (tptp.anabolic_pathway_1 _let_130) (tptp.chemical_reaction_1 _let_130) (tptp.synthesis_of_atp_1 _let_130) (tptp.substrate_level_phosphorylation_1 _let_130) (tptp.activation_energy_1 _let_127) (tptp.isomerization_reaction_1 _let_134) (tptp.enzymatic_reaction_1 _let_132) (tptp.redox_reaction_1 _let_37) (tptp.quantity_value_1 _let_88) (tptp.speed_value_1 _let_85) (tptp.carbon_skeleton_1 _let_92) (tptp.constant_motion_1 _let_99) (tptp.kinetic_energy_1 _let_97) (tptp.quantity_value_1 _let_106) (tptp.speed_value_1 _let_103) (tptp.electronegativity_value_1 _let_77) (tptp.chemical_energy_1 _let_138) (tptp.structural_complexity_value_1 _let_136) (tptp.energy_investment_phase_of_glycolysis_1 _let_64) (tptp.structural_complexity_value_1 _let_79) (tptp.functional_group_1 _let_83) (tptp.carbonyl_group_1 _let_83) (tptp.end_1 _let_101) (tptp.carbon_skeleton_1 _let_102) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.atom_1 _let_82) (tptp.chemical_entity_1 _let_82) (tptp.oxygen_1 _let_82) (tptp.entity_1 _let_82) (tptp.atom_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.oxygen_1 _let_81) (tptp.entity_1 _let_81) (tptp.constant_motion_1 _let_105) (tptp.chemical_energy_1 _let_122) (tptp.kinetic_energy_1 _let_108) (tptp.oxidation_1 _let_146) (tptp.reduction_1 _let_142) (tptp.property_node_1 _let_141) (tptp.property_node_1 _let_140) (tptp.property_node_1 _let_139) (tptp.chemical_energy_1 _let_137) (tptp.structural_complexity_value_1 _let_135) (tptp.isomerization_reaction_1 _let_133) (tptp.enzymatic_reaction_1 _let_131) (tptp.activation_energy_1 _let_126) (tptp.energy_investment_phase_of_glycolysis_1 _let_125) (tptp.organic_molecule_1 _let_123) (tptp.chemical_entity_1 _let_123) (tptp.molecule_1 _let_123) (tptp.glyceraldehyde_3_phosphate_1 _let_123) (tptp.pyruvate_1 _let_120) (tptp.chemical_entity_1 _let_120) (tptp.rate_value_1 _let_118) (tptp.chemical_stability_value_1 _let_116) (tptp.property_node_1 _let_114) (tptp.atom_1 _let_111) (tptp.property_node_1 _let_107) (tptp.property_node_1 _let_104) (tptp.end_1 _let_100) (tptp.constant_motion_1 _let_98) (tptp.kinetic_energy_1 _let_96) (tptp.chemical_bond_1 _let_94) (tptp.covalent_bond_1 _let_94) (tptp.carbon_skeleton_1 _let_91) (tptp.property_node_1 _let_89) (tptp.quantity_value_1 _let_87) (tptp.property_node_1 _let_86) (tptp.speed_value_1 _let_84) (tptp.property_node_1 _let_80) (tptp.property_node_1 _let_78) (tptp.property_node_1 _let_76) (tptp.property_node_1 _let_75) (tptp.electronegativity_value_1 _let_74) (tptp.atom_1 _let_73) (tptp.atom_1 _let_72) (tptp.chemical_reaction_1 _let_71) (tptp.synthesis_of_atp_1 _let_71) (tptp.substrate_level_phosphorylation_1 _let_71) (tptp.synthesis_of_organic_molecule_1 _let_70) (tptp.chemical_reaction_1 _let_70) (tptp.synthesis_of_atp_1 _let_70) (tptp.substrate_level_phosphorylation_1 _let_70) (tptp.chemical_reaction_1 _let_69) (tptp.synthesis_of_atp_1 _let_69) (tptp.substrate_level_phosphorylation_1 _let_69) (tptp.anabolic_pathway_1 _let_69) (tptp.chemical_reaction_1 _let_68) (tptp.synthesis_of_atp_1 _let_68) (tptp.substrate_level_phosphorylation_1 _let_68) (tptp.atp_1 _let_66) (tptp.organic_molecule_1 _let_65) (tptp.molecule_1 _let_65) (tptp.atp_1 _let_65) (tptp.organic_molecule_1 _let_63) (tptp.molecule_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.ribonucleotide_1 _let_63) (tptp.nucleoside_triphosphate_1 _let_63) (tptp.atp_1 _let_63) (tptp.chemical_energy_1 _let_61) (tptp.iron_1 _let_60) (tptp.atom_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.electronegativity_value_1 _let_58) (tptp.electronegativity_value_1 _let_57) (tptp.chemical_entity_1 _let_56) (tptp.chemical_entity_1 _let_55) (tptp.chemical_entity_1 _let_54) (tptp.tangible_entity_1 _let_53) (tptp.electron_1 _let_53) (tptp.electron_1 _let_52) (tptp.electron_1 _let_51) (tptp.kinetic_energy_1 _let_50) (tptp.kinetic_energy_1 _let_49) (tptp.quantity_value_1 _let_48) (tptp.quantity_value_1 _let_47) (tptp.constant_motion_1 _let_46) (tptp.constant_motion_1 _let_45) (tptp.speed_value_1 _let_44) (tptp.speed_value_1 _let_43) (tptp.carbon_skeleton_1 _let_42) (tptp.carbon_skeleton_1 _let_41) (tptp.carbon_1 _let_40) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.carbon_1 _let_39) (tptp.chemical_entity_1 _let_38) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.organic_molecule_1 _let_36) (tptp.nad_plus_1 _let_36) (tptp.molecule_1 _let_36) (tptp.organic_molecule_1 _let_35) (tptp.nadh_1 _let_35) (tptp.molecule_1 _let_35) (tptp.chemical_entity_1 _let_34) (tptp.chemical_entity_1 _let_33) (tptp.nadh_1 _let_31) (tptp.carbonyl_group_1 _let_29) (tptp.carbonyl_group_1 _let_28) (tptp.functional_group_1 _let_27) (tptp.carbonyl_group_1 _let_27) (tptp.functional_group_1 _let_26) (tptp.carbonyl_group_1 _let_26) (tptp.functional_group_1 _let_25) (tptp.carbonyl_group_1 _let_25) (tptp.entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.oxygen_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.carbon_1 _let_22) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_1 _let_20) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.carbon_1 _let_19) (tptp.chemical_entity_1 _let_17) (tptp.monosaccharide_1 _let_17) (tptp.glucose_1 _let_17) (tptp.aldehyde_1 _let_17) (tptp.carbohydrate_1 _let_17) (tptp.aldose_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.entity_1 _let_11) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.oxygen_1 _let_10) (tptp.entity_1 _let_10) (tptp.structural_complexity_value_1 _let_9) (tptp.structural_complexity_value_1 _let_8) (tptp.structural_complexity_value_1 _let_6) (tptp.electronegativity_value_1 _let_5) (tptp.electronegativity_value_1 _let_3) (tptp.electronegativity_value_1 _let_2) (tptp.raw_material_2 _let_37 _let_90) (tptp.next_event_2 _let_134 _let_129) (tptp.possesses_2 _let_150 _let_138) (tptp.next_event_2 _let_130 _let_134) (tptp.result_2 _let_7 _let_150) (tptp.first_subevent_2 X _let_7) (tptp.minCardinality X tptp.result_0 |"2"| tptp.organic_molecule_0) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.atp_0) (tptp.result_2 X _let_90) (tptp.subevent_2 X _let_37) (tptp.subevent_2 X _let_7) (tptp.size_2 _let_30 _let_149) (tptp.has_part_2 _let_30 _let_148) (tptp.greater_than_2 _let_149 _let_147) (tptp.size_2 _let_148 _let_147) (tptp.raw_material_2 X _let_1) (tptp.result_2 _let_37 _let_30) (tptp.result_2 X _let_128) (tptp.possesses_2 _let_128 _let_122) (tptp.raw_material_2 _let_64 _let_128) (tptp.greater_than_2 _let_144 _let_113) (tptp.raw_material_2 _let_37 _let_110) (not (= _let_110 _let_109)) (not (= _let_109 _let_110)) (tptp.subevent_2 _let_37 _let_32) (tptp.subevent_2 _let_37 _let_15) (tptp.recipient_2 _let_15 _let_110) (tptp.has_atom_2 _let_110 _let_143) (tptp.electronegativity_2 _let_143 _let_144) (tptp.greater_than_or_equal_to_2 _let_144 _let_113) (tptp.raw_material_2 _let_64 _let_1) (tptp.raw_material_2 _let_132 _let_124) (tptp.next_event_2 _let_132 _let_129) (tptp.next_event_2 _let_132 _let_130) (tptp.result_2 _let_130 _let_121) (tptp.raw_material_2 _let_134 _let_30) (tptp.result_2 _let_134 _let_90) (tptp.result_2 _let_130 _let_90) (not (= _let_132 _let_134)) (not (= _let_134 _let_132)) (tptp.raw_material_2 _let_7 _let_30) (tptp.subevent_2 _let_7 _let_64) (tptp.first_subevent_2 _let_7 _let_64) (tptp.result_2 _let_7 _let_90) (tptp.possesses_2 _let_90 _let_138) (tptp.raw_material_2 _let_132 _let_30) (tptp.structural_complexity_2 _let_30 _let_79) (tptp.greater_than_2 _let_79 _let_136) (tptp.structural_complexity_2 _let_90 _let_136) (not (= _let_90 _let_124)) (not (= _let_124 _let_90)) (tptp.next_event_2 _let_129 _let_134) (not (= _let_134 _let_129)) (not (= _let_129 _let_134)) (not (= _let_130 _let_134)) (not (= _let_134 _let_130)) (tptp.result_2 _let_132 _let_90) (not (= _let_129 _let_132)) (not (= _let_132 _let_129)) (not (= _let_130 _let_132)) (not (= _let_132 _let_130)) (tptp.result_2 _let_129 _let_121) (not (= _let_129 _let_130)) (tptp.result_2 _let_130 _let_128) (tptp.result_2 _let_129 _let_128) (tptp.result_2 _let_129 _let_90) (not (= _let_130 _let_129)) (tptp.result_2 _let_64 _let_124) (tptp.result_2 _let_7 _let_128) (tptp.structural_complexity_2 _let_128 _let_79) (tptp.possesses_2 _let_1 _let_122) (tptp.possesses_2 _let_30 _let_122) (tptp.has_part_2 _let_30 _let_115) (not (= _let_124 _let_30)) (not (= _let_30 _let_124)) (tptp.raw_material_2 _let_7 _let_1) (tptp.chemical_stability_2 _let_1 _let_117) (tptp.correspondence_2 _let_119 _let_117) (tptp.rate_2 _let_7 _let_119) (tptp.result_2 _let_7 _let_121) (tptp.object_2 _let_15 _let_109) (tptp.object_2 _let_32 _let_109) (tptp.electronegativity_2 _let_82 _let_77) (tptp.has_part_2 _let_1 _let_82) (tptp.has_region_2 _let_1 _let_83) (tptp.is_inside_2 _let_81 _let_83) (tptp.has_part_2 _let_1 _let_81) (not (= _let_4 _let_81)) (not (= _let_81 _let_4)) (not (= _let_82 _let_81)) (tptp.is_inside_2 _let_4 _let_83) (tptp.is_inside_2 _let_82 _let_83) (not (= _let_81 _let_82)) (tptp.the_scalar_value_2 _let_79 tptp.complex_0) (tptp.scalar_unit_class_2 _let_79 tptp.chemical_entity_0) (tptp.structural_complexity_2 _let_1 _let_79) (tptp.has_part_2 _let_1 _let_4) (tptp.the_cardinal_value_2 _let_77 |"3.44"|) (tptp.cardinal_unit_class_2 _let_77 tptp.unity_0) (tptp.electronegativity_2 _let_81 _let_77) (tptp.object_2 _let_99 _let_30) (tptp.speed_2 _let_99 _let_85) (tptp.directly_proportional_2 _let_85 _let_88) (tptp.quantity_2 _let_97 _let_88) (tptp.possesses_2 _let_30 _let_97) (tptp.has_part_2 _let_30 _let_93) (tptp.possesses_2 _let_30 _let_95) (tptp.is_between_2 _let_95 _let_93) (tptp.is_inside_2 _let_93 _let_92) (tptp.has_region_2 _let_30 _let_92) (tptp.has_oxidized_form_2 _let_90 _let_30) (not (= _let_90 _let_30)) (tptp.has_reduced_form_2 _let_30 _let_90) (not (= _let_30 _let_90)) (tptp.is_inside_2 _let_4 _let_102) (tptp.is_at_2 _let_101 _let_102) (tptp.is_at_2 _let_83 _let_101) (tptp.has_region_2 _let_1 _let_102) (tptp.has_region_2 _let_1 _let_101) (tptp.speed_2 _let_105 _let_103) (tptp.directly_proportional_2 _let_103 _let_106) (tptp.quantity_2 _let_108 _let_106) (tptp.possesses_2 _let_1 _let_108) (tptp.object_2 _let_105 _let_1) (not (= _let_90 _let_110)) (tptp.electronegativity_2 _let_112 _let_113) (tptp.has_atom_2 _let_90 _let_112) (not (= _let_110 _let_90)) (tptp.recipient_2 _let_32 _let_110) (not (= _let_109 _let_90)) (not (= _let_90 _let_109)) (tptp.donor_2 _let_32 _let_90) (not (= _let_93 _let_115)) (not (= _let_115 _let_93)) (tptp.electronegativity_2 _let_4 _let_77) (not (= _let_90 _let_1)) (not (= _let_1 _let_90)) (tptp.donor_2 _let_15 _let_90) (= _let_1 _let_18) (= _let_30 _let_38) (= _let_122 _let_62) (= _let_128 _let_67) (= _let_128 _let_66) (= _let_128 _let_65) (= _let_109 _let_53) (= _let_32 _let_146) (= _let_145 _let_76) (= _let_145 _let_75) (= _let_113 _let_58) (= _let_144 _let_58) (= _let_144 _let_74) (= _let_110 _let_56) (= _let_143 _let_73) (= _let_143 _let_72) (= _let_110 _let_16) (= _let_110 _let_55) (= _let_15 _let_142) (= (tptp.fn_fermentation_61 X) _let_141) (= (tptp.fn_fermentation_8 X) _let_140) (= (tptp.fn_fermentation_7 X) _let_139) (= _let_130 _let_70) (= _let_138 _let_137) (= _let_136 _let_135) (= _let_79 _let_9) (= _let_134 _let_133) (= _let_130 _let_69) (= _let_129 _let_70) (= _let_132 _let_131) (= _let_90 _let_35) (= _let_129 _let_69) (= _let_130 _let_71) (= _let_129 _let_68) (= _let_79 _let_8) (= _let_128 _let_63) (= _let_127 _let_126) (= _let_64 _let_125) (= _let_115 _let_60) (= _let_124 _let_123) (= _let_30 _let_36) (= _let_122 _let_61) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_1 _let_17) (= _let_109 _let_52) (= _let_1 _let_16) (= _let_90 _let_34) (= _let_77 _let_5) (= _let_115 _let_59) (= (tptp.fn_fermentation_14 X) _let_114) (= _let_113 _let_57) (= _let_112 _let_111) (= _let_110 _let_54) (= _let_109 _let_51) (= _let_90 _let_33) (= _let_103 _let_44) (= _let_106 _let_48) (= _let_108 _let_50) (= _let_108 _let_49) (= (tptp.fn_fermentation_64 X) _let_107) (= _let_106 _let_47) (= _let_105 _let_46) (= _let_105 _let_45) (= (tptp.fn_fermentation_63 X) _let_104) (= _let_103 _let_43) (= _let_102 _let_42) (= _let_102 _let_41) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_93 _let_40) (= _let_95 _let_94) (= _let_93 _let_39) (= _let_92 _let_91) (= _let_90 _let_31) (= (tptp.fn_fermentation_16 X) _let_89) (= _let_88 _let_87) (= (tptp.fn_fermentation_15 X) _let_86) (= _let_85 _let_84) (= _let_77 _let_3) (= _let_83 _let_29) (= _let_83 _let_28) (= _let_4 _let_22) (= _let_81 _let_14) (= _let_81 _let_11) (= _let_4 _let_21) (= _let_83 _let_27) (= _let_83 _let_26) (= _let_83 _let_25) (= _let_81 _let_13) (= _let_82 _let_24) (= _let_81 _let_12) (= _let_82 _let_23) (= _let_82 _let_11) (= _let_4 _let_20) (= _let_4 _let_19) (= _let_81 _let_10) (= (tptp.fn_fermentation_60 X) _let_80) (= _let_79 _let_6) (= (tptp.fn_fermentation_62 X) _let_78) (= _let_77 _let_2) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_58) (= _let_58 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_69) (= _let_69 _let_70) (= _let_69 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_16) (= _let_16 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_11 _let_23) (= _let_23 _let_11) (= _let_11 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_13) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fermenting_cell_1 X) (and (tptp.original_name_2 X |tptp.'Fermenting-Cell'|) (tptp.user_description_2 X |tptp.'Fermentation in food processing typically is the conversion of carbohydrates to alcohols and carbon dioxide or organic acids using yeasts, bacteria, or a combination thereof, under anaerobic conditions. Some cells are involved in fermentation.'|) (tptp.concept2words_2 X |tptp.'cell involved in fermentation'|) (tptp.concept2words_2 X |tptp.'cell of fermenting'|) (tptp.concept2words_2 X |tptp.'fermenting cell'|) (tptp.concept2words_2 X |tptp.'fermenting-cell'|) (tptp.cell_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fermium_9 X))) (let ((_let_2 (tptp.fn_fermium_12 X))) (let ((_let_3 (tptp.fn_fermium_10 X))) (let ((_let_4 (tptp.fn_fermium_11 X))) (let ((_let_5 (tptp.fn_fermium_4 X))) (let ((_let_6 (tptp.fn_fermium_5 X))) (let ((_let_7 (tptp.fn_fermium_3 X))) (=> (tptp.fermium_1 X) (and (tptp.original_name_2 X |tptp.'Fermium'|) (tptp.user_description_2 X |tptp.'Fermium is a metal atom with atomic number 100. It is represented by the symbol Fm.'|) (tptp.concept2words_2 X tptp.fermium) (tptp.concept2words_2 X tptp.fm) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"157"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"100"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"100"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"14"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"257"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"100"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"257"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_fermium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_fermium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_fermium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.ferredoxin_1 X) (and (tptp.original_name_2 X |tptp.'Ferredoxin'|) (tptp.user_description_2 X |tptp.'Ferredoxins are iron-sulfur proteins that mediate electron transfer in a range of metabolic reactions.'|) (tptp.concept2words_2 X tptp.fd) (tptp.concept2words_2 X tptp.ferredoxin) (tptp.iron_sulfur_protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fertility_constant_1 X) (and (tptp.original_name_2 X |tptp.'Fertility-Constant'|) (tptp.concept2words_2 X |tptp.'constant of fertility'|) (tptp.concept2words_2 X |tptp.'fertility constant'|) (tptp.concept2words_2 X |tptp.'fertility-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fertility_scalar_constant_1 X) (and (tptp.original_name_2 X |tptp.'Fertility-Scalar-Constant'|) (tptp.concept2words_2 X |tptp.'fertility scalar constant'|) (tptp.concept2words_2 X |tptp.'fertility-scalar-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fertility_scale_1 X) (and (tptp.original_name_2 X |tptp.'Fertility-Scale'|) (tptp.concept2words_2 X |tptp.'scale of fertility'|) (tptp.concept2words_2 X |tptp.'fertility scale'|) (tptp.concept2words_2 X |tptp.'fertility-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fertility_value_1 X) (and (tptp.original_name_2 X |tptp.'Fertility-Value'|) (tptp.concept2words_2 X tptp.fecundity) (tptp.concept2words_2 X tptp.fertility) (tptp.concept2words_2 X |tptp.'value of fertility'|) (tptp.concept2words_2 X |tptp.'fertility value'|) (tptp.concept2words_2 X |tptp.'fertility-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fertilization_2 X))) (let ((_let_2 (tptp.fn_cell_25 _let_1))) (let ((_let_3 (tptp.fn_fertilization_8 X))) (let ((_let_4 (tptp.fn_fertilization_7 X))) (let ((_let_5 (tptp.fn_haploid_number_1 _let_4))) (let ((_let_6 (tptp.fn_fertilization_3 X))) (let ((_let_7 (tptp.fn_cell_25 _let_6))) (let ((_let_8 (tptp.fn_fertilization_5 X))) (let ((_let_9 (tptp.fn_fertilization_4 X))) (let ((_let_10 (tptp.fn_haploid_number_1 _let_9))) (let ((_let_11 (tptp.fn_fertilization_1 X))) (=> (tptp.fertilization_1 X) (and (tptp.original_name_2 X |tptp.'Fertilization'|) (tptp.user_description_2 X |tptp.'(1) The fusing of haploid gametes to form a diploid zygote. (2) The addition of nutrients to the soil, to promote plant growth.'|) (tptp.concept2words_2 X tptp.syngamy) (tptp.concept2words_2 X tptp.fertilize) (tptp.concept2words_2 X tptp.fertilization) (tptp.fusion_1 X) (tptp.zygote_1 _let_11) (tptp.gamete_1 _let_1) (tptp.gamete_1 _let_6) (tptp.haploid_number_1 _let_9) (tptp.chromosome_1 _let_8) (tptp.haploid_number_1 _let_4) (tptp.chromosome_1 _let_3) (tptp.property_node_1 _let_10) (tptp.chromosome_1 _let_7) (tptp.property_node_1 _let_5) (tptp.chromosome_1 _let_2) (tptp.quantity_2 _let_3 _let_4) (tptp.quantity_2 _let_8 _let_9) (tptp.result_2 X _let_11) (tptp.base_2 X _let_6) (tptp.object_2 X _let_1) (tptp.has_part_2 _let_6 _let_8) (tptp.has_part_2 _let_1 _let_3) (= _let_6 (tptp.fn_add_2 X)) (= _let_1 (tptp.fn_add_1 X)) (= (tptp.fn_fertilization_6 X) _let_10) (= _let_8 _let_7) (= (tptp.fn_fertilization_9 X) _let_5) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fertilization_envelope_1 X) (and (tptp.original_name_2 X |tptp.'Fertilization-Envelope'|) (tptp.user_description_2 X |tptp.'The protective layer formed when the vitelline layer of an egg is pushed away from the plasma membrane and hardened after fertilization by molecules exocytosed during the cortical reaction. The fertilization envelope is the slow block to polyspermy.'|) (tptp.concept2words_2 X |tptp.'envelope of fertilization'|) (tptp.concept2words_2 X |tptp.'fertilization envelope'|) (tptp.concept2words_2 X |tptp.'fertilization-envelope'|) (tptp.animal_cell_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (=> (tptp.fertilizer_1 X) (and (tptp.original_name_2 X |tptp.'Fertilizer'|) (tptp.user_description_2 X |tptp.'Any substance such as manure or a mixture of nitrates used to make soil more fertile.'|) (tptp.concept2words_2 X tptp.fertilizer) (tptp.concept2words_2 X |tptp.'agricultural fertilizer'|) (tptp.concept2words_2 X |tptp.'agricultural-fertilizer'|) (tptp.aggregate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fetal_stage_1 X) (and (tptp.original_name_2 X |tptp.'Fetal-Stage'|) (tptp.user_description_2 X |tptp.'A developing mammal that has all the major structures of an adult. In humans, the fetal stage lasts from the 9th week of gestation until birth.'|) (tptp.concept2words_2 X |tptp.'fetal stage'|) (tptp.concept2words_2 X |tptp.'fetal-stage'|) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fetal_testing_10 X))) (let ((_let_2 (tptp.fn_eumetazoan_20 _let_1))) (let ((_let_3 (tptp.fn_fetal_testing_11 X))) (let ((_let_4 (tptp.fn_analysis_1 _let_3))) (let ((_let_5 (tptp.fn_fetal_testing_8 X))) (let ((_let_6 (tptp.fn_collecting_1 _let_5))) (let ((_let_7 (tptp.fn_fetal_testing_9 X))) (let ((_let_8 (tptp.fn_fetal_testing_13 X))) (let ((_let_9 (tptp.fn_diagnosis_2 _let_8))) (let ((_let_10 (tptp.fn_fetal_testing_12 X))) (let ((_let_11 (tptp.fn_fetal_testing_2 X))) (let ((_let_12 (tptp.fn_fetal_testing_1 X))) (let ((_let_13 (tptp.fn_fetal_testing_5 X))) (let ((_let_14 (tptp.fn_fetal_testing_6 X))) (let ((_let_15 (tptp.fn_fetal_testing_7 X))) (let ((_let_16 (tptp.fn_fetal_testing_3 X))) (let ((_let_17 (tptp.fn_fetal_testing_4 X))) (=> (tptp.fetal_testing_1 X) (and (tptp.original_name_2 X |tptp.'Fetal-Testing'|) (tptp.user_description_2 X |tptp.'The process of determing genetic information from a fetus, such as genetic abnormalities.'|) (tptp.concept2words_2 X |tptp.'fetal testing'|) (tptp.concept2words_2 X |tptp.'fetal-testing'|) (tptp.genetic_testing_1 X) (tptp.culturing_1 _let_12) (tptp.distinguishing_1 _let_11) (tptp.syringe_1 _let_16) (tptp.suction_tube_1 _let_17) (tptp.placenta_1 _let_13) (tptp.chemical_entity_1 _let_14) (tptp.karyotyping_1 _let_15) (tptp.collecting_1 _let_5) (tptp.entity_1 _let_7) (tptp.tissue_1 _let_7) (tptp.fetus_1 _let_1) (tptp.analysis_1 _let_3) (tptp.genetic_disorder_1 _let_10) (tptp.diagnosis_1 _let_8) (tptp.disease_1 _let_9) (tptp.entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.tissue_1 _let_2) (tptp.next_event_2 _let_5 _let_3) (tptp.instrument_2 _let_5 _let_17) (tptp.instrument_2 _let_5 _let_16) (tptp.next_event_2 _let_12 _let_15) (tptp.object_2 _let_11 _let_14) (tptp.is_inside_2 _let_1 _let_13) (tptp.first_subevent_2 X _let_5) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_12) (tptp.next_event_2 _let_3 _let_12) (tptp.enables_2 _let_3 _let_11) (tptp.by_means_of_2 _let_8 X) (tptp.object_2 _let_5 _let_7) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_8 _let_10) (tptp.has_part_2 _let_1 _let_7) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_10 _let_9) (= _let_7 _let_2) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fetoscopy_1 X) (and (tptp.original_name_2 X |tptp.'Fetoscopy'|) (tptp.user_description_2 X |tptp.'Technique for using fiber optics to examine a fetus in the uterus.'|) (tptp.concept2words_2 X tptp.fetoscopy) (tptp.diagnostic_procedure_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.fetus_1 X) (and (tptp.original_name_2 X |tptp.'Fetus'|) (tptp.user_description_2 X |tptp.'A developing mammal that has all the major structures of an adult. In humans, the fetal stage lasts from the 9th week of gestation until birth.'|) (tptp.concept2words_2 X tptp.fetus) (tptp.mammal_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fetus_cell_1 X) (and (tptp.original_name_2 X |tptp.'Fetus-Cell'|) (tptp.user_description_2 X |tptp.'Cell of unborn offspring.'|) (tptp.concept2words_2 X |tptp.'cell of a fetus'|) (tptp.concept2words_2 X |tptp.'cell-of-a-fetus'|) (tptp.concept2words_2 X |tptp.'cell of fetus'|) (tptp.concept2words_2 X |tptp.'fetus cell'|) (tptp.concept2words_2 X |tptp.'fetus-cell'|) (tptp.animal_development_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fever_1 X) (and (tptp.original_name_2 X |tptp.'Fever'|) (tptp.user_description_2 X |tptp.'A systemic response to infection in which the body_'s thermostat is set at a higher temperature.'|) (tptp.concept2words_2 X |tptp.'have fever'|) (tptp.concept2words_2 X tptp.fever) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fiber_1 X) (and (tptp.original_name_2 X |tptp.'Fiber'|) (tptp.user_description_2 X |tptp.'Fiber is a class of materials that are continuous filaments or are in discrete elongated pieces, similar to lengths of thread. 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((_let_33 (tptp.fn_phospholipid_bilayer_32 _let_31))) (let ((_let_34 (tptp.fn_phospholipid_bilayer_1 _let_31))) (let ((_let_35 (tptp.fn_phospholipid_bilayer_44 _let_31))) (let ((_let_36 (tptp.fn_phospholipid_bilayer_46 _let_31))) (let ((_let_37 (tptp.fn_phospholipid_bilayer_55 _let_31))) (let ((_let_38 (tptp.fn_phospholipid_bilayer_2 _let_31))) (let ((_let_39 (tptp.fn_fibroblast_34 X))) (let ((_let_40 (tptp.fn_fibroblast_22 X))) (let ((_let_41 (tptp.fn_fibroblast_25 X))) (let ((_let_42 (tptp.fn_fibroblast_20 X))) (let ((_let_43 (tptp.fn_fibroblast_19 X))) (let ((_let_44 (tptp.fn_fibroblast_33 X))) (let ((_let_45 (tptp.fn_fibroblast_28 X))) (let ((_let_46 (tptp.fn_fibroblast_4 X))) (let ((_let_47 (tptp.fn_fibroblast_5 X))) (let ((_let_48 (tptp.fn_fibroblast_32 X))) (let ((_let_49 (tptp.fn_fibroblast_37 X))) (let ((_let_50 (tptp.fn_fibroblast_6 X))) (let ((_let_51 (tptp.fn_fibroblast_7 X))) (let ((_let_52 (tptp.fn_fibroblast_11 X))) (let ((_let_53 (tptp.fn_fibroblast_44 X))) (let ((_let_54 (tptp.fn_fibroblast_45 X))) (let ((_let_55 (tptp.fn_fibroblast_9 X))) (let ((_let_56 (tptp.fn_fibroblast_8 X))) (let ((_let_57 (tptp.fn_fibroblast_12 X))) (let ((_let_58 (tptp.fn_fibroblast_13 X))) (let ((_let_59 (tptp.fn_fibroblast_15 X))) (let ((_let_60 (tptp.fn_fibroblast_23 X))) (let ((_let_61 (tptp.fn_fibroblast_21 X))) (let ((_let_62 (tptp.fn_fibroblast_17 X))) (let ((_let_63 (tptp.fn_fibroblast_18 X))) (let ((_let_64 (tptp.fn_fibroblast_24 X))) (let ((_let_65 (tptp.fn_fibroblast_16 X))) (let ((_let_66 (tptp.fn_fibroblast_43 X))) (let ((_let_67 (tptp.fn_eukaryotic_chromosome_4 _let_22))) (let ((_let_68 (tptp.fn_fibroblast_40 X))) (let ((_let_69 (tptp.fn_eukaryotic_chromosome_5 _let_22))) (let ((_let_70 (tptp.fn_fibroblast_38 X))) (let ((_let_71 (tptp.fn_chromosome_3 _let_22))) (let ((_let_72 (tptp.fn_fibroblast_41 X))) (let ((_let_73 (tptp.fn_chromosome_8 _let_22))) (let ((_let_74 (tptp.fn_fibroblast_42 X))) (let ((_let_75 (tptp.fn_chromosome_6 _let_22))) (let ((_let_76 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(tptp.dna_1 _let_24) (tptp.polymer_1 _let_24) (tptp.entity_1 _let_23) (tptp.dna_1 _let_23) (tptp.substance_1 _let_16) (tptp.cytosol_1 _let_16) (tptp.eukaryotic_ribosome_1 _let_14) (tptp.membrane_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.is_between_2 _let_76 _let_80) (tptp.is_between_2 _let_76 _let_79) (tptp.has_part_2 _let_39 _let_81) (tptp.called_2 _let_78 |tptp.'P3'|) (tptp.called_2 _let_77 |tptp.'P3'|) (tptp.site_2 _let_61 _let_55) (tptp.agent_2 _let_7 _let_40) (tptp.has_part_2 _let_22 _let_80) (tptp.has_part_2 _let_22 _let_79) (tptp.path_2 _let_7 _let_39) (tptp.base_2 _let_3 X) (tptp.has_part_2 _let_31 _let_78) (tptp.has_part_2 _let_31 _let_77) (not (= _let_78 _let_77)) (not (= _let_77 _let_78)) (tptp.has_region_2 _let_22 _let_76) (tptp.has_part_2 _let_22 _let_72) (tptp.agent_2 _let_74 _let_72) (tptp.object_2 _let_74 _let_66) (tptp.has_function_2 _let_1 _let_3) (tptp.site_2 _let_3 _let_1) (tptp.is_inside_2 _let_1 _let_45) (tptp.called_2 _let_40 |tptp.'MP1'|) (tptp.the_scalar_value_2 _let_42 tptp.big_0) (tptp.scalar_unit_class_2 _let_42 tptp.prokaryote_0) (tptp.has_region_2 X _let_41) (tptp.has_part_2 _let_22 _let_66) (tptp.has_part_2 _let_55 _let_45) (tptp.is_between_2 _let_55 _let_57) (tptp.causes_2 _let_53 _let_51) (tptp.first_subevent_2 _let_47 _let_46) (tptp.is_across_2 _let_40 _let_39) (tptp.is_inside_2 _let_40 _let_31) (tptp.result_2 _let_60 _let_64) (tptp.has_function_2 _let_64 _let_65) (tptp.object_2 _let_65 X) (tptp.has_region_2 X _let_63) (tptp.has_function_2 X _let_61) (tptp.base_2 _let_61 X) (tptp.has_region_2 X _let_62) (tptp.is_opposite_2 _let_63 _let_62) (tptp.is_opposite_2 _let_62 _let_63) (tptp.is_between_2 _let_55 _let_39) (tptp.agent_2 _let_59 _let_39) (tptp.object_2 _let_59 X) (tptp.has_part_2 X _let_58) (tptp.has_function_2 _let_58 _let_60) (not (= _let_1 _let_52)) (tptp.has_part_2 X _let_52) (tptp.has_part_2 X _let_57) (not (= _let_52 _let_1)) (tptp.is_near_2 _let_58 _let_57) (tptp.is_near_2 _let_57 _let_58) (tptp.base_2 _let_56 X) (tptp.has_function_2 X _let_56) (tptp.has_part_2 X _let_22) (tptp.is_inside_2 _let_22 _let_57) (tptp.is_inside_2 _let_57 _let_45) (tptp.destination_2 _let_53 _let_49) (tptp.origin_2 _let_53 _let_54) (tptp.has_part_2 X _let_54) (tptp.has_part_2 X _let_55) (tptp.is_inside_2 _let_55 _let_39) (tptp.base_2 _let_51 X) (tptp.site_2 _let_51 _let_49) (tptp.has_part_2 X _let_49) (tptp.has_part_2 X _let_1) (tptp.abuts_2 _let_1 _let_52) (tptp.abuts_2 _let_52 _let_1) (tptp.is_inside_2 _let_49 _let_45) (tptp.has_function_2 _let_49 _let_47) (tptp.site_2 _let_47 _let_49) (tptp.site_2 _let_50 _let_49) (tptp.base_2 _let_50 X) (tptp.base_2 _let_46 X) (tptp.subevent_2 _let_47 _let_46) (tptp.base_2 _let_47 X) (tptp.has_part_2 X _let_48) (tptp.is_inside_2 _let_48 _let_45) (tptp.size_2 X _let_42) (tptp.directly_proportional_2 _let_42 _let_43) (tptp.volume_2 X _let_43) (tptp.has_part_2 X _let_44) (tptp.is_inside_2 _let_44 _let_45) (tptp.has_part_2 X _let_39) (tptp.has_part_2 _let_39 _let_40) (tptp.is_at_2 _let_40 _let_39) (tptp.has_part_2 _let_39 _let_31) (tptp.is_at_2 _let_31 _let_41) (= _let_39 _let_8) (= X _let_4) (= _let_78 _let_34) (= _let_78 _let_38) (= _let_78 _let_32) (= _let_78 _let_37) (= _let_77 _let_36) (= _let_77 _let_35) (= _let_77 _let_34) (= _let_77 _let_33) (= _let_77 _let_32) (= _let_76 _let_75) (= _let_66 _let_23) (= _let_74 _let_73) (= _let_72 _let_71) (= _let_3 _let_30) (= _let_3 _let_29) (= _let_3 _let_28) (= _let_3 _let_27) (= _let_3 _let_26) (= _let_3 _let_25) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_24) (= _let_66 _let_21) (= (tptp.fn_fibroblast_35 X) (tptp.fn_animal_cell_49 X)) (= (tptp.fn_fibroblast_36 X) (tptp.fn_animal_cell_50 X)) (= _let_65 (tptp.fn_animal_cell_61 X)) (= _let_64 (tptp.fn_animal_cell_63 X)) (= _let_63 (tptp.fn_animal_cell_13 X)) (= _let_62 (tptp.fn_animal_cell_1 X)) (= _let_61 (tptp.fn_animal_cell_81 X)) (= _let_60 (tptp.fn_animal_cell_64 X)) (= _let_59 (tptp.fn_animal_cell_76 X)) (= _let_58 (tptp.fn_animal_cell_74 X)) (= _let_57 (tptp.fn_animal_cell_78 X)) (= _let_22 (tptp.fn_animal_cell_52 X)) (= _let_56 (tptp.fn_animal_cell_90 X)) (= _let_55 _let_20) (= _let_55 _let_19) (= _let_54 (tptp.fn_animal_cell_45 X)) (= _let_53 (tptp.fn_animal_cell_22 X)) (= _let_52 (tptp.fn_animal_cell_53 X)) (= _let_1 (tptp.fn_animal_cell_54 X)) (= _let_49 _let_18) (= _let_51 (tptp.fn_animal_cell_21 X)) (= _let_50 (tptp.fn_animal_cell_20 X)) (= _let_49 _let_17) (= _let_48 (tptp.fn_animal_cell_82 X)) (= _let_47 (tptp.fn_animal_cell_19 X)) (= _let_46 (tptp.fn_animal_cell_18 X)) (= _let_45 _let_16) (= _let_45 _let_15) (= X _let_2) (= _let_44 _let_14) (= _let_44 _let_13) (= _let_43 (tptp.fn_animal_cell_56 X)) (= _let_42 (tptp.fn_animal_cell_57 X)) (= _let_41 (tptp.fn_animal_cell_55 X)) (= _let_31 _let_12) (= _let_31 _let_11) (= _let_40 _let_10) (= _let_40 _let_9) (= _let_39 _let_6) (= _let_39 _let_5) (= _let_38 _let_34) (= _let_34 _let_38) (= _let_32 _let_38) (= _let_38 _let_38) (= _let_38 _let_32) (= _let_37 _let_32) (= _let_32 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fibroblast_division_2 X))) (let ((_let_2 (tptp.fn_fibroblast_division_3 X))) (let ((_let_3 (tptp.fn_fibroblast_division_1 X))) (=> (tptp.fibroblast_division_1 X) (and (tptp.original_name_2 X |tptp.'Fibroblast-Division'|) (tptp.user_description_2 X |tptp.'Process of cell division in fibroblasts, specialized cells which produce collagen.'|) (tptp.concept2words_2 X |tptp.'division of fibroblast'|) (tptp.concept2words_2 X |tptp.'fibroblast division'|) (tptp.concept2words_2 X |tptp.'fibroblast-division'|) (tptp.cell_division_1 X) (tptp.platelet_derived_growth_factor_1 _let_3) 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(tptp.fn_glycoprotein_5 X))) (let ((_let_17 (tptp.fn_integral_protein_31 X))) (let ((_let_18 (tptp.fn_glycoprotein_4 X))) (let ((_let_19 (tptp.fn_motor_protein_13 X))) (let ((_let_20 (tptp.fn_integral_protein_33 X))) (let ((_let_21 (tptp.fn_carbohydrate_side_chain_22 _let_1))) (let ((_let_22 (tptp.fn_motor_protein_11 X))) (let ((_let_23 (tptp.fn_attract_2 _let_7))) (let ((_let_24 (tptp.fn_protein_8 X))) (let ((_let_25 (tptp.fn_glycoprotein_3 X))) (let ((_let_26 (tptp.fn_integral_protein_30 X))) (let ((_let_27 (tptp.fn_motor_protein_12 X))) (let ((_let_28 (tptp.fn_fibronectin_24 X))) (let ((_let_29 (tptp.fn_organic_molecule_1 _let_28))) (let ((_let_30 (tptp.fn_organic_molecule_2 _let_28))) (let ((_let_31 (tptp.fn_protein_13 X))) (let ((_let_32 (tptp.fn_polypeptide_126 _let_28))) (let ((_let_33 (tptp.fn_glycoprotein_25 X))) (let ((_let_34 (tptp.fn_integral_protein_7 X))) (let ((_let_35 (tptp.fn_carbohydrate_side_chain_4 _let_1))) (let ((_let_36 (tptp.fn_fibronectin_35 X))) (let ((_let_37 (tptp.fn_attract_2 _let_36))) (let ((_let_38 (tptp.fn_fibronectin_53 X))) (let ((_let_39 (tptp.fn_animal_plasma_membrane_47 _let_38))) (let ((_let_40 (tptp.fn_animal_plasma_membrane_76 _let_38))) (let ((_let_41 (tptp.fn_plasma_membrane_54 _let_38))) (let ((_let_42 (tptp.fn_biomembrane_54 _let_38))) (let ((_let_43 (tptp.fn_fibronectin_49 X))) (let ((_let_44 (tptp.fn_integrin_9 _let_43))) (let ((_let_45 (tptp.fn_integral_protein_9 _let_43))) (let ((_let_46 (tptp.fn_integrin_36 _let_43))) (let ((_let_47 (tptp.fn_plasma_membrane_3 _let_38))) (let ((_let_48 (tptp.fn_plasma_membrane_68 _let_38))) (let ((_let_49 (tptp.fn_motor_protein_22 X))) (let ((_let_50 (tptp.fn_glycoprotein_11 X))) (let ((_let_51 (tptp.fn_integral_protein_16 X))) (let ((_let_52 (tptp.fn_plasma_membrane_85 _let_38))) (let ((_let_53 (tptp.fn_biomembrane_56 _let_38))) (let ((_let_54 (tptp.fn_animal_plasma_membrane_69 _let_38))) (let ((_let_55 (tptp.fn_motor_protein_17 X))) (let ((_let_56 (tptp.fn_glycoprotein_12 X))) (let ((_let_57 (tptp.fn_integral_protein_20 X))) (let ((_let_58 (tptp.fn_plasma_membrane_84 _let_38))) (let ((_let_59 (tptp.fn_animal_plasma_membrane_72 _let_38))) (let ((_let_60 (tptp.fn_polymer_8 _let_28))) (let ((_let_61 (tptp.fn_motor_protein_28 X))) (let ((_let_62 (tptp.fn_plasma_membrane_91 _let_38))) (let ((_let_63 (tptp.fn_animal_plasma_membrane_85 _let_38))) (let ((_let_64 (tptp.fn_polymer_9 _let_28))) (let ((_let_65 (tptp.fn_glycoprotein_9 X))) (let ((_let_66 (tptp.fn_integral_protein_34 X))) (let ((_let_67 (tptp.fn_motor_protein_20 X))) (let ((_let_68 (tptp.fn_glycoprotein_22 X))) (let ((_let_69 (tptp.fn_integral_protein_15 X))) (let ((_let_70 (tptp.fn_motor_protein_19 X))) (let ((_let_71 (tptp.fn_glycoprotein_21 X))) (let ((_let_72 (tptp.fn_integral_protein_19 X))) (let ((_let_73 (tptp.fn_motor_protein_18 X))) (let ((_let_74 (tptp.fn_glycoprotein_20 X))) (let ((_let_75 (tptp.fn_integral_protein_18 X))) (let ((_let_76 (tptp.fn_motor_protein_21 X))) (let ((_let_77 (tptp.fn_glycoprotein_23 X))) (let ((_let_78 (tptp.fn_integral_protein_17 X))) (let ((_let_79 (tptp.fn_motor_protein_9 X))) (let ((_let_80 (tptp.fn_glycoprotein_14 X))) (let ((_let_81 (tptp.fn_integral_protein_29 X))) (let ((_let_82 (tptp.fn_motor_protein_8 X))) (let ((_let_83 (tptp.fn_glycoprotein_18 X))) (let ((_let_84 (tptp.fn_integral_protein_23 X))) (let ((_let_85 (tptp.fn_motor_protein_6 X))) (let ((_let_86 (tptp.fn_integrin_10 _let_43))) (let ((_let_87 (tptp.fn_integrin_39 _let_43))) (let ((_let_88 (tptp.fn_motor_protein_24 X))) (let ((_let_89 (tptp.fn_integral_protein_14 X))) (let ((_let_90 (tptp.fn_glycoprotein_10 X))) (let ((_let_91 (tptp.fn_motor_protein_16 X))) (let ((_let_92 (tptp.fn_protein_14 X))) (let ((_let_93 (tptp.fn_integral_protein_21 X))) (let ((_let_94 (tptp.fn_glycoprotein_19 X))) (let ((_let_95 (tptp.fn_polypeptide_82 _let_28))) (let ((_let_96 (tptp.fn_polypeptide_83 _let_28))) (let ((_let_97 (tptp.fn_glycoprotein_26 X))) (let ((_let_98 (tptp.fn_integral_protein_28 X))) (let ((_let_99 (tptp.fn_glycoprotein_24 X))) (let ((_let_100 (tptp.fn_integral_protein_8 X))) (let ((_let_101 (tptp.fn_integral_protein_24 X))) (let ((_let_102 (tptp.fn_integral_protein_24 _let_43))) (let ((_let_103 (tptp.fn_transmembrane_protein_4 _let_43))) (let ((_let_104 (tptp.fn_animal_plasma_membrane_54 _let_38))) (let ((_let_105 (tptp.fn_integral_protein_27 X))) (let ((_let_106 (tptp.fn_integral_protein_27 _let_43))) (let ((_let_107 (tptp.fn_plasma_membrane_71 _let_38))) (let ((_let_108 (tptp.fn_biomembrane_63 _let_38))) (let ((_let_109 (tptp.fn_animal_plasma_membrane_60 _let_38))) (let ((_let_110 (tptp.fn_animal_plasma_membrane_59 _let_38))) (let ((_let_111 (tptp.fn_fibronectin_47 X))) (let ((_let_112 (tptp.fn_phospholipid_bilayer_33 _let_111))) (let ((_let_113 (tptp.fn_integral_protein_12 _let_43))) (let ((_let_114 (tptp.fn_integral_protein_11 _let_43))) (let ((_let_115 (tptp.fn_phospholipid_bilayer_34 _let_111))) (let ((_let_116 (tptp.fn_animal_plasma_membrane_84 _let_38))) (let ((_let_117 (tptp.fn_phospholipid_bilayer_55 _let_111))) (let ((_let_118 (tptp.fn_phospholipid_bilayer_24 _let_111))) (let ((_let_119 (tptp.fn_phospholipid_bilayer_2 _let_111))) (let ((_let_120 (tptp.fn_phospholipid_bilayer_1 _let_111))) (let ((_let_121 (tptp.fn_fibronectin_41 X))) (let ((_let_122 (tptp.fn_move_together_1 _let_121))) (let ((_let_123 (tptp.fn_move_together_2 _let_121))) (let ((_let_124 (tptp.fn_protein_12 X))) (let ((_let_125 (tptp.fn_polypeptide_130 _let_28))) (let ((_let_126 (tptp.fn_polymer_1 _let_28))) (let ((_let_127 (tptp.fn_protein_11 X))) (let ((_let_128 (tptp.fn_polypeptide_125 _let_28))) (let ((_let_129 (tptp.fn_animal_plasma_membrane_77 _let_38))) (let ((_let_130 (tptp.fn_animal_plasma_membrane_23 _let_38))) (let ((_let_131 (tptp.fn_animal_plasma_membrane_83 _let_38))) (let ((_let_132 (tptp.fn_phospholipid_bilayer_32 _let_111))) (let ((_let_133 (tptp.fn_phospholipid_bilayer_44 _let_111))) (let ((_let_134 (tptp.fn_phospholipid_bilayer_46 _let_111))) (let ((_let_135 (tptp.fn_animal_plasma_membrane_53 _let_38))) (let ((_let_136 (tptp.fn_animal_plasma_membrane_62 _let_38))) (let ((_let_137 (tptp.fn_plasma_membrane_55 _let_38))) (let ((_let_138 (tptp.fn_fibronectin_50 X))) (let ((_let_139 (tptp.fn_hold_2 _let_138))) (let ((_let_140 (tptp.fn_fibronectin_8 X))) (let ((_let_141 (tptp.fn_fibronectin_23 X))) (let ((_let_142 (tptp.fn_fibronectin_25 X))) (let ((_let_143 (tptp.fn_atom_9 _let_142))) (let ((_let_144 (tptp.fn_fibronectin_9 X))) (let ((_let_145 (tptp.fn_fibronectin_28 X))) (let ((_let_146 (tptp.fn_atom_9 _let_145))) (let ((_let_147 (tptp.fn_fibronectin_11 X))) (let ((_let_148 (tptp.fn_attract_1 _let_36))) (let ((_let_149 (tptp.fn_fibronectin_36 X))) (let ((_let_150 (tptp.fn_fibronectin_5 X))) (let ((_let_151 (tptp.fn_fibronectin_18 X))) (let ((_let_152 (tptp.fn_fibronectin_34 X))) (let ((_let_153 (tptp.fn_fibronectin_13 X))) (let ((_let_154 (tptp.fn_fibronectin_17 X))) (let ((_let_155 (tptp.fn_fibronectin_32 X))) (let ((_let_156 (tptp.fn_fibronectin_31 X))) (let ((_let_157 (tptp.fn_fibronectin_30 X))) (let ((_let_158 (tptp.fn_fibronectin_55 X))) (let ((_let_159 (tptp.fn_fibronectin_21 X))) (let ((_let_160 (tptp.fn_fibronectin_20 X))) (let ((_let_161 (tptp.fn_fibronectin_48 X))) (let ((_let_162 (tptp.fn_fibronectin_19 X))) (let ((_let_163 (tptp.fn_fibronectin_33 X))) (let ((_let_164 (tptp.fn_fibronectin_22 X))) (let ((_let_165 (tptp.fn_fibronectin_56 X))) (let ((_let_166 (tptp.fn_animal_plasma_membrane_50 _let_38))) (let ((_let_167 (tptp.fn_fibronectin_43 X))) (let ((_let_168 (tptp.fn_animal_plasma_membrane_52 _let_38))) (let ((_let_169 (tptp.fn_fibronectin_52 X))) (let ((_let_170 (tptp.fn_animal_plasma_membrane_66 _let_38))) (let ((_let_171 (tptp.fn_fibronectin_51 X))) (let ((_let_172 (tptp.fn_fibronectin_42 X))) (let ((_let_173 (tptp.fn_fibronectin_40 X))) (let ((_let_174 (tptp.fn_animal_plasma_membrane_56 _let_38))) (let ((_let_175 (tptp.fn_fibronectin_46 X))) (let ((_let_176 (tptp.fn_fibronectin_37 X))) (let ((_let_177 (tptp.fn_fibronectin_27 X))) (let ((_let_178 (tptp.fn_fibronectin_26 X))) (let ((_let_179 (tptp.fn_fibronectin_12 X))) (let ((_let_180 (tptp.fn_fibronectin_54 X))) (let ((_let_181 (tptp.fn_fibronectin_44 X))) (let ((_let_182 (tptp.fn_fibronectin_38 X))) (let ((_let_183 (tptp.fn_biomembrane_57 _let_38))) (let ((_let_184 (tptp.fn_fibronectin_45 X))) (let ((_let_185 (tptp.fn_animal_plasma_membrane_82 _let_38))) (let ((_let_186 (tptp.fn_fibronectin_39 X))) (let ((_let_187 (tptp.fn_fibronectin_1 X))) (let ((_let_188 (tptp.fn_fibronectin_4 X))) (let ((_let_189 (tptp.fn_fibronectin_2 X))) (let ((_let_190 (tptp.fn_fibronectin_3 X))) (=> (tptp.fibronectin_1 X) (and (tptp.original_name_2 X |tptp.'Fibronectin'|) (tptp.user_description_2 X |tptp.'A glycoprotein that helps animal cells attach to the extracellular matrix.'|) (tptp.concept2words_2 X tptp.fibronectin) (tptp.integral_protein_1 X) (tptp.glycoprotein_1 X) 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(tptp.hydrophilic_region_1 _let_160) (tptp.surface_1 _let_159) (tptp.hydrophobic_region_1 _let_164) (tptp.carbon_skeleton_1 _let_141) (tptp.monomer_1 _let_28) (tptp.polymer_1 _let_28) (tptp.polypeptide_1 _let_28) (tptp.organic_molecule_1 _let_28) (tptp.chemical_entity_1 _let_142) (tptp.carbon_1 _let_142) (tptp.tangible_entity_1 _let_142) (tptp.atom_1 _let_142) (tptp.hydrophobic_amino_acid_1 _let_178) (tptp.polar_amino_acid_1 _let_177) (tptp.entity_1 _let_145) (tptp.carbon_1 _let_145) (tptp.chemical_entity_1 _let_145) (tptp.atom_1 _let_145) (tptp.carbohydrate_side_chain_1 _let_1) (tptp.kinetic_energy_1 _let_157) (tptp.quantity_value_1 _let_156) (tptp.speed_value_1 _let_155) (tptp.spatial_entity_1 _let_163) (tptp.chemical_entity_1 _let_163) (tptp.monomer_1 _let_163) (tptp.molecule_1 _let_163) (tptp.amino_acid_1 _let_163) (tptp.size_value_1 _let_152) (tptp.attract_1 _let_36) (tptp.tangible_entity_1 _let_149) (tptp.attach_1 _let_176) (tptp.lipid_1 _let_182) (tptp.spatial_entity_1 _let_182) (tptp.phospholipid_1 _let_182) (tptp.directed_motion_1 _let_186) (tptp.lipid_1 _let_173) (tptp.spatial_entity_1 _let_173) (tptp.phospholipid_1 _let_173) (tptp.move_together_1 _let_121) (tptp.phospholipid_layer_1 _let_172) (tptp.move_1 _let_167) (tptp.move_through_1 _let_167) (tptp.attach_1 _let_181) (tptp.sodium_potassium_pump_1 _let_184) (tptp.animal_cell_1 _let_175) (tptp.tangible_entity_1 _let_111) (tptp.phospholipid_bilayer_1 _let_111) (tptp.attach_1 _let_161) (tptp.atp_1 _let_43) (tptp.hold_1 _let_138) (tptp.hold_together_1 _let_138) (tptp.attach_1 _let_171) (tptp.attach_1 _let_169) (tptp.biomembrane_1 _let_38) (tptp.plasma_membrane_1 _let_38) (tptp.animal_plasma_membrane_1 _let_38) (tptp.tangible_entity_1 _let_180) (tptp.entity_1 _let_180) (tptp.chemical_entity_1 _let_180) (tptp.atom_1 _let_180) (tptp.nitrogen_1 _let_180) (tptp.change_of_shape_1 _let_158) (tptp.repel_1 _let_165) (tptp.move_1 _let_185) (tptp.hold_together_1 _let_183) (tptp.animal_cell_1 _let_174) (tptp.attach_1 _let_170) (tptp.attach_1 _let_168) (tptp.move_1 _let_166) (tptp.move_through_1 _let_166) (tptp.entity_1 _let_148) (tptp.electron_shell_1 _let_146) (tptp.electron_shell_1 _let_143) (tptp.tangible_entity_1 _let_139) (tptp.tangible_entity_1 _let_137) (tptp.transmembrane_protein_1 _let_137) (tptp.integral_protein_1 _let_137) (tptp.transport_protein_1 _let_137) (tptp.spatial_entity_1 _let_136) (tptp.tangible_entity_1 _let_136) (tptp.transmembrane_protein_1 _let_136) (tptp.integral_protein_1 _let_136) (tptp.transport_protein_1 _let_136) (tptp.polymer_1 _let_135) (tptp.spatial_entity_1 _let_135) (tptp.membrane_protein_1 _let_135) (tptp.tangible_entity_1 _let_135) (tptp.transmembrane_protein_1 _let_135) (tptp.integral_protein_1 _let_135) (tptp.transport_protein_1 _let_135) (tptp.lipid_1 _let_134) (tptp.lipid_1 _let_133) (tptp.spatial_entity_1 _let_132) (tptp.phospholipid_1 _let_132) (tptp.attach_1 _let_131) (tptp.attach_1 _let_130) (tptp.attach_1 _let_129) (tptp.tangible_entity_1 _let_128) (tptp.entity_1 _let_128) (tptp.chemical_entity_1 _let_128) (tptp.atom_1 _let_128) (tptp.nitrogen_1 _let_128) (tptp.covalent_bond_1 _let_126) (tptp.chemical_bond_1 _let_125) (tptp.covalent_bond_1 _let_125) (tptp.peptide_bond_1 _let_125) (tptp.spatial_entity_1 _let_123) (tptp.spatial_entity_1 _let_122) (tptp.lipid_1 _let_120) (tptp.lipid_1 _let_119) (tptp.phospholipid_1 _let_118) (tptp.spatial_entity_1 _let_117) (tptp.phospholipid_1 _let_117) (tptp.phospholipid_1 _let_116) (tptp.phospholipid_layer_1 _let_115) (tptp.phospholipid_layer_1 _let_114) (tptp.phospholipid_layer_1 _let_113) (tptp.phospholipid_layer_1 _let_112) (tptp.phospholipid_layer_1 _let_110) (tptp.phospholipid_layer_1 _let_109) (tptp.tangible_entity_1 _let_108) (tptp.phospholipid_bilayer_1 _let_108) (tptp.tangible_entity_1 _let_107) (tptp.phospholipid_bilayer_1 _let_107) (tptp.tangible_entity_1 _let_106) (tptp.phospholipid_bilayer_1 _let_106) (tptp.tangible_entity_1 _let_104) (tptp.phospholipid_bilayer_1 _let_104) (tptp.biomembrane_1 _let_103) (tptp.biomembrane_1 _let_102) (tptp.spatial_entity_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.monomer_1 _let_96) (tptp.molecule_1 _let_96) (tptp.amino_acid_1 _let_96) (tptp.chemical_entity_1 _let_95) (tptp.monomer_1 _let_95) (tptp.molecule_1 _let_95) (tptp.amino_acid_1 _let_95) (tptp.attach_1 _let_87) (tptp.attach_1 _let_86) (tptp.property_node_1 _let_64) (tptp.property_node_1 _let_63) (tptp.property_node_1 _let_62) (tptp.size_value_1 _let_60) (tptp.size_value_1 _let_59) (tptp.size_value_1 _let_58) (tptp.size_value_1 _let_54) (tptp.size_value_1 _let_53) (tptp.size_value_1 _let_52) (tptp.tangible_entity_1 _let_48) (tptp.membrane_protein_1 _let_48) (tptp.protein_1 _let_48) (tptp.membrane_protein_1 _let_47) (tptp.protein_1 _let_46) (tptp.glycoprotein_1 _let_45) (tptp.spatial_entity_1 _let_44) (tptp.polymer_1 _let_44) (tptp.organic_molecule_1 _let_44) (tptp.tangible_entity_1 _let_44) (tptp.membrane_protein_1 _let_44) (tptp.protein_1 _let_44) (tptp.tangible_entity_1 _let_42) (tptp.membrane_protein_1 _let_42) (tptp.protein_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.membrane_protein_1 _let_41) (tptp.protein_1 _let_41) (tptp.spatial_entity_1 _let_41) (tptp.polymer_1 _let_41) (tptp.glycoprotein_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.membrane_protein_1 _let_39) (tptp.spatial_entity_1 _let_39) (tptp.polymer_1 _let_39) (tptp.protein_1 _let_39) (tptp.organic_molecule_1 _let_39) (tptp.entity_1 _let_37) (tptp.organic_molecule_1 _let_35) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.carbon_1 _let_32) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.carbon_1 _let_29) (tptp.entity_1 _let_23) (tptp.entity_1 _let_21) (tptp.carbon_1 _let_21) (tptp.atom_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.carbon_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.carbon_skeleton_1 _let_9) (tptp.entity_1 _let_8) (tptp.valence_electron_1 _let_6) (tptp.valence_electron_1 _let_5) (tptp.entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.oxygen_1 _let_3) (tptp.entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.oxygen_1 _let_2) (tptp.has_region_2 _let_38 _let_188) (tptp.is_between_2 _let_38 _let_190) (not (= _let_169 _let_171)) (tptp.by_means_of_2 _let_169 _let_161) (tptp.site_2 _let_169 _let_188) (not (= _let_171 _let_169)) (tptp.has_function_2 _let_43 _let_161) (tptp.site_2 _let_161 _let_188) (tptp.has_function_2 X _let_138) (tptp.site_2 _let_181 _let_188) (tptp.path_2 _let_167 _let_38) (tptp.base_2 _let_189 _let_175) (tptp.called_2 _let_173 |tptp.'P3'|) (tptp.is_at_2 _let_173 _let_172) (tptp.called_2 _let_182 |tptp.'P3'|) (tptp.is_inside_2 _let_182 _let_172) (tptp.is_at_2 _let_182 _let_172) (tptp.site_2 _let_176 _let_188) (tptp.has_region_2 _let_145 _let_187) (tptp.has_region_2 _let_142 _let_187) (tptp.object_2 _let_13 _let_4) (tptp.object_2 _let_13 _let_145) (tptp.object_2 _let_138 _let_43) (tptp.object_2 _let_121 _let_173) (tptp.object_2 _let_7 _let_140) (tptp.agent_2 _let_7 _let_145) (tptp.is_across_2 _let_43 _let_38) (tptp.is_across_2 _let_184 _let_38) (not (= _let_43 _let_184)) (tptp.called_2 _let_43 |tptp.'MP2'|) (not (= _let_184 _let_43)) (tptp.has_part_2 _let_38 _let_43) (tptp.is_inside_2 _let_43 _let_111) (tptp.object_2 _let_161 _let_43) (not (= X _let_43)) (not (= _let_43 X)) (tptp.prevents_2 _let_181 _let_186) (tptp.object_2 _let_186 _let_184) (tptp.size_2 _let_28 _let_152) (tptp.is_inside_2 _let_184 _let_111) (tptp.called_2 _let_184 |tptp.'MP1'|) (tptp.is_at_2 _let_184 _let_111) (tptp.has_part_2 _let_38 _let_184) (tptp.object_2 _let_181 _let_184) (tptp.is_at_2 _let_184 _let_38) (not (= _let_184 X)) (not (= X _let_184)) (tptp.agent_2 _let_138 X) (tptp.has_part_2 _let_111 _let_173) (tptp.has_part_2 _let_111 _let_182) (not (= _let_173 _let_182)) (not (= _let_182 _let_173)) (tptp.base_2 _let_181 _let_38) (tptp.is_between_2 _let_179 _let_180) (tptp.has_part_2 _let_28 _let_163) (tptp.has_part_2 X _let_28) (tptp.possesses_2 _let_28 _let_179) (tptp.is_between_2 _let_179 _let_147) (not (= _let_180 _let_147)) (not (= _let_147 _let_180)) (tptp.is_at_2 _let_177 _let_160) (tptp.has_part_2 X _let_177) (tptp.has_part_2 X _let_178) (tptp.is_inside_2 _let_178 _let_164) (tptp.is_at_2 _let_1 _let_159) (tptp.base_2 _let_176 _let_38) (tptp.has_part_2 _let_175 _let_38) (tptp.has_region_2 _let_111 _let_172) (tptp.is_inside_2 _let_173 _let_172) (tptp.has_function_2 _let_38 _let_167) (tptp.base_2 _let_167 _let_38) (tptp.base_2 _let_169 _let_38) (tptp.object_2 _let_169 X) (tptp.object_2 _let_171 X) (tptp.has_part_2 _let_38 _let_111) (tptp.is_inside_2 X _let_111) (tptp.is_at_2 X _let_38) (tptp.has_part_2 _let_38 X) (tptp.called_2 X |tptp.'MP1'|) (tptp.has_part_2 X _let_142) (tptp.has_function_2 X _let_36) (tptp.site_2 _let_36 _let_160) (tptp.facilitates_2 _let_160 _let_36) (tptp.has_region_2 X _let_164) (tptp.facilitates_2 _let_164 _let_165) (tptp.agent_2 _let_165 X) (tptp.has_function_2 X _let_165) (tptp.site_2 _let_165 _let_164) (tptp.the_scalar_value_2 _let_151 tptp.big_0) (tptp.scalar_unit_class_2 _let_151 tptp.polypeptide_0) (tptp.has_region_2 X _let_141) (tptp.has_part_2 X _let_145) (tptp.enables_2 _let_161 _let_150) (tptp.base_2 _let_161 X) (tptp.has_region_2 X _let_162) (tptp.is_at_2 _let_163 _let_162) (tptp.causes_2 _let_158 _let_150) (tptp.object_2 _let_158 X) (tptp.has_region_2 X _let_159) (tptp.is_at_2 _let_160 _let_159) (tptp.has_region_2 X _let_160) (tptp.object_2 _let_154 X) (tptp.speed_2 _let_154 _let_155) (tptp.directly_proportional_2 _let_155 _let_156) (tptp.quantity_2 _let_157 _let_156) (tptp.possesses_2 X _let_157) (tptp.has_function_2 X _let_150) (tptp.agent_2 _let_150 X) (tptp.size_2 X _let_151) (tptp.greater_than_2 _let_151 _let_152) (tptp.agent_2 _let_36 X) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_4) (tptp.is_inside_2 _let_145 _let_141) (not (= _let_145 _let_142)) (tptp.is_inside_2 _let_142 _let_141) (not (= _let_142 _let_145)) (tptp.has_part_2 _let_4 _let_140) (tptp.has_region_2 _let_1 _let_141) (tptp.has_region_2 _let_142 _let_144) (tptp.has_region_2 _let_145 _let_144) (tptp.has_part_2 _let_28 _let_147) (tptp.object_2 _let_36 _let_149) (tptp.object_2 _let_13 _let_142) (= _let_43 _let_139) (= _let_173 _let_123) (= _let_173 _let_122) (= _let_140 _let_8) (= _let_145 _let_23) (= _let_184 _let_137) (= _let_161 _let_86) (= _let_43 _let_41) (= X _let_48) (= X _let_44) (= _let_186 _let_185) (= _let_38 _let_103) (= _let_181 _let_131) (= _let_181 _let_130) (= _let_184 _let_136) (= _let_184 _let_135) (= _let_138 _let_183) (= _let_173 _let_120) (= _let_173 _let_119) (= _let_173 _let_118) (= _let_173 _let_117) (= _let_182 _let_134) (= _let_182 _let_133) (= _let_182 _let_120) (= _let_182 _let_132) (= _let_182 _let_118) (= _let_181 _let_129) (= _let_163 _let_96) (= _let_163 _let_95) (= _let_163 _let_92) (= _let_180 _let_128) (= _let_180 _let_127) (= _let_147 _let_32) (= _let_147 _let_31) (= _let_179 _let_126) (= _let_179 _let_125) (= _let_179 _let_124) (= _let_28 _let_27) (= _let_28 _let_26) (= _let_28 _let_25) (= _let_28 _let_24) (= _let_178 (tptp.fn_integral_protein_5 X)) (= _let_177 (tptp.fn_integral_protein_6 X)) (= _let_176 _let_129) (= _let_175 _let_174) (= _let_173 _let_116) (= _let_172 _let_115) (= _let_172 _let_114) (= _let_172 _let_113) (= _let_172 _let_112) (= _let_172 _let_110) (= _let_172 _let_109) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_38 _let_102) (= X _let_47) (= X _let_45) (= _let_111 _let_106) (= X _let_40) (= _let_111 _let_108) (= _let_111 _let_107) (= _let_38 _let_101) (= _let_111 _let_105) (= _let_111 _let_104) (= _let_142 _let_16) (= _let_36 _let_34) (= _let_36 _let_33) (= _let_165 _let_100) (= _let_165 _let_99) (= _let_164 _let_98) (= _let_164 _let_97) (= (tptp.fn_fibronectin_16 X) (tptp.fn_motor_protein_25 X)) (= (tptp.fn_fibronectin_15 X) (tptp.fn_motor_protein_27 X)) (= (tptp.fn_fibronectin_14 X) (tptp.fn_motor_protein_26 X)) (= _let_163 _let_94) (= _let_163 _let_93) (= _let_163 _let_91) (= _let_162 _let_90) (= _let_162 _let_89) (= _let_162 _let_88) (= _let_161 _let_87) (= X _let_46) (= _let_161 _let_85) (= _let_160 _let_84) (= _let_160 _let_83) (= _let_160 _let_82) (= _let_159 _let_81) (= _let_159 _let_80) (= _let_159 _let_79) (= _let_158 (tptp.fn_motor_protein_3 X)) (= _let_157 _let_78) (= _let_157 _let_77) (= _let_157 _let_76) (= _let_156 _let_75) (= _let_156 _let_74) (= _let_156 _let_73) (= _let_155 _let_72) (= _let_155 _let_71) (= _let_155 _let_70) (= _let_154 _let_69) (= _let_154 _let_68) (= _let_154 _let_67) (= _let_153 _let_66) (= _let_153 _let_65) (= _let_153 _let_64) (= _let_152 _let_60) (= _let_153 _let_63) (= _let_153 _let_62) (= _let_153 _let_61) (= _let_152 _let_59) (= _let_152 _let_58) (= _let_152 _let_57) (= _let_152 _let_56) (= _let_152 _let_55) (= X _let_39) (= _let_151 _let_54) (= X _let_42) (= _let_151 _let_53) (= X _let_41) (= _let_151 _let_52) (= _let_151 _let_51) (= _let_151 _let_50) (= _let_151 _let_49) (= _let_150 (tptp.fn_motor_protein_14 X)) (= X _let_37) (= _let_1 (tptp.fn_glycoprotein_17 X)) (= X _let_35) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_142 _let_17) (= _let_141 _let_11) (= _let_145 _let_17) (= _let_142 _let_20) (= _let_142 _let_19) (= _let_142 _let_18) (= _let_142 _let_15) (= _let_145 _let_22) (= _let_141 _let_10) (= _let_145 _let_16) (= _let_141 _let_12) (= _let_145 _let_21) (= _let_142 _let_14) (= _let_149 _let_148) (= _let_147 _let_30) (= _let_147 _let_29) (= _let_144 _let_146) (= _let_144 _let_143) (= _let_141 _let_9) (= _let_140 _let_6) (= _let_140 _let_5) (= _let_139 _let_41) (= _let_41 _let_137) (= _let_137 _let_137) (= _let_137 _let_136) (= _let_136 _let_136) (= _let_135 _let_135) (= _let_135 _let_136) (= _let_136 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_133 _let_134) (= _let_134 _let_133) (= _let_133 _let_133) (= _let_120 _let_133) (= _let_133 _let_120) (= _let_132 _let_120) (= _let_120 _let_132) (= _let_132 _let_132) (= _let_118 _let_132) (= _let_132 _let_118) (= _let_118 _let_131) (= _let_131 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_127) (= _let_127 _let_128) (= _let_128 _let_127) (= _let_127 _let_125) (= _let_125 _let_126) (= _let_126 _let_125) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_120) (= _let_120 _let_120) (= _let_119 _let_120) (= _let_120 _let_119) (= _let_118 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_116 _let_116) (= _let_116 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_112) (= _let_110 _let_112) (= _let_112 _let_110) (= _let_110 _let_110) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_105 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_106) (= _let_106 _let_104) (= _let_104 _let_106) (= _let_106 _let_105) (= _let_104 _let_104) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_103) (= _let_102 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_97 _let_98) (= _let_98 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_86 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_83 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_80) (= _let_80 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_49 _let_49) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_17) (= _let_16 _let_16) (= _let_22 _let_16) (= _let_16 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fibrous_connective_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Fibrous-Connective-Tissue'|) (tptp.user_description_2 X |tptp.'Dense connective tissue with collagenous fibers organized into parallel bundles (e.g., tendons and ligaments). Dense connective tissue usually connects two tissues.'|) (tptp.concept2words_2 X |tptp.'fibrous connective tissue'|) (tptp.concept2words_2 X |tptp.'fibrous-connective-tissue'|) (tptp.connective_tissue_1 X) (not (tptp.adipose_tissue_1 X)) (not (tptp.av_valve_1 X)) (not (tptp.bone_1 X)) (not (tptp.cartilage_1 X)) (not (tptp.loose_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X))))) (forall ((X $$unsorted)) (=> (tptp.fibrous_protein_1 X) (and (tptp.original_name_2 X |tptp.'Fibrous-Protein'|) (tptp.user_description_2 X |tptp.'Proteins that tend to be insoluble and strong and so play a structural role in organisms for support or protection. Fibrous proteins can be subdivided into several different types: 1.keratins, found in hair, fingernails, and bird feathers 2. collagens the most abundant proteins in a vertebrate body found in connective tissues such as cartilage 3. elastins, found in ligaments, around blood vessels.'|) (tptp.concept2words_2 X |tptp.'fibrous protein'|) (tptp.concept2words_2 X |tptp.'fibrous-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fibrous_root_1 X) (and (tptp.original_name_2 X |tptp.'Fibrous-Root'|) (tptp.user_description_2 X |tptp.'Root system consisting of many small roots, often forming a mat which spreads out vertically and laterally in the soil.'|) (tptp.concept2words_2 X |tptp.'fibrous root'|) (tptp.concept2words_2 X |tptp.'fibrous-root'|) (tptp.root_1 X) (not (tptp.adventitious_root_1 X)) (not (tptp.carrot_1 X)) (not (tptp.lateral_root_1 X)) (not (tptp.radicle_1 X)) (not (tptp.taproot_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fidget_1 X))) (=> (tptp.fidget_1 X) (and (tptp.original_name_2 X |tptp.'Fidget'|) (tptp.concept2words_2 X tptp.fidget) (tptp.orient_1 X) (not (tptp.stand_up_1 X)) (not (tptp.sit_down_1 X)) (not (tptp.gesticulate_1 X)) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1) (tptp.agent_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fight_or_flight_response_34 X))) (let ((_let_2 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_74 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_with_epinephrine_43 _let_1))) (let ((_let_4 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_69 _let_1))) (let ((_let_5 (tptp.fn_cell_communication_with_epinephrine_20 _let_1))) (let ((_let_6 (tptp.fn_fight_or_flight_response_18 X))) (let ((_let_7 (tptp.fn_release_2 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_73 _let_1))) (let ((_let_9 (tptp.fn_cell_communication_with_epinephrine_22 _let_1))) (let ((_let_10 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_97 _let_1))) (let ((_let_11 (tptp.fn_cell_communication_with_epinephrine_21 _let_1))) (let ((_let_12 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_139 _let_1))) (let ((_let_13 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_68 _let_1))) (let ((_let_14 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_70 _let_1))) (let ((_let_15 (tptp.fn_fight_or_flight_response_30 X))) (let ((_let_16 (tptp.fn_cellular_response_1 _let_15))) (let ((_let_17 (tptp.fn_fight_or_flight_response_10 X))) (let ((_let_18 (tptp.fn_cellular_respiration_42 _let_17))) (let ((_let_19 (tptp.fn_fight_or_flight_response_32 X))) (let ((_let_20 (tptp.fn_dephosphorylation_of_glucose_6_phosphate_2 _let_19))) (let ((_let_21 (tptp.fn_catabolic_pathway_10 _let_17))) (let ((_let_22 (tptp.fn_fight_or_flight_response_31 X))) (let ((_let_23 (tptp.fn_mobilization_of_fuel_reserve_4 _let_22))) (let ((_let_24 (tptp.fn_decomposition_reaction_2 _let_19))) (let ((_let_25 (tptp.fn_release_1 _let_6))) (let ((_let_26 (tptp.fn_fight_or_flight_response_35 X))) (let ((_let_27 (tptp.fn_dephosphorylation_of_glucose_6_phosphate_2 _let_26))) (let ((_let_28 (tptp.fn_fight_or_flight_response_36 X))) (let ((_let_29 (tptp.fn_mobilization_of_fuel_reserve_4 _let_28))) (let ((_let_30 (tptp.fn_decomposition_reaction_2 _let_26))) (let ((_let_31 (tptp.fn_fight_or_flight_response_12 X))) (let ((_let_32 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_81 _let_1))) (let ((_let_33 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_82 _let_1))) (let ((_let_34 (tptp.fn_fight_or_flight_response_19 X))) (let ((_let_35 (tptp.fn_fight_or_flight_response_29 X))) (let ((_let_36 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_78 _let_1))) (let ((_let_37 (tptp.fn_fight_or_flight_response_17 X))) (let ((_let_38 (tptp.fn_fight_or_flight_response_21 X))) (let ((_let_39 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_35 _let_1))) (let ((_let_40 (tptp.fn_fight_or_flight_response_26 X))) (let ((_let_41 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_36 _let_1))) (let ((_let_42 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_107 _let_1))) (let ((_let_43 (tptp.fn_fight_or_flight_response_11 X))) (let ((_let_44 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_62 _let_1))) (let ((_let_45 (tptp.fn_fight_or_flight_response_13 X))) (let ((_let_46 (tptp.fn_fight_or_flight_response_15 X))) (let ((_let_47 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_8 _let_1))) (let ((_let_48 (tptp.fn_fight_or_flight_response_22 X))) (let ((_let_49 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_98 _let_1))) (let ((_let_50 (tptp.fn_fight_or_flight_response_23 X))) (let ((_let_51 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_144 _let_1))) (let ((_let_52 (tptp.fn_fight_or_flight_response_14 X))) (let ((_let_53 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_66 _let_1))) (let ((_let_54 (tptp.fn_fight_or_flight_response_16 X))) (let ((_let_55 (tptp.fn_fight_or_flight_response_25 X))) (let ((_let_56 (tptp.fn_fight_or_flight_response_20 X))) (let ((_let_57 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_37 _let_1))) (let ((_let_58 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_38 _let_1))) (let ((_let_59 (tptp.fn_cell_communication_with_epinephrine_in_liver_cell_111 _let_1))) (let ((_let_60 (tptp.fn_fight_or_flight_response_24 X))) (let ((_let_61 (tptp.fn_fight_or_flight_response_33 X))) (let ((_let_62 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_26 _let_61))) (let ((_let_63 (tptp.fn_fight_or_flight_response_38 X))) (let ((_let_64 (tptp.fn_cell_communication_with_epinephrine_in_muscle_cell_25 _let_61))) (let ((_let_65 (tptp.fn_fight_or_flight_response_37 X))) (let ((_let_66 (tptp.fn_fight_or_flight_response_39 X))) (let ((_let_67 (tptp.fn_fight_or_flight_response_28 X))) (let ((_let_68 (tptp.fn_mobilization_of_fuel_reserve_3 _let_22))) (let ((_let_69 (tptp.fn_fight_or_flight_response_8 X))) (let ((_let_70 (tptp.fn_fight_or_flight_response_9 X))) (let ((_let_71 (tptp.fn_fight_or_flight_response_7 X))) (let ((_let_72 (tptp.fn_fight_or_flight_response_6 X))) (let ((_let_73 (tptp.fn_fight_or_flight_response_5 X))) (let ((_let_74 (tptp.fn_fight_or_flight_response_4 X))) (let ((_let_75 (tptp.fn_fight_or_flight_response_3 X))) (let ((_let_76 (tptp.fn_fight_or_flight_response_1 X))) (let ((_let_77 (tptp.fn_fight_or_flight_response_2 X))) (=> (tptp.fight_or_flight_response_1 X) (and (tptp.original_name_2 X |tptp.'Fight-Or-Flight-Response'|) (tptp.user_description_2 X |tptp.'Physiological response to stress in animals in which the body prepares for either aggressive action (fight) or avoidance action (flight) as a response to potential danger or conflict. The response is initiated by adrenaline signaling.'|) (tptp.concept2words_2 X |tptp.'fight or flight response'|) (tptp.concept2words_2 X |tptp.'fight-or-flight-response'|) (tptp.macrophysiological_process_1 X) (tptp.stimulus_generation_1 _let_76) (tptp.epinephrine_1 _let_77) (tptp.time_interval_1 _let_75) (tptp.time_interval_1 _let_74) (tptp.g_protein_1 _let_73) (tptp.time_interval_1 _let_72) (tptp.time_interval_1 _let_71) (tptp.blood_vessel_1 _let_69) (tptp.blood_1 _let_70) (tptp.catabolic_pathway_1 _let_17) (tptp.cellular_respiration_1 _let_17) (tptp.system_1 _let_43) (tptp.chemical_signaling_1 _let_31) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_31) (tptp.cell_signaling_1 _let_31) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_31) (tptp.cell_signaling_with_camp_and_g_protein_coupled_receptor_1 _let_31) (tptp.signal_transmission_1 _let_45) (tptp.signal_reception_1 _let_52) (tptp.signal_transduction_1 _let_46) (tptp.cell_signaling_event_1 _let_46) (tptp.make_accessible_1 _let_54) (tptp.activate_1 _let_54) (tptp.organic_molecule_1 _let_37) (tptp.tangible_entity_1 _let_37) (tptp.membrane_protein_1 _let_37) (tptp.protein_1 _let_37) (tptp.cell_surface_receptor_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.polymer_1 _let_37) (tptp.receptor_protein_1 _let_37) (tptp.g_protein_coupled_receptor_1 _let_37) (tptp.release_1 _let_6) (tptp.metabolic_pathway_1 _let_34) (tptp.exergonic_reaction_1 _let_34) (tptp.catabolic_pathway_1 _let_34) (tptp.glycogen_breakdown_1 _let_34) (tptp.protein_1 _let_56) (tptp.protein_kinase_1 _let_56) (tptp.spatial_entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.polymer_1 _let_38) (tptp.organic_molecule_1 _let_38) (tptp.protein_1 _let_38) (tptp.molecule_1 _let_38) (tptp.g_protein_1 _let_38) (tptp.glycogen_phosphorylase_1 _let_48) (tptp.chemical_entity_1 _let_50) (tptp.molecule_1 _let_50) (tptp.polymer_1 _let_50) (tptp.glycogen_phosphorylase_1 _let_50) (tptp.spatial_entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.polymer_1 _let_60) (tptp.organic_molecule_1 _let_60) (tptp.protein_1 _let_60) (tptp.molecule_1 _let_60) (tptp.g_protein_1 _let_60) (tptp.make_accessible_1 _let_55) (tptp.activate_1 _let_55) (tptp.quantity_value_1 _let_40) (tptp.chemical_entity_1 _let_67) (tptp.glucose_1 _let_67) (tptp.tangible_entity_1 _let_35) (tptp.vertebrate_cell_1 _let_35) (tptp.eukaryotic_cell_1 _let_35) (tptp.cell_1 _let_35) (tptp.animal_cell_1 _let_35) (tptp.liver_cell_1 _let_35) (tptp.cellular_response_1 _let_15) (tptp.cytoplasmic_response_1 _let_15) (tptp.mobilization_of_fuel_reserve_1 _let_22) (tptp.dephosphorylation_of_glucose_6_phosphate_1 _let_19) (tptp.cell_communication_with_epinephrine_in_muscle_cell_1 _let_61) (tptp.cell_communication_with_epinephrine_in_liver_cell_1 _let_1) (tptp.dephosphorylation_of_glucose_6_phosphate_1 _let_26) (tptp.mobilization_of_fuel_reserve_1 _let_28) (tptp.cytoplasmic_response_1 _let_65) (tptp.muscle_cell_1 _let_63) (tptp.tangible_entity_1 _let_66) (tptp.organic_molecule_1 _let_66) (tptp.chemical_entity_1 _let_66) (tptp.monosaccharide_1 _let_66) (tptp.glucose_1 _let_66) (tptp.aldehyde_1 _let_66) (tptp.carbohydrate_1 _let_66) (tptp.aldose_1 _let_66) (tptp.catabolic_pathway_1 _let_68) (tptp.cytoplasmic_response_1 _let_64) (tptp.muscle_cell_1 _let_62) (tptp.spatial_entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.polymer_1 _let_59) (tptp.organic_molecule_1 _let_59) (tptp.protein_1 _let_59) (tptp.molecule_1 _let_59) (tptp.g_protein_1 _let_59) (tptp.property_node_1 _let_58) (tptp.equation_big_node_1 _let_57) (tptp.make_accessible_1 _let_53) (tptp.activate_1 _let_53) (tptp.signal_reception_1 _let_51) (tptp.chemical_entity_1 _let_49) (tptp.molecule_1 _let_49) (tptp.polymer_1 _let_49) (tptp.glycogen_phosphorylase_1 _let_49) (tptp.glycogen_phosphorylase_1 _let_47) (tptp.signal_transmission_1 _let_44) (tptp.system_1 _let_42) (tptp.equation_set_1 _let_41) (tptp.quantity_value_1 _let_39) (tptp.organic_molecule_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.protein_1 _let_36) (tptp.cell_surface_receptor_1 _let_36) (tptp.spatial_entity_1 _let_36) (tptp.polymer_1 _let_36) (tptp.receptor_protein_1 _let_36) (tptp.g_protein_coupled_receptor_1 _let_36) (tptp.metabolic_pathway_1 _let_33) (tptp.exergonic_reaction_1 _let_33) (tptp.catabolic_pathway_1 _let_33) (tptp.glycogen_breakdown_1 _let_33) (tptp.cytoplasmic_response_1 _let_32) (tptp.chemical_entity_1 _let_30) (tptp.chemical_entity_1 _let_29) (tptp.glucose_1 _let_27) (tptp.tangible_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.organic_molecule_1 _let_21) (tptp.glucose_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.monosaccharide_1 _let_18) (tptp.glucose_1 _let_18) (tptp.aldehyde_1 _let_18) (tptp.carbohydrate_1 _let_18) (tptp.aldose_1 _let_18) (tptp.protein_1 _let_16) (tptp.protein_kinase_1 _let_14) (tptp.make_accessible_1 _let_13) (tptp.activate_1 _let_13) (tptp.make_accessible_1 _let_12) (tptp.activate_1 _let_12) (tptp.signal_transduction_1 _let_11) (tptp.cell_signaling_event_1 _let_11) (tptp.signal_transduction_1 _let_10) (tptp.cell_signaling_event_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.polymer_1 _let_9) (tptp.organic_molecule_1 _let_9) (tptp.protein_1 _let_9) (tptp.molecule_1 _let_9) (tptp.g_protein_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.polymer_1 _let_8) (tptp.organic_molecule_1 _let_8) (tptp.protein_1 _let_8) (tptp.molecule_1 _let_8) (tptp.g_protein_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.cell_1 _let_5) (tptp.animal_cell_1 _let_5) (tptp.vertebrate_cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.animal_cell_1 _let_4) (tptp.liver_cell_1 _let_4) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_3) (tptp.cell_signaling_1 _let_3) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_3) (tptp.cell_signaling_with_camp_and_g_protein_coupled_receptor_1 _let_3) (tptp.chemical_signaling_1 _let_2) (tptp.cell_signaling_with_plasma_membrane_receptor_1 _let_2) (tptp.cell_signaling_1 _let_2) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_2) (tptp.cell_signaling_with_camp_and_g_protein_coupled_receptor_1 _let_2) (tptp.subevent_2 _let_65 _let_28) (tptp.subevent_2 _let_65 _let_26) (tptp.time_during_2 _let_28 _let_74) (tptp.next_event_2 _let_26 _let_28) (tptp.site_2 _let_26 _let_63) (tptp.time_during_2 _let_26 _let_75) (tptp.causes_2 _let_76 _let_1) (tptp.next_event_2 _let_76 _let_1) (tptp.first_subevent_2 X _let_76) (tptp.agent_2 X _let_77) (tptp.subevent_2 X _let_61) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_76) (tptp.next_event_2 _let_19 _let_22) (tptp.site_2 _let_19 _let_35) (tptp.time_during_2 _let_19 _let_72) (tptp.subevent_2 _let_22 _let_6) (tptp.time_during_2 _let_22 _let_71) (tptp.agent_2 _let_15 _let_35) (tptp.subevent_2 _let_15 _let_22) (tptp.subevent_2 _let_15 _let_19) (tptp.has_part_2 _let_35 _let_73) (tptp.time_before_2 _let_75 _let_74) (tptp.has_state_2 _let_73 _let_60) (tptp.origin_2 _let_6 _let_35) (tptp.destination_2 _let_6 _let_70) (tptp.recipient_2 _let_52 _let_35) (tptp.time_before_2 _let_72 _let_71) (tptp.is_inside_2 _let_70 _let_69) (tptp.base_2 _let_6 _let_35) (tptp.object_2 _let_6 _let_66) (tptp.object_2 _let_28 _let_67) (tptp.object_2 _let_22 _let_66) (tptp.instrument_2 _let_15 _let_56) (tptp.subevent_2 _let_22 _let_17) (tptp.result_2 _let_19 _let_66) (tptp.result_2 _let_26 _let_67) (tptp.raw_material_2 _let_17 _let_66) (tptp.object_2 _let_61 _let_63) (tptp.base_2 _let_65 _let_63) (tptp.called_2 _let_40 |tptp.'Quantity_GProtein'|) (tptp.has_state_2 _let_38 _let_60) (tptp.first_subevent_2 _let_46 _let_54) (tptp.destination_2 _let_45 _let_35) (tptp.has_function_2 _let_50 _let_34) (tptp.agent_2 _let_34 _let_35) (tptp.has_part_2 _let_35 _let_56) (tptp.object_2 _let_54 _let_37) (tptp.subevent_2 _let_46 _let_54) (tptp.subevent_2 _let_46 _let_55) (not (= _let_55 _let_54)) (not (= _let_54 _let_55)) (tptp.subevent_2 _let_31 _let_52) (tptp.next_event_2 _let_52 _let_46) (tptp.agent_2 _let_46 _let_35) (tptp.base_2 _let_31 _let_35) (tptp.first_subevent_2 _let_31 _let_52) (tptp.base_2 _let_15 _let_35) (tptp.next_event_2 _let_46 _let_15) (tptp.base_2 _let_46 _let_35) (tptp.has_part_2 _let_35 _let_48) (tptp.has_state_2 _let_48 _let_50) (tptp.subevent_2 _let_1 _let_45) (tptp.next_event_2 _let_45 _let_31) (tptp.subevent_2 _let_31 _let_46) (tptp.object_2 _let_1 _let_35) (tptp.has_part_2 _let_35 _let_38) (tptp.quantity_2 _let_38 _let_40) (tptp.subevent_2 _let_1 _let_31) (tptp.subevent_2 _let_31 _let_15) (tptp.subevent_2 _let_15 _let_34) (tptp.base_2 _let_34 _let_35) (not (= _let_35 _let_37)) (not (= _let_37 _let_35)) (= _let_35 _let_7) (= _let_66 _let_25) (= _let_67 _let_29) (= _let_66 _let_23) (= _let_56 _let_16) (= _let_17 _let_68) (= _let_66 _let_24) (= _let_66 _let_20) (= _let_67 _let_30) (= _let_67 _let_27) (= _let_66 _let_21) (= _let_66 _let_18) (= _let_65 _let_64) (= _let_63 _let_62) (= _let_60 _let_59) (= (tptp.fn_fight_or_flight_response_40 X) _let_58) (= (tptp.fn_fight_or_flight_response_41 X) _let_57) (= _let_56 _let_14) (= _let_55 _let_13) (= _let_55 _let_12) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_47) (= _let_31 _let_3) (= _let_46 _let_11) (= _let_46 _let_10) (= _let_45 _let_44) (= _let_43 _let_42) (= (tptp.fn_fight_or_flight_response_27 X) _let_41) (= _let_40 _let_39) (= _let_38 _let_9) (= _let_38 _let_8) (= _let_35 _let_5) (= _let_37 _let_36) (= _let_35 _let_4) (= _let_34 _let_33) (= _let_15 _let_32) (= _let_31 _let_2) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fight_or_flight_response_leading_to_fight_3 X))) (let ((_let_2 (tptp.fn_fight_or_flight_response_leading_to_fight_4 X))) (let ((_let_3 (tptp.fn_fight_or_flight_response_leading_to_fight_1 X))) (let ((_let_4 (tptp.fn_fight_or_flight_response_leading_to_fight_2 X))) (=> (tptp.fight_or_flight_response_leading_to_fight_1 X) (and (tptp.original_name_2 X |tptp.'Fight-Or-Flight-Response-Leading-To-Fight'|) (tptp.user_description_2 X |tptp.'Physiological response to stress in animals resulting in aggresive action (fight) as a response to potential danger or conflict. The response is initiated by adrenaline signaling.'|) (tptp.concept2words_2 X |tptp.'fight or flight response leading to fight'|) (tptp.concept2words_2 X |tptp.'fight-or-flight-response-leading-to-fight'|) (tptp.fight_or_flight_response_1 X) (tptp.defense_1 _let_3) (tptp.cell_communication_1 _let_4) (tptp.cell_communication_with_epinephrine_in_liver_cell_1 _let_1) (tptp.cell_communication_with_epinephrine_in_muscle_cell_1 _let_2) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_4) (tptp.enables_2 _let_4 _let_3) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_fight_or_flight_response_33 X)) (= _let_1 (tptp.fn_fight_or_flight_response_34 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fight_or_flight_response_leading_to_flight_4 X))) (let ((_let_2 (tptp.fn_fight_or_flight_response_leading_to_flight_5 X))) (let ((_let_3 (tptp.fn_fight_or_flight_response_leading_to_flight_3 X))) (let ((_let_4 (tptp.fn_locomotion_1 _let_3))) (let ((_let_5 (tptp.fn_fight_or_flight_response_leading_to_flight_2 X))) (let ((_let_6 (tptp.fn_fight_or_flight_response_leading_to_flight_1 X))) (=> (tptp.fight_or_flight_response_leading_to_flight_1 X) (and (tptp.original_name_2 X |tptp.'Fight-Or-Flight-Response-Leading-To-Flight'|) (tptp.user_description_2 X |tptp.'Physiological response to stress in animals resulting in avoidance action (flight) as a response to potential danger or conflict. The response is initiated by adrenaline signaling.'|) (tptp.concept2words_2 X |tptp.'fight or flight response leading to flight'|) (tptp.concept2words_2 X |tptp.'fight-or-flight-response-leading-to-flight'|) (tptp.fight_or_flight_response_1 X) (tptp.cell_communication_1 _let_6) (tptp.organism_1 _let_5) (tptp.locomotion_1 _let_3) (tptp.cell_communication_with_epinephrine_in_liver_cell_1 _let_1) (tptp.cell_communication_with_epinephrine_in_muscle_cell_1 _let_2) (tptp.spatial_entity_1 _let_4) (tptp.enables_2 _let_6 _let_3) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_6) (tptp.object_2 _let_3 _let_5) (tptp.agent_2 _let_3 _let_5) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_5 _let_4) (= _let_2 (tptp.fn_fight_or_flight_response_33 X)) (= _let_1 (tptp.fn_fight_or_flight_response_34 X))))))))))) (forall ((X $$unsorted)) (=> (tptp.filament_protein_1 X) (and (tptp.original_name_2 X |tptp.'Filament-Protein'|) (tptp.user_description_2 X |tptp.'A long chain of protein subunits.'|) (tptp.concept2words_2 X tptp.filament) (tptp.concept2words_2 X |tptp.'protein of filament'|) (tptp.concept2words_2 X |tptp.'filament protein'|) (tptp.concept2words_2 X |tptp.'filament-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_filter_1 X))) (=> (tptp.filter_1 X) (and (tptp.original_name_2 X |tptp.'Filter'|) (tptp.concept2words_2 X tptp.filter) (tptp.role_1 X) (tptp.entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_filter_feeder_15 X))) (let ((_let_2 (tptp.fn_ingestion_1 _let_1))) (let ((_let_3 (tptp.fn_suspension_feeder_1 X))) (let ((_let_4 (tptp.fn_filter_feeder_13 X))) (let ((_let_5 (tptp.fn_agent_role_1 _let_4))) (let ((_let_6 (tptp.fn_suspension_feeder_3 X))) (let ((_let_7 (tptp.fn_filter_feeder_8 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_filter_feeder_5 X))) (let ((_let_10 (tptp.fn_mixture_1 _let_9))) (let ((_let_11 (tptp.fn_mixture_2 _let_9))) (let ((_let_12 (tptp.fn_filter_feeder_16 X))) (let ((_let_13 (tptp.fn_food_3 _let_12))) (let ((_let_14 (tptp.fn_suspension_feeder_5 X))) (let ((_let_15 (tptp.fn_ingestion_3 _let_1))) (let ((_let_16 (tptp.fn_filter_feeder_14 X))) (let ((_let_17 (tptp.fn_organism_4 _let_16))) (let ((_let_18 (tptp.fn_filter_feeder_10 X))) (let ((_let_19 (tptp.fn_organism_2 _let_16))) (let ((_let_20 (tptp.fn_filter_feeder_7 X))) (let ((_let_21 (tptp.fn_organism_5 _let_16))) (let ((_let_22 (tptp.fn_filter_feeder_6 X))) (let ((_let_23 (tptp.fn_filter_feeder_1 X))) (let ((_let_24 (tptp.fn_filter_feeder_3 X))) (let ((_let_25 (tptp.fn_filter_feeder_2 X))) (let ((_let_26 (tptp.fn_animal_18 _let_16))) (let ((_let_27 (tptp.fn_filter_feeder_12 X))) (let ((_let_28 (tptp.fn_animal_19 _let_16))) (let ((_let_29 (tptp.fn_filter_feeder_11 X))) (let ((_let_30 (tptp.fn_filter_feeder_4 X))) (let ((_let_31 (tptp.fn_filter_1 _let_30))) (let ((_let_32 (tptp.fn_filter_feeder_9 X))) (=> (tptp.filter_feeder_1 X) (and (tptp.original_name_2 X |tptp.'Filter-Feeder'|) (tptp.user_description_2 X |tptp.'Type of suspension feeder which actively filters food particles from water with specialized filtering structures.'|) (tptp.concept2words_2 X |tptp.'feeder of filter'|) (tptp.concept2words_2 X |tptp.'filter feeder'|) (tptp.concept2words_2 X |tptp.'filter-feeder'|) (tptp.suspension_feeder_1 X) (tptp.chemical_1 _let_23) (tptp.water_1 _let_25) (tptp.tangible_entity_1 _let_24) (tptp.solid_substance_1 _let_24) (tptp.filter_1 _let_30) (tptp.spatial_entity_1 _let_9) (tptp.suspension_1 _let_9) (tptp.mixture_1 _let_9) (tptp.specific_heat_value_1 _let_22) (tptp.temperature_value_1 _let_20) (tptp.move_through_1 _let_7) (tptp.animal_structure_1 _let_32) (tptp.water_1 _let_18) (tptp.nutrition_1 _let_29) (tptp.heterotroph_1 _let_27) (tptp.agent_role_1 _let_4) (tptp.entity_1 _let_16) (tptp.animal_1 _let_16) (tptp.organism_1 _let_16) (tptp.ingestion_1 _let_1) (tptp.food_1 _let_12) (tptp.entity_1 _let_31) (tptp.nutrition_1 _let_28) (tptp.heterotroph_1 _let_26) (tptp.specific_heat_value_1 _let_21) (tptp.temperature_value_1 _let_19) (tptp.water_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.substance_1 _let_11) (tptp.substance_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.entity_1 _let_5) (tptp.animal_1 _let_2) (tptp.subevent_2 _let_1 _let_7) (tptp.has_part_2 _let_16 _let_32) (tptp.path_2 _let_7 _let_32) (tptp.base_2 _let_7 _let_16) (tptp.plays_2 _let_16 _let_4) (tptp.plays_2 _let_32 _let_30) (tptp.object_2 _let_7 _let_9) (tptp.plays_2 _let_23 _let_12) (tptp.plays_2 _let_16 X) (tptp.base_2 _let_1 _let_16) (tptp.plays_2 _let_16 _let_27) (tptp.in_event_2 _let_27 _let_29) (tptp.agent_2 _let_29 _let_16) (tptp.in_event_2 X _let_1) (tptp.object_2 _let_1 _let_24) (tptp.is_inside_2 _let_24 _let_25) (tptp.has_part_2 _let_9 _let_25) (tptp.has_part_2 _let_9 _let_24) (tptp.specific_heat_2 _let_18 _let_22) (tptp.correspondence_2 _let_20 _let_22) (tptp.temperature_2 _let_16 _let_20) (tptp.has_part_2 _let_16 _let_18) (tptp.has_part_2 _let_9 _let_23) (= _let_16 _let_5) (= _let_32 _let_31) (= _let_9 _let_8) (= _let_23 _let_13) (= _let_16 _let_3) (= _let_16 _let_2) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_9 _let_6) (= _let_25 (tptp.fn_suspension_feeder_4 X)) (= _let_24 _let_15) (= _let_24 _let_14) (= _let_1 (tptp.fn_suspension_feeder_2 X)) (= _let_23 _let_11) (= _let_23 _let_10) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.filtrate_1 X) (and (tptp.original_name_2 X |tptp.'Filtrate'|) (tptp.user_description_2 X |tptp.'Acellular liquid collected from body fluid and disposed of by the excretory system.'|) (tptp.concept2words_2 X tptp.filtrate) (tptp.extra_cellular_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.filtration_1 X) (and (tptp.original_name_2 X |tptp.'Filtration'|) (tptp.user_description_2 X |tptp.'In animals with excretory systems, the collection of water and small solute molecules, including metabolic wastes, from the fluids of the body.'|) (tptp.concept2words_2 X tptp.filter) (tptp.concept2words_2 X tptp.filtration) (tptp.excretion_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fimbria_4 X))) (let ((_let_2 (tptp.fn_binary_fission_10 _let_1))) (let ((_let_3 (tptp.fn_fimbria_5 X))) (let ((_let_4 (tptp.fn_metabolism_1 _let_3))) (let ((_let_5 (tptp.fn_fimbria_8 X))) (let ((_let_6 (tptp.fn_attach_1 _let_5))) (let ((_let_7 (tptp.fn_fimbria_7 X))) (let ((_let_8 (tptp.fn_cell_28 _let_7))) (let ((_let_9 (tptp.fn_prokaryote_12 _let_7))) (let ((_let_10 (tptp.fn_cell_22 _let_7))) (let ((_let_11 (tptp.fn_fimbria_1 X))) (let ((_let_12 (tptp.fn_cell_11 _let_7))) (let ((_let_13 (tptp.fn_fimbria_2 X))) (let ((_let_14 (tptp.fn_fimbria_3 X))) (let ((_let_15 (tptp.fn_cell_4 _let_7))) (let ((_let_16 (tptp.fn_fimbria_6 X))) (=> (tptp.fimbria_1 X) (and (tptp.original_name_2 X |tptp.'Fimbria'|) (tptp.user_description_2 X |tptp.'A short, hairlike appendage of a prokaryotic cell that helps it adhere to the substrate or to other cells; also known as an attachment pilus.'|) (tptp.concept2words_2 X tptp.fimbria) (tptp.prokaryotic_cell_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X)) (tptp.volume_value_1 _let_11) (tptp.size_value_1 _let_13) (tptp.mixture_1 _let_14) (tptp.cytoplasm_1 _let_14) (tptp.binary_fission_1 _let_1) (tptp.metabolism_1 _let_3) (tptp.surface_1 _let_16) (tptp.spatial_entity_1 _let_7) (tptp.organism_1 _let_7) (tptp.prokaryote_1 _let_7) (tptp.unicellular_organism_1 _let_7) (tptp.cell_1 _let_7) (tptp.attach_1 _let_5) (tptp.surface_1 _let_15) (tptp.size_value_1 _let_12) (tptp.volume_value_1 _let_10) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.mixture_1 _let_8) (tptp.cytoplasm_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.organism_1 _let_4) (tptp.unicellular_organism_1 _let_2) (tptp.agent_2 _let_5 X) (tptp.has_part_2 _let_7 X) (tptp.site_2 _let_3 _let_14) (tptp.is_at_2 X _let_16) (tptp.object_2 _let_5 _let_7) (tptp.base_2 _let_3 _let_7) (tptp.object_2 _let_1 _let_7) (tptp.base_2 _let_1 _let_7) (tptp.has_region_2 _let_7 _let_16) (tptp.volume_2 _let_7 _let_11) (tptp.directly_proportional_2 _let_13 _let_11) (tptp.size_2 _let_7 _let_13) (tptp.has_part_2 _let_7 _let_14) (= _let_7 _let_6) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_16 _let_15) (= _let_14 _let_9) (= _let_14 _let_8) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fin_1 X) (and (tptp.original_name_2 X |tptp.'Fin'|) (tptp.user_description_2 X |tptp.'An organ of locomotion and balance in fishes and other aquatic animals.'|) (tptp.concept2words_2 X tptp.fin) (tptp.invertebrate_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.final_electron_acceptor_1 X) (and (tptp.original_name_2 X |tptp.'Final-Electron-Acceptor'|) (tptp.user_description_2 X |tptp.'The molecule which accepts the electron at the end of an electron transport chain.'|) (tptp.concept2words_2 X |tptp.'final electron acceptor'|) (tptp.concept2words_2 X |tptp.'final-electron-acceptor'|) (tptp.electron_recipient_1 X)))) (forall ((X $$unsorted)) (=> (tptp.financing_1 X) (and (tptp.original_name_2 X |tptp.'Financing'|) (tptp.concept2words_2 X tptp.funding) (tptp.concept2words_2 X tptp.financing) (tptp.concept2words_2 X tptp.finance) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.finger_1 X) (and (tptp.original_name_2 X |tptp.'Finger'|) (tptp.user_description_2 X |tptp.'A finger is a limb of the human body and a type of digit, an organ of manipulation and sensation found in the hands of humans and other primates.'|) (tptp.concept2words_2 X tptp.finger) (tptp.digit_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_shell_2 X))) (let ((_let_2 (tptp.fn_first_electron_shell_3 X))) (let ((_let_3 (tptp.fn_atom_14 _let_2))) (let ((_let_4 (tptp.fn_first_electron_shell_4 X))) (let ((_let_5 (tptp.fn_first_electron_shell_5 X))) (let ((_let_6 (tptp.fn_atom_18 _let_2))) (let ((_let_7 (tptp.fn_first_electron_shell_7 X))) (let ((_let_8 (tptp.fn_electron_3 _let_5))) (let ((_let_9 (tptp.fn_first_electron_shell_6 X))) (let ((_let_10 (tptp.fn_first_electron_shell_1 X))) (=> (tptp.first_electron_shell_1 X) (and (tptp.original_name_2 X |tptp.'First-Electron-Shell'|) (tptp.user_description_2 X |tptp.'The first energy shell of an atom, containing the valence electrons involved in the chemical reactions of that atom.'|) (tptp.concept2words_2 X |tptp.'first electron shell'|) (tptp.concept2words_2 X |tptp.'first electron-shell'|) (tptp.concept2words_2 X |tptp.'first-electron-shell'|) (tptp.electron_shell_1 X) (not (tptp.second_electron_shell_1 X)) (not (tptp.third_electron_shell_1 X)) (tptp.quantity_value_1 _let_10) (tptp.atom_1 _let_2) (tptp.s_orbital_1 _let_4) (tptp.electron_1 _let_5) (tptp.potential_energy_1 _let_9) (tptp.atomic_nucleus_1 _let_7) (tptp.potential_energy_1 _let_8) (tptp.atomic_nucleus_1 _let_6) (tptp.electron_1 _let_3) (tptp.is_inside_2 _let_7 X) (tptp.quantity_2 _let_9 _let_10) (tptp.possesses_2 _let_5 _let_9) (tptp.is_near_2 _let_5 _let_7) (tptp.is_near_2 _let_7 _let_5) (tptp.has_region_2 X _let_4) (tptp.is_inside_2 _let_5 _let_4) (= _let_9 _let_8) (= _let_5 _let_3) (= _let_7 _let_6) (= _let_2 (tptp.fn_electron_shell_1 X)) (= _let_5 _let_1) (= _let_4 (tptp.fn_electron_shell_3 X)) (= _let_3 _let_3) (= _let_3 _let_1)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.first_law_thermodynamics_1 X) (and (tptp.original_name_2 X |tptp.'First-Law-Thermodynamics'|) (tptp.user_description_2 X |tptp.'The law of conservation of energy, which states that the amount of energy in the universe is constant. Energy can be transferred from one form to another but can be neither created nor destroyed.'|) (tptp.concept2words_2 X |tptp.'principle of conservation of energy'|) (tptp.concept2words_2 X |tptp.'principle-of-conservation-of-energy'|) (tptp.concept2words_2 X |tptp.'first law of thermodynamics'|) (tptp.concept2words_2 X |tptp.'first-law-of-thermodynamics'|) (tptp.concept2words_2 X |tptp.'first law thermodynamics'|) (tptp.concept2words_2 X |tptp.'first-law-thermodynamic'|) (tptp.scientific_laws_1 X) (not (tptp.mendelian_law_1 X)) (not (tptp.rule_of_probability_1 X)) (not (tptp.second_law_thermodynamics_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eumetazoan_22 X))) (let ((_let_2 (tptp.fn_animal_19 X))) (let ((_let_3 (tptp.fn_eumetazoan_2 X))) (let ((_let_4 (tptp.fn_animal_8 X))) (let ((_let_5 (tptp.fn_eumetazoan_6 X))) (let ((_let_6 (tptp.fn_animal_12 X))) (let ((_let_7 (tptp.fn_fish_28 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_eumetazoan_4 X))) (let ((_let_10 (tptp.fn_animal_17 X))) (let ((_let_11 (tptp.fn_fish_14 X))) (let ((_let_12 (tptp.fn_hold_2 _let_11))) (let ((_let_13 (tptp.fn_eumetazoan_29 X))) (let ((_let_14 (tptp.fn_eumetazoan_23 X))) (let ((_let_15 (tptp.fn_fish_27 X))) (let ((_let_16 (tptp.fn_hydrolysis_9 _let_15))) (let ((_let_17 (tptp.fn_exergonic_reaction_11 _let_15))) (let ((_let_18 (tptp.fn_decomposition_reaction_4 _let_15))) (let ((_let_19 (tptp.fn_fish_26 X))) (let ((_let_20 (tptp.fn_remove_1 _let_19))) (let ((_let_21 (tptp.fn_fish_25 X))) (let ((_let_22 (tptp.fn_remove_1 _let_21))) (let ((_let_23 (tptp.fn_fish_7 X))) (let ((_let_24 (tptp.fn_fish_19 X))) (let ((_let_25 (tptp.fn_fish_12 X))) (let ((_let_26 (tptp.fn_fish_13 X))) (let ((_let_27 (tptp.fn_fish_23 X))) (let ((_let_28 (tptp.fn_fish_18 X))) (let ((_let_29 (tptp.fn_fish_15 X))) (let ((_let_30 (tptp.fn_fish_17 X))) (let ((_let_31 (tptp.fn_fish_16 X))) (let ((_let_32 (tptp.fn_fish_6 X))) (let ((_let_33 (tptp.fn_fish_22 X))) (let ((_let_34 (tptp.fn_fish_10 X))) (let ((_let_35 (tptp.fn_fish_24 X))) (let ((_let_36 (tptp.fn_fish_9 X))) (let ((_let_37 (tptp.fn_fish_8 X))) (let ((_let_38 (tptp.fn_hydrolysis_1 _let_15))) (let ((_let_39 (tptp.fn_fish_21 X))) (let ((_let_40 (tptp.fn_fish_11 X))) (let ((_let_41 (tptp.fn_chemical_digestion_1 _let_40))) (let ((_let_42 (tptp.fn_fish_20 X))) (let ((_let_43 (tptp.fn_fish_3 X))) (let ((_let_44 (tptp.fn_fish_1 X))) (let ((_let_45 (tptp.fn_fish_5 X))) (let ((_let_46 (tptp.fn_fish_4 X))) (=> (tptp.fish_1 X) (and (tptp.original_name_2 X |tptp.'Fish'|) (tptp.user_description_2 X |tptp.'A member of a paraphyletic group of aquatic animals that breathe with gills and have limbs that lack digits. Many have bodies covered with scales and most are ectothermic.'|) (tptp.concept2words_2 X tptp.fish) (tptp.vertebrate_1 X) (tptp.ecotherm_1 _let_44) (tptp.length_value_1 _let_43) (tptp.omega_3_fatty_acid_1 _let_46) (tptp.fish_fat_1 _let_45) (tptp.hold_together_1 _let_32) (tptp.hold_1 _let_32) (tptp.nutrition_1 _let_23) (tptp.glucose_1 _let_37) (tptp.esophagus_1 _let_36) (tptp.mouth_1 _let_34) (tptp.chemical_digestion_1 _let_40) (tptp.organic_molecule_1 _let_25) (tptp.polypeptide_1 _let_25) (tptp.spatial_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.monomer_1 _let_26) (tptp.molecule_1 _let_26) (tptp.amino_acid_1 _let_26) (tptp.hold_together_1 _let_11) (tptp.tangible_entity_1 _let_29) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_29) (tptp.entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.oxygen_1 _let_31) (tptp.entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.oxygen_1 _let_30) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_28) (tptp.carbohydrate_1 _let_28) (tptp.protein_1 _let_24) (tptp.activation_energy_1 _let_42) (tptp.water_molecule_1 _let_39) (tptp.tangible_entity_1 _let_33) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.oxygen_1 _let_33) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hydrogen_1 _let_27) (tptp.oral_cavity_1 _let_35) (tptp.remove_1 _let_21) (tptp.remove_1 _let_19) (tptp.hydrolysis_1 _let_15) (tptp.hold_together_1 _let_7) (tptp.tangible_entity_1 _let_41) (tptp.chemical_entity_1 _let_38) (tptp.spatial_entity_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.chemical_entity_1 _let_18) (tptp.chemical_entity_1 _let_17) (tptp.chemical_entity_1 _let_16) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_8) (tptp.has_part_2 X _let_46) (tptp.has_part_2 X _let_45) (tptp.plays_2 X _let_44) (tptp.the_scalar_value_2 _let_43 tptp.short_0) (tptp.scalar_unit_class_2 _let_43 tptp.esophagus_0) (tptp.length_2 _let_36 _let_43) (tptp.raw_material_2 _let_40 _let_37) (tptp.raw_material_2 _let_40 _let_39) (tptp.base_2 _let_40 _let_35) (tptp.called_2 _let_40 |tptp.'Protist'|) (tptp.object_2 _let_11 _let_31) (tptp.object_2 _let_11 _let_29) (tptp.object_2 _let_7 _let_31) (tptp.object_2 _let_7 _let_30) (tptp.object_2 _let_21 _let_37) (tptp.object_2 _let_19 _let_37) (tptp.object_2 _let_11 _let_30) (tptp.object_2 _let_7 _let_29) (tptp.raw_material_2 _let_40 _let_42) (tptp.result_2 _let_15 _let_37) (not (= _let_39 _let_37)) (not (= _let_37 _let_39)) (tptp.has_part_2 X _let_36) (tptp.has_part_2 X _let_34) (tptp.has_region_2 _let_34 _let_35) (tptp.has_part_2 _let_28 _let_30) (tptp.object_2 _let_32 _let_29) (tptp.has_part_2 _let_26 _let_33) (not (= _let_27 _let_33)) (not (= _let_33 _let_27)) (tptp.object_2 _let_32 _let_30) (tptp.object_2 _let_32 _let_31) (tptp.has_part_2 _let_28 _let_31) (not (= _let_30 _let_31)) (not (= _let_31 _let_30)) (tptp.result_2 _let_23 _let_28) (tptp.has_part_2 _let_28 _let_29) (not (= _let_29 _let_31)) (not (= _let_30 _let_29)) (not (= _let_29 _let_30)) (not (= _let_31 _let_29)) (tptp.agent_2 _let_23 X) (tptp.result_2 _let_23 _let_24) (tptp.has_part_2 _let_24 _let_25) (tptp.has_part_2 _let_25 _let_26) (tptp.has_part_2 _let_26 _let_27) (= _let_37 _let_22) (= _let_37 _let_20) (= _let_30 _let_12) (= _let_29 _let_8) (= _let_42 _let_41) (= _let_39 _let_38) (= _let_37 _let_18) (= _let_37 _let_17) (= _let_37 _let_16) (= _let_36 (tptp.fn_vertebrate_26 X)) (= _let_35 (tptp.fn_vertebrate_42 X)) (= _let_34 (tptp.fn_vertebrate_41 X)) (= _let_33 _let_14) (= _let_33 _let_13) (= _let_32 (tptp.fn_eumetazoan_7 X)) (= _let_31 (tptp.fn_eumetazoan_5 X)) (= _let_30 _let_10) (= _let_30 _let_9) (= _let_29 _let_6) (= _let_29 _let_5) (= _let_28 _let_4) (= _let_28 _let_3) (= _let_27 (tptp.fn_eumetazoan_26 X)) (= _let_26 (tptp.fn_eumetazoan_8 X)) (= _let_25 (tptp.fn_eumetazoan_9 X)) (= _let_24 (tptp.fn_eumetazoan_1 X)) (= _let_23 _let_2) (= _let_23 _let_1) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fish_fat_1 X) (and (tptp.original_name_2 X |tptp.'Fish-Fat'|) (tptp.user_description_2 X |tptp.'The unsaturated fat obtained from fish is called fish fat.'|) (tptp.concept2words_2 X |tptp.'fat of fish'|) (tptp.concept2words_2 X |tptp.'fish fat'|) (tptp.concept2words_2 X |tptp.'fish-fat'|) (tptp.unsaturated_fat_1 X) (tptp.oil_1 X) (not (tptp.plant_fat_1 X)) (not (tptp.trans_fat_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fish_homeotic_gene_1 X))) (let ((_let_2 (tptp.fn_fish_homeotic_gene_2 X))) (=> (tptp.fish_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Fish-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in fish.'|) (tptp.concept2words_2 X |tptp.'fish homeotic gene'|) (tptp.concept2words_2 X |tptp.'fish-homeotic-gene'|) (tptp.vertebrate_homeotic_gene_1 X) (tptp.animal_development_1 _let_1) (tptp.fish_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.experiencer_2 _let_1 _let_2) (= _let_2 (tptp.fn_vertebrate_homeotic_gene_18 X)) (= _let_1 (tptp.fn_vertebrate_homeotic_gene_20 X))))))) (forall ((X $$unsorted)) (=> (tptp.fission_1 X) (and (tptp.original_name_2 X |tptp.'Fission'|) (tptp.user_description_2 X |tptp.'A form of asexual reproduction in which an animal divides into two approximately equal-sized clonal offspring.'|) (tptp.concept2words_2 X tptp.fission) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.five_kingdom_system_1 X) (and (tptp.original_name_2 X |tptp.'Five-Kingdom-System'|) (tptp.user_description_2 X |tptp.'A model that divides all life into five distinct kingdoms - Monera, Protisa, Fungi, Plantae, and Animalia.'|) (tptp.concept2words_2 X |tptp.'five kingdom system'|) (tptp.concept2words_2 X |tptp.'five-kingdom system'|) (tptp.concept2words_2 X |tptp.'five-kingdom-system'|) (tptp.model_1 X) (not (tptp.closed_system_1 X)) (not (tptp.cognitive_map_1 X)) (not (tptp.ecological_model_1 X)) (not (tptp.fluid_mosaic_model_1 X)) (not (tptp.molecular_formula_1 X)) (not (tptp.open_system_1 X)) (not (tptp.redundancy_model_1 X)) (not (tptp.representation_of_data_1 X)) (not (tptp.rivet_model_1 X)) (not (tptp.sandwich_model_1 X)) (not (tptp.stable_system_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.unstable_system_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_five_prime_cap_5 X))) (let ((_let_2 (tptp.fn_carbon_16 _let_1))) (let ((_let_3 (tptp.fn_atom_17 _let_1))) (let ((_let_4 (tptp.fn_rna_8 X))) (let ((_let_5 (tptp.fn_polymer_1 X))) (let ((_let_6 (tptp.fn_five_prime_cap_8 X))) (let ((_let_7 (tptp.fn_carbon_20 _let_1))) (let ((_let_8 (tptp.fn_carbon_11 _let_1))) (let ((_let_9 (tptp.fn_five_prime_cap_7 X))) (let ((_let_10 (tptp.fn_carbon_7 _let_1))) (let ((_let_11 (tptp.fn_carbon_13 _let_1))) (let ((_let_12 (tptp.fn_five_prime_cap_4 X))) (let ((_let_13 (tptp.fn_five_prime_cap_9 X))) (let ((_let_14 (tptp.fn_five_prime_cap_3 X))) (let ((_let_15 (tptp.fn_five_prime_cap_2 X))) (=> (tptp.five_prime_cap_1 X) (and (tptp.original_name_2 X |tptp.'Five-Prime-Cap'|) (tptp.user_description_2 X |tptp.'A modified form of guanine added onto the nucleotide at the 5_' end of a pre-mRNA molecule.'|) (tptp.concept2words_2 X |tptp.'5 prime cap'|) (tptp.concept2words_2 X |tptp.'5-prime-cap'|) (tptp.concept2words_2 X |tptp.'5_' cap'|) (tptp.concept2words_2 X |tptp.'5_'-cap'|) (tptp.concept2words_2 X |tptp.'five prime cap'|) (tptp.concept2words_2 X |tptp.'five-prime-cap'|) (tptp.rna_1 X) (tptp.size_value_1 _let_15) (tptp.covalent_bond_1 _let_14) (tptp.chemical_bond_1 _let_14) (tptp.phosphodiester_bond_1 _let_14) (tptp.ribonucleoside_monophosphate_1 _let_12) (tptp.entity_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.atom_1 _let_1) (tptp.carbon_1 _let_1) (tptp.system_1 _let_9) (tptp.atomic_number_value_1 _let_6) (tptp.ribonucleoside_monophosphate_1 _let_13) (tptp.property_node_1 _let_11) (tptp.equation_big_node_1 _let_10) (tptp.system_1 _let_8) (tptp.equation_set_1 _let_7) (tptp.atomic_number_value_1 _let_3) (tptp.atomic_number_value_1 _let_2) (tptp.size_2 _let_13 _let_15) (tptp.size_2 _let_12 _let_15) (tptp.has_part_2 X _let_12) (not (= _let_12 _let_13)) (tptp.has_part_2 X _let_13) (tptp.possesses_2 X _let_14) (tptp.is_between_2 _let_14 _let_1) (not (= _let_13 _let_12)) (tptp.called_2 _let_6 |tptp.'Atomic_Number'|) (tptp.atomic_number_2 _let_1 _let_6) (= _let_1 (tptp.fn_rna_5 X)) (= _let_14 _let_5) (= _let_14 _let_4) (= _let_13 (tptp.fn_rna_3 X)) (= _let_12 (tptp.fn_rna_10 X)) (= (tptp.fn_five_prime_cap_10 X) _let_11) (= (tptp.fn_five_prime_cap_11 X) _let_10) (= _let_9 _let_8) (= (tptp.fn_five_prime_cap_6 X) _let_7) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.five_prime_end_of_mrna_1 X) (and (tptp.original_name_2 X |tptp.'Five-Prime-End-of-mRNA'|) (tptp.user_description_2 X |tptp.'The end of the RNA molecule which shows the fifth carbon on the ribose.'|) (tptp.concept2words_2 X |tptp.'five prime end of mrna'|) (tptp.concept2words_2 X |tptp.'five-prime-end-of-mrna'|) (tptp.number_5_prime_end_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fixation_1 X))) (=> (tptp.fixation_1 X) (and (tptp.original_name_2 X |tptp.'Fixation'|) (tptp.user_description_2 X |tptp.'Chemical process in which molecules are converted to a form which is more usable by organisms.'|) (tptp.concept2words_2 X tptp.fixate) (tptp.concept2words_2 X tptp.fixation) (tptp.synthesis_reaction_1 X) (tptp.molecule_1 _let_1) (tptp.raw_material_2 X _let_1) (= _let_1 (tptp.fn_chemical_reaction_2 X)))))) (forall ((X $$unsorted)) (=> (tptp.fixed_action_pattern_1 X) (and (tptp.original_name_2 X |tptp.'Fixed-Action-Pattern'|) (tptp.user_description_2 X |tptp.'In ethology, an instinctive behavioral pattern that cannot be broken down into smaller actions and that, once started, goes to completion.'|) (tptp.concept2words_2 X |tptp.'fixed action pattern'|) (tptp.concept2words_2 X |tptp.'fixed-action-pattern'|) (tptp.innate_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.flaccid_1 X) (and (tptp.original_name_2 X |tptp.'Flaccid'|) (tptp.user_description_2 X |tptp.'Limp or lacking in stiffness. Said of a plant cell when there is no tendency for water to enter the cell.'|) (tptp.concept2words_2 X tptp.flaccid) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flaccid_cell_18 X))) (let ((_let_2 (tptp.fn_plasma_membrane_3 _let_1))) (let ((_let_3 (tptp.fn_plasma_membrane_4 _let_1))) (let ((_let_4 (tptp.fn_flaccid_cell_24 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_cell_30 X))) (let ((_let_7 (tptp.fn_flaccid_cell_34 X))) (let ((_let_8 (tptp.fn_make_contact_1 _let_7))) (let ((_let_9 (tptp.fn_attach_2 _let_4))) (let ((_let_10 (tptp.fn_plasma_membrane_65 _let_1))) (let ((_let_11 (tptp.fn_biomembrane_41 _let_1))) (let ((_let_12 (tptp.fn_plasma_membrane_71 _let_1))) (let ((_let_13 (tptp.fn_cell_26 X))) (let ((_let_14 (tptp.fn_biomembrane_63 _let_1))) (let ((_let_15 (tptp.fn_plasma_membrane_66 _let_1))) (let ((_let_16 (tptp.fn_cell_27 X))) (let ((_let_17 (tptp.fn_walled_cell_1 X))) (let ((_let_18 (tptp.fn_make_contact_2 _let_7))) (let ((_let_19 (tptp.fn_flaccid_cell_20 X))) (let ((_let_20 (tptp.fn_walled_cell_inside_isotonic_solution_16 _let_19))) (let ((_let_21 (tptp.fn_flaccid_cell_16 X))) (let ((_let_22 (tptp.fn_osmosis_22 _let_21))) (let ((_let_23 (tptp.fn_flaccid_cell_28 X))) (let ((_let_24 (tptp.fn_plasma_membrane_54 _let_1))) (let ((_let_25 (tptp.fn_flaccid_cell_30 X))) (let ((_let_26 (tptp.fn_plasma_membrane_6 _let_1))) (let ((_let_27 (tptp.fn_flaccid_cell_27 X))) (let ((_let_28 (tptp.fn_flaccid_cell_26 X))) (let ((_let_29 (tptp.fn_plasma_membrane_55 _let_1))) (let ((_let_30 (tptp.fn_flaccid_cell_32 X))) (let ((_let_31 (tptp.fn_plasma_membrane_68 _let_1))) (let ((_let_32 (tptp.fn_flaccid_cell_29 X))) (let ((_let_33 (tptp.fn_plasma_membrane_34 _let_1))) (let ((_let_34 (tptp.fn_flaccid_cell_31 X))) (let ((_let_35 (tptp.fn_flaccid_cell_33 X))) (let ((_let_36 (tptp.fn_flaccid_cell_25 X))) (let ((_let_37 (tptp.fn_flaccid_cell_23 X))) (let ((_let_38 (tptp.fn_flaccid_cell_15 X))) (let ((_let_39 (tptp.fn_flaccid_cell_12 X))) (let ((_let_40 (tptp.fn_flaccid_cell_13 X))) (let ((_let_41 (tptp.fn_flaccid_cell_14 X))) (let ((_let_42 (tptp.fn_flaccid_cell_35 X))) (let ((_let_43 (tptp.fn_flaccid_cell_22 X))) (let ((_let_44 (tptp.fn_cell_wall_13 _let_43))) (let ((_let_45 (tptp.fn_flaccid_cell_21 X))) (let ((_let_46 (tptp.fn_flaccid_cell_17 X))) (let ((_let_47 (tptp.fn_passive_transport_of_solute_3 _let_46))) (let ((_let_48 (tptp.fn_flaccid_cell_19 X))) (let ((_let_49 (tptp.fn_passive_transport_1 _let_21))) (let ((_let_50 (tptp.fn_flaccid_cell_3 X))) (let ((_let_51 (tptp.fn_flaccid_cell_6 X))) (let ((_let_52 (tptp.fn_flaccid_cell_2 X))) (let ((_let_53 (tptp.fn_flaccid_cell_4 X))) (let ((_let_54 (tptp.fn_flaccid_cell_7 X))) (let ((_let_55 (tptp.fn_flaccid_cell_8 X))) (=> (tptp.flaccid_cell_1 X) (and (tptp.original_name_2 X |tptp.'Flaccid-Cell'|) (tptp.user_description_2 X |tptp.'A flaccid cell is a walled cell which has lost turgor pressure due to osmosis and is no longer rigid.'|) (tptp.concept2words_2 X |tptp.'shriveled cell'|) (tptp.concept2words_2 X |tptp.'shriveled-cell'|) (tptp.concept2words_2 X |tptp.'flaccid cell'|) (tptp.concept2words_2 X |tptp.'flaccid-cell'|) (tptp.walled_cell_1 X) (tptp.intensity_value_1 _let_52) (tptp.turgor_pressure_1 _let_50) (tptp.intensity_value_1 _let_53) (tptp.isotonic_solution_1 _let_51) (tptp.turgor_pressure_1 _let_54) (tptp.potential_value_1 _let_55) (tptp.ribosome_1 _let_39) (tptp.volume_value_1 _let_40) (tptp.size_value_1 _let_41) (tptp.substance_1 _let_38) (tptp.cytosol_1 _let_38) (tptp.osmosis_1 _let_21) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_46) (tptp.spatial_entity_1 _let_1) (tptp.biomembrane_1 _let_1) (tptp.plasma_membrane_1 _let_1) (tptp.membrane_potential_1 _let_48) (tptp.cell_1 _let_19) (tptp.walled_cell_inside_isotonic_solution_1 _let_19) (tptp.membrane_1 _let_45) (tptp.spatial_entity_1 _let_45) (tptp.biomembrane_1 _let_45) (tptp.plasma_membrane_1 _let_45) (tptp.spatial_entity_1 _let_43) (tptp.cell_wall_1 _let_43) (tptp.mixture_1 _let_37) (tptp.cytoplasm_1 _let_37) (tptp.attach_1 _let_4) (tptp.surface_1 _let_36) (tptp.cytoplasmic_side_1 _let_36) (tptp.outside_face_1 _let_28) (tptp.extracellular_side_1 _let_28) (tptp.hydrophobic_core_1 _let_27) (tptp.spatial_entity_1 _let_23) (tptp.membrane_protein_1 _let_23) (tptp.tangible_entity_1 _let_32) (tptp.membrane_protein_1 _let_32) (tptp.protein_1 _let_32) (tptp.tangible_entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.protein_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.polymer_1 _let_25) (tptp.glycoprotein_1 _let_34) (tptp.tangible_entity_1 _let_30) (tptp.transmembrane_protein_1 _let_30) (tptp.integral_protein_1 _let_30) (tptp.transport_protein_1 _let_30) (tptp.tangible_entity_1 _let_35) (tptp.phospholipid_bilayer_1 _let_35) (tptp.make_contact_1 _let_7) (tptp.surface_1 _let_42) (tptp.cell_1 _let_49) (tptp.gradient_1 _let_47) (tptp.concentration_gradient_1 _let_47) (tptp.tangible_entity_1 _let_44) (tptp.cell_1 _let_44) (tptp.glycoprotein_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.membrane_protein_1 _let_31) (tptp.protein_1 _let_31) (tptp.tangible_entity_1 _let_29) (tptp.transmembrane_protein_1 _let_29) (tptp.integral_protein_1 _let_29) (tptp.transport_protein_1 _let_29) (tptp.hydrophobic_core_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.membrane_protein_1 _let_24) (tptp.protein_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.polymer_1 _let_24) (tptp.spatial_entity_1 _let_22) (tptp.biomembrane_1 _let_22) (tptp.membrane_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.biomembrane_1 _let_20) (tptp.plasma_membrane_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.cytoplasmic_side_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.phospholipid_bilayer_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.phospholipid_bilayer_1 _let_12) (tptp.outside_face_1 _let_11) (tptp.extracellular_side_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_5) (tptp.membrane_protein_1 _let_3) (tptp.membrane_protein_1 _let_2) (tptp.the_cardinal_value_2 _let_55 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_55 tptp.pascal_0) (tptp.intensity_2 _let_54 _let_53) (tptp.pressure_potential_2 _let_51 _let_55) (not (= _let_45 _let_1)) (tptp.possesses_2 _let_19 _let_54) (tptp.has_state_2 _let_19 X) (tptp.is_across_2 _let_48 _let_1) (tptp.greater_than_or_equal_to_2 _let_53 _let_52) (tptp.intensity_2 _let_50 _let_52) (not (= _let_1 _let_45)) (tptp.is_inside_2 X _let_51) (tptp.possesses_2 X _let_50) (tptp.object_2 _let_4 _let_23) (tptp.base_2 _let_4 _let_1) (tptp.object_2 _let_7 _let_1) (tptp.base_2 _let_7 _let_43) (tptp.base_2 _let_21 _let_19) (tptp.agent_2 _let_46 _let_48) (tptp.path_2 _let_21 _let_45) (tptp.has_part_2 _let_19 _let_45) (tptp.has_part_2 X _let_43) (tptp.is_oriented_toward_2 _let_36 _let_37) (tptp.has_region_2 X _let_42) (tptp.is_at_2 _let_35 _let_42) (tptp.volume_2 X _let_40) (tptp.directly_proportional_2 _let_41 _let_40) (tptp.size_2 X _let_41) (tptp.has_part_2 X _let_37) (tptp.is_facing_2 _let_36 _let_37) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_37 _let_1) (tptp.has_part_2 _let_37 _let_38) (tptp.is_inside_2 _let_39 _let_38) (tptp.has_part_2 X _let_39) (tptp.has_part_2 _let_1 _let_35) (tptp.has_region_2 _let_1 _let_36) (tptp.is_inside_2 _let_30 _let_35) (tptp.is_inside_2 _let_34 _let_35) (tptp.has_part_2 _let_1 _let_34) (tptp.is_across_2 _let_30 _let_1) (tptp.has_part_2 _let_1 _let_30) (not (= _let_30 _let_25)) (not (= _let_25 _let_32)) (not (= _let_32 _let_25)) (not (= _let_25 _let_30)) (tptp.is_across_2 _let_30 _let_27) (tptp.called_2 _let_32 |tptp.'MP1'|) (tptp.has_part_2 _let_1 _let_32) (tptp.is_outside_2 _let_28 _let_1) (tptp.has_region_2 _let_1 _let_28) (tptp.has_part_2 _let_1 _let_25) (tptp.has_region_2 _let_30 _let_28) (tptp.has_region_2 _let_1 _let_27) (tptp.called_2 _let_25 |tptp.'MP2'|) (tptp.is_at_2 _let_23 _let_1) (= _let_23 _let_5) (= _let_1 _let_9) (= _let_1 _let_8) (= _let_43 _let_18) (= _let_19 _let_49) (= _let_48 _let_47) (= _let_45 _let_22) (= _let_45 _let_20) (= _let_43 _let_17) (= X _let_44) (= (tptp.fn_flaccid_cell_11 X) (tptp.fn_cell_23 X)) (= (tptp.fn_flaccid_cell_10 X) (tptp.fn_cell_10 X)) (= _let_35 _let_13) (= _let_42 (tptp.fn_cell_4 X)) (= _let_36 _let_16) (= _let_41 (tptp.fn_cell_11 X)) (= _let_40 (tptp.fn_cell_22 X)) (= _let_39 (tptp.fn_cell_14 X)) (= _let_38 (tptp.fn_cell_29 X)) (= _let_37 (tptp.fn_cell_28 X)) (= _let_1 _let_6) (= _let_35 _let_14) (= _let_36 _let_15) (= _let_35 _let_12) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_28 _let_11) (= _let_30 _let_29) (= _let_28 _let_10) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_3) (= _let_23 _let_2) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_30 X))) (let ((_let_2 (tptp.fn_flagellated_cell_2 X))) (let ((_let_3 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_2))) (let ((_let_4 (tptp.fn_flagellated_cell_1 X))) (let ((_let_5 (tptp.fn_plasma_membrane_71 _let_4))) (let ((_let_6 (tptp.fn_cell_26 X))) (let ((_let_7 (tptp.fn_plasma_membrane_66 _let_4))) (let ((_let_8 (tptp.fn_cell_27 X))) (let ((_let_9 (tptp.fn_plasma_membrane_34 _let_4))) (let ((_let_10 (tptp.fn_flagellated_cell_15 X))) (let ((_let_11 (tptp.fn_flagellated_cell_8 X))) (let ((_let_12 (tptp.fn_plasma_membrane_55 _let_4))) (let ((_let_13 (tptp.fn_flagellated_cell_14 X))) (let ((_let_14 (tptp.fn_plasma_membrane_54 _let_4))) (let ((_let_15 (tptp.fn_flagellated_cell_13 X))) (let ((_let_16 (tptp.fn_plasma_membrane_68 _let_4))) (let ((_let_17 (tptp.fn_flagellated_cell_12 X))) (let ((_let_18 (tptp.fn_flagellated_cell_11 X))) (let ((_let_19 (tptp.fn_flagellated_cell_6 X))) (let ((_let_20 (tptp.fn_flagellated_cell_7 X))) (let ((_let_21 (tptp.fn_flagellated_cell_10 X))) (let ((_let_22 (tptp.fn_flagellated_cell_3 X))) (let ((_let_23 (tptp.fn_flagellated_cell_4 X))) (let ((_let_24 (tptp.fn_flagellated_cell_9 X))) (let ((_let_25 (tptp.fn_flagellated_cell_5 X))) (let ((_let_26 (tptp.fn_flagellum_35 _let_25))) (=> (tptp.flagellated_cell_1 X) (and (tptp.original_name_2 X |tptp.'Flagellated-cell'|) (tptp.user_description_2 X |tptp.'A cell or one-celled organism that has a flagellum, a long, cellular appendage specialized for locomotion.'|) (tptp.concept2words_2 X |tptp.'cell with a flagellum'|) (tptp.concept2words_2 X |tptp.'cell-with-a-flagellum'|) (tptp.concept2words_2 X |tptp.'flagellated cell'|) (tptp.concept2words_2 X |tptp.'flagellated-cell'|) (tptp.locomotor_cell_1 X) (tptp.membrane_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.plasma_membrane_1 _let_4) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_2) (tptp.volume_value_1 _let_22) (tptp.size_value_1 _let_23) (tptp.flagellum_1 _let_25) (tptp.mixture_1 _let_19) (tptp.cytoplasm_1 _let_19) (tptp.substance_1 _let_20) (tptp.cytosol_1 _let_20) (tptp.tangible_entity_1 _let_11) (tptp.phospholipid_bilayer_1 _let_11) (tptp.surface_1 _let_24) (tptp.ribosome_1 _let_21) (tptp.surface_1 _let_18) (tptp.cytoplasmic_side_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.membrane_protein_1 _let_15) (tptp.protein_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.polymer_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.transmembrane_protein_1 _let_13) (tptp.integral_protein_1 _let_13) (tptp.transport_protein_1 _let_13) (tptp.glycoprotein_1 _let_10) (tptp.cell_1 _let_26) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.protein_1 _let_16) (tptp.tangible_entity_1 _let_14) (tptp.membrane_protein_1 _let_14) (tptp.protein_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.transmembrane_protein_1 _let_12) (tptp.integral_protein_1 _let_12) (tptp.transport_protein_1 _let_12) (tptp.glycoprotein_1 _let_9) (tptp.cytoplasmic_side_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.phospholipid_bilayer_1 _let_5) (tptp.membrane_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.path_2 _let_2 _let_4) (tptp.has_part_2 X _let_25) (tptp.is_oriented_toward_2 _let_18 _let_19) (tptp.has_region_2 X _let_24) (tptp.is_at_2 _let_11 _let_24) (tptp.volume_2 X _let_22) (tptp.directly_proportional_2 _let_23 _let_22) (tptp.size_2 X _let_23) (tptp.has_part_2 X _let_19) (tptp.is_facing_2 _let_18 _let_19) (tptp.has_part_2 X _let_4) (tptp.is_inside_2 _let_19 _let_4) (tptp.has_part_2 _let_19 _let_20) (tptp.is_inside_2 _let_21 _let_20) (tptp.has_part_2 X _let_21) (tptp.has_region_2 _let_4 _let_18) (tptp.called_2 _let_15 |tptp.'MP2'|) (tptp.has_part_2 _let_4 _let_15) (tptp.has_part_2 _let_4 _let_17) (tptp.called_2 _let_17 |tptp.'MP1'|) (tptp.is_inside_2 _let_13 _let_11) (not (= _let_15 _let_13)) (not (= _let_17 _let_15)) (not (= _let_15 _let_17)) (not (= _let_13 _let_15)) (tptp.has_part_2 _let_4 _let_10) (tptp.is_inside_2 _let_10 _let_11) (tptp.has_part_2 _let_4 _let_11) (tptp.has_part_2 _let_4 _let_13) (tptp.is_across_2 _let_13 _let_4) (= _let_4 _let_3) (= X _let_26) (= (tptp.fn_flagellated_cell_16 X) (tptp.fn_cell_10 X)) (= (tptp.fn_flagellated_cell_17 X) (tptp.fn_cell_23 X)) (= _let_11 _let_6) (= _let_24 (tptp.fn_cell_4 X)) (= _let_18 _let_8) (= _let_23 (tptp.fn_cell_11 X)) (= _let_22 (tptp.fn_cell_22 X)) (= _let_21 (tptp.fn_cell_14 X)) (= _let_20 (tptp.fn_cell_29 X)) (= _let_19 (tptp.fn_cell_28 X)) (= _let_4 _let_1) (= _let_18 _let_7) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_5) (= _let_10 _let_9) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flagellum_40 X))) (let ((_let_2 (tptp.fn_microtubule_doublet_2 _let_1))) (let ((_let_3 (tptp.fn_flagellum_37 X))) (let ((_let_4 (tptp.fn_microtubule_doublet_1 _let_1))) (let ((_let_5 (tptp.fn_flagellum_38 X))) (let ((_let_6 (tptp.fn_flagellum_41 X))) (let ((_let_7 (tptp.fn_microtubule_doublet_1 _let_6))) (let ((_let_8 (tptp.fn_flagellum_36 X))) (let ((_let_9 (tptp.fn_microtubule_doublet_2 _let_6))) (let ((_let_10 (tptp.fn_flagellum_39 X))) (let ((_let_11 (tptp.fn_flagellum_34 X))) (let ((_let_12 (tptp.fn_locomotion_1 _let_11))) (let ((_let_13 (tptp.fn_flagellum_35 X))) (let ((_let_14 (tptp.fn_flagellum_1 X))) (let ((_let_15 (tptp.fn_flagellum_30 X))) (let ((_let_16 (tptp.fn_flagellum_4 X))) (let ((_let_17 (tptp.fn_flagellum_9 X))) (let ((_let_18 (tptp.fn_flagellum_5 X))) (let ((_let_19 (tptp.fn_flagellum_7 X))) (let ((_let_20 (tptp.fn_flagellum_11 X))) (let ((_let_21 (tptp.fn_flagellum_8 X))) (let ((_let_22 (tptp.fn_flagellum_28 X))) (let ((_let_23 (tptp.fn_flagellum_33 X))) (let ((_let_24 (tptp.fn_flagellum_13 X))) (let ((_let_25 (tptp.fn_flagellum_15 X))) (let ((_let_26 (tptp.fn_flagellum_16 X))) (let ((_let_27 (tptp.fn_flagellum_17 X))) (let ((_let_28 (tptp.fn_flagellum_18 X))) (let ((_let_29 (tptp.fn_flagellum_31 X))) (let ((_let_30 (tptp.fn_flagellum_32 X))) (let ((_let_31 (tptp.fn_flagellum_29 X))) (=> (tptp.flagellum_1 X) (and (tptp.original_name_2 X |tptp.'Flagellum'|) (tptp.user_description_2 X |tptp.'A long appendage that protrudes from the cell body of some eukaryotic and prokaryotic cells, specialized for locomotion. A eukaryotic flagellum consists of nine pairs of fused microtubules surrounding two unfused central microtubules.'|) (tptp.concept2words_2 X tptp.flagella) (tptp.concept2words_2 X tptp.flagellum) (tptp.cellular_structure_1 X) (tptp.microtubule_1 _let_14) (tptp.length_value_1 _let_16) (tptp.length_value_1 _let_18) (tptp.length_value_1 _let_19) (tptp.protein_enzyme_1 _let_21) (tptp.length_value_1 _let_17) (tptp.quantity_value_1 _let_20) (tptp.shape_value_1 _let_24) (tptp.quantity_value_1 _let_25) (tptp.quantity_value_1 _let_26) (tptp.density_value_1 _let_27) (tptp.density_value_1 _let_28) (tptp.system_1 (tptp.fn_flagellum_21 X)) (tptp.biomembrane_1 _let_22) (tptp.periphery_1 _let_31) (tptp.center_1 _let_15) (tptp.protein_1 _let_29) (tptp.dynein_1 _let_30) (tptp.molecular_assembly_1 _let_23) (tptp.locomotion_1 _let_11) (tptp.cell_1 _let_13) (tptp.microtubule_1 _let_8) (tptp.microtubule_1 _let_3) (tptp.microtubule_1 _let_5) (tptp.microtubule_1 _let_10) (tptp.microtubule_doublet_1 _let_1) (tptp.microtubule_doublet_1 _let_6) (tptp.spatial_entity_1 _let_12) (tptp.microtubule_1 _let_9) (tptp.microtubule_1 _let_7) (tptp.microtubule_1 _let_4) (tptp.microtubule_1 _let_2) (tptp.has_region_2 _let_23 _let_15) (tptp.has_region_2 _let_23 _let_31) (tptp.exactCardinality _let_23 tptp.element_0 |"2"| tptp.microtubule_0) (tptp.element_2 _let_23 _let_14) (tptp.element_2 _let_23 _let_29) (tptp.element_2 _let_23 _let_30) (tptp.element_2 _let_23 _let_1) (tptp.element_2 _let_23 _let_6) (tptp.called_2 _let_6 |"1"|) (tptp.is_at_2 _let_6 _let_31) (tptp.called_2 _let_1 |"2"|) (tptp.is_at_2 _let_1 _let_31) (tptp.is_between_2 _let_30 _let_3) (tptp.is_between_2 _let_30 _let_8) (tptp.is_between_2 _let_29 _let_10) (tptp.is_between_2 _let_29 _let_5) (tptp.called_2 _let_28 |tptp.'Concentration_H'|) (tptp.called_2 _let_27 |tptp.'Concentration_OH'|) (tptp.called_2 _let_26 |tptp.'Quantity_H'|) (tptp.called_2 _let_25 |tptp.'Quantity_OH'|) (tptp.the_categorical_value_2 _let_24 tptp.line_0) (tptp.has_part_2 _let_13 X) (tptp.the_scalar_value_2 _let_20 tptp.few_0) (tptp.scalar_unit_class_2 _let_20 tptp.cilium_0) (tptp.the_scalar_value_2 _let_17 tptp.long_0) (tptp.scalar_unit_class_2 _let_17 tptp.cilium_0) (tptp.greater_than_or_equal_to_2 _let_17 _let_16) (tptp.instrument_2 _let_11 X) (tptp.shape_2 X _let_24) (tptp.diameter_2 X _let_19) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_21) (tptp.quantity_2 X _let_20) (tptp.length_2 X _let_17) (tptp.has_function_2 X _let_11) (tptp.the_cardinal_value_2 _let_19 |"0.25e0"|) (tptp.cardinal_unit_class_2 _let_19 tptp.micrometer_0) (tptp.the_cardinal_value_2 _let_18 |"200.0e0"|) (tptp.cardinal_unit_class_2 _let_18 tptp.micrometer_0) (tptp.greater_than_or_equal_to_2 _let_18 _let_17) (tptp.the_cardinal_value_2 _let_16 |"10.0e0"|) (tptp.cardinal_unit_class_2 _let_16 tptp.micrometer_0) (tptp.is_at_2 _let_14 _let_15) (tptp.called_2 _let_14 |"3"|) (tptp.agent_2 _let_11 _let_13) (tptp.object_2 _let_11 _let_13) (tptp.element_2 _let_6 _let_10) (tptp.called_2 _let_10 |"1"|) (tptp.element_2 _let_6 _let_8) (tptp.called_2 _let_8 |"2"|) (tptp.element_2 _let_1 _let_5) (tptp.called_2 _let_5 |"2"|) (tptp.element_2 _let_1 _let_3) (tptp.called_2 _let_3 |"1"|) (= _let_13 _let_12) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.flask_1 X) (and (tptp.original_name_2 X |tptp.'Flask'|) (tptp.user_description_2 X |tptp.'Container, usually made from glass, in which scientific experiments are conducted.'|) (tptp.concept2words_2 X tptp.flask) (tptp.scientific_device_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flatworm_27 X))) (let ((_let_2 (tptp.fn_gastrovascular_cavity_2 _let_1))) (let ((_let_3 (tptp.fn_platyhelminthes_4 X))) (let ((_let_4 (tptp.fn_flatworm_38 X))) (let ((_let_5 (tptp.fn_animal_nutritional_requirement_4 _let_4))) (let ((_let_6 (tptp.fn_invertebrate_4 X))) (let ((_let_7 (tptp.fn_animal_nutritional_requirement_6 _let_4))) (let ((_let_8 (tptp.fn_flatworm_19 X))) (let ((_let_9 (tptp.fn_move_out_of_1 _let_8))) (let ((_let_10 (tptp.fn_flatworm_31 X))) (let ((_let_11 (tptp.fn_barrier_1 _let_10))) (let ((_let_12 (tptp.fn_flatworm_18 X))) (let ((_let_13 (tptp.fn_polypeptide_82 _let_12))) (let ((_let_14 (tptp.fn_polypeptide_83 _let_12))) (let ((_let_15 (tptp.fn_flatworm_17 X))) (let ((_let_16 (tptp.fn_amino_acid_11 _let_15))) (let ((_let_17 (tptp.fn_amino_acid_27 _let_15))) (let ((_let_18 (tptp.fn_gastrovascular_cavity_1 _let_1))) (let ((_let_19 (tptp.fn_flatworm_29 X))) (let ((_let_20 (tptp.fn_flatworm_28 X))) (let ((_let_21 (tptp.fn_animal_nutritional_requirement_61 _let_4))) (let ((_let_22 (tptp.fn_flatworm_16 X))) (let ((_let_23 (tptp.fn_animal_nutritional_requirement_48 _let_4))) (let ((_let_24 (tptp.fn_flatworm_15 X))) (let ((_let_25 (tptp.fn_flatworm_30 X))) (let ((_let_26 (tptp.fn_animal_nutritional_requirement_46 _let_4))) (let ((_let_27 (tptp.fn_flatworm_14 X))) (let ((_let_28 (tptp.fn_animal_nutritional_requirement_40 _let_4))) (let ((_let_29 (tptp.fn_flatworm_22 X))) (let ((_let_30 (tptp.fn_flatworm_13 X))) (let ((_let_31 (tptp.fn_flatworm_11 X))) (let ((_let_32 (tptp.fn_flatworm_12 X))) (let ((_let_33 (tptp.fn_flatworm_20 X))) (let ((_let_34 (tptp.fn_flatworm_21 X))) (let ((_let_35 (tptp.fn_flatworm_24 X))) (let ((_let_36 (tptp.fn_flatworm_32 X))) (let ((_let_37 (tptp.fn_amino_acid_22 _let_15))) (let ((_let_38 (tptp.fn_flatworm_37 X))) (let ((_let_39 (tptp.fn_amino_acid_28 _let_15))) (let ((_let_40 (tptp.fn_flatworm_36 X))) (let ((_let_41 (tptp.fn_flatworm_34 X))) (let ((_let_42 (tptp.fn_flatworm_35 X))) (let ((_let_43 (tptp.fn_move_out_of_2 _let_8))) (let ((_let_44 (tptp.fn_flatworm_33 X))) (let ((_let_45 (tptp.fn_flatworm_26 X))) (let ((_let_46 (tptp.fn_food_3 _let_45))) (let ((_let_47 (tptp.fn_flatworm_25 X))) (let ((_let_48 (tptp.fn_flatworm_23 X))) (let ((_let_49 (tptp.fn_flatworm_3 X))) (let ((_let_50 (tptp.fn_flatworm_1 X))) (let ((_let_51 (tptp.fn_flatworm_2 X))) (let ((_let_52 (tptp.fn_flatworm_5 X))) (let ((_let_53 (tptp.fn_flatworm_7 X))) (let ((_let_54 (tptp.fn_flatworm_6 X))) (let ((_let_55 (tptp.fn_flatworm_8 X))) (=> (tptp.flatworm_1 X) (and (tptp.original_name_2 X |tptp.'Flatworm'|) (tptp.user_description_2 X |tptp.'A member of the Phylum Platyhelminthes. Includes the non-parasitic planarians and the parasitic flukes and tapeworms.'|) (tptp.concept2words_2 X tptp.flatworm) (tptp.platyhelminthes_1 X) (tptp.diet_1 _let_50) (tptp.organic_entity_1 _let_51) (tptp.tangible_entity_1 _let_49) (tptp.distributing_1 _let_52) (tptp.biological_region_1 _let_54) (tptp.shape_value_1 _let_53) (tptp.end_1 _let_55) (tptp.spatial_entity_1 _let_31) (tptp.spatial_entity_1 _let_32) (tptp.elimination_1 _let_30) (tptp.protein_1 _let_27) (tptp.chemical_entity_1 _let_24) (tptp.carbohydrate_1 _let_24) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.carbon_1 _let_22) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.monomer_1 _let_15) (tptp.molecule_1 _let_15) (tptp.amino_acid_1 _let_15) (tptp.polypeptide_1 _let_12) (tptp.organic_molecule_1 _let_12) (tptp.move_out_of_1 _let_8) (tptp.temperature_value_1 _let_33) (tptp.specific_heat_value_1 _let_34) (tptp.digestive_system_1 _let_29) (tptp.animal_cell_1 _let_48) (tptp.water_1 _let_35) (tptp.tangible_entity_1 _let_47) (tptp.food_1 _let_45) (tptp.gastrovascular_cavity_1 _let_1) (tptp.pore_1 _let_20) (tptp.end_1 _let_19) (tptp.nutrition_1 _let_25) (tptp.barrier_1 _let_10) (tptp.heterotroph_1 _let_36) (tptp.container_1 _let_44) (tptp.oxygen_1 _let_41) (tptp.oxygen_1 _let_42) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.hydrogen_1 _let_40) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.hydrogen_1 _let_38) (tptp.animal_nutritional_requirement_1 _let_4) (tptp.tangible_entity_1 _let_46) (tptp.container_1 _let_43) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.hydrogen_1 _let_39) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.hydrogen_1 _let_37) (tptp.polypeptide_1 _let_28) (tptp.organic_molecule_1 _let_28) (tptp.protein_1 _let_26) (tptp.chemical_entity_1 _let_23) (tptp.carbohydrate_1 _let_23) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.end_1 _let_18) (tptp.oxygen_1 _let_17) (tptp.oxygen_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.monomer_1 _let_14) (tptp.molecule_1 _let_14) (tptp.amino_acid_1 _let_14) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_13) (tptp.molecule_1 _let_13) (tptp.amino_acid_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.animal_1 _let_7) (tptp.nutrition_1 _let_5) (tptp.pore_1 _let_2) (not (= _let_38 _let_42)) (not (= _let_38 _let_41)) (not (= _let_40 _let_42)) (not (= _let_42 _let_40)) (not (= _let_42 _let_38)) (not (= _let_41 _let_38)) (tptp.raw_material_2 _let_25 _let_51) (tptp.raw_material_2 _let_25 _let_49) (tptp.has_region_2 _let_1 _let_54) (tptp.has_region_2 _let_1 _let_55) (tptp.has_function_2 _let_1 _let_52) (tptp.the_categorical_value_2 _let_53 tptp.branched_0) (tptp.shape_2 _let_54 _let_53) (tptp.object_2 _let_52 _let_47) (tptp.instrument_2 _let_52 _let_1) (tptp.destination_2 _let_52 _let_48) (tptp.element_2 _let_50 _let_51) (tptp.element_2 _let_50 _let_49) (tptp.has_part_2 X _let_48) (tptp.plays_2 _let_47 _let_45) (tptp.plays_2 X _let_10) (tptp.has_part_2 _let_12 _let_15) (tptp.in_event_2 _let_44 _let_8) (tptp.plays_2 X _let_44) (tptp.has_part_2 _let_15 _let_40) (tptp.has_part_2 _let_15 _let_41) (tptp.has_part_2 _let_15 _let_42) (not (= _let_41 _let_42)) (not (= _let_42 _let_41)) (tptp.has_part_2 _let_15 _let_38) (not (= _let_40 _let_38)) (not (= _let_41 _let_40)) (not (= _let_40 _let_41)) (not (= _let_38 _let_40)) (tptp.in_event_2 _let_36 _let_25) (tptp.temperature_2 X _let_33) (tptp.correspondence_2 _let_33 _let_34) (tptp.specific_heat_2 _let_35 _let_34) (tptp.has_part_2 X _let_35) (tptp.plays_2 X _let_36) (tptp.subevent_2 _let_30 _let_8) (tptp.has_region_2 _let_29 _let_1) (tptp.is_inside_2 _let_31 X) (tptp.origin_2 _let_8 _let_31) (tptp.base_2 _let_8 X) (tptp.is_outside_2 _let_32 X) (tptp.destination_2 _let_8 _let_32) (tptp.has_region_2 X _let_29) (tptp.has_region_2 _let_29 _let_20) (tptp.has_function_2 _let_20 _let_30) (tptp.path_2 _let_30 _let_20) (tptp.path_2 _let_8 _let_20) (tptp.agent_2 _let_25 X) (tptp.element_2 _let_4 _let_22) (tptp.has_part_2 _let_24 _let_22) (tptp.result_2 _let_25 _let_24) (tptp.result_2 _let_25 _let_27) (tptp.has_part_2 _let_27 _let_12) (tptp.is_at_2 _let_20 _let_19) (tptp.has_region_2 _let_1 _let_19) (= _let_48 (tptp.fn_animal_21 X)) (= _let_47 _let_46) (= X _let_11) (= _let_15 _let_14) (= _let_15 _let_13) (= _let_44 _let_43) (= _let_41 _let_17) (= _let_42 _let_16) (= _let_41 _let_16) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_25 _let_6) (= _let_36 (tptp.fn_invertebrate_1 X)) (= _let_35 (tptp.fn_invertebrate_5 X)) (= _let_34 (tptp.fn_invertebrate_3 X)) (= _let_33 (tptp.fn_invertebrate_6 X)) (= _let_1 (tptp.fn_platyhelminthes_9 X)) (= _let_32 (tptp.fn_platyhelminthes_2 X)) (= X _let_9) (= _let_31 (tptp.fn_platyhelminthes_1 X)) (= _let_8 (tptp.fn_platyhelminthes_10 X)) (= _let_30 (tptp.fn_platyhelminthes_3 X)) (= _let_20 _let_3) (= _let_29 (tptp.fn_platyhelminthes_11 X)) (= X _let_7) (= _let_12 _let_28) (= _let_27 _let_26) (= _let_25 _let_5) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_2) (= _let_19 _let_18) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.flavin_mononucleotide_1 X) (and (tptp.original_name_2 X |tptp.'Flavin-Mononucleotide'|) (tptp.user_description_2 X |tptp.'A biological molecule derived from riboflavin (Vitamin B2); functions as a cofactor in various enzymes and photoreceptors.'|) (tptp.concept2words_2 X tptp.fmn) (tptp.concept2words_2 X |tptp.'riboflavin 5 phosphate'|) (tptp.concept2words_2 X |tptp.'riboflavin-5-phosphate'|) (tptp.concept2words_2 X |tptp.'fmn,'|) (tptp.concept2words_2 X |tptp.'riboflavin 5? phosphate'|) (tptp.concept2words_2 X |tptp.'riboflavin-5?-phosphate'|) (tptp.concept2words_2 X |tptp.'flavin mononucleotide'|) (tptp.concept2words_2 X |tptp.'flavin-mononucleotide'|) (tptp.prosthetic_group_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flavoprotein_1 X))) (=> (tptp.flavoprotein_1 X) (and (tptp.original_name_2 X |tptp.'Flavoprotein'|) (tptp.user_description_2 X |tptp.'Flavoproteins are proteins that contain a nucleic acid derivative of riboflavin: the flavin adenine dinucleotide (FAD) or flavin mononucleotide (FMN).'|) (tptp.concept2words_2 X tptp.flavoprotein) (tptp.protein_1 X) (tptp.flavin_mononucleotide_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.flexibility_constant_1 X) (and (tptp.original_name_2 X |tptp.'Flexibility-Constant'|) (tptp.concept2words_2 X |tptp.'constant of flexibility'|) (tptp.concept2words_2 X |tptp.'flexibility constant'|) (tptp.concept2words_2 X |tptp.'flexibility-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.flexibility_value_1 X) (and (tptp.original_name_2 X |tptp.'Flexibility-Value'|) (tptp.concept2words_2 X tptp.flexibility) (tptp.concept2words_2 X |tptp.'value of flexibility'|) (tptp.concept2words_2 X |tptp.'flexibility value'|) (tptp.concept2words_2 X |tptp.'flexibility-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flight_1 X))) (=> (tptp.flight_1 X) (and (tptp.original_name_2 X |tptp.'Flight'|) (tptp.user_description_2 X |tptp.'A means of locomotion through the air.'|) (tptp.concept2words_2 X tptp.flight) (tptp.locomotion_1 X) (not (tptp.walk_1 X)) (not (tptp.bipedalism_1 X)) (tptp.atp_1 _let_1) (tptp.raw_material_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.flightless_birds_1 X) (and (tptp.original_name_2 X |tptp.'Flightless-Birds'|) (tptp.user_description_2 X |tptp.'Birds which evolved from flying ancestors but have lost the ability to fly.'|) (tptp.concept2words_2 X |tptp.'flightless birds'|) (tptp.concept2words_2 X |tptp.'flightless bird'|) (tptp.concept2words_2 X |tptp.'flightless-bird'|) (tptp.bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_float_2 X))) (let ((_let_2 (tptp.fn_float_1 X))) (=> (tptp.float_1 X) (and (tptp.original_name_2 X |tptp.'Float'|) (tptp.user_description_2 X |tptp.'To stay on the surface of a liquid.'|) (tptp.concept2words_2 X tptp.float) (tptp.action_1 X) (tptp.liquid_substance_1 _let_2) (tptp.solid_substance_1 _let_1) (tptp.is_above_2 _let_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.flooding_1 X) (and (tptp.original_name_2 X |tptp.'Flooding'|) (tptp.user_description_2 X |tptp.'An overflow of an expanse of water that submerges land.'|) (tptp.concept2words_2 X tptp.flood) (tptp.concept2words_2 X tptp.flooding) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_floor_2 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_floor_1 X))) (=> (tptp.floor_1 X) (and (tptp.original_name_2 X |tptp.'Floor'|) (tptp.description_2 X |tptp.'a platform supporting the contents of a container'|) (tptp.concept2words_2 X tptp.floor) (tptp.platform_1 X) (tptp.tangible_entity_1 _let_3) (tptp.container_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.has_part_2 _let_3 X) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_floral_meristem_8 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_floral_meristem_7 X))) (let ((_let_4 (tptp.fn_floral_meristem_6 X))) (let ((_let_5 (tptp.fn_floral_meristem_5 X))) (let ((_let_6 (tptp.fn_floral_meristem_4 X))) (let ((_let_7 (tptp.fn_floral_meristem_3 X))) (let ((_let_8 (tptp.fn_floral_meristem_2 X))) (let ((_let_9 (tptp.fn_floral_meristem_1 X))) (=> (tptp.floral_meristem_1 X) (and (tptp.original_name_2 X |tptp.'Floral-Meristem'|) (tptp.user_description_2 X |tptp.'The shoot apical meristem is transformed into an inflorescence meristem, which goes on to produce the floral meristem, which produces the familiar sepals, petals, stamens, and carpels of the flower during the developmental process of flowering.'|) (tptp.concept2words_2 X |tptp.'floral meristem'|) (tptp.concept2words_2 X |tptp.'floral-meristem'|) (tptp.meristem_1 X) (not (tptp.apical_meristem_1 X)) (not (tptp.cork_cambium_1 X)) (not (tptp.lateral_meristem_1 X)) (tptp.layer_1 _let_9) (tptp.flower_development_1 _let_8) (tptp.cell_signaling_1 _let_7) (tptp.shoot_apical_meristem_1 _let_6) (tptp.layer_1 _let_5) (tptp.layer_1 _let_4) (tptp.plant_cell_1 _let_3) (tptp.create_1 _let_1) (tptp.entity_1 _let_2) (tptp.is_at_2 _let_9 X) (tptp.called_2 _let_9 |tptp.'Layer I'|) (tptp.base_2 _let_8 X) (tptp.subevent_2 _let_7 _let_1) (tptp.base_2 _let_1 _let_6) (tptp.is_at_2 _let_5 X) (tptp.called_2 _let_5 |tptp.'Layer III'|) (tptp.is_at_2 _let_4 X) (tptp.called_2 _let_4 |tptp.'Layer II'|) (tptp.has_part_2 X _let_3) (tptp.result_2 _let_1 X) (= _let_3 (tptp.fn_tissue_1 X)) (= X _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.florida_scrub_jay_1 X) (and (tptp.original_name_2 X |tptp.'Florida-Scrub-Jay'|) (tptp.user_description_2 X |tptp.'The only bird species that is endemic to the state of Florida.'|) (tptp.concept2words_2 X |tptp.'florida scrub jay'|) (tptp.concept2words_2 X |tptp.'florida-scrub-jay'|) (tptp.bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.flightless_birds_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (=> (tptp.florigen_1 X) (and (tptp.original_name_2 X |tptp.'Florigen'|) (tptp.user_description_2 X |tptp.'A flowering signal in angiosperms, not yet chemically identified, that may be a hormone or may be a change in relative concentrations of multiple hormones.'|) (tptp.concept2words_2 X tptp.florigen) (tptp.hormone_1 X) (not (tptp.electrical_signal_1 X)) (not (tptp.elicitor_1 X)) (not (tptp.local_regulator_1 X))))) (forall ((X $$unsorted)) (=> (tptp.flow_1 X) (and (tptp.original_name_2 X |tptp.'Flow'|) (tptp.user_description_2 X |tptp.'Fluid movement of a liquid or gas.'|) (tptp.concept2words_2 X tptp.flow) (tptp.move_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flower_10 X))) (let ((_let_2 (tptp.fn_flower_12 X))) (let ((_let_3 (tptp.fn_flower_11 X))) (let ((_let_4 (tptp.fn_flower_13 X))) (let ((_let_5 (tptp.fn_flower_9 X))) (let ((_let_6 (tptp.fn_flower_8 X))) (let ((_let_7 (tptp.fn_flower_7 X))) (let ((_let_8 (tptp.fn_flower_6 X))) (let ((_let_9 (tptp.fn_flower_3 X))) (let ((_let_10 (tptp.fn_flower_5 X))) (let ((_let_11 (tptp.fn_flower_4 X))) (=> (tptp.flower_1 X) (and (tptp.original_name_2 X |tptp.'Flower'|) (tptp.user_description_2 X |tptp.'The reproductive structure of an angiosperm which is formed from a specially modified shoot.'|) (tptp.concept2words_2 X tptp.flower) (tptp.leaf_organ_1 X) (tptp.color_value_1 _let_9) (tptp.color_value_1 _let_11) (tptp.sepal_1 _let_10) (tptp.carpel_1 _let_8) (tptp.stamen_1 _let_7) (tptp.sepal_1 _let_6) (tptp.petal_1 _let_5) (tptp.whorl_1 _let_1) (tptp.whorl_1 _let_3) (tptp.whorl_1 _let_2) (tptp.whorl_1 _let_4) (tptp.correspondence_2 _let_9 _let_11) (tptp.has_region_2 X _let_4) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_5) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_7) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_10) (tptp.color_2 X _let_9) (tptp.is_at_2 _let_8 _let_4) (tptp.is_at_2 _let_7 _let_1) (tptp.is_at_2 _let_6 _let_3) (tptp.is_at_2 _let_5 _let_2) (tptp.is_outside_2 _let_1 _let_4) (tptp.is_outside_2 _let_3 _let_2) (tptp.is_outside_2 _let_2 _let_1))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flower_color_1 X))) (let ((_let_2 (tptp.fn_flower_color_2 X))) (=> (tptp.flower_color_1 X) (and (tptp.original_name_2 X |tptp.'Flower-Color'|) (tptp.user_description_2 X |tptp.'The color of the flower.'|) (tptp.concept2words_2 X |tptp.'color of flower'|) (tptp.concept2words_2 X |tptp.'flower color'|) (tptp.concept2words_2 X |tptp.'flower-color'|) (tptp.character_1 X) (tptp.purple_1 _let_1) (tptp.white_1 _let_2) (tptp.element_2 X _let_2) (tptp.element_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_flower_development_11 X))) (let ((_let_2 (tptp.fn_flower_8 _let_1))) (let ((_let_3 (tptp.fn_flower_5 _let_1))) (let ((_let_4 (tptp.fn_flower_development_23 X))) (let ((_let_5 (tptp.fn_create_1 _let_4))) (let ((_let_6 (tptp.fn_flower_development_13 X))) (let ((_let_7 (tptp.fn_flower_development_24 X))) (let ((_let_8 (tptp.fn_pattern_formation_6 _let_7))) (let ((_let_9 (tptp.fn_flower_development_10 X))) (let ((_let_10 (tptp.fn_flower_development_17 X))) (let ((_let_11 (tptp.fn_gene_expression_6 _let_10))) (let ((_let_12 (tptp.fn_flower_development_18 X))) (let ((_let_13 (tptp.fn_flower_development_14 X))) (let ((_let_14 (tptp.fn_gene_expression_6 _let_13))) (let ((_let_15 (tptp.fn_flower_development_15 X))) (let ((_let_16 (tptp.fn_flower_development_16 X))) (let ((_let_17 (tptp.fn_gene_expression_6 _let_16))) (let ((_let_18 (tptp.fn_flower_development_19 X))) (let ((_let_19 (tptp.fn_gene_expression_6 _let_18))) (let ((_let_20 (tptp.fn_flower_development_20 X))) (let ((_let_21 (tptp.fn_gene_expression_6 _let_20))) (let ((_let_22 (tptp.fn_flower_development_21 X))) (let ((_let_23 (tptp.fn_flower_development_22 X))) (let ((_let_24 (tptp.fn_gene_expression_6 _let_23))) (let ((_let_25 (tptp.fn_flower_development_12 X))) (let ((_let_26 (tptp.fn_create_1 _let_25))) (let ((_let_27 (tptp.fn_flower_development_9 X))) (let ((_let_28 (tptp.fn_flower_development_7 X))) (let ((_let_29 (tptp.fn_flower_development_6 X))) (let ((_let_30 (tptp.fn_flower_development_1 X))) (let ((_let_31 (tptp.fn_flower_development_8 X))) (let ((_let_32 (tptp.fn_flower_development_5 X))) (let ((_let_33 (tptp.fn_flower_development_4 X))) (let ((_let_34 (tptp.fn_flower_development_3 X))) (let ((_let_35 (tptp.fn_flower_development_2 X))) (=> (tptp.flower_development_1 X) (and (tptp.original_name_2 X |tptp.'Flower-Development'|) (tptp.user_description_2 X |tptp.'The process involved in the development of the flower during developmental process of a plant.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'development of flower'|) (tptp.concept2words_2 X |tptp.'flower development'|) (tptp.concept2words_2 X |tptp.'flower-development'|) (tptp.organ_development_1 X) (tptp.create_1 _let_30) (tptp.cellular_response_1 _let_35) (tptp.cell_differentiation_1 _let_34) (tptp.apical_meristem_1 _let_33) (tptp.organ_identity_gene_1 _let_32) (tptp.create_1 _let_29) (tptp.create_1 _let_28) (tptp.role_1 _let_31) (tptp.floral_meristem_1 _let_27) (tptp.cell_differentiation_induction_1 _let_9) (tptp.entity_1 _let_1) (tptp.flower_1 _let_1) (tptp.create_1 _let_25) (tptp.entity_1 _let_6) (tptp.sepal_1 _let_6) (tptp.gene_expression_1 _let_13) (tptp.organ_identity_gene_1 _let_15) (tptp.gene_expression_1 _let_16) (tptp.gene_expression_1 _let_10) (tptp.organ_identity_gene_1 _let_12) (tptp.gene_expression_1 _let_18) (tptp.gene_expression_1 _let_20) (tptp.organ_identity_gene_1 _let_22) (tptp.gene_expression_1 _let_23) (tptp.create_1 _let_4) (tptp.pattern_formation_1 _let_7) (tptp.entity_1 _let_26) (tptp.gene_1 _let_24) (tptp.gene_1 _let_21) (tptp.gene_1 _let_19) (tptp.gene_1 _let_17) (tptp.gene_1 _let_14) (tptp.gene_1 _let_11) (tptp.create_1 _let_8) (tptp.entity_1 _let_5) (tptp.sepal_1 _let_3) (tptp.sepal_1 _let_2) (tptp.next_event_2 _let_9 _let_35) (tptp.next_event_2 _let_35 _let_34) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_35) (tptp.subevent_2 X _let_34) (tptp.subevent_2 X _let_7) (tptp.result_2 X _let_1) (tptp.base_2 X _let_33) (tptp.base_2 _let_25 _let_33) (tptp.plays_2 _let_32 _let_31) (tptp.called_2 _let_15 |tptp.'Organ Identity Gene A'|) (tptp.called_2 _let_12 |tptp.'Organ Identity Gene B'|) (tptp.called_2 _let_22 |tptp.'Organ Identity C'|) (tptp.subevent_2 _let_30 _let_23) (tptp.subevent_2 _let_4 _let_13) (tptp.subevent_2 _let_29 _let_18) (tptp.subevent_2 _let_29 _let_20) (tptp.subevent_2 _let_28 _let_16) (tptp.subevent_2 _let_28 _let_10) (tptp.in_event_2 _let_31 _let_7) (tptp.next_event_2 _let_7 _let_25) (tptp.causes_2 _let_7 _let_25) (tptp.subevent_2 _let_7 _let_30) (tptp.subevent_2 _let_7 _let_29) (tptp.subevent_2 _let_7 _let_28) (tptp.base_2 _let_7 _let_27) (tptp.result_2 _let_25 _let_1) (tptp.result_2 _let_4 _let_6) (tptp.object_2 _let_23 _let_22) (tptp.object_2 _let_20 _let_22) (tptp.object_2 _let_18 _let_12) (tptp.object_2 _let_16 _let_15) (tptp.object_2 _let_13 _let_15) (tptp.object_2 _let_10 _let_12) (tptp.causes_2 _let_9 X) (tptp.subevent_2 _let_7 _let_4) (tptp.has_part_2 _let_1 _let_6) (= _let_1 _let_26) (= _let_6 _let_5) (= _let_22 _let_24) (= _let_22 _let_21) (= _let_12 _let_19) (= _let_15 _let_17) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_9 (tptp.fn_organ_development_1 X)) (= _let_4 _let_8) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.flower_filament_1 X) (and (tptp.original_name_2 X |tptp.'Flower-Filament'|) (tptp.user_description_2 X |tptp.'In an angiosperm, the stalk portion of the stamen, the pollen-producing reproductive organ of a flower.'|) (tptp.concept2words_2 X tptp.filament) (tptp.concept2words_2 X |tptp.'filament of flower'|) (tptp.concept2words_2 X |tptp.'flower filament'|) (tptp.concept2words_2 X |tptp.'flower-filament'|) (tptp.flower_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.flower_organ_1 X) (and (tptp.original_name_2 X |tptp.'Flower-Organ'|) (tptp.user_description_2 X |tptp.'A specialized center of plant function composed of specialized leaf tissue, called flower tissue, and specific to plants.'|) (tptp.concept2words_2 X |tptp.'organ of flower'|) (tptp.concept2words_2 X |tptp.'flower organ'|) (tptp.concept2words_2 X |tptp.'flower-organ'|) (tptp.leaf_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.flowering_control_plant_1 X) (and (tptp.original_name_2 X |tptp.'Flowering-Control-Plant'|) (tptp.user_description_2 X |tptp.'Flowering control plants are plants which utilize mechanisms such as hours of daylight or level of maturity to determine when they flower.'|) (tptp.concept2words_2 X |tptp.'plant with flowering control'|) (tptp.concept2words_2 X |tptp.'plant-with-flowering-control'|) (tptp.concept2words_2 X |tptp.'flowering control plant'|) (tptp.concept2words_2 X |tptp.'flowering-control-plant'|) (tptp.angiosperm_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fluent_status_1 X) (and (tptp.original_name_2 X |tptp.'Fluent-Status'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluid_feeder_10 X))) (let ((_let_2 (tptp.fn_ingestion_1 _let_1))) (let ((_let_3 (tptp.fn_fluid_feeder_6 X))) (let ((_let_4 (tptp.fn_animal_3 _let_3))) (let ((_let_5 (tptp.fn_fluid_feeder_5 X))) (let ((_let_6 (tptp.fn_animal_4 _let_3))) (let ((_let_7 (tptp.fn_fluid_feeder_4 X))) (let ((_let_8 (tptp.fn_animal_5 _let_3))) (let ((_let_9 (tptp.fn_fluid_feeder_3 X))) (let ((_let_10 (tptp.fn_fluid_feeder_9 X))) (let ((_let_11 (tptp.fn_move_1 _let_10))) (let ((_let_12 (tptp.fn_fluid_feeder_8 X))) (let ((_let_13 (tptp.fn_withdraw_1 _let_10))) (let ((_let_14 (tptp.fn_fluid_feeder_7 X))) (let ((_let_15 (tptp.fn_fluid_feeder_2 X))) (let ((_let_16 (tptp.fn_fluid_feeder_1 X))) (=> (tptp.fluid_feeder_1 X) (and (tptp.original_name_2 X |tptp.'Fluid-Feeder'|) (tptp.user_description_2 X |tptp.'An animal that feeds on fluids from another living organism.'|) (tptp.concept2words_2 X |tptp.'feeder of fluid'|) (tptp.concept2words_2 X |tptp.'fluid feeder'|) (tptp.concept2words_2 X |tptp.'fluid-feeder'|) (tptp.feeder_1 X) (tptp.biological_region_1 _let_16) (tptp.biological_region_1 _let_15) (tptp.digestive_system_1 _let_9) (tptp.circulatory_system_1 _let_7) (tptp.nervous_system_1 _let_5) (tptp.animal_1 _let_3) (tptp.organism_1 _let_14) (tptp.fluid_substance_1 _let_12) (tptp.withdraw_1 _let_10) (tptp.ingestion_1 _let_1) (tptp.tangible_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.digestive_system_1 _let_8) (tptp.circulatory_system_1 _let_6) (tptp.nervous_system_1 _let_4) (tptp.animal_1 _let_2) (tptp.plays_2 _let_3 X) (tptp.has_region_2 _let_3 _let_16) (tptp.in_event_2 X _let_1) (tptp.has_region_2 _let_14 _let_15) (tptp.is_outside_2 _let_16 _let_14) (tptp.is_inside_2 _let_15 _let_14) (tptp.agent_2 _let_10 _let_3) (tptp.destination_2 _let_10 _let_16) (tptp.origin_2 _let_10 _let_15) (tptp.subevent_2 _let_1 _let_10) (tptp.base_2 _let_10 _let_14) (tptp.object_2 _let_10 _let_12) (tptp.has_region_2 _let_3 _let_9) (tptp.has_region_2 _let_3 _let_7) (tptp.has_region_2 _let_3 _let_5) (tptp.agent_2 _let_1 _let_3) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fluid_feeding_1 X) (and (tptp.original_name_2 X |tptp.'Fluid-Feeding'|) (tptp.user_description_2 X |tptp.'Obtaining food by sucking fluids from a live host.'|) (tptp.concept2words_2 X |tptp.'feeding of fluid'|) (tptp.concept2words_2 X |tptp.'fluid feeding'|) (tptp.concept2words_2 X |tptp.'fluid-feeding'|) (tptp.feeding_1 X) (not (tptp.bulk_feeding_1 X)) (not (tptp.opportunistic_feeding_1 X)) (not (tptp.substrate_feeding_1 X)) (not (tptp.suspension_feeding_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluid_mosaic_model_13 X))) (let ((_let_2 (tptp.fn_transmembrane_protein_4 _let_1))) (let ((_let_3 (tptp.fn_fluid_mosaic_model_14 X))) (let ((_let_4 (tptp.fn_peripheral_protein_10 _let_3))) (let ((_let_5 (tptp.fn_integral_protein_24 _let_1))) (let ((_let_6 (tptp.fn_information_1 X))) (let ((_let_7 (tptp.fn_peripheral_protein_45 _let_3))) (let ((_let_8 (tptp.fn_integral_protein_27 _let_1))) (let ((_let_9 (tptp.fn_fluid_mosaic_model_8 X))) (let ((_let_10 (tptp.fn_transmembrane_protein_3 _let_1))) (let ((_let_11 (tptp.fn_fluid_mosaic_model_17 X))) (let ((_let_12 (tptp.fn_transmembrane_protein_2 _let_1))) (let ((_let_13 (tptp.fn_fluid_mosaic_model_16 X))) (let ((_let_14 (tptp.fn_peripheral_protein_1 _let_3))) (let ((_let_15 (tptp.fn_fluid_mosaic_model_12 X))) (let ((_let_16 (tptp.fn_peripheral_protein_46 _let_3))) (let ((_let_17 (tptp.fn_fluid_mosaic_model_18 X))) (let ((_let_18 (tptp.fn_peripheral_protein_41 _let_3))) (let ((_let_19 (tptp.fn_fluid_mosaic_model_19 X))) (let ((_let_20 (tptp.fn_fluid_mosaic_model_7 X))) (let ((_let_21 (tptp.fn_fluid_mosaic_model_10 X))) (let ((_let_22 (tptp.fn_communicate_2 _let_21))) (let ((_let_23 (tptp.fn_fluid_mosaic_model_9 X))) (let ((_let_24 (tptp.fn_convey_4 _let_23))) (let ((_let_25 (tptp.fn_fluid_mosaic_model_11 X))) (let ((_let_26 (tptp.fn_fluid_mosaic_model_15 X))) (let ((_let_27 (tptp.fn_fluid_mosaic_model_2 X))) (let ((_let_28 (tptp.fn_fluid_mosaic_model_3 X))) (let ((_let_29 (tptp.fn_fluid_mosaic_model_1 X))) (let ((_let_30 (tptp.fn_fluid_mosaic_model_6 X))) (let ((_let_31 (tptp.fn_fluid_mosaic_model_4 X))) (=> (tptp.fluid_mosaic_model_1 X) (and (tptp.original_name_2 X |tptp.'Fluid-Mosaic-Model'|) (tptp.user_description_2 X |tptp.'The fluid mosaic model of S. J. Singer and Garth Nicolson 1972, the biological membranes can be considered as a two-dimensional liquid where all lipid and protein molecules diffuse more or less easily.'|) (tptp.concept2words_2 X |tptp.'fluid mosaic model'|) (tptp.concept2words_2 X |tptp.'fluid-mosaic-model'|) (tptp.biochemical_model_1 X) (not (tptp.closed_system_1 X)) (not (tptp.cognitive_map_1 X)) (not (tptp.ecological_model_1 X)) (not (tptp.five_kingdom_system_1 X)) (not (tptp.molecular_formula_1 X)) (not (tptp.open_system_1 X)) (not (tptp.redundancy_model_1 X)) (not (tptp.representation_of_data_1 X)) (not (tptp.rivet_model_1 X)) (not (tptp.sandwich_model_1 X)) (not (tptp.stable_system_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.unstable_system_1 X)) (tptp.aqueous_solution_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.hydrophilic_face_1 _let_28) (tptp.inside_face_1 _let_28) (tptp.s_j_singer_1 _let_31) (tptp.acceptance_value_1 _let_30) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.thing_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.convey_1 _let_23) (tptp.suggest_1 _let_21) (tptp.g_nicolson_1 _let_25) (tptp.outside_face_1 _let_15) (tptp.transmembrane_protein_1 _let_1) (tptp.peripheral_protein_1 _let_3) (tptp.integral_protein_1 _let_26) (tptp.hydrophilic_end_1 _let_13) (tptp.hydrophilic_end_1 _let_11) (tptp.attach_1 _let_17) (tptp.move_through_1 _let_19) (tptp.tangible_entity_1 _let_24) (tptp.information_1 _let_22) (tptp.move_through_1 _let_18) (tptp.attach_1 _let_16) (tptp.hydrophilic_face_1 _let_14) (tptp.hydrophilic_end_1 _let_12) (tptp.hydrophilic_end_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.phospholipid_bilayer_1 _let_7) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.biomembrane_1 _let_2) (tptp.acceptance_2 X _let_30) (tptp.object_2 _let_23 X) (tptp.agent_2 _let_23 _let_31) (tptp.subevent_2 _let_21 _let_23) (tptp.agent_2 _let_21 _let_25) (tptp.agent_2 _let_21 _let_31) (tptp.donor_2 _let_21 _let_25) (tptp.donor_2 _let_21 _let_31) (tptp.the_categorical_value_2 _let_30 tptp.accepted_0) (tptp.is_inside_2 _let_28 _let_9) (tptp.is_inside_2 _let_15 _let_29) (tptp.is_at_2 _let_1 _let_9) (not (= _let_1 _let_26)) (tptp.called_2 _let_1 |tptp.'TP'|) (tptp.is_outside_2 _let_3 _let_20) (tptp.called_2 _let_3 |tptp.'PP'|) (not (= _let_26 _let_1)) (tptp.called_2 _let_26 |tptp.'IP'|) (tptp.is_at_2 _let_13 _let_28) (tptp.is_at_2 _let_11 _let_15) (tptp.has_part_2 _let_27 _let_9) (tptp.path_2 _let_19 _let_15) (tptp.agent_2 _let_23 _let_25) (tptp.information_content_2 X _let_9) (tptp.object_2 _let_21 X) (tptp.is_inside_2 _let_1 _let_20) (tptp.has_part_2 _let_9 _let_26) (tptp.has_part_2 _let_9 _let_20) (tptp.base_2 _let_19 _let_9) (tptp.is_at_2 _let_3 _let_15) (tptp.is_outside_2 _let_15 _let_9) (tptp.has_part_2 _let_9 _let_3) (tptp.object_2 _let_17 _let_3) (tptp.base_2 _let_17 _let_9) (tptp.has_region_2 _let_1 _let_13) (tptp.is_across_2 _let_1 _let_9) (tptp.has_part_2 _let_9 _let_1) (tptp.has_region_2 _let_1 _let_11) (tptp.is_opposite_2 _let_13 _let_11) (tptp.is_opposite_2 _let_11 _let_13) (= _let_25 _let_24) (= _let_9 _let_6) (= X _let_22) (= _let_9 _let_5) (= _let_20 _let_8) (= _let_20 _let_7) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_9 _let_4) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_2) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fluid_substance_1 X) (and (tptp.original_name_2 X |tptp.'Fluid-Substance'|) (tptp.description_2 X |tptp.'A substance, as a liquid or a gas, that is capable of flowing and which changes its shape at a steady rate when acted upon by a force. RHCD:508.'|) (tptp.concept2words_2 X tptp.fluid) (tptp.concept2words_2 X |tptp.'substance of fluid'|) (tptp.concept2words_2 X |tptp.'fluid substance'|) (tptp.concept2words_2 X |tptp.'fluid-substance'|) (tptp.substance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fluidity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Fluidity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of fluidity'|) (tptp.concept2words_2 X |tptp.'fluidity constant'|) (tptp.concept2words_2 X |tptp.'fluidity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fluidity_value_1 X) (and (tptp.original_name_2 X |tptp.'Fluidity-Value'|) (tptp.concept2words_2 X tptp.fluidity) (tptp.concept2words_2 X |tptp.'value of fluidity'|) (tptp.concept2words_2 X |tptp.'fluidity value'|) (tptp.concept2words_2 X |tptp.'fluidity-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluorescence_7 X))) (let ((_let_2 (tptp.fn_electromagnetic_energy_4 _let_1))) (let ((_let_3 (tptp.fn_fluorescence_8 X))) (let ((_let_4 (tptp.fn_electromagnetic_energy_1 _let_1))) (let ((_let_5 (tptp.fn_fluorescence_11 X))) (let ((_let_6 (tptp.fn_electromagnetic_energy_4 _let_5))) (let ((_let_7 (tptp.fn_fluorescence_10 X))) (let ((_let_8 (tptp.fn_electromagnetic_energy_1 _let_5))) (let ((_let_9 (tptp.fn_fluorescence_5 X))) (let ((_let_10 (tptp.fn_take_in_1 _let_9))) (let ((_let_11 (tptp.fn_fluorescence_6 X))) (let ((_let_12 (tptp.fn_move_1 _let_9))) (let ((_let_13 (tptp.fn_fluorescence_4 X))) (let ((_let_14 (tptp.fn_move_1 _let_13))) (let ((_let_15 (tptp.fn_fluorescence_3 X))) (let ((_let_16 (tptp.fn_fluorescence_2 X))) (=> (tptp.fluorescence_1 X) (and (tptp.original_name_2 X |tptp.'Fluorescence'|) (tptp.user_description_2 X |tptp.'Fluorescence is the emission of light by a substance that has absorbed light or other electromagnetic radiation of a different wavelength. In most cases, emitted light has a longer wavelength, and therefore lower energy, than the absorbed radiation.'|) (tptp.concept2words_2 X tptp.fluoresce) (tptp.concept2words_2 X tptp.fluorescence) (tptp.emit_1 X) (tptp.shape_value_1 _let_16) (tptp.molecular_region_1 _let_15) (tptp.light_transmission_1 _let_13) (tptp.absorb_1 _let_9) (tptp.molecule_1 _let_11) (tptp.light_1 _let_1) (tptp.length_value_1 _let_3) (tptp.length_value_1 _let_7) (tptp.light_1 _let_5) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.property_node_1 _let_8) (tptp.length_value_1 _let_6) (tptp.property_node_1 _let_4) (tptp.length_value_1 _let_2) (tptp.greater_than_2 _let_3 _let_7) (tptp.the_categorical_value_2 _let_16 tptp.hollow_volume_0) (tptp.shape_2 _let_11 _let_16) (tptp.has_region_2 _let_11 _let_15) (tptp.path_2 _let_9 _let_15) (tptp.next_event_2 _let_9 _let_13) (tptp.first_subevent_2 X _let_9) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_9) (tptp.origin_2 X _let_11) (tptp.object_2 X _let_1) (tptp.object_2 _let_13 _let_1) (tptp.object_2 _let_9 _let_5) (tptp.agent_2 _let_9 _let_11) (tptp.base_2 _let_9 _let_11) (tptp.wavelength_2 _let_5 _let_7) (tptp.wavelength_2 _let_1 _let_3) (= _let_1 (tptp.fn_move_1 X)) (= _let_1 _let_14) (= _let_5 _let_12) (= _let_11 _let_10) (= (tptp.fn_fluorescence_12 X) _let_8) (= _let_7 _let_6) (= (tptp.fn_fluorescence_9 X) _let_4) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fluorescent_specimen_1 X) (and (tptp.original_name_2 X |tptp.'Fluorescent-Specimen'|) (tptp.user_description_2 X |tptp.'A fluorescent specimen has an inherent property of fluorescence. This property is due to presence of a fluorescent molecule as a part of their structure.'|) (tptp.concept2words_2 X |tptp.'fluorescent specimen'|) (tptp.concept2words_2 X |tptp.'fluorescent-specimen'|) (tptp.specimen_1 X) (not (tptp.specimen_stained_with_fluorescent_substance_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.staining_1 X) (tptp.fluorescent_substance_1 X1)) (and (tptp.fluorescent_staining_1 X) (= (tptp.fn_fluorescent_staining_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluorescent_staining_4 X))) (let ((_let_2 (tptp.fn_specimen_stained_with_fluorescent_substance_1 _let_1))) (let ((_let_3 (tptp.fn_fluorescent_staining_3 X))) (let ((_let_4 (tptp.fn_fluorescent_staining_5 X))) (let ((_let_5 (tptp.fn_fluorescent_staining_2 X))) (=> (tptp.fluorescent_staining_1 X) (and (tptp.original_name_2 X |tptp.'Fluorescent-Staining'|) (tptp.user_description_2 X |tptp.'A process of staining certain tissue components by combining it with a fluorescent dye or substance. This process is required to study a specimen with the fluorescent microscopy.'|) (tptp.concept2words_2 X tptp.stain) (tptp.concept2words_2 X |tptp.'fluorescent staining'|) (tptp.concept2words_2 X |tptp.'fluorescent-staining'|) (tptp.staining_1 X) (tptp.fluorescent_substance_1 _let_5) (tptp.fluorescent_substance_1 _let_3) (tptp.specimen_stained_with_fluorescent_substance_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.fluorescent_substance_1 _let_2) (tptp.has_state_2 _let_4 _let_1) (tptp.has_state_2 _let_5 _let_3) (tptp.agent_2 X _let_5) (tptp.result_2 X _let_1) (tptp.base_2 X _let_4) (tptp.has_part_2 _let_1 _let_3) (= _let_4 (tptp.fn_add_2 X)) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluorescent_substance_2 X))) (let ((_let_2 (tptp.fn_take_in_1 _let_1))) (let ((_let_3 (tptp.fn_fluorescent_substance_3 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_fluorescent_substance_4 X))) (let ((_let_6 (tptp.fn_move_1 _let_1))) (let ((_let_7 (tptp.fn_fluorescent_substance_1 X))) (=> (tptp.fluorescent_substance_1 X) (and (tptp.original_name_2 X |tptp.'Fluorescent-Substance'|) (tptp.user_description_2 X |tptp.'A substance with the ability to emit light after absorbing light or other electromagnetic radiation.'|) (tptp.concept2words_2 X |tptp.'fluorescent material'|) (tptp.concept2words_2 X |tptp.'fluorescent-material'|) (tptp.concept2words_2 X |tptp.'fluorescent molecule'|) (tptp.concept2words_2 X |tptp.'fluorescent-molecule'|) (tptp.concept2words_2 X |tptp.'fluorescent dye'|) (tptp.concept2words_2 X |tptp.'fluorescent-dye'|) (tptp.concept2words_2 X tptp.fluorophore) (tptp.concept2words_2 X |tptp.'fluorescent substance'|) (tptp.concept2words_2 X |tptp.'fluorescent-substance'|) (tptp.physical_object_1 X) (tptp.radiation_1 _let_7) (tptp.absorb_1 _let_1) (tptp.emit_1 _let_3) (tptp.radiation_1 _let_5) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.origin_2 _let_3 X) (tptp.object_2 _let_1 _let_7) (tptp.object_2 _let_3 _let_5) (tptp.agent_2 _let_1 X) (tptp.base_2 _let_1 X) (= _let_7 _let_6) (= _let_5 _let_4) (= X _let_2) (= _let_2 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fluorine_11 X))) (let ((_let_2 (tptp.fn_fluorine_14 X))) (let ((_let_3 (tptp.fn_fluorine_12 X))) (let ((_let_4 (tptp.fn_fluorine_13 X))) (let ((_let_5 (tptp.fn_fluorine_4 X))) (let ((_let_6 (tptp.fn_fluorine_5 X))) (let ((_let_7 (tptp.fn_fluorine_6 X))) (let ((_let_8 (tptp.fn_fluorine_7 X))) (=> (tptp.fluorine_1 X) (and (tptp.original_name_2 X |tptp.'Fluorine'|) (tptp.user_description_2 X |tptp.'Fluorine is a non metal atom with atomic number 9. It is represented by the symbol F.'|) (tptp.concept2words_2 X |tptp.'F'|) (tptp.concept2words_2 X tptp.fluorine) (tptp.non_metal_atom_1 X) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.neutron_1 _let_8) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"10"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"9"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"9"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"3.98"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"19"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"9"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"19"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_fluorine_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_fluorine_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_fluorine_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fog_1 X) (and (tptp.original_name_2 X |tptp.'Fog'|) (tptp.user_description_2 X |tptp.'A cloudlike mass or layer of minute water droplets near the surface of the earth.'|) (tptp.concept2words_2 X tptp.fog) (tptp.precipitation_form_1 X) (tptp.liquid_substance_1 X) (not (tptp.rain_1 X)) (not (tptp.snow_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fold_1 X))) (=> (tptp.fold_1 X) (and (tptp.original_name_2 X |tptp.'Fold'|) (tptp.user_description_2 X |tptp.'The verb FOLD has 6 senses:1. bend or lay so that one part covers the other2. intertwine3. incorporate a food ingredient into a mixture by repeatedly turning it over without stirring or beating4. cease to operate or cause to cease operating5. confine in a fold, like sheep6. become folded or folded up'|) (tptp.concept2words_2 X tptp.bend) (tptp.concept2words_2 X tptp.loop) (tptp.concept2words_2 X tptp.fold) (tptp.change_of_shape_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.folded_protein_1 X) (and (tptp.original_name_2 X |tptp.'Folded-Protein'|) (tptp.user_description_2 X |tptp.'A protein that is properly folded.'|) (tptp.concept2words_2 X |tptp.'folded protein'|) (tptp.concept2words_2 X |tptp.'folded-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.follicle_cell_1 X) (and (tptp.original_name_2 X |tptp.'Follicle-Cell'|) (tptp.user_description_2 X |tptp.'Follicle cells of ovary are the basic units of female reproductive biology, each of which is composed of roughly spherical aggregations of cells found in the ovary.'|) (tptp.concept2words_2 X tptp.follicle) (tptp.concept2words_2 X |tptp.'ovarian follicle'|) (tptp.concept2words_2 X |tptp.'ovarian-follicle'|) (tptp.concept2words_2 X |tptp.'cell of follicle'|) (tptp.concept2words_2 X |tptp.'follicle cell'|) (tptp.concept2words_2 X |tptp.'follicle-cell'|) (tptp.ovarian_cell_1 X) (not (tptp.nurse_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.follicular_phase_1 X) (and (tptp.original_name_2 X |tptp.'Follicular-Phase'|) (tptp.user_description_2 X |tptp.'Phase of the menstrual cycle in which blood levels of estrogen are increasing and follicles are maturing in the ovaries.'|) (tptp.concept2words_2 X |tptp.'proliferative phase'|) (tptp.concept2words_2 X |tptp.'proliferative-phase'|) (tptp.concept2words_2 X |tptp.'follicular phase'|) (tptp.concept2words_2 X |tptp.'follicular-phase'|) (tptp.female_reproductive_cycle_events_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not 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(tptp.eukaryotic_cell_1 _let_5) (tptp.gastrodermal_cell_1 _let_5) (tptp.animal_cell_1 _let_5) (tptp.secretion_1 _let_30) (tptp.waste_1 _let_89) (tptp.chemical_entity_1 _let_91) (tptp.tangible_entity_1 _let_94) (tptp.tangible_entity_1 _let_92) (tptp.tangible_entity_1 _let_90) (tptp.spatial_entity_1 _let_88) (tptp.genotype_1 _let_85) (tptp.intracellular_digestion_1 _let_82) (tptp.animal_cell_1 _let_75) (tptp.tangible_entity_1 _let_74) (tptp.eukaryotic_cell_1 _let_74) (tptp.cell_1 _let_74) (tptp.property_node_1 _let_73) (tptp.size_value_1 _let_71) (tptp.spatial_entity_1 _let_67) (tptp.biomembrane_1 _let_67) (tptp.plasma_membrane_1 _let_67) (tptp.mixture_1 _let_65) (tptp.cytoplasm_1 _let_65) (tptp.gastrodermis_1 _let_62) (tptp.body_wall_1 _let_60) (tptp.tentacle_1 _let_58) (tptp.smooth_endoplasmic_reticulum_1 _let_56) (tptp.metabolic_pathway_1 _let_54) (tptp.endergonic_process_1 _let_54) (tptp.chemical_reaction_1 _let_54) (tptp.synthesis_of_organic_molecule_1 _let_54) (tptp.anabolic_pathway_1 _let_54) (tptp.synthesis_of_atp_1 _let_54) (tptp.digestive_tract_1 _let_52) (tptp.heterotroph_1 _let_48) (tptp.tangible_entity_1 _let_45) (tptp.tangible_entity_1 _let_43) (tptp.synthesis_reaction_1 _let_41) (tptp.synthesis_reaction_1 _let_40) (tptp.synthesis_of_lipid_1 _let_39) (tptp.chemical_reaction_1 _let_38) (tptp.synthesis_of_lipid_1 _let_38) (tptp.chemical_reaction_1 _let_37) (tptp.synthesis_of_lipid_1 _let_37) (tptp.anabolic_pathway_1 _let_37) (tptp.synthesis_of_lipid_1 _let_36) (tptp.synthesis_of_lipid_1 _let_35) (tptp.tangible_entity_1 _let_34) (tptp.membrane_protein_1 _let_34) (tptp.protein_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.membrane_protein_1 _let_33) (tptp.protein_1 _let_33) (tptp.spatial_entity_1 _let_33) (tptp.polymer_1 _let_33) (tptp.transmembrane_protein_1 _let_32) (tptp.tangible_entity_1 _let_32) (tptp.membrane_protein_1 _let_32) (tptp.protein_1 _let_32) (tptp.spatial_entity_1 _let_32) (tptp.polymer_1 _let_32) (tptp.integrin_1 _let_32) (tptp.living_entity_1 _let_31) (tptp.eukaryotic_cell_1 _let_29) (tptp.cell_1 _let_29) (tptp.gastrodermal_cell_1 _let_27) (tptp.animal_cell_1 _let_26) (tptp.digestive_system_1 _let_24) (tptp.nutrition_1 _let_23) (tptp.nutrition_1 _let_22) (tptp.entity_1 _let_20) (tptp.tangible_entity_1 _let_17) (tptp.phospholipid_bilayer_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.phospholipid_bilayer_1 _let_14) (tptp.membrane_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.animal_plasma_membrane_1 _let_11) (tptp.plasma_membrane_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.membrane_protein_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.membrane_protein_1 _let_8) (tptp.protein_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.polymer_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.transmembrane_protein_1 _let_7) (tptp.integral_protein_1 _let_7) (tptp.transport_protein_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.membrane_protein_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.transmembrane_protein_1 _let_6) (tptp.integral_protein_1 _let_6) (tptp.transport_protein_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.membrane_protein_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.polymer_1 _let_4) (tptp.protein_1 _let_4) (tptp.organic_molecule_1 _let_4) (tptp.spatial_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.transmembrane_protein_1 _let_3) (tptp.integral_protein_1 _let_3) (tptp.transport_protein_1 _let_3) (tptp.polymer_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.membrane_protein_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.transmembrane_protein_1 _let_2) (tptp.integral_protein_1 _let_2) (tptp.transport_protein_1 _let_2) (not (= _let_76 _let_5)) (tptp.called_2 _let_76 |"2"|) (tptp.agent_2 _let_83 _let_81) (tptp.site_2 _let_83 _let_81) (tptp.has_part_2 _let_64 _let_81) (tptp.is_between_2 _let_64 _let_66) (tptp.is_inside_2 _let_66 _let_64) (not (= _let_66 _let_70)) (not (= _let_68 _let_70)) (tptp.time_during_2 _let_87 _let_104) (tptp.time_int_during_2 _let_104 _let_103) (not (= _let_70 _let_66)) (not (= _let_70 _let_68)) (tptp.the_scalar_value_2 _let_72 tptp.small_0) (tptp.scalar_unit_class_2 _let_72 tptp.chemical_entity_0) (tptp.plays_2 _let_84 _let_102) (tptp.has_part_2 _let_84 _let_91) (tptp.has_part_2 _let_84 _let_93) (tptp.destination_2 _let_77 _let_53) (tptp.path_2 _let_77 _let_101) (tptp.subevent_2 _let_79 _let_83) (tptp.subevent_2 _let_79 _let_44) (tptp.time_during_2 _let_80 _let_97) (tptp.time_during_2 _let_78 _let_96) (tptp.object_2 _let_78 _let_91) (tptp.result_2 _let_78 _let_91) (tptp.origin_2 _let_78 _let_53) (tptp.path_2 _let_78 _let_101) (tptp.has_region_2 _let_51 _let_101) (tptp.facilitates_2 _let_59 _let_77) (tptp.the_categorical_value_2 _let_100 tptp.soft_0) (tptp.consistency_2 _let_93 _let_100) (not (= _let_99 _let_98)) (not (= _let_98 _let_99)) (tptp.agent_2 _let_55 _let_99) (tptp.agent_2 _let_69 _let_99) (tptp.agent_2 _let_69 _let_98) (tptp.has_function_2 _let_95 _let_44) (not (= _let_5 _let_76)) (tptp.has_function_2 _let_5 _let_30) (tptp.called_2 _let_5 |"1"|) (tptp.time_before_2 _let_97 _let_96) (tptp.in_event_2 _let_89 _let_78) (tptp.plays_2 _let_21 _let_19) (tptp.object_2 _let_30 _let_95) (tptp.raw_material_2 _let_44 _let_93) (tptp.base_2 _let_30 _let_5) (tptp.result_2 _let_44 _let_70) (tptp.plays_2 _let_91 _let_89) (tptp.path_2 _let_12 _let_1) (tptp.object_2 X _let_84) (tptp.object_2 _let_77 _let_84) (tptp.object_2 _let_87 _let_42) (tptp.agent_2 _let_87 _let_42) (tptp.has_part_2 _let_84 _let_86) (tptp.has_function_2 _let_81 _let_83) (tptp.subevent_2 X _let_80) (tptp.subevent_2 X _let_79) (tptp.subevent_2 X _let_78) (tptp.has_function_2 _let_51 X) (tptp.beneficiary_2 X _let_21) (tptp.agent_2 _let_77 _let_21) (tptp.base_2 _let_77 _let_21) (tptp.base_2 X _let_21) (tptp.subevent_2 X _let_77) (tptp.is_inside_2 _let_46 _let_47) (tptp.has_part_2 _let_1 _let_46) (tptp.is_at_2 _let_46 _let_1) (tptp.is_at_2 _let_46 _let_47) (tptp.has_part_2 _let_1 _let_47) (tptp.called_2 _let_46 |tptp.'MP1'|) (tptp.is_across_2 _let_46 _let_1) (tptp.has_region_2 _let_51 _let_53) (tptp.has_region_2 _let_21 _let_51) (tptp.agent_2 _let_50 _let_21) (tptp.in_event_2 _let_49 _let_50) (tptp.plays_2 _let_21 _let_49) (tptp.called_2 _let_57 |tptp.'MP1'|) (tptp.has_part_2 _let_1 _let_57) (tptp.has_part_2 _let_5 _let_1) (tptp.has_part_2 _let_5 _let_28) (tptp.base_2 _let_55 _let_5) (tptp.has_part_2 _let_63 _let_5) (tptp.has_part_2 _let_61 _let_63) (tptp.has_part_2 _let_21 _let_61) (tptp.has_part_2 _let_21 _let_59) (tptp.has_part_2 _let_64 _let_68) (tptp.is_inside_2 _let_66 _let_68) (tptp.has_part_2 _let_64 _let_66) (tptp.site_2 _let_69 _let_28) (tptp.has_function_2 _let_28 _let_69) (tptp.size_2 _let_70 _let_72) (not (= _let_46 _let_57)) (not (= _let_57 _let_46)) (tptp.has_part_2 _let_64 _let_42) (tptp.base_2 _let_69 _let_5) (tptp.has_part_2 _let_63 _let_76) (tptp.is_inside_2 _let_70 _let_42) (= _let_21 _let_20) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_5 _let_31) (= _let_70 _let_45) (= _let_91 _let_90) (= _let_1 _let_13) (= _let_84 (tptp.fn_food_processing_9 X)) (= _let_42 _let_88) (= _let_86 _let_85) (= _let_83 _let_82) (= _let_80 (tptp.fn_food_processing_7 X)) (= _let_79 (tptp.fn_food_processing_6 X)) (= _let_78 (tptp.fn_food_processing_8 X)) (= _let_51 _let_25) (= _let_77 (tptp.fn_food_processing_10 X)) (= _let_21 _let_18) (= _let_70 _let_43) (= _let_76 _let_75) (= _let_69 _let_39) (= _let_64 _let_74) (= _let_46 _let_8) (= (tptp.fn_food_processing_in_cnidaria_19 X) _let_73) (= _let_72 _let_71) (= _let_69 _let_41) (= _let_69 _let_40) (= _let_69 _let_38) (= _let_69 _let_37) (= _let_69 _let_36) (= _let_69 _let_35) (= _let_68 _let_67) (= _let_66 _let_65) (= _let_5 _let_27) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_34) (= _let_57 _let_8) (= _let_57 _let_33) (= _let_57 _let_32) (= _let_5 _let_26) (= _let_1 _let_11) (= _let_5 _let_29) (= _let_28 _let_56) (= _let_55 _let_54) (= _let_53 _let_52) (= _let_51 _let_24) (= _let_50 _let_23) (= _let_50 _let_22) (= _let_49 _let_48) (= _let_46 _let_7) (= _let_46 _let_9) (= _let_46 _let_6) (= _let_47 _let_17) (= _let_47 _let_16) (= _let_1 _let_10) (= _let_47 _let_15) (= _let_47 _let_14) (= _let_46 _let_4) (= _let_46 _let_3) (= _let_46 _let_2) (= _let_45 _let_43) (= _let_43 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_8 _let_34) (= _let_34 _let_8) (= _let_8 _let_8) (= _let_33 _let_8) (= _let_8 _let_33) (= _let_33 _let_33) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_26) (= _let_26 _let_29) (= _let_29 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) 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(tptp.fn_food_processing_in_earthworm_31 X))) (let ((_let_56 (tptp.fn_food_processing_in_earthworm_32 X))) (let ((_let_57 (tptp.fn_annelid_7 _let_4))) (let ((_let_58 (tptp.fn_food_processing_in_earthworm_28 X))) (let ((_let_59 (tptp.fn_annelid_9 _let_4))) (let ((_let_60 (tptp.fn_food_processing_in_earthworm_1 X))) (let ((_let_61 (tptp.fn_annelid_8 _let_4))) (let ((_let_62 (tptp.fn_food_processing_in_earthworm_2 X))) (let ((_let_63 (tptp.fn_organ_1 _let_53))) (let ((_let_64 (tptp.fn_food_processing_in_earthworm_6 X))) (let ((_let_65 (tptp.fn_food_processing_in_earthworm_4 X))) (let ((_let_66 (tptp.fn_wet_5 _let_33))) (let ((_let_67 (tptp.fn_food_processing_in_earthworm_15 X))) (let ((_let_68 (tptp.fn_wet_4 _let_33))) (let ((_let_69 (tptp.fn_food_processing_in_earthworm_16 X))) (let ((_let_70 (tptp.fn_food_processing_in_earthworm_20 X))) (let ((_let_71 (tptp.fn_wet_2 _let_33))) (let ((_let_72 (tptp.fn_wet_3 _let_33))) (let ((_let_73 (tptp.fn_food_processing_in_earthworm_22 X))) (let 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(tptp.next_event_2 _let_41 _let_51) (tptp.result_2 _let_41 _let_53) (tptp.site_2 _let_41 _let_26) (tptp.greater_than_or_equal_to_2 _let_45 _let_43) (tptp.called_2 _let_53 |"2"|) (tptp.wetness_2 _let_53 _let_45) (tptp.next_event_2 _let_54 _let_5) (tptp.destination_2 _let_54 _let_26) (tptp.origin_2 _let_54 _let_25) (tptp.path_2 _let_54 _let_23) (tptp.has_part_2 _let_7 _let_38) (tptp.base_2 _let_35 _let_7) (tptp.object_2 _let_35 _let_53) (tptp.result_2 _let_35 _let_40) (tptp.next_event_2 _let_48 _let_54) (tptp.object_2 _let_51 _let_53) (tptp.base_2 _let_5 _let_26) (tptp.plays_2 _let_26 _let_50) (tptp.has_function_2 _let_14 X) (tptp.in_event_2 _let_50 _let_5) (tptp.beneficiary_2 X _let_1) (tptp.agent_2 _let_48 _let_1) (tptp.subevent_2 X _let_36) (tptp.base_2 X _let_1) (tptp.base_2 _let_48 _let_1) (tptp.subevent_2 X _let_48) (tptp.subevent_2 X _let_35) (tptp.from_value_2 _let_41 _let_43) (tptp.greater_than_2 _let_45 _let_43) (tptp.to_value_2 _let_41 _let_45) (tptp.next_element_2 _let_25 _let_23) (tptp.has_region_2 _let_14 _let_32) (tptp.has_region_2 _let_1 _let_14) (tptp.has_region_2 _let_32 _let_28) (tptp.next_element_2 _let_21 _let_28) (tptp.next_element_2 _let_30 _let_21) (tptp.element_2 _let_14 _let_30) (tptp.next_element_2 _let_16 _let_13) (tptp.next_element_2 _let_7 _let_16) (tptp.has_part_2 _let_1 _let_7) (tptp.is_inside_2 _let_23 _let_32) (tptp.is_inside_2 _let_23 _let_30) (tptp.has_region_2 _let_32 _let_30) (tptp.has_region_2 _let_32 _let_21) (tptp.element_2 _let_14 _let_21) (tptp.has_part_2 _let_1 _let_26) (tptp.has_part_2 _let_1 _let_13) (tptp.is_inside_2 _let_13 _let_28) (tptp.is_inside_2 _let_16 _let_28) (tptp.has_part_2 _let_1 _let_16) (tptp.is_inside_2 _let_25 _let_30) (tptp.is_inside_2 _let_26 _let_30) (tptp.next_element_2 _let_23 _let_26) (tptp.element_2 _let_14 _let_23) (tptp.element_2 _let_14 _let_28) (tptp.next_element_2 _let_26 _let_7) (tptp.element_2 _let_14 _let_26) (tptp.element_2 _let_14 _let_25) (tptp.has_part_2 _let_1 _let_25) 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_let_16 _let_15) (= _let_14 _let_2) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_food_processing_in_mammal_1 X))) (=> (tptp.food_processing_in_mammal_1 X) (and (tptp.original_name_2 X |tptp.'Food-Processing-In-Mammal'|) (tptp.user_description_2 X |tptp.'A sequence of events in mammals that digest food into its usable forms and eliminate the wastes.'|) (tptp.concept2words_2 X tptp.process) (tptp.concept2words_2 X |tptp.'food processing in mammal'|) (tptp.concept2words_2 X |tptp.'food-processing-in-mammal'|) (tptp.food_processing_1 X) (tptp.mammal_1 _let_1) (tptp.beneficiary_2 X _let_1) (tptp.base_2 X _let_1) (= _let_1 (tptp.fn_food_processing_11 X)))))) (forall ((X $$unsorted)) (let ((_let_1 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(tptp.protein_enzyme_1 _let_105) (tptp.metabolic_pathway_1 _let_103) (tptp.synthesis_of_lipid_1 _let_103) (tptp.metabolic_pathway_1 _let_101) (tptp.endergonic_process_1 _let_101) (tptp.chemical_reaction_1 _let_101) (tptp.synthesis_of_organic_molecule_1 _let_101) (tptp.anabolic_pathway_1 _let_101) (tptp.synthesis_of_atp_1 _let_101) (tptp.barrier_1 _let_94) (tptp.intracellular_digestion_1 _let_93) (tptp.spatial_entity_1 _let_91) (tptp.lysosome_1 _let_91) (tptp.organelle_1 _let_91) (tptp.fusion_1 _let_89) (tptp.metabolic_pathway_1 _let_85) (tptp.endergonic_process_1 _let_85) (tptp.chemical_reaction_1 _let_85) (tptp.synthesis_of_organic_molecule_1 _let_85) (tptp.anabolic_pathway_1 _let_85) (tptp.synthesis_of_atp_1 _let_85) (tptp.protein_enzyme_1 _let_83) (tptp.tangible_entity_1 _let_78) (tptp.tangible_entity_1 _let_77) (tptp.tangible_entity_1 _let_76) (tptp.cell_pole_1 _let_74) (tptp.cell_pole_1 _let_73) (tptp.shape_value_1 _let_72) (tptp.shape_value_1 _let_71) (tptp.tangible_entity_1 _let_70) (tptp.solid_substance_1 _let_68) (tptp.tangible_entity_1 _let_66) (tptp.digestive_system_1 _let_65) (tptp.cellular_work_1 _let_63) (tptp.cellular_work_1 _let_62) (tptp.phagocytosis_1 _let_62) (tptp.protein_1 _let_61) (tptp.organic_molecule_1 _let_61) (tptp.polymer_1 _let_61) (tptp.spatial_entity_1 _let_61) (tptp.membrane_protein_1 _let_61) (tptp.tangible_entity_1 _let_61) (tptp.transmembrane_protein_1 _let_61) (tptp.integral_protein_1 _let_61) (tptp.transport_protein_1 _let_61) (tptp.sodium_potassium_pump_1 _let_61) (tptp.protein_1 _let_60) (tptp.organic_molecule_1 _let_60) (tptp.polymer_1 _let_60) (tptp.spatial_entity_1 _let_60) (tptp.membrane_protein_1 _let_60) (tptp.tangible_entity_1 _let_60) (tptp.transmembrane_protein_1 _let_60) (tptp.integral_protein_1 _let_60) (tptp.transport_protein_1 _let_60) (tptp.sodium_potassium_pump_1 _let_60) (tptp.suspension_1 _let_59) (tptp.colloid_1 _let_59) (tptp.cytoplasm_1 _let_59) (tptp.mixture_1 _let_59) (tptp.mixture_1 _let_58) (tptp.cytoplasm_1 _let_58) (tptp.mixture_1 _let_57) (tptp.cytoplasm_1 _let_57) (tptp.tangible_entity_1 _let_56) (tptp.transmembrane_protein_1 _let_56) (tptp.integral_protein_1 _let_56) (tptp.transport_protein_1 _let_56) (tptp.membrane_protein_1 _let_55) (tptp.membrane_protein_1 _let_54) (tptp.tangible_entity_1 _let_54) (tptp.transmembrane_protein_1 _let_54) (tptp.integral_protein_1 _let_54) (tptp.transport_protein_1 _let_54) (tptp.tangible_entity_1 _let_53) (tptp.membrane_protein_1 _let_53) (tptp.protein_1 _let_53) (tptp.tangible_entity_1 _let_52) (tptp.membrane_protein_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.polymer_1 _let_52) (tptp.protein_1 _let_52) (tptp.organic_molecule_1 _let_52) (tptp.tangible_entity_1 _let_51) (tptp.membrane_protein_1 _let_51) (tptp.protein_1 _let_51) (tptp.spatial_entity_1 _let_51) (tptp.polymer_1 _let_51) (tptp.spatial_entity_1 _let_50) (tptp.tangible_entity_1 _let_50) (tptp.transmembrane_protein_1 _let_50) (tptp.integral_protein_1 _let_50) (tptp.transport_protein_1 _let_50) (tptp.polymer_1 _let_49) (tptp.spatial_entity_1 _let_49) (tptp.membrane_protein_1 _let_49) (tptp.tangible_entity_1 _let_49) (tptp.transmembrane_protein_1 _let_49) (tptp.integral_protein_1 _let_49) (tptp.transport_protein_1 _let_49) (tptp.tangible_entity_1 _let_48) (tptp.phospholipid_bilayer_1 _let_48) (tptp.tangible_entity_1 _let_47) (tptp.phospholipid_bilayer_1 _let_47) (tptp.tangible_entity_1 _let_46) (tptp.phospholipid_bilayer_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.phospholipid_bilayer_1 _let_45) (tptp.tangible_entity_1 _let_44) (tptp.phospholipid_bilayer_1 _let_44) (tptp.tangible_entity_1 _let_43) (tptp.phospholipid_bilayer_1 _let_43) (tptp.plasma_membrane_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.spatial_entity_1 _let_41) (tptp.biomembrane_1 _let_41) (tptp.plasma_membrane_1 _let_41) (tptp.tangible_entity_1 _let_40) (tptp.spatial_entity_1 _let_40) (tptp.biomembrane_1 _let_40) (tptp.animal_plasma_membrane_1 _let_40) (tptp.plasma_membrane_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.spatial_entity_1 _let_39) (tptp.biomembrane_1 _let_39) (tptp.animal_plasma_membrane_1 _let_39) (tptp.plasma_membrane_1 _let_39) (tptp.tangible_entity_1 _let_37) (tptp.eukaryotic_cell_1 _let_37) (tptp.cell_1 _let_37) (tptp.animal_cell_1 _let_36) (tptp.tangible_entity_1 _let_34) (tptp.eukaryotic_cell_1 _let_34) (tptp.cell_1 _let_34) (tptp.choanocyte_1 _let_32) (tptp.entity_1 _let_31) (tptp.food_vacuole_1 _let_31) (tptp.spatial_entity_1 _let_29) (tptp.food_vacuole_1 _let_29) (tptp.membrane_protein_1 _let_28) (tptp.tangible_entity_1 _let_27) (tptp.membrane_protein_1 _let_27) (tptp.protein_1 _let_27) (tptp.transport_protein_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.transmembrane_protein_1 _let_25) (tptp.integral_protein_1 _let_25) (tptp.transport_protein_1 _let_25) (tptp.tangible_entity_1 _let_24) (tptp.membrane_protein_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.polymer_1 _let_24) (tptp.protein_1 _let_24) (tptp.organic_molecule_1 _let_24) (tptp.spatial_entity_1 _let_23) (tptp.membrane_protein_1 _let_23) (tptp.tangible_entity_1 _let_23) (tptp.transmembrane_protein_1 _let_23) (tptp.integral_protein_1 _let_23) (tptp.transport_protein_1 _let_23) (tptp.spatial_entity_1 _let_22) (tptp.tangible_entity_1 _let_22) (tptp.transmembrane_protein_1 _let_22) (tptp.integral_protein_1 _let_22) (tptp.transport_protein_1 _let_22) (tptp.polymer_1 _let_21) (tptp.spatial_entity_1 _let_21) (tptp.membrane_protein_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.transmembrane_protein_1 _let_21) (tptp.integral_protein_1 _let_21) (tptp.transport_protein_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.phospholipid_bilayer_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.phospholipid_bilayer_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.phospholipid_bilayer_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.phospholipid_bilayer_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.transmembrane_protein_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.membrane_protein_1 _let_14) (tptp.protein_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.integrin_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.membrane_protein_1 _let_13) (tptp.protein_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.polymer_1 _let_13) (tptp.protein_1 _let_12) (tptp.organic_molecule_1 _let_12) (tptp.polymer_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.membrane_protein_1 _let_12) (tptp.tangible_entity_1 _let_12) (tptp.transmembrane_protein_1 _let_12) (tptp.integral_protein_1 _let_12) (tptp.transport_protein_1 _let_12) (tptp.sodium_potassium_pump_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.plasma_membrane_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.animal_plasma_membrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.mixture_1 _let_7) (tptp.cytoplasm_1 _let_7) (tptp.mixture_1 _let_6) (tptp.cytoplasm_1 _let_6) (tptp.amoebocyte_1 _let_4) (tptp.animal_cell_1 _let_2) (tptp.instrument_2 _let_127 _let_5) (tptp.called_2 _let_30 |tptp.'ID1'|) (not (= _let_30 _let_69)) (tptp.enables_2 _let_30 _let_75) (tptp.called_2 _let_69 |tptp.'ID2'|) (not (= _let_69 _let_30)) (tptp.first_subevent_2 _let_69 _let_90) (tptp.subevent_2 _let_69 _let_90) (not (= _let_100 _let_97)) (not (= _let_97 _let_100)) (tptp.agent_2 _let_104 _let_106) (tptp.agent_2 _let_104 _let_108) (tptp.agent_2 _let_102 _let_106) (tptp.agent_2 _let_102 _let_108) (tptp.is_between_2 _let_5 _let_79) (tptp.by_means_of_2 _let_109 _let_33) (tptp.subevent_2 _let_111 _let_69) (tptp.subevent_2 _let_111 _let_30) (tptp.has_part_2 _let_3 _let_38) (tptp.the_categorical_value_2 _let_116 tptp.hollow_volume_0) (tptp.in_event_2 _let_95 _let_127) (tptp.agent_2 _let_10 _let_80) (tptp.destination_2 _let_75 _let_123) (tptp.plays_2 _let_125 _let_126) (tptp.is_at_2 _let_80 _let_82) (tptp.agent_2 _let_86 _let_84) (tptp.the_categorical_value_2 _let_118 tptp.hollow_volume_0) (tptp.result_2 _let_69 _let_125) (tptp.object_2 _let_69 _let_112) (tptp.result_2 _let_30 _let_125) (tptp.object_2 _let_75 _let_125) (not (= _let_100 _let_98)) (not (= _let_98 _let_100)) (not (= _let_80 _let_87)) (not (= _let_87 _let_80)) (tptp.path_2 _let_10 _let_1) (tptp.path_2 _let_10 _let_124) (tptp.has_part_2 _let_3 _let_123) (tptp.has_region_2 _let_3 _let_110) (tptp.destination_2 _let_33 _let_99) (tptp.is_inside_2 _let_99 _let_38) (tptp.is_between_2 _let_38 _let_99) (not (= _let_87 _let_81)) (not (= _let_81 _let_87)) (tptp.has_part_2 _let_67 _let_112) (tptp.is_inside_2 _let_112 _let_121) (tptp.has_part_2 _let_67 _let_121) (tptp.called_2 _let_97 |tptp.'MP1'|) (tptp.shape_2 _let_38 _let_118) (tptp.shape_2 _let_5 _let_116) (tptp.object_2 _let_114 _let_112) (tptp.object_2 _let_30 _let_112) (tptp.is_inside_2 _let_112 _let_88) (tptp.has_function_2 _let_88 _let_114) (tptp.agent_2 _let_114 _let_88) (tptp.subevent_2 X _let_111) (tptp.has_function_2 _let_110 X) (tptp.subevent_2 X _let_109) (tptp.base_2 _let_109 _let_3) (tptp.base_2 X _let_3) (tptp.beneficiary_2 X _let_3) (tptp.agent_2 _let_109 _let_3) (tptp.has_part_2 _let_99 _let_106) (not (= _let_106 _let_108)) (tptp.has_part_2 _let_99 _let_108) (not (= _let_108 _let_106)) (tptp.called_2 _let_100 |tptp.'MP1'|) (tptp.base_2 _let_104 _let_38) (tptp.path_2 _let_33 _let_35) (tptp.is_between_2 _let_99 _let_35) (tptp.base_2 _let_33 _let_38) (tptp.agent_2 _let_33 _let_38) (tptp.base_2 _let_102 _let_38) (tptp.is_inside_2 _let_100 _let_96) (tptp.is_at_2 _let_100 _let_96) (tptp.is_across_2 _let_100 _let_35) (tptp.has_part_2 _let_38 _let_35) (tptp.has_function_2 _let_38 _let_33) (tptp.has_part_2 _let_38 _let_99) (tptp.is_inside_2 _let_99 _let_35) (tptp.has_part_2 _let_35 _let_100) (tptp.is_at_2 _let_100 _let_35) (tptp.has_function_2 _let_35 _let_33) (tptp.is_inside_2 _let_97 _let_96) (tptp.has_part_2 _let_35 _let_97) (tptp.is_across_2 _let_97 _let_35) (tptp.is_at_2 _let_98 _let_35) (tptp.called_2 _let_98 |tptp.'MP1'|) (tptp.has_part_2 _let_35 _let_96) (tptp.is_at_2 _let_97 _let_96) (tptp.is_at_2 _let_97 _let_35) (tptp.has_part_2 _let_35 _let_98) (not (= _let_98 _let_97)) (not (= _let_97 _let_98)) (tptp.is_outside_2 _let_38 _let_5) (tptp.subevent_2 _let_30 _let_90) (tptp.is_inside_2 _let_79 _let_5) (tptp.first_subevent_2 _let_30 _let_90) (tptp.agent_2 _let_30 _let_92) (tptp.has_part_2 _let_5 _let_92) (tptp.plays_2 _let_5 _let_95) (tptp.has_part_2 _let_3 _let_5) (tptp.has_part_2 _let_5 _let_88) (tptp.object_2 _let_90 _let_88) (tptp.base_2 _let_90 _let_92) (tptp.has_function_2 _let_92 _let_30) (tptp.called_2 _let_87 |tptp.'MP1'|) (tptp.has_part_2 _let_1 _let_87) (tptp.is_across_2 _let_87 _let_1) (tptp.is_at_2 _let_87 _let_1) (tptp.is_at_2 _let_87 _let_82) (tptp.is_inside_2 _let_87 _let_82) (tptp.called_2 _let_81 |tptp.'MP1'|) (tptp.base_2 _let_86 _let_5) (tptp.is_between_2 _let_79 _let_1) (tptp.has_part_2 _let_79 _let_84) (tptp.is_at_2 _let_80 _let_1) (tptp.called_2 _let_80 |tptp.'MP1'|) (tptp.has_part_2 _let_5 _let_1) (tptp.has_part_2 _let_1 _let_82) (tptp.is_inside_2 _let_80 _let_82) (tptp.is_across_2 _let_80 _let_1) (tptp.has_part_2 _let_1 _let_81) (tptp.has_part_2 _let_5 _let_79) (tptp.is_inside_2 _let_79 _let_1) (tptp.has_part_2 _let_1 _let_80) (not (= _let_81 _let_80)) (not (= _let_80 _let_81)) (= _let_125 _let_78) (= _let_112 _let_70) (= _let_125 _let_77) (= _let_125 _let_76) (= _let_80 _let_13) (= _let_124 _let_74) (= _let_124 _let_73) (= _let_123 _let_122) (= _let_110 _let_65) (= _let_121 _let_120) (= _let_112 _let_68) (= (tptp.fn_food_processing_in_porifera_46 X) _let_119) (= _let_118 _let_72) (= _let_118 _let_71) (= (tptp.fn_food_processing_in_porifera_45 X) _let_117) (= _let_116 _let_115) (= _let_114 _let_113) (= _let_88 _let_31) (= _let_112 _let_66) (= _let_111 (tptp.fn_food_processing_6 X)) (= _let_110 _let_64) (= _let_3 (tptp.fn_food_processing_11 X)) (= _let_109 (tptp.fn_food_processing_10 X)) (= _let_108 _let_107) (= _let_106 _let_105) (= _let_104 _let_103) (= _let_102 _let_101) (= _let_33 _let_63) (= _let_38 _let_37) (= _let_35 _let_42) (= _let_38 _let_36) (= _let_96 _let_45) (= _let_96 _let_44) (= _let_33 _let_62) (= _let_100 _let_61) (= _let_100 _let_53) (= _let_100 _let_60) (= _let_35 _let_40) (= _let_35 _let_39) (= _let_38 _let_34) (= _let_99 _let_59) (= _let_99 _let_58) (= _let_99 _let_57) (= _let_97 _let_54) (= _let_98 _let_50) (= _let_98 _let_51) (= _let_97 _let_53) (= _let_97 _let_51) (= _let_97 _let_50) (= _let_98 _let_52) (= _let_98 _let_56) (= _let_98 _let_49) (= _let_97 _let_55) (= _let_97 _let_52) (= _let_97 _let_49) (= _let_35 _let_41) (= _let_96 _let_48) (= _let_96 _let_47) (= _let_96 _let_46) (= _let_96 _let_43) (= _let_38 _let_32) (= _let_79 _let_7) (= _let_95 _let_94) (= _let_30 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_29) (= _let_5 _let_4) (= _let_87 _let_28) (= _let_87 _let_27) (= _let_87 _let_26) (= _let_87 _let_25) (= _let_87 _let_24) (= _let_87 _let_23) (= _let_87 _let_22) (= _let_87 _let_21) (= _let_86 _let_85) (= _let_84 _let_83) (= _let_81 _let_13) (= _let_1 _let_11) (= _let_82 _let_20) (= _let_82 _let_19) (= _let_82 _let_18) (= _let_82 _let_16) (= _let_82 _let_17) (= _let_82 _let_15) (= _let_5 _let_2) (= _let_1 _let_9) (= _let_81 _let_14) (= _let_80 _let_12) (= _let_1 _let_8) (= _let_79 _let_6) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_53) (= _let_53 _let_61) (= _let_61 _let_61) (= _let_61 _let_53) (= _let_53 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_51) (= _let_56 _let_52) (= _let_52 _let_56) (= _let_50 _let_56) (= _let_56 _let_56) (= _let_56 _let_50) (= _let_49 _let_54) (= _let_54 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_40 _let_40) (= _let_41 _let_40) (= _let_40 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_34 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.food_processing_in_ruminant_1 X) (and (tptp.original_name_2 X |tptp.'Food-Processing-In-Ruminant'|) (tptp.user_description_2 X |tptp.'A sequence of events in ruminants that digest food into its usable forms and eliminate the wastes.'|) (tptp.concept2words_2 X tptp.process) (tptp.concept2words_2 X |tptp.'food processing in ruminant'|) (tptp.concept2words_2 X |tptp.'food-processing-in-ruminant'|) (tptp.food_processing_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_food_vacuole_23 X))) (let ((_let_2 (tptp.fn_endocytosis_21 _let_1))) (let ((_let_3 (tptp.fn_vacuole_10 X))) (let ((_let_4 (tptp.fn_endocytosis_16 _let_1))) (let ((_let_5 (tptp.fn_vesicle_8 X))) (let ((_let_6 (tptp.fn_food_vacuole_18 X))) (let ((_let_7 (tptp.fn_mixture_1 _let_6))) (let ((_let_8 (tptp.fn_mixture_2 _let_6))) (let ((_let_9 (tptp.fn_vacuole_6 X))) (let ((_let_10 (tptp.fn_endocytosis_6 _let_1))) (let ((_let_11 (tptp.fn_food_vacuole_27 X))) (let ((_let_12 (tptp.fn_food_3 _let_11))) (let ((_let_13 (tptp.fn_vacuole_7 X))) (let ((_let_14 (tptp.fn_vesicle_9 X))) (let ((_let_15 (tptp.fn_vacuole_2 X))) (let ((_let_16 (tptp.fn_vesicle_10 X))) (let ((_let_17 (tptp.fn_food_vacuole_21 X))) (let ((_let_18 (tptp.fn_biomembrane_14 _let_17))) (let ((_let_19 (tptp.fn_endocytosis_20 _let_1))) (let ((_let_20 (tptp.fn_vesicle_5 X))) (let ((_let_21 (tptp.fn_cytoplasm_7 _let_6))) (let ((_let_22 (tptp.fn_biomembrane_42 _let_17))) (let ((_let_23 (tptp.fn_biomembrane_47 _let_17))) (let ((_let_24 (tptp.fn_food_vacuole_13 X))) (let ((_let_25 (tptp.fn_lipid_2 _let_24))) (let ((_let_26 (tptp.fn_food_vacuole_14 X))) (let ((_let_27 (tptp.fn_lipid_1 _let_24))) (let ((_let_28 (tptp.fn_food_vacuole_12 X))) (let ((_let_29 (tptp.fn_phospholipid_layer_20 _let_28))) (let ((_let_30 (tptp.fn_food_vacuole_19 X))) (let ((_let_31 (tptp.fn_food_vacuole_20 X))) (let ((_let_32 (tptp.fn_food_vacuole_25 X))) (let ((_let_33 (tptp.fn_food_vacuole_24 X))) (let ((_let_34 (tptp.fn_food_vacuole_16 X))) (let ((_let_35 (tptp.fn_food_vacuole_26 X))) (let ((_let_36 (tptp.fn_food_vacuole_28 X))) (let ((_let_37 (tptp.fn_endocytosis_14 _let_1))) (let ((_let_38 (tptp.fn_food_vacuole_22 X))) (let ((_let_39 (tptp.fn_food_vacuole_17 X))) (let ((_let_40 (tptp.fn_biomembrane_54 _let_17))) (let ((_let_41 (tptp.fn_food_vacuole_10 X))) (let ((_let_42 (tptp.fn_biomembrane_56 _let_17))) (let ((_let_43 (tptp.fn_food_vacuole_15 X))) (let ((_let_44 (tptp.fn_biomembrane_63 _let_17))) (let ((_let_45 (tptp.fn_food_vacuole_11 X))) (let ((_let_46 (tptp.fn_biomembrane_61 _let_17))) (let ((_let_47 (tptp.fn_food_vacuole_7 X))) (let ((_let_48 (tptp.fn_biomembrane_49 _let_17))) (let ((_let_49 (tptp.fn_food_vacuole_8 X))) (let ((_let_50 (tptp.fn_biomembrane_50 _let_17))) (let ((_let_51 (tptp.fn_food_vacuole_9 X))) (let ((_let_52 (tptp.fn_biomembrane_76 _let_17))) (let ((_let_53 (tptp.fn_food_vacuole_2 X))) (let ((_let_54 (tptp.fn_food_vacuole_3 X))) (=> (tptp.food_vacuole_1 X) (and (tptp.original_name_2 X |tptp.'Food-Vacuole'|) (tptp.user_description_2 X |tptp.'Food vacoule is a food storing vacuole'|) (tptp.concept2words_2 X |tptp.'vacuole of food'|) (tptp.concept2words_2 X |tptp.'food vacuole'|) (tptp.concept2words_2 X |tptp.'food-vacuole'|) (tptp.vacuole_1 X) (tptp.state_value_1 _let_53) (tptp.area_value_1 _let_54) (tptp.surface_1 _let_47) (tptp.inside_face_1 _let_47) (tptp.barrier_1 _let_49) (tptp.block_1 _let_51) (tptp.tangible_entity_1 _let_41) (tptp.membrane_protein_1 _let_41) (tptp.protein_1 _let_41) (tptp.tangible_entity_1 _let_45) (tptp.phospholipid_bilayer_1 _let_45) (tptp.phospholipid_layer_1 _let_28) (tptp.lipid_1 _let_24) (tptp.size_value_1 _let_26) (tptp.size_value_1 _let_43) (tptp.surface_1 _let_34) (tptp.outside_face_1 _let_34) (tptp.tangible_entity_1 _let_39) (tptp.eukaryotic_cell_1 _let_39) (tptp.cell_1 _let_39) (tptp.suspension_1 _let_6) (tptp.colloid_1 _let_6) (tptp.cytoplasm_1 _let_6) (tptp.mixture_1 _let_6) (tptp.chemical_1 _let_30) (tptp.container_1 _let_31) (tptp.biomembrane_1 _let_17) (tptp.carry_1 _let_38) (tptp.phagocytosis_1 _let_1) (tptp.tangible_entity_1 _let_33) (tptp.store_1 _let_32) (tptp.aqueous_solution_1 _let_35) (tptp.liquid_substance_1 _let_35) (tptp.cytosol_1 _let_35) (tptp.solution_1 _let_35) (tptp.food_1 _let_11) (tptp.aqueous_solution_1 _let_36) (tptp.property_node_1 _let_52) (tptp.block_1 _let_50) (tptp.barrier_1 _let_48) (tptp.phospholipid_layer_1 _let_46) (tptp.tangible_entity_1 _let_44) (tptp.phospholipid_bilayer_1 _let_44) (tptp.size_value_1 _let_42) (tptp.tangible_entity_1 _let_40) (tptp.membrane_protein_1 _let_40) (tptp.protein_1 _let_40) (tptp.carry_1 _let_37) (tptp.lipid_1 _let_29) (tptp.property_node_1 _let_27) (tptp.size_value_1 _let_25) (tptp.surface_1 _let_23) (tptp.inside_face_1 _let_22) (tptp.cell_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.eukaryotic_cell_1 _let_19) (tptp.cell_1 _let_19) (tptp.aqueous_solution_1 _let_18) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.substance_1 _let_8) (tptp.substance_1 _let_7) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.vesicle_1 _let_2) (tptp.the_scalar_value_2 _let_54 tptp.huge_0) (tptp.scalar_unit_class_2 _let_54 tptp.vesicle_0) (tptp.agent_2 _let_32 X) (tptp.area_2 X _let_54) (tptp.physical_state_2 _let_33 _let_53) (tptp.greater_than_2 _let_43 _let_26) (tptp.instrument_2 _let_51 _let_17) (tptp.the_categorical_value_2 _let_53 tptp.solid_0) (tptp.plays_2 _let_33 _let_11) (tptp.plays_2 _let_17 _let_49) (tptp.in_event_2 _let_49 _let_51) (tptp.has_region_2 _let_17 _let_47) (tptp.is_inside_2 _let_36 _let_47) (tptp.has_part_2 _let_17 _let_45) (tptp.has_region_2 _let_45 _let_28) (tptp.has_part_2 _let_17 _let_41) (tptp.size_2 _let_41 _let_43) (tptp.the_scalar_value_2 _let_43 tptp.big_0) (tptp.scalar_unit_class_2 _let_43 tptp.polypeptide_0) (tptp.subevent_2 _let_1 _let_38) (tptp.object_2 _let_1 _let_33) (tptp.object_2 _let_38 _let_33) (tptp.instrument_2 _let_1 X) (tptp.has_function_2 X _let_38) (tptp.agent_2 _let_38 X) (tptp.has_part_2 _let_39 X) (tptp.has_part_2 _let_39 _let_6) (tptp.has_part_2 X _let_36) (tptp.has_part_2 _let_6 _let_35) (tptp.base_2 _let_32 X) (tptp.has_part_2 X _let_17) (tptp.has_region_2 _let_17 _let_34) (tptp.is_inside_2 _let_34 _let_35) (tptp.is_between_2 _let_17 _let_35) (tptp.is_between_2 _let_17 _let_36) (tptp.plays_2 X _let_31) (tptp.in_event_2 _let_31 _let_32) (tptp.object_2 _let_32 _let_33) (tptp.is_inside_2 _let_33 X) (tptp.has_function_2 X _let_32) (tptp.size_2 _let_24 _let_26) (tptp.element_2 _let_28 _let_24) (tptp.has_part_2 _let_6 _let_30) (= _let_33 _let_12) (= (tptp.fn_food_vacuole_5 X) _let_52) (= _let_51 _let_50) (= _let_49 _let_48) (= _let_36 _let_18) (= _let_47 _let_23) (= _let_47 _let_22) (= _let_28 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_33 _let_10) (= _let_39 _let_21) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_39 _let_20) (= _let_39 _let_19) (= _let_38 _let_37) (= X _let_2) (= _let_6 _let_3) (= _let_36 _let_16) (= _let_36 _let_15) (= _let_35 (tptp.fn_vacuole_9 X)) (= _let_34 (tptp.fn_vacuole_8 X)) (= _let_17 _let_14) (= _let_17 _let_13) (= _let_33 _let_9) (= _let_32 (tptp.fn_vacuole_3 X)) (= _let_31 (tptp.fn_vacuole_11 X)) (= _let_30 _let_8) (= _let_30 _let_7) (= _let_24 _let_29) (= (tptp.fn_food_vacuole_6 X) _let_27) (= _let_26 _let_25) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_food_web_2 X))) (let ((_let_2 (tptp.fn_food_web_1 X))) (=> (tptp.food_web_1 X) (and (tptp.original_name_2 X |tptp.'Food-Web'|) (tptp.user_description_2 X |tptp.'A diagram of trophic relationships in an ecosystem.'|) (tptp.concept2words_2 X |tptp.'web of food'|) (tptp.concept2words_2 X |tptp.'food web'|) (tptp.concept2words_2 X |tptp.'food-web'|) (tptp.aggregate_1 X) (tptp.organism_1 _let_2) (tptp.food_chain_1 _let_1) (tptp.element_2 X _let_1) (tptp.element_2 _let_1 _let_2) (tptp.minCardinality _let_1 tptp.element_0 |"2"| tptp.organism_0) (tptp.maxCardinality _let_1 tptp.element_0 |"5"| tptp.organism_0)))))) (forall ((X $$unsorted)) (=> (tptp.foot_1 X) (and (tptp.original_name_2 X |tptp.'Foot'|) (tptp.user_description_2 X |tptp.'(1) In the sporophyte of a bryophyte, the structure that collects photosynthate, water, minerals, and amino acids from the parent gametophyte; (2) In molluscs, a muscular structure usually located ventrally and used for locomotion; (3) In vertebrates, the distal portion of a limb that bears the animal_'s weight and is used for locomotion.'|) (tptp.concept2words_2 X tptp.foot) (tptp.specialised_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foraging_1 X) (and (tptp.original_name_2 X |tptp.'Foraging'|) (tptp.user_description_2 X |tptp.'The search for and exploitation of food sources.'|) (tptp.concept2words_2 X tptp.forage) (tptp.concept2words_2 X tptp.foraging) (tptp.feeding_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foraminiferan_1 X) (and (tptp.original_name_2 X |tptp.'Foraminiferan'|) (tptp.user_description_2 X |tptp.'Member of a group of amoeboid protists that secrete a shell of CaCO3 and extend pseudopodia through pores in the shell.'|) (tptp.concept2words_2 X tptp.foram) (tptp.concept2words_2 X tptp.foraminiferan) (tptp.protist_1 X) (not (tptp.alveolate_1 X)) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.freshwater_protist_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X))))) (forall ((X $$unsorted)) (=> (tptp.force_1 X) (and (tptp.original_name_2 X |tptp.'Force'|) (tptp.user_description_2 X |tptp.'In physics, a force is any influence that causes a free body to undergo a change in speed, a change in direction, or a change in shape.'|) (tptp.concept2words_2 X tptp.force) (tptp.tangible_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.forebrain_1 X) (and (tptp.original_name_2 X |tptp.'Forebrain'|) (tptp.user_description_2 X |tptp.'The ancestral and embryonic region of the vertebrate brain that develops into the thalamus, hypothalamus, and cerebrum.'|) (tptp.concept2words_2 X tptp.prosencephalon) (tptp.concept2words_2 X tptp.forebrain) (tptp.embryonic_brain_region_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.breathing_control_center_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.primary_somatosensory_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_cortex_1 X))))) (forall ((X $$unsorted)) (=> (tptp.foregut_1 X) (and (tptp.original_name_2 X |tptp.'Foregut'|) (tptp.user_description_2 X |tptp.'Anterior (frontmost) region of the alimentary canal in some animals which consists of the mouth, crop and esophagus.'|) (tptp.concept2words_2 X tptp.foregut) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foreign_1 X) (and (tptp.original_name_2 X |tptp.'Foreign'|) (tptp.user_description_2 X |tptp.'Of non-native origin.'|) (tptp.concept2words_2 X tptp.foreign) (tptp.role_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foreign_cell_1 X) (and (tptp.original_name_2 X |tptp.'Foreign-Cell'|) (tptp.user_description_2 X |tptp.'A cell foreign to the body is foreign cell.'|) (tptp.concept2words_2 X |tptp.'invasive cell'|) (tptp.concept2words_2 X |tptp.'foreign cell'|) (tptp.concept2words_2 X |tptp.'foreign-cell'|) (tptp.cell_state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foreign_dna_1 X) (and (tptp.original_name_2 X |tptp.'Foreign-DNA'|) (tptp.user_description_2 X |tptp.'DNA belonging to or extracted from another organism.'|) (tptp.concept2words_2 X |tptp.'foreign dna'|) (tptp.concept2words_2 X |tptp.'foreign-dna'|) (tptp.dna_1 X)))) (forall ((X $$unsorted)) (=> (tptp.foreign_substance_1 X) (and (tptp.original_name_2 X |tptp.'Foreign-Substance'|) (tptp.user_description_2 X |tptp.'A substance foreign to the body is a foreign substance. Examples of foreign substances are allergens.'|) (tptp.concept2words_2 X |tptp.'foreign particle'|) (tptp.concept2words_2 X |tptp.'foreign substance'|) (tptp.concept2words_2 X |tptp.'foreign-substance'|) (tptp.substance_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_restriction_fragment_analysis_11 X))) (let ((_let_2 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_25 X))) (let ((_let_3 (tptp.fn_chromosome_4 _let_2))) (let ((_let_4 (tptp.fn_analysis_1 X))) (let ((_let_5 (tptp.fn_restriction_fragment_analysis_12 X))) (let ((_let_6 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_24 X))) (let ((_let_7 (tptp.fn_chromosome_4 _let_6))) (let ((_let_8 (tptp.fn_restriction_fragment_analysis_5 X))) (let ((_let_9 (tptp.fn_southern_blotting_14 X))) (let ((_let_10 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_15 X))) (let ((_let_11 (tptp.fn_restriction_fragment_length_polymorphism_19 _let_10))) (let ((_let_12 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_16 X))) (let ((_let_13 (tptp.fn_restriction_fragment_length_polymorphism_19 _let_12))) (let ((_let_14 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_14 X))) (let ((_let_15 (tptp.fn_band_pattern_2 _let_14))) (let ((_let_16 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_11 X))) (let ((_let_17 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_29 X))) (let ((_let_18 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_26 X))) (let ((_let_19 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_12 X))) (let ((_let_20 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_30 X))) (let ((_let_21 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_28 X))) (let ((_let_22 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_27 X))) (let ((_let_23 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_22 X))) (let ((_let_24 (tptp.fn_human_cell_13 _let_23))) (let ((_let_25 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_23 X))) (let ((_let_26 (tptp.fn_move_into_1 _let_22))) (let ((_let_27 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_9 X))) (let ((_let_28 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_10 X))) (let ((_let_29 (tptp.fn_person_61 _let_28))) (let ((_let_30 (tptp.fn_person_8 _let_28))) (let ((_let_31 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_21 X))) (let ((_let_32 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_13 X))) (let ((_let_33 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_19 X))) (let ((_let_34 (tptp.fn_eukaryotic_cell_26 _let_33))) (let ((_let_35 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_20 X))) (let ((_let_36 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_18 X))) (let ((_let_37 (tptp.fn_tissue_1 _let_36))) (let ((_let_38 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_17 X))) (let ((_let_39 (tptp.fn_eumetazoan_20 _let_38))) (let ((_let_40 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_4 X))) (let ((_let_41 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_5 X))) (let ((_let_42 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_3 X))) (let ((_let_43 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_8 X))) (let ((_let_44 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_6 X))) (let ((_let_45 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_1 X))) (let ((_let_46 (tptp.fn_forensic_detection_of_similarities_and_differences_in_dna_samples_7 X))) (=> (tptp.forensic_detection_of_similarities_and_differences_in_dna_samples_1 X) (and (tptp.original_name_2 X |tptp.'Forensic-Detection-Of-Similarities-And-Differences-In-DNA-Samples'|) (tptp.user_description_2 X |tptp.'A laboratory method using Southern blotting for detecting the similarities and differences in the DNA of two individuals.'|) (tptp.concept2words_2 X |tptp.'rflp in forensics'|) (tptp.concept2words_2 X |tptp.'dna analysis in forensics'|) (tptp.concept2words_2 X tptp.detect) (tptp.concept2words_2 X |tptp.'forensic detection of similarities and differences in dna sample'|) (tptp.concept2words_2 X |tptp.'forensic-detection-of-similarities-and-differences-in-dna-sample'|) (tptp.southern_blotting_1 X) (tptp.volume_value_1 _let_45) (tptp.time_interval_1 _let_42) (tptp.time_interval_1 _let_40) (tptp.time_interval_1 _let_41) (tptp.time_interval_1 _let_44) (tptp.region_1 _let_46) (tptp.time_interval_1 _let_43) (tptp.tangible_entity_1 _let_27) (tptp.person_1 _let_28) (tptp.entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.nucleic_acid_1 _let_16) (tptp.dna_1 _let_16) (tptp.entity_1 _let_19) (tptp.dna_1 _let_19) (tptp.restriction_fragment_analysis_1 _let_32) (tptp.dna_fingerprint_1 _let_14) (tptp.restriction_fragment_length_polymorphism_1 _let_10) (tptp.restriction_fragment_length_polymorphism_1 _let_12) (tptp.person_1 _let_38) (tptp.tissue_1 _let_36) (tptp.eukaryotic_cell_1 _let_33) (tptp.tangible_entity_1 _let_35) (tptp.nucleus_1 _let_35) (tptp.human_cell_1 _let_31) (tptp.eukaryotic_cell_1 _let_23) (tptp.cell_1 _let_23) (tptp.mammalian_cell_1 _let_23) (tptp.human_cell_1 _let_23) (tptp.tangible_entity_1 _let_25) (tptp.nucleus_1 _let_25) (tptp.chromosome_1 _let_6) (tptp.chromosome_1 _let_2) (tptp.gel_electrophoresis_1 _let_18) (tptp.move_into_1 _let_22) (tptp.blotting_1 _let_22) (tptp.gel_electrophoresis_1 _let_21) (tptp.break_1 _let_17) (tptp.lyse_1 _let_17) (tptp.impair_1 _let_17) (tptp.impair_1 _let_20) (tptp.lyse_1 _let_20) (tptp.tissue_1 _let_39) (tptp.eukaryotic_cell_1 _let_37) (tptp.tangible_entity_1 _let_34) (tptp.nucleus_1 _let_34) (tptp.human_cell_1 _let_30) (tptp.eukaryotic_cell_1 _let_29) (tptp.cell_1 _let_29) (tptp.human_cell_1 _let_29) (tptp.mammalian_cell_1 _let_29) (tptp.tangible_entity_1 _let_26) (tptp.tangible_entity_1 _let_24) (tptp.nucleus_1 _let_24) (tptp.restriction_fragment_analysis_1 _let_15) (tptp.restriction_fragment_analysis_1 _let_13) (tptp.restriction_fragment_analysis_1 _let_11) (tptp.entity_1 _let_7) (tptp.dna_1 _let_7) (tptp.entity_1 _let_3) (tptp.dna_1 _let_3) (tptp.has_region_2 _let_27 _let_46) (tptp.time_before_2 _let_41 _let_44) (tptp.time_before_2 _let_40 _let_42) (tptp.time_before_2 _let_42 _let_43) (tptp.the_scalar_value_2 _let_45 tptp.small_0) (tptp.scalar_unit_class_2 _let_45 tptp.tissue_0) (tptp.has_part_2 _let_16 _let_10) (tptp.has_part_2 _let_19 _let_12) (tptp.minCardinality _let_32 tptp.object_0 |"5"| tptp.restriction_fragment_length_polymorphism_0) (tptp.volume_2 _let_36 _let_45) (tptp.minCardinality _let_36 tptp.has_part_0 |"1000"| tptp.eukaryotic_cell_0) (tptp.by_means_of_2 X _let_32) (tptp.is_inside_2 _let_35 _let_33) (tptp.has_part_2 _let_35 _let_2) (not (= _let_31 _let_23)) (not (= _let_23 _let_31)) (tptp.is_inside_2 _let_25 _let_23) (tptp.has_part_2 _let_25 _let_6) (tptp.time_during_2 _let_18 _let_44) (tptp.time_during_2 _let_22 _let_43) (tptp.time_during_2 _let_21 _let_42) (tptp.time_during_2 _let_17 _let_41) (tptp.time_during_2 _let_20 _let_40) (tptp.has_part_2 _let_38 _let_36) (tptp.has_part_2 _let_36 _let_33) (tptp.has_part_2 _let_33 _let_35) (tptp.result_2 _let_32 _let_14) (tptp.has_part_2 _let_6 _let_19) (tptp.object_2 _let_32 _let_12) (tptp.has_part_2 _let_2 _let_16) (tptp.object_2 _let_32 _let_10) (tptp.has_part_2 _let_28 _let_31) (tptp.has_part_2 _let_28 _let_23) (tptp.base_2 _let_22 _let_27) (tptp.has_part_2 _let_23 _let_25) (tptp.subevent_2 X _let_22) (tptp.next_event_2 _let_21 _let_22) (tptp.subevent_2 X _let_17) (tptp.first_subevent_2 X _let_17) (tptp.object_2 _let_20 _let_19) (tptp.next_event_2 _let_20 _let_21) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_20) (tptp.first_subevent_2 X _let_20) (tptp.object_2 X _let_16) (tptp.object_2 _let_17 _let_16) (tptp.next_event_2 _let_17 _let_18) (tptp.subevent_2 X _let_18) (tptp.object_2 X _let_19) (= _let_36 _let_39) (= _let_33 _let_37) (= _let_35 _let_34) (= _let_32 _let_15) (= _let_19 _let_7) (= _let_32 _let_13) (= _let_16 _let_3) (= _let_32 _let_11) (= _let_31 _let_30) (= _let_23 _let_29) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_21 _let_9) (= _let_22 (tptp.fn_southern_blotting_15 X)) (= _let_21 _let_8) (= _let_20 (tptp.fn_restriction_fragment_analysis_6 X)) (= _let_19 _let_5) (= _let_18 (tptp.fn_restriction_fragment_analysis_8 X)) (= _let_17 (tptp.fn_restriction_fragment_analysis_7 X)) (= _let_16 _let_4) (= _let_16 _let_1) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.forensic_science_1 X) (and (tptp.original_name_2 X |tptp.'Forensic-Science'|) (tptp.user_description_2 X |tptp.'The use of a broad range of sciences to address questions of interest to a criminal or civil legal system.'|) (tptp.concept2words_2 X tptp.forensics) (tptp.concept2words_2 X |tptp.'forensic science'|) (tptp.concept2words_2 X |tptp.'forensic-science'|) (tptp.science_as_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_forest_15 X))) (let ((_let_2 (tptp.fn_plant_20 _let_1))) (let ((_let_3 (tptp.fn_forest_7 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_forest_19 X))) (let ((_let_6 (tptp.fn_metabolic_pathway_1 _let_5))) (let ((_let_7 (tptp.fn_plant_37 _let_1))) (let ((_let_8 (tptp.fn_photosynthesis_34 _let_3))) (let ((_let_9 (tptp.fn_plant_25 _let_1))) (let ((_let_10 (tptp.fn_photosynthesis_1 _let_3))) (let ((_let_11 (tptp.fn_photosynthesis_40 _let_3))) (let ((_let_12 (tptp.fn_forest_11 X))) (let ((_let_13 (tptp.fn_soil_1 _let_12))) (let ((_let_14 (tptp.fn_ecosystem_31 X))) (let ((_let_15 (tptp.fn_forest_13 X))) (let ((_let_16 (tptp.fn_ground_1 _let_15))) (let ((_let_17 (tptp.fn_forest_16 X))) (let ((_let_18 (tptp.fn_leaching_1 _let_17))) (let ((_let_19 (tptp.fn_soil_2 _let_12))) (let ((_let_20 (tptp.fn_mixture_2 _let_12))) (let ((_let_21 (tptp.fn_leaching_3 _let_17))) (let ((_let_22 (tptp.fn_plant_18 _let_1))) (let ((_let_23 (tptp.fn_forest_9 X))) (let ((_let_24 (tptp.fn_forest_18 X))) (let ((_let_25 (tptp.fn_forest_17 X))) (let ((_let_26 (tptp.fn_forest_12 X))) (let ((_let_27 (tptp.fn_forest_10 X))) (let ((_let_28 (tptp.fn_forest_14 X))) (let ((_let_29 (tptp.fn_forest_6 X))) (let ((_let_30 (tptp.fn_forest_5 X))) (let ((_let_31 (tptp.fn_photosynthesis_35 _let_3))) (let ((_let_32 (tptp.fn_leaching_2 _let_17))) (let ((_let_33 (tptp.fn_forest_4 X))) (let ((_let_34 (tptp.fn_forest_8 X))) (let ((_let_35 (tptp.fn_root_hair_1 _let_34))) (let ((_let_36 (tptp.fn_forest_2 X))) (let ((_let_37 (tptp.fn_forest_1 X))) (let ((_let_38 (tptp.fn_forest_3 X))) (=> (tptp.forest_1 X) (and (tptp.original_name_2 X |tptp.'Forest'|) (tptp.user_description_2 X |tptp.'An area with a high density of trees. More broadly, any area with tall, densely packed vegetation, such as a kelp forest.'|) (tptp.concept2words_2 X tptp.forest) (tptp.ecosystem_1 X) (tptp.nutrient_1 _let_37) (tptp.root_1 _let_36) (tptp.nitrogen_fixation_1 _let_38) (tptp.spatial_entity_1 _let_33) (tptp.population_1 _let_30) (tptp.producers_1 _let_29) (tptp.photosynthesis_1 _let_3) (tptp.anabolic_pathway_1 _let_3) (tptp.metabolic_pathway_1 _let_3) (tptp.root_hair_1 _let_34) (tptp.plant_cell_1 _let_23) (tptp.cell_1 _let_23) (tptp.eukaryotic_cell_1 _let_23) (tptp.tangible_entity_1 _let_27) (tptp.substance_1 _let_27) (tptp.mineral_1 _let_27) (tptp.mixture_1 _let_12) (tptp.soil_1 _let_12) (tptp.spatial_entity_1 _let_26) (tptp.stone_1 _let_26) (tptp.tangible_entity_1 _let_15) (tptp.ground_1 _let_15) (tptp.community_1 _let_28) (tptp.organism_1 _let_1) (tptp.plant_1 _let_1) (tptp.leaching_1 _let_17) (tptp.entity_1 _let_25) (tptp.chemical_energy_1 _let_25) (tptp.visible_light_1 _let_24) (tptp.energy_1 _let_24) (tptp.metabolic_pathway_1 _let_5) (tptp.light_reaction_1 _let_5) (tptp.soil_1 _let_35) (tptp.spatial_entity_1 _let_32) (tptp.light_reaction_1 _let_31) (tptp.photosynthesis_1 _let_22) (tptp.anabolic_pathway_1 _let_22) (tptp.metabolic_pathway_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.substance_1 _let_20) (tptp.mineral_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.stone_1 _let_16) (tptp.ground_1 _let_13) (tptp.chemical_energy_1 _let_11) (tptp.chemical_energy_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_energy_1 _let_9) (tptp.visible_light_1 _let_8) (tptp.energy_1 _let_8) (tptp.visible_light_1 _let_7) (tptp.energy_1 _let_7) (tptp.cell_1 _let_6) (tptp.cell_1 _let_4) (tptp.plant_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.base_2 _let_38 _let_12) (tptp.has_part_2 _let_1 _let_36) (tptp.is_above_2 _let_15 _let_33) (tptp.plays_2 _let_27 _let_37) (tptp.has_part_2 _let_36 _let_34) (tptp.base_2 _let_5 _let_23) (tptp.origin_2 _let_17 _let_26) (tptp.element_2 X _let_15) (tptp.object_2 _let_17 _let_27) (tptp.is_outside_2 _let_12 _let_34) (tptp.destination_2 _let_17 _let_33) (tptp.raw_material_2 _let_5 _let_24) (tptp.element_2 X _let_28) (tptp.element_2 _let_28 _let_29) (tptp.element_2 _let_29 _let_30) (tptp.element_2 _let_30 _let_1) (not (= _let_24 _let_25)) (not (= _let_25 _let_24)) (tptp.raw_material_2 _let_3 _let_24) (tptp.base_2 _let_3 _let_23) (tptp.has_part_2 _let_1 _let_23) (tptp.has_function_2 _let_1 _let_3) (tptp.result_2 _let_3 _let_25) (tptp.has_part_2 _let_15 _let_26) (tptp.has_part_2 _let_12 _let_27) (tptp.has_part_2 _let_15 _let_12) (= _let_23 _let_6) (= _let_26 _let_18) (= _let_15 _let_14) (= _let_27 _let_21) (= _let_12 _let_35) (= _let_33 _let_32) (= _let_5 _let_31) (= _let_1 (tptp.fn_ecosystem_28 X)) (= _let_30 (tptp.fn_ecosystem_20 X)) (= _let_29 (tptp.fn_ecosystem_21 X)) (= _let_28 (tptp.fn_ecosystem_18 X)) (= _let_27 _let_20) (= _let_27 _let_19) (= _let_15 _let_13) (= _let_26 _let_16) (= _let_25 _let_10) (= _let_25 _let_11) (= _let_25 _let_9) (= _let_24 _let_8) (= _let_24 _let_7) (= _let_23 _let_4) (= _let_23 _let_2) (= _let_3 _let_22) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_forget_1 X))) (let ((_let_2 (tptp.fn_forget_2 X))) (=> (tptp.forget_1 X) (and (tptp.original_name_2 X |tptp.'Forget'|) (tptp.concept2words_2 X tptp.forget) (tptp.concept2words_2 X tptp.bury) (tptp.concept2words_2 X tptp.block) (tptp.concept2words_2 X |tptp.'draw a blank'|) (tptp.concept2words_2 X tptp.draw_a_blank) (tptp.concept2words_2 X |tptp.'blank out'|) (tptp.concept2words_2 X tptp.blank_out) (tptp.action_1 X) (tptp.information_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_formaldehyde_16 X))) (let ((_let_2 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_3 (tptp.fn_formaldehyde_1 X))) (let ((_let_4 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_5 (tptp.fn_organic_molecule_2 X))) (let ((_let_6 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_7 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_8 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_9 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_10 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_11 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_12 (tptp.fn_organic_molecule_1 X))) (let ((_let_13 (tptp.fn_molecule_11 X))) (let ((_let_14 (tptp.fn_formaldehyde_14 X))) (let ((_let_15 (tptp.fn_formaldehyde_6 X))) (let ((_let_16 (tptp.fn_formaldehyde_11 X))) (let ((_let_17 (tptp.fn_formaldehyde_8 X))) (let ((_let_18 (tptp.fn_formaldehyde_9 X))) (let ((_let_19 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_20 (tptp.fn_formaldehyde_7 X))) (let ((_let_21 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_22 (tptp.fn_formaldehyde_3 X))) (let ((_let_23 (tptp.fn_formaldehyde_10 X))) (let ((_let_24 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_25 (tptp.fn_formaldehyde_4 X))) (let ((_let_26 (tptp.fn_formaldehyde_15 X))) (let ((_let_27 (tptp.fn_formaldehyde_13 X))) (let ((_let_28 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_29 (tptp.fn_formaldehyde_2 X))) (let ((_let_30 (tptp.fn_formaldehyde_5 X))) (let ((_let_31 (tptp.fn_covalent_bond_14 _let_3))) (let ((_let_32 (tptp.fn_formaldehyde_12 X))) (let ((_let_33 (tptp.fn_covalent_bond_17 _let_3))) (=> (tptp.formaldehyde_1 X) (and (tptp.original_name_2 X |tptp.'Formaldehyde'|) (tptp.user_description_2 X |tptp.'A colorless gaseous compound (molecular formula CH2O), the simplest aldehyde'|) (tptp.concept2words_2 X tptp.ch2o) (tptp.concept2words_2 X tptp.formaldehyde) (tptp.organic_molecule_1 X) (tptp.double_bond_1 _let_3) (tptp.hold_together_1 _let_29) (tptp.electron_shell_1 _let_22) (tptp.share_1 _let_25) (tptp.share_1 _let_30) (tptp.atomic_nucleus_1 _let_15) (tptp.electron_shell_1 _let_20) (tptp.center_1 _let_17) (tptp.center_1 _let_18) (tptp.electron_shell_1 _let_23) (tptp.atomic_nucleus_1 _let_16) (tptp.hold_together_1 _let_32) (tptp.oxygen_1 _let_27) (tptp.hydrogen_1 _let_14) (tptp.carbon_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.single_bond_1 _let_1) (tptp.share_1 _let_33) (tptp.hold_together_1 _let_31) (tptp.hold_together_1 _let_28) (tptp.share_1 _let_24) (tptp.electron_shell_1 _let_21) (tptp.electron_shell_1 _let_19) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.center_1 _let_9) (tptp.center_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (not (= _let_3 _let_1)) (tptp.possesses_2 X _let_1) (tptp.exactCardinality X tptp.possesses_0 |"1"| tptp.double_bond_0) (tptp.exactCardinality X tptp.possesses_0 |"2"| tptp.single_bond_0) (tptp.has_part_2 X _let_27) (not (= _let_1 _let_3)) (tptp.has_part_2 X _let_14) (tptp.possesses_2 X _let_3) (tptp.is_between_2 _let_3 _let_27) (tptp.agent_2 _let_30 _let_26) (tptp.has_part_2 X _let_26) (not (= _let_14 _let_26)) (not (= _let_26 _let_14)) (tptp.is_between_2 _let_3 _let_26) (tptp.object_2 _let_32 _let_26) (tptp.object_2 _let_32 _let_27) (not (= _let_27 _let_14)) (tptp.agent_2 _let_25 _let_14) (not (= _let_14 _let_27)) (tptp.has_region_2 _let_27 _let_18) (tptp.agent_2 _let_30 _let_27) (tptp.has_region_2 _let_27 _let_23) (tptp.result_2 _let_30 _let_3) (tptp.has_region_2 _let_27 _let_16) (tptp.agent_2 _let_25 _let_26) (tptp.has_region_2 _let_26 _let_22) (tptp.object_2 _let_29 _let_26) (tptp.is_between_2 _let_1 _let_26) (not (= _let_26 _let_27)) (tptp.object_2 _let_29 _let_27) (tptp.agent_2 _let_29 _let_3) (tptp.has_function_2 _let_3 _let_29) (not (= _let_27 _let_26)) (tptp.result_2 _let_25 _let_1) (tptp.is_at_2 _let_16 _let_18) (tptp.has_region_2 _let_14 _let_20) (not (= _let_20 _let_22)) (not (= _let_22 _let_23)) (not (= _let_22 _let_20)) (not (= _let_23 _let_22)) (tptp.has_region_2 _let_14 _let_17) (not (= _let_18 _let_17)) (not (= _let_17 _let_18)) (tptp.is_between_2 _let_1 _let_14) (tptp.has_region_2 _let_14 _let_15) (tptp.is_at_2 _let_15 _let_17) (not (= _let_16 _let_15)) (not (= _let_15 _let_16)) (= _let_27 _let_13) (= _let_3 (tptp.fn_molecule_10 X)) (= _let_30 _let_33) (= _let_14 _let_5) (= _let_26 _let_12) (= _let_25 _let_33) (= _let_14 _let_4) (= _let_27 _let_11) (= _let_32 _let_31) (= _let_26 _let_11) (= _let_26 _let_4) (= _let_18 _let_9) (= _let_30 _let_24) (= _let_16 _let_7) (= _let_29 _let_28) (= _let_27 _let_2) (= _let_26 _let_10) (= _let_25 _let_24) (= _let_23 _let_19) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_8) (= _let_17 _let_9) (= _let_16 _let_6) (= _let_15 _let_7) (= _let_14 _let_2) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_2) (= _let_2 _let_12) (= _let_12 _let_12) (= _let_12 _let_4) (= _let_4 _let_11) (= _let_11 _let_4) (= _let_4 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.format_equation_1 X) (and (tptp.original_name_2 X |tptp.'Format-Equation'|) (tptp.concept2words_2 X |tptp.'equation of format'|) (tptp.concept2words_2 X |tptp.'format equation'|) (tptp.concept2words_2 X |tptp.'format-equation'|) (tptp.method_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_formation_of_cell_plate_10 X))) (let ((_let_2 (tptp.fn_move_together_1 _let_1))) (let ((_let_3 (tptp.fn_formation_of_cell_plate_15 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_formation_of_cell_plate_13 X))) (let ((_let_6 (tptp.fn_add_2 _let_5))) (let ((_let_7 (tptp.fn_move_together_2 _let_1))) (let ((_let_8 (tptp.fn_formation_of_cell_plate_14 X))) (let ((_let_9 (tptp.fn_move_1 _let_8))) (let ((_let_10 (tptp.fn_add_1 _let_5))) (let ((_let_11 (tptp.fn_formation_of_cell_plate_8 X))) (let ((_let_12 (tptp.fn_create_1 _let_11))) (let ((_let_13 (tptp.fn_move_together_3 _let_1))) (let ((_let_14 (tptp.fn_formation_of_cell_plate_9 X))) (let ((_let_15 (tptp.fn_formation_of_cell_plate_12 X))) (let ((_let_16 (tptp.fn_formation_of_cell_plate_11 X))) (let ((_let_17 (tptp.fn_formation_of_cell_plate_2 X))) (let ((_let_18 (tptp.fn_formation_of_cell_plate_7 X))) (let ((_let_19 (tptp.fn_formation_of_cell_plate_4 X))) (let ((_let_20 (tptp.fn_formation_of_cell_plate_5 X))) (let ((_let_21 (tptp.fn_formation_of_cell_plate_6 X))) (let ((_let_22 (tptp.fn_formation_of_cell_plate_3 X))) (let ((_let_23 (tptp.fn_formation_of_cell_plate_1 X))) (=> (tptp.formation_of_cell_plate_1 X) (and (tptp.original_name_2 X |tptp.'Formation-Of-Cell-Plate'|) (tptp.user_description_2 X |tptp.'During mitosis in plant cells, the process of forming a new cell wall, which results in separation of the two daughter cells.'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X |tptp.'formation of cell plate'|) (tptp.concept2words_2 X |tptp.'formation-of-cell-plate'|) (tptp.mitotic_event_1 X) (tptp.golgi_apparatus_1 _let_23) (tptp.microtubule_1 _let_17) (tptp.plant_cell_1 _let_22) (tptp.cell_wall_material_1 _let_19) (tptp.cell_plate_1 _let_20) (tptp.tangible_entity_1 _let_21) (tptp.cell_wall_material_1 _let_18) (tptp.produce_1 _let_11) (tptp.center_1 _let_14) (tptp.move_together_1 _let_1) (tptp.vesicle_1 _let_16) (tptp.vesicle_1 _let_15) (tptp.fusion_1 _let_5) (tptp.move_1 _let_8) (tptp.move_1 _let_3) (tptp.spatial_entity_1 _let_13) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.result_2 _let_11 _let_15) (tptp.minCardinality _let_11 tptp.result_0 |"2"| tptp.vesicle_0) (tptp.next_event_2 _let_11 _let_1) (tptp.base_2 _let_11 _let_23) (tptp.has_region_2 _let_22 _let_14) (tptp.path_2 _let_1 _let_17) (tptp.subevent_2 _let_1 _let_3) (tptp.subevent_2 _let_1 _let_8) (tptp.first_subevent_2 _let_1 _let_3) (tptp.first_subevent_2 _let_1 _let_8) (tptp.next_event_2 _let_1 _let_5) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_5) (tptp.raw_material_2 X _let_21) (tptp.result_2 X _let_20) (tptp.first_subevent_2 X _let_11) (tptp.is_inside_2 _let_19 _let_16) (not (= _let_16 _let_15)) (tptp.is_inside_2 _let_18 _let_15) (not (= _let_15 _let_16)) (tptp.path_2 _let_8 _let_17) (tptp.destination_2 _let_8 _let_14) (tptp.path_2 _let_3 _let_17) (tptp.destination_2 _let_3 _let_14) (tptp.result_2 _let_11 _let_16) (tptp.base_2 _let_5 _let_15) (tptp.object_2 _let_5 _let_16) (tptp.object_2 _let_8 _let_16) (tptp.object_2 _let_1 _let_16) (tptp.object_2 _let_3 _let_15) (tptp.object_2 _let_1 _let_15) (tptp.destination_2 _let_1 _let_14) (= _let_16 _let_12) (= _let_15 _let_6) (= _let_16 _let_10) (= _let_16 _let_9) (= _let_16 _let_7) (= _let_15 _let_4) (= _let_15 _let_2) (= _let_14 _let_13) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_formation_of_cleavage_furrow_1 X))) (let ((_let_2 (tptp.fn_cleavage_furrow_7 _let_1))) (let ((_let_3 (tptp.fn_formation_of_cleavage_furrow_4 X))) (let ((_let_4 (tptp.fn_formation_of_cleavage_furrow_2 X))) (let ((_let_5 (tptp.fn_contract_1 _let_4))) (let ((_let_6 (tptp.fn_formation_of_cleavage_furrow_3 X))) (=> (tptp.formation_of_cleavage_furrow_1 X) (and (tptp.original_name_2 X |tptp.'Formation-Of-Cleavage-Furrow'|) (tptp.user_description_2 X |tptp.'During mitosis in animal cells, the process of pinching together of the plasma membrane and cytoplasm which results in separation of the two daughter cells.'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X |tptp.'formation of cleavage furrow'|) (tptp.concept2words_2 X |tptp.'formation-of-cleavage-furrow'|) (tptp.mitotic_event_1 X) (tptp.cleavage_furrow_1 _let_1) (tptp.contract_1 _let_4) (tptp.contractile_ring_1 _let_6) (tptp.cell_1 _let_3) (tptp.animal_cell_1 _let_3) (tptp.tangible_entity_1 _let_5) (tptp.cell_1 _let_2) (tptp.animal_cell_1 _let_2) (tptp.subevent_2 X _let_4) (tptp.result_2 X _let_1) (tptp.has_part_2 _let_3 _let_6) (tptp.base_2 _let_4 _let_6) (tptp.is_inside_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X3 $$unsorted) (X2 $$unsorted) (X4 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.result_2 X2 X1) (tptp.object_2 X2 X3) (tptp.base_2 X2 X4) (tptp.water_molecule_1 X1) (tptp.hydrogen_ion_1 X3) (tptp.add_1 X2) (tptp.hydroxide_ion_1 X4) (tptp.condensation_reaction_1 X)) (and (tptp.formation_of_water_molecule_1 X) (= (tptp.fn_formation_of_water_molecule_8 X) X4) (= (tptp.fn_formation_of_water_molecule_6 X) X2) (= (tptp.fn_formation_of_water_molecule_7 X) X3) (= (tptp.fn_formation_of_water_molecule_5 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_condensation_reaction_2 X))) (let ((_let_2 (tptp.fn_condensation_reaction_3 X))) (let ((_let_3 (tptp.fn_endergonic_reaction_9 X))) (let ((_let_4 (tptp.fn_formation_of_water_molecule_3 X))) (let ((_let_5 (tptp.fn_formation_of_water_molecule_4 X))) (let ((_let_6 (tptp.fn_formation_of_water_molecule_5 X))) (let ((_let_7 (tptp.fn_formation_of_water_molecule_6 X))) (let ((_let_8 (tptp.fn_add_2 _let_7))) (let ((_let_9 (tptp.fn_formation_of_water_molecule_8 X))) (let ((_let_10 (tptp.fn_add_1 _let_7))) (let ((_let_11 (tptp.fn_formation_of_water_molecule_7 X))) (let ((_let_12 (tptp.fn_formation_of_water_molecule_1 X))) (=> (tptp.formation_of_water_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Formation-Of-Water-Molecule'|) (tptp.user_description_2 X |tptp.'Condensation of H+ and OH- to form water.'|) (tptp.concept2words_2 X |tptp.'synthesis of water'|) (tptp.concept2words_2 X |tptp.'formation of water'|) (tptp.concept2words_2 X |tptp.'condensation reaction of water'|) (tptp.concept2words_2 X |tptp.'water synthesis'|) (tptp.concept2words_2 X |tptp.'water formation'|) (tptp.concept2words_2 X |tptp.'form a water molecule'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'formation of water molecule'|) (tptp.concept2words_2 X |tptp.'formation-of-water-molecule'|) (tptp.condensation_reaction_1 X) (tptp.free_energy_1 _let_12) (tptp.molecule_1 _let_4) (tptp.molecule_1 _let_5) (tptp.water_molecule_1 _let_6) (tptp.add_1 _let_7) (tptp.hydrogen_ion_1 _let_11) (tptp.hydroxide_ion_1 _let_9) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.result_2 _let_7 _let_6) (tptp.result_2 X _let_12) (tptp.subevent_2 X _let_7) (tptp.raw_material_2 X _let_9) (tptp.object_2 _let_7 _let_11) (tptp.base_2 _let_7 _let_9) (tptp.result_2 X _let_6) (not (= _let_6 _let_4)) (not (= _let_4 _let_6)) (not (= _let_6 _let_5)) (not (= _let_5 _let_6)) (tptp.raw_material_2 X _let_5) (tptp.raw_material_2 X _let_4) (not (= _let_5 _let_4)) (not (= _let_4 _let_5)) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_6 _let_1) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_2) (= _let_5 _let_1) (= _let_4 (tptp.fn_condensation_reaction_1 X)) (= _let_1 _let_3) (= _let_3 _let_1) (= _let_2 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_2 (tptp.fn_organic_molecule_2 X))) (let ((_let_3 (tptp.fn_formic_acid_1 X))) (=> (tptp.formic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Formic-Acid'|) (tptp.user_description_2 X |tptp.'Formic acid (also called methanoic acid) is the simplest carboxylic acid. Its formula is HCOOH or HCO2H. It is an important intermediate in chemical synthesis and occurs naturally, most notably in the venom of bee and ant stings.'|) (tptp.concept2words_2 X |tptp.'formic acid'|) (tptp.concept2words_2 X |tptp.'formic-acid'|) (tptp.carboxylic_acid_1 X) (not (tptp.acetic_acid_1 X)) (not (tptp.pyruvic_acid_1 X)) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.formin_1 X) (and (tptp.original_name_2 X |tptp.'Formin'|) (tptp.user_description_2 X |tptp.'Protein first identified in yeast cells which plays a role in the growth of cytoskeletal elements in cell division.'|) (tptp.concept2words_2 X tptp.formin) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_reaction_2 X))) (let ((_let_2 (tptp.fn_forward_reaction_7 X))) (let ((_let_3 (tptp.fn_make_contact_2 _let_2))) (let ((_let_4 (tptp.fn_forward_reaction_8 X))) (let ((_let_5 (tptp.fn_chemical_3 _let_4))) (let ((_let_6 (tptp.fn_make_contact_1 _let_2))) (let ((_let_7 (tptp.fn_forward_reaction_6 X))) (let ((_let_8 (tptp.fn_forward_reaction_5 X))) (let ((_let_9 (tptp.fn_forward_reaction_1 X))) (let ((_let_10 (tptp.fn_forward_reaction_2 X))) (=> (tptp.forward_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Forward-Reaction'|) (tptp.user_description_2 X |tptp.'A chemical reaction symbolized by a chemical equation in which the reactants and product are separated by an arrow that points to the right, toward the products.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of forward'|) (tptp.concept2words_2 X |tptp.'forward reaction'|) (tptp.concept2words_2 X |tptp.'forward-reaction'|) (tptp.chemical_reaction_1 X) (tptp.concentration_value_1 _let_9) (tptp.rate_value_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.collide_1 _let_2) (tptp.chemical_1 _let_4) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.same_type_2 _let_8 _let_7) (tptp.same_type_2 _let_7 _let_8) (tptp.rate_2 _let_2 _let_10) (tptp.concentration_2 _let_4 _let_9) (tptp.directly_proportional_2 _let_10 _let_9) (tptp.raw_material_2 X _let_8) (tptp.base_2 _let_2 _let_7) (tptp.object_2 _let_2 _let_8) (tptp.has_part_2 _let_4 _let_8) (tptp.raw_material_2 X _let_7) (tptp.intensity_2 _let_2 |tptp.'*strong'|) (= _let_7 _let_3) (= _let_8 _let_6) (= _let_8 _let_5) (= _let_7 _let_1) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fossil_1 X) (and (tptp.original_name_2 X |tptp.'Fossil'|) (tptp.user_description_2 X |tptp.'Any remains, impression, or trace of a living thing of a former geologic age.'|) (tptp.concept2words_2 X tptp.fossil) (tptp.geologic_entity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fossil_fuel_8 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_fossil_fuel_7 X))) (let ((_let_4 (tptp.fn_fuel_7 _let_3))) (let ((_let_5 (tptp.fn_produce_1 _let_1))) (let ((_let_6 (tptp.fn_fossil_fuel_9 X))) (let ((_let_7 (tptp.fn_fossil_fuel_2 X))) (let ((_let_8 (tptp.fn_fossil_fuel_1 X))) (let ((_let_9 (tptp.fn_fossil_fuel_3 X))) (let ((_let_10 (tptp.fn_fossil_fuel_4 X))) (let ((_let_11 (tptp.fn_fossil_fuel_5 X))) (=> (tptp.fossil_fuel_1 X) (and (tptp.original_name_2 X |tptp.'Fossil-Fuel'|) (tptp.user_description_2 X |tptp.'Fossil fuel is the fuel produced from the dead remains of the ancient organisms. They comprises of coal, oil, gas etc.'|) (tptp.concept2words_2 X |tptp.'organic fuel'|) (tptp.concept2words_2 X |tptp.'organic-fuel'|) (tptp.concept2words_2 X |tptp.'fuel of fossil'|) (tptp.concept2words_2 X |tptp.'fossil fuel'|) (tptp.concept2words_2 X |tptp.'fossil-fuel'|) (tptp.organic_entity_1 X) (tptp.substance_1 X) (tptp.nonrenewable_resource_1 _let_8) (tptp.hydrocarbon_molecule_1 _let_7) (tptp.earth_1 _let_9) (tptp.region_1 _let_10) (tptp.rate_value_1 _let_11) (tptp.fuel_1 _let_3) (tptp.produce_1 _let_1) (tptp.dead_organism_1 _let_6) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.the_scalar_value_2 _let_11 tptp.slow_0) (tptp.scalar_unit_class_2 _let_11 tptp.create_0) (tptp.rate_2 _let_1 _let_11) (tptp.site_2 _let_1 _let_10) (tptp.is_inside_2 _let_10 _let_9) (tptp.plays_2 X _let_8) (tptp.has_part_2 X _let_7) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.hydrocarbon_molecule_0) (tptp.raw_material_2 _let_1 _let_6) (tptp.plays_2 X _let_3) (tptp.result_2 _let_1 X) (= _let_6 _let_5) (= X _let_4) (= X _let_2) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fossil_record_1 X) (and (tptp.original_name_2 X |tptp.'Fossil-Record'|) (tptp.user_description_2 X |tptp.'The collection of fossils found that, although incomplete, is substantial and chronicles evolutionary history.'|) (tptp.concept2words_2 X |tptp.'record of fossil'|) (tptp.concept2words_2 X |tptp.'fossil record'|) (tptp.concept2words_2 X |tptp.'fossil-record'|) (tptp.information_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.cdna_library_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.ethics_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X))))) (forall ((X $$unsorted)) (=> (tptp.founder_effect_1 X) (and (tptp.original_name_2 X |tptp.'Founder-Effect'|) (tptp.user_description_2 X |tptp.'In population genetics, the founder effect is the loss of genetic diversity when a new population arises from a small number of members from a larger population. This form of genetic drift occurs because the alleles of the new population represent only a small fraction of the genetic diversity of the larger population.'|) (tptp.concept2words_2 X |tptp.'effect of founder'|) (tptp.concept2words_2 X |tptp.'founder effect'|) (tptp.concept2words_2 X |tptp.'founder-effect'|) (tptp.genetic_drift_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fovea_1 X) (and (tptp.original_name_2 X |tptp.'Fovea'|) (tptp.user_description_2 X |tptp.'The area of the retina that contains the highest concentration of cones and is responsible for sharp central vision.'|) (tptp.concept2words_2 X tptp.fovea) (tptp.organ_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_foxp2_gene_21 X))) (let ((_let_2 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_3 (tptp.fn_foxp2_gene_13 X))) (let ((_let_4 (tptp.fn_share_1 _let_3))) (let ((_let_5 (tptp.fn_foxp2_gene_26 X))) (let ((_let_6 (tptp.fn_share_1 _let_5))) (let ((_let_7 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_8 (tptp.fn_share_3 _let_3))) (let ((_let_9 (tptp.fn_share_3 _let_5))) (let ((_let_10 (tptp.fn_foxp2_gene_35 X))) (let ((_let_11 (tptp.fn_intron_6 _let_10))) (let ((_let_12 (tptp.fn_regulatory_gene_9 X))) (let ((_let_13 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_14 (tptp.fn_phosphodiester_bond_38 _let_1))) (let ((_let_15 (tptp.fn_foxp2_gene_18 X))) (let ((_let_16 (tptp.fn_kinetic_energy_2 _let_15))) (let ((_let_17 (tptp.fn_foxp2_gene_16 X))) (let ((_let_18 (tptp.fn_attract_2 _let_17))) (let ((_let_19 (tptp.fn_foxp2_gene_19 X))) (let ((_let_20 (tptp.fn_gene_related_aggregates_1 _let_19))) (let ((_let_21 (tptp.fn_foxp2_gene_25 X))) (let ((_let_22 (tptp.fn_dna_strand_14 _let_21))) (let ((_let_23 (tptp.fn_phosphodiester_bond_6 _let_1))) (let ((_let_24 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_25 (tptp.fn_phosphodiester_bond_23 _let_1))) (let ((_let_26 (tptp.fn_foxp2_gene_22 X))) (let ((_let_27 (tptp.fn_oxygen_8 _let_26))) (let ((_let_28 (tptp.fn_oxygen_1 _let_26))) (let ((_let_29 (tptp.fn_dna_strand_39 _let_21))) (let ((_let_30 (tptp.fn_dna_strand_38 _let_21))) (let ((_let_31 (tptp.fn_foxp2_gene_14 X))) (let ((_let_32 (tptp.fn_foxp2_gene_34 X))) (let ((_let_33 (tptp.fn_foxp2_gene_28 X))) (let ((_let_34 (tptp.fn_foxp2_gene_30 X))) (let ((_let_35 (tptp.fn_foxp2_gene_29 X))) (let ((_let_36 (tptp.fn_foxp2_gene_32 X))) (let ((_let_37 (tptp.fn_foxp2_gene_31 X))) (let ((_let_38 (tptp.fn_foxp2_gene_38 X))) (let ((_let_39 (tptp.fn_foxp2_gene_33 X))) (let ((_let_40 (tptp.fn_foxp2_gene_17 X))) (let ((_let_41 (tptp.fn_kinetic_energy_1 _let_15))) (let ((_let_42 (tptp.fn_foxp2_gene_27 X))) (let ((_let_43 (tptp.fn_foxp2_gene_23 X))) (let ((_let_44 (tptp.fn_foxp2_gene_15 X))) (let ((_let_45 (tptp.fn_hydrophilic_region_2 _let_44))) (let ((_let_46 (tptp.fn_foxp2_gene_20 X))) (let ((_let_47 (tptp.fn_organism_3 _let_46))) (let ((_let_48 (tptp.fn_foxp2_gene_24 X))) (let ((_let_49 (tptp.fn_foxp2_gene_8 X))) (let ((_let_50 (tptp.fn_foxp2_gene_3 X))) (let ((_let_51 (tptp.fn_foxp2_gene_7 X))) (let ((_let_52 (tptp.fn_foxp2_gene_4 X))) (let ((_let_53 (tptp.fn_foxp2_gene_9 X))) (let ((_let_54 (tptp.fn_foxp2_gene_6 X))) (let ((_let_55 (tptp.fn_foxp2_gene_2 X))) (let ((_let_56 (tptp.fn_foxp2_gene_10 X))) (=> (tptp.foxp2_gene_1 X) (and (tptp.original_name_2 X |tptp.'FOXP2-Gene'|) (tptp.user_description_2 X |tptp.'Forkhead box protein P2 also known as FOXP2 is a protein that in humans is encoded by the FOXP2 gene.'|) (tptp.concept2words_2 X |tptp.'foxp2 gene'|) (tptp.concept2words_2 X |tptp.'foxp2-gene'|) (tptp.regulatory_gene_1 X) (tptp.origin_of_replication_1 _let_55) (tptp.centromere_1 _let_50) (tptp.density_value_1 _let_52) (tptp.system_1 (tptp.fn_foxp2_gene_5 X)) (tptp.deoxyribose_1 _let_54) (tptp.chromosome_arm_1 _let_51) (tptp.chromosome_arm_1 _let_49) (tptp.quantity_value_1 _let_53) (tptp.speed_value_1 _let_56) (tptp.unequal_sharing_1 _let_3) (tptp.hydrogen_1 _let_31) (tptp.hydrophilic_region_1 _let_44) (tptp.attract_1 _let_17) (tptp.electron_1 _let_40) (tptp.valence_electron_1 _let_40) (tptp.kinetic_energy_1 _let_15) (tptp.genotype_1 _let_19) (tptp.gene_related_aggregates_1 _let_19) (tptp.person_1 _let_46) (tptp.phosphodiester_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.oxygen_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.nitrogen_1 _let_43) (tptp.number_5_prime_carbon_1 _let_48) (tptp.dna_strand_1 _let_21) (tptp.unequal_sharing_1 _let_5) (tptp.constant_motion_1 _let_42) (tptp.entity_1 _let_33) (tptp.tangible_entity_1 _let_33) (tptp.electron_1 _let_33) (tptp.valence_electron_1 _let_33) (tptp.size_value_1 _let_35) (tptp.size_value_1 _let_34) (tptp.monomer_1 _let_37) (tptp.monomer_1 _let_36) (tptp.exon_1 _let_39) (tptp.exon_1 _let_32) (tptp.intron_1 _let_10) (tptp.code_for_1 _let_38) (tptp.genotype_1 _let_47) (tptp.attract_1 _let_45) (tptp.constant_motion_1 _let_41) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.carbon_1 _let_29) (tptp.valence_electron_1 _let_28) (tptp.valence_electron_1 _let_27) (tptp.electron_1 _let_25) (tptp.valence_electron_1 _let_25) (tptp.share_1 _let_24) (tptp.share_1 _let_23) (tptp.gene_1 _let_22) (tptp.gene_1 _let_20) (tptp.entity_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.electron_1 _let_14) (tptp.valence_electron_1 _let_14) (tptp.valence_electron_1 _let_13) (tptp.exon_1 _let_11) (tptp.entity_1 _let_9) (tptp.entity_1 _let_8) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.speed_2 _let_42 _let_56) (tptp.directly_proportional_2 _let_56 _let_53) (tptp.density_2 X _let_52) (tptp.has_function_2 X _let_17) (tptp.has_region_2 X _let_44) (tptp.has_region_2 X _let_50) (tptp.has_region_2 X _let_55) (tptp.has_part_2 _let_21 _let_54) (tptp.quantity_2 _let_15 _let_53) (tptp.the_scalar_value_2 _let_52 tptp.loose_0) (tptp.scalar_unit_class_2 _let_52 tptp.chromosome_0) (tptp.is_between_2 _let_50 _let_51) (tptp.is_between_2 _let_50 _let_49) (tptp.agent_2 _let_5 _let_31) (tptp.agent_2 _let_3 _let_31) (tptp.agent_2 _let_5 _let_26) (tptp.agent_2 _let_3 _let_26) (tptp.has_part_2 _let_21 _let_48) (tptp.has_part_2 _let_46 _let_19) (tptp.has_part_2 _let_21 X) (tptp.element_2 _let_19 X) (tptp.site_2 _let_17 _let_44) (tptp.has_part_2 _let_26 _let_40) (tptp.agent_2 _let_17 X) (tptp.is_between_2 _let_1 _let_43) (tptp.agent_2 _let_5 _let_43) (tptp.object_2 _let_5 _let_33) (tptp.possesses_2 X _let_15) (tptp.object_2 _let_42 X) (tptp.result_2 _let_5 _let_1) (tptp.object_2 _let_5 _let_40) (not (= _let_33 _let_40)) (not (= _let_40 _let_33)) (tptp.is_between_2 _let_10 _let_39) (tptp.element_2 X _let_36) (tptp.has_function_2 X _let_38) (tptp.element_2 X _let_10) (tptp.next_element_2 _let_10 _let_32) (tptp.element_2 X _let_32) (tptp.element_2 X _let_39) (tptp.next_element_2 _let_39 _let_10) (tptp.donor_2 _let_38 X) (tptp.agent_2 _let_38 X) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_36) (tptp.first_element_2 X _let_36) (tptp.size_2 X _let_34) (tptp.greater_than_2 _let_34 _let_35) (tptp.size_2 _let_36 _let_35) (tptp.next_element_2 _let_36 _let_37) (tptp.element_2 X _let_37) (tptp.has_part_2 _let_26 _let_33) (not (= _let_26 _let_31)) (not (= _let_31 _let_26)) (tptp.is_between_2 _let_1 _let_26) (tptp.is_between_2 _let_10 _let_32) (= _let_31 _let_9) (= _let_31 _let_8) (= _let_26 _let_6) (= _let_26 _let_4) (= _let_48 _let_30) (= _let_48 _let_29) (= _let_19 _let_47) (= X _let_22) (= X _let_20) (= _let_17 _let_45) (= _let_40 _let_28) (= _let_40 _let_27) (= X _let_18) (= _let_5 _let_24) (= _let_43 _let_7) (= _let_42 _let_41) (= X _let_16) (= _let_33 _let_14) (= _let_40 _let_25) (= _let_5 _let_23) (= (tptp.fn_foxp2_gene_36 X) (tptp.fn_regulatory_gene_12 X)) (= (tptp.fn_foxp2_gene_37 X) (tptp.fn_regulatory_gene_13 X)) (= _let_39 (tptp.fn_regulatory_gene_7 X)) (= _let_32 _let_12) (= _let_10 (tptp.fn_regulatory_gene_8 X)) (= _let_1 (tptp.fn_regulatory_gene_6 X)) (= _let_38 (tptp.fn_regulatory_gene_1 X)) (= _let_37 (tptp.fn_regulatory_gene_10 X)) (= _let_36 (tptp.fn_regulatory_gene_11 X)) (= _let_35 (tptp.fn_regulatory_gene_4 X)) (= _let_34 (tptp.fn_regulatory_gene_5 X)) (= _let_33 _let_13) (= _let_32 _let_11) (= _let_31 _let_7) (= _let_26 _let_2) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_13) (= _let_13 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fragmentation_1 X) (and (tptp.original_name_2 X |tptp.'Fragmentation'|) (tptp.user_description_2 X |tptp.'A method of asexual multiplication in which a single organism breaks into fragments that regenerate into new individuals.'|) (tptp.concept2words_2 X tptp.fragment) (tptp.concept2words_2 X tptp.fragmentation) (tptp.reproductive_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_frameshift_mutation_4 X))) (let ((_let_2 (tptp.fn_frameshift_mutation_3 X))) (let ((_let_3 (tptp.fn_frameshift_mutation_1 X))) (let ((_let_4 (tptp.fn_frameshift_mutation_2 X))) (=> (tptp.frameshift_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Frameshift-Mutation'|) (tptp.user_description_2 X |tptp.'A type of mutation that occurs when the number of nucleotides inserted into or deleted from a gene is not divisable by three. This results in a different translation from the original DNA transcript and a different amino acid sequence.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'frameshift mutation'|) (tptp.concept2words_2 X |tptp.'frameshift-mutation'|) (tptp.mutation_1 X) (tptp.reading_frame_1 _let_3) (tptp.codon_1 _let_4) (tptp.change_1 _let_2) (tptp.dna_damage_1 _let_1) (tptp.has_part_2 _let_3 _let_4) (tptp.causes_2 X _let_2) (tptp.subevent_2 X _let_2) (tptp.by_means_of_2 _let_2 X) (tptp.object_2 _let_2 _let_4) (tptp.object_2 _let_2 _let_3) (tptp.minCardinality _let_2 tptp.object_0 |"1"| tptp.codon_0) (tptp.causes_2 _let_2 _let_1)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_francium_9 X))) (let ((_let_2 (tptp.fn_francium_12 X))) (let ((_let_3 (tptp.fn_francium_10 X))) (let ((_let_4 (tptp.fn_francium_11 X))) (let ((_let_5 (tptp.fn_francium_4 X))) (let ((_let_6 (tptp.fn_francium_5 X))) (let ((_let_7 (tptp.fn_francium_3 X))) (=> (tptp.francium_1 X) (and (tptp.original_name_2 X |tptp.'Francium'|) (tptp.user_description_2 X |tptp.'Francium is a metal atom with atomic number 87. It is represented by the symbol Fr.'|) (tptp.concept2words_2 X tptp.francium) (tptp.concept2words_2 X |tptp.'Fr'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"136"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"87"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"87"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"1"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"0.7"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"223"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"87"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"223"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_francium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_francium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_francium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_franklin_x_ray_diffraction_experiment_2 X))) (let ((_let_2 (tptp.fn_franklin_x_ray_diffraction_experiment_1 X))) (=> (tptp.franklin_x_ray_diffraction_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Franklin-X-ray-Diffraction-Experiment'|) (tptp.user_description_2 X |tptp.'X-ray diffraction was a method used by Rosalind Franklin to produce an image of the DNA molecule. This image was the key in determining the structure of the molecule.'|) (tptp.concept2words_2 X |tptp.'franklin x ray crystallography'|) (tptp.concept2words_2 X |tptp.'franklin x-ray crystallography'|) (tptp.concept2words_2 X |tptp.'perform a franklin x ray diffraction experiment'|) (tptp.concept2words_2 X |tptp.'perform a franklin x-ray diffraction experiment'|) (tptp.concept2words_2 X |tptp.'franklin x ray diffraction experiment'|) (tptp.concept2words_2 X |tptp.'franklin-x-ray-diffraction-experiment'|) (tptp.x_ray_crystallography_1 X) (tptp.experiment_1 X) (tptp.dna_double_helix_1 _let_2) (tptp.x_ray_crystallography_1 _let_1) (tptp.result_2 X _let_2) (tptp.subevent_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_free_energy_2 X))) (let ((_let_2 (tptp.fn_work_1 _let_1))) (let ((_let_3 (tptp.fn_free_energy_1 X))) (=> (tptp.free_energy_1 X) (and (tptp.original_name_2 X |tptp.'Free-Energy'|) (tptp.user_description_2 X |tptp.'The portion of the energy in a biological system that can be used to perform work under conditions of uniform temperature and pressure.'|) (tptp.concept2words_2 X tptp.g) (tptp.concept2words_2 X |tptp.'gibbs free energy'|) (tptp.concept2words_2 X |tptp.'gibbs-free-energy'|) (tptp.concept2words_2 X |tptp.'energy of free'|) (tptp.concept2words_2 X |tptp.'free energy'|) (tptp.concept2words_2 X |tptp.'free-energy'|) (tptp.energy_1 X) (tptp.role_1 _let_3) (tptp.work_1 _let_1) (tptp.energy_1 _let_2) (tptp.plays_2 X _let_3) (tptp.in_event_2 _let_3 _let_1) (tptp.raw_material_2 _let_1 X) (= X _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.free_energy_change_value_1 X) (and (tptp.original_name_2 X |tptp.'Free-Energy-Change-Value'|) (tptp.concept2words_2 X |tptp.'free energy change'|) (tptp.concept2words_2 X |tptp.'free-energy-change'|) (tptp.concept2words_2 X |tptp.'free energy change value'|) (tptp.concept2words_2 X |tptp.'free-energy-change-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_free_ribosome_3 X))) (let ((_let_2 (tptp.fn_p_site_4 _let_1))) (let ((_let_3 (tptp.fn_free_ribosome_12 X))) (let ((_let_4 (tptp.fn_translation_20 _let_3))) (let ((_let_5 (tptp.fn_ribosome_9 X))) (let ((_let_6 (tptp.fn_p_site_6 _let_1))) (let ((_let_7 (tptp.fn_free_ribosome_1 X))) (let ((_let_8 (tptp.fn_free_ribosome_2 X))) (let ((_let_9 (tptp.fn_free_ribosome_4 X))) (let ((_let_10 (tptp.fn_free_ribosome_5 X))) (let ((_let_11 (tptp.fn_free_ribosome_6 X))) (let ((_let_12 (tptp.fn_free_ribosome_8 X))) (let ((_let_13 (tptp.fn_synthesis_of_protein_13 _let_12))) (let ((_let_14 (tptp.fn_synthesis_of_protein_16 _let_12))) (let ((_let_15 (tptp.fn_free_ribosome_7 X))) (let ((_let_16 (tptp.fn_free_ribosome_11 X))) (let ((_let_17 (tptp.fn_cytosol_1 _let_16))) (let ((_let_18 (tptp.fn_free_ribosome_10 X))) (let ((_let_19 (tptp.fn_anabolic_pathway_5 _let_12))) (let ((_let_20 (tptp.fn_free_ribosome_9 X))) (=> (tptp.free_ribosome_1 X) (and (tptp.original_name_2 X |tptp.'Free-Ribosome'|) (tptp.user_description_2 X |tptp.'Ribosomes which are found in the cytosol of a cell, not attached to any organelle or membrane.'|) (tptp.concept2words_2 X |tptp.'ribosome of free'|) (tptp.concept2words_2 X |tptp.'free ribosome'|) (tptp.concept2words_2 X |tptp.'free-ribosome'|) (tptp.eukaryotic_ribosome_1 X) (not (tptp.bound_ribosome_1 X)) (tptp.translation_initiation_1 _let_7) (tptp.attach_1 _let_8) (tptp.p_site_1 _let_1) (tptp.move_1 _let_9) (tptp.spatial_entity_1 _let_10) (tptp.methionine_1 _let_10) (tptp.initiator_trna_1 _let_11) (tptp.protein_1 _let_15) (tptp.anabolic_pathway_1 _let_12) (tptp.synthesis_of_protein_1 _let_12) (tptp.protein_enzyme_1 _let_20) (tptp.cytoplasm_1 _let_18) (tptp.cytosol_1 _let_16) (tptp.translation_1 _let_3) (tptp.chemical_entity_1 _let_19) (tptp.cytoplasm_1 _let_17) (tptp.protein_1 _let_14) (tptp.translation_1 _let_13) (tptp.attach_1 _let_6) (tptp.ribosome_1 _let_4) (tptp.ribosome_1 _let_2) (tptp.agent_2 _let_12 X) (tptp.site_2 _let_12 _let_18) (tptp.result_2 _let_12 _let_20) (tptp.agent_2 _let_3 X) (tptp.has_part_2 _let_18 _let_16) (tptp.has_region_2 X _let_1) (tptp.site_2 _let_8 _let_1) (tptp.subevent_2 _let_12 _let_3) (tptp.first_subevent_2 _let_12 _let_3) (tptp.has_function_2 X _let_12) (tptp.is_at_2 _let_10 _let_11) (tptp.object_2 _let_8 _let_11) (tptp.site_2 _let_7 X) (tptp.subevent_2 _let_7 _let_8) (tptp.agent_2 _let_8 X) (tptp.destination_2 _let_9 X) (tptp.object_2 _let_9 _let_10) (= _let_20 _let_19) (= X _let_4) (= _let_18 _let_17) (= X _let_2) (= _let_8 _let_6) (= _let_15 _let_14) (= _let_3 _let_13) (= _let_12 (tptp.fn_ribosome_2 X)) (= _let_11 (tptp.fn_ribosome_7 X)) (= _let_10 (tptp.fn_ribosome_10 X)) (= _let_9 (tptp.fn_ribosome_11 X)) (= _let_8 _let_5) (= _let_7 (tptp.fn_ribosome_6 X)) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.technique_1 X) (tptp.biomembrane_1 X1)) (and (tptp.freeze_fracture_of_membrane_1 X) (= (tptp.fn_freeze_fracture_of_membrane_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_freeze_fracture_of_membrane_12 X))) (let ((_let_2 (tptp.fn_freezing_1 _let_1))) (let ((_let_3 (tptp.fn_freeze_fracture_of_membrane_4 X))) (let ((_let_4 (tptp.fn_impair_1 _let_3))) (let ((_let_5 (tptp.fn_freeze_fracture_of_membrane_11 X))) (let ((_let_6 (tptp.fn_move_apart_1 _let_5))) (let ((_let_7 (tptp.fn_freeze_fracture_of_membrane_9 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_freeze_fracture_of_membrane_10 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_move_apart_2 _let_5))) (let ((_let_12 (tptp.fn_freezing_2 _let_1))) (let ((_let_13 (tptp.fn_freeze_fracture_of_membrane_6 X))) (let ((_let_14 (tptp.fn_freeze_fracture_of_membrane_5 X))) (let ((_let_15 (tptp.fn_freeze_fracture_of_membrane_7 X))) (let ((_let_16 (tptp.fn_freeze_fracture_of_membrane_8 X))) (let ((_let_17 (tptp.fn_freeze_fracture_of_membrane_3 X))) (let ((_let_18 (tptp.fn_freeze_fracture_of_membrane_1 X))) (=> (tptp.freeze_fracture_of_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Freeze-Fracture-Of-Membrane'|) (tptp.user_description_2 X |tptp.'Freeze-fracture splits a membrane along the middle of the phospholipid bilayer.'|) (tptp.concept2words_2 X |tptp.'freeze fracture'|) (tptp.concept2words_2 X |tptp.'freeze-fracture'|) (tptp.concept2words_2 X |tptp.'freeze fracturing'|) (tptp.concept2words_2 X |tptp.'freeze-fracturing'|) (tptp.concept2words_2 X |tptp.'freeze fracture technique'|) (tptp.concept2words_2 X |tptp.'freeze-fracture-technique'|) (tptp.concept2words_2 X |tptp.'freeze fracture of membrane'|) (tptp.concept2words_2 X |tptp.'freeze-fracture-of-membrane'|) (tptp.technique_1 X) (tptp.biomembrane_1 _let_18) (tptp.damage_1 _let_17) (tptp.divide_1 _let_3) (tptp.phospholipid_bilayer_1 _let_14) (tptp.phospholipid_bilayer_1 _let_13) (tptp.phospholipid_layer_1 _let_15) (tptp.phospholipid_layer_1 _let_16) (tptp.move_1 _let_7) (tptp.move_1 _let_9) (tptp.move_apart_1 _let_5) (tptp.freezing_1 _let_1) (tptp.liquid_substance_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.solid_substance_1 _let_2) (tptp.next_event_2 _let_3 _let_17) (tptp.result_2 _let_3 _let_16) (tptp.result_2 _let_3 _let_15) (tptp.object_2 X _let_18) (tptp.first_subevent_2 X _let_1) (tptp.first_subevent_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_17) (tptp.is_along_2 _let_15 _let_16) (not (= _let_15 _let_16)) (tptp.is_along_2 _let_16 _let_15) (not (= _let_16 _let_15)) (tptp.subevent_2 _let_5 _let_7) (tptp.subevent_2 _let_5 _let_9) (tptp.first_subevent_2 _let_5 _let_7) (tptp.first_subevent_2 _let_5 _let_9) (tptp.next_event_2 _let_1 _let_3) (tptp.object_2 _let_3 _let_14) (tptp.object_2 _let_7 _let_15) (tptp.object_2 _let_5 _let_16) (tptp.object_2 _let_9 _let_16) (tptp.object_2 _let_5 _let_15) (tptp.base_2 _let_1 _let_13) (tptp.object_2 _let_1 _let_13) (tptp.result_2 _let_1 _let_14) (= _let_14 _let_4) (= _let_15 _let_8) (= _let_16 _let_11) (= _let_16 _let_10) (= _let_15 _let_6) (= _let_14 _let_2) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.object_2 X X2) (tptp.solid_substance_1 X1) (tptp.change_of_state_1 X) (tptp.liquid_substance_1 X2)) (and (tptp.freezing_1 X) (= (tptp.fn_freezing_2 X) X2) (= (tptp.fn_freezing_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_freezing_2 X))) (let ((_let_2 (tptp.fn_freezing_1 X))) (=> (tptp.freezing_1 X) (and (tptp.original_name_2 X |tptp.'Freezing'|) (tptp.user_description_2 X |tptp.'The process of cooling a substance to the point in which it changes to its solid state.'|) (tptp.concept2words_2 X |tptp.'making ice'|) (tptp.concept2words_2 X tptp.freeze) (tptp.concept2words_2 X tptp.freezing) (tptp.change_of_state_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.solid_substance_1 _let_2) (tptp.liquid_substance_1 _let_1) (tptp.base_2 X _let_1) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_freezing_of_water_24 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_water_83 _let_1))) (let ((_let_4 (tptp.fn_freezing_of_water_19 X))) (let ((_let_5 (tptp.fn_move_1 _let_4))) (let ((_let_6 (tptp.fn_water_106 _let_1))) (let ((_let_7 (tptp.fn_water_80 _let_1))) (let ((_let_8 (tptp.fn_water_81 _let_1))) (let ((_let_9 (tptp.fn_water_84 _let_1))) (let ((_let_10 (tptp.fn_water_33 _let_1))) (let ((_let_11 (tptp.fn_freezing_of_water_21 X))) (let ((_let_12 (tptp.fn_decrease_3 _let_11))) (let ((_let_13 (tptp.fn_freezing_of_water_23 X))) (let ((_let_14 (tptp.fn_ice_18 _let_13))) (let ((_let_15 (tptp.fn_freezing_of_water_22 X))) (let ((_let_16 (tptp.fn_create_1 _let_15))) (let ((_let_17 (tptp.fn_ice_20 _let_13))) (let ((_let_18 (tptp.fn_ice_19 _let_13))) (let ((_let_19 (tptp.fn_freezing_of_water_9 X))) (let ((_let_20 (tptp.fn_freezing_of_water_20 X))) (let ((_let_21 (tptp.fn_freezing_of_water_17 X))) (let ((_let_22 (tptp.fn_freezing_of_water_14 X))) (let ((_let_23 (tptp.fn_water_14 _let_1))) (let ((_let_24 (tptp.fn_freezing_of_water_11 X))) (let ((_let_25 (tptp.fn_freezing_of_water_18 X))) (let ((_let_26 (tptp.fn_water_101 _let_1))) (let ((_let_27 (tptp.fn_freezing_of_water_7 X))) (let ((_let_28 (tptp.fn_water_99 _let_1))) (let ((_let_29 (tptp.fn_freezing_of_water_12 X))) (let ((_let_30 (tptp.fn_freezing_of_water_15 X))) (let ((_let_31 (tptp.fn_water_107 _let_1))) (let ((_let_32 (tptp.fn_freezing_of_water_10 X))) (let ((_let_33 (tptp.fn_water_78 _let_1))) (let ((_let_34 (tptp.fn_freezing_of_water_8 X))) (let ((_let_35 (tptp.fn_water_105 _let_1))) (let ((_let_36 (tptp.fn_freezing_of_water_16 X))) (let ((_let_37 (tptp.fn_water_114 _let_1))) (let ((_let_38 (tptp.fn_freezing_of_water_13 X))) (let ((_let_39 (tptp.fn_freezing_of_water_6 X))) (let ((_let_40 (tptp.fn_water_43 _let_1))) (let ((_let_41 (tptp.fn_freezing_of_water_30 X))) (let ((_let_42 (tptp.fn_hydrogen_bond_12 _let_41))) (let ((_let_43 (tptp.fn_freezing_of_water_25 X))) (let ((_let_44 (tptp.fn_hydrogen_bond_11 _let_41))) (let ((_let_45 (tptp.fn_freezing_of_water_26 X))) (let ((_let_46 (tptp.fn_hydrogen_bond_13 _let_41))) (let ((_let_47 (tptp.fn_freezing_of_water_27 X))) (let ((_let_48 (tptp.fn_hydrogen_bond_14 _let_41))) (let ((_let_49 (tptp.fn_freezing_of_water_28 X))) (let ((_let_50 (tptp.fn_freezing_of_water_31 X))) (let ((_let_51 (tptp.fn_ice_17 _let_13))) (let ((_let_52 (tptp.fn_freezing_of_water_29 X))) (let ((_let_53 (tptp.fn_freezing_of_water_2 X))) (let ((_let_54 (tptp.fn_freezing_of_water_3 X))) (=> (tptp.freezing_of_water_1 X) (and (tptp.original_name_2 X |tptp.'Freezing-Of-Water'|) (tptp.user_description_2 X |tptp.'The process of cooling water to the point in which it changes to ice, its solid state. The freezing point of water is 32 degrees F or 0 degrees C.'|) (tptp.concept2words_2 X tptp.icing) (tptp.concept2words_2 X |tptp.'water solidification'|) (tptp.concept2words_2 X |tptp.'solidifying water'|) (tptp.concept2words_2 X |tptp.'water freezing'|) (tptp.concept2words_2 X tptp.freeze) (tptp.concept2words_2 X |tptp.'water-freezing'|) (tptp.concept2words_2 X |tptp.'freezing of water'|) (tptp.concept2words_2 X |tptp.'freezing-of-water'|) (tptp.freezing_1 X) (tptp.speed_value_1 _let_53) (tptp.intensity_value_1 _let_54) (tptp.property_value_1 _let_39) (tptp.density_value_1 _let_39) (tptp.heat_1 _let_27) (tptp.cohesion_1 _let_34) (tptp.attract_1 _let_34) (tptp.hydrophilic_compound_1 _let_19) (tptp.entity_1 _let_19) (tptp.spatial_entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.polar_molecule_1 _let_19) (tptp.water_molecule_1 _let_19) (tptp.hydrogen_bond_1 _let_32) (tptp.surface_1 _let_24) (tptp.attract_1 _let_29) (tptp.attach_1 _let_38) (tptp.tangible_entity_1 _let_22) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.hydrogen_1 _let_22) (tptp.tangible_entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.hydrogen_1 _let_30) (tptp.attract_1 _let_36) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.hydrogen_1 _let_21) (tptp.tangible_entity_1 _let_25) (tptp.entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.hydrogen_1 _let_25) (tptp.move_1 _let_4) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.polar_molecule_1 _let_20) (tptp.hydrophilic_compound_1 _let_20) (tptp.water_molecule_1 _let_20) (tptp.decrease_1 _let_11) (tptp.create_1 _let_15) (tptp.solid_substance_1 _let_13) (tptp.ice_1 _let_13) (tptp.liquid_substance_1 _let_1) (tptp.water_1 _let_1) (tptp.entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.hydrogen_1 _let_43) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.attract_1 _let_47) (tptp.hold_together_1 _let_49) (tptp.attach_1 _let_52) (tptp.entity_1 _let_41) (tptp.hydrogen_bond_1 _let_41) (tptp.water_molecule_1 _let_50) (tptp.attach_1 _let_51) (tptp.hold_together_1 _let_48) (tptp.attract_1 _let_46) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.hydrogen_1 _let_42) (tptp.property_node_1 _let_40) (tptp.attach_1 _let_37) (tptp.attract_1 _let_35) (tptp.cohesion_1 _let_33) (tptp.attract_1 _let_33) (tptp.hydrogen_bond_1 _let_31) (tptp.attract_1 _let_28) (tptp.heat_1 _let_26) (tptp.surface_1 _let_23) (tptp.water_molecule_1 _let_18) (tptp.water_molecule_1 _let_17) (tptp.entity_1 _let_16) (tptp.hydrogen_bond_1 _let_14) (tptp.property_value_1 _let_12) (tptp.density_value_1 _let_10) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.hydrogen_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.polar_molecule_1 _let_3) (tptp.hydrophilic_compound_1 _let_3) (tptp.water_molecule_1 _let_3) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.intensity_2 _let_15 _let_54) (tptp.called_2 _let_20 |"1"|) (tptp.is_at_2 _let_20 _let_24) (tptp.speed_2 _let_4 _let_53) (tptp.causes_2 X _let_11) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.create_0) (tptp.subevent_2 X _let_15) (tptp.inversely_proportional_2 _let_54 _let_53) (tptp.object_2 _let_4 _let_20) (tptp.result_2 _let_15 _let_41) (tptp.from_value_2 _let_11 _let_39) (tptp.object_2 X _let_1) (tptp.base_2 X _let_1) (tptp.result_2 X _let_13) (tptp.has_part_2 _let_13 _let_50) (tptp.base_2 _let_52 _let_50) (tptp.instrument_2 _let_52 _let_41) (tptp.possesses_2 _let_13 _let_41) (tptp.result_2 _let_47 _let_41) (tptp.object_2 _let_49 _let_43) (tptp.object_2 _let_49 _let_45) (tptp.is_between_2 _let_41 _let_45) (tptp.has_function_2 _let_41 _let_49) (tptp.agent_2 _let_49 _let_41) (tptp.is_between_2 _let_41 _let_43) (tptp.object_2 _let_47 _let_43) (tptp.agent_2 _let_47 _let_45) (not (= _let_45 _let_43)) (not (= _let_43 _let_45)) (not (= _let_25 _let_30)) (not (= _let_30 _let_25)) (tptp.has_part_2 _let_1 _let_20) (tptp.has_part_2 _let_20 _let_22) (tptp.instrument_2 _let_38 _let_32) (tptp.is_between_2 _let_32 _let_22) (tptp.base_2 _let_34 _let_1) (tptp.density_2 _let_1 _let_39) (tptp.object_2 _let_34 _let_19) (tptp.agent_2 _let_34 _let_19) (tptp.agent_2 _let_34 _let_20) (tptp.base_2 _let_38 _let_20) (tptp.object_2 _let_38 _let_19) (tptp.possesses_2 _let_1 _let_32) (tptp.instrument_2 _let_34 _let_32) (tptp.object_2 _let_34 _let_20) (tptp.has_function_2 _let_20 _let_36) (tptp.object_2 _let_36 _let_19) (tptp.object_2 _let_27 _let_1) (tptp.inhibits_2 _let_29 _let_27) (tptp.object_2 _let_29 _let_20) (tptp.has_part_2 _let_20 _let_30) (not (= _let_30 _let_21)) (not (= _let_21 _let_30)) (tptp.has_region_2 _let_1 _let_24) (tptp.is_above_2 _let_24 _let_19) (tptp.has_part_2 _let_19 _let_25) (not (= _let_22 _let_25)) (not (= _let_25 _let_22)) (tptp.has_part_2 _let_1 _let_19) (tptp.has_part_2 _let_19 _let_21) (not (= _let_21 _let_22)) (tptp.same_type_2 _let_20 _let_19) (tptp.same_type_2 _let_19 _let_20) (not (= _let_22 _let_21)) (= _let_20 _let_5) (= _let_41 _let_16) (= _let_39 _let_12) (= _let_13 (tptp.fn_freezing_1 X)) (= _let_1 (tptp.fn_freezing_2 X)) (= _let_41 _let_14) (= _let_52 _let_51) (= _let_50 _let_18) (= _let_50 _let_17) (= _let_49 _let_48) (= _let_47 _let_46) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_30 _let_6) (= _let_22 _let_8) (= (tptp.fn_freezing_of_water_5 X) _let_40) (= _let_39 _let_10) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_21 _let_7) (= _let_30 _let_9) (= _let_20 _let_2) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_25 _let_8) (= _let_22 _let_6) (= _let_25 _let_7) (= _let_19 _let_3) (= _let_24 _let_23) (= _let_22 _let_7) (= _let_21 _let_6) (= _let_20 _let_3) (= _let_19 _let_2) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_6) (= _let_6 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.frequency_constant_1 X) (and (tptp.original_name_2 X |tptp.'Frequency-Constant'|) (tptp.concept2words_2 X |tptp.'constant of frequency'|) (tptp.concept2words_2 X |tptp.'frequency constant'|) (tptp.concept2words_2 X |tptp.'frequency-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.frequency_dependent_selection_1 X) (and (tptp.original_name_2 X |tptp.'Frequency-Dependent-Selection'|) (tptp.user_description_2 X |tptp.'A type of selection in which the survival and reproduction of any one phenotype depends on its relative frequency compared to other phenotypes in the population.'|) (tptp.concept2words_2 X |tptp.'frequency dependent selection'|) (tptp.concept2words_2 X |tptp.'frequency-dependent-selection'|) (tptp.selection_force_1 X)))) (forall ((X $$unsorted)) (=> (tptp.frequency_scale_1 X) (and (tptp.original_name_2 X |tptp.'Frequency-Scale'|) (tptp.concept2words_2 X |tptp.'scale of frequency'|) (tptp.concept2words_2 X |tptp.'frequency scale'|) (tptp.concept2words_2 X |tptp.'frequency-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.frequency_value_1 X) (and (tptp.original_name_2 X |tptp.'Frequency-Value'|) (tptp.description_2 X |tptp.'the rate of repetition of an Event'|) (tptp.concept2words_2 X tptp.frequence) (tptp.concept2words_2 X tptp.oftenness) (tptp.concept2words_2 X tptp.frequency) (tptp.concept2words_2 X |tptp.'value of frequency'|) (tptp.concept2words_2 X |tptp.'frequency value'|) (tptp.concept2words_2 X |tptp.'frequency-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.freshwater_animal_1 X) (and (tptp.original_name_2 X |tptp.'Freshwater-Animal'|) (tptp.user_description_2 X |tptp.'An animal that lives in low-saline bodies of water such as ponds, lakes, and rivers.'|) (tptp.concept2words_2 X |tptp.'freshwater animal'|) (tptp.concept2words_2 X |tptp.'freshwater-animal'|) (tptp.animal_1 X)))) (forall ((X $$unsorted)) (=> (tptp.freshwater_biome_1 X) (and (tptp.original_name_2 X |tptp.'Freshwater-Biome'|) (tptp.user_description_2 X |tptp.'A biome in a freshwater ecosystem.'|) (tptp.concept2words_2 X |tptp.'freshwater biome'|) (tptp.concept2words_2 X |tptp.'freshwater-biome'|) (tptp.biome_1 X) (not (tptp.marine_biome_1 X)) (not (tptp.terrestrial_biome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.freshwater_protist_1 X) (and (tptp.original_name_2 X |tptp.'Freshwater-Protist'|) (tptp.user_description_2 X |tptp.'The protist that are known to occur in freshwater are called freshwater protists.'|) (tptp.concept2words_2 X |tptp.'freshwater protist'|) (tptp.concept2words_2 X |tptp.'freshwater-protist'|) (tptp.protist_1 X) (not (tptp.alveolate_1 X)) (not (tptp.amoeba_1 X)) (not (tptp.charophycean_1 X)) (not (tptp.chlorophyta_1 X)) (not (tptp.dinoflagellate_1 X)) (not (tptp.diplomonad_1 X)) (not (tptp.foraminiferan_1 X)) (not (tptp.oomycete_1 X)) (not (tptp.parabasalid_1 X)) (not (tptp.radiolarian_1 X)) (not (tptp.rhizaria_1 X)) (not (tptp.rhodophyte_1 X)) (not (tptp.seaweed_1 X)) (not (tptp.stramenopile_1 X))))) (forall ((X $$unsorted)) (=> (tptp.friction_1 X) (and (tptp.original_name_2 X |tptp.'Friction'|) (tptp.user_description_2 X |tptp.'A force that opposes active movement.'|) (tptp.concept2words_2 X tptp.friction) (tptp.force_1 X)))) (forall ((X $$unsorted)) (=> (tptp.frog_1 X) (and (tptp.original_name_2 X |tptp.'Frog'|) (tptp.user_description_2 X |tptp.'Frogs are amphibians falling in the order Anura'|) (tptp.concept2words_2 X tptp.frog) (tptp.anuran_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_frog_egg_1 X))) (let ((_let_2 (tptp.fn_add_2 _let_1))) (let ((_let_3 (tptp.fn_fertilization_2 _let_1))) (let ((_let_4 (tptp.fn_frog_egg_2 X))) (=> (tptp.frog_egg_1 X) (and (tptp.original_name_2 X |tptp.'Frog-Egg'|) (tptp.user_description_2 X |tptp.'The female gamete of a frog.'|) (tptp.concept2words_2 X |tptp.'egg of frog'|) (tptp.concept2words_2 X |tptp.'frog egg'|) (tptp.concept2words_2 X |tptp.'frog-egg'|) (tptp.egg_1 X) (tptp.fertilization_1 _let_1) (tptp.sperm_cell_1 _let_4) (tptp.gamete_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.object_2 _let_1 _let_4) (tptp.base_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_frog_homeotic_gene_1 X))) (let ((_let_2 (tptp.fn_animal_development_17 _let_1))) (let ((_let_3 (tptp.fn_frog_homeotic_gene_2 X))) (=> (tptp.frog_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Frog-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in frogs.'|) (tptp.concept2words_2 X |tptp.'frog homeotic gene'|) (tptp.concept2words_2 X |tptp.'frog-homeotic-gene'|) (tptp.vertebrate_homeotic_gene_1 X) (tptp.animal_development_1 _let_1) (tptp.frog_1 _let_3) (tptp.animal_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.experiencer_2 _let_1 _let_3) (= _let_1 (tptp.fn_vertebrate_homeotic_gene_20 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.frontal_lobe_1 X) (and (tptp.original_name_2 X |tptp.'Frontal-Lobe'|) (tptp.user_description_2 X |tptp.'Anterior region of the cerebral cortex, respobsible for control of skeletal muscles, speech, and decision making.'|) (tptp.concept2words_2 X |tptp.'lobe of frontal'|) (tptp.concept2words_2 X |tptp.'frontal lobe'|) (tptp.concept2words_2 X |tptp.'frontal-lobe'|) (tptp.cerebral_cortex_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_frozen_cell_2 X))) (let ((_let_2 (tptp.fn_barrier_1 _let_1))) (let ((_let_3 (tptp.fn_frozen_cell_1 X))) (=> (tptp.frozen_cell_1 X) (and (tptp.original_name_2 X |tptp.'Frozen-Cell'|) (tptp.user_description_2 X |tptp.'Cell which has been affected by low temperature to the point where membrane fluidity is lost and cellular transport ceases.'|) (tptp.concept2words_2 X |tptp.'cell of frozen'|) (tptp.concept2words_2 X |tptp.'frozen cell'|) (tptp.concept2words_2 X |tptp.'frozen-cell'|) (tptp.cell_state_1 X) (tptp.extra_cellular_matrix_1 _let_3) (tptp.barrier_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.is_outside_2 _let_3 X) (tptp.plays_2 X _let_1) (= X _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fructose_1 X))) (let ((_let_2 (tptp.fn_glucose_3 _let_1))) (=> (tptp.fructose_1 X) (and (tptp.original_name_2 X |tptp.'Fructose'|) (tptp.user_description_2 X |tptp.'Fructose, or fruit sugar, is a simple monosaccharide found in many foods. It is one of the three important dietary monosaccharides along with glucose and galactose.'|) (tptp.concept2words_2 X tptp.fructose) (tptp.ketose_1 X) (tptp.hexose_1 X) (not (tptp.glucose_1 X)) (tptp.glucose_1 _let_1) (tptp.fructose_1 _let_2) (tptp.has_isomer_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fructose_1_comma_6_bisphosphate_28 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_fructose_1_comma_6_bisphosphate_18 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_fructose_1_comma_6_bisphosphate_19 X))) (let ((_let_6 (tptp.fn_functional_group_1 _let_5))) (let ((_let_7 (tptp.fn_hydroxyl_group_7 _let_3))) (let ((_let_8 (tptp.fn_molecule_10 X))) (let ((_let_9 (tptp.fn_fructose_1_comma_6_bisphosphate_22 X))) (let ((_let_10 (tptp.fn_polar_covalent_bond_16 _let_9))) (let ((_let_11 (tptp.fn_hydroxyl_group_5 _let_3))) (let ((_let_12 (tptp.fn_polar_covalent_bond_11 _let_9))) (let ((_let_13 (tptp.fn_hydroxyl_group_8 _let_3))) (let ((_let_14 (tptp.fn_carbonyl_group_6 _let_5))) (let ((_let_15 (tptp.fn_polar_covalent_bond_12 _let_9))) (let ((_let_16 (tptp.fn_fructose_1_comma_6_bisphosphate_30 X))) (let ((_let_17 (tptp.fn_covalent_bond_18 _let_16))) (let ((_let_18 (tptp.fn_fructose_1_comma_6_bisphosphate_29 X))) (let ((_let_19 (tptp.fn_covalent_bond_18 _let_18))) (let ((_let_20 (tptp.fn_covalent_bond_15 _let_18))) (let ((_let_21 (tptp.fn_polar_covalent_bond_14 _let_9))) (let ((_let_22 (tptp.fn_covalent_bond_22 _let_18))) (let ((_let_23 (tptp.fn_polar_covalent_bond_13 _let_9))) (let ((_let_24 (tptp.fn_covalent_bond_24 _let_18))) (let ((_let_25 (tptp.fn_carbonyl_group_4 _let_5))) (let ((_let_26 (tptp.fn_covalent_bond_15 _let_16))) (let ((_let_27 (tptp.fn_polar_covalent_bond_23 _let_9))) (let ((_let_28 (tptp.fn_covalent_bond_21 _let_18))) (let ((_let_29 (tptp.fn_covalent_bond_23 _let_18))) (let ((_let_30 (tptp.fn_hydroxyl_group_6 _let_3))) (let ((_let_31 (tptp.fn_polar_covalent_bond_19 _let_9))) (let ((_let_32 (tptp.fn_covalent_bond_19 _let_16))) (let ((_let_33 (tptp.fn_hydroxyl_group_4 _let_3))) (let ((_let_34 (tptp.fn_phosphorylated_intermediate_5 X))) (let ((_let_35 (tptp.fn_carbonyl_group_9 _let_5))) (let ((_let_36 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_37 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_38 (tptp.fn_hydroxyl_group_9 _let_3))) (let ((_let_39 (tptp.fn_phosphate_group_11 _let_1))) (let ((_let_40 (tptp.fn_phosphorylated_intermediate_8 X))) (let ((_let_41 (tptp.fn_carbonyl_group_7 _let_5))) (let ((_let_42 (tptp.fn_polar_covalent_bond_18 _let_9))) (let ((_let_43 (tptp.fn_covalent_bond_20 _let_16))) (let ((_let_44 (tptp.fn_phosphorylated_intermediate_6 X))) (let ((_let_45 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_46 (tptp.fn_phosphorylated_intermediate_11 X))) (let ((_let_47 (tptp.fn_fructose_1_comma_6_bisphosphate_27 X))) (let ((_let_48 (tptp.fn_attach_1 _let_47))) (let ((_let_49 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(tptp.fn_covalent_bond_4 _let_18))) (let ((_let_69 (tptp.fn_polar_covalent_bond_5 _let_9))) (let ((_let_70 (tptp.fn_covalent_bond_12 _let_18))) (let ((_let_71 (tptp.fn_covalent_bond_11 _let_16))) (let ((_let_72 (tptp.fn_polar_covalent_bond_17 _let_9))) (let ((_let_73 (tptp.fn_fructose_1_comma_6_bisphosphate_15 X))) (let ((_let_74 (tptp.fn_fructose_1_comma_6_bisphosphate_7 X))) (let ((_let_75 (tptp.fn_fructose_1_comma_6_bisphosphate_8 X))) (let ((_let_76 (tptp.fn_fructose_1_comma_6_bisphosphate_13 X))) (let ((_let_77 (tptp.fn_fructose_1_comma_6_bisphosphate_46 X))) (let ((_let_78 (tptp.fn_fructose_1_comma_6_bisphosphate_12 X))) (let ((_let_79 (tptp.fn_fructose_1_comma_6_bisphosphate_14 X))) (let ((_let_80 (tptp.fn_fructose_1_comma_6_bisphosphate_45 X))) (let ((_let_81 (tptp.fn_fructose_1_comma_6_bisphosphate_20 X))) (let ((_let_82 (tptp.fn_fructose_1_comma_6_bisphosphate_42 X))) (let ((_let_83 (tptp.fn_fructose_1_comma_6_bisphosphate_32 X))) (let ((_let_84 (tptp.fn_fructose_1_comma_6_bisphosphate_33 X))) (let ((_let_85 (tptp.fn_fructose_1_comma_6_bisphosphate_31 X))) (let ((_let_86 (tptp.fn_fructose_1_comma_6_bisphosphate_26 X))) (let ((_let_87 (tptp.fn_fructose_1_comma_6_bisphosphate_37 X))) (let ((_let_88 (tptp.fn_fructose_1_comma_6_bisphosphate_51 X))) (let ((_let_89 (tptp.fn_fructose_1_comma_6_bisphosphate_50 X))) (let ((_let_90 (tptp.fn_fructose_1_comma_6_bisphosphate_49 X))) (let ((_let_91 (tptp.fn_fructose_1_comma_6_bisphosphate_52 X))) (let ((_let_92 (tptp.fn_fructose_1_comma_6_bisphosphate_21 X))) (let ((_let_93 (tptp.fn_fructose_1_comma_6_bisphosphate_24 X))) (let ((_let_94 (tptp.fn_fructose_1_comma_6_bisphosphate_9 X))) (let ((_let_95 (tptp.fn_fructose_1_comma_6_bisphosphate_10 X))) (let ((_let_96 (tptp.fn_fructose_1_comma_6_bisphosphate_11 X))) (let ((_let_97 (tptp.fn_fructose_1_comma_6_bisphosphate_36 X))) (let ((_let_98 (tptp.fn_carbonyl_group_2 _let_5))) (let ((_let_99 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_100 (tptp.fn_fructose_1_comma_6_bisphosphate_35 X))) (let ((_let_101 (tptp.fn_phosphate_group_26 _let_1))) (let ((_let_102 (tptp.fn_phosphate_group_10 _let_1))) (let ((_let_103 (tptp.fn_fructose_1_comma_6_bisphosphate_41 X))) (let ((_let_104 (tptp.fn_polar_covalent_bond_1 _let_9))) (let ((_let_105 (tptp.fn_fructose_1_comma_6_bisphosphate_23 X))) (let ((_let_106 (tptp.fn_polar_covalent_bond_2 _let_9))) (let ((_let_107 (tptp.fn_fructose_1_comma_6_bisphosphate_17 X))) (let ((_let_108 (tptp.fn_polar_covalent_bond_3 _let_9))) (let ((_let_109 (tptp.fn_polar_covalent_bond_4 _let_9))) (let ((_let_110 (tptp.fn_fructose_1_comma_6_bisphosphate_48 X))) (let ((_let_111 (tptp.fn_fructose_1_comma_6_bisphosphate_44 X))) (let ((_let_112 (tptp.fn_fructose_1_comma_6_bisphosphate_47 X))) (let ((_let_113 (tptp.fn_covalent_bond_12 _let_16))) (let ((_let_114 (tptp.fn_fructose_1_comma_6_bisphosphate_43 X))) (let ((_let_115 (tptp.fn_fructose_1_comma_6_bisphosphate_25 X))) (let ((_let_116 (tptp.fn_fructose_1_comma_6_bisphosphate_5 X))) (let ((_let_117 (tptp.fn_fructose_1_comma_6_bisphosphate_3 X))) (let ((_let_118 (tptp.fn_fructose_1_comma_6_bisphosphate_1 X))) (let ((_let_119 (tptp.fn_fructose_1_comma_6_bisphosphate_2 X))) (=> (tptp.fructose_1_comma_6_bisphosphate_1 X) (and (tptp.original_name_2 X |tptp.'Fructose-1,6-Bisphosphate'|) (tptp.user_description_2 X |tptp.'An intermediate formed during the third step of glycolysis.'|) (tptp.concept2words_2 X |tptp.'harden young ester'|) (tptp.concept2words_2 X |tptp.'harden-young-ester'|) (tptp.concept2words_2 X |tptp.'fructose 1, 6 bisphosphate'|) (tptp.concept2words_2 X |tptp.'fructose 1,6 bisphosphate'|) (tptp.concept2words_2 X |tptp.'fructose-1,6-bisphosphate'|) (tptp.phosphorylated_intermediate_1 X) (tptp.end_1 _let_118) (tptp.end_1 _let_119) (tptp.add_1 _let_117) (tptp.system_1 (tptp.fn_fructose_1_comma_6_bisphosphate_4 X)) (tptp.electronegativity_value_1 _let_116) (tptp.unequal_sharing_1 _let_74) (tptp.electron_1 _let_75) (tptp.valence_electron_1 _let_75) (tptp.hold_together_1 _let_94) (tptp.share_1 _let_95) (tptp.share_1 _let_96) (tptp.electron_1 _let_78) (tptp.valence_electron_1 _let_78) (tptp.electron_1 _let_76) (tptp.valence_electron_1 _let_76) (tptp.unequal_sharing_1 _let_79) (tptp.hold_together_1 _let_73) (tptp.electronegativity_value_1 _let_107) (tptp.hydroxyl_group_1 _let_3) (tptp.carbonyl_group_1 _let_5) (tptp.entity_1 _let_81) (tptp.chemical_entity_1 _let_81) (tptp.atom_1 _let_81) (tptp.hydrogen_1 _let_81) (tptp.entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.atom_1 _let_92) (tptp.carbon_1 _let_92) (tptp.chemical_bond_1 _let_9) (tptp.polar_covalent_bond_1 _let_9) (tptp.electronegativity_value_1 _let_105) (tptp.phosphorylation_1 _let_93) (tptp.organic_molecule_1 _let_115) (tptp.spatial_entity_1 _let_86) (tptp.functional_group_1 _let_86) (tptp.phosphate_group_1 _let_86) (tptp.attach_1 _let_47) (tptp.functional_group_1 _let_1) (tptp.phosphate_group_1 _let_1) (tptp.covalent_bond_1 _let_18) (tptp.single_bond_1 _let_18) (tptp.covalent_bond_1 _let_16) (tptp.double_bond_1 _let_16) (tptp.phosphorus_1 _let_85) (tptp.entity_1 _let_83) (tptp.chemical_entity_1 _let_83) (tptp.atom_1 _let_83) (tptp.carbon_1 _let_83) (tptp.carbon_skeleton_1 _let_84) (tptp.electronegativity_value_1 _let_100) (tptp.atomic_number_value_1 _let_97) (tptp.entity_1 _let_87) (tptp.chemical_entity_1 _let_87) (tptp.atom_1 _let_87) (tptp.oxygen_1 _let_87) (tptp.entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.atom_1 _let_63) (tptp.oxygen_1 _let_63) (tptp.center_1 _let_103) (tptp.atomic_nucleus_1 _let_82) (tptp.first_electron_shell_1 _let_114) (tptp.electron_shell_1 _let_111) (tptp.center_1 _let_80) (tptp.atomic_nucleus_1 _let_77) (tptp.electronegativity_value_1 _let_112) (tptp.proton_1 _let_110) (tptp.quantity_value_1 _let_90) (tptp.speed_value_1 _let_89) (tptp.constant_motion_1 _let_88) (tptp.kinetic_energy_1 _let_91) (tptp.electron_shell_1 _let_113) (tptp.property_node_1 _let_109) (tptp.property_node_1 _let_108) (tptp.electronegativity_value_1 _let_106) (tptp.electronegativity_value_1 _let_104) (tptp.center_1 _let_102) (tptp.property_node_1 _let_101) (tptp.single_bond_1 _let_99) (tptp.property_node_1 _let_98) (tptp.hold_together_1 _let_72) (tptp.electron_shell_1 _let_71) (tptp.electron_shell_1 _let_70) (tptp.proton_1 _let_69) (tptp.proton_1 _let_68) (tptp.electronegativity_value_1 _let_67) (tptp.electronegativity_value_1 _let_66) (tptp.atomic_number_value_1 _let_65) (tptp.atomic_number_value_1 _let_64) (tptp.atomic_number_value_1 _let_62) (tptp.share_1 _let_61) (tptp.share_1 _let_60) (tptp.share_1 _let_59) (tptp.share_1 _let_58) (tptp.hold_together_1 _let_57) (tptp.hold_together_1 _let_56) (tptp.hold_together_1 _let_55) (tptp.double_bond_1 _let_54) (tptp.double_bond_1 _let_53) (tptp.entity_1 _let_51) (tptp.chemical_entity_1 _let_51) (tptp.atom_1 _let_51) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.spatial_entity_1 _let_48) (tptp.phosphorus_1 _let_45) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.carbon_1 _let_41) (tptp.atomic_nucleus_1 _let_39) (tptp.atomic_nucleus_1 _let_38) (tptp.oxygen_1 _let_37) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.oxygen_1 _let_36) (tptp.oxygen_1 _let_35) (tptp.oxygen_1 _let_33) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.hydrogen_1 _let_30) (tptp.center_1 _let_29) (tptp.center_1 _let_28) (tptp.center_1 _let_27) (tptp.valence_electron_1 _let_26) (tptp.valence_electron_1 _let_25) (tptp.atomic_nucleus_1 _let_24) (tptp.atomic_nucleus_1 _let_23) (tptp.atomic_nucleus_1 _let_22) (tptp.atomic_nucleus_1 _let_21) (tptp.valence_electron_1 _let_20) (tptp.valence_electron_1 _let_19) (tptp.valence_electron_1 _let_17) (tptp.valence_electron_1 _let_15) (tptp.valence_electron_1 _let_14) (tptp.electron_1 _let_13) (tptp.valence_electron_1 _let_13) (tptp.electron_1 _let_12) (tptp.valence_electron_1 _let_12) (tptp.unequal_sharing_1 _let_11) (tptp.unequal_sharing_1 _let_10) (tptp.polar_covalent_bond_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.the_cardinal_value_2 _let_112 |"3.44"|) (tptp.cardinal_unit_class_2 _let_112 tptp.unity_0) (not (= _let_63 _let_83)) (tptp.is_inside_2 _let_63 _let_5) (not (= _let_87 _let_81)) (tptp.is_inside_2 _let_87 _let_3) (not (= _let_100 _let_105)) (not (= _let_83 _let_63)) (tptp.is_inside_2 _let_83 _let_5) (not (= _let_1 _let_86)) (tptp.is_at_2 _let_1 _let_118) (tptp.is_at_2 _let_1 _let_119) (not (= _let_86 _let_1)) (tptp.possesses_2 X _let_18) (tptp.possesses_2 X _let_16) (tptp.has_region_2 X _let_118) (tptp.has_region_2 X _let_119) (tptp.has_part_2 X _let_81) (tptp.is_opposite_2 _let_118 _let_119) (tptp.is_opposite_2 _let_119 _let_118) (tptp.result_2 _let_117 X) (tptp.the_cardinal_value_2 _let_116 |"3.44"|) (tptp.cardinal_unit_class_2 _let_116 tptp.unity_0) (not (= _let_116 _let_105)) (tptp.the_cardinal_value_2 _let_105 |"2.1"|) (tptp.cardinal_unit_class_2 _let_105 tptp.unity_0) (not (= _let_105 _let_116)) (not (= _let_105 _let_100)) (not (= _let_81 _let_87)) (tptp.the_cardinal_value_2 _let_107 |"3.44"|) (tptp.cardinal_unit_class_2 _let_107 tptp.unity_0) (tptp.object_2 _let_47 _let_86) (tptp.possesses_2 X _let_9) (tptp.is_between_2 _let_9 _let_92) (tptp.the_cardinal_value_2 _let_100 |"3.44"|) (tptp.cardinal_unit_class_2 _let_100 tptp.unity_0) (tptp.has_region_2 X _let_5) (tptp.atomic_number_2 _let_63 _let_97) (tptp.has_region_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_92) (tptp.is_inside_2 _let_92 _let_84) (tptp.has_state_2 _let_115 X) (tptp.raw_material_2 _let_93 _let_115) (tptp.agent_2 _let_95 _let_83) (tptp.is_between_2 _let_16 _let_83) (not (= _let_83 _let_92)) (not (= _let_92 _let_81)) (tptp.has_region_2 _let_81 _let_114) (not (= _let_114 _let_111)) (not (= _let_92 _let_83)) (not (= _let_81 _let_92)) (not (= _let_111 _let_114)) (tptp.object_2 _let_73 _let_87) (tptp.is_between_2 _let_9 _let_87) (tptp.agent_2 _let_79 _let_87) (tptp.electronegativity_2 _let_87 _let_112) (not (= _let_105 _let_112)) (not (= _let_112 _let_105)) (not (= _let_83 _let_87)) (not (= _let_87 _let_83)) (tptp.object_2 _let_96 _let_78) (tptp.object_2 _let_94 _let_87) (tptp.has_region_2 _let_87 _let_111) (tptp.agent_2 _let_96 _let_87) (tptp.object_2 _let_96 _let_76) (tptp.is_between_2 _let_18 _let_87) (tptp.has_part_2 _let_87 _let_110) (tptp.is_inside_2 _let_110 _let_77) (tptp.has_region_2 _let_87 _let_77) (tptp.has_region_2 _let_87 _let_80) (tptp.object_2 _let_73 _let_81) (tptp.agent_2 _let_79 _let_81) (tptp.is_between_2 _let_9 _let_83) (not (= _let_83 _let_81)) (tptp.electronegativity_2 _let_81 _let_105) (not (= _let_81 _let_83)) (not (= _let_107 _let_105)) (not (= _let_105 _let_107)) (tptp.result_2 _let_95 _let_16) (tptp.is_between_2 _let_16 _let_85) (tptp.is_between_2 _let_16 _let_63) (tptp.has_region_2 _let_63 _let_103) (tptp.is_at_2 _let_82 _let_103) (tptp.is_inside_2 _let_85 _let_1) (tptp.is_between_2 _let_18 _let_85) (tptp.is_between_2 _let_18 _let_63) (tptp.electronegativity_2 _let_63 _let_100) (tptp.object_2 _let_95 _let_78) (tptp.the_cardinal_value_2 _let_97 |"6"|) (tptp.cardinal_unit_class_2 _let_97 tptp.unity_0) (tptp.agent_2 _let_94 _let_16) (tptp.result_2 _let_96 _let_16) (tptp.agent_2 _let_96 _let_83) (tptp.atomic_number_2 _let_83 _let_97) (tptp.called_2 _let_97 |tptp.'Atomic_Number'|) (tptp.is_inside_2 _let_87 _let_5) (tptp.has_part_2 _let_87 _let_76) (tptp.object_2 _let_95 _let_76) (tptp.agent_2 _let_95 _let_87) (tptp.is_between_2 _let_16 _let_87) (tptp.object_2 _let_94 _let_63) (tptp.object_2 _let_94 _let_83) (tptp.has_part_2 _let_83 _let_78) (not (= _let_75 _let_78)) (not (= _let_78 _let_75)) (tptp.is_inside_2 _let_92 _let_5) (tptp.is_between_2 _let_16 _let_92) (tptp.has_function_2 _let_16 _let_94) (not (= _let_63 _let_92)) (not (= _let_92 _let_63)) (tptp.result_2 _let_93 X) (not (= _let_87 _let_63)) (not (= _let_63 _let_87)) (not (= _let_87 _let_85)) (not (= _let_87 _let_92)) (not (= _let_92 _let_87)) (not (= _let_85 _let_87)) (not (= _let_63 _let_85)) (not (= _let_85 _let_63)) (tptp.object_2 _let_88 X) (tptp.speed_2 _let_88 _let_89) (tptp.directly_proportional_2 _let_89 _let_90) (tptp.quantity_2 _let_91 _let_90) (tptp.possesses_2 X _let_91) (tptp.has_part_2 X _let_63) (tptp.is_inside_2 _let_63 _let_86) (tptp.has_region_2 X _let_86) (tptp.has_part_2 X _let_87) (tptp.is_inside_2 _let_87 _let_86) (tptp.has_part_2 X _let_83) (tptp.is_inside_2 _let_83 _let_84) (tptp.has_region_2 X _let_84) (tptp.has_part_2 X _let_85) (tptp.is_inside_2 _let_85 _let_86) (tptp.has_part_2 _let_63 _let_75) (tptp.has_region_2 _let_63 _let_82) (tptp.result_2 _let_79 _let_9) (tptp.is_inside_2 _let_63 _let_3) (tptp.is_between_2 _let_9 _let_63) (tptp.is_between_2 _let_9 _let_81) (tptp.is_inside_2 _let_81 _let_3) (tptp.agent_2 _let_74 _let_81) (tptp.agent_2 _let_74 _let_63) (not (= _let_63 _let_81)) (not (= _let_81 _let_63)) (tptp.is_at_2 _let_77 _let_80) (tptp.object_2 _let_79 _let_76) (not (= _let_76 _let_78)) (tptp.is_near_2 _let_76 _let_77) (tptp.is_near_2 _let_77 _let_76) (not (= _let_78 _let_76)) (tptp.has_function_2 _let_9 _let_73) (tptp.agent_2 _let_73 _let_9) (tptp.result_2 _let_74 _let_9) (tptp.object_2 _let_74 _let_75) (not (= _let_75 _let_76)) (not (= _let_76 _let_75)) (= _let_86 _let_48) (= _let_92 _let_52) (= _let_9 _let_8) (= X _let_6) (= _let_97 _let_64) (= X _let_4) (= X _let_2) (= _let_1 _let_46) (= _let_115 (tptp.fn_phosphorylated_intermediate_1 X)) (= _let_111 _let_71) (= _let_114 _let_113) (= _let_81 _let_32) (= _let_92 _let_43) (= _let_83 _let_32) (= (tptp.fn_fructose_1_comma_6_bisphosphate_55 X) _let_108) (= _let_112 _let_106) (= _let_78 _let_20) (= _let_94 _let_57) (= _let_111 _let_70) (= _let_76 _let_19) (= _let_96 _let_61) (= _let_80 _let_28) (= _let_77 _let_22) (= _let_87 _let_42) (= _let_110 _let_69) (= _let_110 _let_68) (= _let_87 _let_51) (= _let_87 _let_50) (= (tptp.fn_fructose_1_comma_6_bisphosphate_16 X) _let_109) (= (tptp.fn_fructose_1_comma_6_bisphosphate_34 X) _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_81 _let_31) (= _let_83 _let_31) (= _let_83 _let_42) (= _let_95 _let_59) (= _let_82 _let_39) (= _let_103 _let_102) (= _let_63 _let_37) (= _let_16 _let_54) (= (tptp.fn_fructose_1_comma_6_bisphosphate_40 X) _let_101) (= _let_100 _let_67) (= _let_100 _let_66) (= _let_63 _let_36) (= _let_18 _let_99) (= _let_85 _let_45) (= (tptp.fn_fructose_1_comma_6_bisphosphate_39 X) _let_98) (= _let_97 _let_65) (= _let_97 _let_62) (= _let_96 _let_58) (= _let_95 _let_60) (= _let_76 _let_17) (= _let_95 _let_58) (= _let_76 _let_14) (= _let_87 _let_35) (= _let_75 _let_14) (= _let_78 _let_26) (= _let_78 _let_25) (= _let_83 _let_43) (= _let_83 _let_41) (= _let_63 _let_32) (= _let_94 _let_56) (= _let_94 _let_55) (= _let_16 _let_53) (= _let_63 _let_35) (= _let_92 _let_41) (= (tptp.fn_fructose_1_comma_6_bisphosphate_53 X) (tptp.fn_phosphorylated_intermediate_15 X)) (= (tptp.fn_fructose_1_comma_6_bisphosphate_54 X) (tptp.fn_phosphorylated_intermediate_14 X)) (= _let_93 (tptp.fn_phosphorylated_intermediate_2 X)) (= _let_92 _let_40) (= _let_91 (tptp.fn_phosphorylated_intermediate_4 X)) (= _let_90 (tptp.fn_phosphorylated_intermediate_13 X)) (= _let_89 (tptp.fn_phosphorylated_intermediate_12 X)) (= _let_88 (tptp.fn_phosphorylated_intermediate_9 X)) (= _let_87 _let_49) (= _let_63 _let_34) (= _let_86 _let_46) (= _let_85 _let_44) (= _let_84 (tptp.fn_phosphorylated_intermediate_10 X)) (= _let_83 _let_40) (= _let_75 _let_13) (= _let_82 _let_38) (= _let_79 _let_11) (= _let_9 _let_7) (= _let_74 _let_11) (= _let_63 _let_33) (= _let_81 _let_30) (= _let_80 _let_29) (= _let_80 _let_27) (= _let_79 _let_10) (= _let_78 _let_12) (= _let_77 _let_24) (= _let_76 _let_20) (= _let_77 _let_23) (= _let_76 _let_12) (= _let_77 _let_21) (= _let_76 _let_15) (= _let_75 _let_12) (= _let_74 _let_10) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_58) (= _let_58 _let_60) (= _let_59 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_43) (= _let_43 _let_41) (= _let_40 _let_41) (= _let_40 _let_42) (= _let_42 _let_51) (= _let_51 _let_42) (= _let_50 _let_42) (= _let_42 _let_50) (= _let_50 _let_50) (= _let_50 _let_35) (= _let_35 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_32 _let_43) (= _let_43 _let_43) (= _let_43 _let_32) (= _let_42 _let_31) (= _let_31 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_32) (= _let_37 _let_32) (= _let_32 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_10) (= _let_10 _let_11) (= _let_10 _let_20) (= _let_20 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_12) (= _let_12 _let_24) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_12) (= _let_17 _let_12) (= _let_12 _let_19) (= _let_19 _let_17) (= _let_17 _let_14) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fructose_6_phosphate_28 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_fructose_6_phosphate_27 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_phosphorylated_intermediate_5 X))) (let ((_let_6 (tptp.fn_phosphorylated_intermediate_7 X))) (let ((_let_7 (tptp.fn_carbonyl_group_9 _let_1))) (let ((_let_8 (tptp.fn_hydroxyl_group_4 _let_3))) (let ((_let_9 (tptp.fn_fructose_6_phosphate_38 X))) (let ((_let_10 (tptp.fn_covalent_bond_19 _let_9))) (let ((_let_11 (tptp.fn_fructose_6_phosphate_33 X))) (let ((_let_12 (tptp.fn_covalent_bond_19 _let_11))) (let ((_let_13 (tptp.fn_covalent_bond_20 _let_11))) (let ((_let_14 (tptp.fn_fructose_6_phosphate_30 X))) (let ((_let_15 (tptp.fn_oxygen_18 _let_14))) (let ((_let_16 (tptp.fn_covalent_bond_4 _let_11))) (let 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(tptp.fn_fructose_6_phosphate_17 X))) (let ((_let_76 (tptp.fn_polar_covalent_bond_3 _let_22))) (let ((_let_77 (tptp.fn_polar_covalent_bond_1 _let_22))) (let ((_let_78 (tptp.fn_fructose_6_phosphate_40 X))) (let ((_let_79 (tptp.fn_polar_covalent_bond_4 _let_22))) (let ((_let_80 (tptp.fn_fructose_6_phosphate_46 X))) (let ((_let_81 (tptp.fn_fructose_6_phosphate_45 X))) (let ((_let_82 (tptp.fn_fructose_6_phosphate_44 X))) (let ((_let_83 (tptp.fn_fructose_6_phosphate_29 X))) (let ((_let_84 (tptp.fn_fructose_6_phosphate_26 X))) (let ((_let_85 (tptp.fn_fructose_6_phosphate_6 X))) (let ((_let_86 (tptp.fn_fructose_6_phosphate_7 X))) (let ((_let_87 (tptp.fn_fructose_6_phosphate_8 X))) (let ((_let_88 (tptp.fn_fructose_6_phosphate_5 X))) (let ((_let_89 (tptp.fn_fructose_6_phosphate_35 X))) (let ((_let_90 (tptp.fn_carbonyl_group_8 _let_1))) (let ((_let_91 (tptp.fn_fructose_6_phosphate_42 X))) (let ((_let_92 (tptp.fn_fructose_6_phosphate_43 X))) (let ((_let_93 (tptp.fn_hydroxyl_group_7 _let_3))) (let ((_let_94 (tptp.fn_fructose_6_phosphate_10 X))) (let ((_let_95 (tptp.fn_covalent_bond_21 _let_11))) (let ((_let_96 (tptp.fn_fructose_6_phosphate_11 X))) (let ((_let_97 (tptp.fn_covalent_bond_21 _let_9))) (let ((_let_98 (tptp.fn_fructose_6_phosphate_12 X))) (let ((_let_99 (tptp.fn_fructose_6_phosphate_13 X))) (let ((_let_100 (tptp.fn_fructose_6_phosphate_36 X))) (let ((_let_101 (tptp.fn_fructose_6_phosphate_1 X))) (=> (tptp.fructose_6_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Fructose-6-Phosphate'|) (tptp.user_description_2 X |tptp.'Fructose 6-phosphate (also known as the Neuberg ester) is fructose sugar phosphorylated on carbon 6 (i.e., is a fructosephosphate).'|) (tptp.concept2words_2 X |tptp.'neuberg ester'|) (tptp.concept2words_2 X |tptp.'neuberg -ester'|) (tptp.concept2words_2 X |tptp.'fructose 6 phosphate'|) (tptp.concept2words_2 X |tptp.'fructose-6-phosphate'|) (tptp.phosphorylated_intermediate_1 X) (tptp.electronegativity_value_1 _let_101) (tptp.kinetic_energy_1 _let_88) (tptp.constant_motion_1 _let_85) (tptp.speed_value_1 _let_86) (tptp.quantity_value_1 _let_87) (tptp.proton_1 _let_71) (tptp.atomic_nucleus_1 _let_94) (tptp.center_1 _let_96) (tptp.electron_shell_1 _let_98) (tptp.first_electron_shell_1 _let_99) (tptp.electron_shell_1 _let_99) (tptp.carbon_1 _let_73) (tptp.entity_1 _let_73) (tptp.atom_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.electronegativity_value_1 _let_75) (tptp.quantity_value_1 _let_69) (tptp.entity_1 _let_30) (tptp.oxygen_1 _let_30) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.quantity_value_1 _let_60) (tptp.atomic_number_value_1 _let_66) (tptp.electronegativity_value_1 _let_63) (tptp.functional_group_1 _let_84) (tptp.phosphate_group_1 _let_84) (tptp.hydroxyl_group_1 _let_3) (tptp.carbonyl_group_1 _let_1) (tptp.atom_1 _let_83) (tptp.phosphorus_1 _let_83) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.oxygen_1 _let_14) (tptp.hydrogen_1 _let_55) (tptp.entity_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.atom_1 _let_55) (tptp.entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.carbon_1 _let_72) (tptp.single_bond_1 _let_11) (tptp.polar_covalent_bond_1 _let_22) (tptp.phosphorylation_1 _let_89) (tptp.glucose_6_phosphate_1 _let_100) (tptp.hold_together_1 _let_74) (tptp.covalent_bond_1 _let_9) (tptp.double_bond_1 _let_9) (tptp.carbon_skeleton_1 _let_17) (tptp.electronegativity_value_1 _let_78) (tptp.share_1 _let_91) (tptp.share_1 _let_92) (tptp.electron_1 _let_82) (tptp.valence_electron_1 _let_82) (tptp.unequal_sharing_1 _let_81) (tptp.valence_electron_1 _let_80) (tptp.center_1 _let_97) (tptp.center_1 _let_95) (tptp.polar_covalent_bond_1 _let_93) (tptp.double_bond_1 _let_90) (tptp.property_node_1 _let_79) (tptp.electronegativity_value_1 _let_77) (tptp.property_node_1 _let_76) (tptp.property_node_1 _let_70) (tptp.quantity_value_1 _let_68) (tptp.property_node_1 _let_67) (tptp.atomic_number_value_1 _let_65) (tptp.property_node_1 _let_64) (tptp.electronegativity_value_1 _let_62) (tptp.property_node_1 _let_61) (tptp.quantity_value_1 _let_59) (tptp.electron_shell_1 _let_56) (tptp.first_electron_shell_1 _let_56) (tptp.electron_shell_1 _let_54) (tptp.electron_shell_1 _let_53) (tptp.electron_shell_1 _let_52) (tptp.electron_shell_1 _let_51) (tptp.electron_shell_1 _let_50) (tptp.atomic_nucleus_1 _let_49) (tptp.atomic_nucleus_1 _let_48) (tptp.atomic_nucleus_1 _let_47) (tptp.atomic_nucleus_1 _let_46) (tptp.share_1 _let_45) (tptp.share_1 _let_44) (tptp.valence_electron_1 _let_41) (tptp.valence_electron_1 _let_40) (tptp.electron_1 _let_39) (tptp.valence_electron_1 _let_39) (tptp.unequal_sharing_1 _let_38) (tptp.unequal_sharing_1 _let_37) (tptp.valence_electron_1 _let_36) (tptp.valence_electron_1 _let_35) (tptp.valence_electron_1 _let_34) (tptp.hydrogen_1 _let_33) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.electronegativity_value_1 _let_31) (tptp.electronegativity_value_1 _let_29) (tptp.hold_together_1 _let_28) (tptp.hold_together_1 _let_27) (tptp.hold_together_1 _let_26) (tptp.hold_together_1 _let_25) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.atom_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_1 _let_20) (tptp.carbon_1 _let_18) (tptp.proton_1 _let_16) (tptp.proton_1 _let_15) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.oxygen_1 _let_8) (tptp.oxygen_1 _let_7) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.the_cardinal_value_2 _let_78 |"2.1"|) (tptp.cardinal_unit_class_2 _let_78 tptp.unity_0) (not (= _let_78 _let_101)) (not (= _let_78 _let_63)) (tptp.the_cardinal_value_2 _let_101 |"3.44"|) (tptp.cardinal_unit_class_2 _let_101 tptp.unity_0) (not (= _let_101 _let_78)) (tptp.is_between_2 _let_9 _let_83) (tptp.possesses_2 X _let_22) (tptp.possesses_2 X _let_9) (tptp.has_part_2 X _let_55) (tptp.has_isomer_2 _let_100 X) (tptp.is_between_2 _let_22 _let_72) (tptp.is_between_2 _let_22 _let_14) (tptp.is_between_2 _let_11 _let_30) (tptp.is_inside_2 _let_72 _let_1) (not (= _let_72 _let_55)) (not (= _let_72 _let_30)) (not (= _let_55 _let_72)) (not (= _let_63 _let_78)) (tptp.is_inside_2 _let_30 _let_3) (tptp.is_inside_2 _let_30 _let_1) (not (= _let_30 _let_72)) (tptp.possesses_2 X _let_11) (tptp.is_between_2 _let_11 _let_83) (tptp.has_region_2 _let_55 _let_99) (tptp.has_region_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_73) (tptp.has_state_2 _let_100 X) (tptp.raw_material_2 _let_89 _let_100) (not (= _let_100 X)) (not (= X _let_100)) (not (= _let_99 _let_98)) (not (= _let_98 _let_99)) (tptp.is_between_2 _let_9 _let_30) (tptp.agent_2 _let_91 _let_30) (tptp.agent_2 _let_91 _let_73) (tptp.is_between_2 _let_9 _let_73) (tptp.result_2 _let_92 _let_9) (tptp.has_region_2 _let_14 _let_98) (tptp.is_between_2 _let_11 _let_14) (tptp.has_region_2 _let_14 _let_96) (tptp.is_at_2 _let_94 _let_96) (tptp.is_inside_2 _let_71 _let_94) (tptp.is_inside_2 _let_55 _let_3) (tptp.agent_2 _let_81 _let_14) (tptp.has_region_2 _let_14 _let_94) (tptp.is_inside_2 _let_14 _let_3) (not (= _let_14 _let_55)) (not (= _let_55 _let_30)) (tptp.is_between_2 _let_22 _let_30) (not (= _let_55 _let_14)) (not (= _let_30 _let_55)) (tptp.is_inside_2 _let_73 _let_1) (tptp.object_2 _let_92 _let_82) (tptp.agent_2 _let_74 _let_9) (tptp.object_2 _let_74 _let_14) (tptp.agent_2 _let_92 _let_73) (tptp.agent_2 _let_92 _let_30) (tptp.has_part_2 _let_73 _let_82) (tptp.object_2 _let_91 _let_82) (tptp.result_2 _let_91 _let_9) (tptp.has_function_2 _let_9 _let_74) (tptp.object_2 _let_74 _let_73) (tptp.is_inside_2 _let_14 _let_1) (tptp.is_between_2 _let_9 _let_14) (tptp.is_between_2 _let_9 _let_72) (not (= _let_73 _let_14)) (not (= _let_14 _let_73)) (tptp.result_2 _let_89 X) (tptp.has_part_2 X _let_83) (tptp.has_part_2 X _let_14) (tptp.has_part_2 X _let_72) (not (= _let_72 _let_14)) (not (= _let_83 _let_14)) (tptp.is_inside_2 _let_83 _let_84) (tptp.is_inside_2 _let_14 _let_84) (not (= _let_14 _let_72)) (not (= _let_14 _let_83)) (tptp.object_2 _let_85 X) (tptp.speed_2 _let_85 _let_86) (tptp.directly_proportional_2 _let_86 _let_87) (tptp.quantity_2 _let_88 _let_87) (tptp.possesses_2 X _let_88) (tptp.has_region_2 X _let_84) (tptp.is_inside_2 _let_30 _let_84) (not (= _let_30 _let_73)) (tptp.is_inside_2 _let_73 _let_17) (tptp.has_region_2 X _let_17) (not (= _let_73 _let_30)) (tptp.has_part_2 X _let_30) (not (= _let_14 _let_30)) (not (= _let_30 _let_14)) (not (= _let_83 _let_30)) (not (= _let_30 _let_83)) (tptp.agent_2 _let_81 _let_55) (tptp.is_between_2 _let_22 _let_55) (tptp.result_2 _let_81 _let_22) (tptp.object_2 _let_81 _let_80) (not (= _let_82 _let_80)) (not (= _let_80 _let_82)) (tptp.has_part_2 _let_14 _let_80) (tptp.the_cardinal_value_2 _let_63 |"3.44"|) (tptp.cardinal_unit_class_2 _let_63 tptp.unity_0) (tptp.electronegativity_2 _let_14 _let_63) (tptp.has_part_2 _let_14 _let_71) (not (= _let_72 _let_73)) (not (= _let_73 _let_72)) (tptp.object_2 _let_74 _let_30) (tptp.object_2 _let_74 _let_72) (tptp.is_inside_2 _let_72 _let_17) (not (= _let_78 _let_75)) (not (= _let_75 _let_78)) (not (= _let_55 _let_73)) (tptp.electronegativity_2 _let_55 _let_78) (not (= _let_73 _let_55)) (tptp.is_between_2 _let_22 _let_73) (tptp.has_function_2 _let_22 _let_74) (tptp.agent_2 _let_74 _let_22) (tptp.object_2 _let_74 _let_55) (tptp.the_cardinal_value_2 _let_75 |"3.44"|) (tptp.cardinal_unit_class_2 _let_75 tptp.unity_0) (tptp.electronegativity_2 _let_30 _let_75) (= _let_83 _let_43) (= _let_11 (tptp.fn_molecule_10 X)) (= _let_99 _let_56) (= X _let_4) (= X _let_2) (= _let_100 _let_58) (= _let_100 _let_57) (= _let_99 _let_54) (= _let_99 _let_50) (= _let_92 _let_45) (= _let_73 _let_10) (= _let_91 _let_45) (= _let_30 _let_24) (= _let_98 _let_53) (= _let_98 _let_52) (= _let_98 _let_51) (= _let_98 _let_50) (= _let_71 _let_16) (= _let_94 _let_48) (= _let_94 _let_47) (= _let_96 _let_97) (= _let_96 _let_95) (= _let_14 _let_13) (= _let_14 _let_12) (= _let_81 _let_38) (= _let_94 _let_49) (= _let_94 _let_46) (= _let_22 _let_93) (= _let_30 _let_8) (= _let_55 _let_33) (= _let_14 _let_8) (= _let_82 _let_41) (= _let_30 _let_7) (= _let_92 _let_44) (= _let_74 _let_28) (= _let_74 _let_27) (= _let_91 _let_44) (= _let_82 _let_40) (= _let_72 _let_20) (= _let_9 _let_90) (= _let_73 _let_24) (= _let_14 _let_10) (= _let_73 _let_20) (= _let_14 _let_7) (= _let_89 (tptp.fn_phosphorylated_intermediate_2 X)) (= (tptp.fn_fructose_6_phosphate_4 X) (tptp.fn_phosphorylated_intermediate_15 X)) (= (tptp.fn_fructose_6_phosphate_3 X) (tptp.fn_phosphorylated_intermediate_14 X)) (= _let_14 _let_6) (= _let_72 _let_19) (= _let_88 (tptp.fn_phosphorylated_intermediate_4 X)) (= _let_87 (tptp.fn_phosphorylated_intermediate_13 X)) (= _let_86 (tptp.fn_phosphorylated_intermediate_12 X)) (= _let_85 (tptp.fn_phosphorylated_intermediate_9 X)) (= _let_17 (tptp.fn_phosphorylated_intermediate_10 X)) (= _let_73 _let_19) (= _let_84 (tptp.fn_phosphorylated_intermediate_11 X)) (= _let_30 _let_5) (= _let_83 _let_42) (= _let_14 _let_5) (= _let_30 _let_6) (= _let_82 _let_39) (= _let_80 _let_35) (= _let_81 _let_37) (= _let_80 _let_36) (= _let_80 _let_34) (= _let_75 _let_31) (= _let_73 _let_23) (= _let_74 _let_26) (= _let_55 _let_32) (= (tptp.fn_fructose_6_phosphate_41 X) _let_79) (= _let_78 _let_77) (= (tptp.fn_fructose_6_phosphate_15 X) _let_76) (= _let_75 _let_29) (= _let_30 _let_21) (= _let_74 _let_25) (= _let_73 _let_21) (= _let_72 _let_18) (= _let_71 _let_15) (= (tptp.fn_fructose_6_phosphate_14 X) _let_70) (= _let_69 _let_68) (= (tptp.fn_fructose_6_phosphate_19 X) _let_67) (= _let_66 _let_65) (= (tptp.fn_fructose_6_phosphate_20 X) _let_64) (= _let_63 _let_62) (= (tptp.fn_fructose_6_phosphate_21 X) _let_61) (= _let_60 _let_59) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_54) (= _let_50 _let_54) (= _let_54 _let_50) (= _let_50 _let_51) (= _let_51 _let_51) (= _let_51 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_47) (= _let_47 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_35) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_24) (= _let_24 _let_8) (= _let_7 _let_5) (= _let_6 _let_21) (= _let_21 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_10) (= _let_10 _let_24) (= _let_24 _let_24) (= _let_24 _let_10) (= _let_10 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_19 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_10) (= _let_10 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_12) (= _let_12 _let_12) (= _let_12 _let_8) (= _let_8 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fruit_12 X))) (let ((_let_2 (tptp.fn_tissue_1 _let_1))) (let ((_let_3 (tptp.fn_fruit_11 X))) (let ((_let_4 (tptp.fn_fruit_2 X))) (let ((_let_5 (tptp.fn_fruit_4 X))) (let ((_let_6 (tptp.fn_fruit_1 X))) (let ((_let_7 (tptp.fn_fruit_9 X))) (let ((_let_8 (tptp.fn_fruit_5 X))) (let ((_let_9 (tptp.fn_fruit_7 X))) (let ((_let_10 (tptp.fn_fruit_8 X))) (=> (tptp.fruit_1 X) (and (tptp.original_name_2 X |tptp.'Fruit'|) (tptp.user_description_2 X |tptp.'Flowering plants produce fruits from one or more ovaries and sometimes other tissues as a means of seed dispersal.'|) (tptp.concept2words_2 X tptp.fruit) (tptp.flower_organ_1 X) (tptp.chromoplast_1 _let_6) (tptp.color_value_1 _let_4) (tptp.texture_value_1 _let_5) (tptp.seed_1 _let_8) (tptp.starch_storage_by_plant_1 _let_9) (tptp.transfer_1 _let_10) (tptp.color_value_1 _let_7) (tptp.plant_cell_1 _let_3) (tptp.tissue_1 _let_1) (tptp.eukaryotic_cell_1 _let_2) (tptp.destination_2 _let_10 X) (tptp.site_2 _let_9 X) (tptp.is_inside_2 _let_8 X) (tptp.correspondence_2 _let_4 _let_7) (tptp.has_part_2 _let_3 _let_6) (tptp.texture_2 X _let_5) (tptp.color_2 X _let_4) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_organ_1 X)) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fruit_fly_22 X))) (let ((_let_2 (tptp.fn_agent_role_1 _let_1))) (let ((_let_3 (tptp.fn_fruit_fly_19 X))) (let ((_let_4 (tptp.fn_barrier_1 _let_3))) (let ((_let_5 (tptp.fn_insect_20 X))) (let ((_let_6 (tptp.fn_fruit_fly_35 X))) (let ((_let_7 (tptp.fn_feed_4 _let_6))) (let ((_let_8 (tptp.fn_fruit_fly_18 X))) (let ((_let_9 (tptp.fn_fruit_fly_27 X))) (let ((_let_10 (tptp.fn_fruit_fly_28 X))) (let ((_let_11 (tptp.fn_fruit_fly_29 X))) (let ((_let_12 (tptp.fn_fruit_fly_17 X))) (let ((_let_13 (tptp.fn_fruit_fly_21 X))) (let ((_let_14 (tptp.fn_fruit_fly_25 X))) (let ((_let_15 (tptp.fn_fruit_fly_26 X))) (let ((_let_16 (tptp.fn_fruit_fly_24 X))) (let ((_let_17 (tptp.fn_fruit_fly_38 X))) (let ((_let_18 (tptp.fn_fruit_fly_23 X))) (let ((_let_19 (tptp.fn_fruit_fly_31 X))) (let ((_let_20 (tptp.fn_fruit_fly_37 X))) (let ((_let_21 (tptp.fn_fruit_fly_30 X))) (let ((_let_22 (tptp.fn_fruit_fly_36 X))) (let ((_let_23 (tptp.fn_fruit_fly_12 X))) (let ((_let_24 (tptp.fn_fruit_fly_14 X))) (let ((_let_25 (tptp.fn_fruit_fly_15 X))) (let ((_let_26 (tptp.fn_fruit_fly_39 X))) (let ((_let_27 (tptp.fn_fruit_fly_13 X))) (let ((_let_28 (tptp.fn_fruit_fly_20 X))) (let ((_let_29 (tptp.fn_fruit_fly_11 X))) (let ((_let_30 (tptp.fn_fruit_fly_10 X))) (let ((_let_31 (tptp.fn_fruit_fly_34 X))) (let ((_let_32 (tptp.fn_chemical_digestion_1 _let_31))) (let ((_let_33 (tptp.fn_fruit_fly_32 X))) (let ((_let_34 (tptp.fn_fruit_fly_16 X))) (let ((_let_35 (tptp.fn_chemical_3 _let_34))) (let ((_let_36 (tptp.fn_fruit_fly_33 X))) (let ((_let_37 (tptp.fn_fruit_fly_3 X))) (let ((_let_38 (tptp.fn_fruit_fly_5 X))) (let ((_let_39 (tptp.fn_fruit_fly_6 X))) (let ((_let_40 (tptp.fn_fruit_fly_4 X))) (let ((_let_41 (tptp.fn_fruit_fly_7 X))) (let ((_let_42 (tptp.fn_fruit_fly_9 X))) (let ((_let_43 (tptp.fn_fruit_fly_8 X))) (=> (tptp.fruit_fly_1 X) (and (tptp.original_name_2 X |tptp.'Fruit-Fly'|) (tptp.user_description_2 X |tptp.'A group of flies belonging to the order Diptera.'|) (tptp.concept2words_2 X |tptp.'drosophila melanogaster'|) (tptp.concept2words_2 X tptp.drosophila) (tptp.concept2words_2 X |tptp.'fruit flies'|) (tptp.concept2words_2 X |tptp.'fly of fruit'|) (tptp.concept2words_2 X |tptp.'fruit fly'|) (tptp.concept2words_2 X |tptp.'fruit-fly'|) (tptp.diptera_1 X) (not (tptp.mosquito_1 X)) (tptp.cell_1 _let_37) (tptp.sex_chromosome_1 _let_40) (tptp.gamete_1 _let_38) (tptp.autosome_1 _let_39) (tptp.water_molecule_1 _let_41) (tptp.time_interval_1 _let_43) (tptp.time_interval_1 _let_42) (tptp.support_1 _let_30) (tptp.exoskeleton_1 _let_29) (tptp.carbohydrate_1 _let_23) (tptp.take_in_1 _let_27) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.carbon_1 _let_24) (tptp.animal_nutritional_requirement_1 _let_25) (tptp.chemical_1 _let_34) (tptp.rectum_1 _let_12) (tptp.tangible_entity_1 _let_8) (tptp.crop_1 _let_8) (tptp.container_1 _let_3) (tptp.animal_cell_1 _let_28) (tptp.water_1 _let_13) (tptp.agent_role_1 _let_1) (tptp.heterotroph_1 _let_18) (tptp.gastric_cecum_1 _let_16) (tptp.specific_heat_value_1 _let_14) (tptp.temperature_value_1 _let_15) (tptp.foregut_1 _let_9) (tptp.midgut_1 _let_10) (tptp.hindgut_1 _let_11) (tptp.digestive_system_1 _let_21) (tptp.nutrition_1 _let_19) (tptp.activation_energy_1 _let_33) (tptp.protein_1 _let_36) (tptp.chemical_digestion_1 _let_31) (tptp.feed_1 _let_6) (tptp.anus_1 _let_22) (tptp.esophagus_1 _let_20) (tptp.mouth_1 _let_17) (tptp.locomotion_1 _let_26) (tptp.chemical_entity_1 _let_35) (tptp.tangible_entity_1 _let_32) (tptp.tangible_entity_1 _let_7) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.time_before_2 _let_43 _let_42) (tptp.time_during_2 _let_31 _let_42) (tptp.raw_material_2 _let_31 _let_41) (not (= _let_36 _let_41)) (not (= _let_41 _let_36)) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.sex_chromosome_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.autosome_0) (tptp.has_part_2 X _let_40) (tptp.has_part_2 X _let_39) (tptp.has_part_2 X _let_38) (not (= _let_28 _let_37)) (not (= _let_37 _let_28)) (tptp.has_part_2 _let_8 _let_34) (tptp.object_2 _let_6 _let_8) (tptp.has_part_2 _let_34 _let_36) (tptp.raw_material_2 _let_31 _let_33) (tptp.plays_2 X _let_3) (tptp.plays_2 X _let_1) (tptp.has_part_2 X _let_29) (tptp.has_function_2 _let_29 _let_30) (tptp.object_2 _let_30 X) (tptp.object_2 _let_26 X) (tptp.agent_2 _let_26 X) (tptp.base_2 _let_27 X) (tptp.agent_2 _let_27 X) (tptp.has_part_2 X _let_28) (tptp.has_region_2 X _let_21) (tptp.element_2 _let_21 _let_11) (tptp.is_inside_2 _let_22 _let_11) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_20) (tptp.is_inside_2 _let_20 _let_9) (tptp.element_2 _let_21 _let_9) (tptp.element_2 _let_21 _let_10) (tptp.is_inside_2 _let_16 _let_10) (tptp.is_inside_2 _let_17 _let_9) (tptp.has_part_2 X _let_17) (tptp.plays_2 X _let_18) (tptp.in_event_2 _let_18 _let_19) (tptp.agent_2 _let_19 X) (tptp.has_part_2 X _let_13) (tptp.specific_heat_2 _let_13 _let_14) (tptp.correspondence_2 _let_15 _let_14) (tptp.temperature_2 X _let_15) (tptp.has_part_2 X _let_16) (tptp.has_part_2 X _let_8) (tptp.is_inside_2 _let_8 _let_9) (tptp.next_element_2 _let_9 _let_10) (tptp.next_element_2 _let_10 _let_11) (tptp.is_inside_2 _let_12 _let_11) (= _let_8 _let_7) (= _let_36 _let_35) (= _let_33 _let_32) (= X _let_4) (= X _let_2) (= _let_30 (tptp.fn_arthropod_7 X)) (= _let_29 (tptp.fn_arthropod_8 X)) (= _let_28 (tptp.fn_animal_21 X)) (= _let_27 (tptp.fn_animal_9 X)) (= _let_26 (tptp.fn_animal_22 X)) (= _let_25 (tptp.fn_insect_16 X)) (= _let_24 (tptp.fn_insect_15 X)) (= _let_23 (tptp.fn_insect_22 X)) (= _let_22 (tptp.fn_insect_4 X)) (= _let_21 (tptp.fn_insect_19 X)) (= _let_20 (tptp.fn_insect_6 X)) (= _let_19 (tptp.fn_insect_17 X)) (= _let_18 (tptp.fn_insect_21 X)) (= _let_17 (tptp.fn_insect_11 X)) (= _let_16 (tptp.fn_insect_5 X)) (= _let_15 (tptp.fn_insect_25 X)) (= _let_14 (tptp.fn_insect_23 X)) (= _let_13 (tptp.fn_insect_18 X)) (= _let_12 (tptp.fn_insect_3 X)) (= _let_11 (tptp.fn_insect_14 X)) (= _let_10 (tptp.fn_insect_13 X)) (= _let_9 (tptp.fn_insect_12 X)) (= _let_8 _let_5) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fruit_fly_maternal_gene_1 X) (and (tptp.original_name_2 X |tptp.'Fruit-Fly-Maternal-Gene'|) (tptp.user_description_2 X |tptp.'The genes of the fruit fly that code for mRNA are maternal effect genes.'|) (tptp.concept2words_2 X |tptp.'fruit fly maternal gene'|) (tptp.concept2words_2 X |tptp.'fruit-fly-maternal-gene'|) (tptp.maternal_effect_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fruit_fly_reproduction_4 X))) (let ((_let_2 (tptp.fn_fruit_fly_reproduction_3 X))) (let ((_let_3 (tptp.fn_fruit_fly_reproduction_1 X))) (=> (tptp.fruit_fly_reproduction_1 X) (and (tptp.original_name_2 X |tptp.'Fruit-Fly-Reproduction'|) (tptp.user_description_2 X |tptp.'Sexual reproduction in fruit fly species.'|) (tptp.concept2words_2 X |tptp.'fruit fly reproduction'|) (tptp.concept2words_2 X |tptp.'fruit-fly-reproduction'|) (tptp.sexual_reproduction_1 X) (tptp.rate_value_1 _let_3) (tptp.fruit_fly_1 _let_2) (tptp.fruit_fly_1 _let_1) (tptp.the_scalar_value_2 _let_3 tptp.fast_0) (tptp.scalar_unit_class_2 _let_3 tptp.sexual_reproduction_0) (tptp.rate_2 X _let_3) (tptp.agent_2 X _let_1) (tptp.base_2 X _let_1) (tptp.result_2 X _let_2) (= _let_2 (tptp.fn_sexual_reproduction_7 X)) (= _let_1 (tptp.fn_sexual_reproduction_4 X)))))))) (forall ((X $$unsorted)) (=> (tptp.fruiting_body_1 X) (and (tptp.original_name_2 X |tptp.'Fruiting-Body'|) (tptp.user_description_2 X |tptp.'Multicellular reproductive structure of fungi and some prokaryotes which produces spores.'|) (tptp.concept2words_2 X |tptp.'fruiting body'|) (tptp.concept2words_2 X |tptp.'fruiting-body'|) (tptp.living_entity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fruiting_body_formation_in_myxobacterium_1 X))) (let ((_let_2 (tptp.fn_fruiting_body_formation_in_myxobacterium_2 X))) (=> (tptp.fruiting_body_formation_in_myxobacterium_1 X) (and (tptp.original_name_2 X |tptp.'Fruiting-Body-Formation-In-Myxobacterium'|) (tptp.user_description_2 X |tptp.'Multicellular reproductive structure of myxobacterium which produces spores. The fruiting body forms when individual cells aggregate together as a response to environmental stress.'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X |tptp.'fruiting body formation in myxobacterium'|) (tptp.concept2words_2 X |tptp.'fruiting-body-formation-in-myxobacterium'|) (tptp.fruiting_body_formation_in_prokaryote_1 X) (tptp.myxobacterium_1 _let_1) (tptp.myxobacterium_1 _let_2) (tptp.experiencer_2 X _let_1) (not (= _let_1 _let_2)) (tptp.experiencer_2 X _let_2) (tptp.is_near_2 _let_2 _let_1) (tptp.is_near_2 _let_1 _let_2) (not (= _let_2 _let_1)) (= _let_2 (tptp.fn_fruiting_body_formation_in_prokaryote_15 X)) (= _let_1 (tptp.fn_fruiting_body_formation_in_prokaryote_16 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fruiting_body_formation_in_prokaryote_8 X))) (let ((_let_2 (tptp.fn_quorum_sensing_in_prokaryote_9 _let_1))) (let ((_let_3 (tptp.fn_fruiting_body_formation_in_prokaryote_14 X))) (let ((_let_4 (tptp.fn_feed_1 _let_3))) (let ((_let_5 (tptp.fn_quorum_sensing_in_prokaryote_12 _let_1))) (let ((_let_6 (tptp.fn_fruiting_body_formation_in_prokaryote_6 X))) (let ((_let_7 (tptp.fn_quorum_sensing_in_prokaryote_7 _let_1))) (let ((_let_8 (tptp.fn_fruiting_body_formation_in_prokaryote_16 X))) (let ((_let_9 (tptp.fn_fruiting_body_formation_in_prokaryote_15 X))) (let ((_let_10 (tptp.fn_quorum_sensing_in_prokaryote_11 _let_1))) (let ((_let_11 (tptp.fn_fruiting_body_formation_in_prokaryote_12 X))) (let ((_let_12 (tptp.fn_feed_4 _let_3))) (let ((_let_13 (tptp.fn_fruiting_body_formation_in_prokaryote_13 X))) (let ((_let_14 (tptp.fn_fruiting_body_formation_in_prokaryote_7 X))) (let ((_let_15 (tptp.fn_create_1 _let_14))) (let ((_let_16 (tptp.fn_fruiting_body_formation_in_prokaryote_9 X))) (let ((_let_17 (tptp.fn_fruiting_body_formation_in_prokaryote_10 X))) (let ((_let_18 (tptp.fn_create_1 _let_17))) (let ((_let_19 (tptp.fn_fruiting_body_formation_in_prokaryote_11 X))) (let ((_let_20 (tptp.fn_fruiting_body_formation_in_prokaryote_3 X))) (let ((_let_21 (tptp.fn_fruiting_body_formation_in_prokaryote_2 X))) (let ((_let_22 (tptp.fn_fruiting_body_formation_in_prokaryote_1 X))) (=> (tptp.fruiting_body_formation_in_prokaryote_1 X) (and (tptp.original_name_2 X |tptp.'Fruiting-Body-Formation-In-Prokaryote'|) (tptp.user_description_2 X |tptp.'Multicellular reproductive structure of prokaryotes which produces spores. The fruiting body forms when individual cells aggregate together as a response to environmental stress.'|) (tptp.concept2words_2 X tptp.form) (tptp.concept2words_2 X |tptp.'fruiting body formation in prokaryote'|) (tptp.concept2words_2 X |tptp.'fruiting-body-formation-in-prokaryote'|) (tptp.biological_process_1 X) (tptp.spore_wall_1 _let_22) (tptp.rate_value_1 _let_21) (tptp.quantity_value_1 _let_20) (tptp.come_together_1 _let_6) (tptp.produce_1 _let_14) (tptp.quorum_sensing_in_prokaryote_1 _let_1) (tptp.fruiting_body_1 _let_16) (tptp.produce_1 _let_17) (tptp.spore_1 _let_19) (tptp.secretion_1 _let_11) (tptp.substance_1 _let_13) (tptp.feed_1 _let_3) (tptp.living_entity_1 _let_9) (tptp.prokaryote_1 _let_9) (tptp.prokaryote_1 _let_8) (tptp.entity_1 _let_18) (tptp.entity_1 _let_15) (tptp.tangible_entity_1 _let_12) (tptp.secretion_1 _let_10) (tptp.prokaryote_1 _let_7) (tptp.come_together_1 _let_5) (tptp.living_entity_1 _let_4) (tptp.prokaryote_1 _let_2) (tptp.enables_2 _let_6 _let_14) (tptp.next_event_2 _let_14 _let_17) (tptp.next_event_2 _let_1 _let_14) (tptp.base_2 _let_17 _let_16) (tptp.minCardinality _let_17 tptp.result_0 |"1"| tptp.spore_0) (tptp.has_part_2 _let_19 _let_22) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_17) (tptp.experiencer_2 X _let_8) (tptp.experiencer_2 X _let_9) (tptp.minCardinality X tptp.experiencer_0 |"2"| tptp.prokaryote_0) (tptp.first_subevent_2 X _let_1) (tptp.rate_2 _let_11 _let_21) (tptp.directly_proportional_2 _let_21 _let_20) (tptp.the_scalar_value_2 _let_20 tptp.low_0) (tptp.scalar_unit_class_2 _let_20 tptp.tangible_entity_0) (tptp.quantity_2 _let_13 _let_20) (tptp.result_2 _let_17 _let_19) (tptp.result_2 _let_14 _let_16) (tptp.recipient_2 _let_3 _let_9) (tptp.object_2 _let_3 _let_13) (tptp.object_2 _let_6 _let_9) (tptp.base_2 _let_11 _let_9) (tptp.subevent_2 _let_1 _let_6) (tptp.object_2 _let_6 _let_8) (tptp.is_near_2 _let_8 _let_9) (tptp.is_near_2 _let_9 _let_8) (not (= _let_8 _let_9)) (not (= _let_9 _let_8)) (= _let_19 _let_18) (= _let_16 _let_15) (= _let_9 _let_4) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fsh_1 X) (and (tptp.original_name_2 X |tptp.'FSH'|) (tptp.user_description_2 X |tptp.'Follicle-stimulating hormone. A tropic hormone secreted from the anterior pituitary that stimulates follicle growth.'|) (tptp.concept2words_2 X |tptp.'follicle stimulating hormone'|) (tptp.concept2words_2 X |tptp.'follicle-stimulating-hormone'|) (tptp.concept2words_2 X tptp.fsh) (tptp.tropic_hormone_1 X) (tptp.glycoprotein_hormone_1 X) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.lh_1 X)) (not (tptp.hcg_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fuel_8 X))) (let ((_let_2 (tptp.fn_consume_2 _let_1))) (let ((_let_3 (tptp.fn_fuel_6 X))) (let ((_let_4 (tptp.fn_heat_4 _let_3))) (let ((_let_5 (tptp.fn_fuel_3 X))) (let ((_let_6 (tptp.fn_heat_5 _let_3))) (let ((_let_7 (tptp.fn_fuel_4 X))) (let ((_let_8 (tptp.fn_heat_1 _let_3))) (let ((_let_9 (tptp.fn_fuel_5 X))) (let ((_let_10 (tptp.fn_heat_3 _let_3))) (let ((_let_11 (tptp.fn_heat_2 _let_3))) (let ((_let_12 (tptp.fn_consume_1 _let_1))) (let ((_let_13 (tptp.fn_fuel_7 X))) (=> (tptp.fuel_1 X) (and (tptp.original_name_2 X |tptp.'Fuel'|) (tptp.description_2 X |tptp.'Any material which is burned to supply power or heat.'|) (tptp.user_description_2 X |tptp.'Fuel is a substance which when consumed provides energy.'|) (tptp.concept2words_2 X tptp.fuel) (tptp.resource_1 X) (tptp.temperature_value_1 _let_5) (tptp.temperature_value_1 _let_7) (tptp.tangible_entity_1 _let_9) (tptp.heat_1 _let_3) (tptp.tangible_entity_1 _let_13) (tptp.consume_1 _let_1) (tptp.entity_1 _let_12) (tptp.property_node_1 _let_11) (tptp.property_node_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.temperature_value_1 _let_6) (tptp.temperature_value_1 _let_4) (tptp.resource_1 _let_2) (tptp.objective_2 _let_1 _let_3) (tptp.is_near_2 _let_13 _let_9) (tptp.is_near_2 _let_9 _let_13) (tptp.object_2 _let_1 _let_13) (tptp.plays_2 _let_13 X) (tptp.in_event_2 X _let_1) (tptp.base_2 _let_3 _let_9) (= X _let_2) (= _let_13 _let_12) (= (tptp.fn_fuel_1 X) _let_11) (= (tptp.fn_fuel_2 X) _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_2 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fumarate_1 X) (and (tptp.original_name_2 X |tptp.'Fumarate'|) (tptp.user_description_2 X |tptp.'Fumarate is an intermediate compound formed in citric acid cycle.'|) (tptp.concept2words_2 X tptp.fumarate) (tptp.ester_1 X) (not (tptp.acetate_1 X)) (not (tptp.alpha_ketoglutarate_1 X)) (not (tptp.citrate_1 X)) (not (tptp.isocitrate_1 X)) (not (tptp.malate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.function_1 X) (and (tptp.original_name_2 X |tptp.'Function'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_functional_group_1 X))) (=> (tptp.functional_group_1 X) (and (tptp.original_name_2 X |tptp.'Functional-Group'|) (tptp.user_description_2 X |tptp.'Functional groups are specific groups of atoms within organic molecules that are responsible for the characteristic chemical reactions of those organic molecules.'|) (tptp.concept2words_2 X |tptp.'chemical group'|) (tptp.concept2words_2 X |tptp.'functional group'|) (tptp.concept2words_2 X |tptp.'functional-group'|) (tptp.molecular_region_1 X) (tptp.chemical_entity_1 _let_1) (tptp.has_region_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_functional_protein_12 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_2 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_functional_protein_2 X))) (let ((_let_6 (tptp.fn_post_translational_modification_4 _let_5))) (let ((_let_7 (tptp.fn_functional_protein_8 X))) (let ((_let_8 (tptp.fn_attach_1 _let_7))) (let ((_let_9 (tptp.fn_post_translational_modification_10 _let_5))) (let ((_let_10 (tptp.fn_functional_protein_4 X))) (let ((_let_11 (tptp.fn_move_1 _let_10))) (let ((_let_12 (tptp.fn_polymer_4 X))) (let ((_let_13 (tptp.fn_polymer_6 X))) (let ((_let_14 (tptp.fn_attach_2 _let_7))) (let ((_let_15 (tptp.fn_functional_protein_6 X))) (let ((_let_16 (tptp.fn_perceive_1 _let_15))) (let ((_let_17 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_18 (tptp.fn_functional_protein_11 X))) (let ((_let_19 (tptp.fn_functional_protein_9 X))) (let ((_let_20 (tptp.fn_post_translational_modification_5 _let_5))) (let ((_let_21 (tptp.fn_functional_protein_3 X))) (let ((_let_22 (tptp.fn_functional_protein_5 X))) (let ((_let_23 (tptp.fn_functional_protein_13 X))) (let ((_let_24 (tptp.fn_functional_protein_14 X))) (let ((_let_25 (tptp.fn_functional_protein_10 X))) (let ((_let_26 (tptp.fn_functional_protein_7 X))) (let ((_let_27 (tptp.fn_functional_protein_1 X))) (=> (tptp.functional_protein_1 X) (and (tptp.original_name_2 X |tptp.'Functional-Protein'|) (tptp.user_description_2 X |tptp.'A protein in its functional (non-denatured), completely folded conformation.'|) (tptp.concept2words_2 X |tptp.'functional protein'|) (tptp.concept2words_2 X |tptp.'functional-protein'|) (tptp.protein_1 X) (tptp.target_destination_1 _let_27) (tptp.post_translational_modification_1 _let_5) (tptp.change_1 _let_21) (tptp.move_1 _let_10) (tptp.spatial_entity_1 _let_22) (tptp.polypeptide_1 _let_22) (tptp.recognize_1 _let_15) (tptp.molecule_1 _let_26) (tptp.attach_1 _let_7) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.monomer_1 _let_25) (tptp.carbon_1 _let_18) (tptp.carbon_skeleton_1 _let_1) (tptp.surface_1 _let_23) (tptp.hydrophilic_region_1 _let_24) (tptp.change_1 _let_20) (tptp.carbon_1 _let_17) (tptp.entity_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_11) (tptp.polypeptide_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.functional_protein_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.subevent_2 _let_5 _let_10) (tptp.base_2 _let_21 _let_22) (tptp.destination_2 _let_10 _let_27) (tptp.enables_2 _let_15 _let_7) (tptp.object_2 _let_10 _let_22) (tptp.object_2 _let_15 _let_26) (tptp.base_2 _let_7 _let_26) (tptp.has_part_2 X _let_25) (tptp.object_2 _let_7 X) (tptp.has_part_2 X _let_19) (tptp.has_region_2 X _let_23) (tptp.is_at_2 _let_24 _let_23) (tptp.has_region_2 X _let_24) (tptp.subevent_2 _let_5 _let_21) (tptp.object_2 _let_21 _let_22) (tptp.object_2 _let_5 _let_22) (tptp.result_2 _let_5 X) (tptp.result_2 _let_21 X) (tptp.is_inside_2 _let_18 _let_1) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_1) (not (= _let_19 _let_18)) (not (= _let_18 _let_19)) (= _let_22 _let_11) (= _let_26 _let_16) (= _let_26 _let_14) (= _let_25 _let_13) (= _let_25 _let_12) (= X _let_8) (= _let_19 _let_3) (= _let_24 (tptp.fn_protein_1 X)) (= _let_23 (tptp.fn_protein_5 X)) (= X _let_6) (= _let_22 _let_9) (= _let_21 _let_20) (= X _let_4) (= _let_19 _let_2) (= _let_18 _let_17) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.functional_region_1 X) (and (tptp.original_name_2 X |tptp.'Functional-Region'|) (tptp.user_description_2 X |tptp.'Functional region is a region present on a molecule which enables the function of the molecule.'|) (tptp.concept2words_2 X |tptp.'functional region'|) (tptp.concept2words_2 X |tptp.'functional-region'|) (tptp.molecular_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fungal_appendage_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Appendage'|) (tptp.user_description_2 X |tptp.'An external part, or natural prolongation, that protrudes from a fungus.'|) (tptp.concept2words_2 X |tptp.'fungal appendage'|) (tptp.concept2words_2 X |tptp.'fungal-appendage'|) (tptp.anatomical_appendage_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fungal_cell_28 X))) (let ((_let_2 (tptp.fn_smooth_endoplasmic_reticulum_39 _let_1))) (let ((_let_3 (tptp.fn_fungal_cell_14 X))) (let ((_let_4 (tptp.fn_endoplasmic_reticulum_31 _let_3))) (let ((_let_5 (tptp.fn_endoplasmic_reticulum_40 _let_3))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_7 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_8 (tptp.fn_rough_endoplasmic_reticulum_23 _let_3))) (let ((_let_9 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_10 (tptp.fn_fungal_cell_18 X))) (let ((_let_11 (tptp.fn_cell_wall_15 _let_10))) (let ((_let_12 (tptp.fn_fungal_cell_16 X))) (let ((_let_13 (tptp.fn_electrogenic_pump_30 _let_12))) (let ((_let_14 (tptp.fn_carrier_protein_18 _let_12))) (let ((_let_15 (tptp.fn_integral_protein_24 _let_12))) (let ((_let_16 (tptp.fn_transport_protein_35 _let_12))) (let ((_let_17 (tptp.fn_protein_pump_3 _let_12))) (let ((_let_18 (tptp.fn_endoplasmic_reticulum_11 _let_3))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_1))) (let ((_let_20 (tptp.fn_rough_endoplasmic_reticulum_62 _let_3))) (let ((_let_21 (tptp.fn_cell_wall_13 _let_10))) (let ((_let_22 (tptp.fn_fungal_cell_30 X))) (let ((_let_23 (tptp.fn_cytoskeleton_6 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_let_12))) (let ((_let_43 (tptp.fn_plasma_membrane_54 _let_30))) (let ((_let_44 (tptp.fn_plasma_membrane_68 _let_30))) (let ((_let_45 (tptp.fn_plasma_membrane_66 _let_30))) (let ((_let_46 (tptp.fn_eukaryotic_cell_46 X))) (let ((_let_47 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_48 (tptp.fn_rough_endoplasmic_reticulum_32 _let_3))) (let ((_let_49 (tptp.fn_rough_endoplasmic_reticulum_39 _let_3))) (let ((_let_50 (tptp.fn_rough_endoplasmic_reticulum_47 _let_3))) (let ((_let_51 (tptp.fn_rough_endoplasmic_reticulum_22 _let_3))) (let ((_let_52 (tptp.fn_fungal_cell_13 X))) (let ((_let_53 (tptp.fn_smooth_endoplasmic_reticulum_28 _let_1))) (let ((_let_54 (tptp.fn_fungal_cell_12 X))) (let ((_let_55 (tptp.fn_smooth_endoplasmic_reticulum_30 _let_1))) (let ((_let_56 (tptp.fn_fungal_cell_31 X))) (let ((_let_57 (tptp.fn_fungal_cell_8 X))) (let ((_let_58 (tptp.fn_plasma_membrane_4 _let_30))) (let ((_let_59 (tptp.fn_fungal_cell_6 X))) (let ((_let_60 (tptp.fn_fungal_cell_15 X))) (let ((_let_61 (tptp.fn_fungal_cell_29 X))) (let ((_let_62 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_1))) (let ((_let_63 (tptp.fn_fungal_cell_7 X))) (let ((_let_64 (tptp.fn_fungal_cell_23 X))) (let ((_let_65 (tptp.fn_fungal_cell_10 X))) (let ((_let_66 (tptp.fn_fungal_cell_2 X))) (let ((_let_67 (tptp.fn_fungal_cell_24 X))) (let ((_let_68 (tptp.fn_plasma_membrane_6 _let_30))) (let ((_let_69 (tptp.fn_fungal_cell_9 X))) (let ((_let_70 (tptp.fn_fungal_cell_21 X))) (let ((_let_71 (tptp.fn_fungal_cell_3 X))) (let ((_let_72 (tptp.fn_fungal_cell_19 X))) (let ((_let_73 (tptp.fn_fungal_cell_33 X))) (let ((_let_74 (tptp.fn_fungal_cell_32 X))) (let ((_let_75 (tptp.fn_fungal_cell_20 X))) (let ((_let_76 (tptp.fn_fungal_cell_22 X))) (let ((_let_77 (tptp.fn_fungal_cell_25 X))) (let ((_let_78 (tptp.fn_fungal_cell_27 X))) (let ((_let_79 (tptp.fn_fungal_cell_26 X))) (let ((_let_80 (tptp.fn_fungal_cell_11 X))) (let ((_let_81 (tptp.fn_fungal_cell_1 X))) (let ((_let_82 (tptp.concept2words_2 X |tptp.'fungi-cells'|))) (let ((_let_83 (tptp.concept2words_2 X |tptp.'fungi cells'|))) (=> (tptp.fungal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Cell'|) (tptp.user_description_2 X |tptp.'Fungal cell is a eukaryotic cell having a cell wall that is made up from chitin molecule.'|) (tptp.concept2words_2 X |tptp.'fungus cell'|) (tptp.concept2words_2 X |tptp.'fungus-cell'|) _let_83 _let_82 (tptp.concept2words_2 X |tptp.'cell of a fungus'|) (tptp.concept2words_2 X |tptp.'cell-of-a-fungus'|) _let_83 _let_82 (tptp.concept2words_2 X |tptp.'fungal cell'|) (tptp.concept2words_2 X |tptp.'fungal-cell'|) (tptp.walled_cell_1 X) (tptp.eukaryotic_cell_1 X) (not (tptp.animal_cell_1 X)) (tptp.extra_cellular_matrix_1 _let_81) (tptp.glycoprotein_1 _let_66) (tptp.surface_1 _let_71) (tptp.cytoplasmic_side_1 _let_71) (tptp.ribosome_1 _let_59) (tptp.eukaryotic_ribosome_1 _let_59) (tptp.golgi_apparatus_1 _let_63) (tptp.substance_1 _let_57) (tptp.cytosol_1 _let_57) (tptp.hydrophobic_core_1 _let_69) (tptp.spatial_entity_1 _let_65) (tptp.membrane_protein_1 _let_65) (tptp.tangible_entity_1 _let_65) (tptp.transmembrane_protein_1 _let_65) (tptp.integral_protein_1 _let_65) (tptp.transport_protein_1 _let_65) (tptp.synthesis_reaction_1 _let_80) (tptp.anabolic_pathway_1 _let_80) (tptp.synthesis_of_protein_1 _let_80) (tptp.synthesis_of_membrane_protein_1 _let_80) (tptp.tangible_entity_1 _let_54) (tptp.er_membrane_1 _let_54) (tptp.biomembrane_1 _let_54) (tptp.cisternal_space_1 _let_52) (tptp.rough_endoplasmic_reticulum_1 _let_3) (tptp.endoplasmic_reticulum_1 _let_3) (tptp.semiautonomous_organelle_1 _let_60) (tptp.organelle_1 _let_60) (tptp.mitochondrion_1 _let_60) (tptp.proton_pump_1 _let_12) (tptp.membrane_1 _let_30) (tptp.spatial_entity_1 _let_30) (tptp.biomembrane_1 _let_30) (tptp.plasma_membrane_1 _let_30) (tptp.fungal_cell_wall_1 _let_10) (tptp.mixture_1 _let_72) (tptp.cytoplasm_1 _let_72) (tptp.eukaryotic_chromosome_1 _let_75) (tptp.chromosome_1 _let_75) (tptp.tangible_entity_1 _let_70) (tptp.membrane_protein_1 _let_70) (tptp.protein_1 _let_70) (tptp.spatial_entity_1 _let_70) (tptp.polymer_1 _let_70) (tptp.attach_1 _let_76) (tptp.outside_face_1 _let_64) (tptp.extracellular_side_1 _let_64) (tptp.tangible_entity_1 _let_67) (tptp.phospholipid_bilayer_1 _let_67) (tptp.size_value_1 _let_77) (tptp.surface_1 _let_79) (tptp.volume_value_1 _let_78) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.tangible_entity_1 _let_61) (tptp.nucleus_1 _let_61) (tptp.cytoskeleton_1 _let_22) (tptp.aqueous_solution_1 _let_56) (tptp.cellular_work_1 _let_74) (tptp.eukaryotic_cellular_respiration_1 _let_73) (tptp.hydrophobic_core_1 _let_68) (tptp.golgi_apparatus_1 _let_62) (tptp.membrane_protein_1 _let_58) (tptp.aqueous_solution_1 _let_55) (tptp.tangible_entity_1 _let_53) (tptp.er_membrane_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.synthesis_reaction_1 _let_51) (tptp.anabolic_pathway_1 _let_50) (tptp.synthesis_of_protein_1 _let_50) (tptp.synthesis_of_protein_1 _let_49) (tptp.synthesis_of_membrane_protein_1 _let_49) (tptp.mixture_1 _let_48) (tptp.cytoplasm_1 _let_48) (tptp.cytoplasmic_side_1 _let_45) (tptp.tangible_entity_1 _let_44) (tptp.membrane_protein_1 _let_44) (tptp.protein_1 _let_44) (tptp.tangible_entity_1 _let_43) (tptp.membrane_protein_1 _let_43) (tptp.protein_1 _let_43) (tptp.spatial_entity_1 _let_43) (tptp.polymer_1 _let_43) (tptp.tangible_entity_1 _let_42) (tptp.phospholipid_bilayer_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.phospholipid_bilayer_1 _let_41) (tptp.tangible_entity_1 _let_40) (tptp.phospholipid_bilayer_1 _let_40) (tptp.tangible_entity_1 _let_38) (tptp.phospholipid_bilayer_1 _let_38) (tptp.glycoprotein_1 _let_37) (tptp.glycoprotein_1 _let_36) (tptp.membrane_protein_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.transmembrane_protein_1 _let_33) (tptp.integral_protein_1 _let_33) (tptp.transport_protein_1 _let_33) (tptp.outside_face_1 _let_32) (tptp.extracellular_side_1 _let_31) (tptp.nucleus_1 _let_28) (tptp.mitochondrion_1 _let_26) (tptp.eukaryotic_ribosome_1 _let_24) (tptp.cell_1 _let_23) (tptp.tangible_entity_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.cell_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_19) (tptp.cell_1 _let_19) (tptp.eukaryotic_cell_1 _let_18) (tptp.cell_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.biomembrane_1 _let_17) (tptp.spatial_entity_1 _let_16) (tptp.biomembrane_1 _let_16) (tptp.biomembrane_1 _let_15) (tptp.membrane_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.membrane_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.membrane_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.biomembrane_1 _let_11) (tptp.plasma_membrane_1 _let_11) (tptp.substance_1 _let_8) (tptp.cytosol_1 _let_8) (tptp.substance_1 _let_6) (tptp.cytosol_1 _let_6) (tptp.substance_1 _let_5) (tptp.cytosol_1 _let_5) (tptp.cisternal_space_1 _let_4) (tptp.cisternal_space_1 _let_2) (not (= _let_65 _let_12)) (tptp.called_2 _let_65 |tptp.'MP2'|) (tptp.site_2 _let_80 _let_54) (tptp.is_across_2 _let_12 _let_69) (not (= _let_12 _let_65)) (not (= _let_12 _let_70)) (tptp.called_2 _let_12 |tptp.'MP1'|) (tptp.is_outside_2 _let_81 _let_30) (not (= _let_70 _let_12)) (tptp.is_inside_2 _let_56 _let_54) (tptp.is_across_2 _let_12 _let_30) (tptp.has_part_2 _let_30 _let_12) (tptp.has_part_2 X _let_10) (tptp.is_outside_2 _let_10 _let_30) (tptp.called_2 _let_70 |tptp.'MP1'|) (tptp.abuts_2 _let_1 _let_3) (tptp.abuts_2 _let_3 _let_1) (not (= _let_1 _let_3)) (not (= _let_3 _let_1)) (tptp.site_2 _let_80 _let_3) (tptp.has_function_2 _let_3 _let_80) (tptp.base_2 _let_80 X) (tptp.the_scalar_value_2 _let_77 tptp.big_0) (tptp.scalar_unit_class_2 _let_77 tptp.prokaryote_0) (tptp.has_part_2 _let_72 _let_57) (tptp.is_inside_2 _let_60 _let_57) (tptp.size_2 X _let_77) (tptp.directly_proportional_2 _let_77 _let_78) (tptp.volume_2 X _let_78) (tptp.has_region_2 X _let_79) (tptp.is_at_2 _let_67 _let_79) (tptp.is_facing_2 _let_71 _let_72) (tptp.is_oriented_toward_2 _let_71 _let_72) (tptp.is_inside_2 _let_72 _let_30) (tptp.base_2 _let_76 _let_30) (tptp.object_2 _let_76 _let_65) (tptp.base_2 _let_74 X) (tptp.has_function_2 X _let_74) (tptp.has_part_2 X _let_75) (tptp.is_inside_2 _let_75 _let_61) (tptp.is_between_2 _let_72 _let_61) (tptp.has_part_2 X _let_72) (tptp.is_between_2 _let_72 _let_30) (tptp.has_part_2 X _let_30) (tptp.has_function_2 X _let_73) (tptp.base_2 _let_73 X) (tptp.has_region_2 _let_30 _let_71) (tptp.is_at_2 _let_65 _let_30) (tptp.has_region_2 _let_30 _let_64) (tptp.has_part_2 _let_30 _let_65) (tptp.has_part_2 _let_30 _let_70) (tptp.called_2 _let_70 |tptp.'MP2'|) (tptp.is_across_2 _let_65 _let_69) (tptp.has_region_2 _let_30 _let_69) (tptp.has_part_2 _let_30 _let_67) (tptp.is_inside_2 _let_65 _let_67) (not (= _let_65 _let_70)) (not (= _let_70 _let_65)) (tptp.is_outside_2 _let_64 _let_30) (tptp.has_region_2 _let_65 _let_64) (tptp.is_across_2 _let_65 _let_30) (tptp.has_part_2 _let_30 _let_66) (tptp.is_inside_2 _let_66 _let_67) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_63) (tptp.is_inside_2 _let_63 _let_57) (tptp.has_part_2 X _let_61) (tptp.has_part_2 X _let_60) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_59) (tptp.is_inside_2 _let_59 _let_57) (tptp.is_between_2 _let_54 _let_56) (tptp.is_inside_2 _let_52 _let_54) (tptp.has_region_2 _let_1 _let_52) (tptp.is_inside_2 _let_3 _let_57) (tptp.has_region_2 _let_3 _let_52) (tptp.is_at_2 _let_12 _let_30) (= _let_30 _let_17) (= _let_30 _let_14) (= _let_30 _let_13) (= _let_22 (tptp.fn_cell_2 X)) (= X _let_23) (= _let_10 (tptp.fn_walled_cell_1 X)) (= X _let_21) (= _let_30 _let_11) (= _let_1 (tptp.fn_eukaryotic_cell_20 X)) (= _let_80 _let_51) (= _let_80 _let_50) (= _let_80 _let_49) (= (tptp.fn_fungal_cell_5 X) (tptp.fn_eukaryotic_cell_28 X)) (= (tptp.fn_fungal_cell_4 X) (tptp.fn_eukaryotic_cell_60 X)) (= _let_60 _let_27) (= _let_57 _let_8) (= _let_67 _let_39) (= _let_79 (tptp.fn_eukaryotic_cell_44 X)) (= _let_78 (tptp.fn_eukaryotic_cell_59 X)) (= _let_77 (tptp.fn_eukaryotic_cell_27 X)) (= _let_65 _let_34) (= _let_76 (tptp.fn_eukaryotic_cell_16 X)) (= _let_71 _let_46) (= _let_75 (tptp.fn_eukaryotic_cell_30 X)) (= _let_74 (tptp.fn_eukaryotic_cell_32 X)) (= _let_73 (tptp.fn_eukaryotic_cell_23 X)) (= _let_30 _let_9) (= X _let_20) (= _let_72 _let_48) (= _let_72 _let_47) (= _let_71 _let_45) (= _let_64 _let_32) (= _let_65 _let_35) (= _let_70 _let_44) (= _let_70 _let_43) (= _let_30 _let_16) (= _let_67 _let_42) (= _let_67 _let_40) (= _let_69 _let_68) (= _let_67 _let_41) (= _let_67 _let_38) (= _let_30 _let_15) (= _let_66 _let_37) (= _let_66 _let_36) (= _let_65 _let_33) (= _let_64 _let_31) (= _let_57 _let_6) (= _let_63 _let_62) (= X _let_19) (= _let_61 _let_29) (= _let_61 _let_28) (= _let_60 _let_26) (= _let_57 _let_7) (= _let_59 _let_25) (= _let_59 _let_24) (= _let_3 (tptp.fn_eukaryotic_cell_19 X)) (= X _let_18) (= _let_12 _let_58) (= _let_57 _let_5) (= _let_52 _let_4) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_2) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fungal_cell_inside_hypertonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Cell-Inside-Hypertonic-Solution'|) (tptp.user_description_2 X |tptp.'This is the situation in which fungal cell is placed inside hypertonic solution.'|) (tptp.concept2words_2 X |tptp.'fungal cell inside hypertonic solution'|) (tptp.concept2words_2 X |tptp.'fungal-cell-inside-hypertonic-solution'|) (tptp.walled_cell_inside_hypertonic_solution_1 X) (tptp.fungal_cell_1 X) (not (tptp.bacterial_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fungal_cell_wall_1 X))) (=> (tptp.fungal_cell_wall_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Cell-Wall'|) (tptp.user_description_2 X |tptp.'A rigid barrier around the cells of fungi consisting largely of chitin and other polysaccharides, though not cellulose.'|) (tptp.concept2words_2 X |tptp.'fungal cell wall'|) (tptp.concept2words_2 X |tptp.'fungal cell-wall'|) (tptp.concept2words_2 X |tptp.'fungal-cell-wall'|) (tptp.cell_wall_1 X) (tptp.chitin_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_cell_wall_5 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.life_cycle_1 X) (tptp.fungus_1 X1)) (and (tptp.fungal_life_cycle_1 X) (= (tptp.fn_fungal_life_cycle_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fungal_life_cycle_9 X))) (let ((_let_2 (tptp.fn_cell_division_2 _let_1))) (let ((_let_3 (tptp.fn_fungal_life_cycle_7 X))) (let ((_let_4 (tptp.fn_impair_1 _let_3))) (let ((_let_5 (tptp.fn_fungal_life_cycle_6 X))) (let ((_let_6 (tptp.fn_fertilization_2 _let_5))) (let ((_let_7 (tptp.fn_fungal_life_cycle_4 X))) (let ((_let_8 (tptp.fn_fungal_life_cycle_5 X))) (let ((_let_9 (tptp.fn_fungal_life_cycle_8 X))) (let ((_let_10 (tptp.fn_create_1 _let_9))) (let ((_let_11 (tptp.fn_fungal_life_cycle_3 X))) (let ((_let_12 (tptp.fn_fungal_life_cycle_2 X))) (=> (tptp.fungal_life_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Life-Cycle'|) (tptp.user_description_2 X |tptp.'The generation-to-generation sequence of stages in the reproductive history of a fungus.'|) (tptp.concept2words_2 X |tptp.'life cycle of fungus'|) (tptp.concept2words_2 X |tptp.'life-cycle-of-fungus'|) (tptp.concept2words_2 X |tptp.'undergo the fungal life cycle'|) (tptp.concept2words_2 X |tptp.'fungal life cycle'|) (tptp.concept2words_2 X |tptp.'fungal-life-cycle'|) (tptp.life_cycle_1 X) (not (tptp.animal_life_cycle_1 X)) (not (tptp.determinate_growth_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.life_cycle_of_drosophila_1 X)) (not (tptp.life_history_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X)) (tptp.mitosis_1 _let_12) (tptp.fungus_1 _let_11) (tptp.gamete_1 _let_7) (tptp.haploid_cell_1 _let_8) (tptp.fertilization_1 _let_5) (tptp.mitosis_1 _let_3) (tptp.create_1 _let_9) (tptp.meiosis_1 _let_1) (tptp.entity_1 _let_10) (tptp.gamete_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cell_1 _let_2) (tptp.first_subevent_2 X _let_12) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_5) (tptp.object_2 X _let_11) (tptp.site_2 _let_12 _let_11) (tptp.result_2 _let_12 _let_7) (tptp.next_event_2 _let_12 _let_5) (tptp.next_event_2 _let_5 _let_1) (tptp.result_2 _let_3 _let_8) (tptp.subevent_2 _let_9 _let_3) (tptp.minCardinality _let_9 tptp.subevent_0 |"2"| tptp.mitosis_0) (tptp.next_event_2 _let_1 _let_9) (tptp.result_2 _let_9 _let_11) (tptp.object_2 _let_3 _let_8) (tptp.result_2 _let_1 _let_8) (tptp.object_2 _let_5 _let_7) (= _let_11 _let_10) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_4 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.fungal_organ_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Organ'|) (tptp.user_description_2 X |tptp.'A specialized center of function composed of several different types of tissues specific to fungi.'|) (tptp.concept2words_2 X |tptp.'fungal organ'|) (tptp.concept2words_2 X |tptp.'fungal-organ'|) (tptp.organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fungal_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Fungal-Tissue'|) (tptp.user_description_2 X |tptp.'A tissue found in a fungus.'|) (tptp.concept2words_2 X |tptp.'fungal tissue'|) (tptp.concept2words_2 X |tptp.'fungal-tissue'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_fungus_1 X))) (let ((_let_2 (tptp.fn_decomposer_1 _let_1))) (=> (tptp.fungus_1 X) (and (tptp.original_name_2 X |tptp.'Fungus'|) (tptp.description_2 X |tptp.'Plantlike organisms lacking chlorophyll. Include mushrooms, molds, yeasts, and mildews. Kingdom Fungi.'|) (tptp.user_description_2 X |tptp.'Fungi comprise a kingdom of eukaryotes that acts decomposers and absorb nutrients from their surroundings .'|) (tptp.concept2words_2 X tptp.fungi) (tptp.concept2words_2 X tptp.mold) (tptp.concept2words_2 X tptp.yeast) (tptp.concept2words_2 X tptp.fungus) (tptp.eukaryote_1 X) (not (tptp.animal_1 X)) (not (tptp.protist_1 X)) (tptp.decomposer_1 _let_1) (tptp.organism_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.fur_1 X) (and (tptp.original_name_2 X |tptp.'Fur'|) (tptp.user_description_2 X |tptp.'The soft, thick, hairy coat that covers the skin of some mammals.'|) (tptp.concept2words_2 X tptp.fur) (tptp.fiber_1 X)))) (forall ((X $$unsorted)) (=> (tptp.furnishing_1 X) (and (tptp.original_name_2 X |tptp.'Furnishing'|) (tptp.description_2 X |tptp.'furniture, fixtures, room accessories, etc.'|) (tptp.concept2words_2 X tptp.furnishings) (tptp.concept2words_2 X tptp.furnishing) (tptp.artifact_1 X) (not (tptp.physical_document_1 X)) (not (tptp.device_1 X)) (not (tptp.architectural_structure_1 X)) (not (tptp.pharmaceutical_product_1 X)) (not (tptp.photographic_film_1 X)) (not (tptp.scientific_device_1 X)) (not (tptp.useful_product_1 X))))) (forall ((X $$unsorted)) (=> (tptp.furniture_1 X) (and (tptp.original_name_2 X |tptp.'Furniture'|) (tptp.description_2 X |tptp.'any artifact that helps make a room usable, though maybe not directly instrumental'|) (tptp.concept2words_2 X tptp.furniture) (tptp.furnishing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fus3_1 X) (and (tptp.original_name_2 X |tptp.'Fus3'|) (tptp.user_description_2 X |tptp.'FUs3 (mitogen activated protein kinase) is an enzyme which plays a role in cell signaling pathways leading to mating in yeast cells.'|) (tptp.concept2words_2 X tptp.fus3) (tptp.protein_kinase_1 X)))) (forall ((X $$unsorted)) (=> (tptp.fusiform_initials_1 X) (and (tptp.original_name_2 X |tptp.'Fusiform-Initials'|) (tptp.user_description_2 X |tptp.'Plant cambium cells with tapered ends that produce new vascular tissue in secondary growth.'|) (tptp.concept2words_2 X |tptp.'fusiform initials'|) (tptp.concept2words_2 X |tptp.'fusiform initial'|) (tptp.concept2words_2 X |tptp.'fusiform-initial'|) (tptp.plant_metabolic_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.collenchyma_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.parenchyma_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X))))) (forall ((X $$unsorted)) (=> (tptp.fusion_1 X) (and (tptp.original_name_2 X |tptp.'Fusion'|) (tptp.user_description_2 X |tptp.'An occurrence that involves the production of a union from different entities.'|) (tptp.concept2words_2 X tptp.merge) (tptp.concept2words_2 X tptp.fuse) (tptp.concept2words_2 X tptp.fusion) (tptp.add_1 X) (not (tptp.recombination_1 X)) (not (tptp.staining_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_polymer_8 X))) (let ((_let_3 (tptp.fn_polymer_4 X))) (let ((_let_4 (tptp.fn_polymer_6 X))) (let ((_let_5 (tptp.fn_g_protein_3 X))) (let ((_let_6 (tptp.fn_g_protein_5 X))) (let ((_let_7 (tptp.fn_g_protein_4 X))) (let ((_let_8 (tptp.fn_g_protein_1 X))) (let ((_let_9 (tptp.fn_g_protein_2 X))) (=> (tptp.g_protein_1 X) (and (tptp.original_name_2 X |tptp.'G-Protein'|) (tptp.user_description_2 X |tptp.'A protein that acts as a molecular switch, transmitting chemical signals from the outside of a cell to the inside.'|) (tptp.concept2words_2 X |tptp.'protein of g'|) (tptp.concept2words_2 X |tptp.'g protein'|) (tptp.concept2words_2 X |tptp.'g-protein'|) (tptp.relay_protein_1 X) (not (tptp.calmodulin_1 X)) (not (tptp.scaffolding_protein_1 X)) (tptp.cytoplasmic_side_1 _let_8) (tptp.gtpase_1 _let_9) (tptp.size_value_1 _let_5) (tptp.size_value_1 _let_7) (tptp.monomer_1 _let_6) (tptp.has_part_2 X _let_9) (tptp.is_at_2 X _let_8) (tptp.has_part_2 X _let_6) (tptp.size_2 _let_6 _let_7) (tptp.greater_than_2 _let_5 _let_7) (tptp.size_2 X _let_5) (tptp.the_scalar_value_2 _let_5 tptp.big_0) (tptp.scalar_unit_class_2 _let_5 tptp.polypeptide_0) (= _let_5 _let_2) (= _let_7 (tptp.fn_polymer_7 X)) (= _let_6 _let_4) (= _let_6 _let_3) (= _let_5 _let_1) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g_protein_coupled_receptor_1 X))) (=> (tptp.g_protein_coupled_receptor_1 X) (and (tptp.original_name_2 X |tptp.'G-Protein-Coupled-Receptor'|) (tptp.user_description_2 X |tptp.'Member of a large group of transmembrane proteins that detect chemicals outside the cell and activate intracellular transduction pathways, thus triggering a cellular response to the external signal.'|) (tptp.concept2words_2 X |tptp.'g protein linked receptor'|) (tptp.concept2words_2 X |tptp.'g protein linked receptor protein'|) (tptp.concept2words_2 X |tptp.'g protein coupled receptor'|) (tptp.concept2words_2 X |tptp.'g-protein coupled receptor'|) (tptp.concept2words_2 X tptp.gpcr) (tptp.concept2words_2 X |tptp.'g-protein-coupled-receptor'|) (tptp.cell_surface_receptor_1 X) (not (tptp.growth_factor_receptor_1 X)) (not (tptp.intracellular_receptor_1 X)) (not (tptp.receptor_tyrosine_kinase_1 X)) (tptp.extracellular_side_1 _let_1) (tptp.has_region_2 X _let_1) (= _let_1 (tptp.fn_protein_5 X)))))) (forall ((X $$unsorted)) (=> (tptp.g_nicolson_1 X) (and (tptp.original_name_2 X |tptp.'G.Nicolson'|) (tptp.user_description_2 X |tptp.'Biologist that studied biomembranes and developed the Fluid Mosaic Model for placement of membrane proteins.'|) (tptp.concept2words_2 X tptp.nicolson) (tptp.concept2words_2 X |tptp.'g.nicolson'|) (tptp.biologist_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g0_phase_1 X))) (=> (tptp.g0_phase_1 X) (and (tptp.original_name_2 X |tptp.'G0-Phase'|) (tptp.user_description_2 X |tptp.'A resting state in which cells have left the cell cycle and are not dividing.'|) (tptp.concept2words_2 X |tptp.'resting phase'|) (tptp.concept2words_2 X |tptp.'resting-phase'|) (tptp.concept2words_2 X |tptp.'undergo the g0 phase'|) (tptp.concept2words_2 X |tptp.'undergo the g0-phase'|) (tptp.concept2words_2 X |tptp.'g0 phase'|) (tptp.concept2words_2 X |tptp.'g0-phase'|) (tptp.cell_cycle_process_1 X) (tptp.eukaryotic_cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g1_checkpoint_2 X))) (=> (tptp.g1_checkpoint_1 X) (and (tptp.original_name_2 X |tptp.'G1-Checkpoint'|) (tptp.user_description_2 X |tptp.'Checkpoint in the regulation of the cell cycle which occurs between the G1 and S phases of the cycle.'|) (tptp.concept2words_2 X |tptp.'restriction point'|) (tptp.concept2words_2 X |tptp.'g1 checkpoint'|) (tptp.concept2words_2 X |tptp.'g1-checkpoint'|) (tptp.checkpoint_1 X) (tptp.unitless_value_1 _let_1) (tptp.importance_2 X _let_1) (tptp.the_scalar_value_2 _let_1 tptp.important_0) (tptp.scalar_unit_class_2 _let_1 tptp.checkpoint_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g1_checkpoint_in_animal_cell_3 X))) (let ((_let_2 (tptp.fn_g1_checkpoint_in_animal_cell_2 X))) (let ((_let_3 (tptp.fn_g1_checkpoint_in_animal_cell_4 X))) (=> (tptp.g1_checkpoint_in_animal_cell_1 X) (and (tptp.original_name_2 X |tptp.'G1-Checkpoint-In-Animal-Cell'|) (tptp.user_description_2 X |tptp.'Checkpoint in the regulation of the animal cell cycle which occurs between the G1 and S phases of the cycle..'|) (tptp.concept2words_2 X |tptp.'g1 checkpoint in animal cell'|) (tptp.concept2words_2 X |tptp.'g1-checkpoint-in-animal-cell'|) (tptp.g1_checkpoint_1 X) (tptp.activation_value_1 _let_2) (tptp.animal_cell_1 _let_1) (tptp.cyclin_dependent_kinase_1 _let_3) (tptp.the_categorical_value_2 _let_2 tptp.active_0) (tptp.has_part_2 _let_1 _let_3) (tptp.minCardinality _let_1 tptp.has_part_0 |"3"| tptp.cyclin_dependent_kinase_0) (tptp.activation_2 _let_3 _let_2) (tptp.base_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g1_phase_4 X))) (let ((_let_2 (tptp.fn_synthesis_of_protein_16 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_g1_phase_5 X))) (let ((_let_5 (tptp.fn_cell_8 _let_4))) (let ((_let_6 (tptp.fn_g1_phase_6 X))) (let ((_let_7 (tptp.fn_g1_phase_7 X))) (let ((_let_8 (tptp.fn_g1_phase_3 X))) (let ((_let_9 (tptp.fn_cell_growth_2 _let_8))) (let ((_let_10 (tptp.fn_g1_phase_1 X))) (let ((_let_11 (tptp.fn_g1_phase_2 X))) (=> (tptp.g1_phase_1 X) (and (tptp.original_name_2 X |tptp.'G1-Phase'|) (tptp.user_description_2 X |tptp.'The first gap phase of the cell cycle. During the G1 phase the cell grows and produces the proteins and mRNA that are required for DNA synthesis.'|) (tptp.concept2words_2 X |tptp.'first gap'|) (tptp.concept2words_2 X |tptp.'initial interphase'|) (tptp.concept2words_2 X |tptp.'initial-interphase'|) (tptp.concept2words_2 X |tptp.'g1 phase'|) (tptp.concept2words_2 X |tptp.'g1-phase'|) (tptp.cell_cycle_process_1 X) (tptp.eukaryotic_cell_1 _let_10) (tptp.synthesis_of_organelle_1 _let_11) (tptp.cell_growth_1 _let_8) (tptp.synthesis_of_protein_1 _let_1) (tptp.eukaryotic_cell_1 _let_4) (tptp.motor_protein_1 _let_6) (tptp.chemical_entity_1 _let_7) (tptp.protein_1 _let_7) (tptp.cell_1 _let_9) (tptp.motor_protein_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.protein_1 _let_2) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_8) (tptp.result_2 X _let_4) (tptp.base_2 X _let_10) (tptp.base_2 _let_8 _let_4) (tptp.by_means_of_2 _let_8 _let_11) (tptp.by_means_of_2 _let_8 _let_1) (tptp.has_state_2 _let_10 _let_4) (tptp.has_part_2 _let_4 _let_7) (tptp.object_2 _let_8 _let_4) (tptp.result_2 _let_1 _let_7) (tptp.has_part_2 _let_4 _let_6) (= _let_4 _let_9) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g2_checkpoint_5 X))) (let ((_let_2 (tptp.fn_g2_checkpoint_1 X))) (let ((_let_3 (tptp.fn_g2_checkpoint_4 X))) (let ((_let_4 (tptp.fn_g2_checkpoint_3 X))) (let ((_let_5 (tptp.fn_g2_checkpoint_2 X))) (=> (tptp.g2_checkpoint_1 X) (and (tptp.original_name_2 X |tptp.'G2-Checkpoint'|) (tptp.user_description_2 X |tptp.'A control checkpoint at the end of the G2 phase of the cell cycle where the cell determines whether the cell can proceed to the M phase.'|) (tptp.concept2words_2 X |tptp.'g2 checkpoint'|) (tptp.concept2words_2 X |tptp.'g2-checkpoint'|) (tptp.checkpoint_1 X) (tptp.time_interval_1 _let_2) (tptp.g2_phase_1 _let_5) (tptp.time_interval_1 _let_4) (tptp.time_interval_1 _let_3) (tptp.m_phase_1 _let_1) (tptp.time_before_2 _let_2 _let_3) (tptp.next_event_2 _let_5 X) (tptp.time_during_2 _let_5 _let_4) (tptp.time_before_2 _let_4 _let_2) (tptp.time_during_2 _let_1 _let_3) (tptp.causes_2 X _let_1) (tptp.enables_2 X _let_1) (tptp.time_during_2 X _let_2) (tptp.next_event_2 X _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_g2_phase_3 X))) (let ((_let_2 (tptp.fn_endoplasmic_reticulum_23 _let_1))) (let ((_let_3 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_5 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_7 (tptp.fn_g2_phase_7 X))) (let ((_let_8 (tptp.fn_synthesis_of_protein_16 _let_7))) (let ((_let_9 (tptp.fn_anabolic_pathway_5 _let_7))) (let ((_let_10 (tptp.fn_g2_phase_4 X))) (let ((_let_11 (tptp.fn_endoplasmic_reticulum_11 _let_1))) (let ((_let_12 (tptp.fn_g2_phase_8 X))) (let ((_let_13 (tptp.fn_g2_phase_6 X))) (let ((_let_14 (tptp.fn_synthesis_of_organelle_1 _let_13))) (let ((_let_15 (tptp.fn_g2_phase_5 X))) (let ((_let_16 (tptp.fn_g2_phase_14 X))) (let ((_let_17 (tptp.fn_nucleus_5 _let_16))) (let ((_let_18 (tptp.fn_g2_phase_13 X))) (let ((_let_19 (tptp.fn_g2_phase_11 X))) (let ((_let_20 (tptp.fn_g2_phase_10 X))) (let ((_let_21 (tptp.fn_eukaryotic_cell_26 _let_20))) (let ((_let_22 (tptp.fn_cell_8 _let_20))) (let ((_let_23 (tptp.fn_g2_phase_12 X))) (let ((_let_24 (tptp.fn_g2_phase_9 X))) (let ((_let_25 (tptp.fn_cell_growth_2 _let_24))) (let ((_let_26 (tptp.fn_g2_phase_1 X))) (=> (tptp.g2_phase_1 X) (and (tptp.original_name_2 X |tptp.'G2-Phase'|) (tptp.user_description_2 X |tptp.'The second gap phase of the cell cycle. The G2 phase is the last portion of interphase, following DNA synthesis.'|) (tptp.concept2words_2 X |tptp.'second gap'|) (tptp.concept2words_2 X |tptp.'late interphase'|) (tptp.concept2words_2 X |tptp.'late-interphase'|) (tptp.concept2words_2 X |tptp.'g2 phase'|) (tptp.concept2words_2 X |tptp.'g2-phase'|) (tptp.cell_cycle_process_1 X) (tptp.visibility_value_1 _let_26) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.synthesis_reaction_1 _let_10) (tptp.chemical_reaction_1 _let_10) (tptp.anabolic_pathway_1 _let_10) (tptp.synthesis_of_lipid_1 _let_10) (tptp.organelle_1 _let_15) (tptp.synthesis_of_organelle_1 _let_13) (tptp.synthesis_of_protein_1 _let_7) (tptp.eukaryotic_cell_1 _let_12) (tptp.cell_1 _let_12) (tptp.cell_growth_1 _let_24) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.chemical_entity_1 _let_19) (tptp.protein_1 _let_19) (tptp.motor_protein_1 _let_23) (tptp.nucleolus_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.nucleus_1 _let_16) (tptp.cell_1 _let_25) (tptp.motor_protein_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.nucleus_1 _let_21) (tptp.nucleolus_1 _let_17) (tptp.organelle_1 _let_14) (tptp.eukaryotic_cell_1 _let_11) (tptp.cell_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.protein_1 _let_8) (tptp.synthesis_reaction_1 _let_6) (tptp.synthesis_reaction_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.synthesis_of_lipid_1 _let_4) (tptp.chemical_reaction_1 _let_3) (tptp.synthesis_of_lipid_1 _let_3) (tptp.anabolic_pathway_1 _let_3) (tptp.synthesis_of_lipid_1 _let_2) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_24) (tptp.first_subevent_2 X _let_13) (tptp.result_2 X _let_20) (tptp.base_2 X _let_12) (tptp.has_state_2 _let_12 _let_20) (tptp.by_means_of_2 _let_24 _let_13) (tptp.by_means_of_2 _let_24 _let_7) (tptp.base_2 _let_24 _let_20) (tptp.has_part_2 _let_20 _let_15) (tptp.has_part_2 _let_20 _let_19) (tptp.the_categorical_value_2 _let_26 tptp.visible_0) (tptp.visibility_2 _let_18 _let_26) (tptp.object_2 _let_24 _let_20) (tptp.has_part_2 _let_20 _let_23) (tptp.has_part_2 _let_20 _let_16) (tptp.result_2 _let_7 _let_19) (tptp.has_part_2 _let_16 _let_18) (tptp.result_2 _let_13 _let_15) (tptp.has_function_2 _let_1 _let_10) (tptp.site_2 _let_10 _let_1) (tptp.has_part_2 _let_12 _let_1) (tptp.base_2 _let_10 _let_12) (= _let_20 _let_25) (= _let_23 _let_22) (= _let_16 _let_21) (= _let_19 _let_9) (= _let_19 _let_8) (= _let_18 _let_17) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_10 _let_6) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gaba_1 X) (and (tptp.original_name_2 X |tptp.'GABA'|) (tptp.user_description_2 X |tptp.'Gamma-aminobutyric acid, the primary inhibitory neurotransmitter in the central nervous system of mammals.'|) (tptp.concept2words_2 X |tptp.'gamma aminobutyric acid'|) (tptp.concept2words_2 X |tptp.'gamma-aminobutyric-acid'|) (tptp.concept2words_2 X tptp.gaba) (tptp.amino_acid_neurotransmitter_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gadolinium_11 X))) (let ((_let_2 (tptp.fn_gadolinium_14 X))) (let ((_let_3 (tptp.fn_gadolinium_12 X))) (let ((_let_4 (tptp.fn_gadolinium_13 X))) (let ((_let_5 (tptp.fn_gadolinium_5 X))) (let ((_let_6 (tptp.fn_gadolinium_6 X))) (let ((_let_7 (tptp.fn_gadolinium_7 X))) (let ((_let_8 (tptp.fn_gadolinium_4 X))) (=> (tptp.gadolinium_1 X) (and (tptp.original_name_2 X |tptp.'Gadolinium'|) (tptp.user_description_2 X |tptp.'Gadolinium is a metal atom with atomic number 64. It is represented by the symbol Gd.'|) (tptp.concept2words_2 X tptp.gadolinium) (tptp.concept2words_2 X tptp.gd) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"93"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"64"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"64"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"10"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.2"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"157"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"64"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"157.3"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_gadolinium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_gadolinium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_gadolinium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gain_1 X) (and (tptp.original_name_2 X |tptp.'Gain'|) (tptp.user_description_2 X |tptp.'The result of making profit'|) (tptp.concept2words_2 X tptp.gain) (tptp.increase_1 X)))) (forall ((X $$unsorted)) (=> (tptp.galactose_1 X) (and (tptp.original_name_2 X |tptp.'Galactose'|) (tptp.user_description_2 X |tptp.'Galactose is a simple six carbon monosaccharide having an aldehyde group. It is a monomer of Lactose.'|) (tptp.concept2words_2 X tptp.galactose) (tptp.aldose_1 X) (tptp.hexose_1 X)))) (forall ((X $$unsorted)) (=> (tptp.galapagos_finch_1 X) (and (tptp.original_name_2 X |tptp.'Galapagos-Finch'|) (tptp.user_description_2 X |tptp.'A group of about 15 species of passerine birds, all but one of which are endemic to the Galapagos Islands. They were collected and studied by Charles Darwin.'|) (tptp.concept2words_2 X |tptp.'finch of galapagos'|) (tptp.concept2words_2 X |tptp.'galapagos finch'|) (tptp.concept2words_2 X |tptp.'galapagos-finch'|) (tptp.bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.flightless_birds_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gallbladder_2 X))) (let ((_let_2 (tptp.fn_store_2 _let_1))) (let ((_let_3 (tptp.fn_store_3 _let_1))) (let ((_let_4 (tptp.fn_gallbladder_1 X))) (let ((_let_5 (tptp.fn_store_1 _let_1))) (let ((_let_6 (tptp.fn_gallbladder_3 X))) (=> (tptp.gallbladder_1 X) (and (tptp.original_name_2 X |tptp.'Gallbladder'|) (tptp.user_description_2 X |tptp.'A small organ that aids in the digestion of fats. It stores and concentrates bile that is secreted by the liver and releases it into the small intestine as needed.'|) (tptp.concept2words_2 X tptp.gallbladder) (tptp.secretory_organ_1 X) (tptp.container_1 _let_4) (tptp.store_1 _let_1) (tptp.bile_1 _let_6) (tptp.entity_1 _let_5) (tptp.container_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.has_function_2 X _let_1) (tptp.object_2 _let_1 _let_6) (tptp.base_2 _let_1 X) (tptp.plays_2 X _let_4) (tptp.in_event_2 _let_4 _let_1) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gallium_9 X))) (let ((_let_2 (tptp.fn_gallium_12 X))) (let ((_let_3 (tptp.fn_gallium_10 X))) (let ((_let_4 (tptp.fn_gallium_11 X))) (let ((_let_5 (tptp.fn_gallium_4 X))) (let ((_let_6 (tptp.fn_gallium_5 X))) (let ((_let_7 (tptp.fn_gallium_3 X))) (=> (tptp.gallium_1 X) (and (tptp.original_name_2 X |tptp.'Gallium'|) (tptp.user_description_2 X |tptp.'Gallium is a metal atom with atomic number 31. It is represented by the symbol Ga.'|) (tptp.concept2words_2 X tptp.gallium) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"39"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"31"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"31"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.81"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"70"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"31"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"69.72"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_gallium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_gallium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_gallium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_galvanometer_1 X))) (let ((_let_2 (tptp.fn_electric_current_1 _let_1))) (let ((_let_3 (tptp.fn_galvanometer_2 X))) (let ((_let_4 (tptp.fn_electric_current_2 _let_1))) (=> (tptp.galvanometer_1 X) (and (tptp.original_name_2 X |tptp.'Galvanometer'|) (tptp.user_description_2 X |tptp.'An instrument which measures electrical current.'|) (tptp.concept2words_2 X tptp.galvanometer) (tptp.scientific_device_1 X) (tptp.electric_current_1 _let_1) (tptp.measure_1 _let_3) (tptp.galvanometer_1 _let_4) (tptp.measure_1 _let_2) (tptp.object_2 _let_3 _let_1) (tptp.instrument_2 _let_3 X) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.game_theory_1 X) (and (tptp.original_name_2 X |tptp.'Game-Theory'|) (tptp.user_description_2 X |tptp.'An approach to the study of animal behavior in situations in which the outcome of one alternative strategy is dependent on the strategies used by other individuals in the population.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'theory of game'|) (tptp.concept2words_2 X |tptp.'game theory'|) (tptp.concept2words_2 X |tptp.'game-theory'|) (tptp.inquiry_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gametangium_1 X) (and (tptp.original_name_2 X |tptp.'Gametangium'|) (tptp.user_description_2 X |tptp.'An organ in which gametes are produced. Found in algae, fungi, and the gametophytes of plants. Archegonia are female gametangia; antheridia are male gametangia.'|) (tptp.concept2words_2 X tptp.gametangia) (tptp.concept2words_2 X tptp.gametangium) (tptp.alternating_generation_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gamete_1 X) (and (tptp.original_name_2 X |tptp.'Gamete'|) (tptp.user_description_2 X |tptp.'A haploid germ cell, such as an egg or sperm. During sexual fertilization, gametes fuse to produce a diploid zygote.'|) (tptp.concept2words_2 X |tptp.'sex cell'|) (tptp.concept2words_2 X |tptp.'germ cell'|) (tptp.concept2words_2 X |tptp.'reproductive cell'|) (tptp.concept2words_2 X |tptp.'human sex cell'|) (tptp.concept2words_2 X tptp.gamete) (tptp.haploid_cell_1 X) (tptp.reproductive_cell_1 X) (not (tptp.spore_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gamete_production_1 X) (and (tptp.original_name_2 X |tptp.'Gamete-Production'|) (tptp.user_description_2 X |tptp.'The formation of sex cells, egg cells in females and sperm cells in males, within the gonads, ovaries in females and testes in males, in a process known as gametogenesis.'|) (tptp.concept2words_2 X tptp.gametogenesis) (tptp.concept2words_2 X |tptp.'production of gamete'|) (tptp.concept2words_2 X |tptp.'gamete production'|) (tptp.concept2words_2 X |tptp.'gamete-production'|) (tptp.reproductive_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gametogenesis_2 X))) (let ((_let_2 (tptp.fn_cell_division_2 _let_1))) (let ((_let_3 (tptp.fn_gametogenesis_1 X))) (=> (tptp.gametogenesis_1 X) (and (tptp.original_name_2 X |tptp.'Gametogenesis'|) (tptp.user_description_2 X |tptp.'The biological process by which haploid gametes are produced from diploid or haploid precursors.'|) (tptp.concept2words_2 X tptp.gametogenesis) (tptp.biological_process_1 X) (not (tptp.eukaryotic_cell_cycle_1 X)) (not (tptp.meiotic_cell_cycle_1 X)) (not (tptp.prokaryotic_cell_cycle_1 X)) (tptp.gamete_1 _let_3) (tptp.meiosis_1 _let_1) (tptp.cell_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_3) (tptp.result_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gametogenesis_in_animal_3 X))) (let ((_let_2 (tptp.fn_cell_division_3 _let_1))) (let ((_let_3 (tptp.fn_gametogenesis_in_animal_2 X))) (let ((_let_4 (tptp.fn_gametogenesis_in_animal_1 X))) (=> (tptp.gametogenesis_in_animal_1 X) (and (tptp.original_name_2 X |tptp.'Gametogenesis-In-Animal'|) (tptp.user_description_2 X |tptp.'The process in which gametes are produced in animals.'|) (tptp.concept2words_2 X |tptp.'gametogenesis in animal'|) (tptp.concept2words_2 X |tptp.'gametogenesis-in-animal'|) (tptp.gametogenesis_1 X) (tptp.gonad_1 _let_4) (tptp.diploid_cell_1 _let_3) (tptp.meiosis_1 _let_1) (tptp.cell_division_1 _let_1) (tptp.cell_1 _let_2) (tptp.base_2 _let_1 _let_3) (tptp.site_2 X _let_4) (tptp.has_part_2 _let_4 _let_3) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_3) (= _let_1 (tptp.fn_gametogenesis_2 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gametogenesis_in_human_3 X))) (let ((_let_2 (tptp.fn_eukaryotic_cell_20 _let_1))) (let ((_let_3 (tptp.fn_gametogenesis_in_human_5 X))) (let ((_let_4 (tptp.fn_cell_2 _let_1))) (let ((_let_5 (tptp.fn_gametogenesis_in_human_4 X))) (let ((_let_6 (tptp.fn_gametogenesis_in_human_6 X))) (let ((_let_7 (tptp.fn_eukaryotic_cell_29 _let_6))) (let ((_let_8 (tptp.fn_gametogenesis_in_human_2 X))) (let ((_let_9 (tptp.fn_gametogenesis_in_human_1 X))) (=> (tptp.gametogenesis_in_human_1 X) (and (tptp.original_name_2 X |tptp.'Gametogenesis-In-Human'|) (tptp.user_description_2 X |tptp.'The process in which gametes are produced in humans.'|) (tptp.concept2words_2 X |tptp.'gametogenesis in human'|) (tptp.concept2words_2 X |tptp.'gametogenesis-in-human'|) (tptp.gametogenesis_in_animal_1 X) (tptp.gonad_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.gamete_1 _let_1) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.cytoskeleton_1 _let_5) (tptp.smooth_endoplasmic_reticulum_1 _let_3) (tptp.diploid_cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.plasma_membrane_1 _let_7) (tptp.cytoskeleton_1 _let_4) (tptp.smooth_endoplasmic_reticulum_1 _let_2) (tptp.exactCardinality _let_1 tptp.has_part_0 |"23"| tptp.eukaryotic_chromosome_0) (tptp.exactCardinality _let_6 tptp.has_part_0 |"46"| tptp.eukaryotic_chromosome_0) (tptp.result_2 X _let_1) (tptp.site_2 X _let_9) (tptp.has_part_2 _let_9 _let_6) (tptp.has_part_2 _let_1 _let_5) (tptp.has_part_2 _let_6 _let_8) (= _let_1 (tptp.fn_gametogenesis_1 X)) (= _let_6 (tptp.fn_gametogenesis_in_animal_2 X)) (= _let_9 (tptp.fn_gametogenesis_in_animal_1 X)) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gametophore_1 X) (and (tptp.original_name_2 X |tptp.'Gametophore'|) (tptp.user_description_2 X |tptp.'The structure in mosses and ferns that bears the sexually mature gametangia.'|) (tptp.concept2words_2 X tptp.gametophore) (tptp.alternating_generation_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gametophyte_1 X) (and (tptp.original_name_2 X |tptp.'Gametophyte'|) (tptp.user_description_2 X |tptp.'The haploid, multicellular stage of organisms (e.g., plants and some algae) that undergo alternation of generations. The gametophyte generation produces gametes via mitosis. Fertilization occurs between gametes from different individuals, resulting in a diploid zygote that develops into the sporophyte generation.'|) (tptp.concept2words_2 X tptp.gametophyte) (tptp.multicellular_organism_1 X) (not (tptp.animal_1 X)) (not (tptp.sporophyte_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gamma_rays_7 X))) (let ((_let_2 (tptp.fn_gamma_rays_4 X))) (let ((_let_3 (tptp.fn_gamma_rays_6 X))) (let ((_let_4 (tptp.fn_gamma_rays_5 X))) (=> (tptp.gamma_rays_1 X) (and (tptp.original_name_2 X |tptp.'Gamma-Rays'|) (tptp.user_description_2 X |tptp.'Gamma-rays are the radiation with wavelenth ranging from 0.00001 nm to 0.001 nm. Their wavelength is shortest of all the radiations.'|) (tptp.concept2words_2 X |tptp.'gamma ray'|) (tptp.concept2words_2 X |tptp.'gamma-ray'|) (tptp.radiation_1 X) (tptp.length_value_1 _let_2) (tptp.length_value_1 _let_4) (tptp.length_value_1 _let_3) (tptp.electromagnetic_spectrum_1 _let_1) (tptp.greater_than_or_equal_to_2 _let_2 _let_4) (tptp.the_cardinal_value_2 _let_4 |"1.0e-5"|) (tptp.cardinal_unit_class_2 _let_4 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_3 _let_2) (tptp.the_cardinal_value_2 _let_3 |"0.001e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.nanometer_0) (tptp.wavelength_2 X _let_2) (tptp.element_2 _let_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.ganglion_1 X) (and (tptp.original_name_2 X |tptp.'Ganglion'|) (tptp.user_description_2 X |tptp.'A tissue of concentrated nerve cell bodies.'|) (tptp.concept2words_2 X tptp.ganglion) (tptp.nervous_tissue_1 X) (not (tptp.brain_region_1 X)) (not (tptp.gray_matter_1 X)) (not (tptp.nerve_circuit_1 X)) (not (tptp.neural_crest_1 X)) (not (tptp.neuromast_1 X)) (not (tptp.notochord_1 X)) (not (tptp.ommatidium_1 X)) (not (tptp.optic_nerve_1 X)) (not (tptp.retina_1 X)) (not (tptp.white_matter_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ganglion_cell_1 X) (and (tptp.original_name_2 X |tptp.'Ganglion-Cell'|) (tptp.user_description_2 X |tptp.'A type of neuron in the retina that receives visual information from the photoreceptors and relays that information via action potentials to the brain.'|) (tptp.concept2words_2 X |tptp.'cell of ganglion'|) (tptp.concept2words_2 X |tptp.'ganglion cell'|) (tptp.concept2words_2 X |tptp.'ganglion-cell'|) (tptp.sensory_neuron_1 X) (not (tptp.amacrine_cell_1 X)) (not (tptp.bipolar_cell_1 X)) (not (tptp.horizontal_cell_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gap_gene_1 X) (and (tptp.original_name_2 X |tptp.'Gap-Gene'|) (tptp.user_description_2 X |tptp.'A type of gene that is involved in the development of segmented embryos in arthropods. Mutations in gap genes cause the loss of a series of adjacent segments, producing a'|) (tptp.concept2words_2 X |tptp.'gene of gap'|) (tptp.concept2words_2 X |tptp.'gap gene'|) (tptp.concept2words_2 X |tptp.'gap-gene'|) (tptp.regulatory_gene_1 X) (tptp.segmentation_gene_1 X) (not (tptp.laci_1 X)) (not (tptp.master_control_gene_1 X)) (not (tptp.operon_1 X)) (not (tptp.sonic_hedgehog_factor_1 X)) (not (tptp.trpr_1 X)) (not (tptp.pair_rule_gene_1 X)) (not (tptp.segment_polarity_gene_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gap_gene_mutation_3 X))) (let ((_let_2 (tptp.fn_gap_in_segmentation_1 _let_1))) (let ((_let_3 (tptp.fn_gap_gene_mutation_4 X))) (let ((_let_4 (tptp.fn_gap_gene_mutation_1 X))) (let ((_let_5 (tptp.fn_gap_gene_mutation_2 X))) (=> (tptp.gap_gene_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Gap-Gene-Mutation'|) (tptp.user_description_2 X |tptp.'Mutations in the gene encoding gap junction protein .'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'gap gene mutation'|) (tptp.concept2words_2 X |tptp.'gap-gene-mutation'|) (tptp.development_related_mutation_1 X) (tptp.embryo_1 _let_4) (tptp.abnormal_1 _let_5) (tptp.gap_in_segmentation_1 _let_1) (tptp.gap_gene_1 _let_3) (tptp.gap_gene_mutation_1 _let_2) (tptp.plays_2 _let_4 _let_5) (tptp.result_2 X _let_4) (tptp.object_2 X _let_3) (tptp.result_2 X _let_1) (= _let_3 (tptp.fn_mutation_2 X)) (= X _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gap_in_segmentation_4 X))) (let ((_let_2 (tptp.fn_remove_2 _let_1))) (let ((_let_3 (tptp.fn_gap_in_segmentation_2 X))) (let ((_let_4 (tptp.fn_remove_1 _let_1))) (let ((_let_5 (tptp.fn_gap_in_segmentation_3 X))) (let ((_let_6 (tptp.fn_gap_in_segmentation_1 X))) (=> (tptp.gap_in_segmentation_1 X) (and (tptp.original_name_2 X |tptp.'Gap-In-Segmentation'|) (tptp.user_description_2 X |tptp.'Mutations in the gap genes result in gaps in the segmentation pattern.'|) (tptp.concept2words_2 X |tptp.'gap in segmentation'|) (tptp.concept2words_2 X |tptp.'gap-in-segmentation'|) (tptp.genetic_disorder_1 X) (tptp.gap_gene_mutation_1 _let_6) (tptp.embryo_1 _let_3) (tptp.body_segment_1 _let_5) (tptp.remove_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.result_2 _let_1 X) (tptp.result_2 _let_6 X) (tptp.causes_2 _let_6 _let_1) (tptp.object_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gap_junction_10 X))) (let ((_let_2 (tptp.fn_gap_junction_9 X))) (let ((_let_3 (tptp.fn_gap_junction_7 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_gap_junction_12 X))) (let ((_let_6 (tptp.fn_gap_junction_11 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_gap_junction_14 X))) (let ((_let_9 (tptp.fn_gap_junction_6 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_gap_junction_15 X))) (let ((_let_12 (tptp.fn_gap_junction_8 X))) (let ((_let_13 (tptp.fn_move_1 _let_12))) (let ((_let_14 (tptp.fn_gap_junction_13 X))) (let ((_let_15 (tptp.fn_gap_junction_5 X))) (let ((_let_16 (tptp.fn_gap_junction_2 X))) (let ((_let_17 (tptp.fn_gap_junction_3 X))) (let ((_let_18 (tptp.fn_gap_junction_4 X))) (=> (tptp.gap_junction_1 X) (and (tptp.original_name_2 X |tptp.'Gap-Junction'|) (tptp.user_description_2 X |tptp.'Gap junctions, also called communicating junctions, provide cytoplasmic channels between animal cells.'|) (tptp.concept2words_2 X |tptp.'communicating junction'|) (tptp.concept2words_2 X |tptp.'junction of gap'|) (tptp.concept2words_2 X |tptp.'gap junction'|) (tptp.concept2words_2 X |tptp.'gap-junction'|) (tptp.intercellular_junction_1 X) (tptp.size_value_1 _let_16) (tptp.cytoplasmic_channel_1 _let_17) (tptp.membrane_protein_1 _let_18) (tptp.pore_1 _let_15) (tptp.move_through_1 _let_9) (tptp.move_through_1 _let_3) (tptp.move_through_1 _let_12) (tptp.animal_cell_1 _let_2) (tptp.animal_cell_1 _let_1) (tptp.move_through_1 _let_6) (tptp.ion_1 _let_5) (tptp.sugar_1 _let_14) (tptp.molecule_1 _let_8) (tptp.amino_acid_1 _let_11) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_4) (tptp.is_at_2 _let_18 _let_15) (tptp.has_region_2 X _let_15) (tptp.has_region_2 X _let_17) (tptp.the_scalar_value_2 _let_16 tptp.small_0) (tptp.scalar_unit_class_2 _let_16 tptp.molecule_0) (tptp.size_2 _let_8 _let_16) (tptp.path_2 _let_6 _let_15) (tptp.base_2 _let_6 X) (tptp.path_2 _let_12 _let_15) (tptp.base_2 _let_12 X) (tptp.path_2 _let_3 _let_15) (tptp.base_2 _let_3 X) (tptp.path_2 _let_9 _let_15) (tptp.base_2 _let_9 X) (tptp.object_2 _let_12 _let_14) (tptp.object_2 _let_9 _let_11) (tptp.object_2 _let_6 _let_8) (tptp.object_2 _let_3 _let_5) (tptp.is_between_2 X _let_1) (not (= _let_1 _let_2)) (tptp.is_between_2 X _let_2) (not (= _let_2 _let_1)) (tptp.abuts_2 _let_1 _let_2) (tptp.abuts_2 _let_2 _let_1) (= _let_14 _let_13) (= _let_11 _let_10) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_2 (tptp.fn_intercellular_junction_2 X)) (= _let_1 (tptp.fn_intercellular_junction_1 X))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gary_borisy_1 X) (and (tptp.original_name_2 X |tptp.'Gary-Borisy'|) (tptp.user_description_2 X |tptp.'Scientist at the University of Wisconsin who studied the shortening of microtubules during mitosis.'|) (tptp.concept2words_2 X |tptp.'gary borisy'|) (tptp.concept2words_2 X |tptp.'gary-borisy'|) (tptp.scientist_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gas_exchange_1 X) (and (tptp.original_name_2 X |tptp.'Gas-Exchange'|) (tptp.user_description_2 X |tptp.'The exchange of gases between an organism and the environment. In animals, gas exchange refers to the uptake of oxygen from the environment and discharge of carbon dioxide to the environment.'|) (tptp.concept2words_2 X tptp.exchange) (tptp.concept2words_2 X |tptp.'exchange of gas'|) (tptp.concept2words_2 X |tptp.'gas exchange'|) (tptp.concept2words_2 X |tptp.'gas-exchange'|) (tptp.respiratory_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gas_substance_2 X))) (=> (tptp.gas_substance_1 X) (and (tptp.original_name_2 X |tptp.'Gas-Substance'|) (tptp.description_2 X |tptp.'A substance in the gaseous state at room temperature'|) (tptp.concept2words_2 X tptp.gas) (tptp.concept2words_2 X |tptp.'substance of gas'|) (tptp.concept2words_2 X |tptp.'gas substance'|) (tptp.concept2words_2 X |tptp.'gas-substance'|) (tptp.fluid_substance_1 X) (tptp.state_value_1 _let_1) (tptp.physical_state_2 X _let_1) (tptp.the_categorical_value_2 _let_1 tptp.gas_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gasoline_2 X))) (let ((_let_2 (tptp.fn_combustion_of_fossil_fuel_10 _let_1))) (let ((_let_3 (tptp.fn_gasoline_3 X))) (let ((_let_4 (tptp.fn_electron_donor_2 _let_3))) (let ((_let_5 (tptp.fn_gasoline_1 X))) (let ((_let_6 (tptp.fn_combustion_of_fossil_fuel_14 _let_1))) (=> (tptp.gasoline_1 X) (and (tptp.original_name_2 X |tptp.'Gasoline'|) (tptp.user_description_2 X |tptp.'A volatile mixture of flammable liquid hydrocarbons derived from crude petroleum and used principally as a fuel for internal-combustion engines.'|) (tptp.concept2words_2 X tptp.gasoline) (tptp.fossil_fuel_1 X) (tptp.hydrocarbon_substance_1 X) (tptp.hydrocarbon_molecule_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.combustion_of_fossil_fuel_1 _let_1) (tptp.electron_donor_1 _let_3) (tptp.fossil_fuel_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.hydrocarbon_molecule_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.plays_2 _let_5 _let_3) (tptp.raw_material_2 _let_1 _let_5) (tptp.has_part_2 X _let_5) (= _let_5 _let_4) (= X _let_6) (= _let_5 _let_2) (= _let_4 _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastric_cecum_2 X))) (let ((_let_2 (tptp.fn_gastric_cecum_1 X))) (=> (tptp.gastric_cecum_1 X) (and (tptp.original_name_2 X |tptp.'Gastric-Cecum'|) (tptp.user_description_2 X |tptp.'Pouch in the midgut of the alimentary canal of insects which function in digestion and absorption.'|) (tptp.concept2words_2 X |tptp.'gastric cecum'|) (tptp.concept2words_2 X |tptp.'gastric-cecum'|) (tptp.animal_structure_1 X) (tptp.digestion_1 _let_2) (tptp.food_absorption_1 _let_1) (tptp.has_function_2 X _let_1) (tptp.has_function_2 X _let_2) (tptp.site_2 _let_2 X) (tptp.site_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastric_gland_1 X))) (=> (tptp.gastric_gland_1 X) (and (tptp.original_name_2 X |tptp.'Gastric-Gland'|) (tptp.user_description_2 X |tptp.'Exocrine glands found in the lining of the stomach which secrete mucus, pepsinogen and hydrochloric acid into the stomack lumen.'|) (tptp.concept2words_2 X |tptp.'gastric gland'|) (tptp.concept2words_2 X |tptp.'gastric-gland'|) (tptp.exocrine_gland_1 X) (tptp.parietal_cell_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastric_juice_14 X))) (let ((_let_2 (tptp.fn_strong_acid_5 _let_1))) (let ((_let_3 (tptp.fn_gastric_juice_23 X))) (let ((_let_4 (tptp.fn_toxin_1 _let_3))) (let ((_let_5 (tptp.fn_acidic_solution_6 X))) (let ((_let_6 (tptp.fn_biological_fluid_1 X))) (let ((_let_7 (tptp.fn_acidic_solution_5 X))) (let ((_let_8 (tptp.fn_biological_fluid_2 X))) (let ((_let_9 (tptp.fn_strong_acid_4 _let_1))) (let ((_let_10 (tptp.fn_gastric_juice_26 X))) (let ((_let_11 (tptp.fn_strong_acid_3 _let_1))) (let ((_let_12 (tptp.fn_gastric_juice_27 X))) (let ((_let_13 (tptp.fn_strong_acid_6 _let_1))) (let ((_let_14 (tptp.fn_gastric_juice_15 X))) (let ((_let_15 (tptp.fn_water_98 _let_14))) (let ((_let_16 (tptp.fn_gastric_juice_18 X))) (let ((_let_17 (tptp.fn_water_83 _let_14))) (let ((_let_18 (tptp.fn_gastric_juice_12 X))) (let ((_let_19 (tptp.fn_water_14 _let_14))) (let ((_let_20 (tptp.fn_gastric_juice_22 X))) (let ((_let_21 (tptp.fn_water_78 _let_14))) (let ((_let_22 (tptp.fn_gastric_juice_16 X))) (let ((_let_23 (tptp.fn_water_101 _let_14))) (let ((_let_24 (tptp.fn_gastric_juice_17 X))) (let ((_let_25 (tptp.fn_water_100 _let_14))) (let ((_let_26 (tptp.fn_gastric_juice_19 X))) (let ((_let_27 (tptp.fn_gastric_juice_13 X))) (let ((_let_28 (tptp.fn_gastric_juice_10 X))) (let ((_let_29 (tptp.fn_gastric_juice_11 X))) (let ((_let_30 (tptp.fn_gastric_juice_28 X))) (let ((_let_31 (tptp.fn_gastric_juice_29 X))) (let ((_let_32 (tptp.fn_gastric_juice_7 X))) (let ((_let_33 (tptp.fn_gastric_juice_6 X))) (let ((_let_34 (tptp.fn_gastric_juice_21 X))) (let ((_let_35 (tptp.fn_gastric_juice_20 X))) (let ((_let_36 (tptp.fn_gastric_juice_25 X))) (let ((_let_37 (tptp.fn_impair_1 _let_36))) (let ((_let_38 (tptp.fn_gastric_juice_24 X))) (let ((_let_39 (tptp.fn_gastric_juice_2 X))) (let ((_let_40 (tptp.fn_gastric_juice_3 X))) (=> (tptp.gastric_juice_1 X) (and (tptp.original_name_2 X |tptp.'Gastric-Juice'|) (tptp.user_description_2 X |tptp.'A digestive fluid secreted by the stomach which is acidic in nature.'|) (tptp.concept2words_2 X |tptp.'gastric juice'|) (tptp.concept2words_2 X |tptp.'gastric-juice'|) (tptp.acidic_solution_1 X) (tptp.digestive_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X)) (tptp.concentration_value_1 _let_39) (tptp.pepsin_1 _let_40) (tptp.anion_1 _let_33) (tptp.acid_dissociation_reaction_1 _let_32) (tptp.quantity_value_1 _let_28) (tptp.quantity_value_1 _let_29) (tptp.spatial_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.polar_molecule_1 _let_18) (tptp.hydrophilic_compound_1 _let_18) (tptp.water_molecule_1 _let_18) (tptp.hydrogen_ion_1 _let_27) (tptp.hydrochloric_acid_1 _let_1) (tptp.chemical_1 _let_14) (tptp.water_1 _let_14) (tptp.cohesion_1 _let_22) (tptp.attract_1 _let_22) (tptp.heat_1 _let_24) (tptp.entity_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.polar_molecule_1 _let_16) (tptp.water_molecule_1 _let_16) (tptp.increase_1 _let_26) (tptp.ph_value_1 _let_34) (tptp.surface_1 _let_20) (tptp.antibacterial_agent_1 _let_3) (tptp.bacterium_1 _let_38) (tptp.destroy_1 _let_36) (tptp.potential_value_1 _let_10) (tptp.concentration_value_1 _let_12) (tptp.hydroxide_ion_1 _let_30) (tptp.add_1 _let_31) (tptp.tangible_entity_1 _let_37) (tptp.increase_1 _let_25) (tptp.heat_1 _let_23) (tptp.cohesion_1 _let_21) (tptp.attract_1 _let_21) (tptp.surface_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.polar_molecule_1 _let_17) (tptp.hydrophilic_compound_1 _let_17) (tptp.water_molecule_1 _let_17) (tptp.entity_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.polar_molecule_1 _let_15) (tptp.water_molecule_1 _let_15) (tptp.chemical_1 _let_13) (tptp.water_1 _let_13) (tptp.concentration_value_1 _let_11) (tptp.potential_value_1 _let_9) (tptp.tangible_entity_1 _let_4) (tptp.acidic_solution_1 _let_2) (tptp.in_event_2 _let_3 _let_36) (tptp.is_above_2 _let_20 _let_16) (tptp.the_scalar_value_2 _let_39 tptp.high_0) (tptp.scalar_unit_class_2 _let_39 tptp.strong_acid_0) (tptp.has_part_2 X _let_40) (tptp.the_cardinal_value_2 _let_34 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_34 tptp.unity_0) (tptp.inversely_proportional_2 _let_34 _let_39) (tptp.inhibits_2 _let_22 _let_24) (tptp.inhibits_2 _let_22 _let_26) (tptp.concentration_2 _let_1 _let_39) (tptp.object_2 _let_36 _let_38) (tptp.plays_2 X _let_3) (tptp.result_2 _let_32 _let_27) (tptp.result_2 _let_32 _let_33) (tptp.has_part_2 X _let_33) (tptp.ph_2 X _let_34) (tptp.has_part_2 X _let_27) (tptp.agent_2 _let_22 _let_18) (tptp.has_region_2 _let_14 _let_20) (tptp.called_2 _let_16 |"1"|) (tptp.object_2 _let_24 _let_14) (tptp.by_means_of_2 _let_26 _let_24) (tptp.base_2 _let_22 _let_14) (tptp.object_2 _let_22 _let_16) (tptp.agent_2 _let_22 _let_16) (tptp.object_2 _let_22 _let_18) (tptp.has_part_2 _let_14 _let_18) (tptp.has_part_2 _let_14 _let_16) (tptp.is_at_2 _let_16 _let_20) (tptp.is_above_2 _let_20 _let_18) (tptp.same_type_2 _let_18 _let_16) (tptp.same_type_2 _let_16 _let_18) (tptp.has_solute_2 X _let_1) (not (= _let_1 _let_14)) (not (= _let_14 _let_1)) (tptp.has_part_2 X _let_1) (tptp.solute_potential_2 _let_1 _let_10) (tptp.directly_proportional_2 _let_12 _let_10) (tptp.concentration_2 X _let_12) (tptp.has_solvent_2 X _let_14) (tptp.has_part_2 X _let_14) (= _let_38 _let_37) (= X _let_4) (= (tptp.fn_gastric_juice_9 X) (tptp.fn_acidic_solution_3 X)) (= (tptp.fn_gastric_juice_8 X) (tptp.fn_acidic_solution_8 X)) (= _let_35 _let_8) (= _let_35 _let_7) (= _let_34 _let_6) (= _let_34 _let_5) (= _let_33 (tptp.fn_acidic_solution_32 X)) (= _let_32 (tptp.fn_acidic_solution_19 X)) (= _let_31 (tptp.fn_acidic_solution_17 X)) (= _let_30 (tptp.fn_acidic_solution_20 X)) (= _let_29 (tptp.fn_acidic_solution_12 X)) (= _let_28 (tptp.fn_acidic_solution_11 X)) (= _let_27 (tptp.fn_acidic_solution_21 X)) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= X _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gastric_ulcer_1 X) (and (tptp.original_name_2 X |tptp.'Gastric-Ulcer'|) (tptp.user_description_2 X |tptp.'An erosion of the stomach lining, typically caused by the bacterium Helicobacter pylori.'|) (tptp.concept2words_2 X tptp.ulcer) (tptp.concept2words_2 X |tptp.'gastric ulcer'|) (tptp.concept2words_2 X |tptp.'gastric-ulcer'|) (tptp.bacterial_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastrin_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.gastrin_1 X) (and (tptp.original_name_2 X |tptp.'Gastrin'|) (tptp.user_description_2 X |tptp.'Peptide hormone secreted by the stomach which stimulates the production of gastric acid.'|) (tptp.concept2words_2 X tptp.gastrin) (tptp.digestive_peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X)) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.gastrodermal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Gastrodermal-Cell'|) (tptp.user_description_2 X |tptp.'Cells specialized for nutrient absorption in some invertebrates.'|) (tptp.concept2words_2 X |tptp.'gastrodermal cell'|) (tptp.concept2words_2 X |tptp.'gastrodermal-cell'|) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastrodermis_1 X))) (=> (tptp.gastrodermis_1 X) (and (tptp.original_name_2 X |tptp.'Gastrodermis'|) (tptp.user_description_2 X |tptp.'Inner layer of body plan of some invertebrates which lines the gastrovascular cavity and contains cells specialized for nutrient absorption.'|) (tptp.concept2words_2 X tptp.gastrodermis) (tptp.tissue_1 X) (tptp.animal_cell_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_tissue_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.gastropod_1 X) (and (tptp.original_name_2 X |tptp.'Gastropod'|) (tptp.user_description_2 X |tptp.'Any member of the molluscan class Gastropoda, characterized by a distinct head, a single foot used for creeping, and the process of torsion during larval development. Examples of gastropods include snails, slugs, limpets, and abalones.'|) (tptp.concept2words_2 X tptp.gastropod) (tptp.mollusc_1 X) (not (tptp.bivalve_1 X)) (not (tptp.cephalopod_1 X)) (not (tptp.chiton_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastrovascular_cavity_1 X))) (let ((_let_2 (tptp.fn_gastrovascular_cavity_2 X))) (=> (tptp.gastrovascular_cavity_1 X) (and (tptp.original_name_2 X |tptp.'Gastrovascular-Cavity'|) (tptp.user_description_2 X |tptp.'A digestive cavity with a single opening that serves as both mouth and anus, found in cnidarians and ctenophores. The cavity is continually open to the surrounding environment and functions to distribute nutrients as well as digest food.'|) (tptp.concept2words_2 X |tptp.'gastrovascular cavity'|) (tptp.concept2words_2 X |tptp.'gastrovascular-cavity'|) (tptp.digestive_tract_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X)) (tptp.end_1 _let_1) (tptp.pore_1 _let_2) (tptp.has_region_2 X _let_1) (tptp.is_at_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastrula_2 X))) (let ((_let_2 (tptp.fn_gastrula_3 X))) (let ((_let_3 (tptp.fn_gastrula_4 X))) (let ((_let_4 (tptp.fn_gastrula_5 X))) (let ((_let_5 (tptp.fn_gastrula_1 X))) (=> (tptp.gastrula_1 X) (and (tptp.original_name_2 X |tptp.'Gastrula'|) (tptp.user_description_2 X |tptp.'In early animal development, the embryonic stage that follows the blastula. A gastrula contains an invagination that becomes the animal_'s first digestive tract, called the archenteron, and the first two embryonic germ layers (ectoderm and endoderm).'|) (tptp.concept2words_2 X |tptp.'gastrula stage'|) (tptp.concept2words_2 X tptp.gastrula) (tptp.embryonic_stages_1 X) (tptp.cell_1 _let_5) (tptp.endoderm_1 _let_1) (tptp.ectoderm_1 _let_2) (tptp.archenteron_1 _let_3) (tptp.blastopore_1 _let_4) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_5) (tptp.has_region_2 X _let_4) (tptp.has_region_2 X _let_3) (tptp.is_outside_2 _let_1 _let_3) (tptp.is_outside_2 _let_2 _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gastrulation_7 X))) (let ((_let_2 (tptp.fn_fold_1 _let_1))) (let ((_let_3 (tptp.fn_gastrulation_8 X))) (let ((_let_4 (tptp.fn_gastrulation_4 X))) (let ((_let_5 (tptp.fn_gastrulation_1 X))) (let ((_let_6 (tptp.fn_gastrulation_2 X))) (let ((_let_7 (tptp.fn_gastrulation_6 X))) (let ((_let_8 (tptp.fn_gastrulation_5 X))) (let ((_let_9 (tptp.fn_gastrulation_3 X))) (=> (tptp.gastrulation_1 X) (and (tptp.original_name_2 X |tptp.'Gastrulation'|) (tptp.user_description_2 X |tptp.'In early animal development, a process by which the single-layered blastula becomes a three-layered stage called a gastrula. Gastrulation involves the migration of cells inward, forming an invagination which becomes the archenteron. Gastrulation also establishes the three embryonic germ layers: ectoderm, mesoderm, and endoderm.'|) (tptp.concept2words_2 X |tptp.'gastrula stage'|) (tptp.concept2words_2 X |tptp.'undergo gastrulation'|) (tptp.concept2words_2 X tptp.gastrulation) (tptp.embryonic_process_1 X) (not (tptp.cell_determination_1 X)) (not (tptp.childbirth_1 X)) (not (tptp.compaction_1 X)) (not (tptp.gestation_1 X)) (not (tptp.molting_1 X)) (not (tptp.organogenesis_1 X)) (not (tptp.oviparous_1 X)) (not (tptp.ovoviviparous_1 X)) (not (tptp.ovulation_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.pattern_formation_1 X)) (not (tptp.phase_change_1 X)) (not (tptp.primary_growth_1 X)) (not (tptp.protostome_development_1 X)) (not (tptp.radial_cleavage_1 X)) (not (tptp.senescence_1 X)) (not (tptp.torsion_1 X)) (not (tptp.viviparous_1 X)) (not (tptp.animal_life_cycle_1 X)) (not (tptp.determinate_growth_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.life_cycle_of_drosophila_1 X)) (not (tptp.life_history_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X)) (tptp.cell_signaling_1 _let_5) (tptp.blastula_1 _let_6) (tptp.gastrula_1 _let_9) (tptp.cell_differentiation_1 _let_4) (tptp.inside_face_1 _let_8) (tptp.rudimentary_gut_cavity_1 _let_7) (tptp.fold_1 _let_1) (tptp.biological_region_1 _let_3) (tptp.entity_1 _let_2) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_9) (tptp.base_2 X _let_6) (tptp.toward_2 _let_1 _let_8) (tptp.result_2 _let_1 _let_7) (tptp.has_region_2 _let_6 _let_3) (tptp.next_event_2 _let_5 _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gated_channel_28 X))) (let ((_let_2 (tptp.fn_hydrophilic_channel_2 _let_1))) (let ((_let_3 (tptp.fn_gated_channel_40 X))) (let ((_let_4 (tptp.fn_expose_1 _let_3))) (let ((_let_5 (tptp.fn_gated_channel_4 X))) (let ((_let_6 (tptp.fn_open_1 _let_5))) (let ((_let_7 (tptp.fn_gated_channel_5 X))) (let ((_let_8 (tptp.fn_close_2 _let_7))) (let ((_let_9 (tptp.fn_gated_channel_15 X))) (let ((_let_10 (tptp.fn_facilitated_diffusion_using_channel_protein_14 _let_9))) (let ((_let_11 (tptp.fn_channel_protein_8 X))) (let ((_let_12 (tptp.fn_transport_protein_28 X))) (let ((_let_13 (tptp.fn_channel_protein_5 X))) (let ((_let_14 (tptp.fn_transport_protein_10 X))) (let ((_let_15 (tptp.fn_transport_protein_34 X))) (let ((_let_16 (tptp.fn_facilitated_diffusion_using_channel_protein_13 _let_9))) (let ((_let_17 (tptp.fn_channel_protein_9 X))) (let ((_let_18 (tptp.fn_passive_transport_6 _let_9))) (let ((_let_19 (tptp.fn_channel_protein_10 X))) (let ((_let_20 (tptp.fn_passive_transport_7 _let_9))) (let ((_let_21 (tptp.fn_transport_protein_20 X))) (let ((_let_22 (tptp.fn_integral_protein_16 X))) (let ((_let_23 (tptp.fn_facilitated_diffusion_using_channel_protein_5 _let_9))) (let ((_let_24 (tptp.fn_transport_protein_19 X))) (let ((_let_25 (tptp.fn_facilitated_diffusion_using_channel_protein_19 _let_9))) (let ((_let_26 (tptp.fn_transport_protein_21 X))) (let ((_let_27 (tptp.fn_facilitated_diffusion_using_channel_protein_20 _let_9))) (let ((_let_28 (tptp.fn_transport_protein_4 X))) (let ((_let_29 (tptp.fn_hydrophilic_region_2 _let_1))) (let ((_let_30 (tptp.fn_transport_protein_35 X))) (let ((_let_31 (tptp.fn_integral_protein_24 X))) (let ((_let_32 (tptp.fn_facilitated_diffusion_using_channel_protein_18 _let_9))) (let ((_let_33 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_34 (tptp.fn_transport_protein_9 X))) (let ((_let_35 (tptp.fn_protein_6 X))) (let ((_let_36 (tptp.fn_polymer_1 X))) (let ((_let_37 (tptp.fn_transport_protein_12 X))) (let ((_let_38 (tptp.fn_integral_protein_27 X))) (let ((_let_39 (tptp.fn_gated_channel_3 X))) (let ((_let_40 (tptp.fn_gated_channel_8 X))) (let ((_let_41 (tptp.fn_gated_channel_14 X))) (let ((_let_42 (tptp.fn_gated_channel_36 X))) (let ((_let_43 (tptp.fn_gated_channel_30 X))) (let ((_let_44 (tptp.fn_gated_channel_7 X))) (let ((_let_45 (tptp.fn_gated_channel_20 X))) (let ((_let_46 (tptp.fn_gated_channel_29 X))) (let ((_let_47 (tptp.fn_gated_channel_26 X))) (let ((_let_48 (tptp.fn_gated_channel_21 X))) (let ((_let_49 (tptp.fn_gated_channel_19 X))) (let ((_let_50 (tptp.fn_gated_channel_39 X))) (let ((_let_51 (tptp.fn_gated_channel_25 X))) (let ((_let_52 (tptp.fn_gated_channel_24 X))) (let ((_let_53 (tptp.fn_gated_channel_17 X))) (let ((_let_54 (tptp.fn_gated_channel_23 X))) (let ((_let_55 (tptp.fn_gated_channel_16 X))) (let ((_let_56 (tptp.fn_gated_channel_38 X))) (let ((_let_57 (tptp.fn_gated_channel_22 X))) (let ((_let_58 (tptp.fn_gated_channel_6 X))) (let ((_let_59 (tptp.fn_gated_channel_11 X))) (let ((_let_60 (tptp.fn_gated_channel_31 X))) (let ((_let_61 (tptp.fn_gated_channel_9 X))) (let ((_let_62 (tptp.fn_gated_channel_10 X))) (let ((_let_63 (tptp.fn_gated_channel_12 X))) (let ((_let_64 (tptp.fn_gated_channel_18 X))) (let ((_let_65 (tptp.fn_gated_channel_13 X))) (let ((_let_66 (tptp.fn_hydrophilic_channel_1 _let_1))) (let ((_let_67 (tptp.fn_gated_channel_27 X))) (let ((_let_68 (tptp.fn_gated_channel_1 X))) (let ((_let_69 (tptp.fn_gated_channel_2 X))) (=> (tptp.gated_channel_1 X) (and (tptp.original_name_2 X |tptp.'Gated-Channel'|) (tptp.user_description_2 X |tptp.'A transmembrane protein channel that opens or closes in response to a particular stimulus.'|) (tptp.concept2words_2 X |tptp.'gated channel'|) (tptp.concept2words_2 X |tptp.'gated-channel'|) (tptp.channel_protein_1 X) (not (tptp.atp_synthase_1 X)) (tptp.stimulus_1 _let_68) (tptp.stimulus_1 _let_69) (tptp.move_1 _let_39) (tptp.move_through_1 _let_39) (tptp.open_1 _let_5) (tptp.close_1 _let_7) (tptp.spatial_entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.monomer_1 _let_58) (tptp.molecule_1 _let_58) (tptp.amino_acid_1 _let_58) (tptp.size_value_1 _let_44) (tptp.rate_value_1 _let_40) (tptp.speed_value_1 _let_61) (tptp.quantity_value_1 _let_62) (tptp.covalent_bond_1 _let_59) (tptp.peptide_bond_1 _let_59) (tptp.kinetic_energy_1 _let_63) (tptp.tangible_entity_1 _let_65) (tptp.phospholipid_bilayer_1 _let_65) (tptp.quantity_value_1 _let_41) (tptp.facilitated_diffusion_1 _let_9) (tptp.passive_transport_1 _let_9) (tptp.facilitated_diffusion_using_channel_protein_1 _let_9) (tptp.spatial_entity_1 _let_55) (tptp.biomembrane_1 _let_55) (tptp.polar_amino_acid_1 _let_53) (tptp.hydrophobic_amino_acid_1 _let_64) (tptp.entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.monomer_1 _let_45) (tptp.carbon_1 _let_48) (tptp.polypeptide_1 _let_57) (tptp.hydrophobic_region_1 _let_54) (tptp.hydrophilic_end_1 _let_52) (tptp.hydrophilic_region_1 _let_51) (tptp.hydrophilic_end_1 _let_51) (tptp.carbon_skeleton_1 _let_47) (tptp.center_1 _let_67) (tptp.hydrophilic_region_1 _let_1) (tptp.hydrophilic_channel_1 _let_1) (tptp.protein_domain_1 _let_46) (tptp.size_value_1 _let_43) (tptp.constant_motion_1 _let_60) (tptp.repel_1 _let_56) (tptp.attract_1 _let_50) (tptp.expose_1 _let_3) (tptp.center_1 _let_66) (tptp.spatial_entity_1 _let_32) (tptp.biomembrane_1 _let_32) (tptp.attract_1 _let_29) (tptp.monomer_1 _let_27) (tptp.size_value_1 _let_25) (tptp.size_value_1 _let_23) (tptp.property_node_1 _let_20) (tptp.rate_value_1 _let_18) (tptp.move_through_1 _let_16) (tptp.channel_protein_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.channel_protein_1 _let_2) (tptp.site_2 _let_3 _let_51) (tptp.facilitates_2 _let_1 _let_50) (tptp.is_at_2 _let_53 _let_1) (tptp.agent_2 _let_7 _let_69) (tptp.agent_2 _let_5 _let_68) (tptp.path_2 _let_9 _let_55) (tptp.object_2 _let_7 X) (tptp.site_2 _let_50 _let_1) (tptp.object_2 _let_5 X) (tptp.object_2 _let_3 X) (tptp.possesses_2 X _let_59) (tptp.is_at_2 _let_1 _let_67) (tptp.has_region_2 X _let_67) (tptp.the_scalar_value_2 _let_43 tptp.big_0) (tptp.scalar_unit_class_2 _let_43 tptp.polypeptide_0) (tptp.is_between_2 _let_59 _let_48) (tptp.is_inside_2 X _let_65) (tptp.has_part_2 _let_55 _let_65) (tptp.is_across_2 X _let_55) (tptp.has_function_2 X _let_50) (tptp.has_part_2 X _let_64) (tptp.is_inside_2 _let_64 _let_54) (tptp.facilitates_2 _let_54 _let_56) (tptp.has_function_2 X _let_56) (tptp.has_region_2 X _let_52) (tptp.object_2 _let_60 X) (tptp.speed_2 _let_60 _let_61) (tptp.directly_proportional_2 _let_61 _let_62) (tptp.quantity_2 _let_63 _let_62) (tptp.possesses_2 X _let_63) (tptp.base_2 _let_39 _let_55) (tptp.has_function_2 _let_55 _let_39) (tptp.has_part_2 _let_55 X) (tptp.has_part_2 X _let_49) (tptp.is_between_2 _let_59 _let_49) (tptp.site_2 _let_56 _let_54) (tptp.agent_2 _let_56 X) (tptp.has_part_2 X _let_57) (tptp.has_part_2 _let_57 _let_58) (tptp.is_at_2 _let_58 _let_46) (tptp.has_region_2 X _let_51) (tptp.is_at_2 _let_53 _let_51) (tptp.has_part_2 X _let_53) (tptp.has_region_2 X _let_54) (tptp.is_inside_2 _let_54 _let_55) (tptp.agent_2 _let_50 X) (tptp.site_2 _let_50 _let_51) (tptp.facilitates_2 _let_51 _let_50) (tptp.is_opposite_2 _let_52 _let_51) (tptp.is_opposite_2 _let_51 _let_52) (tptp.has_region_2 X _let_47) (tptp.is_inside_2 _let_48 _let_47) (tptp.has_part_2 X _let_48) (not (= _let_49 _let_48)) (not (= _let_48 _let_49)) (tptp.size_2 X _let_43) (tptp.greater_than_2 _let_43 _let_44) (tptp.size_2 _let_45 _let_44) (tptp.has_part_2 X _let_45) (tptp.has_region_2 X _let_46) (tptp.path_2 _let_39 _let_1) (tptp.rate_2 _let_9 _let_40) (tptp.directly_proportional_2 _let_41 _let_40) (tptp.quantity_2 X _let_41) (tptp.facilitates_2 X _let_39) (tptp.agent_2 _let_39 X) (tptp.has_region_2 X _let_1) (tptp.facilitates_2 _let_1 _let_9) (tptp.instrument_2 _let_9 X) (tptp.has_function_2 X _let_9) (tptp.subevent_2 _let_9 _let_39) (= X _let_8) (= _let_50 _let_29) (= X _let_6) (= X _let_4) (= _let_59 _let_36) (= _let_59 _let_35) (= _let_67 _let_66) (= (tptp.fn_gated_channel_34 X) (tptp.fn_transport_protein_30 X)) (= (tptp.fn_gated_channel_32 X) (tptp.fn_transport_protein_22 X)) (= (tptp.fn_gated_channel_35 X) (tptp.fn_transport_protein_29 X)) (= (tptp.fn_gated_channel_37 X) (tptp.fn_transport_protein_23 X)) (= _let_65 _let_38) (= _let_65 _let_37) (= _let_64 (tptp.fn_transport_protein_13 X)) (= _let_63 (tptp.fn_transport_protein_27 X)) (= _let_62 (tptp.fn_transport_protein_24 X)) (= _let_61 (tptp.fn_transport_protein_25 X)) (= _let_60 (tptp.fn_transport_protein_26 X)) (= _let_59 _let_34) (= _let_55 _let_32) (= _let_55 _let_33) (= _let_55 _let_31) (= _let_39 _let_14) (= _let_58 (tptp.fn_transport_protein_8 X)) (= _let_57 (tptp.fn_transport_protein_7 X)) (= _let_56 (tptp.fn_transport_protein_5 X)) (= _let_55 _let_30) (= _let_54 (tptp.fn_transport_protein_15 X)) (= _let_53 (tptp.fn_transport_protein_32 X)) (= _let_52 (tptp.fn_transport_protein_16 X)) (= _let_51 (tptp.fn_transport_protein_33 X)) (= _let_50 _let_28) (= _let_49 (tptp.fn_transport_protein_17 X)) (= _let_48 (tptp.fn_transport_protein_14 X)) (= _let_47 (tptp.fn_transport_protein_18 X)) (= _let_46 (tptp.fn_transport_protein_6 X)) (= _let_45 _let_27) (= _let_45 _let_26) (= _let_44 _let_25) (= _let_44 _let_24) (= _let_43 _let_23) (= _let_43 _let_22) (= _let_43 _let_21) (= (tptp.fn_gated_channel_33 X) (tptp.fn_channel_protein_1 X)) (= _let_42 _let_20) (= _let_42 _let_19) (= _let_41 (tptp.fn_channel_protein_2 X)) (= _let_40 _let_18) (= _let_40 _let_17) (= _let_39 _let_16) (= _let_39 _let_15) (= _let_39 _let_13) (= X _let_10) (= _let_9 _let_12) (= _let_9 _let_11) (= X _let_2) (= _let_1 (tptp.fn_channel_protein_7 X)) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_8) (= _let_8 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gated_channel_3 X))) (let ((_let_2 (tptp.fn_channel_protein_5 X))) (let ((_let_3 (tptp.fn_transport_protein_34 X))) (let ((_let_4 (tptp.fn_gated_ion_channel_5 X))) (let ((_let_5 (tptp.fn_gated_ion_channel_6 X))) (let ((_let_6 (tptp.fn_gated_ion_channel_2 X))) (let ((_let_7 (tptp.fn_gated_ion_channel_3 X))) (let ((_let_8 (tptp.fn_gated_ion_channel_4 X))) (let ((_let_9 (tptp.fn_gated_ion_channel_1 X))) (=> (tptp.gated_ion_channel_1 X) (and (tptp.original_name_2 X |tptp.'Gated-Ion-Channel'|) (tptp.user_description_2 X |tptp.'A membrane channel that responds to a specific ion. Opening or closing of ion channels can change the membrane potential of a cell.'|) (tptp.concept2words_2 X |tptp.'gated ion channel'|) (tptp.concept2words_2 X |tptp.'gated-ion-channel'|) (tptp.ion_channel_1 X) (tptp.gated_channel_1 X) (tptp.change_in_membrane_potential_1 _let_9) (tptp.open_1 _let_6) (tptp.ion_1 _let_7) (tptp.block_1 _let_8) (tptp.move_1 _let_4) (tptp.move_through_1 _let_4) (tptp.open_1 _let_5) (tptp.causes_2 _let_4 _let_9) (tptp.instrument_2 _let_8 X) (tptp.agent_2 _let_5 _let_7) (tptp.base_2 _let_6 X) (tptp.facilitates_2 X _let_4) (tptp.agent_2 _let_4 X) (tptp.object_2 _let_5 X) (= _let_5 (tptp.fn_gated_channel_4 X)) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gdp_25 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_gdp_16 X))) (let ((_let_4 (tptp.fn_phosphate_group_39 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_35 _let_3))) (let ((_let_6 (tptp.fn_phosphate_group_37 _let_3))) (let ((_let_7 (tptp.fn_nucleoside_diphosphate_32 X))) (let ((_let_8 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_9 (tptp.fn_phosphate_group_38 _let_3))) (let ((_let_10 (tptp.fn_phosphate_group_20 _let_3))) (let ((_let_11 (tptp.fn_nucleoside_diphosphate_47 X))) (let ((_let_12 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_13 (tptp.fn_nucleoside_diphosphate_48 X))) (let ((_let_14 (tptp.fn_nucleotide_35 X))) (let ((_let_15 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_16 (tptp.fn_nucleoside_diphosphate_41 X))) (let ((_let_17 (tptp.fn_nucleotide_34 X))) (let ((_let_18 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_19 (tptp.fn_phosphate_group_12 _let_3))) (let ((_let_20 (tptp.fn_phosphate_group_17 _let_3))) (let ((_let_21 (tptp.fn_nucleoside_diphosphate_35 X))) (let ((_let_22 (tptp.fn_gdp_15 X))) (let ((_let_23 (tptp.fn_polar_covalent_bond_23 _let_22))) (let ((_let_24 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_25 (tptp.fn_phosphate_group_14 _let_3))) (let ((_let_26 (tptp.fn_phosphate_group_18 _let_3))) (let ((_let_27 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_28 (tptp.fn_nucleoside_diphosphate_37 X))) (let ((_let_29 (tptp.fn_nucleoside_diphosphate_36 X))) (let ((_let_30 (tptp.fn_nucleoside_diphosphate_3 X))) (let ((_let_31 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_32 (tptp.fn_phosphate_group_19 _let_3))) (let ((_let_33 (tptp.fn_phosphate_group_10 _let_3))) (let ((_let_34 (tptp.fn_nucleoside_diphosphate_44 X))) (let ((_let_35 (tptp.fn_nucleotide_25 X))) (let ((_let_36 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_37 (tptp.fn_phosphate_group_40 _let_3))) (let ((_let_38 (tptp.fn_phosphate_group_36 _let_3))) (let ((_let_39 (tptp.fn_polar_covalent_bond_17 _let_22))) (let ((_let_40 (tptp.fn_phosphate_group_6 _let_3))) (let ((_let_41 (tptp.fn_nucleoside_diphosphate_33 X))) (let ((_let_42 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_43 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_44 (tptp.fn_polar_covalent_bond_18 _let_22))) (let ((_let_45 (tptp.fn_nucleotide_30 X))) (let ((_let_46 (tptp.fn_nucleotide_15 X))) (let ((_let_47 (tptp.fn_nucleoside_diphosphate_25 X))) (let ((_let_48 (tptp.fn_phosphate_group_5 _let_3))) (let ((_let_49 (tptp.fn_phosphate_group_22 _let_3))) (let ((_let_50 (tptp.fn_nucleoside_diphosphate_30 X))) (let ((_let_51 (tptp.fn_nucleotide_13 X))) (let ((_let_52 (tptp.fn_nucleotide_10 X))) (let ((_let_53 (tptp.fn_phosphate_group_3 _let_3))) (let ((_let_54 (tptp.fn_phosphate_group_9 _let_3))) (let ((_let_55 (tptp.fn_gdp_18 X))) (let ((_let_56 (tptp.fn_share_3 _let_55))) (let ((_let_57 (tptp.fn_nucleoside_diphosphate_29 X))) (let ((_let_58 (tptp.fn_phosphate_group_41 _let_3))) (let ((_let_59 (tptp.fn_nucleoside_diphosphate_38 X))) (let ((_let_60 (tptp.fn_nucleoside_diphosphate_45 X))) (let ((_let_61 (tptp.fn_phosphate_group_8 _let_3))) (let ((_let_62 (tptp.fn_phosphate_group_21 _let_3))) (let ((_let_63 (tptp.fn_nucleoside_diphosphate_1 X))) (let ((_let_64 (tptp.fn_nucleotide_24 X))) (let ((_let_65 (tptp.fn_phosphate_group_16 _let_3))) (let ((_let_66 (tptp.fn_nucleoside_diphosphate_40 X))) (let ((_let_67 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_68 (tptp.fn_nucleoside_diphosphate_39 X))) (let ((_let_69 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_70 (tptp.fn_gdp_14 X))) (let ((_let_71 (tptp.fn_atom_9 _let_70))) (let ((_let_72 (tptp.fn_nucleoside_diphosphate_27 X))) (let ((_let_73 (tptp.fn_nucleotide_3 X))) (let ((_let_74 (tptp.fn_nucleotide_9 X))) (let ((_let_75 (tptp.fn_polar_covalent_bond_19 _let_22))) (let ((_let_76 (tptp.fn_share_1 _let_55))) (let ((_let_77 (tptp.fn_gdp_2 X))) (let ((_let_78 (tptp.fn_gdp_22 X))) (let ((_let_79 (tptp.fn_gdp_31 X))) (let ((_let_80 (tptp.fn_gdp_17 X))) (let ((_let_81 (tptp.fn_gdp_20 X))) (let ((_let_82 (tptp.fn_gdp_32 X))) (let ((_let_83 (tptp.fn_gdp_8 X))) (let ((_let_84 (tptp.fn_gdp_23 X))) (let ((_let_85 (tptp.fn_gdp_30 X))) (let ((_let_86 (tptp.fn_gdp_19 X))) (let ((_let_87 (tptp.fn_gdp_28 X))) (let ((_let_88 (tptp.fn_gdp_11 X))) (let ((_let_89 (tptp.fn_gdp_27 X))) (let ((_let_90 (tptp.fn_gdp_1 X))) (let ((_let_91 (tptp.fn_gdp_29 X))) (let ((_let_92 (tptp.fn_gdp_13 X))) (let ((_let_93 (tptp.fn_gdp_12 X))) (let ((_let_94 (tptp.fn_gdp_26 X))) (let ((_let_95 (tptp.fn_gdp_4 X))) (let ((_let_96 (tptp.fn_gdp_3 X))) (let ((_let_97 (tptp.fn_gdp_24 X))) (let ((_let_98 (tptp.fn_gdp_5 X))) (let ((_let_99 (tptp.fn_gdp_21 X))) (let ((_let_100 (tptp.fn_functional_group_1 _let_3))) (let ((_let_101 (tptp.fn_gdp_6 X))) (let ((_let_102 (tptp.fn_gdp_7 X))) (let ((_let_103 (tptp.fn_gdp_33 X))) (let ((_let_104 (tptp.fn_gdp_9 X))) (let ((_let_105 (tptp.fn_nucleoside_21 _let_104))) (let ((_let_106 (tptp.fn_gdp_10 X))) (=> (tptp.gdp_1 X) (and (tptp.original_name_2 X |tptp.'GDP'|) (tptp.user_description_2 X |tptp.'The dephosphorylated state of GTP.'|) (tptp.concept2words_2 X |tptp.'guanosine diphosphate'|) (tptp.concept2words_2 X |tptp.'guanosine-diphosphate'|) (tptp.concept2words_2 X tptp.gdp) (tptp.nucleoside_diphosphate_1 X) (tptp.electron_1 _let_90) (tptp.valence_electron_1 _let_90) (tptp.share_1 _let_77) (tptp.valence_electron_1 _let_96) (tptp.share_1 _let_95) (tptp.electron_shell_1 _let_98) (tptp.number_5_prime_region_1 _let_101) (tptp.phosphate_group_1 _let_102) (tptp.valence_electron_1 _let_83) (tptp.nucleoside_1 _let_104) (tptp.guanine_1 _let_106) (tptp.entity_1 _let_88) (tptp.chemical_entity_1 _let_88) (tptp.atom_1 _let_88) (tptp.phosphorus_1 _let_88) (tptp.entity_1 _let_93) (tptp.chemical_entity_1 _let_93) (tptp.atom_1 _let_93) (tptp.oxygen_1 _let_93) (tptp.entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.atom_1 _let_92) (tptp.oxygen_1 _let_92) (tptp.number_5_prime_carbon_1 _let_70) (tptp.polar_covalent_bond_1 _let_22) (tptp.functional_group_1 _let_3) (tptp.phosphate_group_1 _let_3) (tptp.center_1 _let_80) (tptp.share_1 _let_55) (tptp.center_1 _let_86) (tptp.center_1 _let_81) (tptp.electron_shell_1 _let_99) (tptp.first_electron_shell_1 _let_99) (tptp.electron_1 _let_78) (tptp.valence_electron_1 _let_78) (tptp.electron_1 _let_84) (tptp.valence_electron_1 _let_84) (tptp.electron_1 _let_97) (tptp.valence_electron_1 _let_97) (tptp.single_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.chemical_bond_1 _let_94) (tptp.covalent_bond_1 _let_94) (tptp.double_bond_1 _let_94) (tptp.oxygen_1 _let_89) (tptp.entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.atom_1 _let_89) (tptp.hold_together_1 _let_87) (tptp.electron_1 _let_91) (tptp.valence_electron_1 _let_91) (tptp.proton_1 _let_85) (tptp.atomic_nucleus_1 _let_79) (tptp.atomic_nucleus_1 _let_82) (tptp.carbon_skeleton_1 _let_103) (tptp.nitrogenous_base_1 _let_105) (tptp.chemical_entity_1 _let_100) (tptp.entity_1 _let_76) (tptp.entity_1 _let_75) (tptp.chemical_entity_1 _let_75) (tptp.atom_1 _let_75) (tptp.electron_shell_1 _let_71) (tptp.electron_shell_1 _let_69) (tptp.electron_shell_1 _let_67) (tptp.electron_shell_1 _let_65) (tptp.valence_electron_1 _let_62) (tptp.valence_electron_1 _let_61) (tptp.double_bond_1 _let_58) (tptp.entity_1 _let_56) (tptp.valence_electron_1 _let_54) (tptp.electron_1 _let_53) (tptp.valence_electron_1 _let_53) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.oxygen_1 _let_49) (tptp.oxygen_1 _let_48) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.phosphorus_1 _let_40) (tptp.hold_together_1 _let_39) (tptp.hold_together_1 _let_38) (tptp.hold_together_1 _let_37) (tptp.hold_together_1 _let_36) (tptp.center_1 _let_33) (tptp.proton_1 _let_32) (tptp.proton_1 _let_31) (tptp.valence_electron_1 _let_27) (tptp.atomic_nucleus_1 _let_26) (tptp.atomic_nucleus_1 _let_25) (tptp.atomic_nucleus_1 _let_24) (tptp.center_1 _let_23) (tptp.center_1 _let_20) (tptp.center_1 _let_19) (tptp.center_1 _let_18) (tptp.center_1 _let_15) (tptp.atomic_nucleus_1 _let_12) (tptp.electron_1 _let_10) (tptp.valence_electron_1 _let_10) (tptp.electron_1 _let_9) (tptp.valence_electron_1 _let_9) (tptp.valence_electron_1 _let_8) (tptp.single_bond_1 _let_6) (tptp.share_1 _let_5) (tptp.share_1 _let_4) (tptp.share_1 _let_2) (not (= _let_91 _let_83)) (tptp.called_2 _let_3 |tptp.'P2'|) (tptp.is_between_2 _let_22 _let_92) (tptp.is_between_2 _let_22 _let_93) (tptp.possesses_2 X _let_22) (tptp.called_2 _let_70 |tptp.'A4'|) (tptp.has_region_2 _let_70 _let_80) (tptp.has_region_2 _let_70 _let_86) (not (= _let_83 _let_91)) (tptp.has_part_2 _let_104 _let_106) (tptp.agent_2 _let_55 _let_70) (not (= _let_92 _let_70)) (not (= _let_70 _let_92)) (tptp.has_region_2 _let_70 _let_99) (tptp.is_between_2 _let_22 _let_70) (tptp.object_2 _let_87 _let_70) (tptp.is_between_2 _let_22 _let_88) (not (= _let_88 _let_70)) (tptp.has_region_2 _let_70 _let_81) (not (= _let_70 _let_88)) (tptp.has_part_2 X _let_104) (tptp.is_inside_2 _let_70 _let_103) (not (= _let_89 _let_70)) (tptp.agent_2 _let_55 _let_89) (not (= _let_70 _let_89)) (tptp.has_part_2 X _let_70) (not (= _let_70 _let_93)) (not (= _let_93 _let_70)) (tptp.has_region_2 _let_89 _let_81) (tptp.called_2 _let_3 |tptp.'P1'|) (tptp.has_region_2 _let_89 _let_79) (tptp.called_2 _let_102 |tptp.'P2'|) (tptp.result_2 _let_55 _let_94) (tptp.result_2 _let_95 _let_94) (tptp.agent_2 _let_55 _let_88) (tptp.has_region_2 _let_88 _let_86) (tptp.object_2 _let_55 _let_97) (tptp.agent_2 _let_55 _let_93) (tptp.has_part_2 X _let_93) (tptp.has_region_2 X _let_103) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_3 _let_101) (tptp.is_inside_2 _let_102 _let_101) (not (= _let_3 _let_102)) (not (= _let_102 _let_3)) (tptp.is_between_2 _let_94 _let_89) (tptp.possesses_2 X _let_94) (tptp.has_part_2 X _let_89) (tptp.is_between_2 _let_1 _let_89) (tptp.possesses_2 X _let_1) (not (= _let_84 _let_97)) (not (= _let_84 _let_96)) (not (= _let_96 _let_84)) (not (= _let_78 _let_84)) (not (= _let_84 _let_78)) (not (= _let_97 _let_84)) (tptp.has_region_2 _let_89 _let_80) (tptp.agent_2 _let_95 _let_89) (tptp.object_2 _let_95 _let_84) (not (= _let_90 _let_84)) (not (= _let_84 _let_90)) (tptp.has_region_2 _let_88 _let_80) (tptp.has_region_2 _let_93 _let_80) (tptp.has_part_2 _let_93 _let_84) (not (= _let_92 _let_93)) (not (= _let_93 _let_92)) (tptp.has_part_2 X _let_88) (tptp.has_region_2 _let_88 _let_99) (not (= _let_99 _let_98)) (tptp.has_region_2 _let_93 _let_98) (tptp.has_region_2 _let_93 _let_86) (not (= _let_98 _let_99)) (tptp.object_2 _let_55 _let_84) (tptp.has_function_2 _let_94 _let_87) (tptp.has_region_2 _let_93 _let_81) (tptp.has_region_2 _let_89 _let_98) (tptp.result_2 _let_77 _let_94) (tptp.has_part_2 _let_89 _let_85) (tptp.is_between_2 _let_1 _let_93) (tptp.object_2 _let_87 _let_93) (tptp.agent_2 _let_87 _let_1) (tptp.is_between_2 _let_1 _let_88) (tptp.is_between_2 _let_94 _let_88) (tptp.has_part_2 _let_89 _let_78) (tptp.object_2 _let_55 _let_78) (tptp.result_2 _let_55 _let_1) (not (= _let_97 _let_78)) (not (= _let_78 _let_97)) (not (= _let_96 _let_91)) (not (= _let_91 _let_97)) (tptp.has_part_2 _let_93 _let_97) (tptp.is_inside_2 _let_93 _let_3) (tptp.is_inside_2 _let_89 _let_3) (not (= _let_91 _let_96)) (not (= _let_97 _let_91)) (tptp.agent_2 _let_87 _let_94) (tptp.is_between_2 _let_94 _let_93) (not (= _let_93 _let_88)) (tptp.agent_2 _let_95 _let_88) (tptp.object_2 _let_95 _let_96) (not (= _let_88 _let_93)) (tptp.agent_2 _let_77 _let_88) (tptp.agent_2 _let_77 _let_93) (tptp.has_region_2 _let_93 _let_82) (not (= _let_89 _let_93)) (not (= _let_93 _let_89)) (tptp.object_2 _let_87 _let_89) (tptp.object_2 _let_87 _let_88) (tptp.has_region_2 _let_88 _let_81) (not (= _let_92 _let_88)) (not (= _let_88 _let_92)) (tptp.agent_2 _let_77 _let_89) (tptp.object_2 _let_77 _let_90) (not (= _let_90 _let_78)) (not (= _let_78 _let_91)) (tptp.is_near_2 _let_91 _let_82) (not (= _let_78 _let_90)) (not (= _let_91 _let_78)) (tptp.is_near_2 _let_82 _let_91) (tptp.is_inside_2 _let_88 _let_3) (not (= _let_88 _let_89)) (tptp.has_region_2 _let_89 _let_86) (not (= _let_89 _let_88)) (not (= _let_81 _let_86)) (not (= _let_86 _let_81)) (tptp.has_function_2 _let_1 _let_87) (tptp.is_near_2 _let_79 _let_84) (tptp.is_near_2 _let_84 _let_79) (not (= _let_86 _let_80)) (not (= _let_80 _let_86)) (tptp.is_inside_2 _let_85 _let_79) (tptp.object_2 _let_77 _let_84) (tptp.is_at_2 _let_82 _let_81) (tptp.is_near_2 _let_83 _let_82) (tptp.is_near_2 _let_82 _let_83) (tptp.result_2 _let_77 _let_1) (tptp.object_2 _let_77 _let_78) (tptp.is_near_2 _let_78 _let_79) (tptp.is_at_2 _let_79 _let_80) (not (= _let_80 _let_81)) (tptp.is_near_2 _let_79 _let_78) (not (= _let_81 _let_80)) (= _let_106 _let_105) (= _let_92 _let_56) (= _let_70 _let_56) (= _let_70 _let_76) (= _let_99 _let_71) (= _let_87 _let_39) (= _let_81 _let_23) (= _let_70 _let_75) (= _let_88 _let_44) (= _let_104 (tptp.fn_nucleotide_16 X)) (= _let_103 _let_73) (= _let_55 _let_64) (= _let_89 _let_51) (= _let_70 _let_74) (= _let_81 _let_21) (= _let_79 _let_13) (= _let_103 _let_72) (= _let_55 _let_63) (= _let_102 (tptp.fn_nucleoside_diphosphate_26 X)) (= _let_101 (tptp.fn_nucleoside_diphosphate_34 X)) (= X _let_100) (= _let_3 _let_47) (= _let_1 _let_7) (= _let_94 _let_59) (= _let_97 _let_11) (= _let_84 _let_30) (= _let_78 _let_11) (= _let_96 _let_28) (= _let_90 _let_30) (= _let_84 _let_29) (= _let_95 _let_60) (= _let_89 _let_50) (= _let_84 _let_28) (= _let_92 _let_52) (= _let_92 _let_50) (= _let_80 _let_16) (= _let_93 _let_51) (= _let_86 _let_35) (= _let_86 _let_34) (= _let_93 _let_57) (= _let_98 _let_67) (= _let_98 _let_66) (= _let_99 _let_69) (= _let_99 _let_68) (= _let_88 _let_41) (= _let_84 _let_9) (= _let_81 _let_20) (= _let_98 _let_65) (= _let_85 _let_32) (= _let_87 _let_38) (= _let_1 _let_6) (= _let_55 _let_5) (= _let_97 _let_62) (= _let_78 _let_10) (= _let_89 _let_49) (= _let_97 _let_61) (= _let_91 _let_54) (= _let_96 _let_61) (= _let_95 _let_4) (= _let_93 _let_48) (= _let_94 _let_58) (= _let_93 _let_43) (= _let_82 _let_12) (= _let_82 _let_26) (= _let_93 _let_42) (= _let_93 _let_49) (= _let_88 _let_43) (= _let_77 _let_5) (= _let_92 _let_49) (= _let_88 _let_42) (= _let_87 _let_37) (= _let_82 _let_25) (= _let_91 _let_53) (= _let_78 _let_9) (= _let_90 _let_53) (= _let_77 _let_4) (= _let_81 _let_19) (= _let_86 _let_33) (= _let_89 _let_52) (= _let_89 _let_48) (= _let_88 _let_45) (= _let_3 _let_46) (= _let_88 _let_40) (= _let_87 _let_36) (= _let_84 _let_8) (= _let_86 _let_18) (= _let_85 _let_31) (= _let_84 _let_27) (= _let_83 _let_27) (= _let_82 _let_24) (= _let_81 _let_18) (= _let_79 _let_14) (= _let_80 _let_17) (= _let_80 _let_15) (= _let_79 _let_12) (= _let_78 _let_8) (= _let_77 _let_2) (= _let_76 _let_56) (= _let_56 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_5) (= _let_5 _let_11) (= _let_11 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_28) (= _let_28 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_4) (= _let_4 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_43) (= _let_42 _let_51) (= _let_51 _let_43) (= _let_43 _let_51) (= _let_57 _let_51) (= _let_51 _let_57) (= _let_57 _let_57) (= _let_57 _let_48) (= _let_48 _let_49) (= _let_49 _let_56) (= _let_56 _let_56) (= _let_56 _let_52) (= _let_50 _let_52) (= _let_52 _let_50) (= _let_49 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_30) (= _let_30 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_18) (= _let_18 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_9) (= _let_8 _let_27) (= _let_27 _let_12) (= _let_12 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_vertebrate_25 X))) (let ((_let_2 (tptp.fn_animal_19 X))) (let ((_let_3 (tptp.fn_gecko_lizard_39 X))) (let ((_let_4 (tptp.fn_van_der_waal_interaction_1 _let_3))) (let ((_let_5 (tptp.fn_chemical_bond_4 _let_3))) (let ((_let_6 (tptp.fn_gecko_lizard_38 X))) (let ((_let_7 (tptp.fn_organic_molecule_2 _let_6))) (let ((_let_8 (tptp.fn_van_der_waal_interaction_2 _let_3))) (let ((_let_9 (tptp.fn_chemical_bond_1 _let_3))) (let ((_let_10 (tptp.fn_gecko_lizard_35 X))) (let ((_let_11 (tptp.fn_molecule_7 _let_10))) (let ((_let_12 (tptp.fn_gecko_lizard_19 X))) (let ((_let_13 (tptp.fn_gecko_lizard_31 X))) (let ((_let_14 (tptp.fn_gecko_lizard_28 X))) (let ((_let_15 (tptp.fn_gecko_lizard_20 X))) (let ((_let_16 (tptp.fn_gecko_lizard_44 X))) (let ((_let_17 (tptp.fn_gecko_lizard_29 X))) (let ((_let_18 (tptp.fn_gecko_lizard_21 X))) (let ((_let_19 (tptp.fn_gecko_lizard_22 X))) (let ((_let_20 (tptp.fn_gecko_lizard_18 X))) (let ((_let_21 (tptp.fn_gecko_lizard_23 X))) (let ((_let_22 (tptp.fn_gecko_lizard_26 X))) (let ((_let_23 (tptp.fn_gecko_lizard_43 X))) (let ((_let_24 (tptp.fn_gecko_lizard_24 X))) (let ((_let_25 (tptp.fn_gecko_lizard_30 X))) (let ((_let_26 (tptp.fn_gecko_lizard_25 X))) (let ((_let_27 (tptp.fn_gecko_lizard_27 X))) (let ((_let_28 (tptp.fn_gecko_lizard_34 X))) (let ((_let_29 (tptp.fn_gecko_lizard_33 X))) (let ((_let_30 (tptp.fn_gecko_lizard_32 X))) (let ((_let_31 (tptp.fn_gecko_lizard_36 X))) (let ((_let_32 (tptp.fn_gecko_lizard_37 X))) (let ((_let_33 (tptp.fn_gecko_lizard_40 X))) (let ((_let_34 (tptp.fn_chemical_bond_3 _let_3))) (let ((_let_35 (tptp.fn_gecko_lizard_46 X))) (let ((_let_36 (tptp.fn_gecko_lizard_42 X))) (let ((_let_37 (tptp.fn_support_1 _let_36))) (let ((_let_38 (tptp.fn_gecko_lizard_41 X))) (let ((_let_39 (tptp.fn_organic_structure_1 _let_38))) (let ((_let_40 (tptp.fn_tissue_1 _let_30))) (let ((_let_41 (tptp.fn_gecko_lizard_45 X))) (let ((_let_42 (tptp.fn_gecko_lizard_15 X))) (let ((_let_43 (tptp.fn_gecko_lizard_6 X))) (let ((_let_44 (tptp.fn_gecko_lizard_14 X))) (let ((_let_45 (tptp.fn_gecko_lizard_11 X))) (let ((_let_46 (tptp.fn_gecko_lizard_12 X))) (let ((_let_47 (tptp.fn_gecko_lizard_8 X))) (let ((_let_48 (tptp.fn_gecko_lizard_2 X))) (let ((_let_49 (tptp.fn_gecko_lizard_7 X))) (let ((_let_50 (tptp.fn_gecko_lizard_3 X))) (let ((_let_51 (tptp.fn_gecko_lizard_5 X))) (let ((_let_52 (tptp.fn_gecko_lizard_4 X))) (=> (tptp.gecko_lizard_1 X) (and (tptp.original_name_2 X |tptp.'Gecko-Lizard'|) (tptp.user_description_2 X |tptp.'Order of tropical lizards with specialized toes for climbing.'|) (tptp.concept2words_2 X tptp.gecko) (tptp.concept2words_2 X |tptp.'lizard of gecko'|) (tptp.concept2words_2 X |tptp.'gecko lizard'|) (tptp.concept2words_2 X |tptp.'gecko-lizard'|) (tptp.squamata_1 X) (tptp.area_value_1 _let_48) (tptp.foot_1 _let_50) (tptp.hair_1 _let_52) (tptp.toe_1 _let_51) (tptp.leg_1 _let_43) (tptp.size_value_1 _let_49) (tptp.quantity_value_1 _let_47) (tptp.tip_1 _let_45) (tptp.shape_value_1 _let_46) (tptp.wall_1 _let_44) (tptp.surface_1 _let_42) (tptp.take_in_1 _let_20) (tptp.water_1 _let_12) (tptp.gallbladder_1 _let_15) (tptp.pancreas_1 _let_18) (tptp.liver_1 _let_19) (tptp.trachea_1 _let_21) (tptp.lung_1 _let_24) (tptp.esophagus_1 _let_26) (tptp.pharynx_1 _let_22) (tptp.stomach_1 _let_27) (tptp.temperature_value_1 _let_14) (tptp.digestive_system_1 _let_17) (tptp.respiratory_system_1 _let_25) (tptp.specific_heat_value_1 _let_13) (tptp.tissue_1 _let_30) (tptp.bone_1 _let_30) (tptp.nutrition_1 _let_29) (tptp.heterotroph_1 _let_28) (tptp.molecule_1 _let_10) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.organic_molecule_1 _let_6) (tptp.van_der_waal_interaction_1 _let_3) (tptp.walk_1 _let_33) (tptp.organic_structure_1 _let_38) (tptp.support_1 _let_36) (tptp.abrade_1 _let_23) (tptp.move_through_1 _let_16) (tptp.animal_cell_1 _let_41) (tptp.hold_together_1 _let_35) (tptp.eukaryotic_cell_1 _let_40) (tptp.organic_molecule_1 _let_39) (tptp.tangible_entity_1 _let_37) (tptp.hold_together_1 _let_34) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_8) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_4) (tptp.has_part_2 _let_50 _let_51) (tptp.base_2 _let_36 _let_44) (tptp.instrument_2 _let_36 _let_3) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.leg_0) (tptp.has_part_2 X _let_43) (tptp.is_on_2 _let_52 _let_51) (tptp.size_2 _let_52 _let_49) (tptp.quantity_2 _let_52 _let_47) (tptp.has_region_2 _let_52 _let_45) (tptp.has_part_2 _let_52 _let_38) (tptp.has_part_2 _let_51 _let_52) (tptp.area_2 _let_51 _let_48) (tptp.has_part_2 _let_43 _let_50) (tptp.has_function_2 _let_43 _let_33) (tptp.the_scalar_value_2 _let_49 tptp.tiny_0) (tptp.scalar_unit_class_2 _let_49 tptp.hair_0) (tptp.directly_proportional_2 _let_47 _let_48) (tptp.the_scalar_value_2 _let_47 tptp.numerous_0) (tptp.scalar_unit_class_2 _let_47 tptp.hair_0) (tptp.the_categorical_value_2 _let_46 tptp.tube_0) (tptp.shape_2 _let_38 _let_46) (tptp.is_at_2 _let_38 _let_45) (tptp.facilitates_2 _let_38 _let_33) (tptp.has_region_2 _let_44 _let_42) (tptp.base_2 _let_33 _let_44) (tptp.instrument_2 _let_33 _let_43) (tptp.is_at_2 _let_10 _let_42) (tptp.has_part_2 _let_30 _let_41) (tptp.has_part_2 _let_6 _let_31) (tptp.has_part_2 _let_38 _let_6) (tptp.has_part_2 _let_10 _let_32) (tptp.object_2 _let_36 X) (tptp.agent_2 _let_35 _let_3) (tptp.object_2 _let_35 _let_32) (tptp.has_function_2 _let_3 _let_35) (tptp.object_2 _let_35 _let_31) (tptp.agent_2 _let_33 X) (tptp.object_2 _let_33 X) (tptp.is_between_2 _let_3 _let_32) (tptp.is_between_2 _let_3 _let_31) (tptp.is_near_2 _let_32 _let_31) (tptp.is_near_2 _let_31 _let_32) (tptp.element_2 _let_17 _let_19) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_30) (tptp.element_2 _let_25 _let_24) (tptp.has_region_2 X _let_25) (tptp.plays_2 X _let_28) (tptp.in_event_2 _let_28 _let_29) (tptp.agent_2 _let_29 X) (tptp.has_region_2 X _let_17) (tptp.has_part_2 X _let_22) (tptp.element_2 _let_17 _let_22) (tptp.element_2 _let_17 _let_27) (tptp.has_part_2 X _let_27) (tptp.next_element_2 _let_22 _let_26) (tptp.element_2 _let_17 _let_26) (tptp.element_2 _let_17 _let_15) (tptp.abuts_2 _let_27 _let_26) (tptp.abuts_2 _let_26 _let_27) (tptp.enables_2 _let_16 _let_23) (tptp.path_2 _let_23 X) (tptp.has_part_2 X _let_24) (tptp.next_element_2 _let_21 _let_24) (tptp.element_2 _let_25 _let_21) (tptp.agent_2 _let_20 X) (tptp.base_2 _let_20 X) (tptp.has_part_2 X _let_21) (tptp.abuts_2 _let_22 _let_21) (tptp.abuts_2 _let_21 _let_22) (tptp.path_2 _let_16 X) (tptp.base_2 _let_16 _let_17) (tptp.element_2 _let_17 _let_18) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_12) (tptp.specific_heat_2 _let_12 _let_13) (tptp.correspondence_2 _let_14 _let_13) (tptp.temperature_2 X _let_14) (tptp.has_part_2 X _let_15) (= _let_41 _let_40) (= _let_31 _let_7) (= _let_6 _let_39) (= _let_32 _let_11) (= X _let_37) (= _let_32 _let_9) (= _let_31 _let_5) (= _let_35 _let_34) (= _let_33 (tptp.fn_animal_22 X)) (= _let_32 _let_8) (= _let_31 _let_4) (= (tptp.fn_gecko_lizard_17 X) (tptp.fn_vertebrate_61 X)) (= (tptp.fn_gecko_lizard_16 X) (tptp.fn_vertebrate_60 X)) (= _let_30 (tptp.fn_vertebrate_27 X)) (= _let_29 _let_2) (= _let_29 _let_1) (= _let_28 (tptp.fn_vertebrate_56 X)) (= _let_27 (tptp.fn_vertebrate_18 X)) (= _let_26 (tptp.fn_vertebrate_26 X)) (= _let_25 (tptp.fn_vertebrate_6 X)) (= _let_24 (tptp.fn_vertebrate_5 X)) (= _let_23 (tptp.fn_vertebrate_34 X)) (= _let_22 (tptp.fn_vertebrate_19 X)) (= _let_21 (tptp.fn_vertebrate_4 X)) (= _let_20 (tptp.fn_vertebrate_58 X)) (= _let_19 (tptp.fn_vertebrate_15 X)) (= _let_18 (tptp.fn_vertebrate_16 X)) (= _let_17 (tptp.fn_vertebrate_40 X)) (= _let_16 (tptp.fn_vertebrate_33 X)) (= _let_15 (tptp.fn_vertebrate_17 X)) (= _let_14 (tptp.fn_vertebrate_55 X)) (= _let_13 (tptp.fn_vertebrate_54 X)) (= _let_12 (tptp.fn_vertebrate_57 X)) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gel_1 X))) (=> (tptp.gel_1 X) (and (tptp.original_name_2 X |tptp.'Gel'|) (tptp.user_description_2 X |tptp.'A matrix used to measure the size of nucleic acids via gel electrophoresis.'|) (tptp.concept2words_2 X |tptp.'agorose gel'|) (tptp.concept2words_2 X tptp.gel) (tptp.semisolid_substance_1 X) (tptp.solution_1 X) (not (tptp.aqueous_solution_1 X)) (not (tptp.basic_solution_1 X)) (not (tptp.buffered_solution_1 X)) (not (tptp.hypertonic_solution_1 X)) (not (tptp.hypotonic_solution_1 X)) (not (tptp.isotonic_solution_1 X)) (tptp.fluid_substance_1 _let_1) (tptp.has_part_2 X _let_1) (tptp.has_solvent_2 X _let_1) (= _let_1 (tptp.fn_solution_6 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gel_electrophoresis_5 X))) (let ((_let_2 (tptp.fn_gel_electrophoresis_3 X))) (let ((_let_3 (tptp.fn_gel_electrophoresis_4 X))) (let ((_let_4 (tptp.fn_gel_electrophoresis_1 X))) (let ((_let_5 (tptp.fn_gel_electrophoresis_2 X))) (=> (tptp.gel_electrophoresis_1 X) (and (tptp.original_name_2 X |tptp.'Gel-Electrophoresis'|) (tptp.user_description_2 X |tptp.'A technique for separating nucleic acids or proteins on the basis of their size and electrical charge, both of which affect their rate of movement through an electric field in a gel.'|) (tptp.concept2words_2 X |tptp.'perform gel electrophoresis'|) (tptp.concept2words_2 X |tptp.'electrophoresis of gel'|) (tptp.concept2words_2 X |tptp.'gel electrophoresis'|) (tptp.concept2words_2 X |tptp.'gel-electrophoresis'|) (tptp.engineering_1 X) (tptp.move_apart_1 X) (tptp.band_pattern_1 _let_4) (tptp.gel_1 _let_5) (tptp.dna_piece_1 _let_2) (tptp.dna_piece_1 _let_3) (tptp.negatively_charged_region_1 _let_1) (tptp.instrument_2 X _let_5) (tptp.result_2 X _let_4) (tptp.object_2 X _let_3) (tptp.object_2 X _let_2) (tptp.origin_2 X _let_1) (= _let_3 (tptp.fn_move_apart_2 X)) (= _let_2 (tptp.fn_move_apart_1 X)) (= _let_1 (tptp.fn_move_apart_3 X)))))))))) (forall ((X $$unsorted)) (=> (tptp.gemmules_1 X) (and (tptp.original_name_2 X |tptp.'Gemmules'|) (tptp.user_description_2 X |tptp.'Asexual dormant buds formed by some sponges in response to hostile environmental conditions. Gemmules can resist freezing, desiccation, and hypoxic conditions. When the environment becomes favorable, gemmules begin growing again.'|) (tptp.concept2words_2 X tptp.gemmules) (tptp.concept2words_2 X tptp.gemmule) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_13 X))) (let ((_let_2 (tptp.fn_code_for_1 _let_1))) (let ((_let_3 (tptp.fn_gene_15 X))) (let ((_let_4 (tptp.fn_inheritance_4 _let_3))) (let ((_let_5 (tptp.fn_dna_sequence_1 X))) (let ((_let_6 (tptp.fn_gene_16 X))) (let ((_let_7 (tptp.fn_chemical_bond_4 _let_6))) (let ((_let_8 (tptp.fn_chemical_bond_1 _let_6))) (let ((_let_9 (tptp.fn_gene_17 X))) (let ((_let_10 (tptp.fn_gene_10 X))) (let ((_let_11 (tptp.fn_gene_11 X))) (let ((_let_12 (tptp.fn_gene_12 X))) (let ((_let_13 (tptp.fn_code_for_2 _let_1))) (let ((_let_14 (tptp.fn_gene_14 X))) (let ((_let_15 (tptp.fn_gene_5 X))) (let ((_let_16 (tptp.fn_gene_4 X))) (let ((_let_17 (tptp.fn_gene_3 X))) (let ((_let_18 (tptp.fn_gene_2 X))) (let ((_let_19 (tptp.fn_gene_1 X))) (let ((_let_20 (tptp.fn_gene_6 X))) (let ((_let_21 (tptp.fn_gene_7 X))) (=> (tptp.gene_1 X) (and (tptp.original_name_2 X |tptp.'Gene'|) (tptp.user_description_2 X |tptp.'A specific length of a DNA or RNA molecule (in some viruses) that functions as a discrete unit of inheritence.'|) (tptp.concept2words_2 X |tptp.'mendel_'s inheritable factor'|) (tptp.concept2words_2 X |tptp.'inheritable factor'|) (tptp.concept2words_2 X tptp.gene) (tptp.dna_sequence_1 X) (tptp.number_5_prime_end_1 _let_19) (tptp.number_3_prime_end_1 _let_18) (tptp.exon_1 _let_17) (tptp.intron_1 _let_16) (tptp.exon_1 _let_15) (tptp.protein_1 _let_20) (tptp.mrna_1 _let_21) (tptp.deoxyribonucleoside_monophosphate_1 _let_10) (tptp.size_value_1 _let_11) (tptp.size_value_1 _let_12) (tptp.code_for_1 _let_1) (tptp.trait_1 _let_14) (tptp.inheritance_1 _let_3) (tptp.phosphodiester_bond_1 _let_6) (tptp.chemical_entity_1 _let_9) (tptp.deoxyribonucleoside_monophosphate_1 _let_9) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.entity_1 _let_4) (tptp.gene_1 _let_4) (tptp.entity_1 _let_2) (tptp.result_2 _let_1 _let_21) (tptp.result_2 _let_1 _let_20) (tptp.next_element_2 _let_17 _let_16) (tptp.next_element_2 _let_16 _let_15) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_18) (tptp.element_2 X _let_17) (tptp.element_2 X _let_16) (tptp.element_2 X _let_15) (tptp.possesses_2 X _let_6) (tptp.has_function_2 X _let_1) (tptp.size_2 _let_9 _let_12) (tptp.is_between_2 _let_6 _let_9) (tptp.result_2 _let_1 _let_14) (tptp.object_2 _let_3 X) (tptp.agent_2 _let_1 X) (tptp.size_2 X _let_11) (tptp.greater_than_2 _let_11 _let_12) (tptp.first_element_2 X _let_9) (tptp.next_element_2 _let_9 _let_10) (tptp.element_2 X _let_10) (tptp.element_2 X _let_9) (= _let_9 _let_8) (= _let_9 _let_7) (= _let_14 _let_13) (= X _let_4) (= X _let_2) (= (tptp.fn_gene_9 X) (tptp.fn_nucleic_acid_sequence_4 X)) (= (tptp.fn_gene_8 X) (tptp.fn_nucleic_acid_sequence_3 X)) (= _let_12 (tptp.fn_nucleic_acid_sequence_1 X)) (= _let_11 (tptp.fn_nucleic_acid_sequence_2 X)) (= _let_10 (tptp.fn_dna_sequence_2 X)) (= _let_9 _let_5) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.gene_regulation_1 X) (tptp.activate_1 X) (tptp.gene_1 X1)) (and (tptp.gene_activation_1 X) (= (tptp.fn_gene_activation_10 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_regulation_1 X))) (let ((_let_2 (tptp.fn_make_accessible_1 X))) (let ((_let_3 (tptp.fn_gene_activation_8 X))) (let ((_let_4 (tptp.fn_gene_activation_9 X))) (let ((_let_5 (tptp.fn_gene_activation_10 X))) (let ((_let_6 (tptp.fn_gene_activation_7 X))) (let ((_let_7 (tptp.fn_gene_expression_6 _let_6))) (let ((_let_8 (tptp.fn_gene_activation_6 X))) (let ((_let_9 (tptp.fn_gene_activation_2 X))) (let ((_let_10 (tptp.fn_gene_activation_1 X))) (let ((_let_11 (tptp.fn_gene_activation_4 X))) (let ((_let_12 (tptp.fn_gene_activation_5 X))) (=> (tptp.gene_activation_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Activation'|) (tptp.user_description_2 X |tptp.'The process of activation of a gene so that it is expressed at a particular time and location.'|) (tptp.concept2words_2 X tptp.activate) (tptp.concept2words_2 X |tptp.'activation of gene'|) (tptp.concept2words_2 X |tptp.'gene activation'|) (tptp.concept2words_2 X |tptp.'gene-activation'|) (tptp.activate_1 X) (tptp.gene_regulation_1 X) (tptp.time_interval_1 _let_10) (tptp.time_interval_1 _let_9) (tptp.pattern_formation_1 _let_11) (tptp.promoter_1 _let_12) (tptp.regulatory_gene_1 _let_8) (tptp.gene_expression_1 _let_6) (tptp.chemical_entity_1 _let_3) (tptp.protein_1 _let_3) (tptp.transcription_factor_1 _let_3) (tptp.gene_expression_1 _let_4) (tptp.entity_1 _let_5) (tptp.gene_1 _let_5) (tptp.gene_1 _let_7) (tptp.time_during_2 X _let_10) (tptp.next_event_2 X _let_6) (tptp.site_2 X _let_12) (tptp.minCardinality _let_6 tptp.object_0 |"2"| tptp.regulatory_gene_0) (tptp.causes_2 _let_6 _let_11) (tptp.time_during_2 _let_6 _let_9) (tptp.time_before_2 _let_10 _let_9) (tptp.object_2 _let_6 _let_8) (tptp.agent_2 X _let_3) (tptp.result_2 _let_4 _let_3) (tptp.object_2 _let_4 _let_5) (tptp.object_2 X _let_5) (= _let_8 _let_7) (= _let_5 _let_2) (= _let_5 _let_1) (= _let_4 (tptp.fn_gene_regulation_2 X)) (= _let_3 (tptp.fn_gene_regulation_3 X)) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_activation_cascade_2 X))) (let ((_let_2 (tptp.fn_gene_activation_cascade_1 X))) (=> (tptp.gene_activation_cascade_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Activation-Cascade'|) (tptp.user_description_2 X |tptp.'Cascade of reactions that results in gene activation, or initiation of transcription.'|) (tptp.concept2words_2 X |tptp.'gene activation cascade'|) (tptp.concept2words_2 X |tptp.'gene-activation-cascade'|) (tptp.cascade_1 X) (not (tptp.phosphorylation_cascade_1 X)) (tptp.chemical_reaction_1 _let_2) (tptp.gene_activation_1 _let_1) (tptp.minCardinality X tptp.subevent_0 |"2"| tptp.gene_activation_0) (tptp.first_subevent_2 X _let_1) (tptp.next_event_2 _let_1 _let_2) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_2 (tptp.fn_cascade_2 X)) (= _let_1 (tptp.fn_cascade_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_allele_relationship_5 X))) (let ((_let_2 (tptp.fn_heterozygous_1 _let_1))) (let ((_let_3 (tptp.fn_gene_allele_relationship_7 X))) (let ((_let_4 (tptp.fn_heterozygous_2 _let_1))) (let ((_let_5 (tptp.fn_gene_allele_relationship_6 X))) (let ((_let_6 (tptp.fn_gene_allele_relationship_4 X))) (let ((_let_7 (tptp.fn_gene_allele_relationship_2 X))) (let ((_let_8 (tptp.fn_gene_allele_relationship_1 X))) (let ((_let_9 (tptp.fn_gene_allele_relationship_3 X))) (=> (tptp.gene_allele_relationship_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Allele-Relationship'|) (tptp.user_description_2 X |tptp.'A particular gene on a chromosome has two or more versions, and each version of a gene is called an allele.'|) (tptp.concept2words_2 X |tptp.'have a gene allele relationship'|) (tptp.concept2words_2 X |tptp.'have a gene-allele relationship'|) (tptp.concept2words_2 X |tptp.'gene allele relationship'|) (tptp.concept2words_2 X |tptp.'gene-allele-relationship'|) (tptp.genetic_process_1 X) (tptp.homozygous_1 _let_8) (tptp.homozygous_1 _let_7) (tptp.allele_1 _let_9) (tptp.allele_1 _let_6) (tptp.heterozygous_1 _let_1) (tptp.allele_1 _let_5) (tptp.allele_1 _let_3) (tptp.allele_1 _let_4) (tptp.allele_1 _let_2) (tptp.same_type_2 _let_9 _let_3) (tptp.same_type_2 _let_5 _let_6) (tptp.same_type_2 _let_3 _let_9) (tptp.object_2 X _let_1) (tptp.object_2 X _let_8) (tptp.object_2 X _let_7) (tptp.same_type_2 _let_6 _let_5) (tptp.element_2 _let_1 _let_5) (tptp.has_part_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_amplification_1 X))) (let ((_let_2 (tptp.fn_gene_amplification_2 X))) (let ((_let_3 (tptp.fn_gene_amplification_5 X))) (let ((_let_4 (tptp.fn_gene_amplification_4 X))) (let ((_let_5 (tptp.fn_gene_amplification_3 X))) (=> (tptp.gene_amplification_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Amplification'|) (tptp.user_description_2 X |tptp.'In cells, the process of temporarily increasing the number of copies of a gene or gene family during a particular stage of development. In the laboratory, this term refers to the process of Polymerase Chain Reaction'|) (tptp.concept2words_2 X |tptp.'polymerase chain reaction'|) (tptp.concept2words_2 X |tptp.'polymerase-chain-reaction'|) (tptp.concept2words_2 X tptp.pcr) (tptp.concept2words_2 X |tptp.'amplification of gene'|) (tptp.concept2words_2 X |tptp.'gene amplification'|) (tptp.concept2words_2 X |tptp.'gene-amplification'|) (tptp.genetic_process_1 X) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X)) (not (tptp.gene_loss_1 X)) (not (tptp.gene_rearrangement_1 X)) (tptp.gene_1 _let_1) (tptp.replication_1 _let_2) (tptp.gene_1 _let_5) (tptp.cell_1 _let_4) (tptp.gene_expression_1 _let_3) (tptp.agent_2 _let_3 _let_5) (tptp.agent_2 _let_3 _let_1) (tptp.by_means_of_2 X _let_2) (tptp.minCardinality _let_2 tptp.result_0 |"2"| tptp.gene_0) (tptp.result_2 _let_2 _let_5) (tptp.agent_2 _let_2 _let_4) (tptp.enables_2 _let_2 _let_3) (tptp.exactCardinality _let_2 tptp.object_0 |"1"| tptp.gene_0) (tptp.object_2 _let_2 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.gene_cloning_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Cloning'|) (tptp.user_description_2 X |tptp.'The production of multiple copies of a gene.'|) (tptp.concept2words_2 X |tptp.'genetic cloning'|) (tptp.concept2words_2 X |tptp.'cloning of gene'|) (tptp.concept2words_2 X |tptp.'gene cloning'|) (tptp.concept2words_2 X |tptp.'gene-cloning'|) (tptp.genetic_process_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.gene_regulation_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_expression_6 X))) (let ((_let_2 (tptp.fn_gene_6 _let_1))) (let ((_let_3 (tptp.fn_gene_expression_5 X))) (let ((_let_4 (tptp.fn_synthesis_of_protein_16 _let_3))) (let ((_let_5 (tptp.fn_anabolic_pathway_5 _let_3))) (let ((_let_6 (tptp.fn_gene_13 _let_1))) (let ((_let_7 (tptp.fn_gene_expression_3 X))) (let ((_let_8 (tptp.fn_gene_expression_4 X))) (let ((_let_9 (tptp.fn_gene_expression_1 X))) (let ((_let_10 (tptp.fn_gene_expression_2 X))) (=> (tptp.gene_expression_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Expression'|) (tptp.user_description_2 X |tptp.'The processes by which the information encoded in a gene is used to direct the synthesis of a polypeptide.'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'expression of gene'|) (tptp.concept2words_2 X |tptp.'gene expression'|) (tptp.concept2words_2 X |tptp.'gene-expression'|) (tptp.cellular_process_1 X) (tptp.genetic_process_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.gene_regulation_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.synthesis_of_mrna_1 _let_9) (tptp.transcription_factor_1 _let_10) (tptp.code_for_1 _let_7) (tptp.chemical_entity_1 _let_8) (tptp.protein_1 _let_8) (tptp.synthesis_of_protein_1 _let_3) (tptp.gene_1 _let_1) (tptp.code_for_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.protein_1 _let_4) (tptp.protein_1 _let_2) (tptp.object_2 X _let_1) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_3) (tptp.agent_2 X _let_10) (tptp.result_2 X _let_8) (tptp.next_event_2 _let_9 _let_3) (tptp.result_2 _let_3 _let_8) (tptp.agent_2 _let_7 _let_1) (tptp.result_2 _let_7 _let_8) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gene_flow_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Flow'|) (tptp.user_description_2 X |tptp.'The movement of alleles between populations, resulting from the migration of fertile individuals or dispersal of gametes.'|) (tptp.concept2words_2 X |tptp.'gene migration'|) (tptp.concept2words_2 X |tptp.'gene-migration'|) (tptp.concept2words_2 X |tptp.'flow of gene'|) (tptp.concept2words_2 X |tptp.'gene flow'|) (tptp.concept2words_2 X |tptp.'gene-flow'|) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gene_for_gene_recognition_1 X) (and (tptp.original_name_2 X |tptp.'Gene-For-Gene-Recognition'|) (tptp.user_description_2 X |tptp.'Specific resistance to a plant disease due to a precise match-up between an allele in the plant and an allele in the pathogen.'|) (tptp.concept2words_2 X |tptp.'gene for gene recognition'|) (tptp.concept2words_2 X |tptp.'gene-for-gene-recognition'|) (tptp.gene_interactions_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.gene_regulation_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.subevent_2 X X1) (tptp.object_2 X1 X2) (tptp.gene_regulation_1 X) (tptp.deactivate_1 X1) (tptp.gene_1 X2)) (and (tptp.gene_inactivation_1 X) (= (tptp.fn_gene_inactivation_2 X) X1) (= (tptp.fn_gene_inactivation_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_inactivation_2 X))) (let ((_let_2 (tptp.fn_make_inaccessible_1 _let_1))) (let ((_let_3 (tptp.fn_gene_inactivation_3 X))) (=> (tptp.gene_inactivation_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Inactivation'|) (tptp.user_description_2 X |tptp.'Process of making a gene inaccessible for transcription.'|) (tptp.concept2words_2 X |tptp.'gene silencing'|) (tptp.concept2words_2 X |tptp.'gene-silencing'|) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X |tptp.'inactivation of gene'|) (tptp.concept2words_2 X |tptp.'gene inactivation'|) (tptp.concept2words_2 X |tptp.'gene-inactivation'|) (tptp.gene_regulation_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.deactivate_1 _let_1) (tptp.gene_1 _let_3) (tptp.entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.gene_interactions_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Interactions'|) (tptp.user_description_2 X |tptp.'The process in which two or more genes interact with and affect one another.'|) (tptp.concept2words_2 X |tptp.'gene interaction'|) (tptp.concept2words_2 X |tptp.'gene-interaction'|) (tptp.genetic_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_loss_1 X))) (let ((_let_2 (tptp.fn_multicellular_organism_1 _let_1))) (let ((_let_3 (tptp.fn_gene_loss_2 X))) (=> (tptp.gene_loss_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Loss'|) (tptp.user_description_2 X |tptp.'A process in certain insects whereby genes are selectively lost in certain tissues.'|) (tptp.concept2words_2 X tptp.lose) (tptp.concept2words_2 X |tptp.'loss of gene'|) (tptp.concept2words_2 X |tptp.'gene loss'|) (tptp.concept2words_2 X |tptp.'gene-loss'|) (tptp.alter_genome_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.gene_rearrangement_1 X)) (tptp.insect_1 _let_1) (tptp.cell_1 _let_3) (tptp.cell_1 _let_2) (tptp.object_2 X _let_3) (tptp.has_part_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.gene_pool_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Pool'|) (tptp.user_description_2 X |tptp.'The sum total of all alleles for all loci in a population. May also refer to the sum total of alleles for a single locus in a population.'|) (tptp.concept2words_2 X |tptp.'pool of gene'|) (tptp.concept2words_2 X |tptp.'gene pool'|) (tptp.concept2words_2 X |tptp.'gene-pool'|) (tptp.gene_related_aggregates_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_rearrangement_6 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_gene_rearrangement_7 X))) (let ((_let_4 (tptp.fn_gene_rearrangement_5 X))) (let ((_let_5 (tptp.fn_gene_rearrangement_4 X))) (let ((_let_6 (tptp.fn_gene_rearrangement_1 X))) (let ((_let_7 (tptp.fn_gene_rearrangement_2 X))) (let ((_let_8 (tptp.fn_gene_rearrangement_3 X))) (=> (tptp.gene_rearrangement_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Rearrangement'|) (tptp.user_description_2 X |tptp.'A somatic cell process whereby a gene_'s location in the DNA sequence is altered.'|) (tptp.concept2words_2 X tptp.rearrange) (tptp.concept2words_2 X |tptp.'rearrangement of gene'|) (tptp.concept2words_2 X |tptp.'gene rearrangement'|) (tptp.concept2words_2 X |tptp.'gene-rearrangement'|) (tptp.rearrangement_1 X) (tptp.alter_genome_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.gene_loss_1 X)) (tptp.locus_1 _let_6) (tptp.locus_1 _let_7) (tptp.dna_sequence_1 _let_8) (tptp.somatic_cell_1 _let_5) (tptp.change_sequence_1 _let_4) (tptp.move_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.has_part_2 _let_5 _let_8) (tptp.has_part_2 _let_8 _let_3) (tptp.origin_2 _let_1 _let_7) (tptp.destination_2 _let_1 _let_6) (tptp.site_2 X _let_5) (tptp.agent_2 X _let_3) (tptp.by_means_of_2 X _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_regulation_3 X))) (let ((_let_2 (tptp.fn_transcription_factor_1 _let_1))) (let ((_let_3 (tptp.fn_gene_regulation_2 X))) (let ((_let_4 (tptp.fn_gene_expression_6 _let_3))) (let ((_let_5 (tptp.fn_gene_regulation_1 X))) (let ((_let_6 (tptp.fn_gene_expression_4 _let_3))) (=> (tptp.gene_regulation_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Regulation'|) (tptp.user_description_2 X |tptp.'The processes used by cells to promote or inhibit the expression of genes.'|) (tptp.concept2words_2 X |tptp.'genetic control'|) (tptp.concept2words_2 X |tptp.'genetic-control'|) (tptp.concept2words_2 X |tptp.'regulation of gene expression'|) (tptp.concept2words_2 X |tptp.'regulation-of-gene-expression'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'regulation of gene'|) (tptp.concept2words_2 X |tptp.'gene regulation'|) (tptp.concept2words_2 X |tptp.'gene-regulation'|) (tptp.regulation_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.gene_1 _let_5) (tptp.gene_expression_1 _let_3) (tptp.chemical_entity_1 _let_1) (tptp.protein_1 _let_1) (tptp.transcription_factor_1 _let_1) (tptp.chemical_entity_1 _let_6) (tptp.protein_1 _let_6) (tptp.gene_1 _let_4) (tptp.gene_regulation_1 _let_2) (tptp.object_2 X _let_5) (tptp.result_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_5) (tptp.agent_2 X _let_1) (= _let_1 _let_6) (= _let_5 _let_4) (= X _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_regulation_at_post_translational_level_3 X))) (let ((_let_2 (tptp.fn_gene_expression_4 _let_1))) (let ((_let_3 (tptp.fn_gene_regulation_at_post_translational_level_4 X))) (let ((_let_4 (tptp.fn_phosphorylation_of_protein_3 _let_3))) (let ((_let_5 (tptp.fn_phosphorylation_5 _let_3))) (let ((_let_6 (tptp.fn_gene_regulation_at_post_translational_level_10 X))) (let ((_let_7 (tptp.fn_impair_1 _let_6))) (let ((_let_8 (tptp.fn_gene_regulation_at_post_translational_level_5 X))) (let ((_let_9 (tptp.fn_attach_2 _let_8))) (let ((_let_10 (tptp.fn_gene_expression_6 _let_1))) (let ((_let_11 (tptp.fn_gene_regulation_at_post_translational_level_7 X))) (let ((_let_12 (tptp.fn_gene_expression_3 _let_1))) (let ((_let_13 (tptp.fn_gene_regulation_at_post_translational_level_8 X))) (let ((_let_14 (tptp.fn_gene_regulation_at_post_translational_level_9 X))) (let ((_let_15 (tptp.fn_attach_1 _let_8))) (let ((_let_16 (tptp.fn_gene_regulation_at_post_translational_level_6 X))) (let ((_let_17 (tptp.fn_gene_regulation_at_post_translational_level_1 X))) (let ((_let_18 (tptp.fn_gene_regulation_at_post_translational_level_2 X))) (=> (tptp.gene_regulation_at_post_translational_level_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Regulation-At-Post-Translational-Level'|) (tptp.user_description_2 X |tptp.'Gene Regulation that inhibits gene expression by inhibiting post-translational modification. This kind of gene regulation can be accomplished by cleaving the protein, attaching a sugar to the protein, phosphorylating the protein, or inhibiting a transport protein.'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'gene regulation at post translational level'|) (tptp.concept2words_2 X |tptp.'gene-regulation-at-post-translational-level'|) (tptp.gene_regulation_1 X) (not (tptp.gene_regulation_at_translational_level_1 X)) (tptp.inhibition_of_transport_protein_1 _let_17) (tptp.post_translational_modification_1 _let_18) (tptp.gene_expression_1 _let_1) (tptp.phosphorylation_of_protein_1 _let_3) (tptp.attach_1 _let_8) (tptp.sugar_1 _let_16) (tptp.gene_1 _let_11) (tptp.code_for_1 _let_13) (tptp.spatial_entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.protein_1 _let_14) (tptp.break_1 _let_6) (tptp.spatial_entity_1 _let_15) (tptp.code_for_1 _let_12) (tptp.gene_1 _let_10) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.protein_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.protein_1 _let_2) (tptp.object_2 _let_17 _let_14) (tptp.inhibits_2 X _let_18) (tptp.inhibits_2 X _let_1) (tptp.by_means_of_2 X _let_17) (tptp.by_means_of_2 X _let_3) (tptp.by_means_of_2 X _let_8) (tptp.by_means_of_2 X _let_6) (tptp.object_2 _let_8 _let_16) (tptp.base_2 _let_8 _let_14) (tptp.object_2 _let_6 _let_14) (tptp.raw_material_2 _let_3 _let_14) (tptp.object_2 _let_1 _let_11) (tptp.agent_2 _let_13 _let_11) (tptp.result_2 _let_13 _let_14) (= _let_16 _let_15) (= _let_14 _let_9) (= _let_14 _let_7) (= _let_14 _let_5) (= _let_14 _let_4) (= _let_14 _let_2) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.inhibits_2 X X1) (tptp.gene_regulation_1 X) (tptp.translation_1 X1)) (and (tptp.gene_regulation_at_translational_level_1 X) (= (tptp.fn_gene_regulation_at_translational_level_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_regulation_at_translational_level_10 X))) (let ((_let_2 (tptp.fn_translation_initiation_8 _let_1))) (let ((_let_3 (tptp.fn_gene_regulation_at_translational_level_8 X))) (let ((_let_4 (tptp.fn_translation_initiation_10 _let_1))) (let ((_let_5 (tptp.fn_gene_regulation_at_translational_level_9 X))) (let ((_let_6 (tptp.fn_gene_regulation_at_translational_level_7 X))) (let ((_let_7 (tptp.fn_attach_1 _let_6))) (let ((_let_8 (tptp.fn_gene_regulation_at_translational_level_6 X))) (let ((_let_9 (tptp.fn_gene_regulation_at_translational_level_1 X))) (let ((_let_10 (tptp.fn_gene_regulation_at_translational_level_2 X))) (let ((_let_11 (tptp.fn_gene_regulation_at_translational_level_4 X))) (let ((_let_12 (tptp.fn_gene_regulation_at_translational_level_3 X))) (=> (tptp.gene_regulation_at_translational_level_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Regulation-At-Translational-Level'|) (tptp.user_description_2 X |tptp.'Inhibition of gene expression at the level of translation. Attachment of a regulatory protein to the 5-prime end of mRNA blocks the ribosome, preventing translation initiation.'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'gene regulation at translational level'|) (tptp.concept2words_2 X |tptp.'gene-regulation-at-translational-level'|) (tptp.gene_regulation_1 X) (not (tptp.gene_regulation_at_post_translational_level_1 X)) (tptp.translation_1 _let_9) (tptp.gene_expression_1 _let_10) (tptp.number_5_prime_end_1 _let_12) (tptp.block_1 _let_11) (tptp.regulatory_protein_1 _let_8) (tptp.attach_1 _let_6) (tptp.attach_1 _let_3) (tptp.attach_1 _let_5) (tptp.translation_initiation_1 _let_1) (tptp.spatial_entity_1 _let_7) (tptp.attach_1 _let_4) (tptp.attach_1 _let_2) (tptp.inhibits_2 _let_6 _let_9) (tptp.site_2 _let_6 _let_12) (tptp.causes_2 _let_6 _let_11) (tptp.by_means_of_2 X _let_11) (tptp.by_means_of_2 X _let_6) (tptp.inhibits_2 X _let_3) (tptp.inhibits_2 X _let_5) (tptp.inhibits_2 X _let_10) (tptp.inhibits_2 X _let_1) (tptp.inhibits_2 X _let_9) (tptp.object_2 _let_6 _let_8) (tptp.subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_5 _let_3) (tptp.subevent_2 _let_1 _let_5) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_related_aggregates_1 X))) (=> (tptp.gene_related_aggregates_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Related-Aggregates'|) (tptp.user_description_2 X |tptp.'An entity which is formed by the combination of many separate genetic-related units.'|) (tptp.concept2words_2 X |tptp.'gene related aggregate'|) (tptp.concept2words_2 X |tptp.'gene-related-aggregate'|) (tptp.molecular_assembly_1 X) (tptp.gene_1 _let_1) (tptp.element_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gene_therapy_10 X))) (let ((_let_2 (tptp.fn_gene_13 _let_1))) (let ((_let_3 (tptp.fn_gene_therapy_11 X))) (let ((_let_4 (tptp.fn_code_for_2 _let_3))) (let ((_let_5 (tptp.fn_gene_therapy_12 X))) (let ((_let_6 (tptp.fn_gene_therapy_9 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_gene_therapy_13 X))) (let ((_let_9 (tptp.fn_gene_therapy_7 X))) (let ((_let_10 (tptp.fn_gene_therapy_8 X))) (let ((_let_11 (tptp.fn_gene_therapy_4 X))) (let ((_let_12 (tptp.fn_gene_therapy_3 X))) (let ((_let_13 (tptp.fn_gene_therapy_2 X))) (let ((_let_14 (tptp.fn_gene_therapy_6 X))) (let ((_let_15 (tptp.fn_gene_therapy_5 X))) (let ((_let_16 (tptp.fn_gene_therapy_1 X))) (=> (tptp.gene_therapy_1 X) (and (tptp.original_name_2 X |tptp.'Gene-Therapy'|) (tptp.user_description_2 X |tptp.'The introduction of genes into an afflicted individual_'s somatic cells for therapeutic purposes.'|) (tptp.concept2words_2 X |tptp.'perform gene therapy'|) (tptp.concept2words_2 X |tptp.'therapy of gene'|) (tptp.concept2words_2 X |tptp.'gene therapy'|) (tptp.concept2words_2 X |tptp.'gene-therapy'|) (tptp.biochemical_change_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.melting_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.abnormal_1 _let_16) (tptp.normal_1 _let_13) (tptp.replication_1 _let_12) (tptp.stem_cell_1 _let_11) (tptp.organism_1 _let_15) (tptp.somatic_cell_1 _let_14) (tptp.scientist_1 _let_9) (tptp.medical_procedure_1 _let_10) (tptp.move_into_1 _let_6) (tptp.allele_1 _let_1) (tptp.code_for_1 _let_3) (tptp.genetic_disorder_1 _let_5) (tptp.allele_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.entity_1 _let_4) (tptp.code_for_1 _let_2) (tptp.object_2 _let_10 _let_5) (tptp.path_2 _let_6 _let_11) (tptp.path_2 _let_6 _let_14) (tptp.prevents_2 _let_6 _let_3) (tptp.plays_2 _let_1 _let_16) (tptp.has_part_2 _let_14 _let_1) (tptp.has_part_2 _let_15 _let_14) (tptp.plays_2 _let_8 _let_13) (tptp.result_2 _let_12 _let_11) (tptp.result_2 _let_12 _let_8) (tptp.object_2 _let_12 _let_11) (tptp.object_2 _let_12 _let_8) (tptp.agent_2 _let_12 _let_11) (tptp.enables_2 X _let_10) (tptp.agent_2 X _let_9) (tptp.subevent_2 X _let_6) (tptp.object_2 X _let_1) (tptp.object_2 _let_6 _let_8) (tptp.result_2 _let_3 _let_5) (tptp.agent_2 _let_3 _let_1) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gene_with_multiple_alleles_1 X) (and (tptp.original_name_2 X |tptp.'Gene-with-Multiple-Alleles'|) (tptp.user_description_2 X |tptp.'Alleles are forms of a gene, for example, a hair color gene with forms black, brown, and blond. A gene with multiple alleles has more than one form, and each form encodes a different version of a trait.'|) (tptp.concept2words_2 X |tptp.'gene with multiple allele'|) (tptp.concept2words_2 X |tptp.'gene-with-multiple-allele'|) (tptp.gene_related_aggregates_1 X)))) (forall ((X $$unsorted)) (=> (tptp.genealogical_species_concept_1 X) (and (tptp.original_name_2 X |tptp.'Genealogical-Species-Concept'|) (tptp.user_description_2 X |tptp.'Species identified as such based on the consensus of estimated genealogies of many different genes.'|) (tptp.concept2words_2 X |tptp.'genealogical species concept'|) (tptp.concept2words_2 X |tptp.'genealogical-species-concept'|) (tptp.phylogenetic_species_concept_1 X)))) (forall ((X $$unsorted)) (=> (tptp.general_chemical_process_1 X) (and (tptp.original_name_2 X |tptp.'General-Chemical-Process'|) (tptp.user_description_2 X |tptp.'A process related to chemical interactions that may happen independent of biolological processes.'|) (tptp.concept2words_2 X |tptp.'general chemical process'|) (tptp.concept2words_2 X |tptp.'general-chemical-process'|) (tptp.physical_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_transduction_gene_transfer_7 X))) (let ((_let_2 (tptp.fn_generalized_transduction_7 X))) (let ((_let_3 (tptp.fn_carry_1 _let_2))) (let ((_let_4 (tptp.fn_transduction_gene_transfer_1 X))) (let ((_let_5 (tptp.fn_transduction_gene_transfer_3 X))) (let ((_let_6 (tptp.fn_generalized_transduction_4 X))) (let ((_let_7 (tptp.fn_move_1 _let_6))) (let ((_let_8 (tptp.fn_dna_transfer_3 X))) (let ((_let_9 (tptp.fn_generalized_transduction_3 X))) (let ((_let_10 (tptp.fn_attach_1 _let_9))) (let ((_let_11 (tptp.fn_generalized_transduction_9 X))) (let ((_let_12 (tptp.fn_virus_21 _let_11))) (let ((_let_13 (tptp.fn_generalized_transduction_2 X))) (let ((_let_14 (tptp.fn_lose_1 _let_13))) (let ((_let_15 (tptp.fn_move_1 _let_2))) (let ((_let_16 (tptp.fn_generalized_transduction_6 X))) (let ((_let_17 (tptp.fn_generalized_transduction_8 X))) (let ((_let_18 (tptp.fn_generalized_transduction_10 X))) (let ((_let_19 (tptp.fn_generalized_transduction_5 X))) (let ((_let_20 (tptp.fn_generalized_transduction_11 X))) (let ((_let_21 (tptp.fn_generalized_transduction_12 X))) (let ((_let_22 (tptp.fn_generalized_transduction_1 X))) (=> (tptp.generalized_transduction_1 X) (and (tptp.original_name_2 X |tptp.'Generalized-Transduction'|) (tptp.user_description_2 X |tptp.'A type of viral transduction in which the phage transfers bacterial genes at random.'|) (tptp.concept2words_2 X |tptp.'generalized transduction'|) (tptp.concept2words_2 X |tptp.'generalized-transduction'|) (tptp.transduction_gene_transfer_1 X) (not (tptp.specialized_transduction_1 X)) (tptp.gain_1 _let_22) (tptp.lose_1 _let_13) (tptp.attach_1 _let_9) (tptp.move_into_1 _let_6) (tptp.spatial_entity_1 _let_19) (tptp.gene_1 _let_19) (tptp.genome_1 _let_16) (tptp.carry_1 _let_2) (tptp.move_1 _let_2) (tptp.spatial_entity_1 _let_17) (tptp.dna_piece_1 _let_17) (tptp.entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.virus_1 _let_11) (tptp.phage_1 _let_11) (tptp.prokaryote_1 _let_18) (tptp.spatial_entity_1 _let_20) (tptp.prokaryote_1 _let_20) (tptp.tangible_entity_1 _let_21) (tptp.capsid_1 _let_21) (tptp.spatial_entity_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.capsid_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_3) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_13) (tptp.first_subevent_2 X _let_13) (tptp.is_inside_2 _let_17 _let_21) (tptp.destination_2 _let_2 _let_20) (tptp.recipient_2 _let_22 _let_21) (tptp.object_2 _let_22 _let_19) (tptp.next_event_2 _let_22 _let_9) (tptp.agent_2 _let_6 _let_11) (tptp.origin_2 _let_6 _let_18) (tptp.destination_2 _let_6 _let_20) (tptp.next_event_2 _let_9 _let_6) (tptp.agent_2 _let_9 _let_11) (tptp.next_event_2 _let_13 _let_22) (tptp.subevent_2 _let_13 _let_22) (tptp.donor_2 _let_13 _let_21) (tptp.object_2 _let_9 _let_20) (tptp.object_2 _let_6 _let_19) (tptp.has_part_2 _let_11 _let_21) (tptp.destination_2 X _let_20) (tptp.object_2 X _let_19) (tptp.object_2 _let_2 _let_19) (tptp.origin_2 _let_2 _let_18) (tptp.agent_2 X _let_11) (tptp.agent_2 _let_2 _let_11) (tptp.object_2 _let_2 _let_17) (tptp.object_2 X _let_17) (tptp.origin_2 X _let_18) (tptp.object_2 _let_2 _let_16) (= _let_21 _let_14) (= _let_20 _let_10) (= _let_19 _let_7) (= _let_21 _let_12) (= _let_20 _let_8) (= _let_19 _let_5) (= _let_18 (tptp.fn_transduction_gene_transfer_5 X)) (= _let_17 (tptp.fn_transduction_gene_transfer_8 X)) (= _let_11 _let_3) (= _let_2 (tptp.fn_transduction_gene_transfer_9 X)) (= _let_11 _let_4) (= _let_11 _let_1) (= _let_16 _let_15) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_generation_8 X))) (let ((_let_2 (tptp.fn_cross_breeding_event_11 _let_1))) (let ((_let_3 (tptp.fn_cross_breeding_event_9 _let_1))) (let ((_let_4 (tptp.fn_cross_breeding_event_10 _let_1))) (let ((_let_5 (tptp.fn_cross_breeding_event_1 _let_1))) (let ((_let_6 (tptp.fn_generation_7 X))) (let ((_let_7 (tptp.fn_generation_4 X))) (let ((_let_8 (tptp.fn_generation_6 X))) (let ((_let_9 (tptp.fn_generation_3 X))) (let ((_let_10 (tptp.fn_generation_5 X))) (=> (tptp.generation_1 X) (and (tptp.original_name_2 X |tptp.'Generation'|) (tptp.user_description_2 X |tptp.'The set of individuals born at the same time.'|) (tptp.concept2words_2 X tptp.generation) (tptp.aggregate_1 X) (tptp.sex_value_1 _let_9) (tptp.sex_value_1 _let_7) (tptp.organism_1 _let_10) (tptp.organism_1 _let_8) (tptp.organism_1 _let_6) (tptp.cross_breeding_event_1 _let_1) (tptp.organism_1 _let_5) (tptp.organism_1 _let_4) (tptp.organism_1 _let_3) (tptp.organism_1 _let_2) (tptp.the_categorical_value_2 _let_9 tptp.male_0) (tptp.the_categorical_value_2 _let_7 tptp.female_0) (tptp.element_2 X _let_8) (tptp.element_2 X _let_10) (tptp.agent_2 _let_1 _let_8) (tptp.agent_2 _let_1 _let_10) (tptp.sex_2 _let_10 _let_9) (tptp.sex_2 _let_8 _let_7) (tptp.result_2 _let_1 _let_6) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_generation_of_heat_energy_3 X))) (let ((_let_2 (tptp.fn_generation_of_heat_energy_2 X))) (let ((_let_3 (tptp.fn_generation_of_heat_energy_1 X))) (=> (tptp.generation_of_heat_energy_1 X) (and (tptp.original_name_2 X |tptp.'Generation-Of-Heat-Energy'|) (tptp.user_description_2 X |tptp.'The process of genration of heat energy is generation of heat energy.'|) (tptp.concept2words_2 X tptp.generate) (tptp.concept2words_2 X |tptp.'generation of heat energy'|) (tptp.concept2words_2 X |tptp.'generation-of-heat-energy'|) (tptp.generation_of_kinetic_energy_1 X) (tptp.change_1 _let_3) (tptp.chemical_energy_1 _let_2) (tptp.thermal_energy_1 _let_1) (tptp.result_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_2) (tptp.subevent_2 X _let_3) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1) (= _let_2 (tptp.fn_produce_1 X)) (= _let_1 (tptp.fn_generation_of_kinetic_energy_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_active_transport_19 X))) (let ((_let_2 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_4 X))) (let ((_let_3 (tptp.fn_chemical_3 _let_2))) (let ((_let_4 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_6 X))) (let ((_let_5 (tptp.fn_solution_5 _let_4))) (let ((_let_6 (tptp.fn_solution_6 _let_4))) (let ((_let_7 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_3 X))) (let ((_let_8 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_5 X))) (let ((_let_9 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_2 X))) (let ((_let_10 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_1 X))) (=> (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 X) (and (tptp.original_name_2 X |tptp.'Generation-Of-Hydrogen-Ion-Gradient-Across-Biomembrane'|) (tptp.user_description_2 X |tptp.'Proton pump proteins within membranes generate a hydrogen ion gradient across the membrane, which can be used to produce energy for cellular work.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'generation of hydrogen ion gradient across biomembrane'|) (tptp.concept2words_2 X |tptp.'generation-of-hydrogen-ion-gradient-across-biomembrane'|) (tptp.active_movement_of_ions_1 X) (tptp.proton_motive_force_1 _let_10) (tptp.hydrogen_ion_gradient_1 _let_9) (tptp.hydrogen_ion_1 _let_7) (tptp.chemical_1 _let_2) (tptp.move_1 _let_8) (tptp.move_through_1 _let_8) (tptp.aqueous_solution_1 _let_4) (tptp.chemical_1 _let_6) (tptp.chemical_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.result_2 X _let_10) (tptp.result_2 X _let_9) (tptp.has_part_2 _let_2 _let_7) (tptp.has_solute_2 _let_4 _let_2) (tptp.has_part_2 _let_4 _let_2) (tptp.object_2 X _let_7) (tptp.object_2 _let_8 _let_7) (tptp.origin_2 _let_8 _let_4) (tptp.origin_2 X _let_4) (tptp.subevent_2 X _let_8) (= _let_7 _let_3) (= _let_2 _let_6) (= _let_2 _let_5) (= _let_4 (tptp.fn_active_transport_20 X)) (= _let_8 (tptp.fn_active_transport_22 X)) (= _let_7 _let_1) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.produce_1 X) (tptp.kinetic_energy_1 X1)) (and (tptp.generation_of_kinetic_energy_1 X) (= (tptp.fn_generation_of_kinetic_energy_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_generation_of_kinetic_energy_3 X))) (let ((_let_2 (tptp.fn_generation_of_kinetic_energy_1 X))) (=> (tptp.generation_of_kinetic_energy_1 X) (and (tptp.original_name_2 X |tptp.'Generation-of-Kinetic-Energy'|) (tptp.user_description_2 X |tptp.'The process of genration of kinetic energy is generation of kinetic energy.'|) (tptp.concept2words_2 X tptp.produce) (tptp.concept2words_2 X |tptp.'generation of kinetic energy'|) (tptp.concept2words_2 X |tptp.'generation-of-kinetic-energy'|) (tptp.produce_1 X) (not (tptp.mark_1 X)) (not (tptp.optical_sectioning_1 X)) (tptp.move_1 _let_2) (tptp.kinetic_energy_1 _let_1) (tptp.subevent_2 X _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_create_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_code_12 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_nucleic_acid_sequence_5 X))) (let ((_let_4 (tptp.fn_nucleic_acid_sequence_6 X))) (let ((_let_5 (tptp.fn_genetic_code_11 X))) (let ((_let_6 (tptp.fn_genetic_code_10 X))) (let ((_let_7 (tptp.fn_genetic_code_9 X))) (let ((_let_8 (tptp.fn_genetic_code_13 X))) (let ((_let_9 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_10 (tptp.fn_genetic_code_8 X))) (let ((_let_11 (tptp.fn_genetic_code_7 X))) (let ((_let_12 (tptp.fn_genetic_code_6 X))) (let ((_let_13 (tptp.fn_genetic_code_3 X))) (let ((_let_14 (tptp.fn_genetic_code_4 X))) (let ((_let_15 (tptp.fn_genetic_code_5 X))) (=> (tptp.genetic_code_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Code'|) (tptp.user_description_2 X |tptp.'The set of rules that govern the way that information in genetic material is translated into amino acid sequences.'|) (tptp.concept2words_2 X |tptp.'genetic information'|) (tptp.concept2words_2 X |tptp.'genetic-information'|) (tptp.concept2words_2 X |tptp.'genetic code'|) (tptp.concept2words_2 X |tptp.'genetic-code'|) (tptp.nucleic_acid_sequence_1 X) (not (tptp.coding_segment_1 X)) (not (tptp.leader_segment_1 X)) (not (tptp.telomere_with_3_prime_overhang_1 X)) (not (tptp.terminator_sequence_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.cdna_library_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X)) (tptp.codon_1 _let_13) (tptp.codon_1 _let_14) (tptp.carbon_skeleton_1 _let_15) (tptp.quantity_value_1 _let_12) (tptp.speed_value_1 _let_11) (tptp.constant_motion_1 _let_10) (tptp.size_value_1 _let_7) (tptp.size_value_1 _let_6) (tptp.monomer_1 _let_5) (tptp.kinetic_energy_1 _let_1) (tptp.entity_1 _let_8) (tptp.nucleoside_monophosphate_1 _let_8) (tptp.constant_motion_1 _let_9) (tptp.tangible_entity_1 _let_2) (tptp.quantity_2 _let_1 _let_12) (tptp.has_region_2 X _let_15) (tptp.element_2 X _let_13) (tptp.element_2 X _let_14) (tptp.first_element_2 X _let_14) (tptp.next_element_2 _let_14 _let_13) (tptp.directly_proportional_2 _let_11 _let_12) (tptp.speed_2 _let_10 _let_11) (tptp.element_2 X _let_5) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_10 X) (tptp.next_element_2 _let_5 _let_8) (tptp.first_element_2 X _let_5) (tptp.size_2 _let_5 _let_6) (tptp.greater_than_2 _let_7 _let_6) (tptp.size_2 X _let_7) (tptp.element_2 X _let_8) (= _let_5 _let_4) (= _let_10 _let_9) (= X _let_2) (= (tptp.fn_genetic_code_14 X) (tptp.fn_nucleic_acid_sequence_3 X)) (= _let_8 _let_4) (= (tptp.fn_genetic_code_15 X) (tptp.fn_nucleic_acid_sequence_4 X)) (= _let_8 _let_3) (= _let_7 (tptp.fn_nucleic_acid_sequence_2 X)) (= _let_6 (tptp.fn_nucleic_acid_sequence_1 X)) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.genetic_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Disorder'|) (tptp.user_description_2 X |tptp.'An illness caused by abnormalities in genes, usually hereditary.'|) (tptp.concept2words_2 X |tptp.'genetic disease'|) (tptp.concept2words_2 X |tptp.'genetic disorder'|) (tptp.concept2words_2 X |tptp.'genetic-disorder'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.genetic_drift_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Drift'|) (tptp.user_description_2 X |tptp.'Changes in alelle frequencies between generations due to random sampling biases. Small populations are especially vulnerable to the effects of genetic drift.'|) (tptp.concept2words_2 X |tptp.'genetic drift'|) (tptp.concept2words_2 X |tptp.'genetic-drift'|) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted) (X3 $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.by_means_of_2 X X1) (tptp.object_2 X1 X2) (tptp.agent_2 X X3) (tptp.object_2 X X2) (tptp.change_1 X1) (tptp.scientist_1 X3) (tptp.genome_1 X2) (tptp.biotechnology_1 X)) (and (tptp.genetic_engineering_1 X) (= (tptp.fn_genetic_engineering_3 X) X2) (= (tptp.fn_genetic_engineering_4 X) X1) (= (tptp.fn_genetic_engineering_2 X) X3)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_engineering_4 X))) (let ((_let_2 (tptp.fn_genetic_engineering_3 X))) (let ((_let_3 (tptp.fn_genetic_engineering_2 X))) (=> (tptp.genetic_engineering_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Engineering'|) (tptp.user_description_2 X |tptp.'The direct manipulation of genes for practical purposes.'|) (tptp.concept2words_2 X |tptp.'genetically engineer'|) (tptp.concept2words_2 X |tptp.'genetic engineering'|) (tptp.concept2words_2 X |tptp.'genetic-engineering'|) (tptp.biotechnology_1 X) (tptp.scientist_1 _let_3) (tptp.genome_1 _let_2) (tptp.change_1 _let_1) (tptp.agent_2 _let_1 _let_3) (tptp.agent_2 X _let_3) (tptp.object_2 X _let_2) (tptp.by_means_of_2 X _let_1) (tptp.object_2 _let_1 _let_2) (= _let_2 (tptp.fn_biotechnology_4 X)) (= _let_1 (tptp.fn_biotechnology_2 X)))))))) (forall ((X $$unsorted)) (=> (tptp.genetic_linkage_mapping_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Linkage-Mapping'|) (tptp.user_description_2 X |tptp.'The technique of mapping several thousand genetic markers spaced at equal distances throughout the chromosomes.'|) (tptp.concept2words_2 X |tptp.'genetic linkage mapping'|) (tptp.concept2words_2 X |tptp.'genetic-linkage-mapping'|) (tptp.dna_technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_map_5 X))) (let ((_let_2 (tptp.fn_sequence_2 _let_1))) (let ((_let_3 (tptp.fn_genetic_map_8 X))) (let ((_let_4 (tptp.fn_locus_1 _let_3))) (let ((_let_5 (tptp.fn_sequence_1 _let_1))) (let ((_let_6 (tptp.fn_genetic_map_7 X))) (let ((_let_7 (tptp.fn_genetic_map_6 X))) (let ((_let_8 (tptp.fn_genetic_map_4 X))) (let ((_let_9 (tptp.fn_genetic_map_3 X))) (let ((_let_10 (tptp.fn_genetic_map_2 X))) (let ((_let_11 (tptp.fn_genetic_map_1 X))) (=> (tptp.genetic_map_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Map'|) (tptp.user_description_2 X |tptp.'An ordered list of genetic loci (genes or other genetic markers) along a chromosome.'|) (tptp.concept2words_2 X |tptp.'genetic map'|) (tptp.concept2words_2 X |tptp.'genetic-map'|) (tptp.map_1 X) (tptp.genetic_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X)) (tptp.discovery_1 _let_11) (tptp.sturtevant_1 _let_10) (tptp.gene_1 _let_9) (tptp.chromosome_1 _let_8) (tptp.thing_1 _let_1) (tptp.sequence_1 _let_1) (tptp.gene_1 _let_7) (tptp.entity_1 _let_7) (tptp.gene_1 _let_6) (tptp.locus_1 _let_3) (tptp.entity_1 _let_5) (tptp.gene_1 _let_4) (tptp.entity_1 _let_2) (tptp.element_2 _let_1 _let_9) (tptp.object_2 _let_11 X) (tptp.agent_2 _let_11 _let_10) (tptp.next_element_2 _let_6 _let_9) (tptp.is_at_2 _let_3 _let_8) (tptp.information_content_2 X _let_1) (tptp.is_at_2 _let_7 _let_3) (tptp.first_element_2 _let_1 _let_7) (tptp.element_2 _let_1 _let_7) (tptp.next_element_2 _let_7 _let_6) (tptp.element_2 _let_1 _let_6) (= _let_1 (tptp.fn_information_1 X)) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_marker_1 X))) (=> (tptp.genetic_marker_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Marker'|) (tptp.user_description_2 X |tptp.'A genetic marker is a gene or DNA sequence with a known location on a chromosome that can be used to identify cells, individual or species.'|) (tptp.concept2words_2 X |tptp.'genetic marker'|) (tptp.concept2words_2 X |tptp.'genetic-marker'|) (tptp.chemical_marker_1 X) (not (tptp.constant_region_dna_sequence_1 X)) (not (tptp.control_element_1 X)) (not (tptp.dna_strand_1 X)) (not (tptp.episome_1 X)) (not (tptp.pseudogene_1 X)) (not (tptp.restriction_fragment_length_polymorphism_1 X)) (not (tptp.restriction_site_1 X)) (not (tptp.tata_box_1 X)) (not (tptp.telomere_1 X)) (not (tptp.transcription_unit_1 X)) (not (tptp.transposon_1 X)) (not (tptp.ttaggg_1 X)) (not (tptp.variable_region_dna_sequence_1 X)) (tptp.dna_sequence_1 _let_1) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_chemical_marker_2 X)))))) (forall ((X $$unsorted)) (=> (tptp.genetic_process_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Process'|) (tptp.user_description_2 X |tptp.'A process involved in the transmission of genetic information from one organism to another.'|) (tptp.concept2words_2 X |tptp.'genetic process'|) (tptp.concept2words_2 X |tptp.'genetic-process'|) (tptp.biomolecular_process_1 X) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.catabolism_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.hydrolysis_1 X)) (not (tptp.protein_folding_1 X))))) (forall ((X $$unsorted)) (=> (tptp.genetic_profile_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Profile'|) (tptp.user_description_2 X |tptp.'An individual_'s one-of-a-kind set of genetic markers. Genetic profiles can be used to determine familial relationships.'|) (tptp.concept2words_2 X |tptp.'genetic profile'|) (tptp.concept2words_2 X |tptp.'genetic-profile'|) (tptp.genomic_representation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_recombination_3 X))) (let ((_let_2 (tptp.fn_parent_3 _let_1))) (let ((_let_3 (tptp.fn_genetic_recombination_4 X))) (let ((_let_4 (tptp.fn_organism_role_2 _let_1))) (let ((_let_5 (tptp.fn_genetic_recombination_1 X))) (let ((_let_6 (tptp.fn_genetic_recombination_2 X))) (=> (tptp.genetic_recombination_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-recombination'|) (tptp.user_description_2 X |tptp.'Genetic recombination is the exchange of DNA fragments between sister chromatids of a chromosome or non sister chromatids of homologous chromosomes. It is a common occurenence in meiosis and result in daughter cells with a different combination of genes than the parent cell'|) (tptp.concept2words_2 X tptp.recombine) (tptp.concept2words_2 X |tptp.'genetic recombination'|) (tptp.concept2words_2 X |tptp.'genetic-recombination'|) (tptp.recombination_1 X) (tptp.recombinant_1 _let_5) (tptp.allele_1 _let_6) (tptp.parent_1 _let_1) (tptp.organism_1 _let_3) (tptp.event_1 _let_4) (tptp.organism_1 _let_2) (tptp.has_part_2 _let_5 _let_6) (tptp.result_2 X _let_5) (tptp.agent_2 X _let_3) (tptp.in_event_2 _let_1 X) (tptp.plays_2 _let_3 _let_1) (= X _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X1) (tptp.object_2 X X2) (tptp.sticky_end_fragment_1 X1) (tptp.genetic_recombination_in_lab_of_fragments_1 X) (tptp.sticky_end_fragment_1 X2)) (and (tptp.genetic_recombination_in_lab_fragments_with_sticky_ends_1 X) (= (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_3 X) X1) (= (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_recombination_in_lab_of_fragments_14 X))) (let ((_let_2 (tptp.fn_genetic_recombination_in_lab_of_fragments_3 X))) (let ((_let_3 (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_2 X))) (let ((_let_4 (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_4 X))) (let ((_let_5 (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_5 X))) (let ((_let_6 (tptp.fn_genetic_recombination_in_lab_fragments_with_sticky_ends_3 X))) (=> (tptp.genetic_recombination_in_lab_fragments_with_sticky_ends_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Recombination-In-Lab-Fragments-With-Sticky-Ends'|) (tptp.user_description_2 X |tptp.'A process in which (1) restriction nuclease and two kinds of DNA are mixed, (2) the restriction nuclease applies a staggered cut to the two types of DNA to make sticky-end fragments, and (3) the restriction fragments attach with the help of ligase to make recombinant DNA.'|) (tptp.concept2words_2 X tptp.recombine) (tptp.concept2words_2 X |tptp.'genetic recombination in lab fragments with sticky end'|) (tptp.concept2words_2 X |tptp.'genetic-recombination-in-lab-fragments-with-sticky-end'|) (tptp.genetic_recombination_in_lab_of_fragments_1 X) (not (tptp.genetic_recombination_in_lab_of_fragments_with_blunt_ends_1 X)) (tptp.sticky_end_fragment_1 _let_3) (tptp.sticky_end_fragment_1 _let_6) (tptp.staggered_cut_1 _let_4) (tptp.staggered_cut_1 _let_5) (tptp.object_2 X _let_6) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_4) (tptp.object_2 X _let_3) (tptp.result_2 _let_4 _let_3) (tptp.next_event_2 _let_4 _let_5) (tptp.result_2 _let_5 _let_6) (tptp.base_2 X _let_6) (= _let_6 _let_2) (= _let_6 _let_1) (= _let_5 (tptp.fn_genetic_recombination_in_lab_of_fragments_11 X)) (= _let_4 (tptp.fn_genetic_recombination_in_lab_of_fragments_13 X)) (= _let_3 (tptp.fn_genetic_recombination_in_lab_of_fragments_15 X)) (= _let_2 _let_1) (= _let_1 _let_1)))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.base_2 X X2) (tptp.restriction_fragment_1 X1) (tptp.recombination_1 X) (tptp.restriction_fragment_1 X2)) (and (tptp.genetic_recombination_in_lab_of_fragments_1 X) (= (tptp.fn_genetic_recombination_in_lab_of_fragments_14 X) X2) (= (tptp.fn_genetic_recombination_in_lab_of_fragments_15 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_recombination_in_lab_of_fragments_15 X))) (let ((_let_2 (tptp.fn_restriction_fragment_16 _let_1))) (let ((_let_3 (tptp.fn_genetic_recombination_in_lab_of_fragments_7 X))) (let ((_let_4 (tptp.fn_restriction_nuclease_26 _let_3))) (let ((_let_5 (tptp.fn_genetic_recombination_in_lab_of_fragments_9 X))) (let ((_let_6 (tptp.fn_dna_ligase_10 _let_5))) (let ((_let_7 (tptp.fn_genetic_recombination_in_lab_of_fragments_12 X))) (let ((_let_8 (tptp.fn_attach_2 _let_7))) (let ((_let_9 (tptp.fn_genetic_recombination_in_lab_of_fragments_14 X))) (let ((_let_10 (tptp.fn_restriction_fragment_16 _let_9))) (let ((_let_11 (tptp.fn_nuclease_4 _let_3))) (let ((_let_12 (tptp.fn_dna_ligase_12 _let_5))) (let ((_let_13 (tptp.fn_genetic_recombination_in_lab_of_fragments_10 X))) (let ((_let_14 (tptp.fn_recombinant_dna_18 _let_13))) (let ((_let_15 (tptp.fn_dna_ligase_7 _let_5))) (let ((_let_16 (tptp.fn_genetic_recombination_in_lab_of_fragments_13 X))) (let ((_let_17 (tptp.fn_restriction_fragment_6 _let_1))) (let ((_let_18 (tptp.fn_genetic_recombination_in_lab_of_fragments_5 X))) (let ((_let_19 (tptp.fn_genetic_recombination_in_lab_of_fragments_11 X))) (let ((_let_20 (tptp.fn_impair_1 _let_16))) (let ((_let_21 (tptp.fn_genetic_recombination_in_lab_of_fragments_6 X))) (let ((_let_22 (tptp.fn_attach_1 _let_7))) (let ((_let_23 (tptp.fn_nuclease_5 _let_3))) (let ((_let_24 (tptp.fn_genetic_recombination_in_lab_of_fragments_8 X))) (let ((_let_25 (tptp.fn_genetic_recombination_in_lab_of_fragments_2 X))) (let ((_let_26 (tptp.fn_genetic_recombination_in_lab_of_fragments_4 X))) (let ((_let_27 (tptp.fn_genetic_recombination_in_lab_of_fragments_3 X))) (=> (tptp.genetic_recombination_in_lab_of_fragments_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Recombination-In-Lab-Of-Fragments'|) (tptp.user_description_2 X |tptp.'A process in which (1) restriction nuclease and two kinds of DNA are mixed, (2) the restriction nuclease lyses both types of DNA at restriction sites to make restriction fragments, and (3) the restriction fragments attach with the help of ligase to make recombinant DNA.'|) (tptp.concept2words_2 X tptp.recombine) (tptp.concept2words_2 X |tptp.'genetic recombination in lab of fragment'|) (tptp.concept2words_2 X |tptp.'genetic-recombination-in-lab-of-fragment'|) (tptp.recombination_1 X) (tptp.mix_1 _let_25) (tptp.restriction_fragment_1 _let_27) (tptp.hydrophobic_region_1 _let_26) (tptp.restriction_site_1 _let_18) (tptp.dna_1 _let_21) (tptp.restriction_nuclease_1 _let_3) (tptp.dna_1 _let_24) (tptp.dna_ligase_1 _let_5) (tptp.recombinant_dna_1 _let_13) (tptp.break_1 _let_19) (tptp.lyse_1 _let_19) (tptp.attach_1 _let_7) (tptp.break_1 _let_16) (tptp.impair_1 _let_16) (tptp.lyse_1 _let_16) (tptp.spatial_entity_1 _let_9) (tptp.restriction_fragment_1 _let_9) (tptp.spatial_entity_1 _let_1) (tptp.dna_piece_1 _let_1) (tptp.restriction_fragment_1 _let_1) (tptp.nucleic_acid_1 _let_23) (tptp.spatial_entity_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.restriction_site_1 _let_17) (tptp.attach_1 _let_15) (tptp.attach_1 _let_14) (tptp.attach_1 _let_12) (tptp.break_1 _let_11) (tptp.lyse_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.dna_piece_1 _let_6) (tptp.break_1 _let_4) (tptp.lyse_1 _let_4) (tptp.impair_1 _let_4) (tptp.lyse_1 _let_2) (tptp.object_2 X _let_1) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_19) (tptp.first_subevent_2 X _let_25) (tptp.result_2 X _let_13) (tptp.base_2 X _let_27) (tptp.base_2 X _let_9) (tptp.has_part_2 _let_18 _let_21) (tptp.has_region_2 _let_5 _let_26) (tptp.next_event_2 _let_19 _let_7) (tptp.next_event_2 _let_16 _let_19) (tptp.minCardinality _let_16 tptp.result_0 |"1"| tptp.restriction_fragment_0) (tptp.object_2 _let_25 _let_21) (tptp.object_2 _let_25 _let_3) (tptp.object_2 _let_25 _let_24) (tptp.next_event_2 _let_25 _let_16) (tptp.result_2 _let_7 _let_13) (tptp.agent_2 _let_16 _let_3) (tptp.agent_2 _let_19 _let_3) (tptp.object_2 _let_19 _let_24) (tptp.agent_2 _let_7 _let_5) (tptp.base_2 _let_7 _let_1) (tptp.site_2 _let_16 _let_18) (tptp.result_2 _let_16 _let_1) (tptp.result_2 _let_19 _let_9) (tptp.object_2 _let_16 _let_21) (tptp.object_2 _let_7 _let_9) (= _let_7 _let_14) (= _let_16 _let_4) (= _let_24 _let_23) (= _let_19 _let_11) (= _let_1 _let_8) (= _let_1 _let_6) (= _let_7 _let_15) (= _let_7 _let_12) (= _let_9 _let_22) (= _let_21 _let_20) (= _let_19 _let_10) (= _let_18 _let_17) (= _let_16 _let_2) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.base_2 X X1) (tptp.object_2 X X1) (tptp.object_2 X X2) (tptp.blunt_end_fragment_1 X1) (tptp.genetic_recombination_in_lab_of_fragments_1 X) (tptp.blunt_end_fragment_1 X2)) (and (tptp.genetic_recombination_in_lab_of_fragments_with_blunt_ends_1 X) (= (tptp.fn_genetic_recombination_in_lab_of_fragments_with_blunt_ends_3 X) X1) (= (tptp.fn_genetic_recombination_in_lab_of_fragments_with_blunt_ends_2 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genetic_recombination_in_lab_of_fragments_with_blunt_ends_3 X))) (let ((_let_2 (tptp.fn_blunt_end_fragment_4 _let_1))) (let ((_let_3 (tptp.fn_blunt_end_fragment_7 _let_1))) (let ((_let_4 (tptp.fn_genetic_recombination_in_lab_of_fragments_13 X))) (let ((_let_5 (tptp.fn_genetic_recombination_in_lab_of_fragments_11 X))) (let ((_let_6 (tptp.fn_genetic_recombination_in_lab_of_fragments_3 X))) (let ((_let_7 (tptp.fn_genetic_recombination_in_lab_of_fragments_14 X))) (let ((_let_8 (tptp.fn_genetic_recombination_in_lab_of_fragments_with_blunt_ends_4 X))) (let ((_let_9 (tptp.fn_genetic_recombination_in_lab_of_fragments_with_blunt_ends_2 X))) (=> (tptp.genetic_recombination_in_lab_of_fragments_with_blunt_ends_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Recombination-In-Lab-Of-Fragments-With-Blunt-Ends'|) (tptp.user_description_2 X |tptp.'A process in which (1) restriction nuclease and two kinds of DNA are mixed, (2) the restriction nuclease applies a blunt cut to the two types of DNA to make blunt-end fragments, and (3) the restriction fragments attach with the help of ligase to make recombinant DNA.'|) (tptp.concept2words_2 X tptp.recombine) (tptp.concept2words_2 X |tptp.'genetic recombination in lab of fragments with blunt end'|) (tptp.concept2words_2 X |tptp.'genetic-recombination-in-lab-of-fragments-with-blunt-end'|) (tptp.genetic_recombination_in_lab_of_fragments_1 X) (not (tptp.genetic_recombination_in_lab_fragments_with_sticky_ends_1 X)) (tptp.blunt_end_fragment_1 _let_9) (tptp.spatial_entity_1 _let_1) (tptp.restriction_fragment_1 _let_1) (tptp.blunt_end_fragment_1 _let_1) (tptp.break_1 _let_8) (tptp.impair_1 _let_8) (tptp.lyse_1 _let_8) (tptp.blunt_cut_1 _let_8) (tptp.blunt_cut_1 _let_3) (tptp.blunt_cut_1 _let_2) (tptp.object_2 X _let_1) (tptp.base_2 X _let_1) (tptp.subevent_2 X _let_8) (tptp.object_2 X _let_9) (tptp.result_2 _let_8 _let_1) (= _let_1 _let_7) (= _let_1 _let_6) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_9 (tptp.fn_genetic_recombination_in_lab_of_fragments_15 X)) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (=> (tptp.genetic_representation_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Representation'|) (tptp.user_description_2 X |tptp.'A method of representing genetic data.'|) (tptp.concept2words_2 X |tptp.'genetic representation'|) (tptp.concept2words_2 X |tptp.'genetic-representation'|) (tptp.representation_of_data_1 X)))) (forall ((X $$unsorted)) (=> (tptp.genetic_testing_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Testing'|) (tptp.user_description_2 X |tptp.'The process of determining an individual_'s genetic information, including genetic abnormalities and disorders.'|) (tptp.concept2words_2 X |tptp.'genetic screening'|) (tptp.concept2words_2 X |tptp.'genetic-screening'|) (tptp.concept2words_2 X |tptp.'dna based testing'|) (tptp.concept2words_2 X |tptp.'dna-based-testing'|) (tptp.concept2words_2 X |tptp.'genetic testing'|) (tptp.concept2words_2 X |tptp.'genetic-testing'|) (tptp.diagnostic_procedure_1 X) (not (tptp.abortion_1 X)) (not (tptp.assisted_reproductive_technology_1 X)) (not (tptp.electrocardiogram_1 X)) (not (tptp.immunization_1 X)) (not (tptp.newborn_screening_1 X)) (not (tptp.paternity_testing_1 X)) (not (tptp.tubal_ligation_1 X)) (not (tptp.ultrasound_imaging_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.genetic_variation_1 X) (and (tptp.original_name_2 X |tptp.'Genetic-Variation'|) (tptp.user_description_2 X |tptp.'Genetic variation, variation in alleles of genes, occurs both within and among populations. Three mechanisms that contribute to the genetic variation arising from sexual reproduction are independent assortment of chromosomes, crossing over and random fertilization.'|) (tptp.concept2words_2 X |tptp.'genetic diversity'|) (tptp.concept2words_2 X |tptp.'genetic-diversity'|) (tptp.concept2words_2 X |tptp.'variation in offspring'|) (tptp.concept2words_2 X |tptp.'genetic variation'|) (tptp.concept2words_2 X |tptp.'genetic-variation'|) (tptp.genetic_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.genetically_modified_organism_1 X) (and (tptp.original_name_2 X |tptp.'Genetically-Modified-Organism'|) (tptp.user_description_2 X |tptp.'An organism whose genetic material has been manipulated using the techniques of genetic engineering.'|) (tptp.concept2words_2 X |tptp.'genetically modified organism'|) (tptp.concept2words_2 X |tptp.'genetically-modified-organism'|) (tptp.organism_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geneticist_1 X) (and (tptp.original_name_2 X |tptp.'Geneticist'|) (tptp.user_description_2 X |tptp.'A biologist who specializes in genetics.'|) (tptp.concept2words_2 X tptp.geneticist) (tptp.biologist_1 X) (not (tptp.steward_1 X))))) (forall ((X $$unsorted)) (=> (tptp.genetics_1 X) (and (tptp.original_name_2 X |tptp.'Genetics'|) (tptp.user_description_2 X |tptp.'The science of genes, heredity, and genetic variation.'|) (tptp.concept2words_2 X tptp.genetics) (tptp.biology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.genome_1 X) (and (tptp.original_name_2 X |tptp.'Genome'|) (tptp.user_description_2 X |tptp.'The genetic material of an organism or virus; the complete complement of an organism_'s or virus_'s genes along with its noncoding nucleic acid sequences.'|) (tptp.concept2words_2 X tptp.genome) (tptp.gene_related_aggregates_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genome_mapping_25 X))) (let ((_let_2 (tptp.fn_cloned_dna_1 _let_1))) (let ((_let_3 (tptp.fn_genome_mapping_28 X))) (let ((_let_4 (tptp.fn_cloning_vector_6 _let_3))) (let ((_let_5 (tptp.fn_genome_mapping_13 X))) (let ((_let_6 (tptp.fn_restriction_fragment_16 _let_5))) (let ((_let_7 (tptp.fn_genome_mapping_24 X))) (let ((_let_8 (tptp.fn_restriction_nuclease_26 _let_7))) (let ((_let_9 (tptp.fn_nuclease_4 _let_7))) (let ((_let_10 (tptp.fn_genome_mapping_16 X))) (let ((_let_11 (tptp.fn_determine_order_3 _let_10))) (let ((_let_12 (tptp.fn_genome_mapping_19 X))) (let ((_let_13 (tptp.fn_copy_1 _let_12))) (let ((_let_14 (tptp.fn_genome_mapping_21 X))) (let ((_let_15 (tptp.fn_dna_11 _let_14))) (let ((_let_16 (tptp.fn_dna_2 _let_14))) (let ((_let_17 (tptp.fn_genome_mapping_30 X))) (let ((_let_18 (tptp.fn_restriction_fragment_16 _let_17))) (let ((_let_19 (tptp.fn_genome_mapping_23 X))) (let ((_let_20 (tptp.fn_restriction_nuclease_26 _let_19))) (let ((_let_21 (tptp.fn_nuclease_4 _let_19))) (let ((_let_22 (tptp.fn_polymer_4 _let_1))) (let ((_let_23 (tptp.fn_polymer_6 _let_1))) (let ((_let_24 (tptp.fn_polymer_4 _let_14))) (let ((_let_25 (tptp.fn_polymer_6 _let_14))) (let ((_let_26 (tptp.fn_genome_mapping_29 X))) (let ((_let_27 (tptp.fn_nucleic_acid_probe_4 _let_26))) (let ((_let_28 (tptp.fn_genome_mapping_26 X))) (let ((_let_29 (tptp.fn_nucleic_acid_probe_3 _let_26))) (let ((_let_30 (tptp.fn_genome_mapping_27 X))) (let ((_let_31 (tptp.fn_cloned_dna_2 _let_1))) (let ((_let_32 (tptp.fn_genome_mapping_18 X))) (let ((_let_33 (tptp.fn_genome_mapping_34 X))) (let ((_let_34 (tptp.fn_dna_strand_14 _let_33))) (let ((_let_35 (tptp.fn_genome_mapping_33 X))) (let ((_let_36 (tptp.fn_determine_order_1 _let_10))) (let ((_let_37 (tptp.fn_genome_mapping_15 X))) (let ((_let_38 (tptp.fn_genome_mapping_17 X))) (let ((_let_39 (tptp.fn_genome_mapping_12 X))) (let ((_let_40 (tptp.fn_cloned_dna_1 _let_14))) (let ((_let_41 (tptp.fn_genome_mapping_20 X))) (let ((_let_42 (tptp.fn_genome_mapping_35 X))) (let ((_let_43 (tptp.fn_determine_order_4 _let_10))) (let ((_let_44 (tptp.fn_genome_mapping_32 X))) (let ((_let_45 (tptp.fn_determine_order_5 _let_10))) (let ((_let_46 (tptp.fn_genome_mapping_31 X))) (let ((_let_47 (tptp.fn_impair_1 _let_32))) (let ((_let_48 (tptp.fn_genome_mapping_22 X))) (let ((_let_49 (tptp.fn_impair_1 _let_38))) (let ((_let_50 (tptp.fn_copy_1 _let_41))) (let ((_let_51 (tptp.fn_genome_mapping_14 X))) (let ((_let_52 (tptp.fn_genome_mapping_6 X))) (let ((_let_53 (tptp.fn_genome_mapping_9 X))) (let ((_let_54 (tptp.fn_genome_mapping_8 X))) (let ((_let_55 (tptp.fn_genome_mapping_7 X))) (let ((_let_56 (tptp.fn_genome_mapping_1 X))) (let ((_let_57 (tptp.fn_genome_mapping_2 X))) (let ((_let_58 (tptp.fn_genome_mapping_3 X))) (let ((_let_59 (tptp.fn_genome_mapping_11 X))) (let ((_let_60 (tptp.fn_genome_mapping_10 X))) (let ((_let_61 (tptp.fn_genome_mapping_5 X))) (let ((_let_62 (tptp.fn_genome_mapping_4 X))) (=> (tptp.genome_mapping_1 X) (and (tptp.original_name_2 X |tptp.'Genome-Mapping'|) (tptp.user_description_2 X |tptp.'The determination of the sequence of specific genes and their relative distances from each other on a given chromosome.'|) (tptp.concept2words_2 X |tptp.'mapping genome'|) (tptp.concept2words_2 X |tptp.'genome sequencing'|) (tptp.concept2words_2 X |tptp.'chromosome walking'|) (tptp.concept2words_2 X tptp.map) (tptp.concept2words_2 X |tptp.'mapping of genome'|) (tptp.concept2words_2 X |tptp.'genome mapping'|) (tptp.concept2words_2 X |tptp.'genome-mapping'|) (tptp.biotechnology_1 X) (tptp.nucleotide_1 _let_56) (tptp.monomer_1 _let_56) (tptp.nucleoside_monophosphate_1 _let_57) (tptp.deoxyribose_1 _let_58) (tptp.dna_sequence_1 _let_62) (tptp.dna_sequence_1 _let_61) (tptp.dna_sequence_1 _let_52) (tptp.linkage_map_1 _let_55) (tptp.genetic_map_1 _let_54) (tptp.dna_sequence_1 _let_53) (tptp.deoxyribose_1 _let_60) (tptp.nucleotide_1 _let_59) (tptp.monomer_1 _let_59) (tptp.monomer_1 _let_39) (tptp.tangible_entity_1 _let_5) (tptp.entity_1 _let_5) (tptp.restriction_fragment_1 _let_5) (tptp.genome_1 _let_51) (tptp.research_1 _let_37) (tptp.determine_order_1 _let_10) (tptp.break_1 _let_38) (tptp.impair_1 _let_38) (tptp.lyse_1 _let_38) (tptp.break_1 _let_32) (tptp.impair_1 _let_32) (tptp.lyse_1 _let_32) (tptp.create_1 _let_12) (tptp.copy_1 _let_12) (tptp.copy_1 _let_41) (tptp.cloned_dna_1 _let_14) (tptp.chromosome_1 _let_48) (tptp.amphipathic_molecule_1 _let_19) (tptp.restriction_nuclease_1 _let_19) (tptp.amphipathic_molecule_1 _let_7) (tptp.restriction_nuclease_1 _let_7) (tptp.cloned_dna_1 _let_1) (tptp.detect_1 _let_28) (tptp.dna_sequence_1 _let_30) (tptp.cloning_vector_1 _let_3) (tptp.dna_1 _let_3) (tptp.nucleic_acid_probe_1 _let_26) (tptp.tangible_entity_1 _let_17) (tptp.restriction_fragment_1 _let_17) (tptp.sequence_1 _let_46) (tptp.dna_piece_1 _let_44) (tptp.gene_1 _let_35) (tptp.dna_strand_1 _let_33) (tptp.monomer_1 _let_42) (tptp.tangible_entity_1 _let_50) (tptp.tangible_entity_1 _let_49) (tptp.tangible_entity_1 _let_47) (tptp.sequence_1 _let_45) (tptp.entity_1 _let_43) (tptp.copy_1 _let_40) (tptp.research_1 _let_36) (tptp.gene_1 _let_34) (tptp.dna_1 _let_31) (tptp.dna_sequence_1 _let_29) (tptp.detect_1 _let_27) (tptp.monomer_1 _let_25) (tptp.monomer_1 _let_24) (tptp.monomer_1 _let_23) (tptp.monomer_1 _let_22) (tptp.break_1 _let_21) (tptp.break_1 _let_20) (tptp.lyse_1 _let_20) (tptp.impair_1 _let_20) (tptp.lyse_1 _let_18) (tptp.dna_strand_1 _let_16) (tptp.dna_strand_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.entity_1 _let_11) (tptp.break_1 _let_9) (tptp.break_1 _let_8) (tptp.lyse_1 _let_8) (tptp.impair_1 _let_8) (tptp.lyse_1 _let_6) (tptp.create_1 _let_4) (tptp.copy_1 _let_2) (tptp.has_part_2 _let_33 _let_62) (tptp.has_part_2 _let_61 _let_44) (tptp.has_part_2 _let_61 _let_5) (tptp.has_part_2 _let_17 _let_30) (tptp.first_subevent_2 X _let_32) (tptp.subevent_2 X _let_41) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_38) (tptp.subevent_2 X _let_32) (tptp.result_2 X _let_46) (tptp.result_2 X _let_61) (tptp.result_2 X _let_55) (tptp.result_2 X _let_54) (tptp.object_2 X _let_51) (tptp.instrument_2 X _let_3) (tptp.same_type_2 _let_30 _let_52) (tptp.object_2 _let_28 _let_52) (tptp.has_part_2 _let_1 _let_53) (tptp.has_part_2 _let_1 _let_60) (tptp.has_part_2 _let_1 _let_59) (tptp.same_type_2 _let_52 _let_53) (tptp.same_type_2 _let_52 _let_30) (tptp.has_part_2 _let_14 _let_58) (tptp.has_part_2 _let_14 _let_57) (tptp.has_part_2 _let_14 _let_56) (tptp.minCardinality _let_41 tptp.result_0 |"10"| tptp.cloned_dna_0) (tptp.agent_2 _let_41 _let_3) (tptp.next_event_2 _let_41 _let_10) (tptp.next_event_2 _let_12 _let_10) (tptp.next_event_2 _let_12 _let_41) (not (= _let_32 _let_38)) (tptp.next_event_2 _let_32 _let_38) (not (= _let_38 _let_32)) (tptp.next_event_2 _let_10 _let_28) (tptp.subevent_2 _let_10 _let_28) (tptp.result_2 _let_10 _let_55) (tptp.result_2 _let_10 _let_54) (tptp.object_2 _let_37 _let_51) (tptp.enables_2 _let_37 X) (tptp.has_part_2 _let_51 _let_48) (tptp.has_part_2 _let_5 _let_52) (tptp.same_type_2 _let_53 _let_52) (tptp.object_2 _let_10 _let_51) (tptp.object_2 _let_12 _let_5) (tptp.object_2 _let_41 _let_17) (tptp.object_2 _let_38 _let_48) (tptp.object_2 _let_32 _let_48) (tptp.agent_2 _let_12 _let_3) (tptp.object_2 _let_10 _let_5) (tptp.next_element_2 _let_5 _let_44) (tptp.element_2 _let_46 _let_44) (tptp.element_2 _let_46 _let_5) (tptp.first_element_2 _let_46 _let_5) (tptp.has_part_2 _let_14 _let_42) (tptp.has_part_2 _let_14 _let_33) (tptp.result_2 _let_41 _let_14) (tptp.agent_2 _let_32 _let_7) (tptp.has_part_2 _let_1 _let_39) (tptp.agent_2 _let_38 _let_19) (tptp.result_2 _let_38 _let_17) (tptp.enables_2 _let_37 _let_10) (tptp.has_part_2 _let_33 _let_35) (tptp.result_2 _let_32 _let_5) (tptp.result_2 _let_12 _let_1) (tptp.object_2 _let_12 _let_3) (tptp.agent_2 _let_28 _let_26) (tptp.object_2 _let_28 _let_30) (= _let_51 _let_43) (= _let_5 _let_13) (= _let_17 _let_50) (= _let_48 _let_49) (= _let_48 _let_47) (= _let_12 _let_4) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_5 _let_11) (= _let_42 _let_25) (= _let_42 _let_24) (= _let_33 _let_16) (= _let_33 _let_15) (= _let_41 _let_40) (= _let_32 _let_9) (= _let_32 _let_8) (= _let_39 _let_23) (= _let_39 _let_22) (= _let_38 _let_21) (= _let_38 _let_20) (= _let_38 _let_18) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_32 _let_6) (= _let_3 _let_31) (= _let_12 _let_2) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genome_of_host_cell_2 X))) (let ((_let_2 (tptp.fn_cell_24 _let_1))) (let ((_let_3 (tptp.fn_genome_of_host_cell_1 X))) (let ((_let_4 (tptp.fn_host_1 _let_3))) (=> (tptp.genome_of_host_cell_1 X) (and (tptp.original_name_2 X |tptp.'Genome-Of-Host-Cell'|) (tptp.user_description_2 X |tptp.'The complete complement of a host organism_'s genes along with its noncoding nucleic acid sequences.'|) (tptp.concept2words_2 X |tptp.'host cell gemome'|) (tptp.concept2words_2 X |tptp.'genome of host cell'|) (tptp.concept2words_2 X |tptp.'genome-of-host-cell'|) (tptp.genome_1 X) (tptp.host_1 _let_3) (tptp.living_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.living_entity_1 _let_4) (tptp.genome_1 _let_2) (tptp.plays_2 _let_1 _let_3) (tptp.has_part_2 _let_1 X) (= _let_1 _let_4) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genome_of_virus_1 X))) (=> (tptp.genome_of_virus_1 X) (and (tptp.original_name_2 X |tptp.'Genome-Of-Virus'|) (tptp.user_description_2 X |tptp.'The complete complement of a virus_'s genes along with its noncoding nucleic acid sequences.'|) (tptp.concept2words_2 X |tptp.'viral genome'|) (tptp.concept2words_2 X |tptp.'virus genome'|) (tptp.concept2words_2 X |tptp.'virus-genome'|) (tptp.concept2words_2 X |tptp.'genome of virus'|) (tptp.concept2words_2 X |tptp.'genome-of-virus'|) (tptp.genome_1 X) (tptp.virus_1 _let_1) (tptp.has_part_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genomic_imprinting_6 X))) (let ((_let_2 (tptp.fn_gene_13 _let_1))) (let ((_let_3 (tptp.fn_genomic_imprinting_7 X))) (let ((_let_4 (tptp.fn_genomic_imprinting_3 X))) (let ((_let_5 (tptp.fn_gene_13 _let_4))) (let ((_let_6 (tptp.fn_genomic_imprinting_4 X))) (let ((_let_7 (tptp.fn_code_for_2 _let_6))) (let ((_let_8 (tptp.fn_genomic_imprinting_2 X))) (let ((_let_9 (tptp.fn_code_for_2 _let_3))) (let ((_let_10 (tptp.fn_genomic_imprinting_5 X))) (let ((_let_11 (tptp.fn_genomic_imprinting_1 X))) (=> (tptp.genomic_imprinting_1 X) (and (tptp.original_name_2 X |tptp.'Genomic-Imprinting'|) (tptp.user_description_2 X |tptp.'A phenomenon in which expression of an allele in offspring depends on whether the allele is inherited from the male or female parent.'|) (tptp.concept2words_2 X |tptp.'perform genomic imprinting'|) (tptp.concept2words_2 X |tptp.'genomic imprinting'|) (tptp.concept2words_2 X |tptp.'genomic-imprinting'|) (tptp.gene_expression_1 X) (tptp.methylation_1 _let_11) (tptp.phenotype_1 _let_8) (tptp.gene_1 _let_4) (tptp.code_for_1 _let_6) (tptp.phenotype_1 _let_10) (tptp.gene_1 _let_1) (tptp.code_for_1 _let_3) (tptp.entity_1 _let_9) (tptp.entity_1 _let_7) (tptp.code_for_1 _let_5) (tptp.code_for_1 _let_2) (tptp.same_type_2 _let_1 _let_4) (tptp.same_type_2 _let_10 _let_8) (tptp.inhibits_2 _let_11 _let_6) (tptp.same_type_2 _let_4 _let_1) (tptp.same_type_2 _let_8 _let_10) (tptp.by_means_of_2 X _let_11) (tptp.result_2 _let_3 _let_10) (tptp.result_2 _let_6 _let_8) (tptp.agent_2 _let_6 _let_4) (tptp.agent_2 _let_3 _let_1) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genomic_library_6 X))) (let ((_let_2 (tptp.fn_gene_related_aggregates_1 _let_1))) (let ((_let_3 (tptp.fn_genomic_library_8 X))) (let ((_let_4 (tptp.fn_copy_1 _let_3))) (let ((_let_5 (tptp.fn_genomic_library_7 X))) (let ((_let_6 (tptp.fn_genomic_library_4 X))) (let ((_let_7 (tptp.fn_create_1 _let_6))) (let ((_let_8 (tptp.fn_create_1 _let_3))) (let ((_let_9 (tptp.fn_genomic_library_5 X))) (let ((_let_10 (tptp.fn_genomic_library_1 X))) (let ((_let_11 (tptp.fn_genomic_library_2 X))) (let ((_let_12 (tptp.fn_genomic_library_3 X))) (=> (tptp.genomic_library_1 X) (and (tptp.original_name_2 X |tptp.'Genomic-Library'|) (tptp.user_description_2 X |tptp.'A set of cell clones containing all the DNA segments from a genome, each within a plasmid, phage, or other cloning vector.'|) (tptp.concept2words_2 X |tptp.'genomic library'|) (tptp.concept2words_2 X |tptp.'genomic-library'|) (tptp.gene_related_aggregates_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X)) (tptp.plasmid_1 _let_10) (tptp.foreign_dna_1 _let_11) (tptp.cloning_vector_1 _let_12) (tptp.create_1 _let_6) (tptp.clone_1 _let_9) (tptp.genome_1 _let_1) (tptp.tangible_entity_1 _let_5) (tptp.gene_1 _let_5) (tptp.copy_1 _let_3) (tptp.entity_1 _let_8) (tptp.entity_1 _let_7) (tptp.tangible_entity_1 _let_4) (tptp.gene_1 _let_2) (tptp.agent_2 _let_6 _let_12) (tptp.same_type_2 _let_1 X) (tptp.has_part_2 _let_1 _let_11) (tptp.element_2 X _let_10) (tptp.element_2 X _let_9) (tptp.minCardinality X tptp.element_0 |"2000"| tptp.plasmid_0) (tptp.same_type_2 X _let_1) (tptp.result_2 _let_3 _let_9) (tptp.object_2 _let_3 _let_5) (tptp.result_2 _let_6 X) (tptp.element_2 _let_1 _let_5) (= _let_9 _let_8) (= _let_5 _let_4) (= X _let_7) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.genomic_representation_1 X) (and (tptp.original_name_2 X |tptp.'Genomic-Representation'|) (tptp.user_description_2 X |tptp.'A way to represent the entire gneome of an individual organism.'|) (tptp.concept2words_2 X |tptp.'genomic library'|) (tptp.concept2words_2 X |tptp.'genomic-library'|) (tptp.concept2words_2 X |tptp.'genomic representation'|) (tptp.concept2words_2 X |tptp.'genomic-representation'|) (tptp.genetic_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (=> (tptp.genomics_1 X) (and (tptp.original_name_2 X |tptp.'Genomics'|) (tptp.user_description_2 X |tptp.'A subset of the study of genetics that focuses on the study of entire genomes and the ways that genomes interact among individuals'|) (tptp.concept2words_2 X |tptp.'perform genomics'|) (tptp.concept2words_2 X tptp.genomics) (tptp.biotechnology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genotype_2 X))) (let ((_let_2 (tptp.fn_code_for_1 _let_1))) (let ((_let_3 (tptp.fn_code_for_2 _let_1))) (let ((_let_4 (tptp.fn_genotype_1 X))) (=> (tptp.genotype_1 X) (and (tptp.original_name_2 X |tptp.'Genotype'|) (tptp.user_description_2 X |tptp.'An individual_'s collection of alleles.'|) (tptp.concept2words_2 X tptp.genotype) (tptp.genome_1 X) (tptp.phenotype_1 _let_4) (tptp.code_for_1 _let_1) (tptp.entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.result_2 _let_1 _let_4) (tptp.agent_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.genotype_of_offspring_1 X) (and (tptp.original_name_2 X |tptp.'Genotype-Of-Offspring'|) (tptp.user_description_2 X |tptp.'The genotype of the offspring of a genetic cross or mating.'|) (tptp.concept2words_2 X |tptp.'offspring phenotype'|) (tptp.concept2words_2 X |tptp.'offspring genotype'|) (tptp.concept2words_2 X |tptp.'offspring-genotype'|) (tptp.concept2words_2 X |tptp.'genotype of offspring'|) (tptp.concept2words_2 X |tptp.'genotype-of-offspring'|) (tptp.genotype_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_genotype_of_parent_1 X))) (let ((_let_2 (tptp.fn_parent_3 _let_1))) (let ((_let_3 (tptp.fn_genotype_of_parent_2 X))) (let ((_let_4 (tptp.fn_organism_3 _let_3))) (=> (tptp.genotype_of_parent_1 X) (and (tptp.original_name_2 X |tptp.'Genotype-Of-Parent'|) (tptp.user_description_2 X |tptp.'The genotype of the parent of a genetic cross or mating.'|) (tptp.concept2words_2 X |tptp.'parental genotype'|) (tptp.concept2words_2 X |tptp.'parental-genotype'|) (tptp.concept2words_2 X |tptp.'parent genotype'|) (tptp.concept2words_2 X |tptp.'parent-genotype'|) (tptp.concept2words_2 X |tptp.'genotype of parent'|) (tptp.concept2words_2 X |tptp.'genotype-of-parent'|) (tptp.genotype_1 X) (tptp.parent_1 _let_1) (tptp.organism_1 _let_3) (tptp.genotype_1 _let_4) (tptp.organism_1 _let_2) (tptp.has_part_2 _let_3 X) (tptp.plays_2 _let_3 _let_1) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.genotypic_ratio_1 X) (and (tptp.original_name_2 X |tptp.'Genotypic-Ratio'|) (tptp.user_description_2 X |tptp.'The proportion of genotypes found in individuals after a cross. For example, consider a cross between two heterozygous individuals for trait A: Aa X Aa The result is a 1:2:1 ratio for the genotypes AA, Aa, and aa respectively. Put another way, if the parents had 100 offspring, 25 would be expected to have the genotype AA, 50 the genotype Aa and 25 the genotype aa.'|) (tptp.concept2words_2 X |tptp.'genotype ratio'|) (tptp.concept2words_2 X |tptp.'genotype-ratio'|) (tptp.concept2words_2 X |tptp.'genotypic ratio'|) (tptp.concept2words_2 X |tptp.'genotypic-ratio'|) (tptp.genetic_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.life_table_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (=> (tptp.genus_1 X) (and (tptp.original_name_2 X |tptp.'Genus'|) (tptp.user_description_2 X |tptp.'In Linnean taxonomy, the category above the species and below the family. The genus is the first part of a species_' scientific name.'|) (tptp.concept2words_2 X tptp.genus) (tptp.taxon_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geographic_barrier_1 X) (and (tptp.original_name_2 X |tptp.'Geographic-Barrier'|) (tptp.user_description_2 X |tptp.'A geographic feature, such as a river or canyon, that separates populations and can thus lead to allopatric speciation.'|) (tptp.concept2words_2 X |tptp.'geographic barrier'|) (tptp.concept2words_2 X |tptp.'geographic-barrier'|) (tptp.barrier_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geographic_region_1 X) (and (tptp.original_name_2 X |tptp.'Geographic-Region'|) (tptp.user_description_2 X |tptp.'A location on the Earth.'|) (tptp.concept2words_2 X |tptp.'geographic region'|) (tptp.concept2words_2 X |tptp.'geographic-region'|) (tptp.region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geologic_entity_1 X) (and (tptp.original_name_2 X |tptp.'Geologic-Entity'|) (tptp.user_description_2 X |tptp.'An object created by geologic processes.'|) (tptp.concept2words_2 X |tptp.'geologic entity'|) (tptp.concept2words_2 X |tptp.'geologic-entity'|) (tptp.substance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geologic_process_1 X) (and (tptp.original_name_2 X |tptp.'Geologic-Process'|) (tptp.user_description_2 X |tptp.'Any of the processes that shapes the physical structure of the Earth.'|) (tptp.concept2words_2 X |tptp.'geologic process'|) (tptp.concept2words_2 X |tptp.'geologic-process'|) (tptp.physical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geologic_uplift_1 X) (and (tptp.original_name_2 X |tptp.'Geologic-Uplift'|) (tptp.user_description_2 X |tptp.'A geologic process that results in the elevation of rock layers.'|) (tptp.concept2words_2 X |tptp.'geologic uplift'|) (tptp.concept2words_2 X |tptp.'geologic-uplift'|) (tptp.geologic_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geological_time_period_1 X) (and (tptp.original_name_2 X |tptp.'Geological-Time-Period'|) (tptp.user_description_2 X |tptp.'A division of time related to the history of the earth.'|) (tptp.concept2words_2 X |tptp.'geological time period'|) (tptp.concept2words_2 X |tptp.'geological-time-period'|) (tptp.time_span_1 X)))) (forall ((X $$unsorted)) (=> (tptp.geology_1 X) (and (tptp.original_name_2 X |tptp.'Geology'|) (tptp.user_description_2 X |tptp.'The study of the physical matter and energy that constitute the Earth.'|) (tptp.concept2words_2 X tptp.geology) (tptp.inquiry_1 X)))) (forall ((X $$unsorted)) (=> (tptp.germ_layer_1 X) (and (tptp.original_name_2 X |tptp.'Germ-Layer'|) (tptp.user_description_2 X |tptp.'In animal development, one of three layers of cells that will give rise to all of the tissues and organs of the body.'|) (tptp.concept2words_2 X |tptp.'layer of germ'|) (tptp.concept2words_2 X |tptp.'germ layer'|) (tptp.concept2words_2 X |tptp.'germ-layer'|) (tptp.embryonic_tissue_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_germanium_9 X))) (let ((_let_2 (tptp.fn_germanium_12 X))) (let ((_let_3 (tptp.fn_germanium_10 X))) (let ((_let_4 (tptp.fn_germanium_11 X))) (let ((_let_5 (tptp.fn_germanium_4 X))) (let ((_let_6 (tptp.fn_germanium_5 X))) (let ((_let_7 (tptp.fn_germanium_3 X))) (=> (tptp.germanium_1 X) (and (tptp.original_name_2 X |tptp.'Germanium'|) (tptp.user_description_2 X |tptp.'Germanium is a metalloid atom with atomic number 32. It is represented by the symbol Ge.'|) (tptp.concept2words_2 X tptp.germanium) (tptp.concept2words_2 X |tptp.'Ge'|) (tptp.metalloid_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"41"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"32"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"32"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"4"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.01"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"73"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"32"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"72.64"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_germanium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_germanium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_germanium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_germination_1 X))) (=> (tptp.germination_1 X) (and (tptp.original_name_2 X |tptp.'Germination'|) (tptp.user_description_2 X |tptp.'The process by which a seed or spore begins to grow.'|) (tptp.concept2words_2 X tptp.sprouting) (tptp.concept2words_2 X tptp.germinate) (tptp.concept2words_2 X tptp.germination) (tptp.developmental_process_1 X) (tptp.seedling_1 _let_1) (tptp.result_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_germline_cell_1 X))) (=> (tptp.germline_cell_1 X) (and (tptp.original_name_2 X |tptp.'Germline-Cell'|) (tptp.user_description_2 X |tptp.'The germline cell of a mature or developing individual is the group of cells containing genetic material that may be passed to offspring.'|) (tptp.concept2words_2 X |tptp.'germ line cell'|) (tptp.concept2words_2 X |tptp.'germ-line cell'|) (tptp.concept2words_2 X |tptp.'germline cell'|) (tptp.concept2words_2 X |tptp.'germline-cell'|) (tptp.reproductive_cell_1 X) (tptp.telomerase_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.gestation_1 X) (and (tptp.original_name_2 X |tptp.'Gestation'|) (tptp.user_description_2 X |tptp.'The state of pregnancy, in which a female carries developing young in her reproductive tract.'|) (tptp.concept2words_2 X tptp.gestate) (tptp.concept2words_2 X tptp.gestation) (tptp.female_reproductive_cycle_events_1 X) (not (tptp.cell_determination_1 X)) (not (tptp.childbirth_1 X)) (not (tptp.compaction_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.molting_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.organogenesis_1 X)) (not (tptp.oviparous_1 X)) (not (tptp.ovoviviparous_1 X)) (not (tptp.ovulation_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.pattern_formation_1 X)) (not (tptp.phase_change_1 X)) (not (tptp.primary_growth_1 X)) (not (tptp.protostome_development_1 X)) (not (tptp.radial_cleavage_1 X)) (not (tptp.senescence_1 X)) (not (tptp.torsion_1 X)) (not (tptp.viviparous_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gesticulate_2 X))) (let ((_let_2 (tptp.fn_gesticulate_1 X))) (=> (tptp.gesticulate_1 X) (and (tptp.original_name_2 X |tptp.'Gesticulate'|) (tptp.concept2words_2 X tptp.gesticulate) (tptp.concept2words_2 X tptp.gesture) (tptp.concept2words_2 X tptp.motion) (tptp.concept2words_2 X tptp.orient) (tptp.embody_1 X) (tptp.orient_1 X) (not (tptp.stand_up_1 X)) (not (tptp.sit_down_1 X)) (not (tptp.fidget_1 X)) (not (tptp.speak_1 X)) (not (tptp.mark_1 X)) (tptp.tangible_entity_1 _let_2) (tptp.light_1 _let_1) (tptp.agent_2 X _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_embody_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_get_free_dna_into_cell_5 X))) (let ((_let_2 (tptp.fn_cell_30 _let_1))) (let ((_let_3 (tptp.fn_get_free_dna_into_cell_4 X))) (let ((_let_4 (tptp.fn_plasma_membrane_74 _let_3))) (let ((_let_5 (tptp.fn_get_free_dna_into_cell_6 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_get_free_dna_into_cell_7 X))) (let ((_let_8 (tptp.fn_get_free_dna_into_cell_1 X))) (let ((_let_9 (tptp.fn_get_free_dna_into_cell_2 X))) (let ((_let_10 (tptp.fn_get_free_dna_into_cell_3 X))) (=> (tptp.get_free_dna_into_cell_1 X) (and (tptp.original_name_2 X |tptp.'Get-Free-DNA-Into-Cell'|) (tptp.user_description_2 X |tptp.'Process of moving extant DNA inside a cell.'|) (tptp.concept2words_2 X tptp.insert) (tptp.concept2words_2 X |tptp.'get free dna into cell'|) (tptp.concept2words_2 X |tptp.'get-free-dna-into-cell'|) (tptp.move_into_1 X) (tptp.engineering_1 X) (tptp.pore_1 _let_8) (tptp.event_1 _let_9) (tptp.scientist_1 _let_10) (tptp.plasma_membrane_1 _let_3) (tptp.tangible_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.move_through_1 _let_5) (tptp.move_1 _let_5) (tptp.dna_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.move_through_1 _let_4) (tptp.move_1 _let_4) (tptp.plasma_membrane_1 _let_2) (tptp.agent_2 _let_9 _let_10) (tptp.next_event_2 _let_9 _let_5) (tptp.base_2 _let_9 _let_1) (tptp.result_2 _let_9 _let_8) (tptp.agent_2 X _let_10) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_5) (tptp.first_subevent_2 X _let_9) (tptp.path_2 X _let_3) (tptp.is_inside_2 _let_8 _let_3) (tptp.object_2 X _let_7) (tptp.object_2 _let_5 _let_7) (tptp.base_2 X _let_1) (tptp.base_2 _let_5 _let_3) (tptp.has_part_2 _let_1 _let_3) (= _let_7 (tptp.fn_move_1 X)) (= _let_7 _let_6) (= _let_1 (tptp.fn_move_into_1 X)) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_giant_tubeworm_16 X))) (let ((_let_2 (tptp.fn_mutualism_1 _let_1))) (let ((_let_3 (tptp.fn_mutualism_2 _let_1))) (let ((_let_4 (tptp.fn_annelid_10 X))) (let ((_let_5 (tptp.fn_animal_19 X))) (let ((_let_6 (tptp.fn_giant_tubeworm_19 X))) (let ((_let_7 (tptp.fn_giant_tubeworm_23 X))) (let ((_let_8 (tptp.fn_giant_tubeworm_17 X))) (let ((_let_9 (tptp.fn_giant_tubeworm_14 X))) (let ((_let_10 (tptp.fn_giant_tubeworm_15 X))) (let ((_let_11 (tptp.fn_giant_tubeworm_12 X))) (let ((_let_12 (tptp.fn_giant_tubeworm_13 X))) (let ((_let_13 (tptp.fn_giant_tubeworm_20 X))) (let ((_let_14 (tptp.fn_giant_tubeworm_18 X))) (let ((_let_15 (tptp.fn_create_1 _let_14))) (let ((_let_16 (tptp.fn_giant_tubeworm_21 X))) (let ((_let_17 (tptp.fn_produce_1 _let_14))) (let ((_let_18 (tptp.fn_giant_tubeworm_22 X))) (let ((_let_19 (tptp.fn_giant_tubeworm_9 X))) (let ((_let_20 (tptp.fn_giant_tubeworm_1 X))) (let ((_let_21 (tptp.fn_giant_tubeworm_3 X))) (let ((_let_22 (tptp.fn_giant_tubeworm_8 X))) (let ((_let_23 (tptp.fn_giant_tubeworm_7 X))) (let ((_let_24 (tptp.fn_giant_tubeworm_6 X))) (let ((_let_25 (tptp.fn_giant_tubeworm_5 X))) (let ((_let_26 (tptp.fn_giant_tubeworm_4 X))) (=> (tptp.giant_tubeworm_1 X) (and (tptp.original_name_2 X |tptp.'Giant-Tubeworm'|) (tptp.user_description_2 X |tptp.'Large polychaete worm, lacking a mouth or digestive system, which lives under deep pressure around hydrothermal vents in the ocean. Giant tube worms rely on mutualistic bacteria for their nutrition and survival. Scientific name Riftia pachyptila.'|) (tptp.concept2words_2 X |tptp.'giant tubeworm'|) (tptp.concept2words_2 X |tptp.'giant-tubeworm'|) (tptp.polychaete_1 X) (tptp.length_value_1 _let_20) (tptp.nutrient_1 _let_21) (tptp.nitrate_ion_1 _let_26) (tptp.sulfide_1 _let_25) (tptp.oxygen_1 _let_24) (tptp.carbon_dioxide_1 _let_23) (tptp.substance_1 _let_22) (tptp.esophagus_1 _let_19) (tptp.locomotion_1 _let_11) (tptp.take_in_1 _let_12) (tptp.heterotroph_1 _let_9) (tptp.nutrition_1 _let_10) (tptp.mutualism_1 _let_1) (tptp.water_1 _let_8) (tptp.produce_1 _let_14) (tptp.temperature_value_1 _let_6) (tptp.bacterium_1 _let_13) (tptp.energy_1 _let_16) (tptp.hydrogen_1 _let_18) (tptp.specific_heat_value_1 _let_7) (tptp.tangible_entity_1 _let_17) (tptp.entity_1 _let_15) (tptp.organism_1 _let_3) (tptp.organism_1 _let_2) (tptp.beneficiary_2 _let_1 _let_13) (tptp.base_2 _let_14 X) (tptp.raw_material_2 _let_14 _let_26) (tptp.raw_material_2 _let_14 _let_25) (tptp.raw_material_2 _let_14 _let_24) (tptp.raw_material_2 _let_14 _let_23) (tptp.result_2 _let_14 _let_22) (tptp.agent_2 _let_14 _let_13) (tptp.plays_2 _let_22 _let_21) (tptp.the_cardinal_value_2 _let_20 |"3.0e0"|) (tptp.cardinal_unit_class_2 _let_20 tptp.meter_0) (tptp.length_2 X _let_20) (tptp.has_part_2 X _let_19) (tptp.raw_material_2 _let_14 _let_18) (tptp.result_2 _let_14 _let_16) (tptp.agent_2 _let_1 X) (not (= X _let_13)) (tptp.agent_2 _let_1 _let_13) (tptp.beneficiary_2 _let_1 X) (not (= _let_13 X)) (tptp.agent_2 _let_11 X) (tptp.object_2 _let_11 X) (tptp.agent_2 _let_12 X) (tptp.base_2 _let_12 X) (tptp.agent_2 _let_10 X) (tptp.in_event_2 _let_9 _let_10) (tptp.temperature_2 X _let_6) (tptp.correspondence_2 _let_6 _let_7) (tptp.specific_heat_2 _let_8 _let_7) (tptp.has_part_2 X _let_8) (tptp.plays_2 X _let_9) (= _let_18 _let_17) (= _let_16 _let_15) (= X _let_3) (= _let_13 _let_3) (= X _let_2) (= _let_12 (tptp.fn_animal_9 X)) (= _let_11 (tptp.fn_animal_22 X)) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 (tptp.fn_annelid_11 X)) (= _let_8 (tptp.fn_annelid_7 X)) (= _let_7 (tptp.fn_annelid_8 X)) (= _let_6 (tptp.fn_annelid_9 X)) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gibberellin_1 X) (and (tptp.original_name_2 X |tptp.'Gibberellin'|) (tptp.user_description_2 X |tptp.'Any of a group of plant hormones that regulate growth and developmental processes such as stem elongation, germination, flowering, and senescence.'|) (tptp.concept2words_2 X tptp.gibberellin) (tptp.growth_factor_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gigantism_1 X) (and (tptp.original_name_2 X |tptp.'Gigantism'|) (tptp.user_description_2 X |tptp.'A medical condition a person grows excessively and reaches a height significantly above average. In humans, gigantism is caused by an excessive production of growth hormone during childhood.'|) (tptp.concept2words_2 X tptp.gigantism) (tptp.metabolic_disorder_1 X) (not (tptp.hypopituitarism_1 X)) (not (tptp.cretinism_1 X)) (not (tptp.hyperthyroidism_1 X)) (not (tptp.diabetes_mellitus_1 X)) (not (tptp.mitochondrial_myopathy_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gill_2 X))) (let ((_let_2 (tptp.fn_gill_3 X))) (=> (tptp.gill_1 X) (and (tptp.original_name_2 X |tptp.'Gill'|) (tptp.user_description_2 X |tptp.'The respiratory organ of aquatic animals.'|) (tptp.concept2words_2 X tptp.gill) (tptp.respiratory_organ_1 X) (tptp.oxygen_molecule_1 _let_1) (tptp.quantity_value_1 _let_2) (tptp.the_scalar_value_2 _let_2 tptp.high_0) (tptp.scalar_unit_class_2 _let_2 tptp.molecule_0) (tptp.quantity_2 _let_1 _let_2) (tptp.is_inside_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_give_1 X))) (=> (tptp.give_1 X) (and (tptp.original_name_2 X |tptp.'Give'|) (tptp.concept2words_2 X tptp.give) (tptp.relinquish_1 X) (tptp.tangible_entity_1 _let_1) (tptp.recipient_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.gizzard_1 X) (and (tptp.original_name_2 X |tptp.'Gizzard'|) (tptp.user_description_2 X |tptp.'Muscular, thick walled organ found in the digestive tract of birds and some reptiles, fish and invertebrates which serves to help grind up food.'|) (tptp.concept2words_2 X tptp.gizzard) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.glacier_1 X) (and (tptp.original_name_2 X |tptp.'Glacier'|) (tptp.user_description_2 X |tptp.'A large mass of ice that persists for many years and moves slowly over the land.'|) (tptp.concept2words_2 X tptp.glacier) (tptp.geographic_region_1 X) (not (tptp.earth_pole_1 X)) (not (tptp.tropical_region_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gland_1 X) (and (tptp.original_name_2 X |tptp.'Gland'|) (tptp.user_description_2 X |tptp.'Any of several organs in the body that produce a chemical substance needed by the body and release it for circulation either via ducts or directly into the bloodstream.'|) (tptp.concept2words_2 X tptp.gland) (tptp.secretory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.glandular_epithelium_1 X) (and (tptp.original_name_2 X |tptp.'Glandular-Epithelium'|) (tptp.user_description_2 X |tptp.'Type of epithelial tissue which is specialized for secretory activity.'|) (tptp.concept2words_2 X |tptp.'secretory epithelium'|) (tptp.concept2words_2 X |tptp.'secretory-epithelium'|) (tptp.concept2words_2 X |tptp.'glandular epithelium'|) (tptp.concept2words_2 X |tptp.'glandular-epithelium'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.glans_1 X) (and (tptp.original_name_2 X |tptp.'Glans'|) (tptp.user_description_2 X |tptp.'The rounded tip of the penis or clitoris that is extremely sensitive and plays a key role in sexual arousal.'|) (tptp.concept2words_2 X tptp.glans) (tptp.stratified_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.glans_penis_1 X) (and (tptp.original_name_2 X |tptp.'Glans-Penis'|) (tptp.user_description_2 X |tptp.'The distal end of the human penis.'|) (tptp.concept2words_2 X |tptp.'head of penis'|) (tptp.concept2words_2 X |tptp.'penis head'|) (tptp.concept2words_2 X |tptp.'penis of glans'|) (tptp.concept2words_2 X |tptp.'glans penis'|) (tptp.concept2words_2 X |tptp.'glans-penis'|) (tptp.invertebrate_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.glass_1 X) (and (tptp.original_name_2 X |tptp.'Glass'|) (tptp.concept2words_2 X tptp.glass) (tptp.solid_substance_1 X) (not (tptp.wood_1 X)) (not (tptp.tissue_1 X)) (not (tptp.stone_1 X)) (not (tptp.rubber_1 X)) (not (tptp.plastic_1 X)) (not (tptp.paper_1 X)) (not (tptp.pellet_1 X)) (not (tptp.solid_support_1 X))))) (forall ((X $$unsorted)) (=> (tptp.glass_lens_1 X) (and (tptp.original_name_2 X |tptp.'Glass-Lens'|) (tptp.user_description_2 X |tptp.'A glass lens is a lens made of glass and is an optical device with perfect or approximate axial symmetry which transmits and refracts light, converging or diverging the beam.'|) (tptp.concept2words_2 X |tptp.'glass-lens'|) (tptp.concept2words_2 X |tptp.'lens of glass'|) (tptp.concept2words_2 X |tptp.'glass lens'|) (tptp.concept2words_2 X |tptp.'glass-len'|) (tptp.lens_1 X) (tptp.glass_1 X) (not (tptp.electromagnet_1 X))))) (forall ((X $$unsorted)) (=> (tptp.glial_cell_1 X) (and (tptp.original_name_2 X |tptp.'Glial-Cell'|) (tptp.user_description_2 X |tptp.'Supporting cells that are essential for the structural integrity of the nervous system and for the normal functioning of neurons.'|) (tptp.concept2words_2 X |tptp.'glial cell'|) (tptp.concept2words_2 X |tptp.'glial-cell'|) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.global_air_circulation_1 X) (and (tptp.original_name_2 X |tptp.'Global-Air-Circulation'|) (tptp.user_description_2 X |tptp.'A pattern of air circulation over the surface of the Earth, driven by latitude and temperature. The driving force for global air circulation is heating of the atmosphere at the equator.'|) (tptp.concept2words_2 X |tptp.'global air circulation'|) (tptp.concept2words_2 X |tptp.'global-air-circulation'|) (tptp.physical_process_1 X) (not (tptp.water_cycle_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_global_biogeochemical_cycle_1 X))) (=> (tptp.global_biogeochemical_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Global-Biogeochemical-Cycle'|) (tptp.user_description_2 X |tptp.'Biogeochemical cycle which cycles chemicals through biotic and abiotic components of ecosystems on a global scale. Chemicals which naturally exist in gaseous form (such as nitrogen and oxygen) cycle globally.'|) (tptp.concept2words_2 X |tptp.'undergo the global biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'global biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'global-biogeochemical-cycle'|) (tptp.biogeochemical_cycle_1 X) (tptp.biosphere_1 _let_1) (tptp.site_2 X _let_1) (= _let_1 (tptp.fn_biogeochemical_cycle_2 X)))))) (forall ((X $$unsorted)) (=> (tptp.global_ecology_1 X) (and (tptp.original_name_2 X |tptp.'Global-Ecology'|) (tptp.user_description_2 X |tptp.'The study of how organisms function and interact with their environment over a global scale.'|) (tptp.concept2words_2 X |tptp.'global ecology'|) (tptp.concept2words_2 X |tptp.'global-ecology'|) (tptp.ecology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_global_warming_1 X))) (let ((_let_2 (tptp.fn_global_warming_2 X))) (=> (tptp.global_warming_1 X) (and (tptp.original_name_2 X |tptp.'Global-Warming'|) (tptp.user_description_2 X |tptp.'A process involving buildup of atmospheric CO2 and other greenhouse gases that increases global average temperature.'|) (tptp.concept2words_2 X |tptp.'undergo global warming'|) (tptp.concept2words_2 X tptp.heat) (tptp.concept2words_2 X |tptp.'global warming'|) (tptp.concept2words_2 X |tptp.'global-warming'|) (tptp.climate_change_1 X) (tptp.earth_1 _let_1) (tptp.greenhouse_gas_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_globin_ancestral_gene_2 X))) (let ((_let_2 (tptp.fn_globin_ancestral_gene_1 X))) (=> (tptp.globin_ancestral_gene_1 X) (and (tptp.original_name_2 X |tptp.'Globin-Ancestral-Gene'|) (tptp.user_description_2 X |tptp.'Common evolutionary gene for beta globin ancestral gene and alpha globin ancestral gene.'|) (tptp.concept2words_2 X |tptp.'globin ancestral gene'|) (tptp.concept2words_2 X |tptp.'globin-ancestral-gene'|) (tptp.ancestral_gene_1 X) (tptp.alpha_globin_ancestral_gene_1 _let_2) (tptp.evolution_1 _let_1) (tptp.object_2 _let_1 X) (tptp.result_2 _let_1 _let_2) (= _let_2 (tptp.fn_ancestral_gene_1 X)) (= _let_1 (tptp.fn_ancestral_gene_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.globins_1 X) (and (tptp.original_name_2 X |tptp.'Globins'|) (tptp.user_description_2 X |tptp.'A group of proteins that contain a heme group and function in transporting oxygen.'|) (tptp.concept2words_2 X tptp.globins) (tptp.concept2words_2 X tptp.globin) (tptp.polypeptide_1 X) (not (tptp.endothelin_1 X)) (not (tptp.heavy_chain_1 X)) (not (tptp.light_chain_1 X)) (not (tptp.neuropeptide_1 X)) (not (tptp.peptide_hormone_1 X)) (not (tptp.polypeptide_segment_1 X)) (not (tptp.signal_peptide_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_globular_protein_1 X))) (=> (tptp.globular_protein_1 X) (and (tptp.original_name_2 X |tptp.'Globular-Protein'|) (tptp.user_description_2 X |tptp.'A protein which has a roughly spherical shape in its 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(tptp.has_region_2 _let_89 _let_94) (tptp.is_inside_2 _let_90 _let_1) (tptp.agent_2 _let_16 _let_90) (tptp.result_2 _let_16 _let_8) (not (= _let_91 _let_90)) (not (= _let_90 _let_91)) (tptp.agent_2 _let_99 _let_89) (tptp.has_part_2 _let_97 _let_87) (tptp.agent_2 _let_99 _let_97) (tptp.result_2 _let_99 _let_5) (tptp.is_between_2 _let_5 _let_90) (tptp.object_2 _let_48 _let_90) (tptp.is_inside_2 _let_90 _let_3) (tptp.has_part_2 _let_90 _let_86) (not (= _let_86 _let_87)) (tptp.object_2 _let_99 _let_87) (tptp.object_2 _let_99 _let_93) (not (= _let_87 _let_86)) (tptp.is_inside_2 _let_91 _let_1) (tptp.is_inside_2 _let_97 _let_3) (tptp.has_part_2 X _let_91) (tptp.has_part_2 X _let_90) (tptp.is_between_2 _let_8 _let_91) (not (= _let_97 _let_91)) (not (= _let_91 _let_97)) (not (= _let_89 _let_91)) (not (= _let_91 _let_89)) (tptp.possesses_2 X _let_8) (tptp.is_between_2 _let_8 _let_89) (tptp.has_part_2 X _let_89) (tptp.has_part_2 X _let_97) (not (= _let_97 _let_90)) (not (= _let_90 _let_97)) (tptp.is_between_2 _let_5 _let_97) (tptp.is_between_2 _let_5 _let_89) (tptp.is_inside_2 _let_89 _let_3) (tptp.has_region_2 X _let_3) (tptp.possesses_2 X _let_5) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_89 _let_1) (not (= _let_89 _let_90)) (not (= _let_97 _let_89)) (not (= _let_89 _let_97)) (not (= _let_90 _let_89)) (tptp.is_inside_2 _let_96 _let_94) (tptp.is_at_2 _let_94 _let_95) (tptp.object_2 _let_23 _let_93) (not (= _let_93 _let_87)) (tptp.is_near_2 _let_94 _let_93) (tptp.is_near_2 _let_93 _let_94) (not (= _let_87 _let_93)) (tptp.has_function_2 _let_8 _let_48) (tptp.agent_2 _let_48 _let_8) (tptp.result_2 _let_92 _let_8) (tptp.object_2 _let_92 _let_86) (not (= _let_86 _let_93)) (not (= _let_93 _let_86)) (tptp.object_2 _let_14 _let_87) (tptp.object_2 _let_25 _let_87) (tptp.result_2 _let_25 _let_5) (tptp.object_2 _let_25 _let_86) (tptp.agent_2 _let_23 _let_89) (tptp.agent_2 _let_25 _let_90) (tptp.agent_2 _let_23 _let_91) (tptp.agent_2 _let_25 _let_89) (= _let_86 _let_17) (= _let_86 _let_15) (= _let_91 _let_45) (= _let_91 _let_51) (= _let_91 _let_43) (= _let_91 _let_50) (= _let_91 _let_49) (= _let_106 _let_105) (= _let_44 _let_7) (= _let_92 _let_7) (= _let_104 _let_9) (= _let_25 _let_9) (= _let_44 _let_9) (= _let_96 _let_72) (= _let_95 _let_68) (= _let_38 (tptp.fn_carbohydrate_21 X)) (= _let_103 _let_98) (= (tptp.fn_glucose_7 X) (tptp.fn_monosaccharide_19 X)) (= (tptp.fn_glucose_6 X) (tptp.fn_monosaccharide_3 X)) (= (tptp.fn_glucose_36 X) (tptp.fn_monosaccharide_1 X)) (= _let_102 (tptp.fn_monosaccharide_4 X)) (= _let_101 _let_85) (= _let_101 _let_84) (= _let_100 _let_83) (= _let_100 _let_82) (= _let_94 _let_63) (= _let_94 _let_62) (= _let_89 _let_39) (= _let_93 _let_58) (= _let_89 _let_30) (= _let_93 _let_60) (= _let_93 _let_57) (= _let_25 _let_7) (= _let_16 _let_7) (= _let_90 _let_30) (= _let_48 _let_55) (= _let_5 _let_19) (= _let_93 _let_12) (= _let_99 _let_98) (= _let_86 _let_13) (= _let_87 _let_22) (= _let_87 _let_13) (= _let_86 _let_12) (= _let_90 _let_29) (= _let_90 _let_28) (= _let_91 _let_47) (= _let_8 _let_53) (= _let_91 _let_46) (= _let_91 _let_42) (= _let_89 _let_37) (= _let_8 _let_52) (= X _let_4) (= _let_3 _let_81) (= _let_89 _let_33) (= _let_3 _let_80) (= _let_3 _let_79) (= _let_3 _let_78) (= _let_89 _let_35) (= _let_5 _let_20) (= _let_5 _let_18) (= _let_90 _let_32) (= _let_90 _let_27) (= _let_89 _let_28) (= _let_89 _let_36) (= _let_97 _let_37) (= _let_89 _let_34) (= _let_97 _let_35) (= _let_89 _let_29) (= _let_97 _let_76) (= _let_89 _let_32) (= _let_97 _let_77) (= _let_97 _let_75) (= _let_89 _let_31) (= _let_89 _let_27) (= X _let_2) (= _let_1 _let_74) (= _let_1 _let_73) (= _let_96 _let_71) (= _let_95 _let_70) (= _let_95 _let_69) (= _let_95 _let_67) (= _let_93 _let_59) (= _let_23 _let_9) (= _let_87 _let_11) (= _let_94 _let_64) (= _let_93 _let_10) (= _let_93 _let_11) (= _let_94 _let_66) (= _let_93 _let_21) (= _let_94 _let_65) (= _let_94 _let_61) (= _let_93 _let_56) (= _let_86 _let_11) (= _let_92 _let_9) (= _let_48 _let_54) (= _let_89 _let_26) (= _let_91 _let_41) (= _let_90 _let_40) (= _let_89 _let_24) (= _let_14 _let_88) (= _let_87 _let_21) (= _let_25 _let_6) (= _let_86 _let_10) (= _let_9 _let_84) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_82) (= _let_82 _let_82) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_37) (= _let_35 _let_37) (= _let_37 _let_35) (= _let_77 _let_35) (= _let_35 _let_77) (= _let_77 _let_77) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_75 _let_75) (= _let_75 _let_76) (= _let_76 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_58) (= _let_58 _let_58) (= _let_58 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_11 _let_58) (= _let_58 _let_11) (= _let_21 _let_11) (= _let_21 _let_10) (= _let_10 _let_21) (= _let_21 _let_57) (= _let_57 _let_10) (= _let_10 _let_12) (= _let_12 _let_57) (= _let_57 _let_57) (= _let_57 _let_12) (= _let_12 _let_56) (= _let_56 _let_56) (= _let_56 _let_7) (= _let_7 _let_9) (= _let_9 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_42 _let_46) (= _let_46 _let_42) (= _let_42 _let_45) (= _let_45 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_30) (= _let_30 _let_32) (= _let_32 _let_30) (= _let_27 _let_40) (= _let_40 _let_39) (= _let_37 _let_39) (= _let_39 _let_37) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_13) (= _let_13 _let_22) (= _let_22 _let_13) (= _let_13 _let_11) (= _let_11 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_phosphorylated_intermediate_5 X))) (let ((_let_2 (tptp.fn_molecule_11 X))) (let ((_let_3 (tptp.fn_phosphorylated_intermediate_7 X))) (let ((_let_4 (tptp.fn_glucose_1_phosphate_6 X))) (let ((_let_5 (tptp.fn_covalent_bond_19 _let_4))) (let ((_let_6 (tptp.fn_covalent_bond_20 _let_4))) (let ((_let_7 (tptp.fn_glucose_1_phosphate_4 X))) (let ((_let_8 (tptp.fn_glucose_1_phosphate_5 X))) (let ((_let_9 (tptp.fn_glucose_1_phosphate_2 X))) (let ((_let_10 (tptp.fn_glucose_1_phosphate_3 X))) (=> (tptp.glucose_1_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Glucose-1-Phosphate'|) (tptp.user_description_2 X |tptp.'An ion constituting both glucose and phosphate.'|) (tptp.concept2words_2 X |tptp.'glucose 1 phosphate'|) (tptp.concept2words_2 X |tptp.'glucose-1-phosphate'|) (tptp.phosphorylated_intermediate_1 X) (tptp.structural_complexity_value_1 _let_9) (tptp.nutrient_1 _let_10) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.oxygen_1 _let_8) (tptp.single_bond_1 _let_4) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.structural_complexity_2 X _let_9) (tptp.plays_2 X _let_10) (tptp.the_scalar_value_2 _let_9 tptp.complex_0) (tptp.scalar_unit_class_2 _let_9 tptp.chemical_entity_0) (tptp.is_between_2 _let_4 _let_8) (tptp.possesses_2 X _let_4) (tptp.is_between_2 _let_4 _let_7) (tptp.has_part_2 X _let_8) (tptp.has_part_2 X _let_7) (not (= _let_8 _let_7)) (not (= _let_7 _let_8)) (= _let_8 _let_6) (= _let_8 _let_5) (= _let_7 _let_2) (= _let_4 (tptp.fn_molecule_10 X)) (= _let_8 _let_3) (= _let_7 _let_1) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glucose_6_phosphate_9 X))) (let ((_let_2 (tptp.fn_fructose_6_phosphate_36 _let_1))) (let ((_let_3 (tptp.fn_glucose_6_phosphate_15 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_phosphorylated_intermediate_8 X))) (let ((_let_6 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_7 (tptp.fn_molecule_7 X))) (let ((_let_8 (tptp.fn_phosphorylated_intermediate_6 X))) (let ((_let_9 (tptp.fn_molecule_11 X))) (let ((_let_10 (tptp.fn_glucose_6_phosphate_11 X))) (let ((_let_11 (tptp.fn_covalent_bond_19 _let_10))) (let ((_let_12 (tptp.fn_covalent_bond_20 _let_10))) (let ((_let_13 (tptp.fn_carbonyl_group_5 _let_3))) (let ((_let_14 (tptp.fn_glucose_6_phosphate_16 X))) (let ((_let_15 (tptp.fn_polar_covalent_bond_16 _let_14))) (let ((_let_16 (tptp.fn_carbonyl_group_8 _let_3))) (let ((_let_17 (tptp.fn_molecule_10 X))) (let ((_let_18 (tptp.fn_glucose_6_phosphate_17 X))) (let ((_let_19 (tptp.fn_glucose_6_phosphate_14 X))) (let ((_let_20 (tptp.fn_glucose_6_phosphate_12 X))) (let ((_let_21 (tptp.fn_glucose_6_phosphate_13 X))) (let ((_let_22 (tptp.fn_glucose_6_phosphate_25 X))) (let ((_let_23 (tptp.fn_glucose_6_phosphate_24 X))) (let ((_let_24 (tptp.fn_glucose_6_phosphate_21 X))) (let ((_let_25 (tptp.fn_glucose_6_phosphate_18 X))) (let ((_let_26 (tptp.fn_glucose_6_phosphate_19 X))) (let ((_let_27 (tptp.fn_glucose_6_phosphate_20 X))) (let ((_let_28 (tptp.fn_glucose_6_phosphate_8 X))) (let ((_let_29 (tptp.fn_glucose_6_phosphate_10 X))) (let ((_let_30 (tptp.fn_glucose_6_phosphate_26 X))) (let ((_let_31 (tptp.fn_glucose_6_phosphate_5 X))) (let ((_let_32 (tptp.fn_glucose_6_phosphate_3 X))) (let ((_let_33 (tptp.fn_glucose_6_phosphate_2 X))) (let ((_let_34 (tptp.fn_glucose_6_phosphate_4 X))) (=> (tptp.glucose_6_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Glucose-6-Phosphate'|) (tptp.user_description_2 X |tptp.'Glucose 6-phosphate is glucose sugar phosphorylated on carbon 6.'|) (tptp.concept2words_2 X |tptp.'robison ester'|) (tptp.concept2words_2 X |tptp.'robison-ester'|) (tptp.concept2words_2 X |tptp.'glucose 6 phosphate'|) (tptp.concept2words_2 X |tptp.'glucose-6-phosphate'|) (tptp.phosphorylated_intermediate_1 X) (tptp.structural_complexity_value_1 _let_33) (tptp.end_1 _let_32) (tptp.chemical_stability_value_1 _let_34) (tptp.chemical_stability_value_1 _let_31) (tptp.unequal_sharing_1 _let_28) (tptp.share_1 _let_28) (tptp.fructose_6_phosphate_1 _let_1) (tptp.chemical_bond_1 _let_29) (tptp.double_bond_1 _let_29) (tptp.single_bond_1 _let_10) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.phosphorus_1 _let_20) (tptp.functional_group_1 _let_21) (tptp.phosphate_group_1 _let_21) (tptp.carbon_skeleton_1 _let_19) (tptp.carbonyl_group_1 _let_3) (tptp.polar_covalent_bond_1 _let_14) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.carbon_1 _let_18) (tptp.quantity_value_1 _let_25) (tptp.speed_value_1 _let_26) (tptp.constant_motion_1 _let_27) (tptp.kinetic_energy_1 _let_24) (tptp.molecule_1 _let_23) (tptp.phosphorylation_1 _let_22) (tptp.glucose_1 _let_30) (tptp.double_bond_1 _let_16) (tptp.unequal_sharing_1 _let_15) (tptp.share_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.carbon_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.glucose_6_phosphate_1 _let_2) (tptp.the_scalar_value_2 _let_33 tptp.complex_0) (tptp.scalar_unit_class_2 _let_33 tptp.chemical_entity_0) (tptp.is_at_2 _let_32 _let_19) (tptp.is_at_2 _let_3 _let_32) (tptp.the_categorical_value_2 _let_34 tptp.stable_0) (tptp.greater_than_or_equal_to_2 _let_34 _let_31) (tptp.greater_than_2 _let_34 _let_31) (tptp.the_categorical_value_2 _let_31 tptp.unstable_0) (tptp.structural_complexity_2 X _let_33) (tptp.possesses_2 X _let_14) (tptp.possesses_2 X _let_10) (tptp.has_region_2 X _let_32) (tptp.chemical_stability_2 X _let_31) (tptp.is_between_2 _let_10 _let_20) (tptp.has_state_2 _let_30 X) (tptp.raw_material_2 _let_22 _let_30) (tptp.possesses_2 X _let_29) (tptp.is_between_2 _let_29 _let_20) (tptp.result_2 _let_28 _let_14) (tptp.has_region_2 X _let_3) (tptp.has_isomer_2 X _let_1) (tptp.has_state_2 X _let_1) (tptp.is_inside_2 _let_18 _let_3) (tptp.agent_2 _let_28 _let_18) (tptp.result_2 _let_28 _let_29) (tptp.is_between_2 _let_29 _let_18) (tptp.directly_proportional_2 _let_26 _let_25) (tptp.speed_2 _let_27 _let_26) (tptp.object_2 _let_27 X) (tptp.has_region_2 X _let_21) (tptp.result_2 _let_22 X) (tptp.raw_material_2 _let_22 _let_23) (not (= _let_23 X)) (tptp.possesses_2 X _let_24) (tptp.quantity_2 _let_24 _let_25) (not (= X _let_23)) (tptp.has_part_2 X _let_18) (tptp.is_inside_2 _let_18 _let_19) (tptp.has_region_2 X _let_19) (tptp.has_part_2 X _let_20) (tptp.is_inside_2 _let_20 _let_21) (= _let_20 _let_12) (= _let_20 _let_11) (= _let_30 (tptp.fn_phosphorylated_intermediate_1 X)) (= _let_20 _let_9) (= _let_29 _let_17) (= _let_28 _let_15) (= X _let_4) (= X _let_2) (= _let_29 _let_16) (= _let_28 _let_13) (= _let_18 _let_6) (= (tptp.fn_glucose_6_phosphate_22 X) (tptp.fn_phosphorylated_intermediate_15 X)) (= (tptp.fn_glucose_6_phosphate_23 X) (tptp.fn_phosphorylated_intermediate_14 X)) (= _let_27 (tptp.fn_phosphorylated_intermediate_9 X)) (= _let_26 (tptp.fn_phosphorylated_intermediate_12 X)) (= _let_25 (tptp.fn_phosphorylated_intermediate_13 X)) (= _let_24 (tptp.fn_phosphorylated_intermediate_4 X)) (= _let_23 (tptp.fn_phosphorylated_intermediate_3 X)) (= _let_22 (tptp.fn_phosphorylated_intermediate_2 X)) (= _let_21 (tptp.fn_phosphorylated_intermediate_11 X)) (= _let_20 _let_8) (= _let_19 (tptp.fn_phosphorylated_intermediate_10 X)) (= _let_18 _let_7) (= _let_18 _let_5) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glucose_isomer_1 X))) (let ((_let_2 (tptp.fn_glucose_isomer_4 X))) (let ((_let_3 (tptp.fn_glucose_isomer_3 X))) (=> (tptp.glucose_isomer_1 X) (and (tptp.original_name_2 X |tptp.'Glucose-Isomer'|) (tptp.user_description_2 X |tptp.'One of the two forms of glucose, each with the same atomic parts, but different structure, shape and function.'|) (tptp.concept2words_2 X |tptp.'isomer of glucose'|) (tptp.concept2words_2 X |tptp.'glucose isomer'|) (tptp.concept2words_2 X |tptp.'glucose-isomer'|) (tptp.aldose_1 X) (tptp.hexose_1 X) (tptp.isomer_1 X) (tptp.glucose_1 _let_1) (tptp.nutrient_1 _let_3) (tptp.structural_complexity_value_1 _let_2) (tptp.structural_complexity_2 X _let_2) (tptp.plays_2 X _let_3) (tptp.the_scalar_value_2 _let_2 tptp.complex_0) (tptp.scalar_unit_class_2 _let_2 tptp.chemical_entity_0) (tptp.has_isomer_2 _let_1 X))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.agent_2 X X1) (tptp.object_2 X X2) (tptp.animal_1 X1) (tptp.store_1 X) (tptp.glucose_1 X2)) (and (tptp.glucose_storage_by_animals_1 X) (= (tptp.fn_glucose_storage_by_animals_4 X) X2) (= (tptp.fn_glucose_storage_by_animals_1 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glucose_storage_by_animals_3 X))) (let ((_let_2 (tptp.fn_glycogen_8 _let_1))) (let ((_let_3 (tptp.fn_glucose_storage_by_animals_4 X))) (let ((_let_4 (tptp.fn_glucose_storage_by_animals_1 X))) (=> (tptp.glucose_storage_by_animals_1 X) (and (tptp.original_name_2 X |tptp.'Glucose-Storage-By-Animals'|) (tptp.user_description_2 X |tptp.'Animals cannot store much glucose. Surplus energy would be stored as glycogen and then fat.'|) (tptp.concept2words_2 X tptp.store) (tptp.concept2words_2 X |tptp.'glucose storage by animal'|) (tptp.concept2words_2 X |tptp.'glucose-storage-by-animal'|) (tptp.store_1 X) (not (tptp.glycogen_storage_by_vertebrate_1 X)) (not (tptp.starch_storage_by_plant_1 X)) (tptp.animal_1 _let_4) (tptp.glycogen_1 _let_1) (tptp.glucose_1 _let_3) (tptp.store_1 _let_2) (tptp.agent_2 X _let_4) (tptp.object_2 X _let_3) (tptp.base_2 X _let_1) (= _let_3 (tptp.fn_store_1 X)) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.glucose_transporter_1 X) (and (tptp.original_name_2 X |tptp.'Glucose-Transporter'|) (tptp.user_description_2 X |tptp.'An entity performing transport of glucose molecule within cells.'|) (tptp.concept2words_2 X |tptp.'glucose transporter'|) (tptp.concept2words_2 X |tptp.'glucose-transporter'|) (tptp.carrier_protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glutamate_1 X))) (let ((_let_2 (tptp.fn_chemical_reaction_1 _let_1))) (let ((_let_3 (tptp.fn_chemical_reaction_2 _let_1))) (let ((_let_4 (tptp.fn_glutamate_2 X))) (=> (tptp.glutamate_1 X) (and (tptp.original_name_2 X |tptp.'Glutamate'|) (tptp.user_description_2 X |tptp.'A neurotransmitter in the central nervous system. It is a salt form of the amino acid glutamic acid.'|) (tptp.concept2words_2 X tptp.glutamate) (tptp.amino_acid_neurotransmitter_1 X) (not (tptp.biogenic_amine_1 X)) (tptp.synthesis_reaction_1 _let_1) (tptp.alpha_ketoglutarate_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.raw_material_2 _let_1 _let_4) (tptp.result_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.glu))) (=> (tptp.glutamic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Glutamic-Acid'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids which make up proteins.'|) _let_1 (tptp.concept2words_2 X tptp.e) _let_1 (tptp.concept2words_2 X |tptp.'glutamic acid'|) (tptp.concept2words_2 X |tptp.'glutamic-acid'|) (tptp.acidic_amino_acid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.glutamine_1 X) (and (tptp.original_name_2 X |tptp.'Glutamine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids which make up proteins.'|) (tptp.concept2words_2 X tptp.gln) (tptp.concept2words_2 X tptp.q) (tptp.concept2words_2 X tptp.glutamine) (tptp.polar_amino_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glyceraldehyde_3_phosphate_5 X))) (let ((_let_2 (tptp.fn_dihydroxyacetone_phosphate_1 _let_1))) (let ((_let_3 (tptp.fn_glyceraldehyde_3_phosphate_1 X))) (let ((_let_4 (tptp.fn_glyceraldehyde_3_phosphate_2 X))) (=> (tptp.glyceraldehyde_3_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Glyceraldehyde-3-Phosphate'|) (tptp.user_description_2 X |tptp.'Glyceraldehyde 3-phosphate, also known as triose phosphate or 3-phosphoglyceraldehyde and abbreviated as G3P, GADP, GAP, TP, GALP or PGAL, is a chemical compound that occurs as an intermediate in several central metabolic pathways of all organisms.'|) (tptp.concept2words_2 X |tptp.'glyceraldehyde phosphate'|) (tptp.concept2words_2 X |tptp.'p gal'|) (tptp.concept2words_2 X |tptp.'p-gal'|) (tptp.concept2words_2 X tptp.pgal) (tptp.concept2words_2 X tptp.glyceraldehyde) (tptp.concept2words_2 X |tptp.'glyceraldehyde 3 phosphate'|) (tptp.concept2words_2 X |tptp.'glyceraldehyde-3-phosphate'|) (tptp.triose_1 X) (tptp.aldose_1 X) (not (tptp.acetaldehyde_1 X)) (tptp.charge_value_1 _let_3) (tptp.charge_value_1 _let_4) (tptp.dihydroxyacetone_phosphate_1 _let_1) (tptp.glyceraldehyde_3_phosphate_1 _let_2) (tptp.the_cardinal_value_2 _let_4 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_categorical_value_2 _let_4 tptp.partial_negative_0) (tptp.the_categorical_value_2 _let_4 tptp.partial_positive_0) (tptp.the_cardinal_value_2 _let_3 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_categorical_value_2 _let_3 tptp.partial_negative_0) (tptp.the_categorical_value_2 _let_3 tptp.partial_positive_0) (tptp.has_isomer_2 _let_1 X) (tptp.has_isomer_2 X _let_1) (tptp.has_state_2 _let_1 X) (tptp.has_state_2 X _let_1) (= X _let_2) (= _let_2 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_alcohol_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_2 X))) (let ((_let_3 (tptp.fn_glycerol_1 X))) (=> (tptp.glycerol_1 X) (and (tptp.original_name_2 X |tptp.'Glycerol'|) (tptp.user_description_2 X |tptp.'Simple alcohol which forms the base of a triglyceride.'|) (tptp.concept2words_2 X tptp.glycerol) (tptp.alcohol_1 X) (not (tptp.alcohol_hormone_1 X)) (not (tptp.alcoholic_beverage_1 X)) (not (tptp.ethyl_alcohol_1 X)) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.hydrogen_1 _let_3) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.carbon_0) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.glycerol_head_1 X) (and (tptp.original_name_2 X |tptp.'Glycerol-Head'|) (tptp.user_description_2 X |tptp.'Portion of a lipid containing glycerol.'|) (tptp.concept2words_2 X |tptp.'head of glycerol'|) (tptp.concept2words_2 X |tptp.'glycerol head'|) (tptp.concept2words_2 X |tptp.'glycerol-head'|) (tptp.molecular_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycerol_substance_3 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_glycerol_substance_1 X))) (=> (tptp.glycerol_substance_1 X) (and (tptp.original_name_2 X |tptp.'Glycerol-Substance'|) (tptp.user_description_2 X |tptp.'Liquid glycerol which is composed of glycerol molecules.'|) (tptp.concept2words_2 X |tptp.'substance of glycerol'|) (tptp.concept2words_2 X |tptp.'glycerol substance'|) (tptp.concept2words_2 X |tptp.'glycerol-substance'|) (tptp.substance_1 X) (tptp.glycerol_1 _let_3) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.soluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.substance_0) (tptp.solubility_in_water_2 X _let_1) (tptp.has_part_2 X _let_3) (= (tptp.fn_glycerol_substance_2 X) _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycine_11 X))) (let ((_let_2 (tptp.fn_carboxyl_group_23 _let_1))) (let ((_let_3 (tptp.fn_carboxyl_group_24 _let_1))) (let ((_let_4 (tptp.fn_hydrophobic_amino_acid_23 X))) (let ((_let_5 (tptp.fn_hydrophobic_amino_acid_22 X))) (let ((_let_6 (tptp.fn_carboxyl_group_19 _let_1))) (let ((_let_7 (tptp.fn_hydrophobic_amino_acid_20 X))) (let ((_let_8 (tptp.fn_glycine_23 X))) (let ((_let_9 (tptp.fn_share_1 _let_8))) (let ((_let_10 (tptp.fn_carboxyl_group_25 _let_1))) (let ((_let_11 (tptp.fn_hydrophobic_amino_acid_21 X))) (let ((_let_12 (tptp.fn_share_3 _let_8))) (let ((_let_13 (tptp.fn_carboxyl_group_10 _let_1))) (let ((_let_14 (tptp.fn_carboxyl_group_38 _let_1))) (let ((_let_15 (tptp.fn_glycine_36 X))) (let ((_let_16 (tptp.fn_hydrogen_13 _let_15))) (let ((_let_17 (tptp.fn_carboxyl_group_65 _let_1))) (let ((_let_18 (tptp.fn_carboxyl_group_46 _let_1))) (let ((_let_19 (tptp.fn_hydrogen_15 _let_15))) (let ((_let_20 (tptp.fn_carboxyl_group_17 _let_1))) (let ((_let_21 (tptp.fn_carboxyl_group_45 _let_1))) (let ((_let_22 (tptp.fn_glycine_15 X))) (let ((_let_23 (tptp.fn_nonpolar_covalent_bond_26 _let_22))) (let ((_let_24 (tptp.fn_carboxyl_group_21 _let_1))) (let ((_let_25 (tptp.fn_hydrogen_12 _let_15))) (let ((_let_26 (tptp.fn_nonpolar_covalent_bond_22 _let_22))) (let ((_let_27 (tptp.fn_hydrophobic_amino_acid_36 X))) (let ((_let_28 (tptp.fn_carboxyl_group_35 _let_1))) (let ((_let_29 (tptp.fn_hydrogen_11 _let_15))) (let ((_let_30 (tptp.fn_carboxyl_group_36 _let_1))) (let ((_let_31 (tptp.fn_hydrogen_17 _let_15))) (let ((_let_32 (tptp.fn_carboxyl_group_37 _let_1))) (let ((_let_33 (tptp.fn_hydrogen_10 _let_15))) (let ((_let_34 (tptp.fn_carboxyl_group_49 _let_1))) (let ((_let_35 (tptp.fn_hydrophobic_amino_acid_65 X))) (let ((_let_36 (tptp.fn_functional_group_1 _let_1))) (let ((_let_37 (tptp.fn_glycine_37 X))) (let ((_let_38 (tptp.fn_chemical_reaction_1 _let_37))) (let ((_let_39 (tptp.fn_hydrophobic_amino_acid_24 X))) (let ((_let_40 (tptp.fn_amino_acid_22 X))) (let ((_let_41 (tptp.fn_glycine_9 X))) (let ((_let_42 (tptp.fn_glycine_10 X))) (let ((_let_43 (tptp.fn_glycine_35 X))) (let ((_let_44 (tptp.fn_glycine_21 X))) (let ((_let_45 (tptp.fn_glycine_26 X))) (let ((_let_46 (tptp.fn_glycine_27 X))) (let ((_let_47 (tptp.fn_glycine_32 X))) (let ((_let_48 (tptp.fn_glycine_31 X))) (let ((_let_49 (tptp.fn_glycine_28 X))) (let ((_let_50 (tptp.fn_glycine_30 X))) (let ((_let_51 (tptp.fn_glycine_25 X))) (let ((_let_52 (tptp.fn_glycine_22 X))) (let ((_let_53 (tptp.fn_carboxyl_group_2 _let_1))) (let ((_let_54 (tptp.fn_carboxyl_group_3 _let_1))) (let ((_let_55 (tptp.fn_carboxyl_group_1 _let_1))) (let ((_let_56 (tptp.fn_hydrogen_18 _let_15))) (let ((_let_57 (tptp.fn_hydrogen_20 _let_15))) (let ((_let_58 (tptp.fn_hydrogen_19 _let_15))) (let ((_let_59 (tptp.fn_glycine_24 X))) (let ((_let_60 (tptp.fn_glycine_33 X))) (let ((_let_61 (tptp.fn_glycine_39 X))) (let ((_let_62 (tptp.fn_glycine_14 X))) (let ((_let_63 (tptp.fn_glycine_34 X))) (let ((_let_64 (tptp.fn_glycine_13 X))) (let ((_let_65 (tptp.fn_glycine_17 X))) (let ((_let_66 (tptp.fn_glycine_16 X))) (let ((_let_67 (tptp.fn_glycine_20 X))) (let ((_let_68 (tptp.fn_glycine_19 X))) (let ((_let_69 (tptp.fn_glycine_18 X))) (let ((_let_70 (tptp.fn_glycine_12 X))) (let ((_let_71 (tptp.fn_nonpolar_covalent_bond_27 _let_22))) (let ((_let_72 (tptp.fn_chemical_reaction_2 _let_37))) (let ((_let_73 (tptp.fn_glycine_38 X))) (let ((_let_74 (tptp.fn_glycine_2 X))) (let ((_let_75 (tptp.fn_glycine_1 X))) (=> (tptp.glycine_1 X) (and (tptp.original_name_2 X |tptp.'Glycine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins. It is the smallest of all amino acids. On its own , it can function as a neurotransmitter.'|) (tptp.concept2words_2 X tptp.gly) (tptp.concept2words_2 X tptp.g) (tptp.concept2words_2 X tptp.glycine) (tptp.hydrophobic_amino_acid_1 X) (tptp.end_1 _let_75) (tptp.electron_1 _let_74) (tptp.entity_1 _let_41) (tptp.tangible_entity_1 _let_41) (tptp.oxygen_1 _let_41) (tptp.atom_1 _let_42) (tptp.entity_1 _let_42) (tptp.tangible_entity_1 _let_42) (tptp.oxygen_1 _let_42) (tptp.functional_group_1 _let_1) (tptp.carboxyl_group_1 _let_1) (tptp.amino_group_1 _let_70) (tptp.hydrophobic_region_1 _let_64) (tptp.single_bond_1 _let_62) (tptp.nonpolar_covalent_bond_1 _let_22) (tptp.kinetic_energy_1 _let_66) (tptp.repel_1 _let_65) (tptp.constant_motion_1 _let_69) (tptp.speed_value_1 _let_68) (tptp.quantity_value_1 _let_67) (tptp.entity_1 _let_44) (tptp.proton_1 _let_44) (tptp.share_1 _let_52) (tptp.share_1 _let_8) (tptp.equal_sharing_1 _let_8) (tptp.system_1 _let_59) (tptp.atomic_number_value_1 _let_51) (tptp.atomic_nucleus_1 _let_45) (tptp.entity_1 _let_46) (tptp.tangible_entity_1 _let_46) (tptp.electron_1 _let_46) (tptp.valence_electron_1 _let_46) (tptp.quantity_value_1 _let_49) (tptp.quantity_value_1 _let_50) (tptp.entity_1 _let_48) (tptp.tangible_entity_1 _let_48) (tptp.electron_1 _let_48) (tptp.valence_electron_1 _let_48) (tptp.entity_1 _let_47) (tptp.tangible_entity_1 _let_47) (tptp.electron_1 _let_47) (tptp.valence_electron_1 _let_47) (tptp.carbon_skeleton_1 _let_60) (tptp.non_polar_side_chain_1 _let_63) (tptp.tangible_entity_1 _let_43) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.carbon_1 _let_43) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.hydrogen_1 _let_15) (tptp.synthesis_reaction_1 _let_37) (tptp.phosphoenolpyruvate_1 _let_73) (tptp.tangible_entity_1 _let_61) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.hydrogen_1 _let_61) (tptp.chemical_entity_1 _let_72) (tptp.equal_sharing_1 _let_71) (tptp.system_1 _let_58) (tptp.equation_big_node_1 _let_57) (tptp.equation_set_1 _let_56) (tptp.property_node_1 _let_55) (tptp.property_node_1 _let_54) (tptp.property_node_1 _let_53) (tptp.chemical_entity_1 _let_38) (tptp.chemical_entity_1 _let_36) (tptp.share_1 _let_34) (tptp.atomic_number_value_1 _let_33) (tptp.atomic_number_value_1 _let_32) (tptp.quantity_value_1 _let_31) (tptp.quantity_value_1 _let_30) (tptp.quantity_value_1 _let_29) (tptp.quantity_value_1 _let_28) (tptp.valence_electron_1 _let_26) (tptp.valence_electron_1 _let_25) (tptp.entity_1 _let_24) (tptp.valence_electron_1 _let_24) (tptp.electron_1 _let_23) (tptp.valence_electron_1 _let_23) (tptp.electron_1 _let_21) (tptp.valence_electron_1 _let_21) (tptp.entity_1 _let_20) (tptp.tangible_entity_1 _let_20) (tptp.electron_1 _let_20) (tptp.valence_electron_1 _let_20) (tptp.atomic_nucleus_1 _let_19) (tptp.atomic_nucleus_1 _let_18) (tptp.atomic_nucleus_1 _let_17) (tptp.proton_1 _let_16) (tptp.entity_1 _let_14) (tptp.proton_1 _let_14) (tptp.proton_1 _let_13) (tptp.entity_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_9) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.carbon_1 _let_6) (tptp.oxygen_1 _let_3) (tptp.oxygen_1 _let_2) (tptp.is_inside_2 _let_61 _let_63) (tptp.is_inside_2 _let_75 _let_63) (tptp.is_at_2 _let_15 _let_75) (not (= _let_47 _let_74)) (not (= _let_74 _let_47)) (not (= _let_74 _let_48)) (not (= _let_48 _let_74)) (tptp.agent_2 _let_8 _let_15) (tptp.agent_2 _let_8 _let_43) (tptp.raw_material_2 _let_37 _let_73) (tptp.result_2 _let_37 X) (tptp.object_2 _let_8 _let_46) (tptp.result_2 _let_8 _let_22) (tptp.object_2 _let_8 _let_47) (tptp.has_region_2 X _let_70) (tptp.is_inside_2 _let_61 _let_70) (tptp.possesses_2 X _let_66) (tptp.quantity_2 _let_66 _let_67) (tptp.directly_proportional_2 _let_68 _let_67) (tptp.speed_2 _let_69 _let_68) (tptp.object_2 _let_69 X) (tptp.has_part_2 X _let_41) (tptp.has_part_2 X _let_61) (tptp.has_part_2 X _let_42) (tptp.has_region_2 X _let_1) (tptp.possesses_2 X _let_22) (tptp.site_2 _let_65 _let_64) (tptp.has_region_2 X _let_64) (tptp.has_part_2 X _let_15) (tptp.agent_2 _let_52 _let_15) (tptp.result_2 _let_52 _let_22) (tptp.has_function_2 X _let_65) (tptp.agent_2 _let_65 X) (tptp.has_part_2 X _let_43) (tptp.is_between_2 _let_22 _let_43) (tptp.is_between_2 _let_22 _let_15) (tptp.is_between_2 _let_62 _let_61) (tptp.possesses_2 X _let_62) (tptp.has_region_2 X _let_63) (tptp.is_inside_2 _let_64 _let_63) (tptp.facilitates_2 _let_64 _let_65) (tptp.has_part_2 _let_61 _let_48) (not (= _let_15 _let_61)) (not (= _let_42 _let_15)) (not (= _let_15 _let_42)) (not (= _let_61 _let_15)) (tptp.has_region_2 X _let_60) (tptp.is_inside_2 _let_43 _let_60) (not (= _let_43 _let_15)) (not (= _let_61 _let_43)) (not (= _let_43 _let_61)) (not (= _let_15 _let_43)) (tptp.has_part_2 _let_15 _let_47) (tptp.has_region_2 _let_15 _let_45) (tptp.atomic_number_2 _let_15 _let_51) (tptp.quantity_2 _let_44 _let_50) (tptp.object_2 _let_52 _let_46) (tptp.called_2 _let_51 |tptp.'Atomic_Number'|) (tptp.called_2 _let_49 |tptp.'Number_Electron'|) (tptp.called_2 _let_50 |tptp.'Number_Proton'|) (tptp.is_inside_2 _let_42 _let_1) (tptp.is_inside_2 _let_43 _let_1) (tptp.agent_2 _let_52 _let_43) (tptp.object_2 _let_52 _let_47) (tptp.quantity_2 _let_47 _let_49) (= _let_49 _let_50) (= _let_50 _let_51) (not (= _let_48 _let_47)) (not (= _let_47 _let_48)) (= _let_50 _let_49) (= _let_51 _let_50) (not (= _let_42 _let_43)) (tptp.has_part_2 _let_43 _let_46) (not (= _let_46 _let_47)) (not (= _let_43 _let_42)) (not (= _let_47 _let_46)) (tptp.is_near_2 _let_45 _let_47) (tptp.is_near_2 _let_47 _let_45) (tptp.is_inside_2 _let_15 _let_1) (tptp.has_part_2 _let_15 _let_44) (tptp.is_inside_2 _let_44 _let_45) (not (= _let_41 _let_15)) (not (= _let_15 _let_41)) (tptp.is_inside_2 _let_41 _let_1) (not (= _let_42 _let_41)) (not (= _let_41 _let_42)) (not (= _let_43 _let_41)) (not (= _let_41 _let_43)) (= _let_15 _let_12) (= _let_43 _let_9) (= _let_73 _let_72) (= X _let_38) (= _let_46 _let_23) (= _let_47 _let_26) (= _let_8 _let_71) (= (tptp.fn_glycine_8 X) (tptp.fn_amino_acid_3 X)) (= (tptp.fn_glycine_7 X) (tptp.fn_amino_acid_4 X)) (= _let_61 _let_40) (= _let_70 (tptp.fn_amino_acid_25 X)) (= _let_69 (tptp.fn_amino_acid_5 X)) (= _let_68 (tptp.fn_amino_acid_6 X)) (= _let_67 (tptp.fn_amino_acid_7 X)) (= _let_66 (tptp.fn_amino_acid_16 X)) (= _let_41 _let_4) (= _let_42 _let_5) (= X _let_36) (= _let_1 (tptp.fn_hydrophobic_amino_acid_27 X)) (= _let_52 _let_35) (= _let_22 (tptp.fn_hydrophobic_amino_acid_19 X)) (= _let_65 (tptp.fn_hydrophobic_amino_acid_26 X)) (= _let_64 (tptp.fn_hydrophobic_amino_acid_29 X)) (= _let_63 (tptp.fn_hydrophobic_amino_acid_28 X)) (= _let_62 (tptp.fn_hydrophobic_amino_acid_18 X)) (= _let_48 _let_27) (= _let_42 _let_4) (= _let_15 _let_11) (= _let_61 _let_39) (= _let_43 _let_7) (= _let_60 (tptp.fn_hydrophobic_amino_acid_69 X)) (= _let_59 _let_58) (= (tptp.fn_glycine_4 X) _let_57) (= (tptp.fn_glycine_29 X) _let_56) (= _let_51 _let_33) (= _let_44 _let_14) (= _let_46 _let_21) (= (tptp.fn_glycine_6 X) _let_55) (= (tptp.fn_glycine_5 X) _let_54) (= (tptp.fn_glycine_3 X) _let_53) (= _let_52 _let_34) (= _let_51 _let_32) (= _let_50 _let_31) (= _let_50 _let_30) (= _let_49 _let_29) (= _let_49 _let_28) (= _let_47 _let_24) (= _let_48 _let_20) (= _let_47 _let_25) (= _let_47 _let_20) (= _let_45 _let_18) (= _let_47 _let_21) (= _let_46 _let_20) (= _let_45 _let_19) (= _let_45 _let_17) (= _let_44 _let_16) (= _let_44 _let_13) (= _let_15 _let_10) (= _let_41 _let_3) (= _let_43 _let_6) (= _let_42 _let_3) (= _let_41 _let_2) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_20) (= _let_20 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_20) (= _let_20 _let_21) (= _let_21 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_14) (= _let_14 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_storage_polysaccharide_56 X))) (let ((_let_2 (tptp.fn_polysaccharide_14 X))) (let ((_let_3 (tptp.fn_glycogen_21 X))) (let ((_let_4 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_5 (tptp.fn_storage_polysaccharide_41 X))) (let ((_let_6 (tptp.fn_storage_polysaccharide_55 X))) (let ((_let_7 (tptp.fn_polysaccharide_11 X))) (let ((_let_8 (tptp.fn_carbonyl_group_9 _let_3))) (let ((_let_9 (tptp.fn_molecule_11 X))) (let ((_let_10 (tptp.fn_storage_polysaccharide_40 X))) (let ((_let_11 (tptp.fn_polysaccharide_26 X))) (let ((_let_12 (tptp.fn_storage_polysaccharide_23 X))) (let ((_let_13 (tptp.fn_polysaccharide_25 X))) (let ((_let_14 (tptp.fn_molecule_10 X))) (let ((_let_15 (tptp.fn_polysaccharide_15 X))) (let ((_let_16 (tptp.fn_storage_polysaccharide_43 X))) (let ((_let_17 (tptp.fn_polysaccharide_17 X))) (let ((_let_18 (tptp.fn_storage_polysaccharide_42 X))) (let ((_let_19 (tptp.fn_polysaccharide_16 X))) (let ((_let_20 (tptp.fn_storage_polysaccharide_37 X))) (let ((_let_21 (tptp.fn_polysaccharide_22 X))) (let ((_let_22 (tptp.fn_glycogen_20 X))) (let ((_let_23 (tptp.fn_glycogen_11 X))) (let ((_let_24 (tptp.fn_glycogen_22 X))) (let ((_let_25 (tptp.fn_glycogen_28 X))) (let ((_let_26 (tptp.fn_glycogen_19 X))) (let ((_let_27 (tptp.fn_glycogen_12 X))) (let ((_let_28 (tptp.fn_glycogen_8 X))) (let ((_let_29 (tptp.fn_glycogen_9 X))) (let ((_let_30 (tptp.fn_glycogen_25 X))) (let ((_let_31 (tptp.fn_glycogen_24 X))) (let ((_let_32 (tptp.fn_glycogen_23 X))) (let ((_let_33 (tptp.fn_glycogen_16 X))) (let ((_let_34 (tptp.fn_glycogen_18 X))) (let ((_let_35 (tptp.fn_glycogen_13 X))) (let ((_let_36 (tptp.fn_glycogen_17 X))) (let ((_let_37 (tptp.fn_glycogen_7 X))) (let ((_let_38 (tptp.fn_glycogen_10 X))) (let ((_let_39 (tptp.fn_functional_group_1 _let_3))) (let ((_let_40 (tptp.fn_glycogen_14 X))) (let ((_let_41 (tptp.fn_glycogen_15 X))) (let ((_let_42 (tptp.fn_glycogen_2 X))) (let ((_let_43 (tptp.fn_glycogen_4 X))) (=> (tptp.glycogen_1 X) (and (tptp.original_name_2 X |tptp.'Glycogen'|) (tptp.user_description_2 X |tptp.'Glycogen is a polysaccharide. The presence of side chains affects the density of energy storage and function of stuctural starches, and is characteristic to the structure of glycogen.'|) (tptp.concept2words_2 X |tptp.'major storage carbohydrate in animals'|) (tptp.concept2words_2 X tptp.glycogen) (tptp.animal_storage_polysaccharide_1 X) (not (tptp.amylose_1 X)) (not (tptp.noncellulose_polysaccharide_1 X)) (not (tptp.oligosaccharin_1 X)) (not (tptp.structural_polysaccharide_1 X)) (tptp.shape_value_1 _let_42) (tptp.shape_value_1 _let_43) (tptp.size_value_1 _let_37) (tptp.store_1 _let_28) (tptp.container_1 _let_29) (tptp.size_value_1 _let_38) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.tangible_entity_1 _let_27) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hydrogen_1 _let_27) (tptp.entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.glucose_1 _let_40) (tptp.glucose_1 _let_41) (tptp.kinetic_energy_1 _let_33) (tptp.carbon_skeleton_1 _let_36) (tptp.functional_group_1 _let_34) (tptp.hydroxyl_group_1 _let_34) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.oxygen_1 _let_26) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.carbon_1 _let_22) (tptp.functional_group_1 _let_3) (tptp.carbonyl_group_1 _let_3) (tptp.tangible_entity_1 _let_24) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.hydrogen_1 _let_24) (tptp.quantity_value_1 _let_32) (tptp.speed_value_1 _let_31) (tptp.constant_motion_1 _let_30) (tptp.chemical_bond_1 _let_25) (tptp.covalent_bond_1 _let_25) (tptp.polar_covalent_bond_1 _let_25) (tptp.chemical_entity_1 _let_39) (tptp.oxygen_1 _let_8) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (not (= _let_24 _let_22)) (not (= _let_24 _let_26)) (not (= _let_24 _let_35)) (not (= _let_22 _let_24)) (not (= _let_26 _let_24)) (not (= _let_26 _let_35)) (tptp.shape_2 _let_36 _let_43) (tptp.the_categorical_value_2 _let_42 tptp.helix_0) (tptp.the_categorical_value_2 _let_43 tptp.branched_0) (tptp.shape_2 X _let_42) (not (= _let_41 _let_40)) (not (= _let_40 _let_41)) (not (= _let_35 _let_24)) (not (= _let_35 _let_26)) (tptp.size_2 _let_41 _let_38) (tptp.has_part_2 X _let_41) (tptp.has_part_2 X _let_40) (tptp.size_2 _let_40 _let_38) (tptp.is_inside_2 _let_26 _let_3) (tptp.is_inside_2 _let_26 _let_34) (tptp.has_part_2 X _let_26) (tptp.has_part_2 X _let_24) (not (= _let_22 _let_26)) (not (= _let_26 _let_22)) (tptp.is_between_2 _let_25 _let_35) (not (= _let_23 _let_35)) (not (= _let_35 _let_23)) (not (= _let_27 _let_35)) (not (= _let_35 _let_27)) (tptp.is_inside_2 _let_24 _let_34) (tptp.has_region_2 X _let_3) (tptp.possesses_2 X _let_25) (tptp.has_region_2 X _let_34) (tptp.has_part_2 X _let_35) (tptp.has_function_2 X _let_28) (tptp.has_part_2 X _let_27) (tptp.is_inside_2 _let_22 _let_36) (tptp.has_region_2 X _let_36) (tptp.size_2 X _let_37) (tptp.greater_than_2 _let_37 _let_38) (tptp.is_inside_2 _let_22 _let_3) (tptp.is_inside_2 _let_35 _let_3) (tptp.is_inside_2 _let_35 _let_34) (not (= _let_22 _let_35)) (not (= _let_35 _let_22)) (tptp.is_inside_2 _let_23 _let_34) (tptp.is_inside_2 _let_27 _let_34) (not (= _let_27 _let_26)) (not (= _let_22 _let_27)) (not (= _let_27 _let_22)) (not (= _let_26 _let_27)) (tptp.object_2 _let_30 X) (tptp.speed_2 _let_30 _let_31) (tptp.directly_proportional_2 _let_31 _let_32) (tptp.quantity_2 _let_33 _let_32) (tptp.possesses_2 X _let_33) (tptp.base_2 _let_28 X) (tptp.in_event_2 _let_29 _let_28) (tptp.plays_2 X _let_29) (tptp.has_part_2 X _let_23) (tptp.is_inside_2 _let_23 _let_3) (tptp.is_between_2 _let_25 _let_24) (tptp.is_between_2 _let_25 _let_23) (not (= _let_23 _let_27)) (not (= _let_26 _let_23)) (not (= _let_23 _let_26)) (not (= _let_27 _let_23)) (tptp.has_part_2 X _let_22) (not (= _let_23 _let_22)) (not (= _let_24 _let_23)) (not (= _let_23 _let_24)) (not (= _let_22 _let_23)) (= _let_38 _let_21) (= _let_41 (tptp.fn_polysaccharide_23 X)) (= _let_40 (tptp.fn_storage_polysaccharide_38 X)) (= _let_26 _let_8) (= _let_22 _let_2) (= _let_26 _let_15) (= _let_27 _let_11) (= _let_35 _let_15) (= X _let_39) (= _let_3 _let_17) (= _let_34 _let_19) (= (tptp.fn_glycogen_26 X) (tptp.fn_storage_polysaccharide_73 X)) (= (tptp.fn_glycogen_5 X) (tptp.fn_storage_polysaccharide_33 X)) (= (tptp.fn_glycogen_27 X) (tptp.fn_storage_polysaccharide_74 X)) (= (tptp.fn_glycogen_6 X) (tptp.fn_storage_polysaccharide_34 X)) (= _let_38 _let_20) (= _let_37 (tptp.fn_storage_polysaccharide_36 X)) (= _let_36 (tptp.fn_storage_polysaccharide_54 X)) (= _let_35 _let_6) (= _let_26 _let_6) (= _let_34 _let_18) (= _let_33 (tptp.fn_storage_polysaccharide_72 X)) (= _let_32 (tptp.fn_storage_polysaccharide_69 X)) (= _let_31 (tptp.fn_storage_polysaccharide_70 X)) (= _let_30 (tptp.fn_storage_polysaccharide_71 X)) (= _let_3 _let_16) (= _let_29 (tptp.fn_storage_polysaccharide_51 X)) (= _let_28 (tptp.fn_storage_polysaccharide_49 X)) (= _let_27 _let_10) (= _let_26 _let_5) (= _let_25 _let_14) (= _let_23 _let_9) (= _let_23 _let_6) (= _let_25 _let_13) (= _let_25 _let_12) (= _let_23 _let_7) (= _let_24 _let_11) (= _let_24 _let_10) (= _let_22 _let_4) (= _let_23 _let_8) (= _let_23 _let_5) (= _let_22 _let_1) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_15) (= _let_6 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_11) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_15) (= _let_15 _let_15) (= _let_15 _let_6) (= _let_5 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycogen_breakdown_16 X))) (let ((_let_2 (tptp.fn_glycogen_phosphorylase_16 _let_1))) (let ((_let_3 (tptp.fn_glycogen_breakdown_23 X))) (let ((_let_4 (tptp.fn_reactant_2 _let_3))) (let ((_let_5 (tptp.fn_glycogen_phosphorylase_17 _let_1))) (let ((_let_6 (tptp.fn_protein_14 _let_1))) (let ((_let_7 (tptp.fn_glycogen_phosphorylase_5 _let_1))) (let ((_let_8 (tptp.fn_protein_enzyme_9 _let_1))) (let ((_let_9 (tptp.fn_glycogen_phosphorylase_9 _let_1))) (let ((_let_10 (tptp.fn_protein_enzyme_3 _let_1))) (let ((_let_11 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_12 (tptp.fn_reactant_3 _let_3))) (let ((_let_13 (tptp.fn_glycogen_breakdown_20 X))) (let ((_let_14 (tptp.fn_remove_2 _let_13))) (let ((_let_15 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_16 (tptp.fn_glycogen_breakdown_18 X))) (let ((_let_17 (tptp.fn_phosphorylated_intermediate_3 _let_16))) (let ((_let_18 (tptp.fn_remove_1 _let_13))) (let ((_let_19 (tptp.fn_catabolic_pathway_11 X))) (let ((_let_20 (tptp.fn_glycogen_breakdown_6 X))) (let ((_let_21 (tptp.fn_waste_1 _let_20))) (let ((_let_22 (tptp.fn_glycogen_phosphorylase_8 _let_1))) (let ((_let_23 (tptp.fn_glycogen_breakdown_22 X))) (let ((_let_24 (tptp.fn_glycogen_phosphorylase_19 _let_1))) (let ((_let_25 (tptp.fn_glycogen_breakdown_10 X))) (let ((_let_26 (tptp.fn_glycogen_phosphorylase_18 _let_1))) (let ((_let_27 (tptp.fn_glycogen_breakdown_11 X))) (let ((_let_28 (tptp.fn_glycogen_breakdown_14 X))) (let ((_let_29 (tptp.fn_glycogen_phosphorylase_12 _let_1))) (let ((_let_30 (tptp.fn_glycogen_breakdown_9 X))) (let ((_let_31 (tptp.fn_glycogen_breakdown_15 X))) (let ((_let_32 (tptp.fn_glycogen_phosphorylase_15 _let_1))) (let ((_let_33 (tptp.fn_glycogen_breakdown_13 X))) (let ((_let_34 (tptp.fn_glycogen_breakdown_12 X))) (let ((_let_35 (tptp.fn_glycogen_breakdown_17 X))) (let ((_let_36 (tptp.fn_organic_molecule_1 _let_35))) (let ((_let_37 (tptp.fn_glycogen_breakdown_27 X))) (let ((_let_38 (tptp.fn_organic_molecule_2 _let_35))) (let ((_let_39 (tptp.fn_glycogen_breakdown_19 X))) (let ((_let_40 (tptp.fn_organic_molecule_3 _let_35))) (let ((_let_41 (tptp.fn_glycogen_breakdown_26 X))) (let ((_let_42 (tptp.fn_glycogen_breakdown_21 X))) (let ((_let_43 (tptp.fn_glycogen_breakdown_24 X))) (let ((_let_44 (tptp.fn_glycogen_breakdown_25 X))) (let ((_let_45 (tptp.fn_glycogen_breakdown_7 X))) (let ((_let_46 (tptp.fn_protein_8 _let_1))) (let ((_let_47 (tptp.fn_glycogen_breakdown_8 X))) (let ((_let_48 (tptp.fn_glycogen_breakdown_1 X))) (let ((_let_49 (tptp.fn_glycogen_breakdown_2 X))) (let ((_let_50 (tptp.fn_glycogen_breakdown_3 X))) (=> (tptp.glycogen_breakdown_1 X) (and (tptp.original_name_2 X |tptp.'Glycogen-Breakdown'|) (tptp.user_description_2 X |tptp.'The enzymatic breakdown, through hydrolysis, of glycogen, resulting in glucose.'|) (tptp.concept2words_2 X tptp.hydrolyze) (tptp.concept2words_2 X |tptp.'glycogen hydrolysis'|) (tptp.concept2words_2 X |tptp.'glycogen breakdown'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'breakdown of glycogen'|) (tptp.concept2words_2 X |tptp.'glycogen-breakdown'|) (tptp.storage_polysaccharide_breakdown_1 X) (not (tptp.hydrolysis_of_sucrose_1 X)) (tptp.chemical_energy_1 _let_48) (tptp.cytoplasm_1 _let_49) (tptp.inorganic_phosphate_1 _let_50) (tptp.waste_product_1 _let_20) (tptp.tangible_entity_1 _let_45) (tptp.free_energy_1 _let_45) (tptp.polypeptide_1 _let_47) (tptp.catalyst_1 _let_30) (tptp.active_site_1 _let_25) (tptp.r_group_1 _let_27) (tptp.size_value_1 _let_34) (tptp.size_value_1 _let_33) (tptp.spatial_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.monomer_1 _let_28) (tptp.molecule_1 _let_28) (tptp.amino_acid_1 _let_28) (tptp.monomer_1 _let_31) (tptp.glycogen_phosphorylase_1 _let_1) (tptp.glycogen_1 _let_35) (tptp.glucose_1_phosphate_1 _let_16) (tptp.atom_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.remove_1 _let_13) (tptp.monomer_1 _let_42) (tptp.monosaccharide_1 _let_42) (tptp.decrease_1 _let_23) (tptp.reactant_1 _let_3) (tptp.structural_complexity_value_1 _let_43) (tptp.structural_complexity_value_1 _let_44) (tptp.carbon_skeleton_1 _let_41) (tptp.carbon_1 _let_37) (tptp.polypeptide_1 _let_46) (tptp.carbon_skeleton_1 _let_40) (tptp.atom_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.carbon_1 _let_36) (tptp.size_value_1 _let_32) (tptp.catalyst_1 _let_29) (tptp.r_group_1 _let_26) (tptp.active_site_1 _let_24) (tptp.decrease_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.spatial_entity_1 _let_18) (tptp.molecule_1 _let_17) (tptp.spatial_entity_1 _let_14) (tptp.chemical_entity_1 _let_12) (tptp.size_value_1 _let_10) (tptp.size_value_1 _let_9) (tptp.monomer_1 _let_8) (tptp.monomer_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.monomer_1 _let_6) (tptp.molecule_1 _let_6) (tptp.amino_acid_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.monomer_1 _let_5) (tptp.molecule_1 _let_5) (tptp.amino_acid_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.glycogen_breakdown_1 _let_2) (tptp.in_event_2 _let_20 X) (tptp.facilitates_2 _let_25 X) (tptp.result_2 X _let_16) (tptp.raw_material_2 X _let_50) (tptp.possesses_2 _let_16 _let_48) (tptp.is_inside_2 _let_16 _let_49) (tptp.has_state_2 _let_39 _let_16) (tptp.possesses_2 _let_42 _let_48) (tptp.object_2 _let_13 _let_42) (tptp.base_2 _let_13 _let_35) (tptp.plays_2 _let_45 _let_20) (tptp.plays_2 _let_35 _let_3) (tptp.raw_material_2 X _let_35) (tptp.structural_complexity_2 _let_35 _let_44) (not (= _let_42 _let_16)) (not (= _let_16 _let_42)) (tptp.in_event_2 _let_3 X) (tptp.has_part_2 _let_1 _let_47) (tptp.has_part_2 _let_47 _let_28) (tptp.result_2 X _let_45) (tptp.result_2 X _let_42) (tptp.structural_complexity_2 _let_42 _let_43) (tptp.greater_than_2 _let_44 _let_43) (tptp.has_region_2 _let_35 _let_41) (tptp.has_part_2 _let_35 _let_39) (tptp.has_part_2 _let_35 _let_37) (tptp.is_inside_2 _let_37 _let_41) (not (= _let_39 _let_37)) (not (= _let_37 _let_39)) (tptp.has_region_2 _let_1 _let_25) (tptp.has_function_2 _let_1 X) (tptp.size_2 _let_1 _let_34) (tptp.the_scalar_value_2 _let_34 tptp.big_0) (tptp.scalar_unit_class_2 _let_34 tptp.polypeptide_0) (tptp.in_event_2 _let_30 X) (tptp.plays_2 _let_1 _let_30) (tptp.has_part_2 _let_1 _let_31) (tptp.size_2 _let_31 _let_33) (tptp.greater_than_2 _let_34 _let_33) (tptp.has_function_2 _let_1 _let_23) (tptp.enables_2 _let_23 X) (tptp.site_2 X _let_25) (tptp.is_inside_2 _let_27 _let_25) (tptp.has_region_2 _let_28 _let_27) (= _let_42 _let_18) (= _let_35 _let_14) (= _let_45 _let_21) (= _let_35 _let_12) (= _let_35 _let_11) (= _let_42 _let_17) (= X _let_4) (= _let_28 _let_6) (= _let_47 _let_46) (= _let_45 _let_19) (= (tptp.fn_glycogen_breakdown_29 X) (tptp.fn_catabolic_pathway_1 X)) (= (tptp.fn_glycogen_breakdown_28 X) (tptp.fn_catabolic_pathway_5 X)) (= _let_44 (tptp.fn_catabolic_pathway_4 X)) (= _let_43 (tptp.fn_catabolic_pathway_2 X)) (= _let_42 _let_15) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_34 _let_10) (= _let_34 _let_9) (= _let_33 _let_32) (= _let_31 _let_8) (= _let_31 _let_7) (= _let_30 _let_29) (= _let_28 _let_5) (= _let_27 _let_26) (= _let_25 _let_24) (= X _let_2) (= _let_23 _let_22) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycogen_breakdown_in_vertebrates_31 X))) (let ((_let_2 (tptp.fn_phosphorylation_1 _let_1))) (let ((_let_3 (tptp.fn_phosphorylation_5 _let_1))) (let ((_let_4 (tptp.fn_glycogen_breakdown_17 X))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_6 (tptp.fn_glycogen_breakdown_in_vertebrates_25 X))) (let ((_let_7 (tptp.fn_impair_1 _let_6))) (let ((_let_8 (tptp.fn_glycogen_breakdown_in_vertebrates_27 X))) (let ((_let_9 (tptp.fn_remove_2 _let_8))) (let ((_let_10 (tptp.fn_glycogen_breakdown_in_vertebrates_32 X))) (let ((_let_11 (tptp.fn_glycogen_20 _let_10))) (let ((_let_12 (tptp.fn_glycogen_breakdown_27 X))) (let ((_let_13 (tptp.fn_molecule_11 _let_10))) (let ((_let_14 (tptp.fn_molecule_7 _let_10))) (let ((_let_15 (tptp.fn_glycogen_breakdown_19 X))) (let ((_let_16 (tptp.fn_glycogen_breakdown_18 X))) (let ((_let_17 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_18 (tptp.fn_glycogen_breakdown_in_vertebrates_30 X))) (let ((_let_19 (tptp.fn_phosphorylated_intermediate_3 _let_18))) (let ((_let_20 (tptp.fn_glycogen_breakdown_in_vertebrates_20 X))) (let ((_let_21 (tptp.fn_glucose_1_phosphate_2 _let_20))) (let ((_let_22 (tptp.fn_glucose_1_phosphate_2 _let_18))) (let ((_let_23 (tptp.fn_glycogen_breakdown_24 X))) (let ((_let_24 (tptp.fn_glycogen_breakdown_in_vertebrates_68 X))) (let ((_let_25 (tptp.fn_protein_8 _let_24))) (let ((_let_26 (tptp.fn_glycogen_breakdown_8 X))) (let ((_let_27 (tptp.fn_glycogen_breakdown_in_vertebrates_57 X))) (let ((_let_28 (tptp.fn_organic_molecule_1 _let_27))) (let ((_let_29 (tptp.fn_organic_molecule_2 _let_27))) (let ((_let_30 (tptp.fn_protein_13 _let_24))) (let ((_let_31 (tptp.fn_polypeptide_126 _let_27))) (let ((_let_32 (tptp.fn_glycogen_breakdown_in_vertebrates_28 X))) (let ((_let_33 (tptp.fn_chemical_bond_4 _let_32))) (let ((_let_34 (tptp.fn_chemical_bond_1 _let_32))) (let ((_let_35 (tptp.fn_phosphorylated_intermediate_1 _let_18))) (let ((_let_36 (tptp.fn_glycogen_breakdown_in_vertebrates_48 X))) (let ((_let_37 (tptp.fn_covalent_bond_19 _let_36))) (let ((_let_38 (tptp.fn_covalent_bond_20 _let_36))) (let ((_let_39 (tptp.fn_phosphorylated_intermediate_6 _let_18))) (let ((_let_40 (tptp.fn_phosphorylation_2 _let_1))) (let ((_let_41 (tptp.fn_phosphorylated_intermediate_3 _let_20))) (let ((_let_42 (tptp.fn_glycogen_breakdown_in_vertebrates_39 X))) (let ((_let_43 (tptp.fn_functional_group_1 _let_42))) (let ((_let_44 (tptp.fn_glycogen_breakdown_in_vertebrates_60 X))) (let ((_let_45 (tptp.fn_remove_1 _let_44))) (let ((_let_46 (tptp.fn_remove_1 _let_8))) (let ((_let_47 (tptp.fn_glucose_1_phosphate_4 _let_18))) (let ((_let_48 (tptp.fn_phosphorylated_intermediate_5 _let_18))) (let ((_let_49 (tptp.fn_glycogen_breakdown_in_vertebrates_49 X))) (let ((_let_50 (tptp.fn_covalent_bond_19 _let_49))) (let ((_let_51 (tptp.fn_glucose_1_phosphate_5 _let_18))) (let ((_let_52 (tptp.fn_phosphorylated_intermediate_7 _let_18))) (let ((_let_53 (tptp.fn_hydroxyl_group_4 _let_42))) (let ((_let_54 (tptp.fn_covalent_bond_20 _let_49))) (let ((_let_55 (tptp.fn_phosphorylated_intermediate_11 _let_18))) (let ((_let_56 (tptp.fn_phosphorylation_3 _let_1))) (let ((_let_57 (tptp.fn_glycogen_phosphorylase_16 _let_24))) (let ((_let_58 (tptp.fn_glycogen_breakdown_in_vertebrates_24 X))) (let ((_let_59 (tptp.fn_animal_cell_21 _let_58))) (let ((_let_60 (tptp.fn_glycogen_phosphorylase_19 _let_24))) (let ((_let_61 (tptp.fn_glycogen_breakdown_10 X))) (let ((_let_62 (tptp.fn_glycogen_phosphorylase_18 _let_24))) (let ((_let_63 (tptp.fn_glycogen_breakdown_11 X))) (let ((_let_64 (tptp.fn_glycogen_phosphorylase_17 _let_24))) (let ((_let_65 (tptp.fn_protein_14 _let_24))) (let ((_let_66 (tptp.fn_glycogen_breakdown_14 X))) (let ((_let_67 (tptp.fn_polypeptide_82 _let_27))) (let ((_let_68 (tptp.fn_polypeptide_83 _let_27))) (let ((_let_69 (tptp.fn_glycogen_phosphorylase_9 _let_24))) (let ((_let_70 (tptp.fn_glycogen_breakdown_12 X))) (let ((_let_71 (tptp.fn_protein_enzyme_3 _let_24))) (let ((_let_72 (tptp.fn_glycogen_phosphorylase_15 _let_24))) (let ((_let_73 (tptp.fn_glycogen_breakdown_13 X))) (let ((_let_74 (tptp.fn_glycogen_phosphorylase_5 _let_24))) (let ((_let_75 (tptp.fn_glycogen_breakdown_15 X))) (let ((_let_76 (tptp.fn_protein_enzyme_9 _let_24))) (let ((_let_77 (tptp.fn_glycogen_breakdown_1 X))) (let ((_let_78 (tptp.fn_exergonic_reaction_6 X))) (let ((_let_79 (tptp.fn_glycogen_breakdown_7 X))) (let ((_let_80 (tptp.fn_polymer_breakdown_1 X))) (let ((_let_81 (tptp.fn_protein_12 _let_24))) (let ((_let_82 (tptp.fn_polypeptide_130 _let_27))) (let ((_let_83 (tptp.fn_polymer_1 _let_27))) (let ((_let_84 (tptp.fn_metabolic_pathway_1 X))) (let ((_let_85 (tptp.fn_glycogen_breakdown_in_vertebrates_33 X))) (let ((_let_86 (tptp.fn_animal_21 _let_85))) (let ((_let_87 (tptp.fn_glycogen_23 _let_10))) (let ((_let_88 (tptp.fn_glycogen_breakdown_in_vertebrates_63 X))) (let ((_let_89 (tptp.fn_glycogen_27 _let_10))) (let ((_let_90 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_let_110 _let_116) (tptp.is_inside_2 _let_107 _let_116) (not (= _let_110 _let_115)) (tptp.has_part_2 _let_18 _let_107) (not (= _let_109 _let_107)) (not (= _let_107 _let_109)) (not (= _let_110 _let_107)) (not (= _let_107 _let_110)) (tptp.possesses_2 _let_18 _let_36) (tptp.structural_complexity_2 _let_18 _let_102) (tptp.has_part_2 _let_18 _let_110) (tptp.has_part_2 _let_18 _let_109) (tptp.is_between_2 _let_36 _let_109) (tptp.is_between_2 _let_36 _let_110) (not (= _let_110 _let_109)) (not (= _let_109 _let_110)) (tptp.raw_material_2 _let_1 _let_104) (tptp.has_part_2 _let_10 _let_101) (tptp.object_2 _let_99 _let_10) (tptp.speed_2 _let_99 _let_91) (tptp.directly_proportional_2 _let_91 _let_88) (tptp.quantity_2 _let_97 _let_88) (tptp.possesses_2 _let_10 _let_97) (tptp.has_region_2 _let_10 _let_95) (tptp.is_inside_2 _let_93 _let_95) (tptp.has_part_2 _let_10 _let_93) (tptp.is_between_2 _let_32 _let_101) (tptp.possesses_2 _let_10 _let_32) (tptp.structural_complexity_2 _let_20 _let_102) (tptp.has_part_2 _let_27 _let_103) (tptp.is_between_2 _let_32 _let_104) (tptp.has_part_2 _let_20 _let_106) (tptp.is_between_2 _let_36 _let_107) (tptp.raw_material_2 _let_1 _let_10) (= _let_18 _let_46) (= _let_18 _let_45) (= _let_10 _let_9) (= _let_10 _let_7) (= _let_18 _let_43) (= _let_109 _let_50) (= _let_18 _let_41) (= _let_20 _let_19) (= _let_58 _let_86) (= _let_58 _let_84) (= X _let_59) (= _let_149 _let_50) (= _let_110 _let_54) (= (tptp.fn_glycogen_breakdown_in_vertebrates_11 X) (tptp.fn_glycogen_breakdown_4 X)) (= (tptp.fn_glycogen_breakdown_in_vertebrates_10 X) (tptp.fn_glycogen_breakdown_5 X)) (= _let_130 _let_68) (= _let_130 _let_67) (= _let_130 _let_65) (= _let_103 _let_31) (= _let_103 _let_30) (= _let_148 _let_83) (= _let_148 _let_82) (= _let_148 _let_81) (= _let_27 _let_26) (= _let_27 _let_25) (= _let_147 (tptp.fn_exergonic_reaction_3 X)) (= (tptp.fn_glycogen_breakdown_in_vertebrates_5 X) (tptp.fn_exergonic_reaction_1 X)) (= (tptp.fn_glycogen_breakdown_in_vertebrates_6 X) (tptp.fn_exergonic_reaction_2 X)) (= _let_146 (tptp.fn_exergonic_reaction_4 X)) (= _let_145 (tptp.fn_exergonic_reaction_5 X)) (= _let_144 _let_143) (= _let_142 _let_141) (= _let_110 _let_53) (= _let_140 (tptp.fn_glycogen_breakdown_3 X)) (= _let_139 _let_80) (= _let_139 _let_79) (= _let_44 (tptp.fn_glycogen_breakdown_20 X)) (= (tptp.fn_glycogen_breakdown_in_vertebrates_12 X) (tptp.fn_glycogen_breakdown_28 X)) (= _let_102 _let_23) (= _let_138 (tptp.fn_glycogen_breakdown_25 X)) (= _let_93 _let_12) (= _let_101 _let_15) (= _let_137 _let_78) (= _let_137 _let_77) (= _let_20 _let_17) (= _let_20 _let_16) (= _let_136 (tptp.fn_glycogen_breakdown_23 X)) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_135 _let_76) (= _let_135 _let_75) (= _let_135 _let_74) (= _let_133 _let_70) (= _let_134 _let_73) (= _let_134 _let_72) (= _let_133 _let_71) (= _let_133 _let_69) (= _let_132 _let_131) (= _let_130 _let_66) (= _let_130 _let_64) (= _let_129 _let_63) (= _let_129 _let_62) (= _let_128 _let_61) (= _let_128 _let_60) (= _let_24 (tptp.fn_glycogen_breakdown_16 X)) (= X _let_57) (= _let_1 _let_127) (= (tptp.fn_glycogen_breakdown_in_vertebrates_14 X) _let_126) (= _let_104 _let_35) (= _let_18 _let_40) (= _let_116 _let_56) (= _let_125 _let_124) (= (tptp.fn_glycogen_breakdown_in_vertebrates_15 X) _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_118 _let_117) (= _let_116 _let_55) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_110 _let_52) (= _let_109 _let_48) (= _let_107 _let_39) (= _let_102 _let_22) (= _let_36 _let_111) (= _let_110 _let_51) (= _let_109 _let_47) (= _let_104 _let_2) (= (tptp.fn_glycogen_breakdown_in_vertebrates_13 X) _let_108) (= _let_101 _let_14) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_107 _let_38) (= _let_107 _let_37) (= _let_106 _let_105) (= _let_104 _let_34) (= _let_104 _let_33) (= _let_103 _let_29) (= _let_103 _let_28) (= _let_102 _let_21) (= _let_101 _let_13) (= _let_32 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_93 _let_11) (= (tptp.fn_glycogen_breakdown_in_vertebrates_17 X) _let_92) (= _let_91 _let_90) (= (tptp.fn_glycogen_breakdown_in_vertebrates_16 X) _let_89) (= _let_88 _let_87) (= _let_86 _let_84) (= _let_84 _let_82) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_74 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_43 _let_40) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_35) (= _let_35 _let_2) (= _let_2 _let_2) (= _let_2 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_3 X))) (let ((_let_3 (tptp.fn_protein_enzyme_7 X))) (let ((_let_4 (tptp.fn_organic_molecule_1 X))) (let ((_let_5 (tptp.fn_protein_enzyme_8 X))) (let ((_let_6 (tptp.fn_organic_molecule_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_10 X))) (let ((_let_8 (tptp.fn_enzyme_2 X))) (let ((_let_9 (tptp.fn_protein_enzyme_3 X))) (let ((_let_10 (tptp.fn_protein_9 X))) (let ((_let_11 (tptp.fn_protein_enzyme_9 X))) (let ((_let_12 (tptp.fn_polymer_4 X))) (let ((_let_13 (tptp.fn_glycogen_phosphorylase_4 X))) (let ((_let_14 (tptp.fn_glycogen_phosphorylase_6 X))) (let ((_let_15 (tptp.fn_glycogen_phosphorylase_7 X))) (let ((_let_16 (tptp.fn_glycogen_phosphorylase_19 X))) (let ((_let_17 (tptp.fn_glycogen_phosphorylase_18 X))) (let ((_let_18 (tptp.fn_glycogen_phosphorylase_17 X))) (let ((_let_19 (tptp.fn_glycogen_phosphorylase_1 X))) (let ((_let_20 (tptp.fn_glycogen_phosphorylase_9 X))) (let ((_let_21 (tptp.fn_glycogen_phosphorylase_15 X))) (let ((_let_22 (tptp.fn_glycogen_phosphorylase_5 X))) (let ((_let_23 (tptp.fn_glycogen_phosphorylase_10 X))) (let ((_let_24 (tptp.fn_glycogen_phosphorylase_14 X))) (let ((_let_25 (tptp.fn_glycogen_phosphorylase_13 X))) (let ((_let_26 (tptp.fn_glycogen_phosphorylase_11 X))) (let ((_let_27 (tptp.fn_glycogen_phosphorylase_3 X))) (let ((_let_28 (tptp.fn_glycogen_phosphorylase_2 X))) (let ((_let_29 (tptp.fn_glycogen_phosphorylase_12 X))) (let ((_let_30 (tptp.fn_catalyst_2 _let_29))) (let ((_let_31 (tptp.fn_glycogen_phosphorylase_8 X))) (let ((_let_32 (tptp.fn_glycogen_phosphorylase_16 X))) (=> (tptp.glycogen_phosphorylase_1 X) (and (tptp.original_name_2 X |tptp.'Glycogen-Phosphorylase'|) (tptp.user_description_2 X |tptp.'Enzyme which catalyzes the breakdown of glycogen into glucose.'|) (tptp.concept2words_2 X |tptp.'phosphorylase of glycogen'|) (tptp.concept2words_2 X |tptp.'glycogen phosphorylase'|) (tptp.concept2words_2 X |tptp.'glycogen-phosphorylase'|) (tptp.phosphorylase_1 X) (tptp.protein_domain_1 _let_19) (tptp.hydrophilic_region_1 _let_28) (tptp.surface_1 _let_27) (tptp.carbon_skeleton_1 _let_13) (tptp.monomer_1 _let_22) (tptp.carbon_1 _let_14) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.decrease_1 _let_31) (tptp.size_value_1 _let_20) (tptp.kinetic_energy_1 _let_23) (tptp.constant_motion_1 _let_26) (tptp.catalyst_1 _let_29) (tptp.speed_value_1 _let_25) (tptp.quantity_value_1 _let_24) (tptp.size_value_1 _let_21) (tptp.glycogen_breakdown_1 _let_32) (tptp.spatial_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.monomer_1 _let_18) (tptp.molecule_1 _let_18) (tptp.amino_acid_1 _let_18) (tptp.r_group_1 _let_17) (tptp.active_site_1 _let_16) (tptp.chemical_entity_1 _let_30) (tptp.enables_2 _let_31 _let_32) (tptp.in_event_2 _let_29 _let_32) (tptp.has_function_2 X _let_32) (tptp.site_2 _let_32 _let_16) (tptp.has_function_2 X _let_31) (tptp.plays_2 X _let_29) (tptp.has_region_2 X _let_27) (tptp.is_at_2 _let_28 _let_27) (tptp.has_region_2 X _let_28) (tptp.possesses_2 X _let_23) (tptp.quantity_2 _let_23 _let_24) (tptp.directly_proportional_2 _let_25 _let_24) (tptp.speed_2 _let_26 _let_25) (tptp.object_2 _let_26 X) (tptp.the_scalar_value_2 _let_20 tptp.big_0) (tptp.scalar_unit_class_2 _let_20 tptp.polypeptide_0) (tptp.size_2 X _let_20) (tptp.greater_than_2 _let_20 _let_21) (tptp.size_2 _let_22 _let_21) (tptp.has_part_2 X _let_22) (tptp.has_part_2 X _let_15) (tptp.has_region_2 X _let_16) (tptp.is_inside_2 _let_17 _let_16) (tptp.has_region_2 _let_18 _let_17) (tptp.is_at_2 _let_18 _let_19) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= _let_16 _let_8) (= _let_32 (tptp.fn_enzyme_4 X)) (= _let_31 (tptp.fn_enzyme_5 X)) (= _let_29 (tptp.fn_enzyme_6 X)) (= X _let_30) (= _let_28 (tptp.fn_protein_1 X)) (= _let_27 (tptp.fn_protein_5 X)) (= _let_26 (tptp.fn_molecule_8 X)) (= _let_25 (tptp.fn_molecule_3 X)) (= _let_24 (tptp.fn_molecule_4 X)) (= _let_23 (tptp.fn_molecule_12 X)) (= _let_22 _let_12) (= _let_22 _let_11) (= _let_21 (tptp.fn_protein_enzyme_4 X)) (= _let_20 _let_10) (= _let_20 _let_9) (= _let_19 (tptp.fn_protein_enzyme_5 X)) (= _let_18 (tptp.fn_protein_enzyme_11 X)) (= _let_17 (tptp.fn_protein_enzyme_12 X)) (= _let_16 _let_7) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_13 _let_2) (= _let_13 _let_1) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.animal_process_1 X) (tptp.glycogen_1 X1)) (and (tptp.glycogen_storage_by_vertebrate_1 X) (= (tptp.fn_glycogen_storage_by_vertebrate_11 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycogen_storage_by_vertebrate_12 X))) (let ((_let_2 (tptp.fn_liver_cell_51 _let_1))) (let ((_let_3 (tptp.fn_glycogen_storage_by_vertebrate_14 X))) (let ((_let_4 (tptp.fn_muscle_cell_55 _let_3))) (let ((_let_5 (tptp.fn_liver_cell_50 _let_1))) (let ((_let_6 (tptp.fn_glycogen_storage_by_vertebrate_8 X))) (let ((_let_7 (tptp.fn_glycogen_storage_by_vertebrate_11 X))) (let ((_let_8 (tptp.fn_cell_5 _let_1))) (let ((_let_9 (tptp.fn_glycogen_storage_by_vertebrate_10 X))) (let ((_let_10 (tptp.fn_cell_3 _let_1))) (let ((_let_11 (tptp.fn_muscle_cell_54 _let_3))) (let ((_let_12 (tptp.fn_glycogen_storage_by_vertebrate_9 X))) (let ((_let_13 (tptp.fn_glycogen_storage_by_vertebrate_13 X))) (let ((_let_14 (tptp.fn_animal_21 _let_13))) (let ((_let_15 (tptp.fn_glycogen_storage_by_vertebrate_6 X))) (let ((_let_16 (tptp.fn_glycogen_storage_by_vertebrate_5 X))) (let ((_let_17 (tptp.fn_glycogen_storage_by_vertebrate_4 X))) (let ((_let_18 (tptp.fn_glycogen_storage_by_vertebrate_3 X))) (let ((_let_19 (tptp.fn_glycogen_storage_by_vertebrate_2 X))) (=> (tptp.glycogen_storage_by_vertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Glycogen-Storage-By-Vertebrate'|) (tptp.user_description_2 X |tptp.'The process by which the liver converts glucose to the polysaccharide glycogen, which is susequently stored in muscle and liver cells until needed.'|) (tptp.concept2words_2 X tptp.store) (tptp.concept2words_2 X |tptp.'glycogen storage by vertebrate'|) (tptp.concept2words_2 X |tptp.'glycogen-storage-by-vertebrate'|) (tptp.animal_process_1 X) (not (tptp.glucose_storage_by_animals_1 X)) (not (tptp.starch_storage_by_plant_1 X)) (tptp.spatial_entity_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_16) (tptp.cell_1 _let_15) (tptp.store_1 _let_6) (tptp.store_1 _let_12) (tptp.shape_value_1 _let_9) (tptp.entity_1 _let_7) (tptp.storage_polysaccharide_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.molecule_1 _let_7) (tptp.glycogen_1 _let_7) (tptp.liver_cell_1 _let_1) (tptp.vertebrate_1 _let_13) (tptp.animal_cell_1 _let_3) (tptp.muscle_cell_1 _let_3) (tptp.animal_cell_1 _let_14) (tptp.store_1 _let_11) (tptp.property_node_1 _let_10) (tptp.shape_value_1 _let_8) (tptp.store_1 _let_5) (tptp.entity_1 _let_4) (tptp.storage_polysaccharide_1 _let_4) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.molecule_1 _let_4) (tptp.glycogen_1 _let_4) (tptp.entity_1 _let_2) (tptp.storage_polysaccharide_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.molecule_1 _let_2) (tptp.glycogen_1 _let_2) (tptp.base_2 X _let_13) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_6) (tptp.site_2 X _let_1) (tptp.site_2 X _let_3) (tptp.object_2 X _let_7) (tptp.has_part_2 _let_13 _let_1) (tptp.is_between_2 _let_1 _let_19) (tptp.is_between_2 _let_1 _let_18) (tptp.is_between_2 _let_1 _let_17) (tptp.is_between_2 _let_1 _let_16) (not (= _let_1 _let_15)) (tptp.the_categorical_value_2 _let_9 tptp.hollow_volume_0) (tptp.is_outside_2 _let_19 _let_1) (tptp.is_outside_2 _let_18 _let_1) (tptp.is_inside_2 _let_17 _let_1) (tptp.is_inside_2 _let_16 _let_1) (not (= _let_15 _let_1)) (tptp.has_part_2 _let_13 _let_3) (tptp.base_2 _let_12 _let_3) (tptp.object_2 _let_12 _let_7) (tptp.shape_2 _let_1 _let_9) (tptp.base_2 _let_6 _let_1) (tptp.object_2 _let_6 _let_7) (= _let_3 _let_14) (= _let_7 _let_4) (= _let_12 _let_11) (= (tptp.fn_glycogen_storage_by_vertebrate_7 X) _let_10) (= _let_9 _let_8) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycolipid_4 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_glycolipid_3 X))) (let ((_let_4 (tptp.fn_carbohydrate_side_chain_4 _let_3))) (let ((_let_5 (tptp.fn_amphipathic_molecule_5 X))) (let ((_let_6 (tptp.fn_lipid_15 X))) (let ((_let_7 (tptp.fn_amphipathic_molecule_2 X))) (let ((_let_8 (tptp.fn_lipid_16 X))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_10 (tptp.fn_organic_molecule_1 X))) (let ((_let_11 (tptp.fn_glycolipid_12 X))) (let ((_let_12 (tptp.fn_share_1 _let_11))) (let ((_let_13 (tptp.fn_share_3 _let_11))) (let ((_let_14 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_15 (tptp.fn_organic_molecule_2 X))) (let ((_let_16 (tptp.fn_glycolipid_16 X))) (let ((_let_17 (tptp.fn_glycolipid_15 X))) (let ((_let_18 (tptp.fn_glycolipid_14 X))) (let ((_let_19 (tptp.fn_glycolipid_10 X))) (let ((_let_20 (tptp.fn_glycolipid_9 X))) (let ((_let_21 (tptp.fn_glycolipid_5 X))) (let ((_let_22 (tptp.fn_glycolipid_6 X))) (let ((_let_23 (tptp.fn_glycolipid_8 X))) (let ((_let_24 (tptp.fn_glycolipid_13 X))) (let ((_let_25 (tptp.fn_glycolipid_7 X))) (let ((_let_26 (tptp.fn_atom_9 _let_24))) (let ((_let_27 (tptp.fn_glycolipid_11 X))) (let ((_let_28 (tptp.fn_glycolipid_2 X))) (let ((_let_29 (tptp.fn_glycolipid_1 X))) (=> (tptp.glycolipid_1 X) (and (tptp.original_name_2 X |tptp.'Glycolipid'|) (tptp.user_description_2 X |tptp.'Glycolipids are lipids with a carbohydrate attached. Their role is to provide energy and also serve as markers for cellular recognition.'|) (tptp.concept2words_2 X tptp.glycolipid) (tptp.lipid_1 X) (tptp.amphipathic_molecule_1 X) (tptp.surface_1 _let_29) (tptp.center_1 _let_28) (tptp.carbohydrate_side_chain_1 _let_3) (tptp.carbon_skeleton_1 _let_1) (tptp.hydrophilic_region_1 _let_21) (tptp.attract_1 _let_22) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.hydrophobic_region_1 _let_23) (tptp.repel_1 _let_20) (tptp.constant_motion_1 _let_19) (tptp.electron_shell_1 _let_27) (tptp.unequal_sharing_1 _let_11) (tptp.entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.carbon_1 _let_24) (tptp.speed_value_1 _let_18) (tptp.quantity_value_1 _let_17) (tptp.kinetic_energy_1 _let_16) (tptp.electron_shell_1 _let_26) (tptp.atom_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.entity_1 _let_13) (tptp.entity_1 _let_12) (tptp.carbon_1 _let_9) (tptp.organic_molecule_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.is_at_2 _let_3 _let_29) (tptp.has_region_2 X _let_29) (tptp.has_region_2 _let_24 _let_28) (tptp.agent_2 _let_11 _let_24) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_25) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_24) (tptp.is_inside_2 _let_24 _let_1) (not (= _let_25 _let_24)) (not (= _let_24 _let_25)) (tptp.site_2 _let_22 _let_21) (tptp.has_function_2 X _let_22) (tptp.has_region_2 X _let_23) (tptp.facilitates_2 _let_23 _let_20) (tptp.site_2 _let_20 _let_23) (tptp.has_function_2 X _let_20) (tptp.agent_2 _let_20 X) (tptp.has_region_2 X _let_21) (tptp.facilitates_2 _let_21 _let_22) (tptp.agent_2 _let_22 X) (tptp.possesses_2 X _let_16) (tptp.quantity_2 _let_16 _let_17) (tptp.directly_proportional_2 _let_18 _let_17) (tptp.speed_2 _let_19 _let_18) (tptp.object_2 _let_19 X) (= _let_24 _let_13) (= _let_24 _let_12) (= X _let_4) (= _let_27 _let_26) (= _let_25 _let_15) (= _let_25 _let_14) (= _let_24 _let_10) (= _let_24 _let_9) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= X _let_2) (= (tptp.fn_glycolipid_17 X) (tptp.fn_amphipathic_molecule_9 X)) (= (tptp.fn_glycolipid_18 X) (tptp.fn_amphipathic_molecule_10 X)) (= _let_23 _let_8) (= _let_23 _let_7) (= _let_22 (tptp.fn_amphipathic_molecule_6 X)) (= _let_21 (tptp.fn_amphipathic_molecule_1 X)) (= _let_20 _let_6) (= _let_20 _let_5) (= _let_19 (tptp.fn_amphipathic_molecule_8 X)) (= _let_18 (tptp.fn_amphipathic_molecule_3 X)) (= _let_17 (tptp.fn_amphipathic_molecule_4 X)) (= _let_16 (tptp.fn_amphipathic_molecule_7 X)) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycolysis_91 X))) (let ((_let_2 (tptp.fn_enzyme_4 _let_1))) (let ((_let_3 (tptp.fn_glycolysis_53 X))) (let ((_let_4 (tptp.fn_enzyme_4 _let_3))) (let ((_let_5 (tptp.fn_glycolysis_73 X))) (let ((_let_6 (tptp.fn_energy_investment_phase_of_glycolysis_22 _let_5))) (let ((_let_7 (tptp.fn_exergonic_reaction_10 _let_5))) (let ((_let_8 (tptp.fn_glycolysis_71 X))) (let ((_let_9 (tptp.fn_electron_donor_2 _let_8))) (let ((_let_10 (tptp.fn_glycolysis_77 X))) (let ((_let_11 (tptp.fn_aldose_11 _let_10))) (let ((_let_12 (tptp.fn_monosaccharide_6 _let_10))) (let ((_let_13 (tptp.fn_aldose_6 _let_10))) (let ((_let_14 (tptp.fn_glucose_27 _let_10))) (let ((_let_15 (tptp.fn_aldehyde_10 _let_10))) (let ((_let_16 (tptp.fn_monosaccharide_17 _let_10))) (let ((_let_17 (tptp.fn_carbohydrate_34 _let_10))) (let ((_let_18 (tptp.fn_carbohydrate_9 _let_10))) (let ((_let_19 (tptp.fn_aldehyde_9 _let_10))) (let ((_let_20 (tptp.fn_carbohydrate_8 _let_10))) (let ((_let_21 (tptp.fn_aldehyde_4 _let_10))) (let ((_let_22 (tptp.fn_carbohydrate_10 _let_10))) (let ((_let_23 (tptp.fn_aldehyde_8 _let_10))) (let ((_let_24 (tptp.fn_carbohydrate_7 _let_10))) (let ((_let_25 (tptp.fn_aldehyde_7 _let_10))) (let ((_let_26 (tptp.fn_glucose_2 _let_10))) (let ((_let_27 (tptp.fn_catabolic_pathway_4 X))) (let ((_let_28 (tptp.fn_glycolysis_12 X))) (let ((_let_29 (tptp.fn_energy_payoff_phase_of_glycolysis_52 _let_28))) (let ((_let_30 (tptp.fn_energy_payoff_phase_of_glycolysis_41 _let_28))) (let ((_let_31 (tptp.fn_glycolysis_68 X))) (let ((_let_32 (tptp.fn_anabolic_pathway_5 _let_31))) (let ((_let_33 (tptp.fn_energy_payoff_phase_of_glycolysis_5 _let_28))) (let ((_let_34 (tptp.fn_glycolysis_82 X))) (let ((_let_35 (tptp.fn_cytoplasm_7 _let_34))) (let ((_let_36 (tptp.fn_metabolic_pathway_1 X))) (let ((_let_37 (tptp.fn_cytoplasm_8 _let_34))) (let ((_let_38 (tptp.fn_mixture_1 _let_34))) (let ((_let_39 (tptp.fn_glycolysis_67 X))) (let ((_let_40 (tptp.fn_isomerization_reaction_2 _let_39))) (let ((_let_41 (tptp.fn_energy_payoff_phase_of_glycolysis_46 _let_28))) (let ((_let_42 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_43 (tptp.fn_exergonic_reaction_10 _let_28))) (let ((_let_44 (tptp.fn_glycolysis_56 X))) (let ((_let_45 (tptp.fn_enzymatic_reaction_12 _let_44))) (let ((_let_46 (tptp.fn_isomerization_reaction_1 _let_39))) (let ((_let_47 (tptp.fn_energy_payoff_phase_of_glycolysis_50 _let_28))) (let ((_let_48 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_49 (tptp.fn_glycolysis_69 X))) (let ((_let_50 (tptp.fn_synthesis_of_organic_molecule_1 _let_49))) (let ((_let_51 (tptp.fn_energy_payoff_phase_of_glycolysis_31 _let_28))) (let ((_let_52 (tptp.fn_energy_payoff_phase_of_glycolysis_30 _let_28))) (let ((_let_53 (tptp.fn_substrate_level_phosphorylation_6 _let_31))) (let ((_let_54 (tptp.fn_energy_payoff_phase_of_glycolysis_39 _let_28))) (let ((_let_55 (tptp.fn_energy_payoff_phase_of_glycolysis_32 _let_28))) (let ((_let_56 (tptp.fn_substrate_level_phosphorylation_5 _let_31))) (let ((_let_57 (tptp.fn_glycolysis_58 X))) (let ((_let_58 (tptp.fn_catabolism_7 _let_57))) 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(tptp.constant_motion_1 _let_20) (tptp.speed_value_1 _let_19) (tptp.speed_value_1 _let_18) (tptp.carbonyl_group_1 _let_17) (tptp.functional_group_1 _let_16) (tptp.carbonyl_group_1 _let_16) (tptp.carbonyl_group_1 _let_15) (tptp.functional_group_1 _let_14) (tptp.carbonyl_group_1 _let_14) (tptp.functional_group_1 _let_13) (tptp.carbonyl_group_1 _let_13) (tptp.carbon_skeleton_1 _let_12) (tptp.carbon_skeleton_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.glucose_1 _let_6) (tptp.chemical_reaction_1 _let_4) (tptp.chemical_reaction_1 _let_2) (not (= _let_185 _let_115)) (tptp.greater_than_or_equal_to_2 _let_205 _let_209) (tptp.has_part_2 _let_34 _let_3) (tptp.has_part_2 _let_34 _let_1) (not (= _let_115 _let_185)) (not (= _let_115 _let_104)) (tptp.chemical_stability_2 _let_10 _let_224) (not (= _let_104 _let_115)) (tptp.possesses_2 _let_104 _let_212) (tptp.next_event_2 _let_5 _let_28) (tptp.subevent_2 _let_49 _let_63) (not (= _let_49 _let_111)) (not (= _let_49 _let_44)) (tptp.subevent_2 _let_31 _let_63) (not (= _let_31 _let_39)) (not (= _let_31 _let_44)) (tptp.result_2 _let_31 _let_104) (not (= _let_39 _let_31)) (not (= _let_39 _let_111)) (not (= _let_39 _let_44)) (tptp.next_event_2 _let_111 _let_31) (not (= _let_111 _let_39)) (not (= _let_111 _let_49)) (not (= _let_111 _let_44)) (tptp.first_subevent_2 X _let_5) (tptp.rate_2 X _let_225) (tptp.exactCardinality X tptp.raw_material_0 |"1"| tptp.glucose_0) (tptp.exactCardinality X tptp.raw_material_0 |"2"| tptp.nad_plus_0) (tptp.exactCardinality X tptp.raw_material_0 |"2"| tptp.adp_0) (tptp.raw_material_2 X _let_162) (tptp.raw_material_2 X _let_187) (tptp.raw_material_2 X _let_10) (tptp.site_2 X _let_102) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.pyruvate_0) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.atp_0) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.nadh_0) (tptp.result_2 X _let_97) (tptp.result_2 X _let_107) (tptp.subevent_2 X _let_28) (tptp.subevent_2 X _let_5) (tptp.correspondence_2 _let_225 _let_224) (tptp.next_event_2 _let_44 _let_31) (tptp.next_event_2 _let_44 _let_49) (not (= _let_44 _let_111)) (not (= _let_44 _let_39)) (not (= _let_44 _let_31)) (not (= _let_44 _let_49)) (tptp.result_2 _let_44 _let_104) (tptp.raw_material_2 _let_44 _let_115) (tptp.in_event_2 _let_84 X) (tptp.greater_than_2 _let_146 _let_99) (tptp.called_2 _let_172 |tptp.'Terminal PO4 Group'|) (tptp.plays_2 _let_10 _let_8) (tptp.result_2 _let_63 _let_107) (tptp.result_2 _let_222 _let_34) (tptp.raw_material_2 _let_63 _let_187) (tptp.result_2 _let_220 _let_34) (tptp.raw_material_2 _let_63 _let_162) (tptp.raw_material_2 _let_44 _let_103) (tptp.result_2 _let_44 _let_184) (tptp.result_2 _let_49 _let_104) (tptp.plays_2 _let_200 _let_84) (tptp.possesses_2 _let_10 _let_203) (tptp.result_2 _let_59 _let_107) (tptp.result_2 _let_57 _let_107) (tptp.raw_material_2 _let_5 _let_201) (tptp.result_2 _let_5 _let_115) (tptp.raw_material_2 _let_5 _let_10) (tptp.base_2 X _let_101) (tptp.has_function_2 _let_3 X) (tptp.in_event_2 _let_217 X) (tptp.plays_2 _let_1 _let_217) (tptp.has_function_2 _let_1 _let_196) (tptp.possesses_2 _let_103 _let_203) (tptp.quantity_2 _let_203 _let_205) (tptp.greater_than_2 _let_205 _let_209) (tptp.quantity_2 _let_212 _let_209) (tptp.raw_material_2 X _let_201) (tptp.result_2 X _let_200) (tptp.raw_material_2 X _let_103) (tptp.structural_complexity_2 _let_103 _let_96) (tptp.greater_than_2 _let_96 _let_199) (tptp.structural_complexity_2 _let_104 _let_199) (tptp.result_2 X _let_104) (tptp.has_function_2 _let_1 X) (tptp.enables_2 _let_196 X) (tptp.has_function_2 _let_3 _let_196) (tptp.plays_2 _let_3 _let_198) (tptp.in_event_2 _let_198 X) (tptp.result_2 _let_31 _let_107) (tptp.has_region_2 _let_107 _let_174) (tptp.raw_material_2 _let_31 _let_187) (not (= _let_187 _let_107)) (not (= _let_107 _let_187)) (tptp.is_inside_2 _let_178 _let_172) (tptp.is_inside_2 _let_171 _let_173) (tptp.in_event_2 _let_170 _let_135) (tptp.called_2 _let_186 |tptp.'FE_r'|) (tptp.object_2 _let_135 _let_127) (not (= _let_49 _let_31)) (not (= _let_31 _let_49)) (tptp.has_part_2 _let_103 _let_157) (tptp.has_part_2 _let_103 _let_159) (not (= _let_162 _let_187)) (not (= _let_187 _let_162)) (tptp.quantity_2 _let_147 _let_186) (tptp.greater_than_2 _let_183 _let_186) (tptp.called_2 _let_183 |tptp.'FE_p'|) (tptp.raw_material_2 _let_49 _let_162) (tptp.next_event_2 _let_49 _let_39) (not (= _let_39 _let_49)) (tptp.raw_material_2 _let_49 _let_184) (not (= _let_184 _let_185)) (not (= _let_49 _let_39)) (not (= _let_185 _let_184)) (tptp.is_between_2 _let_164 _let_171) (tptp.is_between_2 _let_164 _let_179) (tptp.is_inside_2 _let_179 _let_174) (not (= _let_179 _let_178)) (not (= _let_178 _let_179)) (tptp.has_region_2 _let_107 _let_173) (tptp.is_inside_2 _let_178 _let_173) (not (= _let_178 _let_171)) (not (= _let_171 _let_179)) (tptp.is_inside_2 _let_179 _let_173) (not (= _let_171 _let_178)) (not (= _let_179 _let_171)) (tptp.is_specific_to_2 _let_114 _let_115) (tptp.raw_material_2 _let_151 _let_115) (tptp.has_function_2 _let_114 _let_151) (tptp.has_function_2 _let_114 _let_153) (tptp.next_event_2 _let_153 _let_108) (tptp.has_part_2 _let_107 _let_179) (tptp.is_inside_2 _let_179 _let_172) (tptp.has_region_2 _let_107 _let_172) (tptp.possesses_2 _let_107 _let_181) (tptp.quantity_2 _let_181 _let_183) (tptp.raw_material_2 _let_151 _let_103) (tptp.has_state_2 _let_104 _let_103) (tptp.result_2 _let_151 _let_104) (tptp.result_2 _let_151 _let_117) (not (= _let_117 _let_114)) (not (= _let_114 _let_117)) (tptp.has_part_2 _let_107 _let_178) (tptp.is_inside_2 _let_178 _let_174) (tptp.is_inside_2 _let_171 _let_174) (not (= _let_173 _let_174)) (not (= _let_174 _let_173)) (tptp.first_subevent_2 _let_153 _let_151) (tptp.subevent_2 _let_151 _let_135) (tptp.recipient_2 _let_135 _let_103) (tptp.has_atom_2 _let_103 _let_176) (tptp.electronegativity_2 _let_176 _let_141) (tptp.has_part_2 _let_107 _let_171) (tptp.is_inside_2 _let_171 _let_172) (not (= _let_172 _let_174)) (not (= _let_173 _let_172)) (not (= _let_172 _let_173)) (not (= _let_174 _let_172)) (tptp.first_subevent_2 _let_28 _let_153) (tptp.subevent_2 _let_153 _let_151) (tptp.subevent_2 _let_151 _let_131) (tptp.recipient_2 _let_131 _let_103) (tptp.plays_2 _let_103 _let_170) (tptp.possesses_2 _let_103 _let_161) (tptp.result_2 _let_166 _let_161) (tptp.result_2 _let_166 _let_103) (tptp.plays_2 _let_103 _let_168) (tptp.in_event_2 _let_168 _let_131) (tptp.subevent_2 _let_28 _let_108) (tptp.result_2 _let_108 _let_107) (tptp.possesses_2 _let_107 _let_164) (not (= _let_162 _let_107)) (not (= _let_107 _let_162)) (tptp.has_region_2 _let_103 _let_155) (tptp.is_inside_2 _let_157 _let_155) (tptp.is_between_2 _let_161 _let_157) (not (= _let_159 _let_157)) (not (= _let_157 _let_159)) (tptp.subevent_2 _let_28 _let_153) (tptp.raw_material_2 _let_153 _let_115) (tptp.donor_2 _let_131 _let_115) (tptp.object_2 _let_131 _let_127) (not (= _let_127 _let_114)) (not (= _let_114 _let_127)) (tptp.has_state_2 _let_103 _let_104) (tptp.plays_2 _let_103 _let_149) (tptp.in_event_2 _let_149 _let_151) (not (= _let_127 _let_103)) (not (= _let_103 _let_127)) (tptp.result_2 _let_28 _let_107) (tptp.structural_complexity_2 _let_107 _let_144) (tptp.greater_than_2 _let_144 _let_146) (tptp.structural_complexity_2 _let_106 _let_146) (tptp.possesses_2 _let_106 _let_147) (tptp.has_atom_2 _let_115 _let_137) (tptp.electronegativity_2 _let_137 _let_139) (tptp.greater_than_2 _let_141 _let_139) (tptp.greater_than_or_equal_to_2 _let_141 _let_139) (tptp.result_2 _let_28 _let_97) (tptp.result_2 _let_109 _let_97) (tptp.subevent_2 _let_28 _let_109) (tptp.result_2 _let_28 _let_104) (tptp.has_oxidized_form_2 _let_104 _let_103) (tptp.has_reduced_form_2 _let_103 _let_104) (tptp.plays_2 _let_115 _let_133) (tptp.in_event_2 _let_133 _let_135) (tptp.donor_2 _let_135 _let_115) (not (= _let_115 _let_103)) (not (= _let_103 _let_104)) (not (= _let_103 _let_115)) (not (= _let_104 _let_103)) (tptp.raw_material_2 _let_28 _let_115) (tptp.plays_2 _let_115 _let_129) (tptp.in_event_2 _let_129 _let_131) (not (= _let_127 _let_115)) (not (= _let_115 _let_127)) (tptp.object_2 _let_119 _let_103) (tptp.speed_2 _let_119 _let_121) (tptp.directly_proportional_2 _let_121 _let_123) (tptp.quantity_2 _let_125 _let_123) (tptp.possesses_2 _let_103 _let_125) (tptp.raw_material_2 _let_28 _let_103) (not (= _let_103 _let_114)) (not (= _let_114 _let_115)) (not (= _let_114 _let_103)) (not (= _let_115 _let_114)) (not (= _let_117 _let_115)) (not (= _let_115 _let_117)) (tptp.result_2 _let_49 _let_107) (tptp.next_event_2 _let_111 _let_49) (tptp.next_event_2 _let_39 _let_111) (not (= _let_31 _let_111)) (not (= _let_111 _let_31)) (tptp.raw_material_2 _let_28 _let_106) (tptp.raw_material_2 _let_108 _let_106) (not (= _let_108 _let_109)) (not (= _let_107 _let_106)) (not (= _let_106 _let_107)) (not (= _let_109 _let_108)) (tptp.is_at_2 _let_89 _let_88) (tptp.has_region_2 _let_10 _let_89) (tptp.has_region_2 _let_10 _let_88) (tptp.is_at_2 _let_88 _let_86) (tptp.has_region_2 _let_10 _let_86) (tptp.speed_2 _let_92 _let_90) (tptp.directly_proportional_2 _let_90 _let_93) (tptp.quantity_2 _let_95 _let_93) (tptp.possesses_2 _let_10 _let_95) (tptp.object_2 _let_92 _let_10) (tptp.the_scalar_value_2 _let_96 tptp.complex_0) (tptp.scalar_unit_class_2 _let_96 tptp.chemical_entity_0) (tptp.structural_complexity_2 _let_10 _let_96) (tptp.structural_complexity_2 _let_97 _let_99) (tptp.result_2 _let_31 _let_97) (tptp.has_part_2 _let_34 _let_102) (tptp.has_part_2 _let_101 _let_34) (tptp.raw_material_2 _let_39 _let_103) (tptp.result_2 _let_39 _let_104) (= _let_10 _let_9) (= _let_107 _let_64) (= _let_34 _let_223) (= _let_187 _let_82) (= _let_34 _let_221) (= _let_162 _let_70) (= _let_103 _let_45) (= _let_184 _let_78) (= _let_104 _let_50) (= _let_200 _let_85) (= _let_107 _let_62) (= _let_107 _let_60) (= _let_107 _let_61) (= _let_107 _let_58) (= _let_201 _let_219) (= _let_115 _let_67) (= _let_115 _let_66) (= _let_10 _let_7) (= _let_10 _let_6) (= _let_101 _let_36) (= _let_196 _let_218) (= _let_217 _let_216) (= X _let_4) (= (tptp.fn_glycolysis_84 X) _let_215) (= (tptp.fn_glycolysis_90 X) _let_214) (= _let_212 _let_213) (= _let_212 _let_211) (= _let_209 _let_210) (= _let_209 _let_208) (= _let_203 _let_207) (= _let_205 _let_206) (= _let_205 _let_204) (= _let_203 _let_202) (= _let_201 (tptp.fn_catabolic_pathway_6 X)) (= _let_200 _let_83) (= (tptp.fn_glycolysis_97 X) (tptp.fn_catabolic_pathway_1 X)) (= _let_104 _let_48) (= _let_199 (tptp.fn_catabolic_pathway_2 X)) (= _let_96 _let_27) (= _let_103 _let_42) (= _let_198 _let_197) (= _let_196 _let_195) (= X _let_2) (= _let_174 _let_76) (= _let_187 _let_81) (= _let_187 _let_53) (= _let_172 _let_75) (= _let_31 _let_30) (= (tptp.fn_glycolysis_10 X) _let_194) (= (tptp.fn_glycolysis_9 X) _let_193) (= (tptp.fn_glycolysis_8 X) _let_192) (= (tptp.fn_glycolysis_98 X) _let_191) (= (tptp.fn_glycolysis_7 X) _let_190) (= (tptp.fn_glycolysis_99 X) _let_189) (= (tptp.fn_glycolysis_6 X) _let_188) (= _let_187 _let_51) (= _let_186 _let_80) (= _let_186 _let_79) (= _let_185 _let_116) (= _let_184 _let_77) (= _let_49 _let_29) (= _let_179 _let_71) (= _let_173 _let_73) (= _let_183 _let_182) (= _let_181 _let_180) (= _let_179 _let_72) (= _let_171 _let_72) (= _let_174 _let_74) (= _let_178 _let_177) (= _let_176 _let_175) (= _let_174 _let_73) (= _let_172 _let_74) (= _let_173 _let_75) (= _let_172 _let_73) (= _let_171 _let_71) (= _let_170 _let_169) (= _let_168 _let_167) (= _let_166 _let_165) (= _let_164 _let_163) (= _let_162 _let_52) (= _let_108 _let_29) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_157 _let_156) (= _let_155 _let_154) (= _let_153 _let_152) (= _let_151 _let_150) (= _let_149 _let_148) (= _let_147 _let_69) (= _let_147 _let_68) (= _let_106 _let_52) (= _let_146 _let_145) (= _let_144 _let_143) (= _let_107 _let_55) (= (tptp.fn_glycolysis_11 X) _let_142) (= _let_141 _let_140) (= _let_139 _let_138) (= _let_137 _let_136) (= _let_109 _let_30) (= _let_97 _let_33) (= _let_104 _let_47) (= _let_135 _let_134) (= _let_133 _let_132) (= _let_131 _let_130) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_125 _let_124) (= _let_123 _let_122) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_115 _let_65) (= _let_114 _let_113) (= _let_103 _let_43) (= _let_103 _let_41) (= _let_39 _let_112) (= _let_31 _let_29) (= _let_111 _let_110) (= _let_49 _let_30) (= _let_109 _let_29) (= _let_108 _let_30) (= _let_107 _let_56) (= _let_106 _let_53) (= _let_107 _let_54) (= _let_106 _let_51) (= (tptp.fn_glycolysis_100 X) _let_105) (= _let_104 _let_46) (= _let_103 _let_40) (= _let_102 _let_38) (= _let_102 _let_37) (= _let_101 _let_35) (= (tptp.fn_glycolysis_5 X) _let_100) (= _let_99 _let_98) (= _let_97 _let_32) (= _let_96 _let_26) (= _let_90 _let_19) (= _let_93 _let_23) (= _let_95 _let_25) (= _let_95 _let_24) (= (tptp.fn_glycolysis_107 X) _let_94) (= _let_93 _let_22) (= _let_92 _let_21) (= _let_92 _let_20) (= (tptp.fn_glycolysis_106 X) _let_91) (= _let_90 _let_18) (= _let_89 _let_17) (= _let_89 _let_16) (= _let_89 _let_15) (= _let_89 _let_14) (= _let_89 _let_13) (= _let_88 _let_87) (= _let_86 _let_12) (= _let_86 _let_11) (= _let_85 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_53 _let_81) (= _let_81 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_79) (= _let_79 _let_79) (= _let_79 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_71) (= _let_72 _let_72) (= _let_72 _let_76) (= _let_76 _let_74) (= _let_73 _let_74) (= _let_75 _let_73) (= _let_73 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_52) (= _let_52 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_29) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_64) (= _let_64 _let_62) (= _let_62 _let_61) (= _let_61 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_58) (= _let_58 _let_60) (= _let_60 _let_58) (= _let_58 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glycoprotein_1 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_2 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_glycoprotein_17 X))) (let ((_let_6 (tptp.fn_carbohydrate_side_chain_4 _let_5))) (let ((_let_7 (tptp.fn_amphipathic_molecule_1 X))) (let ((_let_8 (tptp.fn_protein_1 X))) (let ((_let_9 (tptp.fn_carbohydrate_side_chain_24 _let_5))) (let ((_let_10 (tptp.fn_carbohydrate_side_chain_26 _let_5))) (let ((_let_11 (tptp.fn_carbohydrate_side_chain_22 _let_5))) (let ((_let_12 (tptp.fn_carbohydrate_side_chain_23 _let_5))) (let ((_let_13 (tptp.fn_glycoprotein_13 X))) (let ((_let_14 (tptp.fn_hold_2 _let_13))) (let ((_let_15 (tptp.fn_protein_9 X))) (let ((_let_16 (tptp.fn_polymer_8 X))) (let ((_let_17 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_18 (tptp.fn_glycoprotein_5 X))) (let ((_let_19 (tptp.fn_glycoprotein_4 X))) (let ((_let_20 (tptp.fn_glycoprotein_18 X))) (let ((_let_21 (tptp.fn_glycoprotein_25 X))) (let ((_let_22 (tptp.fn_glycoprotein_26 X))) (let ((_let_23 (tptp.fn_glycoprotein_24 X))) (let ((_let_24 (tptp.fn_glycoprotein_23 X))) (let ((_let_25 (tptp.fn_glycoprotein_20 X))) (let ((_let_26 (tptp.fn_glycoprotein_21 X))) (let ((_let_27 (tptp.fn_glycoprotein_22 X))) (let ((_let_28 (tptp.fn_carbohydrate_side_chain_28 _let_5))) (let ((_let_29 (tptp.fn_glycoprotein_31 X))) (let ((_let_30 (tptp.fn_carbohydrate_side_chain_11 _let_5))) (let ((_let_31 (tptp.fn_glycoprotein_29 X))) (let ((_let_32 (tptp.fn_glycoprotein_27 X))) (let ((_let_33 (tptp.fn_carbohydrate_side_chain_25 _let_5))) (let ((_let_34 (tptp.fn_glycoprotein_28 X))) (let ((_let_35 (tptp.fn_glycoprotein_30 X))) (let ((_let_36 (tptp.fn_glycoprotein_2 X))) (let ((_let_37 (tptp.fn_glycoprotein_19 X))) (let ((_let_38 (tptp.fn_glycoprotein_10 X))) (let ((_let_39 (tptp.fn_glycoprotein_14 X))) (let ((_let_40 (tptp.fn_glycoprotein_11 X))) (let ((_let_41 (tptp.fn_glycoprotein_3 X))) (let ((_let_42 (tptp.fn_glycoprotein_12 X))) (let ((_let_43 (tptp.fn_glycoprotein_16 X))) (let ((_let_44 (tptp.fn_solubility_value_1 _let_43))) (=> (tptp.glycoprotein_1 X) (and (tptp.original_name_2 X |tptp.'Glycoprotein'|) (tptp.user_description_2 X |tptp.'Glycoprotein are proteins containing oligosaccharide chains covalently attached to their polypeptide side chains'|) (tptp.concept2words_2 X |tptp.'glyco protein'|) (tptp.concept2words_2 X |tptp.'glyco-protein'|) (tptp.concept2words_2 X tptp.glycoprotein) (tptp.protein_1 X) (tptp.amphipathic_molecule_1 X) (tptp.carbon_skeleton_1 _let_1) (tptp.polypeptide_1 _let_36) (tptp.monomer_1 _let_41) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.carbon_1 _let_18) (tptp.protein_domain_1 _let_38) (tptp.size_value_1 _let_40) (tptp.size_value_1 _let_42) (tptp.hold_1 _let_13) (tptp.hold_together_1 _let_13) (tptp.surface_1 _let_39) (tptp.solubility_value_1 _let_43) (tptp.carbohydrate_side_chain_1 _let_5) (tptp.hydrophilic_region_1 _let_20) (tptp.spatial_entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.monomer_1 _let_37) (tptp.molecule_1 _let_37) (tptp.amino_acid_1 _let_37) (tptp.quantity_value_1 _let_25) (tptp.speed_value_1 _let_26) (tptp.constant_motion_1 _let_27) (tptp.kinetic_energy_1 _let_24) (tptp.repel_1 _let_23) (tptp.attract_1 _let_21) (tptp.hydrophobic_region_1 _let_22) (tptp.entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.oxygen_1 _let_32) (tptp.entity_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.atom_1 _let_34) (tptp.hydrogen_1 _let_34) (tptp.entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.oxygen_1 _let_31) (tptp.tangible_entity_1 _let_35) (tptp.entity_1 _let_35) (tptp.carbon_1 _let_35) (tptp.atom_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.double_bond_1 _let_29) (tptp.property_node_1 _let_44) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.hydrogen_1 _let_33) (tptp.hold_together_1 _let_30) (tptp.double_bond_1 _let_28) (tptp.carbon_1 _let_17) (tptp.tangible_entity_1 _let_14) (tptp.carbon_1 _let_12) (tptp.entity_1 _let_11) (tptp.carbon_1 _let_11) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.oxygen_1 _let_10) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.oxygen_1 _let_9) (tptp.organic_molecule_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.greater_than_or_equal_to_2 _let_40 _let_42) (tptp.object_2 _let_13 _let_34) (tptp.the_scalar_value_2 _let_43 tptp.insoluble_0) (tptp.scalar_unit_class_2 _let_43 tptp.protein_0) (tptp.solubility_in_water_2 X _let_43) (tptp.is_at_2 _let_5 _let_39) (tptp.object_2 _let_13 _let_35) (tptp.has_part_2 X _let_19) (tptp.greater_than_2 _let_40 _let_42) (tptp.has_part_2 X _let_41) (tptp.size_2 _let_41 _let_42) (tptp.is_at_2 _let_20 _let_39) (tptp.size_2 X _let_40) (tptp.the_scalar_value_2 _let_40 tptp.big_0) (tptp.scalar_unit_class_2 _let_40 tptp.polypeptide_0) (tptp.has_part_2 X _let_36) (tptp.has_part_2 _let_36 _let_37) (tptp.is_at_2 _let_37 _let_38) (tptp.has_region_2 X _let_38) (tptp.has_region_2 X _let_39) (tptp.has_part_2 _let_5 _let_34) (tptp.has_part_2 X _let_5) (tptp.has_part_2 _let_5 _let_32) (tptp.has_part_2 _let_5 _let_35) (tptp.has_part_2 _let_5 _let_31) (not (= _let_35 _let_31)) (not (= _let_31 _let_35)) (not (= _let_34 _let_31)) (not (= _let_35 _let_34)) (not (= _let_34 _let_35)) (not (= _let_31 _let_34)) (tptp.object_2 _let_13 _let_32) (not (= _let_32 _let_35)) (not (= _let_34 _let_32)) (not (= _let_32 _let_34)) (not (= _let_35 _let_32)) (tptp.object_2 _let_13 _let_31) (not (= _let_32 _let_31)) (not (= _let_31 _let_32)) (tptp.site_2 _let_23 _let_22) (tptp.site_2 _let_21 _let_20) (tptp.has_function_2 X _let_21) (tptp.has_function_2 X _let_23) (tptp.agent_2 _let_23 X) (tptp.possesses_2 X _let_24) (tptp.quantity_2 _let_24 _let_25) (tptp.directly_proportional_2 _let_26 _let_25) (tptp.speed_2 _let_27 _let_26) (tptp.object_2 _let_27 X) (tptp.has_region_2 X _let_20) (tptp.facilitates_2 _let_20 _let_21) (tptp.agent_2 _let_21 X) (tptp.has_region_2 X _let_22) (tptp.facilitates_2 _let_22 _let_23) (tptp.is_inside_2 _let_18 _let_1) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_1) (not (= _let_19 _let_18)) (not (= _let_18 _let_19)) (= _let_35 _let_14) (= _let_19 _let_3) (= (tptp.fn_glycoprotein_15 X) _let_44) (= _let_40 _let_16) (= (tptp.fn_glycoprotein_9 X) (tptp.fn_polymer_10 X)) (= _let_42 (tptp.fn_polymer_7 X)) (= _let_41 (tptp.fn_polymer_4 X)) (= (tptp.fn_glycoprotein_8 X) (tptp.fn_protein_10 X)) (= _let_40 _let_15) (= _let_39 (tptp.fn_protein_5 X)) (= _let_38 (tptp.fn_protein_7 X)) (= _let_37 (tptp.fn_protein_14 X)) (= _let_36 (tptp.fn_protein_8 X)) (= X _let_6) (= _let_31 _let_10) (= _let_35 _let_12) (= _let_35 _let_11) (= _let_32 _let_9) (= _let_34 _let_33) (= _let_32 _let_10) (= _let_31 _let_9) (= _let_13 _let_30) (= _let_29 _let_28) (= (tptp.fn_glycoprotein_7 X) (tptp.fn_amphipathic_molecule_9 X)) (= (tptp.fn_glycoprotein_6 X) (tptp.fn_amphipathic_molecule_10 X)) (= _let_27 (tptp.fn_amphipathic_molecule_8 X)) (= _let_26 (tptp.fn_amphipathic_molecule_3 X)) (= _let_25 (tptp.fn_amphipathic_molecule_4 X)) (= _let_24 (tptp.fn_amphipathic_molecule_7 X)) (= _let_23 (tptp.fn_amphipathic_molecule_5 X)) (= _let_22 (tptp.fn_amphipathic_molecule_2 X)) (= _let_21 (tptp.fn_amphipathic_molecule_6 X)) (= _let_20 _let_8) (= _let_20 _let_7) (= X _let_4) (= _let_19 _let_2) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.glycoprotein_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Glycoprotein-Hormone'|) (tptp.user_description_2 X |tptp.'A molecule that functions as a hormone and consists of a protein with at least one carbohydrate covalently bonded to it.'|) (tptp.concept2words_2 X |tptp.'hormone of glycoprotein'|) (tptp.concept2words_2 X |tptp.'glycoprotein hormone'|) (tptp.concept2words_2 X |tptp.'glycoprotein-hormone'|) (tptp.glycoprotein_1 X) (not (tptp.cell_adhesion_molecule_1 X)) (not (tptp.collagen_1 X)) (not (tptp.fibronectin_1 X)) (not (tptp.peptidoglycan_1 X)) (not (tptp.proteoglycan_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_polar_covalent_bond_11 X))) (let ((_let_2 (tptp.fn_glycosidic_linkage_74 X))) (let ((_let_3 (tptp.fn_polar_covalent_bond_11 _let_2))) (let ((_let_4 (tptp.fn_glycosidic_linkage_52 X))) (let ((_let_5 (tptp.fn_carbonyl_group_4 _let_4))) (let ((_let_6 (tptp.fn_polar_covalent_bond_12 X))) (let ((_let_7 (tptp.fn_covalent_bond_18 X))) (let ((_let_8 (tptp.fn_glycosidic_linkage_53 X))) (let ((_let_9 (tptp.fn_share_2 _let_8))) (let ((_let_10 (tptp.fn_glycosidic_linkage_71 X))) (let ((_let_11 (tptp.fn_constant_motion_1 _let_10))) (let ((_let_12 (tptp.fn_glycosidic_linkage_57 X))) (let ((_let_13 (tptp.fn_constant_motion_1 _let_12))) (let ((_let_14 (tptp.fn_glycosidic_linkage_73 X))) (let ((_let_15 (tptp.fn_covalent_bond_15 _let_14))) (let ((_let_16 (tptp.fn_polar_covalent_bond_12 _let_2))) (let ((_let_17 (tptp.fn_carbonyl_group_6 _let_4))) (let ((_let_18 (tptp.fn_polar_covalent_bond_13 X))) (let ((_let_19 (tptp.fn_polar_covalent_bond_13 _let_2))) (let ((_let_20 (tptp.fn_polar_covalent_bond_13 _let_14))) (let ((_let_21 (tptp.fn_polar_covalent_bond_14 _let_2))) (let ((_let_22 (tptp.fn_polar_covalent_bond_14 X))) (let ((_let_23 (tptp.fn_polar_covalent_bond_20 X))) (let ((_let_24 (tptp.fn_polar_covalent_bond_22 _let_2))) (let ((_let_25 (tptp.fn_polar_covalent_bond_20 _let_14))) (let ((_let_26 (tptp.fn_polar_covalent_bond_11 _let_14))) (let ((_let_27 (tptp.fn_covalent_bond_18 _let_14))) (let ((_let_28 (tptp.fn_glycosidic_linkage_45 X))) (let ((_let_29 (tptp.fn_carbon_10 _let_28))) (let ((_let_30 (tptp.fn_atom_14 _let_28))) (let ((_let_31 (tptp.fn_covalent_bond_15 X))) (let ((_let_32 (tptp.fn_glycosidic_linkage_72 X))) (let ((_let_33 (tptp.fn_share_2 _let_32))) (let ((_let_34 (tptp.fn_glycosidic_linkage_67 X))) (let ((_let_35 (tptp.fn_share_2 _let_34))) (let ((_let_36 (tptp.fn_glycosidic_linkage_33 X))) (let ((_let_37 (tptp.fn_share_2 _let_36))) (let ((_let_38 (tptp.fn_glycosidic_linkage_44 X))) (let ((_let_39 (tptp.fn_share_2 _let_38))) (let ((_let_40 (tptp.fn_glycosidic_linkage_40 X))) (let ((_let_41 (tptp.fn_constant_motion_1 _let_40))) (let ((_let_42 (tptp.fn_glycosidic_linkage_39 X))) (let ((_let_43 (tptp.fn_attract_1 _let_42))) (let ((_let_44 (tptp.fn_polar_covalent_bond_10 X))) (let ((_let_45 (tptp.fn_carbon_12 _let_28))) (let ((_let_46 (tptp.fn_atom_5 _let_28))) (let ((_let_47 (tptp.fn_polar_covalent_bond_9 X))) (let ((_let_48 (tptp.fn_carbon_19 _let_28))) (let ((_let_49 (tptp.fn_atom_11 _let_28))) (let ((_let_50 (tptp.fn_polar_covalent_bond_14 _let_14))) (let ((_let_51 (tptp.fn_carbon_18 _let_28))) (let ((_let_52 (tptp.fn_atom_18 _let_28))) (let ((_let_53 (tptp.fn_polar_covalent_bond_21 X))) (let ((_let_54 (tptp.fn_polar_covalent_bond_23 _let_2))) (let ((_let_55 (tptp.fn_polar_covalent_bond_23 _let_14))) (let ((_let_56 (tptp.fn_polar_covalent_bond_21 _let_14))) (let ((_let_57 (tptp.fn_polar_covalent_bond_5 X))) (let ((_let_58 (tptp.fn_covalent_bond_4 X))) (let ((_let_59 (tptp.fn_polar_covalent_bond_5 _let_14))) (let ((_let_60 (tptp.fn_covalent_bond_8 X))) (let ((_let_61 (tptp.fn_polar_covalent_bond_7 X))) (let ((_let_62 (tptp.fn_covalent_bond_6 X))) (let ((_let_63 (tptp.fn_polar_covalent_bond_7 _let_14))) (let ((_let_64 (tptp.fn_polar_covalent_bond_22 X))) (let ((_let_65 (tptp.fn_atom_9 _let_28))) (let ((_let_66 (tptp.fn_polar_covalent_bond_20 _let_2))) (let ((_let_67 (tptp.fn_carbonyl_group_7 _let_4))) (let ((_let_68 (tptp.fn_share_1 _let_32))) (let ((_let_69 (tptp.fn_share_1 _let_34))) (let ((_let_70 (tptp.fn_glycosidic_linkage_9 X))) (let ((_let_71 (tptp.fn_share_1 _let_70))) (let ((_let_72 (tptp.fn_glycosidic_linkage_10 X))) (let ((_let_73 (tptp.fn_share_1 _let_72))) (let ((_let_74 (tptp.fn_glycosidic_linkage_66 X))) (let ((_let_75 (tptp.fn_share_1 _let_74))) (let ((_let_76 (tptp.fn_glycosidic_linkage_11 X))) (let ((_let_77 (tptp.fn_share_1 _let_76))) (let ((_let_78 (tptp.fn_share_1 _let_36))) (let ((_let_79 (tptp.fn_glycosidic_linkage_34 X))) (let ((_let_80 (tptp.fn_share_1 _let_79))) (let ((_let_81 (tptp.fn_glycosidic_linkage_41 X))) (let ((_let_82 (tptp.fn_hold_2 _let_81))) (let ((_let_83 (tptp.fn_share_3 _let_70))) (let ((_let_84 (tptp.fn_share_3 _let_72))) (let ((_let_85 (tptp.fn_share_3 _let_76))) (let ((_let_86 (tptp.fn_share_3 _let_36))) (let ((_let_87 (tptp.fn_share_3 _let_38))) (let ((_let_88 (tptp.fn_share_3 _let_79))) (let ((_let_89 (tptp.fn_carbon_17 _let_28))) (let ((_let_90 (tptp.fn_covalent_bond_4 _let_14))) (let ((_let_91 (tptp.fn_atom_8 _let_28))) (let ((_let_92 (tptp.fn_attract_2 _let_42))) (let ((_let_93 (tptp.fn_carbon_16 _let_28))) (let ((_let_94 (tptp.fn_atom_17 _let_28))) (let ((_let_95 (tptp.fn_carbon_2 _let_28))) (let ((_let_96 (tptp.fn_polar_covalent_bond_2 _let_2))) (let ((_let_97 (tptp.fn_polar_covalent_bond_7 _let_2))) (let ((_let_98 (tptp.fn_carbonyl_group_12 _let_4))) (let ((_let_99 (tptp.fn_polar_covalent_bond_5 _let_2))) (let ((_let_100 (tptp.fn_carbonyl_group_14 _let_4))) (let ((_let_101 (tptp.fn_covalent_bond_14 _let_14))) (let ((_let_102 (tptp.fn_carbonyl_group_10 _let_4))) (let ((_let_103 (tptp.fn_polar_covalent_bond_17 _let_14))) (let ((_let_104 (tptp.fn_polar_covalent_bond_19 _let_2))) (let ((_let_105 (tptp.fn_polar_covalent_bond_18 X))) (let ((_let_106 (tptp.fn_covalent_bond_20 X))) (let ((_let_107 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(tptp.is_between_2 _let_14 _let_170) (tptp.electronegativity_2 _let_170 _let_175) (not (= _let_176 _let_175)) (not (= _let_175 _let_176)) (tptp.has_region_2 _let_28 _let_142) (tptp.is_inside_2 _let_174 _let_4) (tptp.has_part_2 _let_169 _let_158) (tptp.has_part_2 _let_169 _let_125) (tptp.atomic_number_2 _let_169 _let_157) (not (= _let_170 _let_28)) (tptp.object_2 _let_168 _let_28) (tptp.object_2 _let_168 _let_170) (tptp.agent_2 _let_172 _let_170) (tptp.object_2 _let_172 _let_125) (not (= _let_28 _let_170)) (tptp.is_inside_2 _let_169 _let_4) (not (= _let_169 _let_170)) (tptp.has_part_2 _let_170 _let_126) (tptp.object_2 _let_172 _let_126) (tptp.agent_2 _let_172 _let_169) (not (= _let_170 _let_169)) (tptp.object_2 _let_72 _let_126) (tptp.has_function_2 _let_14 _let_168) (tptp.object_2 _let_167 _let_131) (tptp.agent_2 _let_167 _let_143) (tptp.result_2 _let_72 _let_14) (tptp.object_2 _let_72 _let_131) (tptp.object_2 _let_163 _let_131) (tptp.causes_2 _let_165 _let_163) (tptp.object_2 _let_165 _let_131) (tptp.called_2 _let_156 |tptp.'Number_Proton'|) (tptp.called_2 _let_157 |tptp.'Atomic_Number'|) (tptp.called_2 _let_154 |tptp.'Number_Electron'|) (tptp.object_2 _let_74 _let_131) (tptp.is_inside_2 _let_125 _let_129) (tptp.has_region_2 _let_142 _let_129) (not (= _let_130 _let_142)) (not (= _let_142 _let_130)) (tptp.quantity_2 _let_158 _let_156) (tptp.is_inside_2 _let_158 _let_127) (tptp.is_at_2 _let_127 _let_141) (not (= _let_136 _let_141)) (not (= _let_141 _let_136)) (tptp.quantity_2 _let_125 _let_154) (= _let_156 _let_154) (= _let_157 _let_156) (= _let_156 _let_157) (= _let_154 _let_156) (tptp.has_function_2 _let_2 _let_150) (tptp.agent_2 _let_150 _let_2) (tptp.result_2 _let_152 _let_2) (tptp.object_2 _let_152 _let_125) (not (= _let_125 _let_131)) (not (= _let_131 _let_125)) (tptp.electronegativity_2 _let_28 _let_145) (tptp.quantity_2 _let_143 _let_133) (tptp.called_2 _let_133 |tptp.'Number_Proton'|) (= _let_144 _let_133) (= _let_133 _let_144) (tptp.has_part_2 _let_28 _let_143) (tptp.is_inside_2 _let_143 _let_134) (tptp.has_region_2 _let_28 _let_134) (tptp.atomic_number_2 _let_28 _let_144) (tptp.called_2 _let_144 |tptp.'Atomic_Number'|) (not (= _let_142 _let_140)) (not (= _let_140 _let_142)) (tptp.called_2 _let_139 |tptp.'Atomic_Number'|) (not (= _let_141 _let_135)) (not (= _let_135 _let_141)) (tptp.object_2 _let_76 _let_126) (not (= _let_140 _let_130)) (tptp.has_region_2 _let_140 _let_129) (tptp.is_inside_2 _let_131 _let_129) (tptp.is_near_2 _let_131 _let_134) (not (= _let_130 _let_140)) (tptp.is_near_2 _let_134 _let_131) (tptp.quantity_2 _let_137 _let_138) (tptp.called_2 _let_138 |tptp.'Number_Proton'|) (= _let_139 _let_138) (= _let_138 _let_139) (not (= _let_134 _let_127)) (tptp.is_at_2 _let_134 _let_135) (not (= _let_135 _let_136)) (tptp.is_at_2 _let_128 _let_136) (tptp.is_inside_2 _let_137 _let_128) (not (= _let_127 _let_134)) (not (= _let_136 _let_135)) (not (= _let_126 _let_131)) (tptp.quantity_2 _let_131 _let_132) (tptp.called_2 _let_132 |tptp.'Number_Electron'|) (not (= _let_131 _let_126)) (= _let_133 _let_132) (= _let_132 _let_133) (tptp.is_near_2 _let_127 _let_125) (not (= _let_127 _let_128)) (tptp.is_near_2 _let_128 _let_126) (tptp.is_inside_2 _let_126 _let_129) (tptp.has_region_2 _let_130 _let_129) (tptp.is_near_2 _let_125 _let_127) (not (= _let_128 _let_127)) (tptp.is_near_2 _let_126 _let_128) (tptp.has_function_2 X _let_81) (tptp.agent_2 _let_81 X) (tptp.result_2 _let_79 X) (tptp.object_2 _let_79 _let_125) (not (= _let_125 _let_126)) (not (= _let_126 _let_125)) (= _let_131 _let_43) (= _let_131 _let_39) (= _let_131 _let_37) (= _let_131 _let_35) (= _let_143 _let_92) (= _let_28 _let_88) (= _let_28 _let_80) (= _let_28 _let_87) (= _let_28 _let_86) (= _let_28 _let_78) (= _let_169 _let_110) (= _let_28 _let_85) (= _let_28 _let_77) (= _let_28 _let_75) (= _let_28 _let_84) (= _let_28 _let_73) (= _let_169 _let_109) (= _let_28 _let_83) (= _let_28 _let_71) (= _let_28 _let_69) (= _let_125 _let_13) (= _let_125 _let_11) (= _let_131 _let_41) (= _let_28 _let_82) (= _let_185 _let_87) (= _let_169 _let_111) (= _let_125 _let_9) (= _let_169 _let_108) (= _let_174 _let_118) (= _let_131 _let_33) (= _let_169 _let_107) (= _let_28 _let_68) (= _let_72 _let_181) (= _let_158 _let_58) (= _let_184 (tptp.fn_covalent_bond_10 X)) (= _let_131 _let_31) (= _let_32 _let_181) (= _let_183 (tptp.fn_covalent_bond_16 X)) (= _let_182 (tptp.fn_covalent_bond_1 X)) (= _let_125 _let_7) (= _let_70 _let_181) (= _let_140 _let_65) (= (tptp.fn_glycosidic_linkage_30 X) _let_180) (= _let_125 _let_6) (= _let_74 _let_124) (= _let_135 _let_54) (= _let_127 _let_21) (= _let_140 _let_24) (= _let_175 _let_121) (= _let_126 _let_16) (= _let_38 _let_151) (= _let_145 _let_96) (= _let_176 _let_121) (= _let_169 _let_104) (= _let_170 _let_114) (= _let_136 _let_56) (= _let_139 _let_63) (= _let_130 _let_25) (= _let_137 _let_59) (= _let_150 _let_103) (= _let_131 _let_26) (= (tptp.fn_glycosidic_linkage_69 X) _let_179) (= _let_168 _let_103) (= _let_76 _let_178) (= _let_134 _let_50) (= _let_128 _let_20) (= (tptp.fn_glycosidic_linkage_8 X) _let_177) (= _let_176 _let_123) (= _let_176 _let_122) (= _let_175 _let_120) (= _let_175 _let_119) (= _let_170 _let_116) (= _let_170 _let_113) (= _let_142 _let_65) (= _let_174 _let_112) (= _let_158 _let_100) (= (tptp.fn_glycosidic_linkage_70 X) _let_173) (= _let_157 _let_98) (= _let_125 _let_5) (= _let_168 _let_102) (= _let_28 _let_67) (= _let_172 _let_171) (= _let_126 _let_17) (= _let_169 _let_106) (= _let_170 _let_117) (= _let_169 _let_105) (= _let_170 _let_115) (= _let_170 _let_112) (= _let_169 _let_67) (= _let_126 _let_15) (= _let_168 _let_101) (= _let_143 _let_90) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_163 _let_162) (= _let_131 _let_27) (= _let_72 _let_161) (= _let_74 _let_151) (= _let_130 _let_24) (= _let_142 _let_66) (= _let_129 _let_160) (= _let_136 _let_55) (= _let_136 _let_54) (= _let_141 _let_56) (= _let_141 _let_159) (= _let_158 _let_59) (= _let_127 _let_20) (= _let_127 _let_19) (= _let_158 _let_99) (= _let_157 _let_97) (= _let_156 _let_155) (= _let_154 _let_153) (= _let_131 _let_16) (= _let_125 _let_3) (= _let_152 _let_151) (= _let_150 _let_149) (= (tptp.fn_glycosidic_linkage_31 X) _let_148) (= (tptp.fn_glycosidic_linkage_32 X) _let_147) (= (tptp.fn_glycosidic_linkage_68 X) _let_146) (= _let_145 _let_95) (= _let_133 _let_49) (= _let_144 _let_94) (= _let_144 _let_93) (= _let_134 _let_51) (= _let_143 _let_91) (= _let_143 _let_89) (= _let_142 _let_23) (= _let_141 _let_53) (= _let_76 _let_124) (= _let_134 _let_52) (= _let_134 _let_18) (= _let_140 _let_64) (= _let_139 _let_62) (= _let_139 _let_61) (= _let_137 _let_58) (= _let_138 _let_60) (= _let_138 _let_47) (= _let_137 _let_57) (= _let_128 _let_18) (= _let_136 _let_53) (= _let_135 (tptp.fn_polar_covalent_bond_23 X)) (= _let_134 _let_22) (= _let_133 _let_48) (= _let_133 _let_47) (= _let_131 _let_30) (= _let_132 _let_46) (= _let_131 _let_29) (= _let_132 _let_45) (= _let_132 _let_44) (= _let_131 _let_1) (= _let_130 _let_23) (= _let_129 (tptp.fn_polar_covalent_bond_15 X)) (= _let_128 _let_22) (= _let_127 _let_18) (= _let_126 _let_6) (= _let_125 _let_1) (= _let_79 _let_124) (= _let_81 (tptp.fn_polar_covalent_bond_17 X)) (= _let_121 _let_121) (= _let_121 _let_122) (= _let_122 _let_123) (= _let_123 _let_122) (= _let_122 _let_121) (= _let_121 _let_119) (= _let_119 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_112) (= _let_112 _let_117) (= _let_117 _let_116) (= _let_115 _let_116) (= _let_116 _let_117) (= _let_117 _let_115) (= _let_114 _let_116) (= _let_115 _let_113) (= _let_113 _let_116) (= _let_116 _let_113) (= _let_113 _let_115) (= _let_115 _let_114) (= _let_114 _let_114) (= _let_114 _let_113) (= _let_113 _let_113) (= _let_113 _let_112) (= _let_112 _let_112) (= _let_112 _let_110) (= _let_109 _let_111) (= _let_111 _let_111) (= _let_111 _let_108) (= _let_107 _let_110) (= _let_110 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_105 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_104 _let_67) (= _let_67 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_58) (= _let_58 _let_100) (= _let_100 _let_100) (= _let_100 _let_59) (= _let_59 _let_99) (= _let_99 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_91) (= _let_90 _let_91) (= _let_91 _let_91) (= _let_91 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_80) (= _let_69 _let_82) (= _let_82 _let_68) (= _let_68 _let_80) (= _let_80 _let_78) (= _let_78 _let_77) (= _let_77 _let_75) (= _let_75 _let_73) (= _let_73 _let_71) (= _let_71 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_23) (= _let_65 _let_66) (= _let_66 _let_66) (= _let_66 _let_23) (= _let_23 _let_65) (= _let_65 _let_24) (= _let_24 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_61) (= _let_61 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_47) (= _let_47 _let_47) (= _let_47 _let_60) (= _let_60 _let_47) (= _let_47 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_18) (= _let_18 _let_50) (= _let_50 _let_50) (= _let_50 _let_18) (= _let_22 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_35 _let_41) (= _let_41 _let_33) (= _let_33 _let_39) (= _let_39 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_16) (= _let_1 _let_26) (= _let_26 _let_16) (= _let_16 _let_16) (= _let_16 _let_1) (= _let_1 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_6) (= _let_6 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_3 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_glyoxysome_12 X))) (let ((_let_2 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_3 (tptp.fn_peroxisome_40 X))) (let ((_let_4 (tptp.fn_glyoxysome_15 X))) (let ((_let_5 (tptp.fn_decomposition_reaction_4 _let_4))) (let ((_let_6 (tptp.fn_decomposition_reaction_2 _let_4))) (let ((_let_7 (tptp.fn_glyoxysome_8 X))) (let ((_let_8 (tptp.fn_metabolic_pathway_1 _let_7))) (let ((_let_9 (tptp.fn_glyoxysome_13 X))) (let ((_let_10 (tptp.fn_metabolic_pathway_1 _let_9))) (let ((_let_11 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_1))) (let ((_let_12 (tptp.fn_glyoxysome_18 X))) (let ((_let_13 (tptp.fn_seed_7 _let_12))) (let ((_let_14 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_1))) (let ((_let_15 (tptp.fn_peroxisome_41 X))) (let ((_let_16 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_1))) (let ((_let_17 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_18 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_20 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_21 (tptp.fn_smooth_endoplasmic_reticulum_12 _let_1))) (let ((_let_22 (tptp.fn_glyoxysome_6 X))) (let ((_let_23 (tptp.fn_impair_1 _let_22))) (let ((_let_24 (tptp.fn_seed_5 _let_12))) (let ((_let_25 (tptp.fn_seed_6 _let_12))) (let ((_let_26 (tptp.fn_glyoxysome_4 X))) (let ((_let_27 (tptp.fn_glyoxysome_14 X))) (let ((_let_28 (tptp.fn_catalase_11 _let_27))) (let ((_let_29 (tptp.fn_glyoxysome_11 X))) (let ((_let_30 (tptp.fn_decomposition_reaction_5 _let_29))) (let ((_let_31 (tptp.fn_glyoxysome_10 X))) (let ((_let_32 (tptp.fn_glyoxysome_17 X))) (let ((_let_33 (tptp.fn_glyoxysome_20 X))) (let ((_let_34 (tptp.fn_decomposition_reaction_5 _let_4))) (let ((_let_35 (tptp.fn_glyoxysome_16 X))) (let ((_let_36 (tptp.fn_glyoxysome_26 X))) (let ((_let_37 (tptp.fn_glyoxysome_7 X))) (let ((_let_38 (tptp.fn_glyoxysome_9 X))) (let ((_let_39 (tptp.fn_glyoxysome_5 X))) (let ((_let_40 (tptp.fn_glyoxysome_24 X))) (let ((_let_41 (tptp.fn_glyoxysome_27 X))) (let ((_let_42 (tptp.fn_glyoxysome_3 X))) (let ((_let_43 (tptp.fn_glyoxysome_2 X))) (let ((_let_44 (tptp.fn_glyoxysome_1 X))) (let ((_let_45 (tptp.fn_glyoxysome_23 X))) (let ((_let_46 (tptp.fn_glyoxysome_19 X))) (let ((_let_47 (tptp.fn_glyoxysome_21 X))) (let ((_let_48 (tptp.fn_remove_1 _let_47))) (let ((_let_49 (tptp.fn_glyoxysome_22 X))) (=> (tptp.glyoxysome_1 X) (and (tptp.original_name_2 X |tptp.'Glyoxysome'|) (tptp.user_description_2 X |tptp.'A specialized peroxisome that occurs in plants and some algae. Glyoxysomes contain enzymes that initiate the catalysis of fats, as well as enzymes that convert stored lipids into carbohydrates which the young seedling can use until it is mature enough for photosynthesis.'|) (tptp.concept2words_2 X tptp.glyoxysome) (tptp.peroxisome_1 X) (tptp.smooth_endoplasmic_reticulum_1 _let_44) (tptp.biomembrane_1 _let_43) (tptp.aqueous_solution_1 _let_42) (tptp.substance_1 _let_26) (tptp.cytosol_1 _let_26) (tptp.grow_1 _let_39) (tptp.divide_1 _let_22) (tptp.protein_enzyme_1 _let_37) (tptp.synthesis_of_lipid_1 _let_7) (tptp.metabolic_pathway_1 _let_7) (tptp.transfer_1 _let_38) (tptp.receive_1 _let_38) (tptp.acid_compound_1 _let_31) (tptp.chemical_reaction_1 _let_29) (tptp.decomposition_reaction_1 _let_29) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.synthesis_reaction_1 _let_9) (tptp.chemical_reaction_1 _let_9) (tptp.anabolic_pathway_1 _let_9) (tptp.synthesis_of_lipid_1 _let_9) (tptp.metabolic_pathway_1 _let_9) (tptp.catalase_1 _let_27) (tptp.decomposition_reaction_1 _let_4) (tptp.chemical_reaction_1 _let_4) (tptp.fatty_acid_1 _let_35) (tptp.carbohydrate_1 _let_32) (tptp.seed_1 _let_12) (tptp.tissue_1 _let_46) (tptp.plant_cell_1 _let_33) (tptp.eukaryotic_cell_1 _let_33) (tptp.cell_1 _let_33) (tptp.remove_1 _let_47) (tptp.hydrogen_1 _let_49) (tptp.protein_enzyme_1 _let_45) (tptp.size_value_1 _let_40) (tptp.synthesis_reaction_1 _let_36) (tptp.metabolism_1 _let_41) (tptp.spatial_entity_1 _let_48) (tptp.chemical_entity_1 _let_34) (tptp.chemical_entity_1 _let_30) (tptp.chemical_reaction_1 _let_28) (tptp.tissue_1 _let_25) (tptp.tissue_1 _let_24) (tptp.tangible_entity_1 _let_23) (tptp.peroxisome_1 _let_21) (tptp.synthesis_reaction_1 _let_20) (tptp.synthesis_reaction_1 _let_19) (tptp.chemical_reaction_1 _let_18) (tptp.synthesis_of_lipid_1 _let_18) (tptp.chemical_reaction_1 _let_17) (tptp.synthesis_of_lipid_1 _let_17) (tptp.anabolic_pathway_1 _let_17) (tptp.synthesis_of_lipid_1 _let_16) (tptp.synthesis_of_lipid_1 _let_14) (tptp.plant_cell_1 _let_13) (tptp.eukaryotic_cell_1 _let_11) (tptp.cell_1 _let_11) (tptp.cell_1 _let_10) (tptp.cell_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.substance_1 _let_2) (tptp.cytosol_1 _let_2) (tptp.agent_2 _let_47 _let_45) (tptp.agent_2 _let_4 _let_27) (tptp.site_2 _let_4 X) (tptp.donor_2 _let_38 _let_1) (tptp.causes_2 _let_39 _let_22) (tptp.object_2 _let_39 X) (tptp.object_2 _let_47 _let_49) (tptp.object_2 _let_22 X) (tptp.has_part_2 _let_12 _let_46) (tptp.has_part_2 _let_46 _let_33) (tptp.has_part_2 _let_33 _let_1) (tptp.has_part_2 _let_33 X) (tptp.is_inside_2 _let_45 X) (tptp.has_function_2 _let_27 _let_36) (tptp.has_part_2 X _let_37) (tptp.donor_2 _let_38 _let_44) (tptp.is_inside_2 _let_44 _let_26) (tptp.has_part_2 X _let_27) (tptp.is_inside_2 _let_27 X) (tptp.site_2 _let_7 X) (not (= _let_9 _let_7)) (not (= _let_7 _let_9)) (tptp.supports_2 _let_41 _let_36) (tptp.agent_2 _let_41 X) (tptp.has_part_2 X _let_42) (tptp.is_between_2 _let_43 _let_42) (tptp.has_part_2 X _let_43) (tptp.recipient_2 _let_38 X) (tptp.causes_2 _let_38 _let_39) (tptp.from_value_2 _let_39 _let_40) (tptp.size_2 X _let_40) (tptp.has_goal_2 X _let_39) (tptp.has_function_2 X _let_29) (tptp.has_function_2 _let_37 _let_29) (tptp.is_inside_2 _let_37 X) (not (= _let_36 _let_29)) (not (= _let_29 _let_36)) (tptp.is_inside_2 X _let_26) (tptp.site_2 _let_9 _let_1) (tptp.has_function_2 _let_1 _let_9) (tptp.is_inside_2 _let_1 _let_26) (tptp.has_function_2 _let_27 _let_4) (tptp.raw_material_2 _let_29 _let_31) (tptp.result_2 _let_4 _let_32) (tptp.base_2 _let_7 _let_33) (tptp.base_2 _let_9 _let_33) (tptp.raw_material_2 _let_4 _let_35) (= _let_49 _let_48) (= X _let_23) (= _let_33 _let_13) (= _let_46 _let_25) (= _let_46 _let_24) (= _let_33 _let_11) (= _let_45 (tptp.fn_peroxisome_2 X)) (= (tptp.fn_glyoxysome_25 X) (tptp.fn_peroxisome_53 X)) (= _let_44 (tptp.fn_peroxisome_11 X)) (= _let_9 _let_15) (= _let_7 (tptp.fn_peroxisome_28 X)) (= _let_27 (tptp.fn_peroxisome_42 X)) (= _let_43 (tptp.fn_peroxisome_25 X)) (= _let_42 (tptp.fn_peroxisome_26 X)) (= _let_41 (tptp.fn_peroxisome_7 X)) (= _let_40 (tptp.fn_peroxisome_52 X)) (= _let_39 (tptp.fn_peroxisome_49 X)) (= _let_38 (tptp.fn_peroxisome_47 X)) (= _let_37 (tptp.fn_peroxisome_43 X)) (= _let_36 (tptp.fn_peroxisome_30 X)) (= _let_29 (tptp.fn_peroxisome_32 X)) (= _let_26 _let_3) (= X _let_21) (= _let_9 _let_20) (= _let_9 _let_19) (= _let_9 _let_18) (= _let_9 _let_17) (= _let_9 _let_16) (= _let_9 _let_14) (= _let_35 _let_34) (= _let_33 _let_10) (= _let_33 _let_8) (= _let_32 _let_6) (= _let_32 _let_5) (= _let_31 _let_30) (= _let_4 _let_28) (= _let_26 _let_2) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gmp_1 X) (and (tptp.original_name_2 X |tptp.'GMP'|) (tptp.user_description_2 X |tptp.'Molecule which functions as a second messenger in some cell signalling pathways.'|) (tptp.concept2words_2 X tptp.gmp) (tptp.nucleoside_monophosphate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gnathostome_1 X) (and (tptp.original_name_2 X |tptp.'Gnathostome'|) (tptp.user_description_2 X |tptp.'Any vertebrate animal that possesses jaws.'|) (tptp.concept2words_2 X tptp.gnathostomata) (tptp.concept2words_2 X |tptp.'jawed vertebrates'|) (tptp.concept2words_2 X tptp.gnathostome) (tptp.vertebrate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gnetophyta_64 X))) (let ((_let_2 (tptp.fn_plant_cell_63 _let_1))) (let ((_let_3 (tptp.fn_eukaryotic_cell_23 _let_1))) (let ((_let_4 (tptp.fn_gnetophyta_44 X))) (let ((_let_5 (tptp.fn_eukaryotic_cellular_respiration_111 _let_4))) (let ((_let_6 (tptp.fn_eukaryotic_cellular_respiration_42 _let_4))) (let ((_let_7 (tptp.fn_gnetophyta_25 X))) (let ((_let_8 (tptp.fn_pyruvate_oxidation_84 _let_7))) (let ((_let_9 (tptp.fn_gnetophyta_23 X))) (let ((_let_10 (tptp.fn_glycolysis_74 _let_9))) (let ((_let_11 (tptp.fn_exergonic_reaction_11 _let_7))) (let ((_let_12 (tptp.fn_eukaryotic_cellular_respiration_101 _let_4))) (let ((_let_13 (tptp.fn_plant_cell_59 _let_1))) (let ((_let_14 (tptp.fn_eukaryotic_cellular_respiration_96 _let_4))) (let ((_let_15 (tptp.fn_cellular_respiration_63 _let_4))) (let ((_let_16 (tptp.fn_eukaryotic_cellular_respiration_62 _let_4))) (let ((_let_17 (tptp.fn_gnetophyta_59 X))) (let ((_let_18 (tptp.fn_photosynthesis_38 _let_17))) (let ((_let_19 (tptp.fn_eukaryotic_cellular_respiration_68 _let_4))) (let ((_let_20 (tptp.fn_pyruvate_oxidation_3 _let_7))) (let ((_let_21 (tptp.fn_pyruvate_oxidation_7 _let_7))) (let ((_let_22 (tptp.fn_glycolysis_108 _let_9))) (let ((_let_23 (tptp.fn_exergonic_reaction_6 _let_7))) (let ((_let_24 (tptp.fn_photosynthesis_40 _let_17))) (let ((_let_25 (tptp.fn_gnetophyta_10 X))) (let ((_let_26 (tptp.fn_store_1 _let_25))) (let ((_let_27 (tptp.fn_photosynthesis_25 _let_17))) (let ((_let_28 (tptp.fn_gnetophyta_46 X))) (let ((_let_29 (tptp.fn_glucose_2 _let_28))) (let ((_let_30 (tptp.fn_anabolic_pathway_3 _let_17))) (let ((_let_31 (tptp.fn_metabolic_pathway_1 _let_4))) (let ((_let_32 (tptp.fn_gymnosperm_8 X))) (let ((_let_33 (tptp.fn_metabolic_pathway_1 _let_17))) (let ((_let_34 (tptp.fn_pyruvate_oxidation_85 _let_7))) (let ((_let_35 (tptp.fn_glycolysis_55 _let_9))) (let ((_let_36 (tptp.fn_anabolic_pathway_5 _let_17))) (let ((_let_37 (tptp.fn_photosynthesis_37 _let_17))) (let ((_let_38 (tptp.fn_store_2 _let_25))) (let ((_let_39 (tptp.fn_gnetophyta_36 X))) (let ((_let_40 (tptp.fn_seed_1 _let_39))) (let ((_let_41 (tptp.fn_gymnosperm_4 X))) (let ((_let_42 (tptp.fn_gnetophyta_40 X))) (let ((_let_43 (tptp.fn_root_28 _let_42))) (let ((_let_44 (tptp.fn_root_33 _let_42))) (let ((_let_45 (tptp.fn_root_30 _let_42))) (let ((_let_46 (tptp.fn_root_27 _let_42))) (let ((_let_47 (tptp.fn_root_26 _let_42))) (let ((_let_48 (tptp.fn_gymnosperm_17 X))) (let ((_let_49 (tptp.fn_seed_2 _let_39))) (let ((_let_50 (tptp.fn_gnetophyta_43 X))) (let ((_let_51 (tptp.fn_starch_storage_by_plant_3 _let_50))) (let ((_let_52 (tptp.fn_store_2 _let_50))) (let ((_let_53 (tptp.fn_gymnosperm_5 X))) (let ((_let_54 (tptp.fn_starch_storage_by_plant_6 _let_50))) (let ((_let_55 (tptp.fn_starch_storage_by_plant_5 _let_50))) (let ((_let_56 (tptp.fn_starch_storage_by_plant_9 _let_50))) (let ((_let_57 (tptp.fn_root_25 _let_42))) (let ((_let_58 (tptp.fn_eukaryotic_cellular_respiration_94 _let_4))) (let ((_let_59 (tptp.fn_gnetophyta_21 X))) (let ((_let_60 (tptp.fn_gnetophyta_19 X))) (let ((_let_61 (tptp.fn_eukaryotic_cellular_respiration_82 _let_4))) (let ((_let_62 (tptp.fn_gnetophyta_24 X))) (let ((_let_63 (tptp.fn_gnetophyta_47 X))) (let ((_let_64 (tptp.fn_gnetophyta_26 X))) (let ((_let_65 (tptp.fn_photosynthesis_3 _let_17))) (let ((_let_66 (tptp.fn_gnetophyta_29 X))) (let ((_let_67 (tptp.fn_photosynthesis_5 _let_17))) (let ((_let_68 (tptp.fn_photosynthesis_24 _let_17))) (let ((_let_69 (tptp.fn_gnetophyta_28 X))) (let ((_let_70 (tptp.fn_photosynthesis_54 _let_17))) (let ((_let_71 (tptp.fn_photosynthesis_51 _let_17))) (let ((_let_72 (tptp.fn_gnetophyta_34 X))) (let ((_let_73 (tptp.fn_photosynthesis_55 _let_17))) (let ((_let_74 (tptp.fn_photosynthesis_52 _let_17))) (let ((_let_75 (tptp.fn_gnetophyta_33 X))) (let ((_let_76 (tptp.fn_photosynthesis_53 _let_17))) (let ((_let_77 (tptp.fn_gnetophyta_31 X))) (let ((_let_78 (tptp.fn_photosynthesis_56 _let_17))) (let ((_let_79 (tptp.fn_photosynthesis_4 _let_17))) (let ((_let_80 (tptp.fn_gnetophyta_30 X))) (let ((_let_81 (tptp.fn_photosynthesis_6 _let_17))) (let ((_let_82 (tptp.fn_photosynthesis_34 _let_17))) (let ((_let_83 (tptp.fn_gnetophyta_18 X))) (let ((_let_84 (tptp.fn_gnetophyta_35 X))) (let ((_let_85 (tptp.fn_gnetophyta_32 X))) (let ((_let_86 (tptp.fn_photosynthesis_57 _let_17))) (let ((_let_87 (tptp.fn_photosynthesis_50 _let_17))) (let ((_let_88 (tptp.fn_gnetophyta_27 X))) (let ((_let_89 (tptp.fn_gnetophyta_20 X))) (let ((_let_90 (tptp.fn_cellular_respiration_68 _let_4))) (let ((_let_91 (tptp.fn_gnetophyta_22 X))) (let ((_let_92 (tptp.fn_gnetophyta_17 X))) (let ((_let_93 (tptp.fn_shoot_1 _let_92))) (let ((_let_94 (tptp.fn_gnetophyta_39 X))) (let ((_let_95 (tptp.fn_gnetophyta_48 X))) (let ((_let_96 (tptp.fn_plant_vein_1 _let_95))) (let ((_let_97 (tptp.fn_gnetophyta_38 X))) (let ((_let_98 (tptp.fn_root_5 _let_42))) (let ((_let_99 (tptp.fn_gnetophyta_55 X))) (let ((_let_100 (tptp.fn_gnetophyta_53 X))) (let ((_let_101 (tptp.fn_gnetophyta_57 X))) (let ((_let_102 (tptp.fn_gnetophyta_45 X))) (let ((_let_103 (tptp.fn_gnetophyta_65 X))) (let ((_let_104 (tptp.fn_gnetophyta_52 X))) (let ((_let_105 (tptp.fn_gnetophyta_58 X))) (let ((_let_106 (tptp.fn_gnetophyta_63 X))) (let ((_let_107 (tptp.fn_gnetophyta_62 X))) (let ((_let_108 (tptp.fn_gnetophyta_56 X))) (let ((_let_109 (tptp.fn_gnetophyta_60 X))) (let ((_let_110 (tptp.fn_gnetophyta_61 X))) (let ((_let_111 (tptp.fn_gnetophyta_54 X))) (let ((_let_112 (tptp.fn_gnetophyta_42 X))) (let ((_let_113 (tptp.fn_gnetophyta_37 X))) (let ((_let_114 (tptp.fn_store_3 _let_50))) (let ((_let_115 (tptp.fn_gnetophyta_50 X))) (let ((_let_116 (tptp.fn_gnetophyta_49 X))) (let ((_let_117 (tptp.fn_plant_cell_wall_26 _let_116))) (let ((_let_118 (tptp.fn_gnetophyta_41 X))) (let ((_let_119 (tptp.fn_gnetophyta_5 X))) (let ((_let_120 (tptp.fn_gnetophyta_2 X))) (let ((_let_121 (tptp.fn_gnetophyta_6 X))) (let ((_let_122 (tptp.fn_gnetophyta_9 X))) (let ((_let_123 (tptp.fn_gnetophyta_8 X))) (let ((_let_124 (tptp.fn_gnetophyta_4 X))) (let ((_let_125 (tptp.fn_gnetophyta_3 X))) (let ((_let_126 (tptp.fn_gnetophyta_1 X))) (=> (tptp.gnetophyta_1 X) (and (tptp.original_name_2 X |tptp.'Gnetophyta'|) (tptp.user_description_2 X |tptp.'Type of gymnosperm characterized by double fertilization and vessel elements in its vascular tissue.'|) (tptp.concept2words_2 X tptp.gnetophyta) (tptp.gymnosperm_1 X) (tptp.vessel_1 _let_126) (tptp.cytoplasm_1 _let_120) (tptp.length_value_1 _let_125) (tptp.electron_1 _let_124) (tptp.oxygen_molecule_1 _let_119) (tptp.water_molecule_1 _let_121) (tptp.plant_cell_1 _let_123) (tptp.photosynthesis_1 _let_122) (tptp.store_1 _let_25) (tptp.shoot_1 _let_92) (tptp.visible_light_1 _let_83) (tptp.energy_1 _let_83) (tptp.organelle_1 _let_60) (tptp.mitochondrion_1 _let_60) (tptp.semiautonomous_organelle_1 _let_60) (tptp.organic_molecule_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.pyruvate_1 _let_89) (tptp.chemical_entity_1 _let_59) (tptp.organic_molecule_1 _let_59) (tptp.molecule_1 _let_59) (tptp.entity_1 _let_59) (tptp.nadh_1 _let_59) (tptp.oxygen_molecule_1 _let_91) (tptp.glycolysis_1 _let_9) (tptp.chemical_reaction_1 _let_62) (tptp.oxidative_phosphorylation_1 _let_62) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_62) (tptp.exergonic_reaction_1 _let_7) (tptp.pyruvate_oxidation_1 _let_7) (tptp.chemical_energy_1 _let_64) (tptp.free_energy_1 _let_88) (tptp.structural_complexity_value_1 _let_69) (tptp.size_value_1 _let_66) (tptp.size_value_1 _let_80) (tptp.free_energy_1 _let_77) (tptp.structural_complexity_value_1 _let_85) (tptp.quantity_value_1 _let_75) (tptp.quantity_value_1 _let_72) (tptp.entity_1 _let_84) (tptp.chemical_energy_1 _let_84) (tptp.seed_1 _let_39) (tptp.starch_1 _let_113) (tptp.xylem_1 _let_97) (tptp.stem_1 _let_94) (tptp.taproot_1 _let_42) (tptp.root_1 _let_42) (tptp.membrane_1 _let_118) (tptp.spatial_entity_1 _let_118) (tptp.biomembrane_1 _let_118) (tptp.plasma_membrane_1 _let_118) (tptp.store_1 _let_112) (tptp.store_1 _let_50) (tptp.starch_storage_by_plant_1 _let_50) (tptp.cellular_respiration_1 _let_4) (tptp.metabolic_pathway_1 _let_4) (tptp.eukaryotic_cellular_respiration_1 _let_4) (tptp.length_value_1 _let_102) (tptp.spatial_entity_1 _let_28) (tptp.tangible_entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.sugar_1 _let_28) (tptp.glucose_1 _let_28) (tptp.spatial_entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.hydrophobic_compound_1 _let_63) (tptp.molecule_1 _let_63) (tptp.tangible_entity_1 _let_63) (tptp.carbon_dioxide_1 _let_63) (tptp.plant_vein_1 _let_95) (tptp.plant_cell_wall_1 _let_116) (tptp.container_1 _let_115) (tptp.specific_heat_value_1 _let_104) (tptp.plant_cell_1 _let_100) (tptp.root_hair_1 _let_111) (tptp.tissue_1 _let_99) (tptp.epidermis_1 _let_99) (tptp.shoot_system_1 _let_108) (tptp.root_system_1 _let_101) (tptp.temperature_value_1 _let_105) (tptp.metabolic_pathway_1 _let_17) (tptp.anabolic_pathway_1 _let_17) (tptp.photosynthesis_1 _let_17) (tptp.photoautotroph_1 _let_109) (tptp.anchor_1 _let_110) (tptp.nutrition_1 _let_107) (tptp.tuber_1 _let_106) (tptp.cell_1 _let_1) (tptp.eukaryotic_cell_1 _let_1) (tptp.plant_cell_1 _let_1) (tptp.water_1 _let_103) (tptp.membrane_1 _let_117) (tptp.spatial_entity_1 _let_117) (tptp.biomembrane_1 _let_117) (tptp.plasma_membrane_1 _let_117) (tptp.container_1 _let_114) (tptp.plant_vein_1 _let_98) (tptp.xylem_1 _let_96) (tptp.stem_1 _let_93) (tptp.oxygen_molecule_1 _let_90) (tptp.free_energy_1 _let_87) (tptp.property_node_1 _let_86) (tptp.visible_light_1 _let_82) (tptp.energy_1 _let_82) (tptp.property_node_1 _let_81) (tptp.size_value_1 _let_79) (tptp.property_node_1 _let_78) (tptp.free_energy_1 _let_76) (tptp.quantity_value_1 _let_74) (tptp.property_node_1 _let_73) (tptp.quantity_value_1 _let_71) (tptp.property_node_1 _let_70) (tptp.structural_complexity_value_1 _let_68) (tptp.property_node_1 _let_67) (tptp.size_value_1 _let_65) (tptp.glycolysis_1 _let_61) (tptp.pyruvate_oxidation_1 _let_58) (tptp.starch_1 _let_57) (tptp.starch_1 _let_56) (tptp.store_1 _let_55) (tptp.store_1 _let_54) (tptp.spatial_entity_1 _let_52) (tptp.plant_1 _let_51) (tptp.plant_1 _let_49) (tptp.plant_cell_1 _let_47) (tptp.tissue_1 _let_46) (tptp.epidermis_1 _let_45) (tptp.store_1 _let_44) (tptp.store_1 _let_43) (tptp.starch_storage_by_plant_1 _let_40) (tptp.spatial_entity_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.sugar_1 _let_37) (tptp.chemical_entity_1 _let_36) (tptp.pyruvate_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.organic_molecule_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.pyruvate_1 _let_34) (tptp.cell_1 _let_33) (tptp.cell_1 _let_31) (tptp.structural_complexity_value_1 _let_30) (tptp.structural_complexity_value_1 _let_29) (tptp.structural_complexity_value_1 _let_27) (tptp.entity_1 _let_26) (tptp.chemical_energy_1 _let_24) (tptp.chemical_energy_1 _let_23) (tptp.chemical_energy_1 _let_22) (tptp.chemical_energy_1 _let_21) (tptp.chemical_energy_1 _let_20) (tptp.chemical_energy_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.hydrophobic_compound_1 _let_18) (tptp.molecule_1 _let_18) (tptp.carbon_dioxide_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.carbon_dioxide_1 _let_16) (tptp.oxidative_phosphorylation_1 _let_15) (tptp.chemical_reaction_1 _let_14) (tptp.oxidative_phosphorylation_1 _let_14) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_14) (tptp.organelle_1 _let_13) (tptp.mitochondrion_1 _let_13) (tptp.semiautonomous_organelle_1 _let_13) (tptp.organelle_1 _let_12) (tptp.mitochondrion_1 _let_12) (tptp.semiautonomous_organelle_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.organic_molecule_1 _let_10) (tptp.nadh_1 _let_10) (tptp.molecule_1 _let_10) (tptp.nadh_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.organic_molecule_1 _let_6) (tptp.molecule_1 _let_6) (tptp.nadh_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.molecule_1 _let_5) (tptp.entity_1 _let_5) (tptp.nadh_1 _let_5) (tptp.eukaryotic_cellular_respiration_1 _let_3) (tptp.metabolic_pathway_1 _let_2) (tptp.eukaryotic_cellular_respiration_1 _let_2) (tptp.has_part_2 _let_97 _let_126) (tptp.thickness_2 _let_94 _let_125) (tptp.is_inside_2 _let_120 _let_118) (tptp.is_inside_2 _let_118 _let_116) (tptp.directly_proportional_2 _let_125 _let_102) (tptp.result_2 _let_4 _let_89) (tptp.site_2 _let_4 _let_120) (not (= _let_124 _let_63)) (not (= _let_63 _let_124)) (tptp.has_part_2 _let_95 _let_123) (tptp.site_2 _let_122 _let_120) (tptp.raw_material_2 _let_17 _let_121) (tptp.site_2 _let_17 _let_120) (tptp.result_2 _let_17 _let_119) (tptp.base_2 _let_25 _let_28) (tptp.object_2 _let_25 _let_84) (tptp.site_2 _let_50 _let_42) (tptp.is_outside_2 _let_116 _let_118) (tptp.in_event_2 _let_115 _let_50) (tptp.plays_2 X _let_115) (tptp.has_function_2 X _let_50) (tptp.subevent_2 _let_50 _let_112) (tptp.object_2 _let_112 _let_113) (tptp.object_2 _let_50 _let_113) (tptp.agent_2 _let_50 X) (tptp.base_2 _let_50 X) (tptp.site_2 _let_112 _let_106) (tptp.has_part_2 X _let_1) (tptp.object_2 _let_110 X) (tptp.agent_2 _let_110 _let_42) (tptp.has_part_2 _let_42 _let_111) (tptp.is_inside_2 _let_100 _let_111) (tptp.has_part_2 X _let_92) (tptp.is_inside_2 _let_92 _let_108) (tptp.has_region_2 X _let_108) (tptp.plays_2 X _let_109) (tptp.in_event_2 _let_109 _let_107) (tptp.agent_2 _let_107 X) (tptp.by_means_of_2 _let_107 _let_17) (tptp.experiencer_2 _let_17 X) (tptp.has_function_2 X _let_17) (tptp.base_2 _let_17 _let_1) (tptp.has_part_2 X _let_103) (tptp.specific_heat_2 _let_103 _let_104) (tptp.correspondence_2 _let_105 _let_104) (tptp.temperature_2 X _let_105) (tptp.has_part_2 X _let_106) (tptp.has_region_2 X _let_101) (tptp.is_inside_2 _let_42 _let_101) (tptp.has_part_2 X _let_42) (tptp.height_2 X _let_102) (tptp.the_scalar_value_2 _let_102 tptp.tall_0) (tptp.scalar_unit_class_2 _let_102 tptp.vascular_plant_0) (tptp.has_part_2 X _let_39) (tptp.has_part_2 _let_42 _let_99) (tptp.has_part_2 _let_99 _let_100) (tptp.next_event_2 _let_9 _let_7) (tptp.result_2 _let_9 _let_59) (tptp.possesses_2 _let_59 _let_64) (tptp.possesses_2 _let_63 _let_64) (tptp.result_2 _let_4 _let_63) (tptp.subevent_2 _let_4 _let_62) (tptp.raw_material_2 _let_62 _let_59) (tptp.result_2 _let_4 _let_59) (tptp.subevent_2 _let_4 _let_9) (tptp.first_subevent_2 _let_4 _let_9) (tptp.site_2 _let_7 _let_60) (tptp.result_2 _let_7 _let_59) (tptp.subevent_2 _let_4 _let_7) (tptp.called_2 _let_75 |tptp.'FE_p'|) (tptp.greater_than_2 _let_75 _let_72) (tptp.quantity_2 _let_88 _let_72) (tptp.possesses_2 _let_63 _let_88) (tptp.raw_material_2 _let_17 _let_63) (tptp.greater_than_2 _let_85 _let_69) (tptp.structural_complexity_2 _let_63 _let_69) (not (= _let_83 _let_84)) (not (= _let_84 _let_83)) (tptp.raw_material_2 _let_17 _let_83) (tptp.greater_than_2 _let_80 _let_66) (tptp.size_2 _let_63 _let_66) (tptp.called_2 _let_72 |tptp.'FE_r'|) (tptp.quantity_2 _let_77 _let_75) (tptp.has_function_2 _let_1 _let_4) (tptp.base_2 _let_4 _let_1) (tptp.has_function_2 _let_60 _let_4) (tptp.has_part_2 _let_1 _let_60) (tptp.possesses_2 _let_89 _let_64) (tptp.raw_material_2 _let_7 _let_89) (tptp.raw_material_2 _let_62 _let_91) (tptp.raw_material_2 _let_4 _let_91) (tptp.structural_complexity_2 _let_28 _let_85) (tptp.has_part_2 _let_92 _let_94) (tptp.has_part_2 _let_95 _let_97) (tptp.result_2 _let_9 _let_89) (tptp.has_part_2 _let_42 _let_95) (tptp.size_2 _let_28 _let_80) (tptp.result_2 _let_17 _let_28) (tptp.possesses_2 _let_28 _let_77) (tptp.site_2 _let_50 _let_39) (= _let_28 _let_38) (= _let_84 _let_26) (= _let_50 _let_44) (= _let_118 _let_117) (= _let_115 _let_114) (= X _let_52) (= X _let_51) (= _let_50 _let_43) (= _let_113 _let_57) (= _let_113 _let_56) (= _let_112 _let_55) (= _let_50 _let_41) (= _let_112 _let_54) (= (tptp.fn_gnetophyta_51 X) (tptp.fn_gymnosperm_16 X)) (= (tptp.fn_gnetophyta_66 X) (tptp.fn_gymnosperm_6 X)) (= _let_112 _let_53) (= (tptp.fn_gnetophyta_67 X) (tptp.fn_gymnosperm_7 X)) (= _let_100 _let_48) (= _let_111 (tptp.fn_gymnosperm_1 X)) (= _let_110 (tptp.fn_gymnosperm_14 X)) (= _let_109 (tptp.fn_gymnosperm_10 X)) (= _let_108 (tptp.fn_gymnosperm_20 X)) (= _let_92 (tptp.fn_gymnosperm_3 X)) (= _let_1 _let_33) (= _let_1 _let_32) (= _let_17 (tptp.fn_gymnosperm_11 X)) (= _let_107 (tptp.fn_gymnosperm_9 X)) (= _let_106 (tptp.fn_gymnosperm_2 X)) (= _let_105 (tptp.fn_gymnosperm_22 X)) (= _let_104 (tptp.fn_gymnosperm_19 X)) (= _let_103 (tptp.fn_gymnosperm_23 X)) (= _let_102 (tptp.fn_gymnosperm_15 X)) (= _let_42 (tptp.fn_gymnosperm_13 X)) (= _let_101 (tptp.fn_gymnosperm_21 X)) (= X _let_49) (= _let_100 _let_47) (= _let_99 _let_46) (= _let_99 _let_45) (= _let_50 _let_40) (= _let_28 _let_37) (= _let_95 _let_98) (= _let_89 _let_35) (= _let_97 _let_96) (= _let_94 _let_93) (= _let_28 _let_36) (= _let_85 _let_30) (= _let_85 _let_29) (= _let_62 _let_15) (= _let_91 _let_90) (= _let_64 _let_20) (= _let_89 _let_34) (= _let_1 _let_31) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_60 _let_13) (= _let_88 _let_87) (= (tptp.fn_gnetophyta_15 X) _let_86) (= _let_85 _let_27) (= _let_84 _let_24) (= _let_83 _let_82) (= (tptp.fn_gnetophyta_16 X) _let_81) (= _let_80 _let_79) (= _let_63 _let_18) (= (tptp.fn_gnetophyta_11 X) _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= (tptp.fn_gnetophyta_12 X) _let_73) (= _let_72 _let_71) (= (tptp.fn_gnetophyta_14 X) _let_70) (= _let_69 _let_68) (= (tptp.fn_gnetophyta_13 X) _let_67) (= _let_66 _let_65) (= _let_64 _let_23) (= _let_59 _let_10) (= _let_64 _let_22) (= _let_64 _let_21) (= _let_64 _let_19) (= _let_63 _let_16) (= _let_62 _let_14) (= _let_59 _let_6) (= _let_9 _let_61) (= _let_60 _let_12) (= _let_59 _let_11) (= _let_59 _let_8) (= _let_59 _let_5) (= _let_7 _let_58) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_41 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.go_through_1 X) (and (tptp.original_name_2 X |tptp.'Go-Through'|) (tptp.concept2words_2 X |tptp.'go through'|) (tptp.concept2words_2 X tptp.go_through) (tptp.concept2words_2 X tptp.go) (tptp.concept2words_2 X |tptp.'go-through'|) (tptp.move_through_1 X) (tptp.locomotion_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_go_to_1 X))) (=> (tptp.go_to_1 X) (and (tptp.original_name_2 X |tptp.'Go-To'|) (tptp.concept2words_2 X tptp.travel) (tptp.concept2words_2 X tptp.locomote) (tptp.concept2words_2 X tptp.go) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X tptp.reach) (tptp.concept2words_2 X |tptp.'move to'|) (tptp.concept2words_2 X |tptp.'go to'|) (tptp.concept2words_2 X |tptp.'go-to'|) (tptp.locomotion_1 X) (tptp.spatial_entity_1 _let_1) (tptp.destination_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.goal_1 X) (and (tptp.original_name_2 X |tptp.'Goal'|) (tptp.concept2words_2 X tptp.goal) (tptp.concept2words_2 X tptp.end) (tptp.concept2words_2 X tptp.finish) (tptp.concept2words_2 X tptp.destination) (tptp.concept2words_2 X tptp.behavior) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.goiter_1 X) (and (tptp.original_name_2 X |tptp.'Goiter'|) (tptp.user_description_2 X |tptp.'Medical condition in which the thyroid gland becomes enlarged.'|) (tptp.concept2words_2 X tptp.goiter) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gold_9 X))) (let ((_let_2 (tptp.fn_gold_12 X))) (let ((_let_3 (tptp.fn_gold_10 X))) (let ((_let_4 (tptp.fn_gold_11 X))) (let ((_let_5 (tptp.fn_gold_4 X))) (let ((_let_6 (tptp.fn_gold_5 X))) (let ((_let_7 (tptp.fn_gold_3 X))) (=> (tptp.gold_1 X) (and (tptp.original_name_2 X |tptp.'Gold'|) (tptp.user_description_2 X |tptp.'Gold is a metal atom with atomic number 79. It is represented by the symbol Au.'|) (tptp.concept2words_2 X tptp.gold) (tptp.concept2words_2 X |tptp.'Au'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"118"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"79"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"79"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"11"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.54"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"197"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"79"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"197"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_gold_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_gold_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_gold_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.golden_alga_1 X) (and (tptp.original_name_2 X |tptp.'Golden-Alga'|) (tptp.user_description_2 X |tptp.'A biflagellated, photosynthetic protist named for its color, which results from its yellow and brown carotenoids.'|) (tptp.concept2words_2 X |tptp.'golden alga'|) (tptp.concept2words_2 X |tptp.'golden-alga'|) (tptp.stramenopile_1 X) (not (tptp.brown_alga_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_golgi_apparatus_33 X))) (let ((_let_2 (tptp.fn_cis_face_53 _let_1))) (let ((_let_3 (tptp.fn_golgi_apparatus_60 X))) (let ((_let_4 (tptp.fn_chemical_reaction_2 _let_3))) (let ((_let_5 (tptp.fn_golgi_apparatus_73 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_golgi_apparatus_69 X))) (let ((_let_8 (tptp.fn_remove_2 _let_7))) (let ((_let_9 (tptp.fn_golgi_apparatus_66 X))) (let ((_let_10 (tptp.fn_detach_2 _let_9))) (let ((_let_11 (tptp.fn_golgi_apparatus_68 X))) (let ((_let_12 (tptp.fn_replace_3 _let_11))) (let ((_let_13 (tptp.fn_golgi_apparatus_67 X))) (let ((_let_14 (tptp.fn_attach_2 _let_13))) (let ((_let_15 (tptp.fn_golgi_apparatus_74 X))) (let ((_let_16 (tptp.fn_transfer_1 _let_15))) (let ((_let_17 (tptp.fn_golgi_apparatus_37 X))) (let ((_let_18 (tptp.fn_glycoprotein_17 _let_17))) (let ((_let_19 (tptp.fn_golgi_apparatus_62 X))) (let ((_let_20 (tptp.fn_chemical_reaction_2 _let_19))) (let ((_let_21 (tptp.fn_glycoprotein_18 _let_17))) (let ((_let_22 (tptp.fn_amphipathic_molecule_1 _let_17))) (let ((_let_23 (tptp.fn_golgi_apparatus_58 X))) (let ((_let_24 (tptp.fn_glycoprotein_17 _let_23))) (let ((_let_25 (tptp.fn_chemical_reaction_1 _let_19))) (let ((_let_26 (tptp.fn_glycoprotein_2 _let_23))) (let ((_let_27 (tptp.fn_glycoprotein_3 _let_23))) (let ((_let_28 (tptp.fn_polymer_6 _let_23))) (let ((_let_29 (tptp.fn_glycoprotein_2 _let_17))) (let ((_let_30 (tptp.fn_glycoprotein_3 _let_17))) (let ((_let_31 (tptp.fn_polymer_6 _let_17))) (let ((_let_32 (tptp.fn_golgi_apparatus_100 X))) (let ((_let_33 (tptp.fn_add_1 _let_32))) (let ((_let_34 (tptp.fn_golgi_apparatus_101 X))) (let ((_let_35 (tptp.fn_transport_vesicle_6 _let_34))) (let ((_let_36 (tptp.fn_cis_face_6 _let_1))) (let ((_let_37 (tptp.fn_golgi_apparatus_49 X))) (let ((_let_38 (tptp.fn_product_2 _let_37))) (let ((_let_39 (tptp.fn_golgi_apparatus_47 X))) (let ((_let_40 (tptp.fn_segregate_1 _let_39))) (let ((_let_41 (tptp.fn_golgi_apparatus_46 X))) (let ((_let_42 (tptp.fn_add_2 _let_41))) (let ((_let_43 (tptp.fn_golgi_apparatus_64 X))) (let ((_let_44 (tptp.fn_chemical_reaction_1 _let_43))) (let ((_let_45 (tptp.fn_golgi_apparatus_77 X))) (let ((_let_46 (tptp.fn_move_1 _let_45))) (let ((_let_47 (tptp.fn_cis_face_33 _let_1))) (let ((_let_48 (tptp.fn_golgi_apparatus_94 X))) (let ((_let_49 (tptp.fn_synthesis_of_protein_11 _let_48))) (let ((_let_50 (tptp.fn_golgi_apparatus_22 X))) (let ((_let_51 (tptp.fn_eukaryotic_cell_20 _let_50))) (let ((_let_52 (tptp.fn_cis_face_39 _let_1))) (let ((_let_53 (tptp.fn_eukaryotic_cell_19 _let_50))) (let ((_let_54 (tptp.fn_cis_face_42 _let_1))) (let ((_let_55 (tptp.fn_eukaryotic_cell_26 _let_50))) (let ((_let_56 (tptp.fn_cis_face_40 _let_1))) (let ((_let_57 (tptp.fn_eukaryotic_cell_29 _let_50))) (let ((_let_58 (tptp.fn_cis_face_41 _let_1))) (let ((_let_59 (tptp.fn_add_2 _let_32))) (let ((_let_60 (tptp.fn_eukaryotic_cell_16 _let_50))) (let ((_let_61 (tptp.fn_cis_face_59 _let_1))) (let ((_let_62 (tptp.fn_eukaryotic_cell_24 _let_50))) (let ((_let_63 (tptp.fn_cis_face_66 _let_1))) (let ((_let_64 (tptp.fn_eukaryotic_cell_42 _let_50))) (let ((_let_65 (tptp.fn_cis_face_29 _let_1))) (let ((_let_66 (tptp.fn_cis_face_63 _let_1))) (let ((_let_67 (tptp.fn_golgi_apparatus_25 X))) (let ((_let_68 (tptp.fn_secretion_1 _let_67))) (let ((_let_69 (tptp.fn_cis_face_64 _let_1))) (let ((_let_70 (tptp.fn_golgi_apparatus_40 X))) (let ((_let_71 (tptp.fn_create_1 _let_70))) (let ((_let_72 (tptp.fn_cis_face_30 _let_1))) (let ((_let_73 (tptp.fn_golgi_apparatus_42 X))) (let ((_let_74 (tptp.fn_deliver_1 _let_73))) (let ((_let_75 (tptp.fn_golgi_apparatus_79 X))) (let ((_let_76 (tptp.fn_biomembrane_15 _let_75))) (let ((_let_77 (tptp.fn_biomembrane_14 _let_75))) (let ((_let_78 (tptp.fn_product_1 _let_37))) (let ((_let_79 (tptp.fn_golgi_apparatus_51 X))) (let ((_let_80 (tptp.fn_create_1 _let_79))) (let ((_let_81 (tptp.fn_golgi_apparatus_43 X))) (let ((_let_82 (tptp.fn_glycoprotein_14 _let_17))) (let ((_let_83 (tptp.fn_golgi_apparatus_103 X))) (let ((_let_84 (tptp.fn_golgi_apparatus_102 X))) (let ((_let_85 (tptp.fn_golgi_apparatus_18 X))) (let ((_let_86 (tptp.fn_glycoprotein_14 _let_23))) (let ((_let_87 (tptp.fn_golgi_apparatus_19 X))) (let ((_let_88 (tptp.fn_golgi_apparatus_17 X))) (let ((_let_89 (tptp.fn_golgi_apparatus_31 X))) (let ((_let_90 (tptp.fn_trans_face_4 _let_89))) (let ((_let_91 (tptp.fn_golgi_apparatus_80 X))) (let ((_let_92 (tptp.fn_golgi_apparatus_20 X))) (let ((_let_93 (tptp.fn_chemical_reaction_1 _let_92))) (let ((_let_94 (tptp.fn_golgi_apparatus_21 X))) (let ((_let_95 (tptp.fn_golgi_apparatus_104 X))) (let ((_let_96 (tptp.fn_organic_molecule_2 _let_95))) (let ((_let_97 (tptp.fn_golgi_apparatus_105 X))) (let ((_let_98 (tptp.fn_golgi_apparatus_98 X))) (let ((_let_99 (tptp.fn_golgi_apparatus_61 X))) (let ((_let_100 (tptp.fn_chemical_reaction_2 _let_99))) (let ((_let_101 (tptp.fn_golgi_apparatus_39 X))) (let ((_let_102 (tptp.fn_chemical_reaction_1 _let_99))) (let ((_let_103 (tptp.fn_golgi_apparatus_57 X))) (let ((_let_104 (tptp.fn_produce_1 _let_70))) (let ((_let_105 (tptp.fn_golgi_apparatus_12 X))) (let ((_let_106 (tptp.fn_produce_1 _let_79))) (let ((_let_107 (tptp.fn_golgi_apparatus_14 X))) (let ((_let_108 (tptp.fn_transfer_1 _let_73))) (let ((_let_109 (tptp.fn_golgi_apparatus_29 X))) (let ((_let_110 (tptp.fn_golgi_apparatus_44 X))) (let ((_let_111 (tptp.fn_golgi_apparatus_56 X))) (let ((_let_112 (tptp.fn_chemical_reaction_1 _let_3))) (let ((_let_113 (tptp.fn_golgi_apparatus_63 X))) (let ((_let_114 (tptp.fn_chemical_reaction_2 _let_113))) (let ((_let_115 (tptp.fn_golgi_apparatus_36 X))) (let ((_let_116 (tptp.fn_chemical_reaction_1 _let_113))) (let ((_let_117 (tptp.fn_golgi_apparatus_55 X))) (let ((_let_118 (tptp.fn_golgi_apparatus_93 X))) (let ((_let_119 (tptp.fn_golgi_apparatus_65 X))) (let ((_let_120 (tptp.fn_golgi_apparatus_90 X))) (let ((_let_121 (tptp.fn_eukaryotic_cell_30 _let_50))) (let ((_let_122 (tptp.fn_golgi_apparatus_15 X))) (let ((_let_123 (tptp.fn_golgi_apparatus_82 X))) (let ((_let_124 (tptp.fn_golgi_apparatus_85 X))) (let ((_let_125 (tptp.fn_eukaryotic_cell_59 _let_50))) (let ((_let_126 (tptp.fn_golgi_apparatus_86 X))) (let ((_let_127 (tptp.fn_eukaryotic_cell_27 _let_50))) (let ((_let_128 (tptp.fn_golgi_apparatus_87 X))) (let ((_let_129 (tptp.fn_golgi_apparatus_91 X))) (let ((_let_130 (tptp.fn_eukaryotic_cell_28 _let_50))) (let ((_let_131 (tptp.fn_eukaryotic_cell_60 _let_50))) (let ((_let_132 (tptp.fn_cis_face_19 _let_1))) (let ((_let_133 (tptp.fn_golgi_apparatus_9 X))) (let ((_let_134 (tptp.fn_cis_face_65 _let_1))) (let ((_let_135 (tptp.fn_golgi_apparatus_30 X))) (let ((_let_136 (tptp.fn_cis_face_26 _let_1))) (let ((_let_137 (tptp.fn_golgi_apparatus_53 X))) (let ((_let_138 (tptp.fn_cis_face_58 _let_1))) (let ((_let_139 (tptp.fn_cis_face_22 _let_1))) (let ((_let_140 (tptp.fn_cis_face_49 _let_1))) (let ((_let_141 (tptp.fn_golgi_apparatus_23 X))) (let ((_let_142 (tptp.fn_cis_face_48 _let_1))) (let ((_let_143 (tptp.fn_golgi_apparatus_83 X))) (let ((_let_144 (tptp.fn_cis_face_47 _let_1))) (let ((_let_145 (tptp.fn_golgi_apparatus_38 X))) (let ((_let_146 (tptp.fn_cis_face_12 _let_1))) (let ((_let_147 (tptp.fn_golgi_apparatus_97 X))) (let ((_let_148 (tptp.fn_cis_face_24 _let_1))) (let ((_let_149 (tptp.fn_golgi_apparatus_107 X))) (let ((_let_150 (tptp.fn_golgi_apparatus_26 X))) (let ((_let_151 (tptp.fn_cis_face_50 _let_1))) (let ((_let_152 (tptp.fn_golgi_apparatus_24 X))) (let ((_let_153 (tptp.fn_golgi_apparatus_41 X))) (let ((_let_154 (tptp.fn_cis_face_34 _let_1))) (let ((_let_155 (tptp.fn_golgi_apparatus_99 X))) (let ((_let_156 (tptp.fn_cis_face_20 _let_1))) (let ((_let_157 (tptp.fn_golgi_apparatus_96 X))) (let ((_let_158 (tptp.fn_cis_face_3 _let_1))) (let ((_let_159 (tptp.fn_golgi_apparatus_35 X))) (let ((_let_160 (tptp.fn_cis_face_4 _let_1))) (let ((_let_161 (tptp.fn_golgi_apparatus_34 X))) (let ((_let_162 (tptp.fn_cis_face_7 _let_1))) (let ((_let_163 (tptp.fn_cis_face_5 _let_1))) (let ((_let_164 (tptp.fn_cis_face_1 _let_1))) (let ((_let_165 (tptp.fn_golgi_apparatus_32 X))) (let ((_let_166 (tptp.fn_cis_face_25 _let_1))) (let ((_let_167 (tptp.fn_golgi_apparatus_76 X))) (let ((_let_168 (tptp.fn_cis_face_57 _let_1))) (let ((_let_169 (tptp.fn_golgi_apparatus_81 X))) (let ((_let_170 (tptp.fn_cis_face_52 _let_1))) (let ((_let_171 (tptp.fn_golgi_apparatus_27 X))) (let ((_let_172 (tptp.fn_cis_face_2 _let_1))) (let ((_let_173 (tptp.fn_cis_face_8 _let_1))) (let ((_let_174 (tptp.fn_cis_face_51 _let_1))) (let ((_let_175 (tptp.fn_golgi_apparatus_48 X))) (let ((_let_176 (tptp.fn_cis_face_21 _let_1))) (let ((_let_177 (tptp.fn_golgi_apparatus_52 X))) (let ((_let_178 (tptp.fn_cis_face_32 _let_1))) (let ((_let_179 (tptp.fn_golgi_apparatus_28 X))) (let ((_let_180 (tptp.fn_cis_face_9 _let_1))) (let ((_let_181 (tptp.fn_cis_face_10 _let_1))) (let ((_let_182 (tptp.fn_cis_face_35 _let_1))) (let ((_let_183 (tptp.fn_cis_face_38 _let_1))) (let ((_let_184 (tptp.fn_golgi_apparatus_70 X))) (let ((_let_185 (tptp.fn_cis_face_23 _let_1))) (let ((_let_186 (tptp.fn_golgi_apparatus_95 X))) (let ((_let_187 (tptp.fn_cis_face_11 _let_1))) (let ((_let_188 (tptp.fn_cis_face_28 _let_1))) (let ((_let_189 (tptp.fn_golgi_apparatus_54 X))) (let ((_let_190 (tptp.fn_cis_face_27 _let_1))) (let ((_let_191 (tptp.fn_cis_face_62 _let_1))) (let ((_let_192 (tptp.fn_golgi_apparatus_72 X))) (let ((_let_193 (tptp.fn_cis_face_16 _let_1))) (let ((_let_194 (tptp.fn_golgi_apparatus_71 X))) (let ((_let_195 (tptp.fn_cis_face_31 _let_1))) (let ((_let_196 (tptp.fn_golgi_apparatus_59 X))) (let ((_let_197 (tptp.fn_cis_face_61 _let_1))) (let ((_let_198 (tptp.fn_golgi_apparatus_75 X))) (let ((_let_199 (tptp.fn_cis_face_36 _let_1))) (let ((_let_200 (tptp.fn_golgi_apparatus_89 X))) (let ((_let_201 (tptp.fn_cis_face_13 _let_1))) (let ((_let_202 (tptp.fn_golgi_apparatus_92 X))) (let ((_let_203 (tptp.fn_cis_face_37 _let_1))) (let ((_let_204 (tptp.fn_golgi_apparatus_88 X))) (let ((_let_205 (tptp.fn_cis_face_60 _let_1))) (let ((_let_206 (tptp.fn_golgi_apparatus_84 X))) (let ((_let_207 (tptp.fn_golgi_apparatus_78 X))) (let ((_let_208 (tptp.fn_golgi_apparatus_50 X))) (let ((_let_209 (tptp.fn_secretion_2 _let_67))) (let ((_let_210 (tptp.fn_golgi_apparatus_106 X))) (let ((_let_211 (tptp.fn_golgi_apparatus_16 X))) (let ((_let_212 (tptp.fn_produce_1 _let_211))) (let ((_let_213 (tptp.fn_golgi_apparatus_13 X))) (let ((_let_214 (tptp.fn_add_1 _let_41))) (let ((_let_215 (tptp.fn_golgi_apparatus_45 X))) (let ((_let_216 (tptp.fn_golgi_apparatus_7 X))) (let ((_let_217 (tptp.fn_golgi_apparatus_4 X))) (let ((_let_218 (tptp.fn_golgi_apparatus_3 X))) (let ((_let_219 (tptp.fn_golgi_apparatus_2 X))) (let ((_let_220 (tptp.fn_golgi_apparatus_1 X))) (let ((_let_221 (tptp.fn_golgi_apparatus_6 X))) (=> (tptp.golgi_apparatus_1 X) (and (tptp.original_name_2 X |tptp.'Golgi-Apparatus'|) (tptp.user_description_2 X |tptp.'The Golgi apparatus is an organelle found in most eukaryotic cells.The primary function of the Golgi apparatus is to synthesize, process, store and package macromolecules, such as proteins and lipids. It is a part of the cellular endomembrane system.. Golgi consists of cisternae arranged as stacks but physically unconnected'|) (tptp.concept2words_2 X tptp.golgi) (tptp.concept2words_2 X |tptp.'golgi complex'|) (tptp.concept2words_2 X |tptp.'golgi-complex'|) (tptp.concept2words_2 X |tptp.'golgi bodies'|) (tptp.concept2words_2 X |tptp.'golgi-bodies'|) (tptp.concept2words_2 X tptp.dictyosome) (tptp.concept2words_2 X |tptp.'apparatus of golgi'|) (tptp.concept2words_2 X |tptp.'golgi apparatus'|) (tptp.concept2words_2 X |tptp.'golgi-apparatus'|) (tptp.organelle_1 X) (not (tptp.endoplasmic_reticulum_1 X)) (not (tptp.mitochondrion_1 X)) (not (tptp.nucleus_1 X)) (not (tptp.plastid_1 X)) (not (tptp.vesicle_1 X)) (tptp.microtubule_1 _let_220) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_219) (tptp.change_1 _let_218) (tptp.shape_value_1 _let_217) (tptp.biomembrane_1 _let_221) (tptp.shape_value_1 _let_216) (tptp.receive_1 _let_133) (tptp.organic_molecule_1 _let_105) (tptp.organic_molecule_1 _let_213) (tptp.organic_molecule_1 _let_107) 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_let_126) (tptp.size_2 _let_50 _let_128) (tptp.has_part_2 _let_50 X) (tptp.is_inside_2 X _let_129) (tptp.has_part_2 _let_50 _let_120) (tptp.is_inside_2 _let_122 _let_120) (tptp.has_part_2 _let_50 _let_122) (tptp.has_part_2 _let_50 _let_123) (tptp.base_2 _let_124 _let_123) (tptp.has_part_2 _let_50 _let_118) (tptp.abuts_2 _let_119 _let_118) (tptp.abuts_2 _let_118 _let_119) (not (= _let_119 _let_118)) (not (= _let_118 _let_119)) (tptp.is_at_2 _let_84 _let_83) (tptp.has_region_2 _let_17 _let_84) (tptp.has_region_2 _let_17 _let_83) (tptp.is_at_2 _let_81 _let_83) (tptp.has_part_2 _let_17 _let_81) (tptp.has_part_2 _let_23 _let_88) (tptp.has_region_2 _let_23 _let_87) (tptp.is_at_2 _let_85 _let_87) (tptp.has_part_2 _let_23 _let_85) (tptp.origin_2 _let_91 _let_89) (tptp.result_2 _let_92 _let_94) (tptp.has_part_2 _let_17 _let_95) (tptp.has_part_2 _let_95 _let_97) (tptp.object_2 _let_32 _let_98) (tptp.raw_material_2 _let_99 _let_101) (tptp.result_2 _let_99 _let_103) (tptp.raw_material_2 _let_70 _let_105) (tptp.raw_material_2 _let_79 _let_107) (tptp.object_2 _let_73 _let_109) (tptp.object_2 _let_39 _let_110) (tptp.result_2 _let_19 _let_85) (tptp.result_2 _let_43 _let_111) (tptp.raw_material_2 _let_19 _let_81) (tptp.result_2 _let_3 _let_23) (tptp.raw_material_2 _let_113 _let_115) (tptp.result_2 _let_113 _let_117) (= _let_17 _let_16) (= _let_17 _let_14) (= _let_17 _let_12) (= _let_17 _let_10) (= _let_17 _let_8) (= _let_17 _let_6) (= _let_111 _let_46) (= _let_150 _let_68) (= _let_215 _let_214) (= _let_213 _let_212) (= _let_110 _let_42) (= _let_210 _let_209) (= _let_50 _let_49) (= _let_208 _let_80) (= _let_79 _let_38) (= _let_208 _let_78) (= _let_207 _let_77) (= _let_207 _let_76) (= _let_98 _let_35) (= _let_120 _let_56) (= _let_124 _let_61) (= _let_206 _let_205) (= _let_153 _let_71) (= _let_204 _let_203) (= _let_202 _let_201) (= _let_200 _let_199) (= _let_118 _let_52) (= _let_17 _let_4) (= _let_198 _let_197) (= _let_196 _let_195) (= _let_129 _let_65) (= _let_194 _let_193) (= _let_192 _let_191) (= _let_3 _let_190) (= _let_189 _let_188) (= _let_17 _let_2) (= _let_19 _let_187) (= _let_186 _let_185) (= _let_184 _let_183) (= _let_48 _let_182) (= _let_119 _let_54) (= _let_99 _let_181) (= _let_113 _let_180) (= _let_179 _let_178) (= _let_177 _let_74) (= _let_177 _let_72) (= _let_73 _let_176) (= _let_175 _let_174) (= _let_43 _let_173) (= _let_89 _let_172) (= _let_171 _let_170) (= _let_169 _let_168) (= _let_167 _let_166) (= _let_165 _let_164) (= _let_79 _let_36) (= _let_39 _let_163) (= _let_92 _let_162) (= _let_161 _let_160) (= _let_159 _let_158) (= _let_157 _let_156) (= _let_123 _let_59) (= _let_123 _let_58) (= _let_155 _let_154) (= _let_153 _let_69) (= _let_152 _let_151) (= _let_150 _let_66) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_50 _let_47) (= _let_145 _let_144) (= _let_143 _let_142) (= _let_141 _let_140) (= _let_70 _let_139) (= X _let_63) (= _let_32 _let_138) (= _let_137 _let_136) (= _let_135 _let_134) (= _let_133 _let_132) (= (tptp.fn_golgi_apparatus_11 X) _let_131) (= (tptp.fn_golgi_apparatus_10 X) _let_130) (= _let_129 _let_64) (= X _let_62) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_60) (= _let_123 _let_57) (= _let_122 _let_121) (= _let_120 _let_55) (= _let_119 _let_53) (= _let_118 _let_51) (= _let_117 _let_116) (= _let_115 _let_114) (= _let_23 _let_112) (= _let_81 _let_20) (= _let_111 _let_44) (= _let_85 _let_25) (= _let_110 _let_40) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_98 _let_33) (= _let_97 _let_96) (= _let_95 _let_31) (= _let_95 _let_30) (= _let_95 _let_29) (= _let_94 _let_93) (= _let_91 _let_90) (= _let_88 _let_28) (= _let_88 _let_27) (= _let_88 _let_26) (= _let_87 _let_86) (= _let_85 _let_24) (= _let_84 _let_22) (= _let_84 _let_21) (= _let_83 _let_82) (= _let_81 _let_18) (= _let_80 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_72) (= _let_72 _let_72) (= _let_72 _let_74) (= _let_74 _let_72) (= _let_72 _let_69) (= _let_69 _let_71) (= _let_71 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_44) (= _let_44 _let_42) (= _let_42 _let_40) (= _let_40 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gonad_1 X) (and (tptp.original_name_2 X |tptp.'Gonad'|) (tptp.user_description_2 X |tptp.'In most animals, the organ that produces either eggs or sperm.'|) (tptp.concept2words_2 X |tptp.'sex organ'|) (tptp.concept2words_2 X |tptp.'sex-organ'|) (tptp.concept2words_2 X tptp.gonad) (tptp.reproductive_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gonadotropin_releasing_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Gonadotropin-Releasing-Hormone'|) (tptp.user_description_2 X |tptp.'A tropic peptide hormone produced and released by the hypothalamus and responsible for the release of FSH and LH from the anterior pituitary.'|) (tptp.concept2words_2 X tptp.gnrh) (tptp.concept2words_2 X |tptp.'gonadotropin releasing hormone'|) (tptp.concept2words_2 X |tptp.'gonadotropin-releasing hormone'|) (tptp.concept2words_2 X |tptp.'gonadotropin-releasing-hormone'|) (tptp.tropic_hormone_1 X) (tptp.peptide_hormone_1 X) (tptp.polypeptide_1 X) (not (tptp.fsh_1 X)) (not (tptp.lh_1 X)) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.melanocyte_stimulating_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gonadotropin_role_1 X) (and (tptp.original_name_2 X |tptp.'Gonadotropin-Role'|) (tptp.user_description_2 X |tptp.'When a molecule functions as a hormone which causes gonadal growth.'|) (tptp.concept2words_2 X |tptp.'role of gonadotropin'|) (tptp.concept2words_2 X |tptp.'gonadotropin role'|) (tptp.concept2words_2 X |tptp.'gonadotropin-role'|) (tptp.chemical_messenger_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gonorrhea_1 X) (and (tptp.original_name_2 X |tptp.'Gonorrhea'|) (tptp.user_description_2 X |tptp.'A sexually transmitted infection caused by the bacterium Neisseria gonorrhoeae.'|) (tptp.concept2words_2 X |tptp.'the clap'|) (tptp.concept2words_2 X |tptp.'the-clap'|) (tptp.concept2words_2 X tptp.gonorrhea) (tptp.bacterial_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.grade_1 X) (and (tptp.original_name_2 X |tptp.'Grade'|) (tptp.user_description_2 X |tptp.'A group of organisms that share a key adaptation or a similar level of organizational complexity.'|) (tptp.concept2words_2 X tptp.grade) (tptp.clade_1 X)))) (forall ((X $$unsorted)) (=> (tptp.graded_potential_1 X) (and (tptp.original_name_2 X |tptp.'Graded-Potential'|) (tptp.user_description_2 X |tptp.'A change in the voltage across the membrane that is proportional to the strength of the stimulus.'|) (tptp.concept2words_2 X |tptp.'graded potential'|) (tptp.concept2words_2 X |tptp.'graded-potential'|) (tptp.receptor_potential_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gradient_2 X))) (let ((_let_2 (tptp.fn_gradient_1 X))) (let ((_let_3 (tptp.fn_gradient_3 X))) (=> (tptp.gradient_1 X) (and (tptp.original_name_2 X |tptp.'Gradient'|) (tptp.user_description_2 X |tptp.'A graded change in the magnitude of some physical quantity or dimension.'|) (tptp.concept2words_2 X tptp.gradient) (tptp.tangible_entity_1 X) (tptp.potential_energy_1 _let_2) (tptp.quantity_value_1 _let_1) (tptp.quantity_value_1 _let_3) (tptp.directly_proportional_2 _let_3 _let_1) (tptp.quantity_2 X _let_3) (tptp.possesses_2 X _let_2) (tptp.quantity_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.gradualism_theory_1 X) (and (tptp.original_name_2 X |tptp.'Gradualism-Theory'|) (tptp.user_description_2 X |tptp.'The theory that changes in lineages occur due to slow but continuous processes.'|) (tptp.concept2words_2 X |tptp.'gradualism theory'|) (tptp.concept2words_2 X |tptp.'gradualism-theory'|) (tptp.theory_1 X) (not (tptp.epigenesis_1 X)) (not (tptp.lamarcks_theory_of_evolution_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gram_negative_bacteria_1 X) (and (tptp.original_name_2 X |tptp.'Gram-Negative-Bacteria'|) (tptp.user_description_2 X |tptp.'Bacteria that do not absorb the crystal violet dye of the Gram stain and thus appear reddish or pink after counterstaining step of the Gram staining protocol. Gram-negative bacteria have an outer membrane that prevents the dye from adhering to the cell wall.'|) (tptp.concept2words_2 X |tptp.'gram negative bacterium'|) (tptp.concept2words_2 X |tptp.'gram-negative bacterium'|) (tptp.concept2words_2 X |tptp.'gram-negative-bacteria'|) (tptp.bacterium_1 X) (not (tptp.cellulose_digesting_bacteria_1 X)) (not (tptp.gram_positive_bacteria_1 X)) (not (tptp.mycoplasma_1 X)) (not (tptp.rhizobacterium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gram_positive_bacteria_1 X) (and (tptp.original_name_2 X |tptp.'Gram-Positive-Bacteria'|) (tptp.user_description_2 X |tptp.'Bacteria whose cell walls absorb the crystal violet dye of the Gram stain and appear dark blue or violet after the Gram staining protocol. Gram-positive bacteria do not have an outer membrane that prevents the dye from adhering to the cell wall.'|) (tptp.concept2words_2 X |tptp.'gram positive bacterium'|) (tptp.concept2words_2 X |tptp.'gram-positive bacterium'|) (tptp.concept2words_2 X |tptp.'gram-positive-bacteria'|) (tptp.bacterium_1 X) (not (tptp.cellulose_digesting_bacteria_1 X)) (not (tptp.escherichia_coli_1 X)) (not (tptp.gram_negative_bacteria_1 X)) (not (tptp.mycoplasma_1 X)) (not (tptp.rhizobacterium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gram_stain_1 X) (and (tptp.original_name_2 X |tptp.'Gram-Stain'|) (tptp.user_description_2 X |tptp.'A staining method that distinguishes between two different kinds of bacterial cell walls. The Gram staining protocol has two steps: (1) staining with crystal violet dye; and (2) destaining with safranin or carbol fuchsin. After the staining protocol, Gram-negative bacteria appear reddish or pink, while Gram-positive bacteria are dark blue or violet.'|) (tptp.concept2words_2 X |tptp.'stain of gram'|) (tptp.concept2words_2 X |tptp.'gram stain'|) (tptp.concept2words_2 X |tptp.'gram-stain'|) (tptp.technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_granum_2 X))) (let ((_let_2 (tptp.fn_granum_3 X))) (let ((_let_3 (tptp.fn_granum_1 X))) (=> (tptp.granum_1 X) (and (tptp.original_name_2 X |tptp.'Granum'|) (tptp.user_description_2 X |tptp.'Granum is a part of a chloroplast containing a stack of thylakoids.'|) (tptp.concept2words_2 X |tptp.'chloroplast membranous system'|) (tptp.concept2words_2 X |tptp.'chloroplast-membranous-system'|) (tptp.concept2words_2 X tptp.grana) (tptp.concept2words_2 X tptp.granum) (tptp.cellular_structure_1 X) (tptp.aggregate_1 X) (tptp.thylakoid_1 _let_3) (tptp.thylakoid_1 _let_1) (tptp.thylakoid_1 _let_2) (tptp.abuts_2 _let_3 _let_2) (tptp.abuts_2 _let_1 _let_2) (tptp.is_above_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.element_2 X _let_3) (tptp.element_2 X _let_1) (tptp.minCardinality X tptp.element_0 |"3"| tptp.thylakoid_0) (tptp.is_above_2 _let_2 _let_3) (tptp.abuts_2 _let_2 _let_3) (tptp.abuts_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.graphical_representation_1 X) (and (tptp.original_name_2 X |tptp.'Graphical-Representation'|) (tptp.user_description_2 X |tptp.'A method of representing data in a graph, chart or image.'|) (tptp.concept2words_2 X |tptp.'graphical representation'|) (tptp.concept2words_2 X |tptp.'graphical-representation'|) (tptp.representation_of_data_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_grass_9 X))) (let ((_let_2 (tptp.fn_starch_storage_by_plant_3 _let_1))) (let ((_let_3 (tptp.fn_store_2 _let_1))) (let ((_let_4 (tptp.fn_seed_plant_4 X))) (let ((_let_5 (tptp.fn_starch_storage_by_plant_6 _let_1))) (let ((_let_6 (tptp.fn_starch_storage_by_plant_5 _let_1))) (let ((_let_7 (tptp.fn_seed_plant_3 X))) (let ((_let_8 (tptp.fn_grass_14 X))) (let ((_let_9 (tptp.fn_root_28 _let_8))) (let ((_let_10 (tptp.fn_root_33 _let_8))) (let ((_let_11 (tptp.fn_grass_21 X))) (let ((_let_12 (tptp.fn_grass_22 X))) (let ((_let_13 (tptp.fn_grass_17 X))) (let ((_let_14 (tptp.fn_grass_8 X))) (let ((_let_15 (tptp.fn_grass_19 X))) (let ((_let_16 (tptp.fn_grass_16 X))) (let ((_let_17 (tptp.fn_grass_20 X))) (let ((_let_18 (tptp.fn_grass_15 X))) (let ((_let_19 (tptp.fn_grass_12 X))) (let ((_let_20 (tptp.fn_grass_13 X))) (let ((_let_21 (tptp.fn_grass_7 X))) (let ((_let_22 (tptp.fn_grass_10 X))) (let ((_let_23 (tptp.fn_starch_storage_by_plant_9 _let_1))) (let ((_let_24 (tptp.fn_grass_11 X))) (let ((_let_25 (tptp.fn_store_3 _let_1))) (let ((_let_26 (tptp.fn_grass_18 X))) (let ((_let_27 (tptp.fn_grass_6 X))) (let ((_let_28 (tptp.fn_grass_2 X))) (let ((_let_29 (tptp.fn_grass_5 X))) (let ((_let_30 (tptp.fn_grass_4 X))) (=> (tptp.grass_1 X) (and (tptp.original_name_2 X |tptp.'Grass'|) (tptp.user_description_2 X |tptp.'Plants that are typically short with long narrow leaves, that grow wild or are cultivated on lawns and pasture, and as a fodder crop.'|) (tptp.concept2words_2 X tptp.grass) (tptp.food_plant_1 X) (tptp.monocot_1 X) (tptp.shape_value_1 _let_28) (tptp.agricultural_process_1 _let_30) (tptp.unitless_value_1 _let_29) (tptp.environment_1 _let_27) (tptp.tuber_1 _let_21) (tptp.shoot_1 _let_14) (tptp.store_1 _let_1) (tptp.starch_storage_by_plant_1 _let_1) (tptp.store_1 _let_22) (tptp.starch_1 _let_24) (tptp.specific_heat_value_1 _let_19) (tptp.temperature_value_1 _let_20) (tptp.root_1 _let_8) (tptp.water_1 _let_18) (tptp.root_system_1 _let_16) (tptp.shoot_system_1 _let_13) (tptp.container_1 _let_26) (tptp.photosynthesis_1 _let_15) (tptp.anabolic_pathway_1 _let_15) (tptp.metabolic_pathway_1 _let_15) (tptp.plant_cell_1 _let_17) (tptp.cell_1 _let_17) (tptp.eukaryotic_cell_1 _let_17) (tptp.photoautotroph_1 _let_11) (tptp.nutrition_1 _let_12) (tptp.container_1 _let_25) (tptp.starch_1 _let_23) (tptp.store_1 _let_10) (tptp.store_1 _let_9) (tptp.store_1 _let_6) (tptp.store_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.plant_1 _let_2) (tptp.the_categorical_value_2 _let_28 tptp.hollow_volume_0) (tptp.result_2 _let_30 X) (tptp.the_scalar_value_2 _let_29 tptp.important_0) (tptp.scalar_unit_class_2 _let_29 tptp.plant_0) (tptp.is_outside_2 _let_27 X) (tptp.importance_2 X _let_29) (tptp.shape_2 X _let_28) (tptp.is_between_2 X _let_27) (tptp.site_2 _let_1 _let_8) (tptp.in_event_2 _let_26 _let_1) (tptp.plays_2 X _let_26) (tptp.has_function_2 X _let_1) (tptp.agent_2 _let_1 X) (tptp.base_2 _let_1 X) (tptp.object_2 _let_1 _let_24) (tptp.object_2 _let_22 _let_24) (tptp.subevent_2 _let_1 _let_22) (tptp.has_part_2 X _let_14) (tptp.correspondence_2 _let_20 _let_19) (tptp.temperature_2 X _let_20) (tptp.has_part_2 X _let_21) (tptp.site_2 _let_22 _let_21) (tptp.has_part_2 X _let_17) (tptp.base_2 _let_15 _let_17) (tptp.has_function_2 X _let_15) (tptp.has_part_2 X _let_18) (tptp.specific_heat_2 _let_18 _let_19) (tptp.by_means_of_2 _let_12 _let_15) (tptp.experiencer_2 _let_15 X) (tptp.has_region_2 X _let_16) (tptp.is_inside_2 _let_8 _let_16) (tptp.has_part_2 X _let_8) (tptp.plays_2 X _let_11) (tptp.in_event_2 _let_11 _let_12) (tptp.agent_2 _let_12 X) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (= _let_1 _let_10) (= _let_1 _let_9) (= _let_26 _let_25) (= _let_22 _let_6) (= _let_22 _let_5) (= _let_24 _let_23) (= X _let_3) (= _let_1 _let_7) (= X _let_2) (= (tptp.fn_grass_23 X) (tptp.fn_seed_plant_17 X)) (= (tptp.fn_grass_24 X) (tptp.fn_seed_plant_16 X)) (= _let_22 _let_4) (= _let_21 (tptp.fn_seed_plant_1 X)) (= _let_20 (tptp.fn_seed_plant_12 X)) (= _let_19 (tptp.fn_seed_plant_6 X)) (= _let_18 (tptp.fn_seed_plant_14 X)) (= _let_17 (tptp.fn_seed_plant_13 X)) (= _let_8 (tptp.fn_seed_plant_15 X)) (= _let_16 (tptp.fn_seed_plant_9 X)) (= _let_15 (tptp.fn_seed_plant_7 X)) (= _let_14 (tptp.fn_seed_plant_2 X)) (= _let_13 (tptp.fn_seed_plant_8 X)) (= _let_12 (tptp.fn_seed_plant_10 X)) (= _let_11 (tptp.fn_seed_plant_11 X)) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_grasshopper_46 X))) (let ((_let_2 (tptp.fn_alimentary_canal_1 _let_1))) (let ((_let_3 (tptp.fn_alimentary_canal_9 _let_1))) (let ((_let_4 (tptp.fn_grasshopper_26 X))) (let ((_let_5 (tptp.fn_esophagus_5 _let_4))) (let ((_let_6 (tptp.fn_esophagus_8 _let_4))) (let ((_let_7 (tptp.fn_grasshopper_32 X))) (let ((_let_8 (tptp.fn_grasshopper_digestive_system_11 _let_7))) (let ((_let_9 (tptp.fn_alimentary_canal_15 _let_1))) (let ((_let_10 (tptp.fn_esophagus_2 _let_4))) (let ((_let_11 (tptp.fn_alimentary_canal_5 _let_1))) (let ((_let_12 (tptp.fn_grasshopper_digestive_system_3 _let_7))) (let ((_let_13 (tptp.fn_insect_11 X))) (let ((_let_14 (tptp.fn_alimentary_canal_11 _let_1))) (let ((_let_15 (tptp.fn_grasshopper_digestive_system_12 _let_7))) (let ((_let_16 (tptp.fn_insect_6 X))) (let ((_let_17 (tptp.fn_alimentary_canal_12 _let_1))) (let ((_let_18 (tptp.fn_esophagus_4 _let_4))) (let ((_let_19 (tptp.fn_alimentary_canal_2 _let_1))) (let ((_let_20 (tptp.fn_alimentary_canal_6 _let_1))) (let ((_let_21 (tptp.fn_grasshopper_digestive_system_4 _let_7))) (let ((_let_22 (tptp.fn_insect_4 X))) (let ((_let_23 (tptp.fn_alimentary_canal_3 _let_1))) (let ((_let_24 (tptp.fn_esophagus_10 _let_4))) (let ((_let_25 (tptp.fn_esophagus_9 _let_4))) (let ((_let_26 (tptp.fn_grasshopper_digestive_system_8 _let_7))) (let ((_let_27 (tptp.fn_insect_20 X))) (let ((_let_28 (tptp.fn_grasshopper_digestive_system_10 _let_7))) (let ((_let_29 (tptp.fn_insect_5 X))) (let ((_let_30 (tptp.fn_grasshopper_digestive_system_7 _let_7))) (let ((_let_31 (tptp.fn_insect_12 X))) (let ((_let_32 (tptp.fn_grasshopper_digestive_system_6 _let_7))) (let ((_let_33 (tptp.fn_insect_14 X))) (let ((_let_34 (tptp.fn_grasshopper_digestive_system_9 _let_7))) (let ((_let_35 (tptp.fn_insect_3 X))) (let ((_let_36 (tptp.fn_grasshopper_digestive_system_5 _let_7))) (let ((_let_37 (tptp.fn_insect_13 X))) (let ((_let_38 (tptp.fn_grasshopper_19 X))) (let ((_let_39 (tptp.fn_hold_2 _let_38))) (let ((_let_40 (tptp.fn_grasshopper_14 X))) (let ((_let_41 (tptp.fn_carbohydrate_39 _let_40))) (let ((_let_42 (tptp.fn_carbohydrate_38 _let_40))) (let ((_let_43 (tptp.fn_carbohydrate_5 _let_40))) (let ((_let_44 (tptp.fn_grasshopper_7 X))) (let ((_let_45 (tptp.fn_animal_nutritional_requirement_61 _let_44))) (let ((_let_46 (tptp.fn_animal_nutritional_requirement_54 _let_44))) (let ((_let_47 (tptp.fn_grasshopper_21 X))) (let ((_let_48 (tptp.fn_polypeptide_82 _let_47))) (let ((_let_49 (tptp.fn_polypeptide_83 _let_47))) (let ((_let_50 (tptp.fn_polypeptide_118 _let_47))) (let ((_let_51 (tptp.fn_polypeptide_120 _let_47))) (let ((_let_52 (tptp.fn_polypeptide_90 _let_47))) (let ((_let_53 (tptp.fn_polypeptide_89 _let_47))) (let ((_let_54 (tptp.fn_grasshopper_20 X))) (let ((_let_55 (tptp.fn_amino_acid_22 _let_54))) (let ((_let_56 (tptp.fn_amino_acid_28 _let_54))) (let ((_let_57 (tptp.fn_polypeptide_15 _let_47))) (let ((_let_58 (tptp.fn_amino_acid_27 _let_54))) (let ((_let_59 (tptp.fn_polypeptide_101 _let_47))) (let ((_let_60 (tptp.fn_polypeptide_119 _let_47))) (let ((_let_61 (tptp.fn_polypeptide_126 _let_47))) (let ((_let_62 (tptp.fn_amino_acid_24 _let_54))) (let ((_let_63 (tptp.fn_amino_acid_11 _let_54))) (let ((_let_64 (tptp.fn_grasshopper_34 X))) (let ((_let_65 (tptp.fn_agent_role_1 _let_64))) (let ((_let_66 (tptp.fn_grasshopper_35 X))) (let ((_let_67 (tptp.fn_barrier_1 _let_66))) (let ((_let_68 (tptp.fn_grasshopper_43 X))) (let ((_let_69 (tptp.fn_grasshopper_44 X))) (let ((_let_70 (tptp.fn_alimentary_canal_16 _let_1))) (let ((_let_71 (tptp.fn_grasshopper_45 X))) (let ((_let_72 (tptp.fn_grasshopper_25 X))) (let ((_let_73 (tptp.fn_grasshopper_42 X))) (let ((_let_74 (tptp.fn_grasshopper_41 X))) (let ((_let_75 (tptp.fn_grasshopper_28 X))) (let ((_let_76 (tptp.fn_grasshopper_40 X))) (let ((_let_77 (tptp.fn_esophagus_7 _let_4))) (let ((_let_78 (tptp.fn_grasshopper_39 X))) (let ((_let_79 (tptp.fn_grasshopper_38 X))) (let ((_let_80 (tptp.fn_esophagus_11 _let_4))) (let ((_let_81 (tptp.fn_grasshopper_37 X))) (let ((_let_82 (tptp.fn_grasshopper_22 X))) (let ((_let_83 (tptp.fn_grasshopper_47 X))) (let ((_let_84 (tptp.fn_grasshopper_29 X))) (let ((_let_85 (tptp.fn_grasshopper_31 X))) (let ((_let_86 (tptp.fn_grasshopper_27 X))) (let ((_let_87 (tptp.fn_grasshopper_30 X))) (let ((_let_88 (tptp.fn_grasshopper_17 X))) (let ((_let_89 (tptp.fn_grasshopper_18 X))) (let ((_let_90 (tptp.fn_grasshopper_16 X))) (let ((_let_91 (tptp.fn_carbohydrate_32 _let_40))) (let ((_let_92 (tptp.fn_grasshopper_15 X))) (let ((_let_93 (tptp.fn_grasshopper_8 X))) (let ((_let_94 (tptp.fn_grasshopper_12 X))) (let ((_let_95 (tptp.fn_grasshopper_9 X))) (let ((_let_96 (tptp.fn_grasshopper_10 X))) (let ((_let_97 (tptp.fn_grasshopper_11 X))) (let ((_let_98 (tptp.fn_grasshopper_5 X))) (let ((_let_99 (tptp.fn_grasshopper_6 X))) (let ((_let_100 (tptp.fn_grasshopper_24 X))) (let ((_let_101 (tptp.fn_grasshopper_36 X))) (let ((_let_102 (tptp.fn_grasshopper_33 X))) (let ((_let_103 (tptp.fn_animal_nutritional_requirement_60 _let_44))) (let ((_let_104 (tptp.fn_grasshopper_13 X))) (let ((_let_105 (tptp.fn_protein_8 _let_104))) (let ((_let_106 (tptp.fn_grasshopper_23 X))) (let ((_let_107 (tptp.fn_grasshopper_1 X))) (let ((_let_108 (tptp.fn_grasshopper_2 X))) (let ((_let_109 (tptp.fn_grasshopper_3 X))) (let ((_let_110 (tptp.fn_grasshopper_4 X))) (=> (tptp.grasshopper_1 X) (and (tptp.original_name_2 X |tptp.'Grasshopper'|) (tptp.user_description_2 X |tptp.'An insect in the order Orthoptera, similar to crickets and katydids. Grasshoppers are herbivores and feed on a wide variety of plants.'|) (tptp.concept2words_2 X tptp.grasshopper) (tptp.orthoptera_1 X) (not (tptp.cockroach_1 X)) (not (tptp.cricket_1 X)) (tptp.chew_1 _let_107) (tptp.mandible_1 _let_108) (tptp.mouth_1 _let_109) (tptp.lining_1 _let_110) (tptp.temperature_value_1 _let_98) (tptp.specific_heat_value_1 _let_99) (tptp.animal_nutritional_requirement_1 _let_44) (tptp.entity_1 _let_93) (tptp.chemical_entity_1 _let_93) (tptp.atom_1 _let_93) (tptp.hydrogen_1 _let_93) (tptp.entity_1 _let_95) (tptp.chemical_entity_1 _let_95) (tptp.atom_1 _let_95) (tptp.carbon_1 _let_95) (tptp.entity_1 _let_96) (tptp.chemical_entity_1 _let_96) (tptp.atom_1 _let_96) (tptp.hydrogen_1 _let_96) (tptp.entity_1 _let_97) (tptp.chemical_entity_1 _let_97) (tptp.atom_1 _let_97) (tptp.oxygen_1 _let_97) (tptp.tangible_entity_1 _let_94) (tptp.entity_1 _let_94) (tptp.chemical_entity_1 _let_94) (tptp.atom_1 _let_94) (tptp.oxygen_1 _let_94) (tptp.protein_1 _let_104) (tptp.carbohydrate_1 _let_40) (tptp.entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.atom_1 _let_92) (tptp.hydrogen_1 _let_92) (tptp.entity_1 _let_90) (tptp.atom_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.oxygen_1 _let_90) (tptp.entity_1 _let_88) (tptp.chemical_entity_1 _let_88) (tptp.atom_1 _let_88) (tptp.oxygen_1 _let_88) (tptp.tangible_entity_1 _let_88) (tptp.entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.atom_1 _let_89) (tptp.carbon_1 _let_89) (tptp.hold_together_1 _let_38) (tptp.hold_1 _let_38) (tptp.spatial_entity_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.monomer_1 _let_54) (tptp.molecule_1 _let_54) (tptp.amino_acid_1 _let_54) (tptp.polypeptide_1 _let_47) (tptp.gastric_cecum_1 _let_82) (tptp.head_1 _let_106) (tptp.water_1 _let_100) (tptp.mouth_1 _let_72) (tptp.digestive_organ_1 _let_4) (tptp.esophagus_1 _let_4) (tptp.rectum_1 _let_86) (tptp.anus_1 _let_75) (tptp.foregut_1 _let_84) (tptp.midgut_1 _let_87) (tptp.hindgut_1 _let_85) (tptp.digestive_system_1 _let_7) (tptp.grasshopper_digestive_system_1 _let_7) (tptp.nutrition_1 _let_102) (tptp.agent_role_1 _let_64) (tptp.container_1 _let_66) (tptp.heterotroph_1 _let_101) (tptp.peristalsis_1 _let_81) (tptp.tissue_1 _let_79) (tptp.smooth_muscle_1 _let_79) (tptp.move_1 _let_78) (tptp.sphincter_1 _let_76) (tptp.sphincter_1 _let_74) (tptp.stomach_1 _let_73) (tptp.sphincter_1 _let_68) (tptp.end_1 _let_69) (tptp.end_1 _let_71) (tptp.alimentary_canal_1 _let_1) (tptp.crop_1 _let_83) (tptp.polypeptide_1 _let_105) (tptp.hold_together_1 _let_103) (tptp.entity_1 _let_91) (tptp.chemical_entity_1 _let_91) (tptp.atom_1 _let_91) (tptp.hydrogen_1 _let_91) (tptp.peristalsis_1 _let_80) (tptp.move_1 _let_77) (tptp.end_1 _let_70) (tptp.tangible_entity_1 _let_67) (tptp.entity_1 _let_65) (tptp.oxygen_1 _let_63) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.carbon_1 _let_62) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.carbon_1 _let_61) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.carbon_1 _let_60) (tptp.tangible_entity_1 _let_59) (tptp.entity_1 _let_59) (tptp.oxygen_1 _let_59) (tptp.atom_1 _let_59) (tptp.oxygen_1 _let_58) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.oxygen_1 _let_57) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.hydrogen_1 _let_56) (tptp.entity_1 _let_55) (tptp.chemical_entity_1 _let_55) (tptp.atom_1 _let_55) (tptp.hydrogen_1 _let_55) (tptp.entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.atom_1 _let_53) (tptp.hydrogen_1 _let_53) (tptp.entity_1 _let_52) (tptp.chemical_entity_1 _let_52) (tptp.atom_1 _let_52) (tptp.hydrogen_1 _let_52) (tptp.entity_1 _let_51) (tptp.chemical_entity_1 _let_51) (tptp.atom_1 _let_51) (tptp.hydrogen_1 _let_51) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.hydrogen_1 _let_50) (tptp.spatial_entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.monomer_1 _let_49) (tptp.molecule_1 _let_49) (tptp.amino_acid_1 _let_49) (tptp.chemical_entity_1 _let_48) (tptp.monomer_1 _let_48) (tptp.molecule_1 _let_48) (tptp.amino_acid_1 _let_48) (tptp.entity_1 _let_46) (tptp.atom_1 _let_46) (tptp.chemical_entity_1 _let_46) (tptp.oxygen_1 _let_46) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.carbon_1 _let_45) (tptp.carbon_1 _let_43) (tptp.entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.oxygen_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.oxygen_1 _let_41) (tptp.tangible_entity_1 _let_39) (tptp.midgut_1 _let_36) (tptp.rectum_1 _let_34) (tptp.hindgut_1 _let_32) (tptp.foregut_1 _let_30) (tptp.gastric_cecum_1 _let_28) (tptp.crop_1 _let_26) (tptp.tissue_1 _let_25) (tptp.smooth_muscle_1 _let_24) (tptp.sphincter_1 _let_23) (tptp.anus_1 _let_21) (tptp.anus_1 _let_20) (tptp.sphincter_1 _let_19) (tptp.stomach_1 _let_18) (tptp.stomach_1 _let_17) (tptp.digestive_organ_1 _let_15) (tptp.esophagus_1 _let_15) (tptp.esophagus_1 _let_14) (tptp.mouth_1 _let_12) (tptp.mouth_1 _let_11) (tptp.end_1 _let_10) (tptp.end_1 _let_9) (tptp.alimentary_canal_1 _let_8) (tptp.alimentary_canal_1 _let_6) (tptp.sphincter_1 _let_5) (tptp.sphincter_1 _let_3) (tptp.sphincter_1 _let_2) (tptp.has_region_2 _let_1 _let_110) (tptp.is_inside_2 _let_79 _let_110) (tptp.result_2 _let_102 _let_104) (tptp.minCardinality _let_109 tptp.has_part_0 |"2"| tptp.mandible_0) (tptp.has_part_2 _let_109 _let_108) (tptp.has_part_2 _let_106 _let_109) (tptp.has_function_2 _let_108 _let_107) (tptp.plays_2 X _let_66) (tptp.has_part_2 X _let_106) (tptp.plays_2 X _let_64) (tptp.has_part_2 _let_104 _let_47) (tptp.element_2 _let_44 _let_89) (tptp.object_2 _let_38 _let_89) (tptp.object_2 _let_38 _let_90) (tptp.element_2 _let_7 _let_87) (tptp.has_region_2 X _let_7) (tptp.element_2 _let_7 _let_85) (tptp.next_element_2 _let_87 _let_85) (tptp.next_element_2 _let_84 _let_87) (tptp.element_2 _let_7 _let_84) (tptp.has_part_2 X _let_75) (tptp.has_part_2 X _let_82) (tptp.has_part_2 X _let_86) (tptp.has_part_2 X _let_4) (tptp.result_2 _let_102 _let_40) (tptp.plays_2 X _let_101) (tptp.in_event_2 _let_101 _let_102) (tptp.agent_2 _let_102 X) (tptp.has_part_2 X _let_83) (tptp.temperature_2 X _let_98) (tptp.correspondence_2 _let_98 _let_99) (tptp.specific_heat_2 _let_100 _let_99) (tptp.has_part_2 X _let_100) (tptp.has_part_2 X _let_72) (tptp.has_part_2 _let_54 _let_97) (not (= _let_96 _let_97)) (not (= _let_97 _let_96)) (not (= _let_94 _let_97)) (not (= _let_97 _let_94)) (tptp.has_part_2 _let_54 _let_96) (tptp.has_part_2 _let_54 _let_95) (not (= _let_95 _let_97)) (not (= _let_97 _let_95)) (tptp.has_part_2 _let_54 _let_94) (not (= _let_94 _let_95)) (not (= _let_95 _let_96)) (not (= _let_95 _let_94)) (not (= _let_96 _let_95)) (not (= _let_93 _let_96)) (not (= _let_96 _let_93)) (tptp.has_part_2 _let_47 _let_54) (tptp.has_part_2 _let_54 _let_93) (not (= _let_93 _let_95)) (not (= _let_94 _let_93)) (not (= _let_93 _let_94)) (not (= _let_95 _let_93)) (tptp.has_part_2 _let_40 _let_92) (not (= _let_88 _let_89)) (tptp.has_part_2 _let_40 _let_88) (tptp.has_part_2 _let_40 _let_90) (not (= _let_89 _let_88)) (tptp.has_part_2 _let_40 _let_89) (not (= _let_89 _let_90)) (not (= _let_90 _let_88)) (not (= _let_88 _let_92)) (not (= _let_92 _let_90)) (not (= _let_90 _let_89)) (not (= _let_88 _let_90)) (not (= _let_92 _let_88)) (not (= _let_90 _let_92)) (tptp.has_region_2 _let_1 _let_71) (tptp.is_inside_2 _let_76 _let_1) (tptp.is_between_2 _let_76 _let_75) (tptp.is_at_2 _let_75 _let_69) (tptp.has_region_2 _let_1 _let_69) (tptp.is_inside_2 _let_74 _let_1) (tptp.is_inside_2 _let_73 _let_1) (tptp.is_between_2 _let_68 _let_73) (tptp.is_between_2 _let_68 _let_4) (tptp.is_inside_2 _let_4 _let_1) (tptp.called_2 _let_71 |tptp.'E1'|) (tptp.is_at_2 _let_72 _let_71) (tptp.called_2 _let_69 |tptp.'E2'|) (tptp.is_inside_2 _let_68 _let_1) (tptp.has_function_2 _let_4 _let_81) (tptp.origin_2 _let_78 _let_4) (tptp.enables_2 _let_81 _let_78) (tptp.facilitates_2 _let_79 _let_81) (tptp.has_part_2 _let_4 _let_79) (tptp.destination_2 _let_78 _let_73) (tptp.is_inside_2 _let_72 _let_84) (tptp.has_region_2 _let_1 _let_84) (tptp.has_region_2 _let_1 _let_87) (tptp.is_inside_2 _let_82 _let_87) (tptp.element_2 _let_7 _let_82) (tptp.element_2 _let_7 _let_86) (tptp.next_element_2 _let_86 _let_75) (tptp.is_inside_2 _let_75 _let_85) (tptp.is_inside_2 _let_86 _let_85) (tptp.next_element_2 _let_82 _let_86) (tptp.element_2 _let_7 _let_83) (tptp.element_2 _let_7 _let_72) (tptp.next_element_2 _let_72 _let_4) (tptp.next_element_2 _let_4 _let_83) (tptp.is_inside_2 _let_83 _let_84) (tptp.has_region_2 _let_1 _let_85) (tptp.has_region_2 _let_7 _let_1) (tptp.element_2 _let_7 _let_4) (tptp.is_inside_2 _let_4 _let_84) (tptp.next_element_2 _let_83 _let_82) (tptp.element_2 _let_7 _let_75) (not (= _let_76 _let_74)) (not (= _let_74 _let_76)) (tptp.called_2 _let_74 |tptp.'SP4'|) (tptp.called_2 _let_76 |tptp.'SP5'|) (tptp.is_between_2 _let_74 _let_75) (tptp.called_2 _let_68 |tptp.'SP1'|) (tptp.object_2 _let_38 _let_88) (= X _let_67) (= _let_106 (tptp.fn_arthropod_6 X)) (= X _let_65) (= _let_47 _let_105) (= _let_90 _let_46) (= _let_38 _let_103) (= _let_89 _let_45) (= _let_84 _let_31) (= _let_87 _let_37) (= _let_85 _let_33) (= _let_7 (tptp.fn_insect_19 X)) (= _let_75 _let_22) (= _let_82 _let_29) (= _let_86 _let_35) (= _let_4 _let_16) (= _let_40 (tptp.fn_insect_22 X)) (= _let_83 _let_27) (= _let_102 (tptp.fn_insect_17 X)) (= _let_101 (tptp.fn_insect_21 X)) (= _let_72 _let_13) (= _let_100 (tptp.fn_insect_18 X)) (= _let_99 (tptp.fn_insect_23 X)) (= _let_98 (tptp.fn_insect_25 X)) (= _let_94 _let_58) (= _let_96 _let_56) (= _let_97 _let_63) (= _let_96 _let_51) (= _let_97 _let_58) (= _let_97 _let_57) (= _let_93 _let_51) (= _let_96 _let_55) (= _let_96 _let_50) (= _let_95 _let_62) (= _let_95 _let_61) (= _let_95 _let_60) (= _let_93 _let_53) (= _let_94 _let_59) (= _let_94 _let_57) (= _let_93 _let_56) (= _let_93 _let_55) (= _let_93 _let_52) (= _let_93 _let_50) (= _let_54 _let_49) (= _let_54 _let_48) (= _let_88 _let_42) (= _let_90 _let_41) (= _let_92 _let_91) (= _let_88 _let_41) (= _let_90 _let_42) (= _let_89 _let_43) (= _let_88 _let_39) (= _let_74 _let_19) (= _let_87 _let_36) (= _let_86 _let_34) (= _let_72 _let_12) (= _let_85 _let_32) (= _let_1 _let_8) (= _let_4 _let_15) (= _let_84 _let_30) (= _let_83 _let_26) (= _let_82 _let_28) (= _let_75 _let_21) (= _let_81 _let_80) (= _let_79 _let_25) (= _let_79 _let_24) (= _let_78 _let_77) (= _let_76 _let_23) (= _let_76 _let_19) (= _let_75 _let_20) (= _let_69 _let_10) (= _let_74 _let_3) (= _let_73 _let_18) (= _let_73 _let_17) (= _let_68 _let_3) (= _let_4 _let_14) (= _let_72 _let_11) (= _let_71 _let_70) (= _let_69 _let_9) (= _let_68 _let_5) (= _let_1 _let_6) (= _let_68 _let_2) (= _let_67 _let_65) (= _let_65 _let_63) (= _let_63 _let_58) (= _let_58 _let_63) (= _let_63 _let_63) (= _let_63 _let_57) (= _let_56 _let_51) (= _let_50 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_60 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_53 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_41) (= _let_41 _let_42) (= _let_42 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_19 _let_23) (= _let_23 _let_19) (= _let_19 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_3) (= _let_3 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_grasshopper_digestive_system_12 X))) (let ((_let_2 (tptp.fn_esophagus_8 _let_1))) (let ((_let_3 (tptp.fn_grasshopper_digestive_system_11 X))) (let ((_let_4 (tptp.fn_grasshopper_digestive_system_9 X))) (let ((_let_5 (tptp.fn_grasshopper_digestive_system_10 X))) (let ((_let_6 (tptp.fn_grasshopper_digestive_system_5 X))) (let ((_let_7 (tptp.fn_grasshopper_digestive_system_6 X))) (let ((_let_8 (tptp.fn_grasshopper_digestive_system_4 X))) (let ((_let_9 (tptp.fn_grasshopper_digestive_system_8 X))) (let ((_let_10 (tptp.fn_grasshopper_digestive_system_7 X))) (let ((_let_11 (tptp.fn_grasshopper_digestive_system_3 X))) (let ((_let_12 (tptp.fn_grasshopper_digestive_system_1 X))) (=> (tptp.grasshopper_digestive_system_1 X) (and (tptp.original_name_2 X |tptp.'Grasshopper-Digestive-System'|) (tptp.user_description_2 X |tptp.'A system of organs in a grasshopper_'s body which is responsible for the digestion and absorption of nutrients from food.'|) (tptp.concept2words_2 X |tptp.'grasshopper digestive system'|) (tptp.concept2words_2 X |tptp.'grasshopper-digestive-system'|) (tptp.digestive_system_1 X) (tptp.shape_value_1 _let_12) (tptp.mouth_1 _let_11) (tptp.anus_1 _let_8) (tptp.midgut_1 _let_6) (tptp.hindgut_1 _let_7) (tptp.foregut_1 _let_10) (tptp.crop_1 _let_9) (tptp.rectum_1 _let_4) (tptp.gastric_cecum_1 _let_5) (tptp.alimentary_canal_1 _let_3) (tptp.digestive_organ_1 _let_1) (tptp.esophagus_1 _let_1) (tptp.alimentary_canal_1 _let_2) (tptp.has_region_2 X _let_3) (tptp.element_2 X _let_5) (tptp.element_2 X _let_4) (tptp.element_2 X _let_9) (tptp.element_2 X _let_8) (tptp.element_2 X _let_11) (tptp.the_categorical_value_2 _let_12 tptp.line_0) (tptp.shape_2 _let_3 _let_12) (tptp.has_region_2 _let_3 _let_10) (tptp.has_region_2 _let_3 _let_7) (tptp.has_region_2 _let_3 _let_6) (tptp.is_inside_2 _let_1 _let_10) (tptp.next_element_2 _let_1 _let_9) (tptp.next_element_2 _let_11 _let_1) (tptp.is_inside_2 _let_11 _let_10) (tptp.is_inside_2 _let_8 _let_7) (tptp.is_inside_2 _let_9 _let_10) (tptp.next_element_2 _let_9 _let_5) (tptp.next_element_2 _let_4 _let_8) (tptp.is_inside_2 _let_4 _let_7) (tptp.is_inside_2 _let_5 _let_6) (tptp.next_element_2 _let_5 _let_4) (tptp.element_2 X _let_1) (tptp.is_inside_2 _let_1 _let_3) (= _let_1 (tptp.fn_digestive_system_1 X)) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.grasshopper_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Grasshopper-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in grasshopper.'|) (tptp.concept2words_2 X |tptp.'grasshopper homeotic gene'|) (tptp.concept2words_2 X |tptp.'grasshopper-homeotic-gene'|) (tptp.insect_homeotic_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_grasshopper_homeotic_gene_mutation_3 X))) (let ((_let_2 (tptp.fn_arthropod_5 _let_1))) (let ((_let_3 (tptp.fn_grasshopper_homeotic_gene_mutation_4 X))) (let ((_let_4 (tptp.fn_grasshopper_homeotic_gene_mutation_5 X))) (let ((_let_5 (tptp.fn_grasshopper_homeotic_gene_mutation_1 X))) (let ((_let_6 (tptp.fn_grasshopper_homeotic_gene_mutation_2 X))) (=> (tptp.grasshopper_homeotic_gene_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Grasshopper-Homeotic-Gene-Mutation'|) (tptp.user_description_2 X |tptp.'Mutation of homeotic gene of grasshopper.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'grasshopper homeotic gene mutation'|) (tptp.concept2words_2 X |tptp.'grasshopper-homeotic-gene-mutation'|) (tptp.development_related_mutation_1 X) (tptp.abnormal_1 _let_5) (tptp.antenna_1 _let_6) (tptp.grasshopper_1 _let_1) (tptp.mutant_phenotype_1 _let_1) (tptp.thorax_1 _let_3) (tptp.grasshopper_homeotic_gene_1 _let_4) (tptp.thorax_1 _let_2) (tptp.result_2 X _let_1) (tptp.minCardinality _let_3 tptp.has_part_0 |"3"| tptp.leg_0) (tptp.has_part_2 _let_3 _let_6) (tptp.plays_2 _let_1 _let_5) (tptp.object_2 X _let_4) (tptp.has_part_2 _let_1 _let_3) (= _let_4 (tptp.fn_mutation_2 X)) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gravitropism_1 X))) (=> (tptp.gravitropism_1 X) (and (tptp.original_name_2 X |tptp.'Gravitropism'|) (tptp.user_description_2 X |tptp.'The response of an organism to gravity. Positive gravitropism is movement along the direction of the pull of gravity, and negative gravitropism is movement in the opposite direction.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X tptp.gravitropism) (tptp.tropism_1 X) (not (tptp.phototropism_1 X)) (not (tptp.thigmotropism_1 X)) (tptp.gravity_1 _let_1) (tptp.agent_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.gravity_1 X) (and (tptp.original_name_2 X |tptp.'Gravity'|) (tptp.user_description_2 X |tptp.'The force that attracts physical bodies toward the earth_'s center, or toward any other physical body that has mass.'|) (tptp.concept2words_2 X tptp.gravity) (tptp.force_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gray_crescent_1 X) (and (tptp.original_name_2 X |tptp.'Gray-Crescent'|) (tptp.user_description_2 X |tptp.'In animal development, a pale gray, crescent-shaped region of cytoplasm that becomes exposed after the cortical rotation, located near the equator of an egg on the side opposite sperm entry. It marks the future dorsal side of the embryo.'|) (tptp.concept2words_2 X |tptp.'crescent of gray'|) (tptp.concept2words_2 X |tptp.'gray crescent'|) (tptp.concept2words_2 X |tptp.'gray-crescent'|) (tptp.embryonic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gray_matter_1 X) (and (tptp.original_name_2 X |tptp.'Gray-Matter'|) (tptp.user_description_2 X |tptp.'A major component of the central nervous system, consisting of the cell bodies of neurons, capillaries, and glial cells.'|) (tptp.concept2words_2 X |tptp.'matter of gray'|) (tptp.concept2words_2 X |tptp.'gray matter'|) (tptp.concept2words_2 X |tptp.'gray-matter'|) (tptp.nervous_tissue_1 X) (not (tptp.brain_region_1 X)) (not (tptp.ganglion_1 X)) (not (tptp.nerve_circuit_1 X)) (not (tptp.neural_crest_1 X)) (not (tptp.neuromast_1 X)) (not (tptp.notochord_1 X)) (not (tptp.ommatidium_1 X)) (not (tptp.optic_nerve_1 X)) (not (tptp.retina_1 X)) (not (tptp.white_matter_1 X))))) (forall ((X $$unsorted)) (=> (tptp.great_auk_1 X) (and (tptp.original_name_2 X |tptp.'Great-Auk'|) (tptp.user_description_2 X |tptp.'A large, flightless bird that was driven to extinction in the mid-19th century by human hunting. Its scientific name is Pinguinus impennis.'|) (tptp.concept2words_2 X tptp.auk) (tptp.concept2words_2 X |tptp.'great auk'|) (tptp.concept2words_2 X |tptp.'great-auk'|) (tptp.seabird_1 X) (tptp.extinct_bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.flightless_birds_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X)) (not (tptp.acanthodian_1 X)) (not (tptp.ammonite_1 X)) (not (tptp.anapsid_1 X)) (not (tptp.archaeopteryx_1 X)) (not (tptp.conodont_1 X)) (not (tptp.cooksonia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.eurypterid_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.placoderm_1 X)) (not (tptp.pterosaur_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (=> (tptp.green_algae_1 X) (and (tptp.original_name_2 X |tptp.'Green-Algae'|) (tptp.user_description_2 X |tptp.'A paraphyletic grouping of photosynthetic protists whose chloroplasts are similar to those of land plants. Some green algae are more closely related to land plants than to other green algae.'|) (tptp.concept2words_2 X |tptp.'algae of green'|) (tptp.concept2words_2 X |tptp.'green algae'|) (tptp.concept2words_2 X |tptp.'green-algae'|) (tptp.chlorophyta_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.color_2 X X1) (tptp.light_1 X) (tptp.color_value_1 X1)) (and (tptp.green_light_1 X) (= (tptp.fn_green_light_5 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_green_light_8 X))) (let ((_let_2 (tptp.fn_green_light_3 X))) (let ((_let_3 (tptp.fn_green_light_4 X))) (let ((_let_4 (tptp.fn_green_light_5 X))) (=> (tptp.green_light_1 X) (and (tptp.original_name_2 X |tptp.'Green-Light'|) (tptp.user_description_2 X |tptp.'The portion of the electromagnetic spectrum that can be detected as green by the human eye, ranging in wavelength from about 495 nm to 570 nm.'|) (tptp.concept2words_2 X |tptp.'light of green'|) (tptp.concept2words_2 X |tptp.'green light'|) (tptp.concept2words_2 X |tptp.'green-light'|) (tptp.light_1 X) (tptp.length_value_1 _let_2) (tptp.length_value_1 _let_3) (tptp.color_value_1 _let_4) (tptp.length_value_1 _let_1) (tptp.the_categorical_value_2 _let_4 tptp.green_0) (tptp.color_2 X _let_4) (tptp.greater_than_or_equal_to_2 _let_3 _let_1) (tptp.the_cardinal_value_2 _let_3 |"560.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.nanometer_0) (tptp.the_cardinal_value_2 _let_2 |"520.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_1 _let_2) (tptp.wavelength_2 X _let_1) (= (tptp.fn_green_light_9 X) (tptp.fn_electromagnetic_energy_1 X)) (= _let_1 (tptp.fn_electromagnetic_energy_4 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_greenhouse_effect_3 X))) (let ((_let_2 (tptp.fn_greenhouse_effect_2 X))) (let ((_let_3 (tptp.fn_greenhouse_effect_1 X))) (=> (tptp.greenhouse_effect_1 X) (and (tptp.original_name_2 X |tptp.'Greenhouse-Effect'|) (tptp.user_description_2 X |tptp.'A process by which solar radiation is absorbed at atmospheric gases and reradiated back towards the Earth, resulting in warmer temperatures than would occur in the absence of such atmospheric gases.'|) (tptp.concept2words_2 X |tptp.'effect of greenhouse'|) (tptp.concept2words_2 X |tptp.'greenhouse effect'|) (tptp.concept2words_2 X |tptp.'greenhouse-effect'|) (tptp.climate_change_1 X) (tptp.sunlight_1 _let_3) (tptp.retain_1 _let_2) (tptp.life_cycle_1 _let_1) (tptp.object_2 _let_2 _let_3) (tptp.subevent_2 X _let_2) (tptp.supports_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_greenhouse_gas_1 X))) (=> (tptp.greenhouse_gas_1 X) (and (tptp.original_name_2 X |tptp.'Greenhouse-Gas'|) (tptp.user_description_2 X |tptp.'Atmospheric gas that traps infrared radiation and causes heating of the atmosphere, resulting in global warming.'|) (tptp.concept2words_2 X |tptp.'gas of greenhouse'|) (tptp.concept2words_2 X |tptp.'greenhouse gas'|) (tptp.concept2words_2 X |tptp.'greenhouse-gas'|) (tptp.gas_substance_1 X) (tptp.atmosphere_1 _let_1) (tptp.is_inside_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.greylag_geese_1 X) (and (tptp.original_name_2 X |tptp.'Greylag-Geese'|) (tptp.user_description_2 X |tptp.'Geese of the species Anser anser, notable as the birds used in studies of behavioral imprinting.'|) (tptp.concept2words_2 X |tptp.'greylag goose'|) (tptp.concept2words_2 X |tptp.'greylag-geese'|) (tptp.bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.flightless_birds_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.killdeer_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (=> (tptp.grind_1 X) (and (tptp.original_name_2 X |tptp.'Grind'|) (tptp.user_description_2 X |tptp.'To crush a substance to very small particles or powder.'|) (tptp.concept2words_2 X tptp.grind) (tptp.break_1 X)))) (forall ((X $$unsorted)) (=> (tptp.gross_primary_production_1 X) (and (tptp.original_name_2 X |tptp.'Gross-Primary-Production'|) (tptp.user_description_2 X |tptp.'Gross primary production is the total rate of biomass produced by primary producers in an ecosystem.'|) (tptp.concept2words_2 X |tptp.'gross primary production'|) (tptp.concept2words_2 X |tptp.'gross-primary-production'|) (tptp.bioenergetics_1 X) (not (tptp.ecosystem_service_1 X)) (not (tptp.nonequilibrium_model_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ground_1 X))) (=> (tptp.ground_1 X) (and (tptp.original_name_2 X |tptp.'Ground'|) (tptp.user_description_2 X |tptp.'The solid surface of the earth is referred to as Ground.'|) (tptp.concept2words_2 X tptp.ground) (tptp.geologic_entity_1 X) (tptp.stone_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.ground_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Ground-Tissue'|) (tptp.user_description_2 X |tptp.'In plants, tissues that are not part of the vascular bundle or dermal system. Ground tissue has a variety of functions, including photosynthesis, support, and storage.'|) (tptp.concept2words_2 X |tptp.'tissue of ground'|) (tptp.concept2words_2 X |tptp.'ground tissue'|) (tptp.concept2words_2 X |tptp.'ground-tissue'|) (tptp.plant_specific_tissue_1 X) (not (tptp.dermal_tissue_1 X)) (not (tptp.vascular_tissue_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ground_tissue_system_1 X) (and (tptp.original_name_2 X |tptp.'Ground-Tissue-System'|) (tptp.user_description_2 X |tptp.'Ground tissue system is responsible for most of the plants metabolic functions, is located between the dermal tissue and the vascular tissue in each organ. Tissues that are neither dermal nor vascular are part of the ground tissue system.'|) (tptp.concept2words_2 X |tptp.'ground tissue system'|) (tptp.concept2words_2 X |tptp.'ground-tissue-system'|) (tptp.tissue_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.groundwater_1 X) (and (tptp.original_name_2 X |tptp.'Groundwater'|) (tptp.user_description_2 X |tptp.'Groundwater is water located beneath the surface of ground'|) (tptp.concept2words_2 X tptp.groundwater) (tptp.water_1 X)))) (forall ((X $$unsorted)) (=> (tptp.group_1 X) (and (tptp.original_name_2 X |tptp.'Group'|) (tptp.description_2 X |tptp.'a relatively small organization of Roles'|) (tptp.concept2words_2 X |tptp.'working group'|) (tptp.concept2words_2 X tptp.working_group) (tptp.concept2words_2 X |tptp.'working party'|) (tptp.concept2words_2 X tptp.working_party) (tptp.concept2words_2 X tptp.unit) (tptp.concept2words_2 X tptp.group) (tptp.organization_1 X) (not (tptp.institution_1 X)) (not (tptp.department_1 X))))) (forall ((X $$unsorted)) (=> (tptp.group_node_1 X) (and (tptp.original_name_2 X |tptp.'Group-Node'|) (tptp.concept2words_2 X |tptp.'node of group'|) (tptp.concept2words_2 X |tptp.'group node'|) (tptp.concept2words_2 X |tptp.'group-node'|) (tptp.big_node_1 X)))) (forall ((X $$unsorted)) (=> (tptp.grouping_activity_1 X) (and (tptp.original_name_2 X |tptp.'Grouping-Activity'|) (tptp.user_description_2 X |tptp.'An activity which relates to the grouping or arrangement of persons or things.'|) (tptp.concept2words_2 X tptp.group) (tptp.concept2words_2 X |tptp.'activity of grouping'|) (tptp.concept2words_2 X |tptp.'grouping activity'|) (tptp.concept2words_2 X |tptp.'grouping-activity'|) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.grow_1 X) (and (tptp.original_name_2 X |tptp.'Grow'|) (tptp.user_description_2 X |tptp.'Increase or become larger in size.'|) (tptp.concept2words_2 X tptp.grow) (tptp.increase_1 X)))) (forall ((X $$unsorted)) (=> (tptp.growth_1 X) (and (tptp.original_name_2 X |tptp.'Growth'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X tptp.mature) (tptp.concept2words_2 X tptp.maturate) (tptp.concept2words_2 X tptp.growth) (tptp.concept2words_2 X tptp.growing) (tptp.concept2words_2 X tptp.maturation) (tptp.concept2words_2 X tptp.development) (tptp.concept2words_2 X tptp.ontogeny) (tptp.concept2words_2 X tptp.ontogenesis) (tptp.concept2words_2 X tptp.increase) (tptp.concept2words_2 X tptp.increment) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.growth_cone_1 X) (and (tptp.original_name_2 X |tptp.'Growth-Cone'|) (tptp.user_description_2 X |tptp.'In a neuron, the responsive region at the leading edge of the growing axon.'|) (tptp.concept2words_2 X |tptp.'cone of growth'|) (tptp.concept2words_2 X |tptp.'growth cone'|) (tptp.concept2words_2 X |tptp.'growth-cone'|) (tptp.neuron_structure_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.i_band_filament_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_growth_factor_1 X))) (let ((_let_2 (tptp.fn_local_regulator_2 _let_1))) (=> (tptp.growth_factor_1 X) (and (tptp.original_name_2 X |tptp.'Growth-Factor'|) (tptp.user_description_2 X |tptp.'A local regulator that acts on nearby cells to stimulate cell proliferation and differentiation.'|) (tptp.concept2words_2 X |tptp.'paracrine growth factor'|) (tptp.concept2words_2 X |tptp.'factor of growth'|) (tptp.concept2words_2 X |tptp.'growth factor'|) (tptp.concept2words_2 X |tptp.'growth-factor'|) (tptp.regulatory_protein_1 X) (tptp.local_regulator_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.plays_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.growth_factor_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Growth-Factor-Receptor'|) (tptp.user_description_2 X |tptp.'A regulatory protein in the cell membrane or in the cell that binds to another molecule leading to a change in cell growth behavior.'|) (tptp.concept2words_2 X |tptp.'growth factor receptor'|) (tptp.concept2words_2 X |tptp.'growth-factor receptor'|) (tptp.concept2words_2 X |tptp.'growth-factor-receptor'|) (tptp.receptor_protein_1 X) (not (tptp.g_protein_coupled_receptor_1 X)) (not (tptp.intracellular_receptor_1 X)) (not (tptp.receptor_tyrosine_kinase_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_growth_factor_release_5 X))) (let ((_let_2 (tptp.fn_target_cell_3 _let_1))) (let ((_let_3 (tptp.fn_signal_generation_4 X))) (let ((_let_4 (tptp.fn_release_2 X))) (let ((_let_5 (tptp.fn_growth_factor_release_6 X))) (let ((_let_6 (tptp.fn_growth_factor_release_3 X))) (let ((_let_7 (tptp.fn_release_2 _let_6))) (let ((_let_8 (tptp.fn_growth_factor_release_2 X))) (let ((_let_9 (tptp.fn_growth_factor_release_4 X))) (let ((_let_10 (tptp.fn_release_1 _let_6))) (let ((_let_11 (tptp.fn_growth_factor_release_1 X))) (=> (tptp.growth_factor_release_1 X) (and (tptp.original_name_2 X |tptp.'Growth-Factor-Release'|) (tptp.user_description_2 X |tptp.'Process of cell releasing growth factor.'|) (tptp.concept2words_2 X tptp.release) (tptp.concept2words_2 X |tptp.'growth factor release'|) (tptp.concept2words_2 X |tptp.'growth-factor-release'|) (tptp.release_1 X) (tptp.signal_generation_1 X) (tptp.cell_growth_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.release_1 _let_6) (tptp.growth_factor_1 _let_9) (tptp.target_cell_1 _let_1) (tptp.tangible_entity_1 _let_5) (tptp.cell_1 _let_5) (tptp.tangible_entity_1 _let_10) (tptp.tangible_entity_1 _let_7) (tptp.cell_1 _let_2) (tptp.is_inside_2 _let_9 _let_8) (tptp.is_inside_2 _let_9 _let_5) (tptp.agent_2 _let_11 _let_9) (tptp.subevent_2 X _let_6) (tptp.object_2 _let_6 _let_9) (tptp.object_2 X _let_9) (tptp.base_2 X _let_5) (tptp.base_2 _let_6 _let_8) (tptp.plays_2 _let_5 _let_1) (= _let_9 _let_10) (= _let_9 (tptp.fn_release_1 X)) (= _let_5 _let_4) (= _let_5 _let_3) (= _let_8 _let_7) (= _let_5 _let_2) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.growth_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Growth-Hormone'|) (tptp.user_description_2 X |tptp.'A hormone of the anterior pituitary that causes body growth, cell growth, and cell regeneration in humans and some other animals.'|) (tptp.concept2words_2 X tptp.gh) (tptp.concept2words_2 X |tptp.'growth factor'|) (tptp.concept2words_2 X |tptp.'growth-factor'|) (tptp.concept2words_2 X |tptp.'hormone of growth'|) (tptp.concept2words_2 X |tptp.'growth hormone'|) (tptp.concept2words_2 X |tptp.'growth-hormone'|) (tptp.growth_factor_1 X) (tptp.pituitary_peptide_hormone_1 X) (not (tptp.bmp_4_1 X)) (not (tptp.erythropoietin_1 X)) (not (tptp.inhibin_1 X)) (not (tptp.leptin_1 X)) (not (tptp.prolactin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gtp_15 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_nucleoside_triphosphate_10 X))) (let ((_let_4 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_5 (tptp.fn_nucleoside_triphosphate_3 X))) (let ((_let_6 (tptp.fn_nucleoside_triphosphate_19 X))) (let ((_let_7 (tptp.fn_nucleoside_triphosphate_7 X))) (let ((_let_8 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_9 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_10 (tptp.fn_nucleoside_triphosphate_6 X))) (let ((_let_11 (tptp.fn_nucleoside_triphosphate_21 X))) (let ((_let_12 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_13 (tptp.fn_nucleoside_triphosphate_12 X))) (let ((_let_14 (tptp.fn_gtp_19 X))) (let ((_let_15 (tptp.fn_covalent_bond_23 _let_14))) (let ((_let_16 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_17 (tptp.fn_covalent_bond_21 _let_14))) (let ((_let_18 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_19 (tptp.fn_nucleoside_triphosphate_11 X))) (let ((_let_20 (tptp.fn_nucleoside_triphosphate_18 X))) (let ((_let_21 (tptp.fn_nucleoside_triphosphate_15 X))) (let ((_let_22 (tptp.fn_covalent_bond_15 _let_14))) (let ((_let_23 (tptp.fn_nucleoside_triphosphate_20 X))) (let ((_let_24 (tptp.fn_nucleoside_triphosphate_22 X))) (let ((_let_25 (tptp.fn_nucleoside_triphosphate_33 X))) (let ((_let_26 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_27 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_28 (tptp.fn_nucleoside_triphosphate_29 X))) (let ((_let_29 (tptp.fn_nucleoside_triphosphate_32 X))) (let ((_let_30 (tptp.fn_nucleoside_triphosphate_31 X))) (let ((_let_31 (tptp.fn_nucleoside_triphosphate_34 X))) (let ((_let_32 (tptp.fn_gtp_28 X))) (let ((_let_33 (tptp.fn_share_1 _let_32))) (let ((_let_34 (tptp.fn_share_3 _let_32))) (let ((_let_35 (tptp.fn_covalent_bond_14 _let_14))) (let ((_let_36 (tptp.fn_covalent_bond_20 _let_14))) (let ((_let_37 (tptp.fn_covalent_bond_19 _let_14))) (let ((_let_38 (tptp.fn_nucleoside_triphosphate_23 X))) (let ((_let_39 (tptp.fn_nucleoside_triphosphate_14 X))) (let ((_let_40 (tptp.fn_nucleoside_triphosphate_2 X))) (let ((_let_41 (tptp.fn_nucleoside_triphosphate_27 X))) (let ((_let_42 (tptp.fn_nucleotide_15 X))) (let ((_let_43 (tptp.fn_nucleoside_triphosphate_8 X))) (let ((_let_44 (tptp.fn_nucleoside_triphosphate_13 X))) (let ((_let_45 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_46 (tptp.fn_nucleoside_triphosphate_25 X))) (let ((_let_47 (tptp.fn_nucleoside_triphosphate_4 X))) (let ((_let_48 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_49 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(tptp.fn_gtp_9 X))) (let ((_let_77 (tptp.fn_gtp_36 X))) (let ((_let_78 (tptp.fn_gtp_33 X))) (let ((_let_79 (tptp.fn_gtp_34 X))) (let ((_let_80 (tptp.fn_gtp_35 X))) (let ((_let_81 (tptp.fn_gtp_16 X))) (let ((_let_82 (tptp.fn_gtp_11 X))) (let ((_let_83 (tptp.fn_gtp_30 X))) (let ((_let_84 (tptp.fn_gtp_14 X))) (let ((_let_85 (tptp.fn_store_2 _let_84))) (let ((_let_86 (tptp.fn_nucleoside_21 _let_81))) (let ((_let_87 (tptp.fn_gtp_12 X))) (let ((_let_88 (tptp.fn_store_1 _let_84))) (let ((_let_89 (tptp.fn_gtp_13 X))) (=> (tptp.gtp_1 X) (and (tptp.original_name_2 X |tptp.'GTP'|) (tptp.description_2 X |tptp.'Major nucleoside triphosphate used in the synthesis of RNA and in some energy-transfer reactions. Has a special role in microtubule assembly, protein synthesis, and cell signaling.'|) (tptp.user_description_2 X |tptp.'A molecule which is structurally and functionally very similar to ATP. This molecule stores energy in the covalent bonds between phosphate groups, which when broken releases energy and can be used to make ATP or to directly power cell processes.'|) (tptp.concept2words_2 X |tptp.'guanosine triphosphate'|) (tptp.concept2words_2 X |tptp.'guanosine-triphosphate'|) (tptp.concept2words_2 X tptp.gtp) (tptp.nucleoside_triphosphate_1 X) (tptp.hold_1 _let_57) (tptp.hold_together_1 _let_57) (tptp.hold_1 _let_68) (tptp.hold_together_1 _let_68) (tptp.share_1 _let_50) (tptp.share_1 _let_74) (tptp.share_1 _let_75) (tptp.entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.atom_1 _let_62) (tptp.carbon_1 _let_62) (tptp.carbon_skeleton_1 _let_76) (tptp.entity_1 _let_63) (tptp.number_5_prime_carbon_1 _let_63) (tptp.spatial_entity_1 _let_82) (tptp.molecule_1 _let_82) (tptp.organic_molecule_1 _let_82) (tptp.pentose_1 _let_82) (tptp.guanine_1 _let_87) (tptp.energy_1 _let_89) (tptp.store_1 _let_84) (tptp.single_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.nucleoside_1 _let_81) (tptp.entity_1 _let_61) (tptp.chemical_entity_1 _let_61) (tptp.atom_1 _let_61) (tptp.oxygen_1 _let_61) (tptp.phosphate_group_1 _let_70) (tptp.chemical_bond_1 _let_14) (tptp.double_bond_1 _let_14) (tptp.covalent_bond_1 _let_14) (tptp.entity_1 _let_65) (tptp.chemical_entity_1 _let_65) (tptp.atom_1 _let_65) (tptp.oxygen_1 _let_65) (tptp.tangible_entity_1 _let_60) (tptp.entity_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.atom_1 _let_60) (tptp.phosphorus_1 _let_60) (tptp.electron_shell_1 _let_72) (tptp.first_electron_shell_1 _let_72) (tptp.center_1 _let_54) (tptp.center_1 _let_59) (tptp.electron_1 _let_67) (tptp.valence_electron_1 _let_67) (tptp.electron_1 _let_51) (tptp.valence_electron_1 _let_51) (tptp.electron_1 _let_66) (tptp.valence_electron_1 _let_66) (tptp.share_1 _let_32) (tptp.hold_1 _let_64) (tptp.hold_together_1 _let_64) (tptp.number_5_prime_region_1 _let_83) (tptp.electron_1 _let_58) (tptp.valence_electron_1 _let_58) (tptp.center_1 _let_53) (tptp.quantity_value_1 _let_78) (tptp.speed_value_1 _let_79) (tptp.constant_motion_1 _let_80) (tptp.kinetic_energy_1 _let_77) (tptp.proton_1 _let_69) (tptp.electron_shell_1 _let_71) (tptp.electron_shell_1 _let_73) (tptp.atomic_nucleus_1 _let_52) (tptp.proton_1 _let_56) (tptp.entity_1 _let_88) (tptp.nitrogenous_base_1 _let_86) (tptp.spatial_entity_1 _let_85) (tptp.proton_1 _let_55) (tptp.share_1 _let_49) (tptp.electron_shell_1 _let_48) (tptp.electron_shell_1 _let_45) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.hold_together_1 _let_35) (tptp.entity_1 _let_34) (tptp.entity_1 _let_33) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.valence_electron_1 _let_22) (tptp.hold_together_1 _let_18) (tptp.center_1 _let_17) (tptp.center_1 _let_16) (tptp.center_1 _let_15) (tptp.center_1 _let_12) (tptp.atomic_nucleus_1 _let_9) (tptp.valence_electron_1 _let_8) (tptp.valence_electron_1 _let_4) (tptp.share_1 _let_2) (tptp.has_function_2 X _let_84) (tptp.agent_2 _let_32 _let_63) (tptp.object_2 _let_84 _let_89) (tptp.has_part_2 _let_81 _let_87) (tptp.base_2 _let_84 X) (tptp.is_between_2 _let_14 _let_65) (tptp.has_region_2 _let_65 _let_54) (tptp.object_2 _let_64 _let_65) (tptp.has_part_2 _let_65 _let_58) (tptp.result_2 _let_32 _let_14) (tptp.agent_2 _let_32 _let_65) (tptp.has_region_2 _let_65 _let_53) (tptp.has_part_2 _let_61 _let_67) (tptp.has_region_2 _let_61 _let_54) (tptp.agent_2 _let_50 _let_61) (tptp.has_region_2 _let_60 _let_72) (tptp.has_part_2 _let_61 _let_56) (tptp.has_region_2 _let_60 _let_54) (tptp.object_2 _let_32 _let_66) (tptp.is_between_2 _let_1 _let_60) (tptp.agent_2 _let_32 _let_60) (tptp.object_2 _let_32 _let_51) (not (= _let_62 _let_60)) (not (= _let_60 _let_62)) (tptp.has_part_2 X _let_81) (tptp.has_part_2 _let_81 _let_82) (tptp.has_region_2 _let_82 _let_83) (tptp.is_inside_2 _let_70 _let_83) (tptp.possesses_2 X _let_77) (tptp.quantity_2 _let_77 _let_78) (tptp.directly_proportional_2 _let_79 _let_78) (tptp.speed_2 _let_80 _let_79) (tptp.object_2 _let_80 X) (tptp.has_region_2 _let_65 _let_52) (not (= _let_63 _let_65)) (not (= _let_65 _let_63)) (tptp.object_2 _let_75 _let_66) (tptp.object_2 _let_74 _let_66) (tptp.object_2 _let_74 _let_51) (tptp.has_part_2 X _let_62) (tptp.is_inside_2 _let_62 _let_76) (tptp.has_region_2 X _let_76) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_61) (tptp.agent_2 _let_64 _let_14) (tptp.has_function_2 _let_14 _let_64) (tptp.possesses_2 X _let_14) (tptp.has_part_2 X _let_61) (tptp.has_region_2 _let_61 _let_59) (tptp.result_2 _let_74 _let_14) (tptp.is_between_2 _let_14 _let_61) (tptp.agent_2 _let_75 _let_61) (tptp.result_2 _let_75 _let_14) (tptp.is_between_2 _let_14 _let_60) (tptp.result_2 _let_32 _let_1) (tptp.is_between_2 _let_1 _let_65) (tptp.agent_2 _let_74 _let_65) (tptp.agent_2 _let_74 _let_60) (tptp.agent_2 _let_75 _let_60) (tptp.agent_2 _let_50 _let_65) (tptp.has_region_2 _let_65 _let_59) (tptp.has_region_2 _let_60 _let_59) (not (= _let_54 _let_59)) (not (= _let_59 _let_54)) (tptp.object_2 _let_32 _let_58) (tptp.agent_2 _let_32 _let_61) (tptp.has_region_2 _let_61 _let_53) (tptp.has_region_2 _let_63 _let_53) (tptp.has_region_2 _let_63 _let_72) (tptp.agent_2 _let_50 _let_63) (tptp.agent_2 _let_50 _let_60) (tptp.is_inside_2 _let_60 _let_70) (tptp.is_inside_2 _let_61 _let_70) (tptp.has_region_2 _let_61 _let_73) (not (= _let_51 _let_66)) (not (= _let_66 _let_58)) (not (= _let_51 _let_58)) (not (= _let_58 _let_51)) (not (= _let_58 _let_66)) (not (= _let_66 _let_51)) (tptp.object_2 _let_57 _let_60) (tptp.object_2 _let_57 _let_65) (tptp.has_region_2 _let_65 _let_71) (not (= _let_71 _let_72)) (not (= _let_72 _let_73)) (not (= _let_72 _let_71)) (not (= _let_73 _let_72)) (tptp.is_inside_2 _let_69 _let_52) (tptp.has_part_2 _let_65 _let_69) (tptp.is_inside_2 _let_65 _let_70) (tptp.has_region_2 X _let_70) (tptp.has_part_2 X _let_65) (tptp.object_2 _let_68 _let_60) (tptp.object_2 _let_68 _let_65) (not (= _let_65 _let_62)) (not (= _let_60 _let_65)) (not (= _let_65 _let_60)) (not (= _let_62 _let_65)) (tptp.is_near_2 _let_52 _let_66) (tptp.is_near_2 _let_66 _let_52) (tptp.is_near_2 _let_67 _let_52) (not (= _let_51 _let_67)) (not (= _let_67 _let_51)) (tptp.is_near_2 _let_52 _let_67) (tptp.object_2 _let_57 _let_63) (tptp.object_2 _let_57 _let_61) (tptp.has_part_2 _let_61 _let_66) (not (= _let_67 _let_66)) (not (= _let_66 _let_67)) (tptp.object_2 _let_64 _let_60) (tptp.object_2 _let_64 _let_61) (tptp.has_region_2 _let_61 _let_52) (not (= _let_65 _let_61)) (not (= _let_61 _let_65)) (tptp.has_part_2 X _let_60) (not (= _let_60 _let_61)) (not (= _let_61 _let_63)) (not (= _let_61 _let_60)) (not (= _let_62 _let_61)) (not (= _let_61 _let_62)) (not (= _let_63 _let_61)) (not (= _let_59 _let_53)) (not (= _let_53 _let_59)) (tptp.has_function_2 _let_1 _let_57) (tptp.is_near_2 _let_52 _let_58) (tptp.is_near_2 _let_58 _let_52) (tptp.agent_2 _let_57 _let_1) (tptp.is_inside_2 _let_56 _let_52) (tptp.result_2 _let_50 _let_1) (tptp.object_2 _let_50 _let_51) (tptp.is_near_2 _let_51 _let_52) (tptp.is_at_2 _let_52 _let_53) (not (= _let_53 _let_54)) (tptp.is_near_2 _let_52 _let_51) (not (= _let_54 _let_53)) (= _let_63 _let_34) (= _let_63 _let_33) (= _let_89 _let_88) (= _let_87 _let_86) (= X _let_85) (= _let_54 _let_17) (= _let_65 _let_37) (= _let_64 _let_35) (= _let_58 _let_22) (= _let_53 _let_15) (= _let_65 _let_36) (= _let_32 _let_49) (= _let_67 _let_4) (= _let_54 _let_12) (= _let_66 _let_4) (= _let_51 _let_8) (= _let_32 _let_2) (= _let_62 _let_27) (= _let_60 _let_27) (= _let_60 _let_26) (= (tptp.fn_gtp_2 X) (tptp.fn_nucleotide_52 X)) (= (tptp.fn_gtp_1 X) (tptp.fn_nucleotide_53 X)) (= _let_70 _let_42) (= _let_83 (tptp.fn_nucleotide_36 X)) (= _let_82 (tptp.fn_nucleotide_12 X)) (= _let_81 (tptp.fn_nucleotide_16 X)) (= _let_80 (tptp.fn_nucleotide_4 X)) (= _let_79 (tptp.fn_nucleotide_5 X)) (= _let_78 (tptp.fn_nucleotide_6 X)) (= _let_77 (tptp.fn_nucleotide_2 X)) (= _let_66 _let_6) (= _let_76 (tptp.fn_nucleoside_triphosphate_30 X)) (= _let_59 _let_24) (= _let_64 _let_20) (= _let_14 (tptp.fn_nucleoside_triphosphate_28 X)) (= _let_75 (tptp.fn_nucleoside_triphosphate_16 X)) (= _let_74 (tptp.fn_nucleoside_triphosphate_1 X)) (= _let_1 (tptp.fn_nucleoside_triphosphate_35 X)) (= _let_54 _let_13) (= _let_59 _let_23) (= _let_72 _let_44) (= _let_53 _let_13) (= _let_32 _let_3) (= _let_61 _let_26) (= _let_73 _let_47) (= _let_50 _let_3) (= _let_51 _let_7) (= _let_66 _let_40) (= _let_58 _let_7) (= _let_51 _let_6) (= _let_58 _let_21) (= _let_72 _let_45) (= _let_73 _let_48) (= _let_73 _let_46) (= _let_72 _let_43) (= _let_71 _let_46) (= _let_57 _let_20) (= _let_70 _let_41) (= _let_69 (tptp.fn_nucleoside_triphosphate_24 X)) (= _let_65 _let_29) (= _let_68 (tptp.fn_nucleoside_triphosphate_17 X)) (= _let_67 _let_7) (= _let_51 _let_5) (= _let_67 _let_6) (= _let_52 _let_11) (= _let_66 _let_39) (= _let_67 _let_21) (= _let_66 _let_38) (= _let_57 _let_19) (= _let_52 _let_10) (= _let_65 _let_28) (= _let_61 _let_29) (= _let_64 _let_19) (= _let_63 _let_31) (= _let_62 _let_30) (= _let_61 _let_28) (= _let_60 _let_25) (= _let_59 _let_16) (= _let_58 _let_4) (= _let_57 _let_18) (= _let_56 _let_55) (= _let_54 _let_16) (= _let_53 _let_12) (= _let_52 _let_9) (= _let_51 _let_4) (= _let_50 _let_2) (= _let_49 _let_49) (= _let_49 _let_2) (= _let_3 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_4) (= _let_4 _let_7) (= _let_6 _let_21) (= _let_4 _let_6) (= _let_6 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_29) (= _let_28 _let_35) (= _let_35 _let_20) (= _let_19 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_27) (= _let_27 _let_27) (= _let_27 _let_30) (= _let_30 _let_30) (= _let_30 _let_26) (= _let_29 _let_26) (= _let_26 _let_29) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_16) (= _let_16 _let_22) (= _let_22 _let_7) (= _let_21 _let_7) (= _let_7 _let_21) (= _let_21 _let_21) (= _let_21 _let_4) (= _let_4 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_12) (= _let_12 _let_13) (= _let_13 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gtpase_6 X))) (let ((_let_2 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_3 (tptp.fn_gtpase_8 X))) (let ((_let_4 (tptp.fn_gtp_20 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_6 (tptp.fn_gtp_17 _let_3))) (let ((_let_7 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_8 (tptp.fn_gtp_21 _let_3))) (let ((_let_9 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_10 (tptp.fn_gtp_19 _let_3))) (let ((_let_11 (tptp.fn_functional_group_1 _let_1))) (let ((_let_12 (tptp.fn_gtpase_9 X))) (let ((_let_13 (tptp.fn_dephosphorylation_11 _let_12))) (let ((_let_14 (tptp.fn_decomposition_reaction_4 _let_12))) (let ((_let_15 (tptp.fn_decomposition_reaction_2 _let_12))) (let ((_let_16 (tptp.fn_gtpase_3 X))) (let ((_let_17 (tptp.fn_gtpase_5 X))) (let ((_let_18 (tptp.fn_gtpase_4 X))) (let ((_let_19 (tptp.fn_gtpase_2 X))) (let ((_let_20 (tptp.fn_gtp_18 _let_3))) (let ((_let_21 (tptp.fn_gtpase_7 X))) (let ((_let_22 (tptp.fn_gtpase_1 X))) (=> (tptp.gtpase_1 X) (and (tptp.original_name_2 X |tptp.'GTPase'|) (tptp.user_description_2 X |tptp.'Enzymes which catalyze the hydrolysis of guanine triphosphate to guanine diphosphate.'|) (tptp.concept2words_2 X tptp.gtpase) (tptp.phosphatase_1 X) (tptp.hydrophobic_region_1 _let_22) (tptp.chemical_bond_1 _let_19) (tptp.covalent_bond_1 _let_19) (tptp.double_bond_1 _let_19) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.tangible_entity_1 _let_18) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.phosphorus_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.functional_group_1 _let_1) (tptp.phosphate_group_1 _let_1) (tptp.gdp_1 _let_21) (tptp.molecule_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.gtp_1 _let_3) (tptp.decomposition_reaction_1 _let_12) (tptp.dephosphorylation_1 _let_12) (tptp.phosphate_group_1 _let_20) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.molecule_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.organic_molecule_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.chemical_bond_1 _let_10) (tptp.double_bond_1 _let_10) (tptp.covalent_bond_1 _let_10) (tptp.double_bond_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.phosphorus_1 _let_8) (tptp.phosphorus_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.oxygen_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.oxygen_1 _let_4) (tptp.oxygen_1 _let_2) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.has_state_2 _let_16 _let_21) (tptp.has_region_2 X _let_22) (tptp.result_2 _let_12 _let_21) (tptp.raw_material_2 _let_12 _let_3) (tptp.has_function_2 X _let_12) (tptp.has_part_2 _let_3 _let_17) (tptp.has_part_2 _let_3 _let_18) (tptp.has_region_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_16) (tptp.possesses_2 _let_3 _let_19) (tptp.is_between_2 _let_19 _let_16) (tptp.is_inside_2 _let_17 _let_1) (tptp.is_inside_2 _let_18 _let_1) (tptp.is_between_2 _let_19 _let_18) (not (= _let_18 _let_17)) (not (= _let_17 _let_18)) (tptp.is_inside_2 _let_16 _let_1) (not (= _let_17 _let_16)) (not (= _let_16 _let_17)) (not (= _let_18 _let_16)) (not (= _let_16 _let_18)) (= _let_21 _let_15) (= _let_21 _let_14) (= _let_3 _let_13) (= _let_12 (tptp.fn_phosphatase_6 X)) (= _let_17 _let_6) (= _let_18 _let_8) (= _let_3 _let_11) (= _let_1 _let_20) (= _let_16 _let_4) (= _let_19 _let_10) (= _let_19 _let_9) (= _let_18 _let_7) (= _let_17 _let_5) (= _let_16 _let_2) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_1 X))) (let ((_let_2 (tptp.fn_cytosine_1 _let_1))) (=> (tptp.guanine_1 X) (and (tptp.original_name_2 X |tptp.'Guanine'|) (tptp.user_description_2 X |tptp.'One of the five most common nitrogenous bases which make up nucleotide monomers of nucleic acids. Guanine is present in both DNA and RNA.'|) (tptp.concept2words_2 X tptp.guanine) (tptp.purine_1 X) (not (tptp.adenine_1 X)) (tptp.cytosine_1 _let_1) (tptp.guanine_1 _let_2) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_1 X) (= X _let_2) (= _let_2 _let_2)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_dna_1 X) (tptp.guanine_1 X) (tptp.dna_strand_1 X1)) (and (tptp.guanine_at_dna_strand_1 X) (= (tptp.fn_guanine_at_dna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_dna_strand_2 X))) (=> (tptp.guanine_at_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine(G) is a nucleobase (a purine derivative) which is present at DNA.'|) (tptp.concept2words_2 X |tptp.'guanine at dna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-dna-strand'|) (tptp.guanine_1 X) (tptp.nitrogenous_base_present_in_dna_1 X) (not (tptp.guanine_at_rna_strand_1 X)) (not (tptp.adenine_at_dna_strand_1 X)) (not (tptp.cytosine_at_dna_strand_1 X)) (not (tptp.thymine_1 X)) (tptp.dna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_dna_2 X)))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.guanine_at_dna_strand_1 X) (tptp.dna_strand_1 X1) (tptp.dna_strand_1 X2)) (and (tptp.guanine_at_dna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_4 X) X1) (= (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_3 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_2 X))) (let ((_let_2 (tptp.fn_cytosine_at_dna_strand_2 _let_1))) (let ((_let_3 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_3 X))) (let ((_let_4 (tptp.fn_guanine_at_dna_strand_opposite_to_dna_strand_4 X))) (let ((_let_5 (tptp.fn_cytosine_1 _let_1))) (=> (tptp.guanine_at_dna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-DNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine is a nitrogenous base which is present at DNA strand and is present opposite to other DNA strand having Cytosine.'|) (tptp.concept2words_2 X |tptp.'guanine at dna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-dna-strand-opposite-to-dna-strand'|) (tptp.guanine_at_dna_strand_1 X) (tptp.cytosine_at_dna_strand_opposite_to_dna_strand_1 _let_1) (tptp.dna_strand_1 _let_3) (tptp.dna_strand_1 _let_4) (tptp.guanine_1 _let_5) (tptp.dna_strand_1 _let_2) (tptp.complement_2 _let_3 _let_4) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_4 _let_3) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 _let_1 X) (tptp.complement_2 X _let_1) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_1 (tptp.fn_guanine_1 X)) (= X _let_5) (= _let_4 (tptp.fn_guanine_at_dna_strand_2 X)) (= _let_3 _let_2))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.guanine_at_dna_strand_1 X) (tptp.dna_strand_1 X1) (tptp.rna_strand_1 X2)) (and (tptp.guanine_at_dna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_guanine_at_dna_strand_opposite_to_rna_strand_3 X) X2) (= (tptp.fn_guanine_at_dna_strand_opposite_to_rna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_dna_strand_opposite_to_rna_strand_4 X))) (let ((_let_2 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_10 _let_1))) (let ((_let_3 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_2 _let_1))) (let ((_let_4 (tptp.fn_guanine_at_dna_strand_opposite_to_rna_strand_2 X))) (let ((_let_5 (tptp.fn_cytosine_at_rna_strand_opposite_to_dna_strand_11 _let_1))) (let ((_let_6 (tptp.fn_guanine_at_dna_strand_opposite_to_rna_strand_3 X))) (=> (tptp.guanine_at_dna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-DNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine is a nitrogenous base which is present at DNA strand and is present opposite to RNA strand having Cytosine.'|) (tptp.concept2words_2 X |tptp.'guanine at dna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-dna-strand-opposite-to-rna-strand'|) (tptp.guanine_at_dna_strand_1 X) (tptp.dna_strand_1 _let_4) (tptp.nucleic_acid_1 _let_6) (tptp.organic_molecule_1 _let_6) (tptp.rna_strand_1 _let_6) (tptp.cytosine_at_rna_strand_opposite_to_dna_strand_1 _let_1) (tptp.nucleic_acid_1 _let_5) (tptp.organic_molecule_1 _let_5) (tptp.rna_strand_1 _let_5) (tptp.dna_strand_1 _let_3) (tptp.guanine_at_dna_strand_opposite_to_rna_strand_1 _let_2) (tptp.is_at_2 _let_1 _let_6) (tptp.complement_2 _let_1 X) (tptp.is_at_2 X _let_4) (tptp.complement_2 _let_4 _let_6) (tptp.complement_2 X _let_1) (tptp.is_opposite_2 _let_6 _let_4) (tptp.is_opposite_2 _let_4 _let_6) (tptp.complement_2 _let_6 _let_4) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.nitrogenous_base_present_in_rna_1 X) (tptp.guanine_1 X) (tptp.rna_strand_1 X1)) (and (tptp.guanine_at_rna_strand_1 X) (= (tptp.fn_guanine_at_rna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_rna_strand_2 X))) (=> (tptp.guanine_at_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine(G) is a nucleobase (a purine derivative) which is present at RNA.'|) (tptp.concept2words_2 X |tptp.'guanine at rna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-rna-strand'|) (tptp.guanine_1 X) (tptp.nitrogenous_base_present_in_rna_1 X) (not (tptp.guanine_at_dna_strand_1 X)) (not (tptp.adenine_at_rna_strand_1 X)) (not (tptp.cytosine_at_rna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_dna_strand_1 X)) (not (tptp.uracil_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.rna_strand_1 _let_1) (tptp.is_at_2 X _let_1) (= _let_1 (tptp.fn_nitrogenous_base_present_in_rna_2 X)))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.guanine_at_rna_strand_1 X) (tptp.rna_strand_1 X1) (tptp.dna_strand_1 X2)) (and (tptp.guanine_at_rna_strand_opposite_to_dna_strand_1 X) (= (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_3 X) X2) (= (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_4 X))) (let ((_let_2 (tptp.fn_cytosine_at_dna_strand_2 _let_1))) (let ((_let_3 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_3 X))) (let ((_let_4 (tptp.fn_guanine_at_rna_strand_opposite_to_dna_strand_2 X))) (let ((_let_5 (tptp.fn_cytosine_1 _let_1))) (=> (tptp.guanine_at_rna_strand_opposite_to_dna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-RNA-Strand-Opposite-To-DNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine is a nitrogenous base which is present at RNA strand and is present opposite to other DNA strand having Cytosine.'|) (tptp.concept2words_2 X |tptp.'guanine at rna strand opposite to dna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-rna-strand-opposite-to-dna-strand'|) (tptp.guanine_at_rna_strand_1 X) (not (tptp.guanine_at_rna_strand_opposite_to_rna_strand_1 X)) (tptp.rna_strand_1 _let_4) (tptp.dna_strand_1 _let_3) (tptp.cytosine_at_dna_strand_opposite_to_rna_strand_1 _let_1) (tptp.guanine_1 _let_5) (tptp.dna_strand_1 _let_2) (tptp.complement_2 _let_4 _let_3) (tptp.is_opposite_2 _let_4 _let_3) (tptp.complement_2 _let_3 _let_4) (tptp.is_opposite_2 _let_3 _let_4) (tptp.complement_2 _let_1 X) (tptp.complement_2 X _let_1) (tptp.is_at_2 X _let_4) (tptp.is_at_2 _let_1 _let_3) (= _let_1 (tptp.fn_guanine_1 X)) (= X _let_5) (= _let_4 (tptp.fn_guanine_at_rna_strand_2 X)) (= _let_3 _let_2))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.is_opposite_2 X1 X2) (tptp.guanine_at_rna_strand_1 X) (tptp.rna_strand_1 X1) (tptp.rna_strand_1 X2)) (and (tptp.guanine_at_rna_strand_opposite_to_rna_strand_1 X) (= (tptp.fn_guanine_at_rna_strand_opposite_to_rna_strand_3 X) X2) (= (tptp.fn_guanine_at_rna_strand_opposite_to_rna_strand_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guanine_at_rna_strand_opposite_to_rna_strand_2 X))) (let ((_let_2 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_4 _let_1))) (let ((_let_3 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_3 _let_1))) (let ((_let_4 (tptp.fn_guanine_at_rna_strand_opposite_to_rna_strand_4 X))) (let ((_let_5 (tptp.fn_cytosine_at_rna_strand_opposite_to_rna_strand_2 _let_1))) (let ((_let_6 (tptp.fn_guanine_at_rna_strand_opposite_to_rna_strand_3 X))) (=> (tptp.guanine_at_rna_strand_opposite_to_rna_strand_1 X) (and (tptp.original_name_2 X |tptp.'Guanine-At-RNA-Strand-Opposite-To-RNA-Strand'|) (tptp.user_description_2 X |tptp.'Guanine is a nitrogenous base which is present at RNA strand and is present opposite to other RNA strand having Cytosine.'|) (tptp.concept2words_2 X |tptp.'guanine at rna strand opposite to rna strand'|) (tptp.concept2words_2 X |tptp.'guanine-at-rna-strand-opposite-to-rna-strand'|) (tptp.guanine_at_rna_strand_1 X) (not (tptp.guanine_at_rna_strand_opposite_to_dna_strand_1 X)) (tptp.cytosine_at_rna_strand_opposite_to_rna_strand_1 _let_1) (tptp.rna_strand_1 _let_6) (tptp.rna_strand_1 _let_4) (tptp.rna_strand_1 _let_5) (tptp.rna_strand_1 _let_3) (tptp.guanine_at_rna_strand_opposite_to_rna_strand_1 _let_2) (tptp.is_at_2 _let_1 _let_6) (tptp.complement_2 _let_1 X) (tptp.is_at_2 X _let_4) (tptp.is_opposite_2 _let_4 _let_6) (tptp.complement_2 X _let_1) (tptp.complement_2 _let_6 _let_4) (tptp.complement_2 _let_4 _let_6) (tptp.is_opposite_2 _let_6 _let_4) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guard_cell_18 X))) (let ((_let_2 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_1))) (let ((_let_3 (tptp.fn_plant_cell_83 X))) (let ((_let_4 (tptp.fn_eukaryotic_cell_31 X))) (let ((_let_5 (tptp.fn_plant_cell_91 X))) (let ((_let_6 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_7 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_8 (tptp.fn_plant_cell_63 X))) (let ((_let_9 (tptp.fn_eukaryotic_cell_23 X))) (let ((_let_10 (tptp.fn_plant_cell_84 X))) (let ((_let_11 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_12 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_1))) (let ((_let_13 (tptp.fn_plant_cell_58 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_45 X))) (let ((_let_15 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_1))) (let ((_let_16 (tptp.fn_plant_cell_90 X))) (let ((_let_17 (tptp.fn_eukaryotic_cell_19 X))) (let ((_let_18 (tptp.fn_plant_cell_100 X))) (let ((_let_19 (tptp.fn_eukaryotic_cell_24 X))) (let ((_let_20 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_1))) (let ((_let_21 (tptp.fn_plant_cell_77 X))) (let ((_let_22 (tptp.fn_eukaryotic_cell_20 X))) (let ((_let_23 (tptp.fn_plant_cell_76 X))) (let ((_let_24 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_1))) (let ((_let_25 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_1))) (let ((_let_26 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_27 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_28 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_29 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_30 (tptp.fn_plant_cell_92 X))) (let ((_let_31 (tptp.fn_smooth_endoplasmic_reticulum_37 _let_1))) (let ((_let_32 (tptp.fn_smooth_endoplasmic_reticulum_50 _let_1))) (let ((_let_33 (tptp.fn_guard_cell_13 X))) (let ((_let_34 (tptp.fn_guard_cell_14 X))) (let ((_let_35 (tptp.fn_guard_cell_12 X))) (let ((_let_36 (tptp.fn_guard_cell_40 X))) (let ((_let_37 (tptp.fn_guard_cell_39 X))) (let ((_let_38 (tptp.fn_guard_cell_38 X))) (let ((_let_39 (tptp.fn_guard_cell_20 X))) (let ((_let_40 (tptp.fn_guard_cell_21 X))) (let ((_let_41 (tptp.fn_guard_cell_6 X))) (let ((_let_42 (tptp.fn_guard_cell_35 X))) (let ((_let_43 (tptp.fn_guard_cell_23 X))) (let ((_let_44 (tptp.fn_guard_cell_11 X))) (let ((_let_45 (tptp.fn_guard_cell_41 X))) (let ((_let_46 (tptp.fn_guard_cell_9 X))) (let ((_let_47 (tptp.fn_guard_cell_28 X))) (let ((_let_48 (tptp.fn_guard_cell_7 X))) (let ((_let_49 (tptp.fn_guard_cell_22 X))) (let ((_let_50 (tptp.fn_guard_cell_31 X))) (let ((_let_51 (tptp.fn_guard_cell_24 X))) (let ((_let_52 (tptp.fn_guard_cell_43 X))) (let ((_let_53 (tptp.fn_guard_cell_42 X))) (let ((_let_54 (tptp.fn_guard_cell_45 X))) (let ((_let_55 (tptp.fn_guard_cell_8 X))) (let ((_let_56 (tptp.fn_guard_cell_26 X))) (let ((_let_57 (tptp.fn_guard_cell_44 X))) (let ((_let_58 (tptp.fn_guard_cell_46 X))) (let ((_let_59 (tptp.fn_guard_cell_10 X))) (let ((_let_60 (tptp.fn_guard_cell_27 X))) (let ((_let_61 (tptp.fn_guard_cell_19 X))) (let ((_let_62 (tptp.fn_guard_cell_17 X))) (let ((_let_63 (tptp.fn_guard_cell_34 X))) (let ((_let_64 (tptp.fn_guard_cell_16 X))) (let ((_let_65 (tptp.fn_guard_cell_33 X))) (let ((_let_66 (tptp.fn_guard_cell_32 X))) (let ((_let_67 (tptp.fn_guard_cell_29 X))) (let ((_let_68 (tptp.fn_guard_cell_25 X))) (let ((_let_69 (tptp.fn_guard_cell_15 X))) (let ((_let_70 (tptp.fn_guard_cell_30 X))) (let ((_let_71 (tptp.fn_guard_cell_2 X))) (let ((_let_72 (tptp.fn_guard_cell_5 X))) (let ((_let_73 (tptp.fn_guard_cell_4 X))) (let ((_let_74 (tptp.fn_guard_cell_3 X))) (=> (tptp.guard_cell_1 X) (and (tptp.original_name_2 X |tptp.'Guard-Cell'|) (tptp.user_description_2 X |tptp.'In plants, one of two cells that surround a stoma and control the opening and closing of the stoma.'|) (tptp.concept2words_2 X |tptp.'guard cells'|) (tptp.concept2words_2 X |tptp.'guard-cells'|) (tptp.concept2words_2 X |tptp.'cell of guard'|) (tptp.concept2words_2 X |tptp.'guard cell'|) (tptp.concept2words_2 X |tptp.'guard-cell'|) (tptp.plant_transport_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.collenchyma_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.parenchyma_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X)) (tptp.angle_value_1 _let_71) (tptp.potassium_ion_1 _let_74) (tptp.region_1 _let_73) (tptp.potassium_ion_1 _let_72) (tptp.cytoplasmic_streaming_1 _let_41) (tptp.maintenance_1 _let_48) (tptp.support_1 _let_55) (tptp.chemical_reaction_1 _let_46) (tptp.oxidative_phosphorylation_1 _let_46) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_46) (tptp.ribosome_1 _let_59) (tptp.eukaryotic_ribosome_1 _let_59) (tptp.aqueous_solution_1 _let_44) (tptp.liquid_substance_1 _let_44) (tptp.solution_1 _let_44) (tptp.substance_1 _let_44) (tptp.cytosol_1 _let_44) (tptp.membrane_1 _let_35) (tptp.spatial_entity_1 _let_35) (tptp.biomembrane_1 _let_35) (tptp.plasma_membrane_1 _let_35) (tptp.surface_1 _let_33) (tptp.tangible_entity_1 _let_34) (tptp.phospholipid_bilayer_1 _let_34) (tptp.tangible_entity_1 _let_69) (tptp.microfibril_1 _let_69) (tptp.eukaryotic_chromosome_1 _let_64) (tptp.chromosome_1 _let_64) (tptp.golgi_apparatus_1 _let_62) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.rough_endoplasmic_reticulum_1 _let_61) (tptp.endoplasmic_reticulum_1 _let_61) (tptp.spatial_entity_1 _let_39) (tptp.vesicle_1 _let_39) (tptp.central_vacuole_1 _let_39) (tptp.spatial_entity_1 _let_40) (tptp.vacuole_1 _let_40) (tptp.central_vacuole_1 _let_40) (tptp.cell_wall_1 _let_49) (tptp.plant_cell_wall_1 _let_49) (tptp.spatial_entity_1 _let_43) (tptp.mixture_1 _let_43) (tptp.suspension_1 _let_43) (tptp.colloid_1 _let_43) (tptp.cytoplasm_1 _let_43) (tptp.tangible_entity_1 _let_51) (tptp.nucleus_1 _let_51) (tptp.synthesis_reaction_1 _let_68) (tptp.metabolic_pathway_1 _let_68) (tptp.chemical_reaction_1 _let_68) (tptp.anabolic_pathway_1 _let_68) (tptp.synthesis_of_lipid_1 _let_68) (tptp.protein_enzyme_1 _let_56) (tptp.protein_enzyme_1 _let_60) (tptp.metabolic_pathway_1 _let_47) (tptp.eukaryotic_cellular_respiration_1 _let_47) (tptp.exchange_1 _let_67) (tptp.enzyme_1 _let_70) (tptp.protein_enzyme_1 _let_70) (tptp.defense_1 _let_50) (tptp.size_value_1 _let_66) (tptp.volume_value_1 _let_65) (tptp.peroxisome_1 _let_63) (tptp.cytoskeleton_1 _let_42) (tptp.absorb_1 _let_38) (tptp.grow_1 _let_37) (tptp.cellular_work_1 _let_36) (tptp.organelle_1 _let_45) (tptp.mitochondrion_1 _let_45) (tptp.semiautonomous_organelle_1 _let_45) (tptp.dna_polymerase_iii_1 _let_53) (tptp.dna_replication_in_eukaryotes_1 _let_52) (tptp.spatial_entity_1 _let_57) (tptp.biomembrane_1 _let_57) (tptp.nuclear_membrane_1 _let_57) (tptp.aqueous_solution_1 _let_54) (tptp.nuclear_lamina_1 _let_58) (tptp.protein_enzyme_1 _let_32) (tptp.enzyme_1 _let_32) (tptp.protein_enzyme_1 _let_31) (tptp.enzyme_1 _let_31) (tptp.synthesis_reaction_1 _let_29) (tptp.synthesis_reaction_1 _let_28) (tptp.chemical_reaction_1 _let_27) (tptp.synthesis_of_lipid_1 _let_27) (tptp.chemical_reaction_1 _let_26) (tptp.synthesis_of_lipid_1 _let_26) (tptp.anabolic_pathway_1 _let_26) (tptp.synthesis_of_lipid_1 _let_25) (tptp.synthesis_of_lipid_1 _let_24) (tptp.golgi_apparatus_1 _let_20) (tptp.eukaryotic_ribosome_1 _let_15) (tptp.nucleus_1 _let_12) (tptp.substance_1 _let_7) (tptp.cytosol_1 _let_7) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (not (= _let_70 _let_56)) (tptp.site_2 _let_47 _let_43) (not (= _let_56 _let_70)) (tptp.has_part_2 _let_40 _let_74) (tptp.has_region_2 _let_39 _let_73) (tptp.has_part_2 _let_39 _let_72) (tptp.orientation_2 _let_69 _let_71) (tptp.has_part_2 _let_1 _let_70) (tptp.subevent_2 _let_47 _let_46) (not (= _let_70 _let_60)) (not (= _let_60 _let_70)) (tptp.is_inside_2 _let_43 _let_35) (tptp.agent_2 _let_50 _let_49) (tptp.has_part_2 _let_49 _let_69) (tptp.the_scalar_value_2 _let_66 tptp.big_0) (tptp.scalar_unit_class_2 _let_66 tptp.prokaryote_0) (tptp.has_function_2 _let_49 _let_55) (tptp.has_part_2 X _let_62) (tptp.has_part_2 X _let_39) (tptp.base_2 _let_36 X) (tptp.abuts_2 _let_61 _let_1) (tptp.abuts_2 _let_1 _let_61) (not (= _let_61 _let_1)) (not (= _let_1 _let_61)) (tptp.agent_2 _let_67 X) (tptp.base_2 _let_67 X) (tptp.base_2 _let_68 X) (tptp.site_2 _let_68 _let_1) (tptp.has_function_2 _let_1 _let_68) (tptp.volume_2 X _let_65) (tptp.directly_proportional_2 _let_66 _let_65) (tptp.size_2 X _let_66) (tptp.has_part_2 X _let_45) (tptp.has_function_2 _let_45 _let_47) (tptp.is_inside_2 _let_42 _let_44) (tptp.has_part_2 X _let_42) (tptp.has_part_2 X _let_64) (tptp.is_inside_2 _let_64 _let_51) (tptp.is_between_2 _let_43 _let_51) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_1 _let_44) (tptp.is_inside_2 _let_63 _let_44) (tptp.has_part_2 X _let_63) (tptp.has_part_2 X _let_49) (tptp.agent_2 _let_38 _let_40) (tptp.has_part_2 X _let_40) (tptp.has_part_2 X _let_61) (tptp.is_inside_2 _let_61 _let_44) (tptp.is_inside_2 _let_62 _let_44) (tptp.is_inside_2 _let_59 _let_44) (tptp.has_part_2 X _let_59) (tptp.has_part_2 X _let_43) (tptp.has_part_2 _let_43 _let_60) (not (= _let_60 _let_56)) (not (= _let_56 _let_60)) (tptp.is_between_2 _let_57 _let_54) (tptp.has_part_2 _let_51 _let_57) (tptp.has_part_2 _let_51 _let_58) (tptp.is_along_2 _let_58 _let_57) (tptp.is_along_2 _let_57 _let_58) (tptp.object_2 _let_55 X) (tptp.agent_2 _let_55 _let_49) (tptp.is_outside_2 _let_49 _let_35) (tptp.is_between_2 _let_43 _let_35) (tptp.has_part_2 _let_43 _let_56) (tptp.site_2 _let_52 _let_51) (tptp.agent_2 _let_52 _let_53) (tptp.is_inside_2 _let_53 _let_54) (tptp.has_part_2 _let_51 _let_54) (tptp.is_inside_2 _let_51 _let_44) (tptp.object_2 _let_48 X) (tptp.agent_2 _let_48 _let_49) (tptp.has_function_2 _let_49 _let_50) (tptp.object_2 _let_50 X) (tptp.has_part_2 X _let_51) (tptp.is_inside_2 _let_45 _let_44) (tptp.has_function_2 _let_45 _let_46) (tptp.base_2 _let_46 X) (tptp.has_function_2 X _let_47) (tptp.base_2 _let_47 X) (tptp.base_2 _let_41 X) (tptp.agent_2 _let_41 _let_42) (tptp.has_function_2 _let_42 _let_41) (tptp.object_2 _let_41 _let_43) (tptp.has_part_2 _let_43 _let_44) (tptp.object_2 _let_37 X) (tptp.causes_2 _let_38 _let_37) (tptp.agent_2 _let_38 _let_39) (not (= _let_40 _let_39)) (not (= _let_39 _let_40)) (tptp.has_region_2 X _let_33) (tptp.is_at_2 _let_34 _let_33) (tptp.has_part_2 _let_35 _let_34) (tptp.has_part_2 X _let_35) (tptp.has_function_2 X _let_36) (= _let_70 _let_32) (= _let_70 _let_31) (= _let_70 _let_30) (= _let_69 (tptp.fn_plant_cell_23 X)) (= (tptp.fn_guard_cell_36 X) (tptp.fn_plant_cell_57 X)) (= (tptp.fn_guard_cell_37 X) (tptp.fn_plant_cell_56 X)) (= _let_68 _let_29) (= _let_68 _let_28) (= _let_68 _let_27) (= _let_68 _let_26) (= _let_68 _let_25) (= _let_68 _let_24) (= _let_68 _let_23) (= _let_67 (tptp.fn_plant_cell_71 X)) (= _let_66 (tptp.fn_plant_cell_62 X)) (= _let_65 (tptp.fn_plant_cell_60 X)) (= _let_64 (tptp.fn_plant_cell_95 X)) (= _let_63 (tptp.fn_plant_cell_93 X)) (= _let_1 _let_22) (= _let_1 _let_21) (= _let_62 _let_20) (= _let_62 _let_19) (= _let_62 _let_18) (= _let_61 _let_17) (= _let_61 _let_16) (= _let_60 (tptp.fn_plant_cell_11 X)) (= _let_59 _let_15) (= _let_59 _let_14) (= _let_59 _let_13) (= _let_58 (tptp.fn_plant_cell_16 X)) (= _let_57 (tptp.fn_plant_cell_75 X)) (= _let_56 _let_30) (= _let_55 (tptp.fn_plant_cell_21 X)) (= _let_44 _let_7) (= _let_54 (tptp.fn_plant_cell_17 X)) (= _let_53 (tptp.fn_plant_cell_19 X)) (= _let_52 (tptp.fn_plant_cell_18 X)) (= X _let_2) (= _let_51 _let_12) (= _let_51 _let_11) (= _let_51 _let_10) (= _let_50 (tptp.fn_plant_cell_78 X)) (= _let_49 (tptp.fn_plant_cell_82 X)) (= _let_48 (tptp.fn_plant_cell_1 X)) (= _let_47 _let_9) (= _let_47 _let_8) (= _let_46 (tptp.fn_plant_cell_80 X)) (= _let_45 (tptp.fn_plant_cell_59 X)) (= _let_43 _let_4) (= _let_44 _let_6) (= _let_44 _let_5) (= _let_43 _let_3) (= _let_42 (tptp.fn_plant_cell_94 X)) (= _let_41 (tptp.fn_plant_cell_89 X)) (= _let_40 (tptp.fn_plant_cell_81 X)) (= _let_39 (tptp.fn_plant_cell_87 X)) (= _let_38 (tptp.fn_plant_cell_27 X)) (= _let_37 (tptp.fn_plant_cell_24 X)) (= _let_36 (tptp.fn_plant_cell_15 X)) (= _let_35 (tptp.fn_plant_cell_97 X)) (= _let_34 (tptp.fn_plant_cell_65 X)) (= _let_33 (tptp.fn_plant_cell_61 X)) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gustation_1 X) (and (tptp.original_name_2 X |tptp.'Gustation'|) (tptp.user_description_2 X |tptp.'The process of interpreting information from the effects of chemicals interacting with chemorecetpors in the tongue.'|) (tptp.concept2words_2 X tptp.taste) (tptp.concept2words_2 X tptp.gustation) (tptp.sensory_process_1 X) (not (tptp.color_vision_1 X)) (not (tptp.de_etiolation_1 X)) (not (tptp.lateral_line_system_1 X)) (not (tptp.olfaction_1 X)) (not (tptp.sight_1 X)) (not (tptp.touch_1 X))))) (forall ((X $$unsorted)) (=> (tptp.gustatory_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Gustatory-Receptor'|) (tptp.user_description_2 X |tptp.'A type of chemoreceptor that responds to categories of related chemicals.'|) (tptp.concept2words_2 X |tptp.'gustatory receptor'|) (tptp.concept2words_2 X |tptp.'gustatory-receptor'|) (tptp.chemoreceptor_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_guttation_6 X))) (let ((_let_2 (tptp.fn_shoot_2 _let_1))) (let ((_let_3 (tptp.fn_guttation_4 X))) (let ((_let_4 (tptp.fn_move_out_of_1 _let_3))) (let ((_let_5 (tptp.fn_guttation_5 X))) (let ((_let_6 (tptp.fn_leaf_41 _let_5))) (let ((_let_7 (tptp.fn_guttation_3 X))) (let ((_let_8 (tptp.fn_guttation_2 X))) (let ((_let_9 (tptp.fn_vascular_plant_26 _let_8))) (let ((_let_10 (tptp.fn_guttation_1 X))) (=> (tptp.guttation_1 X) (and (tptp.original_name_2 X |tptp.'Guttation'|) (tptp.user_description_2 X |tptp.'The exudation of water droplets, caused by root pressure in certain plants.'|) (tptp.concept2words_2 X tptp.guttation) (tptp.plant_transport_1 X) (tptp.tip_1 _let_10) (tptp.vascular_plant_1 _let_8) (tptp.atmosphere_1 _let_7) (tptp.move_out_of_1 _let_3) (tptp.tangible_entity_1 _let_5) (tptp.leaf_1 _let_5) (tptp.shoot_1 _let_1) (tptp.shoot_1 _let_9) (tptp.atmosphere_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.leaf_1 _let_2) (tptp.destination_2 _let_3 _let_7) (tptp.origin_2 _let_3 _let_10) (tptp.is_inside_2 _let_10 _let_5) (tptp.has_region_2 _let_5 _let_10) (tptp.subevent_2 X _let_3) (tptp.base_2 _let_3 _let_5) (tptp.has_part_2 _let_8 _let_1) (tptp.is_outside_2 _let_7 _let_5) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_1 _let_9) (= _let_7 _let_6) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.gymnamoeba_1 X) (and (tptp.original_name_2 X |tptp.'Gymnamoeba'|) (tptp.user_description_2 X |tptp.'A phylum of the kingdom Amoebozoa.'|) (tptp.concept2words_2 X tptp.gymnamoeba) (tptp.amoeba_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gymnosperm_13 X))) (let ((_let_2 (tptp.fn_root_30 _let_1))) (let ((_let_3 (tptp.fn_root_27 _let_1))) (let ((_let_4 (tptp.fn_gymnosperm_10 X))) (let ((_let_5 (tptp.fn_gymnosperm_9 X))) (let ((_let_6 (tptp.fn_gymnosperm_23 X))) (let ((_let_7 (tptp.fn_gymnosperm_19 X))) (let ((_let_8 (tptp.fn_gymnosperm_22 X))) (let ((_let_9 (tptp.fn_gymnosperm_8 X))) (let ((_let_10 (tptp.fn_gymnosperm_11 X))) (let ((_let_11 (tptp.fn_gymnosperm_4 X))) (let ((_let_12 (tptp.fn_gymnosperm_2 X))) (let ((_let_13 (tptp.fn_gymnosperm_5 X))) (let ((_let_14 (tptp.fn_gymnosperm_20 X))) (let ((_let_15 (tptp.fn_gymnosperm_3 X))) (let ((_let_16 (tptp.fn_gymnosperm_21 X))) (let ((_let_17 (tptp.fn_gymnosperm_12 X))) (let ((_let_18 (tptp.fn_gymnosperm_18 X))) (let ((_let_19 (tptp.fn_root_26 _let_1))) (let ((_let_20 (tptp.fn_gymnosperm_17 X))) (let ((_let_21 (tptp.fn_gymnosperm_15 X))) (let ((_let_22 (tptp.fn_gymnosperm_14 X))) (let ((_let_23 (tptp.fn_support_1 _let_22))) (let ((_let_24 (tptp.fn_gymnosperm_1 X))) (=> (tptp.gymnosperm_1 X) (and (tptp.original_name_2 X |tptp.'Gymnosperm'|) (tptp.user_description_2 X |tptp.'A vascular plant whose seeds are not encased in an ovary.'|) (tptp.concept2words_2 X tptp.gymnosperm) (tptp.seed_plant_1 X) (not (tptp.angiosperm_1 X)) (tptp.root_hair_1 _let_24) (tptp.tuber_1 _let_12) (tptp.shoot_1 _let_15) (tptp.starch_storage_by_plant_1 _let_11) (tptp.store_1 _let_13) (tptp.plant_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.eukaryotic_cell_1 _let_9) (tptp.nutrition_1 _let_5) (tptp.photoautotroph_1 _let_4) (tptp.photosynthesis_1 _let_10) (tptp.anabolic_pathway_1 _let_10) (tptp.metabolic_pathway_1 _let_10) (tptp.seed_1 _let_17) (tptp.taproot_1 _let_1) (tptp.anchor_1 _let_22) (tptp.length_value_1 _let_21) (tptp.plant_cell_1 _let_20) (tptp.tissue_1 _let_18) (tptp.epidermis_1 _let_18) (tptp.specific_heat_value_1 _let_7) (tptp.shoot_system_1 _let_14) (tptp.root_system_1 _let_16) (tptp.temperature_value_1 _let_8) (tptp.water_1 _let_6) (tptp.tangible_entity_1 _let_23) (tptp.plant_cell_1 _let_19) (tptp.tissue_1 _let_3) (tptp.epidermis_1 _let_2) (tptp.is_inside_2 _let_20 _let_24) (tptp.the_scalar_value_2 _let_21 tptp.tall_0) (tptp.scalar_unit_class_2 _let_21 tptp.vascular_plant_0) (tptp.agent_2 _let_22 _let_1) (tptp.has_part_2 _let_1 _let_24) (tptp.object_2 _let_22 X) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_1 _let_16) (tptp.height_2 X _let_21) (tptp.has_part_2 _let_1 _let_18) (tptp.has_part_2 _let_18 _let_20) (tptp.has_region_2 X _let_16) (tptp.has_function_2 X _let_11) (tptp.has_region_2 X _let_14) (tptp.is_inside_2 _let_15 _let_14) (tptp.has_part_2 X _let_15) (tptp.has_function_2 X _let_10) (tptp.by_means_of_2 _let_5 _let_10) (tptp.agent_2 _let_11 X) (tptp.base_2 _let_11 X) (tptp.has_part_2 X _let_12) (tptp.site_2 _let_13 _let_12) (tptp.subevent_2 _let_11 _let_13) (tptp.correspondence_2 _let_8 _let_7) (tptp.temperature_2 X _let_8) (tptp.has_part_2 X _let_9) (tptp.base_2 _let_10 _let_9) (tptp.experiencer_2 _let_10 X) (tptp.plays_2 X _let_4) (tptp.in_event_2 _let_4 _let_5) (tptp.agent_2 _let_5 X) (tptp.has_part_2 X _let_6) (tptp.specific_heat_2 _let_6 _let_7) (= X _let_23) (= _let_1 (tptp.fn_seed_plant_15 X)) (= (tptp.fn_gymnosperm_16 X) (tptp.fn_vascular_plant_7 X)) (= _let_21 (tptp.fn_vascular_plant_8 X)) (= _let_20 _let_19) (= _let_18 _let_3) (= _let_18 _let_2) (= _let_17 (tptp.fn_seed_plant_5 X)) (= _let_16 (tptp.fn_seed_plant_9 X)) (= (tptp.fn_gymnosperm_7 X) (tptp.fn_seed_plant_17 X)) (= (tptp.fn_gymnosperm_6 X) (tptp.fn_seed_plant_16 X)) (= _let_15 (tptp.fn_seed_plant_2 X)) (= _let_14 (tptp.fn_seed_plant_8 X)) (= _let_13 (tptp.fn_seed_plant_4 X)) (= _let_12 (tptp.fn_seed_plant_1 X)) (= _let_11 (tptp.fn_seed_plant_3 X)) (= _let_10 (tptp.fn_seed_plant_7 X)) (= _let_9 (tptp.fn_seed_plant_13 X)) (= _let_8 (tptp.fn_seed_plant_12 X)) (= _let_7 (tptp.fn_seed_plant_6 X)) (= _let_6 (tptp.fn_seed_plant_14 X)) (= _let_5 (tptp.fn_seed_plant_10 X)) (= _let_4 (tptp.fn_seed_plant_11 X)) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_h1_2 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_attach_2 _let_1))) (let ((_let_4 (tptp.fn_h1_1 X))) (=> (tptp.h1_1 X) (and (tptp.original_name_2 X |tptp.'H1'|) (tptp.user_description_2 X |tptp.'Histone that keeps DNA in place as it wraps around the nucleosome.'|) (tptp.concept2words_2 X tptp.h1) (tptp.histone_1 X) (not (tptp.h2a_1 X)) (not (tptp.h2b_1 X)) (not (tptp.h3_1 X)) (not (tptp.h4_1 X)) (tptp.dna_1 _let_4) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.base_2 _let_1 _let_4) (tptp.object_2 _let_1 X) (= _let_4 _let_3) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.h2a_1 X) (and (tptp.original_name_2 X |tptp.'H2A'|) (tptp.user_description_2 X |tptp.'A type of histone.'|) (tptp.concept2words_2 X |tptp.'h2a histone'|) (tptp.concept2words_2 X tptp.h2a) (tptp.histone_1 X) (not (tptp.h1_1 X)) (not (tptp.h2b_1 X)) (not (tptp.h3_1 X)) (not (tptp.h4_1 X))))) (forall ((X $$unsorted)) (=> (tptp.h2b_1 X) (and (tptp.original_name_2 X |tptp.'H2B'|) (tptp.user_description_2 X |tptp.'A type of histone.'|) (tptp.concept2words_2 X |tptp.'h2b histone'|) (tptp.concept2words_2 X tptp.h2b) (tptp.histone_1 X) (not (tptp.h1_1 X)) (not (tptp.h2a_1 X)) (not (tptp.h3_1 X)) (not (tptp.h4_1 X))))) (forall ((X $$unsorted)) (=> (tptp.h3_1 X) (and (tptp.original_name_2 X |tptp.'H3'|) (tptp.user_description_2 X |tptp.'A type of histone.'|) (tptp.concept2words_2 X |tptp.'h3 histone'|) (tptp.concept2words_2 X tptp.h3) (tptp.histone_1 X) (not (tptp.h1_1 X)) (not (tptp.h2a_1 X)) (not (tptp.h2b_1 X)) (not (tptp.h4_1 X))))) (forall ((X $$unsorted)) (=> (tptp.h4_1 X) (and (tptp.original_name_2 X |tptp.'H4'|) (tptp.user_description_2 X |tptp.'A type of histone.'|) (tptp.concept2words_2 X |tptp.'h4 histone'|) (tptp.concept2words_2 X tptp.h4) (tptp.histone_1 X) (not (tptp.h1_1 X)) (not (tptp.h2a_1 X)) (not (tptp.h2b_1 X)) (not (tptp.h3_1 X))))) (forall ((X $$unsorted)) (=> (tptp.habitat_selection_1 X) (and (tptp.original_name_2 X |tptp.'Habitat-Selection'|) (tptp.user_description_2 X |tptp.'The processes by which organisms select the type of habitat to occupy.'|) (tptp.concept2words_2 X |tptp.'selection of habitat'|) (tptp.concept2words_2 X |tptp.'habitat selection'|) (tptp.concept2words_2 X |tptp.'habitat-selection'|) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.habituation_1 X) (and (tptp.original_name_2 X |tptp.'Habituation'|) (tptp.user_description_2 X |tptp.'Diminished response to a stimulus after repeated exposure.'|) (tptp.concept2words_2 X tptp.habituation) (tptp.learning_1 X) (not (tptp.associative_learning_1 X)) (not (tptp.social_learning_1 X)) (not (tptp.spatial_learning_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hafnium_11 X))) (let ((_let_2 (tptp.fn_hafnium_14 X))) (let ((_let_3 (tptp.fn_hafnium_12 X))) (let ((_let_4 (tptp.fn_hafnium_13 X))) (let ((_let_5 (tptp.fn_hafnium_5 X))) (let ((_let_6 (tptp.fn_hafnium_6 X))) (let ((_let_7 (tptp.fn_hafnium_7 X))) (let ((_let_8 (tptp.fn_hafnium_4 X))) (=> (tptp.hafnium_1 X) (and (tptp.original_name_2 X |tptp.'Hafnium'|) (tptp.user_description_2 X |tptp.'Hafnium is a metal atom with atomic number 72. It is represented by the symbol Hf.'|) (tptp.concept2words_2 X tptp.hafnium) (tptp.concept2words_2 X |tptp.'Hf'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"107"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"72"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"72"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"8"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.3"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"4"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"179"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"72"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"178.5"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_hafnium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_hafnium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_hafnium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hagfish_1 X) (and (tptp.original_name_2 X |tptp.'Hagfish'|) (tptp.user_description_2 X |tptp.'Marine animal of the clade Myxini, considered by some researchers not to be vertebrates because they have a skull but lack a vertebral column.'|) (tptp.concept2words_2 X tptp.hagfish) (tptp.craniate_1 X) (not (tptp.lamprey_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hair_1 X))) (=> (tptp.hair_1 X) (and (tptp.original_name_2 X |tptp.'Hair'|) (tptp.user_description_2 X |tptp.'Hair is a body covering that grows from the skin of mammals.'|) (tptp.concept2words_2 X tptp.hair) (tptp.fiber_1 X) (tptp.structural_protein_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.hair_cell_1 X) (and (tptp.original_name_2 X |tptp.'Hair-Cell'|) (tptp.user_description_2 X |tptp.'A type of mechanoreceptor found in the vertebrate ear and in the lateral line organs of fishes and amphibians, where they detect movement relative to the environment.'|) (tptp.concept2words_2 X |tptp.'cell of hair'|) (tptp.concept2words_2 X |tptp.'hair cell'|) (tptp.concept2words_2 X |tptp.'hair-cell'|) (tptp.mechanoreceptor_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hallway_1 X) (and (tptp.original_name_2 X |tptp.'Hallway'|) (tptp.concept2words_2 X tptp.hallway) (tptp.room_1 X) (not (tptp.elevator_1 X)) (not (tptp.bathroom_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hand_1 X) (and (tptp.original_name_2 X |tptp.'Hand'|) (tptp.user_description_2 X |tptp.'A hand is a prehensile, multi-fingered extremity located at the end of an arm or forelimb of primates such as humans, chimpanzees, monkeys, and lemurs.'|) (tptp.concept2words_2 X tptp.hand) (tptp.anatomical_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hantavirus_1 X) (and (tptp.original_name_2 X |tptp.'Hantavirus'|) (tptp.user_description_2 X |tptp.'A group of viruses carried by rodents but which can cause disease in humans.'|) (tptp.concept2words_2 X tptp.hantavirus) (tptp.rna_virus_1 X) (not (tptp.ebola_virus_1 X)) (not (tptp.influenza_virus_1 X)) (not (tptp.nipah_virus_1 X)) (not (tptp.retrovirus_1 X)) (not (tptp.rna_virus_class_iv_1 X)) (not (tptp.rna_virus_class_v_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_2 (tptp.fn_haploid_cell_26 X))) (let ((_let_3 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_2))) (let ((_let_4 (tptp.fn_haploid_cell_8 X))) (let ((_let_5 (tptp.fn_haploid_cell_9 X))) (let ((_let_6 (tptp.fn_haploid_cell_3 X))) (let ((_let_7 (tptp.fn_haploid_cell_2 X))) (let ((_let_8 (tptp.fn_haploid_cell_23 X))) (let ((_let_9 (tptp.fn_haploid_cell_22 X))) (let ((_let_10 (tptp.fn_haploid_cell_13 X))) (let ((_let_11 (tptp.fn_haploid_cell_21 X))) (let ((_let_12 (tptp.fn_haploid_cell_14 X))) (let ((_let_13 (tptp.fn_haploid_cell_30 X))) (let ((_let_14 (tptp.fn_haploid_cell_16 X))) (let ((_let_15 (tptp.fn_haploid_cell_12 X))) (let ((_let_16 (tptp.fn_haploid_cell_7 X))) (let ((_let_17 (tptp.fn_haploid_cell_15 X))) (let ((_let_18 (tptp.fn_haploid_cell_19 X))) (let ((_let_19 (tptp.fn_haploid_cell_29 X))) (let ((_let_20 (tptp.fn_haploid_cell_18 X))) (let ((_let_21 (tptp.fn_haploid_cell_24 X))) (let ((_let_22 (tptp.fn_haploid_cell_17 X))) (let ((_let_23 (tptp.fn_haploid_cell_25 X))) (let ((_let_24 (tptp.fn_haploid_cell_28 X))) (let ((_let_25 (tptp.fn_haploid_cell_27 X))) (let ((_let_26 (tptp.fn_haploid_cell_10 X))) (let ((_let_27 (tptp.fn_haploid_number_1 _let_26))) (let ((_let_28 (tptp.fn_mitochondrion_51 _let_10))) (let ((_let_29 (tptp.fn_passive_transport_of_solute_3 _let_2))) (let ((_let_30 (tptp.fn_haploid_cell_20 X))) (=> (tptp.haploid_cell_1 X) (and (tptp.original_name_2 X |tptp.'Haploid-cell'|) (tptp.user_description_2 X |tptp.'The haploid cell is the cell which have half number of chromosomes as present in the normal somatic cells of an organism'|) (tptp.concept2words_2 X |tptp.'n cell'|) (tptp.concept2words_2 X |tptp.'n-cell'|) (tptp.concept2words_2 X |tptp.'cell of haploid'|) (tptp.concept2words_2 X |tptp.'haploid cell'|) (tptp.concept2words_2 X |tptp.'haploid-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.quantity_value_1 _let_7) (tptp.entity_1 _let_6) (tptp.dna_1 _let_6) (tptp.eukaryotic_cellular_respiration_1 _let_16) (tptp.tangible_entity_1 _let_4) (tptp.nucleus_1 _let_4) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.chromosome_1 _let_5) (tptp.haploid_number_1 _let_26) (tptp.smooth_endoplasmic_reticulum_1 _let_15) (tptp.semiautonomous_organelle_1 _let_10) (tptp.mitochondrion_1 _let_10) (tptp.organelle_1 _let_10) (tptp.mixture_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.membrane_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.biomembrane_1 _let_17) (tptp.plasma_membrane_1 _let_17) (tptp.rough_endoplasmic_reticulum_1 _let_14) (tptp.tangible_entity_1 _let_22) (tptp.membrane_protein_1 _let_22) (tptp.protein_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.membrane_protein_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.transmembrane_protein_1 _let_18) (tptp.integral_protein_1 _let_18) (tptp.transport_protein_1 _let_18) (tptp.membrane_potential_1 _let_30) (tptp.substance_1 _let_11) (tptp.cytosol_1 _let_11) (tptp.dna_1 _let_9) (tptp.mitochondrial_dna_1 _let_9) (tptp.quantity_value_1 _let_8) (tptp.surface_1 _let_21) (tptp.ribosome_1 _let_23) (tptp.eukaryotic_ribosome_1 _let_23) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_2) (tptp.size_value_1 _let_25) (tptp.volume_value_1 _let_24) (tptp.golgi_apparatus_1 _let_19) (tptp.cellular_work_1 _let_13) (tptp.gradient_1 _let_29) (tptp.concentration_gradient_1 _let_29) (tptp.eukaryotic_cell_1 _let_28) (tptp.property_node_1 _let_27) (tptp.membrane_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.is_across_2 _let_30 _let_17) (tptp.called_2 _let_22 |tptp.'MP1'|) (tptp.quantity_2 _let_5 _let_26) (tptp.agent_2 _let_2 _let_30) (tptp.path_2 _let_2 _let_17) (tptp.has_part_2 X _let_10) (tptp.the_scalar_value_2 _let_25 tptp.big_0) (tptp.scalar_unit_class_2 _let_25 tptp.prokaryote_0) (tptp.is_inside_2 _let_12 _let_17) (tptp.is_between_2 _let_12 _let_4) (not (= _let_22 _let_18)) (not (= _let_18 _let_22)) (tptp.volume_2 X _let_24) (tptp.directly_proportional_2 _let_25 _let_24) (tptp.size_2 X _let_25) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_23 _let_11) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_15) (not (= _let_14 _let_15)) (not (= _let_15 _let_14)) (tptp.has_region_2 X _let_21) (tptp.is_at_2 _let_20 _let_21) (tptp.is_inside_2 _let_18 _let_20) (tptp.is_at_2 _let_18 _let_17) (tptp.has_part_2 _let_17 _let_22) (tptp.is_inside_2 _let_19 _let_11) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_12) (tptp.is_between_2 _let_12 _let_17) (tptp.has_part_2 _let_17 _let_20) (tptp.base_2 _let_16 X) (tptp.has_function_2 X _let_16) (tptp.has_part_2 X _let_17) (tptp.has_part_2 _let_17 _let_18) (tptp.is_across_2 _let_18 _let_17) (tptp.base_2 _let_13 X) (tptp.has_function_2 X _let_13) (tptp.has_part_2 X _let_14) (tptp.abuts_2 _let_15 _let_14) (tptp.abuts_2 _let_14 _let_15) (tptp.is_inside_2 _let_10 _let_11) (tptp.has_part_2 _let_12 _let_11) (tptp.has_part_2 X _let_4) (tptp.is_inside_2 _let_5 _let_4) (= _let_30 _let_29) (= _let_17 _let_3) (= X _let_28) (= (tptp.fn_haploid_cell_11 X) _let_27) (= (tptp.fn_haploid_cell_5 X) (tptp.fn_eukaryotic_cell_28 X)) (= (tptp.fn_haploid_cell_4 X) (tptp.fn_eukaryotic_cell_60 X)) (= (tptp.fn_haploid_cell_6 X) (tptp.fn_eukaryotic_cell_7 X)) (= (tptp.fn_haploid_cell_1 X) (tptp.fn_eukaryotic_cell_8 X)) (= _let_25 (tptp.fn_eukaryotic_cell_27 X)) (= _let_24 (tptp.fn_eukaryotic_cell_59 X)) (= _let_23 (tptp.fn_eukaryotic_cell_45 X)) (= _let_22 (tptp.fn_eukaryotic_cell_50 X)) (= _let_21 (tptp.fn_eukaryotic_cell_44 X)) (= _let_20 (tptp.fn_eukaryotic_cell_41 X)) (= _let_19 (tptp.fn_eukaryotic_cell_24 X)) (= _let_18 (tptp.fn_eukaryotic_cell_15 X)) (= _let_17 _let_1) (= _let_16 (tptp.fn_eukaryotic_cell_23 X)) (= _let_15 (tptp.fn_eukaryotic_cell_20 X)) (= _let_14 (tptp.fn_eukaryotic_cell_19 X)) (= _let_13 (tptp.fn_eukaryotic_cell_32 X)) (= _let_12 (tptp.fn_eukaryotic_cell_31 X)) (= _let_11 (tptp.fn_eukaryotic_cell_42 X)) (= _let_10 (tptp.fn_eukaryotic_cell_25 X)) (= _let_9 (tptp.fn_eukaryotic_cell_33 X)) (= _let_8 (tptp.fn_eukaryotic_cell_6 X)) (= _let_7 (tptp.fn_eukaryotic_cell_5 X)) (= _let_6 (tptp.fn_eukaryotic_cell_56 X)) (= _let_5 (tptp.fn_eukaryotic_cell_30 X)) (= _let_4 (tptp.fn_eukaryotic_cell_26 X)) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.haploid_gamete_1 X) (and (tptp.original_name_2 X |tptp.'Haploid-Gamete'|) (tptp.user_description_2 X |tptp.'A gamete is a sex cell, either egg cells or sperm cells. A haploid gamete describes a sex cell with one full set of chromosomes.'|) (tptp.concept2words_2 X tptp.gamete) (tptp.concept2words_2 X |tptp.'gamete of haploid'|) (tptp.concept2words_2 X |tptp.'haploid gamete'|) (tptp.concept2words_2 X |tptp.'haploid-gamete'|) (tptp.gamete_1 X)))) (forall ((X $$unsorted)) (=> (tptp.haploid_number_1 X) (and (tptp.original_name_2 X |tptp.'Haploid-Number'|) (tptp.user_description_2 X |tptp.'For humans, the haploid number, abbreviated n, is 23 (n = 23).'|) (tptp.concept2words_2 X |tptp.'number of haploid'|) (tptp.concept2words_2 X |tptp.'haploid number'|) (tptp.concept2words_2 X |tptp.'haploid-number'|) (tptp.quantity_value_1 X) (not (tptp.diploid_number_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_haploidization_2 X))) (let ((_let_2 (tptp.fn_haploidization_1 X))) (=> (tptp.haploidization_1 X) (and (tptp.original_name_2 X |tptp.'Haploidization'|) (tptp.user_description_2 X |tptp.'It is the process of reduction of number of chromosomes of a parent cell to half after cell division to result in daughter cells with their number of chromosomes half as compared to those in parent cells'|) (tptp.concept2words_2 X tptp.haploidisation) (tptp.concept2words_2 X tptp.haploidization) (tptp.genetic_process_1 X) (tptp.diploid_cell_1 _let_2) (tptp.haploid_cell_1 _let_1) (tptp.object_2 X _let_2) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.hardy_weinberg_equilibrium_1 X) (and (tptp.original_name_2 X |tptp.'Hardy-Weinberg-Equilibrium'|) (tptp.user_description_2 X |tptp.'A theoretical condition in which a population is not evolving (i.e., allele frequencies are not changing) at a particular locus or loci being studied.'|) (tptp.concept2words_2 X |tptp.'hardy weinberg equilibrium'|) (tptp.concept2words_2 X |tptp.'hardy-weinberg-equilibrium'|) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_harm_1 X))) (=> (tptp.harm_1 X) (and (tptp.original_name_2 X |tptp.'Harm'|) (tptp.concept2words_2 X tptp.harm) (tptp.impair_1 X) (tptp.living_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_impair_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.has_condition_1 X) (and (tptp.original_name_2 X |tptp.'Has-Condition'|) (tptp.user_description_2 X |tptp.'This axiom is built to introduce conditions on edges and nodes.'|) (tptp.concept2words_2 X |tptp.'have condition'|) (tptp.concept2words_2 X |tptp.'has condition'|) (tptp.concept2words_2 X |tptp.'has-condition'|) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hassium_6 X))) (let ((_let_2 (tptp.fn_hassium_7 X))) (let ((_let_3 (tptp.fn_hassium_1 X))) (let ((_let_4 (tptp.fn_hassium_2 X))) (=> (tptp.hassium_1 X) (and (tptp.original_name_2 X |tptp.'Hassium'|) (tptp.user_description_2 X |tptp.'Hassium is a metal atom with atomic number 108. It is represented by the symbol Hs.'|) (tptp.concept2words_2 X tptp.hassium) (tptp.concept2words_2 X |tptp.'Hs'|) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"161"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"108"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"108"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"269"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"108"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"269"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_hassium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_hassium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (=> (tptp.haustorium_1 X) (and (tptp.original_name_2 X |tptp.'Haustorium'|) (tptp.user_description_2 X |tptp.'The specialized hypha of some symbiotic fungi, which penetrates the tissue of host plants. In parasitic fungi, the haustorium withdraws nutrients from the host.'|) (tptp.concept2words_2 X tptp.haustorium) (tptp.hypha_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hay_1 X) (and (tptp.original_name_2 X |tptp.'Hay'|) (tptp.user_description_2 X |tptp.'Hay is grass, legumes or other herbaceous plants that have been cut, dried, and stored for use as animal fodder, particularly for grazing livestock such as cattle, horses, goats, and sheep.'|) (tptp.concept2words_2 X tptp.hay) (tptp.detritus_1 X) (tptp.solid_substance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hcg_1 X) (and (tptp.original_name_2 X |tptp.'HCG'|) (tptp.user_description_2 X |tptp.'Human chorionic gonadotropin; a tropic hormone secreted by the placenta during the first trimester of pregnancy. HCG maintains the post-ovulatory corpus luteum and causes it to secrete progesterone, which in turn thickens the endometrial lining of the uterus.'|) (tptp.concept2words_2 X |tptp.'human chorionic gonadotropin'|) (tptp.concept2words_2 X |tptp.'human-chorionic-gonadotropin'|) (tptp.concept2words_2 X tptp.hcg) (tptp.glycoprotein_hormone_1 X) (not (tptp.fsh_1 X)) (not (tptp.lh_1 X))))) (forall ((X $$unsorted)) (=> (tptp.head_1 X) (and (tptp.original_name_2 X |tptp.'Head'|) (tptp.user_description_2 X |tptp.'The upper part of the human body or the front part of the body in animals is called the head.'|) (tptp.concept2words_2 X tptp.head) (tptp.body_segment_1 X) (not (tptp.abdomen_1 X)) (not (tptp.thorax_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_head_nod_1 X))) (=> (tptp.head_nod_1 X) (and (tptp.original_name_2 X |tptp.'Head-Nod'|) (tptp.concept2words_2 X tptp.nod) (tptp.concept2words_2 X tptp.orient) (tptp.concept2words_2 X |tptp.'nod of head'|) (tptp.concept2words_2 X |tptp.'head nod'|) (tptp.concept2words_2 X |tptp.'head-nod'|) (tptp.gesticulate_1 X) (not (tptp.head_shake_1 X)) (tptp.animal_1 _let_1) (tptp.agent_2 X _let_1) (= _let_1 (tptp.fn_gesticulate_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_head_shake_1 X))) (=> (tptp.head_shake_1 X) (and (tptp.original_name_2 X |tptp.'Head-Shake'|) (tptp.concept2words_2 X tptp.headshake) (tptp.concept2words_2 X tptp.headshaking) (tptp.concept2words_2 X tptp.orient) (tptp.concept2words_2 X |tptp.'shake of head'|) (tptp.concept2words_2 X |tptp.'head shake'|) (tptp.concept2words_2 X |tptp.'head-shake'|) (tptp.gesticulate_1 X) (not (tptp.head_nod_1 X)) (tptp.animal_1 _let_1) (tptp.agent_2 X _let_1) (= _let_1 (tptp.fn_gesticulate_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_healing_1 X))) (=> (tptp.healing_1 X) (and (tptp.original_name_2 X |tptp.'Healing'|) (tptp.concept2words_2 X tptp.heal) (tptp.concept2words_2 X tptp.healing) (tptp.improvement_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_improvement_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hear_1 X))) (=> (tptp.hear_1 X) (and (tptp.original_name_2 X |tptp.'Hear'|) (tptp.concept2words_2 X tptp.hear) (tptp.concept2words_2 X tptp.sense) (tptp.sense_1 X) (not (tptp.see_1 X)) (not (tptp.read_1 X)) (tptp.sound_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_sense_2 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heart_3 X))) (let ((_let_2 (tptp.fn_tissue_1 _let_1))) (let ((_let_3 (tptp.fn_heart_2 X))) (let ((_let_4 (tptp.fn_heart_1 X))) (=> (tptp.heart_1 X) (and (tptp.original_name_2 X |tptp.'Heart'|) (tptp.user_description_2 X |tptp.'A hollow muscular pump that circulates blood through the circulatory system.'|) (tptp.concept2words_2 X tptp.heart) (tptp.circulatory_organ_1 X) (tptp.blood_vessel_1 _let_4) (tptp.heart_cell_1 _let_3) (tptp.tissue_1 _let_1) (tptp.eukaryotic_cell_1 _let_2) (tptp.abuts_2 _let_3 _let_4) (tptp.abuts_2 _let_4 _let_3) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_organ_1 X)) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.heart_attack_1 X) (and (tptp.original_name_2 X |tptp.'Heart-Attack'|) (tptp.user_description_2 X |tptp.'Damage or death of cardiac tissue due to an interruption of blood supply to the heart.'|) (tptp.concept2words_2 X |tptp.'attack of heart'|) (tptp.concept2words_2 X |tptp.'heart attack'|) (tptp.concept2words_2 X |tptp.'heart-attack'|) (tptp.cardiovascular_process_1 X) (not (tptp.cardiac_cycle_1 X)) (not (tptp.countercurrent_multiplier_system_1 X)) (not (tptp.diastole_1 X)) (not (tptp.heart_murmur_1 X)) (not (tptp.hypertension_1 X)) (not (tptp.pulse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.heart_beat_1 X) (and (tptp.original_name_2 X |tptp.'Heart-Beat'|) (tptp.user_description_2 X |tptp.'The sound or pulse generated by the pumping action and the closing of the valves of the heart.'|) (tptp.concept2words_2 X |tptp.'beat of heart'|) (tptp.concept2words_2 X |tptp.'heart beat'|) (tptp.concept2words_2 X |tptp.'heart-beat'|) (tptp.cardiovascular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heart_cell_1 X) (and (tptp.original_name_2 X |tptp.'Heart-Cell'|) (tptp.user_description_2 X |tptp.'A cell which makes up the heart, an organ of the animal circulatory system.'|) (tptp.concept2words_2 X |tptp.'cell of heart'|) (tptp.concept2words_2 X |tptp.'heart cell'|) (tptp.concept2words_2 X |tptp.'heart-cell'|) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heart_murmur_1 X) (and (tptp.original_name_2 X |tptp.'Heart-Murmur'|) (tptp.user_description_2 X |tptp.'Audible abnormal heart sounds that are usually due to blood leaking through faulty valves.'|) (tptp.concept2words_2 X |tptp.'murmur of heart'|) (tptp.concept2words_2 X |tptp.'heart murmur'|) (tptp.concept2words_2 X |tptp.'heart-murmur'|) (tptp.cardiovascular_process_1 X) (not (tptp.cardiac_cycle_1 X)) (not (tptp.countercurrent_multiplier_system_1 X)) (not (tptp.diastole_1 X)) (not (tptp.heart_attack_1 X)) (not (tptp.hypertension_1 X)) (not (tptp.pulse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.heartwood_1 X) (and (tptp.original_name_2 X |tptp.'Heartwood'|) (tptp.user_description_2 X |tptp.'Plant tissue comprised of secondary xylem that no longer functions in transporting water.'|) (tptp.concept2words_2 X tptp.heartwood) (tptp.secondary_plant_tissue_1 X) (not (tptp.sapwood_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heat_4 X))) (let ((_let_2 (tptp.fn_heat_5 X))) (let ((_let_3 (tptp.fn_heat_1 X))) (=> (tptp.heat_1 X) (and (tptp.original_name_2 X |tptp.'Heat'|) (tptp.concept2words_2 X tptp.heat) (tptp.concept2words_2 X |tptp.'heat up'|) (tptp.concept2words_2 X tptp.heat_up) (tptp.concept2words_2 X |tptp.'hot up'|) (tptp.concept2words_2 X tptp.hot_up) (tptp.increase_1 X) (not (tptp.wet_1 X)) (not (tptp.expand_1 X)) (not (tptp.condense_1 X)) (not (tptp.brighten_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_in_cell_size_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.tangible_entity_1 _let_3) (tptp.temperature_value_1 _let_1) (tptp.temperature_value_1 _let_2) (tptp.base_2 X _let_3) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_2 _let_1) (= (tptp.fn_heat_3 X) (tptp.fn_increase_2 X)) (= (tptp.fn_heat_2 X) (tptp.fn_increase_1 X)) (= _let_2 (tptp.fn_increase_4 X)) (= _let_1 (tptp.fn_increase_3 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heat_absorption_by_tropical_sea_5 X))) (let ((_let_2 (tptp.fn_water_body_10 _let_1))) (let ((_let_3 (tptp.fn_heat_absorption_by_tropical_sea_7 X))) (let ((_let_4 (tptp.fn_water_evaporation_9 _let_3))) (let ((_let_5 (tptp.fn_heat_absorption_by_tropical_sea_4 X))) (let ((_let_6 (tptp.fn_water_body_2 _let_1))) (let ((_let_7 (tptp.fn_heat_absorption_by_tropical_sea_9 X))) (let ((_let_8 (tptp.fn_heat_absorption_by_tropical_sea_8 X))) (let ((_let_9 (tptp.fn_heat_absorption_by_tropical_sea_6 X))) (let ((_let_10 (tptp.fn_heat_absorption_by_tropical_sea_2 X))) (let ((_let_11 (tptp.fn_heat_absorption_by_tropical_sea_1 X))) (let ((_let_12 (tptp.fn_heat_absorption_by_tropical_sea_3 X))) (=> (tptp.heat_absorption_by_tropical_sea_1 X) (and (tptp.original_name_2 X |tptp.'Heat-Absorption-By-Tropical-Sea'|) (tptp.user_description_2 X |tptp.'The absorption of heat by a sea near the equator.'|) (tptp.concept2words_2 X tptp.absorb) (tptp.concept2words_2 X |tptp.'heat absorption by tropical sea'|) (tptp.concept2words_2 X |tptp.'heat-absorption-by-tropical-sea'|) (tptp.take_in_1 X) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.region_1 _let_12) (tptp.tangible_entity_1 _let_5) (tptp.tropical_sea_1 _let_1) (tptp.thermal_energy_1 _let_9) (tptp.water_evaporation_1 _let_3) (tptp.liquid_substance_1 _let_8) (tptp.water_1 _let_8) (tptp.surface_1 _let_7) (tptp.surface_1 _let_6) (tptp.liquid_substance_1 _let_4) (tptp.water_1 _let_4) (tptp.liquid_substance_1 _let_2) (tptp.water_1 _let_2) (tptp.has_region_2 _let_5 _let_12) (tptp.is_outside_2 _let_11 _let_5) (tptp.is_outside_2 _let_11 _let_1) (tptp.is_inside_2 _let_10 _let_5) (tptp.is_inside_2 _let_10 _let_1) (tptp.base_2 X _let_1) (tptp.path_2 X _let_12) (tptp.causes_2 X _let_3) (tptp.agent_2 X _let_1) (tptp.origin_2 X _let_11) (tptp.destination_2 X _let_10) (tptp.object_2 X _let_9) (tptp.object_2 _let_3 _let_8) (tptp.has_region_2 _let_1 _let_7) (tptp.is_at_2 _let_8 _let_7) (tptp.agent_2 X _let_5) (tptp.base_2 X _let_5) (= _let_9 (tptp.fn_move_1 X)) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_5 (tptp.fn_take_in_1 X)) (= _let_4 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.heat_of_vaporization_constant_1 X) (and (tptp.original_name_2 X |tptp.'Heat-of-Vaporization-Constant'|) (tptp.concept2words_2 X |tptp.'heat of vaporization constant'|) (tptp.concept2words_2 X |tptp.'heat-of-vaporization-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heat_of_vaporization_scale_1 X) (and (tptp.original_name_2 X |tptp.'Heat-of-Vaporization-Scale'|) (tptp.concept2words_2 X |tptp.'heat of vaporization scale'|) (tptp.concept2words_2 X |tptp.'heat-of-vaporization-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heat_of_vaporization_value_1 X) (and (tptp.original_name_2 X |tptp.'Heat-of-Vaporization-Value'|) (tptp.concept2words_2 X |tptp.'vaporization heat'|) (tptp.concept2words_2 X |tptp.'vaporization-heat'|) (tptp.concept2words_2 X |tptp.'heat of vaporization'|) (tptp.concept2words_2 X |tptp.'heat-of-vaporization'|) (tptp.concept2words_2 X |tptp.'heat of vaporization value'|) (tptp.concept2words_2 X |tptp.'heat-of-vaporization-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heat_shock_protein_1 X) (and (tptp.original_name_2 X |tptp.'Heat-Shock-Protein'|) (tptp.user_description_2 X |tptp.'A group of proteins whose expression increases when cells are exposed to high temperatures.'|) (tptp.concept2words_2 X |tptp.'heat shock protein'|) (tptp.concept2words_2 X |tptp.'heat-shock protein'|) (tptp.concept2words_2 X |tptp.'heat-shock-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heat_transfer_10 X))) (let ((_let_2 (tptp.fn_molecule_12 _let_1))) (let ((_let_3 (tptp.fn_heat_transfer_11 X))) (let ((_let_4 (tptp.fn_heat_transfer_12 X))) (let ((_let_5 (tptp.fn_thermal_motion_5 _let_4))) (let ((_let_6 (tptp.fn_heat_transfer_13 X))) (let ((_let_7 (tptp.fn_heat_transfer_6 X))) (let ((_let_8 (tptp.fn_heat_transfer_7 X))) (let ((_let_9 (tptp.fn_heat_transfer_9 X))) (let ((_let_10 (tptp.fn_heat_transfer_8 X))) (let ((_let_11 (tptp.fn_heat_transfer_3 X))) (let ((_let_12 (tptp.fn_heat_transfer_2 X))) (=> (tptp.heat_transfer_1 X) (and (tptp.original_name_2 X |tptp.'Heat-Transfer'|) (tptp.user_description_2 X |tptp.'The movement of heat energy from one object to another.'|) (tptp.concept2words_2 X |tptp.'transfer of heat'|) (tptp.concept2words_2 X |tptp.'heat transfer'|) (tptp.concept2words_2 X |tptp.'heat-transfer'|) (tptp.energy_related_process_1 X) (tptp.increase_1 _let_12) (tptp.frequency_value_1 _let_11) (tptp.molecular_region_1 _let_7) (tptp.molecular_region_1 _let_8) (tptp.temperature_value_1 _let_10) (tptp.temperature_value_1 _let_9) (tptp.molecule_1 _let_1) (tptp.kinetic_energy_1 _let_3) (tptp.thermal_motion_1 _let_4) (tptp.molecule_1 _let_6) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.kinetic_energy_1 _let_2) (tptp.has_region_2 _let_1 _let_8) (tptp.raw_material_2 _let_12 _let_3) (tptp.enables_2 _let_12 _let_4) (tptp.frequency_2 _let_4 _let_11) (tptp.has_region_2 _let_6 _let_7) (tptp.temperature_2 _let_7 _let_9) (tptp.temperature_2 _let_8 _let_10) (tptp.the_scalar_value_2 _let_10 tptp.warm_0) (tptp.scalar_unit_class_2 _let_10 tptp.spatial_entity_0) (tptp.the_scalar_value_2 _let_9 tptp.cool_0) (tptp.scalar_unit_class_2 _let_9 tptp.spatial_entity_0) (tptp.origin_2 X _let_8) (tptp.destination_2 X _let_7) (tptp.object_2 _let_4 _let_6) (tptp.possesses_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heating_of_liquid_5 X))) (let ((_let_2 (tptp.fn_evaporation_3 _let_1))) (let ((_let_3 (tptp.fn_heating_of_liquid_4 X))) (let ((_let_4 (tptp.fn_evaporation_1 _let_1))) (let ((_let_5 (tptp.fn_evaporation_13 _let_1))) (let ((_let_6 (tptp.fn_heating_of_liquid_6 X))) (let ((_let_7 (tptp.fn_heating_of_liquid_2 X))) (let ((_let_8 (tptp.fn_heating_of_liquid_1 X))) (=> (tptp.heating_of_liquid_1 X) (and (tptp.original_name_2 X |tptp.'Heating-Of-Liquid'|) (tptp.user_description_2 X |tptp.'The absorption of heat by a liquid causing an increase to the liquid_'s temperature.'|) (tptp.concept2words_2 X |tptp.'heating liquid'|) (tptp.concept2words_2 X tptp.heat) (tptp.concept2words_2 X |tptp.'liquid heating'|) (tptp.concept2words_2 X |tptp.'liquid-heating'|) (tptp.concept2words_2 X |tptp.'heating of liquid'|) (tptp.concept2words_2 X |tptp.'heating-of-liquid'|) (tptp.heat_1 X) (tptp.increase_1 _let_8) (tptp.kinetic_energy_1 _let_7) (tptp.rate_value_1 _let_3) (tptp.evaporation_1 _let_1) (tptp.liquid_substance_1 _let_6) (tptp.liquid_substance_1 _let_5) (tptp.property_node_1 _let_4) (tptp.rate_value_1 _let_2) (tptp.the_scalar_value_2 _let_3 tptp.fast_0) (tptp.scalar_unit_class_2 _let_3 tptp.event_0) (tptp.object_2 X _let_6) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_8) (tptp.object_2 _let_8 _let_7) (tptp.object_2 _let_1 _let_6) (tptp.rate_2 _let_1 _let_3) (= _let_6 _let_5) (= (tptp.fn_heating_of_liquid_3 X) _let_4) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.heat_1 X) (tptp.water_body_1 X1)) (and (tptp.heating_of_water_body_1 X) (= (tptp.fn_heating_of_water_body_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heating_of_water_body_8 X))) (let ((_let_2 (tptp.fn_take_in_1 _let_1))) (let ((_let_3 (tptp.fn_heating_of_water_body_7 X))) (let ((_let_4 (tptp.fn_move_1 _let_1))) (let ((_let_5 (tptp.fn_heating_of_water_body_6 X))) (let ((_let_6 (tptp.fn_heating_of_water_body_2 X))) (let ((_let_7 (tptp.fn_heating_of_water_body_3 X))) (let ((_let_8 (tptp.fn_heating_of_water_body_4 X))) (=> (tptp.heating_of_water_body_1 X) (and (tptp.original_name_2 X |tptp.'Heating-Of-Water-Body'|) (tptp.user_description_2 X |tptp.'The absorption of heat by water causing an increase to the water_'s temperature. Water has a high specific heat and so a lot of heat is required to raise the temperature of water.'|) (tptp.concept2words_2 X |tptp.'heating of water'|) (tptp.concept2words_2 X tptp.heat) (tptp.concept2words_2 X |tptp.'heating of water body'|) (tptp.concept2words_2 X |tptp.'heating-of-water-body'|) (tptp.heat_1 X) (tptp.water_body_1 _let_6) (tptp.quantity_value_1 _let_7) (tptp.increase_1 _let_8) (tptp.thermal_energy_1 _let_5) (tptp.water_body_1 _let_3) (tptp.absorb_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_8) (tptp.object_2 X _let_6) (tptp.the_scalar_value_2 _let_7 tptp.many_0) (tptp.scalar_unit_class_2 _let_7 tptp.thermal_energy_0) (tptp.quantity_2 _let_5 _let_7) (tptp.destination_2 _let_1 _let_6) (tptp.object_2 _let_1 _let_5) (tptp.agent_2 _let_1 _let_3) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.heavy_chain_1 X) (and (tptp.original_name_2 X |tptp.'Heavy-Chain'|) (tptp.user_description_2 X |tptp.'The larger of the two types of polypeptide chains making up an antibody molecule. It consists of a constant region, which confers lysis and phagocytosis of microbes, and a variable region, which binds to specific antigens.'|) (tptp.concept2words_2 X |tptp.'chain of heavy'|) (tptp.concept2words_2 X |tptp.'heavy chain'|) (tptp.concept2words_2 X |tptp.'heavy-chain'|) (tptp.polypeptide_1 X) (not (tptp.endothelin_1 X)) (not (tptp.globins_1 X)) (not (tptp.light_chain_1 X)) (not (tptp.neuropeptide_1 X)) (not (tptp.peptide_hormone_1 X)) (not (tptp.polypeptide_segment_1 X)) (not (tptp.signal_peptide_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hedgehog_1 X))) (let ((_let_2 (tptp.fn_vertebrate_cell_5 _let_1))) (let ((_let_3 (tptp.fn_hedgehog_2 X))) (=> (tptp.hedgehog_1 X) (and (tptp.original_name_2 X |tptp.'Hedgehog'|) (tptp.user_description_2 X |tptp.'Omniverous mammal found in parts of Asia, Europe and Africa, characterized by presence of protective spines and ability to roll into a tight ball when threatened.'|) (tptp.concept2words_2 X tptp.hedgehog) (tptp.mammal_1 X) (tptp.mammalian_cell_1 _let_1) (tptp.vertebrate_cell_1 _let_1) (tptp.non_motile_cilium_1 _let_3) (tptp.non_motile_cilium_1 _let_2) (tptp.exactCardinality _let_1 tptp.has_part_0 |"90"| tptp.eukaryotic_chromosome_0) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_mammal_75 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.height_constant_1 X) (and (tptp.original_name_2 X |tptp.'Height-Constant'|) (tptp.concept2words_2 X |tptp.'constant of height'|) (tptp.concept2words_2 X |tptp.'height constant'|) (tptp.concept2words_2 X |tptp.'height-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.height_scale_1 X) (and (tptp.original_name_2 X |tptp.'Height-Scale'|) (tptp.concept2words_2 X |tptp.'scale of height'|) (tptp.concept2words_2 X |tptp.'height scale'|) (tptp.concept2words_2 X |tptp.'height-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hela_cell_27 X))) (let ((_let_2 (tptp.fn_endoplasmic_reticulum_11 _let_1))) (let ((_let_3 (tptp.fn_hela_cell_29 X))) (let ((_let_4 (tptp.fn_remove_1 _let_3))) (let ((_let_5 (tptp.fn_cancer_cell_23 X))) (let ((_let_6 (tptp.fn_hela_cell_36 X))) (let ((_let_7 (tptp.fn_cytoplasmic_side_1 _let_6))) (let ((_let_8 (tptp.fn_cancer_cell_22 X))) (let ((_let_9 (tptp.fn_hela_cell_31 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_hela_cell_44 X))) (let ((_let_12 (tptp.fn_attach_2 _let_11))) (let ((_let_13 (tptp.fn_cancer_cell_10 X))) (let ((_let_14 (tptp.fn_hela_cell_9 X))) (let ((_let_15 (tptp.fn_plasma_membrane_71 _let_14))) (let ((_let_16 (tptp.fn_plasma_membrane_55 _let_14))) (let ((_let_17 (tptp.fn_plasma_membrane_54 _let_14))) (let ((_let_18 (tptp.fn_plasma_membrane_3 _let_14))) (let ((_let_19 (tptp.fn_plasma_membrane_4 _let_14))) (let ((_let_20 (tptp.fn_attach_1 _let_11))) (let ((_let_21 (tptp.fn_plasma_membrane_65 _let_14))) (let ((_let_22 (tptp.fn_biomembrane_41 _let_14))) (let ((_let_23 (tptp.fn_plasma_membrane_68 _let_14))) (let ((_let_24 (tptp.fn_endoplasmic_reticulum_23 _let_1))) (let ((_let_25 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_26 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_27 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_28 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_29 (tptp.fn_hela_cell_8 X))) (let ((_let_30 (tptp.fn_hela_cell_22 X))) (let ((_let_31 (tptp.fn_hela_cell_10 X))) (let ((_let_32 (tptp.fn_hela_cell_43 X))) (let ((_let_33 (tptp.fn_hela_cell_38 X))) (let ((_let_34 (tptp.fn_hela_cell_39 X))) (let ((_let_35 (tptp.fn_hela_cell_40 X))) (let ((_let_36 (tptp.fn_hela_cell_41 X))) (let ((_let_37 (tptp.fn_hela_cell_5 X))) (let ((_let_38 (tptp.fn_hela_cell_11 X))) (let ((_let_39 (tptp.fn_hela_cell_13 X))) (let ((_let_40 (tptp.fn_hela_cell_42 X))) (let ((_let_41 (tptp.fn_hela_cell_12 X))) (let ((_let_42 (tptp.fn_hela_cell_23 X))) (let ((_let_43 (tptp.fn_hela_cell_16 X))) (let ((_let_44 (tptp.fn_hela_cell_30 X))) (let ((_let_45 (tptp.fn_hela_cell_14 X))) (let ((_let_46 (tptp.fn_hela_cell_18 X))) (let ((_let_47 (tptp.fn_hela_cell_15 X))) (let ((_let_48 (tptp.fn_hela_cell_20 X))) (let ((_let_49 (tptp.fn_hela_cell_21 X))) (let ((_let_50 (tptp.fn_hela_cell_19 X))) (let ((_let_51 (tptp.fn_hela_cell_17 X))) (let ((_let_52 (tptp.fn_plasma_membrane_6 _let_14))) (let ((_let_53 (tptp.fn_hela_cell_33 X))) (let ((_let_54 (tptp.fn_hela_cell_35 X))) (let ((_let_55 (tptp.fn_hela_cell_32 X))) (let ((_let_56 (tptp.fn_hela_cell_34 X))) (let ((_let_57 (tptp.fn_plasma_membrane_66 _let_14))) (let ((_let_58 (tptp.fn_hela_cell_28 X))) (let ((_let_59 (tptp.fn_endoplasmic_reticulum_25 _let_1))) (let ((_let_60 (tptp.fn_hela_cell_24 X))) (let ((_let_61 (tptp.fn_plasma_membrane_52 _let_14))) (let ((_let_62 (tptp.fn_nucleus_13 _let_39))) (let ((_let_63 (tptp.fn_hela_cell_37 X))) (let ((_let_64 (tptp.fn_rough_endoplasmic_reticulum_55 _let_41))) (let ((_let_65 (tptp.fn_hela_cell_25 X))) (let ((_let_66 (tptp.fn_remove_2 _let_3))) (let ((_let_67 (tptp.fn_hela_cell_26 X))) (let ((_let_68 (tptp.fn_hela_cell_4 X))) (let ((_let_69 (tptp.fn_hela_cell_3 X))) (let ((_let_70 (tptp.fn_hela_cell_2 X))) (let ((_let_71 (tptp.fn_hela_cell_1 X))) (=> (tptp.hela_cell_1 X) (and (tptp.original_name_2 X |tptp.'Hela-Cell'|) (tptp.user_description_2 X |tptp.'Immortal cell line derived from a tumor removed from cancer patient Henrietta Lacks, which has been used extensively in cell biology and cancer research.'|) (tptp.concept2words_2 X |tptp.'cell of hela'|) (tptp.concept2words_2 X |tptp.'hela cell'|) (tptp.concept2words_2 X |tptp.'hela-cell'|) (tptp.cancer_cell_1 X) (tptp.henrietta_lacks_1 _let_71) (tptp.resource_1 _let_70) (tptp.er_membrane_1 _let_69) (tptp.protein_enzyme_1 _let_68) (tptp.cellular_work_1 _let_37) (tptp.mixture_1 _let_29) (tptp.cytoplasm_1 _let_29) (tptp.spatial_entity_1 _let_14) (tptp.biomembrane_1 _let_14) (tptp.plasma_membrane_1 _let_14) (tptp.ribosome_1 _let_31) (tptp.eukaryotic_ribosome_1 _let_31) (tptp.eukaryotic_chromosome_1 _let_38) (tptp.chromosome_1 _let_38) (tptp.rough_endoplasmic_reticulum_1 _let_41) (tptp.tangible_entity_1 _let_39) (tptp.nucleus_1 _let_39) (tptp.semiautonomous_organelle_1 _let_45) (tptp.mitochondrion_1 _let_45) (tptp.organelle_1 _let_45) (tptp.volume_value_1 _let_47) (tptp.surface_1 _let_43) (tptp.size_value_1 _let_51) (tptp.eukaryotic_cellular_respiration_1 _let_46) (tptp.gene_amplification_1 _let_50) (tptp.translocation_during_translation_1 _let_48) (tptp.oncogene_1 _let_49) (tptp.substance_1 _let_30) (tptp.cytosol_1 _let_30) (tptp.tangible_entity_1 _let_42) (tptp.phospholipid_bilayer_1 _let_42) (tptp.transfer_1 _let_60) (tptp.transfer_1 _let_65) (tptp.tumor_1 _let_67) (tptp.endoplasmic_reticulum_1 _let_1) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.synthesis_reaction_1 _let_58) (tptp.chemical_reaction_1 _let_58) (tptp.anabolic_pathway_1 _let_58) (tptp.synthesis_of_lipid_1 _let_58) (tptp.remove_1 _let_3) (tptp.golgi_apparatus_1 _let_44) (tptp.attach_1 _let_9) (tptp.outside_face_1 _let_55) (tptp.extracellular_side_1 _let_55) (tptp.hydrophobic_core_1 _let_53) (tptp.tangible_entity_1 _let_56) (tptp.membrane_protein_1 _let_56) (tptp.protein_1 _let_56) (tptp.spatial_entity_1 _let_56) (tptp.polymer_1 _let_56) (tptp.membrane_protein_1 _let_54) (tptp.protein_1 _let_54) (tptp.spatial_entity_1 _let_54) (tptp.polymer_1 _let_54) (tptp.tangible_entity_1 _let_54) (tptp.transmembrane_protein_1 _let_54) (tptp.integral_protein_1 _let_54) (tptp.transport_protein_1 _let_54) (tptp.cytoplasmic_side_1 _let_6) (tptp.nuclear_membrane_1 _let_63) (tptp.biomembrane_1 _let_63) (tptp.tumor_suppressor_gene_1 _let_33) (tptp.dna_strand_1 _let_34) (tptp.entity_1 _let_35) (tptp.dna_1 _let_35) (tptp.eukaryotic_chromosome_1 _let_36) (tptp.chromosome_1 _let_36) (tptp.somatic_cell_1 _let_40) (tptp.damage_1 _let_32) (tptp.attach_1 _let_11) (tptp.spatial_entity_1 _let_66) (tptp.transfer_1 _let_64) (tptp.nuclear_membrane_1 _let_62) (tptp.biomembrane_1 _let_62) (tptp.attach_1 _let_61) (tptp.transfer_1 _let_59) (tptp.cytoplasmic_side_1 _let_57) (tptp.hydrophobic_core_1 _let_52) (tptp.synthesis_reaction_1 _let_28) (tptp.synthesis_reaction_1 _let_27) (tptp.chemical_reaction_1 _let_26) (tptp.synthesis_of_lipid_1 _let_26) (tptp.chemical_reaction_1 _let_25) (tptp.synthesis_of_lipid_1 _let_25) (tptp.anabolic_pathway_1 _let_25) (tptp.synthesis_of_lipid_1 _let_24) (tptp.tangible_entity_1 _let_23) (tptp.membrane_protein_1 _let_23) (tptp.protein_1 _let_23) (tptp.outside_face_1 _let_22) (tptp.extracellular_side_1 _let_21) (tptp.spatial_entity_1 _let_20) (tptp.membrane_protein_1 _let_19) (tptp.membrane_protein_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.polymer_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.transmembrane_protein_1 _let_16) (tptp.integral_protein_1 _let_16) (tptp.transport_protein_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.phospholipid_bilayer_1 _let_15) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.cytoplasm_1 _let_7) (tptp.spatial_entity_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.abuts_2 _let_63 _let_69) (tptp.is_oriented_toward_2 _let_6 _let_29) (tptp.plays_2 _let_71 _let_70) (tptp.has_part_2 _let_71 _let_67) (tptp.in_event_2 _let_70 _let_3) (tptp.recipient_2 _let_65 _let_1) (tptp.recipient_2 _let_60 _let_41) (tptp.abuts_2 _let_69 _let_63) (tptp.is_inside_2 _let_68 _let_69) (tptp.has_part_2 _let_29 _let_68) (tptp.object_2 _let_11 _let_54) (tptp.base_2 _let_3 _let_67) (tptp.base_2 _let_11 _let_14) (tptp.base_2 _let_9 _let_14) (tptp.donor_2 _let_65 _let_41) (tptp.object_2 _let_3 X) (tptp.has_part_2 _let_39 _let_63) (tptp.is_facing_2 _let_6 _let_29) (tptp.object_2 _let_9 _let_54) (tptp.base_2 _let_58 X) (tptp.has_function_2 _let_1 _let_58) (tptp.site_2 _let_58 _let_1) (tptp.agent_2 _let_60 _let_1) (tptp.called_2 _let_56 |tptp.'MP2'|) (tptp.has_region_2 _let_54 _let_55) (tptp.has_part_2 _let_14 _let_56) (tptp.has_region_2 _let_14 _let_6) (tptp.is_at_2 _let_54 _let_14) (tptp.has_part_2 _let_14 _let_54) (tptp.is_inside_2 _let_54 _let_42) (not (= _let_56 _let_54)) (not (= _let_54 _let_56)) (tptp.has_region_2 _let_14 _let_53) (tptp.is_across_2 _let_54 _let_53) (tptp.is_across_2 _let_54 _let_14) (tptp.has_region_2 _let_14 _let_55) (tptp.is_outside_2 _let_55 _let_14) (tptp.is_inside_2 _let_29 _let_14) (tptp.the_scalar_value_2 _let_51 tptp.big_0) (tptp.scalar_unit_class_2 _let_51 tptp.prokaryote_0) (tptp.directly_proportional_2 _let_51 _let_47) (tptp.result_2 _let_48 X) (tptp.result_2 _let_48 _let_49) (tptp.result_2 _let_50 _let_49) (tptp.result_2 _let_50 X) (tptp.size_2 X _let_51) (tptp.is_inside_2 _let_45 _let_30) (tptp.has_part_2 X _let_45) (tptp.has_function_2 X _let_46) (tptp.base_2 _let_46 X) (tptp.volume_2 X _let_47) (tptp.is_inside_2 _let_44 _let_30) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_1) (not (= _let_41 _let_1)) (not (= _let_1 _let_41)) (tptp.is_between_2 _let_29 _let_14) (tptp.has_part_2 _let_14 _let_42) (tptp.is_at_2 _let_42 _let_43) (tptp.has_region_2 X _let_43) (tptp.has_part_2 X _let_39) (tptp.has_part_2 _let_40 _let_36) (tptp.has_state_2 _let_40 X) (tptp.has_part_2 X _let_41) (tptp.abuts_2 _let_1 _let_41) (tptp.abuts_2 _let_41 _let_1) (tptp.base_2 _let_37 X) (tptp.has_function_2 X _let_37) (tptp.has_part_2 X _let_38) (tptp.is_inside_2 _let_38 _let_39) (tptp.is_between_2 _let_29 _let_39) (tptp.result_2 _let_32 X) (tptp.object_2 _let_32 _let_33) (tptp.has_part_2 _let_34 _let_33) (tptp.has_part_2 _let_35 _let_34) (tptp.has_part_2 _let_36 _let_35) (tptp.has_part_2 X _let_29) (tptp.has_part_2 _let_29 _let_30) (tptp.is_inside_2 _let_31 _let_30) (tptp.has_part_2 X _let_31) (tptp.has_part_2 X _let_14) (= _let_54 _let_20) (= _let_67 _let_66) (= _let_14 _let_12) (= _let_14 _let_10) (= _let_65 _let_64) (= X _let_4) (= _let_63 _let_62) (= _let_29 _let_7) (= _let_9 _let_61) (= X _let_2) (= _let_60 _let_59) (= _let_58 _let_28) (= _let_58 _let_27) (= _let_58 _let_26) (= _let_58 _let_25) (= _let_58 _let_24) (= _let_6 _let_57) (= _let_42 _let_15) (= _let_54 _let_19) (= _let_54 _let_18) (= _let_54 _let_17) (= _let_56 _let_23) (= _let_56 _let_17) (= _let_55 _let_22) (= _let_55 _let_21) (= _let_54 _let_16) (= _let_53 _let_52) (= (tptp.fn_hela_cell_7 X) (tptp.fn_cancer_cell_3 X)) (= (tptp.fn_hela_cell_6 X) (tptp.fn_cancer_cell_2 X)) (= _let_51 (tptp.fn_cancer_cell_8 X)) (= _let_50 (tptp.fn_cancer_cell_13 X)) (= _let_49 (tptp.fn_cancer_cell_15 X)) (= _let_48 (tptp.fn_cancer_cell_14 X)) (= _let_47 (tptp.fn_cancer_cell_9 X)) (= _let_46 (tptp.fn_cancer_cell_19 X)) (= _let_45 (tptp.fn_cancer_cell_20 X)) (= _let_44 (tptp.fn_cancer_cell_5 X)) (= _let_43 (tptp.fn_cancer_cell_7 X)) (= _let_42 _let_13) (= _let_1 (tptp.fn_cancer_cell_12 X)) (= _let_41 (tptp.fn_cancer_cell_21 X)) (= _let_40 (tptp.fn_cancer_cell_27 X)) (= _let_39 (tptp.fn_cancer_cell_6 X)) (= _let_38 (tptp.fn_cancer_cell_18 X)) (= _let_37 (tptp.fn_cancer_cell_1 X)) (= _let_36 (tptp.fn_cancer_cell_26 X)) (= _let_35 (tptp.fn_cancer_cell_25 X)) (= _let_34 (tptp.fn_cancer_cell_24 X)) (= _let_33 (tptp.fn_cancer_cell_16 X)) (= _let_32 (tptp.fn_cancer_cell_17 X)) (= _let_14 _let_8) (= _let_31 (tptp.fn_cancer_cell_4 X)) (= _let_30 (tptp.fn_cancer_cell_11 X)) (= _let_29 _let_5) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_17) (= _let_17 _let_23) (= _let_23 _let_17) (= _let_17 _let_21) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_helicase_3 X))) (let ((_let_2 (tptp.fn_move_apart_3 _let_1))) (let ((_let_3 (tptp.fn_helicase_2 X))) (let ((_let_4 (tptp.fn_helicase_1 X))) (=> (tptp.helicase_1 X) (and (tptp.original_name_2 X |tptp.'Helicase'|) (tptp.user_description_2 X |tptp.'Helicases are enzymes which untwist double-stranded DNA during DNA replication.'|) (tptp.concept2words_2 X |tptp.'dna helicase'|) (tptp.concept2words_2 X |tptp.'dna-helicase'|) (tptp.concept2words_2 X tptp.helicase) (tptp.transferase_1 X) (tptp.detach_1 _let_4) (tptp.origin_of_replication_1 _let_3) (tptp.move_apart_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.agent_2 _let_4 X) (tptp.agent_2 _let_1 X) (tptp.origin_2 _let_1 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_helium_20 X))) (let ((_let_2 (tptp.fn_helium_13 X))) (let ((_let_3 (tptp.fn_atom_5 X))) (let ((_let_4 (tptp.fn_helium_14 X))) (let ((_let_5 (tptp.fn_helium_11 X))) (let ((_let_6 (tptp.fn_helium_18 X))) (let ((_let_7 (tptp.fn_helium_19 X))) (let ((_let_8 (tptp.fn_helium_21 X))) (let ((_let_9 (tptp.fn_helium_4 X))) (let ((_let_10 (tptp.fn_helium_3 X))) (let ((_let_11 (tptp.fn_helium_2 X))) (let ((_let_12 (tptp.fn_helium_1 X))) (=> (tptp.helium_1 X) (and (tptp.original_name_2 X |tptp.'Helium'|) (tptp.user_description_2 X |tptp.'Helium is a non metal atom with atomic number 2. It is represented by the symbol He.'|) (tptp.concept2words_2 X tptp.helium) (tptp.inert_atom_1 X) (tptp.neutron_1 _let_12) (tptp.electronegativity_value_1 _let_11) (tptp.valence_value_1 _let_10) (tptp.atomic_mass_value_1 _let_9) (tptp.system_1 _let_5) (tptp.quantity_value_1 _let_2) (tptp.quantity_value_1 _let_4) (tptp.electron_1 _let_6) (tptp.atomic_weight_value_1 _let_7) (tptp.atomic_number_value_1 _let_1) (tptp.quantity_value_1 _let_8) (tptp.electronegativity_2 X _let_11) (tptp.valence_2 X _let_10) (tptp.mass_number_2 X _let_9) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.electron_0) (tptp.has_part_2 X _let_12) (tptp.the_cardinal_value_2 _let_8 |"2"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_11 |"0"|) (tptp.cardinal_unit_class_2 _let_11 tptp.unity_0) (tptp.the_cardinal_value_2 _let_10 |"0"|) (tptp.cardinal_unit_class_2 _let_10 tptp.unity_0) (tptp.the_cardinal_value_2 _let_9 |"4"|) (tptp.cardinal_unit_class_2 _let_9 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"2"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"4.003"|) (tptp.cardinal_unit_class_2 _let_7 tptp.dalton_0) (tptp.quantity_2 _let_6 _let_8) (tptp.called_2 _let_1 |tptp.'Atomic_Number'|) (tptp.atomic_weight_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.atomic_number_2 X _let_1) (= (tptp.fn_helium_16 X) (tptp.fn_atom_12 X)) (= (tptp.fn_helium_9 X) (tptp.fn_atom_10 X)) (= (tptp.fn_helium_15 X) (tptp.fn_atom_1 X)) (= _let_8 _let_3) (= (tptp.fn_helium_17 X) (tptp.fn_atom_13 X)) (= _let_7 (tptp.fn_atom_16 X)) (= _let_6 (tptp.fn_atom_14 X)) (= _let_5 (tptp.fn_atom_3 X)) (= (tptp.fn_helium_10 X) (tptp.fn_atom_2 X)) (= (tptp.fn_helium_12 X) (tptp.fn_atom_4 X)) (= _let_4 _let_3) (= _let_2 (tptp.fn_atom_11 X)) (= _let_1 (tptp.fn_atom_17 X))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.helper_t_1 X) (and (tptp.original_name_2 X |tptp.'Helper-T'|) (tptp.user_description_2 X |tptp.'A type of white blood cell with a role in adaptive immunity. Activated helper T cells secrete chemicals that promote the response of B cells (the humoral response) and cytotoxic T cells (the cell-mediated response).'|) (tptp.concept2words_2 X |tptp.'t of helper'|) (tptp.concept2words_2 X |tptp.'helper t'|) (tptp.concept2words_2 X |tptp.'helper-t'|) (tptp.t_cells_1 X) (not (tptp.cytotoxic_t_1 X)) (not (tptp.memory_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heme_1 X))) (let ((_let_2 (tptp.fn_heme_2 X))) (=> (tptp.heme_1 X) (and (tptp.original_name_2 X |tptp.'Heme'|) (tptp.user_description_2 X |tptp.'A heme is a porphyrin prosthetic group of hemoglobin that binds iron and is valuable for oxygen transport in the body.'|) (tptp.concept2words_2 X |tptp.'heme group'|) (tptp.concept2words_2 X |tptp.'heme-group'|) (tptp.concept2words_2 X tptp.heme) (tptp.porphyrin_1 X) (tptp.prosthetic_group_1 X) (tptp.center_1 _let_1) (tptp.iron_1 _let_2) (tptp.is_at_2 _let_2 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_region_2 X _let_1) (= _let_2 (tptp.fn_organic_molecule_2 X)) (= _let_1 (tptp.fn_porphyrin_5 X))))))) (forall ((X $$unsorted)) (=> (tptp.hemiptera_1 X) (and (tptp.original_name_2 X |tptp.'Hemiptera'|) (tptp.user_description_2 X |tptp.'Order of the class Insecta having sucking mouthparts.'|) (tptp.concept2words_2 X |tptp.'true bugs'|) (tptp.concept2words_2 X |tptp.'true-bugs'|) (tptp.concept2words_2 X tptp.hemiptera) (tptp.insect_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hemizygous_1 X))) (=> (tptp.hemizygous_1 X) (and (tptp.original_name_2 X |tptp.'Hemizygous'|) (tptp.user_description_2 X |tptp.'Having only a single copy of a gene instead of the customary two copies.'|) (tptp.concept2words_2 X tptp.hemizygous) (tptp.genotype_1 X) (tptp.homologous_chromosome_1 _let_1) (tptp.has_part_2 X _let_1) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.homologous_chromosome_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hemizygous_for_x_3 X))) (let ((_let_2 (tptp.fn_hemizygous_for_x_4 X))) (let ((_let_3 (tptp.fn_hemizygous_for_x_1 X))) (=> (tptp.hemizygous_for_x_1 X) (and (tptp.original_name_2 X |tptp.'Hemizygous-For-X'|) (tptp.user_description_2 X |tptp.'Having only a single copy of a gene on one X chromsome instead of the customary two copies. Given that normal human males have only one X chromosome, they are thus hemizygous for X.'|) (tptp.concept2words_2 X |tptp.'hemizygous for x'|) (tptp.concept2words_2 X |tptp.'hemizygous-for-x'|) (tptp.hemizygous_1 X) (tptp.x_chromosome_1 _let_3) (tptp.sex_value_1 _let_1) (tptp.organism_1 _let_2) (tptp.sex_2 _let_2 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.x_chromosome_0) (tptp.has_part_2 X _let_3) (tptp.element_2 X _let_2) (tptp.the_categorical_value_2 _let_1 tptp.male_0))))))) (forall ((X $$unsorted)) (=> (tptp.hemocyanin_1 X) (and (tptp.original_name_2 X |tptp.'Hemocyanin'|) (tptp.user_description_2 X |tptp.'A respiratory pigment found in the hemolymph of arthropods and many mollusks; it has copper, rather than iron, as its oxygen-binding component.'|) (tptp.concept2words_2 X tptp.hemocyanin) (tptp.respiratory_pigment_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hemoglobin_7 X))) (let ((_let_2 (tptp.fn_carry_1 _let_1))) (let ((_let_3 (tptp.fn_hemoglobin_9 X))) (let ((_let_4 (tptp.fn_alpha_globin_1 _let_3))) (let ((_let_5 (tptp.fn_polymer_4 X))) (let ((_let_6 (tptp.fn_polymer_6 X))) (let ((_let_7 (tptp.fn_hemoglobin_10 X))) (let ((_let_8 (tptp.fn_hemoglobin_11 X))) (let ((_let_9 (tptp.fn_hemoglobin_12 X))) (let ((_let_10 (tptp.fn_hemoglobin_4 X))) (let ((_let_11 (tptp.fn_hemoglobin_5 X))) (let ((_let_12 (tptp.fn_hemoglobin_6 X))) (let ((_let_13 (tptp.fn_move_1 _let_1))) (let ((_let_14 (tptp.fn_hemoglobin_8 X))) (let ((_let_15 (tptp.fn_hemoglobin_1 X))) (=> (tptp.hemoglobin_1 X) (and (tptp.original_name_2 X |tptp.'Hemoglobin'|) (tptp.user_description_2 X |tptp.'Hemoglobin is a quaternary protein in the red blood cells of vertebrates which forms a loose bond with oxygen and allows the oxygen to be transported by the blood from a respiratory structure to working cells within the body.'|) (tptp.concept2words_2 X tptp.haemoglobin) (tptp.concept2words_2 X tptp.hemoglobin) (tptp.respiratory_pigment_1 X) (tptp.globular_protein_1 X) (tptp.erythrocyte_1 _let_15) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.carbon_1 _let_11) (tptp.ionic_region_1 _let_12) (tptp.carry_1 _let_1) (tptp.oxygen_molecule_1 _let_14) (tptp.polypeptide_1 _let_3) (tptp.alpha_globin_1 _let_3) (tptp.monomer_1 _let_7) (tptp.size_value_1 _let_8) (tptp.size_value_1 _let_9) (tptp.spatial_entity_1 _let_13) (tptp.hemoglobin_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.the_scalar_value_2 _let_9 tptp.big_0) (tptp.scalar_unit_class_2 _let_9 tptp.polypeptide_0) (tptp.has_part_2 _let_15 X) (tptp.has_function_2 X _let_1) (tptp.object_2 _let_1 _let_14) (tptp.agent_2 _let_1 X) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_10) (not (= _let_11 _let_10)) (not (= _let_10 _let_11)) (tptp.size_2 X _let_9) (tptp.has_part_2 X _let_7) (tptp.size_2 _let_7 _let_8) (tptp.greater_than_2 _let_9 _let_8) (= _let_14 _let_13) (= _let_3 (tptp.fn_protein_8 X)) (= X _let_4) (= X _let_2) (= _let_12 (tptp.fn_water_soluble_protein_6 X)) (= _let_11 (tptp.fn_organic_molecule_1 X)) (= _let_10 (tptp.fn_organic_molecule_2 X)) (= (tptp.fn_hemoglobin_3 X) (tptp.fn_polymer_10 X)) (= (tptp.fn_hemoglobin_2 X) (tptp.fn_polymer_9 X)) (= _let_9 (tptp.fn_polymer_8 X)) (= _let_8 (tptp.fn_polymer_7 X)) (= _let_7 _let_6) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hemolymph_1 X) (and (tptp.original_name_2 X |tptp.'Hemolymph'|) (tptp.user_description_2 X |tptp.'The fluid that permeates body tissues, in invertebrate animals with an open circulatory system.'|) (tptp.concept2words_2 X tptp.hemolymph) (tptp.extra_cellular_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.interstitial_fluid_1 X)) (not (tptp.lymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hemophilia_5 X))) (let ((_let_2 (tptp.fn_code_for_1 _let_1))) (let ((_let_3 (tptp.fn_code_for_2 _let_1))) (let ((_let_4 (tptp.fn_hemophilia_6 X))) (let ((_let_5 (tptp.fn_hemophilia_4 X))) (let ((_let_6 (tptp.fn_hemophilia_3 X))) (let ((_let_7 (tptp.fn_hemophilia_2 X))) (=> (tptp.hemophilia_1 X) (and (tptp.original_name_2 X |tptp.'Hemophilia'|) (tptp.user_description_2 X |tptp.'A human genetic disease caused by a sex-linked recessive allele resulting in the absence of one or more blood-clotting proteins; characterized by excessive bleeding following injury.'|) (tptp.concept2words_2 X tptp.hemophilia) (tptp.sex_linked_human_genetic_disorder_1 X) (not (tptp.color_blindness_1 X)) (not (tptp.duchenne_muscular_dystrophy_1 X)) (tptp.volume_value_1 _let_7) (tptp.has_condition_1 _let_6) (tptp.hemophiliac_1 _let_5) (tptp.code_for_1 _let_1) (tptp.clotting_factor_1 _let_4) (tptp.entity_1 _let_3) (tptp.entity_1 _let_2) (tptp.the_scalar_value_2 _let_7 tptp.small_0) (tptp.scalar_unit_class_2 _let_7 tptp.clotting_factor_0) (tptp.volume_2 _let_4 _let_7) (tptp.object_2 _let_6 X) (tptp.experiencer_2 _let_6 _let_5) (tptp.has_part_2 _let_5 _let_4) (tptp.result_2 _let_1 _let_4) (tptp.agent_2 _let_1 X) (= _let_4 _let_3) (= X _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hemophiliac_1 X))) (let ((_let_2 (tptp.fn_hemophilia_3 _let_1))) (let ((_let_3 (tptp.fn_hemophiliac_2 X))) (let ((_let_4 (tptp.fn_hemophilia_4 _let_1))) (=> (tptp.hemophiliac_1 X) (and (tptp.original_name_2 X |tptp.'Hemophiliac'|) (tptp.user_description_2 X |tptp.'Someone who has hemophilia and is subject to uncontrollable bleeding.'|) (tptp.concept2words_2 X |tptp.'person with hemophilia'|) (tptp.concept2words_2 X |tptp.'human with hemophilia'|) (tptp.concept2words_2 X |tptp.'hemophilic man'|) (tptp.concept2words_2 X |tptp.'hemophilic-man'|) (tptp.concept2words_2 X tptp.hemophiliac) (tptp.person_1 X) (tptp.hemophilia_1 _let_1) (tptp.has_condition_1 _let_3) (tptp.hemophiliac_1 _let_4) (tptp.has_condition_1 _let_2) (tptp.object_2 _let_3 _let_1) (tptp.experiencer_2 _let_3 X) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.vhf))) (=> (tptp.hemorrhagic_fever_1 X) (and (tptp.original_name_2 X |tptp.'Hemorrhagic-Fever'|) (tptp.user_description_2 X |tptp.'Any of several diverse virally-caused animal or human disease. Symptoms include high fever, bleeding disorders, shock, and death. There are 5 families of virus known to cause hemorrhagic fevers; for example, the Ebola virus.'|) (tptp.concept2words_2 X tptp.ebola) (tptp.concept2words_2 X |tptp.'viral hemorrhagic fevers'|) (tptp.concept2words_2 X |tptp.'viral-hemorrhagic-fevers'|) _let_1 _let_1 (tptp.concept2words_2 X |tptp.'hemorrhagic fever'|) (tptp.concept2words_2 X |tptp.'hemorrhagic-fever'|) (tptp.viral_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.henrietta_lacks_1 X) (and (tptp.original_name_2 X |tptp.'Henrietta-Lacks'|) (tptp.user_description_2 X |tptp.'African-American woman from whom the immortal HeLa cell line was isolated and created, without her consent or any compensation.'|) (tptp.concept2words_2 X |tptp.'henrietta lack'|) (tptp.concept2words_2 X |tptp.'henrietta-lack'|) (tptp.person_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hepatic_portal_vessel_1 X) (and (tptp.original_name_2 X |tptp.'Hepatic-Portal-Vessel'|) (tptp.user_description_2 X |tptp.'The vascular supply from the intestine, which carries products from digested food to the liver.'|) (tptp.concept2words_2 X |tptp.'hepatic portal vessel'|) (tptp.concept2words_2 X |tptp.'hepatic-portal-vessel'|) (tptp.blood_vessel_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hepatitis_b_virus_1 X) (and (tptp.original_name_2 X |tptp.'Hepatitis-B-Virus'|) (tptp.user_description_2 X |tptp.'A DNA virus which is responsible for Hepatitis B.'|) (tptp.concept2words_2 X |tptp.'hepatitis b virus'|) (tptp.concept2words_2 X |tptp.'hepatitis-b-virus'|) (tptp.dna_virus_1 X) (not (tptp.adenovirus_1 X)) (not (tptp.cowpox_virus_1 X)) (not (tptp.herpesvirus_1 X)) (not (tptp.papovavirus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_receptor_tyrosine_kinase_20 X))) (let ((_let_2 (tptp.fn_tyrosine_kinase_11 X))) (let ((_let_3 (tptp.fn_enzyme_4 X))) (let ((_let_4 (tptp.fn_receptor_tyrosine_kinase_12 X))) (let ((_let_5 (tptp.fn_kinase_7 X))) (let ((_let_6 (tptp.fn_receptor_tyrosine_kinase_19 X))) (let ((_let_7 (tptp.fn_her2_6 X))) (let ((_let_8 (tptp.fn_cofactor_1 _let_7))) (let ((_let_9 (tptp.fn_tyrosine_kinase_10 X))) (let ((_let_10 (tptp.fn_her2_5 X))) (let ((_let_11 (tptp.fn_reactant_3 _let_10))) (let ((_let_12 (tptp.fn_her2_1 X))) (let ((_let_13 (tptp.fn_her2_9 X))) (let ((_let_14 (tptp.fn_her2_4 X))) (let ((_let_15 (tptp.fn_her2_7 X))) (let ((_let_16 (tptp.fn_her2_2 X))) (let ((_let_17 (tptp.fn_her2_10 X))) (let ((_let_18 (tptp.fn_her2_8 X))) (let ((_let_19 (tptp.fn_phosphorylation_5 _let_12))) (let ((_let_20 (tptp.fn_her2_3 X))) (=> (tptp.her2_1 X) (and (tptp.original_name_2 X |tptp.'HER2'|) (tptp.user_description_2 X |tptp.'Human Epidermal Growth Factor Receptor 2, a receptor protein which functions in cell signalling events leading to cell growth and division. It is implicated in certain types of cancer.'|) (tptp.concept2words_2 X tptp.her2) (tptp.receptor_tyrosine_kinase_1 X) (tptp.chemical_reaction_1 _let_12) (tptp.phosphorylation_1 _let_12) (tptp.chemical_entity_1 _let_16) (tptp.protein_1 _let_16) (tptp.inorganic_phosphate_1 _let_20) (tptp.chemical_entity_1 _let_14) (tptp.magnesium_1 _let_14) (tptp.reactant_1 _let_10) (tptp.cofactor_1 _let_7) (tptp.chemical_entity_1 _let_15) (tptp.molecule_1 _let_15) (tptp.protein_1 _let_15) (tptp.catalyst_1 _let_18) (tptp.active_site_1 _let_13) (tptp.decrease_1 _let_17) (tptp.chemical_entity_1 _let_19) (tptp.chemical_entity_1 _let_11) (tptp.chemical_entity_1 _let_8) (tptp.in_event_2 _let_7 _let_12) (tptp.plays_2 _let_15 _let_10) (tptp.plays_2 _let_14 _let_7) (tptp.raw_material_2 _let_12 _let_20) (tptp.in_event_2 _let_10 _let_12) (tptp.has_function_2 X _let_17) (tptp.enables_2 _let_17 _let_12) (tptp.in_event_2 _let_18 _let_12) (tptp.plays_2 X _let_18) (tptp.raw_material_2 _let_12 _let_15) (tptp.has_state_2 _let_15 _let_16) (tptp.result_2 _let_12 _let_16) (tptp.called_2 X |tptp.'MP2'|) (tptp.instrument_2 _let_12 _let_14) (tptp.has_region_2 X _let_13) (tptp.has_function_2 X _let_12) (tptp.site_2 _let_12 _let_13) (tptp.facilitates_2 _let_13 _let_12) (tptp.agent_2 _let_12 _let_14) (tptp.is_at_2 _let_14 _let_13) (= _let_15 _let_11) (= _let_14 _let_8) (= _let_20 _let_19) (= _let_10 (tptp.fn_enzyme_7 X)) (= _let_18 (tptp.fn_enzyme_6 X)) (= _let_12 _let_3) (= _let_17 (tptp.fn_enzyme_5 X)) (= _let_16 (tptp.fn_tyrosine_kinase_9 X)) (= _let_15 _let_9) (= _let_13 _let_5) (= _let_14 _let_6) (= _let_13 _let_4) (= _let_12 _let_2) (= _let_12 _let_1) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_herbivore_17 X))) (let ((_let_2 (tptp.fn_animal_18 _let_1))) (let ((_let_3 (tptp.fn_herbivore_24 X))) (let ((_let_4 (tptp.fn_bacterium_13 _let_3))) (let ((_let_5 (tptp.fn_organism_3 _let_3))) (let ((_let_6 (tptp.fn_herbivore_27 X))) (let ((_let_7 (tptp.fn_symbiosis_1 _let_6))) (let ((_let_8 (tptp.fn_herbivore_25 X))) (let ((_let_9 (tptp.fn_symbiosis_1 _let_8))) (let ((_let_10 (tptp.fn_herbivore_21 X))) (let ((_let_11 (tptp.fn_agent_role_1 _let_10))) (let ((_let_12 (tptp.fn_animal_21 _let_1))) (let ((_let_13 (tptp.fn_herbivore_22 X))) (let ((_let_14 (tptp.fn_food_absorption_3 _let_13))) (let ((_let_15 (tptp.fn_herbivore_20 X))) (let ((_let_16 (tptp.fn_digestive_system_1 _let_15))) (let ((_let_17 (tptp.fn_herbivore_16 X))) (let ((_let_18 (tptp.fn_herbivore_23 X))) (let ((_let_19 (tptp.fn_animal_19 _let_1))) (let ((_let_20 (tptp.fn_herbivore_18 X))) (let ((_let_21 (tptp.fn_herbivore_19 X))) (let ((_let_22 (tptp.fn_animal_5 _let_1))) (let ((_let_23 (tptp.fn_animal_6 _let_1))) (let ((_let_24 (tptp.fn_herbivore_15 X))) (let ((_let_25 (tptp.fn_symbiosis_2 _let_6))) (let ((_let_26 (tptp.fn_herbivore_26 X))) (let ((_let_27 (tptp.fn_symbiosis_2 _let_8))) (let ((_let_28 (tptp.fn_herbivore_5 X))) (let ((_let_29 (tptp.fn_herbivore_6 X))) (let ((_let_30 (tptp.fn_herbivore_7 X))) (let ((_let_31 (tptp.fn_herbivore_2 X))) (let ((_let_32 (tptp.fn_herbivore_13 X))) (let ((_let_33 (tptp.fn_herbivore_8 X))) (let ((_let_34 (tptp.fn_herbivore_9 X))) (let ((_let_35 (tptp.fn_herbivore_10 X))) (let ((_let_36 (tptp.fn_herbivore_12 X))) (let ((_let_37 (tptp.fn_herbivore_14 X))) (=> (tptp.herbivore_1 X) (and (tptp.original_name_2 X |tptp.'Herbivore'|) (tptp.user_description_2 X |tptp.'An animal which primarily consumes plants or algae as a source of energy and nutrients.'|) (tptp.concept2words_2 X tptp.herbivore) (tptp.heterotroph_1 X) (tptp.length_value_1 _let_31) (tptp.surface_area_value_1 _let_28) (tptp.rate_value_1 _let_29) (tptp.algae_1 _let_30) (tptp.plant_1 _let_33) (tptp.alimentary_canal_1 _let_34) (tptp.length_value_1 _let_35) (tptp.cecum_1 _let_36) (tptp.intestine_1 _let_32) (tptp.colon_1 _let_37) (tptp.atom_1 _let_24) (tptp.carbon_1 _let_24) (tptp.digestive_organ_1 _let_17) (tptp.entity_1 _let_1) (tptp.organism_1 _let_1) (tptp.animal_1 _let_1) (tptp.nutrition_1 _let_20) (tptp.animal_cell_1 _let_21) (tptp.digestive_system_1 _let_15) (tptp.agent_role_1 _let_10) (tptp.food_absorption_1 _let_13) (tptp.genome_1 _let_18) (tptp.genotype_1 _let_18) (tptp.organism_1 _let_3) (tptp.bacterium_1 _let_3) (tptp.symbiosis_1 _let_8) (tptp.bacterium_1 _let_26) (tptp.symbiosis_1 _let_6) (tptp.organism_1 _let_27) (tptp.organism_1 _let_25) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.digestive_system_1 _let_22) (tptp.nutrition_1 _let_19) (tptp.digestive_organ_1 _let_16) (tptp.animal_cell_1 _let_14) (tptp.animal_cell_1 _let_12) (tptp.entity_1 _let_11) (tptp.organism_1 _let_9) (tptp.organism_1 _let_7) (tptp.genotype_1 _let_5) (tptp.genome_1 _let_4) (tptp.genotype_1 _let_4) (tptp.heterotroph_1 _let_2) (tptp.site_2 _let_6 _let_37) (tptp.site_2 _let_8 _let_36) (tptp.rate_2 _let_13 _let_29) (tptp.has_part_2 _let_32 _let_36) (tptp.has_region_2 _let_15 _let_34) (tptp.element_2 _let_15 _let_37) (tptp.element_2 _let_15 _let_36) (tptp.element_2 _let_15 _let_32) (tptp.the_scalar_value_2 _let_35 tptp.long_0) (tptp.scalar_unit_class_2 _let_35 tptp.digestive_tract_0) (tptp.positive_influence_2 _let_35 _let_28) (tptp.greater_than_2 _let_35 _let_31) (tptp.length_2 _let_34 _let_35) (tptp.surface_area_2 _let_34 _let_28) (tptp.donor_2 _let_20 _let_30) (tptp.raw_material_2 _let_20 _let_33) (tptp.raw_material_2 _let_20 _let_30) (tptp.has_part_2 _let_1 _let_32) (tptp.length_2 _let_1 _let_31) (tptp.has_part_2 _let_30 _let_24) (tptp.directly_proportional_2 _let_29 _let_28) (tptp.plays_2 _let_1 _let_10) (tptp.base_2 _let_8 _let_1) (not (= _let_1 _let_3)) (tptp.agent_2 _let_8 _let_3) (not (= _let_3 _let_1)) (tptp.agent_2 _let_6 _let_26) (not (= _let_26 _let_1)) (tptp.base_2 _let_6 _let_1) (not (= _let_1 _let_26)) (tptp.base_2 _let_13 _let_21) (tptp.raw_material_2 _let_20 _let_24) (tptp.has_region_2 _let_1 _let_15) (tptp.plays_2 _let_1 X) (tptp.in_event_2 X _let_20) (tptp.agent_2 _let_20 _let_1) (tptp.has_part_2 _let_1 _let_21) (tptp.element_2 _let_15 _let_17) (tptp.has_part_2 _let_3 _let_18) (= _let_1 _let_11) (= _let_3 _let_27) (= _let_1 _let_9) (= _let_1 _let_7) (= _let_26 _let_25) (= _let_21 _let_14) (= _let_24 _let_23) (= _let_15 _let_22) (= _let_21 _let_12) (= _let_20 _let_19) (= X _let_2) (= _let_18 _let_5) (= _let_18 _let_4) (= _let_17 _let_16) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.herbivory_1 X) (and (tptp.original_name_2 X |tptp.'Herbivory'|) (tptp.user_description_2 X |tptp.'The consumption of all or part of a plant or alga for food.'|) (tptp.concept2words_2 X tptp.herbivory) (tptp.species_interactions_1 X) (not (tptp.competition_1 X)) (not (tptp.symbiosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_11 X))) (let ((_let_2 (tptp.fn_protein_14 X))) (let ((_let_3 (tptp.fn_protein_enzyme_10 X))) (let ((_let_4 (tptp.fn_enzyme_2 X))) (let ((_let_5 (tptp.fn_protein_enzyme_3 X))) (let ((_let_6 (tptp.fn_protein_9 X))) (let ((_let_7 (tptp.fn_protein_enzyme_9 X))) (let ((_let_8 (tptp.fn_polymer_4 X))) (let ((_let_9 (tptp.fn_herceptin_11 X))) (let ((_let_10 (tptp.fn_block_1 _let_9))) (let ((_let_11 (tptp.fn_herceptin_10 X))) (let ((_let_12 (tptp.fn_attach_2 _let_11))) (let ((_let_13 (tptp.fn_herceptin_8 X))) (let ((_let_14 (tptp.fn_herceptin_2 X))) (let ((_let_15 (tptp.fn_herceptin_12 X))) (let ((_let_16 (tptp.fn_herceptin_7 X))) (let ((_let_17 (tptp.fn_herceptin_4 X))) (let ((_let_18 (tptp.fn_herceptin_1 X))) (let ((_let_19 (tptp.fn_herceptin_5 X))) (let ((_let_20 (tptp.fn_herceptin_3 X))) (let ((_let_21 (tptp.fn_herceptin_6 X))) (let ((_let_22 (tptp.fn_attach_1 _let_11))) (let ((_let_23 (tptp.fn_herceptin_9 X))) (=> (tptp.herceptin_1 X) (and (tptp.original_name_2 X |tptp.'Herceptin'|) (tptp.user_description_2 X |tptp.'Treatment for breast cancer involving abnormal HER2 receptors.'|) (tptp.concept2words_2 X tptp.herceptin) (tptp.chemotherapeutic_drug_1 X) (tptp.protein_enzyme_1 X) (tptp.size_value_1 _let_18) (tptp.spatial_entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.monomer_1 _let_14) (tptp.molecule_1 _let_14) (tptp.amino_acid_1 _let_14) (tptp.chemical_reaction_1 _let_20) (tptp.size_value_1 _let_17) (tptp.monomer_1 _let_19) (tptp.polypeptide_1 _let_21) (tptp.active_site_1 _let_16) (tptp.protein_domain_1 _let_13) (tptp.her2_1 _let_23) (tptp.attach_1 _let_11) (tptp.block_1 _let_9) (tptp.r_group_1 _let_15) (tptp.spatial_entity_1 _let_22) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.agent_2 _let_9 X) (tptp.causes_2 _let_11 _let_9) (tptp.has_function_2 X _let_9) (tptp.base_2 _let_11 _let_23) (tptp.object_2 _let_9 _let_23) (tptp.object_2 _let_11 X) (tptp.has_part_2 X _let_21) (tptp.has_part_2 _let_21 _let_14) (tptp.has_function_2 X _let_20) (tptp.site_2 _let_20 _let_16) (tptp.facilitates_2 _let_16 _let_20) (tptp.the_scalar_value_2 _let_17 tptp.big_0) (tptp.scalar_unit_class_2 _let_17 tptp.polypeptide_0) (tptp.size_2 X _let_17) (tptp.greater_than_2 _let_17 _let_18) (tptp.size_2 _let_19 _let_18) (tptp.has_part_2 X _let_19) (tptp.has_region_2 X _let_13) (tptp.is_at_2 _let_14 _let_13) (tptp.has_region_2 _let_14 _let_15) (tptp.is_inside_2 _let_15 _let_16) (tptp.has_region_2 X _let_16) (= _let_23 _let_12) (= _let_23 _let_10) (= X _let_22) (= _let_14 _let_2) (= _let_21 (tptp.fn_protein_8 X)) (= _let_16 _let_4) (= _let_20 (tptp.fn_enzyme_4 X)) (= _let_19 _let_8) (= _let_19 _let_7) (= _let_18 (tptp.fn_protein_enzyme_4 X)) (= _let_17 _let_6) (= _let_17 _let_5) (= _let_16 _let_3) (= _let_15 (tptp.fn_protein_enzyme_12 X)) (= _let_14 _let_1) (= _let_13 (tptp.fn_protein_enzyme_5 X)) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_5 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hermaphroditism_1 X) (and (tptp.original_name_2 X |tptp.'Hermaphroditism'|) (tptp.user_description_2 X |tptp.'In animals, the condition of having both female and male sexual function, producing both eggs and sperm.'|) (tptp.concept2words_2 X tptp.hermaphroditism) (tptp.state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heroin_3 X))) (let ((_let_2 (tptp.fn_heroin_1 X))) (=> (tptp.heroin_1 X) (and (tptp.original_name_2 X |tptp.'Heroin'|) (tptp.user_description_2 X |tptp.'Heroin is an opiate which relieves pain and alters mood by weakly binding to specific receptor molecules on the surfaces of brain cells.'|) (tptp.concept2words_2 X tptp.heroin) (tptp.opiate_1 X) (tptp.intensity_value_1 _let_2) (tptp.ligand_binding_1 _let_1) (tptp.intensity_2 _let_1 _let_2) (tptp.the_scalar_value_2 _let_2 tptp.weak_0) (tptp.scalar_unit_class_2 _let_2 tptp.attach_0) (tptp.object_2 _let_1 X) (= _let_1 (tptp.fn_opiate_7 X))))))) (forall ((X $$unsorted)) (=> (tptp.herpesvirus_1 X) (and (tptp.original_name_2 X |tptp.'Herpesvirus'|) (tptp.user_description_2 X |tptp.'A class of DNA viruses that cause disease in humans and other animals.'|) (tptp.concept2words_2 X tptp.herpesvirus) (tptp.dna_virus_1 X) (not (tptp.adenovirus_1 X)) (not (tptp.cowpox_virus_1 X)) (not (tptp.hepatitis_b_virus_1 X)) (not (tptp.papovavirus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hershey_chase_experiment_5 X))) (let ((_let_2 (tptp.fn_add_2 _let_1))) (let ((_let_3 (tptp.fn_hershey_chase_experiment_11 X))) (let ((_let_4 (tptp.fn_hershey_chase_experiment_7 X))) (let ((_let_5 (tptp.fn_attach_2 _let_4))) (let ((_let_6 (tptp.fn_hershey_chase_experiment_15 X))) (let ((_let_7 (tptp.fn_hershey_chase_experiment_6 X))) (let ((_let_8 (tptp.fn_attach_2 _let_7))) (let ((_let_9 (tptp.fn_hershey_chase_experiment_14 X))) (let ((_let_10 (tptp.fn_attach_1 _let_7))) (let ((_let_11 (tptp.fn_hershey_chase_experiment_9 X))) (let ((_let_12 (tptp.fn_hershey_chase_experiment_12 X))) (let ((_let_13 (tptp.fn_collecting_1 _let_12))) (let ((_let_14 (tptp.fn_hershey_chase_experiment_13 X))) (let ((_let_15 (tptp.fn_attach_1 _let_4))) (let ((_let_16 (tptp.fn_hershey_chase_experiment_8 X))) (let ((_let_17 (tptp.fn_add_1 _let_1))) (let ((_let_18 (tptp.fn_hershey_chase_experiment_10 X))) (let ((_let_19 (tptp.fn_hershey_chase_experiment_2 X))) (let ((_let_20 (tptp.fn_hershey_chase_experiment_4 X))) (let ((_let_21 (tptp.fn_hershey_chase_experiment_3 X))) (let ((_let_22 (tptp.fn_hershey_chase_experiment_1 X))) (=> (tptp.hershey_chase_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Hershey-Chase-Experiment'|) (tptp.user_description_2 X |tptp.'An experiment in which scientists used autoradiography to determine that DNA, not protein, was the genetic material in a bacteriophage.'|) (tptp.concept2words_2 X |tptp.'hershey and chase experiment'|) (tptp.concept2words_2 X |tptp.'hershey chase experiment'|) (tptp.concept2words_2 X |tptp.'hershey-chase-experiment'|) (tptp.controlled_experiment_1 X) (not (tptp.testcross_1 X)) (tptp.t2_phage_1 _let_22) (tptp.plasmolysis_1 _let_19) (tptp.isotopic_labeling_1 _let_21) (tptp.solution_containing_labeled_phage_1 _let_20) (tptp.add_1 _let_1) (tptp.attach_1 _let_7) (tptp.attach_1 _let_4) (tptp.sulfur_35_1 _let_16) (tptp.phosphorus_32_1 _let_11) (tptp.deoxyribonuclease_1 _let_18) (tptp.solution_containing_labeled_phage_1 _let_3) (tptp.isolation_of_phage_1 _let_12) (tptp.t2_phage_1 _let_14) (tptp.dna_1 _let_9) (tptp.protein_1 _let_6) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.entity_1 _let_13) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_5) (tptp.spatial_entity_1 _let_2) (tptp.has_part_2 _let_20 _let_22) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_19) (tptp.has_part_2 _let_14 _let_9) (tptp.has_part_2 _let_14 _let_6) (tptp.object_2 _let_21 _let_14) (tptp.agent_2 _let_21 _let_11) (tptp.agent_2 _let_21 _let_16) (tptp.next_event_2 _let_21 _let_1) (tptp.next_event_2 _let_12 _let_21) (tptp.has_part_2 _let_3 _let_14) (tptp.result_2 _let_1 _let_20) (tptp.next_event_2 _let_1 _let_19) (tptp.object_2 _let_19 _let_14) (tptp.object_2 _let_1 _let_18) (tptp.object_2 _let_4 _let_16) (tptp.object_2 _let_12 _let_14) (tptp.object_2 _let_7 _let_11) (tptp.base_2 _let_7 _let_9) (tptp.base_2 _let_4 _let_6) (tptp.base_2 _let_1 _let_3) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterochromatin_30 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_chromosome_4 X))) (let ((_let_4 (tptp.fn_heterochromatin_13 X))) (let ((_let_5 (tptp.fn_eukaryotic_cell_30 _let_4))) (let ((_let_6 (tptp.fn_heterochromatin_22 X))) (let ((_let_7 (tptp.fn_chromatin_packing_5 _let_6))) (let ((_let_8 (tptp.fn_heterochromatin_9 X))) (let ((_let_9 (tptp.fn_chromosome_6 _let_8))) (let ((_let_10 (tptp.fn_eukaryotic_cell_53 _let_4))) (let ((_let_11 (tptp.fn_heterochromatin_29 X))) (let ((_let_12 (tptp.fn_nucleic_acid_20 _let_11))) (let ((_let_13 (tptp.fn_polymer_4 _let_11))) (let ((_let_14 (tptp.fn_eukaryotic_chromatin_13 X))) (let ((_let_15 (tptp.fn_attach_1 _let_1))) (let ((_let_16 (tptp.fn_chromatin_packing_9 _let_6))) (let ((_let_17 (tptp.fn_chromatin_packing_2 _let_6))) (let ((_let_18 (tptp.fn_dna_2 _let_11))) (let ((_let_19 (tptp.fn_heterochromatin_24 X))) (let ((_let_20 (tptp.fn_dna_11 _let_11))) (let ((_let_21 (tptp.fn_heterochromatin_23 X))) (let ((_let_22 (tptp.fn_chromosome_3 _let_8))) (let ((_let_23 (tptp.fn_heterochromatin_15 X))) (let ((_let_24 (tptp.fn_chromosome_8 _let_8))) (let ((_let_25 (tptp.fn_heterochromatin_19 X))) (let ((_let_26 (tptp.fn_chromosome_4 _let_8))) (let ((_let_27 (tptp.fn_heterochromatin_14 X))) (let ((_let_28 (tptp.fn_heterochromatin_17 X))) (let ((_let_29 (tptp.fn_nucleic_acid_29 _let_11))) (let ((_let_30 (tptp.fn_heterochromatin_26 X))) (let ((_let_31 (tptp.fn_nucleic_acid_28 _let_11))) (let ((_let_32 (tptp.fn_heterochromatin_27 X))) (let ((_let_33 (tptp.fn_nucleic_acid_34 _let_11))) (let ((_let_34 (tptp.fn_heterochromatin_25 X))) (let ((_let_35 (tptp.fn_nucleic_acid_33 _let_11))) (let ((_let_36 (tptp.fn_eukaryotic_chromosome_5 _let_8))) (let ((_let_37 (tptp.fn_heterochromatin_18 X))) (let ((_let_38 (tptp.fn_eukaryotic_chromosome_4 _let_8))) (let ((_let_39 (tptp.fn_heterochromatin_16 X))) (let ((_let_40 (tptp.fn_heterochromatin_28 X))) (let ((_let_41 (tptp.fn_heterochromatin_6 X))) (let ((_let_42 (tptp.fn_heterochromatin_7 X))) (let ((_let_43 (tptp.fn_heterochromatin_5 X))) (let ((_let_44 (tptp.fn_heterochromatin_8 X))) (let ((_let_45 (tptp.fn_eukaryotic_cell_26 _let_4))) (let ((_let_46 (tptp.fn_heterochromatin_12 X))) (let ((_let_47 (tptp.fn_eukaryotic_cell_10 _let_4))) (let ((_let_48 (tptp.fn_heterochromatin_3 X))) (let ((_let_49 (tptp.fn_eukaryotic_cell_9 _let_4))) (let ((_let_50 (tptp.fn_heterochromatin_4 X))) (let ((_let_51 (tptp.fn_heterochromatin_10 X))) (let ((_let_52 (tptp.fn_chromatin_packing_8 _let_6))) (let ((_let_53 (tptp.fn_heterochromatin_11 X))) (let ((_let_54 (tptp.fn_chromatin_packing_4 _let_6))) (let ((_let_55 (tptp.fn_heterochromatin_31 X))) (let ((_let_56 (tptp.fn_heterochromatin_2 X))) (=> (tptp.heterochromatin_1 X) (and (tptp.original_name_2 X |tptp.'Heterochromatin'|) (tptp.user_description_2 X |tptp.'Eukaryotic chromatin that remains highly compacted during interphase and is generally not transcribed.'|) (tptp.concept2words_2 X tptp.heterochromatin) (tptp.eukaryotic_chromatin_1 X) (tptp.visibility_value_1 _let_56) (tptp.chromosome_arm_1 _let_48) (tptp.chromosome_arm_1 _let_50) (tptp.chromosome_arm_1 _let_43) (tptp.chromosome_arm_1 _let_41) (tptp.centromere_1 _let_42) (tptp.condense_1 _let_44) (tptp.eukaryotic_chromosome_1 _let_8) (tptp.chromosome_1 _let_8) (tptp.fold_1 _let_51) (tptp.fold_1 _let_53) (tptp.tangible_entity_1 _let_46) (tptp.nucleus_1 _let_46) (tptp.eukaryotic_cell_1 _let_4) (tptp.entity_1 _let_27) (tptp.dna_1 _let_27) (tptp.protein_1 _let_23) (tptp.telomere_1 _let_39) (tptp.centromere_1 _let_28) (tptp.end_1 _let_37) (tptp.coil_1 _let_25) (tptp.chromatin_packing_1 _let_6) (tptp.dna_strand_1 _let_21) (tptp.dna_strand_1 _let_19) (tptp.monomer_1 _let_34) (tptp.nucleoside_monophosphate_1 _let_34) (tptp.size_value_1 _let_30) (tptp.size_value_1 _let_32) (tptp.spatial_entity_1 _let_40) (tptp.histone_1 _let_40) (tptp.entity_1 _let_11) (tptp.spatial_entity_1 _let_11) (tptp.polymer_1 _let_11) (tptp.nucleic_acid_1 _let_11) (tptp.dna_1 _let_11) (tptp.attach_1 _let_1) (tptp.coil_1 _let_55) (tptp.eukaryotic_chromatin_1 _let_54) (tptp.heterochromatin_1 _let_54) (tptp.fold_1 _let_52) (tptp.chromosome_arm_1 _let_49) (tptp.chromosome_arm_1 _let_47) (tptp.tangible_entity_1 _let_45) (tptp.nucleus_1 _let_45) (tptp.telomere_1 _let_38) (tptp.end_1 _let_36) (tptp.property_node_1 _let_35) (tptp.property_node_1 _let_33) (tptp.size_value_1 _let_31) (tptp.size_value_1 _let_29) (tptp.entity_1 _let_26) (tptp.dna_1 _let_26) (tptp.coil_1 _let_24) (tptp.protein_1 _let_22) (tptp.dna_strand_1 _let_20) (tptp.dna_strand_1 _let_18) (tptp.fold_1 _let_17) (tptp.fold_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.monomer_1 _let_13) (tptp.nucleoside_monophosphate_1 _let_12) (tptp.centromere_1 _let_10) (tptp.centromere_1 _let_9) (tptp.chromosome_1 _let_7) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.chromosome_1 _let_5) (tptp.spatial_entity_1 _let_2) (tptp.visibility_2 X _let_56) (tptp.agent_2 _let_55 _let_40) (tptp.the_categorical_value_2 _let_56 tptp.visible_0) (tptp.result_2 _let_51 _let_8) (tptp.has_part_2 X _let_11) (tptp.object_2 _let_55 _let_11) (tptp.result_2 _let_53 X) (tptp.subevent_2 _let_6 _let_51) (tptp.next_event_2 _let_51 _let_53) (tptp.object_2 _let_53 _let_8) (tptp.object_2 _let_6 _let_8) (tptp.subevent_2 _let_6 _let_53) (tptp.has_part_2 _let_4 _let_8) (tptp.has_part_2 _let_8 _let_50) (tptp.has_part_2 _let_4 _let_46) (tptp.is_inside_2 _let_8 _let_46) (tptp.has_part_2 _let_8 _let_48) (tptp.is_between_2 _let_28 _let_48) (tptp.is_between_2 _let_28 _let_50) (tptp.is_between_2 _let_42 _let_43) (tptp.has_part_2 X _let_43) (tptp.object_2 _let_44 X) (tptp.base_2 _let_44 X) (tptp.has_region_2 X _let_42) (tptp.has_part_2 X _let_40) (tptp.object_2 _let_1 _let_40) (tptp.result_2 _let_1 X) (tptp.has_part_2 X _let_41) (tptp.is_between_2 _let_42 _let_41) (not (= _let_21 _let_19)) (not (= _let_19 _let_21)) (tptp.complement_2 _let_21 _let_19) (tptp.complement_2 _let_19 _let_21) (tptp.has_part_2 _let_11 _let_21) (tptp.has_part_2 _let_11 _let_19) (tptp.has_region_2 _let_8 _let_28) (tptp.has_part_2 _let_8 _let_27) (tptp.object_2 _let_25 _let_27) (tptp.agent_2 _let_25 _let_23) (tptp.has_part_2 _let_8 _let_23) (tptp.greater_than_2 _let_30 _let_32) (tptp.size_2 _let_34 _let_32) (tptp.has_part_2 _let_11 _let_34) (tptp.size_2 _let_11 _let_30) (tptp.has_part_2 _let_8 _let_39) (tptp.is_at_2 _let_39 _let_37) (tptp.has_region_2 _let_8 _let_37) (tptp.base_2 _let_1 _let_11) (= _let_55 (tptp.fn_chromosome_8 X)) (= _let_11 _let_3) (= X _let_54) (= _let_8 _let_7) (= _let_53 _let_52) (= _let_51 _let_17) (= _let_51 _let_16) (= _let_50 _let_49) (= _let_28 _let_10) (= _let_48 _let_47) (= _let_8 _let_5) (= _let_46 _let_45) (= _let_44 (tptp.fn_eukaryotic_chromatin_15 X)) (= _let_43 (tptp.fn_eukaryotic_chromatin_2 X)) (= _let_42 (tptp.fn_eukaryotic_chromatin_12 X)) (= _let_41 (tptp.fn_eukaryotic_chromatin_1 X)) (= _let_40 _let_15) (= _let_1 (tptp.fn_eukaryotic_chromatin_14 X)) (= _let_40 _let_14) (= _let_11 _let_2) (= _let_39 _let_38) (= _let_37 _let_36) (= (tptp.fn_heterochromatin_21 X) _let_35) (= _let_34 _let_13) (= _let_34 _let_12) (= (tptp.fn_heterochromatin_20 X) _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_9) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.heterochrony_1 X) (and (tptp.original_name_2 X |tptp.'Heterochrony'|) (tptp.user_description_2 X |tptp.'A change in the timing of developmental events or rate of growth.'|) (tptp.concept2words_2 X tptp.heterochrony) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.heterocyte_1 X) (and (tptp.original_name_2 X |tptp.'Heterocyte'|) (tptp.user_description_2 X |tptp.'A specialized cell that engages in nitrogen fixationin a chain of cyanobacteria that form a filament; formerly called heterocyst.'|) (tptp.concept2words_2 X tptp.heterocyte) (tptp.cyanobacterium_1 X) (not (tptp.coccus_1 X)) (not (tptp.proteobacteria_1 X)) (not (tptp.spirochete_1 X))))) (forall ((X $$unsorted)) (=> (tptp.heterogeneous_mixture_1 X) (and (tptp.original_name_2 X |tptp.'Heterogeneous-Mixture'|) (tptp.user_description_2 X |tptp.'A substance which is not uniform throughout its composition.'|) (tptp.concept2words_2 X |tptp.'heterogeneous mixture'|) (tptp.concept2words_2 X |tptp.'heterogeneous-mixture'|) (tptp.mixture_1 X)))) (forall ((X $$unsorted)) (=> (tptp.heterokaryon_1 X) (and (tptp.original_name_2 X |tptp.'Heterokaryon'|) (tptp.user_description_2 X |tptp.'In a fungal mycelium, a cell containing at least two haploid nuclei.'|) (tptp.concept2words_2 X tptp.heterokaryon) (tptp.mycelium_1 X) (not (tptp.dikaryotic_1 X))))) (forall ((X $$unsorted)) (=> (tptp.heteromorphic_1 X) (and (tptp.original_name_2 X |tptp.'Heteromorphic'|) (tptp.user_description_2 X |tptp.'Having different forms at various stages of the life cycle, such as the sporophyte and gametophyte generations of plants and algae, and the larval and adult stages of many animals.'|) (tptp.concept2words_2 X tptp.heteromorphic) (tptp.condition_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterotroph_17 X))) (let ((_let_2 (tptp.fn_carbon_source_2 _let_1))) (let ((_let_3 (tptp.fn_heterotroph_6 X))) (let ((_let_4 (tptp.fn_carbon_source_3 _let_1))) (let ((_let_5 (tptp.fn_heterotroph_5 X))) (let ((_let_6 (tptp.fn_heterotroph_7 X))) (let ((_let_7 (tptp.fn_nutritional_requirement_10 _let_6))) (let ((_let_8 (tptp.fn_heterotroph_8 X))) (let ((_let_9 (tptp.fn_nutritional_requirement_2 _let_6))) (let ((_let_10 (tptp.fn_heterotroph_16 X))) (let ((_let_11 (tptp.fn_nutritional_requirement_9 _let_6))) (let ((_let_12 (tptp.fn_heterotroph_9 X))) (let ((_let_13 (tptp.fn_nutritional_requirement_3 _let_6))) (let ((_let_14 (tptp.fn_heterotroph_15 X))) (let ((_let_15 (tptp.fn_nutritional_requirement_8 _let_6))) (let ((_let_16 (tptp.fn_heterotroph_10 X))) (let ((_let_17 (tptp.fn_nutritional_requirement_4 _let_6))) (let ((_let_18 (tptp.fn_heterotroph_14 X))) (let ((_let_19 (tptp.fn_nutritional_requirement_7 _let_6))) (let ((_let_20 (tptp.fn_heterotroph_11 X))) (let ((_let_21 (tptp.fn_nutritional_requirement_5 _let_6))) (let ((_let_22 (tptp.fn_heterotroph_13 X))) (let ((_let_23 (tptp.fn_nutritional_requirement_6 _let_6))) (let ((_let_24 (tptp.fn_heterotroph_12 X))) (let ((_let_25 (tptp.fn_heterotroph_3 X))) (let ((_let_26 (tptp.fn_heterotroph_4 X))) (let ((_let_27 (tptp.fn_heterotroph_2 X))) (let ((_let_28 (tptp.fn_heterotroph_1 X))) (=> (tptp.heterotroph_1 X) (and (tptp.original_name_2 X |tptp.'Heterotroph'|) (tptp.user_description_2 X |tptp.'An organism which obtains energy and nutrients from organic matter.'|) (tptp.concept2words_2 X |tptp.'heterotrophic organism'|) (tptp.concept2words_2 X |tptp.'non autrotrophic organism'|) (tptp.concept2words_2 X tptp.consumer) (tptp.concept2words_2 X tptp.heterotroph) (tptp.ecological_role_1 X) (tptp.energy_source_1 _let_28) (tptp.organism_1 _let_27) (tptp.nutrition_1 _let_25) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.organic_molecule_1 _let_3) (tptp.nutritional_requirement_1 _let_6) (tptp.iron_1 _let_8) (tptp.carbon_1 _let_12) (tptp.hydrogen_1 _let_16) (tptp.nitrogen_1 _let_20) (tptp.oxygen_1 _let_24) (tptp.phosphorus_1 _let_22) (tptp.sulfur_1 _let_18) (tptp.calcium_1 _let_14) (tptp.potassium_1 _let_10) (tptp.carbon_source_1 _let_1) (tptp.oxygen_1 _let_23) (tptp.phosphorus_1 _let_21) (tptp.nitrogen_1 _let_19) (tptp.sulfur_1 _let_17) (tptp.hydrogen_1 _let_15) (tptp.calcium_1 _let_13) (tptp.carbon_1 _let_11) (tptp.potassium_1 _let_9) (tptp.iron_1 _let_7) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.molecule_1 _let_2) (tptp.plays_2 _let_5 _let_28) (tptp.plays_2 _let_27 X) (tptp.raw_material_2 _let_25 _let_5) (tptp.raw_material_2 _let_25 _let_3) (tptp.agent_2 _let_25 _let_27) (tptp.result_2 _let_25 _let_26) (tptp.element_2 _let_6 _let_26) (tptp.in_event_2 X _let_25) (tptp.element_2 _let_6 _let_24) (tptp.element_2 _let_6 _let_22) (tptp.element_2 _let_6 _let_20) (tptp.element_2 _let_6 _let_18) (tptp.element_2 _let_6 _let_16) (tptp.element_2 _let_6 _let_14) (tptp.element_2 _let_6 _let_12) (tptp.element_2 _let_6 _let_10) (tptp.element_2 _let_6 _let_8) (tptp.plays_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_5) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterozygote_1 X))) (let ((_let_2 (tptp.fn_gene_13 _let_1))) (let ((_let_3 (tptp.fn_heterozygote_3 X))) (let ((_let_4 (tptp.fn_heterozygote_4 X))) (let ((_let_5 (tptp.fn_gene_13 _let_4))) (let ((_let_6 (tptp.fn_code_for_2 _let_3))) (let ((_let_7 (tptp.fn_heterozygote_2 X))) (=> (tptp.heterozygote_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygote'|) (tptp.user_description_2 X |tptp.'A person possessing two different forms of a particular gene, one inherited from each parent. A heterozygote is also called a carrier. For example, a woman who is a heterozygote for cystic fibrosis (CF) carries the CF gene on one of her chromosomes number 7 and the normal paired (non-CF) gene at the same position on her other chromosome 7. She is a carrier for CF but has no signs or symptoms of the disease. A manifesting heterozygote is a person who manifests signs or symptoms of what is usually a recessive condition and ordinarily only is evident in someone who has two copies of the gene. A compound heterozygote has two different mutant forms of a particular gene.'|) (tptp.concept2words_2 X tptp.heterozygote) (tptp.eukaryote_1 X) (tptp.allele_1 _let_1) (tptp.character_1 _let_7) (tptp.code_for_1 _let_3) (tptp.allele_1 _let_4) (tptp.entity_1 _let_6) (tptp.code_for_1 _let_5) (tptp.code_for_1 _let_2) (tptp.minCardinality _let_3 tptp.agent_0 |"2"| tptp.allele_0) (tptp.exactCardinality _let_3 tptp.result_0 |"1"| tptp.character_0) (tptp.has_part_2 X _let_1) (tptp.result_2 _let_3 _let_7) (tptp.agent_2 _let_3 _let_4) (tptp.agent_2 _let_3 _let_1) (= _let_7 _let_6) (= _let_3 _let_5) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.heterozygote_advantage_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygote-Advantage'|) (tptp.user_description_2 X |tptp.'The situation in which heterozygous individuals have greater reproductive success when compared to homozygous individuals. This tends to preserve multiple alleles in a population.'|) (tptp.concept2words_2 X |tptp.'heterozygous advantage'|) (tptp.concept2words_2 X |tptp.'heterozygous-advantage'|) (tptp.concept2words_2 X |tptp.'advantage of heterozygote'|) (tptp.concept2words_2 X |tptp.'heterozygote advantage'|) (tptp.concept2words_2 X |tptp.'heterozygote-advantage'|) (tptp.selection_force_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterozygous_2 X))) (let ((_let_2 (tptp.fn_heterozygous_1 X))) (=> (tptp.heterozygous_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygous'|) (tptp.user_description_2 X |tptp.'Possessing two different alleles for a particular gene.'|) (tptp.concept2words_2 X tptp.heterozygous) (tptp.genotype_1 X) (not (tptp.homozygous_1 X)) (tptp.allele_1 _let_2) (tptp.allele_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.allele_0) (tptp.has_part_2 X _let_2) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_gene_related_aggregates_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.heterozygous_complete_dominant_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygous-Complete-Dominant'|) (tptp.user_description_2 X |tptp.'An individual that has two different alleles for the same gene. One allele is dominant, and one is recessive.'|) (tptp.concept2words_2 X |tptp.'heterozygote complete dominant'|) (tptp.concept2words_2 X |tptp.'heterozygote-complete-dominant'|) (tptp.concept2words_2 X |tptp.'heterozygous complete dominant'|) (tptp.concept2words_2 X |tptp.'heterozygous-complete-dominant'|) (tptp.heterozygous_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterozygous_female_4 X))) (let ((_let_2 (tptp.fn_heterozygous_female_5 X))) (let ((_let_3 (tptp.fn_heterozygous_female_3 X))) (let ((_let_4 (tptp.fn_heterozygous_female_2 X))) (let ((_let_5 (tptp.fn_heterozygous_female_1 X))) (=> (tptp.heterozygous_female_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygous-Female'|) (tptp.user_description_2 X |tptp.'A female who is heterozygous for an X chromosome gene.'|) (tptp.concept2words_2 X |tptp.'female of heterozygous'|) (tptp.concept2words_2 X |tptp.'heterozygous female'|) (tptp.concept2words_2 X |tptp.'heterozygous-female'|) (tptp.heterozygous_1 X) (not (tptp.dominant_male_1 X)) (not (tptp.homozygous_dominant_female_1 X)) (not (tptp.recessive_male_1 X)) (not (tptp.x_dominant_and_y_1 X)) (tptp.allele_1 _let_5) (tptp.x_chromosome_dominant_1 _let_4) (tptp.x_chromosome_recessive_1 _let_3) (tptp.allele_1 _let_1) (tptp.code_for_1 _let_2) (tptp.element_2 X _let_5) (tptp.element_2 X _let_4) (tptp.element_2 X _let_3) (tptp.donor_2 _let_2 X) (tptp.agent_2 _let_2 X) (tptp.element_2 X _let_1) (= _let_2 (tptp.fn_genotype_2 X)) (= _let_1 (tptp.fn_heterozygous_2 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_heterozygous_trait_incomplete_dominance_2 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_heterozygous_trait_incomplete_dominance_3 X))) (let ((_let_4 (tptp.fn_genotype_2 _let_3))) (let ((_let_5 (tptp.fn_code_for_1 _let_1))) (let ((_let_6 (tptp.fn_heterozygous_trait_incomplete_dominance_1 X))) (=> (tptp.heterozygous_trait_incomplete_dominance_1 X) (and (tptp.original_name_2 X |tptp.'Heterozygous-Trait-Incomplete-Dominance'|) (tptp.user_description_2 X |tptp.'The phenoype of a heterozygous individual intermediate between the phenotypes of individuals homozygous for either allele.'|) (tptp.concept2words_2 X |tptp.'heterozygous trait incomplete dominance'|) (tptp.concept2words_2 X |tptp.'heterozygous-trait-incomplete-dominance'|) (tptp.trait_1 X) (not (tptp.dominant_trait_1 X)) (not (tptp.multifactorial_phenotype_1 X)) (not (tptp.recessive_trait_1 X)) (tptp.incomplete_dominance_1 _let_6) (tptp.code_for_1 _let_1) (tptp.heterozygous_1 _let_3) (tptp.entity_1 _let_5) (tptp.code_for_1 _let_4) (tptp.entity_1 _let_2) (tptp.by_means_of_2 _let_1 _let_6) (tptp.agent_2 _let_1 _let_3) (tptp.result_2 _let_1 X) (= _let_3 _let_5) (= _let_1 _let_4) (= X _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.hexapod_1 X) (and (tptp.original_name_2 X |tptp.'Hexapod'|) (tptp.user_description_2 X |tptp.'A group of arthropods possessing six legs; includes the insects as well as three smaller groups of wingless six-legged animals.'|) (tptp.concept2words_2 X tptp.hexapod) (tptp.arthropod_1 X) (not (tptp.cheliceriform_1 X)) (not (tptp.crustacean_1 X)) (not (tptp.daphnia_1 X)) (not (tptp.diplopode_1 X)) (not (tptp.myriapod_1 X)) (not (tptp.trilobite_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_3 X))) (let ((_let_3 (tptp.fn_protein_enzyme_7 X))) (let ((_let_4 (tptp.fn_organic_molecule_1 X))) (let ((_let_5 (tptp.fn_protein_enzyme_8 X))) (let ((_let_6 (tptp.fn_organic_molecule_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_10 X))) (let ((_let_10 (tptp.fn_enzyme_2 X))) (let ((_let_11 (tptp.fn_protein_enzyme_11 X))) (let ((_let_12 (tptp.fn_protein_14 X))) (let ((_let_13 (tptp.fn_hexokinase_16 X))) (let ((_let_14 (tptp.fn_hexokinase_12 X))) (let ((_let_15 (tptp.fn_hexokinase_11 X))) (let ((_let_16 (tptp.fn_hexokinase_10 X))) (let ((_let_17 (tptp.fn_hexokinase_2 X))) (let ((_let_18 (tptp.fn_hexokinase_13 X))) (let ((_let_19 (tptp.fn_hexokinase_19 X))) (let ((_let_20 (tptp.fn_hexokinase_15 X))) (let ((_let_21 (tptp.fn_hexokinase_5 X))) (let ((_let_22 (tptp.fn_hexokinase_18 X))) (let ((_let_23 (tptp.fn_hexokinase_17 X))) (let ((_let_24 (tptp.fn_hexokinase_14 X))) (let ((_let_25 (tptp.fn_hexokinase_9 X))) (let ((_let_26 (tptp.fn_hexokinase_6 X))) (let ((_let_27 (tptp.fn_hexokinase_8 X))) (let ((_let_28 (tptp.fn_hexokinase_20 X))) (let ((_let_29 (tptp.fn_hexokinase_3 X))) (let ((_let_30 (tptp.fn_hexokinase_4 X))) (let ((_let_31 (tptp.fn_hexokinase_7 X))) (let ((_let_32 (tptp.fn_hexokinase_1 X))) (let ((_let_33 (tptp.fn_disulfide_bond_3 _let_32))) (=> (tptp.hexokinase_1 X) (and (tptp.original_name_2 X |tptp.'Hexokinase'|) (tptp.user_description_2 X |tptp.'A hexokinase is an enzyme that phosphorylates a six-carbon sugar, a hexose, to a hexose phosphate.'|) (tptp.concept2words_2 X tptp.hexokinase) (tptp.transferase_1 X) (tptp.disulfide_bond_1 _let_32) (tptp.size_value_1 _let_17) (tptp.quantity_value_1 _let_29) (tptp.speed_value_1 _let_30) (tptp.spatial_entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.monomer_1 _let_21) (tptp.molecule_1 _let_21) (tptp.amino_acid_1 _let_21) (tptp.catalyst_1 _let_26) (tptp.constant_motion_1 _let_31) (tptp.decrease_1 _let_27) (tptp.chemical_reaction_1 _let_25) (tptp.size_value_1 _let_16) (tptp.atom_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.carbon_1 _let_14) (tptp.monomer_1 _let_18) (tptp.polypeptide_1 _let_24) (tptp.active_site_1 _let_20) (tptp.carbon_skeleton_1 _let_13) (tptp.surface_1 _let_23) (tptp.hydrophilic_region_1 _let_22) (tptp.protein_domain_1 _let_19) (tptp.kinetic_energy_1 _let_28) (tptp.protein_1 _let_33) (tptp.possesses_2 X _let_32) (tptp.possesses_2 X _let_28) (tptp.quantity_2 _let_28 _let_29) (tptp.directly_proportional_2 _let_30 _let_29) (tptp.speed_2 _let_31 _let_30) (tptp.object_2 _let_31 X) (tptp.has_function_2 X _let_27) (tptp.enables_2 _let_27 _let_25) (tptp.has_function_2 X _let_25) (tptp.site_2 _let_25 _let_20) (tptp.facilitates_2 _let_20 _let_25) (tptp.in_event_2 _let_26 _let_25) (tptp.plays_2 X _let_26) (tptp.has_region_2 X _let_22) (tptp.is_at_2 _let_22 _let_23) (tptp.has_region_2 X _let_23) (tptp.has_part_2 X _let_24) (tptp.has_part_2 _let_24 _let_21) (tptp.is_at_2 _let_21 _let_19) (tptp.has_part_2 X _let_15) (tptp.the_scalar_value_2 _let_16 tptp.big_0) (tptp.scalar_unit_class_2 _let_16 tptp.polypeptide_0) (tptp.has_region_2 X _let_20) (tptp.size_2 X _let_16) (tptp.greater_than_2 _let_16 _let_17) (tptp.size_2 _let_18 _let_17) (tptp.has_part_2 X _let_18) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_13) (tptp.is_inside_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (not (= _let_15 _let_14)) (not (= _let_14 _let_15)) (= X _let_33) (= _let_31 (tptp.fn_molecule_8 X)) (= _let_30 (tptp.fn_molecule_3 X)) (= _let_29 (tptp.fn_molecule_4 X)) (= _let_28 (tptp.fn_molecule_12 X)) (= _let_27 (tptp.fn_enzyme_5 X)) (= _let_26 (tptp.fn_enzyme_6 X)) (= _let_20 _let_10) (= _let_25 (tptp.fn_enzyme_4 X)) (= _let_21 _let_12) (= _let_24 (tptp.fn_protein_8 X)) (= _let_23 (tptp.fn_protein_5 X)) (= _let_22 (tptp.fn_protein_1 X)) (= _let_21 _let_11) (= _let_20 _let_9) (= _let_19 (tptp.fn_protein_enzyme_5 X)) (= _let_18 (tptp.fn_protein_enzyme_9 X)) (= _let_17 (tptp.fn_protein_enzyme_4 X)) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_13 _let_2) (= _let_13 _let_1) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hexose_10 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_hexose_13 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_6 (tptp.fn_monosaccharide_9 X))) (let ((_let_7 (tptp.fn_carbohydrate_32 X))) (let ((_let_8 (tptp.fn_hexose_14 X))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_8))) (let ((_let_10 (tptp.fn_covalent_bond_19 _let_8))) (let ((_let_11 (tptp.fn_carbohydrate_33 X))) (let ((_let_12 (tptp.fn_monosaccharide_10 X))) (let ((_let_13 (tptp.fn_hydroxyl_group_4 _let_1))) (let ((_let_14 (tptp.fn_carbonyl_group_9 _let_3))) (let ((_let_15 (tptp.fn_monosaccharide_13 X))) (let ((_let_16 (tptp.fn_carbohydrate_38 X))) (let ((_let_17 (tptp.fn_hydroxyl_group_5 _let_1))) (let ((_let_18 (tptp.fn_covalent_bond_17 _let_8))) (let ((_let_19 (tptp.fn_monosaccharide_18 X))) (let ((_let_20 (tptp.fn_carbohydrate_39 X))) (let ((_let_21 (tptp.fn_hydroxyl_group_7 _let_1))) (let ((_let_22 (tptp.fn_monosaccharide_12 X))) (let ((_let_23 (tptp.fn_carbohydrate_36 X))) (let ((_let_24 (tptp.fn_hydroxyl_group_8 _let_1))) (let ((_let_25 (tptp.fn_carbohydrate_31 X))) (let ((_let_26 (tptp.fn_covalent_bond_18 _let_8))) (let ((_let_27 (tptp.fn_monosaccharide_17 X))) (let ((_let_28 (tptp.fn_carbohydrate_34 X))) (let ((_let_29 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_30 (tptp.fn_monosaccharide_5 X))) (let ((_let_31 (tptp.fn_carbonyl_group_10 _let_3))) (let ((_let_32 (tptp.fn_covalent_bond_14 _let_8))) (let ((_let_33 (tptp.fn_carbonyl_group_6 _let_3))) (let ((_let_34 (tptp.fn_covalent_bond_15 _let_8))) (let ((_let_35 (tptp.fn_carbonyl_group_4 _let_3))) (let ((_let_36 (tptp.fn_carbohydrate_29 X))) (let ((_let_37 (tptp.fn_carbonyl_group_8 _let_3))) (let ((_let_38 (tptp.fn_monosaccharide_16 X))) (let ((_let_39 (tptp.fn_carbohydrate_40 X))) (let ((_let_40 (tptp.fn_carbohydrate_14 X))) (let ((_let_41 (tptp.fn_covalent_bond_10 _let_8))) (let ((_let_42 (tptp.fn_hexose_3 X))) (let ((_let_43 (tptp.fn_hexose_4 X))) (let ((_let_44 (tptp.fn_hexose_7 X))) (let ((_let_45 (tptp.fn_hexose_12 X))) (let ((_let_46 (tptp.fn_hexose_11 X))) (let ((_let_47 (tptp.fn_hexose_19 X))) (let ((_let_48 (tptp.fn_hexose_21 X))) (let ((_let_49 (tptp.fn_hexose_6 X))) (let ((_let_50 (tptp.fn_carbonyl_group_5 _let_3))) (let ((_let_51 (tptp.fn_hexose_5 X))) (let ((_let_52 (tptp.fn_hexose_18 X))) (let ((_let_53 (tptp.fn_hexose_22 X))) (let ((_let_54 (tptp.fn_hexose_17 X))) (let ((_let_55 (tptp.fn_hexose_8 X))) (let ((_let_56 (tptp.fn_hexose_9 X))) (let ((_let_57 (tptp.fn_hexose_20 X))) (let ((_let_58 (tptp.fn_hexose_15 X))) (let ((_let_59 (tptp.fn_hexose_23 X))) (let ((_let_60 (tptp.fn_hexose_16 X))) (=> (tptp.hexose_1 X) (and (tptp.original_name_2 X |tptp.'Hexose'|) (tptp.user_description_2 X |tptp.'Hexose is a monosaccharide with six carbon atoms, having the chemical formula C6H12O6.'|) (tptp.concept2words_2 X tptp.hexose) (tptp.monosaccharide_1 X) (tptp.entity_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.hydrogen_1 _let_42) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.oxygen_1 _let_43) (tptp.share_1 _let_51) (tptp.hold_together_1 _let_49) (tptp.share_1 _let_44) (tptp.unequal_sharing_1 _let_44) (tptp.electronegativity_value_1 _let_55) (tptp.electronegativity_value_1 _let_56) (tptp.functional_group_1 _let_1) (tptp.hydroxyl_group_1 _let_1) (tptp.polar_covalent_bond_1 _let_46) (tptp.entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.oxygen_1 _let_45) (tptp.functional_group_1 _let_3) (tptp.carbonyl_group_1 _let_3) (tptp.covalent_bond_1 _let_8) (tptp.double_bond_1 _let_8) (tptp.unequal_sharing_1 _let_58) (tptp.share_1 _let_60) (tptp.carbon_skeleton_1 _let_54) (tptp.electron_1 _let_52) (tptp.valence_electron_1 _let_52) (tptp.electron_1 _let_47) (tptp.valence_electron_1 _let_47) (tptp.entity_1 _let_57) (tptp.electron_1 _let_57) (tptp.valence_electron_1 _let_57) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.carbon_1 _let_48) (tptp.entity_1 _let_53) (tptp.electron_1 _let_53) (tptp.valence_electron_1 _let_53) (tptp.attract_1 _let_59) (tptp.share_1 _let_50) (tptp.attract_1 _let_41) (tptp.double_bond_1 _let_37) (tptp.valence_electron_1 _let_35) (tptp.valence_electron_1 _let_34) (tptp.valence_electron_1 _let_33) (tptp.hold_together_1 _let_32) (tptp.hold_together_1 _let_31) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_29) (tptp.valence_electron_1 _let_26) (tptp.electron_1 _let_24) (tptp.valence_electron_1 _let_24) (tptp.polar_covalent_bond_1 _let_21) (tptp.share_1 _let_18) (tptp.unequal_sharing_1 _let_17) (tptp.oxygen_1 _let_14) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (not (= _let_52 _let_47)) (not (= _let_47 _let_52)) (not (= _let_47 _let_57)) (not (= _let_57 _let_47)) (not (= _let_57 _let_53)) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.carbon_0) (not (= _let_53 _let_57)) (tptp.agent_2 _let_60 _let_48) (tptp.agent_2 _let_60 _let_45) (tptp.object_2 _let_49 _let_45) (tptp.object_2 _let_44 _let_57) (tptp.object_2 _let_59 _let_57) (tptp.object_2 _let_60 _let_52) (tptp.result_2 _let_60 _let_8) (tptp.object_2 _let_60 _let_53) (tptp.result_2 _let_58 _let_46) (tptp.object_2 _let_59 _let_47) (tptp.object_2 _let_58 _let_57) (tptp.object_2 _let_58 _let_47) (not (= _let_47 _let_53)) (tptp.object_2 _let_59 _let_53) (not (= _let_53 _let_47)) (tptp.has_part_2 _let_42 _let_57) (not (= _let_57 _let_52)) (not (= _let_52 _let_57)) (tptp.the_cardinal_value_2 _let_55 |"2.1"|) (tptp.cardinal_unit_class_2 _let_55 tptp.unity_0) (tptp.the_cardinal_value_2 _let_56 |"3.44"|) (tptp.cardinal_unit_class_2 _let_56 tptp.unity_0) (tptp.is_inside_2 _let_45 _let_3) (tptp.has_region_2 X _let_3) (tptp.has_part_2 X _let_43) (tptp.is_between_2 _let_46 _let_43) (tptp.possesses_2 X _let_46) (tptp.possesses_2 X _let_8) (tptp.is_between_2 _let_8 _let_43) (tptp.is_inside_2 _let_43 _let_1) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_42) (tptp.electronegativity_2 _let_42 _let_55) (not (= _let_55 _let_56)) (tptp.electronegativity_2 _let_45 _let_56) (not (= _let_56 _let_55)) (not (= _let_48 _let_45)) (not (= _let_45 _let_48)) (tptp.is_inside_2 _let_48 _let_54) (tptp.has_region_2 X _let_54) (tptp.has_part_2 X _let_45) (not (= _let_43 _let_45)) (not (= _let_45 _let_43)) (tptp.has_part_2 X _let_48) (not (= _let_42 _let_48)) (not (= _let_45 _let_42)) (not (= _let_42 _let_45)) (not (= _let_48 _let_42)) (tptp.is_inside_2 _let_48 _let_3) (tptp.result_2 _let_51 _let_8) (tptp.has_function_2 _let_8 _let_49) (tptp.agent_2 _let_49 _let_8) (tptp.has_part_2 _let_48 _let_53) (tptp.object_2 _let_51 _let_53) (tptp.agent_2 _let_51 _let_45) (tptp.is_between_2 _let_8 _let_45) (tptp.is_between_2 _let_8 _let_48) (tptp.agent_2 _let_51 _let_48) (tptp.object_2 _let_51 _let_52) (tptp.has_part_2 _let_45 _let_52) (not (= _let_53 _let_52)) (not (= _let_52 _let_53)) (tptp.is_inside_2 _let_43 _let_3) (tptp.object_2 _let_49 _let_43) (tptp.object_2 _let_49 _let_48) (not (= _let_48 _let_43)) (not (= _let_43 _let_48)) (tptp.is_between_2 _let_46 _let_42) (tptp.is_inside_2 _let_45 _let_1) (tptp.is_between_2 _let_46 _let_45) (tptp.result_2 _let_44 _let_46) (tptp.object_2 _let_44 _let_47) (tptp.has_part_2 _let_43 _let_47) (tptp.is_inside_2 _let_42 _let_1) (tptp.agent_2 _let_44 _let_42) (tptp.agent_2 _let_44 _let_43) (not (= _let_43 _let_42)) (not (= _let_42 _let_43)) (= _let_57 _let_26) (= _let_53 _let_26) (= _let_60 _let_18) (= _let_46 _let_23) (= _let_59 _let_41) (= _let_59 _let_40) (= _let_59 _let_39) (= _let_53 _let_36) (= _let_47 _let_25) (= _let_58 (tptp.fn_carbohydrate_30 X)) (= _let_52 _let_25) (= _let_57 _let_36) (= (tptp.fn_hexose_2 X) (tptp.fn_monosaccharide_19 X)) (= (tptp.fn_hexose_1 X) (tptp.fn_monosaccharide_3 X)) (= _let_46 _let_22) (= X _let_4) (= _let_3 _let_28) (= _let_3 _let_27) (= X _let_2) (= _let_1 _let_12) (= _let_8 _let_38) (= _let_45 _let_15) (= _let_56 (tptp.fn_monosaccharide_4 X)) (= _let_55 (tptp.fn_monosaccharide_7 X)) (= _let_43 _let_15) (= _let_54 (tptp.fn_monosaccharide_6 X)) (= _let_45 _let_20) (= _let_45 _let_19) (= _let_42 _let_6) (= _let_48 _let_30) (= _let_8 _let_37) (= _let_45 _let_9) (= _let_52 _let_34) (= _let_45 _let_14) (= _let_53 _let_35) (= _let_52 _let_33) (= _let_51 _let_50) (= _let_49 _let_32) (= _let_48 _let_10) (= _let_49 _let_31) (= _let_48 _let_29) (= _let_43 _let_14) (= _let_47 _let_26) (= _let_47 _let_24) (= _let_46 _let_21) (= _let_45 _let_13) (= _let_43 _let_9) (= _let_44 _let_18) (= _let_42 _let_10) (= _let_44 _let_17) (= _let_42 _let_9) (= _let_43 _let_10) (= _let_43 _let_16) (= _let_43 _let_13) (= _let_42 _let_7) (= _let_1 _let_11) (= _let_42 _let_5) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_26) (= _let_26 _let_26) (= _let_36 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_26) (= _let_26 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_25 _let_34) (= _let_34 _let_25) (= _let_25 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_10) (= _let_30 _let_10) (= _let_10 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_9) (= _let_20 _let_9) (= _let_9 _let_20) (= _let_15 _let_20) (= _let_20 _let_20) (= _let_20 _let_15) (= _let_19 _let_15) (= _let_15 _let_19) (= _let_19 _let_19) (= _let_19 _let_14) (= _let_13 _let_18) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_9) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_16 _let_10) (= _let_10 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hibernation_12 X))) (let ((_let_2 (tptp.fn_mammal_90 _let_1))) (let ((_let_3 (tptp.fn_hibernation_13 X))) (let ((_let_4 (tptp.fn_mammal_100 _let_1))) (let ((_let_5 (tptp.fn_hibernation_8 X))) (let ((_let_6 (tptp.fn_oxidation_7 _let_5))) (let ((_let_7 (tptp.fn_hibernation_10 X))) (let ((_let_8 (tptp.fn_oxidation_10 _let_5))) (let ((_let_9 (tptp.fn_hibernation_9 X))) (let ((_let_10 (tptp.fn_eumetazoan_20 _let_1))) (let ((_let_11 (tptp.fn_hibernation_14 X))) (let ((_let_12 (tptp.fn_hibernation_7 X))) (let ((_let_13 (tptp.fn_make_accessible_1 _let_12))) (let ((_let_14 (tptp.fn_hibernation_15 X))) (let ((_let_15 (tptp.fn_hibernation_2 X))) (let ((_let_16 (tptp.fn_hibernation_3 X))) (let ((_let_17 (tptp.fn_hibernation_4 X))) (let ((_let_18 (tptp.fn_hibernation_5 X))) (=> (tptp.hibernation_1 X) (and (tptp.original_name_2 X |tptp.'Hibernation'|) (tptp.user_description_2 X |tptp.'A state of decreased metabolic rate, body temperature, and activity in mammals. Hibernation occurs in the winter and conserves energy at a time when food is scarce.'|) (tptp.concept2words_2 X tptp.hibernate) (tptp.concept2words_2 X tptp.hibernation) (tptp.homeostatic_response_1 X) (not (tptp.acclimatization_1 X)) (not (tptp.biological_clock_1 X)) (not (tptp.negative_feedback_1 X)) (not (tptp.plant_response_1 X)) (not (tptp.thermoregulation_1 X)) (tptp.temperature_value_1 _let_15) (tptp.air_1 _let_16) (tptp.rate_value_1 _let_17) (tptp.activity_1 _let_18) (tptp.activate_1 _let_12) (tptp.oxidation_1 _let_5) (tptp.fat_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.mammal_1 _let_1) (tptp.temperature_value_1 _let_3) (tptp.brown_fat_1 _let_11) (tptp.uncoupling_protein_1 _let_14) (tptp.entity_1 _let_13) (tptp.tissue_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.property_node_1 _let_4) (tptp.temperature_value_1 _let_2) (tptp.rate_2 _let_18 _let_17) (tptp.agent_2 _let_18 _let_1) (tptp.the_scalar_value_2 _let_17 tptp.slow_0) (tptp.scalar_unit_class_2 _let_17 tptp.event_0) (tptp.subevent_2 X _let_12) (tptp.experiencer_2 X _let_1) (tptp.temperature_2 _let_16 _let_15) (tptp.the_scalar_value_2 _let_3 tptp.low_0) (tptp.scalar_unit_class_2 _let_3 tptp.mammal_0) (tptp.greater_than_2 _let_3 _let_15) (tptp.has_function_2 _let_7 _let_5) (tptp.causes_2 _let_12 _let_5) (tptp.object_2 _let_12 _let_14) (tptp.donor_2 _let_5 _let_9) (tptp.has_part_2 _let_1 _let_11) (tptp.recipient_2 _let_5 _let_7) (not (= _let_9 _let_7)) (not (= _let_7 _let_9)) (tptp.temperature_2 _let_1 _let_3) (= _let_14 _let_13) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_7 _let_6) (= (tptp.fn_hibernation_11 X) _let_4) (= _let_3 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.high_density_lipoprotein_1 X) (and (tptp.original_name_2 X |tptp.'High-Density-Lipoprotein'|) (tptp.user_description_2 X |tptp.'One of five groups of lipoproteins that allow lipids such as triglycerides and cholesterol to be transported in the aqueous environment of blood.'|) (tptp.concept2words_2 X tptp.hdl) (tptp.concept2words_2 X |tptp.'high density lipoprotein'|) (tptp.concept2words_2 X |tptp.'high-density-lipoprotein'|) (tptp.lipoprotein_1 X) (not (tptp.low_density_lipoprotein_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hindbrain_1 X) (and (tptp.original_name_2 X |tptp.'Hindbrain'|) (tptp.user_description_2 X |tptp.'The most posterior of the three embryonic and ancestral regions of the vertebrate brain. It develops into the cerebellum, pons, and medulla oblongata.'|) (tptp.concept2words_2 X tptp.rhombencephalon) (tptp.concept2words_2 X tptp.hindbrain) (tptp.embryonic_brain_region_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_cortex_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hindgut_1 X) (and (tptp.original_name_2 X |tptp.'Hindgut'|) (tptp.user_description_2 X |tptp.'Posterior (hindmost) region of the alimentary canal in some animals which consists of the rectum and anus.'|) (tptp.concept2words_2 X tptp.hindgut) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hinge_joint_1 X) (and (tptp.original_name_2 X |tptp.'Hinge-Joint'|) (tptp.user_description_2 X |tptp.'A joint between two bones in which the bones are articulated so as to allow freedom of movement in a single plane only.'|) (tptp.concept2words_2 X |tptp.'joint of hinge'|) (tptp.concept2words_2 X |tptp.'hinge joint'|) (tptp.concept2words_2 X |tptp.'hinge-joint'|) (tptp.joint_1 X) (not (tptp.ball_and_socket_joint_1 X)) (not (tptp.pivot_joint_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hirudinea_1 X) (and (tptp.original_name_2 X |tptp.'Hirudinea'|) (tptp.user_description_2 X |tptp.'Annelid taxon that includes the leeches.'|) (tptp.concept2words_2 X tptp.hirudinea) (tptp.annelid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.histamine_1 X) (and (tptp.original_name_2 X |tptp.'Histamine'|) (tptp.user_description_2 X |tptp.'A substance released by the degranulation of mast cells. Histamine causes the dilation of blood vessels and triggers inflammatory and allergic responses.'|) (tptp.concept2words_2 X tptp.histamine) (tptp.hormone_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_basic_amino_acid_46 X))) (let ((_let_2 (tptp.fn_hydrophilic_amino_acid_28 X))) (let ((_let_3 (tptp.fn_histidine_12 X))) (let ((_let_4 (tptp.fn_covalent_bond_18 _let_3))) (let ((_let_5 (tptp.fn_hydrophilic_amino_acid_12 X))) (let ((_let_6 (tptp.fn_covalent_bond_15 _let_3))) (let ((_let_7 (tptp.fn_covalent_bond_22 _let_3))) (let ((_let_8 (tptp.fn_hydrophilic_amino_acid_13 X))) (let ((_let_9 (tptp.fn_covalent_bond_24 _let_3))) (let ((_let_10 (tptp.fn_hydrophilic_amino_acid_9 X))) (let ((_let_11 (tptp.fn_hydrophilic_amino_acid_11 X))) (let ((_let_12 (tptp.fn_covalent_bond_17 _let_3))) (let ((_let_13 (tptp.fn_hydrophilic_amino_acid_8 X))) (let ((_let_14 (tptp.fn_basic_amino_acid_36 X))) (let ((_let_15 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_16 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_17 (tptp.fn_basic_amino_acid_29 X))) (let ((_let_18 (tptp.fn_hydrophilic_amino_acid_26 X))) (let ((_let_19 (tptp.fn_basic_amino_acid_33 X))) (let ((_let_20 (tptp.fn_basic_amino_acid_34 X))) (let ((_let_21 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_22 (tptp.fn_basic_amino_acid_31 X))) (let ((_let_23 (tptp.fn_hydrophilic_amino_acid_29 X))) (let ((_let_24 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_25 (tptp.fn_basic_amino_acid_13 X))) (let ((_let_26 (tptp.fn_basic_amino_acid_14 X))) (let ((_let_27 (tptp.fn_basic_amino_acid_35 X))) (let ((_let_28 (tptp.fn_basic_amino_acid_32 X))) (let ((_let_29 (tptp.fn_hydrophilic_amino_acid_33 X))) (let ((_let_30 (tptp.fn_hydrophilic_amino_acid_30 X))) (let ((_let_31 (tptp.fn_basic_amino_acid_16 X))) (let ((_let_32 (tptp.fn_basic_amino_acid_25 X))) (let ((_let_33 (tptp.fn_covalent_bond_11 _let_3))) (let ((_let_34 (tptp.fn_basic_amino_acid_44 X))) (let ((_let_35 (tptp.fn_basic_amino_acid_15 X))) (let ((_let_36 (tptp.fn_basic_amino_acid_45 X))) (let ((_let_37 (tptp.fn_basic_amino_acid_20 X))) (let ((_let_38 (tptp.fn_basic_amino_acid_43 X))) (let ((_let_39 (tptp.fn_hydrophilic_amino_acid_1 X))) (let ((_let_40 (tptp.fn_basic_amino_acid_26 X))) (let ((_let_41 (tptp.fn_hydrophilic_amino_acid_21 X))) (let ((_let_42 (tptp.fn_basic_amino_acid_47 X))) (let ((_let_43 (tptp.fn_hydrophilic_amino_acid_25 X))) (let ((_let_44 (tptp.fn_basic_amino_acid_21 X))) (let ((_let_45 (tptp.fn_hydrophilic_amino_acid_15 X))) (let ((_let_46 (tptp.fn_hydrophilic_amino_acid_7 X))) (let ((_let_47 (tptp.fn_basic_amino_acid_42 X))) (let ((_let_48 (tptp.fn_hydrophilic_amino_acid_20 X))) (let ((_let_49 (tptp.fn_covalent_bond_12 _let_3))) (let ((_let_50 (tptp.fn_histidine_1 X))) (let ((_let_51 (tptp.fn_histidine_36 X))) (let ((_let_52 (tptp.fn_histidine_35 X))) (let ((_let_53 (tptp.fn_histidine_31 X))) (let ((_let_54 (tptp.fn_histidine_30 X))) (let ((_let_55 (tptp.fn_histidine_42 X))) (let ((_let_56 (tptp.fn_covalent_bond_14 _let_3))) (let ((_let_57 (tptp.fn_histidine_38 X))) (let ((_let_58 (tptp.fn_histidine_8 X))) (let ((_let_59 (tptp.fn_histidine_9 X))) (let ((_let_60 (tptp.fn_histidine_10 X))) (let ((_let_61 (tptp.fn_histidine_11 X))) (let ((_let_62 (tptp.fn_histidine_21 X))) (let ((_let_63 (tptp.fn_histidine_14 X))) (let ((_let_64 (tptp.fn_histidine_22 X))) (let ((_let_65 (tptp.fn_histidine_41 X))) (let ((_let_66 (tptp.fn_histidine_16 X))) (let ((_let_67 (tptp.fn_histidine_19 X))) (let ((_let_68 (tptp.fn_histidine_2 X))) (let ((_let_69 (tptp.fn_histidine_15 X))) (let ((_let_70 (tptp.fn_histidine_18 X))) (let ((_let_71 (tptp.fn_histidine_17 X))) (let ((_let_72 (tptp.fn_histidine_40 X))) (let ((_let_73 (tptp.fn_histidine_28 X))) (let ((_let_74 (tptp.fn_histidine_3 X))) (let ((_let_75 (tptp.fn_histidine_4 X))) (let ((_let_76 (tptp.fn_histidine_5 X))) (let ((_let_77 (tptp.fn_histidine_39 X))) (let ((_let_78 (tptp.fn_histidine_26 X))) (let ((_let_79 (tptp.fn_histidine_23 X))) (let ((_let_80 (tptp.fn_histidine_32 X))) (let ((_let_81 (tptp.fn_histidine_6 X))) (let ((_let_82 (tptp.fn_histidine_7 X))) (let ((_let_83 (tptp.fn_histidine_20 X))) (let ((_let_84 (tptp.fn_histidine_25 X))) (let ((_let_85 (tptp.fn_histidine_24 X))) (let ((_let_86 (tptp.fn_histidine_13 X))) (let ((_let_87 (tptp.fn_histidine_33 X))) (let ((_let_88 (tptp.fn_histidine_34 X))) (let ((_let_89 (tptp.fn_histidine_27 X))) (let ((_let_90 (tptp.fn_histidine_37 X))) (let ((_let_91 (tptp.fn_atomic_nucleus_8 _let_52))) (let ((_let_92 (tptp.fn_histidine_29 X))) (=> (tptp.histidine_1 X) (and (tptp.original_name_2 X |tptp.'Histidine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins.'|) (tptp.concept2words_2 X tptp.histidine) (tptp.basic_amino_acid_1 X) (tptp.share_1 _let_50) (tptp.hold_1 _let_68) (tptp.hold_together_1 _let_68) (tptp.hold_1 _let_74) (tptp.hold_together_1 _let_74) (tptp.hold_1 _let_75) (tptp.hold_together_1 _let_75) (tptp.hold_1 _let_76) 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(tptp.constant_motion_1 _let_83) (tptp.carbon_skeleton_1 _let_62) (tptp.functional_group_1 _let_64) (tptp.carboxyl_group_1 _let_64) (tptp.functional_group_1 _let_79) (tptp.amino_group_1 _let_79) (tptp.quantity_value_1 _let_85) (tptp.speed_value_1 _let_84) (tptp.electron_shell_1 _let_78) (tptp.electron_shell_1 _let_89) (tptp.electron_shell_1 _let_73) (tptp.electron_1 _let_92) (tptp.valence_electron_1 _let_54) (tptp.atomic_nucleus_1 _let_53) (tptp.hold_1 _let_80) (tptp.hold_together_1 _let_80) (tptp.electron_shell_1 _let_87) (tptp.electron_shell_1 _let_88) (tptp.atomic_nucleus_1 _let_52) (tptp.valence_electron_1 _let_51) (tptp.share_1 _let_90) (tptp.hold_together_1 _let_57) (tptp.hold_1 _let_77) (tptp.hold_together_1 _let_77) (tptp.hold_1 _let_72) (tptp.hold_together_1 _let_72) (tptp.hold_together_1 _let_65) (tptp.share_1 _let_55) (tptp.electron_1 _let_91) (tptp.hold_together_1 _let_56) (tptp.electron_shell_1 _let_49) (tptp.electron_shell_1 _let_33) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.share_1 _let_12) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_7) (tptp.valence_electron_1 _let_6) (tptp.valence_electron_1 _let_4) (not (= _let_51 _let_92)) (not (= _let_92 _let_51)) (tptp.is_near_2 _let_92 _let_52) (tptp.is_near_2 _let_52 _let_92) (not (= _let_73 _let_89)) (not (= _let_89 _let_73)) (tptp.object_2 _let_50 _let_54) (tptp.agent_2 _let_57 _let_3) (tptp.object_2 _let_57 _let_70) (tptp.agent_2 _let_50 _let_70) (tptp.agent_2 _let_50 _let_67) (tptp.object_2 _let_57 _let_67) (tptp.object_2 _let_90 _let_51) (tptp.result_2 _let_55 _let_3) (tptp.object_2 _let_80 _let_70) (tptp.agent_2 _let_90 _let_67) (tptp.agent_2 _let_90 _let_70) (tptp.object_2 _let_76 _let_70) (tptp.has_region_2 _let_67 _let_88) (tptp.has_part_2 _let_70 _let_54) (tptp.object_2 _let_80 _let_66) (tptp.has_region_2 _let_71 _let_78) (tptp.object_2 _let_90 _let_54) (tptp.result_2 _let_90 _let_3) (tptp.has_region_2 _let_63 _let_89) (not (= _let_78 _let_89)) (not (= _let_89 _let_78)) (tptp.object_2 _let_55 _let_51) (tptp.has_part_2 _let_67 _let_51) (tptp.has_region_2 _let_67 _let_52) (not (= _let_54 _let_51)) (not (= _let_51 _let_54)) (tptp.object_2 _let_81 _let_70) (tptp.object_2 _let_81 _let_66) (tptp.object_2 _let_82 _let_66) (tptp.object_2 _let_82 _let_70) (tptp.has_region_2 _let_70 _let_53) (tptp.agent_2 _let_55 _let_67) (tptp.agent_2 _let_55 _let_70) (tptp.has_region_2 _let_70 _let_87) (not (= _let_88 _let_87)) (not (= _let_87 _let_88)) (tptp.has_part_2 X _let_66) (tptp.has_part_2 X _let_69) (tptp.has_part_2 X _let_67) (tptp.has_region_2 X _let_79) (tptp.is_inside_2 _let_71 _let_64) (tptp.object_2 _let_77 _let_63) (tptp.object_2 _let_77 _let_71) (tptp.has_part_2 X _let_71) (tptp.possesses_2 X _let_3) (tptp.is_between_2 _let_3 _let_70) (tptp.object_2 _let_82 _let_71) (tptp.object_2 _let_82 _let_63) (tptp.has_part_2 X _let_63) (tptp.has_region_2 X _let_64) (tptp.is_inside_2 _let_69 _let_64) (tptp.object_2 _let_80 _let_71) (tptp.object_2 _let_80 _let_63) (tptp.object_2 _let_81 _let_63) (tptp.object_2 _let_81 _let_71) (tptp.object_2 _let_76 _let_71) (tptp.object_2 _let_75 _let_66) (tptp.object_2 _let_75 _let_70) (tptp.is_inside_2 _let_70 _let_79) (tptp.is_inside_2 _let_67 _let_79) (tptp.is_between_2 _let_3 _let_67) (tptp.object_2 _let_77 _let_70) (tptp.object_2 _let_77 _let_66) (tptp.has_region_2 _let_66 _let_78) (not (= _let_73 _let_78)) (not (= _let_78 _let_73)) (tptp.object_2 _let_74 _let_71) (tptp.object_2 _let_74 _let_70) (tptp.has_part_2 X _let_70) (not (= _let_67 _let_70)) (not (= _let_70 _let_67)) (tptp.object_2 _let_72 _let_71) (tptp.object_2 _let_72 _let_63) (tptp.object_2 _let_76 _let_63) (tptp.object_2 _let_76 _let_66) (tptp.is_inside_2 _let_66 _let_64) (tptp.object_2 _let_74 _let_66) (tptp.object_2 _let_74 _let_63) (tptp.object_2 _let_75 _let_63) (tptp.object_2 _let_75 _let_71) (tptp.has_region_2 _let_71 _let_73) (tptp.object_2 _let_72 _let_70) (tptp.object_2 _let_72 _let_66) (tptp.has_region_2 _let_66 _let_73) (not (= _let_71 _let_66)) (not (= _let_66 _let_71)) (tptp.object_2 _let_68 _let_71) (tptp.object_2 _let_68 _let_70) (not (= _let_70 _let_69)) (not (= _let_69 _let_70)) (not (= _let_67 _let_69)) (not (= _let_69 _let_67)) (tptp.object_2 _let_65 _let_70) (tptp.object_2 _let_65 _let_71) (not (= _let_71 _let_69)) (not (= _let_63 _let_71)) (not (= _let_71 _let_63)) (not (= _let_69 _let_71)) (tptp.object_2 _let_68 _let_63) (tptp.object_2 _let_68 _let_66) (not (= _let_66 _let_69)) (not (= _let_69 _let_63)) (not (= _let_63 _let_70)) (not (= _let_69 _let_66)) (not (= _let_63 _let_69)) (not (= _let_70 _let_63)) (tptp.object_2 _let_65 _let_63) (tptp.object_2 _let_65 _let_66) (not (= _let_66 _let_63)) (not (= _let_63 _let_66)) (not (= _let_67 _let_63)) (not (= _let_63 _let_67)) (tptp.has_region_2 X _let_62) (tptp.is_inside_2 _let_63 _let_62) (tptp.is_inside_2 _let_63 _let_64) (tptp.has_function_2 _let_3 _let_57) (tptp.object_2 _let_55 _let_54) (tptp.result_2 _let_50 _let_3) (tptp.object_2 _let_50 _let_51) (tptp.is_near_2 _let_51 _let_52) (not (= _let_52 _let_53)) (tptp.is_near_2 _let_53 _let_54) (tptp.is_near_2 _let_52 _let_51) (not (= _let_53 _let_52)) (tptp.is_near_2 _let_54 _let_53) (= _let_92 _let_91) (= _let_73 _let_33) (= _let_54 _let_4) (= _let_67 _let_16) (= _let_70 _let_24) (= _let_80 _let_46) (= _let_76 _let_39) (= _let_80 _let_45) (= _let_71 _let_21) (= _let_90 _let_13) (= _let_78 _let_41) (= _let_89 _let_49) (= _let_89 _let_48) (= _let_52 _let_8) (= _let_54 _let_11) (= _let_51 _let_5) (= _let_53 _let_10) (= _let_82 _let_46) (= _let_66 _let_21) (= _let_81 _let_39) (= _let_88 (tptp.fn_hydrophilic_amino_acid_14 X)) (= _let_87 (tptp.fn_hydrophilic_amino_acid_10 X)) (= _let_55 _let_13) (= (tptp.fn_histidine_43 X) (tptp.fn_basic_amino_acid_4 X)) (= (tptp.fn_histidine_44 X) (tptp.fn_basic_amino_acid_5 X)) (= _let_86 (tptp.fn_basic_amino_acid_7 X)) (= _let_85 (tptp.fn_basic_amino_acid_11 X)) (= _let_84 (tptp.fn_basic_amino_acid_10 X)) (= _let_83 (tptp.fn_basic_amino_acid_8 X)) (= _let_77 _let_34) (= _let_82 _let_36) (= _let_76 _let_38) (= _let_81 _let_47) (= _let_80 _let_44) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_70 _let_30) (= _let_79 _let_43) (= _let_79 _let_42) (= _let_75 _let_36) (= _let_78 _let_40) (= _let_77 _let_37) (= _let_70 _let_27) (= _let_70 _let_16) (= _let_74 _let_34) (= _let_76 _let_37) (= _let_72 _let_31) (= _let_75 _let_35) (= _let_74 _let_26) (= _let_73 _let_32) (= _let_72 _let_25) (= _let_67 _let_23) (= _let_69 _let_29) (= _let_69 _let_28) (= _let_68 _let_26) (= _let_71 _let_19) (= _let_71 _let_20) (= _let_70 _let_29) (= _let_70 _let_28) (= _let_69 _let_27) (= _let_66 _let_20) (= _let_68 _let_25) (= _let_67 _let_24) (= _let_63 _let_16) (= _let_67 _let_22) (= _let_66 _let_19) (= _let_65 (tptp.fn_basic_amino_acid_12 X)) (= _let_63 _let_15) (= _let_64 _let_18) (= _let_64 _let_17) (= _let_63 _let_14) (= _let_62 (tptp.fn_basic_amino_acid_30 X)) (= _let_61 (tptp.fn_basic_amino_acid_2 X)) (= _let_60 (tptp.fn_basic_amino_acid_6 X)) (= _let_59 (tptp.fn_basic_amino_acid_1 X)) (= _let_58 (tptp.fn_basic_amino_acid_28 X)) (= _let_57 _let_56) (= _let_55 _let_12) (= _let_54 _let_6) (= _let_53 _let_7) (= _let_53 _let_9) (= _let_51 _let_6) (= _let_52 _let_9) (= _let_52 _let_7) (= _let_51 _let_4) (= _let_50 _let_12) (= _let_49 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_36) (= _let_36 _let_39) (= _let_39 _let_39) (= _let_39 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_34) (= _let_34 _let_37) (= _let_37 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_26) (= _let_26 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_25) (= _let_25 _let_21) (= _let_21 _let_19) (= _let_20 _let_24) (= _let_24 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_16) (= _let_16 _let_24) (= _let_24 _let_24) (= _let_24 _let_16) (= _let_16 _let_16) (= _let_16 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_4) (= _let_4 _let_11) (= _let_11 _let_11) (= _let_11 _let_6) (= _let_6 _let_6) (= _let_6 _let_10) (= _let_10 _let_7) (= _let_7 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_histone_33 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_histone_28 X))) (let ((_let_4 (tptp.fn_chromosome_4 _let_3))) (let ((_let_5 (tptp.fn_histone_26 X))) (let ((_let_6 (tptp.fn_attach_2 _let_5))) (let ((_let_7 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_8 (tptp.fn_molecule_7 X))) (let ((_let_9 (tptp.fn_protein_14 X))) (let ((_let_10 (tptp.fn_histone_25 X))) (let ((_let_11 (tptp.fn_polypeptide_82 _let_10))) (let ((_let_12 (tptp.fn_polypeptide_83 _let_10))) (let ((_let_13 (tptp.fn_protein_9 X))) (let ((_let_14 (tptp.fn_polymer_8 X))) (let ((_let_15 (tptp.fn_histone_29 X))) (let ((_let_16 (tptp.fn_molecule_5 _let_15))) (let ((_let_17 (tptp.fn_histone_27 X))) (let ((_let_18 (tptp.fn_molecule_6 _let_15))) (let ((_let_19 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_20 (tptp.fn_histone_32 X))) (let ((_let_21 (tptp.fn_histone_31 X))) (let ((_let_22 (tptp.fn_histone_34 X))) (let ((_let_23 (tptp.fn_histone_35 X))) (let ((_let_24 (tptp.fn_histone_36 X))) (let ((_let_25 (tptp.fn_histone_23 X))) (let ((_let_26 (tptp.fn_histone_16 X))) (let ((_let_27 (tptp.fn_histone_17 X))) (let ((_let_28 (tptp.fn_histone_20 X))) (let ((_let_29 (tptp.fn_histone_19 X))) (let ((_let_30 (tptp.fn_histone_18 X))) (let ((_let_31 (tptp.fn_histone_22 X))) (let ((_let_32 (tptp.fn_histone_21 X))) (let ((_let_33 (tptp.fn_attach_1 _let_5))) (let ((_let_34 (tptp.fn_histone_24 X))) (let ((_let_35 (tptp.fn_histone_6 X))) (let ((_let_36 (tptp.fn_histone_10 X))) (let ((_let_37 (tptp.fn_histone_9 X))) (let ((_let_38 (tptp.fn_histone_8 X))) (let ((_let_39 (tptp.fn_histone_7 X))) (let ((_let_40 (tptp.fn_histone_5 X))) (=> (tptp.histone_1 X) (and (tptp.original_name_2 X |tptp.'Histone'|) (tptp.user_description_2 X |tptp.'A small protein with a high proportion of positively charged amino acids that binds to the negatively charged DNA and plays a key role in chromatin structure.'|) (tptp.concept2words_2 X tptp.histone) (tptp.structural_protein_1 X) (not (tptp.alpha_keratin_1 X)) (not (tptp.collagen_1 X)) (not (tptp.fibrin_1 X)) (not (tptp.fibronectin_1 X)) (tptp.mass_value_1 _let_40) (tptp.mass_value_1 _let_35) (tptp.quantity_value_1 _let_39) (tptp.quantity_value_1 _let_38) (tptp.acidic_amino_acid_1 _let_37) (tptp.charge_value_1 _let_36) (tptp.size_value_1 _let_26) (tptp.kinetic_energy_1 _let_27) (tptp.constant_motion_1 _let_30) (tptp.speed_value_1 _let_29) (tptp.quantity_value_1 _let_28) (tptp.size_value_1 _let_32) (tptp.monomer_1 _let_31) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.monomer_1 _let_25) (tptp.molecule_1 _let_25) (tptp.amino_acid_1 _let_25) (tptp.basic_amino_acid_1 _let_34) (tptp.monomer_1 _let_10) (tptp.attach_1 _let_5) (tptp.charge_value_1 _let_17) (tptp.eukaryotic_chromatin_1 _let_3) (tptp.spatial_entity_1 _let_15) (tptp.entity_1 _let_15) (tptp.dna_1 _let_15) (tptp.molecule_1 _let_15) (tptp.atom_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.carbon_1 _let_20) (tptp.carbon_skeleton_1 _let_1) (tptp.surface_1 _let_22) (tptp.hydrophilic_region_1 _let_23) (tptp.protein_domain_1 _let_24) (tptp.spatial_entity_1 _let_33) (tptp.carbon_1 _let_19) (tptp.property_node_1 _let_18) (tptp.charge_value_1 _let_16) (tptp.spatial_entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.monomer_1 _let_12) (tptp.molecule_1 _let_12) (tptp.amino_acid_1 _let_12) (tptp.chemical_entity_1 _let_11) (tptp.monomer_1 _let_11) (tptp.molecule_1 _let_11) (tptp.amino_acid_1 _let_11) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.dna_1 _let_4) (tptp.organic_molecule_1 _let_2) (= _let_40 _let_35) (= _let_35 _let_40) (tptp.greater_than_2 _let_39 _let_38) (tptp.mass_2 X _let_40) (tptp.quantity_2 _let_34 _let_39) (tptp.quantity_2 _let_37 _let_38) (tptp.has_part_2 _let_10 _let_34) (tptp.has_part_2 _let_10 _let_37) (tptp.greater_than_or_equal_to_2 _let_36 _let_17) (tptp.the_cardinal_value_2 _let_36 |"-1.0e0"|) (tptp.cardinal_unit_class_2 _let_36 tptp.unity_0) (tptp.mass_2 _let_15 _let_35) (tptp.object_2 _let_5 _let_34) (tptp.base_2 _let_5 _let_15) (tptp.has_part_2 X _let_10) (tptp.has_part_2 _let_10 _let_25) (tptp.has_part_2 _let_3 _let_15) (tptp.greater_than_2 _let_26 _let_32) (tptp.has_part_2 X _let_31) (tptp.size_2 _let_31 _let_32) (tptp.has_part_2 X _let_21) (tptp.possesses_2 X _let_27) (tptp.quantity_2 _let_27 _let_28) (tptp.directly_proportional_2 _let_29 _let_28) (tptp.speed_2 _let_30 _let_29) (tptp.object_2 _let_30 X) (tptp.size_2 X _let_26) (tptp.the_scalar_value_2 _let_26 tptp.big_0) (tptp.scalar_unit_class_2 _let_26 tptp.polypeptide_0) (tptp.has_region_2 X _let_22) (tptp.is_at_2 _let_23 _let_22) (tptp.has_region_2 X _let_23) (tptp.has_region_2 X _let_24) (tptp.is_at_2 _let_25 _let_24) (tptp.is_inside_2 _let_20 _let_1) (tptp.has_part_2 X _let_20) (tptp.has_region_2 X _let_1) (not (= _let_21 _let_20)) (not (= _let_20 _let_21)) (tptp.charge_2 _let_15 _let_17) (= _let_34 _let_33) (= _let_15 _let_6) (= _let_25 _let_12) (= _let_10 (tptp.fn_protein_8 X)) (= _let_25 _let_11) (= _let_15 _let_4) (= _let_26 _let_14) (= (tptp.fn_histone_15 X) (tptp.fn_polymer_10 X)) (= _let_32 (tptp.fn_polymer_7 X)) (= _let_31 (tptp.fn_polymer_4 X)) (= (tptp.fn_histone_14 X) (tptp.fn_molecule_2 X)) (= _let_21 _let_8) (= (tptp.fn_histone_13 X) (tptp.fn_molecule_1 X)) (= _let_30 (tptp.fn_molecule_8 X)) (= _let_29 (tptp.fn_molecule_3 X)) (= _let_28 (tptp.fn_molecule_4 X)) (= _let_27 (tptp.fn_molecule_12 X)) (= (tptp.fn_histone_12 X) (tptp.fn_protein_10 X)) (= _let_26 _let_13) (= _let_25 _let_9) (= _let_24 (tptp.fn_protein_7 X)) (= _let_23 (tptp.fn_protein_1 X)) (= _let_22 (tptp.fn_protein_5 X)) (= X _let_2) (= _let_21 _let_7) (= _let_20 _let_19) (= (tptp.fn_histone_30 X) _let_18) (= _let_17 _let_16) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X3 $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.by_means_of_2 X X1) (tptp.base_2 X1 X2) (tptp.object_2 X1 X3) (tptp.gene_regulation_1 X) (tptp.amino_acid_1 X2) (tptp.attach_1 X1) (tptp.acetyl_group_1 X3) (tptp.minCardinality X1 tptp.base_0 |"1"| tptp.amino_acid_0)) (and (tptp.histone_acetylation_1 X) (= (tptp.fn_histone_acetylation_11 X) X2) (= (tptp.fn_histone_acetylation_6 X) X1) (= (tptp.fn_histone_acetylation_12 X) X3)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_histone_acetylation_8 X))) (let ((_let_2 (tptp.fn_polymer_4 _let_1))) (let ((_let_3 (tptp.fn_polymer_6 _let_1))) (let ((_let_4 (tptp.fn_histone_acetylation_5 X))) (let ((_let_5 (tptp.fn_histone_acetylation_6 X))) (let ((_let_6 (tptp.fn_attach_1 _let_5))) (let ((_let_7 (tptp.fn_histone_acetylation_12 X))) (let ((_let_8 (tptp.fn_attach_2 _let_5))) (let ((_let_9 (tptp.fn_histone_acetylation_11 X))) (let ((_let_10 (tptp.fn_histone_acetylation_9 X))) (let ((_let_11 (tptp.fn_attach_2 _let_10))) (let ((_let_12 (tptp.fn_histone_acetylation_7 X))) (let ((_let_13 (tptp.fn_attach_2 _let_12))) (let ((_let_14 (tptp.fn_attach_1 _let_10))) (let ((_let_15 (tptp.fn_histone_acetylation_10 X))) (let ((_let_16 (tptp.fn_histone_acetylation_3 X))) (let ((_let_17 (tptp.fn_histone_acetylation_2 X))) (let ((_let_18 (tptp.fn_histone_acetylation_1 X))) (=> (tptp.histone_acetylation_1 X) (and (tptp.original_name_2 X |tptp.'Histone-Acetylation'|) (tptp.user_description_2 X |tptp.'The attachment of acetyl groups to certain amino acids of histone proteins.'|) (tptp.concept2words_2 X |tptp.'acetylation of histone'|) (tptp.concept2words_2 X |tptp.'histone acetylation'|) (tptp.concept2words_2 X |tptp.'histone-acetylation'|) (tptp.gene_regulation_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.horizontal_gene_transfer_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transduction_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.nucleoside_monophosphate_1 _let_18) (tptp.transcription_1 _let_17) (tptp.change_1 _let_16) (tptp.nucleotide_1 _let_4) (tptp.attach_1 _let_5) (tptp.attach_1 _let_12) (tptp.dna_1 _let_1) (tptp.attach_1 _let_10) (tptp.histone_1 _let_15) (tptp.amino_acid_1 _let_9) (tptp.acetyl_group_1 _let_7) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.monomer_1 _let_3) (tptp.monomer_1 _let_2) (tptp.enables_2 X _let_17) (tptp.by_means_of_2 X _let_5) (tptp.object_2 _let_16 _let_15) (tptp.inhibits_2 _let_16 _let_10) (tptp.has_part_2 _let_15 _let_9) (tptp.has_part_2 _let_1 _let_18) (tptp.enables_2 _let_12 _let_17) (tptp.enables_2 _let_5 _let_16) (tptp.minCardinality _let_5 tptp.base_0 |"1"| tptp.amino_acid_0) (tptp.object_2 _let_10 _let_15) (tptp.base_2 _let_12 _let_1) (tptp.base_2 _let_10 _let_1) (tptp.base_2 _let_5 _let_9) (tptp.object_2 _let_5 _let_7) (tptp.has_part_2 _let_1 _let_4) (= _let_15 _let_14) (= _let_1 _let_13) (= _let_1 _let_11) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_virus_23 X))) (let ((_let_2 (tptp.fn_hiv_3 X))) (let ((_let_3 (tptp.fn_viral_infection_16 _let_2))) (let ((_let_4 (tptp.fn_hiv_5 X))) (let ((_let_5 (tptp.fn_multicellular_organism_1 _let_4))) (let ((_let_6 (tptp.fn_hiv_4 X))) (let ((_let_7 (tptp.fn_hiv_7 X))) (let ((_let_8 (tptp.fn_viral_infection_10 _let_2))) (let ((_let_9 (tptp.fn_hiv_6 X))) (let ((_let_10 (tptp.fn_hiv_1 X))) (let ((_let_11 (tptp.fn_hiv_2 X))) (=> (tptp.hiv_1 X) (and (tptp.original_name_2 X |tptp.'HIV'|) (tptp.user_description_2 X |tptp.'A retrovirus that has been identified as the causative agent of AIDS.'|) (tptp.concept2words_2 X |tptp.'human immunodeficiency virus'|) (tptp.concept2words_2 X tptp.hiv) (tptp.retrovirus_1 X) (tptp.animal_virus_1 X) (not (tptp.htlv_1 X)) (not (tptp.adenovirus_1 X)) (not (tptp.papovavirus_1 X)) (tptp.aids_1 _let_10) (tptp.has_condition_1 _let_11) (tptp.viral_infection_1 _let_2) (tptp.infection_1 _let_2) (tptp.cell_1 _let_6) (tptp.person_1 _let_4) (tptp.host_1 _let_9) (tptp.replication_1 _let_7) (tptp.host_1 _let_8) (tptp.cell_1 _let_5) (tptp.cell_1 _let_3) (tptp.causes_2 _let_2 _let_11) (tptp.experiencer_2 _let_11 _let_4) (tptp.object_2 _let_11 _let_10) (tptp.has_part_2 _let_4 _let_6) (tptp.in_event_2 _let_9 _let_2) (tptp.plays_2 _let_6 _let_9) (tptp.agent_2 _let_2 X) (tptp.object_2 _let_2 _let_6) (tptp.site_2 _let_7 _let_6) (tptp.agent_2 _let_7 X) (= _let_6 _let_5) (= _let_6 _let_3) (= _let_9 _let_8) (= _let_7 (tptp.fn_virus_1 X)) (= _let_6 _let_1) (= _let_2 (tptp.fn_virus_22 X)) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hold_2 X))) (let ((_let_2 (tptp.fn_hold_1 X))) (=> (tptp.hold_1 X) (and (tptp.original_name_2 X |tptp.'Hold'|) (tptp.concept2words_2 X tptp.hold) (tptp.concept2words_2 X |tptp.'hold up'|) (tptp.concept2words_2 X tptp.hold_up) (tptp.concept2words_2 X tptp.support) (tptp.concept2words_2 X tptp.sustain) (tptp.concept2words_2 X |tptp.'take hold'|) (tptp.concept2words_2 X tptp.take_hold) (tptp.concept2words_2 X tptp.grasp) (tptp.obstruct_1 X) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_obstruct_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.hold_together_1 X) (and (tptp.original_name_2 X |tptp.'Hold-Together'|) (tptp.user_description_2 X |tptp.'To be joined and not separate.'|) (tptp.concept2words_2 X tptp.bind) (tptp.concept2words_2 X tptp.connect) (tptp.concept2words_2 X |tptp.'hold together'|) (tptp.concept2words_2 X |tptp.'hold-together'|) (tptp.hold_1 X)))) (forall ((X $$unsorted)) (=> (tptp.holdfast_1 X) (and (tptp.original_name_2 X |tptp.'Holdfast'|) (tptp.user_description_2 X |tptp.'The part of a seaweed body that anchors to a hard surface.'|) (tptp.concept2words_2 X tptp.holdfast) (tptp.protist_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_holmium_11 X))) (let ((_let_2 (tptp.fn_holmium_14 X))) (let ((_let_3 (tptp.fn_holmium_12 X))) (let ((_let_4 (tptp.fn_holmium_13 X))) (let ((_let_5 (tptp.fn_holmium_5 X))) (let ((_let_6 (tptp.fn_holmium_6 X))) (let ((_let_7 (tptp.fn_holmium_7 X))) (let ((_let_8 (tptp.fn_holmium_4 X))) (=> (tptp.holmium_1 X) (and (tptp.original_name_2 X |tptp.'Holmium'|) (tptp.user_description_2 X |tptp.'Holmium is a metal atom with atomic number 67. It is represented by the symbol Ho.'|) (tptp.concept2words_2 X tptp.holmium) (tptp.concept2words_2 X tptp.ho) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"98"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"67"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"67"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"13"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.23"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"165"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"67"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"164.9"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_holmium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_holmium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_holmium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.holoblastic_cleavage_1 X) (and (tptp.original_name_2 X |tptp.'Holoblastic-Cleavage'|) (tptp.user_description_2 X |tptp.'A type of cleavage division in which cells divide completely; typically occurs in animals with small eggs, such as sea urchins, or with eggs containing only moderate amounts of yolk, such as frogs.'|) (tptp.concept2words_2 X |tptp.'undergo holoblastic cleavage'|) (tptp.concept2words_2 X |tptp.'holoblastic cleavage'|) (tptp.concept2words_2 X |tptp.'holoblastic-cleavage'|) (tptp.cleavage_1 X) (not (tptp.determinate_cleavage_1 X)) (not (tptp.indeterminate_cleavage_1 X)) (not (tptp.meroblastic_cleavage_1 X)) (not (tptp.spiral_cleavage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.home_1 X) (and (tptp.original_name_2 X |tptp.'Home'|) (tptp.user_description_2 X |tptp.'Location of residence'|) (tptp.concept2words_2 X tptp.home) (tptp.role_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homeobox_3 X))) (let ((_let_2 (tptp.fn_homeobox_containing_gene_1 _let_1))) (let ((_let_3 (tptp.fn_homeobox_2 X))) (let ((_let_4 (tptp.fn_code_for_1 _let_3))) (let ((_let_5 (tptp.fn_code_for_2 _let_3))) (let ((_let_6 (tptp.fn_homeobox_1 X))) (=> (tptp.homeobox_1 X) (and (tptp.original_name_2 X |tptp.'Homeobox'|) (tptp.user_description_2 X |tptp.'A DNA sequence that occurs within genes that regulate morphogenesis (establishment of body axes) in eukaryotic organisms.'|) (tptp.concept2words_2 X tptp.homeobox) (tptp.eukaryote_dna_sequence_1 X) (tptp.homeodomain_1 _let_6) (tptp.code_for_1 _let_3) (tptp.homeobox_containing_gene_1 _let_1) (tptp.entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.homeobox_1 _let_2) (tptp.object_2 _let_3 _let_6) (tptp.result_2 _let_3 _let_6) (tptp.agent_2 _let_3 X) (tptp.has_part_2 _let_1 X) (= _let_6 _let_5) (= X _let_4) (= X _let_2) (= _let_4 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homeobox_containing_gene_1 X))) (=> (tptp.homeobox_containing_gene_1 X) (and (tptp.original_name_2 X |tptp.'Homeobox-Containing-Gene'|) (tptp.user_description_2 X |tptp.'A gene with a homeobox as a part is a homeobox containing gene.'|) (tptp.concept2words_2 X tptp.hoxgene) (tptp.concept2words_2 X |tptp.'homeobox containing gene'|) (tptp.concept2words_2 X |tptp.'homeobox-containing-gene'|) (tptp.gene_1 X) (tptp.homeobox_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homeodomain_9 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_homeodomain_8 X))) (let ((_let_4 (tptp.fn_homeodomain_3 X))) (let ((_let_5 (tptp.fn_homeodomain_5 X))) (let ((_let_6 (tptp.fn_homeodomain_6 X))) (let ((_let_7 (tptp.fn_homeodomain_1 X))) (let ((_let_8 (tptp.fn_homeodomain_2 X))) (let ((_let_9 (tptp.fn_homeodomain_4 X))) (=> (tptp.homeodomain_1 X) (and (tptp.original_name_2 X |tptp.'Homeodomain'|) (tptp.user_description_2 X |tptp.'A highly conserved protein sequence motif. It comprises 60 amino acids and contains a DNA-binding helixturnhelix motif indicating that acts as a transcription factor. The homeodomain is encoded for by a homeobox.'|) (tptp.concept2words_2 X tptp.homeodomain) (tptp.protein_domain_1 X) (tptp.eukaryotic_gene_regulation_1 _let_7) (tptp.gene_activation_1 _let_8) (tptp.shape_value_1 _let_4) (tptp.polypeptide_1 _let_9) (tptp.hydrophilic_region_1 _let_5) (tptp.protein_domain_1 _let_6) (tptp.binding_site_1 _let_3) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.is_inside_2 _let_9 X) (tptp.agent_2 _let_8 X) (tptp.agent_2 _let_7 X) (tptp.agent_2 _let_1 X) (tptp.has_region_2 X _let_6) (tptp.has_region_2 X _let_5) (tptp.has_region_2 X _let_3) (tptp.shape_2 X _let_4) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homeodomain_protein_2 X))) (let ((_let_2 (tptp.fn_homeodomain_protein_1 X))) (=> (tptp.homeodomain_protein_1 X) (and (tptp.original_name_2 X |tptp.'Homeodomain-Protein'|) (tptp.user_description_2 X |tptp.'A protein containing a homeoprotein domain.'|) (tptp.concept2words_2 X |tptp.'homeodomain containing protein'|) (tptp.concept2words_2 X |tptp.'protein of homeodomain'|) (tptp.concept2words_2 X |tptp.'homeodomain protein'|) (tptp.concept2words_2 X |tptp.'homeodomain-protein'|) (tptp.transcription_factor_1 X) (not (tptp.activator_1 X)) (not (tptp.morphogen_1 X)) (not (tptp.muscle_specific_transcription_factor_1 X)) (not (tptp.p53_protein_1 X)) (tptp.interact_1 _let_2) (tptp.homeodomain_1 _let_1) (tptp.agent_2 _let_2 _let_1) (tptp.has_region_2 X _let_1) (= _let_1 (tptp.fn_protein_7 X))))))) (forall ((X $$unsorted)) (=> (tptp.homeostasis_1 X) (and (tptp.original_name_2 X |tptp.'Homeostasis'|) (tptp.user_description_2 X |tptp.'The maintenance of internal conditions within survivable parameters.'|) (tptp.concept2words_2 X tptp.homeostasis) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.homeostatic_response_1 X) (and (tptp.original_name_2 X |tptp.'Homeostatic-Response'|) (tptp.user_description_2 X |tptp.'A physiological response that returns a variable to its set point.'|) (tptp.concept2words_2 X |tptp.'homeostatic response'|) (tptp.concept2words_2 X |tptp.'homeostatic-response'|) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homeotic_gene_3 X))) (let ((_let_2 (tptp.fn_embryogenesis_51 _let_1))) (let ((_let_3 (tptp.fn_embryogenesis_30 _let_1))) (let ((_let_4 (tptp.fn_sequence_2 X))) (let ((_let_5 (tptp.fn_sequence_1 X))) (let ((_let_6 (tptp.fn_homeotic_gene_7 X))) (let ((_let_7 (tptp.fn_homeotic_gene_6 X))) (let ((_let_8 (tptp.fn_create_1 _let_7))) (let ((_let_9 (tptp.fn_homeotic_gene_5 X))) (let ((_let_10 (tptp.fn_homeotic_gene_4 X))) (let ((_let_11 (tptp.fn_homeotic_gene_2 X))) (let ((_let_12 (tptp.fn_homeotic_gene_1 X))) (=> (tptp.homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Any of a set of regulatory genes involved in developmental patterns and sequence. Homeotic genes control the placement and arrangement of body parts in eukaryotic organisms.'|) (tptp.concept2words_2 X tptp.hoxgene) (tptp.concept2words_2 X |tptp.'homeotic gene'|) (tptp.concept2words_2 X |tptp.'homeotic-gene'|) (tptp.homeobox_containing_gene_1 X) (tptp.master_control_gene_1 X) (not (tptp.myod_gene_1 X)) (tptp.embryo_1 _let_12) (tptp.gene_expression_1 _let_11) (tptp.embryogenesis_1 _let_1) (tptp.homeobox_1 _let_10) (tptp.anatomical_structure_1 _let_9) (tptp.create_1 _let_7) (tptp.regulation_1 _let_6) (tptp.entity_1 _let_8) (tptp.create_1 _let_3) (tptp.create_1 _let_2) (tptp.has_function_2 X _let_6) (tptp.causes_2 _let_11 _let_7) (tptp.base_2 _let_7 _let_12) (tptp.supports_2 _let_6 _let_11) (tptp.element_2 X _let_10) (tptp.result_2 _let_7 _let_9) (tptp.subevent_2 _let_1 _let_7) (tptp.agent_2 _let_6 X) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_9 _let_8) (= _let_7 _let_3) (= _let_7 _let_2) (= _let_6 (tptp.fn_master_control_gene_4 X)) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hominid_1 X) (and (tptp.original_name_2 X |tptp.'Hominid'|) (tptp.user_description_2 X |tptp.'A species on the human branch of the evolutionary tree. Hominins include Homo sapiens and our ancestors, a group of extinct species that are more closely related to us than to chimpanzees.'|) (tptp.concept2words_2 X tptp.hominid) (tptp.primate_1 X) (not (tptp.anthropoid_1 X)) (not (tptp.monkey_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homo_erectus_1 X) (and (tptp.original_name_2 X |tptp.'Homo-Erectus'|) (tptp.user_description_2 X |tptp.'The first hominid species to migrate out of Africa. H. erectus lived from about 1.8 million years ago to 500,000 years ago, and compared to H. habilis, was taller and had a larger brain.'|) (tptp.concept2words_2 X |tptp.'homo erectus'|) (tptp.concept2words_2 X |tptp.'homo-erectus'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homo_ergaster_1 X) (and (tptp.original_name_2 X |tptp.'Homo-Ergaster'|) (tptp.user_description_2 X |tptp.'An extinct hominid that lived in eastern and southern Africa during the early Pleistocene, about 1.7 to 1.3 million years ago.'|) (tptp.concept2words_2 X |tptp.'homo ergaster'|) (tptp.concept2words_2 X |tptp.'homo-ergaster'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homo_habilis_1 X) (and (tptp.original_name_2 X |tptp.'Homo-Habilis'|) (tptp.user_description_2 X |tptp.'The earliest ancestor of the Homo genus. The fossils range in age from about 2.5 to 1.6 million years old and show an ape-like body with disproportionately long arms and a cranial capacity slightly less than that of modern humans. H. habilis remains are often found with stone tools.'|) (tptp.concept2words_2 X |tptp.'homo habilis'|) (tptp.concept2words_2 X |tptp.'homo-habilis'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homo_heidelbergensis_1 X) (and (tptp.original_name_2 X |tptp.'Homo-Heidelbergensis'|) (tptp.user_description_2 X |tptp.'aAn extinct species of the genus Homo which lived from 2.33 to 1.4 million years ago. This species may be the direct ancestor of both Homo neanderthalensis in Europe and Homo sapiens.'|) (tptp.concept2words_2 X |tptp.'homo heidelbergensis'|) (tptp.concept2words_2 X |tptp.'homo-heidelbergensis'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_sapiens_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homo_sapiens_1 X) (and (tptp.original_name_2 X |tptp.'Homo-Sapiens'|) (tptp.user_description_2 X |tptp.'Anatomically and behaviorally modern humans; the only extant species in the genus Homo.'|) (tptp.concept2words_2 X |tptp.'homo sapiens'|) (tptp.concept2words_2 X |tptp.'homo-sapiens'|) (tptp.concept2words_2 X |tptp.'homo sapiens sapiens'|) (tptp.concept2words_2 X |tptp.'homo-sapiens-sapiens'|) (tptp.concept2words_2 X |tptp.'homo sapien'|) (tptp.concept2words_2 X |tptp.'homo-sapien'|) (tptp.hominid_1 X) (not (tptp.australopithecine_1 X)) (not (tptp.cro_magnon_1 X)) (not (tptp.homo_erectus_1 X)) (not (tptp.homo_ergaster_1 X)) (not (tptp.homo_habilis_1 X)) (not (tptp.homo_heidelbergensis_1 X)) (not (tptp.neanderthal_1 X)) (not (tptp.paranthropus_boisei_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homogenate_1 X))) (=> (tptp.homogenate_1 X) (and (tptp.original_name_2 X |tptp.'Homogenate'|) (tptp.user_description_2 X |tptp.'A homogenate is a mixture of the remnants of a tissue after it has been broken down such as by a blender, prior to further processing such as accomplished by centrifuging.'|) (tptp.concept2words_2 X tptp.homogenate) (tptp.mixture_1 X) (not (tptp.suspension_1 X)) (not (tptp.acid_chyme_1 X)) (not (tptp.detritus_1 X)) (not (tptp.feces_1 X)) (not (tptp.homogeneous_mixture_1 X)) (not (tptp.loam_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X)) (tptp.organelle_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.homogeneous_mixture_1 X) (and (tptp.original_name_2 X |tptp.'Homogeneous-Mixture'|) (tptp.user_description_2 X |tptp.'A substance that is uniform throughout in properties and composition.'|) (tptp.concept2words_2 X |tptp.'homogeneous mixture'|) (tptp.concept2words_2 X |tptp.'homogeneous-mixture'|) (tptp.mixture_1 X) (not (tptp.acid_chyme_1 X)) (not (tptp.feces_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.loam_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homogenization_2 X))) (let ((_let_2 (tptp.fn_homogenization_1 X))) (=> (tptp.homogenization_1 X) (and (tptp.original_name_2 X |tptp.'Homogenization'|) (tptp.user_description_2 X |tptp.'Homogenization is the process of breaking apart of a cell. It produces a homogenate.'|) (tptp.concept2words_2 X tptp.homogenize) (tptp.concept2words_2 X tptp.homogenization) (tptp.take_apart_1 X) (tptp.homogenate_1 _let_2) (tptp.cell_1 _let_1) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_impair_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.homologous_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Homologous-chromosome'|) (tptp.user_description_2 X |tptp.'Homologous chromosome is one of the pair of chromosomes (termed as homologous chromosomes) which is genetically identical to its corresponding homologous chromosome by having same DNA sequence throughout their length'|) (tptp.concept2words_2 X |tptp.'homologous chromosome'|) (tptp.concept2words_2 X |tptp.'homologous-chromosome'|) (tptp.eukaryotic_chromosome_1 X) (not (tptp.chromosome_fragment_1 X)) (not (tptp.defective_chromosome_1 X)) (not (tptp.human_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.homologous_gene_1 X) (and (tptp.original_name_2 X |tptp.'Homologous-Gene'|) (tptp.user_description_2 X |tptp.'Genes that are common among different species which indicate common ancestry.'|) (tptp.concept2words_2 X |tptp.'homologous gene'|) (tptp.concept2words_2 X |tptp.'homologous-gene'|) (tptp.eukaryotic_gene_1 X)))) (forall ((X $$unsorted)) (=> (tptp.homology_1 X) (and (tptp.original_name_2 X |tptp.'Homology'|) (tptp.user_description_2 X |tptp.'Similarity of structure and function due to shared evolutionary ancestry.'|) (tptp.concept2words_2 X tptp.homologize) (tptp.concept2words_2 X tptp.homology) (tptp.evolutionary_process_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygote_1 X))) (=> (tptp.homozygote_1 X) (and (tptp.original_name_2 X |tptp.'Homozygote'|) (tptp.user_description_2 X |tptp.'An individual that is homozygous.'|) (tptp.concept2words_2 X tptp.homozygote) (tptp.eukaryote_1 X) (tptp.homozygous_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_organism_3 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygous_3 X))) (let ((_let_2 (tptp.fn_homozygous_2 X))) (let ((_let_3 (tptp.fn_homozygous_1 X))) (=> (tptp.homozygous_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous'|) (tptp.user_description_2 X |tptp.'Having two identical alleles for a given gene.'|) (tptp.concept2words_2 X tptp.homozygous) (tptp.genotype_1 X) (not (tptp.heterozygous_1 X)) (tptp.allele_1 _let_3) (tptp.true_breeding_1 _let_2) (tptp.allele_1 _let_1) (tptp.same_type_2 _let_3 _let_1) (tptp.same_type_2 _let_1 _let_3) (tptp.same_type_2 _let_2 X) (tptp.element_2 X _let_3) (tptp.same_type_2 X _let_2) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_gene_related_aggregates_1 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygous_dominant_2 X))) (let ((_let_2 (tptp.fn_homozygous_dominant_1 X))) (=> (tptp.homozygous_dominant_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Dominant'|) (tptp.user_description_2 X |tptp.'An individual who carries two copies of the allele that code for the dominant trait.'|) (tptp.concept2words_2 X |tptp.'dominant homozygote'|) (tptp.concept2words_2 X |tptp.'dominant of homozygous'|) (tptp.concept2words_2 X |tptp.'homozygous dominant'|) (tptp.concept2words_2 X |tptp.'homozygous-dominant'|) (tptp.homozygous_1 X) (not (tptp.homozygous_recessive_1 X)) (tptp.dominant_allele_1 _let_2) (tptp.dominant_allele_1 _let_1) (tptp.element_2 X _let_1) (tptp.same_type_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.same_type_2 _let_2 _let_1) (= _let_2 (tptp.fn_homozygous_3 X)) (= _let_1 (tptp.fn_homozygous_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cross_breeding_event_13 X))) (let ((_let_2 (tptp.fn_homozygous_dominant_cross_7 X))) (let ((_let_3 (tptp.fn_create_1 _let_2))) (let ((_let_4 (tptp.fn_cross_breeding_event_12 X))) (let ((_let_5 (tptp.fn_homozygous_dominant_cross_8 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_cross_breeding_event_1 X))) (let ((_let_8 (tptp.fn_cross_breeding_event_10 X))) (let ((_let_9 (tptp.fn_cross_breeding_event_9 X))) (let ((_let_10 (tptp.fn_cross_breeding_event_11 X))) (let ((_let_11 (tptp.fn_homozygous_dominant_cross_3 X))) (let ((_let_12 (tptp.fn_homozygous_dominant_cross_6 X))) (let ((_let_13 (tptp.fn_homozygous_dominant_cross_5 X))) (let ((_let_14 (tptp.fn_homozygous_dominant_cross_4 X))) (let ((_let_15 (tptp.fn_homozygous_dominant_cross_2 X))) (let ((_let_16 (tptp.fn_homozygous_dominant_cross_1 X))) (=> (tptp.homozygous_dominant_cross_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Dominant-Cross'|) (tptp.user_description_2 X |tptp.'A cross breeding event in which homozygous dominant male is crossed with homozygous dominant female and resultant is homozygous dominant offspring.'|) (tptp.concept2words_2 X |tptp.'homozygous dominant cross'|) (tptp.concept2words_2 X |tptp.'homozygous-dominant-cross'|) (tptp.cross_breeding_event_1 X) (not (tptp.codominance_cross_breeding_event_1 X)) (not (tptp.complete_dominance_cross_breeding_event_1 X)) (not (tptp.homozygous_recessive_cross_1 X)) (not (tptp.hybridization_1 X)) (not (tptp.incomplete_dominance_cross_breeding_event_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.organism_1 _let_16) (tptp.homozygous_dominant_1 _let_16) (tptp.organism_1 _let_15) (tptp.homozygous_dominant_1 _let_15) (tptp.fusion_1 _let_11) (tptp.homozygous_dominant_1 _let_14) (tptp.entity_1 _let_13) (tptp.egg_1 _let_13) (tptp.entity_1 _let_12) (tptp.sperm_cell_1 _let_12) (tptp.produce_1 _let_2) (tptp.produce_1 _let_5) (tptp.entity_1 _let_6) (tptp.entity_1 _let_3) (tptp.agent_2 _let_5 _let_16) (tptp.agent_2 _let_2 _let_15) (tptp.result_2 _let_2 _let_12) (tptp.result_2 _let_5 _let_13) (tptp.result_2 X _let_14) (tptp.result_2 _let_11 _let_14) (tptp.base_2 _let_11 _let_13) (tptp.subevent_2 X _let_11) (tptp.object_2 _let_11 _let_12) (= _let_12 _let_3) (= _let_13 _let_6) (= _let_14 _let_10) (= _let_14 _let_9) (= _let_14 _let_8) (= _let_14 _let_7) (= _let_13 _let_4) (= _let_12 _let_1) (= _let_11 (tptp.fn_cross_breeding_event_14 X)) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygous_dominant_female_1 X))) (let ((_let_2 (tptp.fn_homozygous_dominant_female_2 X))) (=> (tptp.homozygous_dominant_female_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Dominant-Female'|) (tptp.user_description_2 X |tptp.'A female who is homozygous dominant for an X chromosome gene.'|) (tptp.concept2words_2 X |tptp.'homozygous dominant female'|) (tptp.concept2words_2 X |tptp.'homozygous-dominant-female'|) (tptp.homozygous_dominant_1 X) (not (tptp.dominant_male_1 X)) (not (tptp.heterozygous_female_1 X)) (not (tptp.homozygous_recessive_female_1 X)) (not (tptp.recessive_male_1 X)) (not (tptp.x_dominant_and_y_1 X)) (tptp.x_chromosome_dominant_1 _let_1) (tptp.x_chromosome_dominant_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygous_recessive_1 X))) (let ((_let_2 (tptp.fn_homozygous_recessive_2 X))) (=> (tptp.homozygous_recessive_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Recessive'|) (tptp.user_description_2 X |tptp.'An individual who carries two copies of the allele that code for the recessive trait.'|) (tptp.concept2words_2 X |tptp.'homozygous recessive'|) (tptp.concept2words_2 X |tptp.'homozygous-recessive'|) (tptp.concept2words_2 X |tptp.'recessive homozygote'|) (tptp.concept2words_2 X |tptp.'recessive of homozygous'|) (tptp.homozygous_1 X) (not (tptp.homozygous_dominant_1 X)) (tptp.recessive_allele_1 _let_1) (tptp.recessive_allele_1 _let_2) (tptp.element_2 X _let_1) (tptp.same_type_2 _let_1 _let_2) (tptp.element_2 X _let_2) (tptp.same_type_2 _let_2 _let_1) (= _let_2 (tptp.fn_homozygous_3 X)) (= _let_1 (tptp.fn_homozygous_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cross_breeding_event_13 X))) (let ((_let_2 (tptp.fn_homozygous_recessive_cross_7 X))) (let ((_let_3 (tptp.fn_create_1 _let_2))) (let ((_let_4 (tptp.fn_cross_breeding_event_12 X))) (let ((_let_5 (tptp.fn_homozygous_recessive_cross_8 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_cross_breeding_event_1 X))) (let ((_let_8 (tptp.fn_cross_breeding_event_10 X))) (let ((_let_9 (tptp.fn_cross_breeding_event_9 X))) (let ((_let_10 (tptp.fn_cross_breeding_event_11 X))) (let ((_let_11 (tptp.fn_homozygous_recessive_cross_3 X))) (let ((_let_12 (tptp.fn_homozygous_recessive_cross_6 X))) (let ((_let_13 (tptp.fn_homozygous_recessive_cross_5 X))) (let ((_let_14 (tptp.fn_homozygous_recessive_cross_4 X))) (let ((_let_15 (tptp.fn_homozygous_recessive_cross_2 X))) (let ((_let_16 (tptp.fn_homozygous_recessive_cross_1 X))) (=> (tptp.homozygous_recessive_cross_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Recessive-Cross'|) (tptp.user_description_2 X |tptp.'A cross breeding event in which homozygous recessive male is crossed with homozygous recessive female and resultant is homozygous recessive offspring.'|) (tptp.concept2words_2 X |tptp.'homozygous recessive cross'|) (tptp.concept2words_2 X |tptp.'homozygous-recessive-cross'|) (tptp.cross_breeding_event_1 X) (not (tptp.codominance_cross_breeding_event_1 X)) (not (tptp.complete_dominance_cross_breeding_event_1 X)) (not (tptp.homozygous_dominant_cross_1 X)) (not (tptp.hybridization_1 X)) (not (tptp.incomplete_dominance_cross_breeding_event_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.organism_1 _let_16) (tptp.homozygous_recessive_1 _let_16) (tptp.organism_1 _let_15) (tptp.homozygous_recessive_1 _let_15) (tptp.fusion_1 _let_11) (tptp.homozygous_recessive_1 _let_14) (tptp.entity_1 _let_13) (tptp.egg_1 _let_13) (tptp.entity_1 _let_12) (tptp.sperm_cell_1 _let_12) (tptp.produce_1 _let_2) (tptp.produce_1 _let_5) (tptp.entity_1 _let_6) (tptp.entity_1 _let_3) (tptp.agent_2 _let_5 _let_16) (tptp.agent_2 _let_2 _let_15) (tptp.result_2 _let_2 _let_12) (tptp.result_2 _let_5 _let_13) (tptp.result_2 X _let_14) (tptp.result_2 _let_11 _let_14) (tptp.base_2 _let_11 _let_13) (tptp.subevent_2 X _let_11) (tptp.object_2 _let_11 _let_12) (= _let_12 _let_3) (= _let_13 _let_6) (= _let_14 _let_10) (= _let_14 _let_9) (= _let_14 _let_8) (= _let_14 _let_7) (= _let_13 _let_4) (= _let_12 _let_1) (= _let_11 (tptp.fn_cross_breeding_event_14 X)) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_homozygous_recessive_female_1 X))) (let ((_let_2 (tptp.fn_homozygous_recessive_female_2 X))) (=> (tptp.homozygous_recessive_female_1 X) (and (tptp.original_name_2 X |tptp.'Homozygous-Recessive-Female'|) (tptp.user_description_2 X |tptp.'Homozygous recessive female carries both sex chromosomes having recessive alleles.'|) (tptp.concept2words_2 X |tptp.'homozygous recessive female'|) (tptp.concept2words_2 X |tptp.'homozygous-recessive-female'|) (tptp.genotype_1 X) (not (tptp.homozygous_dominant_female_1 X)) (tptp.x_chromosome_recessive_1 _let_1) (tptp.x_chromosome_recessive_1 _let_2) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.homunculus_1 X) (and (tptp.original_name_2 X |tptp.'Homunculus'|) (tptp.user_description_2 X |tptp.'The distorted scale model of a human drawn or sculpted to reflect the relative space human body parts occupy on the somatosensory cortex (sensory homunculus) and the motor cortex (motor homunculus).'|) (tptp.concept2words_2 X tptp.homunculus) (tptp.model_1 X)))) (forall ((X $$unsorted)) (=> (tptp.honeybee_1 X) (and (tptp.original_name_2 X |tptp.'Honeybee'|) (tptp.user_description_2 X |tptp.'Subset of bees in the order Hymenoptera, distinguished from other bees by a highly organized colonial lifestyle, the construction of perennial nests made of wax, and the production of honey from nectar.'|) (tptp.concept2words_2 X tptp.honeybee) (tptp.bee_1 X)))) (forall ((X $$unsorted)) (=> (tptp.horizontal_cell_1 X) (and (tptp.original_name_2 X |tptp.'Horizontal-Cell'|) (tptp.user_description_2 X |tptp.'Neuron of the mammalian retina that integrates information from the photoreceptors before it is sent to the brain.'|) (tptp.concept2words_2 X |tptp.'cell of horizontal'|) (tptp.concept2words_2 X |tptp.'horizontal cell'|) (tptp.concept2words_2 X |tptp.'horizontal-cell'|) (tptp.sensory_neuron_1 X) (not (tptp.amacrine_cell_1 X)) (not (tptp.bipolar_cell_1 X)) (not (tptp.ganglion_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_horizontal_gene_transfer_1 X))) (let ((_let_2 (tptp.concept2words_2 X tptp.hgt))) (=> (tptp.horizontal_gene_transfer_1 X) (and (tptp.original_name_2 X |tptp.'Horizontal-Gene-Transfer'|) (tptp.user_description_2 X |tptp.'The transfer of genes from one genome to another through mechanisms such as transposable elements, plasmid exchange, viral activity, and perhaps fusions of different organisms.'|) _let_2 (tptp.concept2words_2 X |tptp.'lateral gene transfer'|) (tptp.concept2words_2 X |tptp.'lateral-gene-transfer'|) (tptp.concept2words_2 X tptp.lgt) _let_2 (tptp.concept2words_2 X |tptp.'horizontal gene transfer'|) (tptp.concept2words_2 X |tptp.'horizontal-gene-transfer'|) (tptp.genetic_process_1 X) (not (tptp.epistasis_1 X)) (not (tptp.gene_cloning_1 X)) (not (tptp.gene_expression_1 X)) (not (tptp.gene_for_gene_recognition_1 X)) (not (tptp.gene_inactivation_1 X)) (not (tptp.gene_regulation_1 X)) (not (tptp.histone_acetylation_1 X)) (not (tptp.polygenic_inheritance_1 X)) (not (tptp.proofreading_of_dna_replication_1 X)) (not (tptp.rna_interference_1 X)) (not (tptp.transformation_of_cell_to_cancerous_cell_1 X)) (tptp.dna_transfer_1 _let_1) (tptp.enables_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_horizontal_transmission_5 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_horizontal_transmission_6 X))) (let ((_let_4 (tptp.fn_carry_1 _let_1))) (let ((_let_5 (tptp.fn_horizontal_transmission_4 X))) (let ((_let_6 (tptp.fn_horizontal_transmission_3 X))) (let ((_let_7 (tptp.fn_horizontal_transmission_2 X))) (let ((_let_8 (tptp.fn_horizontal_transmission_1 X))) (=> (tptp.horizontal_transmission_1 X) (and (tptp.original_name_2 X |tptp.'Horizontal-Transmission'|) (tptp.user_description_2 X |tptp.'When a plant is infected from an external source of the virus.'|) (tptp.concept2words_2 X |tptp.'horizontal gene transfer'|) (tptp.concept2words_2 X tptp.transmit) (tptp.concept2words_2 X |tptp.'transmission of horizontal'|) (tptp.concept2words_2 X |tptp.'horizontal transmission'|) (tptp.concept2words_2 X |tptp.'horizontal-transmission'|) (tptp.viral_infection_1 X) (not (tptp.phage_reproduction_cycle_1 X)) (not (tptp.vertical_transmission_1 X)) (tptp.move_through_1 _let_8) (tptp.epidermis_1 _let_7) (tptp.plant_1 _let_6) (tptp.insect_1 _let_5) (tptp.carry_1 _let_1) (tptp.plant_virus_1 _let_3) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.agent_2 _let_8 _let_5) (tptp.path_2 _let_8 _let_7) (tptp.has_part_2 _let_6 _let_7) (tptp.object_2 X _let_3) (tptp.instrument_2 X _let_5) (tptp.base_2 X _let_6) (tptp.agent_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_communication_in_plant_2 X))) (let ((_let_2 (tptp.fn_cell_communication_2 X))) (let ((_let_3 (tptp.fn_hormonal_signaling_in_plant_8 X))) (let ((_let_4 (tptp.fn_signal_reception_7 _let_3))) (let ((_let_5 (tptp.fn_signal_reception_8 _let_3))) (let ((_let_6 (tptp.fn_hormonal_signaling_in_plant_2 X))) (let ((_let_7 (tptp.fn_signal_generation_4 _let_6))) (let ((_let_8 (tptp.fn_cell_communication_in_plant_1 X))) (let ((_let_9 (tptp.fn_hormonal_signaling_in_plant_5 X))) (let ((_let_10 (tptp.fn_secretion_2 _let_9))) (let ((_let_11 (tptp.fn_signal_generation_5 _let_6))) (let ((_let_12 (tptp.fn_cell_communication_4 X))) (let ((_let_13 (tptp.fn_signal_reception_5 _let_3))) (let ((_let_14 (tptp.fn_hormonal_signaling_in_plant_9 X))) (let ((_let_15 (tptp.fn_cell_signaling_5 _let_14))) (let ((_let_16 (tptp.fn_secretion_1 _let_9))) (let ((_let_17 (tptp.fn_hormonal_signaling_in_plant_7 X))) (let ((_let_18 (tptp.fn_transmit_2 _let_17))) (let ((_let_19 (tptp.fn_signal_generation_1 _let_6))) (let ((_let_20 (tptp.fn_transmit_1 _let_17))) (let ((_let_21 (tptp.fn_cell_communication_in_plant_3 X))) (let ((_let_22 (tptp.fn_cell_signaling_4 _let_14))) (let ((_let_23 (tptp.fn_hormonal_signaling_in_plant_1 X))) (let ((_let_24 (tptp.fn_plant_20 _let_23))) (let ((_let_25 (tptp.fn_signal_reception_3 _let_3))) (let ((_let_26 (tptp.fn_cell_signaling_2 _let_14))) (let ((_let_27 (tptp.fn_cell_signaling_3 _let_14))) (let ((_let_28 (tptp.fn_hormonal_signaling_in_plant_11 X))) (let ((_let_29 (tptp.fn_cell_signaling_1 _let_14))) (let ((_let_30 (tptp.fn_hormonal_signaling_in_plant_12 X))) (let ((_let_31 (tptp.fn_hormonal_signaling_in_plant_15 X))) (let ((_let_32 (tptp.fn_signal_reception_4 _let_3))) (let ((_let_33 (tptp.fn_hormonal_signaling_in_plant_17 X))) (let ((_let_34 (tptp.fn_signal_reception_6 _let_3))) (let ((_let_35 (tptp.fn_hormonal_signaling_in_plant_16 X))) (let ((_let_36 (tptp.fn_hormonal_signaling_in_plant_14 X))) (let ((_let_37 (tptp.fn_hormonal_signaling_in_plant_4 X))) (let ((_let_38 (tptp.fn_hormonal_signaling_in_plant_3 X))) (let ((_let_39 (tptp.fn_hormonal_signaling_in_plant_6 X))) (let ((_let_40 (tptp.fn_hormonal_signaling_in_plant_10 X))) (let ((_let_41 (tptp.fn_secretion_3 _let_9))) (let ((_let_42 (tptp.fn_hormonal_signaling_in_plant_13 X))) (=> (tptp.hormonal_signaling_in_plant_1 X) (and (tptp.original_name_2 X |tptp.'Hormonal-Signaling-In-Plant'|) (tptp.user_description_2 X |tptp.'A form of long-distance signaling where hormones, secreted chemicals formed in specialized cells, sometimes travel through vessels in the plant, but they often reach their target cells by moving through cells or through the air as a gas.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'hormonal signaling in plant'|) (tptp.concept2words_2 X |tptp.'hormonal-signaling-in-plant'|) (tptp.intercellular_process_1 X) (tptp.cell_communication_in_plant_1 X) (tptp.plant_1 _let_23) (tptp.signal_generation_1 _let_6) (tptp.hormone_1 _let_38) (tptp.living_entity_1 _let_37) (tptp.plant_cell_1 _let_37) (tptp.cell_1 _let_37) (tptp.secretion_1 _let_9) (tptp.signal_1 _let_39) (tptp.transmit_1 _let_17) (tptp.signal_reception_1 _let_3) (tptp.cell_signaling_1 _let_14) (tptp.eukaryotic_cell_1 _let_40) (tptp.cell_1 _let_40) (tptp.plant_cell_1 _let_40) (tptp.signal_transduction_1 _let_28) (tptp.cellular_response_1 _let_30) (tptp.secretor_1 _let_42) (tptp.monomer_1 _let_36) (tptp.monomer_1 _let_31) (tptp.ligand_binding_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.polymer_1 _let_33) (tptp.receptor_protein_1 _let_33) (tptp.secretor_1 _let_41) (tptp.ligand_binding_1 _let_34) (tptp.spatial_entity_1 _let_32) (tptp.polymer_1 _let_32) (tptp.receptor_protein_1 _let_32) (tptp.cellular_response_1 _let_29) (tptp.signal_transduction_1 _let_27) (tptp.signal_reception_1 _let_26) (tptp.cell_1 _let_25) (tptp.plant_cell_1 _let_24) (tptp.cell_1 _let_24) (tptp.eukaryotic_cell_1 _let_24) (tptp.cell_1 _let_22) (tptp.signal_1 _let_20) (tptp.signal_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.chemical_entity_1 _let_11) (tptp.living_entity_1 _let_10) (tptp.cell_1 _let_7) (tptp.monomer_1 _let_5) (tptp.monomer_1 _let_4) (tptp.experiencer_2 X _let_23) (not (= _let_37 _let_40)) (not (= _let_40 _let_37)) (tptp.object_2 _let_17 _let_38) (tptp.has_part_2 _let_23 _let_40) (tptp.in_event_2 _let_39 _let_17) (tptp.base_2 _let_9 _let_37) (tptp.plays_2 _let_37 _let_42) (tptp.in_event_2 _let_42 _let_9) (tptp.object_2 _let_9 _let_38) (tptp.base_2 _let_30 _let_40) (tptp.base_2 _let_28 _let_40) (tptp.base_2 _let_3 _let_40) (not (= _let_38 _let_36)) (not (= _let_36 _let_38)) (not (= _let_31 _let_38)) (not (= _let_38 _let_31)) (tptp.object_2 _let_3 _let_38) (tptp.has_function_2 _let_38 _let_35) (tptp.object_2 _let_35 _let_38) (tptp.complement_2 _let_33 _let_38) (tptp.complement_2 _let_38 _let_33) (tptp.first_subevent_2 X _let_6) (tptp.subevent_2 X _let_6) (tptp.instrument_2 X _let_38) (tptp.agent_2 _let_14 _let_38) (tptp.object_2 X _let_40) (tptp.base_2 _let_14 _let_40) (tptp.subevent_2 X _let_14) (tptp.agent_2 X _let_37) (tptp.plays_2 _let_38 _let_39) (tptp.subevent_2 _let_14 _let_28) (tptp.subevent_2 _let_14 _let_30) (tptp.next_event_2 _let_28 _let_30) (tptp.next_event_2 _let_3 _let_28) (tptp.subevent_2 _let_14 _let_3) (tptp.first_subevent_2 _let_14 _let_3) (tptp.has_part_2 _let_33 _let_36) (tptp.base_2 _let_35 _let_33) (tptp.subevent_2 _let_3 _let_35) (tptp.has_function_2 _let_33 _let_3) (tptp.instrument_2 _let_3 _let_33) (tptp.has_part_2 _let_33 _let_31) (tptp.result_2 _let_6 _let_38) (tptp.base_2 _let_6 _let_37) (tptp.agent_2 _let_6 _let_37) (= _let_38 _let_18) (= _let_40 _let_24) (= _let_39 _let_20) (= _let_38 _let_16) (= _let_42 _let_41) (= _let_37 _let_10) (= _let_40 _let_25) (= _let_36 _let_4) (= _let_31 _let_5) (= _let_38 _let_13) (= _let_38 _let_15) (= _let_14 _let_2) (= _let_38 _let_12) (= _let_6 (tptp.fn_cell_communication_5 X)) (= _let_37 _let_8) (= _let_40 _let_22) (= _let_14 _let_1) (= _let_40 _let_21) (= _let_39 _let_19) (= _let_38 _let_11) (= _let_37 _let_7) (= _let_36 _let_5) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_4) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_3 _let_26) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_4) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hormone_1 X))) (let ((_let_2 (tptp.fn_hormone_2 X))) (let ((_let_3 (tptp.fn_hormone_3 X))) (let ((_let_4 (tptp.fn_hormone_4 X))) (let ((_let_5 (tptp.fn_messenger_1 _let_4))) (=> (tptp.hormone_1 X) (and (tptp.original_name_2 X |tptp.'Hormone'|) (tptp.user_description_2 X |tptp.'A chemical that is secreted by specialized cells within an organ, travels in the bloodstream, and acts on specific target cells in another part of the body or another part of the secreting organ.'|) (tptp.concept2words_2 X tptp.hormone) (tptp.organic_entity_1 X) (tptp.organic_molecule_1 X) (tptp.carbon_skeleton_1 _let_1) (tptp.carbon_1 _let_2) (tptp.atom_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.chemical_messenger_1 _let_4) (tptp.chemical_entity_1 _let_5) (tptp.plays_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.has_region_2 X _let_1) (tptp.is_inside_2 _let_2 _let_1) (tptp.has_part_2 X _let_2) (not (= _let_3 _let_2)) (not (= _let_2 _let_3)) (= X _let_5) (= _let_3 (tptp.fn_organic_molecule_2 X)) (= _let_2 (tptp.fn_organic_molecule_1 X)) (= _let_1 (tptp.fn_organic_molecule_3 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hormone_receptor_1 X))) (=> (tptp.hormone_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Hormone-Receptor'|) (tptp.user_description_2 X |tptp.'A receptor protein on the surface of a cell or in its interior that binds to a specific hormone which often triggers the start of a biophysical signal that can lead to further signal transduction pathways, or trigger the activation or inhibition of genes.'|) (tptp.concept2words_2 X |tptp.'receptor of hormone'|) (tptp.concept2words_2 X |tptp.'hormone receptor'|) (tptp.concept2words_2 X |tptp.'hormone-receptor'|) (tptp.receptor_protein_1 X) (tptp.hydrophobic_region_1 _let_1) (tptp.has_region_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.hornwort_1 X) (and (tptp.original_name_2 X |tptp.'Hornwort'|) (tptp.user_description_2 X |tptp.'Member of the phylum Antherocerophyta, which are small herbaceous bryophytes (nonvascular plants).'|) (tptp.concept2words_2 X tptp.anthroceroyphyta) (tptp.concept2words_2 X tptp.anthrocerophyte) (tptp.concept2words_2 X tptp.hornwort) (tptp.bryophyte_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_host_1 X))) (let ((_let_2 (tptp.fn_host_2 X))) (=> (tptp.host_1 X) (and (tptp.original_name_2 X |tptp.'Host'|) (tptp.user_description_2 X |tptp.'The larger of two partcipants in a symbiotic relationship. The host may serve as habitable environment or food for the smaller partner and may in turn be either harmed by or benefit from the presence of the smaller participant.'|) (tptp.concept2words_2 X tptp.host) (tptp.role_1 X) (tptp.living_entity_1 _let_1) (tptp.event_1 _let_2) (tptp.in_event_2 X _let_2) (tptp.plays_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.host_range_1 X) (and (tptp.original_name_2 X |tptp.'Host-Range'|) (tptp.user_description_2 X |tptp.'The limited range of host cell types that can be infected by a parasite or pathogen.'|) (tptp.concept2words_2 X |tptp.'range of host'|) (tptp.concept2words_2 X |tptp.'host range'|) (tptp.concept2words_2 X |tptp.'host-range'|) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hox_gene_1 X) (and (tptp.original_name_2 X |tptp.'Hox-Gene'|) (tptp.user_description_2 X |tptp.'One of a group of related genes that regulate the formation of body axes during development.'|) (tptp.concept2words_2 X |tptp.'hox gene'|) (tptp.concept2words_2 X |tptp.'hox-gene'|) (tptp.eukaryote_dna_sequence_1 X)))) (forall ((X $$unsorted)) (=> (tptp.htlv_1 X) (and (tptp.original_name_2 X |tptp.'HTLV'|) (tptp.user_description_2 X |tptp.'Human T-lymphotrophic virus; a human RNA retrovirus that causes a type of cancer in T cells.'|) (tptp.concept2words_2 X |tptp.'human t cell leukemia virus'|) (tptp.concept2words_2 X |tptp.'human-t-cell-leukemia-virus'|) (tptp.concept2words_2 X |tptp.'human t lymphotropic virus type i'|) (tptp.concept2words_2 X |tptp.'human-t-lymphotropic-virus-type-i'|) (tptp.concept2words_2 X |tptp.'htlv 1'|) (tptp.concept2words_2 X |tptp.'htlv-1'|) (tptp.concept2words_2 X |tptp.'human t lymphotropic virus'|) (tptp.concept2words_2 X |tptp.'human-t-lymphotropic-virus'|) (tptp.concept2words_2 X tptp.htlv) (tptp.retrovirus_1 X) (not (tptp.hiv_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hugh_davson_1 X) (and (tptp.original_name_2 X |tptp.'Hugh-Davson'|) (tptp.user_description_2 X |tptp.'Biologist that studied biomembranes and developed the Sandwich Model for placement of membrane proteins.'|) (tptp.concept2words_2 X tptp.davson) (tptp.concept2words_2 X |tptp.'hugh davson'|) (tptp.concept2words_2 X |tptp.'hugh-davson'|) (tptp.biologist_1 X)))) (forall ((X $$unsorted)) (=> (tptp.human_behavior_1 X) (and (tptp.original_name_2 X |tptp.'Human-Behavior'|) (tptp.user_description_2 X |tptp.'Range of behaviors unique to humans which are influenced by human biology and culture.'|) (tptp.concept2words_2 X |tptp.'behavior of human'|) (tptp.concept2words_2 X |tptp.'human behavior'|) (tptp.concept2words_2 X |tptp.'human-behavior'|) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_vertebrate_cell_26 X))) (let ((_let_2 (tptp.fn_human_cell_36 X))) (let ((_let_3 (tptp.fn_integrin_30 _let_2))) (let ((_let_4 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_5 (tptp.fn_vertebrate_cell_6 X))) (let ((_let_6 (tptp.fn_integrin_29 _let_2))) (let ((_let_7 (tptp.fn_human_cell_26 X))) (let ((_let_8 (tptp.fn_animal_plasma_membrane_54 _let_7))) (let ((_let_9 (tptp.fn_plasma_membrane_71 _let_7))) (let ((_let_10 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_11 (tptp.fn_vertebrate_cell_27 X))) (let ((_let_12 (tptp.fn_human_cell_23 X))) (let ((_let_13 (tptp.fn_cytoplasmic_side_1 _let_12))) (let ((_let_14 (tptp.fn_vertebrate_cell_21 X))) (let ((_let_15 (tptp.fn_mammalian_cell_3 X))) (let ((_let_16 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_17 (tptp.fn_integrin_8 _let_2))) (let ((_let_18 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_19 (tptp.fn_animal_plasma_membrane_53 _let_7))) (let ((_let_20 (tptp.fn_plasma_membrane_55 _let_7))) (let ((_let_21 (tptp.fn_animal_plasma_membrane_62 _let_7))) (let ((_let_22 (tptp.fn_animal_plasma_membrane_47 _let_7))) (let ((_let_23 (tptp.fn_animal_plasma_membrane_55 _let_7))) (let ((_let_24 (tptp.fn_eukaryotic_cell_47 X))) (let ((_let_25 (tptp.fn_plasma_membrane_65 _let_7))) (let ((_let_26 (tptp.fn_animal_plasma_membrane_51 _let_7))) (let ((_let_27 (tptp.fn_eukaryotic_cell_48 X))) (let ((_let_28 (tptp.fn_plasma_membrane_6 _let_7))) (let ((_let_29 (tptp.fn_animal_plasma_membrane_52 _let_7))) (let ((_let_30 (tptp.fn_eukaryotic_cell_16 X))) (let ((_let_31 (tptp.fn_animal_plasma_membrane_77 _let_7))) (let ((_let_32 (tptp.fn_animal_plasma_membrane_58 _let_7))) (let ((_let_33 (tptp.fn_plasma_membrane_66 _let_7))) (let ((_let_34 (tptp.fn_human_cell_30 X))) (let ((_let_35 (tptp.fn_human_cell_13 X))) (let ((_let_36 (tptp.fn_human_cell_12 X))) (let ((_let_37 (tptp.fn_human_cell_24 X))) (let ((_let_38 (tptp.fn_human_cell_25 X))) (let ((_let_39 (tptp.fn_human_cell_42 X))) (let ((_let_40 (tptp.fn_animal_plasma_membrane_56 _let_7))) (let ((_let_41 (tptp.fn_human_cell_37 X))) (let ((_let_42 (tptp.fn_human_cell_39 X))) (let ((_let_43 (tptp.fn_human_cell_4 X))) (let ((_let_44 (tptp.fn_human_cell_5 X))) (let ((_let_45 (tptp.fn_human_cell_41 X))) (let ((_let_46 (tptp.fn_human_cell_40 X))) (let ((_let_47 (tptp.fn_human_cell_32 X))) (let ((_let_48 (tptp.fn_human_cell_11 X))) (let ((_let_49 (tptp.fn_human_cell_8 X))) (let ((_let_50 (tptp.fn_human_cell_6 X))) (let ((_let_51 (tptp.fn_human_cell_45 X))) (let ((_let_52 (tptp.fn_human_cell_7 X))) (let ((_let_53 (tptp.fn_human_cell_20 X))) (let ((_let_54 (tptp.fn_human_cell_14 X))) (let ((_let_55 (tptp.fn_human_cell_15 X))) (let ((_let_56 (tptp.fn_human_cell_46 X))) (let ((_let_57 (tptp.fn_human_cell_16 X))) (let ((_let_58 (tptp.fn_human_cell_17 X))) (let ((_let_59 (tptp.fn_human_cell_18 X))) (let ((_let_60 (tptp.fn_human_cell_22 X))) (let ((_let_61 (tptp.fn_human_cell_21 X))) (let ((_let_62 (tptp.fn_human_cell_19 X))) (let ((_let_63 (tptp.fn_human_cell_31 X))) (let ((_let_64 (tptp.fn_integrin_9 _let_2))) (let ((_let_65 (tptp.fn_human_cell_38 X))) (let ((_let_66 (tptp.fn_human_cell_34 X))) (let ((_let_67 (tptp.fn_animal_plasma_membrane_76 _let_7))) (let ((_let_68 (tptp.fn_human_cell_43 X))) (let ((_let_69 (tptp.fn_animal_plasma_membrane_5 _let_7))) (let ((_let_70 (tptp.fn_human_cell_44 X))) (let ((_let_71 (tptp.fn_human_cell_35 X))) (let ((_let_72 (tptp.fn_human_cell_33 X))) (let ((_let_73 (tptp.fn_eukaryotic_chromosome_3 _let_34))) (let ((_let_74 (tptp.fn_human_cell_28 X))) (let ((_let_75 (tptp.fn_eukaryotic_chromosome_6 _let_34))) (let ((_let_76 (tptp.fn_human_cell_29 X))) (let ((_let_77 (tptp.fn_eukaryotic_chromosome_7 _let_34))) (=> (tptp.human_cell_1 X) (and (tptp.original_name_2 X |tptp.'Human-Cell'|) (tptp.user_description_2 X |tptp.'Human cell is the basic structural unit of Human'|) (tptp.concept2words_2 X |tptp.'cell of human'|) (tptp.concept2words_2 X |tptp.'human cell'|) (tptp.concept2words_2 X |tptp.'human-cell'|) (tptp.mammalian_cell_1 X) (tptp.system_1 (tptp.fn_human_cell_2 X)) (tptp.electron_transport_chain_pathway_1 _let_43) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_44) (tptp.metabolic_pathway_1 _let_50) (tptp.endergonic_process_1 _let_50) (tptp.chemical_reaction_1 _let_50) (tptp.synthesis_of_organic_molecule_1 _let_50) (tptp.anabolic_pathway_1 _let_50) (tptp.synthesis_of_atp_1 _let_50) (tptp.catabolic_pathway_1 _let_52) (tptp.semiautonomous_organelle_1 _let_49) (tptp.organelle_1 _let_49) (tptp.mitochondrion_1 _let_49) (tptp.mixture_1 _let_48) (tptp.cytoplasm_1 _let_48) (tptp.centrosome_1 _let_36) (tptp.tangible_entity_1 _let_35) (tptp.nucleus_1 _let_35) (tptp.endoplasmic_reticulum_1 _let_54) (tptp.rough_endoplasmic_reticulum_1 _let_54) (tptp.smooth_endoplasmic_reticulum_1 _let_55) (tptp.golgi_apparatus_1 _let_57) (tptp.cell_pole_1 _let_58) (tptp.cell_pole_1 _let_59) (tptp.support_1 _let_62) (tptp.support_1 _let_53) (tptp.volume_value_1 _let_61) (tptp.size_value_1 _let_60) (tptp.inside_face_1 _let_12) (tptp.cytoplasmic_side_1 _let_12) (tptp.create_1 _let_37) (tptp.produce_1 _let_37) (tptp.microtubule_1 _let_38) (tptp.tangible_entity_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.animal_plasma_membrane_1 _let_7) (tptp.plasma_membrane_1 _let_7) (tptp.entity_1 _let_74) (tptp.dna_1 _let_74) (tptp.polymer_1 _let_74) (tptp.length_value_1 _let_76) (tptp.eukaryotic_chromosome_1 _let_34) (tptp.chromosome_1 _let_34) (tptp.protein_1 _let_63) (tptp.organic_molecule_1 _let_63) (tptp.polymer_1 _let_63) (tptp.spatial_entity_1 _let_63) (tptp.membrane_protein_1 _let_63) (tptp.tangible_entity_1 _let_63) (tptp.transmembrane_protein_1 _let_63) (tptp.integral_protein_1 _let_63) (tptp.transport_protein_1 _let_63) (tptp.sodium_potassium_pump_1 _let_63) (tptp.eukaryotic_cellular_respiration_1 _let_47) (tptp.attach_1 _let_72) (tptp.outside_face_1 _let_66) (tptp.extracellular_side_1 _let_66) (tptp.surface_1 _let_66) (tptp.hydrophobic_core_1 _let_71) (tptp.integrin_1 _let_2) (tptp.tangible_entity_1 _let_41) (tptp.phospholipid_bilayer_1 _let_41) (tptp.spatial_entity_1 _let_65) (tptp.polymer_1 _let_65) (tptp.organic_molecule_1 _let_65) (tptp.tangible_entity_1 _let_65) (tptp.membrane_protein_1 _let_65) (tptp.protein_1 _let_65) (tptp.surface_1 _let_42) (tptp.substance_1 _let_46) (tptp.cytosol_1 _let_46) (tptp.ribosome_1 _let_45) (tptp.eukaryotic_ribosome_1 _let_45) (tptp.cellular_work_1 _let_39) (tptp.active_transport_1 _let_39) (tptp.active_movement_of_ions_1 _let_39) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_39) (tptp.glycoprotein_1 _let_68) (tptp.hydrophilic_face_1 _let_70) (tptp.move_1 _let_51) (tptp.peroxisome_1 _let_56) (tptp.property_node_1 _let_77) (tptp.length_value_1 _let_75) (tptp.entity_1 _let_73) (tptp.dna_1 _let_73) (tptp.polymer_1 _let_73) (tptp.hydrophilic_face_1 _let_69) (tptp.glycoprotein_1 _let_67) (tptp.spatial_entity_1 _let_64) (tptp.polymer_1 _let_64) (tptp.organic_molecule_1 _let_64) (tptp.tangible_entity_1 _let_64) (tptp.membrane_protein_1 _let_64) (tptp.protein_1 _let_64) (tptp.animal_cell_1 _let_40) (tptp.cytoplasmic_side_1 _let_33) (tptp.inside_face_1 _let_32) (tptp.cytoplasmic_side_1 _let_32) (tptp.attach_1 _let_31) (tptp.attach_1 _let_29) (tptp.hydrophobic_core_1 _let_28) (tptp.hydrophobic_core_1 _let_26) (tptp.extracellular_side_1 _let_25) (tptp.outside_face_1 _let_23) (tptp.extracellular_side_1 _let_23) (tptp.surface_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.membrane_protein_1 _let_22) (tptp.spatial_entity_1 _let_22) (tptp.polymer_1 _let_22) (tptp.protein_1 _let_22) (tptp.organic_molecule_1 _let_22) (tptp.spatial_entity_1 _let_21) (tptp.tangible_entity_1 _let_21) (tptp.transmembrane_protein_1 _let_21) (tptp.integral_protein_1 _let_21) (tptp.transport_protein_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.transmembrane_protein_1 _let_20) (tptp.integral_protein_1 _let_20) (tptp.transport_protein_1 _let_20) (tptp.polymer_1 _let_19) (tptp.spatial_entity_1 _let_19) (tptp.membrane_protein_1 _let_19) (tptp.tangible_entity_1 _let_19) (tptp.transmembrane_protein_1 _let_19) (tptp.integral_protein_1 _let_19) (tptp.transport_protein_1 _let_19) (tptp.polymer_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.transmembrane_protein_1 _let_17) (tptp.integral_protein_1 _let_17) (tptp.transport_protein_1 _let_17) (tptp.sodium_potassium_pump_1 _let_17) (tptp.cytoplasm_1 _let_13) (tptp.tangible_entity_1 _let_10) (tptp.phospholipid_bilayer_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.phospholipid_bilayer_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.phospholipid_bilayer_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.phospholipid_bilayer_1 _let_6) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.animal_plasma_membrane_1 _let_3) (tptp.plasma_membrane_1 _let_3) (tptp.called_2 _let_2 |tptp.'MP2'|) (tptp.called_2 _let_2 |tptp.'MP1'|) (tptp.site_2 _let_47 _let_48) (tptp.exactCardinality X tptp.has_part_0 |"46"| tptp.eukaryotic_chromosome_0) (tptp.called_2 _let_76 |tptp.'Length_DNA'|) (tptp.the_cardinal_value_2 _let_76 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_76 tptp.meter_0) (tptp.has_region_2 _let_7 _let_70) (tptp.is_oriented_toward_2 _let_12 _let_48) (tptp.is_facing_2 _let_12 _let_48) (tptp.has_region_2 _let_63 _let_66) (tptp.object_2 _let_72 _let_63) (tptp.is_across_2 _let_63 _let_71) (tptp.has_part_2 _let_34 _let_74) (tptp.length_2 _let_74 _let_76) (tptp.has_region_2 _let_7 _let_12) (tptp.base_2 _let_72 _let_7) (tptp.has_region_2 _let_7 _let_71) (tptp.is_outside_2 _let_70 _let_7) (tptp.has_region_2 _let_7 _let_66) (tptp.is_outside_2 _let_66 _let_7) (tptp.has_part_2 _let_7 _let_68) (tptp.is_inside_2 _let_68 _let_41) (tptp.called_2 _let_65 |tptp.'MP1'|) (tptp.called_2 _let_63 |tptp.'MP1'|) (tptp.has_part_2 _let_7 _let_2) (tptp.has_part_2 _let_7 _let_63) (tptp.is_inside_2 _let_63 _let_41) (not (= _let_2 _let_65)) (not (= _let_65 _let_2)) (not (= _let_2 _let_63)) (tptp.is_across_2 _let_63 _let_7) (tptp.has_part_2 _let_7 _let_65) (not (= _let_65 _let_63)) (tptp.is_at_2 _let_63 _let_7) (not (= _let_63 _let_2)) (not (= _let_63 _let_65)) (tptp.is_between_2 _let_48 _let_7) (tptp.is_between_2 _let_48 _let_35) (tptp.the_scalar_value_2 _let_60 tptp.big_0) (tptp.scalar_unit_class_2 _let_60 tptp.prokaryote_0) (tptp.site_2 _let_52 _let_49) (tptp.has_region_2 X _let_59) (tptp.has_function_2 _let_38 _let_62) (tptp.object_2 _let_62 X) (tptp.has_region_2 X _let_42) (tptp.size_2 X _let_60) (tptp.directly_proportional_2 _let_60 _let_61) (tptp.volume_2 X _let_61) (tptp.has_part_2 X _let_49) (tptp.has_function_2 _let_49 _let_44) (tptp.is_inside_2 _let_57 _let_46) (tptp.has_part_2 X _let_57) (tptp.has_region_2 X _let_58) (tptp.is_opposite_2 _let_59 _let_58) (tptp.is_opposite_2 _let_58 _let_59) (tptp.origin_2 _let_51 _let_56) (tptp.has_part_2 X _let_56) (tptp.has_part_2 X _let_55) (not (= _let_54 _let_55)) (not (= _let_55 _let_54)) (tptp.is_inside_2 _let_48 _let_7) (tptp.agent_2 _let_53 _let_7) (tptp.object_2 _let_53 X) (tptp.has_part_2 X _let_54) (tptp.abuts_2 _let_54 _let_55) (tptp.abuts_2 _let_55 _let_54) (tptp.destination_2 _let_51 _let_49) (tptp.causes_2 _let_51 _let_52) (tptp.base_2 _let_52 X) (tptp.has_part_2 X _let_35) (tptp.is_inside_2 _let_35 _let_46) (tptp.first_subevent_2 _let_44 _let_43) (tptp.site_2 _let_44 _let_49) (tptp.site_2 _let_50 _let_49) (tptp.base_2 _let_50 X) (tptp.has_part_2 X _let_36) (tptp.base_2 _let_47 X) (tptp.has_function_2 X _let_47) (tptp.has_part_2 X _let_48) (tptp.has_part_2 _let_48 _let_46) (tptp.is_inside_2 _let_49 _let_46) (tptp.base_2 _let_43 X) (tptp.subevent_2 _let_44 _let_43) (tptp.base_2 _let_44 X) (tptp.has_part_2 X _let_45) (tptp.is_inside_2 _let_45 _let_46) (tptp.base_2 _let_39 X) (tptp.has_function_2 X _let_39) (tptp.has_part_2 X _let_7) (tptp.has_part_2 _let_7 _let_41) (tptp.is_at_2 _let_41 _let_42) (tptp.has_part_2 X _let_34) (tptp.is_inside_2 _let_34 _let_35) (tptp.is_near_2 _let_35 _let_36) (tptp.has_function_2 _let_36 _let_37) (tptp.result_2 _let_37 _let_38) (tptp.is_near_2 _let_36 _let_35) (= _let_48 _let_13) (= _let_72 _let_30) (= _let_63 _let_20) (= _let_71 _let_28) (= (tptp.fn_human_cell_27 X) _let_77) (= _let_76 _let_75) (= _let_74 _let_73) (= _let_12 _let_33) (= _let_12 _let_32) (= _let_72 _let_31) (= _let_72 _let_29) (= _let_71 _let_27) (= _let_71 _let_26) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_25) (= _let_66 _let_24) (= _let_66 _let_23) (= _let_41 _let_6) (= _let_65 _let_64) (= _let_63 _let_22) (= _let_63 _let_21) (= _let_63 _let_19) (= _let_63 _let_18) (= _let_7 _let_3) (= _let_63 _let_17) (= (tptp.fn_human_cell_10 X) (tptp.fn_vertebrate_cell_29 X)) (= (tptp.fn_human_cell_9 X) (tptp.fn_vertebrate_cell_28 X)) (= _let_62 (tptp.fn_vertebrate_cell_12 X)) (= _let_49 _let_16) (= _let_49 _let_15) (= _let_61 (tptp.fn_vertebrate_cell_13 X)) (= _let_60 (tptp.fn_vertebrate_cell_14 X)) (= _let_59 (tptp.fn_vertebrate_cell_15 X)) (= _let_58 (tptp.fn_vertebrate_cell_16 X)) (= _let_57 (tptp.fn_vertebrate_cell_18 X)) (= _let_56 (tptp.fn_vertebrate_cell_32 X)) (= _let_55 (tptp.fn_vertebrate_cell_19 X)) (= _let_54 (tptp.fn_vertebrate_cell_20 X)) (= _let_53 (tptp.fn_vertebrate_cell_11 X)) (= _let_52 (tptp.fn_vertebrate_cell_4 X)) (= _let_51 (tptp.fn_vertebrate_cell_31 X)) (= _let_50 (tptp.fn_vertebrate_cell_3 X)) (= _let_49 _let_14) (= _let_48 _let_11) (= _let_47 (tptp.fn_vertebrate_cell_10 X)) (= _let_46 (tptp.fn_vertebrate_cell_9 X)) (= _let_45 (tptp.fn_vertebrate_cell_25 X)) (= _let_44 (tptp.fn_vertebrate_cell_2 X)) (= _let_43 (tptp.fn_vertebrate_cell_1 X)) (= _let_42 (tptp.fn_vertebrate_cell_17 X)) (= _let_41 _let_10) (= _let_41 _let_9) (= _let_41 _let_8) (= _let_41 _let_5) (= X _let_40) (= _let_7 _let_4) (= _let_7 _let_1) (= _let_39 (tptp.fn_vertebrate_cell_30 X)) (= _let_38 (tptp.fn_vertebrate_cell_7 X)) (= _let_37 (tptp.fn_vertebrate_cell_8 X)) (= _let_36 (tptp.fn_vertebrate_cell_23 X)) (= _let_35 (tptp.fn_vertebrate_cell_22 X)) (= _let_34 (tptp.fn_vertebrate_cell_24 X)) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.human_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Human-Chromosome'|) (tptp.user_description_2 X |tptp.'A chromosome in the nucleus of a human cell.'|) (tptp.concept2words_2 X |tptp.'chromosome of human'|) (tptp.concept2words_2 X |tptp.'human chromosome'|) (tptp.concept2words_2 X |tptp.'human-chromosome'|) (tptp.eukaryotic_chromosome_1 X) (not (tptp.sex_chromosome_1 X)) (not (tptp.autosome_1 X)) (not (tptp.prokaryotic_chromosome_1 X)) (not (tptp.chromosome_21_1 X)) (not (tptp.chromosome_fragment_1 X)) (not (tptp.defective_chromosome_1 X)) (not (tptp.homologous_chromosome_1 X)) (not (tptp.non_homologous_chromosome_1 X)) (not (tptp.paternal_chromosome_1 X)) (not (tptp.recombinant_chromosome_1 X)) (not (tptp.yeast_artificial_chromosome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.human_culture_1 X) (and (tptp.original_name_2 X |tptp.'Human-Culture'|) (tptp.user_description_2 X |tptp.'In humans, the systems by which information is transferred through teaching and social learning rather than by genetics or instinct.'|) (tptp.concept2words_2 X |tptp.'culture of human'|) (tptp.concept2words_2 X |tptp.'human culture'|) (tptp.concept2words_2 X |tptp.'human-culture'|) (tptp.conceptual_entity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_dentition_4 X))) (let ((_let_2 (tptp.fn_human_dentition_1 X))) (let ((_let_3 (tptp.fn_human_dentition_2 X))) (let ((_let_4 (tptp.fn_human_dentition_3 X))) (=> (tptp.human_dentition_1 X) (and (tptp.original_name_2 X |tptp.'Human-Dentition'|) (tptp.user_description_2 X |tptp.'A human_'s assortment of teeth.'|) (tptp.concept2words_2 X |tptp.'dentition of human'|) (tptp.concept2words_2 X |tptp.'human dentition'|) (tptp.concept2words_2 X |tptp.'human-dentition'|) (tptp.dentition_1 X) (tptp.molar_tooth_1 _let_2) (tptp.premolar_tooth_1 _let_3) (tptp.canine_tooth_1 _let_4) (tptp.incisor_1 _let_1) (tptp.element_2 X _let_4) (tptp.element_2 X _let_3) (tptp.element_2 X _let_2) (tptp.exactCardinality X tptp.element_0 |"8"| tptp.incisor_0) (tptp.exactCardinality X tptp.element_0 |"4"| tptp.canine_tooth_0) (tptp.exactCardinality X tptp.element_0 |"8"| tptp.premolar_tooth_0) (tptp.maxCardinality X tptp.element_0 |"12"| tptp.molar_tooth_0) (tptp.element_2 X _let_1) (= _let_1 (tptp.fn_dentition_1 X))))))))) (forall ((X $$unsorted)) (=> (tptp.human_disease_1 X) (and (tptp.original_name_2 X |tptp.'Human-Disease'|) (tptp.user_description_2 X |tptp.'A disease occurring in humans.'|) (tptp.concept2words_2 X |tptp.'disease of human'|) (tptp.concept2words_2 X |tptp.'human disease'|) (tptp.concept2words_2 X |tptp.'human-disease'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.human_driven_disturbance_1 X) (and (tptp.original_name_2 X |tptp.'Human-Driven-Disturbance'|) (tptp.user_description_2 X |tptp.'Ecological disturbance that is generally attributed to or caused by human activity.'|) (tptp.concept2words_2 X |tptp.'human driven disturbance'|) (tptp.concept2words_2 X |tptp.'human-driven-disturbance'|) (tptp.disturbance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.human_evolution_1 X) (and (tptp.original_name_2 X |tptp.'Human-Evolution'|) (tptp.user_description_2 X |tptp.'The evolutionary processes that lead up to Homo sapiens, especially those that occurred since the first appearance of the genus Homo.'|) (tptp.concept2words_2 X |tptp.'evolution of human'|) (tptp.concept2words_2 X |tptp.'human evolution'|) (tptp.concept2words_2 X |tptp.'human-evolution'|) (tptp.evolution_1 X) (not (tptp.evolutionary_developmental_biology_1 X)) (not (tptp.macroevolution_1 X)) (not (tptp.microevolution_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_female_somatic_cell_1 X))) (=> (tptp.human_female_somatic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Human-Female-Somatic-Cell'|) (tptp.user_description_2 X |tptp.'Every other diploid cell that carries XX chromosomes, in a multicellular organism apart from the sperm and ova, the gametocytes from which the gametes are made, and undifferentiated stem cells. Internal organs, skin, bones, blood, and connective tissue are all made up of somatic cells.'|) (tptp.concept2words_2 X |tptp.'human female somatic cell'|) (tptp.concept2words_2 X |tptp.'human-female-somatic-cell'|) (tptp.human_somatic_cell_1 X) (not (tptp.human_male_somatic_cell_1 X)) (tptp.dna_polymerase_ii_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.x_chromosome_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_eukaryotic_cell_2 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_fertilization_7 X))) (let ((_let_2 (tptp.fn_human_fertilization_4 X))) (let ((_let_3 (tptp.fn_human_fertilization_3 X))) (let ((_let_4 (tptp.fn_human_fertilization_6 X))) (let ((_let_5 (tptp.fn_haploid_cell_9 _let_4))) (let ((_let_6 (tptp.fn_human_fertilization_5 X))) (let ((_let_7 (tptp.fn_animal_cell_52 _let_3))) (let ((_let_8 (tptp.fn_human_fertilization_2 X))) (let ((_let_9 (tptp.fn_human_fertilization_1 X))) (=> (tptp.human_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'Human-Fertilization'|) (tptp.user_description_2 X |tptp.'The process of the fusion of gametes (sperm and ova) in hum sexual reproduction.'|) (tptp.concept2words_2 X |tptp.'fertilization of human'|) (tptp.concept2words_2 X |tptp.'human fertilization'|) (tptp.concept2words_2 X |tptp.'human-fertilization'|) (tptp.fertilization_1 X) (tptp.eukaryotic_chromosome_1 _let_9) (tptp.eukaryotic_chromosome_1 _let_8) (tptp.chromosome_1 _let_8) (tptp.animal_cell_1 _let_3) (tptp.zygote_1 _let_3) (tptp.eukaryotic_chromosome_1 _let_2) (tptp.eukaryotic_chromosome_1 _let_6) (tptp.chromosome_1 _let_6) (tptp.haploid_cell_1 _let_4) (tptp.gamete_1 _let_4) (tptp.gamete_1 _let_1) (tptp.eukaryotic_chromosome_1 _let_7) (tptp.chromosome_1 _let_7) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.chromosome_1 _let_5) (tptp.has_part_2 _let_3 _let_9) (tptp.exactCardinality _let_3 tptp.has_part_0 |"46"| tptp.chromosome_0) (tptp.has_state_2 _let_2 _let_8) (tptp.has_state_2 _let_6 _let_9) (tptp.exactCardinality _let_4 tptp.has_part_0 |"23"| tptp.chromosome_0) (tptp.exactCardinality _let_1 tptp.has_part_0 |"23"| tptp.chromosome_0) (tptp.has_part_2 _let_3 _let_8) (tptp.has_part_2 _let_4 _let_6) (tptp.base_2 X _let_4) (tptp.result_2 X _let_3) (tptp.object_2 X _let_1) (tptp.has_part_2 _let_1 _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_4 (tptp.fn_fertilization_3 X)) (= _let_3 (tptp.fn_fertilization_1 X)) (= _let_2 (tptp.fn_fertilization_8 X)) (= _let_1 (tptp.fn_fertilization_2 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_gamete_1 X))) (=> (tptp.human_gamete_1 X) (and (tptp.original_name_2 X |tptp.'Human-Gamete'|) (tptp.user_description_2 X |tptp.'Human sex cell have 23 chromosome, the male human sex cell is sperm and the female human sex cell is ovum.'|) (tptp.concept2words_2 X |tptp.'gamete of human'|) (tptp.concept2words_2 X |tptp.'human gamete'|) (tptp.concept2words_2 X |tptp.'human-gamete'|) (tptp.animal_cell_1 X) (tptp.gamete_1 X) (tptp.dna_polymerase_iii_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"23"| tptp.chromosome_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_eukaryotic_cell_3 X)))))) (forall ((X $$unsorted)) (=> (tptp.human_gene_1 X) (and (tptp.original_name_2 X |tptp.'Human-Gene'|) (tptp.user_description_2 X |tptp.'A gene is the basic unit of heredity in a living organism. Genes are present on chromosomes. Gene found in Humans is called as Human gene.'|) (tptp.concept2words_2 X |tptp.'gene of homo sapiens'|) (tptp.concept2words_2 X |tptp.'gene-of-homo-sapiens'|) (tptp.concept2words_2 X |tptp.'gene of human'|) (tptp.concept2words_2 X |tptp.'human gene'|) (tptp.concept2words_2 X |tptp.'human-gene'|) (tptp.eukaryotic_gene_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_genetic_disorder_1 X))) (=> (tptp.human_genetic_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Human-Genetic-Disorder'|) (tptp.user_description_2 X |tptp.'A disease in humans caused by an individual_'s genetic makeup.'|) (tptp.concept2words_2 X |tptp.'human genetic disorder'|) (tptp.concept2words_2 X |tptp.'human-genetic-disorder'|) (tptp.human_disease_1 X) (tptp.genetic_disorder_1 X) (tptp.inheritance_1 _let_1) (tptp.result_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_genome_1 X))) (=> (tptp.human_genome_1 X) (and (tptp.original_name_2 X |tptp.'Human-Genome'|) (tptp.user_description_2 X |tptp.'The human genome is the genome of Homo sapiens, which is stored on 23 chromosome pairs.'|) (tptp.concept2words_2 X |tptp.'genome of human'|) (tptp.concept2words_2 X |tptp.'human genome'|) (tptp.concept2words_2 X |tptp.'human-genome'|) (tptp.eukaryotic_genome_1 X) (tptp.eukaryotic_chromosome_1 _let_1) (tptp.element_2 X _let_1) (tptp.exactCardinality X tptp.element_0 |"46"| tptp.eukaryotic_chromosome_0))))) (forall ((X $$unsorted)) (=> (tptp.human_genome_project_1 X) (and (tptp.original_name_2 X |tptp.'Human-Genome-Project'|) (tptp.user_description_2 X |tptp.'An international science research project to map and sequence the entire human genome.'|) (tptp.concept2words_2 X |tptp.'human genome project'|) (tptp.concept2words_2 X |tptp.'human-genome-project'|) (tptp.genomics_1 X)))) (forall ((X $$unsorted)) (=> (tptp.human_leukocyte_1 X) (and (tptp.original_name_2 X |tptp.'Human-Leukocyte'|) (tptp.user_description_2 X |tptp.'White blood cells (WBCs), or leukocytes, are cells of the human immune system involved in defending the body against both infectious disease and foreign materials.'|) (tptp.concept2words_2 X |tptp.'leukocyte of human'|) (tptp.concept2words_2 X |tptp.'human leukocyte'|) (tptp.concept2words_2 X |tptp.'human-leukocyte'|) (tptp.leukocyte_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_limb_development_57 X))) (let ((_let_2 (tptp.fn_apoptosis_7 _let_1))) (let ((_let_3 (tptp.fn_human_limb_development_27 X))) (let ((_let_4 (tptp.fn_intracellular_digestion_11 _let_3))) (let ((_let_5 (tptp.fn_human_limb_development_32 X))) (let ((_let_6 (tptp.fn_vesicle_5 _let_5))) (let ((_let_7 (tptp.fn_human_limb_development_23 X))) (let ((_let_8 (tptp.fn_blebbing_2 _let_7))) (let ((_let_9 (tptp.fn_blebbing_1 _let_7))) (let ((_let_10 (tptp.fn_human_limb_development_26 X))) (let ((_let_11 (tptp.fn_contract_1 _let_10))) (let ((_let_12 (tptp.fn_human_limb_development_56 X))) (let ((_let_13 (tptp.fn_animal_cell_56 _let_12))) (let ((_let_14 (tptp.fn_apoptosis_62 _let_1))) (let ((_let_15 (tptp.fn_animal_cell_79 _let_12))) (let ((_let_16 (tptp.fn_eukaryotic_cell_31 _let_12))) (let ((_let_17 (tptp.fn_animal_cell_73 _let_12))) (let ((_let_18 (tptp.fn_eukaryotic_cell_29 _let_12))) (let ((_let_19 (tptp.fn_animal_cell_78 _let_12))) (let ((_let_20 (tptp.fn_human_limb_development_25 X))) (let ((_let_21 (tptp.fn_impair_1 _let_20))) (let ((_let_22 (tptp.fn_animal_cell_51 _let_12))) (let ((_let_23 (tptp.fn_human_limb_development_24 X))) (let ((_let_24 (tptp.fn_impair_1 _let_23))) (let ((_let_25 (tptp.fn_limb_development_10 X))) (let ((_let_26 (tptp.fn_human_limb_development_37 X))) (let ((_let_27 (tptp.fn_cell_communication_leading_to_apoptosis_3 _let_26))) (let ((_let_28 (tptp.fn_apoptosis_48 _let_1))) (let ((_let_29 (tptp.fn_human_limb_development_36 X))) (let ((_let_30 (tptp.fn_protease_6 _let_29))) (let ((_let_31 (tptp.fn_human_limb_development_35 X))) (let ((_let_32 (tptp.fn_nucleus_17 _let_31))) (let ((_let_33 (tptp.fn_nucleus_16 _let_31))) (let ((_let_34 (tptp.fn_nucleus_15 _let_31))) (let ((_let_35 (tptp.fn_nucleus_9 _let_31))) (let ((_let_36 (tptp.fn_limb_development_11 X))) (let ((_let_37 (tptp.fn_human_limb_development_47 X))) (let ((_let_38 (tptp.fn_morphogenesis_of_human_feet_1 _let_37))) (let ((_let_39 (tptp.fn_human_limb_development_46 X))) (let ((_let_40 (tptp.fn_morphogenesis_of_human_hand_1 _let_39))) (let ((_let_41 (tptp.fn_human_limb_development_54 X))) (let ((_let_42 (tptp.fn_er_membrane_33 _let_41))) (let ((_let_43 (tptp.fn_er_membrane_32 _let_41))) (let ((_let_44 (tptp.fn_animal_cell_57 _let_12))) (let ((_let_45 (tptp.fn_human_limb_development_30 X))) (let ((_let_46 (tptp.fn_human_limb_development_31 X))) (let ((_let_47 (tptp.fn_human_limb_development_34 X))) (let ((_let_48 (tptp.fn_human_limb_development_55 X))) (let ((_let_49 (tptp.fn_human_limb_development_33 X))) (let ((_let_50 (tptp.fn_animal_cell_50 _let_12))) (let ((_let_51 (tptp.fn_animal_cell_49 _let_12))) (let ((_let_52 (tptp.fn_apoptosis_43 _let_1))) (let ((_let_53 (tptp.fn_human_limb_development_22 X))) (let ((_let_54 (tptp.fn_apoptosis_42 _let_1))) (let ((_let_55 (tptp.fn_apoptosis_49 _let_1))) (let ((_let_56 (tptp.fn_apoptosis_21 _let_1))) (let ((_let_57 (tptp.fn_apoptosis_50 _let_1))) (let ((_let_58 (tptp.fn_apoptosis_44 _let_1))) (let ((_let_59 (tptp.fn_apoptosis_32 _let_1))) (let ((_let_60 (tptp.fn_human_limb_development_28 X))) (let ((_let_61 (tptp.fn_apoptosis_33 _let_1))) (let ((_let_62 (tptp.fn_human_limb_development_29 X))) (let ((_let_63 (tptp.fn_nucleus_13 _let_31))) (let ((_let_64 (tptp.fn_human_limb_development_53 X))) (let ((_let_65 (tptp.fn_human_limb_development_48 X))) (let ((_let_66 (tptp.fn_human_limb_development_49 X))) (let ((_let_67 (tptp.fn_human_limb_development_50 X))) (let ((_let_68 (tptp.fn_human_limb_development_51 X))) (let ((_let_69 (tptp.fn_human_limb_development_14 X))) (let ((_let_70 (tptp.fn_human_limb_development_12 X))) (let ((_let_71 (tptp.fn_human_limb_development_13 X))) (let ((_let_72 (tptp.fn_human_limb_development_19 X))) (let ((_let_73 (tptp.fn_human_limb_development_17 X))) (let ((_let_74 (tptp.fn_human_limb_development_18 X))) (let ((_let_75 (tptp.fn_human_limb_development_15 X))) (let ((_let_76 (tptp.fn_human_limb_development_16 X))) (let ((_let_77 (tptp.fn_human_limb_development_45 X))) (let ((_let_78 (tptp.fn_human_limb_development_42 X))) (let ((_let_79 (tptp.fn_human_limb_development_39 X))) (let ((_let_80 (tptp.fn_cell_communication_leading_to_apoptosis_6 _let_79))) (let ((_let_81 (tptp.fn_human_limb_development_40 X))) (let ((_let_82 (tptp.fn_cell_communication_leading_to_apoptosis_3 _let_79))) (let ((_let_83 (tptp.fn_human_limb_development_41 X))) (let ((_let_84 (tptp.fn_cell_communication_leading_to_apoptosis_6 _let_26))) (let ((_let_85 (tptp.fn_human_limb_development_38 X))) (let ((_let_86 (tptp.fn_human_limb_development_52 X))) (let ((_let_87 (tptp.fn_morphogenesis_of_human_feet_2 _let_37))) (let ((_let_88 (tptp.fn_human_limb_development_44 X))) (let ((_let_89 (tptp.fn_morphogenesis_4 _let_37))) (let ((_let_90 (tptp.fn_morphogenesis_of_human_hand_2 _let_39))) (let ((_let_91 (tptp.fn_human_limb_development_43 X))) (let ((_let_92 (tptp.fn_morphogenesis_4 _let_39))) (let ((_let_93 (tptp.fn_human_limb_development_2 X))) (let ((_let_94 (tptp.fn_human_limb_development_1 X))) (let ((_let_95 (tptp.fn_human_limb_development_3 X))) (let ((_let_96 (tptp.fn_human_limb_development_7 X))) (let ((_let_97 (tptp.fn_human_limb_development_4 X))) (let ((_let_98 (tptp.fn_human_limb_development_5 X))) (let ((_let_99 (tptp.fn_human_limb_development_6 X))) (=> (tptp.human_limb_development_1 X) (and (tptp.original_name_2 X |tptp.'Human-Limb-Development'|) (tptp.user_description_2 X |tptp.'The processes which direct the formation of the limbs during the embryonic development of a human.'|) (tptp.concept2words_2 X |tptp.'human limb development'|) (tptp.concept2words_2 X |tptp.'human-limb-development'|) (tptp.mammalian_limb_development_1 X) (tptp.biological_region_1 _let_94) (tptp.finger_1 _let_93) (tptp.finger_1 _let_95) (tptp.biological_region_1 _let_97) (tptp.person_1 _let_98) (tptp.unitless_value_1 _let_99) (tptp.unitless_value_1 _let_96) (tptp.animal_cell_1 _let_70) (tptp.interdigital_tissue_1 _let_71) (tptp.death_1 _let_69) (tptp.destroy_1 _let_75) (tptp.rate_value_1 _let_76) (tptp.periphery_1 _let_73) (tptp.biological_region_1 _let_74) (tptp.size_value_1 _let_72) (tptp.produce_1 _let_53) (tptp.blebbing_1 _let_7) (tptp.impair_1 _let_23) (tptp.break_1 _let_23) (tptp.destroy_1 _let_23) (tptp.impair_1 _let_20) (tptp.destroy_1 _let_20) (tptp.contract_1 _let_10) (tptp.intracellular_digestion_1 _let_3) (tptp.damage_1 _let_60) (tptp.eukaryotic_cell_1 _let_62) (tptp.size_value_1 _let_45) (tptp.volume_value_1 _let_46) (tptp.entity_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.vesicle_1 _let_5) (tptp.tangible_entity_1 _let_49) (tptp.ribosome_1 _let_49) (tptp.eukaryotic_ribosome_1 _let_49) (tptp.mixture_1 _let_47) (tptp.cytoplasm_1 _let_47) (tptp.tangible_entity_1 _let_31) (tptp.nucleus_1 _let_31) (tptp.protease_1 _let_29) (tptp.cell_communication_leading_to_apoptosis_1 _let_26) (tptp.cell_signaling_1 _let_85) (tptp.cell_communication_leading_to_apoptosis_1 _let_79) (tptp.cell_signaling_1 _let_81) (tptp.apoptosis_1 _let_83) (tptp.limb_1 _let_78) (tptp.hand_1 _let_91) (tptp.foot_1 _let_88) (tptp.animal_embryo_1 _let_77) (tptp.morphogenesis_of_human_hand_1 _let_39) (tptp.morphogenesis_of_human_feet_1 _let_37) (tptp.aqueous_solution_1 _let_65) (tptp.aqueous_solution_1 _let_66) (tptp.hydrophilic_face_1 _let_67) (tptp.hydrophilic_face_1 _let_68) (tptp.aqueous_solution_1 _let_86) (tptp.nuclear_membrane_1 _let_64) (tptp.biomembrane_1 _let_64) (tptp.er_membrane_1 _let_41) (tptp.tangible_entity_1 _let_48) (tptp.spatial_entity_1 _let_48) (tptp.biomembrane_1 _let_48) (tptp.animal_plasma_membrane_1 _let_48) (tptp.plasma_membrane_1 _let_48) (tptp.tangible_entity_1 _let_12) (tptp.cell_1 _let_12) (tptp.eukaryotic_cell_1 _let_12) (tptp.animal_cell_1 _let_12) (tptp.apoptosis_1 _let_1) (tptp.cell_communication_leading_to_apoptosis_1 _let_92) (tptp.hand_1 _let_90) (tptp.cell_communication_leading_to_apoptosis_1 _let_89) (tptp.foot_1 _let_87) (tptp.cell_signaling_1 _let_84) (tptp.apoptosis_1 _let_82) (tptp.cell_signaling_1 _let_80) (tptp.nuclear_membrane_1 _let_63) (tptp.biomembrane_1 _let_63) (tptp.eukaryotic_cell_1 _let_61) (tptp.damage_1 _let_59) (tptp.entity_1 _let_58) (tptp.tangible_entity_1 _let_58) (tptp.vesicle_1 _let_58) (tptp.intracellular_digestion_1 _let_57) (tptp.destroy_1 _let_56) (tptp.contract_1 _let_55) (tptp.blebbing_1 _let_54) (tptp.produce_1 _let_52) (tptp.property_node_1 _let_51) (tptp.property_node_1 _let_50) (tptp.size_value_1 _let_44) (tptp.aqueous_solution_1 _let_43) (tptp.aqueous_solution_1 _let_42) (tptp.animal_embryo_1 _let_40) (tptp.animal_embryo_1 _let_38) (tptp.hydrophilic_face_1 _let_35) (tptp.hydrophilic_face_1 _let_34) (tptp.aqueous_solution_1 _let_33) (tptp.aqueous_solution_1 _let_32) (tptp.break_1 _let_30) (tptp.destroy_1 _let_28) (tptp.apoptosis_1 _let_27) (tptp.tangible_entity_1 _let_24) (tptp.ribosome_1 _let_22) (tptp.eukaryotic_ribosome_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.nucleus_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.biomembrane_1 _let_18) (tptp.plasma_membrane_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.biomembrane_1 _let_17) (tptp.animal_plasma_membrane_1 _let_17) (tptp.plasma_membrane_1 _let_17) (tptp.mixture_1 _let_16) (tptp.cytoplasm_1 _let_16) (tptp.mixture_1 _let_15) (tptp.cytoplasm_1 _let_15) (tptp.volume_value_1 _let_14) (tptp.volume_value_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.cell_1 _let_9) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.base_2 _let_23 _let_12) (tptp.base_2 _let_20 _let_12) (tptp.is_inside_2 _let_49 _let_47) (tptp.has_function_2 _let_29 _let_23) (tptp.the_scalar_value_2 _let_96 tptp.high_0) (tptp.scalar_unit_class_2 _let_96 tptp.organ_development_0) (tptp.importance_2 _let_83 _let_99) (tptp.the_scalar_value_2 _let_99 tptp.high_0) (tptp.scalar_unit_class_2 _let_99 tptp.organ_development_0) (tptp.has_part_2 _let_78 _let_88) (tptp.has_part_2 _let_78 _let_91) (tptp.has_part_2 _let_91 _let_93) (tptp.has_part_2 _let_91 _let_95) (tptp.has_part_2 _let_98 _let_78) (tptp.subevent_2 X _let_37) (tptp.subevent_2 X _let_39) (tptp.exactCardinality X tptp.result_0 |"4"| tptp.limb_0) (tptp.has_state_2 _let_77 _let_98) (tptp.has_region_2 _let_77 _let_97) (tptp.site_2 _let_39 _let_97) (tptp.site_2 _let_37 _let_97) (tptp.is_inside_2 _let_86 _let_41) (tptp.abuts_2 _let_64 _let_41) (tptp.abuts_2 _let_41 _let_64) (tptp.has_part_2 _let_12 _let_29) (tptp.importance_2 _let_1 _let_96) (tptp.is_between_2 _let_94 _let_95) (tptp.is_between_2 _let_94 _let_93) (tptp.base_2 _let_10 _let_12) (tptp.object_2 _let_20 _let_31) (tptp.result_2 _let_7 _let_12) (tptp.object_2 _let_23 _let_49) (tptp.base_2 _let_7 _let_12) (tptp.has_part_2 _let_12 _let_5) (tptp.base_2 _let_3 _let_12) (tptp.agent_2 _let_23 _let_29) (tptp.subevent_2 _let_39 _let_26) (tptp.base_2 _let_39 _let_77) (tptp.result_2 _let_39 _let_91) (tptp.subevent_2 _let_37 _let_79) (tptp.base_2 _let_37 _let_77) (tptp.result_2 _let_37 _let_88) (tptp.is_between_2 _let_41 _let_86) (tptp.object_2 _let_1 _let_12) (tptp.is_near_2 _let_62 _let_12) (tptp.is_near_2 _let_12 _let_62) (tptp.subevent_2 _let_26 _let_85) (tptp.subevent_2 _let_85 _let_1) (tptp.subevent_2 _let_79 _let_81) (tptp.subevent_2 _let_81 _let_83) (tptp.result_2 X _let_78) (tptp.base_2 X _let_77) (tptp.causes_2 _let_1 _let_75) (tptp.rate_2 _let_1 _let_76) (tptp.inversely_proportional_2 _let_72 _let_76) (tptp.greater_than_2 _let_72 _let_72) (tptp.origin_2 _let_1 _let_73) (tptp.has_region_2 _let_74 _let_73) (tptp.is_inside_2 _let_71 _let_74) (tptp.object_2 _let_75 _let_71) (tptp.by_means_of_2 X _let_1) (tptp.causes_2 _let_1 _let_69) (tptp.object_2 _let_69 _let_70) (tptp.has_part_2 _let_71 _let_70) (tptp.size_2 _let_71 _let_72) (tptp.is_outside_2 _let_68 _let_65) (tptp.is_inside_2 _let_67 _let_66) (tptp.is_inside_2 _let_68 _let_64) (not (= _let_68 _let_67)) (tptp.is_outside_2 _let_67 _let_64) (tptp.has_region_2 _let_64 _let_68) (not (= _let_67 _let_68)) (tptp.has_part_2 _let_31 _let_64) (tptp.is_between_2 _let_64 _let_65) (not (= _let_65 _let_66)) (tptp.is_between_2 _let_64 _let_66) (tptp.has_region_2 _let_64 _let_67) (not (= _let_66 _let_65)) (tptp.subevent_2 _let_1 _let_23) (tptp.subevent_2 _let_1 _let_7) (tptp.subevent_2 _let_1 _let_20) (tptp.subevent_2 _let_1 _let_10) (tptp.from_value_2 _let_10 _let_46) (tptp.prevents_2 _let_1 _let_60) (tptp.object_2 _let_60 _let_62) (tptp.subevent_2 _let_1 _let_3) (tptp.next_event_2 _let_53 _let_3) (tptp.result_2 _let_53 _let_5) (tptp.subevent_2 _let_1 _let_53) (tptp.next_event_2 _let_7 _let_53) (tptp.next_event_2 _let_10 _let_7) (tptp.next_event_2 _let_23 _let_10) (tptp.next_event_2 _let_20 _let_23) (tptp.the_scalar_value_2 _let_45 tptp.big_0) (tptp.scalar_unit_class_2 _let_45 tptp.prokaryote_0) (tptp.has_part_2 _let_12 _let_48) (tptp.is_between_2 _let_47 _let_48) (tptp.is_between_2 _let_47 _let_31) (tptp.has_part_2 _let_12 _let_31) (tptp.has_part_2 _let_12 _let_49) (tptp.size_2 _let_12 _let_45) (tptp.directly_proportional_2 _let_45 _let_46) (tptp.volume_2 _let_12 _let_46) (tptp.has_part_2 _let_12 _let_47) (tptp.is_inside_2 _let_47 _let_48) (= _let_12 _let_11) (= _let_31 _let_21) (= _let_12 _let_9) (= _let_49 _let_24) (= _let_12 _let_8) (= _let_12 _let_6) (= _let_12 _let_4) (= _let_23 _let_30) (= _let_26 _let_92) (= _let_77 _let_40) (= _let_91 _let_90) (= _let_79 _let_89) (= _let_77 _let_38) (= _let_88 _let_87) (= _let_86 _let_43) (= _let_86 _let_42) (= _let_12 _let_2) (= _let_1 _let_27) (= _let_85 _let_84) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_78 (tptp.fn_limb_development_3 X)) (= _let_77 _let_36) (= (tptp.fn_human_limb_development_11 X) (tptp.fn_limb_development_5 X)) (= (tptp.fn_human_limb_development_10 X) (tptp.fn_limb_development_4 X)) (= _let_76 (tptp.fn_limb_development_6 X)) (= _let_75 (tptp.fn_limb_development_13 X)) (= _let_74 (tptp.fn_limb_development_9 X)) (= _let_73 (tptp.fn_limb_development_8 X)) (= _let_72 (tptp.fn_limb_development_7 X)) (= _let_71 (tptp.fn_limb_development_14 X)) (= _let_70 (tptp.fn_limb_development_17 X)) (= _let_69 (tptp.fn_limb_development_16 X)) (= _let_1 _let_25) (= _let_65 _let_33) (= _let_66 _let_32) (= _let_68 _let_35) (= _let_67 _let_35) (= _let_68 _let_34) (= _let_67 _let_34) (= _let_66 _let_33) (= _let_65 _let_32) (= _let_64 _let_63) (= _let_46 _let_14) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_5 _let_58) (= _let_3 _let_57) (= _let_20 _let_56) (= _let_23 _let_28) (= _let_10 _let_55) (= _let_7 _let_54) (= _let_53 _let_52) (= (tptp.fn_human_limb_development_21 X) _let_51) (= (tptp.fn_human_limb_development_20 X) _let_50) (= _let_49 _let_22) (= _let_31 _let_19) (= _let_47 _let_16) (= _let_48 _let_18) (= _let_48 _let_17) (= _let_47 _let_15) (= _let_46 _let_13) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_male_somatic_cell_1 X))) (=> (tptp.human_male_somatic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Human-Male-Somatic-Cell'|) (tptp.user_description_2 X |tptp.'Every other diploid cell that carries XY chromosomes, in a multicellular organism apart from the sperm and ova, the gametocytes from which the gametes are made, and undifferentiated stem cells. Internal organs, skin, bones, blood, and connective tissue are all made up of somatic cells.'|) (tptp.concept2words_2 X |tptp.'human male somatic cell'|) (tptp.concept2words_2 X |tptp.'human-male-somatic-cell'|) (tptp.human_somatic_cell_1 X) (not (tptp.human_female_somatic_cell_1 X)) (tptp.dna_polymerase_ii_1 _let_1) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.x_chromosome_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.y_chromosome_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_eukaryotic_cell_2 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_mitotic_cycle_58 X))) (let ((_let_2 (tptp.fn_person_61 _let_1))) (let ((_let_3 (tptp.fn_animal_mitotic_cycle_21 X))) (let ((_let_4 (tptp.fn_human_mitotic_cycle_53 X))) (let ((_let_5 (tptp.fn_interphase_21 _let_4))) (let ((_let_6 (tptp.fn_human_mitotic_cycle_50 X))) (let ((_let_7 (tptp.fn_s_phase_11 _let_6))) (let ((_let_8 (tptp.fn_human_mitotic_cycle_34 X))) (let ((_let_9 (tptp.fn_mitosis_31 _let_8))) (let ((_let_10 (tptp.fn_human_mitotic_cycle_55 X))) (let ((_let_11 (tptp.fn_m_phase_20 _let_10))) (let ((_let_12 (tptp.fn_mitotic_cell_cycle_31 X))) (let ((_let_13 (tptp.fn_interphase_4 _let_4))) (let ((_let_14 (tptp.fn_human_mitotic_cycle_72 X))) (let ((_let_15 (tptp.fn_rough_endoplasmic_reticulum_62 _let_14))) (let ((_let_16 (tptp.fn_person_8 _let_1))) (let ((_let_17 (tptp.fn_human_mitotic_cycle_51 X))) (let ((_let_18 (tptp.fn_g1_phase_5 _let_17))) (let ((_let_19 (tptp.fn_human_mitotic_cycle_36 X))) (let ((_let_20 (tptp.fn_move_1 _let_19))) (let ((_let_21 (tptp.fn_human_mitotic_cycle_52 X))) (let ((_let_22 (tptp.fn_human_cell_13 _let_21))) (let ((_let_23 (tptp.fn_mitosis_32 _let_8))) (let ((_let_24 (tptp.fn_m_phase_23 _let_10))) (let ((_let_25 (tptp.fn_mitotic_cell_cycle_25 X))) (let ((_let_26 (tptp.fn_rough_endoplasmic_reticulum_27 _let_14))) (let ((_let_27 (tptp.fn_human_cell_12 _let_21))) (let ((_let_28 (tptp.fn_human_mitotic_cycle_81 X))) (let ((_let_29 (tptp.fn_centriole_6 _let_28))) (let ((_let_30 (tptp.fn_animal_mitotic_cycle_18 X))) (let ((_let_31 (tptp.fn_human_mitotic_cycle_42 X))) (let ((_let_32 (tptp.fn_copy_1 _let_31))) (let ((_let_33 (tptp.fn_human_cell_40 _let_21))) (let ((_let_34 (tptp.fn_mitosis_33 _let_8))) (let ((_let_35 (tptp.fn_mitotic_cell_cycle_27 X))) (let ((_let_36 (tptp.fn_rough_endoplasmic_reticulum_23 _let_14))) (let ((_let_37 (tptp.fn_human_cell_16 _let_21))) (let ((_let_38 (tptp.fn_mitosis_3 _let_8))) (let ((_let_39 (tptp.fn_human_cell_32 _let_21))) (let ((_let_40 (tptp.fn_human_cell_7 _let_21))) (let ((_let_41 (tptp.fn_human_cell_15 _let_21))) (let ((_let_42 (tptp.fn_person_41 _let_1))) (let ((_let_43 (tptp.fn_interphase_18 _let_4))) (let ((_let_44 (tptp.fn_mitotic_cell_cycle_23 X))) (let ((_let_45 (tptp.fn_human_cell_11 _let_21))) (let ((_let_46 (tptp.fn_eukaryotic_cell_31 _let_21))) (let ((_let_47 (tptp.fn_rough_endoplasmic_reticulum_32 _let_14))) (let ((_let_48 (tptp.fn_human_cell_8 _let_21))) (let ((_let_49 (tptp.fn_mammalian_cell_3 _let_21))) (let ((_let_50 (tptp.fn_vertebrate_cell_21 _let_21))) (let ((_let_51 (tptp.fn_human_cell_37 _let_21))) (let ((_let_52 (tptp.fn_eukaryotic_cell_41 _let_21))) (let ((_let_53 (tptp.fn_m_phase_19 _let_10))) (let ((_let_54 (tptp.fn_mitotic_cell_cycle_19 X))) (let ((_let_55 (tptp.fn_mitosis_35 _let_8))) (let ((_let_56 (tptp.fn_m_phase_22 _let_10))) (let ((_let_57 (tptp.fn_mitosis_34 _let_8))) (let ((_let_58 (tptp.fn_animal_mitotic_cycle_22 X))) (let ((_let_59 (tptp.fn_s_phase_14 _let_6))) (let ((_let_60 (tptp.fn_human_cell_30 _let_21))) (let ((_let_61 (tptp.fn_interphase_15 _let_4))) (let ((_let_62 (tptp.fn_centriole_2 _let_28))) (let ((_let_63 (tptp.fn_centriole_8 _let_28))) (let ((_let_64 (tptp.fn_centriole_9 _let_28))) (let ((_let_65 (tptp.fn_centriole_11 _let_28))) (let ((_let_66 (tptp.fn_mitotic_cell_cycle_50 X))) (let ((_let_67 (tptp.fn_animal_mitotic_cycle_27 X))) (let ((_let_68 (tptp.fn_mitotic_cell_cycle_32 X))) (let ((_let_69 (tptp.fn_interphase_7 _let_4))) (let ((_let_70 (tptp.fn_mitotic_cell_cycle_45 X))) (let ((_let_71 (tptp.fn_m_phase_18 _let_10))) (let ((_let_72 (tptp.fn_mitotic_cell_cycle_33 X))) (let ((_let_73 (tptp.fn_interphase_6 _let_4))) (let ((_let_74 (tptp.fn_mitotic_cell_cycle_21 X))) (let ((_let_75 (tptp.fn_m_phase_40 _let_10))) (let ((_let_76 (tptp.fn_interphase_11 _let_4))) (let ((_let_77 (tptp.fn_interphase_19 _let_4))) (let ((_let_78 (tptp.fn_g1_phase_3 _let_17))) (let ((_let_79 (tptp.fn_interphase_8 _let_4))) (let ((_let_80 (tptp.fn_interphase_16 _let_4))) (let ((_let_81 (tptp.fn_interphase_14 _let_4))) (let ((_let_82 (tptp.fn_s_phase_9 _let_6))) (let ((_let_83 (tptp.fn_interphase_17 _let_4))) (let ((_let_84 (tptp.fn_s_phase_15 _let_6))) (let ((_let_85 (tptp.fn_person_40 _let_1))) (let ((_let_86 (tptp.fn_interphase_20 _let_4))) (let ((_let_87 (tptp.fn_animal_mitotic_cycle_26 X))) (let ((_let_88 (tptp.fn_animal_mitotic_cycle_3 X))) (let ((_let_89 (tptp.fn_m_phase_26 _let_10))) (let ((_let_90 (tptp.fn_human_mitotic_cycle_33 X))) (let ((_let_91 (tptp.fn_prophase_18 _let_90))) (let ((_let_92 (tptp.fn_human_mitotic_cycle_32 X))) (let ((_let_93 (tptp.fn_prometaphase_38 _let_92))) (let ((_let_94 (tptp.fn_human_mitotic_cycle_24 X))) (let ((_let_95 (tptp.fn_animal_cell_78 _let_94))) (let ((_let_96 (tptp.fn_animal_mitotic_cycle_10 X))) (let ((_let_97 (tptp.fn_animal_cell_74 _let_94))) (let ((_let_98 (tptp.fn_animal_mitotic_cycle_16 X))) (let ((_let_99 (tptp.fn_create_1 _let_31))) (let ((_let_100 (tptp.fn_animal_cell_52 _let_94))) (let ((_let_101 (tptp.fn_animal_mitotic_cycle_24 X))) (let ((_let_102 (tptp.fn_mammalian_mitotic_cycle_4 X))) (let ((_let_103 (tptp.fn_mammalian_mitotic_cycle_2 X))) (let ((_let_104 (tptp.fn_animal_mitotic_cycle_19 X))) (let ((_let_105 (tptp.fn_mitotic_cell_cycle_51 X))) (let ((_let_106 (tptp.fn_m_phase_21 _let_10))) (let ((_let_107 (tptp.fn_m_phase_6 _let_10))) (let ((_let_108 (tptp.fn_mammalian_mitotic_cycle_3 X))) (let ((_let_109 (tptp.fn_s_phase_3 _let_6))) (let ((_let_110 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_let_154 _let_21) (tptp.has_part_2 _let_21 _let_152) (tptp.is_between_2 _let_120 _let_152) (tptp.is_inside_2 _let_120 _let_152) (tptp.has_part_2 _let_152 _let_130) (tptp.subevent_2 _let_17 _let_147) (tptp.next_event_2 _let_6 _let_142) (tptp.subevent_2 _let_6 _let_149) (tptp.result_2 _let_149 _let_150) (tptp.subevent_2 _let_4 _let_6) (tptp.next_event_2 _let_17 _let_6) (tptp.subevent_2 _let_17 _let_145) (tptp.by_means_of_2 _let_145 _let_147) (tptp.result_2 _let_147 _let_148) (tptp.in_event_2 _let_143 _let_10) (tptp.next_event_2 _let_8 _let_141) (tptp.first_subevent_2 _let_10 _let_8) (tptp.subevent_2 _let_10 _let_8) (tptp.subevent_2 X _let_10) (tptp.first_subevent_2 X _let_4) (tptp.subevent_2 _let_4 _let_142) (tptp.subevent_2 X _let_4) (tptp.subevent_2 _let_4 _let_17) (tptp.first_subevent_2 _let_4 _let_17) (tptp.next_event_2 _let_4 _let_10) (tptp.subevent_2 _let_10 _let_141) (tptp.has_part_2 _let_114 _let_28) (tptp.has_part_2 _let_114 _let_140) (tptp.has_part_2 _let_28 _let_135) (tptp.has_part_2 _let_135 _let_136) (tptp.object_2 _let_138 _let_136) (tptp.agent_2 _let_138 _let_140) (tptp.has_function_2 _let_140 _let_138) (tptp.first_subevent_2 _let_8 _let_90) (tptp.subevent_2 _let_8 _let_92) (tptp.next_event_2 _let_90 _let_92) (tptp.subevent_2 _let_8 _let_90) (tptp.object_2 _let_8 _let_113) (tptp.is_inside_2 _let_134 _let_113) (tptp.the_scalar_value_2 _let_125 tptp.big_0) (tptp.scalar_unit_class_2 _let_125 tptp.prokaryote_0) (tptp.has_part_2 _let_21 _let_121) (tptp.is_between_2 _let_120 _let_113) (tptp.has_part_2 _let_21 _let_114) (tptp.has_part_2 _let_21 _let_116) (tptp.has_region_2 _let_21 _let_129) (tptp.is_at_2 _let_130 _let_129) (tptp.is_inside_2 _let_123 _let_115) (tptp.has_part_2 _let_21 _let_123) (tptp.size_2 _let_21 _let_125) (tptp.directly_proportional_2 _let_125 _let_127) (tptp.volume_2 _let_21 _let_127) (not (= _let_118 _let_14)) (tptp.has_part_2 _let_21 _let_14) (tptp.has_part_2 _let_21 _let_120) (tptp.has_part_2 _let_120 _let_115) (tptp.is_inside_2 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(tptp.fn_human_mitotic_cycle_31 X) (tptp.fn_animal_mitotic_cycle_12 X)) (= (tptp.fn_human_mitotic_cycle_30 X) (tptp.fn_animal_mitotic_cycle_11 X)) (= _let_165 _let_112) (= _let_4 _let_67) (= _let_94 _let_89) (= _let_94 _let_88) (= _let_165 _let_3) (= _let_134 _let_61) (= _let_158 _let_83) (= _let_158 _let_101) (= _let_134 _let_58) (= _let_164 (tptp.fn_animal_mitotic_cycle_15 X)) (= _let_163 (tptp.fn_animal_mitotic_cycle_14 X)) (= _let_159 _let_106) (= _let_162 _let_111) (= _let_162 _let_110) (= _let_159 _let_103) (= _let_161 (tptp.fn_mammalian_mitotic_cycle_11 X)) (= _let_160 _let_108) (= _let_159 _let_105) (= _let_159 _let_104) (= _let_159 _let_102) (= _let_114 _let_30) (= _let_21 _let_3) (= _let_158 _let_100) (= _let_157 _let_98) (= _let_157 _let_97) (= _let_94 _let_87) (= _let_156 _let_96) (= _let_156 _let_95) (= _let_155 _let_86) (= _let_118 _let_42) (= _let_155 _let_85) (= _let_21 _let_16) (= _let_21 _let_2) (= _let_154 _let_153) (= _let_130 _let_52) (= _let_120 _let_46) (= _let_152 _let_151) (= _let_150 _let_84) (= _let_150 _let_83) (= _let_149 _let_82) (= _let_149 _let_81) (= _let_148 _let_79) (= _let_147 _let_146) (= _let_145 _let_76) (= _let_6 _let_144) (= _let_143 _let_75) (= _let_143 _let_74) (= _let_142 _let_73) (= _let_142 _let_72) (= _let_8 _let_54) (= _let_141 _let_71) (= _let_141 _let_70) (= _let_10 (tptp.fn_mitotic_cell_cycle_52 X)) (= _let_17 _let_69) (= _let_17 _let_68) (= _let_4 _let_66) (= _let_114 _let_29) (= _let_140 _let_139) (= _let_138 _let_137) (= _let_136 _let_65) (= _let_136 _let_64) (= _let_135 _let_63) (= _let_135 _let_62) (= _let_134 _let_60) (= _let_134 _let_57) (= _let_8 _let_53) (= _let_90 _let_56) (= _let_90 _let_55) (= _let_92 _let_133) (= _let_121 _let_50) (= _let_121 _let_49) (= (tptp.fn_human_mitotic_cycle_77 X) _let_132) (= (tptp.fn_human_mitotic_cycle_78 X) _let_131) (= _let_130 _let_51) (= _let_129 _let_128) (= _let_127 _let_126) (= _let_125 _let_124) (= _let_123 _let_122) (= _let_121 _let_48) (= _let_120 _let_47) (= _let_120 _let_45) (= _let_14 _let_119) (= _let_21 _let_5) (= _let_118 _let_43) (= _let_118 _let_41) (= _let_117 _let_40) (= _let_117 _let_39) (= _let_116 _let_38) (= _let_116 _let_37) (= _let_115 _let_36) (= _let_115 _let_35) (= _let_115 _let_34) (= _let_115 _let_33) (= _let_114 _let_27) (= _let_21 _let_15) (= _let_113 _let_26) (= _let_21 _let_12) (= _let_113 _let_25) (= _let_21 _let_11) (= _let_113 _let_24) (= _let_21 _let_9) (= _let_113 _let_23) (= _let_113 _let_22) (= _let_83 _let_83) (= _let_83 _let_84) (= _let_84 _let_84) (= _let_84 _let_112) (= _let_112 _let_112) (= _let_112 _let_3) (= _let_3 _let_110) (= _let_110 _let_111) (= _let_111 _let_110) (= _let_110 _let_109) (= _let_5 _let_109) (= _let_109 _let_5) (= _let_5 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_105 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_104 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_101) (= _let_101 _let_83) (= _let_83 _let_101) (= _let_101 _let_101) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_97 _let_98) (= _let_98 _let_97) (= _let_97 _let_96) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_93) (= _let_93 _let_91) (= _let_91 _let_91) (= _let_91 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_85 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_81 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_55) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_13 _let_13) (= _let_13 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_nutritional_requirement_72 X))) (let ((_let_2 (tptp.fn_carbohydrate_38 _let_1))) (let ((_let_3 (tptp.fn_carbohydrate_39 _let_1))) (let ((_let_4 (tptp.fn_carbohydrate_5 _let_1))) (let ((_let_5 (tptp.fn_animal_nutritional_requirement_61 X))) (let ((_let_6 (tptp.fn_carbohydrate_35 _let_1))) (let ((_let_7 (tptp.fn_animal_nutritional_requirement_58 X))) (let ((_let_8 (tptp.fn_carbohydrate_34 _let_1))) (let ((_let_9 (tptp.fn_animal_nutritional_requirement_56 X))) (let ((_let_10 (tptp.fn_animal_nutritional_requirement_62 X))) (let ((_let_11 (tptp.fn_human_nutritional_requirement_69 X))) (let ((_let_12 (tptp.fn_polypeptide_91 _let_11))) (let ((_let_13 (tptp.fn_animal_nutritional_requirement_38 X))) (let ((_let_14 (tptp.fn_polypeptide_82 _let_11))) (let ((_let_15 (tptp.fn_polypeptide_83 _let_11))) (let ((_let_16 (tptp.fn_animal_nutritional_requirement_27 X))) (let ((_let_17 (tptp.fn_animal_nutritional_requirement_11 X))) (let ((_let_18 (tptp.fn_human_nutritional_requirement_86 X))) (let ((_let_19 (tptp.fn_chemical_reaction_1 _let_18))) (let ((_let_20 (tptp.fn_human_nutritional_requirement_84 X))) (let ((_let_21 (tptp.fn_produce_1 _let_20))) (let ((_let_22 (tptp.fn_human_nutritional_requirement_73 X))) (let ((_let_23 (tptp.fn_carbohydrate_32 _let_1))) (let ((_let_24 (tptp.fn_human_nutritional_requirement_74 X))) (let ((_let_25 (tptp.fn_carbohydrate_33 _let_1))) (let ((_let_26 (tptp.fn_human_nutritional_requirement_54 X))) (let ((_let_27 (tptp.fn_human_nutritional_requirement_82 X))) (let ((_let_28 (tptp.fn_human_nutritional_requirement_75 X))) (let ((_let_29 (tptp.fn_human_nutritional_requirement_56 X))) (let ((_let_30 (tptp.fn_carbohydrate_36 _let_1))) (let ((_let_31 (tptp.fn_human_nutritional_requirement_55 X))) (let ((_let_32 (tptp.fn_carbohydrate_6 _let_1))) (let ((_let_33 (tptp.fn_human_nutritional_requirement_88 X))) (let ((_let_34 (tptp.fn_human_nutritional_requirement_57 X))) (let ((_let_35 (tptp.fn_human_nutritional_requirement_78 X))) (let ((_let_36 (tptp.fn_human_nutritional_requirement_58 X))) (let ((_let_37 (tptp.fn_human_nutritional_requirement_59 X))) (let ((_let_38 (tptp.fn_human_nutritional_requirement_60 X))) (let ((_let_39 (tptp.fn_human_nutritional_requirement_61 X))) (let ((_let_40 (tptp.fn_human_nutritional_requirement_71 X))) (let ((_let_41 (tptp.fn_human_nutritional_requirement_70 X))) (let ((_let_42 (tptp.fn_human_nutritional_requirement_81 X))) (let ((_let_43 (tptp.fn_human_nutritional_requirement_68 X))) (let ((_let_44 (tptp.fn_human_nutritional_requirement_67 X))) (let ((_let_45 (tptp.fn_human_nutritional_requirement_76 X))) (let ((_let_46 (tptp.fn_human_nutritional_requirement_79 X))) (let ((_let_47 (tptp.fn_human_nutritional_requirement_80 X))) (let ((_let_48 (tptp.fn_human_nutritional_requirement_77 X))) (let ((_let_49 (tptp.fn_essential_fatty_acid_4 _let_48))) (let ((_let_50 (tptp.fn_human_nutritional_requirement_63 X))) (let ((_let_51 (tptp.fn_food_3 _let_50))) (let ((_let_52 (tptp.fn_human_nutritional_requirement_62 X))) (let ((_let_53 (tptp.fn_human_nutritional_requirement_65 X))) (let ((_let_54 (tptp.fn_chemical_reaction_2 _let_53))) (let ((_let_55 (tptp.fn_human_nutritional_requirement_66 X))) (let ((_let_56 (tptp.fn_create_1 _let_20))) (let ((_let_57 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(tptp.fn_human_nutritional_requirement_33 X))) (let ((_let_74 (tptp.fn_human_nutritional_requirement_32 X))) (let ((_let_75 (tptp.fn_human_nutritional_requirement_31 X))) (let ((_let_76 (tptp.fn_human_nutritional_requirement_30 X))) (let ((_let_77 (tptp.fn_human_nutritional_requirement_29 X))) (let ((_let_78 (tptp.fn_human_nutritional_requirement_28 X))) (let ((_let_79 (tptp.fn_human_nutritional_requirement_27 X))) (let ((_let_80 (tptp.fn_human_nutritional_requirement_26 X))) (let ((_let_81 (tptp.fn_human_nutritional_requirement_25 X))) (let ((_let_82 (tptp.fn_human_nutritional_requirement_24 X))) (let ((_let_83 (tptp.fn_human_nutritional_requirement_23 X))) (let ((_let_84 (tptp.fn_human_nutritional_requirement_22 X))) (let ((_let_85 (tptp.fn_human_nutritional_requirement_21 X))) (let ((_let_86 (tptp.fn_human_nutritional_requirement_53 X))) (let ((_let_87 (tptp.fn_human_nutritional_requirement_51 X))) (let ((_let_88 (tptp.fn_human_nutritional_requirement_50 X))) (let ((_let_89 (tptp.fn_human_nutritional_requirement_49 X))) (let ((_let_90 (tptp.fn_human_nutritional_requirement_48 X))) (let ((_let_91 (tptp.fn_human_nutritional_requirement_47 X))) (let ((_let_92 (tptp.fn_human_nutritional_requirement_46 X))) (let ((_let_93 (tptp.fn_human_nutritional_requirement_45 X))) (let ((_let_94 (tptp.fn_human_nutritional_requirement_44 X))) (let ((_let_95 (tptp.fn_human_nutritional_requirement_43 X))) (let ((_let_96 (tptp.fn_human_nutritional_requirement_42 X))) (let ((_let_97 (tptp.fn_human_nutritional_requirement_41 X))) (let ((_let_98 (tptp.fn_human_nutritional_requirement_40 X))) (let ((_let_99 (tptp.fn_human_nutritional_requirement_39 X))) (let ((_let_100 (tptp.fn_human_nutritional_requirement_38 X))) (=> (tptp.human_nutritional_requirement_1 X) (and (tptp.original_name_2 X |tptp.'Human-Nutritional-Requirement'|) (tptp.user_description_2 X |tptp.'Chemicals and elements found in food that are needed by humans in order to sustain healthy life.'|) (tptp.concept2words_2 X |tptp.'human nutritional requirement'|) (tptp.concept2words_2 X |tptp.'human-nutritional-requirement'|) (tptp.animal_nutritional_requirement_1 X) (tptp.nutrition_1 _let_63) (tptp.diet_1 _let_64) (tptp.quantity_value_1 _let_65) (tptp.sunlight_1 _let_68) (tptp.person_1 _let_67) (tptp.skin_1 _let_66) (tptp.histidine_1 _let_85) (tptp.magnesium_1 _let_84) (tptp.chlorine_1 _let_83) (tptp.sodium_1 _let_82) (tptp.zinc_1 _let_81) (tptp.vanadium_1 _let_80) (tptp.tin_1 _let_79) (tptp.selenium_1 _let_78) (tptp.molybdenum_1 _let_77) (tptp.iodine_1 _let_76) (tptp.copper_1 _let_75) (tptp.fluorine_1 _let_74) (tptp.chromium_1 _let_73) (tptp.manganese_1 _let_72) (tptp.cobalt_1 _let_71) (tptp.silicon_1 _let_70) (tptp.boron_1 _let_69) (tptp.quantity_value_1 _let_100) (tptp.quantity_value_1 _let_99) (tptp.quantity_value_1 _let_98) (tptp.quantity_value_1 _let_97) (tptp.quantity_value_1 _let_96) (tptp.quantity_value_1 _let_95) (tptp.quantity_value_1 _let_94) (tptp.quantity_value_1 _let_93) (tptp.quantity_value_1 _let_92) (tptp.quantity_value_1 _let_91) (tptp.quantity_value_1 _let_90) (tptp.quantity_value_1 _let_89) (tptp.quantity_value_1 _let_88) (tptp.quantity_value_1 _let_87) (tptp.vitamin_c_1 _let_86) (tptp.hydroxyl_group_1 _let_26) (tptp.polar_covalent_bond_1 _let_31) (tptp.double_bond_1 _let_29) (tptp.functional_group_1 _let_34) (tptp.carbonyl_group_1 _let_34) (tptp.spatial_entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.monomer_1 _let_36) (tptp.molecule_1 _let_36) (tptp.amino_acid_1 _let_36) (tptp.protein_domain_1 _let_37) (tptp.protein_1 _let_38) (tptp.atom_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.carbon_1 _let_39) (tptp.substance_1 _let_52) (tptp.food_1 _let_50) (tptp.vitamin_d_1 _let_59) (tptp.synthesis_reaction_1 _let_53) (tptp.organic_molecule_1 _let_55) (tptp.fatty_acid_1 _let_44) (tptp.unsaturated_fatty_acid_1 _let_44) (tptp.spatial_entity_1 _let_43) (tptp.monomer_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.molecule_1 _let_43) (tptp.amino_acid_1 _let_43) (tptp.polypeptide_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.protein_1 _let_41) (tptp.nutrition_1 _let_40) (tptp.chemical_entity_1 _let_1) (tptp.carbohydrate_1 _let_1) (tptp.entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.oxygen_1 _let_22) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.hydrogen_1 _let_24) (tptp.entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.oxygen_1 _let_28) (tptp.mineral_1 _let_45) (tptp.omega_3_fatty_acid_1 _let_48) (tptp.lysine_1 _let_35) (tptp.vitamin_1 _let_46) (tptp.sulfur_1 _let_47) (tptp.chemical_entity_1 _let_42) (tptp.tangible_entity_1 _let_42) (tptp.entity_1 _let_42) (tptp.atom_1 _let_42) (tptp.nitrogen_1 _let_42) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.biomembrane_1 _let_57) (tptp.produce_1 _let_20) (tptp.phospholipid_1 _let_60) (tptp.synthesis_reaction_1 _let_18) (tptp.linoleic_acid_1 _let_62) (tptp.carbon_skeleton_1 _let_33) (tptp.chemical_entity_1 _let_61) (tptp.chemical_entity_1 _let_58) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_54) (tptp.tangible_entity_1 _let_51) (tptp.nutritional_requirement_1 _let_49) (tptp.carbon_skeleton_1 _let_32) (tptp.polar_covalent_bond_1 _let_30) (tptp.hydroxyl_group_1 _let_25) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.hydrogen_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.chemical_entity_1 _let_19) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.monomer_1 _let_15) (tptp.molecule_1 _let_15) (tptp.amino_acid_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.monomer_1 _let_14) (tptp.molecule_1 _let_14) (tptp.amino_acid_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.nitrogen_1 _let_12) (tptp.carbonyl_group_1 _let_8) (tptp.double_bond_1 _let_6) 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(tptp.quantity_2 _let_77 _let_92) (tptp.quantity_2 _let_78 _let_91) (tptp.quantity_2 _let_79 _let_90) (tptp.quantity_2 _let_80 _let_89) (tptp.quantity_2 _let_81 _let_88) (tptp.quantity_2 _let_46 _let_87) (tptp.element_2 X _let_86) (tptp.element_2 X _let_59) (tptp.element_2 X _let_62) (tptp.element_2 X _let_85) (tptp.element_2 X _let_84) (tptp.element_2 X _let_83) (tptp.element_2 X _let_82) (tptp.element_2 X _let_81) (tptp.element_2 X _let_80) (tptp.element_2 X _let_79) (tptp.element_2 X _let_78) (tptp.element_2 X _let_77) (tptp.element_2 X _let_76) (tptp.element_2 X _let_75) (tptp.element_2 X _let_74) (tptp.element_2 X _let_73) (tptp.element_2 X _let_72) (tptp.element_2 X _let_71) (tptp.element_2 X _let_70) (tptp.element_2 X _let_69) (tptp.instrument_2 _let_53 _let_68) (tptp.agent_2 _let_53 _let_67) (tptp.site_2 _let_53 _let_66) (tptp.the_scalar_value_2 _let_65 tptp.low_0) (tptp.scalar_unit_class_2 _let_65 tptp.chemical_entity_0) (tptp.element_2 _let_64 _let_52) (tptp.raw_material_2 _let_63 _let_52) (tptp.result_2 _let_63 _let_45) (tptp.result_2 _let_63 _let_46) (tptp.raw_material_2 _let_18 _let_62) (tptp.raw_material_2 _let_20 _let_60) (tptp.result_2 _let_18 _let_60) (tptp.result_2 _let_53 _let_59) (tptp.result_2 _let_20 _let_57) (tptp.raw_material_2 _let_53 _let_55) (tptp.plays_2 _let_52 _let_50) (tptp.element_2 X _let_48) (tptp.element_2 X _let_47) (tptp.has_part_2 _let_11 _let_43) (tptp.element_2 X _let_46) (tptp.result_2 _let_40 _let_1) (tptp.element_2 X _let_45) (tptp.is_between_2 _let_29 _let_27) (tptp.element_2 X _let_44) (tptp.element_2 X _let_27) (tptp.is_inside_2 _let_27 _let_34) (tptp.element_2 X _let_42) (tptp.has_part_2 _let_43 _let_42) (tptp.raw_material_2 _let_40 _let_39) (tptp.result_2 _let_40 _let_41) (tptp.has_part_2 _let_41 _let_11) (tptp.element_2 X _let_35) (tptp.has_state_2 _let_35 _let_36) (tptp.is_at_2 _let_36 _let_37) (tptp.has_region_2 _let_38 _let_37) (tptp.has_part_2 _let_39 _let_38) (not (= _let_22 _let_28)) (tptp.has_region_2 _let_1 _let_26) (tptp.is_inside_2 _let_22 _let_26) (not (= _let_28 _let_22)) (tptp.is_inside_2 _let_28 _let_34) (tptp.has_region_2 _let_1 _let_34) (not (= _let_22 _let_27)) (tptp.is_between_2 _let_31 _let_22) (tptp.possesses_2 _let_1 _let_31) (tptp.has_region_2 _let_1 _let_33) (tptp.is_inside_2 _let_27 _let_33) (not (= _let_27 _let_22)) (not (= _let_24 _let_28)) (not (= _let_28 _let_24)) (not (= _let_24 _let_22)) (not (= _let_22 _let_24)) (tptp.is_between_2 _let_31 _let_24) (not (= _let_27 _let_28)) (tptp.has_part_2 _let_1 _let_28) (tptp.is_between_2 _let_29 _let_28) (tptp.possesses_2 _let_1 _let_29) (tptp.has_part_2 _let_1 _let_27) (not (= _let_28 _let_27)) (tptp.is_inside_2 _let_24 _let_26) (tptp.has_part_2 _let_1 _let_24) (tptp.has_part_2 _let_1 _let_22) (= _let_62 _let_61) (= _let_60 _let_21) (= _let_60 _let_19) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_52 _let_51) (= X _let_49) (= _let_47 (tptp.fn_nutritional_requirement_4 X)) (= _let_43 _let_14) (= _let_46 (tptp.fn_animal_nutritional_requirement_9 X)) (= _let_1 (tptp.fn_animal_nutritional_requirement_48 X)) (= _let_45 (tptp.fn_animal_nutritional_requirement_8 X)) (= _let_29 _let_7) (= _let_44 _let_17) (= _let_44 _let_16) (= _let_34 _let_9) (= _let_27 _let_5) (= _let_43 _let_15) (= _let_42 _let_12) (= _let_43 _let_13) (= _let_42 _let_10) (= _let_11 (tptp.fn_animal_nutritional_requirement_40 X)) (= _let_41 (tptp.fn_animal_nutritional_requirement_46 X)) (= _let_40 (tptp.fn_animal_nutritional_requirement_4 X)) (= _let_39 (tptp.fn_animal_nutritional_requirement_50 X)) (= _let_38 (tptp.fn_animal_nutritional_requirement_33 X)) (= _let_37 (tptp.fn_animal_nutritional_requirement_32 X)) (= _let_36 (tptp.fn_animal_nutritional_requirement_31 X)) (= _let_35 (tptp.fn_animal_nutritional_requirement_10 X)) (= _let_34 _let_8) (= _let_33 _let_32) (= _let_22 _let_3) (= _let_31 _let_30) (= _let_28 _let_3) (= _let_29 _let_6) (= _let_28 _let_2) (= _let_27 _let_4) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_2) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_human_ovum_2 X))) (let ((_let_2 (tptp.fn_person_11 _let_1))) (let ((_let_3 (tptp.fn_human_ovum_1 X))) (=> (tptp.human_ovum_1 X) (and (tptp.original_name_2 X |tptp.'Human-Ovum'|) (tptp.user_description_2 X |tptp.'The female gamete in Humans; the egg cell'|) (tptp.concept2words_2 X |tptp.'ovum of human'|) (tptp.concept2words_2 X |tptp.'human ovum'|) (tptp.concept2words_2 X |tptp.'human-ovum'|) (tptp.human_gamete_1 X) (tptp.ovum_1 X) (tptp.reproductive_organ_1 _let_3) (tptp.person_1 _let_1) (tptp.reproductive_organ_1 _let_2) (tptp.has_part_2 _let_3 X) (tptp.has_part_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.human_protein_1 X) (and (tptp.original_name_2 X |tptp.'Human-Protein'|) (tptp.user_description_2 X |tptp.'Protein is a macromolecule made up of amino acids. The protein found in humans is called as Human protein.'|) (tptp.concept2words_2 X |tptp.'protein of human'|) (tptp.concept2words_2 X |tptp.'human protein'|) (tptp.concept2words_2 X |tptp.'human-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (=> (tptp.human_somatic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Human-Somatic-Cell'|) (tptp.user_description_2 X |tptp.'Somatic cells (diploid) are any cells forming the body of Humans, as opposed to germline cells'|) (tptp.concept2words_2 X |tptp.'human somatic cell'|) (tptp.concept2words_2 X |tptp.'human-somatic-cell'|) (tptp.somatic_cell_1 X) (tptp.human_cell_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_animal_cell_53 X))) (let ((_let_2 (tptp.fn_sperm_cell_32 X))) (let ((_let_3 (tptp.fn_animal_cell_54 X))) (let ((_let_4 (tptp.fn_sperm_cell_27 X))) (let ((_let_5 (tptp.fn_animal_cell_90 X))) (let ((_let_6 (tptp.fn_sperm_cell_4 X))) (let ((_let_7 (tptp.fn_animal_cell_73 X))) (let ((_let_8 (tptp.fn_sperm_cell_28 X))) (let ((_let_9 (tptp.fn_human_sperm_11 X))) (let ((_let_10 (tptp.fn_facilitated_diffusion_of_polar_molecule_5 _let_9))) (let ((_let_11 (tptp.fn_animal_cell_85 X))) (let ((_let_12 (tptp.fn_human_sperm_52 X))) (let ((_let_13 (tptp.fn_animal_plasma_membrane_51 _let_12))) (let ((_let_14 (tptp.fn_animal_cell_75 X))) (let ((_let_15 (tptp.fn_animal_plasma_membrane_53 _let_12))) (let ((_let_16 (tptp.fn_animal_plasma_membrane_47 _let_12))) (let ((_let_17 (tptp.fn_animal_plasma_membrane_62 _let_12))) (let ((_let_18 (tptp.fn_plasma_membrane_55 _let_12))) (let ((_let_19 (tptp.fn_plasma_membrane_68 _let_12))) (let ((_let_20 (tptp.fn_plasma_membrane_54 _let_12))) (let ((_let_21 (tptp.fn_plasma_membrane_3 _let_12))) (let ((_let_22 (tptp.fn_animal_cell_79 X))) (let ((_let_23 (tptp.fn_sperm_cell_12 X))) (let ((_let_24 (tptp.fn_animal_cell_58 X))) (let ((_let_25 (tptp.fn_sperm_cell_31 X))) (let ((_let_26 (tptp.fn_animal_plasma_membrane_54 _let_12))) (let ((_let_27 (tptp.fn_plasma_membrane_71 _let_12))) (let ((_let_28 (tptp.fn_biomembrane_63 _let_12))) (let ((_let_29 (tptp.fn_animal_cell_55 X))) (let ((_let_30 (tptp.fn_sperm_cell_33 X))) (let ((_let_31 (tptp.fn_animal_cell_59 X))) (let ((_let_32 (tptp.fn_sperm_cell_35 X))) (let ((_let_33 (tptp.fn_animal_cell_62 X))) (let ((_let_34 (tptp.fn_sperm_cell_17 X))) (let ((_let_35 (tptp.fn_animal_cell_82 X))) (let ((_let_36 (tptp.fn_sperm_cell_9 X))) (let ((_let_37 (tptp.fn_animal_cell_51 X))) (let ((_let_38 (tptp.fn_sperm_cell_13 X))) (let ((_let_39 (tptp.fn_animal_cell_52 X))) (let ((_let_40 (tptp.fn_sperm_cell_22 X))) (let ((_let_41 (tptp.fn_human_sperm_28 X))) (let ((_let_42 (tptp.fn_nucleus_6 _let_41))) (let ((_let_43 (tptp.fn_animal_cell_88 X))) (let ((_let_44 (tptp.fn_human_sperm_27 X))) (let ((_let_45 (tptp.fn_chromosome_4 _let_44))) (let ((_let_46 (tptp.fn_eukaryotic_chromosome_3 _let_44))) (let ((_let_47 (tptp.fn_animal_cell_78 X))) (let ((_let_48 (tptp.fn_sperm_cell_25 X))) (let ((_let_49 (tptp.fn_animal_cell_81 X))) (let ((_let_50 (tptp.fn_sperm_cell_16 X))) (let ((_let_51 (tptp.fn_animal_cell_84 X))) (let ((_let_52 (tptp.fn_animal_plasma_membrane_55 _let_12))) (let ((_let_53 (tptp.fn_plasma_membrane_65 _let_12))) (let ((_let_54 (tptp.fn_animal_cell_56 X))) (let ((_let_55 (tptp.fn_sperm_cell_14 X))) (let ((_let_56 (tptp.fn_animal_cell_57 X))) (let ((_let_57 (tptp.fn_sperm_cell_15 X))) (let ((_let_58 (tptp.fn_nucleus_13 _let_41))) (let ((_let_59 (tptp.fn_sperm_cell_23 X))) (let ((_let_60 (tptp.fn_nucleus_15 _let_41))) (let ((_let_61 (tptp.fn_nucleus_9 _let_41))) (let ((_let_62 (tptp.fn_sperm_cell_30 X))) (let ((_let_63 (tptp.fn_sperm_cell_8 X))) (let ((_let_64 (tptp.fn_animal_plasma_membrane_58 _let_12))) (let ((_let_65 (tptp.fn_plasma_membrane_66 _let_12))) (let ((_let_66 (tptp.fn_animal_plasma_membrane_52 _let_12))) (let ((_let_67 (tptp.fn_animal_plasma_membrane_77 _let_12))) (let ((_let_68 (tptp.fn_animal_plasma_membrane_23 _let_12))) (let ((_let_69 (tptp.fn_plasma_membrane_52 _let_12))) (let ((_let_70 (tptp.fn_human_sperm_49 X))) (let ((_let_71 (tptp.fn_human_sperm_50 X))) (let ((_let_72 (tptp.fn_human_sperm_56 X))) (let ((_let_73 (tptp.fn_animal_plasma_membrane_56 _let_12))) (let ((_let_74 (tptp.fn_human_sperm_44 X))) (let ((_let_75 (tptp.fn_human_sperm_53 X))) (let ((_let_76 (tptp.fn_human_sperm_4 X))) (let ((_let_77 (tptp.fn_human_sperm_5 X))) (let ((_let_78 (tptp.fn_human_sperm_25 X))) (let ((_let_79 (tptp.fn_human_sperm_54 X))) (let ((_let_80 (tptp.fn_human_sperm_41 X))) (let ((_let_81 (tptp.fn_human_sperm_33 X))) (let ((_let_82 (tptp.fn_human_sperm_9 X))) (let ((_let_83 (tptp.fn_human_sperm_37 X))) (let ((_let_84 (tptp.fn_human_sperm_22 X))) (let ((_let_85 (tptp.fn_human_sperm_57 X))) (let ((_let_86 (tptp.fn_human_sperm_7 X))) (let ((_let_87 (tptp.fn_human_sperm_26 X))) (let ((_let_88 (tptp.fn_human_sperm_6 X))) (let ((_let_89 (tptp.fn_human_sperm_12 X))) (let ((_let_90 (tptp.fn_human_sperm_58 X))) (let ((_let_91 (tptp.fn_human_sperm_8 X))) (let ((_let_92 (tptp.fn_human_sperm_29 X))) (let ((_let_93 (tptp.fn_human_sperm_45 X))) (let ((_let_94 (tptp.fn_human_sperm_43 X))) (let ((_let_95 (tptp.fn_human_sperm_20 X))) (let ((_let_96 (tptp.fn_human_sperm_47 X))) (let ((_let_97 (tptp.fn_human_sperm_39 X))) (let ((_let_98 (tptp.fn_human_sperm_40 X))) (let ((_let_99 (tptp.fn_human_sperm_31 X))) (let ((_let_100 (tptp.fn_human_sperm_32 X))) (let ((_let_101 (tptp.fn_human_sperm_35 X))) (let ((_let_102 (tptp.fn_human_sperm_34 X))) (let ((_let_103 (tptp.fn_human_sperm_36 X))) (let ((_let_104 (tptp.fn_human_sperm_30 X))) (let ((_let_105 (tptp.fn_human_sperm_48 X))) (let ((_let_106 (tptp.fn_human_sperm_51 X))) (let ((_let_107 (tptp.fn_human_sperm_21 X))) (let ((_let_108 (tptp.fn_human_sperm_18 X))) (let ((_let_109 (tptp.fn_human_sperm_19 X))) (let ((_let_110 (tptp.fn_human_sperm_38 X))) (let ((_let_111 (tptp.fn_eukaryotic_chromosome_4 _let_44))) (let ((_let_112 (tptp.fn_human_sperm_15 X))) (let ((_let_113 (tptp.fn_eukaryotic_chromosome_5 _let_44))) (let ((_let_114 (tptp.fn_human_sperm_17 X))) (let ((_let_115 (tptp.fn_chromosome_3 _let_44))) (let ((_let_116 (tptp.fn_human_sperm_14 X))) (let ((_let_117 (tptp.fn_chromosome_8 _let_44))) (let ((_let_118 (tptp.fn_human_sperm_13 X))) (let ((_let_119 (tptp.fn_chromosome_6 _let_44))) (let ((_let_120 (tptp.fn_human_sperm_16 X))) (let ((_let_121 (tptp.fn_animal_plasma_membrane_76 _let_12))) (let ((_let_122 (tptp.fn_human_sperm_42 X))) (let ((_let_123 (tptp.fn_human_sperm_46 X))) (let ((_let_124 (tptp.fn_animal_plasma_membrane_5 _let_12))) (let ((_let_125 (tptp.fn_human_sperm_55 X))) (let ((_let_126 (tptp.fn_passive_transport_of_solute_3 _let_9))) (let ((_let_127 (tptp.fn_human_sperm_10 X))) (let ((_let_128 (tptp.fn_human_sperm_1 X))) (let ((_let_129 (tptp.fn_human_sperm_2 X))) (let ((_let_130 (tptp.fn_human_sperm_3 X))) (=> (tptp.human_sperm_1 X) (and (tptp.original_name_2 X |tptp.'Human-Sperm'|) (tptp.user_description_2 X |tptp.'Human Sperm is a male reproductive cell or a male gamete of the Humans.'|) (tptp.concept2words_2 X |tptp.'sperm of human'|) (tptp.concept2words_2 X |tptp.'human sperm'|) (tptp.concept2words_2 X |tptp.'human-sperm'|) (tptp.human_gamete_1 X) (tptp.sperm_cell_1 X) (tptp.er_membrane_1 _let_128) (tptp.chromosome_arm_1 _let_129) (tptp.chromosome_arm_1 _let_130) (tptp.electron_transport_chain_pathway_1 _let_76) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_77) (tptp.metabolic_pathway_1 _let_88) (tptp.endergonic_process_1 _let_88) (tptp.chemical_reaction_1 _let_88) (tptp.synthesis_of_organic_molecule_1 _let_88) (tptp.anabolic_pathway_1 _let_88) (tptp.synthesis_of_atp_1 _let_88) (tptp.catabolic_pathway_1 _let_86) (tptp.eukaryotic_cellular_respiration_1 _let_91) (tptp.semiautonomous_organelle_1 _let_82) (tptp.organelle_1 _let_82) (tptp.mitochondrion_1 _let_82) (tptp.membrane_potential_1 _let_127) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_9) (tptp.polymer_1 _let_89) (tptp.entity_1 _let_89) (tptp.dna_1 _let_89) (tptp.coil_1 _let_118) (tptp.protein_1 _let_116) (tptp.telomere_1 _let_112) (tptp.centromere_1 _let_120) (tptp.end_1 _let_114) (tptp.hydrophilic_face_1 _let_108) (tptp.hydrophilic_face_1 _let_109) (tptp.attach_1 _let_95) (tptp.nuclear_membrane_1 _let_107) (tptp.biomembrane_1 _let_107) (tptp.golgi_apparatus_1 _let_84) (tptp.suspension_1 _let_78) (tptp.colloid_1 _let_78) (tptp.mixture_1 _let_78) (tptp.cytoplasm_1 _let_78) (tptp.ribosome_1 _let_87) (tptp.eukaryotic_ribosome_1 _let_87) (tptp.eukaryotic_chromosome_1 _let_44) (tptp.chromosome_1 _let_44) (tptp.tangible_entity_1 _let_41) (tptp.nucleus_1 _let_41) (tptp.centrosome_1 _let_92) (tptp.support_1 _let_104) (tptp.support_1 _let_99) (tptp.volume_value_1 _let_100) (tptp.surface_1 _let_81) (tptp.cell_pole_1 _let_102) (tptp.cell_pole_1 _let_101) (tptp.size_value_1 _let_103) (tptp.liquid_substance_1 _let_83) (tptp.substance_1 _let_83) (tptp.cytosol_1 _let_83) (tptp.inside_face_1 _let_110) (tptp.surface_1 _let_110) (tptp.cytoplasmic_side_1 _let_110) (tptp.create_1 _let_97) (tptp.produce_1 _let_97) (tptp.microtubule_1 _let_98) (tptp.tangible_entity_1 _let_80) (tptp.phospholipid_bilayer_1 _let_80) (tptp.glycoprotein_1 _let_122) (tptp.transmembrane_protein_1 _let_94) (tptp.tangible_entity_1 _let_94) (tptp.membrane_protein_1 _let_94) (tptp.protein_1 _let_94) (tptp.spatial_entity_1 _let_94) (tptp.polymer_1 _let_94) (tptp.integrin_1 _let_94) (tptp.hydrophobic_core_1 _let_74) (tptp.outside_face_1 _let_93) (tptp.extracellular_side_1 _let_93) (tptp.surface_1 _let_93) (tptp.attach_1 _let_123) (tptp.spatial_entity_1 _let_96) (tptp.polymer_1 _let_96) (tptp.organic_molecule_1 _let_96) (tptp.tangible_entity_1 _let_96) (tptp.membrane_protein_1 _let_96) (tptp.protein_1 _let_96) (tptp.protein_enzyme_1 _let_105) (tptp.endoplasmic_reticulum_1 _let_70) (tptp.rough_endoplasmic_reticulum_1 _let_70) (tptp.endoplasmic_reticulum_1 _let_71) (tptp.smooth_endoplasmic_reticulum_1 _let_71) (tptp.protein_enzyme_1 _let_106) (tptp.membrane_1 _let_12) (tptp.tangible_entity_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.animal_plasma_membrane_1 _let_12) (tptp.plasma_membrane_1 _let_12) (tptp.protein_1 _let_75) (tptp.organic_molecule_1 _let_75) (tptp.polymer_1 _let_75) (tptp.spatial_entity_1 _let_75) (tptp.membrane_protein_1 _let_75) (tptp.tangible_entity_1 _let_75) (tptp.transmembrane_protein_1 _let_75) (tptp.integral_protein_1 _let_75) (tptp.transport_protein_1 _let_75) (tptp.sodium_potassium_pump_1 _let_75) (tptp.protein_1 _let_79) (tptp.organic_molecule_1 _let_79) (tptp.polymer_1 _let_79) (tptp.spatial_entity_1 _let_79) (tptp.membrane_protein_1 _let_79) (tptp.tangible_entity_1 _let_79) (tptp.transmembrane_protein_1 _let_79) (tptp.integral_protein_1 _let_79) (tptp.transport_protein_1 _let_79) (tptp.sodium_potassium_pump_1 _let_79) (tptp.hydrophilic_face_1 _let_125) (tptp.cellular_work_1 _let_72) (tptp.active_transport_1 _let_72) (tptp.active_movement_of_ions_1 _let_72) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_72) (tptp.move_1 _let_85) (tptp.peroxisome_1 _let_90) (tptp.gradient_1 _let_126) (tptp.concentration_gradient_1 _let_126) (tptp.hydrophilic_face_1 _let_124) (tptp.glycoprotein_1 _let_121) (tptp.centromere_1 _let_119) (tptp.coil_1 _let_117) (tptp.protein_1 _let_115) (tptp.end_1 _let_113) (tptp.telomere_1 _let_111) (tptp.animal_cell_1 _let_73) (tptp.attach_1 _let_69) (tptp.attach_1 _let_68) (tptp.attach_1 _let_67) (tptp.attach_1 _let_66) (tptp.cytoplasmic_side_1 _let_65) (tptp.inside_face_1 _let_64) (tptp.cytoplasmic_side_1 _let_64) (tptp.hydrophilic_face_1 _let_61) (tptp.hydrophilic_face_1 _let_60) (tptp.nuclear_membrane_1 _let_58) (tptp.biomembrane_1 _let_58) (tptp.extracellular_side_1 _let_53) (tptp.outside_face_1 _let_52) (tptp.extracellular_side_1 _let_52) (tptp.surface_1 _let_52) (tptp.entity_1 _let_46) (tptp.dna_1 _let_46) (tptp.polymer_1 _let_46) (tptp.entity_1 _let_45) (tptp.dna_1 _let_45) (tptp.eukaryotic_chromosome_1 _let_42) (tptp.tangible_entity_1 _let_28) (tptp.phospholipid_bilayer_1 _let_28) (tptp.tangible_entity_1 _let_27) (tptp.phospholipid_bilayer_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.phospholipid_bilayer_1 _let_26) (tptp.membrane_protein_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.membrane_protein_1 _let_20) (tptp.protein_1 _let_20) (tptp.spatial_entity_1 _let_20) (tptp.polymer_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.membrane_protein_1 _let_19) (tptp.protein_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.transmembrane_protein_1 _let_18) (tptp.integral_protein_1 _let_18) (tptp.transport_protein_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.transmembrane_protein_1 _let_17) (tptp.integral_protein_1 _let_17) (tptp.transport_protein_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.polymer_1 _let_16) (tptp.protein_1 _let_16) (tptp.organic_molecule_1 _let_16) (tptp.polymer_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.membrane_protein_1 _let_15) (tptp.tangible_entity_1 _let_15) (tptp.transmembrane_protein_1 _let_15) (tptp.integral_protein_1 _let_15) (tptp.transport_protein_1 _let_15) (tptp.hydrophobic_core_1 _let_13) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.is_across_2 _let_127 _let_12) (tptp.is_between_2 _let_120 _let_130) (tptp.is_between_2 _let_120 _let_129) (tptp.has_part_2 _let_44 _let_130) (tptp.has_part_2 _let_44 _let_129) (tptp.is_inside_2 _let_105 _let_128) (tptp.is_inside_2 _let_106 _let_128) (tptp.has_region_2 _let_12 _let_125) (tptp.agent_2 _let_9 _let_127) (tptp.path_2 _let_9 _let_12) (not (= _let_75 _let_79)) (not (= _let_79 _let_75)) (tptp.object_2 _let_123 _let_79) (tptp.is_across_2 _let_79 _let_74) (tptp.has_region_2 _let_75 _let_93) (tptp.called_2 _let_75 |tptp.'MP2'|) (tptp.is_across_2 _let_75 _let_12) (tptp.is_at_2 _let_75 _let_12) (tptp.is_outside_2 _let_125 _let_12) (tptp.has_part_2 _let_12 _let_75) (tptp.is_inside_2 _let_75 _let_80) (tptp.is_inside_2 _let_122 _let_80) (tptp.has_part_2 _let_12 _let_122) (tptp.base_2 _let_123 _let_12) (tptp.has_region_2 _let_44 _let_120) (tptp.has_part_2 _let_44 _let_116) (tptp.agent_2 _let_118 _let_116) (tptp.object_2 _let_118 _let_89) (tptp.has_part_2 _let_44 _let_112) (tptp.is_at_2 _let_112 _let_114) (tptp.has_region_2 _let_44 _let_114) (tptp.has_region_2 _let_12 _let_110) (tptp.is_oriented_toward_2 _let_110 _let_78) (tptp.is_facing_2 _let_110 _let_78) (tptp.is_inside_2 _let_109 _let_107) (tptp.has_part_2 _let_41 _let_107) (tptp.has_region_2 _let_107 _let_108) (not (= _let_108 _let_109)) (tptp.has_region_2 _let_107 _let_109) (tptp.is_outside_2 _let_108 _let_107) (not (= _let_109 _let_108)) (tptp.the_scalar_value_2 _let_103 tptp.big_0) (tptp.scalar_unit_class_2 _let_103 tptp.prokaryote_0) (not (= _let_96 _let_75)) (not (= _let_75 _let_96)) (tptp.has_part_2 _let_78 _let_106) (tptp.called_2 _let_96 |tptp.'MP1'|) (tptp.has_region_2 _let_12 _let_93) (tptp.has_part_2 _let_12 _let_80) (tptp.has_function_2 _let_82 _let_77) (tptp.called_2 _let_79 |tptp.'MP1'|) (tptp.site_2 _let_86 _let_82) (tptp.has_part_2 _let_78 _let_105) (not (= _let_106 _let_105)) (not (= _let_105 _let_106)) (tptp.object_2 _let_104 X) (tptp.agent_2 _let_104 _let_12) (tptp.has_part_2 _let_12 _let_94) (tptp.called_2 _let_94 |tptp.'MP1'|) (tptp.has_region_2 X _let_101) (tptp.is_opposite_2 _let_101 _let_102) (tptp.has_region_2 X _let_102) (tptp.size_2 X _let_103) (tptp.directly_proportional_2 _let_103 _let_100) (tptp.is_opposite_2 _let_102 _let_101) (tptp.has_function_2 _let_92 _let_97) (tptp.result_2 _let_97 _let_98) (tptp.has_function_2 _let_98 _let_99) (tptp.object_2 _let_99 X) (tptp.volume_2 X _let_100) (not (= _let_79 _let_96)) (tptp.is_across_2 _let_79 _let_12) (tptp.is_between_2 _let_78 _let_12) (tptp.is_between_2 _let_78 _let_41) (tptp.is_inside_2 _let_44 _let_41) (not (= _let_96 _let_79)) (tptp.object_2 _let_95 _let_75) (tptp.base_2 _let_95 _let_12) (tptp.has_part_2 _let_12 _let_96) (not (= _let_94 _let_96)) (not (= _let_96 _let_94)) (tptp.has_region_2 _let_79 _let_93) (tptp.is_outside_2 _let_93 _let_12) (tptp.has_part_2 _let_12 _let_79) (not (= _let_94 _let_79)) (not (= _let_79 _let_94)) (tptp.base_2 _let_91 X) (tptp.has_function_2 X _let_91) (tptp.has_part_2 X _let_92) (tptp.is_near_2 _let_41 _let_92) (tptp.is_near_2 _let_92 _let_41) (tptp.origin_2 _let_85 _let_90) (tptp.has_part_2 X _let_90) (tptp.has_part_2 X _let_41) (tptp.is_inside_2 _let_41 _let_83) (tptp.has_part_2 _let_78 _let_83) (tptp.base_2 _let_88 X) (tptp.site_2 _let_88 _let_82) (tptp.has_part_2 X _let_82) (tptp.has_part_2 X _let_44) (tptp.has_part_2 _let_44 _let_89) (tptp.destination_2 _let_85 _let_82) (tptp.causes_2 _let_85 _let_86) (tptp.base_2 _let_86 X) (tptp.has_part_2 X _let_87) (tptp.is_inside_2 _let_87 _let_83) (tptp.first_subevent_2 _let_77 _let_76) (tptp.site_2 _let_77 _let_82) (tptp.is_inside_2 _let_82 _let_83) (tptp.is_inside_2 _let_84 _let_83) (tptp.has_part_2 X _let_84) (tptp.is_at_2 _let_79 _let_12) (tptp.is_inside_2 _let_79 _let_80) (tptp.is_at_2 _let_80 _let_81) (tptp.has_region_2 X _let_81) (tptp.has_part_2 X _let_71) (tptp.base_2 _let_76 X) (tptp.subevent_2 _let_77 _let_76) (tptp.base_2 _let_77 X) (tptp.has_part_2 X _let_78) (tptp.is_inside_2 _let_78 _let_12) (tptp.base_2 _let_72 X) (tptp.has_function_2 X _let_72) (tptp.has_part_2 X _let_12) (tptp.has_region_2 _let_12 _let_74) (tptp.is_across_2 _let_75 _let_74) (tptp.has_part_2 X _let_70) (tptp.abuts_2 _let_71 _let_70) (tptp.abuts_2 _let_70 _let_71) (not (= _let_71 _let_70)) (not (= _let_70 _let_71)) (= _let_127 _let_126) (= _let_12 _let_10) (= _let_79 _let_17) (= _let_123 _let_69) (= _let_79 _let_20) (= _let_123 _let_68) (= _let_79 _let_15) (= _let_125 _let_124) (= _let_75 _let_21) (= _let_123 _let_67) (= _let_123 _let_66) (= _let_122 _let_121) (= _let_75 _let_20) (= _let_75 _let_19) (= _let_75 _let_18) (= _let_75 _let_17) (= _let_75 _let_15) (= _let_120 _let_119) (= _let_89 _let_45) (= _let_118 _let_117) (= _let_116 _let_115) (= _let_114 _let_113) (= _let_112 _let_111) (= _let_110 _let_65) (= _let_110 _let_64) (= _let_110 _let_63) (= _let_109 _let_60) (= _let_108 _let_61) (= _let_109 _let_61) (= _let_108 _let_62) (= _let_108 _let_60) (= _let_107 _let_59) (= _let_107 _let_58) (= (tptp.fn_human_sperm_24 X) (tptp.fn_animal_cell_49 X)) (= _let_93 _let_53) (= (tptp.fn_human_sperm_23 X) (tptp.fn_animal_cell_50 X)) (= _let_80 _let_28) (= _let_80 _let_27) (= _let_80 _let_26) (= _let_106 (tptp.fn_animal_cell_72 X)) (= _let_105 (tptp.fn_animal_cell_71 X)) (= _let_104 (tptp.fn_animal_cell_76 X)) (= _let_103 _let_57) (= _let_103 _let_56) (= _let_102 (tptp.fn_animal_cell_13 X)) (= _let_101 (tptp.fn_animal_cell_1 X)) (= _let_100 _let_55) (= _let_100 _let_54) (= _let_99 (tptp.fn_animal_cell_61 X)) (= _let_98 (tptp.fn_animal_cell_63 X)) (= _let_97 (tptp.fn_animal_cell_64 X)) (= _let_44 _let_42) (= _let_96 (tptp.fn_animal_cell_60 X)) (= _let_95 (tptp.fn_animal_cell_83 X)) (= _let_94 (tptp.fn_animal_cell_80 X)) (= _let_93 _let_52) (= _let_93 _let_51) (= _let_92 (tptp.fn_animal_cell_74 X)) (= _let_91 _let_50) (= _let_91 _let_49) (= _let_41 _let_48) (= _let_41 _let_47) (= _let_90 (tptp.fn_animal_cell_45 X)) (= _let_89 _let_46) (= _let_89 _let_43) (= _let_44 _let_40) (= _let_44 _let_39) (= _let_88 (tptp.fn_animal_cell_20 X)) (= _let_87 _let_38) (= _let_87 _let_37) (= _let_86 (tptp.fn_animal_cell_21 X)) (= _let_85 (tptp.fn_animal_cell_22 X)) (= _let_84 _let_36) (= _let_84 _let_35) (= _let_82 _let_32) (= _let_83 _let_34) (= _let_83 _let_33) (= _let_82 _let_31) (= _let_80 _let_25) (= _let_81 _let_30) (= _let_81 _let_29) (= _let_80 _let_24) (= _let_79 _let_14) (= _let_78 _let_23) (= _let_78 _let_22) (= _let_77 (tptp.fn_animal_cell_19 X)) (= _let_76 (tptp.fn_animal_cell_18 X)) (= _let_75 _let_16) (= _let_75 _let_14) (= _let_74 _let_13) (= _let_74 _let_11) (= X _let_73) (= _let_12 _let_8) (= _let_12 _let_7) (= _let_72 _let_6) (= _let_72 _let_5) (= _let_71 _let_4) (= _let_71 _let_3) (= _let_70 _let_2) (= _let_70 _let_1) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_60) (= _let_60 _let_61) (= _let_61 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_56 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_20) (= _let_17 _let_20) (= _let_20 _let_17) (= _let_15 _let_17) (= _let_17 _let_15) (= _let_14 _let_23) (= _let_23 _let_23) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_11 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.humidity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Humidity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of humidity'|) (tptp.concept2words_2 X |tptp.'humidity constant'|) (tptp.concept2words_2 X |tptp.'humidity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.humidity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Humidity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of humidity'|) (tptp.concept2words_2 X |tptp.'humidity scale'|) (tptp.concept2words_2 X |tptp.'humidity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.humidity_value_1 X) (and (tptp.original_name_2 X |tptp.'Humidity-Value'|) (tptp.concept2words_2 X tptp.humidity) (tptp.concept2words_2 X |tptp.'value of humidity'|) (tptp.concept2words_2 X |tptp.'humidity value'|) (tptp.concept2words_2 X |tptp.'humidity-value'|) (tptp.property_value_1 X)))) (forall ((X $$unsorted)) (=> (tptp.humoral_immune_response_1 X) (and (tptp.original_name_2 X |tptp.'Humoral-Immune-Response'|) (tptp.user_description_2 X |tptp.'The aspect of immunity that involves the mediation of molecules such as antibodies secreted by B cells and complement proteins.'|) (tptp.concept2words_2 X |tptp.'humoral immune response'|) (tptp.concept2words_2 X |tptp.'humoral-immune-response'|) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_humus_1 X))) (=> (tptp.humus_1 X) (and (tptp.original_name_2 X |tptp.'Humus'|) (tptp.user_description_2 X |tptp.'Decomposed organic matter that adds structural stability to soil and increases nutrient and moisture retention.'|) (tptp.concept2words_2 X tptp.humus) (tptp.organic_entity_1 X) (tptp.organic_molecule_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_huntingtons_disease_3 X))) (let ((_let_2 (tptp.fn_inheritance_4 _let_1))) (let ((_let_3 (tptp.fn_huntingtons_disease_4 X))) (let ((_let_4 (tptp.fn_huntingtons_disease_2 X))) (let ((_let_5 (tptp.fn_huntingtons_disease_1 X))) (=> (tptp.huntingtons_disease_1 X) (and (tptp.original_name_2 X |tptp.'Huntingtons-Disease'|) (tptp.user_description_2 X |tptp.'A human genetic disease caused by a dominant allele; characterized by uncontrollable body movements and degeneration of the nervous system; usually fatal 10 to 20 years after the onset of symptoms.'|) (tptp.concept2words_2 X |tptp.'huntington_'s chorea'|) (tptp.concept2words_2 X |tptp.'huntington_'s-chorea'|) (tptp.concept2words_2 X |tptp.'huntingtons disease'|) (tptp.concept2words_2 X |tptp.'huntingtons-disease'|) (tptp.human_genetic_disorder_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.alkaptonuria_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.klinefelter_syndrome_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X)) (tptp.impair_1 _let_5) (tptp.nervous_system_1 _let_4) (tptp.complete_dominance_1 _let_1) (tptp.dominant_allele_1 _let_3) (tptp.entity_1 _let_2) (tptp.gene_1 _let_2) (tptp.agent_2 _let_5 X) (tptp.object_2 _let_5 _let_4) (tptp.object_2 _let_1 _let_3) (tptp.result_2 _let_1 X) (= _let_3 _let_2) (= _let_1 (tptp.fn_human_genetic_disorder_1 X)))))))))) (forall ((X $$unsorted)) (=> (tptp.hybrid_1 X) (and (tptp.original_name_2 X |tptp.'Hybrid'|) (tptp.user_description_2 X |tptp.'Offspring that results from the mating of individuals from two different species or two true-breeding varieties of the same species.'|) (tptp.concept2words_2 X tptp.hybrid) (tptp.eukaryote_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hybrid_breakdown_1 X) (and (tptp.original_name_2 X |tptp.'Hybrid-Breakdown'|) (tptp.user_description_2 X |tptp.'When first generation hybrids are viable and fertile but the next generation is not.'|) (tptp.concept2words_2 X |tptp.'breakdown of hybrid'|) (tptp.concept2words_2 X |tptp.'hybrid breakdown'|) (tptp.concept2words_2 X |tptp.'hybrid-breakdown'|) (tptp.reproductive_isolation_1 X) (not (tptp.hybrid_reduced_fertility_1 X)) (not (tptp.hybrid_reduced_viability_1 X)) (not (tptp.temporal_isolation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hybrid_orbital_2 X))) (let ((_let_2 (tptp.fn_combine_1 _let_1))) (let ((_let_3 (tptp.fn_hybrid_orbital_3 X))) (let ((_let_4 (tptp.fn_combine_2 _let_1))) (let ((_let_5 (tptp.fn_hybrid_orbital_4 X))) (let ((_let_6 (tptp.fn_hybrid_orbital_1 X))) (=> (tptp.hybrid_orbital_1 X) (and (tptp.original_name_2 X |tptp.'Hybrid-Orbital'|) (tptp.user_description_2 X |tptp.'A type of orbital that forms as a result of mixing different kinds of atomic orbitals on the same atom. For example, mixing one s orbital and 3 p orbitals to form an sp3 hybrid orbital.'|) (tptp.concept2words_2 X |tptp.'orbital of hybrid'|) (tptp.concept2words_2 X |tptp.'hybrid orbital'|) (tptp.concept2words_2 X |tptp.'hybrid-orbital'|) (tptp.atomic_orbital_1 X) (tptp.covalent_bond_1 _let_6) (tptp.combine_1 _let_1) (tptp.orbital_1 _let_3) (tptp.orbital_1 _let_5) (tptp.entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.result_2 _let_1 X) (tptp.result_2 _let_1 _let_6) (tptp.minCardinality _let_1 tptp.object_0 |"2"| tptp.orbital_0) (tptp.object_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.hybrid_reduced_fertility_1 X) (and (tptp.original_name_2 X |tptp.'Hybrid-Reduced-Fertility'|) (tptp.user_description_2 X |tptp.'A post-zygotic barrier in which two species mate and produce hybrid offspring that are viable but completely or largely sterile.'|) (tptp.concept2words_2 X |tptp.'hybrid reduced fertility'|) (tptp.concept2words_2 X |tptp.'hybrid-reduced-fertility'|) (tptp.reproductive_isolation_1 X) (not (tptp.hybrid_breakdown_1 X)) (not (tptp.hybrid_reduced_viability_1 X)) (not (tptp.temporal_isolation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hybrid_reduced_viability_1 X) (and (tptp.original_name_2 X |tptp.'Hybrid-Reduced-Viability'|) (tptp.user_description_2 X |tptp.'A post-zygotic reproductive barrier due to genetic incompatibility between the two species, resulting in abortion of development or frail offspring.'|) (tptp.concept2words_2 X |tptp.'hybrid reduced viability'|) (tptp.concept2words_2 X |tptp.'hybrid-reduced-viability'|) (tptp.reproductive_isolation_1 X) (not (tptp.hybrid_breakdown_1 X)) (not (tptp.hybrid_reduced_fertility_1 X)) (not (tptp.temporal_isolation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hybridization_3 X))) (let ((_let_2 (tptp.fn_monohybrid_4 _let_1))) (let ((_let_3 (tptp.fn_hybridization_2 X))) (let ((_let_4 (tptp.fn_hybridization_1 X))) (=> (tptp.hybridization_1 X) (and (tptp.original_name_2 X |tptp.'Hybridization'|) (tptp.user_description_2 X |tptp.'In genetics, the mating, or crossing, of two true-breeding varieties.'|) (tptp.concept2words_2 X tptp.hybridize) (tptp.concept2words_2 X tptp.hybridization) (tptp.cross_breeding_event_1 X) (not (tptp.codominance_cross_breeding_event_1 X)) (not (tptp.complete_dominance_cross_breeding_event_1 X)) (not (tptp.homozygous_dominant_cross_1 X)) (not (tptp.homozygous_recessive_cross_1 X)) (not (tptp.incomplete_dominance_cross_breeding_event_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.true_breeding_1 _let_4) (tptp.true_breeding_1 _let_3) (tptp.monohybrid_1 _let_1) (tptp.cross_breeding_event_1 _let_2) (tptp.agent_2 X _let_4) (tptp.agent_2 X _let_3) (tptp.result_2 X _let_1) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydra_26 X))) (let ((_let_2 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_3 (tptp.fn_cnidaria_19 X))) (let ((_let_4 (tptp.fn_hydra_30 X))) (let ((_let_5 (tptp.fn_golgi_apparatus_22 _let_4))) (let ((_let_6 (tptp.fn_hydra_38 X))) (let ((_let_7 (tptp.fn_barrier_1 _let_6))) (let ((_let_8 (tptp.fn_hydra_37 X))) (let ((_let_9 (tptp.fn_barrier_1 _let_8))) (let ((_let_10 (tptp.fn_hydra_36 X))) (let ((_let_11 (tptp.fn_move_out_of_1 _let_10))) (let ((_let_12 (tptp.fn_hydra_40 X))) (let ((_let_13 (tptp.fn_agent_role_1 _let_12))) (let ((_let_14 (tptp.fn_cnidaria_2 X))) (let ((_let_15 (tptp.fn_cnidaria_24 X))) (let ((_let_16 (tptp.fn_cnidaria_33 X))) (let ((_let_17 (tptp.fn_hydra_8 X))) (let ((_let_18 (tptp.fn_water_18 _let_17))) (let ((_let_19 (tptp.fn_cnidaria_11 X))) (let ((_let_20 (tptp.fn_animal_19 X))) (let ((_let_21 (tptp.fn_hydra_24 X))) (let ((_let_22 (tptp.fn_animal_cell_71 _let_21))) (let ((_let_23 (tptp.fn_golgi_apparatus_92 _let_4))) (let ((_let_24 (tptp.fn_animal_cell_62 _let_21))) (let ((_let_25 (tptp.fn_golgi_apparatus_91 _let_4))) (let ((_let_26 (tptp.fn_eukaryotic_cell_42 _let_21))) (let ((_let_27 (tptp.fn_golgi_apparatus_93 _let_4))) (let ((_let_28 (tptp.fn_eukaryotic_cell_20 _let_21))) (let ((_let_29 (tptp.fn_hydra_21 X))) (let ((_let_30 (tptp.fn_polypeptide_82 _let_29))) (let ((_let_31 (tptp.fn_polypeptide_83 _let_29))) (let ((_let_32 (tptp.fn_hydra_20 X))) (let ((_let_33 (tptp.fn_amino_acid_22 _let_32))) (let ((_let_34 (tptp.fn_amino_acid_28 _let_32))) (let ((_let_35 (tptp.fn_polypeptide_118 _let_29))) (let ((_let_36 (tptp.fn_polypeptide_89 _let_29))) (let ((_let_37 (tptp.fn_amino_acid_24 _let_32))) (let ((_let_38 (tptp.fn_polypeptide_119 _let_29))) (let ((_let_39 (tptp.fn_amino_acid_17 _let_32))) (let ((_let_40 (tptp.fn_polypeptide_125 _let_29))) (let ((_let_41 (tptp.fn_polypeptide_91 _let_29))) (let ((_let_42 (tptp.fn_amino_acid_11 _let_32))) (let ((_let_43 (tptp.fn_amino_acid_27 _let_32))) (let ((_let_44 (tptp.fn_polypeptide_15 _let_29))) (let ((_let_45 (tptp.fn_polypeptide_101 _let_29))) (let ((_let_46 (tptp.fn_polypeptide_100 _let_29))) (let ((_let_47 (tptp.fn_eukaryotic_cell_26 _let_21))) (let ((_let_48 (tptp.fn_golgi_apparatus_90 _let_4))) (let ((_let_49 (tptp.fn_eukaryotic_cell_30 _let_21))) (let ((_let_50 (tptp.fn_golgi_apparatus_15 _let_4))) (let ((_let_51 (tptp.fn_hydra_9 X))) (let ((_let_52 (tptp.fn_hydra_23 X))) (let ((_let_53 (tptp.fn_hydra_35 X))) (let ((_let_54 (tptp.fn_hydra_5 X))) (let ((_let_55 (tptp.fn_hydra_12 X))) (let ((_let_56 (tptp.fn_hydra_10 X))) (let ((_let_57 (tptp.fn_hydra_45 X))) (let ((_let_58 (tptp.fn_hydra_22 X))) (let ((_let_59 (tptp.fn_hydra_25 X))) (let ((_let_60 (tptp.fn_hydra_11 X))) (let ((_let_61 (tptp.fn_hydra_13 X))) (let ((_let_62 (tptp.fn_hydra_39 X))) (let ((_let_63 (tptp.fn_animal_cell_79 _let_21))) (let ((_let_64 (tptp.fn_hydra_34 X))) (let ((_let_65 (tptp.fn_animal_cell_72 _let_21))) (let ((_let_66 (tptp.fn_hydra_28 X))) (let ((_let_67 (tptp.fn_hydra_29 X))) (let ((_let_68 (tptp.fn_animal_cell_73 _let_21))) (let ((_let_69 (tptp.fn_hydra_33 X))) (let ((_let_70 (tptp.fn_hydra_32 X))) (let ((_let_71 (tptp.fn_eukaryotic_cell_24 _let_21))) (let ((_let_72 (tptp.fn_hydra_31 X))) (let ((_let_73 (tptp.fn_golgi_apparatus_89 _let_4))) (let ((_let_74 (tptp.fn_golgi_apparatus_88 _let_4))) (let ((_let_75 (tptp.fn_hydra_27 X))) (let ((_let_76 (tptp.fn_hydra_14 X))) (let ((_let_77 (tptp.fn_hydra_15 X))) (let ((_let_78 (tptp.fn_hydra_44 X))) (let ((_let_79 (tptp.fn_hydra_18 X))) (let ((_let_80 (tptp.fn_hydra_16 X))) (let ((_let_81 (tptp.fn_hydra_17 X))) (let ((_let_82 (tptp.fn_hydra_41 X))) (let ((_let_83 (tptp.fn_hydra_19 X))) (let ((_let_84 (tptp.fn_hydra_7 X))) (let ((_let_85 (tptp.fn_hydra_6 X))) (let ((_let_86 (tptp.fn_water_17 _let_17))) (let ((_let_87 (tptp.fn_hydra_1 X))) (let ((_let_88 (tptp.fn_hydra_2 X))) (let ((_let_89 (tptp.fn_hydra_3 X))) (let ((_let_90 (tptp.fn_hydra_4 X))) (=> (tptp.hydra_1 X) (and (tptp.original_name_2 X |tptp.'Hydra'|) (tptp.user_description_2 X |tptp.'A genus of polypoid freshwater cnidarians, studied by biologists because of their ability to regenerate and apparent lack of senescence.'|) (tptp.concept2words_2 X tptp.hydra) (tptp.polyp_1 X) (not (tptp.anthozoan_1 X)) (not (tptp.cubozoan_1 X)) (not (tptp.hydrozoan_1 X)) (tptp.block_1 _let_87) (tptp.layer_1 _let_88) (tptp.metabolism_1 _let_89) (tptp.barrier_1 _let_90) (tptp.locomotion_1 _let_54) (tptp.eukaryotic_chromosome_1 _let_85) (tptp.chromosome_1 _let_85) (tptp.tangible_entity_1 _let_84) (tptp.nucleus_1 _let_84) (tptp.water_1 _let_17) (tptp.sac_1 _let_51) (tptp.animal_cell_1 _let_56) (tptp.cnidocyte_1 _let_56) (tptp.temperature_value_1 _let_60) (tptp.predation_1 _let_55) (tptp.specific_heat_value_1 _let_61) (tptp.entity_1 _let_76) (tptp.chemical_entity_1 _let_76) (tptp.atom_1 _let_76) (tptp.hydrogen_1 _let_76) (tptp.entity_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.atom_1 _let_77) (tptp.hydrogen_1 _let_77) (tptp.tangible_entity_1 _let_80) (tptp.entity_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.atom_1 _let_80) (tptp.oxygen_1 _let_80) (tptp.tangible_entity_1 _let_81) (tptp.entity_1 _let_81) (tptp.atom_1 _let_81) (tptp.oxygen_1 _let_81) (tptp.chemical_entity_1 _let_79) (tptp.tangible_entity_1 _let_79) (tptp.entity_1 _let_79) (tptp.atom_1 _let_79) (tptp.nitrogen_1 _let_79) (tptp.protein_1 _let_83) (tptp.spatial_entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.monomer_1 _let_32) (tptp.molecule_1 _let_32) (tptp.amino_acid_1 _let_32) (tptp.polypeptide_1 _let_29) (tptp.body_wall_1 _let_58) (tptp.gastrovascular_cavity_1 _let_52) (tptp.tangible_entity_1 _let_21) (tptp.eukaryotic_cell_1 _let_21) (tptp.animal_cell_1 _let_21) (tptp.gastrodermal_cell_1 _let_21) (tptp.cell_1 _let_21) (tptp.gastrodermis_1 _let_59) (tptp.synthesis_reaction_1 _let_1) (tptp.chemical_reaction_1 _let_1) (tptp.anabolic_pathway_1 _let_1) (tptp.synthesis_of_lipid_1 _let_1) (tptp.metabolic_pathway_1 _let_1) (tptp.synthesis_of_atp_1 _let_75) (tptp.protein_enzyme_1 _let_66) (tptp.protein_enzyme_1 _let_67) (tptp.golgi_apparatus_1 _let_4) (tptp.smooth_endoplasmic_reticulum_1 _let_72) (tptp.substance_1 _let_70) (tptp.cytosol_1 _let_70) (tptp.tangible_entity_1 _let_69) (tptp.spatial_entity_1 _let_69) (tptp.biomembrane_1 _let_69) (tptp.animal_plasma_membrane_1 _let_69) (tptp.plasma_membrane_1 _let_69) (tptp.mixture_1 _let_64) (tptp.cytoplasm_1 _let_64) (tptp.digestive_system_1 _let_53) (tptp.move_out_of_1 _let_10) (tptp.barrier_1 _let_8) (tptp.container_1 _let_6) (tptp.nutrition_1 _let_62) (tptp.agent_role_1 _let_12) (tptp.carnivore_1 _let_82) (tptp.entity_1 _let_78) (tptp.chemical_entity_1 _let_78) (tptp.atom_1 _let_78) (tptp.carbon_1 _let_78) (tptp.take_in_1 _let_57) (tptp.property_node_1 _let_86) (tptp.synthesis_of_atp_1 _let_74) (tptp.synthesis_reaction_1 _let_73) (tptp.metabolic_pathway_1 _let_73) (tptp.chemical_reaction_1 _let_73) (tptp.anabolic_pathway_1 _let_73) (tptp.synthesis_of_lipid_1 _let_73) (tptp.golgi_apparatus_1 _let_71) (tptp.tangible_entity_1 _let_68) (tptp.spatial_entity_1 _let_68) (tptp.biomembrane_1 _let_68) (tptp.animal_plasma_membrane_1 _let_68) (tptp.plasma_membrane_1 _let_68) (tptp.protein_enzyme_1 _let_65) (tptp.mixture_1 _let_63) (tptp.cytoplasm_1 _let_63) (tptp.eukaryotic_chromosome_1 _let_50) (tptp.chromosome_1 _let_50) (tptp.eukaryotic_chromosome_1 _let_49) (tptp.chromosome_1 _let_49) (tptp.tangible_entity_1 _let_48) (tptp.nucleus_1 _let_48) (tptp.tangible_entity_1 _let_47) (tptp.nucleus_1 _let_47) (tptp.tangible_entity_1 _let_46) (tptp.entity_1 _let_46) (tptp.oxygen_1 _let_46) (tptp.atom_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.oxygen_1 _let_45) (tptp.atom_1 _let_45) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.oxygen_1 _let_44) (tptp.oxygen_1 _let_43) (tptp.oxygen_1 _let_42) (tptp.tangible_entity_1 _let_41) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.nitrogen_1 _let_41) (tptp.tangible_entity_1 _let_40) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.nitrogen_1 _let_40) (tptp.chemical_entity_1 _let_39) (tptp.tangible_entity_1 _let_39) (tptp.entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.nitrogen_1 _let_39) (tptp.entity_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.carbon_1 _let_38) (tptp.entity_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.carbon_1 _let_37) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.hydrogen_1 _let_36) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.hydrogen_1 _let_35) (tptp.entity_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.atom_1 _let_34) (tptp.hydrogen_1 _let_34) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.hydrogen_1 _let_33) (tptp.spatial_entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.monomer_1 _let_31) (tptp.molecule_1 _let_31) (tptp.amino_acid_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.monomer_1 _let_30) (tptp.molecule_1 _let_30) (tptp.amino_acid_1 _let_30) (tptp.smooth_endoplasmic_reticulum_1 _let_28) (tptp.smooth_endoplasmic_reticulum_1 _let_27) (tptp.substance_1 _let_26) (tptp.cytosol_1 _let_26) (tptp.substance_1 _let_25) (tptp.cytosol_1 _let_25) (tptp.substance_1 _let_24) (tptp.cytosol_1 _let_24) (tptp.protein_enzyme_1 _let_23) (tptp.protein_enzyme_1 _let_22) (tptp.specific_heat_value_1 _let_18) (tptp.entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.cell_1 _let_5) (tptp.eukaryotic_cell_1 _let_5) (tptp.cell_1 _let_2) (tptp.in_event_2 _let_90 _let_87) (tptp.origin_2 _let_10 _let_52) (tptp.is_inside_2 _let_64 _let_21) (tptp.site_2 _let_89 _let_64) (tptp.base_2 _let_89 _let_21) (tptp.agent_2 _let_1 _let_66) (tptp.has_region_2 _let_59 _let_88) (tptp.is_outside_2 _let_52 _let_21) (tptp.is_inside_2 _let_52 _let_88) (tptp.instrument_2 _let_87 X) (tptp.plays_2 _let_21 _let_8) (tptp.plays_2 _let_21 _let_6) (tptp.plays_2 X _let_12) (tptp.base_2 _let_10 X) (tptp.base_2 _let_75 _let_21) (tptp.specific_heat_2 _let_17 _let_61) (tptp.has_part_2 _let_21 _let_72) (tptp.has_part_2 _let_21 _let_84) (tptp.is_inside_2 _let_85 _let_84) (tptp.has_part_2 _let_21 _let_85) (tptp.has_part_2 _let_21 _let_4) (tptp.plays_2 X _let_82) (tptp.in_event_2 _let_82 _let_62) (tptp.result_2 _let_62 _let_83) (tptp.has_part_2 _let_83 _let_29) (not (= _let_81 _let_76)) (not (= _let_76 _let_81)) (tptp.has_part_2 _let_32 _let_81) (tptp.has_part_2 _let_32 _let_78) (tptp.has_part_2 _let_29 _let_32) (tptp.has_part_2 _let_32 _let_80) (not (= _let_80 _let_77)) (tptp.has_part_2 _let_32 _let_77) (tptp.has_part_2 _let_32 _let_79) (not (= _let_77 _let_80)) (not (= _let_81 _let_80)) (not (= _let_80 _let_81)) (not (= _let_78 _let_81)) (not (= _let_81 _let_77)) (not (= _let_77 _let_79)) (not (= _let_79 _let_78)) (not (= _let_81 _let_78)) (not (= _let_77 _let_81)) (not (= _let_79 _let_77)) (not (= _let_78 _let_79)) (not (= _let_76 _let_80)) (not (= _let_80 _let_78)) (not (= _let_78 _let_77)) (not (= _let_79 _let_76)) (not (= _let_76 _let_79)) (not (= _let_80 _let_76)) (not (= _let_78 _let_80)) (not (= _let_77 _let_78)) (tptp.has_part_2 _let_32 _let_76) (not (= _let_77 _let_76)) (not (= _let_76 _let_77)) (not (= _let_78 _let_76)) (not (= _let_76 _let_78)) (tptp.site_2 _let_1 _let_72) (tptp.is_inside_2 _let_4 _let_70) (tptp.is_inside_2 _let_72 _let_70) (tptp.has_function_2 _let_72 _let_1) (tptp.agent_2 _let_1 _let_67) (tptp.agent_2 _let_75 _let_67) (tptp.has_part_2 _let_21 _let_69) (tptp.is_inside_2 _let_64 _let_69) (tptp.has_part_2 _let_64 _let_70) (tptp.has_part_2 _let_21 _let_64) (tptp.has_part_2 _let_64 _let_66) (not (= _let_66 _let_67)) (tptp.has_part_2 _let_64 _let_67) (tptp.is_between_2 _let_64 _let_69) (not (= _let_67 _let_66)) (tptp.agent_2 _let_62 X) (tptp.temperature_2 X _let_60) (tptp.correspondence_2 _let_60 _let_61) (tptp.agent_2 _let_57 X) (tptp.base_2 _let_57 X) (tptp.has_part_2 X _let_58) (tptp.has_part_2 _let_58 _let_59) (tptp.has_part_2 _let_59 _let_21) (tptp.agent_2 _let_54 X) (tptp.object_2 _let_54 X) (tptp.has_function_2 X _let_55) (tptp.facilitates_2 _let_56 _let_55) (tptp.has_part_2 X _let_56) (tptp.has_part_2 X _let_51) (tptp.is_inside_2 _let_52 _let_51) (tptp.has_region_2 _let_53 _let_52) (tptp.has_region_2 X _let_53) (tptp.has_part_2 X _let_17) (tptp.base_2 _let_1 _let_21) (= _let_21 _let_9) (= _let_21 _let_7) (= X _let_13) (= X _let_11) (= (tptp.fn_hydra_42 X) _let_86) (= _let_61 _let_18) (= _let_72 _let_28) (= _let_21 _let_5) (= _let_85 _let_50) (= _let_84 _let_48) (= _let_85 _let_49) (= _let_84 _let_47) (= _let_29 (tptp.fn_animal_15 X)) (= _let_83 (tptp.fn_animal_7 X)) (= _let_62 _let_20) (= _let_82 (tptp.fn_animal_18 X)) (= _let_81 _let_46) (= _let_78 _let_38) (= _let_79 _let_41) (= _let_79 _let_40) (= _let_77 _let_36) (= _let_77 _let_35) (= _let_80 _let_45) (= _let_80 _let_44) (= _let_32 _let_31) (= _let_32 _let_30) (= _let_81 _let_43) (= _let_81 _let_42) (= _let_80 _let_43) (= _let_80 _let_42) (= _let_79 _let_39) (= _let_78 _let_37) (= _let_77 _let_34) (= _let_76 _let_34) (= _let_76 _let_33) (= _let_75 _let_74) (= _let_67 _let_23) (= _let_1 _let_73) (= _let_72 _let_27) (= _let_4 _let_71) (= _let_70 _let_26) (= _let_70 _let_25) (= _let_70 _let_24) (= _let_69 _let_68) (= _let_67 _let_22) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_19) (= (tptp.fn_hydra_43 X) (tptp.fn_cnidaria_12 X)) (= _let_61 _let_16) (= _let_60 (tptp.fn_cnidaria_32 X)) (= _let_21 _let_3) (= _let_59 (tptp.fn_cnidaria_25 X)) (= _let_58 (tptp.fn_cnidaria_7 X)) (= _let_57 (tptp.fn_cnidaria_15 X)) (= _let_56 _let_15) (= _let_56 _let_14) (= _let_55 (tptp.fn_cnidaria_1 X)) (= _let_54 (tptp.fn_cnidaria_14 X)) (= _let_17 (tptp.fn_cnidaria_23 X)) (= _let_53 (tptp.fn_cnidaria_17 X)) (= _let_52 (tptp.fn_cnidaria_18 X)) (= _let_51 (tptp.fn_cnidaria_6 X)) (= _let_21 _let_2) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_43) (= _let_43 _let_46) (= _let_46 _let_43) (= _let_42 _let_46) (= _let_46 _let_42) (= _let_42 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_33) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_inside_2 X X1) (tptp.hydration_shell_1 X1) (tptp.ion_1 X)) (and (tptp.hydrated_ion_1 X) (= (tptp.fn_hydrated_ion_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrated_ion_2 X))) (let ((_let_2 (tptp.fn_hydration_shell_1 _let_1))) (=> (tptp.hydrated_ion_1 X) (and (tptp.original_name_2 X |tptp.'Hydrated-Ion'|) (tptp.user_description_2 X |tptp.'An ion surrounded by a shell of water around it.'|) (tptp.concept2words_2 X |tptp.'hydrated ion'|) (tptp.concept2words_2 X |tptp.'hydrated-ion'|) (tptp.ion_1 X) (tptp.hydration_shell_1 _let_1) (tptp.chemical_entity_1 _let_2) (tptp.is_inside_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrated_molecule_1 X))) (let ((_let_2 (tptp.fn_hydrated_molecule_2 X))) (=> (tptp.hydrated_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Hydrated-Molecule'|) (tptp.user_description_2 X |tptp.'A molecule with a shell of water surrounding it.'|) (tptp.concept2words_2 X |tptp.'hydrated molecule'|) (tptp.concept2words_2 X |tptp.'hydrated-molecule'|) (tptp.hydrophilic_compound_1 X) (tptp.molecule_1 _let_1) (tptp.hydration_shell_1 _let_2) (tptp.has_region_2 X _let_2) (tptp.has_part_2 X _let_1) (tptp.is_outside_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_reaction_2 X))) (let ((_let_2 (tptp.fn_hydration_3 X))) (let ((_let_3 (tptp.fn_add_2 _let_2))) (let ((_let_4 (tptp.fn_hydration_2 X))) (let ((_let_5 (tptp.fn_hydration_4 X))) (let ((_let_6 (tptp.fn_add_1 _let_2))) (let ((_let_7 (tptp.fn_hydration_1 X))) (=> (tptp.hydration_1 X) (and (tptp.original_name_2 X |tptp.'Hydration'|) (tptp.user_description_2 X |tptp.'A chemical reaction in which a hydroxyl group (OH-) and a hydrogen cation are added to the two carbon atoms bonded together in the carbon-carbon double bond which makes up an alkene functional group.'|) (tptp.concept2words_2 X tptp.hydrate) (tptp.concept2words_2 X tptp.hydration) (tptp.synthesis_reaction_1 X) (tptp.water_molecule_1 _let_7) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.add_1 _let_2) (tptp.chemical_entity_1 _let_5) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_3) (tptp.result_2 _let_2 _let_5) (tptp.raw_material_2 X _let_7) (tptp.subevent_2 X _let_2) (tptp.object_2 _let_2 _let_7) (tptp.base_2 _let_2 _let_4) (tptp.result_2 X _let_5) (tptp.raw_material_2 X _let_4) (= _let_7 _let_6) (= _let_4 _let_3) (= _let_5 (tptp.fn_chemical_reaction_1 X)) (= _let_4 _let_1) (= _let_3 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydration_shell_4 X))) (let ((_let_2 (tptp.fn_water_98 _let_1))) (let ((_let_3 (tptp.fn_hydration_shell_5 X))) (let ((_let_4 (tptp.fn_water_83 _let_1))) (let ((_let_5 (tptp.fn_hydration_shell_6 X))) (let ((_let_6 (tptp.fn_hydration_shell_2 X))) (let ((_let_7 (tptp.fn_hydration_shell_1 X))) (=> (tptp.hydration_shell_1 X) (and (tptp.original_name_2 X |tptp.'Hydration-Shell'|) (tptp.user_description_2 X |tptp.'Water molecules which surround and accompany an ion dissolved in a solution.'|) (tptp.concept2words_2 X |tptp.'solvation shell'|) (tptp.concept2words_2 X |tptp.'shell of hydration'|) (tptp.concept2words_2 X |tptp.'hydration shell'|) (tptp.concept2words_2 X |tptp.'hydration-shell'|) (tptp.molecular_region_1 X) (tptp.chemical_entity_1 _let_7) (tptp.shape_value_1 _let_6) (tptp.water_1 _let_1) (tptp.entity_1 _let_3) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.polar_molecule_1 _let_3) (tptp.water_molecule_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.polar_molecule_1 _let_5) (tptp.hydrophilic_compound_1 _let_5) (tptp.water_molecule_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_4) (tptp.polar_molecule_1 _let_4) (tptp.hydrophilic_compound_1 _let_4) (tptp.water_molecule_1 _let_4) (tptp.entity_1 _let_2) (tptp.spatial_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.polar_molecule_1 _let_2) (tptp.water_molecule_1 _let_2) (tptp.abuts_2 _let_5 _let_7) (tptp.is_inside_2 _let_5 X) (tptp.abuts_2 _let_3 _let_7) (tptp.is_inside_2 _let_3 X) (tptp.is_inside_2 X _let_1) (tptp.shape_2 X _let_6) (tptp.abuts_2 _let_7 _let_3) (tptp.abuts_2 _let_7 _let_5) (tptp.is_inside_2 _let_7 X) (tptp.the_categorical_value_2 _let_6 tptp.sphere_0) (tptp.has_part_2 _let_1 _let_5) (tptp.has_part_2 _let_1 _let_3) (tptp.called_2 _let_3 |"1"|) (tptp.same_type_2 _let_5 _let_3) (tptp.same_type_2 _let_3 _let_5) (= _let_5 _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.hydrocarbon_chain_1 X) (and (tptp.original_name_2 X |tptp.'Hydrocarbon-Chain'|) (tptp.user_description_2 X |tptp.'Hydrocarbons joined together in a chain form a hydrocarbon chain.'|) (tptp.concept2words_2 X |tptp.'chain of hydrocarbon'|) (tptp.concept2words_2 X |tptp.'hydrocarbon chain'|) (tptp.concept2words_2 X |tptp.'hydrocarbon-chain'|) (tptp.hydrocarbon_molecule_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrocarbon_molecule_17 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_hydrocarbon_molecule_18 X))) (let ((_let_4 (tptp.fn_atomic_nucleus_9 _let_3))) (let ((_let_5 (tptp.fn_hydrocarbon_molecule_16 X))) (let ((_let_6 (tptp.fn_carbon_17 _let_5))) (let ((_let_7 (tptp.fn_atom_8 _let_5))) (let ((_let_8 (tptp.fn_carbon_18 _let_5))) (let ((_let_9 (tptp.fn_atom_18 _let_5))) (let ((_let_10 (tptp.fn_hydrocarbon_molecule_14 X))) (let ((_let_11 (tptp.fn_covalent_bond_24 _let_10))) (let ((_let_12 (tptp.fn_atomic_nucleus_2 _let_3))) (let ((_let_13 (tptp.fn_atom_11 _let_5))) (let ((_let_14 (tptp.fn_atomic_nucleus_1 _let_3))) (let ((_let_15 (tptp.fn_carbon_16 _let_5))) (let ((_let_16 (tptp.fn_atom_17 _let_5))) (let ((_let_17 (tptp.fn_atomic_nucleus_3 _let_3))) (let ((_let_18 (tptp.fn_covalent_bond_21 _let_10))) (let ((_let_19 (tptp.fn_hydrocarbon_molecule_23 X))) (let ((_let_20 (tptp.fn_atomic_nucleus_9 _let_19))) (let ((_let_21 (tptp.fn_hydrocarbon_molecule_15 X))) (let ((_let_22 (tptp.fn_hydrogen_13 _let_21))) (let ((_let_23 (tptp.fn_hydrogen_15 _let_21))) (let ((_let_24 (tptp.fn_covalent_bond_22 _let_10))) (let ((_let_25 (tptp.fn_atomic_nucleus_1 _let_19))) (let ((_let_26 (tptp.fn_hydrogen_10 _let_21))) (let ((_let_27 (tptp.fn_atomic_nucleus_3 _let_19))) (let ((_let_28 (tptp.fn_hydrogen_14 _let_21))) (let ((_let_29 (tptp.fn_covalent_bond_23 _let_10))) (let ((_let_30 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_31 (tptp.fn_organic_molecule_2 X))) (let ((_let_32 (tptp.fn_atomic_nucleus_4 _let_19))) (let ((_let_33 (tptp.fn_molecule_11 X))) (let ((_let_34 (tptp.fn_hydrocarbon_molecule_22 X))) (let ((_let_35 (tptp.fn_share_1 _let_34))) (let ((_let_36 (tptp.fn_share_3 _let_34))) (let ((_let_37 (tptp.fn_hydrogen_12 _let_21))) (let ((_let_38 (tptp.fn_covalent_bond_18 _let_10))) (let ((_let_39 (tptp.fn_atomic_nucleus_8 _let_19))) (let ((_let_40 (tptp.fn_hydrogen_16 _let_21))) (let ((_let_41 (tptp.fn_covalent_bond_12 _let_10))) (let ((_let_42 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_43 (tptp.fn_organic_molecule_1 X))) (let ((_let_44 (tptp.fn_covalent_bond_19 _let_10))) (let ((_let_45 (tptp.fn_covalent_bond_20 _let_10))) (let ((_let_46 (tptp.fn_atomic_nucleus_4 _let_3))) (let ((_let_47 (tptp.fn_carbon_skeleton_1 _let_1))) (let ((_let_48 (tptp.fn_covalent_bond_14 _let_10))) (let ((_let_49 (tptp.fn_carbon_10 _let_5))) (let ((_let_50 (tptp.fn_covalent_bond_15 _let_10))) (let ((_let_51 (tptp.fn_atom_14 _let_5))) (let ((_let_52 (tptp.fn_atomic_nucleus_8 _let_3))) (let ((_let_53 (tptp.fn_covalent_bond_11 _let_10))) (let ((_let_54 (tptp.fn_atom_9 _let_5))) (let ((_let_55 (tptp.fn_hydrocarbon_molecule_7 X))) (let ((_let_56 (tptp.fn_hydrocarbon_molecule_10 X))) (let ((_let_57 (tptp.fn_hydrocarbon_molecule_9 X))) (let ((_let_58 (tptp.fn_hydrocarbon_molecule_19 X))) (let ((_let_59 (tptp.fn_atomic_nucleus_5 _let_3))) (let ((_let_60 (tptp.fn_atomic_nucleus_6 _let_3))) (let ((_let_61 (tptp.fn_hydrocarbon_molecule_30 X))) (let ((_let_62 (tptp.fn_hydrocarbon_molecule_27 X))) (let ((_let_63 (tptp.fn_hydrocarbon_molecule_28 X))) (let ((_let_64 (tptp.fn_hydrocarbon_molecule_29 X))) (let ((_let_65 (tptp.fn_hydrocarbon_molecule_12 X))) (let ((_let_66 (tptp.fn_atomic_nucleus_2 _let_19))) (let ((_let_67 (tptp.fn_hydrocarbon_molecule_13 X))) (let ((_let_68 (tptp.fn_hydrocarbon_molecule_26 X))) (let ((_let_69 (tptp.fn_atomic_nucleus_5 _let_19))) (let ((_let_70 (tptp.fn_hydrocarbon_molecule_24 X))) (let ((_let_71 (tptp.fn_atomic_nucleus_6 _let_19))) (let ((_let_72 (tptp.fn_hydrocarbon_molecule_11 X))) (let ((_let_73 (tptp.fn_hydrocarbon_molecule_25 X))) (let ((_let_74 (tptp.fn_hydrocarbon_molecule_21 X))) (let ((_let_75 (tptp.fn_hydrocarbon_molecule_8 X))) (let ((_let_76 (tptp.fn_hydrocarbon_molecule_20 X))) (let ((_let_77 (tptp.fn_covalent_bond_17 _let_10))) (let ((_let_78 (tptp.fn_hydrocarbon_molecule_1 X))) (=> (tptp.hydrocarbon_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Hydrocarbon-Molecule'|) (tptp.user_description_2 X |tptp.'A class of organic molecules consisting entirely of carbon and hydrogen and no other types of atoms.'|) (tptp.concept2words_2 X tptp.hydrocarbon) (tptp.concept2words_2 X |tptp.'molecule of hydrocarbon'|) (tptp.concept2words_2 X |tptp.'hydrocarbon molecule'|) (tptp.concept2words_2 X |tptp.'hydrocarbon-molecule'|) (tptp.organic_molecule_1 X) (tptp.shape_value_1 _let_78) (tptp.proton_1 _let_55) (tptp.valence_electron_1 _let_75) (tptp.electron_1 _let_75) 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_let_66) (tptp.property_node_1 _let_60) (tptp.property_node_1 _let_59) (tptp.electron_shell_1 _let_54) (tptp.electron_shell_1 _let_53) (tptp.electron_1 _let_52) (tptp.electron_1 _let_51) (tptp.valence_electron_1 _let_50) (tptp.electron_1 _let_49) (tptp.hold_together_1 _let_48) (tptp.hold_together_1 _let_47) (tptp.atom_1 _let_46) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.carbon_1 _let_42) (tptp.electron_shell_1 _let_41) (tptp.electron_shell_1 _let_40) (tptp.first_electron_shell_1 _let_40) (tptp.electron_1 _let_39) (tptp.valence_electron_1 _let_38) (tptp.valence_electron_1 _let_37) (tptp.entity_1 _let_36) (tptp.entity_1 _let_35) (tptp.atom_1 _let_32) (tptp.atom_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.center_1 _let_29) (tptp.center_1 _let_28) (tptp.center_1 _let_27) (tptp.atomic_number_value_1 _let_26) (tptp.atomic_number_value_1 _let_25) (tptp.atomic_nucleus_1 _let_24) (tptp.atomic_nucleus_1 _let_23) (tptp.proton_1 _let_22) (tptp.proton_1 _let_20) (tptp.center_1 _let_18) (tptp.center_1 _let_17) (tptp.atomic_number_value_1 _let_16) (tptp.atomic_number_value_1 _let_15) (tptp.atomic_number_value_1 _let_14) (tptp.quantity_value_1 _let_13) (tptp.quantity_value_1 _let_12) (tptp.atomic_nucleus_1 _let_11) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_8) (tptp.proton_1 _let_7) (tptp.proton_1 _let_6) (tptp.proton_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.hydrogen_0) (tptp.the_categorical_value_2 _let_78 tptp.line_0) (tptp.shape_2 _let_1 _let_78) (not (= _let_72 _let_75)) (not (= _let_75 _let_72)) (tptp.agent_2 _let_34 _let_21) (tptp.possesses_2 X _let_10) (tptp.is_between_2 _let_10 _let_21) (not (= _let_19 _let_3)) (not (= _let_3 _let_19)) (tptp.object_2 _let_34 _let_75) (tptp.object_2 _let_34 _let_72) (tptp.result_2 _let_34 _let_10) (tptp.agent_2 _let_34 _let_5) (not (= _let_73 _let_76)) (not (= _let_76 _let_73)) (tptp.has_region_2 _let_5 _let_76) (tptp.has_function_2 _let_10 _let_74) (tptp.agent_2 _let_74 _let_10) (tptp.is_between_2 _let_10 _let_5) (tptp.has_region_2 _let_5 _let_58) (not (= _let_58 _let_70)) (not (= _let_70 _let_58)) (tptp.atomic_number_2 _let_5 _let_57) (tptp.has_part_2 _let_5 _let_75) (tptp.is_near_2 _let_75 _let_3) (tptp.has_region_2 _let_5 _let_3) (tptp.has_part_2 _let_5 _let_55) (tptp.is_near_2 _let_3 _let_75) (tptp.has_part_2 X _let_21) (tptp.object_2 _let_74 _let_21) (tptp.object_2 _let_74 _let_5) (tptp.is_inside_2 _let_5 _let_1) (tptp.has_part_2 X _let_5) (tptp.has_region_2 X _let_1) (not (= _let_21 _let_5)) (not (= _let_5 _let_21)) (tptp.has_region_2 _let_21 _let_70) (tptp.has_region_2 _let_21 _let_19) (tptp.atomic_number_2 _let_21 _let_68) (tptp.the_cardinal_value_2 _let_68 |"1"|) (tptp.cardinal_unit_class_2 _let_68 tptp.unity_0) (tptp.has_part_2 _let_21 _let_72) (tptp.is_near_2 _let_72 _let_19) (tptp.is_inside_2 _let_19 _let_73) (tptp.has_region_2 _let_21 _let_73) (tptp.has_part_2 _let_21 _let_65) (tptp.is_near_2 _let_19 _let_72) (tptp.called_2 _let_68 |tptp.'Atomic_Number'|) (tptp.is_at_2 _let_19 _let_70) (tptp.is_inside_2 _let_65 _let_19) (tptp.quantity_2 _let_65 _let_67) (tptp.called_2 _let_67 |tptp.'Number_Proton'|) (= _let_68 _let_67) (= _let_67 _let_68) (tptp.possesses_2 X _let_61) (tptp.quantity_2 _let_61 _let_62) (tptp.directly_proportional_2 _let_63 _let_62) (tptp.speed_2 _let_64 _let_63) (tptp.object_2 _let_64 X) (tptp.called_2 _let_57 |tptp.'Atomic_Number'|) (tptp.is_at_2 _let_3 _let_58) (tptp.is_inside_2 _let_55 _let_3) (tptp.quantity_2 _let_55 _let_56) (tptp.called_2 _let_56 |tptp.'Number_Proton'|) (= _let_57 _let_56) (= _let_56 _let_57) (= _let_21 _let_36) (= _let_21 _let_35) (= _let_21 _let_33) (= _let_10 (tptp.fn_molecule_10 X)) (= _let_19 _let_24) (= _let_72 _let_38) (= _let_73 _let_41) (= _let_34 _let_77) (= _let_76 _let_54) (= _let_76 _let_53) (= _let_76 _let_41) (= _let_70 _let_29) (= _let_58 _let_18) (= _let_5 _let_44) (= _let_74 _let_48) (= _let_57 _let_15) (= _let_55 _let_7) (= _let_55 _let_6) (= _let_3 _let_11) (= _let_3 _let_9) (= _let_3 _let_8) (= _let_5 _let_46) (= _let_75 _let_52) (= _let_5 _let_45) (= _let_75 _let_50) (= _let_75 _let_51) (= _let_75 _let_49) (= _let_74 _let_47) (= X _let_2) (= _let_21 _let_31) (= _let_21 _let_30) (= _let_5 _let_43) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= _let_5 _let_42) (= _let_70 _let_28) (= _let_68 _let_26) (= _let_65 _let_22) (= _let_73 _let_40) (= _let_19 _let_23) (= _let_21 _let_32) (= _let_72 _let_39) (= _let_72 _let_37) (= (tptp.fn_hydrocarbon_molecule_31 X) _let_71) (= _let_70 _let_27) (= (tptp.fn_hydrocarbon_molecule_32 X) _let_69) (= _let_68 _let_25) (= _let_67 _let_66) (= _let_65 _let_20) (= (tptp.fn_hydrocarbon_molecule_6 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_hydrocarbon_molecule_5 X) (tptp.fn_molecule_1 X)) (= _let_64 (tptp.fn_molecule_8 X)) (= _let_63 (tptp.fn_molecule_3 X)) (= _let_62 (tptp.fn_molecule_4 X)) (= _let_61 (tptp.fn_molecule_12 X)) (= (tptp.fn_hydrocarbon_molecule_4 X) _let_60) (= (tptp.fn_hydrocarbon_molecule_3 X) _let_59) (= _let_58 _let_17) (= _let_56 _let_13) (= _let_57 _let_16) (= _let_57 _let_14) (= _let_56 _let_12) (= _let_55 _let_4) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_41) (= _let_41 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_42 _let_42) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_38) (= _let_38 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_20) (= _let_20 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrocarbon_substance_1 X))) (=> (tptp.hydrocarbon_substance_1 X) (and (tptp.original_name_2 X |tptp.'Hydrocarbon-Substance'|) (tptp.concept2words_2 X |tptp.'substance of hydrocarbon'|) (tptp.concept2words_2 X |tptp.'hydrocarbon substance'|) (tptp.concept2words_2 X |tptp.'hydrocarbon-substance'|) (tptp.organic_molecule_substance_1 X) (tptp.hydrocarbon_molecule_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_organic_molecule_substance_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.hydrochloric_acid_1 X) (and (tptp.original_name_2 X |tptp.'Hydrochloric-Acid'|) (tptp.user_description_2 X |tptp.'A strong acid with the chemical formula HCl.'|) (tptp.concept2words_2 X |tptp.'hydrochloric acid'|) (tptp.concept2words_2 X |tptp.'hydrochloric-acid'|) (tptp.strong_acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hydrochloric_acid_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Hydrochloric-Acid-Molecule'|) (tptp.user_description_2 X |tptp.'Molecule with molecular formula HCl which dissociates to form hydrochloric acid in solution.'|) (tptp.concept2words_2 X |tptp.'hydrochloric acid molecule'|) (tptp.concept2words_2 X |tptp.'hydrochloric-acid-molecule'|) (tptp.inorganic_molecule_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hydroelectric_system_1 X) (and (tptp.original_name_2 X |tptp.'Hydroelectric-System'|) (tptp.user_description_2 X |tptp.'A system in which the movement of water is used to generate electricity.'|) (tptp.concept2words_2 X |tptp.'hydroelectric system'|) (tptp.concept2words_2 X |tptp.'hydroelectric-system'|) (tptp.engineering_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_15 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_hydrogen_16 X))) (let ((_let_4 (tptp.fn_first_electron_shell_3 _let_3))) (let ((_let_5 (tptp.fn_atom_8 X))) (let ((_let_6 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_7 (tptp.fn_atom_11 X))) (let ((_let_8 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_9 (tptp.fn_atom_17 X))) (let ((_let_10 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_11 (tptp.fn_atom_18 X))) (let ((_let_12 (tptp.fn_first_electron_shell_7 _let_3))) (let ((_let_13 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_14 (tptp.fn_atom_14 X))) (let ((_let_15 (tptp.fn_hydrogen_13 X))) (let ((_let_16 (tptp.fn_hydrogen_17 X))) (let ((_let_17 (tptp.fn_hydrogen_10 X))) (let ((_let_18 (tptp.fn_hydrogen_11 X))) (let ((_let_19 (tptp.fn_hydrogen_19 X))) (let ((_let_20 (tptp.fn_hydrogen_9 X))) (let ((_let_21 (tptp.fn_atomic_nucleus_3 _let_1))) (let ((_let_22 (tptp.fn_hydrogen_14 X))) (let ((_let_23 (tptp.fn_hydrogen_12 X))) (let ((_let_24 (tptp.fn_hydrogen_2 X))) (let ((_let_25 (tptp.fn_hydrogen_4 X))) (let ((_let_26 (tptp.fn_hydrogen_5 X))) (=> (tptp.hydrogen_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen'|) (tptp.user_description_2 X |tptp.'Hydrogen is a non metal atom with atomic number 1. It is represented by the symbol H. Isotopes include H-1, H-2 and H-3.'|) (tptp.concept2words_2 X |tptp.'H'|) (tptp.concept2words_2 X tptp.hydrogen) (tptp.non_metal_atom_1 X) (not (tptp.copper_1 X)) (not (tptp.iron_1 X)) (not (tptp.magnesium_1 X)) (not (tptp.calcium_1 X)) (not (tptp.carbon_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.electronegativity_value_1 _let_24) (tptp.valence_value_1 _let_25) (tptp.neutron_1 _let_26) (tptp.atomic_weight_value_1 _let_20) (tptp.atomic_number_value_1 _let_17) (tptp.quantity_value_1 _let_18) (tptp.valence_electron_1 _let_23) (tptp.proton_1 _let_15) (tptp.center_1 _let_22) (tptp.atomic_nucleus_1 _let_1) (tptp.electron_shell_1 _let_3) (tptp.first_electron_shell_1 _let_3) (tptp.quantity_value_1 _let_16) (tptp.system_1 _let_19) (tptp.center_1 _let_21) (tptp.electron_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.atomic_number_value_1 _let_10) (tptp.quantity_value_1 _let_8) (tptp.proton_1 _let_6) (tptp.atom_1 _let_4) (tptp.atom_1 _let_2) (tptp.the_cardinal_value_2 _let_20 |"1.008"|) (tptp.cardinal_unit_class_2 _let_20 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_17 |"1"|) (tptp.cardinal_unit_class_2 _let_17 tptp.unity_0) (tptp.the_cardinal_value_2 _let_24 |"2.1"|) (tptp.cardinal_unit_class_2 _let_24 tptp.unity_0) (tptp.the_cardinal_value_2 _let_18 |"1"|) (tptp.cardinal_unit_class_2 _let_18 tptp.unity_0) (tptp.the_cardinal_value_2 _let_25 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_25 tptp.unity_0) (tptp.has_part_2 X _let_26) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.proton_0) (tptp.maxCardinality X tptp.has_part_0 |"2"| tptp.neutron_0) (tptp.minCardinality X tptp.has_part_0 |"0"| tptp.neutron_0) (tptp.valence_2 X _let_25) (tptp.electronegativity_2 X _let_24) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_1 _let_3) (tptp.quantity_2 _let_23 _let_18) (tptp.is_at_2 _let_1 _let_22) (tptp.has_region_2 X _let_22) (tptp.has_part_2 X _let_23) (tptp.is_near_2 _let_23 _let_1) (tptp.is_inside_2 _let_15 _let_1) (tptp.is_near_2 _let_1 _let_23) (tptp.has_region_2 X _let_1) (tptp.atomic_number_2 X _let_17) (tptp.atomic_weight_2 X _let_20) (tptp.called_2 _let_17 |tptp.'Atomic_Number'|) (tptp.called_2 _let_18 |tptp.'Number_Electron'|) (= _let_16 _let_18) (= _let_18 _let_16) (tptp.has_part_2 X _let_15) (tptp.quantity_2 _let_15 _let_16) (tptp.called_2 _let_16 |tptp.'Number_Proton'|) (= _let_17 _let_16) (= _let_16 _let_17) (= _let_3 (tptp.fn_atom_9 X)) (= X _let_4) (= _let_1 _let_12) (= _let_23 _let_14) (= _let_23 _let_13) (= _let_22 _let_21) (= _let_1 _let_11) (= (tptp.fn_hydrogen_7 X) (tptp.fn_atom_12 X)) (= (tptp.fn_hydrogen_6 X) (tptp.fn_atom_1 X)) (= (tptp.fn_hydrogen_21 X) (tptp.fn_atom_10 X)) (= (tptp.fn_hydrogen_8 X) (tptp.fn_atom_13 X)) (= _let_20 (tptp.fn_atom_16 X)) (= _let_19 (tptp.fn_atom_3 X)) (= (tptp.fn_hydrogen_20 X) (tptp.fn_atom_2 X)) (= (tptp.fn_hydrogen_18 X) (tptp.fn_atom_4 X)) (= _let_18 (tptp.fn_atom_5 X)) (= _let_17 _let_10) (= _let_17 _let_9) (= _let_16 _let_8) (= _let_16 _let_7) (= X _let_2) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_1_4 X))) (let ((_let_2 (tptp.fn_hydrogen_1_5 X))) (let ((_let_3 (tptp.fn_hydrogen_1_1 X))) (=> (tptp.hydrogen_1_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-1'|) (tptp.user_description_2 X |tptp.'This is one of the hydrogen isotopes that possess zero neutrons.'|) (tptp.concept2words_2 X |tptp.'1 of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen 1'|) (tptp.concept2words_2 X |tptp.'hydrogen-1'|) (tptp.hydrogen_isotope_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.atomic_weight_value_1 _let_1) (tptp.proton_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"0"| tptp.neutron_0) (tptp.the_cardinal_value_2 _let_3 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"1.007e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.has_part_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= _let_2 (tptp.fn_atom_8 X)) (= (tptp.fn_hydrogen_1_3 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_2_5 X))) (let ((_let_2 (tptp.fn_hydrogen_2_2 X))) (let ((_let_3 (tptp.fn_hydrogen_2_1 X))) (=> (tptp.hydrogen_2_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-2'|) (tptp.user_description_2 X |tptp.'This is one of the hydrogen isotopes that possess one neutrons.'|) (tptp.concept2words_2 X |tptp.'2 of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen 2'|) (tptp.concept2words_2 X |tptp.'hydrogen-2'|) (tptp.hydrogen_isotope_1 X) (tptp.neutron_1 _let_3) (tptp.atomic_mass_value_1 _let_2) (tptp.atomic_weight_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"2.014e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_2 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.has_part_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.neutron_0) (tptp.mass_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_hydrogen_2_4 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_3_5 X))) (let ((_let_2 (tptp.fn_hydrogen_3_2 X))) (let ((_let_3 (tptp.fn_hydrogen_3_3 X))) (=> (tptp.hydrogen_3_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-3'|) (tptp.user_description_2 X |tptp.'This is one of the hydrogen isotopes that possess two neutrons.'|) (tptp.concept2words_2 X |tptp.'3 of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen 3'|) (tptp.concept2words_2 X |tptp.'hydrogen-3'|) (tptp.hydrogen_isotope_1 X) (tptp.atomic_mass_value_1 _let_2) (tptp.neutron_1 _let_3) (tptp.atomic_weight_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"3.016e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.has_part_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.neutron_0) (tptp.mass_number_2 X _let_2) (tptp.the_cardinal_value_2 _let_2 |"3.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_hydrogen_3_4 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_bond_1 X))) (let ((_let_2 (tptp.fn_hydrogen_bond_10 X))) (let ((_let_3 (tptp.fn_molecule_7 _let_2))) (let ((_let_4 (tptp.fn_hydrogen_bond_13 X))) (let ((_let_5 (tptp.fn_attract_1 _let_4))) (let ((_let_6 (tptp.fn_hydrogen_bond_22 X))) (let ((_let_7 (tptp.fn_atomic_nucleus_8 _let_6))) (let ((_let_8 (tptp.fn_hydrogen_bond_20 X))) (let ((_let_9 (tptp.fn_electron_shell_2 _let_8))) (let ((_let_10 (tptp.fn_atomic_nucleus_4 _let_6))) (let ((_let_11 (tptp.fn_chemical_bond_4 X))) (let ((_let_12 (tptp.fn_attract_2 _let_4))) (let ((_let_13 (tptp.fn_atomic_nucleus_1 _let_6))) (let ((_let_14 (tptp.fn_hydrogen_bond_11 X))) (let ((_let_15 (tptp.fn_atom_17 _let_14))) (let ((_let_16 (tptp.fn_hydrogen_bond_12 X))) (let ((_let_17 (tptp.fn_hydrogen_15 _let_16))) (let ((_let_18 (tptp.fn_hydrogen_bond_7 X))) (let ((_let_19 (tptp.fn_hydrogen_16 _let_16))) (let ((_let_20 (tptp.fn_hydrogen_bond_9 X))) (let ((_let_21 (tptp.fn_hydrogen_2 _let_16))) (let ((_let_22 (tptp.fn_hydrogen_bond_6 X))) (let ((_let_23 (tptp.fn_hydrogen_1 _let_16))) (let ((_let_24 (tptp.fn_hydrogen_14 _let_16))) (let ((_let_25 (tptp.fn_hydrogen_bond_8 X))) (let ((_let_26 (tptp.fn_hydrogen_bond_17 X))) (let ((_let_27 (tptp.fn_atomic_nucleus_3 _let_6))) (let ((_let_28 (tptp.fn_hydrogen_bond_21 X))) (let ((_let_29 (tptp.fn_atomic_nucleus_9 _let_6))) (let ((_let_30 (tptp.fn_hydrogen_bond_18 X))) (let ((_let_31 (tptp.fn_hydrogen_bond_19 X))) (let ((_let_32 (tptp.fn_atomic_nucleus_5 _let_6))) (let ((_let_33 (tptp.fn_atom_3 _let_14))) (let ((_let_34 (tptp.fn_hydrogen_bond_23 X))) (let ((_let_35 (tptp.fn_atom_4 _let_14))) (let ((_let_36 (tptp.fn_atom_2 _let_14))) (let ((_let_37 (tptp.fn_atom_9 _let_14))) (let ((_let_38 (tptp.fn_hydrogen_bond_14 X))) (let ((_let_39 (tptp.fn_atom_7 _let_16))) (let ((_let_40 (tptp.fn_hydrogen_bond_24 X))) (let ((_let_41 (tptp.fn_atom_6 _let_16))) (let ((_let_42 (tptp.fn_electron_shell_3 _let_8))) (let ((_let_43 (tptp.fn_hydrogen_bond_16 X))) (let ((_let_44 (tptp.fn_hydrogen_bond_2 X))) (=> (tptp.hydrogen_bond_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Bond'|) (tptp.user_description_2 X |tptp.'Hydrogen bond is the attractive interaction of a hydrogen atom with an atom of high electronegativity.'|) (tptp.concept2words_2 X |tptp.'bond of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen bond'|) (tptp.concept2words_2 X |tptp.'hydrogen-bond'|) (tptp.dipole_dipole_interaction_1 X) (not (tptp.covalent_bond_1 X)) (not (tptp.disulfide_bond_1 X)) (not (tptp.ester_linkage_1 X)) (not (tptp.hydrophobic_interaction_1 X)) (not (tptp.ionic_bond_1 X)) (tptp.electronegativity_value_1 _let_44) (tptp.electronegativity_value_1 _let_22) (tptp.atomic_nucleus_1 _let_18) (tptp.center_1 _let_25) (tptp.electron_shell_1 _let_20) (tptp.first_electron_shell_1 _let_20) (tptp.molecule_1 _let_2) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.hydrogen_1 _let_16) (tptp.attract_1 _let_4) (tptp.hold_together_1 _let_38) (tptp.atomic_orbital_1 _let_43) (tptp.electron_1 _let_26) (tptp.proton_1 _let_30) (tptp.atomic_number_value_1 _let_31) (tptp.electron_shell_1 _let_8) (tptp.center_1 _let_28) (tptp.atomic_nucleus_1 _let_6) (tptp.system_1 _let_34) (tptp.charge_value_1 _let_40) (tptp.atomic_orbital_1 _let_42) (tptp.property_node_1 _let_41) (tptp.charge_value_1 _let_39) (tptp.electron_shell_1 _let_37) (tptp.equation_big_node_1 _let_36) (tptp.equation_set_1 _let_35) (tptp.system_1 _let_33) (tptp.property_node_1 _let_32) (tptp.proton_1 _let_29) (tptp.center_1 _let_27) (tptp.center_1 _let_24) (tptp.property_node_1 _let_23) (tptp.electronegativity_value_1 _let_21) (tptp.electron_shell_1 _let_19) (tptp.first_electron_shell_1 _let_19) (tptp.atomic_nucleus_1 _let_17) (tptp.atomic_number_value_1 _let_15) (tptp.atomic_number_value_1 _let_13) (tptp.entity_1 _let_12) (tptp.atom_1 _let_10) (tptp.electron_1 _let_9) (tptp.electron_1 _let_7) (tptp.entity_1 _let_5) (tptp.atom_1 _let_3) (tptp.electronegativity_2 _let_14 _let_44) (not (= _let_14 _let_16)) (not (= _let_16 _let_14)) (tptp.result_2 _let_4 X) (tptp.greater_than_2 _let_44 _let_22) (tptp.the_categorical_value_2 _let_40 tptp.partial_positive_0) (tptp.object_2 _let_4 _let_16) (tptp.agent_2 _let_4 _let_14) (tptp.has_part_2 _let_2 _let_16) (tptp.has_region_2 _let_8 _let_43) (tptp.is_inside_2 _let_26 _let_43) (tptp.charge_2 _let_16 _let_40) (tptp.has_function_2 X _let_38) (tptp.is_between_2 X _let_14) (tptp.object_2 _let_38 _let_14) (tptp.agent_2 _let_38 X) (tptp.is_between_2 X _let_16) (tptp.object_2 _let_38 _let_16) (tptp.has_region_2 _let_14 _let_8) (tptp.has_part_2 _let_14 _let_26) (tptp.is_inside_2 _let_30 _let_6) (tptp.has_part_2 _let_14 _let_30) (tptp.atomic_number_2 _let_14 _let_31) (tptp.called_2 _let_31 |tptp.'Atomic_Number'|) (tptp.is_at_2 _let_6 _let_28) (tptp.has_region_2 _let_14 _let_28) (tptp.has_region_2 _let_14 _let_6) (tptp.is_near_2 _let_26 _let_6) (tptp.is_near_2 _let_6 _let_26) (tptp.has_region_2 _let_16 _let_25) (tptp.is_at_2 _let_18 _let_25) (tptp.has_region_2 _let_16 _let_18) (tptp.is_inside_2 _let_18 _let_20) (tptp.has_region_2 _let_16 _let_20) (tptp.electronegativity_2 _let_16 _let_22) (= _let_16 _let_5) (= _let_14 _let_12) (= _let_16 _let_3) (= _let_26 _let_9) (= _let_43 _let_42) (= (tptp.fn_hydrogen_bond_25 X) _let_41) (= _let_40 _let_39) (= _let_16 _let_1) (= _let_38 (tptp.fn_chemical_bond_3 X)) (= _let_14 _let_11) (= _let_31 _let_15) (= _let_8 _let_37) (= (tptp.fn_hydrogen_bond_3 X) _let_36) (= (tptp.fn_hydrogen_bond_15 X) _let_35) (= _let_34 _let_33) (= (tptp.fn_hydrogen_bond_4 X) _let_32) (= _let_31 _let_13) (= _let_30 _let_29) (= _let_14 _let_10) (= _let_28 _let_27) (= _let_26 _let_7) (= _let_25 _let_24) (= (tptp.fn_hydrogen_bond_5 X) _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hydrogen_cyanide_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Cyanide'|) (tptp.user_description_2 X |tptp.'It is a chemical compound with chemical formula HCN. It is a colorless and extremely poisonous liquid.'|) (tptp.concept2words_2 X tptp.hcn) (tptp.concept2words_2 X |tptp.'cyanide of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen cyanide'|) (tptp.concept2words_2 X |tptp.'hydrogen-cyanide'|) (tptp.organic_molecule_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_1 X))) (let ((_let_2 (tptp.fn_monoatomic_ion_1 X))) (let ((_let_3 (tptp.fn_hydrogen_ion_7 X))) (let ((_let_4 (tptp.fn_hydrogen_ion_6 X))) (let ((_let_5 (tptp.fn_hydrogen_ion_1 X))) (let ((_let_6 (tptp.fn_hydrogen_ion_4 X))) (let ((_let_7 (tptp.fn_hydrogen_ion_2 X))) (=> (tptp.hydrogen_ion_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Ion'|) (tptp.user_description_2 X |tptp.'A hydrogen ion is formed by release of one electron from a hydrogen atom, resulting in an ion with a charge of +1.'|) (tptp.concept2words_2 X |tptp.'h+'|) (tptp.concept2words_2 X |tptp.'ion of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen ion'|) (tptp.concept2words_2 X |tptp.'hydrogen-ion'|) (tptp.cation_1 X) (tptp.monoatomic_ion_1 X) (tptp.hydrogen_1 _let_5) (tptp.chemical_stability_value_1 _let_7) (tptp.mass_value_1 _let_6) (tptp.proton_1 _let_4) (tptp.charge_value_1 _let_3) (tptp.the_cardinal_value_2 _let_6 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_6 tptp.dalton_0) (tptp.the_categorical_value_2 _let_7 tptp.unstable_0) (tptp.chemical_stability_2 X _let_7) (tptp.exactCardinality X tptp.has_part_0 |"0"| tptp.electron_0) (tptp.mass_2 X _let_6) (tptp.the_cardinal_value_2 _let_3 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.has_ion_2 _let_5 X) (tptp.has_state_2 _let_5 X) (tptp.has_part_2 X _let_4) (tptp.charge_2 X _let_3) (= _let_4 _let_2) (= _let_4 _let_1) (= (tptp.fn_hydrogen_ion_8 X) (tptp.fn_cation_4 X)) (= _let_3 (tptp.fn_cation_5 X)) (= _let_2 _let_1))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_ion_gradient_1 X))) (=> (tptp.hydrogen_ion_gradient_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Ion-Gradient'|) (tptp.user_description_2 X |tptp.'A hydrogen ion gradient is a measurement of how the concentration of hydrogen ions change from one place to another, across a membrane.'|) (tptp.concept2words_2 X |tptp.'proton gradient'|) (tptp.concept2words_2 X |tptp.'ph gradient'|) (tptp.concept2words_2 X |tptp.'hydrogen ion gradient'|) (tptp.concept2words_2 X |tptp.'hydrogen-ion-gradient'|) (tptp.electrochemical_gradient_1 X) (tptp.proton_motive_force_1 _let_1) (tptp.possesses_2 X _let_1) (= _let_1 (tptp.fn_gradient_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_isotope_7 X))) (let ((_let_2 (tptp.fn_hydrogen_isotope_6 X))) (let ((_let_3 (tptp.fn_hydrogen_isotope_1 X))) (let ((_let_4 (tptp.fn_hydrogen_isotope_2 X))) (let ((_let_5 (tptp.fn_hydrogen_isotope_3 X))) (=> (tptp.hydrogen_isotope_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Isotope'|) (tptp.user_description_2 X |tptp.'All the hydrogen isoptopes have 1 proton and 1 electron. They differ in their neutron number.'|) (tptp.concept2words_2 X |tptp.'isotope of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen isotope'|) (tptp.concept2words_2 X |tptp.'hydrogen-isotope'|) (tptp.non_metal_atom_1 X) (tptp.isotope_1 X) (tptp.hydrogen_1 _let_3) (tptp.valence_value_1 _let_4) (tptp.electronegativity_value_1 _let_5) (tptp.proton_1 _let_2) (tptp.atomic_number_value_1 _let_1) (tptp.the_cardinal_value_2 _let_5 |"2.1"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.electronegativity_2 X _let_5) (tptp.valence_2 X _let_4) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.proton_0) (tptp.minCardinality X tptp.has_part_0 |"0"| tptp.neutron_0) (tptp.maxCardinality X tptp.has_part_0 |"2"| tptp.neutron_0) (tptp.has_isotope_2 _let_3 X) (tptp.has_state_2 _let_3 X) (tptp.the_cardinal_value_2 _let_1 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.has_part_2 X _let_2) (tptp.atomic_number_2 X _let_1) (tptp.called_2 _let_1 |tptp.'Atomic_Number'|) (= _let_2 (tptp.fn_atom_8 X)) (= (tptp.fn_hydrogen_isotope_8 X) (tptp.fn_atom_12 X)) (= _let_1 (tptp.fn_atom_17 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_molecule_13 X))) (let ((_let_2 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_3 (tptp.fn_hydrogen_molecule_16 X))) (let ((_let_4 (tptp.fn_hydrogen_12 _let_3))) (let ((_let_5 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_6 (tptp.fn_hydrogen_15 _let_3))) (let ((_let_7 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_8 (tptp.fn_hydrogen_14 _let_3))) (let ((_let_9 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_10 (tptp.fn_hydrogen_molecule_15 X))) (let ((_let_11 (tptp.fn_hydrogen_14 _let_10))) (let ((_let_12 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_13 (tptp.fn_hydrogen_15 _let_10))) (let ((_let_14 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_15 (tptp.fn_hydrogen_12 _let_10))) (let ((_let_16 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_17 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_18 (tptp.fn_molecule_11 X))) (let ((_let_19 (tptp.fn_molecule_7 X))) (let ((_let_20 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_21 (tptp.fn_hydrogen_molecule_1 X))) (let ((_let_22 (tptp.fn_hydrogen_molecule_2 X))) (let ((_let_23 (tptp.fn_hydrogen_molecule_4 X))) (let ((_let_24 (tptp.fn_hydrogen_molecule_5 X))) (let ((_let_25 (tptp.fn_hydrogen_molecule_9 X))) (let ((_let_26 (tptp.fn_hydrogen_molecule_7 X))) (let ((_let_27 (tptp.fn_hydrogen_molecule_3 X))) (let ((_let_28 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_29 (tptp.fn_hydrogen_molecule_14 X))) (let ((_let_30 (tptp.fn_hydrogen_13 _let_10))) (let ((_let_31 (tptp.fn_hydrogen_molecule_10 X))) (let ((_let_32 (tptp.fn_hydrogen_16 _let_10))) (let ((_let_33 (tptp.fn_hydrogen_molecule_8 X))) (let ((_let_34 (tptp.fn_hydrogen_16 _let_3))) (let ((_let_35 (tptp.fn_hydrogen_molecule_6 X))) (let ((_let_36 (tptp.fn_hydrogen_molecule_12 X))) (let ((_let_37 (tptp.fn_atomic_nucleus_8 _let_26))) (let ((_let_38 (tptp.fn_hydrogen_molecule_11 X))) (=> (tptp.hydrogen_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Molecule'|) (tptp.user_description_2 X |tptp.'Two atoms of hydrogen constitute a hydrogen molecule.'|) (tptp.concept2words_2 X tptp.h2) (tptp.concept2words_2 X |tptp.'molecule of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen molecule'|) (tptp.concept2words_2 X |tptp.'hydrogen-molecule'|) (tptp.inorganic_molecule_1 X) (not (tptp.hydrogen_sulfide_1 X)) (not (tptp.inorganic_acid_1 X)) (not (tptp.inorganic_ion_1 X)) (not (tptp.nitric_oxide_1 X)) (not (tptp.oxygen_molecule_1 X)) (not (tptp.sulfur_dioxide_1 X)) (tptp.share_1 _let_21) (tptp.valence_electron_1 _let_22) (tptp.valence_electron_1 _let_27) (tptp.atomic_nucleus_1 _let_23) (tptp.center_1 _let_24) (tptp.electron_shell_1 _let_35) (tptp.first_electron_shell_1 _let_35) (tptp.atomic_nucleus_1 _let_26) (tptp.electron_shell_1 _let_33) (tptp.first_electron_shell_1 _let_33) (tptp.center_1 _let_25) (tptp.proton_1 _let_31) (tptp.electron_1 _let_38) (tptp.hold_together_1 _let_36) (tptp.single_bond_1 _let_1) (tptp.hold_together_1 _let_29) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.hydrogen_1 _let_10) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.hydrogen_1 _let_3) (tptp.electron_1 _let_37) (tptp.electron_shell_1 _let_34) (tptp.first_electron_shell_1 _let_34) (tptp.electron_shell_1 _let_32) (tptp.first_electron_shell_1 _let_32) (tptp.proton_1 _let_30) (tptp.hold_together_1 _let_28) (tptp.share_1 _let_20) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.valence_electron_1 _let_15) (tptp.valence_electron_1 _let_14) (tptp.atomic_nucleus_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.center_1 _let_11) (tptp.center_1 _let_9) (tptp.center_1 _let_8) (tptp.center_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.atomic_nucleus_1 _let_5) (tptp.valence_electron_1 _let_4) (tptp.valence_electron_1 _let_2) (tptp.has_part_2 X _let_10) (not (= _let_38 _let_27)) (not (= _let_33 _let_35)) (not (= _let_35 _let_33)) (not (= _let_27 _let_38)) (not (= _let_27 _let_22)) (not (= _let_22 _let_27)) (tptp.has_part_2 X _let_3) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_10) (tptp.is_near_2 _let_38 _let_26) (tptp.is_near_2 _let_26 _let_38) (tptp.object_2 _let_36 _let_10) (tptp.object_2 _let_29 _let_3) (tptp.object_2 _let_29 _let_10) (tptp.is_between_2 _let_1 _let_3) (not (= _let_3 _let_10)) (tptp.agent_2 _let_21 _let_10) (tptp.agent_2 _let_21 _let_3) (tptp.object_2 _let_36 _let_3) (not (= _let_10 _let_3)) (tptp.has_region_2 _let_3 _let_24) (tptp.has_region_2 _let_3 _let_23) (tptp.is_inside_2 _let_23 _let_35) (tptp.has_region_2 _let_3 _let_35) (tptp.has_part_2 _let_3 _let_22) (tptp.has_region_2 _let_10 _let_25) (tptp.has_region_2 _let_10 _let_26) (tptp.has_part_2 _let_10 _let_31) (tptp.is_inside_2 _let_31 _let_26) (tptp.is_inside_2 _let_26 _let_33) (tptp.has_region_2 _let_10 _let_33) (tptp.has_part_2 _let_10 _let_27) (tptp.has_function_2 _let_1 _let_29) (tptp.agent_2 _let_29 _let_1) (tptp.object_2 _let_21 _let_27) (tptp.is_at_2 _let_26 _let_25) (tptp.is_near_2 _let_27 _let_26) (tptp.is_near_2 _let_26 _let_27) (not (= _let_23 _let_26)) (not (= _let_26 _let_23)) (tptp.result_2 _let_21 _let_1) (tptp.object_2 _let_21 _let_22) (tptp.is_near_2 _let_22 _let_23) (tptp.is_at_2 _let_23 _let_24) (not (= _let_24 _let_25)) (tptp.is_near_2 _let_23 _let_22) (not (= _let_25 _let_24)) (= _let_3 _let_19) (= _let_10 _let_18) (= _let_1 (tptp.fn_molecule_10 X)) (= _let_38 _let_37) (= _let_36 _let_28) (= _let_10 _let_17) (= _let_3 _let_16) (= _let_3 _let_17) (= _let_24 _let_8) (= _let_22 _let_4) (= _let_35 _let_34) (= _let_23 _let_6) (= _let_25 _let_11) (= _let_10 _let_16) (= _let_27 _let_2) (= _let_27 _let_15) (= _let_33 _let_32) (= _let_26 _let_13) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_27 _let_14) (= _let_26 _let_12) (= _let_24 _let_9) (= _let_25 _let_7) (= _let_25 _let_9) (= _let_24 _let_7) (= _let_23 _let_5) (= _let_22 _let_2) (= _let_21 _let_20) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_2) (= _let_2 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_7) (= _let_11 _let_7) (= _let_7 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_peroxide_4 X))) (let ((_let_2 (tptp.fn_hydrogen_peroxide_3 X))) (let ((_let_3 (tptp.fn_hydrogen_peroxide_1 X))) (=> (tptp.hydrogen_peroxide_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Peroxide'|) (tptp.user_description_2 X |tptp.'Hydrogen peroxide is a weak acid with strong oxidizing properties'|) (tptp.concept2words_2 X |tptp.'peroxide of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen peroxide'|) (tptp.concept2words_2 X |tptp.'hydrogen-peroxide'|) (tptp.molecule_1 X) (tptp.state_value_1 _let_3) (tptp.oxygen_1 _let_2) (tptp.hydrogen_1 _let_1) (tptp.physical_state_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.hydrogen_0) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.oxygen_0) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_molecule_7 X)))))))) (forall ((X $$unsorted)) (=> (tptp.hydrogen_peroxide_substance_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Peroxide-Substance'|) (tptp.user_description_2 X |tptp.'A substance consisting of hydrogen peroxide molecules.'|) (tptp.concept2words_2 X |tptp.'hydrogen peroxide substance'|) (tptp.concept2words_2 X |tptp.'hydrogen-peroxide-substance'|) (tptp.weak_acid_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogen_sulfide_4 X))) (let ((_let_2 (tptp.fn_hydrogen_sulfide_2 X))) (let ((_let_3 (tptp.fn_hydrogen_sulfide_1 X))) (=> (tptp.hydrogen_sulfide_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogen-Sulfide'|) (tptp.user_description_2 X |tptp.'A colorless, very poisonous, flammable gas with the characteristic foul odor of rotten eggs. The formula for this compound is H2S.'|) (tptp.concept2words_2 X |tptp.'sulfide of hydrogen'|) (tptp.concept2words_2 X |tptp.'hydrogen sulfide'|) (tptp.concept2words_2 X |tptp.'hydrogen-sulfide'|) (tptp.covalent_compound_1 X) (tptp.inorganic_molecule_1 X) (not (tptp.hydrogen_molecule_1 X)) (not (tptp.inorganic_acid_1 X)) (not (tptp.inorganic_ion_1 X)) (not (tptp.nitric_oxide_1 X)) (not (tptp.oxygen_molecule_1 X)) (not (tptp.sulfur_dioxide_1 X)) (tptp.sulfur_1 _let_3) (tptp.smell_value_1 _let_2) (tptp.hydrogen_1 _let_1) (tptp.the_categorical_value_2 _let_2 tptp.foul_0) (tptp.has_part_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.hydrogen_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.sulfur_0) (tptp.smell_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_molecule_7 X)))))))) (forall ((X $$unsorted)) (=> (tptp.hydrogenated_margarine_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogenated-Margarine'|) (tptp.user_description_2 X |tptp.'Vegetable oil which has been converted to solid form through the chemical process of hydrogenation. Hydrogenation increases the proportion of saturated fats in the oil, causing it to be solid at room temperature.'|) (tptp.concept2words_2 X |tptp.'hydrogenated margarine'|) (tptp.concept2words_2 X |tptp.'hydrogenated-margarine'|) (tptp.saturated_fat_1 X) (tptp.margarine_1 X) (tptp.called_2 X |tptp.'FA1'|)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogenated_peanut_butter_7 X))) (let ((_let_2 (tptp.fn_peanut_butter_1 _let_1))) (let ((_let_3 (tptp.fn_hydrogenated_peanut_butter_5 X))) (let ((_let_4 (tptp.fn_hydrogenation_2 _let_3))) (let ((_let_5 (tptp.fn_peanut_butter_2 X))) (let ((_let_6 (tptp.fn_chemical_reaction_1 _let_3))) (let ((_let_7 (tptp.fn_hydrogenated_peanut_butter_2 X))) (let ((_let_8 (tptp.fn_hydrogenated_peanut_butter_3 X))) (let ((_let_9 (tptp.fn_hydrogenated_peanut_butter_4 X))) (let ((_let_10 (tptp.fn_hydrogenated_peanut_butter_8 X))) (let ((_let_11 (tptp.fn_hydrogenated_peanut_butter_6 X))) (let ((_let_12 (tptp.fn_create_1 _let_11))) (let ((_let_13 (tptp.fn_hydrogenated_peanut_butter_1 X))) (=> (tptp.hydrogenated_peanut_butter_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogenated-Peanut-Butter'|) (tptp.user_description_2 X |tptp.'Peanut butter in which the liquid fat has been converted to solid form through the chemical process of hydrogenation. Hydrogenation increases the proportion of saturated fats in the oil, causing it to be solid at room temperature.'|) (tptp.concept2words_2 X |tptp.'hydrogenated peanut butter'|) (tptp.concept2words_2 X |tptp.'hydrogenated-peanut-butter'|) (tptp.peanut_butter_1 X) (tptp.agricultural_process_1 _let_13) (tptp.create_1 _let_7) (tptp.agricultural_process_1 _let_8) (tptp.chemical_entity_1 _let_9) (tptp.unsaturated_fat_1 _let_9) (tptp.hydrogenation_1 _let_3) (tptp.create_1 _let_11) (tptp.peanut_butter_1 _let_1) (tptp.chemical_entity_1 _let_10) (tptp.saturated_fat_1 _let_10) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.unsaturated_fat_1 _let_2) (tptp.subevent_2 _let_13 _let_11) (tptp.result_2 _let_13 X) (tptp.result_2 _let_3 _let_10) (tptp.raw_material_2 _let_3 _let_9) (tptp.result_2 _let_11 X) (tptp.has_part_2 X _let_10) (tptp.has_part_2 _let_1 _let_9) (tptp.result_2 _let_7 X) (tptp.subevent_2 _let_8 _let_7) (tptp.result_2 _let_8 X) (= _let_10 _let_6) (= _let_9 _let_4) (= X _let_12) (= _let_10 _let_5) (= _let_9 _let_2) (= _let_8 (tptp.fn_agricultural_product_1 X)) (= _let_7 (tptp.fn_agricultural_product_2 X)) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogenated_vegetable_oil_4 X))) (let ((_let_2 (tptp.fn_vegetable_oil_1 _let_1))) (let ((_let_3 (tptp.fn_hydrogenated_vegetable_oil_2 X))) (let ((_let_4 (tptp.fn_hydrogenation_2 _let_3))) (let ((_let_5 (tptp.fn_hydrogenated_vegetable_oil_3 X))) (let ((_let_6 (tptp.fn_chemical_reaction_1 _let_3))) (let ((_let_7 (tptp.fn_hydrogenated_vegetable_oil_1 X))) (=> (tptp.hydrogenated_vegetable_oil_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogenated-Vegetable-Oil'|) (tptp.user_description_2 X |tptp.'Vegetable oil which has been treated by the process of hydrogenation and as a result contains a greater quantity of saturated fatty acids.'|) (tptp.concept2words_2 X |tptp.'hydrogenated vegetable oil'|) (tptp.concept2words_2 X |tptp.'hydrogenated-vegetable-oil'|) (tptp.vegetable_oil_1 X) (not (tptp.saturated_animal_fat_1 X)) (tptp.saturated_fat_1 _let_7) (tptp.hydrogenation_1 _let_3) (tptp.chemical_entity_1 _let_5) (tptp.unsaturated_fat_1 _let_5) (tptp.vegetable_oil_1 _let_1) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.unsaturated_fat_1 _let_2) (tptp.has_part_2 X _let_7) (tptp.result_2 _let_3 _let_7) (tptp.raw_material_2 _let_3 _let_5) (tptp.has_part_2 _let_1 _let_5) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogenation_2 X))) (let ((_let_2 (tptp.fn_hydrogenation_1 X))) (=> (tptp.hydrogenation_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogenation'|) (tptp.user_description_2 X |tptp.'The addition of hydrogen to another molecule or element.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.hydrogenate) (tptp.concept2words_2 X tptp.hydrogenation) (tptp.chemical_reaction_1 X) (tptp.hydrogen_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.raw_material_2 X _let_2) (tptp.raw_material_2 X _let_1) (= _let_1 (tptp.fn_chemical_reaction_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrogentation_2 X))) (let ((_let_2 (tptp.fn_hydrogentation_3 X))) (let ((_let_3 (tptp.fn_hydrogentation_1 X))) (=> (tptp.hydrogentation_1 X) (and (tptp.original_name_2 X |tptp.'Hydrogentation'|) (tptp.user_description_2 X |tptp.'A chemical process in which hydrogen is added to a molecule. It is most commonly used to convert unsaturated fatty acids to saturated fatty acids in the food industry.'|) (tptp.concept2words_2 X tptp.hydrogentation) (tptp.synthesis_reaction_1 X) (tptp.unsaturated_fat_1 _let_3) (tptp.hydrogen_molecule_1 _let_1) (tptp.saturated_fat_1 _let_2) (tptp.raw_material_2 X _let_3) (tptp.result_2 X _let_2) (tptp.raw_material_2 X _let_1) (= _let_2 (tptp.fn_chemical_reaction_1 X)) (= _let_1 (tptp.fn_chemical_reaction_2 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrolase_1 X))) (=> (tptp.hydrolase_1 X) (and (tptp.original_name_2 X |tptp.'Hydrolase'|) (tptp.user_description_2 X |tptp.'Enzymes which catalyze the hydrolysis of various bonds'|) (tptp.concept2words_2 X tptp.hydrolase) (tptp.protein_enzyme_1 X) (tptp.hydrolysis_1 _let_1) (tptp.has_function_2 X _let_1) (= _let_1 (tptp.fn_enzyme_4 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_2 (tptp.fn_decomposition_reaction_5 X))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_4 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_5 (tptp.fn_decomposition_reaction_2 X))) (let ((_let_6 (tptp.fn_hydrolysis_11 X))) (let ((_let_7 (tptp.fn_hydrolysis_17 X))) (let ((_let_8 (tptp.fn_hydrolysis_16 X))) (let ((_let_9 (tptp.fn_hydrolysis_15 X))) (let ((_let_10 (tptp.fn_hydrolysis_14 X))) (let ((_let_11 (tptp.fn_hydrolysis_9 X))) (let ((_let_12 (tptp.fn_hydrolysis_13 X))) (let ((_let_13 (tptp.fn_hydroxyl_group_4 _let_12))) (let ((_let_14 (tptp.fn_hydrolysis_4 X))) (let ((_let_15 (tptp.fn_hydroxyl_group_6 _let_12))) (let ((_let_16 (tptp.fn_hydrolysis_5 X))) (let ((_let_17 (tptp.fn_hydrolysis_10 X))) (let ((_let_18 (tptp.fn_water_molecule_72 _let_17))) (let ((_let_19 (tptp.fn_hydrolysis_6 X))) (let ((_let_20 (tptp.fn_water_molecule_64 _let_17))) (let ((_let_21 (tptp.fn_hydrolysis_8 X))) (let ((_let_22 (tptp.fn_water_molecule_63 _let_17))) (let ((_let_23 (tptp.fn_hydrolysis_7 X))) (let ((_let_24 (tptp.fn_hydrolysis_12 X))) (let ((_let_25 (tptp.fn_hydrolysis_1 X))) (let ((_let_26 (tptp.fn_hydrolysis_2 X))) (let ((_let_27 (tptp.fn_hydrolysis_3 X))) (=> (tptp.hydrolysis_1 X) (and (tptp.original_name_2 X |tptp.'Hydrolysis'|) (tptp.user_description_2 X |tptp.'A chemical reaction that breaks a covalent bond between molecules by inserting water between them; often occurs in the catalysis of polymers to monomers.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X tptp.hydrolize) (tptp.concept2words_2 X tptp.hydrolysis) (tptp.decomposition_reaction_1 X) (tptp.exergonic_reaction_1 X) (not (tptp.gene_amplification_1 X)) (not (tptp.anabolism_1 X)) (not (tptp.antigen_presentation_1 X)) (not (tptp.denaturation_1 X)) (not (tptp.dna_methylation_1 X)) (not (tptp.dynein_walking_1 X)) (not (tptp.genetic_process_1 X)) (not (tptp.protein_folding_1 X)) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_26) (tptp.hydrogen_1 _let_27) (tptp.oxygen_1 _let_14) (tptp.hydrogen_1 _let_16) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.oxygen_1 _let_19) (tptp.entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.hydrogen_1 _let_23) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.hydrogen_1 _let_21) (tptp.chemical_entity_1 _let_11) (tptp.water_molecule_1 _let_17) (tptp.chemical_entity_1 _let_6) (tptp.activation_energy_1 _let_24) (tptp.hydroxyl_group_1 _let_12) (tptp.chemical_energy_1 _let_10) (tptp.quantity_value_1 _let_9) (tptp.quantity_value_1 _let_8) (tptp.chemical_energy_1 _let_7) (tptp.entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.hydrogen_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.hydrogen_1 _let_20) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.hydrogen_1 _let_15) (tptp.oxygen_1 _let_13) (tptp.has_state_2 _let_19 _let_14) (tptp.has_state_2 _let_23 _let_16) (tptp.has_state_2 _let_21 _let_27) (not (= _let_11 _let_25)) (tptp.has_part_2 _let_11 _let_27) (tptp.raw_material_2 X _let_17) (not (= _let_17 _let_6)) (not (= _let_6 _let_17)) (tptp.has_part_2 _let_6 _let_25) (tptp.has_part_2 _let_6 _let_26) (tptp.has_state_2 _let_25 _let_11) (not (= _let_25 _let_11)) (tptp.raw_material_2 X _let_24) (tptp.has_part_2 _let_17 _let_23) (tptp.has_part_2 _let_17 _let_21) (tptp.has_part_2 _let_17 _let_19) (tptp.is_inside_2 _let_16 _let_12) (tptp.is_inside_2 _let_14 _let_12) (not (= _let_16 _let_14)) (not (= _let_14 _let_16)) (tptp.result_2 X _let_11) (tptp.possesses_2 _let_11 _let_10) (tptp.raw_material_2 X _let_6) (tptp.possesses_2 _let_6 _let_7) (tptp.quantity_2 _let_7 _let_8) (tptp.greater_than_2 _let_8 _let_9) (tptp.quantity_2 _let_10 _let_9) (= _let_24 (tptp.fn_decomposition_reaction_1 X)) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_16 _let_15) (= _let_14 _let_13) (= (tptp.fn_hydrolysis_19 X) (tptp.fn_exergonic_reaction_1 X)) (= (tptp.fn_hydrolysis_18 X) (tptp.fn_exergonic_reaction_2 X)) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 (tptp.fn_exergonic_reaction_6 X)) (= _let_9 (tptp.fn_exergonic_reaction_5 X)) (= _let_8 (tptp.fn_exergonic_reaction_4 X)) (= _let_7 (tptp.fn_exergonic_reaction_3 X)) (= _let_6 _let_2) (= _let_6 _let_1) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrolysis_of_starch_7 X))) (let ((_let_2 (tptp.fn_hydrolysis_10 _let_1))) (let ((_let_3 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_4 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_5 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_6 (tptp.fn_hydrolysis_7 _let_1))) (let ((_let_7 (tptp.fn_hydrolysis_1 _let_1))) (let ((_let_8 (tptp.fn_hydrolysis_5 _let_1))) (let ((_let_9 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_10 (tptp.fn_hydrolysis_of_starch_9 X))) (let ((_let_11 (tptp.fn_aldose_3 _let_10))) (let ((_let_12 (tptp.fn_hexose_3 _let_10))) (let ((_let_13 (tptp.fn_monosaccharide_9 _let_10))) (let ((_let_14 (tptp.fn_hydrolysis_4 _let_1))) (let ((_let_15 (tptp.fn_aldose_9 _let_10))) (let ((_let_16 (tptp.fn_hexose_12 _let_10))) (let ((_let_17 (tptp.fn_hexose_4 _let_10))) (let ((_let_18 (tptp.fn_monosaccharide_18 _let_10))) (let ((_let_19 (tptp.fn_aldose_4 _let_10))) (let ((_let_20 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_21 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_22 (tptp.fn_hydrolysis_of_starch_10 X))) (let ((_let_23 (tptp.fn_enzyme_4 _let_22))) (let ((_let_24 (tptp.fn_hydrolysis_of_starch_25 X))) (let ((_let_25 (tptp.fn_reactant_2 _let_24))) (let ((_let_26 (tptp.fn_glucose_isomer_4 _let_10))) (let ((_let_27 (tptp.fn_catabolic_pathway_2 X))) (let ((_let_28 (tptp.fn_catabolic_pathway_11 X))) (let ((_let_29 (tptp.fn_hydrolysis_of_starch_5 X))) (let ((_let_30 (tptp.fn_waste_1 _let_29))) (let ((_let_31 (tptp.fn_hydrolysis_of_starch_23 X))) (let ((_let_32 (tptp.fn_hydrolysis_of_starch_22 X))) (let ((_let_33 (tptp.fn_hydrolysis_of_starch_15 X))) (let ((_let_34 (tptp.fn_hydrolysis_of_starch_27 X))) (let ((_let_35 (tptp.fn_hydrolysis_6 _let_1))) (let ((_let_36 (tptp.fn_hydrolysis_of_starch_28 X))) (let ((_let_37 (tptp.fn_hydrolysis_of_starch_26 X))) (let ((_let_38 (tptp.fn_hydrolysis_of_starch_24 X))) (let ((_let_39 (tptp.fn_organic_molecule_1 _let_38))) (let ((_let_40 (tptp.fn_hydrolysis_of_starch_18 X))) (let ((_let_41 (tptp.fn_organic_molecule_2 _let_38))) (let ((_let_42 (tptp.fn_hydrolysis_of_starch_19 X))) (let ((_let_43 (tptp.fn_enzyme_5 _let_22))) (let ((_let_44 (tptp.fn_hydrolysis_of_starch_11 X))) (let ((_let_45 (tptp.fn_enzyme_2 _let_22))) (let ((_let_46 (tptp.fn_hydrolysis_of_starch_12 X))) (let ((_let_47 (tptp.fn_enzyme_6 _let_22))) (let ((_let_48 (tptp.fn_hydrolysis_of_starch_8 X))) (let ((_let_49 (tptp.fn_enzyme_7 _let_22))) (let ((_let_50 (tptp.fn_hydrolysis_of_starch_21 X))) (let ((_let_51 (tptp.fn_exergonic_reaction_3 _let_1))) (let ((_let_52 (tptp.fn_hydrolysis_of_starch_13 X))) (let ((_let_53 (tptp.fn_exergonic_reaction_4 _let_1))) (let ((_let_54 (tptp.fn_hydrolysis_of_starch_14 X))) (let ((_let_55 (tptp.fn_exergonic_reaction_5 _let_1))) (let ((_let_56 (tptp.fn_hydrolysis_of_starch_4 X))) (let ((_let_57 (tptp.fn_exergonic_reaction_1 _let_1))) (let ((_let_58 (tptp.fn_hydrolysis_of_starch_17 X))) (let ((_let_59 (tptp.fn_hydrolysis_of_starch_16 X))) (let ((_let_60 (tptp.fn_glucose_isomer_2 _let_10))) (let ((_let_61 (tptp.fn_hydrolysis_of_starch_20 X))) (let ((_let_62 (tptp.fn_hydrolysis_of_starch_6 X))) (let ((_let_63 (tptp.fn_reactant_3 _let_24))) (=> (tptp.hydrolysis_of_starch_1 X) (and (tptp.original_name_2 X |tptp.'Hydrolysis-Of-Starch'|) (tptp.user_description_2 X |tptp.'The enzymatic digestion of starch in organisms. Amylase is the enzyme which catalyzes starch breakdown.'|) (tptp.concept2words_2 X tptp.hydrolyze) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'starch hydrolysis'|) (tptp.concept2words_2 X |tptp.'starch-hydrolysis'|) (tptp.concept2words_2 X |tptp.'hydrolysis of starch'|) (tptp.concept2words_2 X |tptp.'hydrolysis-of-starch'|) (tptp.storage_polysaccharide_breakdown_1 X) (tptp.waste_product_1 _let_29) (tptp.tangible_entity_1 _let_62) (tptp.free_energy_1 _let_62) (tptp.hydrolysis_1 _let_1) (tptp.catalyst_1 _let_48) (tptp.monomer_1 _let_10) (tptp.alpha_glucose_1 _let_10) (tptp.amylase_1 _let_22) (tptp.decrease_1 _let_44) (tptp.active_site_1 _let_46) (tptp.quantity_value_1 _let_52) (tptp.quantity_value_1 _let_54) (tptp.entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.hydrogen_1 _let_33) (tptp.structural_complexity_value_1 _let_59) (tptp.chemical_energy_1 _let_58) (tptp.carbon_1 _let_40) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.structural_complexity_value_1 _let_61) (tptp.chemical_energy_1 _let_50) (tptp.chemical_entity_1 _let_32) (tptp.entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.hydrogen_1 _let_32) (tptp.chemical_entity_1 _let_31) (tptp.water_molecule_1 _let_31) (tptp.starch_1 _let_38) (tptp.reactant_1 _let_24) (tptp.chemical_entity_1 _let_37) (tptp.entity_1 _let_34) (tptp.atom_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.oxygen_1 _let_34) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.oxygen_1 _let_36) (tptp.chemical_entity_1 _let_63) (tptp.property_node_1 _let_60) (tptp.property_node_1 _let_57) (tptp.quantity_value_1 _let_55) (tptp.quantity_value_1 _let_53) (tptp.chemical_energy_1 _let_51) (tptp.reactant_1 _let_49) (tptp.catalyst_1 _let_47) (tptp.active_site_1 _let_45) (tptp.decrease_1 _let_43) (tptp.atom_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.carbon_1 _let_39) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.tangible_entity_1 _let_30) (tptp.structural_complexity_value_1 _let_26) (tptp.chemical_reaction_1 _let_25) (tptp.chemical_reaction_1 _let_23) (tptp.chemical_entity_1 _let_21) (tptp.chemical_entity_1 _let_20) (tptp.entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.oxygen_1 _let_19) (tptp.entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.oxygen_1 _let_17) (tptp.entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.oxygen_1 _let_15) (tptp.oxygen_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.hydrogen_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.hydrogen_1 _let_12) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.hydrogen_1 _let_11) (tptp.chemical_entity_1 _let_9) (tptp.hydrogen_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.water_molecule_1 _let_2) (tptp.in_event_2 _let_29 X) (tptp.raw_material_2 _let_1 _let_38) (tptp.result_2 _let_1 _let_10) (tptp.minCardinality _let_1 tptp.result_0 |"2"| tptp.alpha_glucose_0) (not (= _let_10 _let_42)) (not (= _let_10 _let_40)) (tptp.possesses_2 _let_10 _let_58) (tptp.subevent_2 X _let_1) (tptp.has_state_2 _let_40 _let_10) (not (= _let_40 _let_10)) (tptp.has_state_2 _let_42 _let_10) (not (= _let_42 _let_10)) (not (= _let_31 _let_38)) (tptp.structural_complexity_2 _let_38 _let_61) (tptp.possesses_2 _let_38 _let_50) (not (= _let_38 _let_31)) (tptp.plays_2 _let_62 _let_29) (tptp.plays_2 _let_38 _let_24) (tptp.raw_material_2 X _let_38) (tptp.has_part_2 _let_10 _let_33) (tptp.has_part_2 _let_10 _let_34) (tptp.result_2 X _let_62) (tptp.result_2 X _let_10) (tptp.greater_than_2 _let_61 _let_59) (tptp.structural_complexity_2 _let_10 _let_59) (tptp.quantity_2 _let_58 _let_54) (tptp.raw_material_2 X _let_31) (tptp.possesses_2 _let_31 _let_50) (tptp.quantity_2 _let_50 _let_52) (tptp.greater_than_2 _let_52 _let_54) (tptp.has_function_2 _let_22 X) (tptp.has_region_2 _let_22 _let_46) (tptp.plays_2 _let_22 _let_48) (tptp.in_event_2 _let_48 X) (tptp.in_event_2 _let_24 X) (tptp.has_function_2 _let_22 _let_44) (tptp.enables_2 _let_44 X) (tptp.site_2 X _let_46) (tptp.has_part_2 _let_38 _let_42) (tptp.has_part_2 _let_38 _let_40) (not (= _let_42 _let_40)) (not (= _let_40 _let_42)) (tptp.result_2 _let_1 _let_37) (tptp.has_state_2 _let_36 _let_34) (tptp.has_part_2 _let_31 _let_36) (tptp.raw_material_2 _let_1 _let_31) (tptp.has_part_2 _let_31 _let_32) (tptp.has_state_2 _let_32 _let_33) (not (= _let_34 _let_33)) (not (= _let_33 _let_34)) (= _let_62 _let_30) (= X _let_25) (= _let_38 _let_63) (= _let_34 _let_19) (= _let_62 _let_28) (= (tptp.fn_hydrolysis_of_starch_2 X) (tptp.fn_catabolic_pathway_5 X)) (= _let_61 (tptp.fn_catabolic_pathway_4 X)) (= (tptp.fn_hydrolysis_of_starch_1 X) _let_60) (= _let_10 (tptp.fn_catabolic_pathway_9 X)) (= _let_59 _let_27) (= _let_59 _let_26) (= _let_58 (tptp.fn_exergonic_reaction_6 X)) (= (tptp.fn_hydrolysis_of_starch_3 X) (tptp.fn_exergonic_reaction_2 X)) (= _let_56 _let_57) (= _let_56 (tptp.fn_exergonic_reaction_1 X)) (= _let_54 _let_55) (= _let_54 (tptp.fn_exergonic_reaction_5 X)) (= _let_52 _let_53) (= _let_52 (tptp.fn_exergonic_reaction_4 X)) (= _let_50 _let_51) (= _let_50 (tptp.fn_exergonic_reaction_3 X)) (= _let_31 _let_4) (= _let_24 _let_49) (= _let_48 _let_47) (= _let_46 _let_45) (= X _let_23) (= _let_44 _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_37 _let_21) (= _let_37 _let_20) (= _let_37 _let_9) (= _let_36 _let_35) (= _let_33 _let_13) (= _let_34 _let_18) (= _let_34 _let_16) (= _let_33 _let_12) (= _let_34 _let_17) (= _let_33 _let_11) (= _let_34 _let_15) (= _let_34 _let_7) (= _let_34 _let_14) (= _let_33 _let_9) (= _let_33 _let_8) (= _let_32 _let_7) (= _let_32 _let_6) (= _let_31 _let_5) (= _let_31 _let_3) (= _let_31 _let_2) (= _let_30 _let_28) (= _let_28 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_9) (= _let_9 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_7 _let_15) (= _let_15 _let_7) (= _let_14 _let_7) (= _let_7 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_3) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrolysis_of_sucrose_19 X))) (let ((_let_2 (tptp.fn_sucrose_31 _let_1))) (let ((_let_3 (tptp.fn_hydrolysis_1 X))) (let ((_let_4 (tptp.fn_hydrolysis_9 X))) (let ((_let_5 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_6 (tptp.fn_hydrolysis_of_sucrose_9 X))) (let ((_let_7 (tptp.fn_glucose_22 _let_6))) (let ((_let_8 (tptp.fn_glucose_21 _let_6))) (let ((_let_9 (tptp.fn_aldehyde_5 _let_6))) (let ((_let_10 (tptp.fn_glucose_28 _let_6))) (let ((_let_11 (tptp.fn_aldose_5 _let_6))) (let ((_let_12 (tptp.fn_monosaccharide_10 _let_6))) (let ((_let_13 (tptp.fn_hydrolysis_of_sucrose_4 X))) (let ((_let_14 (tptp.fn_reactant_2 _let_13))) (let ((_let_15 (tptp.fn_hydrolysis_of_sucrose_3 X))) (let ((_let_16 (tptp.fn_hydrolase_1 _let_15))) (let ((_let_17 (tptp.fn_hydrolysis_10 X))) (let ((_let_18 (tptp.fn_hydrolysis_11 X))) (let ((_let_19 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_20 (tptp.fn_hydrolysis_3 X))) (let ((_let_21 (tptp.fn_hydrolysis_of_sucrose_10 X))) (let ((_let_22 (tptp.fn_hexose_3 _let_21))) (let ((_let_23 (tptp.fn_organic_molecule_2 _let_21))) (let ((_let_24 (tptp.fn_hydrolysis_14 X))) (let ((_let_25 (tptp.fn_exergonic_reaction_6 X))) (let ((_let_26 (tptp.fn_sucrose_50 _let_1))) (let ((_let_27 (tptp.fn_hydrolysis_of_sucrose_15 X))) (let ((_let_28 (tptp.fn_hydrolysis_of_sucrose_16 X))) (let ((_let_29 (tptp.fn_sucrose_30 _let_1))) (let ((_let_30 (tptp.fn_hydrolysis_of_sucrose_17 X))) (let ((_let_31 (tptp.fn_sucrose_51 _let_1))) (let ((_let_32 (tptp.fn_hydrolysis_of_sucrose_14 X))) (let ((_let_33 (tptp.fn_sucrose_49 _let_1))) (let ((_let_34 (tptp.fn_hydrolysis_of_sucrose_18 X))) (let ((_let_35 (tptp.fn_sucrose_29 _let_1))) (let ((_let_36 (tptp.fn_hydrolysis_of_sucrose_13 X))) (let ((_let_37 (tptp.fn_hydrolysis_of_sucrose_21 X))) (let ((_let_38 (tptp.fn_hydrolysis_of_sucrose_22 X))) (let ((_let_39 (tptp.fn_reactant_3 _let_13))) (let ((_let_40 (tptp.fn_glucose_23 _let_6))) (let ((_let_41 (tptp.fn_hydrolysis_of_sucrose_20 X))) (let ((_let_42 (tptp.fn_hydrolysis_of_sucrose_11 X))) (let ((_let_43 (tptp.fn_hydrolysis_of_sucrose_23 X))) (let ((_let_44 (tptp.fn_hydrolysis_of_sucrose_12 X))) (let ((_let_45 (tptp.fn_hydrolysis_of_sucrose_5 X))) (let ((_let_46 (tptp.fn_hydrolysis_of_sucrose_6 X))) (let ((_let_47 (tptp.fn_hydrolysis_of_sucrose_7 X))) (let ((_let_48 (tptp.fn_hydrolysis_of_sucrose_8 X))) (=> (tptp.hydrolysis_of_sucrose_1 X) (and (tptp.original_name_2 X |tptp.'Hydrolysis-Of-Sucrose'|) (tptp.user_description_2 X |tptp.'The process of breaking down a sucrose molecule by addition of water to yield glucose and fructose'|) (tptp.concept2words_2 X tptp.hydrolize) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'sucrose hydrolysis'|) (tptp.concept2words_2 X |tptp.'sucrose-hydrolysis'|) (tptp.concept2words_2 X |tptp.'hydrolysis of sucrose'|) (tptp.concept2words_2 X |tptp.'hydrolysis-of-sucrose'|) (tptp.hydrolysis_1 X) (not (tptp.glycogen_breakdown_in_vertebrates_1 X)) (not (tptp.glycogen_breakdown_1 X)) (tptp.sucrase_1 _let_15) (tptp.reactant_1 _let_13) (tptp.chemical_energy_1 _let_45) (tptp.quantity_value_1 _let_46) (tptp.quantity_value_1 _let_47) (tptp.chemical_energy_1 _let_48) (tptp.chemical_entity_1 _let_6) (tptp.aldehyde_1 _let_6) (tptp.monosaccharide_1 _let_6) (tptp.aldose_1 _let_6) (tptp.glucose_1 _let_6) (tptp.fructose_1 _let_21) (tptp.chemical_entity_1 _let_42) (tptp.water_molecule_1 _let_42) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.hydrogen_1 _let_44) (tptp.entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.oxygen_1 _let_36) (tptp.entity_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.hydrogen_1 _let_32) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.chemical_entity_1 _let_28) (tptp.glucose_1 _let_28) (tptp.molecule_1 _let_28) (tptp.monosaccharide_1 _let_28) (tptp.aldehyde_1 _let_28) (tptp.fructose_1 _let_30) (tptp.entity_1 _let_34) (tptp.atom_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.oxygen_1 _let_34) (tptp.chemical_entity_1 _let_1) (tptp.sucrose_1 _let_1) (tptp.tangible_entity_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.atom_1 _let_41) (tptp.hydrogen_1 _let_41) (tptp.entity_1 _let_41) (tptp.atom_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.oxygen_1 _let_37) (tptp.entity_1 _let_37) (tptp.functional_group_1 _let_38) (tptp.hydroxyl_group_1 _let_38) (tptp.tangible_entity_1 _let_43) (tptp.entity_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.atom_1 _let_43) (tptp.hydrogen_1 _let_43) (tptp.tangible_entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.hydrogen_1 _let_40) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_39) (tptp.entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.oxygen_1 _let_35) (tptp.entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.oxygen_1 _let_33) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.hydrogen_1 _let_31) (tptp.fructose_1 _let_29) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.carbon_1 _let_26) (tptp.atom_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.hydrogen_1 _let_22) (tptp.hydrolysis_1 _let_16) (tptp.chemical_reaction_1 _let_14) (tptp.functional_group_1 _let_12) (tptp.hydroxyl_group_1 _let_12) (tptp.functional_group_1 _let_11) (tptp.hydroxyl_group_1 _let_11) (tptp.functional_group_1 _let_10) (tptp.hydroxyl_group_1 _let_10) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.oxygen_1 _let_8) (tptp.entity_1 _let_8) (tptp.atom_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_7) (tptp.glucose_1 _let_2) (tptp.molecule_1 _let_2) (tptp.monosaccharide_1 _let_2) (tptp.aldehyde_1 _let_2) (tptp.is_specific_to_2 _let_15 _let_1) (not (= _let_21 _let_30)) (not (= _let_42 _let_1)) (not (= _let_36 _let_30)) (not (= _let_32 _let_30)) (not (= _let_27 _let_30)) (not (= _let_30 _let_21)) (not (= _let_30 _let_36)) (not (= _let_30 _let_32)) (not (= _let_30 _let_27)) (not (= _let_30 _let_34)) (tptp.has_state_2 _let_30 _let_21) (not (= _let_34 _let_30)) (tptp.possesses_2 _let_1 _let_45) (not (= _let_1 _let_42)) (tptp.has_state_2 _let_43 _let_41) (tptp.possesses_2 _let_21 _let_48) (tptp.result_2 X _let_21) (tptp.result_2 X _let_6) (not (= _let_6 _let_28)) (tptp.has_state_2 _let_28 _let_6) (tptp.possesses_2 _let_6 _let_48) (not (= _let_28 _let_6)) (tptp.has_function_2 _let_15 X) (tptp.has_part_2 _let_21 _let_44) (tptp.quantity_2 _let_48 _let_47) (tptp.possesses_2 _let_42 _let_45) (tptp.quantity_2 _let_45 _let_46) (tptp.greater_than_2 _let_46 _let_47) (tptp.raw_material_2 X _let_42) (tptp.has_part_2 _let_42 _let_43) (tptp.has_state_2 _let_43 _let_44) (tptp.raw_material_2 X _let_1) (tptp.in_event_2 _let_13 X) (tptp.is_inside_2 _let_37 _let_38) (tptp.is_inside_2 _let_41 _let_38) (tptp.has_part_2 _let_6 _let_41) (not (= _let_37 _let_41)) (not (= _let_41 _let_37)) (not (= _let_36 _let_32)) (not (= _let_32 _let_36)) (not (= _let_36 _let_34)) (not (= _let_34 _let_36)) (tptp.has_part_2 _let_1 _let_36) (not (= _let_34 _let_27)) (not (= _let_27 _let_34)) (not (= _let_34 _let_32)) (not (= _let_32 _let_34)) (tptp.has_part_2 _let_1 _let_34) (not (= _let_30 _let_28)) (tptp.has_part_2 _let_1 _let_32) (tptp.has_part_2 _let_1 _let_30) (not (= _let_28 _let_30)) (tptp.has_part_2 _let_1 _let_28) (tptp.has_part_2 _let_1 _let_27) (tptp.has_region_2 _let_6 _let_38) (tptp.has_part_2 _let_6 _let_37) (tptp.plays_2 _let_1 _let_13) (= _let_48 _let_25) (= _let_21 (tptp.fn_exergonic_reaction_11 X)) (= _let_28 _let_3) (= _let_6 _let_5) (= _let_6 _let_4) (= X _let_16) (= _let_44 _let_23) (= _let_44 _let_22) (= (tptp.fn_hydrolysis_of_sucrose_1 X) (tptp.fn_hydrolysis_18 X)) (= _let_48 _let_24) (= (tptp.fn_hydrolysis_of_sucrose_2 X) (tptp.fn_hydrolysis_19 X)) (= _let_47 (tptp.fn_hydrolysis_15 X)) (= _let_46 (tptp.fn_hydrolysis_16 X)) (= _let_45 (tptp.fn_hydrolysis_17 X)) (= _let_44 _let_20) (= _let_43 (tptp.fn_hydrolysis_8 X)) (= _let_42 _let_19) (= _let_42 _let_18) (= _let_42 _let_17) (= X _let_14) (= _let_41 _let_40) (= _let_1 _let_39) (= _let_38 _let_12) (= _let_38 _let_11) (= _let_38 _let_10) (= _let_37 _let_9) (= _let_37 _let_8) (= _let_37 _let_7) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_2) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_4) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydronium_ion_3 X))) (let ((_let_2 (tptp.fn_hydronium_ion_4 X))) (let ((_let_3 (tptp.fn_hydronium_ion_1 X))) (let ((_let_4 (tptp.fn_hydronium_ion_2 X))) (=> (tptp.hydronium_ion_1 X) (and (tptp.original_name_2 X |tptp.'Hydronium-Ion'|) (tptp.user_description_2 X |tptp.'A water molecule with an hydrogen ion bound to it; molecular formula H3O+.'|) (tptp.concept2words_2 X |tptp.'hydronium ion'|) (tptp.concept2words_2 X |tptp.'hydronium-ion'|) (tptp.polyatomic_ion_1 X) (tptp.cation_1 X) (not (tptp.methyl_ion_1 X)) (not (tptp.metal_cation_1 X)) (not (tptp.calcium_ion_1 X)) (not (tptp.magnesium_ion_1 X)) (not (tptp.sodium_ion_1 X)) (tptp.oxygen_1 _let_3) (tptp.hydrogen_1 _let_4) (tptp.charge_value_1 _let_1) (tptp.proton_1 _let_2) (tptp.the_cardinal_value_2 _let_1 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.oxygen_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.hydrogen_0) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.charge_2 X _let_1) (= _let_4 (tptp.fn_polyatomic_ion_1 X)) (= _let_3 (tptp.fn_polyatomic_ion_2 X)) (= _let_2 (tptp.fn_cation_1 X)) (= (tptp.fn_hydronium_ion_5 X) (tptp.fn_cation_4 X)) (= _let_1 (tptp.fn_cation_5 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_amino_acid_28 X))) (let ((_let_2 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_3 (tptp.fn_hydrophilic_amino_acid_29 X))) (let ((_let_4 (tptp.fn_nitrogen_13 _let_3))) (let ((_let_5 (tptp.fn_nitrogen_18 _let_3))) (let ((_let_6 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_7 (tptp.fn_nitrogen_10 _let_3))) (let ((_let_8 (tptp.fn_atom_18 _let_3))) (let ((_let_9 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_10 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_11 (tptp.fn_amino_acid_24 X))) (let ((_let_12 (tptp.fn_hydrophilic_amino_acid_16 X))) (let ((_let_13 (tptp.fn_hold_2 _let_12))) (let ((_let_14 (tptp.fn_hydrophilic_amino_acid_7 X))) (let ((_let_15 (tptp.fn_hold_2 _let_14))) (let ((_let_16 (tptp.fn_hydrophilic_amino_acid_15 X))) (let ((_let_17 (tptp.fn_hold_2 _let_16))) (let ((_let_18 (tptp.fn_hydrophilic_amino_acid_4 X))) (let ((_let_19 (tptp.fn_share_1 _let_18))) (let ((_let_20 (tptp.fn_hydrophilic_amino_acid_18 X))) (let ((_let_21 (tptp.fn_share_1 _let_20))) (let ((_let_22 (tptp.fn_hydrophilic_amino_acid_5 X))) (let ((_let_23 (tptp.fn_share_1 _let_22))) (let ((_let_24 (tptp.fn_share_3 _let_18))) (let ((_let_25 (tptp.fn_share_3 _let_22))) (let ((_let_26 (tptp.fn_amino_acid_22 X))) (let ((_let_27 (tptp.fn_amino_acid_28 X))) (let ((_let_28 (tptp.fn_amino_acid_17 X))) (let ((_let_29 (tptp.fn_molecule_11 X))) (let ((_let_30 (tptp.fn_hydrophilic_amino_acid_8 X))) (let ((_let_31 (tptp.fn_share_1 _let_30))) (let ((_let_32 (tptp.fn_share_3 _let_30))) (let ((_let_33 (tptp.fn_amino_acid_9 X))) (let ((_let_34 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_35 (tptp.fn_nitrogen_14 _let_3))) (let ((_let_36 (tptp.fn_amino_acid_8 X))) (let ((_let_37 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_38 (tptp.fn_amino_acid_11 X))) (let ((_let_39 (tptp.fn_amino_acid_27 X))) (let ((_let_40 (tptp.fn_hydrophilic_amino_acid_17 X))) (let ((_let_41 (tptp.fn_share_1 _let_40))) (let ((_let_42 (tptp.fn_share_3 _let_40))) (let ((_let_43 (tptp.fn_share_3 _let_20))) (let ((_let_44 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_45 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_46 (tptp.fn_amino_acid_20 X))) (let ((_let_47 (tptp.fn_share_2 _let_22))) (let ((_let_48 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_49 (tptp.fn_hydrophilic_amino_acid_12 X))) (let ((_let_50 (tptp.fn_hydrophilic_amino_acid_13 X))) (let ((_let_51 (tptp.fn_hydrophilic_amino_acid_9 X))) (let ((_let_52 (tptp.fn_hydrophilic_amino_acid_11 X))) (let ((_let_53 (tptp.fn_hydrophilic_amino_acid_27 X))) (let ((_let_54 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_55 (tptp.fn_hydrophilic_amino_acid_20 X))) (let ((_let_56 (tptp.fn_hydrophilic_amino_acid_21 X))) (let ((_let_57 (tptp.fn_hydrophilic_amino_acid_33 X))) (let ((_let_58 (tptp.fn_hydrophilic_amino_acid_14 X))) (let ((_let_59 (tptp.fn_hydrophilic_amino_acid_10 X))) (let ((_let_60 (tptp.fn_hydrophilic_amino_acid_1 X))) (let ((_let_61 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_62 (tptp.fn_hydrophilic_amino_acid_32 X))) (let ((_let_63 (tptp.fn_hydrophilic_amino_acid_26 X))) (let ((_let_64 (tptp.fn_hydrophilic_amino_acid_30 X))) (let ((_let_65 (tptp.fn_hydrophilic_amino_acid_25 X))) (let ((_let_66 (tptp.fn_hydrophilic_amino_acid_2 X))) (let ((_let_67 (tptp.fn_amino_acid_10 X))) (let ((_let_68 (tptp.fn_hydrophilic_amino_acid_3 X))) (let ((_let_69 (tptp.fn_hydrophilic_amino_acid_6 X))) (let ((_let_70 (tptp.fn_amino_acid_12 X))) (let ((_let_71 (tptp.fn_hydrophilic_amino_acid_24 X))) (let ((_let_72 (tptp.fn_hydrophilic_amino_acid_19 X))) (let ((_let_73 (tptp.fn_hydrophilic_amino_acid_22 X))) (let ((_let_74 (tptp.fn_hydrophilic_amino_acid_23 X))) (let ((_let_75 (tptp.fn_covalent_bond_14 _let_1))) (=> (tptp.hydrophilic_amino_acid_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Amino-Acid'|) (tptp.user_description_2 X |tptp.'Amino acid with hydrophillic properties due to the presence of either a polar or an electrically charged side chain.'|) (tptp.concept2words_2 X |tptp.'hydrophilic amino acid'|) (tptp.concept2words_2 X |tptp.'hydrophilic-amino-acid'|) (tptp.amino_acid_1 X) (not (tptp.hydrophobic_amino_acid_1 X)) (tptp.hold_together_1 _let_60) (tptp.hold_together_1 _let_66) (tptp.share_1 _let_68) (tptp.share_1 _let_18) (tptp.share_1 _let_22) (tptp.tangible_entity_1 _let_69) (tptp.electron_1 _let_69) (tptp.entity_1 _let_69) (tptp.valence_electron_1 _let_69) (tptp.hold_1 _let_14) (tptp.hold_together_1 _let_14) (tptp.share_1 _let_30) (tptp.atomic_nucleus_1 _let_51) (tptp.electron_shell_1 _let_59) (tptp.valence_electron_1 _let_52) (tptp.valence_electron_1 _let_49) (tptp.atomic_nucleus_1 _let_50) (tptp.electron_shell_1 _let_58) (tptp.hold_together_1 _let_16) (tptp.hold_together_1 _let_12) (tptp.share_1 _let_40) (tptp.share_1 _let_20) (tptp.share_1 _let_72) (tptp.electron_shell_1 _let_55) (tptp.electron_shell_1 _let_56) (tptp.entity_1 _let_73) (tptp.tangible_entity_1 _let_73) (tptp.electron_1 _let_73) (tptp.valence_electron_1 _let_73) (tptp.end_1 _let_74) (tptp.r_group_1 _let_71) (tptp.amino_group_1 _let_65) (tptp.carboxyl_group_1 _let_63) (tptp.carbon_skeleton_1 _let_53) (tptp.single_bond_1 _let_1) (tptp.chemical_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.nitrogen_1 _let_3) (tptp.entity_1 _let_64) (tptp.chemical_entity_1 _let_64) (tptp.atom_1 _let_64) (tptp.hydrogen_1 _let_64) (tptp.entity_1 _let_61) (tptp.oxygen_1 _let_61) (tptp.entity_1 _let_62) (tptp.oxygen_1 _let_62) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.hydrogen_1 _let_57) (tptp.tangible_entity_1 _let_54) (tptp.entity_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.atom_1 _let_54) (tptp.carbon_1 _let_54) (tptp.hold_together_1 _let_75) (tptp.share_1 _let_48) (tptp.entity_1 _let_47) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.entity_1 _let_44) (tptp.chemical_entity_1 _let_44) (tptp.atom_1 _let_44) (tptp.entity_1 _let_43) (tptp.entity_1 _let_42) (tptp.entity_1 _let_41) (tptp.electron_shell_1 _let_37) (tptp.electron_shell_1 _let_35) (tptp.electron_shell_1 _let_34) (tptp.entity_1 _let_32) (tptp.entity_1 _let_31) (tptp.entity_1 _let_25) (tptp.entity_1 _let_24) (tptp.entity_1 _let_23) (tptp.entity_1 _let_21) (tptp.entity_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.valence_electron_1 _let_10) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.valence_electron_1 _let_5) (tptp.valence_electron_1 _let_4) (tptp.valence_electron_1 _let_2) (tptp.object_2 _let_14 _let_62) (tptp.object_2 _let_14 _let_61) (not (= _let_52 _let_49)) (not (= _let_49 _let_52)) (tptp.object_2 _let_16 _let_61) (tptp.object_2 _let_12 _let_62) (tptp.has_region_2 X _let_74) (tptp.object_2 _let_22 _let_69) (tptp.agent_2 _let_40 _let_61) (tptp.agent_2 _let_30 _let_3) (tptp.agent_2 _let_20 _let_62) (tptp.agent_2 _let_22 _let_54) (tptp.agent_2 _let_20 _let_54) (tptp.agent_2 _let_18 _let_54) (tptp.object_2 _let_16 _let_54) (tptp.object_2 _let_14 _let_54) (tptp.object_2 _let_12 _let_54) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_3) (tptp.has_region_2 _let_3 _let_50) (tptp.has_part_2 _let_3 _let_49) (tptp.agent_2 _let_30 _let_64) (tptp.object_2 _let_14 _let_64) (tptp.is_between_2 _let_1 _let_64) (tptp.has_region_2 _let_64 _let_51) (tptp.has_part_2 _let_64 _let_52) (tptp.has_region_2 _let_64 _let_59) (tptp.has_part_2 X _let_64) (tptp.has_part_2 X _let_3) (tptp.object_2 _let_20 _let_73) (tptp.is_inside_2 _let_74 _let_71) (tptp.has_part_2 X _let_61) (not (= _let_61 _let_57)) (tptp.is_inside_2 _let_57 _let_63) (not (= _let_57 _let_61)) (tptp.agent_2 _let_72 _let_54) (tptp.object_2 _let_72 _let_73) (tptp.object_2 _let_40 _let_73) (tptp.agent_2 _let_40 _let_54) (tptp.object_2 _let_68 _let_69) (tptp.object_2 _let_18 _let_69) (tptp.agent_2 _let_18 _let_62) (tptp.has_part_2 X _let_62) (tptp.has_region_2 X _let_71) (not (= _let_57 _let_64)) (tptp.has_part_2 X _let_57) (tptp.has_part_2 X _let_54) (tptp.agent_2 _let_68 _let_54) (tptp.agent_2 _let_68 _let_61) (not (= _let_64 _let_57)) (tptp.object_2 _let_60 _let_62) (tptp.object_2 _let_66 _let_62) (tptp.object_2 _let_66 _let_54) (not (= _let_61 _let_54)) (not (= _let_54 _let_61)) (not (= _let_54 _let_64)) (not (= _let_64 _let_3)) (tptp.is_inside_2 _let_3 _let_65) (not (= _let_3 _let_54)) (not (= _let_54 _let_3)) (not (= _let_64 _let_54)) (not (= _let_3 _let_64)) (tptp.object_2 _let_60 _let_64) (tptp.is_inside_2 _let_64 _let_65) (tptp.has_region_2 X _let_65) (tptp.has_region_2 X _let_63) (tptp.is_inside_2 _let_61 _let_63) (tptp.is_inside_2 _let_54 _let_63) (not (= _let_62 _let_54)) (not (= _let_61 _let_62)) (not (= _let_62 _let_61)) (not (= _let_54 _let_62)) (tptp.object_2 _let_60 _let_54) (tptp.object_2 _let_60 _let_61) (tptp.has_region_2 _let_61 _let_56) (tptp.has_region_2 _let_62 _let_56) (tptp.is_inside_2 _let_62 _let_63) (not (= _let_54 _let_57)) (not (= _let_57 _let_3)) (tptp.has_region_2 _let_3 _let_58) (not (= _let_57 _let_54)) (not (= _let_3 _let_57)) (not (= _let_59 _let_58)) (not (= _let_58 _let_59)) (tptp.has_region_2 X _let_53) (tptp.is_inside_2 _let_54 _let_53) (tptp.has_region_2 _let_54 _let_55) (not (= _let_56 _let_55)) (not (= _let_55 _let_56)) (tptp.object_2 _let_30 _let_52) (tptp.is_near_2 _let_51 _let_52) (tptp.is_near_2 _let_52 _let_51) (tptp.result_2 _let_30 _let_1) (tptp.object_2 _let_30 _let_49) (tptp.is_near_2 _let_49 _let_50) (tptp.is_near_2 _let_50 _let_49) (not (= _let_51 _let_50)) (not (= _let_50 _let_51)) (= _let_69 _let_47) (= _let_61 _let_42) (= _let_61 _let_41) (= _let_3 _let_32) (= _let_3 _let_31) (= _let_62 _let_43) (= _let_54 _let_25) (= _let_54 _let_23) (= _let_54 _let_21) (= _let_54 _let_24) (= _let_54 _let_19) (= _let_54 _let_17) (= _let_54 _let_15) (= _let_54 _let_13) (= _let_3 _let_29) (= _let_1 (tptp.fn_molecule_10 X)) (= _let_50 _let_8) (= _let_50 _let_7) (= _let_49 _let_5) (= _let_49 _let_4) (= _let_14 _let_75) (= _let_59 _let_34) (= _let_64 _let_45) (= _let_64 _let_44) (= _let_20 _let_67) (= _let_74 (tptp.fn_amino_acid_1 X)) (= _let_57 _let_27) (= _let_40 (tptp.fn_amino_acid_18 X)) (= _let_73 (tptp.fn_amino_acid_19 X)) (= _let_72 _let_70) (= _let_71 (tptp.fn_amino_acid_2 X)) (= _let_18 _let_70) (= _let_69 _let_46) (= _let_68 _let_67) (= _let_66 (tptp.fn_amino_acid_14 X)) (= _let_64 _let_27) (= _let_65 (tptp.fn_amino_acid_25 X)) (= _let_64 _let_26) (= _let_61 _let_39) (= _let_62 _let_38) (= _let_63 (tptp.fn_amino_acid_26 X)) (= _let_62 _let_39) (= _let_61 _let_38) (= _let_60 (tptp.fn_amino_acid_13 X)) (= _let_58 _let_34) (= _let_59 _let_37) (= _let_59 _let_36) (= _let_58 _let_35) (= _let_58 _let_33) (= _let_3 _let_28) (= _let_57 _let_26) (= _let_56 (tptp.fn_amino_acid_15 X)) (= _let_55 (tptp.fn_amino_acid_21 X)) (= _let_54 _let_11) (= _let_53 (tptp.fn_amino_acid_23 X)) (= _let_51 _let_6) (= _let_52 _let_2) (= _let_52 _let_10) (= _let_51 _let_9) (= _let_50 _let_6) (= _let_49 _let_2) (= _let_30 _let_48) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_27) (= _let_26 _let_43) (= _let_43 _let_38) (= _let_39 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_39) (= _let_38 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_34 _let_37) (= _let_37 _let_37) (= _let_37 _let_34) (= _let_34 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_21 _let_24) (= _let_24 _let_19) (= _let_19 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_13 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_2) (= _let_2 _let_10) (= _let_10 _let_10) (= _let_10 _let_6) (= _let_6 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_channel_2 X))) (let ((_let_2 (tptp.fn_integral_protein_23 _let_1))) (let ((_let_3 (tptp.fn_protein_1 _let_1))) (let ((_let_4 (tptp.fn_hydrophilic_channel_1 X))) (=> (tptp.hydrophilic_channel_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Channel'|) (tptp.user_description_2 X |tptp.'Structural channel through a protein which is surrounded by hydrophilic amino acids and allows hydrophilic molecules to pass though.'|) (tptp.concept2words_2 X |tptp.'hydrophilic channel'|) (tptp.concept2words_2 X |tptp.'hydrophilic-channel'|) (tptp.hydrophilic_region_1 X) (tptp.pore_1 X) (tptp.center_1 _let_4) (tptp.channel_protein_1 _let_1) (tptp.hydrophilic_region_1 _let_3) (tptp.hydrophilic_region_1 _let_2) (tptp.is_at_2 X _let_4) (tptp.has_region_2 _let_1 _let_4) (tptp.has_region_2 _let_1 X) (= X _let_3) (= X _let_2) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_compound_2 X))) (let ((_let_2 (tptp.fn_attract_2 _let_1))) (let ((_let_3 (tptp.fn_hydrophilic_compound_1 X))) (let ((_let_4 (tptp.fn_hydrophilic_region_2 _let_3))) (=> (tptp.hydrophilic_compound_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Compound'|) (tptp.user_description_2 X |tptp.'A molecule with affinity for water.'|) (tptp.concept2words_2 X |tptp.'hydrophilic compound'|) (tptp.concept2words_2 X |tptp.'hydrophilic-compound'|) (tptp.compound_1 X) (tptp.hydrophilic_region_1 _let_3) (tptp.attract_1 _let_1) (tptp.attract_1 _let_4) (tptp.entity_1 _let_2) (tptp.facilitates_2 _let_3 _let_1) (tptp.has_region_2 X _let_3) (tptp.has_function_2 X _let_1) (tptp.site_2 _let_1 _let_3) (tptp.agent_2 _let_1 X) (= _let_1 _let_4) (= X _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.hydrophilic_end_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-End'|) (tptp.user_description_2 X |tptp.'End of an entity that attracts water due to polarity or charge.'|) (tptp.concept2words_2 X |tptp.'hydrophilic end'|) (tptp.concept2words_2 X |tptp.'hydrophilic-end'|) (tptp.hydrophilic_region_1 X) (tptp.end_1 X) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.hydrophobic_end_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hydrophilic_face_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Face'|) (tptp.user_description_2 X |tptp.'The hydrophilic side of an entity.'|) (tptp.concept2words_2 X |tptp.'outside face of biomembrane'|) (tptp.concept2words_2 X |tptp.'hydrophilic face'|) (tptp.concept2words_2 X |tptp.'hydrophilic-face'|) (tptp.face_region_1 X) (tptp.hydrophilic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hydrophilic_head_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Head'|) (tptp.user_description_2 X |tptp.'The head part of a molecule that is polar (having a partial charge due to electronegativity) and therefore does not resist interaction with water.'|) (tptp.concept2words_2 X |tptp.'hydrophilic head'|) (tptp.concept2words_2 X |tptp.'hydrophilic-head'|) (tptp.hydrophilic_end_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_region_2 X))) (let ((_let_2 (tptp.fn_attract_1 _let_1))) (let ((_let_3 (tptp.fn_hydrophilic_region_1 X))) (=> (tptp.hydrophilic_region_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Region'|) (tptp.user_description_2 X |tptp.'A region showing hydrophilicity is called a hydrophilic region.'|) (tptp.concept2words_2 X |tptp.'hydrophilic region'|) (tptp.concept2words_2 X |tptp.'hydrophilic-region'|) (tptp.molecular_region_1 X) (tptp.water_molecule_1 _let_3) (tptp.attract_1 _let_1) (tptp.entity_1 _let_2) (tptp.site_2 _let_1 X) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophilic_substance_3 X))) (let ((_let_2 (tptp.fn_attract_1 _let_1))) (let ((_let_3 (tptp.fn_hydrophilic_substance_2 X))) (let ((_let_4 (tptp.fn_hydrophilic_substance_1 X))) (let ((_let_5 (tptp.fn_hydrophilic_compound_2 _let_4))) (let ((_let_6 (tptp.fn_attract_2 _let_1))) (let ((_let_7 (tptp.fn_hydrophilic_substance_5 X))) (let ((_let_8 (tptp.fn_attract_2 _let_7))) (let ((_let_9 (tptp.fn_attract_1 _let_7))) (let ((_let_10 (tptp.fn_hydrophilic_substance_4 X))) (=> (tptp.hydrophilic_substance_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophilic-Substance'|) (tptp.user_description_2 X |tptp.'A substance with an affinity for water.'|) (tptp.concept2words_2 X |tptp.'hydrophilic substance'|) 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(tptp.fn_covalent_bond_20 _let_4))) (let ((_let_6 (tptp.fn_covalent_bond_19 _let_2))) (let ((_let_7 (tptp.fn_hydrophobic_amino_acid_81 X))) (let ((_let_8 (tptp.fn_hold_2 _let_7))) (let ((_let_9 (tptp.fn_hydrophobic_amino_acid_68 X))) (let ((_let_10 (tptp.fn_hold_2 _let_9))) (let ((_let_11 (tptp.fn_hydrophobic_amino_acid_67 X))) (let ((_let_12 (tptp.fn_hold_2 _let_11))) (let ((_let_13 (tptp.fn_hydrophobic_amino_acid_66 X))) (let ((_let_14 (tptp.fn_hold_2 _let_13))) (let ((_let_15 (tptp.fn_hydrophobic_amino_acid_38 X))) (let ((_let_16 (tptp.fn_hold_2 _let_15))) (let ((_let_17 (tptp.fn_hydrophobic_amino_acid_4 X))) (let ((_let_18 (tptp.fn_share_1 _let_17))) (let ((_let_19 (tptp.fn_hydrophobic_amino_acid_5 X))) (let ((_let_20 (tptp.fn_share_1 _let_19))) (let ((_let_21 (tptp.fn_hydrophobic_amino_acid_78 X))) (let ((_let_22 (tptp.fn_share_1 _let_21))) (let ((_let_23 (tptp.fn_hydrophobic_amino_acid_64 X))) (let ((_let_24 (tptp.fn_share_1 _let_23))) (let ((_let_25 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_let_163)) (not (= _let_66 _let_163)) (not (= _let_50 _let_66)) (not (= _let_163 _let_50)) (not (= _let_164 _let_163)) (tptp.object_2 _let_160 _let_50) (tptp.object_2 _let_160 _let_87) (not (= _let_87 _let_50)) (tptp.has_region_2 _let_50 _let_161) (not (= _let_161 _let_162)) (not (= _let_50 _let_87)) (not (= _let_162 _let_161)) (tptp.has_region_2 X _let_158) (tptp.is_inside_2 _let_50 _let_158) (tptp.is_inside_2 _let_50 _let_159) (tptp.has_region_2 X _let_159) (tptp.has_part_2 X _let_50) (tptp.called_2 _let_146 |tptp.'Atomic_Number'|) (tptp.called_2 _let_144 |tptp.'Number_Proton'|) (tptp.has_region_2 _let_66 _let_154) (tptp.is_at_2 _let_152 _let_154) (tptp.is_inside_2 _let_142 _let_152) (tptp.called_2 _let_148 |tptp.'Number_Electron'|) (tptp.atomic_number_2 _let_66 _let_146) (tptp.has_region_2 _let_66 _let_152) (tptp.has_part_2 _let_66 _let_142) (tptp.quantity_2 _let_142 _let_144) (= _let_144 _let_148) (= _let_146 _let_144) (= _let_144 _let_146) (= _let_148 _let_144) (tptp.called_2 _let_133 |tptp.'Number_Proton'|) (tptp.called_2 _let_132 |tptp.'Atomic_Number'|) (tptp.has_region_2 _let_50 _let_138) (tptp.atomic_number_2 _let_50 _let_132) (= _let_133 _let_132) (= _let_132 _let_133) (= _let_171 _let_122) (= _let_171 _let_121) (= _let_171 _let_120) (= _let_171 _let_119) (= _let_194 _let_198) (= _let_192 _let_197) (= _let_194 _let_196) (= _let_192 _let_195) (= _let_194 _let_193) (= _let_192 _let_191) (= _let_173 _let_125) (= _let_168 _let_118) (= _let_173 _let_124) (= _let_87 _let_82) (= _let_165 _let_114) (= _let_50 _let_36) (= _let_50 _let_34) (= _let_87 _let_81) (= _let_50 _let_49) (= _let_50 _let_32) (= _let_165 _let_110) (= _let_165 _let_113) (= _let_165 _let_109) (= _let_50 _let_47) (= _let_50 _let_45) (= _let_50 _let_30) (= _let_87 _let_78) (= _let_87 _let_80) (= _let_50 _let_44) (= _let_50 _let_28) (= _let_50 _let_26) (= _let_50 _let_43) (= _let_165 _let_112) (= _let_165 _let_107) (= _let_50 _let_24) (= _let_50 _let_41) (= _let_66 _let_65) (= _let_66 _let_64) (= _let_87 _let_77) (= _let_50 _let_39) (= _let_50 _let_22) (= _let_50 _let_38) (= _let_50 _let_20) (= _let_165 _let_111) (= _let_165 _let_106) (= _let_50 _let_37) (= _let_50 _let_18) (= _let_87 _let_79) (= _let_87 _let_76) (= _let_50 _let_16) (= _let_164 _let_95) (= _let_165 _let_104) (= _let_50 _let_14) (= _let_164 _let_93) (= _let_50 _let_12) (= _let_165 _let_102) (= _let_50 _let_10) (= _let_165 _let_100) (= _let_50 _let_8) (= _let_165 _let_98) (= _let_87 _let_74) (= _let_190 (tptp.fn_amino_acid_2 X)) (= _let_189 _let_188) (= (tptp.fn_hydrophobic_amino_acid_17 X) _let_186) (= _let_162 _let_88) (= _let_101 _let_184) (= _let_63 _let_183) (= _let_73 _let_116) (= _let_105 _let_174) (= _let_182 _let_174) (= _let_99 _let_116) (= _let_4 (tptp.fn_molecule_10 X)) (= _let_164 _let_91) (= _let_164 _let_5) (= _let_164 _let_90) (= _let_97 _let_179) (= _let_152 _let_69) (= _let_152 _let_68) (= _let_181 _let_131) (= _let_138 _let_57) (= _let_154 _let_71) (= _let_181 _let_130) (= _let_50 _let_3) (= _let_161 _let_84) (= _let_180 _let_129) (= _let_180 _let_128) (= _let_66 _let_62) (= _let_9 _let_179) (= _let_178 _let_127) (= _let_94 _let_116) (= _let_176 _let_127) (= _let_177 _let_58) (= _let_177 _let_69) (= _let_176 _let_126) (= _let_175 _let_174) (= _let_172 _let_86) (= _let_173 _let_123) (= _let_75 (tptp.fn_amino_acid_18 X)) (= _let_172 _let_83) (= _let_165 _let_72) (= _let_33 _let_166) (= _let_171 _let_117) (= _let_170 _let_123) (= _let_108 _let_169) (= _let_17 _let_169) (= _let_168 _let_117) (= _let_167 _let_166) (= _let_73 _let_115) (= _let_165 _let_96) (= _let_164 _let_89) (= _let_66 _let_61) (= _let_163 (tptp.fn_amino_acid_17 X)) (= _let_162 _let_86) (= _let_161 _let_85) (= _let_161 _let_83) (= _let_87 _let_72) (= _let_160 (tptp.fn_amino_acid_13 X)) (= _let_159 (tptp.fn_amino_acid_23 X)) (= _let_50 _let_1) (= _let_158 (tptp.fn_amino_acid_26 X)) (= (tptp.fn_hydrophobic_amino_acid_71 X) _let_157) (= (tptp.fn_hydrophobic_amino_acid_72 X) _let_156) (= (tptp.fn_hydrophobic_amino_acid_75 X) _let_155) (= _let_154 _let_70) (= (tptp.fn_hydrophobic_amino_acid_76 X) _let_153) (= _let_152 _let_67) (= _let_151 _let_150) (= (tptp.fn_hydrophobic_amino_acid_46 X) _let_149) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_144 _let_143) (= _let_142 _let_141) (= (tptp.fn_hydrophobic_amino_acid_70 X) _let_140) (= (tptp.fn_hydrophobic_amino_acid_73 X) _let_139) (= _let_138 _let_60) (= _let_50 _let_6) (= _let_138 _let_59) (= _let_50 _let_5) (= _let_138 _let_58) (= _let_138 _let_56) (= _let_137 _let_136) (= (tptp.fn_hydrophobic_amino_acid_74 X) _let_135) (= _let_133 _let_54) (= (tptp.fn_hydrophobic_amino_acid_48 X) _let_134) (= _let_133 _let_55) (= _let_133 _let_53) (= _let_132 _let_52) (= _let_132 _let_51) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_128) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_128 _let_69) (= _let_69 _let_58) (= _let_58 _let_69) (= _let_69 _let_126) (= _let_126 _let_127) (= _let_127 _let_126) (= _let_126 _let_126) (= _let_126 _let_125) (= _let_125 _let_124) (= _let_124 _let_123) (= _let_123 _let_86) (= _let_86 _let_83) (= _let_83 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_117) (= _let_117 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_114 _let_110) (= _let_110 _let_113) (= _let_113 _let_109) (= _let_109 _let_112) (= _let_112 _let_107) (= _let_107 _let_111) (= _let_111 _let_106) (= _let_106 _let_110) (= _let_110 _let_109) (= _let_109 _let_107) (= _let_107 _let_106) (= _let_106 _let_104) (= _let_98 _let_104) (= _let_104 _let_102) (= _let_102 _let_100) (= _let_100 _let_98) (= _let_98 _let_72) (= _let_96 _let_72) (= _let_72 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_93) (= _let_93 _let_91) (= _let_5 _let_91) (= _let_91 _let_5) (= _let_90 _let_5) (= _let_5 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_89 _let_88) (= _let_88 _let_86) (= _let_86 _let_86) (= _let_86 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_78) (= _let_78 _let_80) (= _let_80 _let_77) (= _let_77 _let_79) (= _let_79 _let_76) (= _let_76 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_74) (= _let_74 _let_74) (= _let_74 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_68) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_36) (= _let_34 _let_49) (= _let_49 _let_32) (= _let_32 _let_47) (= _let_47 _let_45) (= _let_45 _let_30) (= _let_30 _let_44) (= _let_44 _let_28) (= _let_26 _let_43) (= _let_43 _let_24) (= _let_24 _let_41) (= _let_41 _let_39) (= _let_39 _let_22) (= _let_22 _let_38) (= _let_38 _let_20) (= _let_20 _let_37) (= _let_37 _let_18) (= _let_18 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_8 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_3 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.has_function_2 X X1) (tptp.object_2 X1 X2) (tptp.repel_1 X1) (tptp.water_molecule_1 X2) (tptp.compound_1 X)) (and (tptp.hydrophobic_compound_1 X) (= (tptp.fn_hydrophobic_compound_4 X) X2) (= (tptp.fn_hydrophobic_compound_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_compound_3 X))) (let ((_let_2 (tptp.fn_hydrophobic_region_2 _let_1))) (let ((_let_3 (tptp.fn_hydrophobic_compound_2 X))) (let ((_let_4 (tptp.fn_hydrophobic_region_4 _let_1))) (let ((_let_5 (tptp.fn_hydrophobic_compound_4 X))) (=> (tptp.hydrophobic_compound_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Compound'|) (tptp.user_description_2 X |tptp.'A molecule with no affinity for water.'|) (tptp.concept2words_2 X |tptp.'hydrophobic molecule'|) (tptp.concept2words_2 X |tptp.'hydrophobic compound'|) (tptp.concept2words_2 X |tptp.'hydrophobic-compound'|) (tptp.compound_1 X) (tptp.repel_1 _let_3) (tptp.hydrophobic_region_1 _let_1) (tptp.water_molecule_1 _let_5) (tptp.water_molecule_1 _let_4) (tptp.repel_1 _let_2) (tptp.agent_2 _let_3 X) (tptp.facilitates_2 _let_1 _let_3) (tptp.has_region_2 X _let_1) (tptp.has_function_2 X _let_3) (tptp.site_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_5) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.hydrophobic_core_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Core'|) (tptp.user_description_2 X |tptp.'The central (not surface) region of an entity. Generally a compact, non-dynamic region that is not solvent accessible is the hydrophobic core.'|) (tptp.concept2words_2 X |tptp.'hydrophobic interior'|) (tptp.concept2words_2 X |tptp.'hydrophobic-interior'|) (tptp.concept2words_2 X |tptp.'hydrophobic center'|) (tptp.concept2words_2 X |tptp.'hydrophobic-center'|) (tptp.concept2words_2 X |tptp.'hydrophobic core'|) (tptp.concept2words_2 X |tptp.'hydrophobic-core'|) (tptp.center_1 X) (tptp.hydrophobic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hydrophobic_end_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-End'|) (tptp.user_description_2 X |tptp.'The end of the molecule which is water repellent'|) (tptp.concept2words_2 X |tptp.'hydrophobic end'|) (tptp.concept2words_2 X |tptp.'hydrophobic-end'|) (tptp.hydrophobic_region_1 X) (tptp.end_1 X) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.hydrophilic_end_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hydrophobic_face_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Face'|) (tptp.user_description_2 X |tptp.'The hydrophobic side of an entity.'|) (tptp.concept2words_2 X |tptp.'hydrophobic face'|) (tptp.concept2words_2 X |tptp.'hydrophobic-face'|) (tptp.face_region_1 X) (tptp.hydrophobic_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_interaction_1 X))) (let ((_let_2 (tptp.fn_hydrophobic_interaction_2 X))) (=> (tptp.hydrophobic_interaction_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Interaction'|) (tptp.user_description_2 X |tptp.'The tendency of nonpolar molecules to aggregate together and exclude water molecules.'|) (tptp.concept2words_2 X |tptp.'hydrophobic interaction'|) (tptp.concept2words_2 X |tptp.'hydrophobic-interaction'|) (tptp.weak_interaction_1 X) (not (tptp.covalent_bond_1 X)) (not (tptp.disulfide_bond_1 X)) (not (tptp.ester_linkage_1 X)) (not (tptp.hydrogen_bond_1 X)) (not (tptp.ionic_bond_1 X)) (tptp.hydrophobic_compound_1 _let_1) (tptp.hydrophobic_compound_1 _let_2) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1) (= _let_2 (tptp.fn_chemical_bond_1 X)) (= _let_1 (tptp.fn_chemical_bond_4 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_region_3 X))) (let ((_let_2 (tptp.fn_block_1 _let_1))) (let ((_let_3 (tptp.fn_hydrophobic_region_4 X))) (let ((_let_4 (tptp.fn_hydrophobic_region_1 X))) (let ((_let_5 (tptp.fn_hydrophobic_region_2 X))) (=> (tptp.hydrophobic_region_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Region'|) (tptp.user_description_2 X |tptp.'A region showing hydrophobicity is called a hydrophobic region.'|) (tptp.concept2words_2 X |tptp.'hydrophobic region'|) (tptp.concept2words_2 X |tptp.'hydrophobic-region'|) (tptp.molecular_region_1 X) (tptp.barrier_1 _let_4) (tptp.repel_1 _let_5) (tptp.block_1 _let_1) (tptp.water_molecule_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.object_2 _let_5 _let_3) (tptp.site_2 _let_5 X) (tptp.plays_2 X _let_4) (tptp.in_event_2 _let_4 _let_1) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_substance_9 X))) (let ((_let_2 (tptp.fn_hydrophobic_compound_2 _let_1))) (let ((_let_3 (tptp.fn_hydrophobic_substance_8 X))) (let ((_let_4 (tptp.fn_hydrophobic_substance_4 X))) (let ((_let_5 (tptp.fn_hydrophobic_substance_7 X))) (let ((_let_6 (tptp.fn_hydrophobic_substance_3 X))) (let ((_let_7 (tptp.fn_hydrophobic_substance_2 X))) (let ((_let_8 (tptp.fn_hydrophobic_substance_1 X))) (=> (tptp.hydrophobic_substance_1 X) (and (tptp.original_name_2 X |tptp.'Hydrophobic-Substance'|) (tptp.user_description_2 X |tptp.'A substance with no affinity for water. These substances tend to coalesce and form droplets in water.'|) (tptp.concept2words_2 X |tptp.'hydrophobic substance'|) (tptp.concept2words_2 X |tptp.'hydrophobic-substance'|) (tptp.chemical_1 X) (tptp.nonpolar_covalent_bond_1 _let_8) (tptp.rate_value_1 _let_7) (tptp.rate_value_1 _let_6) (tptp.repel_1 _let_4) (tptp.water_molecule_1 _let_5) (tptp.repel_1 _let_3) (tptp.chemical_entity_1 _let_1) (tptp.hydrophobic_compound_1 _let_1) (tptp.repel_1 _let_2) (tptp.facilitates_2 _let_1 _let_4) (tptp.has_function_2 X _let_4) (tptp.possesses_2 X _let_8) (tptp.rate_2 _let_3 _let_7) (tptp.directly_proportional_2 _let_7 _let_6) (tptp.by_means_of_2 _let_4 _let_3) (tptp.rate_2 _let_4 _let_6) (tptp.object_2 _let_4 _let_5) (tptp.agent_2 _let_4 X) (tptp.has_part_2 X _let_1) (tptp.has_function_2 _let_1 _let_3) (tptp.agent_2 _let_3 _let_1) (= _let_1 (tptp.fn_chemical_3 X)) (= _let_3 _let_2)))))))))))) (forall ((X $$unsorted)) (=> (tptp.hydroponic_culture_1 X) (and (tptp.original_name_2 X |tptp.'Hydroponic-Culture'|) (tptp.user_description_2 X |tptp.'A method of growing plants in water with mineral solutions rather than in soil.'|) (tptp.concept2words_2 X tptp.hydroponic) (tptp.concept2words_2 X |tptp.'hydroponic agriculture'|) (tptp.concept2words_2 X |tptp.'hydroponic-agriculture'|) (tptp.concept2words_2 X |tptp.'hydroponic culture'|) (tptp.concept2words_2 X |tptp.'hydroponic-culture'|) (tptp.agricultural_process_1 X) (not (tptp.animal_husbandry_1 X)) (not (tptp.crop_rotation_1 X)) (not (tptp.irrigation_1 X)) (not (tptp.logging_1 X)) (not (tptp.monoculture_1 X)) (not (tptp.no_till_agriculture_1 X)) (not (tptp.sustainable_agriculture_1 X)) (not (tptp.vernalization_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hydrostatic_skeleton_1 X) (and (tptp.original_name_2 X |tptp.'Hydrostatic-Skeleton'|) (tptp.user_description_2 X |tptp.'An internal closed fluid-filled cavity that provides a rigidity against which muscles can contract. This type of skeleton is found in soft-bodied invertebrates such as cnidarians, annelids, and nematodes.'|) (tptp.concept2words_2 X |tptp.'hydrostatic skeleton'|) (tptp.concept2words_2 X |tptp.'hydrostatic-skeleton'|) (tptp.skeleton_1 X) (not (tptp.endoskeleton_1 X)) (not (tptp.exoskeleton_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydroxide_ion_12 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_3 (tptp.fn_polyatomic_ion_1 X))) (let ((_let_4 (tptp.fn_hydroxide_ion_10 X))) (let ((_let_5 (tptp.fn_share_1 _let_4))) (let ((_let_6 (tptp.fn_hydroxide_ion_3 X))) (let ((_let_7 (tptp.fn_hydrogen_12 _let_6))) (let ((_let_8 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_9 (tptp.fn_polar_covalent_bond_11 _let_1))) (let ((_let_10 (tptp.fn_hydrogen_15 _let_6))) (let ((_let_11 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_12 (tptp.fn_hydrogen_14 _let_6))) (let ((_let_13 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_14 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_15 (tptp.fn_polar_covalent_bond_12 _let_1))) (let ((_let_16 (tptp.fn_hydroxide_ion_4 X))) (let ((_let_17 (tptp.fn_oxygen_1 _let_16))) (let ((_let_18 (tptp.fn_oxygen_8 _let_16))) (let ((_let_19 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_20 (tptp.fn_atom_18 _let_16))) (let ((_let_21 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_22 (tptp.fn_polar_covalent_bond_23 _let_1))) (let ((_let_23 (tptp.fn_covalent_bond_4 _let_1))) (let ((_let_24 (tptp.fn_atom_8 _let_16))) (let ((_let_25 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_26 (tptp.fn_polar_covalent_bond_17 _let_1))) (let ((_let_27 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_28 (tptp.fn_polyatomic_ion_2 X))) (let ((_let_29 (tptp.fn_hydroxide_ion_11 X))) (let ((_let_30 (tptp.fn_hold_2 _let_29))) (let ((_let_31 (tptp.fn_share_3 _let_4))) (let ((_let_32 (tptp.fn_hydroxide_ion_15 X))) (let ((_let_33 (tptp.fn_hydroxide_ion_7 X))) (let ((_let_34 (tptp.fn_hydrogen_16 _let_6))) (let ((_let_35 (tptp.fn_hydroxide_ion_5 X))) (let ((_let_36 (tptp.fn_hydrogen_13 _let_6))) (let ((_let_37 (tptp.fn_hydroxide_ion_13 X))) (let ((_let_38 (tptp.fn_hydroxide_ion_6 X))) (let ((_let_39 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_40 (tptp.fn_hydroxide_ion_18 X))) (let ((_let_41 (tptp.fn_hydroxide_ion_9 X))) (let ((_let_42 (tptp.fn_hydroxide_ion_8 X))) (let ((_let_43 (tptp.fn_hydroxide_ion_17 X))) (let ((_let_44 (tptp.fn_atom_14 _let_16))) (let ((_let_45 (tptp.fn_hydroxide_ion_16 X))) (let ((_let_46 (tptp.fn_atom_9 _let_16))) (let ((_let_47 (tptp.fn_hydroxide_ion_19 X))) (let ((_let_48 (tptp.fn_atomic_nucleus_8 _let_33))) (let ((_let_49 (tptp.fn_hydroxide_ion_14 X))) (let ((_let_50 (tptp.fn_hydroxide_ion_2 X))) (=> (tptp.hydroxide_ion_1 X) (and (tptp.original_name_2 X |tptp.'Hydroxide-Ion'|) (tptp.user_description_2 X |tptp.'A hydroxide ion consists of an atom of oxygen bound to an atom of hydrogen, with a charge of -1 (OH-)'|) (tptp.concept2words_2 X |tptp.'hydroxyl ion'|) (tptp.concept2words_2 X |tptp.'hydroxyl-ion'|) (tptp.concept2words_2 X |tptp.'ion of hydroxide'|) (tptp.concept2words_2 X |tptp.'hydroxide ion'|) (tptp.concept2words_2 X |tptp.'hydroxide-ion'|) (tptp.polyatomic_ion_1 X) (tptp.anion_1 X) (not (tptp.water_molecule_1 X)) (tptp.charge_value_1 _let_50) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.hydrogen_1 _let_6) (tptp.tangible_entity_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.electron_shell_1 _let_35) (tptp.first_electron_shell_1 _let_35) (tptp.center_1 _let_38) (tptp.atomic_nucleus_1 _let_33) (tptp.center_1 _let_42) (tptp.atomic_nucleus_1 _let_41) (tptp.share_1 _let_4) (tptp.hold_1 _let_29) (tptp.hold_together_1 _let_29) (tptp.polar_covalent_bond_1 _let_1) (tptp.proton_1 _let_37) (tptp.electron_1 _let_49) (tptp.electron_1 _let_32) (tptp.valence_electron_1 _let_32) (tptp.electron_1 _let_45) (tptp.proton_1 _let_43) (tptp.valence_electron_1 _let_40) (tptp.electron_shell_1 _let_47) (tptp.electron_1 _let_48) (tptp.electron_shell_1 _let_46) (tptp.electron_1 _let_44) (tptp.share_1 _let_39) (tptp.proton_1 _let_36) (tptp.electron_shell_1 _let_34) (tptp.first_electron_shell_1 _let_34) (tptp.entity_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hold_together_1 _let_26) (tptp.hold_together_1 _let_25) (tptp.proton_1 _let_24) (tptp.proton_1 _let_23) (tptp.center_1 _let_22) (tptp.center_1 _let_21) (tptp.atomic_nucleus_1 _let_20) (tptp.atomic_nucleus_1 _let_19) (tptp.valence_electron_1 _let_18) (tptp.valence_electron_1 _let_17) (tptp.valence_electron_1 _let_15) (tptp.valence_electron_1 _let_14) (tptp.center_1 _let_13) (tptp.center_1 _let_12) (tptp.atomic_nucleus_1 _let_11) (tptp.atomic_nucleus_1 _let_10) (tptp.electron_1 _let_9) (tptp.valence_electron_1 _let_9) (tptp.valence_electron_1 _let_8) (tptp.valence_electron_1 _let_7) (tptp.entity_1 _let_5) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (not (= _let_47 _let_35)) (not (= _let_40 _let_45)) (not (= _let_45 _let_40)) (not (= _let_32 _let_49)) (not (= _let_49 _let_32)) (not (= _let_35 _let_47)) (tptp.possesses_2 X _let_1) (tptp.the_cardinal_value_2 _let_50 |"-1.0e0"|) (tptp.cardinal_unit_class_2 _let_50 tptp.unity_0) (tptp.agent_2 _let_4 _let_16) (tptp.agent_2 _let_4 _let_6) (tptp.object_2 _let_29 _let_16) (tptp.has_part_2 X _let_6) (tptp.has_part_2 X _let_16) (tptp.charge_2 X _let_50) (tptp.is_near_2 _let_49 _let_33) (tptp.is_near_2 _let_33 _let_49) (tptp.object_2 _let_29 _let_6) (tptp.is_between_2 _let_1 _let_16) (tptp.has_region_2 _let_16 _let_42) (tptp.is_between_2 _let_1 _let_6) (not (= _let_6 _let_16)) (tptp.has_part_2 _let_16 _let_40) (not (= _let_16 _let_6)) (not (= _let_32 _let_40)) (not (= _let_40 _let_32)) (tptp.has_region_2 _let_16 _let_47) (tptp.has_part_2 _let_16 _let_43) (tptp.has_region_2 _let_16 _let_41) (tptp.is_near_2 _let_45 _let_41) (tptp.is_near_2 _let_41 _let_45) (tptp.has_function_2 _let_1 _let_29) (tptp.agent_2 _let_29 _let_1) (tptp.is_inside_2 _let_43 _let_41) (tptp.object_2 _let_4 _let_32) (tptp.is_at_2 _let_41 _let_42) (not (= _let_38 _let_42)) (not (= _let_42 _let_38)) (tptp.result_2 _let_4 _let_1) (tptp.object_2 _let_4 _let_40) (tptp.is_near_2 _let_40 _let_41) (tptp.is_near_2 _let_41 _let_40) (not (= _let_33 _let_41)) (not (= _let_41 _let_33)) (tptp.is_at_2 _let_33 _let_38) (tptp.has_region_2 _let_6 _let_38) (tptp.has_region_2 _let_6 _let_33) (tptp.is_inside_2 _let_37 _let_33) (tptp.has_part_2 _let_6 _let_32) (tptp.is_near_2 _let_32 _let_33) (tptp.is_inside_2 _let_33 _let_35) (tptp.has_region_2 _let_6 _let_35) (tptp.has_part_2 _let_6 _let_37) (tptp.is_near_2 _let_33 _let_32) (= _let_16 _let_31) (= _let_6 _let_5) (= _let_16 _let_30) (= _let_6 _let_3) (= _let_16 _let_28) (= (tptp.fn_hydroxide_ion_1 X) (tptp.fn_anion_7 X)) (= _let_50 (tptp.fn_anion_6 X)) (= _let_49 _let_48) (= _let_29 _let_26) (= _let_42 _let_22) (= _let_32 _let_9) (= _let_40 _let_18) (= _let_40 _let_17) (= _let_40 _let_15) (= _let_16 _let_27) (= _let_6 _let_2) (= _let_47 _let_46) (= _let_43 _let_24) (= _let_45 _let_44) (= _let_41 _let_20) (= _let_29 _let_25) (= _let_43 _let_23) (= _let_32 _let_8) (= _let_38 _let_13) (= _let_42 _let_21) (= _let_33 _let_11) (= _let_41 _let_19) (= _let_40 _let_14) (= _let_4 _let_39) (= _let_38 _let_12) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_10) (= _let_32 _let_7) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_15 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydroxyl_group_7 X))) (let ((_let_2 (tptp.fn_polar_covalent_bond_11 _let_1))) (let ((_let_3 (tptp.fn_polar_covalent_bond_12 _let_1))) (let ((_let_4 (tptp.fn_polar_covalent_bond_13 _let_1))) (let ((_let_5 (tptp.fn_polar_covalent_bond_14 _let_1))) (let ((_let_6 (tptp.fn_polar_covalent_bond_16 _let_1))) (let ((_let_7 (tptp.fn_hydroxyl_group_5 X))) (let ((_let_8 (tptp.fn_hydroxyl_group_8 X))) (let ((_let_9 (tptp.fn_hydroxyl_group_9 X))) (let ((_let_10 (tptp.fn_hydroxyl_group_11 X))) (let ((_let_11 (tptp.fn_polar_covalent_bond_23 _let_1))) (let ((_let_12 (tptp.fn_hydroxyl_group_10 X))) (let ((_let_13 (tptp.fn_polar_covalent_bond_18 _let_1))) (let ((_let_14 (tptp.fn_hydroxyl_group_4 X))) (let ((_let_15 (tptp.fn_polar_covalent_bond_19 _let_1))) (let ((_let_16 (tptp.fn_hydroxyl_group_6 X))) (let ((_let_17 (tptp.fn_hydroxyl_group_2 X))) (let ((_let_18 (tptp.fn_hydroxyl_group_3 X))) (=> (tptp.hydroxyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Hydroxyl-Group'|) (tptp.user_description_2 X |tptp.'Hydroxyl group is a functional group containing an oxygen atom bound covalently with a hydrogen atom. The molecular formula of hydroxyl group is -OH.'|) (tptp.concept2words_2 X |tptp.'oh group'|) (tptp.concept2words_2 X |tptp.'oh-group'|) (tptp.concept2words_2 X |tptp.'group of hydroxyl'|) (tptp.concept2words_2 X |tptp.'hydroxyl group'|) (tptp.concept2words_2 X |tptp.'hydroxyl-group'|) (tptp.functional_group_1 X) (not (tptp.acetyl_group_1 X)) (not (tptp.amino_group_1 X)) (not (tptp.carbonyl_group_1 X)) (not (tptp.carboxyl_group_1 X)) (not (tptp.methyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.shape_value_1 _let_17) (tptp.hydrophilic_region_1 _let_18) (tptp.oxygen_1 _let_14) (tptp.unequal_sharing_1 _let_7) (tptp.hydrogen_1 _let_16) (tptp.polar_covalent_bond_1 _let_1) (tptp.electron_1 _let_8) (tptp.valence_electron_1 _let_8) (tptp.atomic_nucleus_1 _let_9) (tptp.center_1 _let_12) (tptp.atomic_nucleus_1 _let_10) (tptp.entity_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.atom_1 _let_15) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.center_1 _let_11) (tptp.unequal_sharing_1 _let_6) (tptp.atomic_nucleus_1 _let_5) (tptp.atomic_nucleus_1 _let_4) (tptp.valence_electron_1 _let_3) (tptp.electron_1 _let_2) (tptp.valence_electron_1 _let_2) (tptp.is_inside_2 _let_18 X) (tptp.is_inside_2 _let_14 X) (tptp.shape_2 X _let_17) (tptp.has_region_2 X _let_18) (tptp.is_inside_2 _let_16 X) (tptp.the_categorical_value_2 _let_17 tptp.line_0) (tptp.agent_2 _let_7 _let_14) (tptp.has_region_2 _let_16 _let_10) (tptp.has_part_2 _let_14 _let_8) (tptp.is_between_2 _let_1 _let_16) (tptp.has_region_2 _let_14 _let_9) (tptp.is_between_2 _let_1 _let_14) (not (= _let_14 _let_16)) (tptp.agent_2 _let_7 _let_16) (not (= _let_16 _let_14)) (tptp.result_2 _let_7 _let_1) (tptp.object_2 _let_7 _let_8) (tptp.is_near_2 _let_8 _let_9) (tptp.is_near_2 _let_9 _let_8) (not (= _let_10 _let_9)) (not (= _let_9 _let_10)) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_5) (= _let_9 _let_5) (= _let_9 _let_4) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_4 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hydrozoan_1 X) (and (tptp.original_name_2 X |tptp.'Hydrozoan'|) (tptp.user_description_2 X |tptp.'A member of the class Hydrozoa within the phylum Cnidaria. The life cycle of most hydrozoans contains an asexual polyp and a sexual medusa.'|) (tptp.concept2words_2 X tptp.hydrozoan) (tptp.cnidaria_1 X) (not (tptp.anthozoan_1 X)) (not (tptp.cubozoan_1 X)) (not (tptp.hydra_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hymen_1 X) (and (tptp.original_name_2 X |tptp.'Hymen'|) (tptp.user_description_2 X |tptp.'A thin membrane that partially covers the vaginal opening in human females.'|) (tptp.concept2words_2 X tptp.hymen) (tptp.stratified_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hymenoptera_1 X) (and (tptp.original_name_2 X |tptp.'Hymenoptera'|) (tptp.user_description_2 X |tptp.'A large order of insects, consisting of bees, wasps, ants, and sawflies.'|) (tptp.concept2words_2 X tptp.hymenoptera) (tptp.insect_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hyperactive_ras_protein_4 X))) (let ((_let_2 (tptp.fn_cancer_6 _let_1))) (let ((_let_3 (tptp.fn_hyperactive_ras_protein_5 X))) (let ((_let_4 (tptp.fn_hyperactive_ras_protein_2 X))) (let ((_let_5 (tptp.fn_hyperactive_ras_protein_3 X))) (=> (tptp.hyperactive_ras_protein_1 X) (and (tptp.original_name_2 X |tptp.'Hyperactive-Ras-Protein'|) (tptp.user_description_2 X |tptp.'Hyperactive version of a Ras protein tha can increase cell division even in the absence of growth factor.'|) (tptp.concept2words_2 X |tptp.'cancer causing ras protein'|) (tptp.concept2words_2 X |tptp.'hyperactive ras protein'|) (tptp.concept2words_2 X |tptp.'hyperactive-ras-protein'|) (tptp.ras_protein_1 X) (tptp.increase_1 _let_4) (tptp.rate_value_1 _let_5) (tptp.cancer_1 _let_1) (tptp.cell_cycle_1 _let_3) (tptp.cell_cycle_1 _let_2) (tptp.result_2 _let_4 _let_1) (tptp.same_type_2 _let_4 _let_5) (tptp.agent_2 _let_4 X) (tptp.rate_2 _let_3 _let_5) (tptp.agent_2 _let_3 X) (tptp.the_scalar_value_2 _let_5 tptp.fast_0) (tptp.scalar_unit_class_2 _let_5 tptp.event_0) (tptp.same_type_2 _let_5 _let_4) (tptp.result_2 _let_3 _let_1) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.hyperpolarization_1 X) (and (tptp.original_name_2 X |tptp.'Hyperpolarization'|) (tptp.user_description_2 X |tptp.'An alteration of a cell_'s membrane potential further away from the threshold, so that the inside of the cell becomes more negative relative to the outside. Hyperpolarization makes a cell less likely that a neuron will produce or transmit an action potential.'|) (tptp.concept2words_2 X tptp.hyperpolarization) (tptp.change_in_membrane_potential_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hypersensitivity_response_1 X) (and (tptp.original_name_2 X |tptp.'Hypersensitivity-Response'|) (tptp.user_description_2 X |tptp.'In plants, a vigorous local plant defense in response to an avirulent pathogen.'|) (tptp.concept2words_2 X |tptp.'response of hypersensitivity'|) (tptp.concept2words_2 X |tptp.'hypersensitivity response'|) (tptp.concept2words_2 X |tptp.'hypersensitivity-response'|) (tptp.plant_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hypertension_1 X) (and (tptp.original_name_2 X |tptp.'Hypertension'|) (tptp.user_description_2 X |tptp.'Chronic abnormally high pressure in the arteries.'|) (tptp.concept2words_2 X tptp.hypertension) (tptp.cardiovascular_process_1 X) (not (tptp.cardiac_cycle_1 X)) (not (tptp.countercurrent_multiplier_system_1 X)) (not (tptp.diastole_1 X)) (not (tptp.heart_attack_1 X)) (not (tptp.heart_murmur_1 X)) (not (tptp.pulse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hyperthyroidism_1 X) (and (tptp.original_name_2 X |tptp.'Hyperthyroidism'|) (tptp.user_description_2 X |tptp.'A metabolic disease in which overactive tissue within the thyroid gland cause an overproduction of thyroid hormones (thyroxine or T4 and/or triiodothyronine or T3).'|) (tptp.concept2words_2 X tptp.hyperthyroidism) (tptp.metabolic_disorder_1 X) (not (tptp.mitochondrial_myopathy_1 X)) (not (tptp.diabetes_mellitus_1 X)) (not (tptp.cretinism_1 X)) (not (tptp.hypopituitarism_1 X)) (not (tptp.gigantism_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hypertonic_1 X) (and (tptp.original_name_2 X |tptp.'Hypertonic'|) (tptp.user_description_2 X |tptp.'Refers to a solution that has a higher salt solution than a cell, and will thus cause a cell to lose water.'|) (tptp.concept2words_2 X tptp.hypertonic) (tptp.tonicity_1 X) (not (tptp.hypotonic_1 X)) (not (tptp.isotonic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_solution_5 X))) (let ((_let_2 (tptp.fn_solution_6 X))) (let ((_let_3 (tptp.fn_aqueous_solution_14 X))) (let ((_let_4 (tptp.fn_hypertonic_solution_6 X))) (let ((_let_5 (tptp.fn_solution_5 _let_4))) (let ((_let_6 (tptp.fn_solution_6 _let_4))) (let ((_let_7 (tptp.fn_hypertonic_solution_8 X))) (let ((_let_8 (tptp.fn_hypertonic_solution_7 X))) (let ((_let_9 (tptp.fn_hypertonic_solution_5 X))) (let ((_let_10 (tptp.fn_hypertonic_solution_3 X))) (let ((_let_11 (tptp.fn_hypertonic_solution_4 X))) (=> (tptp.hypertonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Hypertonic-Solution'|) (tptp.user_description_2 X |tptp.'A hypertonic solution is one with a high concentration of solutes when compared to another solution which is separated from it by a semipermeable membrane. As opposed to an isotonic solution or a hypotonic solution.'|) (tptp.concept2words_2 X |tptp.'hypertonic solution'|) (tptp.concept2words_2 X |tptp.'hypertonic-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.basic_solution_1 X)) (not (tptp.buffered_solution_1 X)) (not (tptp.gel_1 X)) (not (tptp.hypotonic_solution_1 X)) (not (tptp.isotonic_solution_1 X)) (tptp.concentration_value_1 _let_10) (tptp.concentration_value_1 _let_11) (tptp.chemical_1 _let_9) (tptp.hypotonic_solution_1 _let_4) (tptp.water_1 _let_8) (tptp.chemical_1 _let_8) (tptp.chemical_1 _let_7) (tptp.chemical_1 _let_6) (tptp.chemical_1 _let_5) (tptp.concentration_2 _let_7 _let_11) (tptp.is_hypotonic_to_2 _let_4 X) (tptp.is_hypertonic_to_2 X _let_4) (tptp.greater_than_or_equal_to_2 _let_11 _let_10) (tptp.greater_than_2 _let_11 _let_10) (tptp.concentration_2 _let_9 _let_10) (tptp.has_solute_2 _let_4 _let_9) (tptp.has_part_2 _let_4 _let_9) (tptp.has_part_2 X _let_8) (tptp.has_solute_2 X _let_7) (not (= _let_7 _let_8)) (tptp.has_solvent_2 X _let_8) (tptp.has_part_2 X _let_7) (not (= _let_8 _let_7)) (= _let_9 _let_6) (= _let_9 _let_5) (= _let_8 _let_3) (= _let_7 _let_2) (= _let_8 _let_2) (= _let_7 _let_1) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.hypha_1 X) (and (tptp.original_name_2 X |tptp.'Hypha'|) (tptp.user_description_2 X |tptp.'A long filamentous structure found in most fungi. The collective hyphae of a particular fungus make up its mycelium.'|) (tptp.concept2words_2 X tptp.hypha) (tptp.fungal_tissue_1 X) (not (tptp.ascus_1 X)) (not (tptp.mycelium_1 X)) (not (tptp.zygosporangium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hypoblast_1 X) (and (tptp.original_name_2 X |tptp.'Hypoblast'|) (tptp.user_description_2 X |tptp.'In animal development, the hypoblast is the embryonic precursor to endoderm and (potentially) mesoderm.'|) (tptp.concept2words_2 X tptp.hypoblast) (tptp.embryonic_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hypocotyl_1 X) (and (tptp.original_name_2 X |tptp.'Hypocotyl'|) (tptp.user_description_2 X |tptp.'The young stem of a germinating angiosperm, below the cotyledons and above the root.'|) (tptp.concept2words_2 X tptp.hypocotyl) (tptp.plant_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hypodermis_1 X) (and (tptp.original_name_2 X |tptp.'Hypodermis'|) (tptp.user_description_2 X |tptp.'A layer of tissue present beneath the dermis of vertebrate skin.'|) (tptp.concept2words_2 X |tptp.'subcutaneous layer'|) (tptp.concept2words_2 X |tptp.'subcutaneous-layer'|) (tptp.concept2words_2 X tptp.hypodermis) (tptp.animal_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.hypopituitarism_1 X) (and (tptp.original_name_2 X |tptp.'Hypopituitarism'|) (tptp.user_description_2 X |tptp.'Decreased hormone production by the pituitary gland. The decrease can be in any or all of the pituitary hormones.'|) (tptp.concept2words_2 X tptp.hypopituitarism) (tptp.metabolic_disorder_1 X) (not (tptp.gigantism_1 X)) (not (tptp.diabetes_mellitus_1 X)) (not (tptp.cretinism_1 X)) (not (tptp.mitochondrial_myopathy_1 X)) (not (tptp.hyperthyroidism_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hypothalamus_1 X) (and (tptp.original_name_2 X |tptp.'Hypothalamus'|) (tptp.user_description_2 X |tptp.'Portion of the vertebrate brain that functions in maintaining homeostasis and secretes a number of hormones, including tropic hormones that act on other endocrine organs. The hypothalamus has a neural connection to the posterior pituitary and thus links the endocrine and nervous systems.'|) (tptp.concept2words_2 X tptp.hypothalamus) (tptp.diencephalon_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_cortex_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hypothesis_1 X) (and (tptp.original_name_2 X |tptp.'Hypothesis'|) (tptp.user_description_2 X |tptp.'A tentative answer to a well-framed question, narrower in scope than a theory and subject to testing.'|) (tptp.concept2words_2 X tptp.hypotheses) (tptp.concept2words_2 X tptp.hypothesis) (tptp.information_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.representation_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X))))) (forall ((X $$unsorted)) (=> (tptp.hypotonic_1 X) (and (tptp.original_name_2 X |tptp.'Hypotonic'|) (tptp.user_description_2 X |tptp.'Refers to a solution that has a lower salt concentration than a cell, and will thus cause a cell to take in water and swell.'|) (tptp.concept2words_2 X tptp.hypotonic) (tptp.tonicity_1 X) (not (tptp.hypertonic_1 X)) (not (tptp.isotonic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hypotonic_solution_2 X))) (let ((_let_2 (tptp.fn_hypertonic_solution_6 _let_1))) (let ((_let_3 (tptp.fn_hypertonic_solution_8 _let_1))) (let ((_let_4 (tptp.fn_mixture_1 _let_1))) (let ((_let_5 (tptp.fn_hypertonic_solution_5 _let_1))) (let ((_let_6 (tptp.fn_solution_5 X))) (let ((_let_7 (tptp.fn_aqueous_solution_14 X))) (let ((_let_8 (tptp.fn_solution_6 X))) (let ((_let_9 (tptp.fn_hypotonic_solution_4 X))) (let ((_let_10 (tptp.fn_hypertonic_solution_4 _let_1))) (let ((_let_11 (tptp.fn_hypotonic_solution_5 X))) (let ((_let_12 (tptp.fn_hypertonic_solution_3 _let_1))) (let ((_let_13 (tptp.fn_hypotonic_solution_6 X))) (let ((_let_14 (tptp.fn_hypotonic_solution_7 X))) (let ((_let_15 (tptp.fn_hypertonic_solution_2 _let_1))) (let ((_let_16 (tptp.fn_hypertonic_solution_1 _let_1))) (let ((_let_17 (tptp.fn_hypotonic_solution_3 X))) (=> (tptp.hypotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Hypotonic-Solution'|) (tptp.user_description_2 X |tptp.'A hypotonic solution is one with a low concentration of solutes when compared to another solution which is separated from it by a semipermeable membrane. As opposed to an isotonic solution or a hypertonic solution.'|) (tptp.concept2words_2 X |tptp.'hypotonic solution'|) (tptp.concept2words_2 X |tptp.'hypotonic-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.basic_solution_1 X)) (not (tptp.buffered_solution_1 X)) (not (tptp.gel_1 X)) (not (tptp.hypertonic_solution_1 X)) (not (tptp.isotonic_solution_1 X)) (tptp.hypertonic_solution_1 _let_1) (tptp.chemical_1 _let_17) (tptp.water_1 _let_17) (tptp.substance_1 _let_9) (tptp.chemical_1 _let_9) (tptp.concentration_value_1 _let_11) (tptp.concentration_value_1 _let_13) (tptp.chemical_1 _let_14) (tptp.property_node_1 _let_16) (tptp.property_node_1 _let_15) (tptp.concentration_value_1 _let_12) (tptp.concentration_value_1 _let_10) (tptp.chemical_1 _let_5) (tptp.substance_1 _let_4) (tptp.chemical_1 _let_3) (tptp.hypotonic_solution_1 _let_2) (not (= _let_14 _let_17)) (not (= _let_17 _let_14)) (tptp.has_part_2 X _let_17) (tptp.has_solvent_2 X _let_17) (tptp.has_solute_2 _let_1 _let_9) (tptp.greater_than_or_equal_to_2 _let_11 _let_13) (tptp.concentration_2 _let_14 _let_13) (tptp.has_part_2 X _let_14) (tptp.has_solute_2 X _let_14) (tptp.has_part_2 _let_1 _let_9) (tptp.concentration_2 _let_9 _let_11) (tptp.greater_than_2 _let_11 _let_13) (tptp.is_hypotonic_to_2 X _let_1) (tptp.is_hypertonic_to_2 _let_1 X) (= _let_14 _let_6) (= _let_17 _let_8) (= _let_17 _let_7) (= (tptp.fn_hypotonic_solution_8 X) _let_16) (= (tptp.fn_hypotonic_solution_1 X) _let_15) (= _let_14 _let_5) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_4) (= _let_9 _let_3) (= X _let_2) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.i_band_filament_1 X) (and (tptp.original_name_2 X |tptp.'I-Band-Filament'|) (tptp.user_description_2 X |tptp.'An area of the sarcomere that consists of thin filaments'|) (tptp.concept2words_2 X |tptp.'i band'|) (tptp.concept2words_2 X |tptp.'i-band'|) (tptp.concept2words_2 X |tptp.'i filament'|) (tptp.concept2words_2 X |tptp.'i-filament'|) (tptp.concept2words_2 X |tptp.'i band filament'|) (tptp.concept2words_2 X |tptp.'i-band-filament'|) (tptp.filament_protein_1 X) (not (tptp.aster_1 X)) (not (tptp.axon_hillock_1 X)) (not (tptp.axon_1 X)) (not (tptp.biomembrane_1 X)) (not (tptp.cell_body_1 X)) (not (tptp.chromosomal_arrangement_1 X)) (not (tptp.dendrite_1 X)) (not (tptp.fertilization_envelope_1 X)) (not (tptp.fimbria_1 X)) (not (tptp.growth_cone_1 X)) (not (tptp.myelin_sheath_1 X)) (not (tptp.node_of_ranvier_1 X)) (not (tptp.phospholipid_bilayer_1 X)) (not (tptp.phospholipid_layer_1 X)) (not (tptp.phragmoplast_1 X)) (not (tptp.platelet_1 X)) (not (tptp.preprophase_band_1 X)) (not (tptp.primary_cell_wall_1 X)) (not (tptp.pseudopodium_1 X)) (not (tptp.root_hair_1 X)) (not (tptp.sarcomere_1 X)) (not (tptp.sex_pilus_1 X)) (not (tptp.statocyst_1 X)) (not (tptp.synaptic_terminal_1 X)) (not (tptp.transverse_tubule_1 X)) (not (tptp.z_line_filament_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_i_minus_7 X))) (let ((_let_2 (tptp.fn_i_minus_6 X))) (let ((_let_3 (tptp.fn_i_minus_5 X))) (let ((_let_4 (tptp.fn_i_minus_2 X))) (let ((_let_5 (tptp.fn_i_minus_1 X))) (let ((_let_6 (tptp.fn_i_minus_3 X))) (=> (tptp.i_minus_1 X) (and (tptp.original_name_2 X |tptp.'I-Minus'|) (tptp.user_description_2 X |tptp.'Iodide ion'|) (tptp.concept2words_2 X tptp.iodide) (tptp.concept2words_2 X |tptp.'minus of i'|) (tptp.concept2words_2 X |tptp.'i minus'|) (tptp.concept2words_2 X |tptp.'i-minus'|) (tptp.monoatomic_ion_1 X) (tptp.anion_1 X) (tptp.electron_1 _let_5) (tptp.neutron_1 _let_4) (tptp.iodine_1 _let_6) (tptp.charge_value_1 _let_3) (tptp.iodine_1 _let_2) (tptp.gain_1 _let_1) (tptp.the_cardinal_value_2 _let_3 |"-1"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.has_ion_2 _let_6 X) (tptp.has_part_2 X _let_5) (tptp.has_part_2 X _let_4) (tptp.exactCardinality X tptp.has_part_0 |"10"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"9"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"9"| tptp.neutron_0) (tptp.charge_2 X _let_3) (tptp.result_2 _let_1 X) (tptp.base_2 _let_1 _let_2) (tptp.recipient_2 _let_1 _let_2) (= (tptp.fn_i_minus_4 X) (tptp.fn_anion_7 X)) (= _let_3 (tptp.fn_anion_6 X)) (= _let_2 (tptp.fn_anion_5 X)) (= _let_1 (tptp.fn_anion_2 X))))))))))) (forall ((X $$unsorted)) (=> (tptp.ia_1 X) (and (tptp.original_name_2 X |tptp.'IA'|) (tptp.user_description_2 X |tptp.'The allele coding for blood carbohydrate A.'|) (tptp.concept2words_2 X tptp.ia) (tptp.blood_allele_1 X) (not (tptp.allele_i_1 X)) (not (tptp.ib_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ia_alkali_metal_element_1 X) (and (tptp.original_name_2 X |tptp.'IA-Alkali-Metal-Element'|) (tptp.user_description_2 X |tptp.'Elements in group 1A of the periodic table are called the alkali metals. They are H, Li, Na, K, Rb, Cs and Fr.'|) (tptp.concept2words_2 X tptp.ia) (tptp.concept2words_2 X |tptp.'group ia element'|) (tptp.concept2words_2 X |tptp.'group-ia-element'|) (tptp.concept2words_2 X |tptp.'alkali metal'|) (tptp.concept2words_2 X |tptp.'alkali-metal'|) (tptp.concept2words_2 X |tptp.'group 1 element'|) (tptp.concept2words_2 X |tptp.'group-1-element'|) (tptp.concept2words_2 X |tptp.'ia alkali metal element'|) (tptp.concept2words_2 X |tptp.'ia-alkali-metal-element'|) (tptp.chemical_element_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ib_1 X) (and (tptp.original_name_2 X |tptp.'IB'|) (tptp.user_description_2 X |tptp.'The allele coding for blood carbohydrate B.'|) (tptp.concept2words_2 X tptp.ib) (tptp.blood_allele_1 X) (not (tptp.allele_i_1 X)) (not (tptp.ia_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ibuprofen_1 X) (and (tptp.original_name_2 X |tptp.'Ibuprofen'|) (tptp.user_description_2 X |tptp.'Ibuprofen is a nonsteroidal anti-inflammatory drug'|) (tptp.concept2words_2 X tptp.ibuprofen) (tptp.molecule_1 X) (tptp.drug_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ibuprofen_isomer_1 X))) (=> (tptp.ibuprofen_isomer_1 X) (and (tptp.original_name_2 X |tptp.'Ibuprofen-Isomer'|) (tptp.user_description_2 X |tptp.'One of the two forms of Ibuprofen, each with the same atomic parts, but different structure, shape and function.'|) (tptp.concept2words_2 X |tptp.'isomer of ibuprofen'|) (tptp.concept2words_2 X |tptp.'ibuprofen isomer'|) (tptp.concept2words_2 X |tptp.'ibuprofen-isomer'|) (tptp.drug_1 X) (tptp.isomer_1 X) (tptp.ibuprofen_1 _let_1) (tptp.has_state_2 _let_1 X) (tptp.has_isomer_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ice_11 X))) (let ((_let_2 (tptp.fn_float_1 _let_1))) (let ((_let_3 (tptp.fn_ice_22 X))) (let ((_let_4 (tptp.fn_melting_2 _let_3))) (let ((_let_5 (tptp.fn_ice_14 X))) (let ((_let_6 (tptp.fn_water_31 _let_5))) (let ((_let_7 (tptp.fn_ice_23 X))) (let ((_let_8 (tptp.fn_heat_1 _let_7))) (let ((_let_9 (tptp.fn_float_2 _let_1))) (let ((_let_10 (tptp.fn_ice_9 X))) (let ((_let_11 (tptp.fn_barrier_1 _let_10))) (let ((_let_12 (tptp.fn_melting_3 _let_3))) (let ((_let_13 (tptp.fn_chemical_3 X))) (let ((_let_14 (tptp.fn_ice_17 X))) (let ((_let_15 (tptp.fn_attach_2 _let_14))) (let ((_let_16 (tptp.fn_ice_21 X))) (let ((_let_17 (tptp.fn_move_apart_2 _let_16))) (let ((_let_18 (tptp.fn_move_apart_1 _let_16))) (let ((_let_19 (tptp.fn_attach_1 _let_14))) (let ((_let_20 (tptp.fn_water_33 _let_5))) (let ((_let_21 (tptp.fn_ice_13 X))) (let ((_let_22 (tptp.fn_water_32 _let_5))) (let ((_let_23 (tptp.fn_ice_15 X))) (let ((_let_24 (tptp.fn_water_42 _let_5))) (let ((_let_25 (tptp.fn_water_43 _let_5))) (let ((_let_26 (tptp.fn_heat_4 _let_7))) (let ((_let_27 (tptp.fn_ice_24 X))) (let ((_let_28 (tptp.fn_heat_3 _let_7))) (let ((_let_29 (tptp.fn_ice_25 X))) (let ((_let_30 (tptp.fn_impair_1 _let_29))) (let ((_let_31 (tptp.fn_ice_18 X))) (let ((_let_32 (tptp.fn_ice_20 X))) (let ((_let_33 (tptp.fn_ice_8 X))) (let ((_let_34 (tptp.fn_block_1 _let_33))) (let ((_let_35 (tptp.fn_ice_10 X))) (let ((_let_36 (tptp.fn_ice_19 X))) (let ((_let_37 (tptp.fn_ice_6 X))) (let ((_let_38 (tptp.fn_ice_2 X))) (let ((_let_39 (tptp.concept2words_2 X |tptp.'floating water'|))) (=> (tptp.ice_1 X) (and (tptp.original_name_2 X |tptp.'Ice'|) (tptp.user_description_2 X |tptp.'The solid form of water. Because water molecules are farther apart in the solid form of water compared to the liquid form, ice floats on liquid water.'|) (tptp.concept2words_2 X |tptp.'solid water'|) _let_39 (tptp.concept2words_2 X |tptp.'floating ice'|) (tptp.concept2words_2 X |tptp.'frozen water'|) _let_39 (tptp.concept2words_2 X tptp.ice) (tptp.chemical_1 X) (tptp.solid_substance_1 X) (not (tptp.aflatoxin_1 X)) (not (tptp.aldehyde_1 X)) (not (tptp.amine_1 X)) (not (tptp.antibiotic_1 X)) (not (tptp.carbon_monoxide_1 X)) (not (tptp.carboxylic_acid_1 X)) (not (tptp.ddt_1 X)) (not (tptp.nitroglycerine_1 X)) (not (tptp.opiate_1 X)) (tptp.consistency_value_1 _let_38) (tptp.system_1 (tptp.fn_ice_4 X)) (tptp.temperature_value_1 _let_37) (tptp.block_1 _let_33) (tptp.barrier_1 _let_10) (tptp.air_1 _let_35) (tptp.float_1 _let_1) (tptp.density_value_1 _let_21) (tptp.liquid_substance_1 _let_5) (tptp.water_1 _let_5) (tptp.density_value_1 _let_23) (tptp.attach_1 _let_14) (tptp.hydrogen_bond_1 _let_31) (tptp.water_molecule_1 _let_36) (tptp.water_molecule_1 _let_32) (tptp.move_apart_1 _let_16) (tptp.melting_1 _let_3) (tptp.heat_1 _let_7) (tptp.temperature_value_1 _let_27) (tptp.break_1 _let_29) (tptp.spatial_entity_1 _let_34) (tptp.tangible_entity_1 _let_30) (tptp.property_node_1 _let_28) (tptp.temperature_value_1 _let_26) (tptp.property_node_1 _let_25) (tptp.property_node_1 _let_24) (tptp.density_value_1 _let_22) (tptp.density_value_1 _let_20) (tptp.spatial_entity_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.solid_substance_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.solid_substance_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.ice_1 _let_6) (tptp.liquid_substance_1 _let_4) (tptp.liquid_substance_1 _let_2) (tptp.the_cardinal_value_2 _let_27 |"0.0e0"|) (tptp.cardinal_unit_class_2 _let_27 tptp.celsius_0) (tptp.the_categorical_value_2 _let_38 tptp.crystalline_0) (tptp.causes_2 _let_7 _let_3) (tptp.by_means_of_2 _let_3 _let_29) (tptp.causes_2 _let_3 _let_16) (tptp.instrument_2 _let_14 _let_31) (tptp.exactCardinality _let_14 tptp.object_0 |"4"| tptp.water_molecule_0) (tptp.called_2 _let_23 |tptp.'Ice_Density'|) (tptp.temperature_2 X _let_27) (tptp.possesses_2 X _let_31) (tptp.consistency_2 X _let_38) (tptp.has_part_2 X _let_36) (tptp.called_2 _let_21 |tptp.'Water_Density'|) (tptp.the_categorical_value_2 _let_37 tptp.freezing_0) (tptp.temperature_2 _let_35 _let_37) (tptp.in_event_2 _let_10 _let_33) (tptp.instrument_2 _let_33 X) (tptp.object_2 _let_16 _let_32) (tptp.object_2 _let_14 _let_36) (tptp.object_2 _let_16 _let_36) (tptp.base_2 _let_14 _let_32) (tptp.object_2 _let_33 _let_35) (tptp.has_part_2 X _let_32) (tptp.object_2 _let_29 _let_31) (tptp.result_2 _let_3 _let_5) (tptp.object_2 _let_3 X) (tptp.plays_2 X _let_10) (tptp.object_2 _let_1 X) (tptp.is_above_2 X _let_5) (tptp.base_2 _let_1 _let_5) (tptp.base_2 _let_7 X) (tptp.from_value_2 _let_7 _let_27) (tptp.density_2 _let_5 _let_21) (tptp.greater_than_2 _let_21 _let_23) (tptp.density_2 X _let_23) (= _let_32 _let_17) (= _let_36 _let_19) (= _let_36 _let_18) (= _let_32 _let_15) (= _let_35 _let_34) (= _let_32 _let_13) (= _let_31 _let_30) (= _let_5 _let_4) (= X _let_12) (= X _let_11) (= _let_5 _let_2) (= X _let_9) (= X _let_8) (= (tptp.fn_ice_26 X) _let_28) (= _let_27 _let_26) (= (tptp.fn_ice_12 X) _let_25) (= (tptp.fn_ice_16 X) _let_24) (= X _let_6) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.identify_1 X) (and (tptp.original_name_2 X |tptp.'Identify'|) (tptp.user_description_2 X |tptp.'To establish the identity of a particular thing or person.'|) (tptp.concept2words_2 X tptp.identify) (tptp.communicate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_identify_cell_by_protein_expression_4 X))) (let ((_let_2 (tptp.fn_cell_8 _let_1))) (let ((_let_3 (tptp.fn_identify_cell_by_protein_expression_3 X))) (let ((_let_4 (tptp.fn_identify_cell_by_protein_expression_1 X))) (let ((_let_5 (tptp.fn_identify_cell_by_protein_expression_2 X))) (=> (tptp.identify_cell_by_protein_expression_1 X) (and (tptp.original_name_2 X |tptp.'Identify-Cell-By-Protein-Expression'|) (tptp.user_description_2 X |tptp.'Distinguishing cell and its corresponding gene and protein product by measuring protein.'|) (tptp.concept2words_2 X tptp.express) (tptp.concept2words_2 X |tptp.'identify cell by protein expression'|) (tptp.concept2words_2 X |tptp.'identify-cell-by-protein-expression'|) (tptp.distinguishing_1 X) (not (tptp.codon_recognition_1 X)) (not (tptp.compare_genes_1 X)) (not (tptp.distinguishing_defective_chromosome_1 X)) (not (tptp.dna_proofreading_1 X)) (not (tptp.identify_cell_clones_with_gene_of_interest_1 X)) (tptp.gene_1 _let_4) (tptp.measure_1 _let_5) (tptp.motor_protein_1 _let_3) (tptp.cell_1 _let_1) (tptp.motor_protein_1 _let_2) (tptp.object_2 _let_5 _let_3) (tptp.subevent_2 X _let_5) (tptp.object_2 X _let_4) (tptp.object_2 X _let_1) (tptp.has_part_2 _let_1 _let_3) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_identify_cell_clones_with_gene_of_interest_2 X))) (let ((_let_2 (tptp.fn_dna_strand_14 _let_1))) (let ((_let_3 (tptp.fn_identify_cell_clones_with_gene_of_interest_3 X))) (let ((_let_4 (tptp.fn_identify_cell_by_protein_expression_1 _let_3))) (let ((_let_5 (tptp.fn_identify_cell_clones_with_gene_of_interest_5 X))) (let ((_let_6 (tptp.fn_gene_6 _let_5))) (let ((_let_7 (tptp.fn_identify_cell_clones_with_gene_of_interest_6 X))) (let ((_let_8 (tptp.fn_cell_8 _let_7))) (let ((_let_9 (tptp.fn_gene_13 _let_5))) (let ((_let_10 (tptp.fn_identify_cell_clones_with_gene_of_interest_7 X))) (let ((_let_11 (tptp.fn_identify_cell_clones_with_gene_of_interest_4 X))) (let ((_let_12 (tptp.fn_identify_cell_by_protein_expression_4 _let_3))) (let ((_let_13 (tptp.fn_identify_cell_clones_with_gene_of_interest_1 X))) (=> (tptp.identify_cell_clones_with_gene_of_interest_1 X) (and (tptp.original_name_2 X |tptp.'Identify-Cell-Clones-With-Gene-Of-Interest'|) (tptp.user_description_2 X |tptp.'Identify Cell Clones With Gene Of Interest: Distinguishing cells with genes based on their genetic material and protein products by way of Nucleic Acid Hybridization and detecting protein expression, respectively.'|) (tptp.concept2words_2 X tptp.identify) (tptp.concept2words_2 X |tptp.'identify cell clones with gene of interest'|) (tptp.concept2words_2 X |tptp.'identify-cell-clones-with-gene-of-interest'|) (tptp.distinguishing_1 X) (not (tptp.codon_recognition_1 X)) (not (tptp.compare_genes_1 X)) (not (tptp.distinguishing_defective_chromosome_1 X)) (not (tptp.dna_proofreading_1 X)) (not (tptp.identify_cell_by_protein_expression_1 X)) (tptp.isotopic_labeling_1 _let_13) (tptp.nucleic_acid_hybridization_1 _let_13) (tptp.dna_strand_1 _let_1) (tptp.identify_cell_by_protein_expression_1 _let_3) (tptp.motor_protein_1 _let_11) (tptp.protein_1 _let_11) (tptp.gene_1 _let_5) (tptp.clone_1 _let_7) (tptp.code_for_1 _let_10) (tptp.cell_1 _let_12) (tptp.code_for_1 _let_9) (tptp.motor_protein_1 _let_8) (tptp.protein_1 _let_6) (tptp.gene_1 _let_4) (tptp.gene_1 _let_2) (tptp.object_2 X _let_7) (tptp.object_2 X _let_5) (tptp.object_2 X _let_11) (tptp.by_means_of_2 X _let_3) (tptp.by_means_of_2 X _let_13) (tptp.object_2 _let_3 _let_7) (tptp.object_2 _let_3 _let_5) (tptp.has_part_2 _let_1 _let_5) (tptp.has_part_2 _let_7 _let_11) (tptp.result_2 _let_10 _let_11) (tptp.agent_2 _let_10 _let_5) (= _let_7 _let_12) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_11 _let_8) (= _let_11 _let_6) (= _let_10 _let_9) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.if_then_logic_1 X) (and (tptp.original_name_2 X |tptp.'If-Then-Logic'|) (tptp.user_description_2 X |tptp.'A type of logic used in deductive reasoning in which general premises are used to predict a specific result we should expect if the premises are true.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'if then logic'|) (tptp.concept2words_2 X |tptp.'if-then-logic'|) (tptp.deductive_reasoning_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ige_antibodies_1 X) (and (tptp.original_name_2 X |tptp.'IgE-Antibodies'|) (tptp.user_description_2 X |tptp.'A class of antibodies associated with common allergies such as hay fever, hives, and asthma.'|) (tptp.concept2words_2 X |tptp.'ige antibodyes'|) (tptp.concept2words_2 X |tptp.'ige antibody'|) (tptp.concept2words_2 X |tptp.'ige-antibody'|) (tptp.antibody_1 X) (not (tptp.monoclonal_antibody_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X |tptp.'group-iia-element'|))) (let ((_let_2 (tptp.concept2words_2 X |tptp.'group iia element'|))) (=> (tptp.iia_alkaline_earth_metal_element_1 X) (and (tptp.original_name_2 X |tptp.'IIA-Alkaline-Earth-Metal-Element'|) (tptp.user_description_2 X |tptp.'Elements in group 2A of the periodic table are called the alkaline earth metals. They are Be, Mg, Ca, Sr, Ba and Ra.'|) (tptp.concept2words_2 X tptp.iia) _let_2 _let_1 (tptp.concept2words_2 X |tptp.'group 2 element'|) (tptp.concept2words_2 X |tptp.'group-2-element'|) (tptp.concept2words_2 X |tptp.'alkaline earth metal'|) (tptp.concept2words_2 X |tptp.'alkaline-earth-metal'|) _let_2 _let_1 (tptp.concept2words_2 X |tptp.'iia alkaline earth metal element'|) (tptp.concept2words_2 X |tptp.'iia-alkaline-earth-metal-element'|) (tptp.chemical_element_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.iiia_element_1 X) (and (tptp.original_name_2 X |tptp.'IIIA-Element'|) (tptp.user_description_2 X |tptp.'Elements in group 3A of the periodic table are B, Al, Ga, In and Tl.'|) (tptp.concept2words_2 X tptp.iiia) (tptp.concept2words_2 X |tptp.'group iiia elements'|) (tptp.concept2words_2 X |tptp.'group-iiia-elements'|) (tptp.concept2words_2 X |tptp.'group 3 elements'|) (tptp.concept2words_2 X |tptp.'group-3-elements'|) (tptp.concept2words_2 X |tptp.'iiia element'|) (tptp.concept2words_2 X |tptp.'iiia-element'|) (tptp.chemical_element_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ileum_1 X) (and (tptp.original_name_2 X |tptp.'Ileum'|) (tptp.user_description_2 X |tptp.'The distal region of the small intestine in most higher vertebrates. It is lined with villi and microvilli and functions in nutrient and water absorption.'|) (tptp.concept2words_2 X tptp.ileum) (tptp.organ_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.image_1 X) (and (tptp.original_name_2 X |tptp.'Image'|) (tptp.user_description_2 X |tptp.'A visual representation (of an object or scene or person or abstraction) produced on a surface.'|) (tptp.concept2words_2 X tptp.image) (tptp.useful_product_1 X)))) (forall ((X $$unsorted)) (=> (tptp.imbibition_1 X) (and (tptp.original_name_2 X |tptp.'Imbibition'|) (tptp.user_description_2 X |tptp.'Uptake of water at a surface.'|) (tptp.concept2words_2 X tptp.imbibe) (tptp.concept2words_2 X tptp.imbibition) (tptp.general_chemical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.immigration_1 X) (and (tptp.original_name_2 X |tptp.'Immigration'|) (tptp.user_description_2 X |tptp.'The movement into a population of individuals that came from another area.'|) (tptp.concept2words_2 X tptp.immigrate) (tptp.concept2words_2 X tptp.immigration) (tptp.demography_1 X) (not (tptp.demographic_transition_1 X)) (not (tptp.emigration_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immune_cell_9 X))) (let ((_let_2 (tptp.fn_rough_endoplasmic_reticulum_55 _let_1))) (let ((_let_3 (tptp.fn_immune_cell_1 X))) (let ((_let_4 (tptp.fn_exchange_4 _let_3))) (let ((_let_5 (tptp.fn_immune_cell_5 X))) (let ((_let_6 (tptp.fn_endoplasmic_reticulum_25 _let_5))) (let ((_let_7 (tptp.fn_exchange_3 _let_3))) (let ((_let_8 (tptp.fn_rough_endoplasmic_reticulum_62 _let_1))) (let ((_let_9 (tptp.fn_endoplasmic_reticulum_11 _let_5))) (let ((_let_10 (tptp.fn_rough_endoplasmic_reticulum_68 _let_1))) (let ((_let_11 (tptp.fn_endoplasmic_reticulum_23 _let_5))) (let ((_let_12 (tptp.fn_immune_cell_6 X))) (let ((_let_13 (tptp.fn_synthesis_of_endomembranous_system_membrane_59 _let_12))) (let ((_let_14 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_5))) (let ((_let_15 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_5))) (let ((_let_16 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_5))) (let ((_let_17 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_5))) (let ((_let_18 (tptp.fn_immune_cell_3 X))) (let ((_let_19 (tptp.fn_immune_cell_2 X))) (let ((_let_20 (tptp.fn_immune_cell_4 X))) (let ((_let_21 (tptp.fn_immune_cell_7 X))) (let ((_let_22 (tptp.fn_immune_response_2 _let_21))) (let ((_let_23 (tptp.fn_immune_cell_8 X))) (=> (tptp.immune_cell_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Cell'|) (tptp.user_description_2 X |tptp.'Immune cells are cells of the immune system involved in defending the body against both infectious diseases and foreign materials.'|) (tptp.concept2words_2 X |tptp.'cell of immune'|) (tptp.concept2words_2 X |tptp.'immune cell'|) (tptp.concept2words_2 X |tptp.'immune-cell'|) (tptp.animal_cell_1 X) (tptp.exchange_1 _let_3) (tptp.transfer_1 _let_19) (tptp.transfer_1 _let_18) (tptp.synthesis_reaction_1 _let_20) (tptp.chemical_reaction_1 _let_20) (tptp.anabolic_pathway_1 _let_20) (tptp.endergonic_reaction_1 _let_20) (tptp.metabolic_pathway_1 _let_20) (tptp.synthesis_of_lipid_1 _let_20) (tptp.smooth_endoplasmic_reticulum_1 _let_5) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_12) (tptp.immune_response_1 _let_21) (tptp.immune_system_1 _let_23) (tptp.rough_endoplasmic_reticulum_1 _let_1) (tptp.immune_system_1 _let_22) (tptp.synthesis_reaction_1 _let_17) (tptp.synthesis_reaction_1 _let_16) (tptp.chemical_reaction_1 _let_15) (tptp.synthesis_of_lipid_1 _let_15) (tptp.chemical_reaction_1 _let_14) (tptp.synthesis_of_lipid_1 _let_14) (tptp.anabolic_pathway_1 _let_14) (tptp.synthesis_reaction_1 _let_13) (tptp.chemical_reaction_1 _let_13) (tptp.anabolic_pathway_1 _let_13) (tptp.metabolic_pathway_1 _let_13) (tptp.endergonic_reaction_1 _let_13) (tptp.synthesis_of_lipid_1 _let_13) (tptp.synthesis_of_lipid_1 _let_11) (tptp.metabolic_pathway_1 _let_10) (tptp.synthesis_of_lipid_1 _let_10) (tptp.eukaryotic_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.transfer_1 _let_7) (tptp.transfer_1 _let_6) (tptp.transfer_1 _let_4) (tptp.transfer_1 _let_2) (tptp.recipient_2 _let_19 _let_1) (tptp.recipient_2 _let_18 _let_5) (tptp.abuts_2 _let_5 _let_1) (not (= _let_5 _let_1)) (tptp.agent_2 _let_21 X) (tptp.element_2 _let_23 X) (tptp.has_function_2 X _let_21) (tptp.abuts_2 _let_1 _let_5) (not (= _let_1 _let_5)) (tptp.instrument_2 _let_21 _let_23) (tptp.subevent_2 _let_3 _let_19) (tptp.subevent_2 _let_3 _let_18) (tptp.subevent_2 _let_12 _let_20) (tptp.first_subevent_2 _let_12 _let_20) (tptp.has_function_2 _let_5 _let_20) (tptp.has_part_2 X _let_5) (tptp.site_2 _let_20 _let_5) (tptp.has_part_2 X _let_1) (tptp.base_2 _let_20 X) (tptp.donor_2 _let_18 _let_1) (tptp.agent_2 _let_19 _let_5) (= _let_23 _let_22) (= _let_19 _let_7) (= _let_18 _let_4) (= _let_20 _let_13) (= X _let_9) (= _let_20 _let_17) (= _let_20 _let_16) (= _let_20 _let_15) (= _let_20 _let_14) (= _let_20 _let_11) (= _let_20 _let_10) (= X _let_8) (= _let_19 _let_6) (= _let_18 _let_2) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.immune_disorders_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Disorders'|) (tptp.user_description_2 X |tptp.'Disorders caused by abnormal function of the immune system.'|) (tptp.concept2words_2 X |tptp.'immune disorders'|) (tptp.concept2words_2 X |tptp.'immune disorder'|) (tptp.concept2words_2 X |tptp.'immune-disorder'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (=> (tptp.immune_organ_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Organ'|) (tptp.user_description_2 X |tptp.'Organ which is part of the immune system of animals.'|) (tptp.concept2words_2 X |tptp.'organ of immune'|) (tptp.concept2words_2 X |tptp.'immune organ'|) (tptp.concept2words_2 X |tptp.'immune-organ'|) (tptp.animal_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.immune_related_intercellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Related-Intercellular-Process'|) (tptp.user_description_2 X |tptp.'Intercellular process related to the immune system of animals.'|) (tptp.concept2words_2 X |tptp.'immune related intercellular process'|) (tptp.concept2words_2 X |tptp.'immune-related-intercellular-process'|) (tptp.intercellular_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immune_response_1 X))) (let ((_let_2 (tptp.fn_immune_response_2 X))) (=> (tptp.immune_response_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Response'|) (tptp.user_description_2 X |tptp.'Any process by which an organism recognizes and defends itself against microbial pathogens and substances that may be harmful.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'response of immune'|) (tptp.concept2words_2 X |tptp.'immune response'|) (tptp.concept2words_2 X |tptp.'immune-response'|) (tptp.macrophysiological_process_1 X) (tptp.communication_through_cell_cell_recognition_1 _let_1) (tptp.immune_system_1 _let_2) (tptp.instrument_2 X _let_2) (tptp.subevent_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immune_response_for_transformed_cell_2 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (let ((_let_3 (tptp.fn_immune_response_for_transformed_cell_1 X))) (let ((_let_4 (tptp.fn_perceive_1 _let_3))) (let ((_let_5 (tptp.fn_immune_response_for_transformed_cell_4 X))) (let ((_let_6 (tptp.fn_immune_response_for_transformed_cell_3 X))) (=> (tptp.immune_response_for_transformed_cell_1 X) (and (tptp.original_name_2 X |tptp.'Immune-Response-For-Transformed-Cell'|) (tptp.user_description_2 X |tptp.'The process of how an organism recognizes and defends itself against cells which have transformed to cancer cells.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'immune response for transformed cell'|) (tptp.concept2words_2 X |tptp.'immune-response-for-transformed-cell'|) (tptp.immune_response_1 X) (tptp.recognize_1 _let_3) (tptp.destroy_1 _let_1) (tptp.cancer_cell_1 _let_6) (tptp.immune_system_1 _let_5) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.object_2 X _let_6) (tptp.first_subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.instrument_2 _let_1 _let_5) (tptp.instrument_2 _let_3 _let_5) (tptp.next_event_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_6) (tptp.object_2 _let_1 _let_6) (tptp.instrument_2 X _let_5) (= _let_6 _let_4) (= _let_6 _let_2) (= _let_5 (tptp.fn_immune_response_2 X)) (= _let_4 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immune_system_13 X))) (let ((_let_2 (tptp.fn_rejection_of_foreign_cell_5 _let_1))) (let ((_let_3 (tptp.fn_immune_system_9 X))) (let ((_let_4 (tptp.fn_immune_cell_8 _let_3))) (let ((_let_5 (tptp.fn_immune_system_12 X))) (let ((_let_6 (tptp.fn_rejection_of_foreign_cell_5 _let_5))) (let ((_let_7 (tptp.fn_immune_system_10 X))) (let ((_let_8 (tptp.fn_rejection_of_foreign_cell_5 _let_7))) (let ((_let_9 (tptp.fn_immune_system_5 X))) (let ((_let_10 (tptp.fn_immune_cell_8 _let_9))) (let ((_let_11 (tptp.fn_rejection_of_foreign_cell_4 _let_1))) (let ((_let_12 (tptp.fn_immune_system_11 X))) (let ((_let_13 (tptp.fn_immune_cell_7 _let_3))) (let ((_let_14 (tptp.fn_immune_system_6 X))) (let ((_let_15 (tptp.fn_rejection_of_foreign_cell_4 _let_5))) (let ((_let_16 (tptp.fn_immune_system_8 X))) (let ((_let_17 (tptp.fn_create_1 _let_16))) (let ((_let_18 (tptp.fn_immune_system_7 X))) (let ((_let_19 (tptp.fn_immune_system_1 X))) (let ((_let_20 (tptp.fn_immune_system_2 X))) (let ((_let_21 (tptp.fn_immune_system_3 X))) (let ((_let_22 (tptp.fn_immune_system_4 X))) (=> (tptp.immune_system_1 X) (and (tptp.original_name_2 X |tptp.'Immune-System'|) (tptp.user_description_2 X |tptp.'The set of biological processes and structures that protect an organism from disease.'|) (tptp.concept2words_2 X |tptp.'system of immune'|) (tptp.concept2words_2 X |tptp.'immune system'|) (tptp.concept2words_2 X |tptp.'immune-system'|) (tptp.animal_system_1 X) (tptp.defense_1 _let_19) (tptp.defense_1 _let_20) (tptp.apoptosis_1 _let_21) (tptp.defense_1 _let_22) (tptp.t_cells_1 _let_9) (tptp.immune_response_1 _let_14) (tptp.immunoglobulin_protein_1 _let_18) (tptp.create_1 _let_16) (tptp.b_cell_1 _let_3) (tptp.rejection_of_foreign_cell_1 _let_7) (tptp.vertebrate_1 _let_12) (tptp.rejection_of_foreign_cell_1 _let_5) (tptp.rejection_of_foreign_cell_1 _let_1) (tptp.entity_1 _let_17) (tptp.vertebrate_1 _let_15) (tptp.immune_response_1 _let_13) (tptp.vertebrate_1 _let_11) (tptp.immune_system_1 _let_10) (tptp.immune_system_1 _let_8) (tptp.immune_system_1 _let_6) (tptp.immune_system_1 _let_4) (tptp.immune_system_1 _let_2) (tptp.has_function_2 X _let_1) (tptp.has_function_2 X _let_5) (tptp.has_function_2 X _let_7) (tptp.minCardinality X tptp.element_0 |"1000000"| tptp.b_cell_0) (tptp.agent_2 _let_22 X) (tptp.object_2 _let_22 _let_12) (tptp.minCardinality _let_16 tptp.result_0 |"1000000"| tptp.immunoglobulin_protein_0) (tptp.agent_2 _let_16 _let_3) (tptp.enables_2 _let_21 _let_14) (tptp.agent_2 _let_20 X) (tptp.object_2 _let_20 _let_12) (tptp.base_2 _let_1 _let_12) (tptp.agent_2 _let_19 X) (tptp.object_2 _let_19 _let_12) (tptp.result_2 _let_16 _let_18) (tptp.element_2 X _let_9) (tptp.agent_2 _let_7 X) (tptp.base_2 _let_5 _let_12) (tptp.agent_2 _let_5 X) (tptp.element_2 X _let_3) (tptp.instrument_2 _let_14 X) (tptp.agent_2 _let_1 X) (tptp.has_region_2 _let_12 X) (tptp.base_2 _let_7 _let_12) (= _let_18 _let_17) (= X _let_10) (= X _let_8) (= _let_12 _let_15) (= X _let_6) (= _let_14 _let_13) (= X _let_4) (= _let_12 _let_11) (= X _let_2) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.immunization_1 X) (and (tptp.original_name_2 X |tptp.'Immunization'|) (tptp.user_description_2 X |tptp.'The process by which an inactive or weakened form of a pathogen is introduced into the body, triggering the production of memory cells. Upon second contact with the pathogen, the immune system responds much more quickly and rapidly produces antibodies that can fight off the pathogen.'|) (tptp.concept2words_2 X tptp.vaccination) (tptp.concept2words_2 X tptp.immunize) (tptp.concept2words_2 X tptp.immunization) (tptp.medical_procedure_1 X) (not (tptp.abortion_1 X)) (not (tptp.assisted_reproductive_technology_1 X)) (not (tptp.electrocardiogram_1 X)) (not (tptp.genetic_testing_1 X)) (not (tptp.newborn_screening_1 X)) (not (tptp.paternity_testing_1 X)) (not (tptp.tubal_ligation_1 X)) (not (tptp.ultrasound_imaging_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.immunodeficiency_1 X) (and (tptp.original_name_2 X |tptp.'Immunodeficiency'|) (tptp.user_description_2 X |tptp.'A condition in which the immune system is not able to adequately protect against pathogens.'|) (tptp.concept2words_2 X tptp.immunodeficiency) (tptp.autoimmune_disease_1 X) (not (tptp.lupus_1 X)) (not (tptp.rheumatoid_arthritis_1 X)) (not (tptp.type_1_diabetes_mellitus_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_immunoglobulin_gene_31 X))) (let ((_let_2 (tptp.fn_intron_6 _let_1))) (let ((_let_3 (tptp.fn_gene_3 X))) (let ((_let_4 (tptp.fn_immunoglobulin_gene_28 X))) (let ((_let_5 (tptp.fn_chemical_bond_4 _let_4))) (let ((_let_6 (tptp.fn_chemical_bond_1 _let_4))) (let ((_let_7 (tptp.fn_gene_10 X))) (let ((_let_8 (tptp.fn_immunoglobulin_gene_13 X))) (let ((_let_9 (tptp.fn_gene_rearrangement_7 _let_8))) (let ((_let_10 (tptp.fn_immunoglobulin_gene_25 X))) (let ((_let_11 (tptp.fn_kinetic_energy_2 _let_10))) (let ((_let_12 (tptp.fn_immunoglobulin_gene_24 X))) (let ((_let_13 (tptp.fn_dna_strand_14 _let_12))) (let ((_let_14 (tptp.fn_immunoglobulin_gene_17 X))) (let ((_let_15 (tptp.fn_move_1 _let_14))) (let ((_let_16 (tptp.fn_immunoglobulin_gene_11 X))) (let ((_let_17 (tptp.fn_animal_21 _let_16))) (let ((_let_18 (tptp.fn_immunoglobulin_gene_12 X))) (let ((_let_19 (tptp.fn_cell_differentiation_19 _let_18))) (let ((_let_20 (tptp.fn_immunoglobulin_gene_29 X))) (let ((_let_21 (tptp.fn_immunoglobulin_gene_34 X))) (let ((_let_22 (tptp.fn_immunoglobulin_gene_30 X))) (let ((_let_23 (tptp.fn_immunoglobulin_gene_9 X))) (let ((_let_24 (tptp.fn_immunoglobulin_gene_27 X))) (let ((_let_25 (tptp.fn_immunoglobulin_gene_26 X))) (let ((_let_26 (tptp.fn_immunoglobulin_gene_35 X))) (let ((_let_27 (tptp.fn_gene_rearrangement_6 _let_8))) (let ((_let_28 (tptp.fn_immunoglobulin_gene_16 X))) (let ((_let_29 (tptp.fn_gene_rearrangement_5 _let_8))) (let ((_let_30 (tptp.fn_immunoglobulin_gene_14 X))) (let ((_let_31 (tptp.fn_kinetic_energy_1 _let_10))) (let ((_let_32 (tptp.fn_immunoglobulin_gene_8 X))) (let ((_let_33 (tptp.fn_immunoglobulin_gene_10 X))) (let ((_let_34 (tptp.fn_eukaryotic_cell_26 _let_33))) (let ((_let_35 (tptp.fn_immunoglobulin_gene_23 X))) (let ((_let_36 (tptp.fn_immunoglobulin_gene_22 X))) (let ((_let_37 (tptp.fn_combine_1 _let_36))) (let ((_let_38 (tptp.fn_immunoglobulin_gene_15 X))) (let ((_let_39 (tptp.fn_combine_2 _let_36))) (let ((_let_40 (tptp.fn_immunoglobulin_gene_18 X))) (let ((_let_41 (tptp.fn_immunoglobulin_gene_20 X))) (let ((_let_42 (tptp.fn_code_for_2 _let_41))) (let ((_let_43 (tptp.fn_immunoglobulin_gene_19 X))) (let ((_let_44 (tptp.fn_code_for_1 _let_41))) (let ((_let_45 (tptp.fn_immunoglobulin_gene_21 X))) (let ((_let_46 (tptp.fn_immunoglobulin_gene_3 X))) (let ((_let_47 (tptp.fn_immunoglobulin_gene_4 X))) (let ((_let_48 (tptp.fn_immunoglobulin_gene_5 X))) (let ((_let_49 (tptp.fn_immunoglobulin_gene_7 X))) (let ((_let_50 (tptp.fn_immunoglobulin_gene_6 X))) (=> (tptp.immunoglobulin_gene_1 X) (and (tptp.original_name_2 X |tptp.'Immunoglobulin-Gene'|) (tptp.user_description_2 X |tptp.'A gene encoding for an immunoglobulin (e.g., an antibody).'|) (tptp.concept2words_2 X |tptp.'antibody gene'|) (tptp.concept2words_2 X |tptp.'gene of immunoglobulin'|) (tptp.concept2words_2 X |tptp.'immunoglobulin gene'|) (tptp.concept2words_2 X |tptp.'immunoglobulin-gene'|) (tptp.eukaryotic_gene_1 X) (tptp.speed_value_1 _let_46) (tptp.quantity_value_1 _let_47) (tptp.recombination_1 _let_48) (tptp.chromosome_1 _let_50) (tptp.carbon_skeleton_1 _let_49) (tptp.constant_motion_1 _let_32) (tptp.code_for_1 _let_23) (tptp.immune_cell_1 _let_33) (tptp.vertebrate_1 _let_16) (tptp.cell_differentiation_1 _let_18) (tptp.gene_rearrangement_1 _let_8) (tptp.change_sequence_1 _let_30) (tptp.variable_region_dna_sequence_1 _let_38) (tptp.move_1 _let_28) (tptp.move_1 _let_14) (tptp.constant_region_dna_sequence_1 _let_40) (tptp.immunoglobulin_protein_1 _let_43) (tptp.code_for_1 _let_41) (tptp.recombinant_immune_cell_1 _let_45) (tptp.combine_1 _let_36) (tptp.tangible_entity_1 _let_35) (tptp.nucleus_1 _let_35) (tptp.dna_strand_1 _let_12) (tptp.kinetic_energy_1 _let_10) (tptp.size_value_1 _let_25) (tptp.size_value_1 _let_24) (tptp.phosphodiester_bond_1 _let_4) (tptp.chemical_bond_1 _let_4) (tptp.exon_1 _let_20) (tptp.exon_1 _let_22) (tptp.intron_1 _let_1) (tptp.monomer_1 _let_21) (tptp.monomer_1 _let_26) (tptp.entity_1 _let_44) (tptp.entity_1 _let_42) (tptp.entity_1 _let_39) (tptp.entity_1 _let_37) (tptp.tangible_entity_1 _let_34) (tptp.nucleus_1 _let_34) (tptp.constant_motion_1 _let_31) (tptp.change_sequence_1 _let_29) (tptp.move_1 _let_27) (tptp.eukaryotic_cell_1 _let_19) (tptp.animal_cell_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.gene_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_5) (tptp.exon_1 _let_2) (tptp.is_between_2 _let_1 _let_22) (tptp.quantity_2 _let_10 _let_47) (tptp.has_part_2 _let_35 _let_50) (tptp.is_inside_2 _let_35 _let_33) (tptp.enables_2 _let_48 _let_36) (tptp.result_2 _let_48 _let_45) (tptp.result_2 _let_36 _let_45) (tptp.element_2 X _let_40) (tptp.element_2 X _let_38) (tptp.has_region_2 X _let_49) (tptp.by_means_of_2 _let_30 _let_28) (tptp.by_means_of_2 _let_30 _let_14) (tptp.object_2 _let_30 _let_40) (tptp.by_means_of_2 _let_8 _let_48) (tptp.enables_2 _let_8 _let_18) (tptp.site_2 _let_8 _let_16) (tptp.site_2 _let_8 _let_33) (tptp.result_2 _let_8 X) (tptp.object_2 _let_18 _let_16) (tptp.donor_2 _let_23 X) (tptp.directly_proportional_2 _let_46 _let_47) (tptp.speed_2 _let_32 _let_46) (tptp.agent_2 _let_41 _let_45) (tptp.result_2 _let_41 _let_43) (tptp.object_2 _let_36 _let_40) (tptp.object_2 _let_36 _let_38) (tptp.object_2 _let_18 _let_33) (tptp.has_part_2 _let_16 _let_33) (tptp.object_2 _let_14 X) (tptp.has_part_2 _let_33 _let_35) (tptp.has_part_2 _let_12 X) (tptp.possesses_2 X _let_10) (tptp.object_2 _let_32 X) (tptp.by_means_of_2 _let_8 _let_30) (tptp.agent_2 _let_8 X) (tptp.object_2 _let_28 X) (tptp.element_2 X _let_26) (tptp.next_element_2 _let_26 _let_21) (tptp.element_2 X _let_21) (tptp.first_element_2 X _let_26) (tptp.size_2 _let_26 _let_25) (tptp.possesses_2 X _let_4) (tptp.agent_2 _let_23 X) (tptp.has_function_2 X _let_23) (tptp.size_2 X _let_24) (tptp.greater_than_2 _let_24 _let_25) (tptp.element_2 X _let_20) (tptp.next_element_2 _let_20 _let_1) (tptp.next_element_2 _let_1 _let_22) (tptp.element_2 X _let_22) (tptp.element_2 X _let_1) (tptp.is_between_2 _let_1 _let_20) (tptp.is_between_2 _let_4 _let_21) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_33 _let_19) (= _let_33 _let_17) (= X _let_15) (= _let_35 _let_34) (= X _let_13) (= _let_32 _let_31) (= X _let_11) (= _let_30 _let_29) (= _let_28 _let_27) (= X _let_9) (= _let_21 _let_7) (= _let_26 (tptp.fn_gene_17 X)) (= _let_4 (tptp.fn_gene_16 X)) (= (tptp.fn_immunoglobulin_gene_32 X) (tptp.fn_gene_9 X)) (= (tptp.fn_immunoglobulin_gene_33 X) (tptp.fn_gene_8 X)) (= _let_25 (tptp.fn_gene_12 X)) (= _let_24 (tptp.fn_gene_11 X)) (= _let_23 (tptp.fn_gene_13 X)) (= _let_22 (tptp.fn_gene_5 X)) (= _let_1 (tptp.fn_gene_4 X)) (= _let_20 _let_3) (= _let_21 _let_6) (= _let_21 _let_5) (= _let_20 _let_2) (= _let_19 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.immunoglobulin_protein_1 X) (and (tptp.original_name_2 X |tptp.'Immunoglobulin-Protein'|) (tptp.user_description_2 X |tptp.'Proteins that specifically recognize and help combat viruses, bacteria, and other invaders of the body.'|) (tptp.concept2words_2 X tptp.immunoglobulin) (tptp.concept2words_2 X tptp.ig) (tptp.concept2words_2 X tptp.antibody) (tptp.concept2words_2 X tptp.antibodies) (tptp.concept2words_2 X |tptp.'protein of immunoglobulin'|) (tptp.concept2words_2 X |tptp.'immunoglobulin protein'|) (tptp.concept2words_2 X |tptp.'immunoglobulin-protein'|) (tptp.defensive_protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_impair_1 X))) (=> (tptp.impair_1 X) (and (tptp.original_name_2 X |tptp.'Impair'|) (tptp.concept2words_2 X tptp.impair) (tptp.action_1 X) (tptp.tangible_entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.implant_1 X) (and (tptp.original_name_2 X |tptp.'Implant'|) (tptp.user_description_2 X |tptp.'To insert securely.'|) (tptp.concept2words_2 X tptp.implant) (tptp.move_into_1 X) (not (tptp.take_in_1 X)) (not (tptp.load_1 X)) (not (tptp.enter_1 X)) (not (tptp.capillary_action_1 X)) (not (tptp.package_recombinants_in_capsid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.importance_constant_1 X) (and (tptp.original_name_2 X |tptp.'Importance-Constant'|) (tptp.concept2words_2 X |tptp.'constant of importance'|) (tptp.concept2words_2 X |tptp.'importance constant'|) (tptp.concept2words_2 X |tptp.'importance-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.importance_scale_1 X) (and (tptp.original_name_2 X |tptp.'Importance-Scale'|) (tptp.concept2words_2 X |tptp.'scale of importance'|) (tptp.concept2words_2 X |tptp.'importance scale'|) (tptp.concept2words_2 X |tptp.'importance-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.imprinting_1 X) (and (tptp.original_name_2 X |tptp.'Imprinting'|) (tptp.user_description_2 X |tptp.'In animal behavior, learning that occurs during a specific age or life history stage and generates a long-lasting behavioral response to a particular object or individual.'|) (tptp.concept2words_2 X tptp.imprint) (tptp.concept2words_2 X tptp.imprinting) (tptp.social_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.improperly_methylated_dna_1 X) (and (tptp.original_name_2 X |tptp.'Improperly-Methylated-DNA'|) (tptp.user_description_2 X |tptp.'A portion of a DNA molecule with one or more methyl groups attached. The improperly methylated DNA have extra methyl groups.'|) (tptp.concept2words_2 X |tptp.'improperly methylated dna'|) (tptp.concept2words_2 X |tptp.'improperly-methylated-dna'|) (tptp.modified_dna_1 X) (not (tptp.methylated_dna_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_improvement_1 X))) (=> (tptp.improvement_1 X) (and (tptp.original_name_2 X |tptp.'Improvement'|) (tptp.concept2words_2 X tptp.improve) (tptp.concept2words_2 X tptp.better) (tptp.concept2words_2 X tptp.amend) (tptp.concept2words_2 X tptp.ameliorate) (tptp.concept2words_2 X tptp.meliorate) (tptp.concept2words_2 X tptp.improvement) (tptp.concept2words_2 X tptp.betterment) (tptp.concept2words_2 X tptp.advance) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.in_situ_1 X) (and (tptp.original_name_2 X |tptp.'In-Situ'|) (tptp.user_description_2 X |tptp.'Technique in which biological events are examined where they occur, within the organism or cell.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'in situ'|) (tptp.concept2words_2 X |tptp.'in-situ'|) (tptp.technique_1 X)))) (forall ((X $$unsorted)) (=> (tptp.in_vitro_1 X) (and (tptp.original_name_2 X |tptp.'In-Vitro'|) (tptp.user_description_2 X |tptp.'Technique in which biological events are examined in the laboratory, outside and isolated from the organism or cell.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'in vitro'|) (tptp.concept2words_2 X |tptp.'in-vitro'|) (tptp.technique_1 X)))) (forall ((X $$unsorted)) (=> (tptp.in_vitro_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'In-Vitro-Fertilization'|) (tptp.user_description_2 X |tptp.'The fertilization of eggs outside the body--i.e., in laboratory dishes--and concomitant implantation of early embryos into the mother_'s uterus.'|) (tptp.concept2words_2 X |tptp.'in vitro fertilization'|) (tptp.concept2words_2 X |tptp.'in-vitro-fertilization'|) (tptp.assisted_reproductive_technology_1 X)))) (forall ((X $$unsorted)) (=> (tptp.in_vitro_hybridization_1 X) (and (tptp.original_name_2 X |tptp.'In-Vitro-Hybridization'|) (tptp.user_description_2 X |tptp.'A technique used to discover the function of a gene. The gene is cloned, then specific changes are made in the sequence. The mutated gene is then reinserted into a living cell and its expressed phenotype is studied.'|) (tptp.concept2words_2 X |tptp.'undergo in vitro hybridization'|) (tptp.concept2words_2 X |tptp.'undergo in-vitro hybridization'|) (tptp.concept2words_2 X |tptp.'in vitro hybridization'|) (tptp.concept2words_2 X |tptp.'in-vitro-hybridization'|) (tptp.hybridization_1 X) (tptp.in_vitro_1 X) (tptp.dna_technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.in_vitro_mutagenesis_1 X) (and (tptp.original_name_2 X |tptp.'In-Vitro-Mutagenesis'|) (tptp.user_description_2 X |tptp.'A way of determining the function of a gene by: (1) cloning the gene; (2) creating specific or random mutations in the DNA sequence; (3) reinserting the mutated gene into a cell; and (4) observing the resulting phenotype.'|) (tptp.concept2words_2 X |tptp.'undergo in vitro mutagenesis'|) (tptp.concept2words_2 X |tptp.'undergo in-vitro mutagenesis'|) (tptp.concept2words_2 X |tptp.'in vitro mutagenesis'|) (tptp.concept2words_2 X |tptp.'in-vitro-mutagenesis'|) (tptp.biotechnology_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inactivation_of_camp_18 X))) (let ((_let_2 (tptp.fn_cyclic_nucleotide_phosphodiesterase_2 _let_1))) (let ((_let_3 (tptp.fn_cyclic_nucleotide_phosphodiesterase_1 _let_1))) (let ((_let_4 (tptp.fn_exergonic_reaction_10 X))) (let ((_let_5 (tptp.fn_inactivation_of_camp_10 X))) (let ((_let_6 (tptp.fn_functional_group_1 _let_5))) (let ((_let_7 (tptp.fn_hydrolysis_9 X))) (let ((_let_8 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_9 (tptp.fn_exergonic_reaction_11 X))) (let ((_let_10 (tptp.fn_inactivation_of_camp_14 X))) (let ((_let_11 (tptp.fn_amp_4 _let_10))) (let ((_let_12 (tptp.fn_amp_5 _let_10))) (let ((_let_13 (tptp.fn_hydroxyl_group_4 _let_5))) (let ((_let_14 (tptp.fn_hydrolysis_10 X))) (let ((_let_15 (tptp.fn_hydrolysis_11 X))) (let ((_let_16 (tptp.fn_hydrolysis_6 X))) (let ((_let_17 (tptp.fn_hydrolysis_1 X))) (let ((_let_18 (tptp.fn_hydrolysis_4 X))) (let ((_let_19 (tptp.fn_hydrolysis_5 X))) (let ((_let_20 (tptp.fn_hydrolysis_3 X))) (let ((_let_21 (tptp.fn_hydroxyl_group_6 _let_5))) (let ((_let_22 (tptp.fn_hydrolysis_17 X))) (let ((_let_23 (tptp.fn_exergonic_reaction_3 X))) (let ((_let_24 (tptp.fn_inactivation_of_camp_19 X))) (let ((_let_25 (tptp.fn_organic_molecule_2 _let_24))) (let ((_let_26 (tptp.fn_inactivation_of_camp_13 X))) (let ((_let_27 (tptp.fn_inactivation_of_camp_9 X))) (let ((_let_28 (tptp.fn_inactivation_of_camp_12 X))) (let ((_let_29 (tptp.fn_inactivation_of_camp_3 X))) (let ((_let_30 (tptp.fn_inactivation_of_camp_6 X))) (let ((_let_31 (tptp.fn_inactivation_of_camp_5 X))) (let ((_let_32 (tptp.fn_inactivation_of_camp_4 X))) (let ((_let_33 (tptp.fn_inactivation_of_camp_8 X))) (let ((_let_34 (tptp.fn_inactivation_of_camp_7 X))) (let ((_let_35 (tptp.fn_inactivation_of_camp_15 X))) (let ((_let_36 (tptp.fn_inactivation_of_camp_16 X))) (let ((_let_37 (tptp.fn_inactivation_of_camp_17 X))) (let ((_let_38 (tptp.fn_inactivation_of_camp_11 X))) (=> (tptp.inactivation_of_camp_1 X) (and (tptp.original_name_2 X |tptp.'Inactivation-Of-cAMP'|) (tptp.user_description_2 X |tptp.'The process of converting active form of cAMP to inactive form by the enzymatic removal of a phosphate group.'|) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X |tptp.'camp inactivation'|) (tptp.concept2words_2 X |tptp.'camp-inactivation'|) (tptp.concept2words_2 X |tptp.'inactivation of camp'|) (tptp.concept2words_2 X |tptp.'inactivation-of-camp'|) (tptp.hydrolysis_1 X) (not (tptp.inactivation_of_phosphorylated_kinase_1 X)) (not (tptp.inactivation_of_relay_molecule_1 X)) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.oxygen_1 _let_29) (tptp.entity_1 _let_32) (tptp.atom_1 _let_32) (tptp.hydrogen_1 _let_32) (tptp.chemical_entity_1 _let_31) (tptp.hydrogen_1 _let_31) (tptp.chemical_entity_1 _let_30) (tptp.oxygen_1 _let_30) (tptp.hydrogen_1 _let_34) (tptp.tangible_entity_1 _let_33) (tptp.entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.atom_1 _let_33) (tptp.hydrogen_1 _let_33) (tptp.oxygen_1 _let_27) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.hydroxyl_group_1 _let_5) (tptp.chemical_energy_1 _let_38) (tptp.chemical_entity_1 _let_28) (tptp.water_molecule_1 _let_28) (tptp.atom_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.chemical_entity_1 _let_10) (tptp.amp_1 _let_10) (tptp.chemical_energy_1 _let_35) (tptp.quantity_value_1 _let_36) (tptp.quantity_value_1 _let_37) (tptp.cyclic_nucleotide_phosphodiesterase_1 _let_1) (tptp.chemical_entity_1 _let_24) (tptp.cyclic_amp_1 _let_24) (tptp.organic_molecule_1 _let_24) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.hydrogen_1 _let_21) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.oxygen_1 _let_11) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_6) (tptp.cyclic_amp_1 _let_3) (tptp.hydrolysis_1 _let_2) (tptp.object_2 X _let_24) (not (= _let_28 _let_24)) (tptp.has_state_2 _let_26 _let_10) (not (= _let_26 _let_10)) (not (= _let_10 _let_26)) (not (= _let_24 _let_28)) (tptp.possesses_2 _let_24 _let_38) (tptp.has_function_2 _let_1 X) (tptp.raw_material_2 X _let_24) (tptp.quantity_2 _let_38 _let_37) (tptp.has_part_2 _let_10 _let_34) (tptp.result_2 X _let_10) (tptp.possesses_2 _let_10 _let_35) (tptp.quantity_2 _let_35 _let_36) (tptp.greater_than_2 _let_37 _let_36) (tptp.is_inside_2 _let_27 _let_5) (not (= _let_27 _let_34)) (tptp.is_inside_2 _let_34 _let_5) (not (= _let_34 _let_27)) (tptp.has_state_2 _let_32 _let_31) (tptp.has_part_2 _let_28 _let_32) (tptp.has_part_2 _let_28 _let_33) (tptp.has_state_2 _let_33 _let_34) (tptp.raw_material_2 X _let_28) (tptp.has_part_2 _let_28 _let_29) (tptp.has_state_2 _let_29 _let_30) (not (= _let_31 _let_30)) (not (= _let_30 _let_31)) (tptp.has_part_2 _let_24 _let_26) (tptp.has_part_2 _let_10 _let_27) (tptp.has_region_2 _let_10 _let_5) (= _let_38 _let_23) (= _let_24 _let_4) (= _let_24 _let_3) (= X _let_2) (= _let_38 _let_22) (= (tptp.fn_inactivation_of_camp_2 X) (tptp.fn_hydrolysis_19 X)) (= (tptp.fn_inactivation_of_camp_1 X) (tptp.fn_hydrolysis_18 X)) (= _let_37 (tptp.fn_hydrolysis_16 X)) (= _let_36 (tptp.fn_hydrolysis_15 X)) (= _let_35 (tptp.fn_hydrolysis_14 X)) (= _let_10 _let_9) (= _let_10 _let_8) (= _let_10 _let_7) (= _let_34 _let_21) (= _let_27 _let_13) (= _let_34 _let_20) (= _let_33 (tptp.fn_hydrolysis_8 X)) (= _let_32 (tptp.fn_hydrolysis_7 X)) (= _let_31 _let_17) (= _let_31 _let_19) (= _let_30 _let_7) (= _let_30 _let_18) (= _let_29 _let_17) (= _let_29 _let_16) (= _let_28 _let_15) (= _let_28 _let_14) (= _let_10 _let_6) (= _let_27 _let_12) (= _let_27 _let_11) (= _let_26 _let_25) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_19) (= _let_19 _let_7) (= _let_18 _let_7) (= _let_7 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inactivation_of_phosphorylated_kinase_18 X))) (let ((_let_2 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_3 (tptp.fn_inactivation_of_phosphorylated_kinase_11 X))) (let ((_let_4 (tptp.fn_molecule_10 _let_3))) (let ((_let_5 (tptp.fn_inactivation_of_phosphorylated_kinase_15 X))) (let ((_let_6 (tptp.fn_covalent_bond_14 _let_5))) (let ((_let_7 (tptp.fn_phosphate_group_40 _let_1))) (let ((_let_8 (tptp.fn_phosphate_group_36 _let_1))) (let ((_let_9 (tptp.fn_covalent_bond_17 _let_5))) (let ((_let_10 (tptp.fn_phosphate_group_35 _let_1))) (let ((_let_11 (tptp.fn_covalent_bond_18 _let_5))) (let ((_let_12 (tptp.fn_phosphate_group_8 _let_1))) (let ((_let_13 (tptp.fn_covalent_bond_15 _let_5))) (let ((_let_14 (tptp.fn_covalent_bond_22 _let_5))) (let ((_let_15 (tptp.fn_phosphate_group_11 _let_1))) (let ((_let_16 (tptp.fn_covalent_bond_24 _let_5))) (let ((_let_17 (tptp.fn_phosphate_group_14 _let_1))) (let ((_let_18 (tptp.fn_covalent_bond_23 _let_5))) (let ((_let_19 (tptp.fn_phosphate_group_12 _let_1))) (let ((_let_20 (tptp.fn_covalent_bond_21 _let_5))) (let ((_let_21 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_22 (tptp.fn_covalent_bond_20 _let_5))) (let ((_let_23 (tptp.fn_covalent_bond_19 _let_5))) (let ((_let_24 (tptp.fn_phosphorylated_kinase_1 _let_3))) (let ((_let_25 (tptp.fn_phosphate_group_13 _let_1))) (let ((_let_26 (tptp.fn_covalent_bond_11 _let_5))) (let ((_let_27 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_28 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_29 (tptp.fn_phosphorylated_kinase_2 _let_3))) (let ((_let_30 (tptp.fn_molecule_11 _let_3))) (let ((_let_31 (tptp.fn_protein_enzyme_8 _let_3))) (let ((_let_32 (tptp.fn_organic_molecule_2 _let_3))) (let ((_let_33 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_34 (tptp.fn_polymer_1 _let_3))) (let ((_let_35 (tptp.fn_dephosphorylation_6 X))) (let ((_let_36 (tptp.fn_phosphate_group_16 _let_1))) (let ((_let_37 (tptp.fn_covalent_bond_12 _let_5))) (let ((_let_38 (tptp.fn_dephosphorylation_11 X))) (let ((_let_39 (tptp.fn_functional_group_1 _let_1))) (let ((_let_40 (tptp.fn_inactivation_of_phosphorylated_kinase_10 X))) (let ((_let_41 (tptp.fn_make_inaccessible_1 _let_40))) (let ((_let_42 (tptp.fn_protein_enzyme_6 _let_3))) (let ((_let_43 (tptp.fn_organic_molecule_3 _let_3))) (let ((_let_44 (tptp.fn_protein_enzyme_7 _let_3))) (let ((_let_45 (tptp.fn_organic_molecule_1 _let_3))) (let ((_let_46 (tptp.fn_dephosphorylation_10 X))) (let ((_let_47 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_48 (tptp.fn_inactivation_of_phosphorylated_kinase_5 X))) (let ((_let_49 (tptp.fn_inactivation_of_phosphorylated_kinase_6 X))) (let ((_let_50 (tptp.fn_inactivation_of_phosphorylated_kinase_7 X))) (let ((_let_51 (tptp.fn_inactivation_of_phosphorylated_kinase_8 X))) (let ((_let_52 (tptp.fn_inactivation_of_phosphorylated_kinase_2 X))) (let ((_let_53 (tptp.fn_inactivation_of_phosphorylated_kinase_3 X))) (let ((_let_54 (tptp.fn_inactivation_of_phosphorylated_kinase_20 X))) (let ((_let_55 (tptp.fn_inactivation_of_phosphorylated_kinase_4 X))) (let ((_let_56 (tptp.fn_inactivation_of_phosphorylated_kinase_21 X))) (let ((_let_57 (tptp.fn_inactivation_of_phosphorylated_kinase_14 X))) (let ((_let_58 (tptp.fn_inactivation_of_phosphorylated_kinase_19 X))) (let ((_let_59 (tptp.fn_inactivation_of_phosphorylated_kinase_9 X))) (let ((_let_60 (tptp.fn_molecule_3 _let_3))) (let ((_let_61 (tptp.fn_inactivation_of_phosphorylated_kinase_12 X))) (let ((_let_62 (tptp.fn_molecule_1 _let_3))) (let ((_let_63 (tptp.fn_molecule_4 _let_3))) (let ((_let_64 (tptp.fn_inactivation_of_phosphorylated_kinase_13 X))) (let ((_let_65 (tptp.fn_molecule_2 _let_3))) (let ((_let_66 (tptp.fn_molecule_8 _let_3))) (let ((_let_67 (tptp.fn_inactivation_of_phosphorylated_kinase_23 X))) (let ((_let_68 (tptp.fn_molecule_12 _let_3))) (let ((_let_69 (tptp.fn_inactivation_of_phosphorylated_kinase_16 X))) (let ((_let_70 (tptp.fn_inactivation_of_phosphorylated_kinase_17 X))) (let ((_let_71 (tptp.fn_inactivation_of_phosphorylated_kinase_22 X))) (let ((_let_72 (tptp.fn_inactivation_of_phosphorylated_kinase_24 X))) (let ((_let_73 (tptp.fn_inactivation_of_phosphorylated_kinase_1 X))) (=> (tptp.inactivation_of_phosphorylated_kinase_1 X) (and (tptp.original_name_2 X |tptp.'Inactivation-Of-Phosphorylated-Kinase'|) (tptp.user_description_2 X |tptp.'Protein phosphatases are enzymes that remove phosphate groups from proteins to inactivate them. Dephosphorylation of kinases inactivates them.'|) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X |tptp.'inactivation of phosphorylated kinase'|) (tptp.concept2words_2 X |tptp.'inactivation-of-phosphorylated-kinase'|) (tptp.dephosphorylation_1 X) (not (tptp.inactivation_of_camp_1 X)) (not (tptp.inactivation_of_relay_molecule_1 X)) (tptp.cell_preparation_for_next_signal_reception_1 _let_73) (tptp.atomic_nucleus_1 _let_52) (tptp.center_1 _let_53) (tptp.electron_shell_1 _let_55) (tptp.hold_together_1 _let_48) (tptp.share_1 _let_49) (tptp.valence_electron_1 _let_50) (tptp.atomic_nucleus_1 _let_51) (tptp.electron_shell_1 _let_59) (tptp.deactivate_1 _let_40) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.protein_enzyme_1 _let_3) (tptp.polymer_1 _let_3) (tptp.phosphorylated_kinase_1 _let_3) (tptp.molecule_1 _let_3) (tptp.speed_value_1 _let_61) (tptp.quantity_value_1 _let_64) (tptp.covalent_bond_1 _let_57) (tptp.single_bond_1 _let_57) (tptp.chemical_bond_1 _let_5) (tptp.double_bond_1 _let_5) (tptp.covalent_bond_1 _let_5) (tptp.kinetic_energy_1 _let_69) (tptp.carbon_skeleton_1 _let_70) (tptp.functional_group_1 _let_1) (tptp.phosphate_group_1 _let_1) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.oxygen_1 _let_58) (tptp.entity_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.atom_1 _let_54) (tptp.phosphorus_1 _let_54) (tptp.oxygen_1 _let_56) (tptp.entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.atom_1 _let_56) (tptp.carbon_1 _let_71) (tptp.constant_motion_1 _let_67) (tptp.inorganic_phosphate_1 _let_72) (tptp.kinetic_energy_1 _let_68) (tptp.constant_motion_1 _let_66) (tptp.property_node_1 _let_65) (tptp.quantity_value_1 _let_63) (tptp.property_node_1 _let_62) (tptp.speed_value_1 _let_60) (tptp.carbon_1 _let_45) (tptp.carbon_1 _let_44) (tptp.carbon_skeleton_1 _let_43) (tptp.carbon_skeleton_1 _let_42) (tptp.entity_1 _let_41) (tptp.chemical_entity_1 _let_39) (tptp.electron_shell_1 _let_37) (tptp.electron_shell_1 _let_36) (tptp.covalent_bond_1 _let_34) (tptp.single_bond_1 _let_33) (tptp.atom_1 _let_32) (tptp.chemical_entity_1 _let_32) (tptp.atom_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_30) (tptp.oxygen_1 _let_29) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.oxygen_1 _let_28) (tptp.oxygen_1 _let_27) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.electron_shell_1 _let_26) (tptp.electron_shell_1 _let_25) (tptp.phosphorus_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.entity_1 _let_22) (tptp.chemical_entity_1 _let_22) (tptp.atom_1 _let_22) (tptp.phosphorus_1 _let_21) (tptp.center_1 _let_20) (tptp.center_1 _let_19) (tptp.center_1 _let_18) (tptp.atomic_nucleus_1 _let_17) (tptp.atomic_nucleus_1 _let_16) (tptp.atomic_nucleus_1 _let_15) (tptp.atomic_nucleus_1 _let_14) (tptp.valence_electron_1 _let_13) (tptp.valence_electron_1 _let_12) (tptp.valence_electron_1 _let_11) (tptp.share_1 _let_10) (tptp.share_1 _let_9) (tptp.hold_together_1 _let_8) (tptp.hold_together_1 _let_7) (tptp.hold_together_1 _let_6) (tptp.chemical_bond_1 _let_4) (tptp.double_bond_1 _let_2) (tptp.subevent_2 X _let_40) (tptp.subevent_2 _let_73 X) (tptp.object_2 _let_40 _let_3) (tptp.has_region_2 _let_3 _let_1) (tptp.raw_material_2 X _let_3) (tptp.has_part_2 _let_3 _let_58) (tptp.result_2 X _let_72) (tptp.has_region_2 _let_3 _let_70) (tptp.is_inside_2 _let_71 _let_70) (tptp.has_part_2 _let_3 _let_71) (not (= _let_56 _let_71)) (not (= _let_71 _let_56)) (not (= _let_52 _let_51)) (tptp.is_near_2 _let_51 _let_50) (tptp.is_at_2 _let_52 _let_53) (not (= _let_51 _let_52)) (tptp.is_near_2 _let_50 _let_51) (tptp.object_2 _let_49 _let_50) (tptp.result_2 _let_49 _let_5) (tptp.has_function_2 _let_5 _let_48) (not (= _let_59 _let_55)) (not (= _let_55 _let_59)) (not (= _let_56 _let_58)) (tptp.has_region_2 _let_56 _let_59) (not (= _let_58 _let_56)) (tptp.is_inside_2 _let_58 _let_1) (not (= _let_54 _let_56)) (tptp.object_2 _let_48 _let_54) (tptp.object_2 _let_48 _let_56) (tptp.is_inside_2 _let_56 _let_1) (tptp.is_inside_2 _let_54 _let_1) (not (= _let_56 _let_54)) (not (= _let_54 _let_58)) (not (= _let_58 _let_54)) (tptp.has_region_2 _let_54 _let_52) (tptp.agent_2 _let_49 _let_54) (tptp.agent_2 _let_49 _let_56) (tptp.has_part_2 _let_56 _let_50) (tptp.is_between_2 _let_5 _let_56) (tptp.is_between_2 _let_5 _let_54) (tptp.is_between_2 _let_57 _let_58) (tptp.is_between_2 _let_57 _let_54) (tptp.has_region_2 _let_56 _let_51) (tptp.agent_2 _let_48 _let_5) (tptp.has_region_2 _let_54 _let_55) (tptp.has_region_2 _let_54 _let_53) (tptp.speed_2 _let_67 _let_61) (tptp.directly_proportional_2 _let_61 _let_64) (tptp.quantity_2 _let_69 _let_64) (tptp.possesses_2 _let_3 _let_69) (tptp.object_2 _let_67 _let_3) (tptp.has_part_2 _let_3 _let_54) (tptp.has_part_2 _let_3 _let_56) (tptp.possesses_2 _let_3 _let_5) (tptp.possesses_2 _let_3 _let_57) (= _let_3 _let_41) (= _let_3 _let_39) (= _let_1 (tptp.fn_dephosphorylation_12 X)) (= _let_58 _let_35) (= _let_3 _let_38) (= _let_72 _let_47) (= _let_72 _let_46) (= _let_56 _let_32) (= _let_56 _let_31) (= _let_71 _let_45) (= _let_71 _let_44) (= _let_70 _let_43) (= _let_70 _let_42) (= _let_57 _let_34) (= _let_69 _let_68) (= _let_67 _let_66) (= (tptp.fn_inactivation_of_phosphorylated_kinase_26 X) _let_65) (= _let_64 _let_63) (= (tptp.fn_inactivation_of_phosphorylated_kinase_25 X) _let_62) (= _let_61 _let_60) (= _let_59 _let_37) (= _let_59 _let_36) (= _let_48 _let_8) (= _let_56 _let_29) (= _let_54 _let_24) (= _let_52 _let_17) (= _let_58 _let_27) (= _let_54 _let_23) (= _let_49 _let_10) (= _let_56 _let_28) (= _let_50 _let_12) (= _let_5 _let_4) (= _let_56 _let_30) (= _let_56 _let_22) (= _let_56 _let_23) (= _let_58 _let_28) (= _let_57 _let_33) (= _let_56 _let_27) (= _let_51 _let_15) (= _let_48 _let_7) (= _let_5 _let_2) (= _let_54 _let_22) (= _let_55 _let_26) (= _let_55 _let_25) (= _let_54 _let_21) (= _let_53 _let_19) (= _let_53 _let_20) (= _let_53 _let_18) (= _let_52 _let_14) (= _let_52 _let_16) (= _let_51 _let_16) (= _let_51 _let_14) (= _let_50 _let_13) (= _let_50 _let_11) (= _let_49 _let_9) (= _let_48 _let_6) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_27) (= _let_27 _let_28) (= _let_28 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_29 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_22 _let_29) (= _let_29 _let_22) (= _let_22 _let_22) (= _let_28 _let_23) (= _let_23 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_14) (= _let_14 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inactivation_of_relay_molecule_11 X))) (let ((_let_2 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_3 (tptp.fn_dephosphorylation_9 X))) (let ((_let_4 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_5 (tptp.fn_dephosphorylation_5 X))) (let ((_let_6 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_7 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_8 (tptp.fn_dephosphorylation_4 X))) (let ((_let_9 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_10 (tptp.fn_dephosphorylation_8 X))) (let ((_let_11 (tptp.fn_dephosphorylation_6 X))) (let ((_let_12 (tptp.fn_phosphate_group_11 _let_1))) (let ((_let_13 (tptp.fn_phosphate_group_18 _let_1))) (let ((_let_14 (tptp.fn_phosphate_group_39 _let_1))) (let ((_let_15 (tptp.fn_phosphate_group_35 _let_1))) (let ((_let_16 (tptp.fn_phosphate_group_20 _let_1))) (let ((_let_17 (tptp.fn_phosphate_group_21 _let_1))) (let ((_let_18 (tptp.fn_dephosphorylation_11 X))) (let ((_let_19 (tptp.fn_inactivation_of_relay_molecule_5 X))) (let ((_let_20 (tptp.fn_messenger_1 _let_19))) (let ((_let_21 (tptp.fn_functional_group_1 _let_1))) (let ((_let_22 (tptp.fn_inactivation_of_relay_molecule_6 X))) (let ((_let_23 (tptp.fn_make_inaccessible_1 _let_22))) (let ((_let_24 (tptp.fn_dephosphorylation_10 X))) (let ((_let_25 (tptp.fn_decomposition_reaction_4 X))) (let ((_let_26 (tptp.fn_inactivation_of_relay_molecule_13 X))) (let ((_let_27 (tptp.fn_inactivation_of_relay_molecule_8 X))) (let ((_let_28 (tptp.fn_inactivation_of_relay_molecule_12 X))) (let ((_let_29 (tptp.fn_inactivation_of_relay_molecule_14 X))) (let ((_let_30 (tptp.fn_inactivation_of_relay_molecule_9 X))) (let ((_let_31 (tptp.fn_inactivation_of_relay_molecule_4 X))) (let ((_let_32 (tptp.fn_inactivation_of_relay_molecule_2 X))) (let ((_let_33 (tptp.fn_inactivation_of_relay_molecule_3 X))) (let ((_let_34 (tptp.fn_inactivation_of_relay_molecule_7 X))) (let ((_let_35 (tptp.fn_inactivation_of_relay_molecule_15 X))) (let ((_let_36 (tptp.fn_inactivation_of_relay_molecule_10 X))) (let ((_let_37 (tptp.fn_inactivation_of_relay_molecule_16 X))) (let ((_let_38 (tptp.fn_inactivation_of_relay_molecule_1 X))) (=> (tptp.inactivation_of_relay_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Inactivation-Of-Relay-Molecule'|) (tptp.user_description_2 X |tptp.'A relay molecules, often proteins, relay a signal from receptor to response. Protein phosphatases dephosphorylate the relay molecule, deactivating it.'|) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X |tptp.'inactivation of relay molecule'|) (tptp.concept2words_2 X |tptp.'inactivation-of-relay-molecule'|) (tptp.dephosphorylation_1 X) (not (tptp.inactivation_of_camp_1 X)) (not (tptp.inactivation_of_phosphorylated_kinase_1 X)) (tptp.cell_preparation_for_next_signal_reception_1 _let_38) (tptp.share_1 _let_32) (tptp.electron_1 _let_33) (tptp.valence_electron_1 _let_33) (tptp.atomic_nucleus_1 _let_31) (tptp.relay_molecule_1 _let_19) (tptp.deactivate_1 _let_22) (tptp.protein_1 _let_34) (tptp.chemical_bond_1 _let_27) (tptp.single_bond_1 _let_27) (tptp.chemical_bond_1 _let_30) (tptp.double_bond_1 _let_30) (tptp.carbon_skeleton_1 _let_36) (tptp.functional_group_1 _let_1) (tptp.phosphate_group_1 _let_1) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.oxygen_1 _let_28) (tptp.phosphorus_1 _let_26) (tptp.oxygen_1 _let_29) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_35) (tptp.inorganic_phosphate_1 _let_37) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_21) (tptp.chemical_entity_1 _let_20) (tptp.valence_electron_1 _let_17) (tptp.electron_1 _let_16) (tptp.valence_electron_1 _let_16) (tptp.share_1 _let_15) (tptp.share_1 _let_14) (tptp.atomic_nucleus_1 _let_13) (tptp.atomic_nucleus_1 _let_12) (tptp.double_bond_1 _let_9) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.phosphorus_1 _let_4) (tptp.single_bond_1 _let_2) (tptp.subevent_2 _let_38 X) (tptp.in_event_2 _let_19 X) (tptp.subevent_2 X _let_22) (tptp.object_2 _let_22 _let_34) (tptp.plays_2 _let_34 _let_19) (tptp.result_2 X _let_37) (tptp.has_region_2 _let_34 _let_1) (tptp.has_region_2 _let_34 _let_36) (tptp.has_part_2 _let_34 _let_28) (tptp.possesses_2 _let_34 _let_30) (tptp.has_part_2 _let_34 _let_26) (tptp.possesses_2 _let_34 _let_27) (tptp.has_part_2 _let_34 _let_29) (tptp.raw_material_2 X _let_34) (tptp.has_part_2 _let_34 _let_35) (tptp.is_inside_2 _let_35 _let_36) (not (= _let_29 _let_35)) (not (= _let_35 _let_29)) (tptp.is_near_2 _let_33 _let_31) (tptp.is_near_2 _let_31 _let_33) (not (= _let_29 _let_28)) (tptp.has_part_2 _let_29 _let_33) (not (= _let_28 _let_29)) (tptp.is_inside_2 _let_28 _let_1) (not (= _let_26 _let_29)) (tptp.object_2 _let_32 _let_33) (tptp.agent_2 _let_32 _let_29) (tptp.is_inside_2 _let_29 _let_1) (tptp.is_inside_2 _let_26 _let_1) (not (= _let_29 _let_26)) (not (= _let_26 _let_28)) (not (= _let_28 _let_26)) (tptp.is_between_2 _let_30 _let_26) (tptp.result_2 _let_32 _let_30) (tptp.agent_2 _let_32 _let_26) (tptp.has_region_2 _let_29 _let_31) (tptp.is_between_2 _let_30 _let_29) (tptp.is_between_2 _let_27 _let_28) (tptp.is_between_2 _let_27 _let_26) (= _let_34 _let_23) (= _let_34 _let_20) (= _let_37 _let_25) (= _let_37 _let_24) (= _let_34 _let_21) (= _let_1 (tptp.fn_dephosphorylation_12 X)) (= _let_28 _let_8) (= _let_30 _let_10) (= _let_26 _let_5) (= _let_27 _let_3) (= _let_29 _let_11) (= _let_36 (tptp.fn_dephosphorylation_7 X)) (= _let_29 _let_8) (= _let_35 (tptp.fn_dephosphorylation_3 X)) (= _let_34 _let_18) (= _let_33 _let_17) (= _let_31 _let_13) (= _let_33 _let_16) (= _let_32 _let_15) (= _let_29 _let_6) (= _let_28 _let_7) (= _let_32 _let_14) (= _let_31 _let_12) (= _let_30 _let_9) (= _let_29 _let_7) (= _let_28 _let_6) (= _let_27 _let_2) (= _let_26 _let_4) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_7) (= _let_7 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inactivation_of_transport_protein_6 X))) (let ((_let_2 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_3 (tptp.fn_inactivation_of_transport_protein_7 X))) (let ((_let_4 (tptp.fn_phosphate_group_39 _let_3))) (let ((_let_5 (tptp.fn_phosphate_group_41 _let_3))) (let ((_let_6 (tptp.fn_dephosphorylation_8 X))) (let ((_let_7 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_8 (tptp.fn_phosphate_group_20 _let_3))) (let ((_let_9 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_10 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_11 (tptp.fn_phosphate_group_18 _let_3))) (let ((_let_12 (tptp.fn_covalent_bond_23 _let_1))) (let ((_let_13 (tptp.fn_phosphate_group_17 _let_3))) (let ((_let_14 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_15 (tptp.fn_phosphate_group_12 _let_3))) (let ((_let_16 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_17 (tptp.fn_phosphate_group_14 _let_3))) (let ((_let_18 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_19 (tptp.fn_phosphate_group_40 _let_3))) (let ((_let_20 (tptp.fn_phosphate_group_6 _let_3))) (let ((_let_21 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_22 (tptp.fn_dephosphorylation_5 X))) (let ((_let_23 (tptp.fn_phosphate_group_22 _let_3))) (let ((_let_24 (tptp.fn_inactivation_of_transport_protein_4 X))) (let ((_let_25 (tptp.fn_transport_protein_17 _let_24))) (let ((_let_26 (tptp.fn_dephosphorylation_6 X))) (let ((_let_27 (tptp.fn_dephosphorylation_4 X))) (let ((_let_28 (tptp.fn_molecule_11 _let_24))) (let ((_let_29 (tptp.fn_phosphate_group_5 _let_3))) (let ((_let_30 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_31 (tptp.fn_phosphate_group_13 _let_3))) (let ((_let_32 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_33 (tptp.fn_phosphate_group_16 _let_3))) (let ((_let_34 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_35 (tptp.fn_phosphate_group_37 _let_3))) (let ((_let_36 (tptp.fn_dephosphorylation_9 X))) (let ((_let_37 (tptp.fn_molecule_10 _let_24))) (let ((_let_38 (tptp.fn_polymer_1 _let_24))) (let ((_let_39 (tptp.fn_phosphate_group_35 _let_3))) (let ((_let_40 (tptp.fn_transport_protein_14 _let_24))) (let ((_let_41 (tptp.fn_dephosphorylation_3 X))) (let ((_let_42 (tptp.fn_inactivation_of_transport_protein_1 X))) (let ((_let_43 (tptp.fn_inactivation_of_transport_protein_17 X))) (let ((_let_44 (tptp.fn_inactivation_of_transport_protein_16 X))) (let ((_let_45 (tptp.fn_inactivation_of_transport_protein_15 X))) (let ((_let_46 (tptp.fn_inactivation_of_transport_protein_21 X))) (let ((_let_47 (tptp.fn_inactivation_of_transport_protein_22 X))) (let ((_let_48 (tptp.fn_inactivation_of_transport_protein_19 X))) (let ((_let_49 (tptp.fn_inactivation_of_transport_protein_9 X))) (let ((_let_50 (tptp.fn_inactivation_of_transport_protein_8 X))) (let ((_let_51 (tptp.fn_inactivation_of_transport_protein_10 X))) (let ((_let_52 (tptp.fn_inactivation_of_transport_protein_20 X))) (let ((_let_53 (tptp.fn_inactivation_of_transport_protein_14 X))) (let ((_let_54 (tptp.fn_inactivation_of_transport_protein_5 X))) (let ((_let_55 (tptp.fn_inactivation_of_transport_protein_18 X))) (let ((_let_56 (tptp.fn_inactivation_of_transport_protein_11 X))) (let ((_let_57 (tptp.fn_transport_protein_18 _let_24))) (let ((_let_58 (tptp.fn_inactivation_of_transport_protein_13 X))) (let ((_let_59 (tptp.fn_inactivation_of_transport_protein_12 X))) (let ((_let_60 (tptp.fn_protein_phosphatase_1 _let_59))) (let ((_let_61 (tptp.fn_inactivation_of_transport_protein_2 X))) (let ((_let_62 (tptp.fn_inactivation_of_transport_protein_3 X))) (=> (tptp.inactivation_of_transport_protein_1 X) (and (tptp.original_name_2 X |tptp.'Inactivation-Of-Transport-Protein'|) (tptp.user_description_2 X |tptp.'Transport proteins are activated by phosphorylation, gaining a phosphate group from an ATP molecule. Removal of the phosphate group would inactivate the transport protein.'|) (tptp.concept2words_2 X tptp.inactivate) (tptp.concept2words_2 X |tptp.'inactivation of transport protein'|) (tptp.concept2words_2 X |tptp.'inactivation-of-transport-protein'|) (tptp.dephosphorylation_1 X) (tptp.share_1 _let_42) (tptp.inorganic_phosphate_1 _let_61) (tptp.transport_protein_1 _let_62) (tptp.polymer_1 _let_24) (tptp.molecule_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.organic_molecule_1 _let_24) (tptp.transport_protein_1 _let_24) (tptp.covalent_bond_1 _let_54) (tptp.chemical_bond_1 _let_54) (tptp.single_bond_1 _let_54) (tptp.chemical_bond_1 _let_1) (tptp.double_bond_1 _let_1) (tptp.covalent_bond_1 _let_1) (tptp.phosphate_group_1 _let_3) (tptp.entity_1 _let_50) (tptp.chemical_entity_1 _let_50) (tptp.atom_1 _let_50) (tptp.oxygen_1 _let_50) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.phosphorus_1 _let_49) (tptp.oxygen_1 _let_51) (tptp.entity_1 _let_51) (tptp.chemical_entity_1 _let_51) (tptp.atom_1 _let_51) (tptp.carbon_1 _let_56) (tptp.protein_phosphatase_1 _let_59) (tptp.carbon_skeleton_1 _let_58) (tptp.electron_shell_1 _let_53) (tptp.center_1 _let_45) (tptp.atomic_nucleus_1 _let_44) (tptp.electron_1 _let_43) (tptp.valence_electron_1 _let_43) (tptp.share_1 _let_55) (tptp.hold_together_1 _let_48) (tptp.electron_shell_1 _let_52) (tptp.center_1 _let_46) (tptp.atomic_nucleus_1 _let_47) (tptp.decomposition_reaction_1 _let_60) (tptp.dephosphorylation_1 _let_60) (tptp.carbon_skeleton_1 _let_57) (tptp.carbon_1 _let_40) (tptp.share_1 _let_39) (tptp.covalent_bond_1 _let_38) (tptp.chemical_bond_1 _let_37) (tptp.single_bond_1 _let_35) (tptp.electron_shell_1 _let_34) (tptp.electron_shell_1 _let_33) (tptp.electron_shell_1 _let_32) (tptp.electron_shell_1 _let_31) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.oxygen_1 _let_29) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.atom_1 _let_28) (tptp.entity_1 _let_25) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.oxygen_1 _let_23) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.phosphorus_1 _let_20) (tptp.hold_together_1 _let_19) (tptp.hold_together_1 _let_18) (tptp.atomic_nucleus_1 _let_17) (tptp.atomic_nucleus_1 _let_16) (tptp.center_1 _let_15) (tptp.center_1 _let_14) (tptp.center_1 _let_13) (tptp.center_1 _let_12) (tptp.atomic_nucleus_1 _let_11) (tptp.atomic_nucleus_1 _let_10) (tptp.valence_electron_1 _let_9) (tptp.electron_1 _let_8) (tptp.valence_electron_1 _let_8) (tptp.valence_electron_1 _let_7) (tptp.double_bond_1 _let_5) (tptp.share_1 _let_4) (tptp.share_1 _let_2) (tptp.result_2 X _let_62) (tptp.result_2 X _let_61) (tptp.has_function_2 _let_59 X) (tptp.has_part_2 _let_24 _let_49) (tptp.has_region_2 _let_24 _let_3) (tptp.has_part_2 _let_24 _let_50) (tptp.possesses_2 _let_24 _let_1) (tptp.is_between_2 _let_1 _let_50) (tptp.possesses_2 _let_24 _let_54) (tptp.is_between_2 _let_54 _let_50) (tptp.raw_material_2 X _let_24) (tptp.has_part_2 _let_24 _let_51) (not (= _let_56 _let_51)) (not (= _let_51 _let_56)) (tptp.result_2 _let_55 _let_1) (tptp.has_part_2 _let_24 _let_56) (tptp.is_inside_2 _let_56 _let_58) (tptp.has_region_2 _let_24 _let_58) (not (= _let_50 _let_56)) (not (= _let_56 _let_50)) (tptp.has_region_2 _let_51 _let_44) (tptp.has_region_2 _let_49 _let_46) (tptp.has_region_2 _let_51 _let_45) (tptp.has_region_2 _let_49 _let_47) (tptp.has_region_2 _let_51 _let_53) (tptp.is_inside_2 _let_50 _let_3) (tptp.agent_2 _let_55 _let_51) (tptp.is_between_2 _let_54 _let_49) (tptp.is_between_2 _let_54 _let_51) (tptp.has_part_2 _let_51 _let_43) (tptp.object_2 _let_55 _let_43) (tptp.agent_2 _let_55 _let_49) (tptp.object_2 _let_48 _let_51) (tptp.object_2 _let_48 _let_49) (tptp.is_between_2 _let_1 _let_49) (tptp.is_between_2 _let_1 _let_51) (tptp.is_inside_2 _let_51 _let_3) (tptp.agent_2 _let_42 _let_51) (tptp.agent_2 _let_42 _let_49) (tptp.has_region_2 _let_49 _let_52) (not (= _let_53 _let_52)) (not (= _let_52 _let_53)) (tptp.is_inside_2 _let_49 _let_3) (not (= _let_49 _let_51)) (not (= _let_51 _let_50)) (not (= _let_50 _let_49)) (not (= _let_49 _let_50)) (not (= _let_51 _let_49)) (not (= _let_50 _let_51)) (tptp.has_function_2 _let_1 _let_48) (tptp.agent_2 _let_48 _let_1) (tptp.is_at_2 _let_47 _let_46) (not (= _let_44 _let_47)) (not (= _let_47 _let_44)) (tptp.result_2 _let_42 _let_1) (tptp.object_2 _let_42 _let_43) (tptp.is_near_2 _let_43 _let_44) (tptp.is_at_2 _let_44 _let_45) (not (= _let_45 _let_46)) (tptp.is_near_2 _let_44 _let_43) (not (= _let_46 _let_45)) (= _let_62 (tptp.fn_decomposition_reaction_4 X)) (= _let_61 (tptp.fn_dephosphorylation_10 X)) (= X _let_60) (= _let_49 _let_22) (= _let_3 (tptp.fn_dephosphorylation_12 X)) (= _let_50 _let_27) (= _let_1 _let_6) (= _let_50 _let_28) (= _let_50 _let_26) (= _let_54 _let_38) (= _let_54 _let_37) (= _let_54 _let_36) (= _let_56 _let_41) (= _let_51 _let_27) (= _let_24 (tptp.fn_dephosphorylation_11 X)) (= _let_55 _let_2) (= _let_58 _let_57) (= _let_50 _let_25) (= _let_56 _let_40) (= _let_44 _let_11) (= _let_46 _let_15) (= _let_45 _let_13) (= _let_47 _let_17) (= _let_55 _let_39) (= _let_43 _let_8) (= _let_51 _let_23) (= _let_54 _let_35) (= _let_51 _let_21) (= _let_51 _let_30) (= _let_1 _let_5) (= _let_48 _let_19) (= _let_53 _let_34) (= _let_53 _let_33) (= _let_52 _let_32) (= _let_52 _let_31) (= _let_49 _let_21) (= _let_42 _let_4) (= _let_51 _let_29) (= _let_50 _let_23) (= _let_49 _let_20) (= _let_48 _let_18) (= _let_47 _let_16) (= _let_46 _let_14) (= _let_45 _let_12) (= _let_44 _let_10) (= _let_43 _let_9) (= _let_43 _let_7) (= _let_42 _let_2) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_2) (= _let_2 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_27) (= _let_27 _let_27) (= _let_27 _let_21) (= _let_30 _let_21) (= _let_21 _let_30) (= _let_23 _let_30) (= _let_30 _let_23) (= _let_23 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_2) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inactive_repressor_18 X))) (let ((_let_2 (tptp.fn_inactive_repressor_19 X))) (let ((_let_3 (tptp.fn_inactive_repressor_20 X))) (let ((_let_4 (tptp.fn_inactive_repressor_21 X))) (let ((_let_5 (tptp.fn_inactive_repressor_10 X))) (let ((_let_6 (tptp.fn_inactive_repressor_15 X))) (let ((_let_7 (tptp.fn_inactive_repressor_14 X))) (let ((_let_8 (tptp.fn_inactive_repressor_11 X))) (let ((_let_9 (tptp.fn_inactive_repressor_12 X))) (let ((_let_10 (tptp.fn_inactive_repressor_13 X))) (let ((_let_11 (tptp.fn_inactive_repressor_7 X))) (let ((_let_12 (tptp.fn_inactive_repressor_6 X))) (let ((_let_13 (tptp.fn_inactive_repressor_9 X))) (let ((_let_14 (tptp.fn_inactive_repressor_16 X))) (let ((_let_15 (tptp.fn_inactive_repressor_22 X))) (let ((_let_16 (tptp.fn_inactive_repressor_17 X))) (let ((_let_17 (tptp.fn_inactive_repressor_8 X))) (let ((_let_18 (tptp.fn_inactive_repressor_23 X))) (let ((_let_19 (tptp.fn_inactive_repressor_25 X))) (let ((_let_20 (tptp.fn_conformational_change_3 _let_19))) (let ((_let_21 (tptp.fn_conformational_change_4 _let_19))) (let ((_let_22 (tptp.fn_inactive_repressor_24 X))) (let ((_let_23 (tptp.fn_inactive_repressor_1 X))) (=> (tptp.inactive_repressor_1 X) (and (tptp.original_name_2 X |tptp.'Inactive-Repressor'|) (tptp.user_description_2 X |tptp.'A protein that inhibits gene transcription. In prokaryotes, repressors bind to the DNA in or near the promotor. In eukaryotes, repressors may bind to control elements within enhancers, to activators, or to other proteins in a way that blocks activators from binding to DNA.'|) (tptp.concept2words_2 X |tptp.'inactive repressor'|) (tptp.concept2words_2 X |tptp.'inactive-repressor'|) (tptp.repressor_1 X) (not (tptp.active_repressor_1 X)) (tptp.active_repressor_1 _let_23) (tptp.protein_domain_1 _let_12) (tptp.allosteric_site_1 _let_11) (tptp.polypeptide_1 _let_17) (tptp.size_value_1 _let_13) (tptp.kinetic_energy_1 _let_5) (tptp.constant_motion_1 _let_8) (tptp.attach_1 _let_9) (tptp.conformational_change_1 _let_10) (tptp.speed_value_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.size_value_1 _let_14) (tptp.spatial_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.monomer_1 _let_16) (tptp.molecule_1 _let_16) (tptp.amino_acid_1 _let_16) (tptp.hydrophilic_region_1 _let_1) (tptp.surface_1 _let_2) (tptp.carbon_skeleton_1 _let_3) (tptp.carbon_1 _let_4) (tptp.monomer_1 _let_15) (tptp.atom_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.binding_site_1 _let_22) (tptp.conformational_change_1 _let_19) (tptp.spatial_entity_1 _let_21) (tptp.spatial_entity_1 _let_20) (tptp.base_2 _let_19 _let_23) (tptp.object_2 _let_19 _let_22) (tptp.result_2 _let_19 X) (tptp.the_scalar_value_2 _let_13 tptp.big_0) (tptp.scalar_unit_class_2 _let_13 tptp.polypeptide_0) (tptp.is_at_2 _let_16 _let_12) (tptp.has_part_2 _let_17 _let_16) (tptp.has_part_2 X _let_17) (tptp.has_part_2 X _let_18) (not (= _let_18 _let_4)) (not (= _let_4 _let_18)) (tptp.size_2 X _let_13) (tptp.greater_than_2 _let_13 _let_14) (tptp.size_2 _let_15 _let_14) (tptp.has_part_2 X _let_15) (tptp.has_part_2 X _let_4) (tptp.base_2 _let_9 X) (tptp.causes_2 _let_9 _let_10) (tptp.object_2 _let_10 _let_11) (tptp.has_region_2 X _let_11) (tptp.has_region_2 X _let_12) (tptp.possesses_2 X _let_5) (tptp.quantity_2 _let_5 _let_6) (tptp.directly_proportional_2 _let_7 _let_6) (tptp.speed_2 _let_8 _let_7) (tptp.object_2 _let_8 X) (tptp.has_region_2 X _let_1) (tptp.is_at_2 _let_1 _let_2) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_4 _let_3) (= _let_22 _let_21) (= X _let_20) (= (tptp.fn_inactive_repressor_4 X) (tptp.fn_allosteric_protein_23 X)) (= (tptp.fn_inactive_repressor_3 X) (tptp.fn_allosteric_protein_24 X)) (= (tptp.fn_inactive_repressor_5 X) (tptp.fn_allosteric_protein_22 X)) (= (tptp.fn_inactive_repressor_2 X) (tptp.fn_allosteric_protein_25 X)) (= _let_18 (tptp.fn_allosteric_protein_10 X)) (= _let_17 (tptp.fn_allosteric_protein_20 X)) (= _let_16 (tptp.fn_allosteric_protein_13 X)) (= _let_15 (tptp.fn_allosteric_protein_11 X)) (= _let_14 (tptp.fn_allosteric_protein_14 X)) (= _let_13 (tptp.fn_allosteric_protein_19 X)) (= _let_12 (tptp.fn_allosteric_protein_21 X)) (= _let_11 (tptp.fn_allosteric_protein_6 X)) (= _let_10 (tptp.fn_allosteric_protein_9 X)) (= _let_9 (tptp.fn_allosteric_protein_7 X)) (= _let_8 (tptp.fn_allosteric_protein_17 X)) (= _let_7 (tptp.fn_allosteric_protein_16 X)) (= _let_6 (tptp.fn_allosteric_protein_15 X)) (= _let_5 (tptp.fn_allosteric_protein_18 X)) (= _let_4 (tptp.fn_allosteric_protein_12 X)) (= _let_3 (tptp.fn_allosteric_protein_4 X)) (= _let_2 (tptp.fn_allosteric_protein_3 X)) (= _let_1 (tptp.fn_allosteric_protein_2 X)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.inanimate_object_1 X) (and (tptp.original_name_2 X |tptp.'Inanimate-Object'|) (tptp.description_2 X |tptp.'A non-living thing'|) (tptp.concept2words_2 X |tptp.'inanimate object'|) (tptp.concept2words_2 X |tptp.'inanimate-object'|) (tptp.physical_object_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inborn_error_of_metabolism_1 X) (and (tptp.original_name_2 X |tptp.'Inborn-Error-Of-Metabolism'|) (tptp.user_description_2 X |tptp.'Class of genetic diseases which result in hereditory metabolic disorders.'|) (tptp.concept2words_2 X |tptp.'inborn error of metabolism'|) (tptp.concept2words_2 X |tptp.'inborn-error-of-metabolism'|) (tptp.human_genetic_disorder_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_incisor_3 X))) (let ((_let_2 (tptp.fn_impair_1 _let_1))) (let ((_let_3 (tptp.fn_incisor_1 X))) (let ((_let_4 (tptp.fn_food_3 _let_3))) (let ((_let_5 (tptp.fn_incisor_2 X))) (=> (tptp.incisor_1 X) (and (tptp.original_name_2 X |tptp.'Incisor'|) (tptp.user_description_2 X |tptp.'Relatively flat, blade-like tooth, located near the front of the mouth, specialized for holding and tearing food.'|) (tptp.concept2words_2 X tptp.incisor) (tptp.tooth_1 X) (tptp.food_1 _let_3) (tptp.tangible_entity_1 _let_5) (tptp.shear_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.has_function_2 X _let_1) (tptp.plays_2 _let_5 _let_3) (tptp.object_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_incomplete_dominance_3 X))) (let ((_let_2 (tptp.fn_code_for_2 _let_1))) (let ((_let_3 (tptp.fn_incomplete_dominance_4 X))) (let ((_let_4 (tptp.fn_incomplete_dominance_1 X))) (let ((_let_5 (tptp.fn_incomplete_dominance_2 X))) (let ((_let_6 (tptp.fn_gene_13 _let_5))) (let ((_let_7 (tptp.fn_homozygous_3 _let_4))) (=> (tptp.incomplete_dominance_1 X) (and (tptp.original_name_2 X |tptp.'Incomplete-Dominance'|) (tptp.user_description_2 X |tptp.'The situation in which the phenotype of heterozygotes is intermediate between the phenotypes of individuals homozygous for either allele.'|) (tptp.concept2words_2 X |tptp.'incomplete dominance'|) (tptp.concept2words_2 X |tptp.'incomplete-dominance'|) (tptp.gene_allele_relationship_1 X) (tptp.homozygous_1 _let_4) (tptp.dominant_allele_1 _let_5) (tptp.code_for_1 _let_1) (tptp.trait_on_one_end_of_a_range_1 _let_3) (tptp.allele_1 _let_7) (tptp.code_for_1 _let_6) (tptp.entity_1 _let_2) (tptp.element_2 _let_4 _let_5) (tptp.agent_2 _let_1 _let_5) (tptp.object_2 X _let_4) (tptp.result_2 _let_1 _let_3) (= _let_5 _let_7) (= _let_1 _let_6) (= _let_4 (tptp.fn_gene_allele_relationship_1 X)) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_incomplete_dominance_cross_breeding_event_1 X))) (=> (tptp.incomplete_dominance_cross_breeding_event_1 X) (and (tptp.original_name_2 X |tptp.'Incomplete-Dominance-Cross-Breeding-Event'|) (tptp.user_description_2 X |tptp.'Mating of two individuals, with expression of incomplete dominant alleles being investigated.'|) (tptp.concept2words_2 X |tptp.'incomplete dominance cross breeding event'|) (tptp.concept2words_2 X |tptp.'incomplete-dominance-cross-breeding-event'|) (tptp.cross_breeding_event_1 X) (not (tptp.codominance_cross_breeding_event_1 X)) (not (tptp.complete_dominance_cross_breeding_event_1 X)) (not (tptp.homozygous_dominant_cross_1 X)) (not (tptp.homozygous_recessive_cross_1 X)) (not (tptp.hybridization_1 X)) (not (tptp.sex_linkage_cross_breeding_event_1 X)) (not (tptp.testcross_1 X)) (tptp.incomplete_dominance_1 _let_1) (tptp.by_means_of_2 _let_1 X) (= _let_1 (tptp.fn_cross_breeding_event_6 X)))))) (forall ((X $$unsorted)) (=> (tptp.incomplete_flower_1 X) (and (tptp.original_name_2 X |tptp.'Incomplete-Flower'|) (tptp.user_description_2 X |tptp.'A flower in which one or more of the four basic floral organs (sepals, petals, stamens, or carpels) are either absent or nonfunctional.'|) (tptp.concept2words_2 X |tptp.'incomplete flower'|) (tptp.concept2words_2 X |tptp.'incomplete-flower'|) (tptp.flower_1 X) (not (tptp.complete_flower_1 X))))) (forall ((X $$unsorted)) (=> (tptp.incomplete_metamorphosis_1 X) (and (tptp.original_name_2 X |tptp.'Incomplete-Metamorphosis'|) (tptp.user_description_2 X |tptp.'A type of development in some insects, suchh as dragonflies and grasshoppers, in which there is no distinct larval stage and the young resemble small versions of the adult form. There is no radical metamorphosis; instead, the young undergo a series of molts, each time looking more like the adult form, until the full size is attained.'|) (tptp.concept2words_2 X tptp.metamorphose) (tptp.concept2words_2 X |tptp.'incomplete metamorphosis'|) (tptp.concept2words_2 X |tptp.'incomplete-metamorphosis'|) (tptp.metamorphosis_1 X) (not (tptp.complete_metamorphosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.incomplete_valence_shell_1 X) (and (tptp.original_name_2 X |tptp.'Incomplete-Valence-Shell'|) (tptp.user_description_2 X |tptp.'The outermost energy shell of an atom holding less than the maximum number of possible valence electrons.'|) (tptp.concept2words_2 X |tptp.'incomplete outer shell'|) (tptp.concept2words_2 X |tptp.'incomplete valence shell'|) (tptp.concept2words_2 X |tptp.'incomplete-valence-shell'|) (tptp.valence_shell_1 X) (not (tptp.complete_valence_shell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_increase_3 X))) (let ((_let_2 (tptp.fn_increase_4 X))) (=> (tptp.increase_1 X) (and (tptp.original_name_2 X |tptp.'Increase'|) (tptp.concept2words_2 X tptp.increase) (tptp.change_1 X) (tptp.property_value_1 _let_1) (tptp.property_value_1 _let_2) (tptp.to_value_2 X _let_2) (tptp.from_value_2 X _let_1) (tptp.greater_than_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_increase_in_accuracy_of_dna_replication_2 X))) (let ((_let_2 (tptp.fn_increase_in_accuracy_of_dna_replication_1 X))) (=> (tptp.increase_in_accuracy_of_dna_replication_1 X) (and (tptp.original_name_2 X |tptp.'Increase-In-Accuracy-Of-DNA-Replication'|) (tptp.user_description_2 X |tptp.'Process of increasing accuracy of DNA Replication.'|) (tptp.concept2words_2 X |tptp.'increase in accuracy of dna replication'|) (tptp.concept2words_2 X |tptp.'increase-in-accuracy-of-dna-replication'|) (tptp.gain_1 X) (tptp.specificity_of_base_pairing_1 _let_2) (tptp.dna_proofreading_1 _let_1) (tptp.by_means_of_2 X _let_1) (tptp.causes_2 _let_2 X) (tptp.causes_2 _let_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_increase_in_cell_size_2 X))) (let ((_let_2 (tptp.fn_cell_11 _let_1))) (let ((_let_3 (tptp.fn_increase_4 X))) (let ((_let_4 (tptp.fn_increase_in_cell_size_3 X))) (let ((_let_5 (tptp.fn_cell_10 _let_1))) (let ((_let_6 (tptp.fn_increase_in_cell_size_1 X))) (=> (tptp.increase_in_cell_size_1 X) (and (tptp.original_name_2 X |tptp.'Increase-In-Cell-Size'|) (tptp.user_description_2 X |tptp.'The growth in the size of the cell limited by the ratio of surface area to volume.'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X |tptp.'increase in cell size'|) (tptp.concept2words_2 X |tptp.'increase-in-cell-size'|) (tptp.expand_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.condense_1 X)) (not (tptp.brighten_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_of_activation_energy_1 X)) (tptp.decrease_1 _let_6) (tptp.tangible_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.property_value_1 _let_4) (tptp.size_value_1 _let_4) (tptp.property_node_1 _let_5) (tptp.size_value_1 _let_2) (tptp.causes_2 X _let_6) (tptp.object_2 X _let_1) (tptp.base_2 X _let_1) (tptp.to_value_2 X _let_4) (tptp.size_2 _let_1 _let_4) (= _let_1 (tptp.fn_expand_1 X)) (= _let_4 _let_3) (= (tptp.fn_increase_in_cell_size_4 X) _let_5) (= _let_4 _let_2) (= _let_3 _let_2) (= _let_2 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.increase_in_stability_1 X) (and (tptp.original_name_2 X |tptp.'Increase-in-Stability'|) (tptp.user_description_2 X |tptp.'Process of increasing stability.'|) (tptp.concept2words_2 X tptp.increase) (tptp.concept2words_2 X |tptp.'increase in stability'|) (tptp.concept2words_2 X |tptp.'increase-in-stability'|) (tptp.gain_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.increase_1 X) (tptp.activation_energy_1 X1)) (and (tptp.increase_of_activation_energy_1 X) (= (tptp.fn_increase_of_activation_energy_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_increase_of_activation_energy_9 X))) (let ((_let_2 (tptp.fn_voltage_9 _let_1))) (let ((_let_3 (tptp.fn_increase_of_activation_energy_10 X))) (let ((_let_4 (tptp.fn_voltage_8 _let_1))) (let ((_let_5 (tptp.fn_increase_of_activation_energy_5 X))) (let ((_let_6 (tptp.fn_increase_of_activation_energy_4 X))) (let ((_let_7 (tptp.fn_increase_of_activation_energy_1 X))) (=> (tptp.increase_of_activation_energy_1 X) (and (tptp.original_name_2 X |tptp.'Increase-of-Activation-Energy'|) (tptp.user_description_2 X |tptp.'It is the process of increase of activation energy.'|) (tptp.concept2words_2 X tptp.increase) (tptp.concept2words_2 X |tptp.'increase of activation energy'|) (tptp.concept2words_2 X |tptp.'increase-of-activation-energy'|) (tptp.increase_1 X) (not (tptp.wet_1 X)) (not (tptp.heat_1 X)) (not (tptp.expand_1 X)) (not (tptp.condense_1 X)) (not (tptp.brighten_1 X)) (not (tptp.cell_elongation_1 X)) (not (tptp.increase_in_cell_size_1 X)) (tptp.quantity_value_1 _let_7) (tptp.system_1 (tptp.fn_increase_of_activation_energy_3 X)) (tptp.activation_energy_1 _let_6) (tptp.event_1 _let_5) (tptp.threshold_potential_1 _let_1) (tptp.quantity_value_1 _let_3) (tptp.property_node_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.quantity_2 _let_6 _let_7) (tptp.called_2 _let_7 |tptp.'Q_ae'|) (tptp.called_2 _let_3 |tptp.'Q_tp'|) (tptp.object_2 X _let_6) (tptp.causes_2 X _let_5) (tptp.quantity_2 _let_1 _let_3) (= (tptp.fn_increase_of_activation_energy_11 X) _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.incubation_1 X) (and (tptp.original_name_2 X |tptp.'Incubation'|) (tptp.user_description_2 X |tptp.'In birds and some reptiles, sitting on or huddling around a clutch of eggs to maintain them at the temperature required for embryo development.'|) (tptp.concept2words_2 X tptp.incubate) (tptp.concept2words_2 X tptp.incubation) (tptp.scientific_method_1 X)))) (forall ((X $$unsorted)) (=> (tptp.incus_1 X) (and (tptp.original_name_2 X |tptp.'Incus'|) (tptp.user_description_2 X |tptp.'The second of three bones in the middle ear of mammals; also called the anvil.'|) (tptp.concept2words_2 X tptp.incus) (tptp.bone_1 X) (not (tptp.jaw_1 X)) (not (tptp.malleus_1 X)) (not (tptp.mandible_1 X)) (not (tptp.stapes_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_independent_assortment_12 X))) (let ((_let_2 (tptp.fn_haploid_cell_8 _let_1))) (let ((_let_3 (tptp.fn_independent_assortment_4 X))) (let ((_let_4 (tptp.fn_independent_assortment_28 X))) (let ((_let_5 (tptp.fn_tetrad_2 _let_4))) (let ((_let_6 (tptp.fn_independent_assortment_18 X))) (let ((_let_7 (tptp.fn_tetrad_1 _let_4))) (let ((_let_8 (tptp.fn_independent_assortment_19 X))) (let ((_let_9 (tptp.fn_independent_assortment_15 X))) (let ((_let_10 (tptp.fn_tetrad_2 _let_9))) (let ((_let_11 (tptp.fn_independent_assortment_25 X))) (let ((_let_12 (tptp.fn_tetrad_1 _let_9))) (let ((_let_13 (tptp.fn_independent_assortment_24 X))) (let ((_let_14 (tptp.fn_independent_assortment_8 X))) (let ((_let_15 (tptp.fn_haploid_cell_8 _let_14))) (let ((_let_16 (tptp.fn_independent_assortment_5 X))) (let ((_let_17 (tptp.fn_independent_assortment_13 X))) (let ((_let_18 (tptp.fn_haploid_cell_8 _let_17))) (let ((_let_19 (tptp.fn_independent_assortment_6 X))) (let ((_let_20 (tptp.fn_independent_assortment_14 X))) (let ((_let_21 (tptp.fn_haploid_cell_8 _let_20))) (let ((_let_22 (tptp.fn_independent_assortment_7 X))) (let ((_let_23 (tptp.fn_independent_assortment_17 X))) (let ((_let_24 (tptp.fn_move_together_1 _let_23))) (let ((_let_25 (tptp.fn_independent_assortment_27 X))) (let ((_let_26 (tptp.fn_independent_assortment_10 X))) (let ((_let_27 (tptp.fn_move_together_1 _let_26))) (let ((_let_28 (tptp.fn_independent_assortment_20 X))) (let ((_let_29 (tptp.fn_move_together_2 _let_23))) (let ((_let_30 (tptp.fn_independent_assortment_23 X))) (let ((_let_31 (tptp.fn_move_together_2 _let_26))) (let ((_let_32 (tptp.fn_independent_assortment_9 X))) (let ((_let_33 (tptp.fn_independent_assortment_11 X))) (let ((_let_34 (tptp.fn_move_together_1 _let_33))) (let ((_let_35 (tptp.fn_independent_assortment_29 X))) (let ((_let_36 (tptp.fn_move_together_2 _let_33))) (let ((_let_37 (tptp.fn_independent_assortment_22 X))) (let ((_let_38 (tptp.fn_independent_assortment_16 X))) (let ((_let_39 (tptp.fn_move_together_1 _let_38))) (let ((_let_40 (tptp.fn_independent_assortment_26 X))) (let ((_let_41 (tptp.fn_move_together_2 _let_38))) (let ((_let_42 (tptp.fn_independent_assortment_21 X))) (let ((_let_43 (tptp.fn_move_together_3 _let_23))) (let ((_let_44 (tptp.fn_move_together_3 _let_26))) (let ((_let_45 (tptp.fn_move_together_3 _let_33))) (let ((_let_46 (tptp.fn_move_together_3 _let_38))) (let ((_let_47 (tptp.fn_independent_assortment_3 X))) (let ((_let_48 (tptp.fn_independent_assortment_2 X))) (let ((_let_49 (tptp.fn_independent_assortment_1 X))) (=> (tptp.independent_assortment_1 X) (and (tptp.original_name_2 X |tptp.'Independent-Assortment'|) (tptp.user_description_2 X |tptp.'The random orientation of pairs of homologous chromosomes at metaphase of meiosis I resulting in the random sorting of chromosomes, independent of every other pair of chromosomes, into the daughter cells formed during meiosis.'|) (tptp.concept2words_2 X |tptp.'assortment of independent'|) (tptp.concept2words_2 X |tptp.'independent assortment'|) (tptp.concept2words_2 X |tptp.'independent-assortment'|) (tptp.subcellular_movement_1 X) (tptp.eukaryotic_cell_1 _let_49) (tptp.genetic_variation_1 _let_48) (tptp.chromatid_1 _let_47) (tptp.tangible_entity_1 _let_3) (tptp.nucleus_1 _let_3) (tptp.tangible_entity_1 _let_16) (tptp.nucleus_1 _let_16) (tptp.tangible_entity_1 _let_19) (tptp.nucleus_1 _let_19) (tptp.tangible_entity_1 _let_22) (tptp.nucleus_1 _let_22) (tptp.gamete_1 _let_14) (tptp.chromatid_1 _let_32) (tptp.move_together_1 _let_26) (tptp.move_together_1 _let_33) (tptp.gamete_1 _let_1) (tptp.gamete_1 _let_17) (tptp.gamete_1 _let_20) (tptp.tetrad_1 _let_9) (tptp.move_together_1 _let_38) (tptp.move_together_1 _let_23) (tptp.homologous_chromosome_1 _let_6) (tptp.homologous_chromosome_1 _let_8) (tptp.chromatid_1 _let_28) (tptp.chromatid_1 _let_42) (tptp.chromatid_1 _let_37) (tptp.chromatid_1 _let_30) (tptp.homologous_chromosome_1 _let_13) (tptp.homologous_chromosome_1 _let_11) (tptp.chromatid_1 _let_40) (tptp.chromatid_1 _let_25) (tptp.tetrad_1 _let_4) (tptp.chromatid_1 _let_35) (tptp.spatial_entity_1 _let_46) (tptp.spatial_entity_1 _let_45) (tptp.spatial_entity_1 _let_44) (tptp.spatial_entity_1 _let_43) (tptp.spatial_entity_1 _let_41) (tptp.spatial_entity_1 _let_39) (tptp.spatial_entity_1 _let_36) (tptp.spatial_entity_1 _let_34) (tptp.spatial_entity_1 _let_31) (tptp.spatial_entity_1 _let_29) (tptp.spatial_entity_1 _let_27) (tptp.spatial_entity_1 _let_24) (tptp.tangible_entity_1 _let_21) (tptp.nucleus_1 _let_21) (tptp.tangible_entity_1 _let_18) (tptp.nucleus_1 _let_18) (tptp.tangible_entity_1 _let_15) (tptp.nucleus_1 _let_15) (tptp.homologous_chromosome_1 _let_12) (tptp.homologous_chromosome_1 _let_10) (tptp.homologous_chromosome_1 _let_7) (tptp.homologous_chromosome_1 _let_5) (tptp.tangible_entity_1 _let_2) (tptp.nucleus_1 _let_2) (tptp.has_part_2 _let_49 _let_4) (tptp.has_part_2 _let_49 _let_9) (tptp.has_part_2 _let_6 _let_30) (tptp.has_part_2 _let_6 _let_37) (tptp.has_part_2 _let_8 _let_42) (tptp.has_part_2 _let_8 _let_28) (tptp.has_part_2 _let_13 _let_32) (tptp.has_part_2 _let_13 _let_35) (tptp.has_part_2 _let_11 _let_25) (tptp.has_part_2 _let_11 _let_40) (tptp.causes_2 X _let_48) (tptp.first_subevent_2 X _let_38) (tptp.object_2 X _let_9) (tptp.object_2 X _let_4) (tptp.subevent_2 X _let_38) (tptp.subevent_2 X _let_26) (tptp.subevent_2 X _let_33) (tptp.subevent_2 X _let_23) (tptp.result_2 X _let_14) (tptp.result_2 X _let_1) (tptp.result_2 X _let_17) (tptp.result_2 X _let_20) (tptp.is_inside_2 _let_22 _let_20) (tptp.has_part_2 _let_22 _let_47) (tptp.is_inside_2 _let_19 _let_17) (tptp.is_inside_2 _let_16 _let_14) (tptp.is_inside_2 _let_3 _let_1) (tptp.destination_2 _let_38 _let_20) (tptp.destination_2 _let_33 _let_14) (tptp.destination_2 _let_26 _let_1) (tptp.destination_2 _let_23 _let_17) (tptp.object_2 _let_38 _let_42) (tptp.object_2 _let_38 _let_40) (tptp.object_2 _let_33 _let_37) (tptp.object_2 _let_33 _let_35) (tptp.object_2 _let_26 _let_32) (tptp.object_2 _let_23 _let_30) (tptp.object_2 _let_26 _let_28) (tptp.object_2 _let_23 _let_25) (tptp.has_part_2 _let_20 _let_22) (tptp.has_part_2 _let_17 _let_19) (tptp.has_part_2 _let_14 _let_16) (tptp.has_part_2 _let_9 _let_13) (tptp.has_part_2 _let_9 _let_11) (tptp.has_part_2 _let_4 _let_8) (tptp.has_part_2 _let_4 _let_6) (tptp.has_part_2 _let_1 _let_3) (= _let_20 _let_46) (= _let_14 _let_45) (= _let_1 _let_44) (= _let_17 _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_25 _let_24) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_16 _let_15) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.independently_inherited_1 X) (and (tptp.original_name_2 X |tptp.'Independently-Inherited'|) (tptp.user_description_2 X |tptp.'Referring to genes that are randomly distributed into the gametes resulting from meiosis (unless they are physically linked on the same chromosome).'|) (tptp.concept2words_2 X |tptp.'inherit independently'|) (tptp.concept2words_2 X |tptp.'independently inherited'|) (tptp.concept2words_2 X |tptp.'independently-inherited'|) (tptp.inheritance_1 X)))) (forall ((X $$unsorted)) (=> (tptp.indeterminate_cleavage_1 X) (and (tptp.original_name_2 X |tptp.'Indeterminate-Cleavage'|) (tptp.user_description_2 X |tptp.'In early animal development, a type of cleavage in which cell fates are determined relatively late, and each cell retains the ability to develop into a complete embryo. Occurs in deuterostomes.'|) (tptp.concept2words_2 X |tptp.'undergo indeterminate cleavage'|) (tptp.concept2words_2 X |tptp.'indeterminate cleavage'|) (tptp.concept2words_2 X |tptp.'indeterminate-cleavage'|) (tptp.cleavage_1 X) (not (tptp.determinate_cleavage_1 X)) (not (tptp.holoblastic_cleavage_1 X)) (not (tptp.meroblastic_cleavage_1 X)) (not (tptp.spiral_cleavage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.indeterminate_growth_1 X) (and (tptp.original_name_2 X |tptp.'Indeterminate-Growth'|) (tptp.user_description_2 X |tptp.'Growth that continues throughout an organism_'s lifetime.'|) (tptp.concept2words_2 X |tptp.'indeterminate growth'|) (tptp.concept2words_2 X |tptp.'indeterminate-growth'|) (tptp.developmental_process_1 X) (not (tptp.determinate_growth_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_indium_8 X))) (let ((_let_2 (tptp.fn_indium_10 X))) (let ((_let_3 (tptp.fn_indium_11 X))) (let ((_let_4 (tptp.fn_indium_9 X))) (let ((_let_5 (tptp.fn_indium_4 X))) (let ((_let_6 (tptp.fn_indium_5 X))) (let ((_let_7 (tptp.fn_indium_3 X))) (=> (tptp.indium_1 X) (and (tptp.original_name_2 X |tptp.'Indium'|) (tptp.user_description_2 X |tptp.'Indium is a metal atom with atomic number 49. It is represented by the symbol In.'|) (tptp.concept2words_2 X tptp.indium) (tptp.metal_atom_1 X) (not (tptp.boron_1 X)) (not (tptp.barium_1 X)) (not (tptp.cesium_1 X)) (not (tptp.sodium_1 X)) (not (tptp.lead_1 X)) (not (tptp.polonium_1 X)) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.atomic_number_value_1 _let_3) (tptp.the_cardinal_value_2 _let_3 |"49"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"66"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"49"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"49"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.78"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"115"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"114.8"|) (tptp.cardinal_unit_class_2 _let_4 tptp.dalton_0) (tptp.atomic_weight_2 X _let_4) (tptp.atomic_number_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_indium_7 X) (tptp.fn_atom_13 X)) (= _let_4 (tptp.fn_atom_16 X)) (= (tptp.fn_indium_12 X) (tptp.fn_atom_12 X)) (= _let_3 (tptp.fn_atom_17 X)) (= (tptp.fn_indium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.individualistic_hypothesis_1 X) (and (tptp.original_name_2 X |tptp.'Individualistic-Hypothesis'|) (tptp.user_description_2 X |tptp.'The hypothesis that species found together are members of a community simply because they happen to have similar abiotic requirements.'|) (tptp.concept2words_2 X |tptp.'individualistic hypothesis'|) (tptp.concept2words_2 X |tptp.'individualistic-hypothesis'|) (tptp.hypothesis_1 X) (not (tptp.bicoid_protein_hypothesis_1 X)) (not (tptp.interactive_hypothesis_1 X)) (not (tptp.practice_hypothesis_of_play_1 X)) (not (tptp.snowball_earth_hypothesis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_induced_fit_10 X))) (let ((_let_2 (tptp.fn_reactant_3 _let_1))) (let ((_let_3 (tptp.fn_induced_fit_12 X))) (let ((_let_4 (tptp.fn_kinetic_energy_2 _let_3))) (let ((_let_5 (tptp.fn_induced_fit_14 X))) (let ((_let_6 (tptp.fn_locomotion_1 _let_5))) (let ((_let_7 (tptp.fn_reactant_2 _let_1))) (let ((_let_8 (tptp.fn_induced_fit_9 X))) (let ((_let_9 (tptp.fn_induced_fit_13 X))) (let ((_let_10 (tptp.fn_kinetic_energy_1 _let_3))) (let ((_let_11 (tptp.fn_induced_fit_11 X))) (let ((_let_12 (tptp.fn_enzymatic_reaction_13 _let_8))) (let ((_let_13 (tptp.fn_induced_fit_8 X))) (let ((_let_14 (tptp.fn_induced_fit_5 X))) (let ((_let_15 (tptp.fn_induced_fit_4 X))) (let ((_let_16 (tptp.fn_induced_fit_6 X))) (let ((_let_17 (tptp.fn_induced_fit_7 X))) (=> (tptp.induced_fit_1 X) (and (tptp.original_name_2 X |tptp.'Induced-Fit'|) (tptp.user_description_2 X |tptp.'A modification of the shape of the active site of an enzyme so that it holds substrate molecules tightly. The shape change is induced when the substrate enters the enzyme_'s binding site.'|) (tptp.concept2words_2 X |tptp.'induced fit'|) (tptp.concept2words_2 X |tptp.'induced-fit'|) (tptp.conformational_change_1 X) (not (tptp.feedback_inhibition_1 X)) (tptp.charge_value_1 _let_15) (tptp.chemical_bond_1 _let_14) (tptp.quantity_value_1 _let_16) (tptp.speed_value_1 _let_17) (tptp.active_site_1 _let_13) (tptp.enzymatic_reaction_1 _let_8) (tptp.chemical_reaction_1 _let_8) (tptp.reactant_1 _let_1) (tptp.constant_motion_1 _let_11) (tptp.kinetic_energy_1 _let_3) (tptp.spatial_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.enter_1 _let_5) (tptp.active_site_1 _let_12) (tptp.constant_motion_1 _let_10) (tptp.chemical_reaction_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.chemical_entity_1 _let_2) (tptp.speed_2 _let_11 _let_17) (tptp.the_cardinal_value_2 _let_15 |"0"|) (tptp.cardinal_unit_class_2 _let_15 tptp.unity_0) (tptp.quantity_2 _let_3 _let_16) (tptp.directly_proportional_2 _let_17 _let_16) (tptp.charge_2 _let_9 _let_15) (tptp.possesses_2 _let_9 _let_14) (tptp.causes_2 _let_5 X) (tptp.destination_2 _let_5 _let_13) (tptp.agent_2 _let_5 _let_9) (tptp.object_2 _let_5 _let_9) (tptp.site_2 _let_8 _let_13) (tptp.possesses_2 _let_9 _let_3) (tptp.object_2 _let_11 _let_9) (tptp.in_event_2 _let_1 _let_8) (tptp.raw_material_2 _let_8 _let_9) (tptp.plays_2 _let_9 _let_1) (= _let_9 _let_6) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_4) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cofactor_1 X))) (let ((_let_2 (tptp.fn_inducer_2 X))) (let ((_let_3 (tptp.fn_attach_1 _let_2))) (let ((_let_4 (tptp.fn_inducer_5 X))) (let ((_let_5 (tptp.fn_repressor_4 _let_4))) (let ((_let_6 (tptp.fn_inducer_6 X))) (let ((_let_7 (tptp.fn_inducer_3 X))) (let ((_let_8 (tptp.fn_inactive_repressor_25 _let_7))) (let ((_let_9 (tptp.fn_inducer_4 X))) (let ((_let_10 (tptp.fn_inducer_1 X))) (=> (tptp.inducer_1 X) (and (tptp.original_name_2 X |tptp.'Inducer'|) (tptp.user_description_2 X |tptp.'A specific small molecule that binds to a bacterial repressor protein and changes the repressor_'s shape so that it cannot bind to an operator, thus switching an operon on.'|) (tptp.concept2words_2 X |tptp.'inducible enzyme'|) (tptp.concept2words_2 X |tptp.'inducible protein'|) (tptp.concept2words_2 X |tptp.'inducer enzyme'|) (tptp.concept2words_2 X |tptp.'inducer protein'|) (tptp.concept2words_2 X tptp.inducer) (tptp.cofactor_1 X) (not (tptp.coenzyme_1 X)) (not (tptp.corepressor_1 X)) (not (tptp.cyclic_amp_1 X)) (not (tptp.prosthetic_group_1 X)) (tptp.transcription_1 _let_10) (tptp.attach_1 _let_2) (tptp.inactive_repressor_1 _let_7) (tptp.conformational_change_1 _let_9) (tptp.amphipathic_molecule_1 _let_4) (tptp.repressor_1 _let_4) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.conformational_change_1 _let_8) (tptp.attach_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.enables_2 _let_9 _let_10) (tptp.result_2 _let_2 _let_7) (tptp.enables_2 _let_2 _let_9) (tptp.object_2 _let_2 _let_6) (tptp.result_2 _let_9 _let_7) (tptp.plays_2 _let_6 X) (tptp.base_2 _let_2 _let_4) (= _let_6 _let_3) (= _let_9 _let_8) (= _let_6 _let_1) (= _let_2 _let_5) (= _let_3 _let_1)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inducible_operon_3 X))) (let ((_let_2 (tptp.fn_active_repressor_18 _let_1))) (let ((_let_3 (tptp.fn_repressor_4 _let_1))) (let ((_let_4 (tptp.fn_inducible_operon_2 X))) (let ((_let_5 (tptp.fn_inducible_operon_1 X))) (=> (tptp.inducible_operon_1 X) (and (tptp.original_name_2 X |tptp.'Inducible-Operon'|) (tptp.user_description_2 X |tptp.'A functioning unit of genomic material containing a cluster of genes under the control of a single regulatory signal or promoter. The operon is usually turned off but can be stimulated when a specific, small molecule interacts with a regulatory protein.'|) (tptp.concept2words_2 X |tptp.'inducible operon'|) (tptp.concept2words_2 X |tptp.'inducible-operon'|) (tptp.operon_1 X) (not (tptp.repressible_operon_1 X)) (tptp.transcription_1 _let_5) (tptp.attach_1 _let_4) (tptp.active_repressor_1 _let_1) (tptp.attach_1 _let_3) (tptp.attach_1 _let_2) (tptp.base_2 _let_5 X) (tptp.enables_2 _let_4 _let_5) (tptp.base_2 _let_4 _let_1) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.induction_1 X) (and (tptp.original_name_2 X |tptp.'Induction'|) (tptp.user_description_2 X |tptp.'In early development, the process by which one group of cells influences the development of another nearby cell or group of cells, typically by influencing gene expression.'|) (tptp.concept2words_2 X tptp.induce) (tptp.concept2words_2 X tptp.induction) (tptp.development_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inductive_reasoning_1 X) (and (tptp.original_name_2 X |tptp.'Inductive-Reasoning'|) (tptp.user_description_2 X |tptp.'A type of logic in which generalizations are based on a large number of specific observations.'|) (tptp.concept2words_2 X |tptp.'inductive reasoning'|) (tptp.concept2words_2 X |tptp.'inductive-reasoning'|) (tptp.scientific_method_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inert_atom_1 X))) (=> (tptp.inert_atom_1 X) (and (tptp.original_name_2 X |tptp.'Inert-Atom'|) (tptp.user_description_2 X |tptp.'Unreactive, stable atom with a full valence shell.'|) (tptp.concept2words_2 X |tptp.'noble gas'|) (tptp.concept2words_2 X |tptp.'inert atom'|) (tptp.concept2words_2 X |tptp.'inert-atom'|) (tptp.non_metal_atom_1 X) (tptp.chemical_stability_value_1 _let_1) (tptp.the_categorical_value_2 _let_1 tptp.stable_0) (tptp.chemical_stability_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_infant_1 X))) (=> (tptp.infant_1 X) (and (tptp.original_name_2 X |tptp.'Infant'|) (tptp.user_description_2 X |tptp.'Young offspring of a human or other mammal.'|) (tptp.concept2words_2 X tptp.infant) (tptp.living_entity_1 X) (tptp.person_1 _let_1) (tptp.has_state_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.infected_cell_1 X) (and (tptp.original_name_2 X |tptp.'Infected-Cell'|) (tptp.user_description_2 X |tptp.'A cell that has been infected by a virus.'|) (tptp.concept2words_2 X |tptp.'infected cell'|) (tptp.concept2words_2 X |tptp.'infected-cell'|) (tptp.cell_state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.infection_1 X) (and (tptp.original_name_2 X |tptp.'Infection'|) (tptp.user_description_2 X |tptp.'The invasion of a host_'s body by pathogens or parasites.'|) (tptp.concept2words_2 X tptp.infect) (tptp.concept2words_2 X tptp.infection) (tptp.macrophysiological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.infectious_disease_1 X) (and (tptp.original_name_2 X |tptp.'Infectious-Disease'|) (tptp.user_description_2 X |tptp.'A disease caused by infectious agents (e.g., bacteria) that can be transmissible from one host to another.'|) (tptp.concept2words_2 X |tptp.'communicable disease'|) (tptp.concept2words_2 X |tptp.'communicable-disease'|) (tptp.concept2words_2 X |tptp.'contagious disease'|) (tptp.concept2words_2 X |tptp.'contagious-disease'|) (tptp.concept2words_2 X |tptp.'transmissible disease'|) (tptp.concept2words_2 X |tptp.'transmissible-disease'|) (tptp.concept2words_2 X |tptp.'infectious disease'|) (tptp.concept2words_2 X |tptp.'infectious-disease'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_infectious_particle_1 X))) (let ((_let_2 (tptp.fn_host_1 _let_1))) (let ((_let_3 (tptp.fn_infectious_particle_2 X))) (let ((_let_4 (tptp.fn_host_2 _let_1))) (let ((_let_5 (tptp.fn_infectious_particle_3 X))) (=> (tptp.infectious_particle_1 X) (and (tptp.original_name_2 X |tptp.'Infectious-Particle'|) (tptp.user_description_2 X |tptp.'A non-living entity, such as a virus, a prion, or a viroid, that is capable of causing infection.'|) (tptp.concept2words_2 X tptp.pathogen) (tptp.concept2words_2 X |tptp.'infectious particle'|) (tptp.concept2words_2 X |tptp.'infectious-particle'|) (tptp.pathogen_1 X) (tptp.non_living_entity_1 X) (tptp.host_1 _let_1) (tptp.cell_1 _let_3) (tptp.infection_1 _let_5) (tptp.event_1 _let_4) (tptp.living_entity_1 _let_2) (tptp.agent_2 _let_5 X) (tptp.object_2 _let_5 _let_3) (tptp.in_event_2 _let_1 _let_5) (tptp.plays_2 _let_3 _let_1) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.inflammatory_response_1 X) (and (tptp.original_name_2 X |tptp.'Inflammatory-Response'|) (tptp.user_description_2 X |tptp.'The innate immune response of the body to harmful stimuli such as physical injury or infection. The inflammatory response involves dilation of blood vessels in the affected area, the release of histamines, and mobilization of white blood cells to the site of injury.'|) (tptp.concept2words_2 X tptp.respond) (tptp.concept2words_2 X |tptp.'inflammatory response'|) (tptp.concept2words_2 X |tptp.'inflammatory-response'|) (tptp.immune_response_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inflorescence_1 X) (and (tptp.original_name_2 X |tptp.'Inflorescence'|) (tptp.user_description_2 X |tptp.'A cluster of flowers on a shared stem.'|) (tptp.concept2words_2 X tptp.inflorescence) (tptp.ensemble_1 X)))) (forall ((X $$unsorted)) (=> (tptp.influence_1 X) (and (tptp.original_name_2 X |tptp.'Influence'|) (tptp.user_description_2 X |tptp.'Effect of one thing on another.'|) (tptp.concept2words_2 X tptp.influence) (tptp.interact_1 X)))) (forall ((X $$unsorted)) (=> (tptp.influenza_1 X) (and (tptp.original_name_2 X |tptp.'Influenza'|) (tptp.user_description_2 X |tptp.'An infectious respiratory disease caused by the influenza virus.'|) (tptp.concept2words_2 X tptp.flu) (tptp.concept2words_2 X tptp.influenza) (tptp.viral_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_influenza_virus_1 X))) (let ((_let_2 (tptp.fn_viral_envelope_17 _let_1))) (=> (tptp.influenza_virus_1 X) (and (tptp.original_name_2 X |tptp.'Influenza-virus'|) (tptp.user_description_2 X |tptp.'An RNA virus that infects epithelial cells of the respiratory tract abd causes influenza.'|) (tptp.concept2words_2 X tptp.flu) (tptp.concept2words_2 X |tptp.'flu virus'|) (tptp.concept2words_2 X |tptp.'flu-virus'|) (tptp.concept2words_2 X |tptp.'virus of influenza'|) (tptp.concept2words_2 X |tptp.'influenza virus'|) (tptp.concept2words_2 X |tptp.'influenza-virus'|) (tptp.rna_virus_1 X) (not (tptp.ebola_virus_1 X)) (not (tptp.hantavirus_1 X)) (not (tptp.nipah_virus_1 X)) (not (tptp.retrovirus_1 X)) (not (tptp.rna_virus_class_iv_1 X)) (not (tptp.rna_virus_class_v_1 X)) (tptp.viral_envelope_1 _let_1) (tptp.virus_1 _let_2) (tptp.has_part_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_information_1 X))) (=> (tptp.information_1 X) (and (tptp.original_name_2 X |tptp.'Information'|) (tptp.description_2 X |tptp.'Knowledge communicated or received concerning a particular fact or circumstance. RHCD:1st Revised: 684.'|) (tptp.concept2words_2 X tptp.information) (tptp.concept2words_2 X tptp.info) (tptp.concept2words_2 X tptp.object) (tptp.conceptual_entity_1 X) (tptp.thing_1 _let_1) (tptp.information_content_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.information_sequence_1 X) (and (tptp.original_name_2 X |tptp.'Information-Sequence'|) (tptp.description_2 X |tptp.'A sequence which encodes information. Biological examples are DNA, RNA, and the amino acid sequence of proteins (which determines folding).'|) (tptp.concept2words_2 X tptp.string) (tptp.concept2words_2 X |tptp.'sequence of information'|) (tptp.concept2words_2 X |tptp.'information sequence'|) (tptp.concept2words_2 X |tptp.'information-sequence'|) (tptp.sequence_1 X) (tptp.information_1 X) (not (tptp.coding_segment_1 X)) (not (tptp.leader_segment_1 X)) (not (tptp.telomere_with_3_prime_overhang_1 X)) (not (tptp.terminator_sequence_1 X)) (not (tptp.suggestion_1 X)) (not (tptp.request_1 X)) (not (tptp.cdna_library_1 X)) (not (tptp.classification_unit_1 X)) (not (tptp.dna_library_1 X)) (not (tptp.ethics_1 X)) (not (tptp.fossil_record_1 X)) (not (tptp.genomic_library_1 X)) (not (tptp.hypothesis_1 X)) (not (tptp.positional_information_1 X)) (not (tptp.proximate_causation_1 X)) (not (tptp.representation_1 X)) (not (tptp.rna_world_1 X)) (not (tptp.scientific_laws_1 X)) (not (tptp.species_concept_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_infrared_rays_7 X))) (let ((_let_2 (tptp.fn_infrared_rays_3 X))) (let ((_let_3 (tptp.fn_infrared_rays_4 X))) (let ((_let_4 (tptp.fn_infrared_rays_5 X))) (=> (tptp.infrared_rays_1 X) (and (tptp.original_name_2 X |tptp.'Infrared-Rays'|) (tptp.user_description_2 X |tptp.'Infrared-rays are the electromagnetic radiation with wavelenth ranging from 1000 nm to 1000000 nm. Their wavelength is shorter than that of Microwaves, but longer than Ultraviolet-rays'|) (tptp.concept2words_2 X |tptp.'infrared ray'|) (tptp.concept2words_2 X |tptp.'infrared-ray'|) (tptp.light_1 X) (tptp.length_value_1 _let_2) (tptp.length_value_1 _let_3) (tptp.electromagnetic_spectrum_1 _let_4) (tptp.length_value_1 _let_1) (tptp.element_2 _let_4 X) (tptp.the_cardinal_value_2 _let_3 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.millimeter_0) (tptp.greater_than_or_equal_to_2 _let_3 _let_1) (tptp.the_cardinal_value_2 _let_2 |"750.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_1 _let_2) (tptp.wavelength_2 X _let_1) (= (tptp.fn_infrared_rays_6 X) (tptp.fn_electromagnetic_energy_1 X)) (= _let_1 (tptp.fn_electromagnetic_energy_4 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ingestion_2 X))) (let ((_let_2 (tptp.fn_food_3 _let_1))) (let ((_let_3 (tptp.fn_ingestion_3 X))) (let ((_let_4 (tptp.fn_ingestion_1 X))) (=> (tptp.ingestion_1 X) (and (tptp.original_name_2 X |tptp.'Ingestion'|) (tptp.user_description_2 X |tptp.'The act of eating food; the first step in food processing.'|) (tptp.concept2words_2 X tptp.ingest) (tptp.concept2words_2 X tptp.ingestion) (tptp.animal_process_1 X) (not (tptp.food_absorption_1 X)) (not (tptp.elimination_1 X)) (not (tptp.extracellular_digestion_1 X)) (tptp.animal_1 _let_4) (tptp.food_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 X _let_4) (tptp.base_2 X _let_4) (tptp.object_2 X _let_3) (tptp.plays_2 _let_3 _let_1) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.ingroup_1 X) (and (tptp.original_name_2 X |tptp.'Ingroup'|) (tptp.user_description_2 X |tptp.'In phylogenetic studies, the group of taxa being analysed.'|) (tptp.concept2words_2 X tptp.ingroup) (tptp.species_1 X) (not (tptp.ecological_grouping_1 X)) (not (tptp.outgroup_1 X)) (not (tptp.polyphyletic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inheritance_5 X))) (let ((_let_2 (tptp.fn_gene_related_aggregates_1 _let_1))) (let ((_let_3 (tptp.fn_transfer_1 X))) (let ((_let_4 (tptp.fn_inheritance_3 X))) (let ((_let_5 (tptp.fn_organism_3 _let_4))) (let ((_let_6 (tptp.fn_inheritance_4 X))) (let ((_let_7 (tptp.fn_inheritance_2 X))) (let ((_let_8 (tptp.fn_parent_3 _let_7))) (let ((_let_9 (tptp.fn_organism_role_2 _let_7))) (let ((_let_10 (tptp.fn_inheritance_1 X))) (=> (tptp.inheritance_1 X) (and (tptp.original_name_2 X |tptp.'Inheritance'|) (tptp.user_description_2 X |tptp.'The process by which offspring acquire or become predisposed to characteristics of their parent(s).'|) (tptp.concept2words_2 X tptp.heredity) (tptp.concept2words_2 X tptp.inherit) (tptp.concept2words_2 X tptp.inheritance) (tptp.transfer_1 X) (tptp.entity_1 _let_10) (tptp.parent_1 _let_7) (tptp.organism_1 _let_4) (tptp.entity_1 _let_6) (tptp.gene_1 _let_6) (tptp.gene_related_aggregates_1 _let_1) (tptp.genotype_1 _let_1) (tptp.event_1 _let_9) (tptp.organism_1 _let_8) (tptp.genotype_1 _let_5) (tptp.gene_1 _let_2) (tptp.recipient_2 X _let_10) (tptp.donor_2 X _let_4) (tptp.object_2 X _let_6) (tptp.in_event_2 _let_7 X) (tptp.plays_2 _let_4 _let_7) (tptp.has_part_2 _let_4 _let_1) (tptp.element_2 _let_1 _let_6) (= _let_6 _let_3) (= X _let_9) (= _let_4 _let_8) (= _let_6 _let_2) (= _let_1 _let_5) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.inheritance_1 X) (tptp.extranuclear_gene_1 X1)) (and (tptp.inheritance_of_extranuclear_genes_1 X) (= (tptp.fn_inheritance_of_extranuclear_genes_4 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inheritance_of_extranuclear_genes_4 X))) (let ((_let_2 (tptp.fn_gene_15 _let_1))) (let ((_let_3 (tptp.fn_inheritance_of_extranuclear_genes_3 X))) (let ((_let_4 (tptp.fn_mitochondrion_24 _let_3))) (let ((_let_5 (tptp.fn_inheritance_of_extranuclear_genes_2 X))) (=> (tptp.inheritance_of_extranuclear_genes_1 X) (and (tptp.original_name_2 X |tptp.'Inheritance-Of-Extranuclear-Genes'|) (tptp.user_description_2 X |tptp.'Inheritance for extranuclear genes, such as those in mitochondria or a plant_'s plastids.'|) (tptp.concept2words_2 X tptp.inherit) (tptp.concept2words_2 X |tptp.'inheritance of extranuclear gene'|) (tptp.concept2words_2 X |tptp.'inheritance-of-extranuclear-gene'|) (tptp.inheritance_1 X) (tptp.chloroplast_1 _let_5) (tptp.living_entity_1 _let_3) (tptp.mitochondrion_1 _let_3) (tptp.extranuclear_gene_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.inheritance_1 _let_2) (tptp.is_inside_2 _let_1 _let_5) (tptp.is_inside_2 _let_1 _let_3) (tptp.object_2 X _let_1) (= _let_1 _let_4) (= X _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.inhibin_1 X) (and (tptp.original_name_2 X |tptp.'Inhibin'|) (tptp.user_description_2 X |tptp.'A peptide hormone secreted by the ovaries and testis that inhibits production of follicle stimulating hormone (FSH) by the anterior pituitary.'|) (tptp.concept2words_2 X tptp.inhibin) (tptp.peptide_hormone_1 X) (not (tptp.bmp_4_1 X)) (not (tptp.erythropoietin_1 X)) (not (tptp.growth_hormone_1 X)) (not (tptp.leptin_1 X)) (not (tptp.prolactin_1 X))))) (forall ((X $$unsorted)) (=> (tptp.inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Inhibition'|) (tptp.user_description_2 X |tptp.'The process in which a chemical or entity decreases the activity of a reaction or organism.'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X tptp.inhibition) (tptp.regulation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inhibition_of_transport_protein_5 X))) (let ((_let_2 (tptp.fn_inhibitor_3 _let_1))) (let ((_let_3 (tptp.fn_inhibitor_2 _let_1))) (let ((_let_4 (tptp.fn_inhibition_of_transport_protein_6 X))) (let ((_let_5 (tptp.fn_attach_1 _let_4))) (let ((_let_6 (tptp.fn_inhibition_of_transport_protein_9 X))) (let ((_let_7 (tptp.fn_compete_1 _let_6))) (let ((_let_8 (tptp.fn_inhibitor_1 _let_1))) (let ((_let_9 (tptp.fn_inhibition_of_transport_protein_8 X))) (let ((_let_10 (tptp.fn_attach_2 _let_9))) (let ((_let_11 (tptp.fn_attach_2 _let_4))) (let ((_let_12 (tptp.fn_inhibition_of_transport_protein_7 X))) (let ((_let_13 (tptp.fn_attach_2 _let_12))) (let ((_let_14 (tptp.fn_inhibition_of_transport_protein_2 X))) (let ((_let_15 (tptp.fn_make_inaccessible_1 _let_14))) (let ((_let_16 (tptp.fn_inhibition_of_transport_protein_4 X))) (let ((_let_17 (tptp.fn_inhibition_of_transport_protein_3 X))) (let ((_let_18 (tptp.fn_inhibition_of_transport_protein_1 X))) (=> (tptp.inhibition_of_transport_protein_1 X) (and (tptp.original_name_2 X |tptp.'Inhibition-Of-Transport-Protein'|) (tptp.user_description_2 X |tptp.'The transport proteins can be inhibited by molecules that resemble the normal substrate. This occurs when the imposter competes with the normally transported solute by binding to the transport protein.'|) (tptp.concept2words_2 X tptp.transport) (tptp.concept2words_2 X |tptp.'inhibition of transport protein'|) (tptp.concept2words_2 X |tptp.'inhibition-of-transport-protein'|) (tptp.inhibition_1 X) (tptp.facilitated_diffusion_1 _let_18) (tptp.make_inaccessible_1 _let_14) (tptp.transport_protein_1 _let_17) (tptp.molecule_1 _let_16) (tptp.inhibitor_1 _let_1) (tptp.attach_1 _let_4) (tptp.attach_1 _let_12) (tptp.attach_1 _let_9) (tptp.compete_1 _let_6) (tptp.entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.inhibition_1 _let_2) (tptp.by_means_of_2 _let_14 _let_4) (tptp.prevents_2 _let_12 _let_4) (tptp.prevents_2 X _let_18) (tptp.subevent_2 X _let_14) (tptp.subevent_2 X _let_6) (tptp.first_subevent_2 X _let_14) (tptp.object_2 _let_14 _let_17) (tptp.base_2 _let_12 _let_17) (tptp.base_2 _let_4 _let_17) (tptp.base_2 _let_9 _let_17) (tptp.agent_2 _let_6 _let_16) (tptp.object_2 _let_4 _let_16) (tptp.plays_2 _let_16 _let_1) (tptp.agent_2 X _let_16) (tptp.object_2 X _let_17) (= _let_17 _let_15) (= _let_17 _let_13) (= _let_17 _let_11) (= _let_17 _let_10) (= _let_16 _let_7) (= _let_16 _let_5) (= _let_17 _let_8) (= X _let_2) (= _let_16 _let_3) (= _let_15 _let_13) (= _let_10 _let_13) (= _let_13 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inhibitor_3 X))) (let ((_let_2 (tptp.fn_inhibitor_2 X))) (let ((_let_3 (tptp.fn_inhibitor_1 X))) (=> (tptp.inhibitor_1 X) (and (tptp.original_name_2 X |tptp.'Inhibitor'|) (tptp.user_description_2 X |tptp.'A substance that reduces or suppresses the activity of another substance.'|) (tptp.concept2words_2 X tptp.inhibitor) (tptp.role_1 X) (tptp.tangible_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.inhibition_1 _let_1) (tptp.agent_2 _let_1 _let_2) (tptp.object_2 _let_1 _let_3) (tptp.has_function_2 _let_2 _let_1) (tptp.plays_2 _let_2 X) (tptp.in_event_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.initial_meristem_1 X) (and (tptp.original_name_2 X |tptp.'Initial-Meristem'|) (tptp.user_description_2 X |tptp.'A type of cell in the meristem of plants that is continually dividing, producing new cells for plant growth.'|) (tptp.concept2words_2 X |tptp.'meristem of initial'|) (tptp.concept2words_2 X |tptp.'initial meristem'|) (tptp.concept2words_2 X |tptp.'initial-meristem'|) (tptp.plant_metabolic_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.collenchyma_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.mesophyll_cell_1 X)) (not (tptp.parenchyma_cell_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X))))) (forall ((X $$unsorted)) (=> (tptp.initiate_1 X) (and (tptp.original_name_2 X |tptp.'Initiate'|) (tptp.user_description_2 X |tptp.'Cause a process or action to begin.'|) (tptp.concept2words_2 X tptp.initiate) (tptp.action_1 X)))) (forall ((X $$unsorted)) (=> (tptp.initiation_1 X) (and (tptp.original_name_2 X |tptp.'Initiation'|) (tptp.user_description_2 X |tptp.'The starting phase of a cellular process.'|) (tptp.concept2words_2 X tptp.initiate) (tptp.concept2words_2 X tptp.initiation) (tptp.initiate_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_initiation_factor_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.initiation_factor_1 X) (and (tptp.original_name_2 X |tptp.'Initiation-Factor'|) (tptp.user_description_2 X |tptp.'Initiation-factors are the proteins involved in the initiation phase of a translation process (Synthesis of polypeptide). Initiation-factors are required to form the translation-initiation-complex'|) (tptp.concept2words_2 X tptp.if) (tptp.concept2words_2 X |tptp.'factor of initiation'|) (tptp.concept2words_2 X |tptp.'initiation factor'|) (tptp.concept2words_2 X |tptp.'initiation-factor'|) (tptp.regulatory_protein_1 X) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.initiator_trna_1 X) (and (tptp.original_name_2 X |tptp.'Initiator-tRNA'|) (tptp.user_description_2 X |tptp.'Initiator-tRNA is a tRNA which carries the first amino acid _'Methionine_' to the Initiation (Start) codon for attachment'|) (tptp.concept2words_2 X |tptp.'initiator trna'|) (tptp.concept2words_2 X |tptp.'initiator-trna'|) (tptp.concept2words_2 X |tptp.'trna of initiator'|) (tptp.trna_1 X) (not (tptp.aminoacyl_trna_1 X))))) (forall ((X $$unsorted)) (=> (tptp.inject_1 X) (and (tptp.original_name_2 X |tptp.'Inject'|) (tptp.user_description_2 X |tptp.'To introduce a substance, usually a fluid, into a cell or organism through the use of a sharp pointed object, such as a syringe or insect mouth part adapted for this purpose.'|) (tptp.concept2words_2 X |tptp.'shoot in'|) (tptp.concept2words_2 X |tptp.'shoot-in'|) (tptp.concept2words_2 X tptp.inject) (tptp.action_1 X)))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.instrument_2 X X1) (tptp.in_event_2 X1 X2) (tptp.first_subevent_2 X X2) (tptp.subevent_2 X X2) (tptp.needle_1 X1) (tptp.get_free_dna_into_cell_1 X) (tptp.inject_1 X) (tptp.penetrate_1 X2)) (and (tptp.inject_dna_with_needle_1 X) (= (tptp.fn_inject_dna_with_needle_2 X) X1) (= (tptp.fn_inject_dna_with_needle_5 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inject_dna_with_needle_5 X))) (let ((_let_2 (tptp.fn_inject_dna_with_needle_3 X))) (let ((_let_3 (tptp.fn_inject_dna_with_needle_2 X))) (=> (tptp.inject_dna_with_needle_1 X) (and (tptp.original_name_2 X |tptp.'Inject-DNA-With-Needle'|) (tptp.user_description_2 X |tptp.'Introducing DNA into a cell with a syringe.'|) (tptp.concept2words_2 X |tptp.'nuclear transplantation'|) (tptp.concept2words_2 X tptp.inject) (tptp.concept2words_2 X |tptp.'inject dna with needle'|) (tptp.concept2words_2 X |tptp.'inject-dna-with-needle'|) (tptp.inject_1 X) (tptp.get_free_dna_into_cell_1 X) (tptp.needle_1 _let_3) (tptp.size_value_1 _let_2) (tptp.penetrate_1 _let_1) (tptp.the_scalar_value_2 _let_2 tptp.microscopic_0) (tptp.scalar_unit_class_2 _let_2 tptp.needle_0) (tptp.instrument_2 X _let_3) (tptp.size_2 _let_3 _let_2) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_1) (= _let_1 (tptp.fn_get_free_dna_into_cell_2 X)))))))) (forall ((X $$unsorted)) (=> (tptp.innate_behavior_1 X) (and (tptp.original_name_2 X |tptp.'Innate-Behavior'|) (tptp.user_description_2 X |tptp.'In animals, behavior that is developmentally fixed and strongly controlled by genetics. Innate behaviors occur the same way in all individuals in a population, despite differences in environment and upbringing.'|) (tptp.concept2words_2 X tptp.instinct) (tptp.concept2words_2 X |tptp.'instinctive behavior'|) (tptp.concept2words_2 X |tptp.'instinctive-behavior'|) (tptp.concept2words_2 X |tptp.'innate behavior'|) (tptp.concept2words_2 X |tptp.'innate-behavior'|) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inner_cell_mass_1 X) (and (tptp.original_name_2 X |tptp.'Inner-Cell-Mass'|) (tptp.user_description_2 X |tptp.'Mass of cells inside the early embryo of mammals, that will eventually develop into the tissues of the embryo itself and some of the extraembryonic membranes.'|) (tptp.concept2words_2 X |tptp.'inner cell mass'|) (tptp.concept2words_2 X |tptp.'inner-cell-mass'|) (tptp.animal_development_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inner_ear_1 X) (and (tptp.original_name_2 X |tptp.'Inner-Ear'|) (tptp.user_description_2 X |tptp.'The innermost part of the vertebrate ear, responsible mainly for balance and sound detection. It contains the cochlea and the semicircular canals.'|) (tptp.concept2words_2 X |tptp.'inner ear'|) (tptp.concept2words_2 X |tptp.'inner-ear'|) (tptp.sensory_organ_1 X) (not (tptp.antenna_1 X)) (not (tptp.cochlea_1 X)) (not (tptp.eye_cup_1 X)) (not (tptp.lateral_line_1 X)) (not (tptp.organ_of_corti_1 X)) (not (tptp.organ_of_equilibrium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.inner_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Inner-Membrane'|) (tptp.user_description_2 X |tptp.'The inner enclosing layer of a double phospholipid-bilayer membrane. The inner membrane is comprised of a phospholipid bilayer.'|) (tptp.concept2words_2 X |tptp.'inner membrane'|) (tptp.concept2words_2 X |tptp.'inner-membrane'|) (tptp.biomembrane_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inner_vulva_1 X) (and (tptp.original_name_2 X |tptp.'Inner-Vulva'|) (tptp.user_description_2 X |tptp.'Inner vulva is part of a vulva.'|) (tptp.concept2words_2 X |tptp.'inner vulva'|) (tptp.concept2words_2 X |tptp.'inner-vulva'|) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.innovation_1 X) (and (tptp.original_name_2 X |tptp.'Innovation'|) (tptp.concept2words_2 X tptp.invention) (tptp.concept2words_2 X tptp.creation) (tptp.concept2words_2 X tptp.innovation) (tptp.concept2words_2 X tptp.innovate) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.inorganic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Inorganic-Acid'|) (tptp.user_description_2 X |tptp.'A mineral acid derived from one or more inorganic compounds.'|) (tptp.concept2words_2 X |tptp.'mineral acid'|) (tptp.concept2words_2 X |tptp.'mineral-acid'|) (tptp.concept2words_2 X |tptp.'inorganic acid'|) (tptp.concept2words_2 X |tptp.'inorganic-acid'|) (tptp.inorganic_molecule_1 X) (not (tptp.hydrogen_molecule_1 X)) (not (tptp.hydrogen_sulfide_1 X)) (not (tptp.inorganic_ion_1 X)) (not (tptp.nitric_oxide_1 X)) (not (tptp.oxygen_molecule_1 X)) (not (tptp.sulfur_dioxide_1 X))))) (forall ((X $$unsorted)) (=> (tptp.inorganic_ion_1 X) (and (tptp.original_name_2 X |tptp.'Inorganic-Ion'|) (tptp.user_description_2 X |tptp.'Inorganic ions are ions necessary for vital cellular activity in animals and plants'|) (tptp.concept2words_2 X |tptp.'inorganic ion'|) (tptp.concept2words_2 X |tptp.'inorganic-ion'|) (tptp.ion_1 X) (not (tptp.hydrogen_molecule_1 X)) (not (tptp.hydrogen_sulfide_1 X)) (not (tptp.inorganic_acid_1 X)) (not (tptp.nitric_oxide_1 X)) (not (tptp.oxygen_molecule_1 X)) (not (tptp.sulfur_dioxide_1 X))))) (forall ((X $$unsorted)) (=> (tptp.inorganic_molecule_1 X) (and (tptp.original_name_2 X |tptp.'Inorganic-Molecule'|) (tptp.description_2 X |tptp.'Molecule that is not organic'|) (tptp.user_description_2 X |tptp.'A molecule which does not contain carbon.'|) (tptp.concept2words_2 X |tptp.'inorganic molecule'|) (tptp.concept2words_2 X |tptp.'inorganic-molecule'|) (tptp.molecule_1 X) (not (tptp.organic_molecule_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inorganic_molecule_substance_1 X))) (=> (tptp.inorganic_molecule_substance_1 X) (and (tptp.original_name_2 X |tptp.'Inorganic-Molecule-Substance'|) (tptp.concept2words_2 X |tptp.'inorganic molecule substance'|) (tptp.concept2words_2 X |tptp.'inorganic-molecule-substance'|) (tptp.molecule_substance_1 X) (not (tptp.organic_molecule_substance_1 X)) (tptp.inorganic_molecule_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_molecule_substance_1 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inorganic_phosphate_5 X))) (let ((_let_2 (tptp.fn_inorganic_phosphate_1 X))) (let ((_let_3 (tptp.fn_inorganic_phosphate_2 X))) (let ((_let_4 (tptp.fn_inorganic_phosphate_3 X))) (=> (tptp.inorganic_phosphate_1 X) (and (tptp.original_name_2 X |tptp.'Inorganic-Phosphate'|) (tptp.user_description_2 X |tptp.'Inorganic phosphate is an ionic ester of phoshoric acid which contains no carbon atoms. It plays many important roles in cellular biology.'|) (tptp.concept2words_2 X |tptp.'inorganic phosphate'|) (tptp.concept2words_2 X |tptp.'inorganic-phosphate'|) (tptp.concept2words_2 X |tptp.'inorganic phosphate ion'|) (tptp.concept2words_2 X |tptp.'hopo32-'|) (tptp.anion_1 X) (tptp.hydrogen_1 _let_2) (tptp.phosphorus_1 _let_3) (tptp.oxygen_1 _let_4) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-2.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.charge_2 X _let_1) (= (tptp.fn_inorganic_phosphate_4 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inosine_1 X))) (=> (tptp.inosine_1 X) (and (tptp.original_name_2 X |tptp.'Inosine'|) (tptp.user_description_2 X |tptp.'Inosine is a nucleoside that is formed when hypoxanthine is attached to a ribose ring (also known as a ribofuranose) via a ?-N9-glycosidic bond.'|) (tptp.concept2words_2 X tptp.inosine) (tptp.nucleoside_1 X) (tptp.ribose_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_nucleoside_20 X)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inositol_trisphosphate_8 X))) (let ((_let_2 (tptp.fn_phosphate_group_5 _let_1))) (let ((_let_3 (tptp.fn_organic_molecule_2 X))) (let ((_let_4 (tptp.fn_phosphate_group_41 _let_1))) (let ((_let_5 (tptp.fn_molecule_10 X))) (let ((_let_6 (tptp.fn_inositol_trisphosphate_9 X))) (let ((_let_7 (tptp.fn_second_messenger_3 _let_6))) (let ((_let_8 (tptp.fn_functional_group_1 _let_1))) (let ((_let_9 (tptp.fn_inositol_trisphosphate_2 X))) (let ((_let_10 (tptp.fn_phosphate_group_22 _let_1))) (let ((_let_11 (tptp.fn_inositol_trisphosphate_4 X))) (let ((_let_12 (tptp.fn_phosphate_group_6 _let_1))) (let ((_let_13 (tptp.fn_inositol_trisphosphate_3 X))) (let ((_let_14 (tptp.fn_phosphate_group_37 _let_1))) (let ((_let_15 (tptp.fn_inositol_trisphosphate_7 X))) (let ((_let_16 (tptp.fn_inositol_trisphosphate_6 X))) (let ((_let_17 (tptp.fn_inositol_trisphosphate_13 X))) (let ((_let_18 (tptp.fn_inositol_trisphosphate_10 X))) (let ((_let_19 (tptp.fn_inositol_trisphosphate_11 X))) (let ((_let_20 (tptp.fn_inositol_trisphosphate_12 X))) (let ((_let_21 (tptp.fn_inositol_trisphosphate_1 X))) (let ((_let_22 (tptp.fn_inositol_trisphosphate_5 X))) (=> (tptp.inositol_trisphosphate_1 X) (and (tptp.original_name_2 X |tptp.'Inositol-Trisphosphate'|) (tptp.user_description_2 X |tptp.'Abbreviated IP3; functions as a second messenger in signal transduction. IP3 binds to receptors in the endoplasmic reticulum (ER) and opens channels, allowing calcium ions to flow into the cytoplasm.'|) (tptp.concept2words_2 X |tptp.'inositol triphosphate'|) (tptp.concept2words_2 X tptp.ip3) (tptp.concept2words_2 X |tptp.'inositol 145 trisphosphate,'|) (tptp.concept2words_2 X |tptp.'inositol-145-trisphosphate,'|) (tptp.concept2words_2 X |tptp.'triphosphoinositol,'|) (tptp.concept2words_2 X |tptp.'insp3,'|) (tptp.concept2words_2 X |tptp.'inositol 145 trisphosphate'|) (tptp.concept2words_2 X |tptp.'inositol-145-trisphosphate'|) (tptp.concept2words_2 X tptp.triphosphoinositol) (tptp.concept2words_2 X tptp.insp3) (tptp.concept2words_2 X |tptp.'inositol trisphosphate'|) (tptp.concept2words_2 X |tptp.'inositol-trisphosphate'|) (tptp.organic_molecule_1 X) (tptp.carbon_1 _let_21) (tptp.oxygen_1 _let_9) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.phosphorus_1 _let_13) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.oxygen_1 _let_11) (tptp.carbon_skeleton_1 _let_22) (tptp.chemical_bond_1 _let_16) (tptp.double_bond_1 _let_16) (tptp.single_bond_1 _let_15) (tptp.phosphate_group_1 _let_1) (tptp.second_messenger_1 _let_6) (tptp.quantity_value_1 _let_18) (tptp.speed_value_1 _let_19) (tptp.constant_motion_1 _let_20) (tptp.kinetic_energy_1 _let_17) (tptp.single_bond_1 _let_14) (tptp.phosphorus_1 _let_12) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.oxygen_1 _let_10) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.double_bond_1 _let_4) (tptp.oxygen_1 _let_2) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.has_part_2 X _let_13) (tptp.has_part_2 X _let_11) (tptp.possesses_2 X _let_15) (tptp.possesses_2 X _let_16) (tptp.has_region_2 X _let_1) (tptp.plays_2 X _let_6) (tptp.has_part_2 X _let_21) (tptp.is_inside_2 _let_21 _let_22) (tptp.has_region_2 X _let_22) (tptp.has_part_2 X _let_9) (not (= _let_9 _let_21)) (not (= _let_21 _let_9)) (tptp.possesses_2 X _let_17) (tptp.quantity_2 _let_17 _let_18) (tptp.directly_proportional_2 _let_19 _let_18) (tptp.speed_2 _let_20 _let_19) (tptp.object_2 _let_20 X) (tptp.is_inside_2 _let_11 _let_1) (tptp.is_between_2 _let_16 _let_9) (tptp.is_between_2 _let_16 _let_13) (tptp.is_between_2 _let_15 _let_11) (tptp.is_between_2 _let_15 _let_13) (tptp.is_inside_2 _let_13 _let_1) (not (= _let_11 _let_13)) (not (= _let_13 _let_11)) (tptp.is_inside_2 _let_9 _let_1) (not (= _let_11 _let_9)) (not (= _let_9 _let_11)) (not (= _let_13 _let_9)) (not (= _let_9 _let_13)) (= _let_16 _let_5) (= X _let_8) (= X _let_7) (= _let_9 _let_3) (= _let_22 (tptp.fn_organic_molecule_3 X)) (= _let_21 (tptp.fn_organic_molecule_1 X)) (= (tptp.fn_inositol_trisphosphate_14 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_inositol_trisphosphate_15 X) (tptp.fn_molecule_1 X)) (= _let_20 (tptp.fn_molecule_8 X)) (= _let_19 (tptp.fn_molecule_3 X)) (= _let_18 (tptp.fn_molecule_4 X)) (= _let_17 (tptp.fn_molecule_12 X)) (= _let_16 _let_4) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_2) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inquire_3 X))) (let ((_let_2 (tptp.fn_inquire_2 X))) (let ((_let_3 (tptp.fn_inquire_1 X))) (=> (tptp.inquire_1 X) (and (tptp.original_name_2 X |tptp.'Inquire'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X tptp.ask) (tptp.concept2words_2 X tptp.enquire) (tptp.express_1 X) (tptp.question_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.information_1 _let_1) (tptp.plays_2 _let_1 _let_3) (tptp.in_event_2 _let_3 X) (tptp.recipient_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_express_2 X)))))))) (forall ((X $$unsorted)) (=> (tptp.inquiry_1 X) (and (tptp.original_name_2 X |tptp.'Inquiry'|) (tptp.user_description_2 X |tptp.'The search for information and explanation, often focused by specific questions.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X tptp.inquiry) (tptp.event_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_insect_21 X))) (let ((_let_2 (tptp.fn_insect_17 X))) (let ((_let_3 (tptp.fn_insect_18 X))) (let ((_let_4 (tptp.fn_insect_23 X))) (let ((_let_5 (tptp.fn_insect_25 X))) (let ((_let_6 (tptp.fn_insect_19 X))) (let ((_let_7 (tptp.fn_insect_22 X))) (let ((_let_8 (tptp.fn_insect_15 X))) (let ((_let_9 (tptp.fn_insect_16 X))) (let ((_let_10 (tptp.fn_insect_24 X))) (let ((_let_11 (tptp.fn_barrier_1 _let_10))) (let ((_let_12 (tptp.fn_insect_20 X))) (let ((_let_13 (tptp.fn_insect_14 X))) (let ((_let_14 (tptp.fn_insect_13 X))) (let ((_let_15 (tptp.fn_insect_12 X))) (let ((_let_16 (tptp.fn_insect_11 X))) (let ((_let_17 (tptp.fn_insect_10 X))) (let ((_let_18 (tptp.fn_insect_6 X))) (let ((_let_19 (tptp.fn_insect_5 X))) (let ((_let_20 (tptp.fn_insect_3 X))) (let ((_let_21 (tptp.fn_insect_4 X))) (let ((_let_22 (tptp.fn_insect_9 X))) (let ((_let_23 (tptp.fn_insect_8 X))) (let ((_let_24 (tptp.fn_insect_2 X))) (=> (tptp.insect_1 X) (and (tptp.original_name_2 X |tptp.'Insect'|) (tptp.user_description_2 X |tptp.'One of a subset of primarily terrestrial arthropods characterized by three body segments (head, thorax, and abdomen) and wings for flight.'|) (tptp.concept2words_2 X tptp.insect) (tptp.hexapod_1 X) (tptp.enzyme_1 _let_24) (tptp.rectum_1 _let_20) (tptp.anus_1 _let_21) (tptp.gastric_cecum_1 _let_19) (tptp.esophagus_1 _let_18) (tptp.shape_value_1 _let_23) (tptp.alimentary_canal_1 _let_22) (tptp.anatomical_appendage_1 _let_17) (tptp.mouth_1 _let_16) (tptp.foregut_1 _let_15) (tptp.midgut_1 _let_14) (tptp.hindgut_1 _let_13) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.animal_nutritional_requirement_1 _let_9) (tptp.nutrition_1 _let_2) (tptp.water_1 _let_3) (tptp.digestive_system_1 _let_6) (tptp.crop_1 _let_12) (tptp.heterotroph_1 _let_1) (tptp.carbohydrate_1 _let_7) (tptp.specific_heat_value_1 _let_4) (tptp.container_1 _let_10) (tptp.temperature_value_1 _let_5) (tptp.tangible_entity_1 _let_11) (tptp.is_inside_2 _let_24 _let_22) (tptp.is_inside_2 _let_20 _let_13) (tptp.is_inside_2 _let_21 _let_13) (tptp.is_inside_2 _let_19 _let_14) (tptp.is_inside_2 _let_12 _let_15) (tptp.is_inside_2 _let_18 _let_15) (tptp.the_categorical_value_2 _let_23 tptp.line_0) (tptp.has_region_2 _let_6 _let_22) (tptp.element_2 _let_6 _let_15) (tptp.element_2 _let_6 _let_14) (tptp.element_2 _let_6 _let_13) (tptp.shape_2 _let_22 _let_23) (tptp.has_region_2 _let_22 _let_15) (tptp.has_region_2 _let_22 _let_14) (tptp.has_region_2 _let_22 _let_13) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_20) (tptp.has_part_2 X _let_19) (tptp.has_part_2 X _let_18) (tptp.has_part_2 X _let_12) (tptp.has_part_2 X _let_16) (tptp.minCardinality _let_16 tptp.has_part_0 |"2"| tptp.anatomical_appendage_0) (tptp.has_part_2 _let_16 _let_17) (tptp.is_inside_2 _let_16 _let_15) (tptp.next_element_2 _let_15 _let_14) (tptp.next_element_2 _let_14 _let_13) (tptp.plays_2 _let_12 _let_10) (tptp.has_region_2 X _let_6) (= _let_12 _let_11) (= _let_9 (tptp.fn_animal_11 X)) (= _let_8 (tptp.fn_animal_12 X)) (= _let_7 (tptp.fn_animal_8 X)) (= _let_6 (tptp.fn_animal_5 X)) (= _let_5 (tptp.fn_animal_26 X)) (= _let_4 (tptp.fn_animal_25 X)) (= _let_3 (tptp.fn_animal_20 X)) (= _let_2 (tptp.fn_animal_19 X)) (= _let_1 (tptp.fn_animal_18 X))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_insect_homeotic_gene_11 X))) (let ((_let_2 (tptp.fn_phosphodiester_bond_15 _let_1))) (let ((_let_3 (tptp.fn_insect_homeotic_gene_14 X))) (let ((_let_4 (tptp.fn_ester_linkage_28 _let_3))) (let ((_let_5 (tptp.fn_phosphodiester_bond_16 _let_1))) (let ((_let_6 (tptp.fn_polar_covalent_bond_19 _let_3))) (let ((_let_7 (tptp.fn_phosphodiester_bond_27 _let_1))) (let ((_let_8 (tptp.fn_ester_linkage_27 _let_3))) (let ((_let_9 (tptp.fn_phosphodiester_bond_18 _let_1))) (let ((_let_10 (tptp.fn_phosphodiester_bond_30 _let_1))) (let ((_let_11 (tptp.fn_phosphodiester_bond_29 _let_1))) (let ((_let_12 (tptp.fn_phosphodiester_bond_14 _let_1))) (let ((_let_13 (tptp.fn_ester_linkage_19 _let_3))) (let ((_let_14 (tptp.fn_phosphodiester_bond_17 _let_1))) (let ((_let_15 (tptp.fn_polar_covalent_bond_17 _let_3))) (let ((_let_16 (tptp.fn_ester_linkage_32 _let_3))) (let ((_let_17 (tptp.fn_polar_covalent_bond_16 _let_3))) (let ((_let_18 (tptp.fn_insect_homeotic_gene_8 X))) (let ((_let_19 (tptp.fn_dna_strand_14 _let_18))) (let ((_let_20 (tptp.fn_insect_homeotic_gene_9 X))) (let ((_let_21 (tptp.fn_gene_related_aggregates_1 _let_20))) (let ((_let_22 (tptp.fn_master_control_gene_4 X))) (let ((_let_23 (tptp.fn_homeotic_gene_7 X))) (let ((_let_24 (tptp.fn_insect_homeotic_gene_6 X))) (let ((_let_25 (tptp.fn_nucleoside_monophosphate_11 _let_24))) (let ((_let_26 (tptp.fn_deoxyribonucleotide_7 _let_24))) (let ((_let_27 (tptp.fn_insect_homeotic_gene_3 X))) (let ((_let_28 (tptp.fn_insect_homeotic_gene_4 X))) (let ((_let_29 (tptp.fn_phosphodiester_bond_6 _let_1))) (let ((_let_30 (tptp.fn_insect_homeotic_gene_2 X))) (let ((_let_31 (tptp.fn_insect_homeotic_gene_13 X))) (let ((_let_32 (tptp.fn_insect_homeotic_gene_5 X))) (let ((_let_33 (tptp.fn_insect_homeotic_gene_32 X))) (let ((_let_34 (tptp.fn_insect_homeotic_gene_22 X))) (let ((_let_35 (tptp.fn_insect_homeotic_gene_23 X))) (let ((_let_36 (tptp.fn_insect_homeotic_gene_18 X))) (let ((_let_37 (tptp.fn_insect_homeotic_gene_19 X))) (let ((_let_38 (tptp.fn_insect_homeotic_gene_20 X))) (let ((_let_39 (tptp.fn_insect_homeotic_gene_17 X))) (let ((_let_40 (tptp.fn_insect_homeotic_gene_21 X))) (let ((_let_41 (tptp.fn_insect_homeotic_gene_25 X))) (let ((_let_42 (tptp.fn_insect_homeotic_gene_26 X))) (let ((_let_43 (tptp.fn_insect_homeotic_gene_24 X))) (let ((_let_44 (tptp.fn_insect_homeotic_gene_7 X))) (let ((_let_45 (tptp.fn_insect_homeotic_gene_31 X))) (let ((_let_46 (tptp.fn_insect_homeotic_gene_16 X))) (let ((_let_47 (tptp.fn_nucleoside_monophosphate_15 _let_24))) (let ((_let_48 (tptp.fn_insect_homeotic_gene_15 X))) (let ((_let_49 (tptp.fn_polar_covalent_bond_18 _let_3))) (let ((_let_50 (tptp.fn_insect_homeotic_gene_12 X))) (let ((_let_51 (tptp.fn_insect_homeotic_gene_10 X))) (let ((_let_52 (tptp.fn_organism_3 _let_51))) (let ((_let_53 (tptp.fn_insect_homeotic_gene_1 X))) (=> (tptp.insect_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Insect-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in insects.'|) (tptp.concept2words_2 X |tptp.'insect homeotic gene'|) (tptp.concept2words_2 X |tptp.'insect-homeotic-gene'|) (tptp.homeotic_gene_1 X) (not (tptp.organ_identity_gene_1 X)) (tptp.deoxyribonucleoside_monophosphate_1 _let_53) (tptp.share_1 _let_30) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_27) (tptp.atom_1 _let_28) (tptp.oxygen_1 _let_28) (tptp.unequal_sharing_1 _let_32) (tptp.deoxyribonucleotide_1 _let_24) (tptp.nucleoside_monophosphate_1 _let_24) (tptp.monomer_1 _let_24) (tptp.regulation_1 _let_44) (tptp.dna_strand_1 _let_18) (tptp.genotype_1 _let_20) (tptp.gene_related_aggregates_1 _let_20) (tptp.insect_1 _let_51) (tptp.phosphodiester_bond_1 _let_1) (tptp.nitrogen_1 _let_50) (tptp.hold_together_1 _let_31) (tptp.polar_covalent_bond_1 _let_3) (tptp.ester_linkage_1 _let_3) (tptp.electronegative_element_1 _let_48) (tptp.nucleoside_1 _let_46) (tptp.size_value_1 _let_39) (tptp.quantity_value_1 _let_36) (tptp.speed_value_1 _let_37) (tptp.constant_motion_1 _let_38) (tptp.size_value_1 _let_40) (tptp.monomer_1 _let_34) (tptp.kinetic_energy_1 _let_35) (tptp.exon_1 _let_43) (tptp.exon_1 _let_41) (tptp.intron_1 _let_42) (tptp.share_1 _let_45) (tptp.code_for_1 _let_33) (tptp.genotype_1 _let_52) (tptp.entity_1 _let_49) (tptp.chemical_entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.spatial_entity_1 _let_47) (tptp.molecule_1 _let_47) (tptp.organic_molecule_1 _let_47) (tptp.pentose_1 _let_47) (tptp.share_1 _let_29) (tptp.nucleoside_1 _let_26) (tptp.nucleoside_1 _let_25) (tptp.gene_1 _let_21) (tptp.gene_1 _let_19) (tptp.unequal_sharing_1 _let_17) (tptp.unequal_sharing_1 _let_16) (tptp.hold_together_1 _let_15) (tptp.hold_together_1 _let_14) (tptp.hold_together_1 _let_13) (tptp.hold_together_1 _let_12) (tptp.ester_linkage_1 _let_11) (tptp.ester_linkage_1 _let_10) (tptp.atom_1 _let_9) (tptp.oxygen_1 _let_9) (tptp.oxygen_1 _let_8) (tptp.atom_1 _let_7) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.carbon_1 _let_4) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (tptp.result_2 _let_32 _let_1) (tptp.has_part_2 _let_18 _let_53) (tptp.is_between_2 _let_1 _let_50) (tptp.has_part_2 _let_51 _let_20) (tptp.element_2 _let_20 X) (tptp.has_part_2 _let_18 X) (tptp.has_function_2 X _let_44) (tptp.agent_2 _let_32 _let_50) (tptp.object_2 _let_31 _let_50) (not (= _let_50 _let_27)) (not (= _let_27 _let_50)) (tptp.has_part_2 _let_24 _let_46) (tptp.has_part_2 _let_46 _let_48) (tptp.result_2 _let_45 _let_1) (tptp.agent_2 _let_45 _let_27) (tptp.object_2 _let_38 X) (tptp.is_between_2 _let_42 _let_41) (tptp.element_2 X _let_42) (tptp.agent_2 _let_44 X) (tptp.element_2 X _let_41) (tptp.next_element_2 _let_41 _let_42) (tptp.next_element_2 _let_42 _let_43) (tptp.element_2 X _let_43) (tptp.element_2 X _let_34) (tptp.size_2 _let_24 _let_39) (tptp.greater_than_2 _let_40 _let_39) (tptp.size_2 X _let_40) (tptp.element_2 X _let_24) (tptp.first_element_2 X _let_24) (tptp.donor_2 _let_33 X) (tptp.possesses_2 X _let_35) (tptp.quantity_2 _let_35 _let_36) (tptp.directly_proportional_2 _let_37 _let_36) (tptp.speed_2 _let_38 _let_37) (tptp.has_function_2 X _let_33) (tptp.agent_2 _let_33 X) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_24) (tptp.next_element_2 _let_24 _let_34) (tptp.agent_2 _let_32 _let_27) (tptp.has_function_2 _let_3 _let_31) (tptp.object_2 _let_31 _let_28) (tptp.agent_2 _let_32 _let_28) (tptp.result_2 _let_32 _let_3) (tptp.agent_2 _let_31 _let_3) (tptp.called_2 _let_3 |"2"|) (tptp.has_function_2 _let_1 _let_31) (tptp.is_between_2 _let_3 _let_28) (tptp.is_between_2 _let_3 _let_27) (tptp.object_2 _let_31 _let_27) (tptp.agent_2 _let_31 _let_1) (tptp.element_2 _let_1 _let_3) (tptp.is_between_2 _let_1 _let_27) (tptp.agent_2 _let_30 _let_27) (tptp.result_2 _let_30 _let_1) (not (= _let_28 _let_27)) (not (= _let_27 _let_28)) (= _let_20 _let_52) (= X _let_21) (= X _let_19) (= _let_44 _let_23) (= _let_32 _let_17) (= _let_31 _let_15) (= _let_50 _let_49) (= _let_48 _let_47) (= _let_46 _let_26) (= _let_46 _let_25) (= _let_45 _let_29) (= (tptp.fn_insect_homeotic_gene_28 X) (tptp.fn_master_control_gene_1 X)) (= (tptp.fn_insect_homeotic_gene_27 X) (tptp.fn_master_control_gene_22 X)) (= (tptp.fn_insect_homeotic_gene_29 X) (tptp.fn_master_control_gene_2 X)) (= (tptp.fn_insect_homeotic_gene_30 X) (tptp.fn_master_control_gene_23 X)) (= _let_44 _let_22) (= _let_43 (tptp.fn_master_control_gene_18 X)) (= _let_42 (tptp.fn_master_control_gene_20 X)) (= _let_41 (tptp.fn_master_control_gene_19 X)) (= _let_40 (tptp.fn_master_control_gene_16 X)) (= _let_39 (tptp.fn_master_control_gene_15 X)) (= _let_38 (tptp.fn_master_control_gene_12 X)) (= _let_37 (tptp.fn_master_control_gene_6 X)) (= _let_36 (tptp.fn_master_control_gene_5 X)) (= _let_35 (tptp.fn_master_control_gene_13 X)) (= _let_34 (tptp.fn_master_control_gene_17 X)) (= _let_24 (tptp.fn_master_control_gene_21 X)) (= _let_1 (tptp.fn_master_control_gene_14 X)) (= _let_33 (tptp.fn_master_control_gene_8 X)) (= _let_32 _let_16) (= _let_3 _let_11) (= _let_31 _let_13) (= _let_31 _let_14) (= _let_31 _let_12) (= _let_27 _let_6) (= _let_3 _let_10) (= _let_30 _let_29) (= _let_27 _let_4) (= _let_28 _let_8) (= _let_28 _let_9) (= _let_28 _let_7) (= _let_27 _let_5) (= _let_27 _let_2) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.insecticide_1 X) (and (tptp.original_name_2 X |tptp.'Insecticide'|) (tptp.user_description_2 X |tptp.'A chemical used to kill insects.'|) (tptp.concept2words_2 X tptp.insecticide) (tptp.pesticide_1 X)))) (forall ((X $$unsorted)) (=> (tptp.insectivora_1 X) (and (tptp.original_name_2 X |tptp.'Insectivora'|) (tptp.user_description_2 X |tptp.'A polyphyletic grouping of mammals that eat primarily insects. Includes hedgehogs, shrews, and moles.'|) (tptp.concept2words_2 X tptp.insectivora) (tptp.mammal_1 X) (not (tptp.eutherian_1 X)) (not (tptp.lagomorpha_1 X)) (not (tptp.marsupial_1 X)) (not (tptp.monotreme_1 X)) (not (tptp.person_1 X))))) (forall ((X $$unsorted)) (=> (tptp.insertion_1 X) (and (tptp.original_name_2 X |tptp.'Insertion'|) (tptp.user_description_2 X |tptp.'A type of mutation involving the addition of at least one nucleotide base pair into a DNA sequence.'|) (tptp.concept2words_2 X tptp.insert) (tptp.concept2words_2 X tptp.insertion) (tptp.mutation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_sequence_2 X))) (let ((_let_2 (tptp.fn_sequence_1 X))) (let ((_let_3 (tptp.fn_insertion_sequences_3 X))) (let ((_let_4 (tptp.fn_insertion_sequences_2 X))) (let ((_let_5 (tptp.fn_insertion_sequences_1 X))) (=> (tptp.insertion_sequences_1 X) (and (tptp.original_name_2 X |tptp.'Insertion-Sequences'|) (tptp.user_description_2 X |tptp.'The simplest kind of transposon, consisting of inverted repeats of DNA flanking a gene for transposase, the enzyme that catalyzes transposition.'|) (tptp.concept2words_2 X |tptp.'insertion sequence'|) (tptp.concept2words_2 X |tptp.'insertion-sequence'|) (tptp.concept2words_2 X |tptp.'insertion sequences'|) (tptp.transposon_1 X) (not (tptp.composite_transposon_1 X)) (not (tptp.retrotransposon_1 X)) (tptp.mutagen_1 _let_5) (tptp.bacterium_1 _let_4) (tptp.gene_1 _let_3) (tptp.plays_2 X _let_5) (tptp.has_part_2 _let_4 X) (tptp.element_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))))) (forall ((X $$unsorted)) (=> (tptp.inside_face_1 X) (and (tptp.original_name_2 X |tptp.'Inside-Face'|) (tptp.user_description_2 X |tptp.'The region inside an entity is called as its inside face.'|) (tptp.concept2words_2 X |tptp.'interior side'|) (tptp.concept2words_2 X |tptp.'interior-side'|) (tptp.concept2words_2 X |tptp.'face of inside'|) (tptp.concept2words_2 X |tptp.'inside face'|) (tptp.concept2words_2 X |tptp.'inside-face'|) (tptp.face_region_1 X) (tptp.cellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X))))) (forall ((X $$unsorted)) (=> (tptp.institution_1 X) (and (tptp.original_name_2 X |tptp.'Institution'|) (tptp.description_2 X |tptp.'a work organization'|) (tptp.concept2words_2 X tptp.establishment) (tptp.concept2words_2 X tptp.institution) (tptp.organization_1 X) (not (tptp.group_1 X)) (not (tptp.department_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_instruction_1 X))) (=> (tptp.instruction_1 X) (and (tptp.original_name_2 X |tptp.'Instruction'|) (tptp.concept2words_2 X tptp.direction) (tptp.concept2words_2 X tptp.command) (tptp.concept2words_2 X tptp.statement) (tptp.concept2words_2 X |tptp.'program line'|) (tptp.concept2words_2 X tptp.program_line) (tptp.concept2words_2 X tptp.instruction) (tptp.role_1 X) (tptp.information_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_instrument_role_1 X))) (=> (tptp.instrument_role_1 X) (and (tptp.original_name_2 X |tptp.'Instrument-Role'|) (tptp.concept2words_2 X tptp.instrument) (tptp.concept2words_2 X tptp.tool) (tptp.concept2words_2 X tptp.pawn) (tptp.concept2words_2 X |tptp.'role of instrument'|) (tptp.concept2words_2 X |tptp.'instrument role'|) (tptp.concept2words_2 X |tptp.'instrument-role'|) (tptp.role_1 X) (tptp.entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_insulator_2 X))) (let ((_let_2 (tptp.fn_insulator_1 X))) (=> (tptp.insulator_1 X) (and (tptp.original_name_2 X |tptp.'Insulator'|) (tptp.user_description_2 X |tptp.'An insulator resists the flow of heat.'|) (tptp.concept2words_2 X tptp.insulator) (tptp.barrier_1 X) (tptp.block_1 _let_2) (tptp.event_1 _let_1) (tptp.in_event_2 X _let_2) (tptp.prevents_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.insulin_1 X) (and (tptp.original_name_2 X |tptp.'Insulin'|) (tptp.user_description_2 X |tptp.'A peptide hormone produced and secreted by beta cells in the pancreas. Insulin promotes the uptake of glucose by cells and thus lowers blood glucose levels. It also stimulates the production of glycogen in the liver.'|) (tptp.concept2words_2 X tptp.insulin) (tptp.pancreatic_hormone_1 X) (tptp.digestive_peptide_hormone_1 X) (tptp.secretory_protein_1 X) (not (tptp.digestive_enzyme_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intangible_entity_1 X) (and (tptp.original_name_2 X |tptp.'Intangible-Entity'|) (tptp.concept2words_2 X |tptp.'entity of intangible'|) (tptp.concept2words_2 X |tptp.'intangible entity'|) (tptp.concept2words_2 X |tptp.'intangible-entity'|) (tptp.entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.integer_1 X) (and (tptp.original_name_2 X |tptp.'Integer'|) (tptp.number_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_integral_protein_32 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_integral_protein_24 X))) (let ((_let_4 (tptp.fn_biomembrane_54 _let_3))) (let ((_let_5 (tptp.fn_protein_1 X))) (let ((_let_6 (tptp.fn_amphipathic_molecule_1 X))) (let ((_let_7 (tptp.fn_protein_9 X))) (let ((_let_8 (tptp.fn_polymer_8 X))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_10 (tptp.fn_organic_molecule_1 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_12 (tptp.fn_organic_molecule_2 X))) (let ((_let_13 (tptp.fn_biomembrane_63 _let_3))) (let ((_let_14 (tptp.fn_membrane_protein_2 X))) (let ((_let_15 (tptp.fn_biomembrane_102 _let_3))) (let ((_let_16 (tptp.fn_biomembrane_101 _let_3))) (let ((_let_17 (tptp.fn_biomembrane_100 _let_3))) (let ((_let_18 (tptp.fn_integral_protein_13 X))) (let ((_let_19 (tptp.fn_integral_protein_21 X))) (let ((_let_20 (tptp.fn_integral_protein_14 X))) (let ((_let_21 (tptp.fn_integral_protein_23 X))) (let ((_let_22 (tptp.fn_integral_protein_29 X))) (let ((_let_23 (tptp.fn_integral_protein_16 X))) (let ((_let_24 (tptp.fn_integral_protein_31 X))) (let ((_let_25 (tptp.fn_integral_protein_33 X))) (let ((_let_26 (tptp.fn_integral_protein_28 X))) (let ((_let_27 (tptp.fn_integral_protein_8 X))) (let ((_let_28 (tptp.fn_integral_protein_17 X))) (let ((_let_29 (tptp.fn_integral_protein_18 X))) (let ((_let_30 (tptp.fn_integral_protein_7 X))) (let ((_let_31 (tptp.fn_integral_protein_15 X))) (let ((_let_32 (tptp.fn_integral_protein_19 X))) (let ((_let_33 (tptp.fn_integral_protein_27 X))) (let ((_let_34 (tptp.fn_biomembrane_75 _let_3))) (let ((_let_35 (tptp.fn_integral_protein_10 X))) (let ((_let_36 (tptp.fn_integral_protein_25 X))) (let ((_let_37 (tptp.fn_biomembrane_61 _let_3))) (let ((_let_38 (tptp.fn_integral_protein_12 X))) (let ((_let_39 (tptp.fn_biomembrane_62 _let_3))) (let ((_let_40 (tptp.fn_integral_protein_11 X))) (let ((_let_41 (tptp.fn_biomembrane_30 _let_3))) (let ((_let_42 (tptp.fn_integral_protein_9 X))) (let ((_let_43 (tptp.fn_integral_protein_30 X))) (let ((_let_44 (tptp.fn_integral_protein_20 X))) (let ((_let_45 (tptp.fn_integral_protein_22 X))) (let ((_let_46 (tptp.fn_phospholipid_bilayer_3 _let_45))) (let ((_let_47 (tptp.fn_integral_protein_26 X))) (let ((_let_48 (tptp.fn_integral_protein_2 X))) (let ((_let_49 (tptp.fn_integral_protein_3 X))) (let ((_let_50 (tptp.fn_integral_protein_4 X))) (let ((_let_51 (tptp.fn_integral_protein_5 X))) (let ((_let_52 (tptp.fn_integral_protein_6 X))) (=> (tptp.integral_protein_1 X) (and (tptp.original_name_2 X |tptp.'Integral-Protein'|) (tptp.user_description_2 X |tptp.'An integral membrane protein (IMP) is a protein molecule (or assembly of proteins) that is attached to the biological membrane. Such proteins can be separated from the biological membranes only using detergents, nonpolar solvents, or sometimes denaturing agents.'|) (tptp.concept2words_2 X |tptp.'protein of integral'|) (tptp.concept2words_2 X |tptp.'integral protein'|) (tptp.concept2words_2 X |tptp.'integral-protein'|) (tptp.amphipathic_molecule_1 X) (tptp.membrane_protein_1 X) (tptp.shape_value_1 _let_48) (tptp.inside_face_1 _let_49) (tptp.outside_face_1 _let_50) (tptp.hydrophobic_amino_acid_1 _let_51) (tptp.polar_amino_acid_1 _let_52) (tptp.attract_1 _let_30) (tptp.repel_1 _let_27) (tptp.glycoprotein_1 _let_42) (tptp.hydrophobic_core_1 _let_35) (tptp.phospholipid_layer_1 _let_40) (tptp.phospholipid_layer_1 _let_38) (tptp.polypeptide_1 _let_18) (tptp.protein_domain_1 _let_20) (tptp.constant_motion_1 _let_31) (tptp.size_value_1 _let_23) (tptp.kinetic_energy_1 _let_28) (tptp.quantity_value_1 _let_29) (tptp.speed_value_1 _let_32) (tptp.size_value_1 _let_44) (tptp.spatial_entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.monomer_1 _let_19) (tptp.molecule_1 _let_19) (tptp.amino_acid_1 _let_19) (tptp.phospholipid_bilayer_1 _let_45) (tptp.hydrophilic_region_1 _let_21) (tptp.biomembrane_1 _let_3) (tptp.block_1 _let_36) (tptp.hydrophobic_core_1 _let_47) (tptp.tangible_entity_1 _let_33) (tptp.phospholipid_bilayer_1 _let_33) (tptp.hydrophobic_region_1 _let_26) (tptp.surface_1 _let_22) (tptp.monomer_1 _let_43) (tptp.carbon_1 _let_24) (tptp.carbon_skeleton_1 _let_1) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.hydrophobic_core_1 _let_46) (tptp.glycoprotein_1 _let_41) (tptp.phospholipid_layer_1 _let_39) (tptp.phospholipid_layer_1 _let_37) (tptp.hydrophobic_core_1 _let_34) (tptp.block_1 _let_17) (tptp.block_1 _let_16) (tptp.block_1 _let_15) (tptp.tangible_entity_1 _let_13) (tptp.phospholipid_bilayer_1 _let_13) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.carbon_1 _let_9) (tptp.tangible_entity_1 _let_4) (tptp.membrane_protein_1 _let_4) (tptp.protein_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.is_at_2 _let_52 _let_21) (tptp.has_part_2 X _let_51) (tptp.has_part_2 X _let_52) (tptp.is_inside_2 X _let_33) (tptp.shape_2 _let_51 _let_48) (tptp.is_inside_2 _let_51 _let_26) (tptp.instrument_2 _let_36 _let_3) (tptp.base_2 _let_36 _let_47) (tptp.is_between_2 _let_47 _let_50) (tptp.is_between_2 _let_47 _let_49) (tptp.is_inside_2 _let_26 _let_3) (tptp.the_categorical_value_2 _let_48 tptp.helix_0) (tptp.has_region_2 _let_45 _let_47) (tptp.has_part_2 X _let_43) (tptp.size_2 _let_43 _let_44) (tptp.greater_than_2 _let_23 _let_44) (tptp.has_part_2 X _let_25) (tptp.called_2 _let_36 |"1"|) (tptp.has_part_2 _let_3 _let_42) (tptp.is_inside_2 _let_42 _let_33) (tptp.has_region_2 _let_33 _let_40) (tptp.has_region_2 _let_33 _let_38) (tptp.is_along_2 _let_40 _let_38) (tptp.is_along_2 _let_38 _let_40) (not (= _let_40 _let_38)) (not (= _let_38 _let_40)) (tptp.has_part_2 _let_3 _let_33) (tptp.has_region_2 _let_33 _let_35) (tptp.agent_2 _let_36 _let_35) (tptp.has_function_2 _let_3 _let_36) (tptp.has_part_2 _let_3 X) (tptp.has_function_2 X _let_27) (tptp.site_2 _let_27 _let_26) (tptp.site_2 _let_30 _let_21) (tptp.facilitates_2 _let_21 _let_30) (tptp.has_function_2 X _let_30) (tptp.agent_2 _let_30 X) (tptp.object_2 _let_31 X) (tptp.speed_2 _let_31 _let_32) (tptp.directly_proportional_2 _let_32 _let_29) (tptp.has_region_2 X _let_26) (tptp.facilitates_2 _let_26 _let_27) (tptp.agent_2 _let_27 X) (tptp.possesses_2 X _let_28) (tptp.quantity_2 _let_28 _let_29) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_24) (tptp.is_inside_2 _let_24 _let_1) (not (= _let_25 _let_24)) (not (= _let_24 _let_25)) (tptp.is_at_2 _let_21 _let_22) (tptp.has_region_2 X _let_22) (tptp.size_2 X _let_23) (tptp.the_scalar_value_2 _let_23 tptp.big_0) (tptp.scalar_unit_class_2 _let_23 tptp.polypeptide_0) (tptp.has_part_2 X _let_18) (tptp.has_part_2 _let_18 _let_19) (tptp.is_at_2 _let_19 _let_20) (tptp.has_region_2 X _let_20) (tptp.has_region_2 X _let_21) (= _let_47 _let_46) (= (tptp.fn_integral_protein_34 X) (tptp.fn_polymer_10 X)) (= _let_23 _let_8) (= _let_44 (tptp.fn_polymer_7 X)) (= _let_43 (tptp.fn_polymer_4 X)) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_38 _let_37) (= X _let_4) (= _let_36 _let_17) (= _let_36 _let_16) (= _let_36 _let_15) (= _let_35 _let_34) (= _let_3 (tptp.fn_membrane_protein_1 X)) (= _let_33 _let_14) (= _let_33 _let_13) (= (tptp.fn_integral_protein_36 X) (tptp.fn_amphipathic_molecule_9 X)) (= (tptp.fn_integral_protein_35 X) (tptp.fn_amphipathic_molecule_10 X)) (= _let_32 (tptp.fn_amphipathic_molecule_3 X)) (= _let_31 (tptp.fn_amphipathic_molecule_8 X)) (= _let_30 (tptp.fn_amphipathic_molecule_6 X)) (= _let_29 (tptp.fn_amphipathic_molecule_4 X)) (= _let_28 (tptp.fn_amphipathic_molecule_7 X)) (= _let_27 (tptp.fn_amphipathic_molecule_5 X)) (= _let_26 (tptp.fn_amphipathic_molecule_2 X)) (= _let_25 _let_12) (= _let_25 _let_11) (= _let_24 _let_10) (= _let_24 _let_9) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= X _let_2) (= (tptp.fn_integral_protein_37 X) (tptp.fn_protein_10 X)) (= _let_23 _let_7) (= _let_22 (tptp.fn_protein_5 X)) (= _let_21 _let_6) (= _let_21 _let_5) (= _let_20 (tptp.fn_protein_7 X)) (= _let_19 (tptp.fn_protein_14 X)) (= _let_18 (tptp.fn_protein_8 X)) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_integrin_38 X))) (let ((_let_2 (tptp.fn_cytoskeleton_2 _let_1))) (let ((_let_3 (tptp.fn_integrin_35 X))) (let ((_let_4 (tptp.fn_attach_2 _let_3))) (let ((_let_5 (tptp.fn_cytoskeleton_6 _let_1))) (let ((_let_6 (tptp.fn_integrin_7 X))) (let ((_let_7 (tptp.fn_fibronectin_46 _let_6))) (let ((_let_8 (tptp.fn_integrin_30 X))) (let ((_let_9 (tptp.fn_animal_plasma_membrane_56 _let_8))) (let ((_let_10 (tptp.fn_integrin_39 X))) (let ((_let_11 (tptp.fn_attach_2 _let_10))) (let ((_let_12 (tptp.fn_attach_1 _let_3))) (let ((_let_13 (tptp.fn_attach_1 _let_10))) (let ((_let_14 (tptp.fn_plasma_membrane_54 _let_8))) (let ((_let_15 (tptp.fn_animal_plasma_membrane_47 _let_8))) (let ((_let_16 (tptp.fn_integrin_6 X))) (let ((_let_17 (tptp.fn_eukaryotic_cell_50 _let_16))) (let ((_let_18 (tptp.fn_integrin_41 X))) (let ((_let_19 (tptp.fn_expose_1 _let_18))) (let ((_let_20 (tptp.fn_integral_protein_32 X))) (let ((_let_21 (tptp.fn_animal_plasma_membrane_57 _let_8))) (let ((_let_22 (tptp.fn_integral_protein_31 X))) (let ((_let_23 (tptp.fn_animal_plasma_membrane_70 _let_8))) (let ((_let_24 (tptp.fn_integral_protein_16 X))) (let ((_let_25 (tptp.fn_receptor_protein_3 X))) (let ((_let_26 (tptp.fn_animal_plasma_membrane_69 _let_8))) (let ((_let_27 (tptp.fn_integral_protein_20 X))) (let ((_let_28 (tptp.fn_receptor_protein_4 X))) (let ((_let_29 (tptp.fn_animal_plasma_membrane_72 _let_8))) (let ((_let_30 (tptp.fn_integral_protein_30 X))) (let ((_let_31 (tptp.fn_receptor_protein_5 X))) (let ((_let_32 (tptp.fn_animal_plasma_membrane_68 _let_8))) (let ((_let_33 (tptp.fn_integral_protein_27 X))) (let ((_let_34 (tptp.fn_plasma_membrane_71 _let_8))) (let ((_let_35 (tptp.fn_integral_protein_27 _let_6))) (let ((_let_36 (tptp.fn_fibronectin_47 _let_6))) (let ((_let_37 (tptp.fn_animal_plasma_membrane_54 _let_8))) (let ((_let_38 (tptp.fn_eukaryotic_cell_41 _let_16))) (let ((_let_39 (tptp.fn_biomembrane_63 _let_8))) (let ((_let_40 (tptp.fn_eukaryotic_cell_29 _let_16))) (let ((_let_41 (tptp.fn_fibronectin_53 _let_6))) (let ((_let_42 (tptp.fn_transmembrane_protein_4 X))) (let ((_let_43 (tptp.fn_integral_protein_24 _let_6))) (let ((_let_44 (tptp.fn_integral_protein_24 X))) (let ((_let_45 (tptp.fn_plasma_membrane_68 _let_8))) (let ((_let_46 (tptp.fn_eukaryotic_cell_49 _let_16))) (let ((_let_47 (tptp.fn_plasma_membrane_52 _let_8))) (let ((_let_48 (tptp.fn_animal_plasma_membrane_52 _let_8))) (let ((_let_49 (tptp.fn_animal_plasma_membrane_76 _let_8))) (let ((_let_50 (tptp.fn_integral_protein_9 X))) (let ((_let_51 (tptp.fn_fibronectin_45 _let_6))) (let ((_let_52 (tptp.fn_animal_plasma_membrane_53 _let_8))) (let ((_let_53 (tptp.fn_animal_plasma_membrane_62 _let_8))) (let ((_let_54 (tptp.fn_plasma_membrane_55 _let_8))) (let ((_let_55 (tptp.fn_plasma_membrane_3 _let_8))) (let ((_let_56 (tptp.fn_plasma_membrane_4 _let_8))) (let ((_let_57 (tptp.fn_transmembrane_protein_3 X))) (let ((_let_58 (tptp.fn_integral_protein_23 X))) (let ((_let_59 (tptp.fn_integrin_37 X))) (let ((_let_60 (tptp.fn_cell_2 _let_16))) (let ((_let_61 (tptp.fn_integrin_36 X))) (let ((_let_62 (tptp.fn_integrin_18 X))) (let ((_let_63 (tptp.fn_integral_protein_28 _let_6))) (let ((_let_64 (tptp.fn_integrin_4 X))) (let ((_let_65 (tptp.fn_integral_protein_8 _let_6))) (let ((_let_66 (tptp.fn_integrin_22 X))) (let ((_let_67 (tptp.fn_integrin_34 X))) (let ((_let_68 (tptp.fn_integrin_25 X))) (let ((_let_69 (tptp.fn_integrin_16 X))) (let ((_let_70 (tptp.fn_integrin_3 X))) (let ((_let_71 (tptp.fn_integrin_19 X))) (let ((_let_72 (tptp.fn_integrin_23 X))) (let ((_let_73 (tptp.fn_integrin_27 X))) (let ((_let_74 (tptp.fn_integrin_28 X))) (let ((_let_75 (tptp.fn_integrin_31 X))) (let ((_let_76 (tptp.fn_integrin_32 X))) (let ((_let_77 (tptp.fn_integrin_15 X))) (let ((_let_78 (tptp.fn_integrin_21 X))) (let ((_let_79 (tptp.fn_integrin_33 X))) (let ((_let_80 (tptp.fn_integrin_24 X))) (let ((_let_81 (tptp.fn_integrin_29 X))) (let ((_let_82 (tptp.fn_integrin_26 X))) (let ((_let_83 (tptp.fn_integrin_9 X))) (let ((_let_84 (tptp.fn_integrin_10 X))) (let ((_let_85 (tptp.fn_plasma_membrane_53 _let_8))) (let ((_let_86 (tptp.fn_integrin_5 X))) (let ((_let_87 (tptp.fn_integrin_8 X))) (let ((_let_88 (tptp.fn_integrin_20 X))) (let ((_let_89 (tptp.fn_integrin_40 X))) (let ((_let_90 (tptp.fn_integrin_17 X))) (let ((_let_91 (tptp.fn_integrin_2 X))) (let ((_let_92 (tptp.fn_integrin_1 X))) (=> (tptp.integrin_1 X) (and (tptp.original_name_2 X |tptp.'Integrin'|) (tptp.user_description_2 X |tptp.'A transmembrane receptor protein that connects a cell_'s cytoskeleton with the extracellular matrix.'|) (tptp.concept2words_2 X tptp.integrin) (tptp.transmembrane_protein_1 X) (tptp.receptor_protein_1 X) (tptp.transmit_1 _let_92) (tptp.extra_cellular_matrix_1 _let_91) (tptp.attract_1 _let_70) (tptp.repel_1 _let_64) (tptp.spatial_entity_1 _let_86) (tptp.motor_protein_1 _let_86) (tptp.eukaryotic_cell_1 _let_16) (tptp.animal_cell_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.cell_1 _let_16) (tptp.glycoprotein_1 _let_6) (tptp.integral_protein_1 _let_6) (tptp.fibronectin_1 _let_6) (tptp.polymer_1 _let_87) (tptp.spatial_entity_1 _let_87) (tptp.membrane_protein_1 _let_87) (tptp.tangible_entity_1 _let_87) (tptp.transmembrane_protein_1 _let_87) (tptp.integral_protein_1 _let_87) (tptp.transport_protein_1 _let_87) (tptp.sodium_potassium_pump_1 _let_87) (tptp.spatial_entity_1 _let_83) (tptp.polymer_1 _let_83) (tptp.organic_molecule_1 _let_83) (tptp.tangible_entity_1 _let_83) (tptp.membrane_protein_1 _let_83) (tptp.protein_1 _let_83) (tptp.attach_1 _let_84) (tptp.constant_motion_1 _let_77) (tptp.protein_domain_1 _let_69) (tptp.outside_face_1 _let_90) (tptp.hydrophobic_region_1 _let_62) (tptp.carbon_skeleton_1 _let_71) (tptp.hydrophilic_end_1 _let_88) (tptp.size_value_1 _let_78) (tptp.polypeptide_1 _let_66) (tptp.entity_1 _let_72) (tptp.atom_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.carbon_1 _let_72) (tptp.monomer_1 _let_80) (tptp.hydrophobic_amino_acid_1 _let_68) (tptp.polar_amino_acid_1 _let_82) (tptp.atom_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.kinetic_energy_1 _let_74) (tptp.tangible_entity_1 _let_81) (tptp.phospholipid_bilayer_1 _let_81) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.animal_plasma_membrane_1 _let_8) (tptp.plasma_membrane_1 _let_8) (tptp.quantity_value_1 _let_75) (tptp.speed_value_1 _let_76) (tptp.size_value_1 _let_79) (tptp.spatial_entity_1 _let_67) (tptp.chemical_entity_1 _let_67) (tptp.monomer_1 _let_67) (tptp.molecule_1 _let_67) (tptp.amino_acid_1 _let_67) (tptp.attach_1 _let_3) (tptp.protein_1 _let_61) (tptp.spatial_entity_1 _let_59) (tptp.microfilament_1 _let_59) (tptp.cytoskeleton_1 _let_1) (tptp.attach_1 _let_10) (tptp.hydrophilic_region_1 _let_89) (tptp.hydrophilic_end_1 _let_89) (tptp.expose_1 _let_18) (tptp.spatial_entity_1 _let_85) (tptp.motor_protein_1 _let_85) (tptp.repel_1 _let_65) (tptp.hydrophobic_region_1 _let_63) (tptp.cytoskeleton_1 _let_60) (tptp.membrane_protein_1 _let_56) (tptp.membrane_protein_1 _let_55) (tptp.tangible_entity_1 _let_54) (tptp.transmembrane_protein_1 _let_54) (tptp.integral_protein_1 _let_54) (tptp.transport_protein_1 _let_54) (tptp.spatial_entity_1 _let_53) (tptp.tangible_entity_1 _let_53) (tptp.transmembrane_protein_1 _let_53) (tptp.integral_protein_1 _let_53) (tptp.transport_protein_1 _let_53) (tptp.polymer_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.membrane_protein_1 _let_52) (tptp.tangible_entity_1 _let_52) (tptp.transmembrane_protein_1 _let_52) (tptp.integral_protein_1 _let_52) (tptp.transport_protein_1 _let_52) (tptp.sodium_potassium_pump_1 _let_51) (tptp.glycoprotein_1 _let_49) (tptp.attach_1 _let_48) (tptp.attach_1 _let_47) (tptp.tangible_entity_1 _let_46) (tptp.membrane_protein_1 _let_46) (tptp.protein_1 _let_46) (tptp.tangible_entity_1 _let_45) (tptp.membrane_protein_1 _let_45) (tptp.protein_1 _let_45) (tptp.biomembrane_1 _let_43) (tptp.biomembrane_1 _let_41) (tptp.plasma_membrane_1 _let_41) (tptp.animal_plasma_membrane_1 _let_41) (tptp.spatial_entity_1 _let_40) (tptp.biomembrane_1 _let_40) (tptp.plasma_membrane_1 _let_40) (tptp.tangible_entity_1 _let_39) (tptp.phospholipid_bilayer_1 _let_39) (tptp.tangible_entity_1 _let_38) (tptp.phospholipid_bilayer_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.phospholipid_bilayer_1 _let_37) (tptp.tangible_entity_1 _let_36) (tptp.phospholipid_bilayer_1 _let_36) (tptp.tangible_entity_1 _let_35) (tptp.phospholipid_bilayer_1 _let_35) (tptp.tangible_entity_1 _let_34) (tptp.phospholipid_bilayer_1 _let_34) (tptp.monomer_1 _let_32) (tptp.size_value_1 _let_29) (tptp.size_value_1 _let_26) (tptp.entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.carbon_1 _let_23) (tptp.carbon_skeleton_1 _let_21) (tptp.tangible_entity_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.polymer_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.membrane_protein_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.polymer_1 _let_15) (tptp.protein_1 _let_15) (tptp.organic_molecule_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.membrane_protein_1 _let_14) (tptp.protein_1 _let_14) (tptp.spatial_entity_1 _let_14) (tptp.polymer_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.animal_cell_1 _let_9) (tptp.animal_cell_1 _let_7) (tptp.cell_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.microfilament_1 _let_2) (tptp.is_inside_2 _let_86 _let_91) (not (= _let_6 X)) (not (= _let_3 _let_10)) (tptp.agent_2 _let_92 X) (tptp.destination_2 _let_92 _let_1) (tptp.origin_2 _let_92 _let_91) (not (= X _let_6)) (tptp.is_outside_2 _let_91 _let_16) (not (= _let_10 _let_3)) (tptp.site_2 _let_18 _let_89) (tptp.base_2 _let_3 _let_59) (tptp.object_2 _let_3 _let_61) (tptp.is_across_2 _let_87 _let_8) (tptp.object_2 _let_18 X) (not (= _let_87 _let_83)) (not (= _let_83 _let_87)) (not (= X _let_87)) (not (= _let_87 X)) (tptp.is_inside_2 _let_87 _let_81) (tptp.has_region_2 X _let_90) (tptp.is_at_2 _let_89 _let_90) (tptp.facilitates_2 _let_89 _let_70) (tptp.site_2 _let_70 _let_89) (tptp.is_at_2 _let_82 _let_89) (tptp.has_region_2 X _let_89) (tptp.has_region_2 X _let_88) (tptp.is_opposite_2 _let_89 _let_88) (tptp.is_opposite_2 _let_88 _let_89) (tptp.is_across_2 X _let_8) (tptp.called_2 _let_6 |tptp.'MP1'|) (tptp.called_2 _let_87 |tptp.'MP1'|) (tptp.is_inside_2 _let_6 _let_81) (tptp.has_part_2 _let_8 _let_6) (tptp.has_part_2 _let_8 _let_87) (tptp.is_at_2 _let_87 _let_8) (tptp.has_part_2 _let_16 _let_8) (tptp.has_part_2 _let_8 _let_81) (tptp.has_part_2 _let_8 _let_83) (tptp.called_2 _let_83 |tptp.'MP1'|) (tptp.has_part_2 _let_8 X) (tptp.object_2 _let_84 X) (tptp.base_2 _let_84 _let_86) (not (= _let_83 X)) (not (= X _let_83)) (tptp.the_scalar_value_2 _let_78 tptp.big_0) (tptp.scalar_unit_class_2 _let_78 tptp.polypeptide_0) (tptp.is_at_2 _let_67 _let_69) (tptp.has_part_2 X _let_72) (tptp.has_part_2 X _let_82) (tptp.has_part_2 X _let_73) (tptp.size_2 X _let_78) (tptp.greater_than_2 _let_78 _let_79) (tptp.size_2 _let_80 _let_79) (tptp.has_part_2 X _let_80) (tptp.is_inside_2 X _let_81) (tptp.possesses_2 X _let_74) (tptp.quantity_2 _let_74 _let_75) (tptp.directly_proportional_2 _let_76 _let_75) (tptp.speed_2 _let_77 _let_76) (tptp.object_2 _let_77 X) (tptp.agent_2 _let_70 X) (tptp.has_function_2 X _let_70) (tptp.has_region_2 X _let_71) (tptp.is_inside_2 _let_72 _let_71) (not (= _let_72 _let_73)) (not (= _let_73 _let_72)) (tptp.has_function_2 X _let_64) (tptp.site_2 _let_64 _let_62) (tptp.is_inside_2 _let_68 _let_62) (tptp.has_part_2 X _let_68) (tptp.has_region_2 X _let_69) (tptp.has_region_2 X _let_62) (tptp.facilitates_2 _let_62 _let_64) (tptp.agent_2 _let_64 X) (tptp.has_part_2 X _let_66) (tptp.has_part_2 _let_66 _let_67) (tptp.object_2 _let_10 X) (tptp.has_part_2 _let_1 _let_59) (tptp.has_part_2 _let_16 _let_1) (tptp.base_2 _let_10 _let_61) (= _let_59 _let_4) (= _let_61 _let_12) (= X _let_19) (= _let_83 _let_15) (= _let_89 _let_58) (= _let_90 (tptp.fn_integral_protein_29 X)) (= _let_89 _let_57) (= _let_88 (tptp.fn_transmembrane_protein_2 X)) (= _let_81 _let_36) (= _let_16 _let_9) (= _let_16 _let_7) (= _let_87 _let_56) (= _let_87 _let_55) (= _let_87 _let_54) (= _let_87 _let_52) (= _let_87 _let_53) (= _let_87 _let_51) (= _let_6 _let_50) (= _let_6 _let_49) (= _let_8 _let_41) (= _let_81 _let_39) (= _let_81 _let_35) (= _let_81 _let_38) (= _let_81 _let_34) (= _let_86 _let_85) (= _let_84 _let_48) (= _let_84 _let_47) (= _let_83 _let_46) (= _let_83 _let_45) (= _let_8 _let_44) (= _let_8 _let_43) (= _let_8 _let_42) (= _let_8 _let_40) (= X _let_17) (= X _let_14) (= (tptp.fn_integrin_14 X) (tptp.fn_integral_protein_37 X)) (= (tptp.fn_integrin_13 X) (tptp.fn_integral_protein_36 X)) (= (tptp.fn_integrin_12 X) (tptp.fn_integral_protein_35 X)) (= _let_82 (tptp.fn_integral_protein_6 X)) (= (tptp.fn_integrin_11 X) (tptp.fn_integral_protein_34 X)) (= _let_81 _let_37) (= _let_81 _let_33) (= _let_80 _let_32) (= _let_80 _let_31) (= _let_80 _let_30) (= _let_79 _let_29) (= _let_79 _let_28) (= _let_79 _let_27) (= _let_78 _let_26) (= _let_78 _let_25) (= _let_78 _let_24) (= _let_77 (tptp.fn_integral_protein_15 X)) (= _let_76 (tptp.fn_integral_protein_19 X)) (= _let_75 (tptp.fn_integral_protein_18 X)) (= _let_74 (tptp.fn_integral_protein_17 X)) (= _let_73 (tptp.fn_integral_protein_33 X)) (= _let_72 _let_23) (= _let_72 _let_22) (= X _let_15) (= _let_71 _let_21) (= _let_71 _let_20) (= _let_70 (tptp.fn_integral_protein_7 X)) (= _let_69 (tptp.fn_integral_protein_14 X)) (= _let_68 (tptp.fn_integral_protein_5 X)) (= _let_67 (tptp.fn_integral_protein_21 X)) (= _let_66 (tptp.fn_integral_protein_13 X)) (= _let_64 _let_65) (= _let_64 (tptp.fn_integral_protein_8 X)) (= _let_62 _let_63) (= _let_62 (tptp.fn_integral_protein_28 X)) (= X _let_13) (= _let_61 _let_11) (= _let_16 _let_5) (= _let_1 _let_60) (= _let_59 _let_2) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_15) (= _let_15 _let_46) (= _let_46 _let_46) (= _let_45 _let_45) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_42) (= _let_42 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_40 _let_42) (= _let_42 _let_40) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_34) (= _let_35 _let_33) (= _let_33 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_24 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_15 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_14 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.integrity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Integrity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of integrity'|) (tptp.concept2words_2 X |tptp.'integrity constant'|) (tptp.concept2words_2 X |tptp.'integrity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.integrity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Integrity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of integrity'|) (tptp.concept2words_2 X |tptp.'integrity scale'|) (tptp.concept2words_2 X |tptp.'integrity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.integrity_value_1 X) (and (tptp.original_name_2 X |tptp.'Integrity-Value'|) (tptp.description_2 X |tptp.'an undivided or unbroken completeness or totality with nothing wanting'|) (tptp.concept2words_2 X tptp.unity) (tptp.concept2words_2 X tptp.wholeness) (tptp.concept2words_2 X tptp.integrity) (tptp.concept2words_2 X |tptp.'value of integrity'|) (tptp.concept2words_2 X |tptp.'integrity value'|) (tptp.concept2words_2 X |tptp.'integrity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.integument_1 X) (and (tptp.original_name_2 X |tptp.'Integument'|) (tptp.user_description_2 X |tptp.'One or more layers of tissue that form a covering over the ovule of an angiosperm.'|) (tptp.concept2words_2 X tptp.integument) (tptp.plant_specific_tissue_1 X) (not (tptp.endosperm_1 X)) (not (tptp.leaf_primordium_1 X)) (not (tptp.meristem_1 X)) (not (tptp.mesophyll_1 X)) (not (tptp.phloem_1 X)) (not (tptp.primary_plant_body_1 X)) (not (tptp.primary_plant_1 X)) (not (tptp.protonema_1 X)) (not (tptp.receptacle_1 X)) (not (tptp.vessel_1 X))))) (forall ((X $$unsorted)) (=> (tptp.integumentary_system_1 X) (and (tptp.original_name_2 X |tptp.'Integumentary-System'|) (tptp.user_description_2 X |tptp.'The organ system that protects a mammal_'s body from external damage; comprised of the skin, hair or fur, and nails or claws.'|) (tptp.concept2words_2 X |tptp.'integumentary system'|) (tptp.concept2words_2 X |tptp.'integumentary-system'|) (tptp.animal_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.intensity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Intensity-Constant'|) (tptp.concept2words_2 X |tptp.'constant of intensity'|) (tptp.concept2words_2 X |tptp.'intensity constant'|) (tptp.concept2words_2 X |tptp.'intensity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.intensity_scale_1 X) (and (tptp.original_name_2 X |tptp.'Intensity-Scale'|) (tptp.concept2words_2 X |tptp.'scale of intensity'|) (tptp.concept2words_2 X |tptp.'intensity scale'|) (tptp.concept2words_2 X |tptp.'intensity-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.intensity_value_1 X) (and (tptp.original_name_2 X |tptp.'Intensity-Value'|) (tptp.description_2 X |tptp.'the intensity of a Thing'|) (tptp.concept2words_2 X tptp.volume) (tptp.concept2words_2 X tptp.vividness) (tptp.concept2words_2 X tptp.strength) (tptp.concept2words_2 X |tptp.'intensity level'|) (tptp.concept2words_2 X tptp.loudness) (tptp.concept2words_2 X tptp.saturation) (tptp.concept2words_2 X tptp.chroma) (tptp.concept2words_2 X tptp.intensity) (tptp.concept2words_2 X |tptp.'value of intensity'|) (tptp.concept2words_2 X |tptp.'intensity value'|) (tptp.concept2words_2 X |tptp.'intensity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intentional_1 X) (and (tptp.original_name_2 X |tptp.'Intentional'|) (tptp.concept2words_2 X tptp.intentional) (tptp.cliche_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interact_1 X) (and (tptp.original_name_2 X |tptp.'Interact'|) (tptp.user_description_2 X |tptp.'Act in such a way as to have an effect on another'|) (tptp.concept2words_2 X tptp.interact) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_interaction_of_light_with_matter_4 X))) (let ((_let_2 (tptp.fn_move_into_1 _let_1))) (let ((_let_3 (tptp.fn_interaction_of_light_with_matter_5 X))) (let ((_let_4 (tptp.fn_light_reflection_1 _let_3))) (let ((_let_5 (tptp.fn_take_in_1 _let_1))) (let ((_let_6 (tptp.fn_interaction_of_light_with_matter_6 X))) (let ((_let_7 (tptp.fn_make_contact_2 _let_6))) (let ((_let_8 (tptp.fn_make_contact_1 _let_6))) (let ((_let_9 (tptp.fn_move_1 _let_1))) (let ((_let_10 (tptp.fn_interaction_of_light_with_matter_3 X))) (let ((_let_11 (tptp.fn_move_into_2 _let_1))) (let ((_let_12 (tptp.fn_interaction_of_light_with_matter_2 X))) (let ((_let_13 (tptp.fn_interaction_of_light_with_matter_7 X))) (let ((_let_14 (tptp.fn_interaction_of_light_with_matter_1 X))) (=> (tptp.interaction_of_light_with_matter_1 X) (and (tptp.original_name_2 X |tptp.'Interaction-Of-Light-With-Matter'|) (tptp.user_description_2 X |tptp.'When light interacts with matter, some of the light is transmitted, some is reflected, and some is absorbed.'|) (tptp.concept2words_2 X tptp.interact) (tptp.concept2words_2 X |tptp.'interaction of light with matter'|) (tptp.concept2words_2 X |tptp.'interaction-of-light-with-matter'|) (tptp.interact_1 X) (tptp.light_transmission_1 _let_14) (tptp.container_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.absorb_1 _let_1) (tptp.light_reflection_1 _let_3) (tptp.make_contact_1 _let_6) (tptp.light_1 _let_13) (tptp.container_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.object_2 X _let_13) (tptp.first_subevent_2 X _let_6) (tptp.subevent_2 X _let_6) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_14) (tptp.base_2 _let_14 _let_10) (tptp.next_event_2 _let_6 _let_14) (tptp.next_event_2 _let_6 _let_1) (tptp.next_event_2 _let_6 _let_3) (tptp.object_2 _let_1 _let_13) (tptp.object_2 _let_6 _let_13) (tptp.base_2 _let_6 _let_10) (tptp.agent_2 _let_1 _let_10) (tptp.agent_2 _let_3 _let_10) (tptp.in_event_2 _let_12 _let_1) (tptp.base_2 _let_1 _let_10) (tptp.plays_2 _let_10 _let_12) (= _let_13 _let_9) (= _let_13 _let_8) (= _let_10 _let_7) (= _let_10 _let_5) (= _let_10 _let_4) (= _let_12 _let_11) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.interactive_hypothesis_1 X) (and (tptp.original_name_2 X |tptp.'Interactive-Hypothesis'|) (tptp.user_description_2 X |tptp.'The hypothesis that species occur together because they are part of the same community, which is an assemblage of organisms closely linked due to biological interactions. This hypothesis treats the biological community as an integrated unit; i.e., a superorganism.'|) (tptp.concept2words_2 X |tptp.'interactive hypothesis'|) (tptp.concept2words_2 X |tptp.'interactive-hypothesis'|) (tptp.hypothesis_1 X) (not (tptp.bicoid_protein_hypothesis_1 X)) (not (tptp.individualistic_hypothesis_1 X)) (not (tptp.practice_hypothesis_of_play_1 X)) (not (tptp.snowball_earth_hypothesis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intercalated_disc_1 X) (and (tptp.original_name_2 X |tptp.'Intercalated-Disc'|) (tptp.user_description_2 X |tptp.'The connection between cardiac muscle cells that allows the heart to beat as a single unit.'|) (tptp.concept2words_2 X |tptp.'intercalated disc'|) (tptp.concept2words_2 X |tptp.'intercalated-disc'|) (tptp.intercellular_junction_1 X) (not (tptp.desmosome_1 X)) (not (tptp.tight_junction_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intercellular_joining_2 X))) (let ((_let_2 (tptp.fn_intercellular_joining_3 X))) (let ((_let_3 (tptp.fn_intercellular_joining_1 X))) (=> (tptp.intercellular_joining_1 X) (and (tptp.original_name_2 X |tptp.'Intercellular-Joining'|) (tptp.user_description_2 X |tptp.'(1) (being located) Between or among cells. (2) Of or pertaining to that (e.g. substance, space, region) between the cells.'|) (tptp.concept2words_2 X |tptp.'intercellularly join'|) (tptp.concept2words_2 X |tptp.'intercellular joining'|) (tptp.concept2words_2 X |tptp.'intercellular-joining'|) (tptp.intercellular_process_1 X) (tptp.attach_1 X) (not (tptp.annealing_1 X)) (not (tptp.base_pairing_1 X)) (not (tptp.ligand_binding_1 X)) (not (tptp.nucleic_acid_hybridization_1 X)) (tptp.attach_1 _let_3) (tptp.cell_1 _let_1) (tptp.cell_1 _let_2) (tptp.abuts_2 _let_1 _let_2) (tptp.abuts_2 _let_2 _let_1) (tptp.subevent_2 X _let_3) (tptp.first_subevent_2 X _let_3) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_attach_2 X)) (= _let_1 (tptp.fn_attach_1 X)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intercellular_junction_2 X))) (let ((_let_2 (tptp.fn_intercellular_junction_1 X))) (=> (tptp.intercellular_junction_1 X) (and (tptp.original_name_2 X |tptp.'Intercellular-Junction'|) (tptp.user_description_2 X |tptp.'A membrane protein that is attached to 2 adjacent cells.'|) (tptp.concept2words_2 X |tptp.'cell junction'|) (tptp.concept2words_2 X |tptp.'cell-junction'|) (tptp.concept2words_2 X |tptp.'intercellular junction'|) (tptp.concept2words_2 X |tptp.'intercellular-junction'|) (tptp.eukaryotic_cell_structure_1 X) (tptp.cell_1 _let_2) (tptp.cell_1 _let_1) (tptp.abuts_2 _let_2 _let_1) (not (= _let_2 _let_1)) (tptp.abuts_2 _let_1 _let_2) (not (= _let_1 _let_2)) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.intercellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Intercellular-Process'|) (tptp.user_description_2 X |tptp.'A process that occurs between cells.'|) (tptp.concept2words_2 X |tptp.'intercellular process'|) (tptp.concept2words_2 X |tptp.'intercellular-process'|) (tptp.cellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interdigital_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Interdigital-Tissue'|) (tptp.user_description_2 X |tptp.'Tissue located between the toes or fingers 9digits) of an animal. Webbing between the toes of a duck or frog is an example of interdigital tissue.'|) (tptp.concept2words_2 X |tptp.'interdigital tissue'|) (tptp.concept2words_2 X |tptp.'interdigital-tissue'|) (tptp.animal_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interface_slot_1 X) (and (tptp.original_name_2 X |tptp.'Interface-Slot'|) (tptp.concept2words_2 X |tptp.'slot of interface'|) (tptp.concept2words_2 X |tptp.'interface slot'|) (tptp.concept2words_2 X |tptp.'interface-slot'|) (tptp.slot_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interferon_1 X) (and (tptp.original_name_2 X |tptp.'Interferon'|) (tptp.user_description_2 X |tptp.'Type of protein released by cells responding to infection by viruses and other pathogens. Alpha- and beta-interferons are released by virus-infected cells and help neighboring cells resist infection. Gamma-interferon is released by T cells and activates macrophages.'|) (tptp.concept2words_2 X tptp.interferon) (tptp.regulatory_protein_1 X) (not (tptp.camp_receptor_protein_1 X)) (not (tptp.cyclin_1 X)) (not (tptp.cytokine_1 X)) (not (tptp.mpf_1 X)) (not (tptp.transcription_factor_1 X)) (not (tptp.tropomyosin_1 X)) (not (tptp.ubiquitin_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_polymer_1 X))) (let ((_let_2 (tptp.fn_molecule_10 X))) (let ((_let_3 (tptp.fn_intermediate_filament_23 X))) (let ((_let_4 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_5 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_6 (tptp.fn_intermediate_filament_22 X))) (let ((_let_7 (tptp.fn_carbon_skeleton_4 _let_6))) (let ((_let_8 (tptp.fn_organic_molecule_1 X))) (let ((_let_9 (tptp.fn_molecule_7 X))) (let ((_let_10 (tptp.fn_carbon_skeleton_3 _let_6))) (let ((_let_11 (tptp.fn_intermediate_filament_8 X))) (let ((_let_12 (tptp.fn_eukaryotic_cell_57 _let_11))) (let ((_let_13 (tptp.fn_protein_14 X))) (let ((_let_14 (tptp.fn_intermediate_filament_26 X))) (let ((_let_15 (tptp.fn_polypeptide_82 _let_14))) (let ((_let_16 (tptp.fn_polypeptide_83 _let_14))) (let ((_let_17 (tptp.fn_protein_9 X))) (let ((_let_18 (tptp.fn_polymer_8 X))) (let ((_let_19 (tptp.fn_intermediate_filament_27 X))) (let ((_let_20 (tptp.fn_intermediate_filament_21 X))) (let ((_let_21 (tptp.fn_intermediate_filament_25 X))) (let ((_let_22 (tptp.fn_intermediate_filament_24 X))) (let ((_let_23 (tptp.fn_intermediate_filament_13 X))) (let ((_let_24 (tptp.fn_intermediate_filament_20 X))) (let ((_let_25 (tptp.fn_intermediate_filament_15 X))) (let ((_let_26 (tptp.fn_intermediate_filament_14 X))) (let ((_let_27 (tptp.fn_intermediate_filament_18 X))) (let ((_let_28 (tptp.fn_intermediate_filament_17 X))) (let ((_let_29 (tptp.fn_intermediate_filament_16 X))) (let ((_let_30 (tptp.fn_intermediate_filament_30 X))) (let ((_let_31 (tptp.fn_intermediate_filament_19 X))) (let ((_let_32 (tptp.fn_eukaryotic_cell_26 _let_11))) (let ((_let_33 (tptp.fn_intermediate_filament_29 X))) (let ((_let_34 (tptp.fn_eukaryotic_cell_58 _let_11))) (let ((_let_35 (tptp.fn_intermediate_filament_28 X))) (let ((_let_36 (tptp.fn_intermediate_filament_2 X))) (let ((_let_37 (tptp.fn_intermediate_filament_3 X))) (let ((_let_38 (tptp.fn_intermediate_filament_1 X))) (let ((_let_39 (tptp.fn_intermediate_filament_7 X))) (=> (tptp.intermediate_filament_1 X) (and (tptp.original_name_2 X |tptp.'Intermediate-Filament'|) (tptp.user_description_2 X |tptp.'Intermediate filament is a fibrous protein that helps in maintaining cell shape and hold organelles to a fixed position.'|) (tptp.concept2words_2 X |tptp.'filament of intermediate'|) (tptp.concept2words_2 X |tptp.'intermediate filament'|) (tptp.concept2words_2 X |tptp.'intermediate-filament'|) (tptp.filament_protein_1 X) (tptp.fibrous_protein_1 X) (tptp.length_value_1 _let_38) (tptp.length_value_1 _let_36) (tptp.length_value_1 _let_37) (tptp.keratin_1 _let_39) (tptp.eukaryotic_cell_1 _let_11) (tptp.protein_domain_1 _let_23) (tptp.kinetic_energy_1 _let_26) (tptp.size_value_1 _let_25) (tptp.constant_motion_1 _let_29) (tptp.speed_value_1 _let_28) (tptp.quantity_value_1 _let_27) (tptp.size_value_1 _let_31) (tptp.spatial_entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.monomer_1 _let_24) (tptp.molecule_1 _let_24) (tptp.amino_acid_1 _let_24) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_skeleton_1 _let_6) (tptp.chemical_bond_1 _let_3) (tptp.covalent_bond_1 _let_3) (tptp.hydrophilic_region_1 _let_22) (tptp.surface_1 _let_21) (tptp.monomer_1 _let_14) (tptp.carbon_1 _let_19) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.hold_together_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.nucleus_1 _let_33) (tptp.monomer_1 _let_30) (tptp.hold_1 _let_34) (tptp.tangible_entity_1 _let_32) (tptp.nucleus_1 _let_32) (tptp.spatial_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.monomer_1 _let_16) (tptp.molecule_1 _let_16) (tptp.amino_acid_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.monomer_1 _let_15) (tptp.molecule_1 _let_15) (tptp.amino_acid_1 _let_15) (tptp.intermediate_filament_1 _let_12) (tptp.organic_molecule_1 _let_10) (tptp.carbon_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.diameter_2 X _let_37) (tptp.has_part_2 X _let_39) (tptp.has_function_2 X _let_35) (tptp.greater_than_or_equal_to_2 _let_38 _let_37) (tptp.the_cardinal_value_2 _let_38 |"12.0e0"|) (tptp.cardinal_unit_class_2 _let_38 tptp.nanometer_0) (tptp.the_cardinal_value_2 _let_36 |"8.0e0"|) (tptp.cardinal_unit_class_2 _let_36 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_37 _let_36) (tptp.has_part_2 X _let_14) (tptp.has_part_2 _let_14 _let_24) (tptp.has_part_2 _let_11 _let_33) (tptp.object_2 _let_35 _let_33) (tptp.agent_2 _let_35 X) (tptp.has_region_2 X _let_6) (tptp.has_part_2 X _let_19) (tptp.is_inside_2 _let_19 _let_6) (tptp.possesses_2 X _let_3) (tptp.greater_than_2 _let_25 _let_31) (tptp.has_part_2 X _let_30) (tptp.size_2 _let_30 _let_31) (tptp.has_part_2 X _let_20) (tptp.possesses_2 X _let_26) (tptp.quantity_2 _let_26 _let_27) (tptp.directly_proportional_2 _let_28 _let_27) (tptp.speed_2 _let_29 _let_28) (tptp.object_2 _let_29 X) (tptp.size_2 X _let_25) (tptp.the_scalar_value_2 _let_25 tptp.big_0) (tptp.scalar_unit_class_2 _let_25 tptp.polypeptide_0) (tptp.has_region_2 X _let_21) (tptp.is_at_2 _let_22 _let_21) (tptp.has_region_2 X _let_22) (tptp.has_region_2 X _let_23) (tptp.is_at_2 _let_24 _let_23) (not (= _let_19 _let_20)) (tptp.is_between_2 _let_3 _let_20) (not (= _let_20 _let_19)) (tptp.is_between_2 _let_3 _let_19) (= _let_24 _let_16) (= _let_14 (tptp.fn_protein_8 X)) (= _let_24 _let_15) (= X _let_12) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_19 _let_8) (= _let_19 _let_7) (= _let_6 (tptp.fn_organic_molecule_3 X)) (= X _let_10) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_25 _let_18) (= (tptp.fn_intermediate_filament_9 X) (tptp.fn_polymer_10 X)) (= _let_31 (tptp.fn_polymer_7 X)) (= _let_30 (tptp.fn_polymer_4 X)) (= (tptp.fn_intermediate_filament_11 X) (tptp.fn_molecule_1 X)) (= _let_20 _let_9) (= (tptp.fn_intermediate_filament_10 X) (tptp.fn_molecule_2 X)) (= _let_29 (tptp.fn_molecule_8 X)) (= _let_28 (tptp.fn_molecule_3 X)) (= _let_27 (tptp.fn_molecule_4 X)) (= _let_26 (tptp.fn_molecule_12 X)) (= (tptp.fn_intermediate_filament_12 X) (tptp.fn_protein_10 X)) (= _let_25 _let_17) (= _let_24 _let_13) (= _let_23 (tptp.fn_protein_7 X)) (= _let_22 (tptp.fn_protein_1 X)) (= _let_21 (tptp.fn_protein_5 X)) (= _let_20 _let_4) (= _let_19 _let_5) (= _let_19 _let_4) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_4) (= _let_4 _let_4) (= _let_4 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intermembrane_space_2 X))) (let ((_let_2 (tptp.fn_intermembrane_space_1 X))) (=> (tptp.intermembrane_space_1 X) (and (tptp.original_name_2 X |tptp.'Intermembrane-Space'|) (tptp.user_description_2 X |tptp.'The intermembrane space is present between the outer membrane and the inner membrane.'|) (tptp.concept2words_2 X |tptp.'intermembrane space'|) (tptp.concept2words_2 X |tptp.'intermembrane-space'|) (tptp.subcellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.outer_membrane_1 _let_2) (tptp.inner_membrane_1 _let_1) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.internal_fertilization_1 X) (and (tptp.original_name_2 X |tptp.'Internal-Fertilization'|) (tptp.user_description_2 X |tptp.'Fertilization that takes place inside the female_'s reproductive tract. Sperm are usually deposited within or near the female_'s reproductive tract.'|) (tptp.concept2words_2 X tptp.fertilize) (tptp.concept2words_2 X |tptp.'internal fertilization'|) (tptp.concept2words_2 X |tptp.'internal-fertilization'|) (tptp.fertilization_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_interneuron_2 X))) (let ((_let_2 (tptp.fn_interneuron_1 X))) (let ((_let_3 (tptp.fn_interneuron_3 X))) (=> (tptp.interneuron_1 X) (and (tptp.original_name_2 X |tptp.'Interneuron'|) (tptp.user_description_2 X |tptp.'A neuron that forms connections between other neurons. In the vertebrate central nervous system, interneurons synapse with sensory and/or motor neurons and integrate either sensory input or motor output.'|) (tptp.concept2words_2 X tptp.interneuron) (tptp.nerve_cell_1 X) (not (tptp.motor_neuron_1 X)) (not (tptp.post_synaptic_cell_1 X)) (not (tptp.presynaptic_cell_1 X)) (not (tptp.sensory_neuron_1 X)) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_1) (tptp.block_1 _let_3) (tptp.instrument_2 _let_3 X) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.internode_1 X) (and (tptp.original_name_2 X |tptp.'Internode'|) (tptp.user_description_2 X |tptp.'A section of a plant stem between leaf nodes.'|) (tptp.concept2words_2 X tptp.internode) (tptp.plant_region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_interphase_7 X))) (let ((_let_2 (tptp.fn_g1_phase_5 _let_1))) (let ((_let_3 (tptp.fn_interphase_6 X))) (let ((_let_4 (tptp.fn_g2_phase_8 _let_3))) (let ((_let_5 (tptp.fn_interphase_5 X))) (let ((_let_6 (tptp.fn_s_phase_3 _let_5))) (let ((_let_7 (tptp.fn_g1_phase_4 _let_1))) (let ((_let_8 (tptp.fn_s_phase_10 _let_5))) (let ((_let_9 (tptp.fn_g1_phase_3 _let_1))) (let ((_let_10 (tptp.fn_s_phase_12 _let_5))) (let ((_let_11 (tptp.fn_s_phase_11 _let_5))) (let ((_let_12 (tptp.fn_interphase_12 X))) (let ((_let_13 (tptp.fn_synthesis_of_protein_16 _let_12))) (let ((_let_14 (tptp.fn_anabolic_pathway_5 _let_12))) (let ((_let_15 (tptp.fn_g1_phase_1 _let_1))) (let ((_let_16 (tptp.fn_interphase_9 X))) (let ((_let_17 (tptp.fn_interphase_21 X))) (let ((_let_18 (tptp.fn_g1_phase_7 _let_1))) (let ((_let_19 (tptp.fn_interphase_16 X))) (let ((_let_20 (tptp.fn_interphase_13 X))) (let ((_let_21 (tptp.fn_interphase_19 X))) (let ((_let_22 (tptp.fn_interphase_10 X))) (let ((_let_23 (tptp.fn_interphase_11 X))) (let ((_let_24 (tptp.fn_g2_phase_10 _let_3))) (let ((_let_25 (tptp.fn_interphase_4 X))) (let ((_let_26 (tptp.fn_g2_phase_3 _let_3))) (let ((_let_27 (tptp.fn_interphase_18 X))) (let ((_let_28 (tptp.fn_g2_phase_4 _let_3))) (let ((_let_29 (tptp.fn_interphase_20 X))) (let ((_let_30 (tptp.fn_s_phase_15 _let_5))) (let ((_let_31 (tptp.fn_interphase_17 X))) (let ((_let_32 (tptp.fn_s_phase_14 _let_5))) (let ((_let_33 (tptp.fn_interphase_15 X))) (let ((_let_34 (tptp.fn_s_phase_9 _let_5))) (let ((_let_35 (tptp.fn_interphase_14 X))) (let ((_let_36 (tptp.fn_interphase_8 X))) (let ((_let_37 (tptp.fn_interphase_3 X))) (let ((_let_38 (tptp.fn_interphase_1 X))) (=> (tptp.interphase_1 X) (and (tptp.original_name_2 X |tptp.'Interphase'|) (tptp.user_description_2 X |tptp.'Interphase is the growth phase of cell which prepares it for the subsequent cell division. During this phase, the chromosomes replicate. Also, here the nuclear membrane is still intact maintaining the nucleus. Interphase is about 90% of the whole cell cycle'|) (tptp.concept2words_2 X |tptp.'interphase i'|) (tptp.concept2words_2 X |tptp.'resting stage'|) (tptp.concept2words_2 X |tptp.'resting-stage'|) (tptp.concept2words_2 X |tptp.'resting phase'|) (tptp.concept2words_2 X |tptp.'resting-phase'|) (tptp.concept2words_2 X |tptp.'undergo interphase'|) (tptp.concept2words_2 X tptp.interphase) (tptp.cell_cycle_process_1 X) (tptp.duration_value_1 _let_38) (tptp.resource_1 _let_37) (tptp.cell_1 _let_25) (tptp.eukaryotic_cell_1 _let_25) (tptp.s_phase_1 _let_5) (tptp.g2_phase_1 _let_3) (tptp.g1_phase_1 _let_1) (tptp.chemical_entity_1 _let_36) (tptp.protein_1 _let_36) (tptp.eukaryotic_cell_1 _let_16) (tptp.eukaryotic_cell_1 _let_22) (tptp.cell_growth_1 _let_23) (tptp.anabolic_pathway_1 _let_12) (tptp.synthesis_of_protein_1 _let_12) (tptp.synthesis_of_protein_1 _let_20) (tptp.copy_1 _let_35) (tptp.tangible_entity_1 _let_33) (tptp.chromosome_1 _let_33) (tptp.chemical_entity_1 _let_19) (tptp.protein_1 _let_19) (tptp.entity_1 _let_31) (tptp.eukaryotic_chromosome_1 _let_31) (tptp.chromosome_1 _let_31) (tptp.diploid_chromosome_1 _let_31) (tptp.smooth_endoplasmic_reticulum_1 _let_27) (tptp.cell_growth_1 _let_21) (tptp.synthesis_reaction_1 _let_29) (tptp.chemical_reaction_1 _let_29) (tptp.anabolic_pathway_1 _let_29) (tptp.synthesis_of_lipid_1 _let_29) (tptp.cell_1 _let_17) (tptp.eukaryotic_cell_1 _let_17) (tptp.copy_1 _let_34) (tptp.tangible_entity_1 _let_32) (tptp.chromosome_1 _let_32) (tptp.entity_1 _let_30) (tptp.eukaryotic_chromosome_1 _let_30) (tptp.chromosome_1 _let_30) (tptp.diploid_chromosome_1 _let_30) (tptp.synthesis_reaction_1 _let_28) (tptp.chemical_reaction_1 _let_28) (tptp.anabolic_pathway_1 _let_28) (tptp.synthesis_of_lipid_1 _let_28) (tptp.smooth_endoplasmic_reticulum_1 _let_26) (tptp.cell_1 _let_24) (tptp.eukaryotic_cell_1 _let_24) (tptp.chemical_entity_1 _let_18) (tptp.protein_1 _let_18) (tptp.eukaryotic_cell_1 _let_15) (tptp.chemical_entity_1 _let_14) (tptp.protein_1 _let_13) (tptp.eukaryotic_cell_1 _let_11) (tptp.cell_growth_1 _let_10) (tptp.cell_growth_1 _let_9) (tptp.synthesis_of_protein_1 _let_8) (tptp.synthesis_of_protein_1 _let_7) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.eukaryotic_cell_1 _let_4) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.next_event_2 _let_5 _let_3) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.first_subevent_2 X _let_1) (tptp.duration_2 X _let_38) (tptp.result_2 X _let_25) (tptp.base_2 X _let_16) (tptp.next_event_2 _let_1 _let_5) (tptp.the_scalar_value_2 _let_38 tptp.long_0) (tptp.scalar_unit_class_2 _let_38 tptp.cell_cycle_process_0) (tptp.in_event_2 _let_37 X) (tptp.has_state_2 _let_16 _let_22) (tptp.has_state_2 _let_16 _let_25) (tptp.has_part_2 _let_22 _let_36) (tptp.by_means_of_2 _let_23 _let_12) (tptp.result_2 _let_12 _let_36) (tptp.subevent_2 _let_5 _let_20) (tptp.has_state_2 _let_22 _let_17) (tptp.object_2 _let_21 _let_17) (tptp.result_2 _let_5 _let_17) (tptp.base_2 _let_5 _let_22) (tptp.has_part_2 _let_22 _let_33) (tptp.subevent_2 _let_5 _let_21) (tptp.base_2 _let_21 _let_17) (tptp.has_part_2 _let_17 _let_31) (not (= _let_33 _let_31)) (not (= _let_31 _let_33)) (tptp.base_2 _let_3 _let_17) (tptp.base_2 _let_29 _let_17) (tptp.result_2 _let_3 _let_25) (tptp.has_state_2 _let_17 _let_25) (tptp.has_part_2 _let_17 _let_27) (tptp.has_function_2 _let_27 _let_29) (tptp.site_2 _let_29 _let_27) (tptp.base_2 _let_23 _let_22) (tptp.result_2 _let_1 _let_22) (tptp.object_2 _let_23 _let_22) (tptp.subevent_2 _let_1 _let_23) (tptp.subevent_2 _let_1 _let_12) (tptp.base_2 _let_1 _let_16) (tptp.has_state_2 _let_16 _let_17) (tptp.has_part_2 _let_17 _let_19) (tptp.result_2 _let_20 _let_19) (tptp.by_means_of_2 _let_21 _let_20) (= _let_36 _let_14) (= _let_36 _let_13) (= _let_20 _let_8) (= _let_35 _let_34) (= _let_22 _let_11) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_17 _let_6) (= _let_21 _let_10) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_17 _let_4) (= _let_25 _let_24) (= _let_12 _let_7) (= _let_23 _let_9) (= _let_22 _let_2) (= _let_21 _let_9) (= _let_20 _let_7) (= _let_19 _let_18) (= _let_17 _let_2) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_2) (= _let_2 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_interpret_1 X))) (let ((_let_2 (tptp.fn_interpret_2 X))) (=> (tptp.interpret_1 X) (and (tptp.original_name_2 X |tptp.'Interpret'|) (tptp.concept2words_2 X tptp.interpret) (tptp.concept2words_2 X tptp.understand) (tptp.action_1 X) (tptp.message_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.intersexual_selection_1 X) (and (tptp.original_name_2 X |tptp.'Intersexual-Selection'|) (tptp.user_description_2 X |tptp.'Type of selection in which members of one sex (usually females) are choosy when selecting mates. Also referred to as mate choice.'|) (tptp.concept2words_2 X |tptp.'intersexual selection'|) (tptp.concept2words_2 X |tptp.'intersexual-selection'|) (tptp.sexual_selection_1 X) (not (tptp.intrasexual_selection_1 X))))) (forall ((X $$unsorted)) (=> (tptp.interspecific_competition_1 X) (and (tptp.original_name_2 X |tptp.'Interspecific-Competition'|) (tptp.user_description_2 X |tptp.'A competitive interaction for a scarce resource that occurs between individuals of two or more species.'|) (tptp.concept2words_2 X |tptp.'interspecific competition'|) (tptp.concept2words_2 X |tptp.'interspecific-competition'|) (tptp.interspecific_interaction_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interspecific_interaction_1 X) (and (tptp.original_name_2 X |tptp.'Interspecific-Interaction'|) (tptp.user_description_2 X |tptp.'An interaction between members of two or more species within a biological community.'|) (tptp.concept2words_2 X |tptp.'interspecific interaction'|) (tptp.concept2words_2 X |tptp.'interspecific-interaction'|) (tptp.ecological_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interspersed_repetitive_dna_1 X) (and (tptp.original_name_2 X |tptp.'Interspersed-Repetitive-DNA'|) (tptp.user_description_2 X |tptp.'Nucleotide sequences, usually noncoding, that are present in many copies in a eukaryotic genome. The repeated units may be short and arranged tandemly (in series) or long and dispersed in the genome.'|) (tptp.concept2words_2 X |tptp.'interspersed repetitive dna'|) (tptp.concept2words_2 X |tptp.'interspersed-repetitive-dna'|) (tptp.repetitive_dna_1 X)))) (forall ((X $$unsorted)) (=> (tptp.interstitial_fluid_1 X) (and (tptp.original_name_2 X |tptp.'Interstitial-Fluid'|) (tptp.user_description_2 X |tptp.'The aqueous solution that surrounds and bathes the cells of multicellular organisms.'|) (tptp.concept2words_2 X |tptp.'interstitial fluid'|) (tptp.concept2words_2 X |tptp.'interstitial-fluid'|) (tptp.extra_cellular_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intertidal_zone_1 X) (and (tptp.original_name_2 X |tptp.'Intertidal-Zone'|) (tptp.user_description_2 X |tptp.'The narrow zone of the marine ecosystem that is adjacent to land. It is covered at high tide and exposed at low tide.'|) (tptp.concept2words_2 X |tptp.'intertidal zone'|) (tptp.concept2words_2 X |tptp.'intertidal-zone'|) (tptp.aquatic_zone_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intestinal_cell_nucleus_transplantation_to_frog_egg_6 X))) (let ((_let_2 (tptp.fn_intestinal_cell_nucleus_transplantation_to_frog_egg_9 X))) (let ((_let_3 (tptp.fn_intestinal_cell_nucleus_transplantation_to_frog_egg_7 X))) (let ((_let_4 (tptp.fn_intestinal_cell_nucleus_transplantation_to_frog_egg_8 X))) (=> (tptp.intestinal_cell_nucleus_transplantation_to_frog_egg_1 X) (and (tptp.original_name_2 X |tptp.'Intestinal-Cell-Nucleus-Transplantation-To-Frog-Egg'|) (tptp.user_description_2 X |tptp.'The technique of placing a intestinal cell nucleus from differentiated cell into an enucleated cell of a frog egg.'|) (tptp.concept2words_2 X tptp.transplant) (tptp.concept2words_2 X |tptp.'intestinal cell nucleus transplantation to frog egg'|) (tptp.concept2words_2 X |tptp.'intestinal-cell-nucleus-transplantation-to-frog-egg'|) (tptp.differentiated_cell_nuclear_transplantation_1 X) (tptp.system_1 (tptp.fn_intestinal_cell_nucleus_transplantation_to_frog_egg_4 X)) (tptp.quantity_value_1 _let_1) (tptp.quantity_value_1 _let_3) (tptp.frog_egg_1 _let_4) (tptp.tadpole_1 _let_2) (tptp.called_2 _let_1 |tptp.'Quantity_Tadpole'|) (tptp.called_2 _let_3 |tptp.'Quantity_FrogEgg'|) (tptp.quantity_2 _let_4 _let_3) (tptp.quantity_2 _let_2 _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.intestine_1 X) (and (tptp.original_name_2 X |tptp.'Intestine'|) (tptp.user_description_2 X |tptp.'Segment of the alimentary canal which participates in the absorption of nutrients from food. The intestine can be subdivided into two main segments, the small intestine and the large intestine.'|) (tptp.concept2words_2 X tptp.intestine) (tptp.organ_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intracellular_digestion_9 X))) (let ((_let_2 (tptp.fn_food_vacuole_18 _let_1))) (let ((_let_3 (tptp.fn_intracellular_digestion_11 X))) (let ((_let_4 (tptp.fn_eukaryotic_cell_31 _let_3))) (let ((_let_5 (tptp.fn_food_vacuole_26 _let_1))) (let ((_let_6 (tptp.fn_intracellular_digestion_21 X))) (let ((_let_7 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_6))) (let ((_let_8 (tptp.fn_eukaryotic_cell_42 _let_3))) (let ((_let_9 (tptp.fn_food_vacuole_17 _let_1))) (let ((_let_10 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_6))) (let ((_let_11 (tptp.fn_intracellular_process_1 X))) (let ((_let_12 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_6))) (let ((_let_13 (tptp.fn_eukaryotic_cell_26 _let_3))) (let ((_let_14 (tptp.fn_smooth_endoplasmic_reticulum_11 _let_6))) (let ((_let_15 (tptp.fn_eukaryotic_cell_45 _let_3))) (let ((_let_16 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_6))) (let ((_let_17 (tptp.fn_eukaryotic_cell_24 _let_3))) (let ((_let_18 (tptp.fn_intracellular_digestion_14 X))) (let ((_let_19 (tptp.fn_lysosomal_enzyme_18 _let_18))) (let ((_let_20 (tptp.fn_intracellular_digestion_4 X))) (let ((_let_21 (tptp.fn_reactant_2 _let_20))) (let ((_let_22 (tptp.fn_intracellular_digestion_13 X))) (let ((_let_23 (tptp.fn_hydrolysis_9 _let_22))) (let ((_let_24 (tptp.fn_exergonic_reaction_11 _let_22))) (let ((_let_25 (tptp.fn_decomposition_reaction_4 _let_22))) (let ((_let_26 (tptp.fn_hydrolysis_11 _let_22))) (let ((_let_27 (tptp.fn_reactant_3 _let_20))) (let ((_let_28 (tptp.fn_exergonic_reaction_10 _let_22))) (let ((_let_29 (tptp.fn_polymer_1 _let_18))) (let ((_let_30 (tptp.fn_molecule_10 _let_18))) (let ((_let_31 (tptp.fn_food_vacuole_22 _let_1))) (let ((_let_32 (tptp.fn_intracellular_digestion_8 X))) (let ((_let_33 (tptp.fn_intracellular_digestion_16 X))) (let ((_let_34 (tptp.fn_intracellular_digestion_28 X))) (let ((_let_35 (tptp.fn_food_vacuole_24 _let_1))) (let ((_let_36 (tptp.fn_intracellular_digestion_30 X))) (let ((_let_37 (tptp.fn_smooth_endoplasmic_reticulum_13 _let_6))) (let ((_let_38 (tptp.fn_intracellular_digestion_29 X))) (let ((_let_39 (tptp.fn_intracellular_digestion_22 X))) (let ((_let_40 (tptp.fn_eukaryotic_cell_20 _let_3))) (let ((_let_41 (tptp.fn_intracellular_digestion_26 X))) (let ((_let_42 (tptp.fn_intracellular_digestion_23 X))) (let ((_let_43 (tptp.fn_eukaryotic_cell_27 _let_3))) (let ((_let_44 (tptp.fn_intracellular_digestion_19 X))) (let ((_let_45 (tptp.fn_eukaryotic_cell_28 _let_3))) (let ((_let_46 (tptp.fn_eukaryotic_cell_59 _let_3))) (let ((_let_47 (tptp.fn_intracellular_digestion_18 X))) (let ((_let_48 (tptp.fn_eukaryotic_cell_60 _let_3))) (let ((_let_49 (tptp.fn_eukaryotic_cell_19 _let_3))) (let ((_let_50 (tptp.fn_intracellular_digestion_24 X))) (let ((_let_51 (tptp.fn_eukaryotic_cell_30 _let_3))) (let ((_let_52 (tptp.fn_intracellular_digestion_25 X))) (let ((_let_53 (tptp.fn_eukaryotic_cell_29 _let_3))) (let ((_let_54 (tptp.fn_intracellular_digestion_27 X))) (let ((_let_55 (tptp.fn_eukaryotic_cell_41 _let_3))) (let ((_let_56 (tptp.fn_intracellular_digestion_17 X))) (let ((_let_57 (tptp.fn_eukaryotic_cell_44 _let_3))) (let ((_let_58 (tptp.fn_intracellular_digestion_20 X))) (let ((_let_59 (tptp.fn_intracellular_digestion_5 X))) (let ((_let_60 (tptp.fn_hydrolysis_1 _let_22))) (let ((_let_61 (tptp.fn_intracellular_digestion_7 X))) (let ((_let_62 (tptp.fn_intracellular_digestion_12 X))) (let ((_let_63 (tptp.fn_hydrolysis_2 _let_22))) (let ((_let_64 (tptp.fn_intracellular_digestion_6 X))) (let ((_let_65 (tptp.fn_intracellular_digestion_15 X))) (let ((_let_66 (tptp.fn_intracellular_digestion_10 X))) (let ((_let_67 (tptp.fn_create_1 _let_66))) (let ((_let_68 (tptp.fn_intracellular_digestion_1 X))) (let ((_let_69 (tptp.fn_intracellular_digestion_3 X))) (=> (tptp.intracellular_digestion_1 X) (and (tptp.original_name_2 X |tptp.'Intracellular-Digestion'|) (tptp.user_description_2 X |tptp.'A form of digestion in which food is taken into cells by phagocytosis. This type of digestion is found in sponges and most protozoa and coelenterates.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X |tptp.'intracellular digestion'|) (tptp.concept2words_2 X |tptp.'intracellular-digestion'|) (tptp.intracellular_process_1 X) (tptp.digestive_process_1 X) (tptp.molecule_1 _let_68) (tptp.system_1 (tptp.fn_intracellular_digestion_2 X)) (tptp.tangible_entity_1 _let_69) (tptp.reactant_1 _let_20) (tptp.chemical_entity_1 _let_59) (tptp.chemical_entity_1 _let_64) (tptp.chemical_entity_1 _let_61) (tptp.carry_1 _let_32) (tptp.entity_1 _let_1) (tptp.food_vacuole_1 _let_1) (tptp.produce_1 _let_66) (tptp.tangible_entity_1 _let_3) (tptp.eukaryotic_cell_1 _let_3) (tptp.cell_1 _let_3) (tptp.polymer_1 _let_62) (tptp.chemical_reaction_1 _let_22) (tptp.decomposition_reaction_1 _let_22) (tptp.exergonic_reaction_1 _let_22) (tptp.hydrolysis_1 _let_22) (tptp.lysosomal_enzyme_1 _let_18) (tptp.chemical_bond_1 _let_65) (tptp.covalent_bond_1 _let_65) (tptp.substance_1 _let_33) (tptp.aqueous_solution_1 _let_33) (tptp.liquid_substance_1 _let_33) (tptp.cytosol_1 _let_33) (tptp.solution_1 _let_33) (tptp.tangible_entity_1 _let_56) (tptp.phospholipid_bilayer_1 _let_56) (tptp.volume_value_1 _let_47) (tptp.size_value_1 _let_44) (tptp.surface_1 _let_58) (tptp.smooth_endoplasmic_reticulum_1 _let_6) (tptp.tangible_entity_1 _let_39) (tptp.nucleus_1 _let_39) (tptp.golgi_apparatus_1 _let_42) (tptp.rough_endoplasmic_reticulum_1 _let_50) (tptp.eukaryotic_chromosome_1 _let_52) (tptp.chromosome_1 _let_52) (tptp.ribosome_1 _let_41) (tptp.eukaryotic_ribosome_1 _let_41) (tptp.spatial_entity_1 _let_54) (tptp.biomembrane_1 _let_54) (tptp.plasma_membrane_1 _let_54) (tptp.suspension_1 _let_34) (tptp.colloid_1 _let_34) (tptp.cytoplasm_1 _let_34) (tptp.mixture_1 _let_34) (tptp.lysosome_1 _let_38) (tptp.tangible_entity_1 _let_36) (tptp.entity_1 _let_67) (tptp.chemical_entity_1 _let_63) (tptp.chemical_entity_1 _let_60) (tptp.surface_1 _let_57) (tptp.tangible_entity_1 _let_55) (tptp.phospholipid_bilayer_1 _let_55) (tptp.spatial_entity_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.plasma_membrane_1 _let_53) (tptp.eukaryotic_chromosome_1 _let_51) (tptp.chromosome_1 _let_51) (tptp.rough_endoplasmic_reticulum_1 _let_49) (tptp.property_node_1 _let_48) (tptp.volume_value_1 _let_46) (tptp.property_node_1 _let_45) (tptp.size_value_1 _let_43) (tptp.smooth_endoplasmic_reticulum_1 _let_40) (tptp.lysosome_1 _let_37) (tptp.tangible_entity_1 _let_35) (tptp.carry_1 _let_31) (tptp.chemical_bond_1 _let_30) (tptp.covalent_bond_1 _let_29) (tptp.chemical_entity_1 _let_28) (tptp.chemical_entity_1 _let_27) (tptp.chemical_entity_1 _let_26) (tptp.chemical_entity_1 _let_25) (tptp.chemical_entity_1 _let_24) (tptp.chemical_entity_1 _let_23) (tptp.chemical_reaction_1 _let_21) (tptp.hydrolysis_1 _let_19) (tptp.chemical_reaction_1 _let_19) (tptp.golgi_apparatus_1 _let_17) (tptp.golgi_apparatus_1 _let_16) (tptp.ribosome_1 _let_15) (tptp.eukaryotic_ribosome_1 _let_15) (tptp.eukaryotic_ribosome_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.nucleus_1 _let_13) (tptp.nucleus_1 _let_12) (tptp.eukaryotic_cell_1 _let_10) (tptp.cell_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.eukaryotic_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.substance_1 _let_8) (tptp.cytosol_1 _let_8) (tptp.substance_1 _let_7) (tptp.cytosol_1 _let_7) (tptp.aqueous_solution_1 _let_5) (tptp.liquid_substance_1 _let_5) (tptp.cytosol_1 _let_5) (tptp.solution_1 _let_5) (tptp.mixture_1 _let_4) (tptp.cytoplasm_1 _let_4) (tptp.suspension_1 _let_2) (tptp.colloid_1 _let_2) (tptp.cytoplasm_1 _let_2) (tptp.mixture_1 _let_2) (tptp.object_2 X _let_36) (tptp.agent_2 X _let_18) (tptp.result_2 X _let_69) (tptp.subevent_2 X _let_22) (tptp.result_2 _let_22 _let_68) (tptp.next_event_2 _let_66 _let_32) (tptp.next_event_2 _let_32 _let_66) (tptp.has_state_2 _let_64 _let_68) (tptp.result_2 _let_66 _let_1) (tptp.base_2 X _let_3) (tptp.in_event_2 _let_20 _let_22) (tptp.raw_material_2 _let_22 _let_62) (tptp.plays_2 _let_62 _let_20) (tptp.possesses_2 _let_18 _let_65) (tptp.has_function_2 _let_18 _let_22) (tptp.has_part_2 _let_3 _let_34) (tptp.has_part_2 _let_3 _let_1) (tptp.is_inside_2 _let_36 _let_1) (tptp.object_2 _let_32 _let_36) (tptp.has_function_2 _let_1 _let_32) (tptp.has_part_2 _let_34 _let_33) (tptp.agent_2 _let_32 _let_1) (tptp.has_part_2 _let_3 _let_42) (tptp.is_inside_2 _let_42 _let_33) (tptp.is_inside_2 _let_41 _let_33) (tptp.has_part_2 _let_3 _let_41) (tptp.has_part_2 _let_3 _let_6) (tptp.has_part_2 _let_3 _let_39) (tptp.has_part_2 _let_3 _let_52) (tptp.has_region_2 _let_3 _let_58) (tptp.is_at_2 _let_56 _let_58) (tptp.has_part_2 _let_54 _let_56) (tptp.has_part_2 _let_3 _let_54) (tptp.abuts_2 _let_6 _let_50) (tptp.abuts_2 _let_50 _let_6) (tptp.has_part_2 _let_3 _let_50) (tptp.size_2 _let_3 _let_44) (tptp.directly_proportional_2 _let_44 _let_47) (tptp.volume_2 _let_3 _let_47) (tptp.is_inside_2 _let_34 _let_54) (tptp.is_between_2 _let_34 _let_54) (tptp.is_between_2 _let_34 _let_39) (tptp.is_inside_2 _let_52 _let_39) (not (= _let_50 _let_6)) (not (= _let_6 _let_50)) (tptp.the_scalar_value_2 _let_44 tptp.big_0) (tptp.scalar_unit_class_2 _let_44 tptp.prokaryote_0) (tptp.has_part_2 _let_62 _let_64) (tptp.has_part_2 _let_62 _let_61) (tptp.has_state_2 _let_61 _let_59) (tptp.result_2 _let_22 _let_59) (= _let_1 _let_67) (= _let_3 _let_11) (= _let_62 _let_28) (= _let_62 _let_27) (= _let_22 _let_21) (= _let_65 _let_30) (= _let_65 _let_29) (= _let_22 _let_19) (= _let_64 _let_63) (= _let_62 _let_26) (= _let_61 _let_60) (= _let_59 _let_25) (= _let_59 _let_24) (= _let_59 _let_23) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_49) (= (tptp.fn_intracellular_digestion_32 X) _let_48) (= _let_47 _let_46) (= (tptp.fn_intracellular_digestion_31 X) _let_45) (= _let_44 _let_43) (= _let_42 _let_17) (= _let_42 _let_16) (= _let_33 _let_7) (= _let_41 _let_15) (= _let_41 _let_14) (= _let_6 _let_40) (= _let_39 _let_13) (= _let_39 _let_12) (= _let_3 _let_10) (= _let_38 _let_37) (= _let_3 _let_9) (= _let_36 _let_35) (= _let_34 _let_4) (= _let_33 _let_8) (= _let_34 _let_2) (= _let_33 _let_5) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.intracellular_material_1 X) (and (tptp.original_name_2 X |tptp.'Intracellular-Material'|) (tptp.user_description_2 X |tptp.'The substances within the cell.'|) (tptp.concept2words_2 X |tptp.'intracellular material'|) (tptp.concept2words_2 X |tptp.'intracellular-material'|) (tptp.cellular_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intracellular_process_1 X))) (=> (tptp.intracellular_process_1 X) (and (tptp.original_name_2 X |tptp.'Intracellular-Process'|) (tptp.user_description_2 X |tptp.'A process that occurs within a living cell.'|) (tptp.concept2words_2 X |tptp.'intracellular process'|) (tptp.concept2words_2 X |tptp.'intracellular-process'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.intracellular_receptor_1 X) (and (tptp.original_name_2 X |tptp.'Intracellular-Receptor'|) (tptp.user_description_2 X |tptp.'Receptor proteins that are located inside the cell rather than on the outer cell surface. They are receptors for thyroid hormones, steroid hormones, and local regulatory molecules such as inositol-triphosphate (IP3), whose regulatory functions are carried out largely within individual cells.'|) (tptp.concept2words_2 X |tptp.'intracellular receptor protein'|) (tptp.concept2words_2 X |tptp.'intracellular receptor'|) (tptp.concept2words_2 X |tptp.'intracellular-receptor'|) (tptp.receptor_protein_1 X) (not (tptp.g_protein_coupled_receptor_1 X)) (not (tptp.growth_factor_receptor_1 X)) (not (tptp.receptor_tyrosine_kinase_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intracytoplasmic_sperm_injection_1 X) (and (tptp.original_name_2 X |tptp.'Intracytoplasmic-Sperm-Injection'|) (tptp.user_description_2 X |tptp.'An in vitro fertilization procedure in which a single sperm is injected directly into an egg.'|) (tptp.concept2words_2 X |tptp.'intracytoplasmic sperm injection'|) (tptp.concept2words_2 X |tptp.'intracytoplasmic-sperm-injection'|) (tptp.in_vitro_fertilization_1 X)))) (forall ((X $$unsorted)) (=> (tptp.intrasexual_selection_1 X) (and (tptp.original_name_2 X |tptp.'Intrasexual-Selection'|) (tptp.user_description_2 X |tptp.'Direct competition between members of one sex (usually males) for access to mates of the opposite sex.'|) (tptp.concept2words_2 X |tptp.'intrasexual selection'|) (tptp.concept2words_2 X |tptp.'intrasexual-selection'|) (tptp.sexual_selection_1 X) (not (tptp.intersexual_selection_1 X))))) (forall ((X $$unsorted)) (=> (tptp.intrauterine_device_1 X) (and (tptp.original_name_2 X |tptp.'Intrauterine-Device'|) (tptp.user_description_2 X |tptp.'A contraceptive device that is placed directly into the uterus. It acts by preventing fertilization, inhibiting transport of a fertilized egg, or preventing implantation of the early embryo into the endometrium.'|) (tptp.concept2words_2 X tptp.iud) (tptp.concept2words_2 X |tptp.'intrauterine device'|) (tptp.concept2words_2 X |tptp.'intrauterine-device'|) (tptp.contraception_1 X) (not (tptp.natural_family_planning_1 X)) (not (tptp.prezygotic_barrier_1 X)) (not (tptp.rhythm_method_1 X)) (not (tptp.vasectomy_1 X))))) (forall ((X $$unsorted)) (=> (tptp.introduced_species_1 X) (and (tptp.original_name_2 X |tptp.'Introduced-Species'|) (tptp.user_description_2 X |tptp.'A species transported by humans, either deliberately or accidentally, from its native range to a new geographic area. May also be referred to as exotic or non-native species.'|) (tptp.concept2words_2 X |tptp.'introduced species'|) (tptp.concept2words_2 X |tptp.'introduced-specy'|) (tptp.ecological_species_1 X) (not (tptp.invasive_species_1 X)) (not (tptp.threatened_species_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X1 X) (tptp.remove_1 X1) (tptp.non_coding_dna_sequence_1 X)) (and (tptp.intron_1 X) (= (tptp.fn_intron_15 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_intron_9 X))) (let ((_let_2 (tptp.fn_kinetic_energy_2 _let_1))) (let ((_let_3 (tptp.fn_intron_15 X))) (let ((_let_4 (tptp.fn_remove_1 _let_3))) (let ((_let_5 (tptp.fn_intron_17 X))) (let ((_let_6 (tptp.fn_chemical_bond_4 _let_5))) (let ((_let_7 (tptp.fn_chemical_bond_1 _let_5))) (let ((_let_8 (tptp.fn_intron_14 X))) (let ((_let_9 (tptp.fn_carbon_skeleton_4 _let_8))) (let ((_let_10 (tptp.fn_intron_12 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_2 _let_8))) (let ((_let_12 (tptp.fn_intron_13 X))) (let ((_let_13 (tptp.fn_kinetic_energy_1 _let_1))) (let ((_let_14 (tptp.fn_intron_10 X))) (let ((_let_15 (tptp.fn_intron_11 X))) (let ((_let_16 (tptp.fn_remove_2 _let_3))) (let ((_let_17 (tptp.fn_intron_16 X))) (let ((_let_18 (tptp.fn_intron_6 X))) (let ((_let_19 (tptp.fn_intron_3 X))) (let ((_let_20 (tptp.fn_intron_5 X))) (let ((_let_21 (tptp.fn_intron_2 X))) (let ((_let_22 (tptp.fn_intron_1 X))) (=> (tptp.intron_1 X) (and (tptp.original_name_2 X |tptp.'Intron'|) (tptp.user_description_2 X |tptp.'(1) Any sequence of nucleotides that is excised from a primary RNA transcript during mRNA processing. (2) The region of DNA from which this sequence was transcribed.'|) (tptp.concept2words_2 X |tptp.'intervening sequence'|) (tptp.concept2words_2 X |tptp.'intervening-sequence'|) (tptp.concept2words_2 X |tptp.'non coding segment'|) (tptp.concept2words_2 X |tptp.'non-coding-segment'|) (tptp.concept2words_2 X tptp.intron) (tptp.non_coding_dna_sequence_1 X) (tptp.speed_value_1 _let_22) (tptp.quantity_value_1 _let_21) (tptp.spliceosome_1 _let_19) (tptp.post_transcriptional_modification_of_rna_1 _let_20) (tptp.exon_1 _let_18) (tptp.kinetic_energy_1 _let_1) (tptp.constant_motion_1 _let_14) (tptp.deoxyribonucleoside_monophosphate_1 _let_15) (tptp.carbon_1 _let_10) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.carbon_skeleton_1 _let_8) (tptp.remove_1 _let_3) (tptp.pre_mrna_1 _let_17) (tptp.phosphodiester_bond_1 _let_5) (tptp.spatial_entity_1 _let_16) (tptp.constant_motion_1 _let_13) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.carbon_1 _let_9) (tptp.chemical_entity_1 _let_7) (tptp.chemical_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.quantity_2 _let_1 _let_21) (tptp.speed_2 _let_14 _let_22) (tptp.directly_proportional_2 _let_22 _let_21) (tptp.has_function_2 _let_19 _let_20) (tptp.has_function_2 _let_19 _let_3) (tptp.agent_2 _let_3 _let_19) (tptp.agent_2 _let_20 _let_19) (tptp.is_between_2 X _let_18) (tptp.has_part_2 X _let_15) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_12) (tptp.has_region_2 X _let_8) (tptp.possesses_2 X _let_5) (tptp.base_2 _let_3 _let_17) (tptp.is_between_2 _let_5 _let_15) (tptp.object_2 _let_3 X) (tptp.possesses_2 X _let_1) (tptp.object_2 _let_14 X) (tptp.is_inside_2 _let_10 _let_8) (not (= _let_12 _let_10)) (not (= _let_10 _let_12)) (= _let_17 _let_16) (= _let_15 _let_7) (= _let_15 _let_6) (= X _let_4) (= _let_14 _let_13) (= X _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.invade_1 X) (and (tptp.original_name_2 X |tptp.'Invade'|) (tptp.concept2words_2 X tptp.invade) (tptp.concept2words_2 X tptp.occupy) (tptp.concept2words_2 X tptp.penetrate) (tptp.concept2words_2 X tptp.perforate) (tptp.trespass_1 X) (tptp.intentional_1 X)))) (forall ((X $$unsorted)) (=> (tptp.invagination_1 X) (and (tptp.original_name_2 X |tptp.'Invagination'|) (tptp.user_description_2 X |tptp.'The infolding of one part of a structure within another part of the same structure.'|) (tptp.concept2words_2 X tptp.invaginate) (tptp.concept2words_2 X tptp.invagination) (tptp.cell_shape_change_1 X)))) (forall ((X $$unsorted)) (=> (tptp.invasive_species_1 X) (and (tptp.original_name_2 X |tptp.'Invasive-Species'|) (tptp.user_description_2 X |tptp.'A species that becomes established outside its native range, often at the expense of native species in the new range. Many invasive species are introduced, deliberately or inadvertently, by humans.'|) (tptp.concept2words_2 X |tptp.'invasive species'|) (tptp.concept2words_2 X |tptp.'invasive-specy'|) (tptp.ecological_species_1 X) (not (tptp.introduced_species_1 X)) (not (tptp.threatened_species_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_inversion_of_chromosome_fragment_2 X))) (let ((_let_2 (tptp.fn_inversion_of_chromosome_fragment_1 X))) (=> (tptp.inversion_of_chromosome_fragment_1 X) (and (tptp.original_name_2 X |tptp.'Inversion-Of-Chromosome-Fragment'|) (tptp.user_description_2 X |tptp.'An aberration in chromosome structure resulting from reattachment of a chromosomal fragment in a reverse orientation to the chromosome from which it originated.'|) (tptp.concept2words_2 X tptp.invert) (tptp.concept2words_2 X |tptp.'inversion of chromosome fragment'|) (tptp.concept2words_2 X |tptp.'inversion-of-chromosome-fragment'|) (tptp.change_chromosome_structure_1 X) (not (tptp.chromosomal_translocation_1 X)) (not (tptp.deletion_of_chromosome_fragment_1 X)) (not (tptp.duplication_of_chromosome_fragment_1 X)) (tptp.change_sequence_1 _let_2) (tptp.chromosome_fragment_1 _let_1) (tptp.subevent_2 X _let_2) (tptp.object_2 _let_2 _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_invertebrate_6 X))) (let ((_let_2 (tptp.fn_invertebrate_3 X))) (let ((_let_3 (tptp.fn_invertebrate_5 X))) (let ((_let_4 (tptp.fn_invertebrate_1 X))) (let ((_let_5 (tptp.fn_invertebrate_4 X))) (let ((_let_6 (tptp.fn_invertebrate_2 X))) (let ((_let_7 (tptp.fn_agent_role_1 _let_6))) (=> (tptp.invertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Invertebrate'|) (tptp.user_description_2 X |tptp.'An animal without a backbone, or vertebral column. About 95% of all animal species are invertebrates.'|) (tptp.concept2words_2 X tptp.invertebrate) (tptp.animal_1 X) (not (tptp.bilaterian_1 X)) (not (tptp.chordate_1 X)) (not (tptp.radiata_1 X)) (not (tptp.triploblastic_1 X)) (tptp.heterotroph_1 _let_4) (tptp.agent_role_1 _let_6) (tptp.specific_heat_value_1 _let_2) (tptp.nutrition_1 _let_5) (tptp.water_1 _let_3) (tptp.temperature_value_1 _let_1) (tptp.entity_1 _let_7) (tptp.plays_2 X _let_6) (tptp.agent_2 _let_5 X) (tptp.in_event_2 _let_4 _let_5) (tptp.temperature_2 X _let_1) (tptp.correspondence_2 _let_1 _let_2) (tptp.specific_heat_2 _let_3 _let_2) (tptp.has_part_2 X _let_3) (tptp.plays_2 X _let_4) (= X _let_7) (= _let_5 (tptp.fn_animal_19 X)) (= _let_4 (tptp.fn_animal_18 X)) (= _let_3 (tptp.fn_animal_20 X)) (= _let_2 (tptp.fn_animal_25 X)) (= _let_1 (tptp.fn_animal_26 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.invertebrate_appendage_1 X) (and (tptp.original_name_2 X |tptp.'Invertebrate-Appendage'|) (tptp.user_description_2 X |tptp.'An external body part, or natural prolongation, that protrudes from an invertebrate_'s body.'|) (tptp.concept2words_2 X |tptp.'appendage of invertebrate'|) (tptp.concept2words_2 X |tptp.'invertebrate appendage'|) (tptp.concept2words_2 X |tptp.'invertebrate-appendage'|) (tptp.animal_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.invertebrate_cell_1 X) (and (tptp.original_name_2 X |tptp.'Invertebrate-Cell'|) (tptp.user_description_2 X |tptp.'Cell which makes up the body or tissues of an invertebrate.'|) (tptp.concept2words_2 X |tptp.'cell of invertebrate'|) (tptp.concept2words_2 X |tptp.'invertebrate cell'|) (tptp.concept2words_2 X |tptp.'invertebrate-cell'|) (tptp.animal_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.involution_1 X) (and (tptp.original_name_2 X |tptp.'Involution'|) (tptp.user_description_2 X |tptp.'In gastrulation of animal embryos, the process in which the surface layer of cells of a blastocyst rolls over the edge of the blastopore and into the interior of the embryo.'|) (tptp.concept2words_2 X tptp.involution) (tptp.embryonic_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_iodine_8 X))) (let ((_let_2 (tptp.fn_iodine_10 X))) (let ((_let_3 (tptp.fn_iodine_9 X))) (let ((_let_4 (tptp.fn_iodine_12 X))) (let ((_let_5 (tptp.fn_iodine_11 X))) (let ((_let_6 (tptp.fn_i_minus_3 _let_5))) (let ((_let_7 (tptp.fn_iodine_2 X))) (let ((_let_8 (tptp.fn_iodine_1 X))) (let ((_let_9 (tptp.fn_iodine_3 X))) (=> (tptp.iodine_1 X) (and (tptp.original_name_2 X |tptp.'Iodine'|) (tptp.user_description_2 X |tptp.'Iodine is a non metal atom with atomic number 53. It is represented by the symbol I.'|) (tptp.concept2words_2 X |tptp.'I'|) (tptp.concept2words_2 X tptp.iodine) (tptp.non_metal_atom_1 X) (not (tptp.chlorine_1 X)) (tptp.electronegativity_value_1 _let_8) (tptp.atomic_mass_value_1 _let_7) (tptp.neutron_1 _let_9) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.quantity_value_1 _let_2) (tptp.i_minus_1 _let_5) (tptp.atomic_number_value_1 _let_4) (tptp.iodine_1 _let_6) (tptp.the_cardinal_value_2 _let_4 |"53"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.electronegativity_2 X _let_8) (tptp.mass_number_2 X _let_7) (tptp.exactCardinality X tptp.has_part_0 |"74"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"53"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"53"| tptp.electron_0) (tptp.has_part_2 X _let_9) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_8 |"2.66"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"127"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"126.9"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.has_ion_2 X _let_5) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= X _let_6) (= (tptp.fn_iodine_13 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_iodine_7 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_iodine_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ion_2 X))) (=> (tptp.ion_1 X) (and (tptp.original_name_2 X |tptp.'Ion'|) (tptp.user_description_2 X |tptp.'An ion is an electrically charged atom or group of atoms (polyatomic ion); ions can be positively or negatively charged, depending on whether electrons are lost (positive) or gained (negative) by the atoms.'|) (tptp.concept2words_2 X |tptp.'has ion'|) (tptp.concept2words_2 X |tptp.'has-ion'|) (tptp.concept2words_2 X tptp.ion) (tptp.chemical_entity_1 X) (not (tptp.molecule_1 X)) (not (tptp.atom_1 X)) (tptp.charge_value_1 _let_1) (tptp.charge_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.ion_channel_1 X) (and (tptp.original_name_2 X |tptp.'Ion-Channel'|) (tptp.user_description_2 X |tptp.'A transmembrane protein which functions as a channel that allows ions to cross the cell membrane.'|) (tptp.concept2words_2 X |tptp.'channel of ion'|) (tptp.concept2words_2 X |tptp.'ion channel'|) (tptp.concept2words_2 X |tptp.'ion-channel'|) (tptp.channel_protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_chemical_bond_4 X))) (let ((_let_2 (tptp.fn_ionic_bond_6 X))) (let ((_let_3 (tptp.fn_attraction_between_oppositely_charged_entities_4 _let_2))) (let ((_let_4 (tptp.fn_chemical_bond_1 X))) (let ((_let_5 (tptp.fn_attraction_between_oppositely_charged_entities_7 _let_2))) (let ((_let_6 (tptp.fn_ionic_bond_5 X))) (let ((_let_7 (tptp.fn_ionic_bond_3 X))) (let ((_let_8 (tptp.fn_ionic_bond_4 X))) (let ((_let_9 (tptp.fn_attraction_between_oppositely_charged_entities_3 _let_2))) (let ((_let_10 (tptp.fn_ionic_bond_1 X))) (=> (tptp.ionic_bond_1 X) (and (tptp.original_name_2 X |tptp.'Ionic-Bond'|) (tptp.user_description_2 X |tptp.'A type of chemical bond where two oppositely-charged ions are held together due to electrical attraction.'|) (tptp.concept2words_2 X |tptp.'bond of ionic'|) (tptp.concept2words_2 X |tptp.'ionic bond'|) (tptp.concept2words_2 X |tptp.'ionic-bond'|) (tptp.chemical_bond_1 X) (not (tptp.covalent_bond_1 X)) (not (tptp.disulfide_bond_1 X)) (not (tptp.ester_linkage_1 X)) (not (tptp.hydrogen_bond_1 X)) (not (tptp.hydrophobic_interaction_1 X)) (tptp.intensity_value_1 _let_10) (tptp.hold_together_1 _let_7) (tptp.anion_1 _let_8) (tptp.cation_1 _let_6) (tptp.attraction_between_oppositely_charged_entities_1 _let_2) (tptp.chemical_bond_1 _let_9) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.the_scalar_value_2 _let_10 tptp.strong_0) (tptp.scalar_unit_class_2 _let_10 tptp.chemical_bond_0) (tptp.intensity_2 X _let_10) (tptp.object_2 _let_2 _let_8) (tptp.agent_2 _let_2 _let_8) (tptp.object_2 _let_2 _let_6) (tptp.agent_2 _let_2 _let_6) (tptp.result_2 _let_2 X) (tptp.has_function_2 X _let_7) (tptp.is_between_2 X _let_6) (tptp.object_2 _let_7 _let_6) (tptp.agent_2 _let_7 X) (tptp.is_between_2 X _let_8) (tptp.object_2 _let_7 _let_8) (= X _let_9) (= _let_6 _let_3) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_7 (tptp.fn_chemical_bond_3 X)) (= _let_6 _let_1) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ionic_compound_3 X))) (let ((_let_2 (tptp.fn_ionic_bond_5 _let_1))) (let ((_let_3 (tptp.fn_ionic_compound_1 X))) (let ((_let_4 (tptp.fn_ionic_bond_4 _let_1))) (let ((_let_5 (tptp.fn_ionic_compound_2 X))) (=> (tptp.ionic_compound_1 X) (and (tptp.original_name_2 X |tptp.'Ionic-Compound'|) (tptp.user_description_2 X |tptp.'An ionic compound is a compound composed of cations and anions.'|) (tptp.concept2words_2 X |tptp.'compound of ionic'|) (tptp.concept2words_2 X |tptp.'ionic compound'|) (tptp.concept2words_2 X |tptp.'ionic-compound'|) (tptp.electrolyte_entity_1 X) (tptp.hydrophilic_compound_1 X) (tptp.cation_1 _let_3) (tptp.anion_1 _let_5) (tptp.ionic_bond_1 _let_1) (tptp.anion_1 _let_4) (tptp.cation_1 _let_2) (tptp.possesses_2 X _let_1) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_5) (tptp.is_between_2 _let_1 _let_5) (tptp.is_between_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ionic_compound_substance_3 X))) (let ((_let_2 (tptp.fn_ionic_compound_substance_1 X))) (let ((_let_3 (tptp.fn_ionic_compound_substance_2 X))) (=> (tptp.ionic_compound_substance_1 X) (and (tptp.original_name_2 X |tptp.'Ionic-Compound-Substance'|) (tptp.concept2words_2 X |tptp.'ionic compound substance'|) (tptp.concept2words_2 X |tptp.'ionic-compound-substance'|) (tptp.strong_electrolyte_1 X) (tptp.anion_substance_1 _let_2) (tptp.cation_substance_1 _let_3) (tptp.ionic_compound_1 _let_1) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X)))))))) (forall ((X $$unsorted)) (=> (tptp.ionic_region_1 X) (and (tptp.original_name_2 X |tptp.'Ionic-Region'|) (tptp.user_description_2 X |tptp.'A section of a large molecule that is charged.'|) (tptp.concept2words_2 X |tptp.'region of ionic'|) (tptp.concept2words_2 X |tptp.'ionic region'|) (tptp.concept2words_2 X |tptp.'ionic-region'|) (tptp.hydrophilic_region_1 X) (not (tptp.nonpolar_region_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ionic_substance_3 X))) (let ((_let_2 (tptp.fn_ionic_substance_1 X))) (let ((_let_3 (tptp.fn_ionic_substance_2 X))) (=> (tptp.ionic_substance_1 X) (and (tptp.original_name_2 X |tptp.'Ionic-Substance'|) (tptp.user_description_2 X |tptp.'A substance of an ionic compound.'|) (tptp.concept2words_2 X |tptp.'substance of ionic'|) (tptp.concept2words_2 X |tptp.'ionic substance'|) (tptp.concept2words_2 X |tptp.'ionic-substance'|) (tptp.hydrophilic_substance_1 X) (not (tptp.polar_substance_1 X)) (not (tptp.nonpolar_substance_1 X)) (tptp.potential_energy_1 _let_2) (tptp.ionic_bond_1 _let_3) (tptp.ion_1 _let_1) (tptp.possesses_2 X _let_3) (tptp.possesses_2 X _let_2) (tptp.has_part_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.ip3_gated_calcium_ion_channel_1 X) (and (tptp.original_name_2 X |tptp.'IP3-Gated-Calcium-Ion-Channel'|) (tptp.user_description_2 X |tptp.'Ion channel which controls the movement of calcium ions and is regulated buy the binding of IP3.'|) (tptp.concept2words_2 X |tptp.'ip3 gated calcium ion channel'|) (tptp.concept2words_2 X |tptp.'ip3-gated-calcium-ion-channel'|) (tptp.ligand_gated_ion_channel_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_iridium_9 X))) (let ((_let_2 (tptp.fn_iridium_12 X))) (let ((_let_3 (tptp.fn_iridium_10 X))) (let ((_let_4 (tptp.fn_iridium_11 X))) (let ((_let_5 (tptp.fn_iridium_4 X))) (let ((_let_6 (tptp.fn_iridium_5 X))) (let ((_let_7 (tptp.fn_iridium_3 X))) (=> (tptp.iridium_1 X) (and (tptp.original_name_2 X |tptp.'Iridium'|) (tptp.user_description_2 X |tptp.'Iridium is a metal atom with atomic number 77. It is represented by the symbol Ir.'|) (tptp.concept2words_2 X tptp.iridium) (tptp.concept2words_2 X |tptp.'Ir'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"115"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"77"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"77"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"9"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2.2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"192"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"77"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"192.2"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_iridium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_iridium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_iridium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.iris_1 X) (and (tptp.original_name_2 X |tptp.'Iris'|) (tptp.user_description_2 X |tptp.'The colored part of the vertebrate eye, surrounding the pupil. The iris controls the size of the pupil and thus the amount of light entering the eye.'|) (tptp.concept2words_2 X tptp.iris) (tptp.mixed_epithelial_tissue_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.labia_majora_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_iron_9 X))) (let ((_let_2 (tptp.fn_iron_12 X))) (let ((_let_3 (tptp.fn_iron_10 X))) (let ((_let_4 (tptp.fn_iron_11 X))) (let ((_let_5 (tptp.fn_iron_3 X))) (let ((_let_6 (tptp.fn_iron_4 X))) (let ((_let_7 (tptp.fn_iron_5 X))) (=> (tptp.iron_1 X) (and (tptp.original_name_2 X |tptp.'Iron'|) (tptp.user_description_2 X |tptp.'Iron is a metal atom with atomic number 26. It is represented by the symbol Fe.'|) (tptp.concept2words_2 X |tptp.'Fe'|) (tptp.concept2words_2 X tptp.iron) (tptp.metal_atom_1 X) (not (tptp.calcium_1 X)) (not (tptp.carbon_1 X)) (not (tptp.copper_1 X)) (not (tptp.hydrogen_1 X)) (not (tptp.magnesium_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.neutron_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"30"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"26"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"26"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"8"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.83"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"56"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"26"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"55.85"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_iron_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_iron_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_iron_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_organic_molecule_2 X))) (let ((_let_2 (tptp.fn_iron_sulfur_protein_7 X))) (let ((_let_3 (tptp.fn_attach_1 _let_2))) (let ((_let_4 (tptp.fn_iron_sulfur_protein_6 X))) (let ((_let_5 (tptp.fn_electron_carrier_1 _let_4))) (let ((_let_6 (tptp.fn_iron_sulfur_protein_9 X))) (let ((_let_7 (tptp.fn_iron_sulfur_protein_8 X))) (let ((_let_8 (tptp.fn_attach_1 _let_7))) (let ((_let_9 (tptp.fn_iron_sulfur_protein_11 X))) (let ((_let_10 (tptp.fn_attach_2 _let_2))) (let ((_let_11 (tptp.fn_iron_sulfur_protein_10 X))) (let ((_let_12 (tptp.fn_attach_2 _let_7))) (let ((_let_13 (tptp.fn_iron_sulfur_protein_3 X))) (let ((_let_14 (tptp.fn_iron_sulfur_protein_2 X))) (let ((_let_15 (tptp.fn_iron_sulfur_protein_1 X))) (=> (tptp.iron_sulfur_protein_1 X) (and (tptp.original_name_2 X |tptp.'Iron-Sulfur-Protein'|) (tptp.user_description_2 X |tptp.'Proteins with clusters of non-heme iron, cysteine sulfur, and usually inorganic sulfur that function as electron-transfer groups in most iron-sulfur proteins, but in other proteins they have functions, such as catalysis of hydratase and dehydratase reactions, maintaining protein structure, or regulating activity.'|) (tptp.concept2words_2 X |tptp.'fe s protein'|) (tptp.concept2words_2 X |tptp.'fe-s-protein'|) (tptp.concept2words_2 X |tptp.'fe.s'|) (tptp.concept2words_2 X |tptp.'iron sulphur protein'|) (tptp.concept2words_2 X |tptp.'iron-sulphur-protein'|) (tptp.concept2words_2 X |tptp.'iron sulfur protein'|) (tptp.concept2words_2 X |tptp.'iron-sulfur protein'|) (tptp.concept2words_2 X |tptp.'iron-sulfur-protein'|) (tptp.protein_1 X) (tptp.prosthetic_group_1 _let_15) (tptp.intensity_value_1 _let_14) (tptp.intensity_value_1 _let_13) (tptp.electron_carrier_1 _let_4) (tptp.attach_1 _let_2) (tptp.attach_1 _let_7) (tptp.sulfur_1 _let_6) (tptp.cysteine_1 _let_11) (tptp.iron_1 _let_9) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.chemical_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.has_part_2 X _let_15) (tptp.has_part_2 X _let_11) (tptp.has_part_2 X _let_9) (tptp.the_scalar_value_2 _let_14 tptp.strong_0) (tptp.scalar_unit_class_2 _let_14 tptp.attach_0) (tptp.intensity_2 _let_7 _let_14) (tptp.the_scalar_value_2 _let_13 tptp.strong_0) (tptp.scalar_unit_class_2 _let_13 tptp.attach_0) (tptp.intensity_2 _let_2 _let_13) (tptp.base_2 _let_7 _let_11) (tptp.base_2 _let_2 _let_11) (tptp.object_2 _let_7 _let_9) (tptp.object_2 _let_2 _let_6) (tptp.has_part_2 X _let_6) (tptp.plays_2 X _let_4) (= _let_11 _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= _let_6 _let_3) (= _let_6 _let_1) (= X _let_5) (= _let_3 _let_1))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.irreparable_dna_damage_1 X) (and (tptp.original_name_2 X |tptp.'Irreparable-DNA-Damage'|) (tptp.user_description_2 X |tptp.'DNA damage that is too extensive for the cell to repair.'|) (tptp.concept2words_2 X |tptp.'damage irreparably'|) (tptp.concept2words_2 X |tptp.'irreparable dna damage'|) (tptp.concept2words_2 X |tptp.'irreparable-dna-damage'|) (tptp.dna_damage_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_irreversible_non_competitive_inhibition_2 X))) (let ((_let_2 (tptp.fn_irreversible_non_competitive_inhibition_1 X))) (=> (tptp.irreversible_non_competitive_inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Irreversible-Non-Competitive-Inhibition'|) (tptp.user_description_2 X |tptp.'Non-competitive inhibition is a type of enzyme inhibition where the inhibitor reversibly binds to an allosteric site, a site different than the active site, on the enzyme, preventing the substrate from being able to bind to the active site. If the inhibitor attaches to the enzyme by covalent bonds, inhibition is usually irreversible.'|) (tptp.concept2words_2 X tptp.inhibit) (tptp.concept2words_2 X |tptp.'irreversible non competitive inhibition'|) (tptp.concept2words_2 X |tptp.'irreversible-non-competitive-inhibition'|) (tptp.non_competitive_inhibition_1 X) (not (tptp.reversible_non_competitive_inhibition_1 X)) (tptp.covalent_bond_1 _let_2) (tptp.attach_1 _let_1) (tptp.instrument_2 _let_1 _let_2) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_non_competitive_inhibition_7 X))))))) (forall ((X $$unsorted)) (=> (tptp.irrigation_1 X) (and (tptp.original_name_2 X |tptp.'Irrigation'|) (tptp.user_description_2 X |tptp.'The act of applying water to soil.'|) (tptp.concept2words_2 X tptp.irrigate) (tptp.concept2words_2 X tptp.irrigation) (tptp.agricultural_process_1 X) (not (tptp.animal_husbandry_1 X)) (not (tptp.crop_rotation_1 X)) (not (tptp.hydroponic_culture_1 X)) (not (tptp.logging_1 X)) (not (tptp.monoculture_1 X)) (not (tptp.no_till_agriculture_1 X)) (not (tptp.sustainable_agriculture_1 X)) (not (tptp.vernalization_1 X))))) (forall ((X $$unsorted)) (=> (tptp.islets_of_langerhans_1 X) (and (tptp.original_name_2 X |tptp.'Islets-Of-Langerhans'|) (tptp.user_description_2 X |tptp.'Clusters of endocrine cells within the pancreas that produce and secrete the hormones glucagon (from alpha cells) and insulin (from beta cells).'|) (tptp.concept2words_2 X |tptp.'islet of langerhan'|) (tptp.concept2words_2 X |tptp.'islets of langerhan'|) (tptp.concept2words_2 X |tptp.'islets-of-langerhan'|) (tptp.glandular_epithelium_1 X) (not (tptp.labia_majora_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.proximal_tubule_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isocitrate_1 X))) (=> (tptp.isocitrate_1 X) (and (tptp.original_name_2 X |tptp.'Isocitrate'|) (tptp.user_description_2 X |tptp.'Isocitrate is an intermediate compound formed in citric acid cycle.'|) (tptp.concept2words_2 X tptp.isocitrate) (tptp.ester_1 X) (not (tptp.acetate_1 X)) (not (tptp.alpha_ketoglutarate_1 X)) (not (tptp.citrate_1 X)) (not (tptp.fumarate_1 X)) (not (tptp.malate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X)) (tptp.citrate_1 _let_1) (tptp.has_isomer_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolated_chlorophyll_solution_14 X))) (let ((_let_2 (tptp.fn_fluorescence_5 _let_1))) (let ((_let_3 (tptp.fn_isolated_chlorophyll_solution_20 X))) (let ((_let_4 (tptp.fn_chlorophyll_6 _let_3))) (let ((_let_5 (tptp.fn_isolated_chlorophyll_solution_23 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_isolated_chlorophyll_solution_19 X))) (let ((_let_8 (tptp.fn_light_1 _let_7))) (let ((_let_9 (tptp.fn_isolated_chlorophyll_solution_26 X))) (let ((_let_10 (tptp.fn_barrier_1 _let_9))) (let ((_let_11 (tptp.fn_isolated_chlorophyll_solution_12 X))) (let ((_let_12 (tptp.fn_isolation_of_chlorophyll_2 _let_11))) (let ((_let_13 (tptp.fn_fluorescence_6 _let_1))) (let ((_let_14 (tptp.fn_isolated_chlorophyll_solution_13 X))) (let ((_let_15 (tptp.fn_take_in_1 _let_14))) (let ((_let_16 (tptp.fn_take_in_1 _let_5))) (let ((_let_17 (tptp.fn_isolated_chlorophyll_solution_24 X))) (let ((_let_18 (tptp.fn_make_contact_2 _let_17))) (let ((_let_19 (tptp.fn_move_into_2 _let_14))) (let ((_let_20 (tptp.fn_isolated_chlorophyll_solution_17 X))) (let ((_let_21 (tptp.fn_electron_3 _let_20))) (let ((_let_22 (tptp.fn_isolated_chlorophyll_solution_18 X))) (let ((_let_23 (tptp.fn_isolated_chlorophyll_solution_22 X))) (let ((_let_24 (tptp.fn_fluorescence_4 _let_1))) (let ((_let_25 (tptp.fn_isolated_chlorophyll_solution_25 X))) (let ((_let_26 (tptp.fn_fluorescence_3 _let_1))) (let ((_let_27 (tptp.fn_isolated_chlorophyll_solution_27 X))) (let ((_let_28 (tptp.fn_fluorescence_7 _let_1))) (let ((_let_29 (tptp.fn_isolated_chlorophyll_solution_15 X))) (let ((_let_30 (tptp.fn_isolated_chlorophyll_solution_16 X))) (let ((_let_31 (tptp.fn_move_1 _let_30))) (let ((_let_32 (tptp.fn_isolated_chlorophyll_solution_21 X))) (let ((_let_33 (tptp.fn_move_1 _let_32))) (let ((_let_34 (tptp.fn_isolated_chlorophyll_solution_11 X))) (let ((_let_35 (tptp.fn_isolated_chlorophyll_solution_9 X))) (let ((_let_36 (tptp.fn_isolated_chlorophyll_solution_7 X))) (let ((_let_37 (tptp.fn_isolated_chlorophyll_solution_2 X))) (let ((_let_38 (tptp.fn_isolated_chlorophyll_solution_1 X))) (let ((_let_39 (tptp.fn_isolated_chlorophyll_solution_4 X))) (let ((_let_40 (tptp.fn_isolated_chlorophyll_solution_3 X))) (let ((_let_41 (tptp.fn_isolated_chlorophyll_solution_5 X))) (let ((_let_42 (tptp.fn_isolated_chlorophyll_solution_6 X))) (let ((_let_43 (tptp.fn_isolated_chlorophyll_solution_10 X))) (=> (tptp.isolated_chlorophyll_solution_1 X) (and (tptp.original_name_2 X |tptp.'Isolated-Chlorophyll-Solution'|) (tptp.user_description_2 X |tptp.'A solution which contains chlorophyll isolated from photosynthetic cells. This solution is used to study the nature of light absorption in photosynthetic pigments.'|) (tptp.concept2words_2 X |tptp.'isolated chlorophyll solution'|) (tptp.concept2words_2 X |tptp.'isolated-chlorophyll-solution'|) (tptp.useful_product_1 X) (tptp.electron_shell_1 _let_38) (tptp.electron_shell_1 _let_37) (tptp.laboratory_1 _let_40) (tptp.technique_1 _let_39) (tptp.decrease_1 _let_41) (tptp.duration_value_1 _let_42) (tptp.increase_1 _let_36) (tptp.spatial_entity_1 _let_35) (tptp.time_interval_1 _let_43) (tptp.time_interval_1 _let_34) (tptp.isolation_of_chlorophyll_1 _let_11) (tptp.take_in_1 _let_14) (tptp.move_1 _let_14) (tptp.absorb_1 _let_14) (tptp.move_into_1 _let_14) (tptp.fluorescence_1 _let_1) (tptp.red_light_1 _let_29) (tptp.move_1 _let_30) (tptp.spatial_entity_1 _let_20) (tptp.electron_1 _let_20) (tptp.potential_energy_1 _let_22) (tptp.ultraviolet_rays_1 _let_7) (tptp.spatial_entity_1 _let_3) (tptp.molecule_1 _let_3) (tptp.chlorophyll_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.move_1 _let_32) (tptp.photon_1 _let_23) (tptp.spatial_entity_1 _let_23) (tptp.take_in_1 _let_5) (tptp.move_1 _let_5) (tptp.make_contact_1 _let_17) (tptp.light_transmission_1 _let_25) (tptp.barrier_1 _let_9) (tptp.container_1 _let_9) (tptp.molecular_region_1 _let_27) (tptp.spatial_entity_1 _let_33) (tptp.spatial_entity_1 _let_31) (tptp.light_1 _let_28) (tptp.molecular_region_1 _let_26) (tptp.light_transmission_1 _let_24) (tptp.potential_energy_1 _let_21) (tptp.container_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.tangible_entity_1 _let_16) (tptp.tangible_entity_1 _let_15) (tptp.molecule_1 _let_13) (tptp.chlorophyll_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.photon_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.move_1 _let_4) (tptp.absorb_1 _let_4) (tptp.absorb_1 _let_2) (tptp.time_during_2 _let_25 _let_43) (tptp.time_before_2 _let_34 _let_43) (tptp.next_event_2 _let_17 _let_14) (tptp.origin_2 _let_5 _let_7) (tptp.next_event_2 _let_5 _let_30) (tptp.base_2 _let_36 _let_22) (tptp.the_scalar_value_2 _let_42 tptp.brief_0) (tptp.scalar_unit_class_2 _let_42 tptp.fall_0) (tptp.duration_2 _let_32 _let_42) (tptp.causes_2 _let_32 _let_41) (tptp.destination_2 _let_32 _let_37) (tptp.origin_2 _let_32 _let_38) (tptp.next_event_2 _let_32 _let_1) (tptp.object_2 _let_41 _let_22) (tptp.base_2 _let_41 _let_20) (tptp.site_2 _let_39 _let_40) (tptp.first_subevent_2 _let_39 _let_11) (tptp.subevent_2 _let_39 _let_1) (tptp.subevent_2 _let_39 _let_30) (tptp.subevent_2 _let_39 _let_5) (tptp.subevent_2 _let_39 _let_32) (tptp.subevent_2 _let_39 _let_11) (tptp.next_event_2 _let_11 _let_5) (tptp.has_part_2 X _let_3) (tptp.has_function_2 X _let_39) (not (= _let_37 _let_38)) (not (= _let_38 _let_37)) (tptp.destination_2 _let_30 _let_38) (tptp.origin_2 _let_30 _let_37) (tptp.next_event_2 _let_30 _let_32) (tptp.causes_2 _let_30 _let_36) (tptp.destination_2 _let_14 _let_35) (tptp.time_during_2 _let_14 _let_34) (tptp.base_2 _let_17 _let_3) (tptp.object_2 _let_32 _let_20) (tptp.object_2 _let_30 _let_20) (tptp.base_2 _let_5 _let_3) (tptp.agent_2 _let_5 _let_3) (tptp.origin_2 _let_1 _let_3) (tptp.has_region_2 _let_3 _let_27) (tptp.object_2 _let_11 _let_3) (tptp.has_part_2 _let_7 _let_23) (tptp.object_2 _let_1 _let_29) (tptp.object_2 _let_25 _let_29) (tptp.base_2 _let_14 _let_3) (tptp.agent_2 _let_14 _let_3) (tptp.first_subevent_2 _let_1 _let_14) (tptp.next_event_2 _let_14 _let_25) (tptp.subevent_2 _let_1 _let_25) (tptp.subevent_2 _let_1 _let_14) (tptp.path_2 _let_14 _let_27) (tptp.in_event_2 _let_9 _let_14) (tptp.possesses_2 _let_20 _let_22) (tptp.object_2 _let_5 _let_23) (tptp.plays_2 _let_3 _let_9) (= _let_3 _let_18) (= _let_20 _let_33) (= _let_20 _let_31) (= _let_3 _let_16) (= _let_3 _let_12) (= _let_23 _let_8) (= _let_29 _let_28) (= _let_3 _let_15) (= _let_3 _let_13) (= _let_14 _let_4) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_14 _let_2) (= _let_3 _let_10) (= _let_23 _let_6) (= _let_22 _let_21) (= _let_9 _let_19) (= _let_18 _let_15) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_16) (= _let_16 _let_16) (= _let_16 _let_13) (= _let_13 _let_15) (= _let_15 _let_13) (= _let_12 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_2) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.isolated_system_1 X) (and (tptp.original_name_2 X |tptp.'Isolated-System'|) (tptp.user_description_2 X |tptp.'Isolated system is a system that is unable to exchange either energy or matter with its surroundings.'|) (tptp.concept2words_2 X |tptp.'isolated system'|) (tptp.concept2words_2 X |tptp.'isolated-system'|) (tptp.thermodynamic_system_1 X)))) (forall ((X $$unsorted)) (=> (tptp.isolation_1 X) (and (tptp.original_name_2 X |tptp.'Isolation'|) (tptp.user_description_2 X |tptp.'The process of setting something apart from others.'|) (tptp.concept2words_2 X tptp.isolation) (tptp.change_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolation_of_chlorophyll_1 X))) (let ((_let_2 (tptp.fn_isolation_of_chlorophyll_2 X))) (=> (tptp.isolation_of_chlorophyll_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-Chlorophyll'|) (tptp.user_description_2 X |tptp.'The process of extracting chlorophyll from photosynthetic cells or chloroplasts.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'chlorophyll isolation'|) (tptp.concept2words_2 X |tptp.'chlorophyll-isolation'|) (tptp.concept2words_2 X |tptp.'isolation of chlorophyll'|) (tptp.concept2words_2 X |tptp.'isolation-of-chlorophyll'|) (tptp.isolation_1 X) (tptp.cell_1 _let_1) (tptp.chlorophyll_1 _let_2) (tptp.object_2 X _let_2) (tptp.base_2 X _let_1)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.collecting_1 X) (tptp.isolation_1 X) (tptp.dna_1 X1)) (and (tptp.isolation_of_dna_1 X) (= (tptp.fn_isolation_of_dna_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolation_of_dna_3 X))) (let ((_let_2 (tptp.fn_isolation_of_dna_1 X))) (=> (tptp.isolation_of_dna_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-DNA'|) (tptp.user_description_2 X |tptp.'A procedure used to collect DNA for analysis.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'dna isolation'|) (tptp.concept2words_2 X |tptp.'dna-isolation'|) (tptp.concept2words_2 X |tptp.'isolation of dna'|) (tptp.concept2words_2 X |tptp.'isolation-of-dna'|) (tptp.isolation_1 X) (tptp.collecting_1 X) (tptp.scientist_1 _let_2) (tptp.dna_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_collecting_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.isolation_of_gene_source_dna_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-Gene-Source-DNA'|) (tptp.user_description_2 X |tptp.'Collecting DNA that contains genes.'|) (tptp.concept2words_2 X |tptp.'isolation of gene'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'isolation of gene source dna'|) (tptp.concept2words_2 X |tptp.'isolation-of-gene-source-dna'|) (tptp.isolation_of_dna_1 X) (not (tptp.isolation_of_vector_1 X))))) (forall ((X $$unsorted)) (=> (tptp.isolation_of_phage_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-of-Phage'|) (tptp.user_description_2 X |tptp.'Collecting phages for analysis and study.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'phage isolation'|) (tptp.concept2words_2 X |tptp.'phage-isolation'|) (tptp.concept2words_2 X |tptp.'isolation of phage'|) (tptp.concept2words_2 X |tptp.'isolation-of-phage'|) (tptp.isolation_1 X) (tptp.collecting_1 X)))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.isolation_of_dna_1 X) (tptp.cloning_vector_1 X1)) (and (tptp.isolation_of_vector_1 X) (= (tptp.fn_isolation_of_vector_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolation_of_vector_2 X))) (=> (tptp.isolation_of_vector_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-Vector'|) (tptp.user_description_2 X |tptp.'Collecting DNA in the form of a cloning vector.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'vector isolation'|) (tptp.concept2words_2 X |tptp.'vector-isolation'|) (tptp.concept2words_2 X |tptp.'isolation of vector'|) (tptp.concept2words_2 X |tptp.'isolation-of-vector'|) (tptp.isolation_of_dna_1 X) (not (tptp.isolation_of_gene_source_dna_1 X)) (tptp.cloning_vector_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_isolation_of_dna_3 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.isolation_of_vector_1 X) (tptp.cloning_phage_1 X1)) (and (tptp.isolation_of_vector_phage_1 X) (= (tptp.fn_isolation_of_vector_phage_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolation_of_vector_phage_2 X))) (=> (tptp.isolation_of_vector_phage_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-Vector-Phage'|) (tptp.user_description_2 X |tptp.'Collecting DNA in the form of a phage cloning vector.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'isolation of vector phage'|) (tptp.concept2words_2 X |tptp.'isolation-of-vector-phage'|) (tptp.isolation_of_vector_1 X) (not (tptp.isolation_of_vector_plasmid_1 X)) (tptp.cloning_phage_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_isolation_of_vector_2 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.isolation_of_vector_1 X) (tptp.cloning_plasmid_1 X1)) (and (tptp.isolation_of_vector_plasmid_1 X) (= (tptp.fn_isolation_of_vector_plasmid_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isolation_of_vector_plasmid_2 X))) (=> (tptp.isolation_of_vector_plasmid_1 X) (and (tptp.original_name_2 X |tptp.'Isolation-Of-Vector-Plasmid'|) (tptp.user_description_2 X |tptp.'Collecting DNA in the form of a plasmid cloning vector.'|) (tptp.concept2words_2 X tptp.isolate) (tptp.concept2words_2 X |tptp.'isolation of vector plasmid'|) (tptp.concept2words_2 X |tptp.'isolation-of-vector-plasmid'|) (tptp.isolation_of_vector_1 X) (not (tptp.isolation_of_vector_phage_1 X)) (tptp.cloning_plasmid_1 _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_isolation_of_vector_2 X)))))) (forall ((X $$unsorted)) (=> (tptp.isoleucine_1 X) (and (tptp.original_name_2 X |tptp.'Isoleucine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins.'|) (tptp.concept2words_2 X tptp.isoleucine) (tptp.hydrophobic_amino_acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.isomer_1 X) (and (tptp.original_name_2 X |tptp.'Isomer'|) (tptp.user_description_2 X |tptp.'Molecules that have same atomic parts, but different structures. These include structural isomers that differe in covalent arrangement, geometric or cis-trans isomers that differe in the placement of atom pairs on the same sides of molecule with a double bond, and enantiomers which are isomers that are mirror images of each other.'|) (tptp.concept2words_2 X tptp.enantiomer) (tptp.concept2words_2 X |tptp.'structural isomer'|) (tptp.concept2words_2 X |tptp.'cis trans isomer'|) (tptp.concept2words_2 X |tptp.'cis-trans isomer'|) (tptp.concept2words_2 X |tptp.'cis isomer'|) (tptp.concept2words_2 X |tptp.'trans isomer'|) (tptp.concept2words_2 X |tptp.'l isomer'|) (tptp.concept2words_2 X |tptp.'d isomer'|) (tptp.concept2words_2 X |tptp.'geometric isomer'|) (tptp.concept2words_2 X |tptp.'s isomer'|) (tptp.concept2words_2 X |tptp.'r isomer'|) (tptp.concept2words_2 X tptp.isomer) (tptp.molecule_1 X)))) (forall ((X $$unsorted)) (=> (tptp.isomerase_1 X) (and (tptp.original_name_2 X |tptp.'Isomerase'|) (tptp.user_description_2 X |tptp.'In biochemistry, an isomerase is an enzyme that catalyzes the structural rearrangement of isomers.'|) (tptp.concept2words_2 X tptp.isomerase) (tptp.protein_enzyme_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isomerization_reaction_1 X))) (let ((_let_2 (tptp.fn_isomerization_reaction_2 X))) (=> (tptp.isomerization_reaction_1 X) (and (tptp.original_name_2 X |tptp.'Isomerization-Reaction'|) (tptp.user_description_2 X |tptp.'Reaction in which a molecule changes from one geometric arrangement to another, without changing its molecular formula.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'reaction of isomerization'|) (tptp.concept2words_2 X |tptp.'isomerization reaction'|) (tptp.concept2words_2 X |tptp.'isomerization-reaction'|) (tptp.chemical_reaction_1 X) (tptp.molecule_1 _let_1) (tptp.molecule_1 _let_2) (tptp.has_isomer_2 _let_2 _let_1) (tptp.has_state_2 _let_2 _let_1) (tptp.raw_material_2 X _let_2) (tptp.result_2 X _let_1) (= _let_2 (tptp.fn_chemical_reaction_2 X)) (= _let_1 (tptp.fn_chemical_reaction_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.isomorphic_1 X) (and (tptp.original_name_2 X |tptp.'Isomorphic'|) (tptp.user_description_2 X |tptp.'Having the same form in different life history stages, such as the sporophyte and gametophyte stages of plants and algae, and the larval and adult stages of animals.'|) (tptp.concept2words_2 X tptp.isomorphic) (tptp.alternation_of_generations_1 X) (not (tptp.life_cycle_of_fern_1 X))))) (forall ((X $$unsorted)) (=> (tptp.isopod_1 X) (and (tptp.original_name_2 X |tptp.'Isopod'|) (tptp.user_description_2 X |tptp.'Member of a large, diverse group of crustaceans. Includes marine, freshwater, and terrestrial forms. Pill bugs and wood lice are examples of terrestrial isopods.'|) (tptp.concept2words_2 X tptp.isopod) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.clawed_lobster_1 X)) (not (tptp.copepod_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.decapod_1 X)) (not (tptp.krill_1 X))))) (forall ((X $$unsorted)) (=> (tptp.isoptera_1 X) (and (tptp.original_name_2 X |tptp.'Isoptera'|) (tptp.user_description_2 X |tptp.'Order of insects characterized by similar structure in all four wings.'|) (tptp.concept2words_2 X tptp.isoptera) (tptp.insect_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.isotonic_1 X) (and (tptp.original_name_2 X |tptp.'Isotonic'|) (tptp.user_description_2 X |tptp.'Refers to a solution that has the same salt concentration as a cell, and thus has no effect on the movement water into or out of the cell.'|) (tptp.concept2words_2 X tptp.isotonic) (tptp.tonicity_1 X) (not (tptp.hypertonic_1 X)) (not (tptp.hypotonic_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_aqueous_solution_14 X))) (let ((_let_2 (tptp.fn_solution_6 X))) (let ((_let_3 (tptp.fn_isotonic_solution_20 X))) (let ((_let_4 (tptp.fn_isotonic_solution_22 X))) (let ((_let_5 (tptp.fn_isotonic_solution_15 X))) (let ((_let_6 (tptp.fn_isotonic_solution_14 X))) (let ((_let_7 (tptp.fn_isotonic_solution_13 X))) (let ((_let_8 (tptp.fn_isotonic_solution_16 X))) (let ((_let_9 (tptp.fn_isotonic_solution_25 X))) (let ((_let_10 (tptp.fn_solution_6 _let_9))) (let ((_let_11 (tptp.fn_isotonic_solution_24 X))) (let ((_let_12 (tptp.fn_solution_5 _let_9))) (let ((_let_13 (tptp.fn_isotonic_solution_26 X))) (let ((_let_14 (tptp.fn_isotonic_solution_19 X))) (let ((_let_15 (tptp.fn_isotonic_solution_1 X))) (let ((_let_16 (tptp.fn_isotonic_solution_7 X))) (let ((_let_17 (tptp.fn_isotonic_solution_4 X))) (let ((_let_18 (tptp.fn_isotonic_solution_3 X))) (=> (tptp.isotonic_solution_1 X) (and (tptp.original_name_2 X |tptp.'Isotonic-Solution'|) (tptp.user_description_2 X |tptp.'A solution that has the same salt concentration as the normal cells of the body and the blood.'|) (tptp.concept2words_2 X |tptp.'isotonic solution'|) (tptp.concept2words_2 X |tptp.'isotonic-solution'|) (tptp.aqueous_solution_1 X) (not (tptp.basic_solution_1 X)) (not (tptp.buffered_solution_1 X)) (not (tptp.gel_1 X)) (not (tptp.hypertonic_solution_1 X)) (not (tptp.hypotonic_solution_1 X)) (tptp.concentration_value_1 _let_15) (tptp.concentration_value_1 _let_18) (tptp.concentration_value_1 _let_17) (tptp.concentration_value_1 _let_16) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.density_value_1 _let_5) (tptp.density_value_1 _let_8) (tptp.chemical_1 _let_14) (tptp.chemical_1 _let_3) (tptp.water_1 _let_3) (tptp.system_1 _let_4) (tptp.water_1 _let_11) (tptp.isotonic_solution_1 _let_9) (tptp.chemical_1 _let_13) (tptp.chemical_1 _let_12) (tptp.chemical_1 _let_10) (tptp.called_2 _let_7 |tptp.'Quantity_H'|) (tptp.called_2 _let_6 |tptp.'Quantity_OH'|) (tptp.is_isotonic_to_2 X _let_9) (tptp.concentration_2 _let_14 _let_18) (tptp.concentration_2 _let_3 _let_16) (= _let_15 _let_16) (tptp.concentration_2 _let_11 _let_15) (tptp.is_isotonic_to_2 _let_9 X) (= _let_18 _let_17) (= _let_17 _let_18) (tptp.concentration_2 _let_13 _let_17) (= _let_16 _let_15) (tptp.has_part_2 X _let_14) (tptp.has_solute_2 X _let_14) (not (= _let_14 _let_3)) (not (= _let_3 _let_14)) (tptp.has_part_2 _let_9 _let_13) (tptp.has_part_2 _let_9 _let_11) (tptp.has_solvent_2 _let_9 _let_11) (tptp.has_solute_2 _let_9 _let_13) (not (= _let_13 _let_11)) (not (= _let_11 _let_13)) (tptp.called_2 _let_5 |tptp.'Concentration_H'|) (tptp.called_2 _let_8 |tptp.'Concentration_OH'|) (tptp.has_solvent_2 X _let_3) (tptp.has_part_2 X _let_3) (= _let_14 (tptp.fn_solution_5 X)) (= _let_13 _let_12) (= _let_11 _let_10) (= (tptp.fn_isotonic_solution_10 X) (tptp.fn_aqueous_solution_4 X)) (= (tptp.fn_isotonic_solution_9 X) (tptp.fn_aqueous_solution_3 X)) (= _let_8 (tptp.fn_aqueous_solution_10 X)) (= (tptp.fn_isotonic_solution_12 X) (tptp.fn_aqueous_solution_5 X)) (= _let_7 (tptp.fn_aqueous_solution_12 X)) (= (tptp.fn_isotonic_solution_23 X) (tptp.fn_aqueous_solution_2 X)) (= (tptp.fn_isotonic_solution_11 X) (tptp.fn_aqueous_solution_6 X)) (= _let_6 (tptp.fn_aqueous_solution_13 X)) (= (tptp.fn_isotonic_solution_21 X) (tptp.fn_aqueous_solution_8 X)) (= (tptp.fn_isotonic_solution_17 X) (tptp.fn_aqueous_solution_1 X)) (= _let_5 (tptp.fn_aqueous_solution_11 X)) (= (tptp.fn_isotonic_solution_18 X) (tptp.fn_aqueous_solution_9 X)) (= _let_4 (tptp.fn_aqueous_solution_7 X)) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.isotope_1 X) (and (tptp.original_name_2 X |tptp.'Isotope'|) (tptp.user_description_2 X |tptp.'Isotopes are different types of atoms of the same chemical element, each having a different number of neutrons. In a corresponding manner, isotopes differ in mass number (or number of nucleons) but never in atomic number. The number of protons (the atomic number) is the same because that is what characterizes a chemical element.'|) (tptp.concept2words_2 X tptp.isotope) (tptp.atom_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isotope_conversion_12 X))) (let ((_let_2 (tptp.fn_radioactive_isotope_3 _let_1))) (let ((_let_3 (tptp.fn_isotope_conversion_13 X))) (let ((_let_4 (tptp.fn_atomic_nucleus_4 _let_3))) (let ((_let_5 (tptp.fn_isotope_conversion_17 X))) (let ((_let_6 (tptp.fn_move_out_of_1 _let_5))) (let ((_let_7 (tptp.fn_isotope_conversion_11 X))) (let ((_let_8 (tptp.fn_move_out_of_1 _let_7))) (let ((_let_9 (tptp.fn_atomic_nucleus_8 _let_3))) (let ((_let_10 (tptp.fn_atom_14 _let_1))) (let ((_let_11 (tptp.fn_atomic_nucleus_9 _let_3))) (let ((_let_12 (tptp.fn_atom_8 _let_1))) (let ((_let_13 (tptp.fn_radioactive_isotope_1 _let_1))) (let ((_let_14 (tptp.fn_radioactive_isotope_2 _let_1))) (let ((_let_15 (tptp.fn_isotope_conversion_15 X))) (let ((_let_16 (tptp.fn_atom_18 _let_1))) (let ((_let_17 (tptp.fn_isotope_conversion_14 X))) (let ((_let_18 (tptp.fn_move_1 _let_5))) (let ((_let_19 (tptp.fn_isotope_conversion_16 X))) (let ((_let_20 (tptp.fn_isotope_conversion_1 X))) (let ((_let_21 (tptp.fn_isotope_conversion_5 X))) (let ((_let_22 (tptp.fn_isotope_conversion_2 X))) (let ((_let_23 (tptp.fn_isotope_conversion_3 X))) (let ((_let_24 (tptp.fn_isotope_conversion_4 X))) (let ((_let_25 (tptp.fn_isotope_conversion_6 X))) (=> (tptp.isotope_conversion_1 X) (and (tptp.original_name_2 X |tptp.'Isotope-Conversion'|) (tptp.user_description_2 X |tptp.'The process in which an isotope of an element is converted to a lighter isotope of the same element through the loss of one or more neutrons.'|) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'conversion of isotope'|) (tptp.concept2words_2 X |tptp.'isotope conversion'|) (tptp.concept2words_2 X |tptp.'isotope-conversion'|) (tptp.radioactivity_1 X) (tptp.isotope_1 _let_20) (tptp.quantity_value_1 _let_22) (tptp.quantity_value_1 _let_23) (tptp.neutron_1 _let_24) (tptp.atomic_mass_value_1 _let_21) (tptp.atomic_mass_value_1 _let_25) (tptp.move_out_of_1 _let_7) (tptp.emit_1 _let_7) (tptp.tangible_entity_1 _let_1) (tptp.atom_1 _let_1) (tptp.radioactive_isotope_1 _let_1) (tptp.atomic_nucleus_1 _let_3) (tptp.proton_1 _let_17) (tptp.valence_electron_1 _let_15) (tptp.neutron_1 _let_19) (tptp.move_1 _let_5) (tptp.move_out_of_1 _let_5) (tptp.emit_1 _let_5) (tptp.spatial_entity_1 _let_18) (tptp.atomic_nucleus_1 _let_16) (tptp.emit_1 _let_14) (tptp.emit_1 _let_13) (tptp.proton_1 _let_12) (tptp.proton_1 _let_11) (tptp.electron_1 _let_10) (tptp.electron_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.atom_1 _let_4) (tptp.radioactivity_1 _let_2) (not (= _let_7 _let_5)) (tptp.result_2 _let_7 _let_20) (tptp.mass_number_2 _let_1 _let_25) (tptp.has_isotope_2 _let_1 _let_20) (tptp.has_state_2 _let_1 _let_20) (not (= _let_17 _let_19)) (not (= _let_15 _let_19)) (tptp.greater_than_2 _let_25 _let_21) (tptp.quantity_2 _let_24 _let_23) (tptp.greater_than_2 _let_22 _let_23) (tptp.is_inside_2 _let_19 _let_3) (not (= _let_19 _let_17)) (not (= _let_19 _let_15)) (tptp.quantity_2 _let_19 _let_22) (tptp.result_2 X _let_20) (tptp.mass_number_2 _let_20 _let_21) (not (= _let_5 _let_7)) (tptp.result_2 _let_5 _let_20) (tptp.object_2 _let_5 _let_19) (tptp.base_2 _let_7 _let_1) (tptp.base_2 _let_5 _let_1) (tptp.has_part_2 _let_1 _let_15) (tptp.has_region_2 _let_1 _let_3) (tptp.has_part_2 _let_1 _let_17) (tptp.is_inside_2 _let_17 _let_3) (tptp.is_near_2 _let_15 _let_3) (tptp.is_near_2 _let_3 _let_15) (tptp.origin_2 _let_5 _let_1) (tptp.has_function_2 _let_1 X) (tptp.subevent_2 X _let_7) (tptp.origin_2 _let_7 _let_1) (tptp.object_2 X _let_1) (tptp.subevent_2 X _let_5) (= _let_19 _let_18) (= _let_1 _let_8) (= _let_1 _let_6) (= _let_17 _let_12) (= _let_17 _let_11) (= _let_1 _let_4) (= _let_3 _let_16) (= _let_15 _let_10) (= _let_15 _let_9) (= _let_5 _let_14) (= _let_7 _let_13) (= X _let_2) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_isotopic_labeling_3 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_isotopic_labeling_1 X))) (let ((_let_4 (tptp.fn_attach_1 _let_1))) (let ((_let_5 (tptp.fn_isotopic_labeling_2 X))) (=> (tptp.isotopic_labeling_1 X) (and (tptp.original_name_2 X |tptp.'Isotopic-Labeling'|) (tptp.user_description_2 X |tptp.'A technique for tracking the passage of a sample of a substance through a system by incorporating an unusual isotopes in its chemical composition allowing the substance to be detected.'|) (tptp.concept2words_2 X |tptp.'radioactive labeling'|) (tptp.concept2words_2 X |tptp.'radioactive-labeling'|) (tptp.concept2words_2 X |tptp.'radioisotope labeling'|) (tptp.concept2words_2 X |tptp.'radioisotope-labeling'|) (tptp.concept2words_2 X |tptp.'isotopic labeling'|) (tptp.concept2words_2 X |tptp.'isotopic-labeling'|) (tptp.technique_1 X) (tptp.chemical_entity_1 _let_3) (tptp.radioactive_isotope_1 _let_5) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.iteroparity_1 X) (and (tptp.original_name_2 X |tptp.'Iteroparity'|) (tptp.user_description_2 X |tptp.'The ability to produce offspring over several years.'|) (tptp.concept2words_2 X |tptp.'repeated reproduction'|) (tptp.concept2words_2 X |tptp.'repeated-reproduction'|) (tptp.concept2words_2 X tptp.iteroparity) (tptp.life_history_1 X) (not (tptp.animal_life_cycle_1 X)) (not (tptp.determinate_growth_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.life_cycle_of_drosophila_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X)) (not (tptp.budding_1 X)) (not (tptp.cross_breeding_event_1 X)) (not (tptp.plant_reproduction_1 X)) (not (tptp.semelparity_1 X)) (not (tptp.vegetative_reproduction_1 X))))) (forall ((X $$unsorted)) (=> (tptp.iva_element_1 X) (and (tptp.original_name_2 X |tptp.'IVA-Element'|) (tptp.user_description_2 X |tptp.'Elements in group 4A of the periodic table are C, Si, Ge, Sn, Pb and the unnamed element 114.'|) (tptp.concept2words_2 X tptp.iva) (tptp.concept2words_2 X |tptp.'group iva elements'|) (tptp.concept2words_2 X |tptp.'group-iva-elements'|) (tptp.concept2words_2 X |tptp.'group 14 elements'|) (tptp.concept2words_2 X |tptp.'group-14-elements'|) (tptp.concept2words_2 X |tptp.'element of iva'|) (tptp.concept2words_2 X |tptp.'iva element'|) (tptp.concept2words_2 X |tptp.'iva-element'|) (tptp.chemical_element_1 X)))) (forall ((X $$unsorted)) (=> (tptp.jackbean_plant_1 X) (and (tptp.original_name_2 X |tptp.'Jackbean-Plant'|) (tptp.user_description_2 X |tptp.'Vining legume with toxic leaves, important commercially as a source for several proteins used in biochemistry research.'|) (tptp.concept2words_2 X |tptp.'jackbean plant'|) (tptp.concept2words_2 X |tptp.'jackbean-plant'|) (tptp.legume_1 X)))) (forall ((X $$unsorted)) (=> (tptp.james_danielli_1 X) (and (tptp.original_name_2 X |tptp.'James-Danielli'|) (tptp.user_description_2 X |tptp.'Biologist that studied biomembranes and developed the Sandwich Model for placement of membrane proteins.'|) (tptp.concept2words_2 X |tptp.'james danielle'|) (tptp.concept2words_2 X |tptp.'james-danielle'|) (tptp.concept2words_2 X |tptp.'james danielli'|) (tptp.concept2words_2 X |tptp.'james-danielli'|) (tptp.biologist_1 X)))) (forall ((X $$unsorted)) (=> (tptp.jasmonic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Jasmonic-Acid'|) (tptp.user_description_2 X |tptp.'A chemical produced by plants that regulates various aspects of growth, development, and responses to abiotic or biotic stresses.'|) (tptp.concept2words_2 X |tptp.'jasmonic acid'|) (tptp.concept2words_2 X |tptp.'jasmonic-acid'|) (tptp.acid_compound_1 X)))) (forall ((X $$unsorted)) (=> (tptp.jaw_1 X) (and (tptp.original_name_2 X |tptp.'Jaw'|) (tptp.user_description_2 X |tptp.'Any articulated, opposable structure located near the mouth, used for manipulating or grasping food.'|) (tptp.concept2words_2 X tptp.mandible) (tptp.concept2words_2 X tptp.maxilla) (tptp.concept2words_2 X tptp.jaw) (tptp.bone_1 X) (not (tptp.incus_1 X)) (not (tptp.malleus_1 X)) (not (tptp.mandible_1 X)) (not (tptp.stapes_1 X))))) (forall ((X $$unsorted)) (=> (tptp.jejunum_1 X) (and (tptp.original_name_2 X |tptp.'Jejunum'|) (tptp.user_description_2 X |tptp.'The middle section of the small intestine in most higher vertebrates, situated between the duodenum and the ileum. It is lined with villi and microvilli and functions in nutrient and water absorption.'|) (tptp.concept2words_2 X tptp.jejunum) (tptp.organ_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.joint_1 X) (and (tptp.original_name_2 X |tptp.'Joint'|) (tptp.user_description_2 X |tptp.'The articulated junction where two bones meet.'|) (tptp.concept2words_2 X tptp.joint) (tptp.skeletal_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.juvenile_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Juvenile-Hormone'|) (tptp.user_description_2 X |tptp.'An arthropod hormone that promotes the retention of larval characteristics and retards the onset of metamorphosis.'|) (tptp.concept2words_2 X |tptp.'hormone of juvenile'|) (tptp.concept2words_2 X |tptp.'juvenile hormone'|) (tptp.concept2words_2 X |tptp.'juvenile-hormone'|) (tptp.hormone_1 X) (not (tptp.sex_hormone_1 X)) (not (tptp.releasing_hormone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.juvenile_stage_1 X) (and (tptp.original_name_2 X |tptp.'Juvenile-Stage'|) (tptp.user_description_2 X |tptp.'A juvenile stage is a stage in the development when an individual organism has not reached its adult form, sexual maturity or size.'|) (tptp.concept2words_2 X |tptp.'stage of juvenile'|) (tptp.concept2words_2 X |tptp.'juvenile stage'|) (tptp.concept2words_2 X |tptp.'juvenile-stage'|) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.juxtaglomerular_apparatus_1 X) (and (tptp.original_name_2 X |tptp.'Juxtaglomerular-Apparatus'|) (tptp.user_description_2 X |tptp.'Specialized tissues located near the afferent arteriole that supplies blood to the glomerulus; the apparatus is involved in regulating kindey function.'|) (tptp.concept2words_2 X tptp.jga) (tptp.concept2words_2 X |tptp.'juxtaglomerular apparatus'|) (tptp.concept2words_2 X |tptp.'juxtaglomerular-apparatus'|) (tptp.mixed_tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.juxtamedullary_nephron_1 X) (and (tptp.original_name_2 X |tptp.'Juxtamedullary-Nephron'|) (tptp.user_description_2 X |tptp.'Type of nephron found only in mammals and birds. Juxtamedullary nephrons have a loop of Henle that is located deep in the medulla of the kidney.'|) (tptp.concept2words_2 X |tptp.'juxtamedullary nephron'|) (tptp.concept2words_2 X |tptp.'juxtamedullary-nephron'|) (tptp.nephron_1 X) (not (tptp.cortical_nephron_1 X))))) (forall ((X $$unsorted)) (=> (tptp.k_selection_1 X) (and (tptp.original_name_2 X |tptp.'K-selection'|) (tptp.user_description_2 X |tptp.'Selection for life history traits that are sensitive to population density'|) (tptp.concept2words_2 X |tptp.'density dependent selection'|) (tptp.concept2words_2 X |tptp.'density-dependent selection'|) (tptp.concept2words_2 X |tptp.'selection of k'|) (tptp.concept2words_2 X |tptp.'k selection'|) (tptp.concept2words_2 X |tptp.'k-selection'|) (tptp.natural_selection_1 X) (not (tptp.r_selection_1 X)) (not (tptp.reinforcement_1 X)) (not (tptp.stabilizing_selection_1 X))))) (forall ((X $$unsorted)) (=> (tptp.kangaroo_1 X) (and (tptp.original_name_2 X |tptp.'Kangaroo'|) (tptp.user_description_2 X |tptp.'Australian marsupial of the family Macropodidae.'|) (tptp.concept2words_2 X tptp.kangaroo) (tptp.marsupial_1 X) (not (tptp.bandicoot_1 X))))) (forall ((X $$unsorted)) (=> (tptp.karyogamy_1 X) (and (tptp.original_name_2 X |tptp.'Karyogamy'|) (tptp.user_description_2 X |tptp.'The union and fusion of two pronuclei, as in fertilization.'|) (tptp.concept2words_2 X |tptp.'perform karyogamy'|) (tptp.concept2words_2 X tptp.karyogamy) (tptp.fertilization_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_karyotype_9 X))) (let ((_let_2 (tptp.fn_microscopy_1 _let_1))) (let ((_let_3 (tptp.fn_karyotype_8 X))) (let ((_let_4 (tptp.fn_analysis_1 _let_3))) (let ((_let_5 (tptp.fn_karyotype_11 X))) (let ((_let_6 (tptp.fn_perceive_1 _let_5))) (let ((_let_7 (tptp.fn_information_1 X))) (let ((_let_8 (tptp.fn_karyotype_10 X))) (let ((_let_9 (tptp.fn_karyotype_6 X))) (let ((_let_10 (tptp.fn_karyotype_4 X))) (let ((_let_11 (tptp.fn_karyotype_5 X))) (let ((_let_12 (tptp.fn_karyotype_7 X))) (let ((_let_13 (tptp.fn_karyotype_3 X))) (let ((_let_14 (tptp.fn_karyotype_1 X))) (=> (tptp.karyotype_1 X) (and (tptp.original_name_2 X |tptp.'Karyotype'|) (tptp.user_description_2 X |tptp.'A karyotype is a visual arrangement of the chromosomes from a cell where the chromosomes are displayed to inspect for potential abnormalities.'|) (tptp.concept2words_2 X |tptp.'chromosome map'|) (tptp.concept2words_2 X tptp.karyotype) (tptp.map_1 X) (tptp.gene_1 _let_14) (tptp.quantity_value_1 _let_13) (tptp.change_1 _let_10) (tptp.role_1 _let_11) (tptp.distinguishing_1 _let_9) (tptp.image_1 _let_12) (tptp.analysis_1 _let_3) (tptp.light_microscopy_1 _let_1) (tptp.chromosome_1 _let_8) (tptp.perceive_1 _let_5) (tptp.entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.is_at_2 _let_14 _let_8) (tptp.result_2 _let_3 X) (tptp.result_2 _let_1 _let_12) (tptp.quantity_2 _let_8 _let_13) (tptp.has_goal_2 X _let_9) (tptp.plays_2 X _let_11) (tptp.information_content_2 X _let_13) (tptp.object_2 _let_10 _let_8) (tptp.objective_2 _let_5 _let_10) (tptp.site_2 _let_5 _let_12) (tptp.in_event_2 _let_11 _let_9) (tptp.by_means_of_2 _let_9 _let_1) (tptp.objective_2 _let_9 _let_10) (tptp.subevent_2 _let_9 _let_5) (tptp.information_content_2 X _let_8) (tptp.object_2 _let_5 _let_8) (tptp.object_2 _let_3 _let_8) (tptp.object_2 _let_1 _let_8) (= _let_8 _let_7) (= _let_8 _let_6) (= _let_8 _let_4) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_karyotyping_7 X))) (let ((_let_2 (tptp.fn_add_1 _let_1))) (let ((_let_3 (tptp.fn_karyotyping_8 X))) (let ((_let_4 (tptp.fn_karyotyping_5 X))) (let ((_let_5 (tptp.fn_add_1 _let_4))) (let ((_let_6 (tptp.fn_karyotyping_6 X))) (let ((_let_7 (tptp.fn_karyotyping_10 X))) (let ((_let_8 (tptp.fn_add_2 _let_1))) (let ((_let_9 (tptp.fn_karyotyping_9 X))) (let ((_let_10 (tptp.fn_karyotyping_3 X))) (let ((_let_11 (tptp.fn_karyotyping_4 X))) (let ((_let_12 (tptp.fn_karyotyping_1 X))) (let ((_let_13 (tptp.fn_karyotyping_2 X))) (=> (tptp.karyotyping_1 X) (and (tptp.original_name_2 X |tptp.'Karyotyping'|) (tptp.user_description_2 X |tptp.'A laboratory procedure which involves displaying a cell_'s chromosomes. 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(tptp.chemical_entity_1 _let_38) (tptp.atom_1 _let_38) (tptp.nitrogen_1 _let_38) (tptp.chemical_bond_1 _let_33) (tptp.covalent_bond_1 _let_33) (tptp.peptide_bond_1 _let_33) (tptp.carbon_skeleton_1 _let_58) (tptp.hydrophilic_region_1 _let_64) (tptp.attract_1 _let_25) (tptp.chemical_entity_1 _let_61) (tptp.protein_1 _let_61) (tptp.atomic_nucleus_1 _let_54) (tptp.share_1 _let_50) (tptp.equal_sharing_1 _let_50) (tptp.chemical_bond_1 _let_21) (tptp.disulfide_bond_1 _let_21) (tptp.nonpolar_covalent_bond_1 _let_21) (tptp.tangible_entity_1 _let_48) (tptp.entity_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.atom_1 _let_48) (tptp.carbon_1 _let_48) (tptp.chemical_entity_1 _let_49) (tptp.tangible_entity_1 _let_49) (tptp.entity_1 _let_49) (tptp.atom_1 _let_49) (tptp.nitrogen_1 _let_49) (tptp.polar_covalent_bond_1 _let_16) (tptp.chemical_bond_1 _let_16) (tptp.carbon_skeleton_1 _let_47) (tptp.hydrophilic_region_1 _let_62) (tptp.attract_1 _let_11) (tptp.electron_1 _let_60) (tptp.valence_electron_1 _let_52) (tptp.double_bond_1 _let_68) (tptp.atom_1 _let_41) (tptp.chemical_entity_1 _let_41) (tptp.chemical_bond_1 _let_67) (tptp.chemical_bond_1 _let_66) (tptp.attract_1 _let_65) (tptp.attract_1 _let_63) (tptp.electron_1 _let_59) (tptp.carbon_skeleton_1 _let_57) (tptp.atomic_nucleus_1 _let_53) (tptp.valence_electron_1 _let_51) (tptp.carbon_skeleton_1 _let_46) (tptp.chemical_entity_1 _let_29) (tptp.chemical_entity_1 _let_28) (tptp.protein_1 _let_27) (tptp.entity_1 _let_26) (tptp.spatial_entity_1 _let_24) (tptp.share_1 _let_23) (tptp.equal_sharing_1 _let_22) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.nitrogen_1 _let_18) (tptp.entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.atom_1 _let_17) (tptp.atom_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.carbon_1 _let_14) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.atom_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_7) (tptp.tangible_entity_1 _let_7) (tptp.entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.nitrogen_1 _let_7) (tptp.tangible_entity_1 _let_3) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.has_part_2 _let_32 _let_2) (tptp.has_part_2 _let_32 _let_13) (tptp.possesses_2 _let_13 _let_69) (tptp.has_function_2 _let_13 _let_11) (tptp.has_region_2 _let_13 _let_62) (tptp.possesses_2 _let_2 _let_33) (tptp.has_function_2 _let_2 _let_25) (tptp.has_region_2 _let_2 _let_64) (not (= _let_61 _let_50)) (not (= _let_50 _let_61)) (not (= _let_60 _let_52)) (not (= _let_52 _let_60)) (tptp.agent_2 _let_25 _let_2) (tptp.agent_2 _let_11 _let_13) (tptp.object_2 _let_9 _let_2) (tptp.base_2 _let_9 _let_13) (tptp.is_between_2 _let_21 _let_61) (tptp.possesses_2 _let_2 _let_68) (tptp.is_between_2 _let_16 _let_49) (tptp.possesses_2 X _let_21) (tptp.possesses_2 _let_13 _let_16) (tptp.is_between_2 _let_16 _let_48) (tptp.site_2 _let_25 _let_64) (tptp.site_2 _let_11 _let_62) (tptp.possesses_2 _let_61 _let_21) (tptp.is_near_2 _let_60 _let_54) (tptp.is_near_2 _let_54 _let_60) (tptp.has_part_2 _let_2 _let_38) (tptp.has_region_2 _let_2 _let_58) (tptp.is_inside_2 _let_34 _let_58) (tptp.greater_than_2 _let_37 _let_56) (tptp.has_part_2 X _let_55) (tptp.size_2 _let_55 _let_56) (tptp.result_2 _let_50 _let_21) (tptp.object_2 _let_50 _let_52) (tptp.is_near_2 _let_54 _let_52) (tptp.is_near_2 _let_52 _let_54) (tptp.has_part_2 _let_13 _let_49) (tptp.has_part_2 _let_13 _let_48) (tptp.has_region_2 _let_13 _let_47) (tptp.is_inside_2 _let_48 _let_47) (not (= _let_49 _let_48)) (not (= _let_48 _let_49)) (tptp.possesses_2 X _let_42) (tptp.quantity_2 _let_42 _let_43) (tptp.directly_proportional_2 _let_44 _let_43) (tptp.speed_2 _let_45 _let_44) (tptp.object_2 _let_45 X) (tptp.has_part_2 X _let_41) (tptp.has_region_2 X _let_39) (tptp.is_inside_2 _let_40 _let_39) (tptp.has_part_2 X _let_40) (not (= _let_41 _let_40)) (not (= _let_40 _let_41)) (tptp.has_part_2 X _let_32) (tptp.is_between_2 _let_33 _let_38) (not (= _let_34 _let_38)) (not (= _let_38 _let_34)) (tptp.has_region_2 X _let_35) (tptp.is_at_2 _let_36 _let_35) (tptp.has_region_2 X _let_36) (tptp.size_2 X _let_37) (tptp.the_scalar_value_2 _let_37 tptp.big_0) (tptp.scalar_unit_class_2 _let_37 tptp.polypeptide_0) (tptp.has_region_2 X _let_30) (tptp.is_at_2 _let_31 _let_30) (tptp.has_part_2 _let_32 _let_31) (tptp.possesses_2 _let_32 _let_33) (tptp.is_between_2 _let_33 _let_34) (= _let_2 _let_26) (= _let_13 _let_12) (= _let_2 _let_24) (= _let_13 _let_10) (= _let_61 _let_29) (= _let_61 _let_28) (= _let_68 _let_67) (= _let_21 (tptp.fn_molecule_10 X)) (= X _let_27) (= _let_48 _let_15) (= _let_16 _let_66) (= _let_25 _let_65) (= _let_11 _let_63) (= _let_61 _let_27) (= _let_60 _let_59) (= _let_38 _let_8) (= _let_38 _let_7) (= _let_34 _let_3) (= _let_58 _let_57) (= _let_37 _let_5) (= (tptp.fn_keratin_5 X) (tptp.fn_polymer_10 X)) (= _let_56 (tptp.fn_polymer_7 X)) (= _let_55 (tptp.fn_polymer_4 X)) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_23) (= _let_50 _let_22) (= _let_49 _let_20) (= _let_48 _let_17) (= _let_49 _let_19) (= _let_49 _let_18) (= _let_48 _let_14) (= _let_47 _let_46) (= (tptp.fn_keratin_3 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_keratin_2 X) (tptp.fn_molecule_1 X)) (= _let_45 (tptp.fn_molecule_8 X)) (= _let_44 (tptp.fn_molecule_3 X)) (= _let_43 (tptp.fn_molecule_4 X)) (= _let_42 (tptp.fn_molecule_12 X)) (= _let_41 (tptp.fn_organic_molecule_2 X)) (= _let_40 (tptp.fn_organic_molecule_1 X)) (= _let_39 (tptp.fn_organic_molecule_3 X)) (= (tptp.fn_keratin_4 X) (tptp.fn_protein_10 X)) (= _let_38 _let_6) (= _let_37 _let_4) (= _let_36 (tptp.fn_protein_1 X)) (= _let_35 (tptp.fn_protein_5 X)) (= _let_34 _let_1) (= _let_33 (tptp.fn_protein_12 X)) (= _let_32 (tptp.fn_protein_8 X)) (= _let_31 (tptp.fn_protein_14 X)) (= _let_30 (tptp.fn_protein_7 X)) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_24) (= _let_24 _let_22) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_15 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ketone_9 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_3 (tptp.fn_ketone_11 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_carbonyl_group_7 _let_3))) (let ((_let_6 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_7 (tptp.fn_organic_molecule_2 X))) (let ((_let_8 (tptp.fn_organic_molecule_1 X))) (let ((_let_9 (tptp.fn_carbonyl_group_9 _let_3))) (let ((_let_10 (tptp.fn_carbonyl_group_8 _let_3))) (let ((_let_11 (tptp.fn_molecule_10 X))) (let ((_let_12 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_13 (tptp.fn_molecule_11 X))) (let ((_let_14 (tptp.fn_ketone_3 X))) (let ((_let_15 (tptp.fn_ketone_6 X))) (let ((_let_16 (tptp.fn_ketone_5 X))) (let ((_let_17 (tptp.fn_ketone_4 X))) (let ((_let_18 (tptp.fn_ketone_10 X))) (let ((_let_19 (tptp.fn_ketone_12 X))) (let ((_let_20 (tptp.fn_ketone_7 X))) (let ((_let_21 (tptp.fn_ketone_8 X))) (=> (tptp.ketone_1 X) (and (tptp.original_name_2 X |tptp.'Ketone'|) (tptp.user_description_2 X |tptp.'Ketone is a compound with the structure RC(=O)R_', where R and R_' can be a variety of atoms and groups of atoms.'|) (tptp.concept2words_2 X tptp.ketone) (tptp.organic_molecule_1 X) (tptp.kinetic_energy_1 _let_14) (tptp.constant_motion_1 _let_17) (tptp.speed_value_1 _let_16) (tptp.quantity_value_1 _let_15) (tptp.chemical_bond_1 _let_20) (tptp.double_bond_1 _let_20) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.carbon_skeleton_1 _let_1) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.carbon_1 _let_18) (tptp.carbonyl_group_1 _let_3) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.oxygen_1 _let_19) (tptp.carbon_1 _let_12) (tptp.double_bond_1 _let_10) (tptp.oxygen_1 _let_9) (tptp.atom_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.organic_molecule_1 _let_2) (tptp.has_part_2 X _let_18) (tptp.is_inside_2 _let_18 _let_1) (tptp.has_part_2 X _let_19) (tptp.possesses_2 X _let_20) (tptp.is_between_2 _let_20 _let_21) (tptp.has_region_2 X _let_3) (tptp.is_inside_2 _let_21 _let_1) (tptp.has_part_2 X _let_21) (tptp.has_region_2 X _let_1) (not (= _let_18 _let_21)) (not (= _let_21 _let_18)) (tptp.is_inside_2 _let_19 _let_3) (tptp.is_inside_2 _let_18 _let_3) (tptp.is_between_2 _let_20 _let_18) (tptp.is_between_2 _let_20 _let_19) (not (= _let_19 _let_18)) (not (= _let_18 _let_19)) (tptp.possesses_2 X _let_14) (tptp.quantity_2 _let_14 _let_15) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.speed_2 _let_17 _let_16) (tptp.object_2 _let_17 X) (= _let_18 _let_8) (= _let_19 _let_7) (= _let_21 _let_13) (= _let_20 _let_11) (= X _let_4) (= X _let_2) (= _let_18 _let_7) (= _let_18 _let_6) (= _let_21 _let_8) (= _let_1 (tptp.fn_organic_molecule_3 X)) (= _let_21 _let_12) (= _let_20 _let_10) (= _let_19 _let_9) (= _let_18 _let_5) (= (tptp.fn_ketone_1 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_ketone_2 X) (tptp.fn_molecule_1 X)) (= _let_17 (tptp.fn_molecule_8 X)) (= _let_16 (tptp.fn_molecule_3 X)) (= _let_15 (tptp.fn_molecule_4 X)) (= _let_14 (tptp.fn_molecule_12 X)) (= _let_13 _let_8) (= _let_12 _let_8) (= _let_8 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_7) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.ketose_1 X) (and (tptp.original_name_2 X |tptp.'Ketose'|) (tptp.user_description_2 X |tptp.'A ketose is a sugar containing one ketone group per molecule.'|) (tptp.concept2words_2 X |tptp.'ketose sugar'|) (tptp.concept2words_2 X |tptp.'ketose-sugar'|) (tptp.concept2words_2 X tptp.ketose) (tptp.ketone_1 X) (tptp.monosaccharide_1 X) (not (tptp.acetone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.keystone_species_1 X) (and (tptp.original_name_2 X |tptp.'Keystone-Species'|) (tptp.user_description_2 X |tptp.'A species whose effect on community structure is disproportionately larger than its abundance within the community.'|) (tptp.concept2words_2 X |tptp.'keystone-species'|) (tptp.concept2words_2 X |tptp.'species of keystone'|) (tptp.concept2words_2 X |tptp.'keystone species'|) (tptp.concept2words_2 X |tptp.'keystone-specy'|) (tptp.ecological_role_1 X) (not (tptp.ecological_niche_1 X)) (not (tptp.pollinator_1 X))))) (forall ((X $$unsorted)) (=> (tptp.ki_constant_1 X) (and (tptp.original_name_2 X |tptp.'KI-Constant'|) (tptp.concept2words_2 X |tptp.'constant of ki'|) (tptp.concept2words_2 X |tptp.'ki constant'|) (tptp.concept2words_2 X |tptp.'ki-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.ki_scale_1 X) (and (tptp.original_name_2 X |tptp.'KI-Scale'|) (tptp.concept2words_2 X |tptp.'scale of ki'|) (tptp.concept2words_2 X |tptp.'ki scale'|) (tptp.concept2words_2 X |tptp.'ki-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_kidney_6 X))) (let ((_let_2 (tptp.fn_cushion_1 _let_1))) (let ((_let_3 (tptp.fn_kidney_3 X))) (let ((_let_4 (tptp.fn_kidney_4 X))) (let ((_let_5 (tptp.fn_cushion_2 _let_1))) (let ((_let_6 (tptp.fn_kidney_5 X))) (let ((_let_7 (tptp.fn_kidney_2 X))) (=> (tptp.kidney_1 X) (and (tptp.original_name_2 X |tptp.'Kidney'|) (tptp.user_description_2 X |tptp.'An excretory and osmoregularity organ in animals.'|) (tptp.concept2words_2 X tptp.kidney) (tptp.excretory_organ_1 X) (tptp.unitless_value_1 _let_7) (tptp.defense_1 _let_3) (tptp.tissue_1 _let_4) (tptp.adipose_tissue_1 _let_6) (tptp.cushion_1 _let_1) (tptp.tangible_entity_1 _let_5) (tptp.defense_1 _let_2) (tptp.importance_2 X _let_7) (tptp.has_part_2 X _let_6) (tptp.the_scalar_value_2 _let_7 tptp.high_0) (tptp.scalar_unit_class_2 _let_7 tptp.organ_0) (tptp.object_2 _let_3 X) (tptp.plays_2 _let_6 _let_1) (tptp.has_part_2 X _let_4) (tptp.in_event_2 _let_1 _let_3) (= _let_6 _let_5) (= _let_4 (tptp.fn_organ_1 X)) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.killdeer_1 X) (and (tptp.original_name_2 X |tptp.'Killdeer'|) (tptp.user_description_2 X |tptp.'A medium-sized bird of the plover family, known for its'|) (tptp.concept2words_2 X tptp.killdeer) (tptp.bird_1 X) (not (tptp.brown_headed_cowbird_1 X)) (not (tptp.flightless_birds_1 X)) (not (tptp.florida_scrub_jay_1 X)) (not (tptp.galapagos_finch_1 X)) (not (tptp.great_auk_1 X)) (not (tptp.greylag_geese_1 X)) (not (tptp.ratite_1 X)) (not (tptp.red_cockaded_woodpecker_1 X))))) (forall ((X $$unsorted)) (=> (tptp.kin_selection_1 X) (and (tptp.original_name_2 X |tptp.'Kin-Selection'|) (tptp.user_description_2 X |tptp.'An evolutionary strategy that benefits the reproductive fitness of one_'s kin at the expense of one_'s own fitness. Often results in the evolution of altruistic behavior.'|) (tptp.concept2words_2 X |tptp.'selection of kin'|) (tptp.concept2words_2 X |tptp.'kin selection'|) (tptp.concept2words_2 X |tptp.'kin-selection'|) (tptp.selection_force_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_3 X))) (let ((_let_2 (tptp.fn_protein_9 X))) (let ((_let_3 (tptp.fn_protein_enzyme_9 X))) (let ((_let_4 (tptp.fn_polymer_4 X))) (let ((_let_5 (tptp.fn_protein_enzyme_10 X))) (let ((_let_6 (tptp.fn_enzyme_2 X))) (let ((_let_7 (tptp.fn_polymer_1 X))) (let ((_let_8 (tptp.fn_molecule_10 X))) (let ((_let_9 (tptp.fn_kinase_5 X))) (let ((_let_10 (tptp.fn_kinase_4 X))) (let ((_let_11 (tptp.fn_kinase_6 X))) (let ((_let_12 (tptp.fn_kinase_7 X))) (let ((_let_13 (tptp.fn_kinase_1 X))) (let ((_let_14 (tptp.fn_kinase_8 X))) (let ((_let_15 (tptp.fn_kinase_2 X))) (let ((_let_16 (tptp.fn_cofactor_1 _let_15))) (let ((_let_17 (tptp.fn_kinase_3 X))) (=> (tptp.kinase_1 X) (and (tptp.original_name_2 X |tptp.'Kinase'|) (tptp.user_description_2 X |tptp.'General name for an enzyme that transfers phosphate groups from ATP to a protein, thus phosphorylating the protein.'|) (tptp.concept2words_2 X |tptp.'protein kinase'|) (tptp.concept2words_2 X |tptp.'protein-kinase'|) (tptp.concept2words_2 X tptp.kinase) (tptp.transferase_1 X) (tptp.phosphorylation_1 _let_13) (tptp.cofactor_1 _let_15) (tptp.magnesium_1 _let_17) (tptp.size_value_1 _let_10) (tptp.size_value_1 _let_9) (tptp.monomer_1 _let_11) (tptp.active_site_1 _let_12) (tptp.chemical_bond_1 _let_14) (tptp.covalent_bond_1 _let_14) (tptp.chemical_entity_1 _let_16) (tptp.is_at_2 _let_17 _let_12) (tptp.in_event_2 _let_15 _let_13) (tptp.plays_2 _let_17 _let_15) (tptp.possesses_2 X _let_14) (tptp.has_function_2 X _let_13) (tptp.site_2 _let_13 _let_12) (tptp.the_scalar_value_2 _let_9 tptp.big_0) (tptp.scalar_unit_class_2 _let_9 tptp.polypeptide_0) (tptp.size_2 X _let_9) (tptp.greater_than_2 _let_9 _let_10) (tptp.size_2 _let_11 _let_10) (tptp.has_part_2 X _let_11) (tptp.has_region_2 X _let_12) (= _let_17 _let_16) (= _let_14 _let_8) (= _let_14 _let_7) (= _let_12 _let_6) (= _let_13 (tptp.fn_enzyme_4 X)) (= _let_12 _let_5) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 (tptp.fn_protein_enzyme_4 X)) (= _let_9 _let_2) (= _let_9 _let_1) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.kinesis_1 X) (and (tptp.original_name_2 X |tptp.'Kinesis'|) (tptp.user_description_2 X |tptp.'Movement or activity of a cell or organism in response to a nondirectional stimulus.'|) (tptp.concept2words_2 X tptp.kinesis) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_kinetic_energy_1 X))) (let ((_let_2 (tptp.fn_constant_motion_1 _let_1))) (let ((_let_3 (tptp.fn_kinetic_energy_2 X))) (=> (tptp.kinetic_energy_1 X) (and (tptp.original_name_2 X |tptp.'Kinetic-Energy'|) (tptp.user_description_2 X |tptp.'The energy that an object possesses due to its motion relative to other objects.'|) (tptp.concept2words_2 X |tptp.'kinetic energy'|) (tptp.concept2words_2 X |tptp.'kinetic-energy'|) (tptp.energy_1 X) (tptp.constant_motion_1 _let_1) (tptp.tangible_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.possesses_2 _let_3 X) (tptp.object_2 _let_1 _let_3) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_kinetochore_25 X))) (let ((_let_2 (tptp.fn_chromosome_3 _let_1))) (let ((_let_3 (tptp.fn_protein_9 X))) (let ((_let_4 (tptp.fn_polymer_8 X))) (let ((_let_5 (tptp.fn_kinetochore_9 X))) (let ((_let_6 (tptp.fn_kinetochore_23 X))) (let ((_let_7 (tptp.fn_kinetochore_13 X))) (let ((_let_8 (tptp.fn_kinetochore_14 X))) (let ((_let_9 (tptp.fn_kinetochore_15 X))) (let ((_let_10 (tptp.fn_kinetochore_17 X))) (let ((_let_11 (tptp.fn_chromosome_8 _let_1))) (let ((_let_12 (tptp.fn_kinetochore_1 X))) (let ((_let_13 (tptp.fn_chromosome_4 _let_1))) (let ((_let_14 (tptp.fn_kinetochore_2 X))) (let ((_let_15 (tptp.fn_chromosome_6 _let_1))) (let ((_let_16 (tptp.fn_kinetochore_24 X))) (let ((_let_17 (tptp.fn_chromosome_5 _let_1))) (let ((_let_18 (tptp.fn_kinetochore_26 X))) (let ((_let_19 (tptp.fn_kinetochore_10 X))) (let ((_let_20 (tptp.fn_kinetochore_12 X))) (let ((_let_21 (tptp.fn_kinetochore_16 X))) (let ((_let_22 (tptp.fn_kinetochore_18 X))) (let ((_let_23 (tptp.fn_kinetochore_21 X))) (let ((_let_24 (tptp.fn_kinetochore_20 X))) (let ((_let_25 (tptp.fn_kinetochore_19 X))) (let ((_let_26 (tptp.fn_kinetochore_11 X))) (let ((_let_27 (tptp.fn_kinetochore_22 X))) (let ((_let_28 (tptp.fn_kinetochore_8 X))) (=> (tptp.kinetochore_1 X) (and (tptp.original_name_2 X |tptp.'Kinetochore'|) (tptp.user_description_2 X |tptp.'A complex of proteins on the centromere of a chromatid, where the mitotic spindle attaches during mitosis or meiosis.'|) (tptp.concept2words_2 X tptp.kinetochore) (tptp.protein_1 X) (tptp.coil_1 _let_12) (tptp.entity_1 _let_14) (tptp.dna_1 _let_14) (tptp.length_value_1 _let_28) (tptp.polypeptide_1 _let_5) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.monomer_1 _let_26) (tptp.carbon_1 _let_20) (tptp.protein_domain_1 _let_7) (tptp.hydrophilic_region_1 _let_8) (tptp.surface_1 _let_9) (tptp.carbon_skeleton_1 _let_21) (tptp.size_value_1 _let_10) (tptp.kinetic_energy_1 _let_22) (tptp.constant_motion_1 _let_25) (tptp.speed_value_1 _let_24) (tptp.quantity_value_1 _let_23) (tptp.size_value_1 _let_27) (tptp.spatial_entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.monomer_1 _let_6) (tptp.molecule_1 _let_6) (tptp.amino_acid_1 _let_6) (tptp.centromere_1 _let_16) (tptp.chromosome_1 _let_1) (tptp.dna_strand_1 _let_18) (tptp.dna_strand_1 _let_17) (tptp.centromere_1 _let_15) (tptp.entity_1 _let_13) (tptp.dna_1 _let_13) (tptp.coil_1 _let_11) (tptp.protein_1 _let_2) (tptp.is_along_2 _let_16 X) (tptp.is_at_2 X _let_18) (tptp.is_along_2 X _let_16) (tptp.the_cardinal_value_2 _let_28 |"0.5e0"|) (tptp.cardinal_unit_class_2 _let_28 tptp.micrometer_0) (tptp.greater_than_2 _let_10 _let_27) (tptp.length_2 X _let_28) (tptp.has_part_2 X _let_26) (tptp.size_2 _let_26 _let_27) (tptp.possesses_2 X _let_22) (tptp.quantity_2 _let_22 _let_23) (tptp.directly_proportional_2 _let_24 _let_23) (tptp.speed_2 _let_25 _let_24) (tptp.object_2 _let_25 X) (tptp.has_part_2 X _let_19) (not (= _let_19 _let_20)) (tptp.is_inside_2 _let_20 _let_21) (tptp.has_region_2 X _let_21) (tptp.has_part_2 X _let_20) (not (= _let_20 _let_19)) (tptp.has_part_2 _let_14 _let_18) (tptp.has_part_2 _let_1 X) (tptp.agent_2 _let_12 X) (tptp.object_2 _let_12 _let_14) (tptp.has_part_2 _let_1 _let_14) (tptp.has_region_2 _let_1 _let_16) (tptp.is_at_2 _let_8 _let_9) (tptp.has_region_2 X _let_9) (tptp.size_2 X _let_10) (tptp.the_scalar_value_2 _let_10 tptp.big_0) (tptp.scalar_unit_class_2 _let_10 tptp.polypeptide_0) (tptp.has_part_2 X _let_5) (tptp.has_part_2 _let_5 _let_6) (tptp.is_at_2 _let_6 _let_7) (tptp.has_region_2 X _let_7) (tptp.has_region_2 X _let_8) (= _let_10 _let_4) (= (tptp.fn_kinetochore_7 X) (tptp.fn_polymer_2 X)) (= _let_28 (tptp.fn_polymer_3 X)) (= (tptp.fn_kinetochore_6 X) (tptp.fn_polymer_10 X)) (= _let_27 (tptp.fn_polymer_7 X)) (= _let_26 (tptp.fn_polymer_4 X)) (= (tptp.fn_kinetochore_4 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_kinetochore_5 X) (tptp.fn_molecule_2 X)) (= _let_25 (tptp.fn_molecule_8 X)) (= _let_24 (tptp.fn_molecule_3 X)) (= _let_23 (tptp.fn_molecule_4 X)) (= _let_22 (tptp.fn_molecule_12 X)) (= _let_21 (tptp.fn_organic_molecule_3 X)) (= _let_20 (tptp.fn_organic_molecule_1 X)) (= _let_19 (tptp.fn_organic_molecule_2 X)) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= X _let_2) (= (tptp.fn_kinetochore_3 X) (tptp.fn_protein_10 X)) (= _let_10 _let_3) (= _let_9 (tptp.fn_protein_5 X)) (= _let_8 (tptp.fn_protein_1 X)) (= _let_7 (tptp.fn_protein_7 X)) (= _let_6 (tptp.fn_protein_14 X)) (= _let_5 (tptp.fn_protein_8 X)) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_kinetochore_microtubule_1 X))) (let ((_let_2 (tptp.fn_kinetochore_microtubule_2 X))) (=> (tptp.kinetochore_microtubule_1 X) (and (tptp.original_name_2 X |tptp.'Kinetochore-Microtubule'|) (tptp.user_description_2 X |tptp.'Kinetochore microtubule is a microtubule which attach to kinetochore during cell division and helps in segregation of chromosomes and chromatids in their respective daughter cells'|) (tptp.concept2words_2 X |tptp.'microtubule of kinetochore'|) (tptp.concept2words_2 X |tptp.'kinetochore microtubule'|) (tptp.concept2words_2 X |tptp.'kinetochore-microtubule'|) (tptp.microtubule_1 X) (not (tptp.nonkinetochore_microtubule_1 X)) (tptp.end_1 _let_1) (tptp.end_1 _let_2) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_1) (tptp.called_2 _let_2 |tptp.'E1'|) (tptp.called_2 _let_1 |tptp.'E2'|)))))) (forall ((X $$unsorted)) (=> (tptp.kinetoplastid_1 X) (and (tptp.original_name_2 X |tptp.'Kinetoplastid'|) (tptp.user_description_2 X |tptp.'One of a group of flagellated protozoans, distinguished by the presence of a DNA-containing granule located inside the single large mitochondrion. Many kinetoplastids, such as trypanosomes, cause disease in humans and other animals.'|) (tptp.concept2words_2 X tptp.kinetoplastid) (tptp.euglenozoan_1 X) (not (tptp.euglena_1 X)) (not (tptp.euglenid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.kingdom_1 X) (and (tptp.original_name_2 X |tptp.'Kingdom'|) (tptp.user_description_2 X |tptp.'In Linnean taxonomy, the category above phylum and below domain.'|) (tptp.concept2words_2 X tptp.kingdom) (tptp.taxon_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_klinefelter_syndrome_11 X))) (let ((_let_2 (tptp.fn_person_11 _let_1))) (let ((_let_3 (tptp.fn_klinefelter_syndrome_12 X))) (let ((_let_4 (tptp.fn_klinefelter_syndrome_10 X))) (let ((_let_5 (tptp.fn_klinefelter_syndrome_2 X))) (let ((_let_6 (tptp.fn_klinefelter_syndrome_6 X))) (let ((_let_7 (tptp.fn_klinefelter_syndrome_7 X))) (let ((_let_8 (tptp.fn_klinefelter_syndrome_8 X))) (let ((_let_9 (tptp.fn_klinefelter_syndrome_5 X))) (let ((_let_10 (tptp.fn_klinefelter_syndrome_3 X))) (=> (tptp.klinefelter_syndrome_1 X) (and (tptp.original_name_2 X |tptp.'Klinefelter-Syndrome'|) (tptp.user_description_2 X |tptp.'a condition in which human males have an extra (an aneuploidy) X sex chromosome.'|) (tptp.concept2words_2 X tptp.xxy) (tptp.concept2words_2 X |tptp.'syndrome of klinefelter'|) (tptp.concept2words_2 X |tptp.'klinefelter syndrome'|) (tptp.concept2words_2 X |tptp.'klinefelter-syndrome'|) (tptp.chromosomal_disorder_1 X) (not (tptp.achondroplasia_1 X)) (not (tptp.alkaptonuria_1 X)) (not (tptp.angelman_syndrome_1 X)) (not (tptp.cri_du_chat_syndrome_1 X)) (not (tptp.cystic_fibrosis_1 X)) (not (tptp.down_syndrome_1 X)) (not (tptp.huntingtons_disease_1 X)) (not (tptp.multifactorial_genetic_disorder_1 X)) (not (tptp.phenylketonuria_1 X)) (not (tptp.polydactyly_1 X)) (not (tptp.prader_willi_syndrome_1 X)) (not (tptp.sex_linked_human_genetic_disorder_1 X)) (not (tptp.sickle_cell_anemia_1 X)) (not (tptp.tay_sachs_disease_1 X)) (not (tptp.triple_x_1 X)) (not (tptp.turner_syndrome_1 X)) (tptp.person_1 _let_5) (tptp.fertility_value_1 _let_10) (tptp.size_value_1 _let_9) (tptp.x_chromosome_1 _let_6) (tptp.y_chromosome_1 _let_7) (tptp.sex_value_1 _let_8) (tptp.has_condition_1 _let_4) (tptp.person_1 _let_1) (tptp.testes_1 _let_3) (tptp.reproductive_organ_1 _let_2) (tptp.fertility_2 _let_5 _let_10) (tptp.the_categorical_value_2 _let_10 tptp.sterile_0) (tptp.size_2 _let_3 _let_9) (tptp.the_scalar_value_2 _let_9 tptp.undersized_0) (tptp.scalar_unit_class_2 _let_9 tptp.testes_0) (tptp.the_categorical_value_2 _let_8 tptp.male_0) (tptp.sex_2 _let_1 _let_8) (tptp.exactCardinality _let_1 tptp.has_part_0 |"2"| tptp.x_chromosome_0) (tptp.exactCardinality _let_1 tptp.has_part_0 |"1"| tptp.y_chromosome_0) (tptp.has_part_2 _let_1 _let_7) (tptp.has_part_2 _let_1 _let_6) (tptp.experiencer_2 _let_4 _let_1) (tptp.result_2 _let_4 _let_5) (tptp.object_2 _let_4 X) (tptp.has_part_2 _let_1 _let_3) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.km_class_1 X) (and (tptp.original_name_2 X |tptp.'KM-Class'|) (tptp.concept2words_2 X |tptp.'class of km'|) (tptp.concept2words_2 X |tptp.'km class'|) (tptp.concept2words_2 X |tptp.'km-class'|) (tptp.thing_1 X)))) (forall ((X $$unsorted)) (=> (tptp.km_slot_group_1 X) (and (tptp.original_name_2 X |tptp.'KM-Slot-Group'|) (tptp.concept2words_2 X |tptp.'km slot group'|) (tptp.concept2words_2 X |tptp.'km-slot-group'|) (tptp.slot_1 X)))) (forall ((X $$unsorted)) (=> (tptp.knee_jerk_reflex_1 X) (and (tptp.original_name_2 X |tptp.'Knee-Jerk-Reflex'|) (tptp.user_description_2 X |tptp.'Also called the patellar reflex. Occurs when the patellar tendon is suddenly and unexpectedly stretched. The sensory neuron detecting the stretch signals a motor neuron to rapidly counteract the stretch by commanding the quadriceps to contract, causing the lower leg to jerk forward.'|) (tptp.concept2words_2 X |tptp.'knee jerk reflex'|) (tptp.concept2words_2 X |tptp.'knee-jerk-reflex'|) (tptp.reflex_1 X) (not (tptp.swallowing_reflex_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_knob_5 X))) (let ((_let_2 (tptp.fn_knob_1 X))) (let ((_let_3 (tptp.fn_knob_3 X))) (let ((_let_4 (tptp.fn_phosphorylation_5 _let_2))) (let ((_let_5 (tptp.fn_knob_2 X))) (let ((_let_6 (tptp.fn_phosphorylation_2 _let_2))) (let ((_let_7 (tptp.fn_knob_4 X))) (=> (tptp.knob_1 X) (and (tptp.original_name_2 X |tptp.'Knob'|) (tptp.user_description_2 X |tptp.'Knob is a part of ATP Synthase'|) (tptp.concept2words_2 X |tptp.'catalytic knob'|) (tptp.concept2words_2 X |tptp.'catalytic-knob'|) (tptp.concept2words_2 X tptp.knob) (tptp.protein_enzyme_1 X) (tptp.phosphorylation_1 _let_2) (tptp.chemical_reaction_1 _let_2) (tptp.inorganic_phosphate_1 _let_5) (tptp.adp_1 _let_3) (tptp.atp_1 _let_7) (tptp.active_site_1 _let_1) (tptp.chemical_entity_1 _let_6) (tptp.chemical_entity_1 _let_4) (tptp.minCardinality X tptp.has_region_0 |"1"| tptp.active_site_0) (tptp.result_2 _let_2 _let_7) (tptp.raw_material_2 _let_2 _let_5) (tptp.has_function_2 X _let_2) (tptp.raw_material_2 _let_2 _let_3) (tptp.has_region_2 X _let_1) (tptp.facilitates_2 _let_1 _let_2) (tptp.site_2 _let_2 _let_1) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 (tptp.fn_enzyme_8 X)) (= _let_2 (tptp.fn_enzyme_4 X)) (= _let_1 (tptp.fn_enzyme_2 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.krill_1 X) (and (tptp.original_name_2 X |tptp.'Krill'|) (tptp.user_description_2 X |tptp.'Members of the order Euphausiacea. These shrimp-like marine crustaceans are found in all oceans and are an important component of pelagic food webs.'|) (tptp.concept2words_2 X tptp.krill) (tptp.crustacean_1 X) (not (tptp.barnacle_1 X)) (not (tptp.clawed_lobster_1 X)) (not (tptp.copepod_1 X)) (not (tptp.crayfish_1 X)) (not (tptp.decapod_1 X)) (not (tptp.isopod_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_krypton_11 X))) (let ((_let_2 (tptp.fn_krypton_14 X))) (let ((_let_3 (tptp.fn_krypton_12 X))) (let ((_let_4 (tptp.fn_krypton_13 X))) (let ((_let_5 (tptp.fn_krypton_5 X))) (let ((_let_6 (tptp.fn_krypton_6 X))) (let ((_let_7 (tptp.fn_krypton_7 X))) (let ((_let_8 (tptp.fn_krypton_4 X))) (=> (tptp.krypton_1 X) (and (tptp.original_name_2 X |tptp.'Krypton'|) (tptp.user_description_2 X |tptp.'Krypton is a non metal atom with atomic number 36. It is represented by the symbol Kr.'|) (tptp.concept2words_2 X |tptp.'Kr'|) (tptp.concept2words_2 X tptp.krypton) (tptp.inert_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"48"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"36"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"36"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"8"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"0"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"0"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"84"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"36"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"83.8"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.called_2 _let_4 |tptp.'Atomic_Number'|) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (tptp.called_2 _let_2 |tptp.'Number_Electron'|) (= (tptp.fn_krypton_9 X) (tptp.fn_atom_12 X)) (= (tptp.fn_krypton_8 X) (tptp.fn_atom_1 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_krypton_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_kudzu_1 X))) (let ((_let_2 (tptp.fn_kudzu_2 X))) (let ((_let_3 (tptp.fn_kudzu_3 X))) (=> (tptp.kudzu_1 X) (and (tptp.original_name_2 X |tptp.'Kudzu'|) (tptp.user_description_2 X |tptp.'The common name for one of five species of legumes in the genus Pueraria which are native to southern Japan and southeastern China. Inregions such as the souther United States, kudzu has been introduced intentionally and has become a noxious weed.'|) (tptp.concept2words_2 X |tptp.'kudzu vine'|) (tptp.concept2words_2 X |tptp.'kudzu-vine'|) (tptp.concept2words_2 X tptp.kudzu) (tptp.monocot_1 X) (tptp.environment_1 _let_1) (tptp.produce_1 _let_2) (tptp.produce_1 _let_3) (tptp.agent_2 _let_3 X) (tptp.agent_2 _let_2 X) (tptp.is_outside_2 _let_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.l1_sequence_1 X) (and (tptp.original_name_2 X |tptp.'L1-Sequence'|) (tptp.user_description_2 X |tptp.'A type of mobile DNA which can amplify itself and move within the genome.'|) (tptp.concept2words_2 X |tptp.'l1 gene sequence'|) (tptp.concept2words_2 X |tptp.'l1 gene'|) (tptp.concept2words_2 X |tptp.'line 1 sequence'|) (tptp.concept2words_2 X |tptp.'line-1-sequence'|) (tptp.concept2words_2 X |tptp.'line one sequence'|) (tptp.concept2words_2 X |tptp.'line-one-sequence'|) (tptp.concept2words_2 X |tptp.'l1 retrotransposon'|) (tptp.concept2words_2 X |tptp.'l1-retrotransposon'|) (tptp.concept2words_2 X |tptp.'line one retrotransposon'|) (tptp.concept2words_2 X |tptp.'line-one-retrotransposon'|) (tptp.concept2words_2 X |tptp.'long interspersed nuclear element'|) (tptp.concept2words_2 X |tptp.'long-interspersed-nuclear-element'|) (tptp.concept2words_2 X |tptp.'l1 sequence'|) (tptp.concept2words_2 X |tptp.'l1-sequence'|) (tptp.transposon_1 X)))) (forall ((X $$unsorted)) (=> (tptp.labia_majora_1 X) (and (tptp.original_name_2 X |tptp.'Labia-Majora'|) (tptp.user_description_2 X |tptp.'A pair of thick, cutaneous folds that extend from the mons pubis to the perineum.'|) (tptp.concept2words_2 X |tptp.'labia majora'|) (tptp.concept2words_2 X |tptp.'labia-majora'|) (tptp.stratified_squamous_epithelium_1 X) (not (tptp.proximal_tubule_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.labia_minora_1 X) (and (tptp.original_name_2 X |tptp.'Labia-Minora'|) (tptp.user_description_2 X |tptp.'A pair of flaps of skin surrounding the vaginal and urethral openings.'|) (tptp.concept2words_2 X |tptp.'labia minusa'|) (tptp.concept2words_2 X |tptp.'labia minora'|) (tptp.concept2words_2 X |tptp.'labia-minora'|) (tptp.stratified_squamous_epithelium_1 X) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.proximal_tubule_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.labor_1 X) (and (tptp.original_name_2 X |tptp.'Labor'|) (tptp.user_description_2 X |tptp.'A series of strong, repeated contractions that push a baby from the uterus.'|) (tptp.concept2words_2 X tptp.labor) (tptp.labor_and_delivery_1 X)))) (forall ((X $$unsorted)) (=> (tptp.labor_and_delivery_1 X) (and (tptp.original_name_2 X |tptp.'Labor-And-Delivery'|) (tptp.user_description_2 X |tptp.'The process of giving birth to offspring.'|) (tptp.concept2words_2 X |tptp.'labor and delivery'|) (tptp.concept2words_2 X |tptp.'labor-and-delivery'|) (tptp.female_reproductive_cycle_events_1 X)))) (forall ((X $$unsorted)) (=> (tptp.laboratory_1 X) (and (tptp.original_name_2 X |tptp.'Laboratory'|) (tptp.user_description_2 X |tptp.'A workplace for conducting scientificresearch.'|) (tptp.concept2words_2 X tptp.laboratory) (tptp.architectural_structure_1 X) (not (tptp.wall_1 X)) (not (tptp.room_1 X)) (not (tptp.roof_1 X)) (not (tptp.platform_1 X)) (not (tptp.parkinglot_1 X)) (not (tptp.door_1 X)) (not (tptp.ceiling_1 X)) (not (tptp.building_1 X)) (not (tptp.building_complex_1 X)) (not (tptp.bridge_1 X)) (not (tptp.electrical_power_plant_1 X)) (not (tptp.factory_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lac_operon_8 X))) (let ((_let_2 (tptp.fn_code_for_1 _let_1))) (let ((_let_3 (tptp.fn_lac_operon_9 X))) (let ((_let_4 (tptp.fn_camp_receptor_protein_with_cyclic_amp_19 _let_3))) (let ((_let_5 (tptp.fn_operon_19 X))) (let ((_let_6 (tptp.fn_lac_operon_16 X))) (let ((_let_7 (tptp.fn_attach_2 _let_6))) (let ((_let_8 (tptp.fn_lac_operon_15 X))) (let ((_let_9 (tptp.fn_attach_2 _let_8))) (let ((_let_10 (tptp.fn_lac_operon_22 X))) (let ((_let_11 (tptp.fn_nucleoside_6 _let_10))) (let ((_let_12 (tptp.fn_lac_operon_19 X))) (let ((_let_13 (tptp.fn_phosphodiester_bond_15 _let_12))) (let ((_let_14 (tptp.fn_phosphodiester_bond_16 _let_12))) (let ((_let_15 (tptp.fn_lac_operon_14 X))) (let ((_let_16 (tptp.fn_nucleoside_monophosphate_11 _let_15))) (let ((_let_17 (tptp.fn_deoxyribonucleotide_7 _let_15))) (let ((_let_18 (tptp.fn_lac_operon_18 X))) (let ((_let_19 (tptp.fn_organic_molecule_1 _let_18))) (let ((_let_20 (tptp.fn_organic_molecule_2 _let_18))) (let ((_let_21 (tptp.fn_lac_operon_10 X))) (let ((_let_22 (tptp.fn_lac_operon_12 X))) (let ((_let_23 (tptp.fn_lac_operon_13 X))) (let ((_let_24 (tptp.fn_nucleoside_20 _let_10))) (let ((_let_25 (tptp.fn_lac_operon_21 X))) (let ((_let_26 (tptp.fn_nucleoside_9 _let_10))) (let ((_let_27 (tptp.fn_lac_operon_5 X))) (let ((_let_28 (tptp.fn_lac_operon_20 X))) (let ((_let_29 (tptp.fn_gene_13 _let_21))) (let ((_let_30 (tptp.fn_nucleoside_monophosphate_11 _let_23))) (let ((_let_31 (tptp.fn_lac_operon_11 X))) (let ((_let_32 (tptp.fn_hydrolase_1 _let_31))) (let ((_let_33 (tptp.fn_lac_operon_6 X))) (let ((_let_34 (tptp.fn_enzyme_5 _let_31))) (let ((_let_35 (tptp.fn_lac_operon_7 X))) (let ((_let_36 (tptp.fn_lac_operon_17 X))) (let ((_let_37 (tptp.fn_code_for_2 _let_1))) (let ((_let_38 (tptp.fn_lac_operon_3 X))) (let ((_let_39 (tptp.fn_lac_operon_2 X))) (let ((_let_40 (tptp.fn_lac_operon_1 X))) (let ((_let_41 (tptp.fn_lac_operon_4 X))) (=> (tptp.lac_operon_1 X) (and (tptp.original_name_2 X |tptp.'Lac-Operon'|) (tptp.user_description_2 X |tptp.'A group of genes that regulates the synthesis of enzymes that take up and metabolize lactose.'|) (tptp.concept2words_2 X |tptp.'operon of lac'|) (tptp.concept2words_2 X |tptp.'lac operon'|) (tptp.concept2words_2 X |tptp.'lac-operon'|) (tptp.inducible_operon_1 X) (tptp.sugar_phosphate_backbone_1 _let_40) (tptp.laci_1 _let_39) (tptp.negative_gene_regulation_1 _let_38) (tptp.covalent_bond_1 _let_41) (tptp.carbon_skeleton_1 _let_27) (tptp.hydrolysis_1 _let_33) (tptp.decrease_1 _let_35) (tptp.code_for_1 _let_1) (tptp.camp_receptor_protein_with_cyclic_amp_1 _let_3) (tptp.gene_1 _let_21) (tptp.digestive_enzyme_1 _let_31) (tptp.operator_1 _let_22) (tptp.monomer_1 _let_23) (tptp.nucleoside_monophosphate_1 _let_23) (tptp.spatial_entity_1 _let_15) (tptp.deoxyribonucleotide_1 _let_15) (tptp.nucleoside_monophosphate_1 _let_15) (tptp.deoxyribonucleoside_monophosphate_1 _let_15) (tptp.attach_1 _let_8) (tptp.attach_1 _let_6) (tptp.number_5_prime_carbon_1 _let_36) (tptp.organic_molecule_1 _let_18) (tptp.nucleoside_1 _let_18) (tptp.phosphodiester_bond_1 _let_12) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.spatial_entity_1 _let_25) (tptp.molecule_1 _let_25) (tptp.organic_molecule_1 _let_25) (tptp.pentose_1 _let_25) (tptp.nucleoside_1 _let_10) (tptp.entity_1 _let_37) (tptp.decrease_1 _let_34) (tptp.hydrolysis_1 _let_32) (tptp.nucleoside_1 _let_30) (tptp.code_for_1 _let_29) (tptp.carbon_skeleton_1 _let_26) (tptp.spatial_entity_1 _let_24) (tptp.molecule_1 _let_24) (tptp.organic_molecule_1 _let_24) (tptp.pentose_1 _let_24) (tptp.atom_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.carbon_1 _let_19) (tptp.nucleoside_1 _let_17) (tptp.nucleoside_1 _let_16) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.carbon_1 _let_14) (tptp.entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.atom_1 _let_13) (tptp.carbon_1 _let_13) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_7) (tptp.lac_operon_1 _let_4) (tptp.entity_1 _let_2) (tptp.possesses_2 X _let_41) (tptp.has_region_2 X _let_40) (tptp.first_element_2 X _let_21) (tptp.next_element_2 _let_21 _let_22) (tptp.agent_2 _let_38 _let_39) (tptp.object_2 _let_38 X) (tptp.donor_2 _let_1 _let_21) (tptp.donor_2 _let_1 X) (tptp.enables_2 _let_35 _let_33) (tptp.result_2 _let_1 _let_31) (tptp.base_2 _let_8 _let_15) (tptp.base_2 _let_6 _let_15) (tptp.has_part_2 _let_18 _let_36) (tptp.object_2 _let_3 X) (tptp.has_function_2 _let_31 _let_35) (tptp.has_function_2 _let_31 _let_33) (tptp.has_part_2 _let_23 _let_10) (tptp.agent_2 _let_1 _let_21) (tptp.has_part_2 _let_15 _let_18) (tptp.agent_2 _let_1 X) (tptp.is_between_2 _let_12 _let_28) (tptp.has_part_2 _let_10 _let_25) (tptp.has_region_2 _let_25 _let_27) (tptp.is_inside_2 _let_28 _let_27) (tptp.has_part_2 X _let_23) (tptp.element_2 X _let_21) (tptp.next_element_2 _let_22 _let_21) (tptp.element_2 X _let_22) (tptp.has_part_2 X _let_15) (= _let_31 _let_37) (= _let_15 _let_9) (= _let_15 _let_7) (= _let_36 _let_20) (= _let_36 _let_19) (= X _let_4) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_10 _let_30) (= _let_1 _let_29) (= _let_18 _let_17) (= _let_18 _let_16) (= X _let_2) (= _let_28 _let_14) (= _let_28 _let_13) (= _let_28 _let_11) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 (tptp.fn_operon_10 X)) (= _let_15 _let_5) (= _let_22 (tptp.fn_operon_6 X)) (= _let_21 (tptp.fn_operon_14 X)) (= _let_20 _let_19) (= _let_19 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.negative_gene_regulation_1 X) (tptp.lac_operon_1 X1)) (and (tptp.lac_operon_regulation_1 X) (= (tptp.fn_lac_operon_regulation_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lac_operon_regulation_2 X))) (let ((_let_2 (tptp.fn_lac_operon_3 _let_1))) (=> (tptp.lac_operon_regulation_1 X) (and (tptp.original_name_2 X |tptp.'Lac-Operon-Regulation'|) (tptp.user_description_2 X |tptp.'Regulation of the lac operon mediated by the LacI gene.'|) (tptp.concept2words_2 X |tptp.'regulation of the lac operon'|) (tptp.concept2words_2 X |tptp.'negative regulation of lac operon'|) (tptp.concept2words_2 X tptp.regulate) (tptp.concept2words_2 X |tptp.'lac operon regulation'|) (tptp.concept2words_2 X |tptp.'lac-operon-regulation'|) (tptp.negative_gene_regulation_1 X) (not (tptp.trp_operon_regulation_1 X)) (tptp.lac_operon_1 _let_1) (tptp.negative_gene_regulation_1 _let_2) (tptp.object_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_regulatory_gene_1 X))) (let ((_let_2 (tptp.fn_laci_2 X))) (let ((_let_3 (tptp.fn_repressor_7 _let_2))) (let ((_let_4 (tptp.fn_laci_9 X))) (let ((_let_5 (tptp.fn_laci_10 X))) (let ((_let_6 (tptp.fn_laci_3 X))) (let ((_let_7 (tptp.fn_laci_4 X))) (let ((_let_8 (tptp.fn_laci_1 X))) (let ((_let_9 (tptp.fn_laci_5 X))) (let ((_let_10 (tptp.fn_laci_6 X))) (let ((_let_11 (tptp.fn_laci_7 X))) (let ((_let_12 (tptp.fn_laci_8 X))) (=> (tptp.laci_1 X) (and (tptp.original_name_2 X |tptp.'LacI'|) (tptp.user_description_2 X |tptp.'A regulatory gene coding for proteins involved in the metabolism of lactose in bacteria.'|) (tptp.concept2words_2 X |tptp.'regulatory gene for lac operon'|) (tptp.concept2words_2 X |tptp.'lac operon'|) (tptp.concept2words_2 X |tptp.'laci regulatory gene'|) (tptp.concept2words_2 X |tptp.'lac regulatory gene'|) (tptp.concept2words_2 X tptp.laci) (tptp.regulatory_gene_1 X) (not (tptp.gap_gene_1 X)) (not (tptp.master_control_gene_1 X)) (not (tptp.operon_1 X)) (not (tptp.sonic_hedgehog_factor_1 X)) (not (tptp.trpr_1 X)) (tptp.code_for_1 _let_8) (tptp.active_repressor_1 _let_2) (tptp.size_value_1 _let_6) (tptp.size_value_1 _let_7) (tptp.phosphodiester_bond_1 _let_9) (tptp.exon_1 _let_10) (tptp.intron_1 _let_11) (tptp.exon_1 _let_12) (tptp.monomer_1 _let_4) (tptp.monomer_1 _let_5) (tptp.code_for_1 _let_3) (tptp.result_2 _let_8 _let_2) (tptp.has_function_2 X _let_8) (tptp.agent_2 _let_8 X) (tptp.donor_2 _let_8 X) (= _let_8 _let_3) (= (tptp.fn_laci_11 X) (tptp.fn_regulatory_gene_12 X)) (= (tptp.fn_laci_12 X) (tptp.fn_regulatory_gene_13 X)) (= _let_12 (tptp.fn_regulatory_gene_9 X)) (= _let_11 (tptp.fn_regulatory_gene_8 X)) (= _let_10 (tptp.fn_regulatory_gene_7 X)) (= _let_9 (tptp.fn_regulatory_gene_6 X)) (= _let_8 _let_1) (= _let_7 (tptp.fn_regulatory_gene_5 X)) (= _let_6 (tptp.fn_regulatory_gene_4 X)) (= _let_5 (tptp.fn_regulatory_gene_11 X)) (= _let_4 (tptp.fn_regulatory_gene_10 X)) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactate_10 X))) (let ((_let_2 (tptp.fn_lactic_acid_1 _let_1))) (let ((_let_3 (tptp.fn_lactate_11 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_lactate_9 X))) (let ((_let_6 (tptp.fn_lactate_7 X))) (let ((_let_7 (tptp.fn_lactate_6 X))) (let ((_let_8 (tptp.fn_lactate_5 X))) (let ((_let_9 (tptp.fn_lactate_2 X))) (let ((_let_10 (tptp.fn_lactate_3 X))) (let ((_let_11 (tptp.fn_lactate_1 X))) (=> (tptp.lactate_1 X) (and (tptp.original_name_2 X |tptp.'Lactate'|) (tptp.user_description_2 X |tptp.'Lactate is a salt or ester of lactic acid.'|) (tptp.concept2words_2 X tptp.lactate) (tptp.organic_anion_1 X) (not (tptp.pyruvate_1 X)) (tptp.hydrogen_1 _let_11) (tptp.carbon_1 _let_9) (tptp.oxygen_1 _let_10) (tptp.gain_1 _let_8) (tptp.atom_1 _let_7) (tptp.charge_value_1 _let_6) (tptp.charge_value_1 _let_5) (tptp.lactic_acid_1 _let_1) (tptp.hydroxyl_group_1 _let_3) (tptp.chemical_entity_1 _let_4) (tptp.lactate_1 _let_2) (tptp.greater_than_or_equal_to_2 _let_6 _let_5) (tptp.the_cardinal_value_2 _let_5 |"-1.0e0"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.has_part_2 X _let_11) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.carbon_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.oxygen_0) (tptp.exactCardinality X tptp.has_part_0 |"5"| tptp.hydrogen_0) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_9) (tptp.has_region_2 X _let_3) (tptp.has_ion_2 _let_1 X) (tptp.has_state_2 _let_1 X) (tptp.base_2 _let_8 _let_7) (tptp.the_cardinal_value_2 _let_6 |"0"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.charge_2 X _let_5) (tptp.greater_than_2 _let_6 _let_5) (tptp.charge_2 _let_7 _let_6) (tptp.recipient_2 _let_8 _let_7) (tptp.result_2 _let_8 X) (= _let_10 (tptp.fn_polyatomic_ion_1 X)) (= _let_9 (tptp.fn_polyatomic_ion_2 X)) (= X _let_4) (= X _let_2) (= (tptp.fn_lactate_4 X) (tptp.fn_anion_3 X)) (= (tptp.fn_lactate_8 X) (tptp.fn_anion_7 X)) (= _let_8 (tptp.fn_anion_2 X)) (= _let_7 (tptp.fn_anion_5 X)) (= _let_6 (tptp.fn_anion_4 X)) (= _let_5 (tptp.fn_anion_6 X)) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lactation_1 X) (and (tptp.original_name_2 X |tptp.'Lactation'|) (tptp.user_description_2 X |tptp.'The production and secretion of milk from mammary glands to feed offspring.'|) (tptp.concept2words_2 X tptp.lactate) (tptp.concept2words_2 X tptp.lactation) (tptp.female_reproductive_cycle_events_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lacteal_1 X) (and (tptp.original_name_2 X |tptp.'Lacteal'|) (tptp.user_description_2 X |tptp.'A lymphatic capillary that extends into the center of an intestinal villus and absorbs dietary fats.'|) (tptp.concept2words_2 X tptp.lacteal) (tptp.endothelium_1 X) (not (tptp.labia_majora_1 X)) (not (tptp.alveolus_1 X)) (not (tptp.blood_brain_barrier_1 X)) (not (tptp.bowmans_capsule_1 X)) (not (tptp.bronchiole_1 X)) (not (tptp.bronchus_1 X)) (not (tptp.capillary_1 X)) (not (tptp.cervix_1 X)) (not (tptp.choroid_1 X)) (not (tptp.ciliary_body_1 X)) (not (tptp.collecting_duct_1 X)) (not (tptp.conjunctiva_1 X)) (not (tptp.cornea_1 X)) (not (tptp.corpus_luteum_1 X)) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.loop_of_henle_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.proximal_tubule_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_carboxylic_acid_6 X))) (let ((_let_2 (tptp.fn_organic_acid_11 X))) (let ((_let_3 (tptp.fn_carboxylic_acid_9 X))) (let ((_let_4 (tptp.fn_organic_acid_14 X))) (let ((_let_5 (tptp.fn_carboxylic_acid_4 X))) (let ((_let_6 (tptp.fn_organic_acid_10 X))) (let ((_let_7 (tptp.fn_carboxylic_acid_5 X))) (let ((_let_8 (tptp.fn_organic_acid_13 X))) (let ((_let_9 (tptp.fn_lactic_acid_10 X))) (let ((_let_10 (tptp.fn_lactic_acid_5 X))) (let ((_let_11 (tptp.fn_lactic_acid_11 X))) (let ((_let_12 (tptp.fn_lactic_acid_9 X))) (let ((_let_13 (tptp.fn_lactic_acid_8 X))) (let ((_let_14 (tptp.fn_lactic_acid_12 X))) (let ((_let_15 (tptp.fn_lactic_acid_2 X))) (let ((_let_16 (tptp.fn_lactic_acid_3 X))) (let ((_let_17 (tptp.fn_lactic_acid_7 X))) (let ((_let_18 (tptp.fn_lactic_acid_6 X))) (let ((_let_19 (tptp.fn_lactic_acid_4 X))) (let ((_let_20 (tptp.fn_functional_group_1 _let_19))) (let ((_let_21 (tptp.fn_lactic_acid_1 X))) (=> (tptp.lactic_acid_1 X) (and (tptp.original_name_2 X |tptp.'Lactic-Acid'|) (tptp.user_description_2 X |tptp.'Lactic acid is produced as a result of lactic acid fermentation in cells.'|) (tptp.concept2words_2 X |tptp.'lactic acid'|) (tptp.concept2words_2 X |tptp.'lactic-acid'|) (tptp.carboxylic_acid_1 X) (tptp.lactate_1 _let_21) (tptp.speed_value_1 _let_15) (tptp.quantity_value_1 _let_16) (tptp.hydroxyl_group_1 _let_19) (tptp.functional_group_1 _let_10) (tptp.carboxyl_group_1 _let_10) (tptp.carbon_skeleton_1 _let_18) (tptp.kinetic_energy_1 _let_17) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.oxygen_1 _let_13) (tptp.entity_1 _let_12) (tptp.tangible_entity_1 _let_12) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.oxygen_1 _let_12) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.carbon_1 _let_11) (tptp.constant_motion_1 _let_14) (tptp.chemical_entity_1 _let_20) (tptp.has_ion_2 X _let_21) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.carbon_0) (tptp.exactCardinality X tptp.has_part_0 |"6"| tptp.hydrogen_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.oxygen_0) (tptp.has_state_2 X _let_21) (tptp.has_region_2 X _let_19) (tptp.has_region_2 X _let_18) (not (= _let_9 _let_11)) (not (= _let_11 _let_9)) (not (= _let_12 _let_11)) (not (= _let_11 _let_12)) (tptp.has_part_2 X _let_13) (not (= _let_13 _let_11)) (tptp.is_inside_2 _let_11 _let_18) (not (= _let_12 _let_13)) (not (= _let_13 _let_12)) (not (= _let_11 _let_13)) (tptp.object_2 _let_14 X) (tptp.speed_2 _let_14 _let_15) (tptp.directly_proportional_2 _let_15 _let_16) (tptp.quantity_2 _let_17 _let_16) (tptp.possesses_2 X _let_17) (tptp.has_part_2 X _let_12) (tptp.is_inside_2 _let_12 _let_10) (tptp.is_inside_2 _let_13 _let_10) (not (= _let_9 _let_13)) (not (= _let_13 _let_9)) (tptp.has_part_2 X _let_9) (tptp.is_inside_2 _let_9 _let_10) (tptp.has_region_2 X _let_10) (tptp.has_part_2 X _let_11) (tptp.is_inside_2 _let_11 _let_10) (= X _let_20) (= (tptp.fn_lactic_acid_13 X) (tptp.fn_carboxylic_acid_26 X)) (= (tptp.fn_lactic_acid_14 X) (tptp.fn_carboxylic_acid_27 X)) (= _let_18 (tptp.fn_carboxylic_acid_10 X)) (= _let_17 (tptp.fn_carboxylic_acid_23 X)) (= _let_16 (tptp.fn_carboxylic_acid_20 X)) (= _let_15 (tptp.fn_carboxylic_acid_21 X)) (= _let_14 (tptp.fn_carboxylic_acid_22 X)) (= _let_13 _let_8) (= _let_13 _let_7) (= _let_12 _let_6) (= _let_12 _let_5) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_10 _let_2) (= _let_10 _let_1) (= _let_9 (tptp.fn_carboxylic_acid_11 X)) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactic_acid_fermentation_35 X))) (let ((_let_2 (tptp.fn_glycolysis_78 _let_1))) (let ((_let_3 (tptp.fn_lactic_acid_fermentation_20 X))) (let ((_let_4 (tptp.fn_oxidation_10 _let_3))) (let ((_let_5 (tptp.fn_lactic_acid_fermentation_51 X))) (let ((_let_6 (tptp.fn_redox_reaction_12 _let_5))) (let ((_let_7 (tptp.fn_fermentation_32 X))) (let ((_let_8 (tptp.fn_lactic_acid_fermentation_65 X))) (let ((_let_9 (tptp.fn_coenzyme_1 _let_8))) (let ((_let_10 (tptp.fn_lactic_acid_fermentation_64 X))) (let ((_let_11 (tptp.fn_electron_carrier_1 _let_10))) (let ((_let_12 (tptp.fn_chemical_reaction_1 _let_5))) (let ((_let_13 (tptp.fn_lactic_acid_fermentation_26 X))) (let ((_let_14 (tptp.fn_chemical_reaction_1 _let_13))) (let ((_let_15 (tptp.fn_lactic_acid_fermentation_31 X))) (let ((_let_16 (tptp.fn_nad_plus_1 _let_15))) (let ((_let_17 (tptp.fn_glycolysis_74 _let_1))) (let ((_let_18 (tptp.fn_fermentation_30 X))) (let ((_let_19 (tptp.fn_nad_plus_20 _let_15))) (let ((_let_20 (tptp.fn_glycolysis_27 _let_1))) (let ((_let_21 (tptp.fn_organic_molecule_1 _let_15))) (let ((_let_22 (tptp.fn_glycolysis_68 _let_1))) (let ((_let_23 (tptp.fn_glycolysis_69 _let_1))) (let ((_let_24 (tptp.fn_glycolysis_15 _let_1))) (let ((_let_25 (tptp.fn_glycolysis_16 _let_1))) (let ((_let_26 (tptp.fn_glycolysis_55 _let_1))) (let ((_let_27 (tptp.fn_oxidation_7 _let_3))) (let ((_let_28 (tptp.fn_redox_reaction_16 _let_5))) (let ((_let_29 (tptp.fn_lactic_acid_fermentation_38 X))) (let ((_let_30 (tptp.fn_synthesis_of_organic_molecule_1 _let_29))) (let ((_let_31 (tptp.fn_glycolysis_48 _let_1))) (let ((_let_32 (tptp.fn_glycolysis_80 _let_1))) (let ((_let_33 (tptp.fn_synthesis_of_atp_23 _let_29))) (let ((_let_34 (tptp.fn_glycolysis_5 _let_1))) (let ((_let_35 (tptp.fn_synthesis_of_atp_26 _let_29))) (let ((_let_36 (tptp.fn_glycolysis_73 _let_1))) (let ((_let_37 (tptp.fn_fermentation_49 X))) (let ((_let_38 (tptp.fn_glycolysis_57 _let_1))) (let ((_let_39 (tptp.fn_anabolic_pathway_6 _let_29))) (let ((_let_40 (tptp.fn_glycolysis_75 _let_1))) (let ((_let_41 (tptp.fn_fermentation_31 X))) (let ((_let_42 (tptp.fn_synthesis_of_atp_13 _let_29))) (let ((_let_43 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_44 (tptp.fn_glycolysis_35 _let_1))) (let ((_let_45 (tptp.fn_glycolysis_81 _let_1))) (let ((_let_46 (tptp.fn_synthesis_of_atp_22 _let_29))) (let ((_let_47 (tptp.fn_catabolic_pathway_2 X))) (let ((_let_48 (tptp.fn_glycolysis_20 _let_1))) (let ((_let_49 (tptp.fn_lactic_acid_fermentation_71 X))) (let ((_let_50 (tptp.fn_1_comma_3_bisphosphoglycerate_2 _let_49))) (let ((_let_51 (tptp.fn_glycolysis_79 _let_1))) (let ((_let_52 (tptp.fn_lactic_acid_fermentation_29 X))) (let ((_let_53 (tptp.fn_isomerization_reaction_1 _let_52))) (let ((_let_54 (tptp.fn_lactic_acid_fermentation_30 X))) (let ((_let_55 (tptp.fn_decomposition_reaction_2 _let_54))) (let ((_let_56 (tptp.fn_decomposition_reaction_4 _let_54))) (let ((_let_57 (tptp.fn_glycolysis_77 _let_1))) (let ((_let_58 (tptp.fn_fermentation_17 X))) (let ((_let_59 (tptp.fn_glycolysis_88 _let_1))) (let ((_let_60 (tptp.fn_fermentation_58 X))) (let ((_let_61 (tptp.fn_redox_reaction_11 _let_5))) (let ((_let_62 (tptp.fn_fermentation_23 X))) (let ((_let_63 (tptp.fn_redox_reaction_7 _let_5))) (let ((_let_64 (tptp.fn_oxidation_9 _let_3))) (let ((_let_65 (tptp.fn_fermentation_21 X))) (let ((_let_66 (tptp.fn_redox_reaction_2 _let_5))) (let ((_let_67 (tptp.fn_redox_reaction_13 _let_5))) (let ((_let_68 (tptp.fn_redox_reaction_10 _let_5))) (let ((_let_69 (tptp.fn_fermentation_24 X))) (let ((_let_70 (tptp.fn_redox_reaction_14 _let_5))) (let ((_let_71 (tptp.fn_oxidation_2 _let_3))) (let ((_let_72 (tptp.fn_fermentation_22 X))) (let ((_let_73 (tptp.fn_oxidation_1 _let_3))) (let ((_let_74 (tptp.fn_redox_reaction_15 _let_5))) (let ((_let_75 (tptp.fn_oxidation_5 _let_3))) (let ((_let_76 (tptp.fn_lactic_acid_fermentation_56 X))) (let ((_let_77 (tptp.fn_chemical_element_12 _let_76))) (let ((_let_78 (tptp.fn_chemical_element_11 _let_76))) (let ((_let_79 (tptp.fn_lactic_acid_fermentation_60 X))) (let ((_let_80 (tptp.fn_phosphate_group_22 _let_79))) (let ((_let_81 (tptp.fn_phosphate_group_5 _let_79))) (let 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_let_72) (= _let_143 _let_69) (= (tptp.fn_lactic_acid_fermentation_52 X) (tptp.fn_fermentation_6 X)) (= _let_3 _let_62) (= _let_122 _let_37) (= _let_152 (tptp.fn_fermentation_2 X)) (= _let_134 _let_60) (= _let_127 _let_41) (= _let_1 (tptp.fn_fermentation_33 X)) (= (tptp.fn_lactic_acid_fermentation_53 X) (tptp.fn_fermentation_5 X)) (= _let_151 (tptp.fn_fermentation_3 X)) (= _let_150 (tptp.fn_fermentation_1 X)) (= _let_15 _let_12) (= _let_15 _let_7) (= _let_5 (tptp.fn_fermentation_38 X)) (= _let_133 _let_58) (= _let_106 _let_4) (= _let_139 _let_65) (= _let_106 _let_18) (= _let_149 _let_75) (= _let_149 _let_74) (= _let_148 _let_73) (= _let_146 _let_71) (= _let_148 _let_67) (= (tptp.fn_lactic_acid_fermentation_17 X) _let_147) (= _let_146 _let_70) (= _let_145 _let_144) (= _let_49 _let_39) (= _let_120 _let_30) (= _let_132 _let_50) (= _let_143 _let_68) (= _let_142 _let_67) (= _let_142 _let_66) (= _let_141 _let_61) (= _let_140 _let_28) (= _let_140 _let_27) (= _let_15 _let_6) (= _let_15 _let_4) (= _let_120 _let_6) (= _let_120 _let_28) (= _let_139 _let_64) (= _let_120 _let_27) (= _let_139 _let_63) (= _let_3 _let_61) (= _let_138 _let_137) (= _let_109 _let_20) (= _let_136 _let_135) (= _let_134 _let_59) (= _let_119 _let_32) (= _let_133 _let_57) (= _let_132 _let_48) (= _let_131 _let_51) (= _let_129 _let_45) (= (tptp.fn_lactic_acid_fermentation_75 X) _let_130) (= _let_127 _let_43) (= _let_129 _let_47) (= _let_129 _let_46) (= _let_129 _let_44) (= _let_128 _let_123) (= _let_114 _let_24) (= _let_127 _let_42) (= _let_29 _let_25) (= _let_127 _let_40) (= _let_15 _let_2) (= _let_29 _let_22) (= _let_114 _let_23) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_49 _let_38) (= _let_122 _let_36) (= _let_121 _let_35) (= _let_119 _let_33) (= _let_121 _let_34) (= _let_120 _let_26) (= _let_119 _let_31) (= _let_106 _let_17) (= _let_118 _let_117) (= _let_29 _let_23) (= _let_116 _let_115) (= _let_114 _let_22) (= _let_113 _let_112) (= _let_109 _let_21) (= _let_111 _let_110) (= _let_109 _let_19) (= _let_108 _let_107) (= _let_106 _let_16) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_95 _let_94) (= _let_93 _let_92) (= _let_91 _let_90) (= _let_89 _let_88) (= (tptp.fn_lactic_acid_fermentation_54 X) _let_87) (= _let_86 _let_85) (= (tptp.fn_lactic_acid_fermentation_55 X) _let_84) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_78) (= _let_78 _let_78) (= _let_77 _let_77) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_67) (= _let_67 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_27) (= _let_27 _let_64) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_46) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_45 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_41 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_32) (= _let_32 _let_33) (= _let_33 _let_32) (= _let_32 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_let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactic_acid_fermentation_by_bacteria_69 X))) (let ((_let_2 (tptp.fn_nad_plus_1 _let_1))) (let ((_let_3 (tptp.fn_lactic_acid_fermentation_by_bacteria_71 X))) (let ((_let_4 (tptp.fn_glycolysis_74 _let_3))) (let ((_let_5 (tptp.fn_lactic_acid_fermentation_32 X))) (let ((_let_6 (tptp.fn_lactic_acid_fermentation_by_bacteria_108 X))) (let ((_let_7 (tptp.fn_oxidation_7 _let_6))) (let ((_let_8 (tptp.fn_oxidation_10 _let_6))) (let ((_let_9 (tptp.fn_lactic_acid_fermentation_by_bacteria_107 X))) (let ((_let_10 (tptp.fn_reducing_agent_2 _let_9))) (let ((_let_11 (tptp.fn_lactic_acid_fermentation_by_bacteria_127 X))) (let ((_let_12 (tptp.fn_nadh_5 _let_11))) (let ((_let_13 (tptp.fn_glycolysis_78 _let_3))) (let ((_let_14 (tptp.fn_lactic_acid_fermentation_31 X))) (let ((_let_15 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_let_1 _let_122) (tptp.possesses_2 _let_1 _let_124) (tptp.quantity_2 _let_124 _let_126) (tptp.directly_proportional_2 _let_128 _let_126) (tptp.has_part_2 _let_1 _let_118) (not (= _let_11 _let_1)) (not (= _let_1 _let_11)) (tptp.has_part_2 _let_11 _let_105) (tptp.has_part_2 _let_11 _let_107) (tptp.possesses_2 _let_11 _let_109) (tptp.quantity_2 _let_109 _let_111) (tptp.directly_proportional_2 _let_113 _let_111) (tptp.speed_2 _let_115 _let_113) (tptp.object_2 _let_115 _let_11) (tptp.has_region_2 _let_11 _let_103) (tptp.is_inside_2 _let_105 _let_103) (not (= _let_105 _let_107)) (tptp.has_reduced_form_2 _let_1 _let_11) (tptp.has_oxidized_form_2 _let_11 _let_1) (not (= _let_107 _let_105)) (= _let_136 _let_28) (= _let_136 _let_26) (= _let_205 _let_8) (= _let_204 _let_8) (= _let_191 _let_96) (= _let_87 (tptp.fn_metabolic_pathway_1 X)) (= _let_11 _let_10) (= _let_200 _let_101) (= _let_203 _let_7) (= _let_202 _let_7) (= _let_201 _let_7) (= _let_181 _let_7) (= _let_200 _let_100) (= _let_199 _let_198) (= _let_164 _let_80) (= _let_197 _let_196) (= _let_195 _let_194) (= _let_192 _let_99) (= _let_192 _let_98) (= _let_191 _let_94) (= _let_190 _let_92) (= _let_190 _let_91) (= _let_182 _let_89) (= _let_182 _let_88) (= _let_189 _let_188) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_110 X) _let_187) (= _let_186 _let_185) (= _let_184 _let_183) (= _let_135 _let_22) (= _let_182 _let_86) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_120 X) (tptp.fn_lactic_acid_fermentation_52 X)) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_121 X) (tptp.fn_lactic_acid_fermentation_53 X)) (= _let_181 _let_81) (= _let_153 _let_62) (= _let_145 _let_45) (= _let_156 _let_66) (= _let_180 (tptp.fn_lactic_acid_fermentation_30 X)) (= _let_179 (tptp.fn_lactic_acid_fermentation_3 X)) (= _let_178 (tptp.fn_lactic_acid_fermentation_4 X)) (= _let_177 (tptp.fn_lactic_acid_fermentation_29 X)) (= _let_157 _let_68) (= _let_27 _let_43) (= _let_176 _let_85) (= _let_176 _let_84) (= _let_25 _let_64) (= _let_159 _let_72) (= _let_174 _let_83) (= _let_175 _let_170) (= _let_174 _let_82) (= _let_173 _let_83) (= _let_173 _let_82) (= _let_172 _let_83) (= _let_144 _let_40) (= _let_171 _let_170) (= _let_139 _let_34) (= _let_169 (tptp.fn_lactic_acid_fermentation_5 X)) (= _let_153 _let_61) (= _let_168 (tptp.fn_lactic_acid_fermentation_46 X)) (= _let_167 (tptp.fn_lactic_acid_fermentation_45 X)) (= _let_166 (tptp.fn_lactic_acid_fermentation_27 X)) (= _let_95 (tptp.fn_lactic_acid_fermentation_14 X)) (= _let_149 _let_56) (= _let_11 _let_8) (= _let_136 _let_24) (= _let_11 _let_7) (= _let_11 _let_5) (= _let_165 _let_8) (= _let_165 _let_81) (= _let_1 _let_14) (= _let_142 _let_38) (= _let_164 _let_78) (= _let_3 _let_20) (= _let_3 _let_19) (= _let_18 _let_77) (= _let_18 _let_76) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_84 X) _let_163) (= _let_162 _let_75) (= _let_162 _let_74) (= X _let_161) (= _let_9 _let_160) (= _let_159 _let_73) (= _let_152 _let_58) (= _let_159 _let_71) (= _let_140 _let_36) (= _let_158 _let_70) (= _let_158 _let_69) (= _let_153 _let_60) (= _let_27 _let_42) (= _let_157 _let_67) (= _let_156 _let_65) (= _let_25 _let_63) (= _let_118 _let_16) (= _let_155 _let_154) (= _let_153 _let_59) (= _let_152 _let_57) (= _let_151 _let_150) (= _let_149 _let_55) (= _let_148 _let_54) (= _let_148 _let_53) (= _let_6 _let_52) (= _let_6 _let_51) (= _let_147 _let_50) (= _let_93 _let_47) (= _let_147 _let_49) (= _let_1 _let_8) (= _let_93 _let_48) (= _let_1 _let_7) (= _let_1 _let_13) (= _let_93 _let_46) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_49 X) _let_146) (= _let_137 _let_30) (= _let_145 _let_44) (= _let_27 _let_41) (= _let_144 _let_39) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_128 X) _let_143) (= _let_138 _let_32) (= _let_142 _let_37) (= _let_141 _let_36) (= _let_140 _let_35) (= _let_139 _let_33) (= _let_11 _let_4) (= _let_138 _let_31) (= _let_137 _let_29) (= _let_136 _let_23) (= _let_135 _let_21) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_123 X) _let_134) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_122 X) _let_133) (= _let_132 _let_131) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_120 _let_119) (= _let_118 _let_17) (= _let_118 _let_15) (= _let_11 _let_2) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_101 X) _let_117) (= (tptp.fn_lactic_acid_fermentation_by_bacteria_100 X) _let_116) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_1 _let_12) (= _let_101 _let_100) (= _let_100 _let_99) (= _let_99 _let_98) (= _let_98 _let_96) (= _let_96 _let_94) (= _let_94 _let_92) (= _let_92 _let_91) (= _let_91 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_88 _let_86) (= _let_86 _let_7) (= _let_7 _let_81) (= _let_81 _let_84) (= _let_84 _let_84) (= _let_84 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_8) (= _let_8 _let_81) (= _let_81 _let_80) (= _let_80 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_53) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_51) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_47) (= _let_47 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_7) (= _let_7 _let_8) (= _let_14 _let_7) (= _let_7 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactic_acid_fermentation_by_fungi_17 X))) (let ((_let_2 (tptp.fn_glycolysis_62 _let_1))) (let ((_let_3 (tptp.fn_glycolysis_63 _let_1))) (let ((_let_4 (tptp.fn_glycolysis_13 _let_1))) (let ((_let_5 (tptp.fn_lactic_acid_fermentation_by_fungi_22 X))) (let ((_let_6 (tptp.fn_substrate_level_phosphorylation_6 _let_5))) (let ((_let_7 (tptp.fn_lactic_acid_fermentation_by_fungi_23 X))) (let ((_let_8 (tptp.fn_substrate_level_phosphorylation_6 _let_7))) (let ((_let_9 (tptp.fn_substrate_level_phosphorylation_4 _let_5))) (let ((_let_10 (tptp.fn_substrate_level_phosphorylation_4 _let_7))) (let ((_let_11 (tptp.fn_glycolysis_70 _let_1))) (let ((_let_12 (tptp.fn_catabolic_pathway_6 X))) (let ((_let_13 (tptp.fn_glycolysis_75 _let_1))) (let ((_let_14 (tptp.fn_substrate_level_phosphorylation_5 _let_5))) (let ((_let_15 (tptp.fn_substrate_level_phosphorylation_5 _let_7))) (let ((_let_16 (tptp.fn_synthesis_of_atp_13 _let_7))) (let ((_let_17 (tptp.fn_synthesis_of_atp_13 _let_5))) (let ((_let_18 (tptp.fn_fermentation_31 X))) (let ((_let_19 (tptp.fn_glycolysis_69 _let_1))) (let ((_let_20 (tptp.fn_glycolysis_16 _let_1))) (let ((_let_21 (tptp.fn_glycolysis_15 _let_1))) (let ((_let_22 (tptp.fn_synthesis_of_organic_molecule_1 _let_5))) (let ((_let_23 (tptp.fn_glycolysis_77 _let_1))) (let ((_let_24 (tptp.fn_lactic_acid_fermentation_11 X))) (let ((_let_25 (tptp.fn_glycolysis_74 _let_1))) (let ((_let_26 (tptp.fn_lactic_acid_fermentation_32 X))) (let ((_let_27 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_28 (tptp.fn_glycolysis_80 _let_1))) (let ((_let_29 (tptp.fn_glycolysis_48 _let_1))) (let ((_let_30 (tptp.fn_substrate_level_phosphorylation_16 _let_5))) (let ((_let_31 (tptp.fn_synthesis_of_atp_23 _let_7))) (let ((_let_32 (tptp.fn_fermentation_48 X))) (let ((_let_33 (tptp.fn_glycolysis_81 _let_1))) (let ((_let_34 (tptp.fn_glycolysis_35 _let_1))) (let ((_let_35 (tptp.fn_substrate_level_phosphorylation_10 _let_5))) (let ((_let_36 (tptp.fn_synthesis_of_atp_22 _let_7))) (let ((_let_37 (tptp.fn_fermentation_50 X))) (let ((_let_38 (tptp.fn_catabolic_pathway_2 X))) (let ((_let_39 (tptp.fn_glycolysis_78 _let_1))) (let ((_let_40 (tptp.fn_lactic_acid_fermentation_31 X))) (let ((_let_41 (tptp.fn_glycolysis_88 _let_1))) (let ((_let_42 (tptp.fn_fermentation_58 X))) (let ((_let_43 (tptp.fn_glycolysis_55 _let_1))) (let ((_let_44 (tptp.fn_lactic_acid_fermentation_36 X))) (let ((_let_45 (tptp.fn_lactic_acid_fermentation_by_fungi_25 X))) (let ((_let_46 (tptp.fn_yogurt_5 _let_45))) (let ((_let_47 (tptp.fn_glycolysis_5 _let_1))) (let ((_let_48 (tptp.fn_substrate_level_phosphorylation_19 _let_5))) (let ((_let_49 (tptp.fn_synthesis_of_atp_26 _let_7))) (let ((_let_50 (tptp.fn_fermentation_61 X))) (let ((_let_51 (tptp.fn_glycolysis_108 _let_1))) (let ((_let_52 (tptp.fn_lactic_acid_fermentation_13 X))) (let ((_let_53 (tptp.fn_lactic_acid_fermentation_8 X))) (let ((_let_54 (tptp.fn_lactic_acid_fermentation_by_fungi_24 X))) (let ((_let_55 (tptp.fn_cheese_1 _let_54))) (let ((_let_56 (tptp.fn_yogurt_7 _let_45))) (let ((_let_57 (tptp.fn_lactic_acid_fermentation_33 X))) (let ((_let_58 (tptp.fn_lactic_acid_fermentation_20 X))) (let ((_let_59 (tptp.fn_lactic_acid_fermentation_34 X))) (let ((_let_60 (tptp.fn_lactic_acid_fermentation_by_fungi_34 X))) (let ((_let_61 (tptp.fn_fungal_cell_19 _let_60))) (let ((_let_62 (tptp.fn_catabolic_pathway_11 X))) (let ((_let_63 (tptp.fn_lactic_acid_fermentation_by_fungi_7 X))) (let ((_let_64 (tptp.fn_waste_1 _let_63))) (let ((_let_65 (tptp.fn_lactic_acid_fermentation_by_fungi_46 X))) (let ((_let_66 (tptp.fn_chemical_element_12 _let_65))) (let ((_let_67 (tptp.fn_chemical_element_11 _let_65))) (let ((_let_68 (tptp.fn_lactic_acid_fermentation_by_fungi_47 X))) (let ((_let_69 (tptp.fn_phosphate_group_22 _let_68))) (let ((_let_70 (tptp.fn_phosphate_group_5 _let_68))) (let ((_let_71 (tptp.fn_lactic_acid_fermentation_by_fungi_20 X))) (let ((_let_72 (tptp.fn_lactic_acid_fermentation_by_fungi_4 X))) (let ((_let_73 (tptp.fn_glycolysis_64 _let_1))) (let ((_let_74 (tptp.fn_lactic_acid_fermentation_by_fungi_16 X))) (let ((_let_75 (tptp.fn_glycolysis_68 _let_1))) (let ((_let_76 (tptp.fn_lactic_acid_fermentation_by_fungi_21 X))) (let ((_let_77 (tptp.fn_lactic_acid_fermentation_by_fungi_31 X))) (let ((_let_78 (tptp.fn_organic_molecule_1 _let_77))) (let ((_let_79 (tptp.fn_lactic_acid_fermentation_by_fungi_15 X))) (let ((_let_80 (tptp.fn_organic_molecule_2 _let_77))) (let ((_let_81 (tptp.fn_lactic_acid_fermentation_by_fungi_14 X))) (let ((_let_82 (tptp.fn_lactic_acid_fermentation_by_fungi_35 X))) (let ((_let_83 (tptp.fn_lactic_acid_fermentation_by_fungi_18 X))) (let ((_let_84 (tptp.fn_lactic_acid_fermentation_by_fungi_11 X))) (let ((_let_85 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(tptp.substrate_level_phosphorylation_1 _let_7) (tptp.anabolic_pathway_1 _let_7) (tptp.cheese_1 _let_54) (tptp.yogurt_1 _let_45) (tptp.lactate_1 _let_95) (tptp.lactate_1 _let_94) (tptp.produce_1 _let_113) (tptp.produce_1 _let_109) (tptp.organic_molecule_1 _let_90) (tptp.pyruvate_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.organic_molecule_1 _let_77) (tptp.molecule_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.ribonucleotide_1 _let_77) (tptp.nucleoside_triphosphate_1 _let_77) (tptp.atp_1 _let_77) (tptp.entity_1 _let_111) (tptp.chemical_entity_1 _let_111) (tptp.oxygen_1 _let_111) (tptp.atom_1 _let_111) (tptp.mixture_1 _let_104) (tptp.cytoplasm_1 _let_104) (tptp.cell_1 _let_60) (tptp.fungal_cell_1 _let_60) (tptp.chemical_entity_1 _let_82) (tptp.monosaccharide_1 _let_82) (tptp.glucose_1 _let_82) (tptp.aldehyde_1 _let_82) (tptp.carbohydrate_1 _let_82) (tptp.aldose_1 _let_82) (tptp.organic_molecule_1 _let_82) (tptp.chemical_reaction_1 _let_96) (tptp.redox_reaction_1 _let_96) (tptp.atom_1 _let_102) (tptp.electronegativity_value_1 _let_100) (tptp.electronegativity_value_1 _let_99) (tptp.atom_1 _let_98) (tptp.tangible_entity_1 _let_97) (tptp.electron_1 _let_97) (tptp.reduction_1 _let_103) (tptp.oxidation_1 _let_101) (tptp.electronegative_element_1 _let_65) (tptp.phosphate_group_1 _let_68) (tptp.atom_1 _let_110) (tptp.structural_complexity_value_1 _let_106) (tptp.organic_molecule_1 _let_105) (tptp.produce_1 _let_112) (tptp.produce_1 _let_108) (tptp.property_node_1 _let_91) (tptp.entity_1 _let_88) (tptp.chemical_entity_1 _let_88) (tptp.atom_1 _let_88) (tptp.carbon_1 _let_88) (tptp.atom_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.carbon_1 _let_78) (tptp.chemical_reaction_1 _let_75) (tptp.synthesis_of_atp_1 _let_75) (tptp.substrate_level_phosphorylation_1 _let_75) (tptp.anabolic_pathway_1 _let_75) (tptp.phosphorylation_1 _let_73) (tptp.oxygen_1 _let_70) (tptp.entity_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.atom_1 _let_70) (tptp.entity_1 _let_69) (tptp.chemical_entity_1 _let_69) (tptp.atom_1 _let_69) (tptp.oxygen_1 _let_69) (tptp.atom_1 _let_67) (tptp.atom_1 _let_66) (tptp.tangible_entity_1 _let_64) (tptp.mixture_1 _let_61) (tptp.cytoplasm_1 _let_61) (tptp.lactate_1 _let_56) (tptp.lactate_1 _let_55) (tptp.chemical_energy_1 _let_51) (tptp.property_node_1 _let_49) (tptp.property_node_1 _let_48) (tptp.property_node_1 _let_47) (tptp.pyruvate_1 _let_46) (tptp.pyruvate_1 _let_43) (tptp.chemical_entity_1 _let_43) (tptp.chemical_energy_1 _let_41) (tptp.spatial_entity_1 _let_39) (tptp.tangible_entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.organic_molecule_1 _let_39) (tptp.nad_plus_1 _let_39) (tptp.molecule_1 _let_39) (tptp.structural_complexity_value_1 _let_36) (tptp.structural_complexity_value_1 _let_35) (tptp.structural_complexity_value_1 _let_34) (tptp.structural_complexity_value_1 _let_33) (tptp.structural_complexity_value_1 _let_31) (tptp.structural_complexity_value_1 _let_30) (tptp.structural_complexity_value_1 _let_29) (tptp.structural_complexity_value_1 _let_28) (tptp.organic_molecule_1 _let_25) (tptp.nadh_1 _let_25) (tptp.molecule_1 _let_25) (tptp.chemical_entity_1 _let_23) (tptp.monosaccharide_1 _let_23) (tptp.glucose_1 _let_23) (tptp.aldehyde_1 _let_23) (tptp.carbohydrate_1 _let_23) (tptp.aldose_1 _let_23) (tptp.organic_molecule_1 _let_22) (tptp.chemical_reaction_1 _let_21) (tptp.synthesis_of_atp_1 _let_21) (tptp.substrate_level_phosphorylation_1 _let_21) (tptp.chemical_reaction_1 _let_20) (tptp.synthesis_of_atp_1 _let_20) (tptp.substrate_level_phosphorylation_1 _let_20) (tptp.synthesis_of_organic_molecule_1 _let_19) (tptp.chemical_reaction_1 _let_19) (tptp.synthesis_of_atp_1 _let_19) (tptp.substrate_level_phosphorylation_1 _let_19) (tptp.molecule_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.ribonucleotide_1 _let_17) (tptp.nucleoside_triphosphate_1 _let_17) (tptp.atp_1 _let_17) (tptp.molecule_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.ribonucleotide_1 _let_16) (tptp.nucleoside_triphosphate_1 _let_16) (tptp.atp_1 _let_16) (tptp.organic_molecule_1 _let_15) (tptp.molecule_1 _let_15) (tptp.chemical_entity_1 _let_15) (tptp.ribonucleotide_1 _let_15) (tptp.nucleoside_triphosphate_1 _let_15) (tptp.atp_1 _let_15) (tptp.organic_molecule_1 _let_14) (tptp.molecule_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.ribonucleotide_1 _let_14) (tptp.nucleoside_triphosphate_1 _let_14) (tptp.atp_1 _let_14) (tptp.organic_molecule_1 _let_13) (tptp.molecule_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.ribonucleotide_1 _let_13) (tptp.nucleoside_triphosphate_1 _let_13) (tptp.atp_1 _let_13) (tptp.activation_energy_1 _let_11) (tptp.organic_molecule_1 _let_10) (tptp.organic_molecule_1 _let_9) (tptp.adp_1 _let_8) (tptp.adp_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.adp_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.adp_1 _let_3) (tptp.molecule_1 _let_2) (tptp.organic_molecule_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.adp_1 _let_2) (tptp.possesses_2 _let_105 _let_87) (tptp.result_2 X _let_82) (tptp.result_2 X _let_95) (tptp.possesses_2 _let_115 _let_93) (not (= _let_111 _let_89)) (tptp.time_before_2 _let_116 _let_116) (tptp.by_means_of_2 _let_109 X) (tptp.by_means_of_2 _let_113 X) (not (= _let_94 _let_95)) (not (= _let_94 _let_86)) (tptp.possesses_2 _let_94 _let_93) (not (= _let_95 _let_94)) (tptp.time_during_2 _let_7 _let_116) (tptp.result_2 _let_7 _let_82) (tptp.time_during_2 _let_5 _let_116) (not (= _let_86 _let_94)) (tptp.result_2 _let_1 _let_115) (tptp.result_2 _let_1 _let_82) (tptp.raw_material_2 _let_1 _let_77) (not (= _let_114 _let_89)) (not (= _let_89 _let_114)) (not (= _let_89 _let_111)) (tptp.in_event_2 _let_63 X) (tptp.base_2 X _let_60) (tptp.plays_2 _let_107 _let_63) (tptp.is_inside_2 _let_111 _let_68) (tptp.result_2 _let_113 _let_54) (tptp.has_part_2 _let_54 _let_94) (tptp.has_part_2 _let_60 _let_104) (tptp.has_part_2 _let_65 _let_110) (tptp.same_type_2 _let_111 _let_110) (tptp.same_type_2 _let_110 _let_111) (tptp.result_2 _let_109 _let_45) (tptp.has_part_2 _let_45 _let_95) (not (= _let_90 _let_95)) (not (= _let_95 _let_90)) (tptp.raw_material_2 X _let_72) (tptp.result_2 X _let_107) (tptp.greater_than_2 _let_106 _let_85) (tptp.raw_material_2 X _let_105) (tptp.structural_complexity_2 _let_105 _let_106) (tptp.possesses_2 _let_77 _let_87) (tptp.result_2 X _let_77) (tptp.result_2 _let_5 _let_77) (tptp.subevent_2 _let_96 _let_103) (tptp.object_2 _let_101 _let_97) (tptp.possesses_2 _let_95 _let_93) (tptp.site_2 X _let_104) (tptp.recipient_2 _let_103 _let_90) (tptp.result_2 X _let_90) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_103 _let_97) (tptp.donor_2 _let_103 _let_83) (tptp.donor_2 _let_101 _let_83) (tptp.subevent_2 _let_96 _let_101) (tptp.result_2 _let_96 _let_94) (tptp.has_function_2 _let_90 _let_101) (tptp.recipient_2 _let_101 _let_90) (tptp.has_atom_2 _let_90 _let_102) (tptp.electronegativity_2 _let_102 _let_100) (tptp.subevent_2 X _let_96) (tptp.raw_material_2 _let_96 _let_90) (not (= _let_90 _let_97)) (not (= _let_94 _let_90)) (not (= _let_90 _let_94)) (not (= _let_97 _let_90)) (tptp.has_atom_2 _let_83 _let_98) (tptp.electronegativity_2 _let_98 _let_99) (tptp.greater_than_or_equal_to_2 _let_100 _let_99) (tptp.greater_than_2 _let_100 _let_99) (tptp.raw_material_2 X _let_82) (not (= _let_83 _let_82)) (not (= _let_90 _let_83)) (not (= _let_83 _let_90)) (not (= _let_82 _let_83)) (tptp.result_2 _let_1 _let_94) (tptp.first_subevent_2 X _let_1) (tptp.result_2 X _let_83) (not (= _let_97 _let_83)) (not (= _let_83 _let_97)) (tptp.raw_material_2 X _let_86) (tptp.result_2 _let_96 _let_86) (tptp.raw_material_2 _let_96 _let_83) (not (= _let_90 _let_86)) (not (= _let_86 _let_90)) (tptp.result_2 X _let_94) (not (= _let_94 _let_83)) (not (= _let_83 _let_95)) (not (= _let_83 _let_94)) (not (= _let_95 _let_83)) (not (= _let_86 _let_95)) (not (= _let_95 _let_86)) (tptp.result_2 _let_7 _let_77) (tptp.raw_material_2 _let_1 _let_86) (tptp.result_2 _let_5 _let_90) (tptp.result_2 _let_1 _let_83) (tptp.possesses_2 _let_83 _let_93) (tptp.structural_complexity_2 _let_90 _let_84) (tptp.result_2 _let_7 _let_90) (tptp.result_2 _let_1 _let_90) (tptp.result_2 _let_1 _let_77) (tptp.structural_complexity_2 _let_77 _let_85) (tptp.result_2 _let_7 _let_83) (tptp.has_oxidized_form_2 _let_83 _let_86) (tptp.has_part_2 _let_86 _let_89) (not (= _let_86 _let_83)) (not (= _let_83 _let_86)) (tptp.has_reduced_form_2 _let_86 _let_83) (tptp.raw_material_2 _let_1 _let_82) (tptp.structural_complexity_2 _let_82 _let_85) (tptp.structural_complexity_2 _let_86 _let_85) (tptp.possesses_2 _let_86 _let_87) (tptp.possesses_2 _let_82 _let_87) (not (= _let_7 _let_5)) (tptp.result_2 _let_5 _let_83) (tptp.structural_complexity_2 _let_83 _let_84) (tptp.greater_than_2 _let_85 _let_84) (tptp.the_scalar_value_2 _let_85 tptp.complex_0) (tptp.scalar_unit_class_2 _let_85 tptp.chemical_entity_0) (not (= _let_5 _let_7)) (not (= _let_71 _let_77)) (not (= _let_77 _let_71)) (not (= _let_71 _let_76)) (tptp.raw_material_2 _let_5 _let_71) (not (= _let_76 _let_71)) (tptp.raw_material_2 _let_1 _let_76) (tptp.raw_material_2 _let_74 _let_71) (tptp.subevent_2 _let_5 _let_74) (tptp.raw_material_2 _let_5 _let_76) (tptp.raw_material_2 _let_74 _let_76) (tptp.result_2 _let_74 _let_77) (not (= _let_76 _let_77)) (not (= _let_77 _let_76)) (tptp.raw_material_2 _let_7 _let_76) (tptp.subevent_2 _let_7 _let_74) (tptp.raw_material_2 _let_1 _let_72) (tptp.raw_material_2 _let_1 _let_71) (not (= _let_81 _let_79)) (not (= _let_79 _let_81)) (tptp.has_part_2 _let_77 _let_81) (tptp.has_part_2 _let_77 _let_79) (tptp.raw_material_2 _let_7 _let_71) (tptp.result_2 _let_5 _let_82) (= _let_60 (tptp.fn_metabolic_pathway_1 X)) (= _let_107 _let_64) (= _let_111 _let_70) (= _let_111 _let_69) (= _let_113 _let_112) (= _let_94 _let_55) (= _let_104 _let_61) (= _let_111 _let_67) (= _let_110 _let_67) (= _let_110 _let_66) (= _let_109 _let_108) (= _let_90 _let_46) (= _let_95 _let_56) (= _let_72 _let_12) (= _let_107 _let_62) (= _let_85 _let_38) (= (tptp.fn_lactic_acid_fermentation_by_fungi_51 X) (tptp.fn_catabolic_pathway_5 X)) (= _let_106 (tptp.fn_catabolic_pathway_4 X)) (= _let_105 (tptp.fn_catabolic_pathway_10 X)) (= _let_87 _let_42) (= _let_77 _let_17) (= _let_93 _let_52) (= _let_104 _let_59) (= _let_101 _let_58) (= _let_103 (tptp.fn_lactic_acid_fermentation_21 X)) (= (tptp.fn_lactic_acid_fermentation_by_fungi_44 X) (tptp.fn_lactic_acid_fermentation_17 X)) (= _let_102 (tptp.fn_lactic_acid_fermentation_22 X)) (= _let_101 _let_57) (= (tptp.fn_lactic_acid_fermentation_by_fungi_45 X) (tptp.fn_lactic_acid_fermentation_16 X)) (= _let_100 (tptp.fn_lactic_acid_fermentation_23 X)) (= _let_99 (tptp.fn_lactic_acid_fermentation_24 X)) (= _let_98 (tptp.fn_lactic_acid_fermentation_19 X)) (= _let_82 _let_24) (= _let_97 (tptp.fn_lactic_acid_fermentation_18 X)) (= _let_83 _let_27) (= _let_1 (tptp.fn_lactic_acid_fermentation_35 X)) (= _let_96 (tptp.fn_lactic_acid_fermentation_51 X)) (= _let_90 _let_44) (= _let_86 _let_40) (= _let_95 _let_53) (= _let_83 _let_26) (= _let_94 _let_53) (= _let_77 _let_15) (= _let_5 _let_21) (= _let_93 _let_51) (= _let_92 _let_50) (= _let_92 _let_49) (= _let_92 _let_48) (= _let_92 _let_47) (= _let_84 _let_29) (= (tptp.fn_lactic_acid_fermentation_by_fungi_12 X) _let_91) (= _let_77 _let_18) (= _let_77 _let_16) (= _let_85 _let_34) (= _let_90 _let_43) (= _let_89 _let_88) (= _let_87 _let_41) (= _let_86 _let_39) (= _let_82 _let_23) (= _let_85 _let_37) (= _let_84 _let_32) (= _let_85 _let_36) (= _let_84 _let_31) (= _let_85 _let_35) (= _let_84 _let_30) (= _let_85 _let_33) (= _let_84 _let_28) (= _let_83 _let_25) (= _let_82 _let_22) (= _let_71 _let_10) (= _let_71 _let_8) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_71 _let_9) (= _let_5 _let_20) (= _let_71 _let_4) (= _let_71 _let_6) (= _let_77 _let_14) (= _let_71 _let_3) (= _let_5 _let_19) (= _let_76 _let_2) (= _let_77 _let_13) (= _let_76 _let_3) (= _let_7 _let_75) (= _let_74 _let_73) (= _let_72 _let_11) (= _let_71 _let_2) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_67) (= _let_67 _let_67) (= _let_66 _let_66) (= _let_66 _let_67) (= _let_67 _let_66) (= _let_66 _let_64) (= _let_64 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_53) (= _let_53 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_36 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_14) (= _let_14 _let_16) (= _let_16 _let_15) (= _let_15 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_3) (= _let_3 _let_3) (= _let_3 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_9) (= _let_9 _let_6) (= _let_6 _let_6) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_2) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_29 X))) (let ((_let_2 (tptp.fn_animal_cell_21 _let_1))) (let ((_let_3 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_26 X))) (let ((_let_4 (tptp.fn_nad_plus_16 _let_3))) (let ((_let_5 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_34 X))) (let ((_let_6 (tptp.fn_phosphate_group_22 _let_5))) (let ((_let_7 (tptp.fn_phosphate_group_5 _let_5))) (let ((_let_8 (tptp.fn_nad_plus_20 _let_3))) (let ((_let_9 (tptp.fn_organic_molecule_1 _let_3))) (let ((_let_10 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_25 X))) (let ((_let_11 (tptp.fn_glycolysis_78 _let_10))) (let ((_let_12 (tptp.fn_lactic_acid_fermentation_31 X))) (let ((_let_13 (tptp.fn_nad_plus_1 _let_3))) (let ((_let_14 (tptp.fn_glycolysis_74 _let_10))) (let ((_let_15 (tptp.fn_lactic_acid_fermentation_32 X))) (let ((_let_16 (tptp.fn_animal_cell_47 _let_1))) (let ((_let_17 (tptp.fn_catabolic_pathway_10 X))) (let ((_let_18 (tptp.fn_catabolic_pathway_9 X))) (let ((_let_19 (tptp.fn_glycolysis_68 _let_10))) (let ((_let_20 (tptp.fn_glycolysis_15 _let_10))) (let ((_let_21 (tptp.fn_lactic_acid_fermentation_37 X))) (let ((_let_22 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_31 X))) (let ((_let_23 (tptp.fn_substrate_level_phosphorylation_6 _let_22))) (let ((_let_24 (tptp.fn_glycolysis_63 _let_10))) (let ((_let_25 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_18 X))) (let ((_let_26 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_let_10))) (let ((_let_44 (tptp.fn_lactic_acid_fermentation_13 X))) (let ((_let_45 (tptp.fn_fermentation_58 X))) (let ((_let_46 (tptp.fn_glycolysis_67 _let_10))) (let ((_let_47 (tptp.fn_lactic_acid_fermentation_39 X))) (let ((_let_48 (tptp.fn_glycolysis_55 _let_10))) (let ((_let_49 (tptp.fn_lactic_acid_fermentation_36 X))) (let ((_let_50 (tptp.fn_glycolysis_80 _let_10))) (let ((_let_51 (tptp.fn_glycolysis_48 _let_10))) (let ((_let_52 (tptp.fn_glycolysis_70 _let_10))) (let ((_let_53 (tptp.fn_catabolic_pathway_6 X))) (let ((_let_54 (tptp.fn_lactic_acid_fermentation_34 X))) (let ((_let_55 (tptp.fn_animal_cell_79 _let_1))) (let ((_let_56 (tptp.fn_muscle_cell_17 _let_1))) (let ((_let_57 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_37 X))) (let ((_let_58 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_35 X))) (let ((_let_59 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_36 X))) (let ((_let_60 (tptp.fn_nad_plus_14 _let_3))) (let ((_let_61 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_33 X))) (let ((_let_62 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_21 X))) (let ((_let_63 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_20 X))) (let ((_let_64 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_32 X))) (let ((_let_65 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_23 X))) (let ((_let_66 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_19 X))) (let ((_let_67 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_17 X))) (let ((_let_68 (tptp.fn_glycolysis_56 _let_10))) (let ((_let_69 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_47 X))) (let ((_let_70 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_46 X))) (let ((_let_71 (tptp.fn_glycolysis_79 _let_10))) (let ((_let_72 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_44 X))) (let ((_let_73 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_22 X))) (let ((_let_74 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_48 X))) (let ((_let_75 (tptp.fn_glycolysis_64 _let_10))) (let ((_let_76 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_30 X))) (let ((_let_77 (tptp.fn_glycolysis_5 _let_10))) (let ((_let_78 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_16 X))) (let ((_let_79 (tptp.fn_lactic_acid_fermentation_25 X))) (let ((_let_80 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_15 X))) (let ((_let_81 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_45 X))) (let ((_let_82 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_24 X))) (let ((_let_83 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_43 X))) (let ((_let_84 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_38 X))) (let ((_let_85 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_39 X))) (let ((_let_86 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_42 X))) (let ((_let_87 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_40 X))) (let ((_let_88 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_27 X))) (let ((_let_89 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_41 X))) (let ((_let_90 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((_let_104 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_9 X))) (let ((_let_105 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_8 X))) (let ((_let_106 (tptp.fn_lactic_acid_fermentation_in_muscle_cell_7 X))) (=> (tptp.lactic_acid_fermentation_in_muscle_cell_1 X) (and (tptp.original_name_2 X |tptp.'Lactic-Acid-Fermentation-In-Muscle-Cell'|) (tptp.user_description_2 X |tptp.'Lactic Acid fermentation occur in muscle cells during later stage of sternuous exercise because high rate of cellular respiration causes scarcity of oxygen.'|) (tptp.concept2words_2 X tptp.ferment) (tptp.concept2words_2 X tptp.convert) (tptp.concept2words_2 X |tptp.'lactic acid fermentation in muscle cell'|) (tptp.concept2words_2 X |tptp.'lactic-acid-fermentation-in-muscle-cell'|) (tptp.lactic_acid_fermentation_1 X) (tptp.chemical_entity_1 _let_95) (tptp.chemical_entity_1 _let_94) (tptp.chemical_entity_1 _let_96) (tptp.chemical_entity_1 _let_97) (tptp.chemical_entity_1 _let_98) (tptp.water_molecule_1 _let_99) (tptp.chemical_entity_1 _let_106) (tptp.chemical_entity_1 _let_105) (tptp.chemical_entity_1 _let_104) (tptp.chemical_entity_1 _let_103) (tptp.chemical_entity_1 _let_102) (tptp.chemical_entity_1 _let_101) (tptp.chemical_entity_1 _let_100) (tptp.chemical_entity_1 _let_90) (tptp.chemical_entity_1 _let_80) (tptp.activation_energy_1 _let_78) (tptp.chemical_energy_1 _let_67) (tptp.anabolic_pathway_1 _let_25) (tptp.chemical_reaction_1 _let_25) (tptp.synthesis_of_atp_1 _let_25) (tptp.substrate_level_phosphorylation_1 _let_25) (tptp.synthesis_of_organic_molecule_1 _let_25) (tptp.molecule_1 _let_66) (tptp.organic_molecule_1 _let_66) (tptp.chemical_entity_1 _let_66) (tptp.adp_1 _let_66) (tptp.molecule_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.organic_molecule_1 _let_63) (tptp.adp_1 _let_63) (tptp.spatial_entity_1 _let_62) (tptp.chemical_entity_1 _let_62) (tptp.organic_molecule_1 _let_62) (tptp.molecule_1 _let_62) (tptp.nadh_1 _let_62) (tptp.organic_molecule_1 _let_73) (tptp.pyruvate_1 _let_73) (tptp.chemical_entity_1 _let_73) (tptp.organic_molecule_1 _let_65) (tptp.molecule_1 _let_65) (tptp.chemical_entity_1 _let_65) (tptp.ribonucleotide_1 _let_65) (tptp.nucleoside_triphosphate_1 _let_65) (tptp.atp_1 _let_65) (tptp.lactate_1 _let_82) (tptp.glycolysis_1 _let_10) (tptp.spatial_entity_1 _let_3) (tptp.tangible_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.molecule_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.nad_plus_1 _let_3) (tptp.chemical_reaction_1 _let_88) (tptp.redox_reaction_1 _let_88) (tptp.mixture_1 _let_91) (tptp.cytoplasm_1 _let_91) (tptp.cell_1 _let_1) (tptp.muscle_cell_1 _let_1) (tptp.animal_cell_1 _let_1) (tptp.phosphorylation_1 _let_76) (tptp.synthesis_of_organic_molecule_1 _let_22) (tptp.chemical_reaction_1 _let_22) (tptp.synthesis_of_atp_1 _let_22) (tptp.anabolic_pathway_1 _let_22) (tptp.substrate_level_phosphorylation_1 _let_22) (tptp.chemical_entity_1 _let_64) (tptp.monosaccharide_1 _let_64) (tptp.glucose_1 _let_64) (tptp.aldehyde_1 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(tptp.free_energy_1 _let_92) (tptp.property_node_1 _let_77) (tptp.phosphorylation_1 _let_75) (tptp.organic_molecule_1 _let_71) (tptp.chemical_entity_1 _let_71) (tptp.molecule_1 _let_71) (tptp.glyceraldehyde_3_phosphate_1 _let_71) (tptp.enzymatic_reaction_1 _let_68) (tptp.phosphate_group_1 _let_60) (tptp.mixture_1 _let_56) (tptp.cytoplasm_1 _let_56) (tptp.mixture_1 _let_55) (tptp.cytoplasm_1 _let_55) (tptp.activation_energy_1 _let_52) (tptp.structural_complexity_value_1 _let_51) (tptp.structural_complexity_value_1 _let_50) (tptp.pyruvate_1 _let_48) (tptp.chemical_entity_1 _let_48) (tptp.isomerization_reaction_1 _let_46) (tptp.chemical_energy_1 _let_43) (tptp.chemical_energy_1 _let_42) (tptp.organic_molecule_1 _let_41) (tptp.organic_molecule_1 _let_40) (tptp.molecule_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.ribonucleotide_1 _let_39) (tptp.nucleoside_triphosphate_1 _let_39) (tptp.atp_1 _let_39) (tptp.molecule_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.ribonucleotide_1 _let_38) (tptp.nucleoside_triphosphate_1 _let_38) (tptp.atp_1 _let_38) (tptp.organic_molecule_1 _let_36) (tptp.molecule_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.ribonucleotide_1 _let_36) (tptp.nucleoside_triphosphate_1 _let_36) (tptp.atp_1 _let_36) (tptp.organic_molecule_1 _let_35) (tptp.molecule_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.ribonucleotide_1 _let_35) (tptp.nucleoside_triphosphate_1 _let_35) (tptp.atp_1 _let_35) (tptp.organic_molecule_1 _let_34) (tptp.molecule_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.ribonucleotide_1 _let_34) (tptp.nucleoside_triphosphate_1 _let_34) (tptp.atp_1 _let_34) (tptp.chemical_entity_1 _let_32) (tptp.monosaccharide_1 _let_32) (tptp.glucose_1 _let_32) (tptp.aldehyde_1 _let_32) (tptp.carbohydrate_1 _let_32) (tptp.aldose_1 _let_32) (tptp.organic_molecule_1 _let_31) (tptp.synthesis_of_organic_molecule_1 _let_29) (tptp.chemical_reaction_1 _let_29) (tptp.synthesis_of_atp_1 _let_29) (tptp.substrate_level_phosphorylation_1 _let_29) (tptp.organic_molecule_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.adp_1 _let_28) (tptp.molecule_1 _let_27) (tptp.organic_molecule_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.adp_1 _let_27) (tptp.adp_1 _let_26) (tptp.chemical_entity_1 _let_24) (tptp.organic_molecule_1 _let_24) (tptp.adp_1 _let_24) (tptp.adp_1 _let_23) (tptp.chemical_reaction_1 _let_20) (tptp.synthesis_of_atp_1 _let_20) (tptp.substrate_level_phosphorylation_1 _let_20) (tptp.chemical_reaction_1 _let_19) (tptp.synthesis_of_atp_1 _let_19) (tptp.substrate_level_phosphorylation_1 _let_19) (tptp.anabolic_pathway_1 _let_19) (tptp.spatial_entity_1 _let_16) (tptp.organic_molecule_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.organic_molecule_1 _let_14) (tptp.nadh_1 _let_14) (tptp.molecule_1 _let_14) (tptp.nadh_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.organic_molecule_1 _let_11) (tptp.nad_plus_1 _let_11) (tptp.molecule_1 _let_11) (tptp.carbon_1 _let_9) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.oxygen_1 _let_7) (tptp.entity_1 _let_7) (tptp.chemical_entity_1 _let_7) (tptp.atom_1 _let_7) (tptp.entity_1 _let_6) (tptp.chemical_entity_1 _let_6) (tptp.atom_1 _let_6) (tptp.oxygen_1 _let_6) (tptp.oxygen_1 _let_4) (tptp.entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.catabolic_pathway_1 _let_2) (not (= _let_90 _let_3)) (not (= _let_100 _let_3)) (not (= _let_100 _let_62)) (not (= _let_101 _let_3)) (not (= _let_101 _let_62)) (not (= _let_102 _let_3)) (not (= _let_102 _let_62)) (tptp.in_event_2 _let_93 X) (not (= _let_103 _let_3)) (not (= _let_103 _let_62)) (not (= _let_104 _let_3)) (not (= _let_104 _let_62)) (tptp.result_2 _let_22 _let_64) (not (= _let_105 _let_3)) (not (= _let_105 _let_62)) (not (= _let_3 _let_105)) (not (= _let_3 _let_104)) (not (= _let_3 _let_103)) (not (= _let_3 _let_102)) (not (= _let_3 _let_101)) (not (= _let_3 _let_100)) (not (= _let_3 _let_90)) (not (= _let_3 _let_106)) (not (= _let_3 _let_98)) (not (= _let_3 _let_97)) (not (= _let_3 _let_96)) (not (= _let_3 _let_95)) (not (= _let_3 _let_94)) (tptp.result_2 X _let_64) (tptp.result_2 _let_10 _let_64) (tptp.result_2 _let_10 _let_99) (tptp.raw_material_2 _let_10 _let_65) (not (= _let_106 _let_3)) (not (= _let_106 _let_62)) (not (= _let_62 _let_106)) (not (= _let_62 _let_105)) (not (= _let_62 _let_104)) (not (= _let_62 _let_103)) (not (= _let_62 _let_102)) (not (= _let_62 _let_101)) (not (= _let_62 _let_100)) (not (= _let_62 _let_98)) (not (= _let_62 _let_97)) (not (= _let_62 _let_96)) (not (= _let_62 _let_95)) (not (= _let_62 _let_94)) (tptp.possesses_2 _let_99 _let_67) (not (= _let_98 _let_62)) (not (= _let_98 _let_3)) (not (= _let_97 _let_62)) (not (= _let_97 _let_3)) (not (= _let_96 _let_62)) (not (= _let_96 _let_3)) (not (= _let_95 _let_62)) (not (= _let_95 _let_3)) (not (= _let_94 _let_3)) (not (= _let_94 _let_62)) (tptp.raw_material_2 _let_25 _let_66) (tptp.is_inside_2 _let_58 _let_5) (tptp.has_part_2 _let_1 _let_91) (tptp.base_2 X _let_1) (tptp.raw_material_2 X _let_62) (tptp.raw_material_2 X _let_78) (tptp.result_2 X _let_92) (tptp.plays_2 _let_92 _let_93) (tptp.result_2 X _let_65) (tptp.possesses_2 _let_65 _let_67) (tptp.result_2 _let_25 _let_65) (tptp.raw_material_2 _let_25 _let_63) (tptp.result_2 _let_88 _let_82) (tptp.site_2 X _let_91) (not (= _let_90 _let_62)) (not (= _let_62 _let_90)) (tptp.next_event_2 _let_70 _let_22) (tptp.next_event_2 _let_70 _let_25) (tptp.recipient_2 _let_89 _let_73) (tptp.subevent_2 _let_88 _let_89) (tptp.subevent_2 X _let_88) (tptp.subevent_2 X _let_10) (tptp.result_2 X _let_82) (tptp.result_2 X _let_73) (tptp.raw_material_2 _let_88 _let_73) (tptp.result_2 _let_88 _let_3) (tptp.raw_material_2 X _let_3) (tptp.donor_2 _let_86 _let_62) (tptp.subevent_2 _let_88 _let_86) (tptp.raw_material_2 _let_88 _let_62) (tptp.donor_2 _let_89 _let_62) (tptp.object_2 _let_89 _let_81) (tptp.result_2 _let_10 _let_82) (tptp.first_subevent_2 X _let_10) (tptp.result_2 X _let_62) (tptp.result_2 _let_22 _let_62) (tptp.next_event_2 _let_22 _let_70) (tptp.object_2 _let_86 _let_81) (tptp.recipient_2 _let_86 _let_73) (tptp.has_atom_2 _let_73 _let_87) (tptp.electronegativity_2 _let_87 _let_85) (not (= _let_62 _let_82)) (tptp.has_atom_2 _let_62 _let_83) (tptp.electronegativity_2 _let_83 _let_84) (tptp.greater_than_2 _let_85 _let_84) (tptp.greater_than_or_equal_to_2 _let_85 _let_84) (not (= _let_82 _let_62)) (not (= _let_81 _let_73)) (not (= _let_73 _let_82)) (tptp.possesses_2 _let_82 _let_67) (not (= _let_73 _let_81)) (not (= _let_82 _let_73)) (not (= _let_3 _let_82)) (not (= _let_82 _let_3)) (not (= _let_62 _let_73)) (not (= _let_81 _let_62)) (not (= _let_62 _let_81)) (not (= _let_73 _let_62)) (not (= _let_3 _let_73)) (not (= _let_73 _let_3)) (tptp.raw_material_2 X _let_64) (not (= _let_64 _let_62)) (not (= _let_62 _let_80)) (not (= _let_62 _let_64)) (not (= _let_80 _let_62)) (not (= _let_3 _let_80)) (not (= _let_80 _let_3)) (tptp.result_2 _let_22 _let_73) (tptp.raw_material_2 _let_70 _let_3) (tptp.raw_material_2 _let_10 _let_78) (tptp.result_2 _let_76 _let_65) (tptp.raw_material_2 _let_76 _let_63) (tptp.structural_complexity_2 _let_73 _let_74) (tptp.raw_material_2 _let_22 _let_66) (tptp.raw_material_2 _let_10 _let_66) (tptp.raw_material_2 _let_10 _let_63) (not (= _let_65 _let_63)) (not (= _let_63 _let_65)) (tptp.subevent_2 _let_25 _let_76) (tptp.next_event_2 _let_69 _let_25) (not (= _let_69 _let_70)) (tptp.result_2 _let_70 _let_62) (tptp.possesses_2 _let_62 _let_67) (not (= _let_70 _let_69)) (tptp.result_2 _let_69 _let_62) (tptp.next_event_2 _let_69 _let_22) (tptp.subevent_2 _let_22 _let_76) (tptp.raw_material_2 _let_76 _let_66) (not (= _let_66 _let_63)) (not (= _let_63 _let_66)) (tptp.result_2 _let_25 _let_62) (tptp.result_2 _let_25 _let_73) (tptp.result_2 _let_10 _let_73) (tptp.result_2 _let_10 _let_62) (tptp.structural_complexity_2 _let_62 _let_74) (tptp.raw_material_2 _let_69 _let_72) (not (= _let_62 _let_72)) (not (= _let_72 _let_62)) (not (= _let_3 _let_72)) (not (= _let_72 _let_3)) (tptp.next_event_2 _let_25 _let_70) (not (= _let_70 _let_25)) (not (= _let_22 _let_70)) (not (= _let_70 _let_22)) (not (= _let_25 _let_70)) (tptp.raw_material_2 _let_69 _let_3) (not (= _let_69 _let_25)) (not (= _let_25 _let_22)) (not (= _let_25 _let_69)) (not (= _let_22 _let_25)) (not (= _let_69 _let_22)) (not (= _let_22 _let_69)) (tptp.raw_material_2 _let_10 _let_3) (tptp.possesses_2 _let_3 _let_67) (tptp.possesses_2 _let_64 _let_67) (tptp.raw_material_2 _let_10 _let_64) (tptp.result_2 _let_10 _let_65) (tptp.result_2 _let_22 _let_65) (not (= _let_66 _let_65)) (not (= _let_65 _let_66)) (tptp.has_reduced_form_2 _let_3 _let_62) (tptp.has_oxidized_form_2 _let_62 _let_3) (not (= _let_3 _let_62)) (not (= _let_62 _let_3)) (tptp.has_part_2 _let_3 _let_57) (not (= _let_57 _let_58)) (not (= _let_58 _let_57)) (tptp.raw_material_2 _let_22 _let_63) (tptp.result_2 _let_25 _let_64) (= _let_66 _let_41) (= _let_58 _let_7) (= _let_58 _let_6) (= _let_91 _let_56) (= _let_91 _let_55) (= _let_62 _let_17) (= _let_62 _let_16) (= _let_1 (tptp.fn_metabolic_pathway_1 X)) (= X _let_2) (= _let_78 _let_53) (= _let_93 (tptp.fn_catabolic_pathway_7 X)) (= _let_92 (tptp.fn_catabolic_pathway_11 X)) (= _let_67 _let_45) (= _let_65 _let_37) (= _let_65 _let_39) (= (tptp.fn_lactic_acid_fermentation_in_muscle_cell_51 X) (tptp.fn_lactic_acid_fermentation_16 X)) (= _let_91 _let_54) (= _let_90 _let_79) (= _let_25 _let_30) (= _let_89 (tptp.fn_lactic_acid_fermentation_21 X)) (= _let_88 (tptp.fn_lactic_acid_fermentation_51 X)) (= _let_70 _let_47) (= _let_22 _let_21) (= _let_62 _let_18) (= _let_10 (tptp.fn_lactic_acid_fermentation_35 X)) (= (tptp.fn_lactic_acid_fermentation_in_muscle_cell_50 X) (tptp.fn_lactic_acid_fermentation_17 X)) (= _let_87 (tptp.fn_lactic_acid_fermentation_22 X)) (= _let_86 (tptp.fn_lactic_acid_fermentation_20 X)) (= _let_85 (tptp.fn_lactic_acid_fermentation_23 X)) (= _let_84 (tptp.fn_lactic_acid_fermentation_24 X)) (= _let_83 (tptp.fn_lactic_acid_fermentation_19 X)) (= _let_67 _let_44) (= _let_82 (tptp.fn_lactic_acid_fermentation_8 X)) (= _let_73 _let_49) (= _let_81 (tptp.fn_lactic_acid_fermentation_18 X)) (= _let_3 _let_12) (= _let_80 _let_79) (= _let_62 _let_15) (= _let_64 _let_33) (= _let_22 _let_20) (= _let_78 _let_52) (= (tptp.fn_lactic_acid_fermentation_in_muscle_cell_49 X) _let_77) (= _let_74 _let_51) (= _let_63 _let_28) (= _let_63 _let_26) (= _let_63 _let_27) (= _let_66 _let_40) (= _let_66 _let_24) (= _let_67 _let_43) (= _let_63 _let_24) (= _let_66 _let_27) (= _let_76 _let_75) (= _let_74 _let_50) (= _let_73 _let_48) (= _let_25 _let_19) (= _let_62 _let_14) (= _let_72 _let_71) (= _let_70 _let_46) (= _let_22 _let_19) (= _let_25 _let_29) (= _let_69 _let_68) (= _let_65 _let_36) (= _let_64 _let_32) (= _let_67 _let_42) (= _let_3 _let_11) (= _let_65 _let_35) (= _let_66 _let_26) (= _let_66 _let_23) (= _let_65 _let_38) (= _let_65 _let_34) (= _let_64 _let_31) (= _let_63 _let_23) (= _let_57 _let_9) (= _let_62 _let_13) (= _let_61 _let_60) (= _let_59 _let_4) (= _let_58 _let_4) (= _let_57 _let_8) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_24) (= _let_24 _let_40) (= _let_40 _let_24) (= _let_24 _let_24) (= _let_27 _let_23) (= _let_23 _let_26) (= _let_26 _let_23) (= _let_23 _let_37) (= _let_37 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_19) (= _let_29 _let_19) (= _let_19 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_24 _let_27) (= _let_27 _let_27) (= _let_27 _let_24) (= _let_24 _let_26) (= _let_26 _let_24) (= _let_24 _let_23) (= _let_23 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lactose_34 X))) (let ((_let_2 (tptp.fn_functional_group_1 _let_1))) (let ((_let_3 (tptp.fn_lactose_60 X))) (let ((_let_4 (tptp.fn_functional_group_1 _let_3))) (let ((_let_5 (tptp.fn_disaccharide_32 X))) (let ((_let_6 (tptp.fn_hydroxyl_group_6 _let_1))) (let ((_let_7 (tptp.fn_lactose_37 X))) (let ((_let_8 (tptp.fn_polar_covalent_bond_18 _let_7))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_7))) (let ((_let_10 (tptp.fn_lactose_59 X))) (let ((_let_11 (tptp.fn_share_1 _let_10))) (let ((_let_12 (tptp.fn_lactose_32 X))) (let ((_let_13 (tptp.fn_share_1 _let_12))) (let ((_let_14 (tptp.fn_lactose_31 X))) (let ((_let_15 (tptp.fn_share_1 _let_14))) (let ((_let_16 (tptp.fn_share_3 _let_10))) (let ((_let_17 (tptp.fn_share_3 _let_12))) (let ((_let_18 (tptp.fn_share_3 _let_14))) (let ((_let_19 (tptp.fn_lactose_26 X))) (let ((_let_20 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(tptp.result_2 _let_224 _let_7) (tptp.agent_2 _let_224 _let_218) (tptp.is_inside_2 _let_218 _let_3) (not (= _let_215 _let_218)) (not (= _let_218 _let_215)) (tptp.result_2 _let_217 _let_7) (tptp.is_between_2 _let_7 _let_19) (tptp.is_inside_2 _let_19 _let_1) (tptp.has_region_2 X _let_1) (tptp.has_part_2 X _let_219) (tptp.object_2 _let_220 X) (tptp.speed_2 _let_220 _let_221) (tptp.directly_proportional_2 _let_221 _let_222) (tptp.quantity_2 _let_223 _let_222) (tptp.possesses_2 X _let_223) (tptp.agent_2 _let_217 _let_19) (tptp.agent_2 _let_217 _let_218) (not (= _let_218 _let_219)) (not (= _let_19 _let_218)) (not (= _let_218 _let_19)) (not (= _let_219 _let_218)) (tptp.has_part_2 X _let_19) (not (= _let_19 _let_215)) (tptp.has_part_2 _let_215 _let_205) (tptp.object_2 _let_216 _let_205) (tptp.result_2 _let_216 _let_24) (not (= _let_215 _let_19)) (tptp.has_part_2 _let_208 _let_213) (not (= _let_214 _let_213)) (not (= _let_213 _let_214)) (tptp.object_2 _let_212 _let_207) (tptp.object_2 _let_212 _let_210) (tptp.is_inside_2 _let_210 _let_44) (tptp.is_inside_2 _let_207 _let_44) (tptp.is_between_2 _let_209 _let_207) (tptp.is_between_2 _let_209 _let_210) (not (= _let_208 _let_207)) (not (= _let_207 _let_208)) (tptp.object_2 _let_206 _let_205) (tptp.has_function_2 _let_7 _let_203) (tptp.agent_2 _let_203 _let_7) (tptp.result_2 _let_204 _let_7) (tptp.object_2 _let_204 _let_193) (not (= _let_193 _let_205)) (not (= _let_205 _let_193)) (tptp.has_region_2 _let_19 _let_195) (tptp.has_part_2 _let_19 _let_193) (tptp.has_region_2 _let_19 _let_197) (tptp.is_at_2 _let_192 _let_197) (tptp.has_region_2 _let_19 _let_192) (tptp.electronegativity_2 _let_19 _let_198) (tptp.the_cardinal_value_2 _let_198 |"2.1"|) (tptp.cardinal_unit_class_2 _let_198 tptp.unity_0) (tptp.has_part_2 _let_19 _let_190) (tptp.is_inside_2 _let_190 _let_192) (tptp.is_inside_2 _let_192 _let_195) (tptp.is_near_2 _let_193 _let_192) (tptp.is_near_2 _let_192 _let_193) (= _let_235 _let_158) (= _let_235 _let_157) (= _let_235 _let_155) (= _let_205 _let_42) (= _let_244 _let_186) (= _let_19 _let_18) (= _let_19 _let_15) (= _let_230 _let_130) (= _let_19 _let_17) (= _let_19 _let_13) (= _let_233 _let_149) (= _let_230 _let_128) (= _let_230 _let_118) (= _let_233 _let_148) (= _let_230 _let_126) (= _let_230 _let_133) (= _let_230 _let_124) (= _let_215 _let_80) (= _let_215 _let_79) (= _let_229 _let_103) (= _let_230 _let_123) (= _let_230 _let_132) (= _let_19 _let_16) (= _let_19 _let_11) (= _let_230 _let_121) (= _let_230 _let_131) (= _let_230 _let_119) (= _let_239 _let_178) (= _let_239 _let_177) (= _let_229 _let_101) (= _let_230 _let_116) (= _let_232 _let_144) (= _let_120 _let_174) (= _let_95 _let_171) (= _let_46 _let_162) (= _let_252 _let_188) (= _let_252 _let_187) (= _let_193 _let_25) (= _let_205 _let_41) (= _let_12 _let_251) (= _let_102 _let_175) (= _let_241 _let_65) (= _let_238 _let_175) (= _let_250 _let_168) (= _let_249 (tptp.fn_disaccharide_19 X)) (= _let_248 _let_170) (= _let_224 _let_36) (= _let_14 _let_36) (= (tptp.fn_lactose_65 X) _let_247) (= _let_198 _let_28) (= _let_246 _let_245) (= _let_10 _let_82) (= _let_78 _let_82) (= _let_237 _let_170) (= _let_46 _let_160) (= _let_218 _let_86) (= _let_218 _let_85) (= _let_218 _let_76) (= _let_24 _let_84) (= _let_206 _let_43) (= _let_100 _let_243) (= _let_244 _let_185) (= _let_244 _let_184) (= _let_176 _let_243) (= _let_230 _let_114) (= _let_230 _let_113) (= _let_143 _let_135) (= _let_216 _let_82) (= _let_7 _let_30) (= _let_218 _let_75) (= _let_242 _let_183) (= _let_242 _let_182) (= _let_229 _let_99) (= _let_229 _let_98) (= _let_229 _let_97) (= _let_95 _let_173) (= _let_91 _let_108) (= _let_91 _let_107) (= _let_91 _let_106) (= _let_91 _let_105) (= _let_91 _let_104) (= _let_231 _let_139) (= _let_231 _let_138) (= _let_95 _let_172) (= _let_93 _let_147) (= _let_93 _let_146) (= _let_93 _let_145) (= _let_120 _let_181) (= _let_241 _let_97) (= _let_240 _let_180) (= _let_240 _let_179) (= _let_232 _let_142) (= _let_232 _let_141) (= _let_233 _let_98) (= _let_230 _let_111) (= _let_233 _let_99) (= _let_233 _let_96) (= _let_230 _let_110) (= _let_239 _let_97) (= _let_229 _let_96) (= _let_238 _let_174) (= _let_112 _let_153) (= _let_95 _let_159) (= _let_112 _let_152) (= _let_112 _let_151) (= _let_46 _let_163) (= _let_44 _let_56) (= _let_44 _let_55) (= _let_44 _let_54) (= _let_44 _let_53) (= _let_44 _let_52) (= _let_214 _let_72) (= _let_209 _let_61) (= _let_237 _let_169) (= _let_213 _let_70) (= _let_213 _let_69) (= _let_213 _let_68) (= _let_236 _let_167) (= _let_236 _let_166) (= _let_236 _let_165) (= _let_208 _let_59) (= _let_208 _let_58) (= _let_236 _let_168) (= _let_236 _let_164) (= _let_207 _let_51) (= _let_210 _let_66) (= _let_210 _let_65) (= _let_207 _let_49) (= _let_210 _let_64) (= _let_210 _let_63) (= _let_210 _let_58) (= _let_210 _let_62) (= _let_207 _let_48) (= _let_46 _let_159) (= _let_207 _let_50) (= _let_207 _let_47) (= _let_229 _let_94) (= _let_235 _let_156) (= _let_235 _let_154) (= _let_122 _let_234) (= _let_112 _let_150) (= _let_125 _let_234) (= _let_233 _let_94) (= _let_232 _let_140) (= _let_231 _let_137) (= _let_143 _let_136) (= _let_230 _let_50) (= _let_143 _let_134) (= _let_230 _let_109) (= _let_229 _let_92) (= (tptp.fn_lactose_82 X) (tptp.fn_disaccharide_49 X)) (= (tptp.fn_lactose_83 X) (tptp.fn_disaccharide_50 X)) (= _let_161 (tptp.fn_disaccharide_26 X)) (= (tptp.fn_lactose_84 X) (tptp.fn_disaccharide_51 X)) (= _let_14 _let_90) (= _let_193 _let_22) (= _let_78 _let_37) (= _let_228 (tptp.fn_disaccharide_8 X)) (= _let_227 (tptp.fn_disaccharide_9 X)) (= X _let_4) (= _let_219 _let_89) (= _let_219 _let_88) (= _let_203 _let_33) (= _let_203 _let_35) (= _let_203 _let_34) (= _let_215 _let_76) (= _let_203 _let_32) (= _let_226 (tptp.fn_disaccharide_3 X)) (= _let_198 _let_27) (= _let_225 (tptp.fn_disaccharide_42 X)) (= _let_204 _let_37) (= _let_3 (tptp.fn_disaccharide_7 X)) (= _let_215 _let_74) (= _let_218 _let_73) (= _let_224 _let_81) (= X _let_2) (= _let_1 (tptp.fn_disaccharide_34 X)) (= _let_19 _let_9) (= _let_19 _let_8) (= _let_7 _let_29) (= _let_223 (tptp.fn_disaccharide_48 X)) (= _let_222 (tptp.fn_disaccharide_45 X)) (= _let_221 (tptp.fn_disaccharide_46 X)) (= _let_220 (tptp.fn_disaccharide_47 X)) (= _let_219 _let_87) (= _let_218 _let_74) (= _let_217 _let_90) (= _let_24 _let_83) (= _let_216 _let_81) (= _let_215 _let_77) (= _let_205 _let_40) (= _let_215 _let_8) (= _let_205 _let_39) (= _let_205 _let_38) (= _let_19 _let_6) (= _let_215 _let_75) (= _let_215 _let_73) (= _let_19 _let_5) (= _let_214 _let_71) (= _let_213 _let_67) (= _let_212 _let_211) (= _let_210 _let_57) (= _let_209 _let_60) (= _let_208 _let_57) (= _let_207 _let_45) (= _let_206 _let_36) (= _let_193 _let_23) (= _let_205 _let_21) (= _let_205 _let_23) (= _let_193 _let_21) (= _let_204 _let_36) (= _let_203 _let_31) (= (tptp.fn_lactose_54 X) _let_202) (= (tptp.fn_lactose_55 X) _let_201) (= _let_200 _let_199) (= _let_198 _let_26) (= _let_197 _let_196) (= _let_195 _let_194) (= _let_193 _let_20) (= _let_192 _let_191) (= _let_190 _let_189) (= _let_187 _let_187) (= _let_187 _let_188) (= _let_188 _let_187) (= _let_187 _let_186) (= _let_186 _let_185) (= _let_185 _let_185) (= _let_185 _let_184) (= _let_184 _let_183) (= _let_182 _let_183) (= _let_183 _let_182) (= _let_182 _let_174) (= _let_174 _let_181) (= _let_181 _let_97) (= _let_97 _let_65) (= _let_65 _let_97) (= _let_97 _let_180) (= _let_179 _let_180) (= _let_180 _let_179) (= _let_179 _let_178) (= _let_178 _let_177) (= _let_177 _let_177) (= _let_177 _let_97) (= _let_97 _let_97) (= _let_97 _let_175) (= _let_175 _let_174) (= _let_174 _let_174) (= _let_174 _let_171) (= _let_171 _let_173) (= _let_173 _let_172) (= _let_172 _let_171) (= _let_171 _let_171) (= _let_171 _let_159) (= _let_159 _let_170) (= _let_170 _let_169) (= _let_169 _let_169) (= _let_169 _let_167) (= _let_167 _let_167) (= _let_167 _let_168) (= _let_168 _let_167) (= _let_166 _let_167) (= _let_167 _let_166) (= _let_166 _let_166) (= _let_165 _let_166) (= _let_166 _let_165) (= _let_164 _let_165) (= _let_165 _let_165) (= _let_165 _let_164) (= _let_164 _let_164) (= _let_164 _let_162) (= _let_162 _let_163) (= _let_163 _let_162) (= _let_162 _let_162) (= _let_162 _let_160) (= _let_160 _let_160) (= _let_159 _let_160) (= _let_160 _let_159) (= _let_159 _let_159) (= _let_159 _let_158) (= _let_158 _let_157) (= _let_157 _let_155) (= _let_155 _let_156) (= _let_156 _let_155) (= _let_155 _let_154) (= _let_154 _let_154) (= _let_154 _let_152) (= _let_152 _let_153) (= _let_153 _let_152) (= _let_152 _let_152) (= _let_151 _let_152) (= _let_152 _let_151) (= _let_151 _let_151) (= _let_151 _let_150) (= _let_150 _let_150) (= _let_150 _let_149) (= _let_149 _let_148) (= _let_148 _let_98) (= _let_99 _let_99) (= _let_96 _let_99) (= _let_99 _let_96) (= _let_94 _let_147) (= _let_147 _let_146) (= _let_146 _let_146) (= _let_146 _let_145) (= _let_145 _let_144) (= _let_144 _let_142) (= _let_142 _let_142) (= _let_141 _let_142) (= _let_142 _let_141) (= _let_141 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_138 _let_137) (= _let_137 _let_137) (= _let_137 _let_135) (= _let_135 _let_136) (= _let_136 _let_135) (= _let_135 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_134 _let_130) (= _let_128 _let_126) (= _let_126 _let_133) (= _let_133 _let_124) (= _let_123 _let_132) (= _let_132 _let_121) (= _let_121 _let_131) (= _let_131 _let_119) (= _let_119 _let_130) (= _let_130 _let_128) (= _let_128 _let_118) (= _let_118 _let_126) (= _let_126 _let_124) (= _let_124 _let_123) (= _let_123 _let_121) (= _let_121 _let_119) (= _let_119 _let_116) (= _let_116 _let_118) (= _let_118 _let_116) (= _let_116 _let_114) (= _let_50 _let_114) (= _let_114 _let_114) (= _let_114 _let_50) (= _let_113 _let_50) (= _let_50 _let_113) (= _let_113 _let_113) (= _let_113 _let_111) (= _let_110 _let_111) (= _let_111 _let_111) (= _let_111 _let_110) (= _let_110 _let_110) (= _let_110 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_103) (= _let_103 _let_101) (= _let_101 _let_99) (= _let_98 _let_99) (= _let_99 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_96 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_94) (= _let_94 _let_94) (= _let_94 _let_92) (= _let_92 _let_92) (= _let_92 _let_36) (= _let_36 _let_90) (= _let_90 _let_82) (= _let_82 _let_37) (= _let_36 _let_81) (= _let_81 _let_89) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_88) (= _let_87 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_76) (= _let_74 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_77) (= _let_8 _let_77) (= _let_77 _let_77) (= _let_77 _let_8) (= _let_8 _let_76) (= _let_76 _let_8) (= _let_8 _let_75) (= _let_75 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_69) (= _let_68 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_65 _let_66) (= _let_66 _let_65) (= _let_64 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_58 _let_63) (= _let_63 _let_58) (= _let_62 _let_58) (= _let_58 _let_62) (= _let_62 _let_62) (= _let_62 _let_57) (= _let_57 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_50) (= _let_50 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_49 _let_50) (= _let_50 _let_49) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_47 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_43 _let_36) (= _let_36 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_41) (= _let_41 _let_21) (= _let_21 _let_40) (= _let_40 _let_21) (= _let_39 _let_21) (= _let_21 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_23) (= _let_23 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_18) (= _let_18 _let_15) (= _let_15 _let_17) (= _let_17 _let_13) (= _let_13 _let_16) (= _let_16 _let_11) (= _let_11 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lagging_strand_1 X) (and (tptp.original_name_2 X |tptp.'Lagging-strand'|) (tptp.user_description_2 X |tptp.'The lagging strand is that strand of the DNA double helix that is orientated in a 3_' to 5_' manner. Because of its orientation, opposite to the working orientation of DNA polymerase III which is in a 5_' to 3_' manner, replication of the lagging strand is more complicated than of the leading strand.On the lagging strand, primase reads the DNA and adds RNA to it in short, separated segments. In eukaryotes, primase is intrinsic to Pol ?. DNA polymerase III or Pol ? lengthens the primed segments, forming Okazaki fragments. Primer removal in eukaryotes is also performed by Pol ?. In prokaryotes, DNA polymerase I reads the fragments, removes the RNA using its flap endonuclease domain, and replaces the RNA nucleotides with DNA nucleotides (this is necessary because RNA and DNA use slightly different kinds of nucleotides). DNA ligase joins the fragments together'|) (tptp.concept2words_2 X |tptp.'strand of lagging'|) (tptp.concept2words_2 X |tptp.'lagging strand'|) (tptp.concept2words_2 X |tptp.'lagging-strand'|) (tptp.dna_strand_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammal_50 X))) (let ((_let_2 (tptp.fn_lagomorpha_5 X))) (let ((_let_3 (tptp.fn_coprophage_7 _let_2))) (let ((_let_4 (tptp.fn_lagomorpha_33 X))) (let ((_let_5 (tptp.fn_lagomorpha_11 X))) (let ((_let_6 (tptp.fn_lagomorpha_28 X))) (let ((_let_7 (tptp.fn_lagomorpha_9 X))) (let ((_let_8 (tptp.fn_lagomorpha_32 X))) (let ((_let_9 (tptp.fn_lagomorpha_31 X))) (let ((_let_10 (tptp.fn_lagomorpha_27 X))) (let ((_let_11 (tptp.fn_lagomorpha_6 X))) (let ((_let_12 (tptp.fn_lagomorpha_3 X))) (let ((_let_13 (tptp.fn_lagomorpha_26 X))) (let ((_let_14 (tptp.fn_lagomorpha_14 X))) (let ((_let_15 (tptp.fn_lagomorpha_25 X))) (let ((_let_16 (tptp.fn_lagomorpha_30 X))) (let ((_let_17 (tptp.fn_lagomorpha_17 X))) (let ((_let_18 (tptp.fn_lagomorpha_4 X))) (let ((_let_19 (tptp.fn_lagomorpha_24 X))) (let ((_let_20 (tptp.fn_lagomorpha_8 X))) (let ((_let_21 (tptp.fn_lagomorpha_22 X))) (let ((_let_22 (tptp.fn_lagomorpha_13 X))) (let ((_let_23 (tptp.fn_lagomorpha_23 X))) (let ((_let_24 (tptp.fn_lagomorpha_21 X))) (let ((_let_25 (tptp.fn_lagomorpha_7 X))) (let ((_let_26 (tptp.fn_lagomorpha_20 X))) (let ((_let_27 (tptp.fn_lagomorpha_19 X))) (let ((_let_28 (tptp.fn_lagomorpha_15 X))) (let ((_let_29 (tptp.fn_lagomorpha_18 X))) (let ((_let_30 (tptp.fn_lagomorpha_16 X))) (let ((_let_31 (tptp.fn_lagomorpha_10 X))) (let ((_let_32 (tptp.fn_lagomorpha_12 X))) (let ((_let_33 (tptp.fn_lagomorpha_29 X))) (let ((_let_34 (tptp.fn_coprophage_8 _let_2))) (=> (tptp.lagomorpha_1 X) (and (tptp.original_name_2 X |tptp.'Lagomorpha'|) (tptp.user_description_2 X |tptp.'Mammalian order that includes rabbits, hares, and pikas.'|) (tptp.concept2words_2 X tptp.lagomorpha) (tptp.mammal_1 X) (not (tptp.eutherian_1 X)) (not (tptp.insectivora_1 X)) (not (tptp.marsupial_1 X)) (not (tptp.monotreme_1 X)) (not (tptp.person_1 X)) (tptp.locomotion_1 _let_12) (tptp.take_in_1 _let_18) (tptp.coprophage_1 _let_2) (tptp.secretion_1 _let_11) (tptp.resource_1 _let_25) (tptp.move_1 _let_20) (tptp.specific_heat_value_1 _let_7) (tptp.temperature_value_1 _let_31) (tptp.store_1 _let_5) (tptp.circulatory_system_1 _let_32) (tptp.digestive_system_1 _let_22) (tptp.respiratory_system_1 _let_14) (tptp.lining_1 _let_28) (tptp.stomach_1 _let_30) (tptp.pharynx_1 _let_17) (tptp.esophagus_1 _let_29) (tptp.liver_1 _let_27) (tptp.pancreas_1 _let_26) (tptp.epithelium_1 _let_24) (tptp.tissue_1 _let_21) (tptp.bone_1 _let_21) (tptp.gallbladder_1 _let_23) (tptp.heart_1 _let_19) (tptp.trachea_1 _let_15) (tptp.lung_1 _let_13) (tptp.mammalian_cell_1 _let_10) (tptp.water_1 _let_6) (tptp.nutrition_1 _let_33) (tptp.abrade_1 _let_16) (tptp.move_through_1 _let_9) (tptp.abrade_1 _let_8) (tptp.container_1 _let_4) (tptp.entity_1 _let_34) (tptp.animal_1 _let_34) (tptp.nutrition_1 _let_3) (tptp.plays_2 X _let_2) (tptp.in_event_2 _let_2 _let_33) (tptp.called_2 _let_20 |tptp.'M3'|) (tptp.in_event_2 _let_25 _let_11) (tptp.next_element_2 _let_15 _let_13) (tptp.agent_2 _let_33 X) (tptp.element_2 _let_32 _let_19) (tptp.has_region_2 X _let_32) (tptp.has_region_2 X _let_14) (tptp.element_2 _let_22 _let_17) (tptp.has_region_2 X _let_22) (tptp.temperature_2 X _let_31) (tptp.correspondence_2 _let_31 _let_7) (tptp.has_part_2 X _let_17) (tptp.next_element_2 _let_17 _let_29) (tptp.element_2 _let_22 _let_29) (tptp.element_2 _let_22 _let_30) (tptp.has_part_2 X _let_30) (tptp.is_inside_2 _let_24 _let_28) (tptp.has_region_2 X _let_28) (tptp.has_part_2 X _let_29) (tptp.abuts_2 _let_30 _let_29) (tptp.abuts_2 _let_29 _let_30) (tptp.has_part_2 X _let_26) (tptp.element_2 _let_22 _let_26) (tptp.element_2 _let_22 _let_27) (tptp.has_part_2 X _let_27) (tptp.has_part_2 X _let_21) (tptp.base_2 _let_9 _let_22) (tptp.element_2 _let_22 _let_23) (tptp.has_part_2 X _let_23) (tptp.has_part_2 X _let_24) (tptp.plays_2 _let_24 _let_25) (tptp.agent_2 _let_18 X) (tptp.base_2 _let_18 X) (tptp.has_part_2 X _let_19) (tptp.origin_2 _let_20 _let_19) (tptp.destination_2 _let_20 _let_21) (tptp.enables_2 _let_9 _let_16) (tptp.path_2 _let_16 X) (tptp.has_part_2 X _let_15) (tptp.abuts_2 _let_17 _let_15) (tptp.abuts_2 _let_15 _let_17) (tptp.agent_2 _let_12 X) (tptp.object_2 _let_12 X) (tptp.has_part_2 X _let_13) (tptp.element_2 _let_14 _let_13) (tptp.element_2 _let_14 _let_15) (tptp.path_2 _let_8 X) (tptp.enables_2 _let_9 _let_8) (tptp.path_2 _let_9 X) (tptp.has_part_2 X _let_10) (tptp.base_2 _let_11 _let_10) (tptp.plays_2 X _let_4) (tptp.in_event_2 _let_4 _let_5) (tptp.base_2 _let_5 X) (tptp.has_part_2 X _let_6) (tptp.specific_heat_2 _let_6 _let_7) (= X _let_34) (= _let_33 _let_3) (= (tptp.fn_lagomorpha_1 X) (tptp.fn_mammal_100 X)) (= _let_33 _let_1) (= _let_32 (tptp.fn_mammal_77 X)) (= (tptp.fn_lagomorpha_2 X) (tptp.fn_mammal_99 X)) (= _let_31 (tptp.fn_mammal_90 X)) (= _let_30 (tptp.fn_mammal_91 X)) (= _let_29 (tptp.fn_mammal_93 X)) (= _let_28 (tptp.fn_mammal_3 X)) (= _let_27 (tptp.fn_mammal_94 X)) (= _let_26 (tptp.fn_mammal_95 X)) (= _let_25 (tptp.fn_mammal_6 X)) (= _let_24 (tptp.fn_mammal_2 X)) (= _let_23 (tptp.fn_mammal_60 X)) (= _let_22 (tptp.fn_mammal_78 X)) (= _let_21 (tptp.fn_mammal_61 X)) (= _let_20 (tptp.fn_mammal_65 X)) (= _let_19 (tptp.fn_mammal_18 X)) (= _let_18 (tptp.fn_mammal_97 X)) (= _let_17 (tptp.fn_mammal_92 X)) (= _let_16 (tptp.fn_mammal_79 X)) (= _let_15 (tptp.fn_mammal_84 X)) (= _let_14 (tptp.fn_mammal_83 X)) (= _let_13 (tptp.fn_mammal_85 X)) (= _let_12 (tptp.fn_mammal_98 X)) (= _let_11 (tptp.fn_mammal_88 X)) (= _let_10 (tptp.fn_mammal_75 X)) (= _let_9 (tptp.fn_mammal_80 X)) (= _let_8 (tptp.fn_mammal_39 X)) (= _let_7 (tptp.fn_mammal_89 X)) (= _let_6 (tptp.fn_mammal_76 X)) (= _let_5 (tptp.fn_mammal_82 X)) (= _let_4 (tptp.fn_mammal_81 X)) (= _let_3 _let_1)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lake_16 X))) (let ((_let_2 (tptp.fn_freezing_of_water_24 _let_1))) (let ((_let_3 (tptp.fn_aquatic_ecosystem_9 X))) (let ((_let_4 (tptp.fn_lake_36 X))) (let ((_let_5 (tptp.fn_freezing_of_water_24 _let_4))) (let ((_let_6 (tptp.fn_ecosystem_8 X))) (let ((_let_7 (tptp.fn_lake_13 X))) (let ((_let_8 (tptp.fn_cool_1 _let_7))) (let ((_let_9 (tptp.fn_freezing_of_water_9 _let_4))) (let ((_let_10 (tptp.fn_lake_15 X))) (let ((_let_11 (tptp.fn_water_83 _let_10))) (let ((_let_12 (tptp.fn_freezing_of_water_20 _let_4))) (let ((_let_13 (tptp.fn_water_98 _let_10))) (let ((_let_14 (tptp.fn_freezing_of_water_8 _let_4))) (let ((_let_15 (tptp.fn_water_78 _let_10))) (let ((_let_16 (tptp.fn_aquatic_ecosystem_11 X))) (let ((_let_17 (tptp.fn_aquatic_ecosystem_10 X))) (let ((_let_18 (tptp.fn_lake_14 X))) (let ((_let_19 (tptp.fn_water_107 _let_18))) (let ((_let_20 (tptp.fn_lake_44 X))) (let ((_let_21 (tptp.fn_water_78 _let_18))) (let ((_let_22 (tptp.fn_lake_48 X))) (let ((_let_23 (tptp.fn_water_98 _let_18))) (let ((_let_24 (tptp.fn_lake_43 X))) (let ((_let_25 (tptp.fn_water_14 _let_18))) (let ((_let_26 (tptp.fn_lake_41 X))) (let ((_let_27 (tptp.fn_water_101 _let_18))) (let ((_let_28 (tptp.fn_lake_50 X))) (let ((_let_29 (tptp.fn_water_96 _let_18))) (let ((_let_30 (tptp.fn_lake_38 X))) (let ((_let_31 (tptp.fn_water_94 _let_18))) (let ((_let_32 (tptp.fn_lake_45 X))) (let ((_let_33 (tptp.fn_water_83 _let_18))) (let ((_let_34 (tptp.fn_lake_42 X))) (let ((_let_35 (tptp.fn_water_87 _let_18))) (let ((_let_36 (tptp.fn_lake_47 X))) (let ((_let_37 (tptp.fn_water_93 _let_18))) (let ((_let_38 (tptp.fn_lake_40 X))) (let ((_let_39 (tptp.fn_water_97 _let_18))) (let ((_let_40 (tptp.fn_lake_37 X))) (let ((_let_41 (tptp.fn_water_89 _let_18))) (let ((_let_42 (tptp.fn_lake_39 X))) (let ((_let_43 (tptp.fn_water_88 _let_18))) (let ((_let_44 (tptp.fn_lake_46 X))) (let ((_let_45 (tptp.fn_water_95 _let_18))) (let ((_let_46 (tptp.fn_lake_49 X))) (let ((_let_47 (tptp.fn_water_76 _let_18))) (let ((_let_48 (tptp.fn_water_92 _let_18))) (let ((_let_49 (tptp.fn_freezing_of_water_6 _let_4))) (let ((_let_50 (tptp.fn_lake_34 X))) (let ((_let_51 (tptp.fn_freezing_of_water_21 _let_4))) (let ((_let_52 (tptp.fn_lake_35 X))) (let ((_let_53 (tptp.fn_lake_25 X))) (let ((_let_54 (tptp.fn_lake_24 X))) (let ((_let_55 (tptp.fn_freezing_of_water_11 _let_4))) (let ((_let_56 (tptp.fn_lake_22 X))) (let ((_let_57 (tptp.fn_freezing_of_water_7 _let_4))) (let ((_let_58 (tptp.fn_lake_33 X))) (let ((_let_59 (tptp.fn_freezing_of_water_12 _let_4))) (let ((_let_60 (tptp.fn_lake_18 X))) (let ((_let_61 (tptp.fn_freezing_of_water_10 _let_4))) (let ((_let_62 (tptp.fn_lake_23 X))) (let ((_let_63 (tptp.fn_lake_29 X))) (let ((_let_64 (tptp.fn_freezing_of_water_5 _let_4))) (let ((_let_65 (tptp.fn_lake_30 X))) (let ((_let_66 (tptp.fn_water_93 _let_10))) (let ((_let_67 (tptp.fn_lake_21 X))) (let ((_let_68 (tptp.fn_water_97 _let_10))) (let ((_let_69 (tptp.fn_lake_17 X))) (let ((_let_70 (tptp.fn_water_94 _let_10))) (let ((_let_71 (tptp.fn_lake_26 X))) (let ((_let_72 (tptp.fn_water_89 _let_10))) (let ((_let_73 (tptp.fn_lake_20 X))) (let ((_let_74 (tptp.fn_water_96 _let_10))) (let ((_let_75 (tptp.fn_lake_19 X))) (let ((_let_76 (tptp.fn_water_95 _let_10))) (let ((_let_77 (tptp.fn_lake_31 X))) (let ((_let_78 (tptp.fn_water_88 _let_10))) (let ((_let_79 (tptp.fn_lake_27 X))) (let ((_let_80 (tptp.fn_water_101 _let_10))) (let ((_let_81 (tptp.fn_lake_32 X))) (let ((_let_82 (tptp.fn_water_87 _let_10))) (let ((_let_83 (tptp.fn_lake_28 X))) (let ((_let_84 (tptp.fn_water_76 _let_10))) (let ((_let_85 (tptp.fn_water_92 _let_10))) (let ((_let_86 (tptp.fn_cool_4 _let_7))) (let ((_let_87 (tptp.fn_lake_10 X))) (let ((_let_88 (tptp.fn_cool_5 _let_7))) (let ((_let_89 (tptp.fn_lake_11 X))) (let ((_let_90 (tptp.fn_cool_2 _let_7))) (let ((_let_91 (tptp.fn_cool_3 _let_7))) (let ((_let_92 (tptp.fn_lake_12 X))) (let ((_let_93 (tptp.fn_lake_51 X))) (let ((_let_94 (tptp.fn_lake_7 X))) (let ((_let_95 (tptp.fn_lake_6 X))) (let ((_let_96 (tptp.fn_lake_4 X))) (let ((_let_97 (tptp.fn_lake_5 X))) (let ((_let_98 (tptp.fn_lake_3 X))) (let ((_let_99 (tptp.fn_lake_2 X))) (let ((_let_100 (tptp.fn_lake_1 X))) (=> (tptp.lake_1 X) (and (tptp.original_name_2 X |tptp.'Lake'|) (tptp.user_description_2 X |tptp.'A large body of water, often (but not always) freshwater, located within a land mass.'|) (tptp.concept2words_2 X tptp.lake) (tptp.aquatic_ecosystem_1 X) (not (tptp.ocean_1 X)) (tptp.pelagic_zone_1 _let_100) (tptp.benthic_zone_1 _let_99) (tptp.limnetic_zone_1 _let_98) (tptp.littoral_zone_1 _let_96) (tptp.shore_1 _let_97) (tptp.ground_1 _let_95) (tptp.surface_1 _let_94) (tptp.temperature_value_1 _let_87) (tptp.temperature_value_1 _let_89) (tptp.chemical_entity_1 _let_92) (tptp.cool_1 _let_7) (tptp.tangible_entity_1 _let_18) (tptp.liquid_substance_1 _let_18) (tptp.water_1 _let_18) (tptp.tangible_entity_1 _let_10) (tptp.liquid_substance_1 _let_10) (tptp.water_1 _let_10) (tptp.freezing_of_water_1 _let_1) (tptp.decrease_1 _let_69) (tptp.attract_1 _let_60) (tptp.thermal_energy_1 _let_75) (tptp.volume_value_1 _let_73) (tptp.temperature_value_1 _let_67) (tptp.surface_1 _let_56) (tptp.hydrogen_bond_1 _let_62) (tptp.entity_1 _let_54) (tptp.chemical_entity_1 _let_54) (tptp.spatial_entity_1 _let_54) (tptp.tangible_entity_1 _let_54) (tptp.polar_molecule_1 _let_54) (tptp.hydrophilic_compound_1 _let_54) (tptp.water_molecule_1 _let_54) (tptp.hydrophilic_compound_1 _let_53) (tptp.entity_1 _let_53) (tptp.spatial_entity_1 _let_53) (tptp.chemical_entity_1 _let_53) (tptp.tangible_entity_1 _let_53) (tptp.polar_molecule_1 _let_53) (tptp.water_molecule_1 _let_53) (tptp.lose_1 _let_71) (tptp.contract_1 _let_79) (tptp.expand_1 _let_83) (tptp.cohesion_1 _let_63) (tptp.attract_1 _let_63) (tptp.cohesion_1 _let_65) (tptp.attract_1 _let_65) (tptp.move_1 _let_77) (tptp.heat_1 _let_81) (tptp.heat_1 _let_58) (tptp.property_value_1 _let_50) (tptp.density_value_1 _let_50) (tptp.decrease_1 _let_52) (tptp.freezing_of_water_1 _let_4) (tptp.decrease_1 _let_40) (tptp.thermal_energy_1 _let_30) (tptp.volume_value_1 _let_42) (tptp.temperature_value_1 _let_38) (tptp.surface_1 _let_26) (tptp.spatial_entity_1 _let_34) (tptp.tangible_entity_1 _let_34) (tptp.polar_molecule_1 _let_34) (tptp.hydrophilic_compound_1 _let_34) (tptp.water_molecule_1 _let_34) (tptp.entity_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.polar_molecule_1 _let_24) (tptp.water_molecule_1 _let_24) (tptp.hydrogen_bond_1 _let_20) (tptp.lose_1 _let_32) (tptp.contract_1 _let_44) (tptp.expand_1 _let_36) (tptp.cohesion_1 _let_22) (tptp.attract_1 _let_22) (tptp.move_1 _let_46) (tptp.heat_1 _let_28) (tptp.chemical_entity_1 _let_93) (tptp.property_node_1 _let_91) (tptp.property_node_1 _let_90) (tptp.temperature_value_1 _let_88) (tptp.temperature_value_1 _let_86) (tptp.property_node_1 _let_85) (tptp.property_node_1 _let_84) (tptp.expand_1 _let_82) (tptp.heat_1 _let_80) (tptp.contract_1 _let_78) (tptp.move_1 _let_76) (tptp.thermal_energy_1 _let_74) (tptp.volume_value_1 _let_72) (tptp.lose_1 _let_70) (tptp.decrease_1 _let_68) (tptp.temperature_value_1 _let_66) (tptp.property_node_1 _let_64) (tptp.hydrogen_bond_1 _let_61) (tptp.attract_1 _let_59) (tptp.heat_1 _let_57) (tptp.surface_1 _let_55) (tptp.decrease_1 _let_51) (tptp.property_value_1 _let_49) (tptp.density_value_1 _let_49) (tptp.property_node_1 _let_48) (tptp.property_node_1 _let_47) (tptp.move_1 _let_45) (tptp.contract_1 _let_43) (tptp.volume_value_1 _let_41) (tptp.decrease_1 _let_39) (tptp.temperature_value_1 _let_37) (tptp.expand_1 _let_35) (tptp.spatial_entity_1 _let_33) (tptp.tangible_entity_1 _let_33) (tptp.polar_molecule_1 _let_33) (tptp.hydrophilic_compound_1 _let_33) (tptp.water_molecule_1 _let_33) (tptp.lose_1 _let_31) (tptp.thermal_energy_1 _let_29) (tptp.heat_1 _let_27) (tptp.surface_1 _let_25) (tptp.entity_1 _let_23) (tptp.spatial_entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.tangible_entity_1 _let_23) (tptp.polar_molecule_1 _let_23) (tptp.water_molecule_1 _let_23) (tptp.cohesion_1 _let_21) (tptp.attract_1 _let_21) (tptp.hydrogen_bond_1 _let_19) (tptp.cohesion_1 _let_15) (tptp.attract_1 _let_15) (tptp.cohesion_1 _let_14) (tptp.attract_1 _let_14) (tptp.entity_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.polar_molecule_1 _let_13) (tptp.water_molecule_1 _let_13) (tptp.entity_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.tangible_entity_1 _let_12) (tptp.polar_molecule_1 _let_12) (tptp.hydrophilic_compound_1 _let_12) (tptp.water_molecule_1 _let_12) (tptp.spatial_entity_1 _let_11) (tptp.tangible_entity_1 _let_11) (tptp.polar_molecule_1 _let_11) (tptp.hydrophilic_compound_1 _let_11) (tptp.water_molecule_1 _let_11) (tptp.hydrophilic_compound_1 _let_9) (tptp.entity_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.tangible_entity_1 _let_9) (tptp.polar_molecule_1 _let_9) (tptp.water_molecule_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.liquid_substance_1 _let_5) (tptp.water_1 _let_5) (tptp.liquid_substance_1 _let_2) (tptp.water_1 _let_2) (tptp.prevents_2 _let_4 _let_1) (tptp.instrument_2 _let_63 _let_62) (tptp.is_above_2 _let_100 _let_99) (tptp.element_2 X _let_95) (tptp.has_region_2 X _let_94) (tptp.has_region_2 X _let_98) (tptp.has_region_2 X _let_96) (tptp.has_region_2 X _let_97) (tptp.has_region_2 X _let_100) (tptp.has_region_2 X _let_99) (tptp.is_above_2 _let_99 _let_95) (tptp.abuts_2 _let_98 _let_96) (tptp.abuts_2 _let_96 _let_98) (tptp.is_near_2 _let_96 _let_97) (tptp.is_near_2 _let_97 _let_96) (tptp.called_2 _let_10 |"2"|) (tptp.is_at_2 _let_10 _let_94) (tptp.called_2 _let_18 |"1"|) (tptp.is_between_2 _let_18 _let_95) (tptp.is_between_2 _let_18 _let_94) (tptp.causes_2 _let_7 _let_1) (tptp.base_2 _let_7 _let_10) (tptp.element_2 X _let_10) (not (= _let_93 _let_18)) (not (= _let_18 _let_93)) (tptp.element_2 X _let_18) (not (= _let_18 _let_92)) (tptp.element_2 X _let_92) (tptp.element_2 X _let_93) (not (= _let_92 _let_18)) (tptp.object_2 _let_1 _let_18) (tptp.base_2 _let_1 _let_18) (tptp.causes_2 _let_81 _let_83) (tptp.base_2 _let_65 _let_10) (tptp.object_2 _let_65 _let_54) (tptp.agent_2 _let_65 _let_54) (tptp.object_2 _let_65 _let_53) (tptp.agent_2 _let_65 _let_53) (tptp.agent_2 _let_81 _let_75) (tptp.object_2 _let_81 _let_10) (tptp.base_2 _let_83 _let_10) (tptp.from_value_2 _let_83 _let_73) (tptp.from_value_2 _let_79 _let_73) (tptp.donor_2 _let_71 _let_10) (tptp.object_2 _let_71 _let_75) (tptp.agent_2 _let_77 _let_75) (tptp.object_2 _let_77 _let_10) (tptp.base_2 _let_79 _let_10) (tptp.temperature_2 _let_10 _let_67) (tptp.from_value_2 _let_69 _let_67) (tptp.by_means_of_2 _let_69 _let_71) (tptp.base_2 _let_71 _let_10) (tptp.volume_2 _let_10 _let_73) (tptp.called_2 _let_54 |"1"|) (tptp.instrument_2 _let_65 _let_62) (tptp.has_region_2 _let_10 _let_56) (tptp.base_2 _let_63 _let_10) (tptp.object_2 _let_63 _let_54) (tptp.agent_2 _let_63 _let_54) (tptp.object_2 _let_63 _let_53) (tptp.agent_2 _let_63 _let_53) (tptp.object_2 _let_58 _let_10) (tptp.inhibits_2 _let_60 _let_58) (tptp.object_2 _let_60 _let_54) (tptp.has_part_2 _let_10 _let_54) (tptp.possesses_2 _let_10 _let_62) (tptp.has_part_2 _let_10 _let_53) (tptp.is_at_2 _let_54 _let_56) (tptp.is_above_2 _let_56 _let_53) (tptp.same_type_2 _let_54 _let_53) (tptp.same_type_2 _let_53 _let_54) (tptp.object_2 _let_4 _let_10) (tptp.density_2 _let_10 _let_50) (tptp.from_value_2 _let_52 _let_50) (tptp.causes_2 _let_4 _let_52) (tptp.base_2 _let_4 _let_10) (tptp.agent_2 _let_22 _let_34) (tptp.from_value_2 _let_36 _let_42) (tptp.donor_2 _let_32 _let_18) (tptp.agent_2 _let_22 _let_24) (tptp.object_2 _let_22 _let_24) (tptp.called_2 _let_24 |"1"|) (tptp.volume_2 _let_18 _let_42) (tptp.from_value_2 _let_44 _let_42) (tptp.base_2 _let_44 _let_18) (tptp.object_2 _let_46 _let_18) (tptp.agent_2 _let_46 _let_30) (tptp.causes_2 _let_28 _let_36) (tptp.base_2 _let_36 _let_18) (tptp.temperature_2 _let_18 _let_38) (tptp.from_value_2 _let_40 _let_38) (tptp.by_means_of_2 _let_40 _let_32) (tptp.has_region_2 _let_18 _let_26) (tptp.is_above_2 _let_26 _let_34) (tptp.object_2 _let_22 _let_34) (tptp.same_type_2 _let_24 _let_34) (tptp.same_type_2 _let_34 _let_24) (tptp.object_2 _let_28 _let_18) (tptp.agent_2 _let_28 _let_30) (tptp.object_2 _let_32 _let_30) (tptp.base_2 _let_32 _let_18) (tptp.has_part_2 _let_18 _let_34) (tptp.possesses_2 _let_18 _let_20) (tptp.instrument_2 _let_22 _let_20) (tptp.base_2 _let_22 _let_18) (tptp.has_part_2 _let_18 _let_24) (tptp.is_at_2 _let_24 _let_26) (= _let_10 _let_8) (= _let_10 _let_6) (= _let_93 _let_17) (= _let_93 _let_16) (= _let_92 _let_17) (= _let_18 _let_3) (= _let_18 _let_2) (= (tptp.fn_lake_9 X) _let_91) (= (tptp.fn_lake_8 X) _let_90) (= _let_89 _let_88) (= _let_87 _let_86) (= (tptp.fn_lake_53 X) _let_85) (= (tptp.fn_lake_54 X) _let_84) (= _let_53 _let_11) (= _let_54 _let_13) (= _let_65 _let_15) (= _let_83 _let_82) (= _let_81 _let_80) (= _let_79 _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_66) (= _let_65 _let_14) (= (tptp.fn_lake_52 X) _let_64) (= _let_63 _let_14) (= _let_62 _let_61) (= _let_60 _let_59) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_54 _let_12) (= _let_53 _let_9) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_10 _let_5) (= (tptp.fn_lake_55 X) _let_48) (= (tptp.fn_lake_56 X) _let_47) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_36 _let_35) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lamarcks_theory_of_evolution_1 X) (and (tptp.original_name_2 X |tptp.'Lamarcks-Theory-Of-Evolution'|) (tptp.user_description_2 X |tptp.'The theory that organisms can pass to the offspring traits that are acquired during a lifetime.'|) (tptp.concept2words_2 X |tptp.'lamarcks theory of evolution'|) (tptp.concept2words_2 X |tptp.'lamarcks-theory-of-evolution'|) (tptp.theory_1 X) (not (tptp.epigenesis_1 X)) (not (tptp.gradualism_theory_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lambda_phage_1 X) (and (tptp.original_name_2 X |tptp.'Lambda-Phage'|) (tptp.user_description_2 X |tptp.'A bacteriophage that infects the bacterium E. coli.'|) (tptp.concept2words_2 X |tptp.'phage of lambda'|) (tptp.concept2words_2 X |tptp.'lambda phage'|) (tptp.concept2words_2 X |tptp.'lambda-phage'|) (tptp.phage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lamprey_1 X) (and (tptp.original_name_2 X |tptp.'Lamprey'|) (tptp.user_description_2 X |tptp.'An aquatic craniate that lacks jaws but has a toothed, rasping mouth. Some are parasites of fishes, but most are free-living predators.'|) (tptp.concept2words_2 X tptp.lamprey) (tptp.craniate_1 X) (not (tptp.hagfish_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lancelet_1 X) (and (tptp.original_name_2 X |tptp.'Lancelet'|) (tptp.user_description_2 X |tptp.'A small, bladelike marine chordate; member of the subphylum Cephalochordata, which lack backbones and thus are not considered vertebrates.'|) (tptp.concept2words_2 X tptp.lancelet) (tptp.cephalochordate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.landmark_1 X) (and (tptp.original_name_2 X |tptp.'Landmark'|) (tptp.user_description_2 X |tptp.'A location indicatora point of reference for orientation during navigation.'|) (tptp.concept2words_2 X tptp.landmark) (tptp.geographic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.landscape_1 X) (and (tptp.original_name_2 X |tptp.'Landscape'|) (tptp.user_description_2 X |tptp.'A large area that contains few to several different ecosystems that exchange organisms, materials, and energy.'|) (tptp.concept2words_2 X tptp.landscape) (tptp.geographic_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.landscape_ecology_1 X) (and (tptp.original_name_2 X |tptp.'Landscape-Ecology'|) (tptp.user_description_2 X |tptp.'The scientific study of the effect of the spatial arrangement of different habitats on the abundance and distribution of organisms and ecosystem processes.'|) (tptp.concept2words_2 X |tptp.'ecology of landscape'|) (tptp.concept2words_2 X |tptp.'landscape ecology'|) (tptp.concept2words_2 X |tptp.'landscape-ecology'|) (tptp.biogeography_1 X)))) (forall ((X $$unsorted)) (=> (tptp.language_1 X) (and (tptp.original_name_2 X |tptp.'Language'|) (tptp.concept2words_2 X tptp.language) (tptp.concept2words_2 X tptp.communication) (tptp.intangible_entity_1 X) (not (tptp.money_1 X)) (not (tptp.conceptual_entity_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lanthanum_11 X))) (let ((_let_2 (tptp.fn_lanthanum_14 X))) (let ((_let_3 (tptp.fn_lanthanum_12 X))) (let ((_let_4 (tptp.fn_lanthanum_13 X))) (let ((_let_5 (tptp.fn_lanthanum_5 X))) (let ((_let_6 (tptp.fn_lanthanum_6 X))) (let ((_let_7 (tptp.fn_lanthanum_7 X))) (let ((_let_8 (tptp.fn_lanthanum_4 X))) (=> (tptp.lanthanum_1 X) (and (tptp.original_name_2 X |tptp.'Lanthanum'|) (tptp.user_description_2 X |tptp.'Lanthanum is a metal atom with atomic number 57. It is represented by the symbol La.'|) (tptp.concept2words_2 X tptp.lanthanum) (tptp.concept2words_2 X tptp.la) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"82"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"57"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"57"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.1"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"139"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"57"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"138.9"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_lanthanum_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_lanthanum_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_lanthanum_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lard_1 X) (and (tptp.original_name_2 X |tptp.'Lard'|) (tptp.user_description_2 X |tptp.'Saturated fat, derived from pig fat, which is used in cooking.'|) (tptp.concept2words_2 X tptp.lard) (tptp.saturated_animal_fat_substance_1 X) (not (tptp.butter_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_large_intestine_9 X))) (let ((_let_2 (tptp.fn_aqueous_solution_14 _let_1))) (let ((_let_3 (tptp.fn_solution_6 _let_1))) (let ((_let_4 (tptp.fn_large_intestine_10 X))) (let ((_let_5 (tptp.fn_colon_1 _let_4))) (let ((_let_6 (tptp.fn_large_intestine_8 X))) (let ((_let_7 (tptp.fn_large_intestine_6 X))) (let ((_let_8 (tptp.fn_large_intestine_3 X))) (let ((_let_9 (tptp.fn_large_intestine_2 X))) (let ((_let_10 (tptp.fn_large_intestine_5 X))) (let ((_let_11 (tptp.fn_large_intestine_4 X))) (let ((_let_12 (tptp.fn_large_intestine_1 X))) (=> (tptp.large_intestine_1 X) (and (tptp.original_name_2 X |tptp.'Large-Intestine'|) (tptp.user_description_2 X |tptp.'The portion of the vertebrate digestive tract between the small intestine and the anus. The large intestine functions primarily in water reabsorption and feces formation.'|) (tptp.concept2words_2 X |tptp.'intestine of large'|) (tptp.concept2words_2 X |tptp.'large intestine'|) (tptp.concept2words_2 X |tptp.'large-intestine'|) (tptp.digestive_organ_1 X) (tptp.reabsorption_1 _let_12) (tptp.rectum_1 _let_9) (tptp.cecum_1 _let_8) (tptp.distal_1 _let_11) (tptp.proximal_1 _let_10) (tptp.length_value_1 _let_7) (tptp.chemical_1 _let_6) (tptp.water_1 _let_6) (tptp.digestive_fluid_1 _let_1) (tptp.colon_1 _let_4) (tptp.large_intestine_1 _let_5) (tptp.chemical_1 _let_3) (tptp.water_1 _let_2) (tptp.object_2 _let_12 _let_6) (tptp.base_2 _let_12 _let_4) (tptp.has_function_2 _let_4 _let_12) (tptp.abuts_2 _let_4 _let_8) (tptp.abuts_2 _let_4 _let_9) (tptp.abuts_2 _let_9 _let_4) (tptp.is_at_2 _let_9 _let_11) (tptp.abuts_2 _let_8 _let_4) (tptp.is_at_2 _let_8 _let_10) (tptp.has_region_2 X _let_11) (tptp.has_region_2 X _let_10) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_8) (tptp.diameter_2 X _let_7) (tptp.the_scalar_value_2 _let_7 tptp.wide_0) (tptp.scalar_unit_class_2 _let_7 tptp.small_intestine_0) (tptp.has_solvent_2 _let_1 _let_6) (tptp.has_part_2 _let_1 _let_6) (tptp.has_part_2 X _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= X _let_5) (= _let_2 _let_3) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_large_ribosomal_subunit_2 X))) (let ((_let_2 (tptp.fn_large_ribosomal_subunit_1 X))) (=> (tptp.large_ribosomal_subunit_1 X) (and (tptp.original_name_2 X |tptp.'Large-Ribosomal-Subunit'|) (tptp.user_description_2 X |tptp.'A large ribosomal subunit is a presursor part of a ribosome. It forms ribosomes along with the small ribosomal subunit.'|) (tptp.concept2words_2 X |tptp.'large ribosomal subunit'|) (tptp.concept2words_2 X |tptp.'large-ribosomal-subunit'|) (tptp.cellular_structure_1 X) (not (tptp.multienzyme_complex_1 X)) (not (tptp.small_ribosomal_subunit_1 X)) (not (tptp.translation_initiation_complex_1 X)) (tptp.ribosomal_rna_1 _let_2) (tptp.protein_1 _let_1) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_larva_1 X))) (=> (tptp.larva_1 X) (and (tptp.original_name_2 X |tptp.'Larva'|) (tptp.user_description_2 X |tptp.'A larva is an immature life stage of many animal species. Larvae are sexually immature and may differ in many aspects from the mature adult form, including appearance, habitat, and feeding habits.'|) (tptp.concept2words_2 X tptp.larva) (tptp.life_stage_1 X) (tptp.embryonic_cell_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_larva_hatching_2 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_larva_hatching_1 X))) (let ((_let_4 (tptp.fn_move_out_of_1 _let_1))) (let ((_let_5 (tptp.fn_larva_hatching_3 X))) (=> (tptp.larva_hatching_1 X) (and (tptp.original_name_2 X |tptp.'Larva-Hatching'|) (tptp.user_description_2 X |tptp.'The hatching of larvae from the egg is called as larva hatching.'|) (tptp.concept2words_2 X tptp.hatch) (tptp.concept2words_2 X |tptp.'hatching of larva'|) (tptp.concept2words_2 X |tptp.'larva hatching'|) (tptp.concept2words_2 X |tptp.'larva-hatching'|) (tptp.animal_development_1 X) (tptp.larva_1 _let_3) (tptp.move_out_of_1 _let_1) (tptp.egg_shell_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_3) (tptp.is_inside_2 _let_3 _let_5) (tptp.base_2 _let_1 _let_5) (tptp.object_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.larval_stage_1 X) (and (tptp.original_name_2 X |tptp.'Larval-Stage'|) (tptp.user_description_2 X |tptp.'The larval stage is actually the growth stage of the metamorphosis of an organism.'|) (tptp.concept2words_2 X |tptp.'larval stage'|) (tptp.concept2words_2 X |tptp.'larval-stage'|) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.menopause_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.larynx_1 X) (and (tptp.original_name_2 X |tptp.'Larynx'|) (tptp.user_description_2 X |tptp.'An organ in the neck of air-breathing vertebrates that contains the vocal folds necessary for phonation.'|) (tptp.concept2words_2 X |tptp.'voice box'|) (tptp.concept2words_2 X |tptp.'voice-box'|) (tptp.concept2words_2 X tptp.larynx) (tptp.respiratory_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.laser_light_1 X) (and (tptp.original_name_2 X |tptp.'Laser-Light'|) (tptp.user_description_2 X |tptp.'Monochromatic, coherent (wavelengths are synchronized), and collimated (waves are all exactly parallel to each other) light emitted from a laser. These characteristics enable the light beam to be narrow and all the energy to be focused precisely on a small spot.'|) (tptp.concept2words_2 X |tptp.'laser beam'|) (tptp.concept2words_2 X |tptp.'laser-beam'|) (tptp.concept2words_2 X |tptp.'light of laser'|) (tptp.concept2words_2 X |tptp.'laser light'|) (tptp.concept2words_2 X |tptp.'laser-light'|) (tptp.light_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lateral_1 X) (and (tptp.original_name_2 X |tptp.'Lateral'|) (tptp.user_description_2 X |tptp.'Region at the sides of the body. Opposite of medial.'|) (tptp.concept2words_2 X tptp.lateral) (tptp.anatomical_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lateral_geniculate_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Geniculate'|) (tptp.user_description_2 X |tptp.'One of a pair of structures in the brain that are the destination for most of the ganglion cell axons that form the optic nerves.'|) (tptp.concept2words_2 X |tptp.'lateral geniculate'|) (tptp.concept2words_2 X |tptp.'lateral-geniculate'|) (tptp.cerebrum_1 X) (not (tptp.cerebellum_1 X)) (not (tptp.cerebral_cortex_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.reticular_formation_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.corpus_callosum_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lateral_inhibition_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Inhibition'|) (tptp.user_description_2 X |tptp.'The ability of a stimulated neuron to inhibit the activity of neighboring neurons. This results in a sharpened response to a local stimulus.'|) (tptp.concept2words_2 X |tptp.'inhibition of lateral'|) (tptp.concept2words_2 X |tptp.'lateral inhibition'|) (tptp.concept2words_2 X |tptp.'lateral-inhibition'|) (tptp.inhibition_1 X) (tptp.sight_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lateral_line_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Line'|) (tptp.user_description_2 X |tptp.'A sensory organ found in fishes and aquatic amphibians. The lateral line consists of a series of pores running along the sides of the body. It detects motion and vibration in the water.'|) (tptp.concept2words_2 X |tptp.'line of lateral'|) (tptp.concept2words_2 X |tptp.'lateral line'|) (tptp.concept2words_2 X |tptp.'lateral-line'|) (tptp.sensory_organ_1 X) (not (tptp.antenna_1 X)) (not (tptp.cochlea_1 X)) (not (tptp.eye_cup_1 X)) (not (tptp.inner_ear_1 X)) (not (tptp.organ_of_corti_1 X)) (not (tptp.organ_of_equilibrium_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lateral_line_system_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Line-System'|) (tptp.user_description_2 X |tptp.'A sensory system found in fishes and aquatic amphibians. The lateral line consists of a series of pores running along the sides of the body. It detects motion and vibration in the water.'|) (tptp.concept2words_2 X |tptp.'lateral line system'|) (tptp.concept2words_2 X |tptp.'lateral-line-system'|) (tptp.sensory_process_1 X) (not (tptp.color_vision_1 X)) (not (tptp.de_etiolation_1 X)) (not (tptp.gustation_1 X)) (not (tptp.olfaction_1 X)) (not (tptp.sight_1 X)) (not (tptp.touch_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lateral_meristem_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Meristem'|) (tptp.user_description_2 X |tptp.'In plants, an area of growth that increases the diameter of a root or shoot. Examples include cork cambium and the vascular cambium.'|) (tptp.concept2words_2 X |tptp.'meristem of lateral'|) (tptp.concept2words_2 X |tptp.'lateral meristem'|) (tptp.concept2words_2 X |tptp.'lateral-meristem'|) (tptp.meristem_1 X) (not (tptp.apical_meristem_1 X)) (not (tptp.floral_meristem_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lateral_root_1 X) (and (tptp.original_name_2 X |tptp.'Lateral-Root'|) (tptp.user_description_2 X |tptp.'A root that extends horizontally from the primary root and serves to anchor the plant in soil. Lateral roots also absorb water and nutrients from the soil.'|) (tptp.concept2words_2 X |tptp.'root of lateral'|) (tptp.concept2words_2 X |tptp.'lateral root'|) (tptp.concept2words_2 X |tptp.'lateral-root'|) (tptp.root_1 X) (not (tptp.adventitious_root_1 X)) (not (tptp.carrot_1 X)) (not (tptp.fibrous_root_1 X)) (not (tptp.radicle_1 X)) (not (tptp.taproot_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lateralization_1 X) (and (tptp.original_name_2 X |tptp.'Lateralization'|) (tptp.user_description_2 X |tptp.'The segregation of function in the cerebral cortex into the left and right hemispheres of the brain.'|) (tptp.concept2words_2 X tptp.lateralization) (tptp.organ_development_1 X)))) (forall ((X $$unsorted)) (=> (tptp.latitude_constant_1 X) (and (tptp.original_name_2 X |tptp.'Latitude-Constant'|) (tptp.concept2words_2 X |tptp.'constant of latitude'|) (tptp.concept2words_2 X |tptp.'latitude constant'|) (tptp.concept2words_2 X |tptp.'latitude-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.law_of_independent_assortment_1 X) (and (tptp.original_name_2 X |tptp.'Law-Of-Independent-Assortment'|) (tptp.user_description_2 X |tptp.'Mendel_'s second law, stating that each allele pair segregates independently during gamete formation; applies when genes for two characteristics are located on different pairs of homologous chromosomes.'|) (tptp.concept2words_2 X |tptp.'law of independent assortment'|) (tptp.concept2words_2 X |tptp.'law-of-independent-assortment'|) (tptp.mendelian_law_1 X) (not (tptp.law_of_segregation_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_law_of_segregation_4 X))) (let ((_let_2 (tptp.fn_move_apart_3 _let_1))) (let ((_let_3 (tptp.fn_law_of_segregation_9 X))) (let ((_let_4 (tptp.fn_parent_3 _let_3))) (let ((_let_5 (tptp.fn_law_of_segregation_17 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_law_of_segregation_3 X))) (let ((_let_8 (tptp.fn_move_apart_1 _let_7))) (let ((_let_9 (tptp.fn_move_apart_2 _let_7))) (let ((_let_10 (tptp.fn_law_of_segregation_20 X))) (let ((_let_11 (tptp.fn_code_for_1 _let_10))) (let ((_let_12 (tptp.fn_law_of_segregation_21 X))) (let ((_let_13 (tptp.fn_code_for_1 _let_12))) (let ((_let_14 (tptp.fn_law_of_segregation_18 X))) (let ((_let_15 (tptp.fn_parent_3 _let_14))) (let ((_let_16 (tptp.fn_move_apart_3 _let_7))) (let ((_let_17 (tptp.fn_law_of_segregation_10 X))) (let ((_let_18 (tptp.fn_code_for_1 _let_17))) (let ((_let_19 (tptp.fn_move_apart_1 _let_1))) (let ((_let_20 (tptp.fn_law_of_segregation_8 X))) (let ((_let_21 (tptp.fn_move_1 _let_20))) (let ((_let_22 (tptp.fn_move_apart_2 _let_1))) (let ((_let_23 (tptp.fn_law_of_segregation_12 X))) (let ((_let_24 (tptp.fn_code_for_1 _let_23))) (let ((_let_25 (tptp.fn_code_for_2 _let_17))) (let ((_let_26 (tptp.fn_law_of_segregation_11 X))) (let ((_let_27 (tptp.fn_code_for_2 _let_10))) (let ((_let_28 (tptp.fn_law_of_segregation_23 X))) (let ((_let_29 (tptp.fn_code_for_2 _let_23))) (let ((_let_30 (tptp.fn_law_of_segregation_13 X))) (let ((_let_31 (tptp.fn_law_of_segregation_25 X))) (let ((_let_32 (tptp.fn_law_of_segregation_19 X))) (let ((_let_33 (tptp.fn_gene_13 _let_32))) (let ((_let_34 (tptp.fn_law_of_segregation_24 X))) (let ((_let_35 (tptp.fn_law_of_segregation_7 X))) (let ((_let_36 (tptp.fn_gene_13 _let_35))) (let ((_let_37 (tptp.fn_law_of_segregation_15 X))) (let ((_let_38 (tptp.fn_fertilization_3 _let_37))) (let ((_let_39 (tptp.fn_law_of_segregation_14 X))) (let ((_let_40 (tptp.fn_fertilization_2 _let_37))) (let ((_let_41 (tptp.fn_law_of_segregation_16 X))) (let ((_let_42 (tptp.fn_law_of_segregation_6 X))) (let ((_let_43 (tptp.fn_gene_13 _let_42))) (let ((_let_44 (tptp.fn_code_for_2 _let_12))) (let ((_let_45 (tptp.fn_organism_role_2 _let_14))) (let ((_let_46 (tptp.fn_law_of_segregation_22 X))) (let ((_let_47 (tptp.fn_organism_role_2 _let_3))) (let ((_let_48 (tptp.fn_law_of_segregation_5 X))) (let ((_let_49 (tptp.fn_law_of_segregation_1 X))) (=> (tptp.law_of_segregation_1 X) (and (tptp.original_name_2 X |tptp.'Law-of-Segregation'|) (tptp.user_description_2 X |tptp.'Mendel_'s first law, stating that allele pairs separate during gamete formation, and then randomly re-form as pairs during the fusion of gametes at fertilization.'|) (tptp.concept2words_2 X |tptp.'segregation law'|) (tptp.concept2words_2 X |tptp.'segregation-law'|) (tptp.concept2words_2 X |tptp.'law of segregation'|) (tptp.concept2words_2 X |tptp.'law-of-segregation'|) (tptp.mendelian_law_1 X) (not (tptp.law_of_independent_assortment_1 X)) (tptp.sex_value_1 _let_49) (tptp.move_apart_1 _let_7) (tptp.thing_1 _let_1) (tptp.move_apart_1 _let_1) (tptp.meiosis_1 _let_48) (tptp.allele_1 _let_42) (tptp.allele_1 _let_35) (tptp.move_1 _let_20) (tptp.parent_1 _let_3) (tptp.code_for_1 _let_17) (tptp.character_1 _let_26) (tptp.code_for_1 _let_23) (tptp.character_1 _let_30) (tptp.gamete_1 _let_39) (tptp.fertilization_1 _let_37) (tptp.gamete_1 _let_41) (tptp.move_1 _let_5) (tptp.parent_1 _let_14) (tptp.allele_1 _let_32) (tptp.code_for_1 _let_10) (tptp.code_for_1 _let_12) (tptp.meiosis_1 _let_46) (tptp.character_1 _let_28) (tptp.spatial_entity_1 _let_34) (tptp.organism_1 _let_34) (tptp.organism_1 _let_31) (tptp.spatial_entity_1 _let_31) (tptp.event_1 _let_47) (tptp.event_1 _let_45) (tptp.entity_1 _let_44) (tptp.code_for_1 _let_43) (tptp.gamete_1 _let_40) (tptp.gamete_1 _let_38) (tptp.code_for_1 _let_36) (tptp.code_for_1 _let_33) (tptp.entity_1 _let_29) (tptp.entity_1 _let_27) (tptp.entity_1 _let_25) (tptp.entity_1 _let_24) (tptp.spatial_entity_1 _let_22) (tptp.spatial_entity_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.organism_1 _let_15) (tptp.entity_1 _let_13) (tptp.entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.organism_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.by_means_of_2 _let_7 _let_46) (tptp.subevent_2 _let_7 _let_5) (tptp.first_subevent_2 _let_7 _let_5) (tptp.subevent_2 _let_1 _let_20) (tptp.first_subevent_2 _let_1 _let_20) (tptp.by_means_of_2 _let_1 _let_48) (tptp.same_type_2 _let_42 _let_35) (tptp.same_type_2 _let_35 _let_42) (tptp.origin_2 _let_20 _let_31) (tptp.destination_2 _let_20 _let_39) (tptp.exactCardinality _let_17 tptp.result_0 |"1"| tptp.character_0) (tptp.exactCardinality _let_23 tptp.result_0 |"1"| tptp.character_0) (tptp.destination_2 _let_5 _let_41) (tptp.origin_2 _let_5 _let_34) (tptp.exactCardinality _let_10 tptp.result_0 |"1"| tptp.character_0) (tptp.exactCardinality _let_12 tptp.result_0 |"1"| tptp.character_0) (tptp.the_categorical_value_2 _let_49 tptp.female_0) (tptp.sex_2 _let_31 _let_49) (tptp.agent_2 _let_12 _let_32) (tptp.object_2 _let_1 _let_42) (tptp.object_2 _let_1 _let_35) (tptp.object_2 _let_20 _let_42) (tptp.object_2 _let_7 _let_32) (tptp.object_2 _let_5 _let_32) (tptp.in_event_2 _let_3 _let_48) (tptp.in_event_2 _let_14 _let_46) (tptp.origin_2 _let_7 _let_34) (tptp.information_content_2 X _let_1) (tptp.result_2 _let_12 _let_28) (tptp.agent_2 _let_23 _let_42) (tptp.object_2 _let_37 _let_41) (tptp.base_2 _let_37 _let_39) (tptp.agent_2 _let_17 _let_35) (tptp.plays_2 _let_34 _let_14) (tptp.agent_2 _let_10 _let_32) (tptp.plays_2 _let_31 _let_3) (tptp.result_2 _let_17 _let_26) (tptp.result_2 _let_10 _let_28) (tptp.result_2 _let_23 _let_30) (tptp.origin_2 _let_1 _let_31) (= _let_32 _let_13) (= _let_42 _let_22) (= _let_35 _let_19) (= _let_42 _let_21) (= _let_32 _let_9) (= _let_32 _let_8) (= _let_32 _let_6) (= _let_48 _let_47) (= _let_46 _let_45) (= _let_34 _let_16) (= _let_1 (tptp.fn_information_1 X)) (= _let_28 _let_44) (= _let_42 _let_24) (= _let_23 _let_43) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_35 _let_18) (= _let_17 _let_36) (= _let_34 _let_15) (= _let_32 _let_11) (= _let_10 _let_33) (= _let_31 _let_4) (= _let_31 _let_2) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_22 _let_24) (= _let_24 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_9) (= _let_9 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lawrencium_7 X))) (let ((_let_2 (tptp.fn_lawrencium_10 X))) (let ((_let_3 (tptp.fn_lawrencium_8 X))) (let ((_let_4 (tptp.fn_lawrencium_9 X))) (let ((_let_5 (tptp.fn_lawrencium_3 X))) (let ((_let_6 (tptp.fn_lawrencium_2 X))) (=> (tptp.lawrencium_1 X) (and (tptp.original_name_2 X |tptp.'Lawrencium'|) (tptp.user_description_2 X |tptp.'Lawrencium is a metal atom with atomic number 103. It is represented by the symbol Lr.'|) (tptp.concept2words_2 X tptp.lawrencium) (tptp.concept2words_2 X |tptp.'Lr'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_6) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"157"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"103"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"103"| tptp.electron_0) (tptp.has_part_2 X _let_6) (tptp.the_cardinal_value_2 _let_2 |"17"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"260"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"103"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"260"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_lawrencium_5 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_lawrencium_6 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_lawrencium_4 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))) (forall ((X $$unsorted)) (=> (tptp.layer_1 X) (and (tptp.original_name_2 X |tptp.'Layer'|) (tptp.user_description_2 X |tptp.'A relatively thin sheetlike expanse or region lying over or under another.'|) (tptp.concept2words_2 X tptp.layer) (tptp.aggregate_1 X) (tptp.region_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_leaching_3 X))) (let ((_let_2 (tptp.fn_leaching_1 X))) (let ((_let_3 (tptp.fn_leaching_2 X))) (=> (tptp.leaching_1 X) (and (tptp.original_name_2 X |tptp.'Leaching'|) (tptp.user_description_2 X |tptp.'The dissolving and carrying of minerals and other compounds in a carrier liquid, usually water.'|) (tptp.concept2words_2 X tptp.leaching) (tptp.physical_process_1 X) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_3) (tptp.tangible_entity_1 _let_1) (tptp.destination_2 X _let_3) (tptp.origin_2 X _let_2) (tptp.object_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lead_11 X))) (let ((_let_2 (tptp.fn_toxin_1 _let_1))) (let ((_let_3 (tptp.fn_lead_12 X))) (let ((_let_4 (tptp.fn_pb_plus_2_1 _let_3))) (let ((_let_5 (tptp.fn_lead_8 X))) (let ((_let_6 (tptp.fn_lead_10 X))) (let ((_let_7 (tptp.fn_lead_9 X))) (let ((_let_8 (tptp.fn_lead_13 X))) (let ((_let_9 (tptp.fn_lead_1 X))) (let ((_let_10 (tptp.fn_lead_2 X))) (let ((_let_11 (tptp.fn_lead_3 X))) (=> (tptp.lead_1 X) (and (tptp.original_name_2 X |tptp.'Lead'|) (tptp.user_description_2 X |tptp.'Lead is a metal atom with atomic number 82. It is represented by the symbol Pb.'|) (tptp.concept2words_2 X |tptp.'Pb'|) (tptp.concept2words_2 X tptp.lead) (tptp.metal_atom_1 X) (not (tptp.barium_1 X)) (not (tptp.cesium_1 X)) (not (tptp.indium_1 X)) (not (tptp.sodium_1 X)) (not (tptp.polonium_1 X)) (tptp.electronegativity_value_1 _let_9) (tptp.atomic_mass_value_1 _let_10) (tptp.neutron_1 _let_11) (tptp.valence_electron_1 _let_5) (tptp.atomic_weight_value_1 _let_7) (tptp.quantity_value_1 _let_6) (tptp.toxin_1 _let_1) (tptp.pb_plus_2_1 _let_3) (tptp.atomic_number_value_1 _let_8) (tptp.lead_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.the_cardinal_value_2 _let_7 |"207.2"|) (tptp.cardinal_unit_class_2 _let_7 tptp.dalton_0) (tptp.the_cardinal_value_2 _let_10 |"207"|) (tptp.cardinal_unit_class_2 _let_10 tptp.unity_0) (tptp.the_cardinal_value_2 _let_9 |"2.33"|) (tptp.cardinal_unit_class_2 _let_9 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"4"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.has_part_2 X _let_11) (tptp.exactCardinality X tptp.has_part_0 |"82"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"82"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"125"| tptp.neutron_0) (tptp.mass_number_2 X _let_10) (tptp.electronegativity_2 X _let_9) (tptp.the_cardinal_value_2 _let_8 |"82"|) (tptp.cardinal_unit_class_2 _let_8 tptp.unity_0) (tptp.has_ion_2 X _let_3) (tptp.plays_2 X _let_1) (tptp.atomic_number_2 X _let_8) (tptp.atomic_weight_2 X _let_7) (tptp.has_part_2 X _let_5) (tptp.quantity_2 _let_5 _let_6) (= X _let_4) (= X _let_2) (= (tptp.fn_lead_14 X) (tptp.fn_atom_12 X)) (= _let_8 (tptp.fn_atom_17 X)) (= (tptp.fn_lead_7 X) (tptp.fn_atom_13 X)) (= _let_7 (tptp.fn_atom_16 X)) (= (tptp.fn_lead_6 X) (tptp.fn_atom_1 X)) (= _let_6 (tptp.fn_atom_5 X)) (= _let_5 (tptp.fn_atom_14 X)) (= _let_4 _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.leader_segment_1 X) (and (tptp.original_name_2 X |tptp.'Leader-Segment'|) (tptp.user_description_2 X |tptp.'Leader segment is a sequence present at 5_' end of the mRNA wich help in initiation of translation by allowing the assembly of translation initiation complex'|) (tptp.concept2words_2 X |tptp.'leader segment'|) (tptp.concept2words_2 X |tptp.'leader-segment'|) (tptp.concept2words_2 X |tptp.'segment of leader'|) (tptp.rna_sequence_1 X) (not (tptp.genetic_code_1 X)) (not (tptp.information_sequence_1 X)) (not (tptp.coding_segment_1 X)) (not (tptp.telomere_with_3_prime_overhang_1 X)) (not (tptp.terminator_sequence_1 X))))) (forall ((X $$unsorted)) (=> (tptp.leading_strand_1 X) (and (tptp.original_name_2 X |tptp.'Leading-strand'|) (tptp.user_description_2 X |tptp.'The leading strand is that strand of the DNA double helix that is orientated in a 5_' to 3_' manner. On the leading strand, a polymerase reads the DNA and adds nucleotides to it continuously. This polymerase is DNA polymerase III (DNA Pol III) in prokaryotes and presumably Pol ?[10][11] in eukaryotes.'|) (tptp.concept2words_2 X |tptp.'strand of leading'|) (tptp.concept2words_2 X |tptp.'leading strand'|) (tptp.concept2words_2 X |tptp.'leading-strand'|) (tptp.dna_strand_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_leaf_35 X))) (let ((_let_2 (tptp.fn_stoma_12 _let_1))) (let ((_let_3 (tptp.fn_leaf_48 X))) (let ((_let_4 (tptp.fn_move_into_1 _let_3))) (let ((_let_5 (tptp.fn_stoma_6 _let_1))) (let ((_let_6 (tptp.fn_leaf_30 X))) (let ((_let_7 (tptp.fn_photosynthesis_29 _let_6))) (let ((_let_8 (tptp.fn_stoma_1 _let_1))) (let ((_let_9 (tptp.fn_stoma_2 _let_1))) (let ((_let_10 (tptp.fn_leaf_50 X))) (let ((_let_11 (tptp.fn_tissue_1 _let_10))) (let ((_let_12 (tptp.fn_leaf_51 X))) (let ((_let_13 (tptp.fn_tissue_1 _let_12))) (let ((_let_14 (tptp.fn_leaf_38 X))) (let ((_let_15 (tptp.fn_oxidative_phosphorylation_15 _let_14))) (let ((_let_16 (tptp.fn_photosynthesis_38 _let_6))) (let ((_let_17 (tptp.fn_leaf_29 X))) (let ((_let_18 (tptp.fn_locomotion_1 _let_17))) (let ((_let_19 (tptp.fn_stoma_7 _let_1))) (let ((_let_20 (tptp.fn_leaf_47 X))) (let ((_let_21 (tptp.fn_stoma_5 _let_1))) (let ((_let_22 (tptp.fn_leaf_43 X))) (let ((_let_23 (tptp.fn_stoma_10 _let_1))) (let ((_let_24 (tptp.fn_leaf_41 X))) (let ((_let_25 (tptp.fn_leaf_42 X))) (let ((_let_26 (tptp.fn_leaf_53 X))) (let ((_let_27 (tptp.fn_guard_cell_22 _let_26))) (let ((_let_28 (tptp.fn_leaf_36 X))) (let ((_let_29 (tptp.fn_guard_cell_12 _let_26))) (let ((_let_30 (tptp.fn_leaf_37 X))) (let ((_let_31 (tptp.fn_leaf_52 X))) (let ((_let_32 (tptp.fn_guard_cell_22 _let_31))) (let ((_let_33 (tptp.fn_leaf_39 X))) (let ((_let_34 (tptp.fn_guard_cell_12 _let_31))) (let ((_let_35 (tptp.fn_leaf_40 X))) (let ((_let_36 (tptp.fn_leaf_28 X))) (let ((_let_37 (tptp.fn_air_space_1 _let_22))) (let ((_let_38 (tptp.fn_leaf_33 X))) (let ((_let_39 (tptp.fn_epidermis_1 _let_10))) (let ((_let_40 (tptp.fn_leaf_44 X))) (let ((_let_41 (tptp.fn_parenchyma_cell_15 _let_40))) (let ((_let_42 (tptp.fn_leaf_46 X))) (let ((_let_43 (tptp.fn_plant_vein_1 _let_42))) (let ((_let_44 (tptp.fn_leaf_55 X))) (let ((_let_45 (tptp.fn_plant_vein_2 _let_42))) (let ((_let_46 (tptp.fn_leaf_54 X))) (let ((_let_47 (tptp.fn_leaf_45 X))) (let ((_let_48 (tptp.fn_spongy_mesophyll_1 _let_47))) (let ((_let_49 (tptp.fn_leaf_49 X))) (let ((_let_50 (tptp.fn_air_space_1 _let_49))) (let ((_let_51 (tptp.fn_leaf_34 X))) (let ((_let_52 (tptp.fn_leaf_31 X))) (let ((_let_53 (tptp.fn_oxidative_phosphorylation_15 _let_52))) (let ((_let_54 (tptp.fn_leaf_32 X))) (let ((_let_55 (tptp.fn_oxidative_phosphorylation_15 _let_54))) (let ((_let_56 (tptp.fn_leaf_25 X))) (let ((_let_57 (tptp.fn_leaf_24 X))) (let ((_let_58 (tptp.fn_leaf_23 X))) (let ((_let_59 (tptp.fn_leaf_22 X))) (let ((_let_60 (tptp.fn_leaf_20 X))) (let ((_let_61 (tptp.fn_leaf_18 X))) (let ((_let_62 (tptp.fn_leaf_19 X))) (let ((_let_63 (tptp.fn_leaf_13 X))) (let ((_let_64 (tptp.fn_leaf_2 X))) (let ((_let_65 (tptp.fn_leaf_17 X))) (let ((_let_66 (tptp.fn_leaf_5 X))) (let ((_let_67 (tptp.fn_leaf_14 X))) (let ((_let_68 (tptp.fn_leaf_16 X))) (let ((_let_69 (tptp.fn_leaf_4 X))) (let ((_let_70 (tptp.fn_leaf_7 X))) (let ((_let_71 (tptp.fn_leaf_15 X))) (let ((_let_72 (tptp.fn_leaf_10 X))) (let ((_let_73 (tptp.fn_leaf_12 X))) (let ((_let_74 (tptp.fn_leaf_6 X))) (let ((_let_75 (tptp.fn_leaf_11 X))) (let ((_let_76 (tptp.fn_leaf_9 X))) (let ((_let_77 (tptp.fn_leaf_8 X))) (=> (tptp.leaf_1 X) (and (tptp.original_name_2 X |tptp.'Leaf'|) (tptp.user_description_2 X |tptp.'Leaf is an above-ground plant organ specialized for photosynthesis.'|) (tptp.concept2words_2 X tptp.leaves) (tptp.concept2words_2 X tptp.leaf) (tptp.stem_organ_1 X) (tptp.length_value_1 _let_64) (tptp.shape_value_1 _let_69) (tptp.ground_tissue_system_1 _let_66) (tptp.dermal_tissue_system_1 _let_74) (tptp.vascular_tissue_system_1 _let_70) (tptp.layer_1 _let_77) (tptp.layer_1 _let_76) (tptp.biological_region_1 _let_72) (tptp.oxygen_molecule_1 _let_75) (tptp.palisade_mesophyll_1 _let_73) (tptp.surface_1 _let_63) (tptp.waxy_cuticle_1 _let_67) (tptp.plant_1 _let_71) (tptp.waxy_cuticle_1 _let_68) (tptp.layer_1 _let_65) (tptp.water_vapor_1 _let_61) (tptp.water_vapor_1 _let_62) (tptp.specific_surface_area_value_1 _let_60) (tptp.aqueous_solution_1 _let_59) (tptp.potential_value_1 _let_58) (tptp.potential_value_1 _let_57) (tptp.aqueous_solution_1 _let_56) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.hydrophobic_compound_1 _let_36) (tptp.molecule_1 _let_36) (tptp.carbon_dioxide_1 _let_36) (tptp.enter_1 _let_17) (tptp.photosynthesis_1 _let_6) (tptp.oxidative_phosphorylation_1 _let_52) (tptp.oxidative_phosphorylation_1 _let_54) (tptp.air_1 _let_38) (tptp.air_1 _let_51) (tptp.stoma_1 _let_1) (tptp.cell_wall_1 _let_28) (tptp.plant_cell_wall_1 _let_28) (tptp.membrane_1 _let_30) (tptp.spatial_entity_1 _let_30) (tptp.biomembrane_1 _let_30) (tptp.plasma_membrane_1 _let_30) (tptp.oxidative_phosphorylation_1 _let_14) (tptp.cell_wall_1 _let_33) (tptp.plant_cell_wall_1 _let_33) (tptp.membrane_1 _let_35) (tptp.spatial_entity_1 _let_35) (tptp.biomembrane_1 _let_35) (tptp.plasma_membrane_1 _let_35) (tptp.atmosphere_1 _let_24) (tptp.spatial_entity_1 _let_25) (tptp.co2_gas_1 _let_25) (tptp.air_space_1 _let_22) (tptp.mesophyll_cell_1 _let_40) (tptp.spongy_mesophyll_1 _let_47) (tptp.plant_vein_1 _let_42) (tptp.enter_1 _let_20) (tptp.move_into_1 _let_3) (tptp.air_space_1 _let_49) (tptp.epidermis_1 _let_10) (tptp.epidermis_1 _let_12) (tptp.cell_1 _let_31) (tptp.eukaryotic_cell_1 _let_31) (tptp.guard_cell_1 _let_31) (tptp.eukaryotic_cell_1 _let_26) (tptp.guard_cell_1 _let_26) (tptp.phloem_1 _let_46) (tptp.xylem_1 _let_44) (tptp.cell_1 _let_55) (tptp.cell_1 _let_53) (tptp.air_1 _let_50) (tptp.air_space_1 _let_48) (tptp.phloem_1 _let_45) (tptp.xylem_1 _let_43) (tptp.photosynthesis_1 _let_41) (tptp.stoma_1 _let_39) (tptp.air_1 _let_37) (tptp.membrane_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.biomembrane_1 _let_34) (tptp.plasma_membrane_1 _let_34) (tptp.cell_wall_1 _let_32) (tptp.plant_cell_wall_1 _let_32) (tptp.membrane_1 _let_29) (tptp.spatial_entity_1 _let_29) (tptp.biomembrane_1 _let_29) (tptp.plasma_membrane_1 _let_29) (tptp.cell_wall_1 _let_27) (tptp.plant_cell_wall_1 _let_27) (tptp.atmosphere_1 _let_23) (tptp.air_space_1 _let_21) (tptp.enter_1 _let_19) (tptp.spatial_entity_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.tangible_entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.hydrophobic_compound_1 _let_16) (tptp.molecule_1 _let_16) (tptp.carbon_dioxide_1 _let_16) (tptp.cell_1 _let_15) (tptp.eukaryotic_cell_1 _let_13) (tptp.eukaryotic_cell_1 _let_11) (tptp.guard_cell_1 _let_9) (tptp.guard_cell_1 _let_8) (tptp.co2_gas_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.co2_gas_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.plant_organ_1 _let_2) (tptp.is_inside_2 _let_44 _let_70) (tptp.is_inside_2 _let_46 _let_70) (tptp.the_scalar_value_2 _let_64 tptp.long_0) (tptp.scalar_unit_class_2 _let_64 tptp.plant_cell_0) (tptp.the_categorical_value_2 _let_69 tptp.branched_0) (tptp.element_2 _let_74 _let_12) (tptp.element_2 _let_74 _let_10) (tptp.has_region_2 _let_74 _let_77) (tptp.has_region_2 _let_74 _let_76) (not (= _let_12 _let_10)) (tptp.is_inside_2 _let_12 _let_76) (tptp.is_above_2 _let_12 _let_68) (not (= _let_10 _let_12)) (tptp.is_inside_2 _let_10 _let_77) (tptp.is_above_2 _let_10 _let_73) (tptp.is_above_2 _let_77 _let_76) (tptp.is_inside_2 _let_72 X) (tptp.is_inside_2 _let_75 X) (tptp.is_inside_2 _let_73 _let_66) (tptp.has_region_2 _let_73 _let_65) (tptp.specific_surface_area_2 X _let_60) (not (= X _let_71)) (tptp.has_region_2 X _let_63) (tptp.has_region_2 X _let_70) (tptp.has_region_2 X _let_74) (tptp.has_region_2 X _let_66) (tptp.has_part_2 X _let_42) (tptp.has_part_2 X _let_68) (tptp.has_part_2 X _let_47) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_67) (tptp.has_part_2 X _let_73) (tptp.destination_2 _let_3 _let_72) (tptp.is_above_2 _let_67 _let_10) (not (= _let_67 _let_68)) (not (= _let_71 X)) (tptp.is_inside_2 _let_42 _let_70) (tptp.shape_2 _let_42 _let_69) (not (= _let_68 _let_67)) (tptp.is_above_2 _let_47 _let_12) (tptp.is_inside_2 _let_47 _let_66) (tptp.has_region_2 _let_47 _let_22) (tptp.is_inside_2 _let_40 _let_65) (tptp.length_2 _let_40 _let_64) (tptp.is_near_2 _let_22 _let_1) (tptp.is_outside_2 _let_24 X) (tptp.is_inside_2 _let_35 _let_33) (tptp.is_inside_2 _let_30 _let_28) (tptp.is_near_2 _let_1 _let_22) (tptp.is_at_2 _let_1 _let_63) (tptp.is_saturated_with_2 _let_51 _let_62) (tptp.is_saturated_with_2 _let_38 _let_61) (tptp.the_scalar_value_2 _let_60 tptp.high_0) (tptp.scalar_unit_class_2 _let_60 tptp.plant_organ_0) (tptp.is_inside_2 _let_59 _let_22) (tptp.water_potential_2 _let_59 _let_58) (tptp.greater_than_2 _let_58 _let_57) (tptp.water_potential_2 _let_56 _let_57) (tptp.is_inside_2 _let_56 _let_24) (tptp.base_2 _let_54 _let_40) (tptp.base_2 _let_52 _let_40) (tptp.base_2 _let_14 _let_31) (tptp.has_part_2 _let_10 _let_26) (tptp.has_part_2 _let_12 _let_31) (tptp.object_2 _let_17 _let_36) (tptp.agent_2 _let_17 _let_36) (tptp.has_part_2 X _let_12) (tptp.base_2 _let_3 X) (tptp.is_inside_2 _let_51 _let_49) (tptp.has_region_2 _let_47 _let_49) (tptp.has_part_2 _let_42 _let_46) (tptp.has_part_2 _let_42 _let_44) (tptp.has_function_2 _let_40 _let_6) (tptp.has_region_2 _let_10 _let_1) (tptp.is_inside_2 _let_38 _let_22) (tptp.raw_material_2 _let_6 _let_36) (tptp.has_part_2 _let_25 _let_36) (tptp.has_part_2 _let_31 _let_33) (tptp.is_outside_2 _let_33 _let_35) (tptp.has_part_2 _let_31 _let_35) (tptp.has_part_2 _let_26 _let_28) (tptp.is_outside_2 _let_28 _let_30) (tptp.has_part_2 _let_26 _let_30) (tptp.is_between_2 _let_1 _let_26) (tptp.is_inside_2 _let_25 _let_24) (tptp.object_2 _let_20 _let_25) (tptp.agent_2 _let_20 _let_25) (tptp.path_2 _let_20 _let_1) (tptp.base_2 _let_20 X) (tptp.is_inside_2 _let_22 X) (tptp.destination_2 _let_20 _let_22) (tptp.origin_2 _let_20 _let_24) (= _let_40 _let_55) (= _let_40 _let_53) (= _let_31 _let_15) (= _let_26 _let_11) (= _let_31 _let_13) (= _let_36 _let_18) (= _let_12 (tptp.fn_organ_1 X)) (= X _let_4) (= _let_51 _let_50) (= _let_49 _let_48) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_6 _let_41) (= _let_1 _let_39) (= _let_38 _let_37) (= _let_25 _let_7) (= _let_36 _let_16) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_30 _let_29) (= _let_28 _let_27) (= _let_26 _let_9) (= _let_26 _let_8) (= _let_25 _let_5) (= _let_24 _let_23) (= _let_22 _let_21) (= X _let_2) (= _let_20 _let_19) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.leaf_organ_1 X) (and (tptp.original_name_2 X |tptp.'Leaf-Organ'|) (tptp.user_description_2 X |tptp.'A specialized center of plant function composed of leaf tissue and specific to plants.'|) (tptp.concept2words_2 X |tptp.'organ of leaf'|) (tptp.concept2words_2 X |tptp.'leaf organ'|) (tptp.concept2words_2 X |tptp.'leaf-organ'|) (tptp.plant_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.leaf_primordium_1 X) (and (tptp.original_name_2 X |tptp.'Leaf-Primordium'|) (tptp.user_description_2 X |tptp.'Group of cells that will form a new leaf. Often seen as a small projection on the side of a shoot apical meristem.'|) (tptp.concept2words_2 X |tptp.'primordium of leaf'|) (tptp.concept2words_2 X |tptp.'leaf primordium'|) (tptp.concept2words_2 X |tptp.'leaf-primordium'|) (tptp.shoot_apical_meristem_1 X) (not (tptp.endosperm_1 X)) (not (tptp.integument_1 X)) (not (tptp.mesophyll_1 X)) (not (tptp.phloem_1 X)) (not (tptp.primary_plant_body_1 X)) (not (tptp.primary_plant_1 X)) (not (tptp.protonema_1 X)) (not (tptp.receptacle_1 X)) (not (tptp.vessel_1 X))))) (forall ((X $$unsorted)) (=> (tptp.learn_1 X) (and (tptp.original_name_2 X |tptp.'Learn'|) (tptp.concept2words_2 X tptp.learn) (tptp.concept2words_2 X tptp.word) (tptp.concept2words_2 X |tptp.'pick up'|) (tptp.concept2words_2 X tptp.pick_up) (tptp.concept2words_2 X tptp.out) (tptp.concept2words_2 X tptp.discover) (tptp.concept2words_2 X tptp.see) (tptp.concept2words_2 X tptp.memorize) (tptp.concept2words_2 X tptp.study) (tptp.interpret_1 X)))) (forall ((X $$unsorted)) (=> (tptp.learned_behavior_1 X) (and (tptp.original_name_2 X |tptp.'Learned-Behavior'|) (tptp.user_description_2 X |tptp.'Using specific experiences to modify behavior.'|) (tptp.concept2words_2 X |tptp.'learned behavior'|) (tptp.concept2words_2 X |tptp.'learned-behavior'|) (tptp.behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.learning_1 X) (and (tptp.original_name_2 X |tptp.'Learning'|) (tptp.concept2words_2 X tptp.acquisition) (tptp.concept2words_2 X tptp.learning) (tptp.concept2words_2 X |tptp.'basic cognitive process'|) (tptp.concept2words_2 X tptp.basic_cognitive_process) (tptp.concept2words_2 X tptp.learn) (tptp.activity_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_leave_1 X))) (=> (tptp.leave_1 X) (and (tptp.original_name_2 X |tptp.'Leave'|) (tptp.concept2words_2 X tptp.leave) (tptp.concept2words_2 X |tptp.'go away'|) (tptp.concept2words_2 X tptp.go_away) (tptp.concept2words_2 X |tptp.'go forth'|) (tptp.concept2words_2 X tptp.go_forth) (tptp.locomotion_1 X) (tptp.spatial_entity_1 _let_1) (tptp.origin_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.leech_1 X) (and (tptp.original_name_2 X |tptp.'Leech'|) (tptp.user_description_2 X |tptp.'Type of annelid worm that has a sucker on the anterior and posterior ends. Many leeches are blood-sucking parasites and some have medicinal uses in limb reattachment and plastic surgery.'|) (tptp.concept2words_2 X tptp.leech) (tptp.annelid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.leg_1 X) (and (tptp.original_name_2 X |tptp.'Leg'|) (tptp.user_description_2 X |tptp.'A leg is an anatomical animal structure used for locomotion. The distal end is often modified to distribute force (such as a foot). Most animals have an even number of legs.'|) (tptp.concept2words_2 X tptp.leg) (tptp.animal_structure_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_seed_plant_9 X))) (let ((_let_2 (tptp.fn_dicot_3 X))) (let ((_let_3 (tptp.fn_legume_12 X))) (let ((_let_4 (tptp.fn_legume_2 X))) (let ((_let_5 (tptp.fn_legume_16 X))) (let ((_let_6 (tptp.fn_legume_5 X))) (let ((_let_7 (tptp.fn_legume_11 X))) (let ((_let_8 (tptp.fn_legume_15 X))) (let ((_let_9 (tptp.fn_legume_7 X))) (let ((_let_10 (tptp.fn_legume_14 X))) (let ((_let_11 (tptp.fn_legume_6 X))) (let ((_let_12 (tptp.fn_legume_8 X))) (let ((_let_13 (tptp.fn_legume_4 X))) (let ((_let_14 (tptp.fn_legume_9 X))) (let ((_let_15 (tptp.fn_legume_10 X))) (let ((_let_16 (tptp.fn_legume_3 X))) (let ((_let_17 (tptp.fn_legume_13 X))) (let ((_let_18 (tptp.fn_legume_1 X))) (let ((_let_19 (tptp.concept2words_2 X |tptp.'leguminous crop'|))) (=> (tptp.legume_1 X) (and (tptp.original_name_2 X |tptp.'Legume'|) (tptp.user_description_2 X |tptp.'A plant in the family Fabaceae (or Leguminosae), notable because most have root nodules that contain symbiotic nitrogen-fixing bacteria.'|) (tptp.concept2words_2 X tptp.pulse) _let_19 _let_19 (tptp.concept2words_2 X tptp.legume) (tptp.dicot_1 X) (tptp.nodule_1 _let_18) (tptp.shoot_1 _let_4) (tptp.lateral_root_1 _let_16) (tptp.root_system_1 _let_13) (tptp.specific_heat_value_1 _let_6) (tptp.store_1 _let_11) (tptp.photosynthesis_1 _let_9) (tptp.anabolic_pathway_1 _let_9) (tptp.metabolic_pathway_1 _let_9) (tptp.starch_storage_by_plant_1 _let_12) (tptp.nutrition_1 _let_14) (tptp.photoautotroph_1 _let_15) (tptp.temperature_value_1 _let_7) (tptp.shoot_system_1 _let_3) (tptp.taproot_1 _let_17) (tptp.tuber_1 _let_10) (tptp.plant_cell_1 _let_8) (tptp.cell_1 _let_8) (tptp.eukaryotic_cell_1 _let_8) (tptp.water_1 _let_5) (tptp.has_part_2 _let_16 _let_18) (tptp.has_part_2 X _let_16) (tptp.is_inside_2 _let_16 _let_13) (tptp.has_region_2 X _let_13) (= _let_13 _let_2) (= _let_17 (tptp.fn_dicot_2 X)) (= _let_16 (tptp.fn_dicot_1 X)) (= (tptp.fn_legume_17 X) (tptp.fn_seed_plant_16 X)) (= (tptp.fn_legume_18 X) (tptp.fn_seed_plant_17 X)) (= _let_15 (tptp.fn_seed_plant_11 X)) (= _let_14 (tptp.fn_seed_plant_10 X)) (= _let_13 _let_1) (= _let_12 (tptp.fn_seed_plant_3 X)) (= _let_11 (tptp.fn_seed_plant_4 X)) (= _let_10 (tptp.fn_seed_plant_1 X)) (= _let_9 (tptp.fn_seed_plant_7 X)) (= _let_8 (tptp.fn_seed_plant_13 X)) (= _let_7 (tptp.fn_seed_plant_12 X)) (= _let_6 (tptp.fn_seed_plant_6 X)) (= _let_5 (tptp.fn_seed_plant_14 X)) (= _let_4 (tptp.fn_seed_plant_2 X)) (= _let_3 (tptp.fn_seed_plant_8 X)) (= _let_2 _let_1))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.length_constant_1 X) (and (tptp.original_name_2 X |tptp.'Length-Constant'|) (tptp.concept2words_2 X |tptp.'constant of length'|) (tptp.concept2words_2 X |tptp.'length constant'|) (tptp.concept2words_2 X |tptp.'length-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.length_scale_1 X) (and (tptp.original_name_2 X |tptp.'Length-Scale'|) (tptp.concept2words_2 X |tptp.'scale of length'|) (tptp.concept2words_2 X |tptp.'length scale'|) (tptp.concept2words_2 X |tptp.'length-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.length_value_1 X) (and (tptp.original_name_2 X |tptp.'Length-Value'|) (tptp.description_2 X |tptp.'length is a property for describing how big the one-dimensional extent of a Spatial-Entity is'|) (tptp.concept2words_2 X tptp.length) (tptp.concept2words_2 X tptp.breadth) (tptp.concept2words_2 X tptp.width) (tptp.concept2words_2 X tptp.wavelength) (tptp.concept2words_2 X tptp.thickness) (tptp.concept2words_2 X tptp.r) (tptp.concept2words_2 X tptp.radius) (tptp.concept2words_2 X tptp.perimeter) (tptp.concept2words_2 X |tptp.'resolving power'|) (tptp.concept2words_2 X tptp.resolution) (tptp.concept2words_2 X |tptp.'optical resolution'|) (tptp.concept2words_2 X |tptp.'optical-resolution'|) (tptp.concept2words_2 X tptp.tallness) (tptp.concept2words_2 X tptp.altitude) (tptp.concept2words_2 X tptp.height) (tptp.concept2words_2 X tptp.displacement) (tptp.concept2words_2 X tptp.distance) (tptp.concept2words_2 X tptp.diam) (tptp.concept2words_2 X tptp.diameter) (tptp.concept2words_2 X tptp.depth) (tptp.concept2words_2 X tptp.circumference) (tptp.concept2words_2 X |tptp.'total distance'|) (tptp.concept2words_2 X |tptp.'value of length'|) (tptp.concept2words_2 X |tptp.'length value'|) (tptp.concept2words_2 X |tptp.'length-value'|) (tptp.magnitude_value_1 X) (not (tptp.volume_value_1 X)) (not (tptp.speed_value_1 X)) (not (tptp.acceleration_magnitude_value_1 X)) (not (tptp.size_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lens_1 X) (and (tptp.original_name_2 X |tptp.'Lens'|) (tptp.user_description_2 X |tptp.'A lens is any object which helps to focus light in a defined area. Biological lenses can be found in the eyes of animals where they focus light on photoreceptors and mechanical lenses can be found in optical devices including microscopes.'|) (tptp.concept2words_2 X tptp.lens) (tptp.optical_device_1 X) (not (tptp.microscope_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lenticel_1 X) (and (tptp.original_name_2 X |tptp.'Lenticel'|) (tptp.user_description_2 X |tptp.'In gymnosperms and some angiosperms, a small lens-shaped raised area in the bark of stems and shoots. Lenticels provide sites for gas exchange between living tissues and the air outside the tree.'|) (tptp.concept2words_2 X tptp.lenticel) (tptp.plant_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lepidoptera_1 X) (and (tptp.original_name_2 X |tptp.'Lepidoptera'|) (tptp.user_description_2 X |tptp.'A large order of insects that includes butterflies and moths.'|) (tptp.concept2words_2 X tptp.lepidoptera) (tptp.insect_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.mayfly_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lepidosaur_1 X) (and (tptp.original_name_2 X |tptp.'Lepidosaur'|) (tptp.user_description_2 X |tptp.'A member of the group of reptiles whose living members include snakes, lizards, and tuataras.'|) (tptp.concept2words_2 X tptp.lepidosaur) (tptp.reptile_1 X) (not (tptp.archaeopteryx_1 X)) (not (tptp.crocodilia_1 X)) (not (tptp.dinosaur_1 X)) (not (tptp.parareptile_1 X)) (not (tptp.pterosaur_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_leptin_15 X))) (let ((_let_2 (tptp.fn_carbon_skeleton_2 _let_1))) (let ((_let_3 (tptp.fn_molecule_7 X))) (let ((_let_4 (tptp.fn_carbon_skeleton_3 _let_1))) (let ((_let_5 (tptp.fn_leptin_6 X))) (let ((_let_6 (tptp.fn_create_1 _let_5))) (let ((_let_7 (tptp.fn_protein_9 X))) (let ((_let_8 (tptp.fn_polymer_8 X))) (let ((_let_9 (tptp.fn_polymer_1 X))) (let ((_let_10 (tptp.fn_molecule_10 X))) (let ((_let_11 (tptp.fn_carbon_skeleton_4 _let_1))) (let ((_let_12 (tptp.fn_leptin_13 X))) (let ((_let_13 (tptp.fn_leptin_11 X))) (let ((_let_14 (tptp.fn_leptin_17 X))) (let ((_let_15 (tptp.fn_leptin_16 X))) (let ((_let_16 (tptp.fn_leptin_14 X))) (let ((_let_17 (tptp.fn_leptin_2 X))) (let ((_let_18 (tptp.fn_leptin_18 X))) (let ((_let_19 (tptp.fn_leptin_10 X))) (let ((_let_20 (tptp.fn_leptin_9 X))) (let ((_let_21 (tptp.fn_leptin_4 X))) (let ((_let_22 (tptp.fn_leptin_5 X))) (let ((_let_23 (tptp.fn_leptin_7 X))) (let ((_let_24 (tptp.fn_leptin_12 X))) (let ((_let_25 (tptp.fn_leptin_3 X))) (let ((_let_26 (tptp.fn_leptin_8 X))) (let ((_let_27 (tptp.fn_leptin_1 X))) (=> (tptp.leptin_1 X) (and (tptp.original_name_2 X |tptp.'Leptin'|) (tptp.user_description_2 X |tptp.'A protein hormone produced by adipose cells that plays a role in complex feedback mechanisms that regulate fat storage and use.'|) (tptp.concept2words_2 X tptp.leptin) (tptp.peptide_hormone_1 X) (not (tptp.bmp_4_1 X)) (not (tptp.erythropoietin_1 X)) (not (tptp.growth_hormone_1 X)) (not (tptp.inhibin_1 X)) (not (tptp.prolactin_1 X)) (tptp.adipose_tissue_1 _let_27) (tptp.spatial_entity_1 _let_17) (tptp.chemical_entity_1 _let_17) (tptp.monomer_1 _let_17) (tptp.molecule_1 _let_17) (tptp.amino_acid_1 _let_17) (tptp.size_value_1 _let_25) (tptp.quantity_value_1 _let_21) (tptp.speed_value_1 _let_22) (tptp.produce_1 _let_5) (tptp.constant_motion_1 _let_23) (tptp.chemical_bond_1 _let_26) (tptp.covalent_bond_1 _let_26) (tptp.kinetic_energy_1 _let_20) (tptp.size_value_1 _let_19) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.monomer_1 _let_24) (tptp.carbon_1 _let_12) (tptp.polypeptide_1 _let_16) (tptp.carbon_skeleton_1 _let_1) (tptp.surface_1 _let_15) (tptp.hydrophilic_region_1 _let_14) (tptp.protein_domain_1 _let_18) (tptp.carbon_1 _let_11) (tptp.entity_1 _let_6) (tptp.organic_molecule_1 _let_4) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.agent_2 _let_5 _let_27) (tptp.result_2 _let_5 X) (tptp.possesses_2 X _let_26) (tptp.has_part_2 X _let_24) (tptp.size_2 _let_24 _let_25) (tptp.greater_than_2 _let_19 _let_25) (tptp.has_part_2 X _let_13) (tptp.possesses_2 X _let_20) (tptp.quantity_2 _let_20 _let_21) (tptp.directly_proportional_2 _let_22 _let_21) (tptp.speed_2 _let_23 _let_22) (tptp.object_2 _let_23 X) (tptp.is_at_2 _let_17 _let_18) (tptp.has_region_2 X _let_18) (tptp.size_2 X _let_19) (tptp.the_scalar_value_2 _let_19 tptp.big_0) (tptp.scalar_unit_class_2 _let_19 tptp.polypeptide_0) (tptp.has_region_2 X _let_14) (tptp.is_at_2 _let_14 _let_15) (tptp.has_region_2 X _let_15) (tptp.has_part_2 X _let_16) (tptp.has_part_2 _let_16 _let_17) (tptp.is_inside_2 _let_12 _let_1) (tptp.has_part_2 X _let_12) (tptp.has_region_2 X _let_1) (not (= _let_13 _let_12)) (not (= _let_12 _let_13)) (= X _let_6) (= _let_26 _let_10) (= _let_26 _let_9) (= _let_19 _let_8) (= _let_25 (tptp.fn_polymer_7 X)) (= _let_24 (tptp.fn_polymer_4 X)) (= _let_13 _let_3) (= _let_23 (tptp.fn_molecule_8 X)) (= _let_22 (tptp.fn_molecule_3 X)) (= _let_21 (tptp.fn_molecule_4 X)) (= _let_20 (tptp.fn_molecule_12 X)) (= _let_19 _let_7) (= _let_18 (tptp.fn_protein_7 X)) (= _let_17 (tptp.fn_protein_14 X)) (= _let_16 (tptp.fn_protein_8 X)) (= _let_15 (tptp.fn_protein_5 X)) (= _let_14 (tptp.fn_protein_1 X)) (= X _let_4) (= _let_13 _let_2) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_let_fall_2 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_unobstruct_1 X))) (let ((_let_4 (tptp.fn_let_fall_3 X))) (let ((_let_5 (tptp.fn_let_fall_1 X))) (=> (tptp.let_fall_1 X) (and (tptp.original_name_2 X |tptp.'Let-Fall'|) (tptp.concept2words_2 X tptp.drop) (tptp.concept2words_2 X tptp.let) (tptp.concept2words_2 X |tptp.'fall of let'|) (tptp.concept2words_2 X |tptp.'let fall'|) (tptp.concept2words_2 X |tptp.'let-fall'|) (tptp.unobstruct_1 X) (tptp.tangible_entity_1 _let_5) (tptp.fall_1 _let_1) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.agent_2 X _let_5) (tptp.causes_2 X _let_1) (tptp.object_2 X _let_4) (tptp.object_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_let_go_of_2 X))) (let ((_let_2 (tptp.fn_let_go_of_1 X))) (=> (tptp.let_go_of_1 X) (and (tptp.original_name_2 X |tptp.'Let-Go-Of'|) (tptp.concept2words_2 X |tptp.'let go of'|) (tptp.concept2words_2 X tptp.let_go_of) (tptp.concept2words_2 X |tptp.'let go'|) (tptp.concept2words_2 X tptp.let_go) (tptp.concept2words_2 X tptp.release) (tptp.concept2words_2 X |tptp.'let-go-of'|) (tptp.unobstruct_1 X) (tptp.tangible_entity_1 _let_2) (tptp.tangible_entity_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_unobstruct_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.leucine_1 X) (and (tptp.original_name_2 X |tptp.'Leucine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins.'|) (tptp.concept2words_2 X tptp.leucine) (tptp.hydrophobic_amino_acid_1 X)))) (forall ((X $$unsorted)) (=> (tptp.leukemia_1 X) (and (tptp.original_name_2 X |tptp.'Leukemia'|) (tptp.user_description_2 X |tptp.'A cancer of the blood or bone marrow characterized by an abnormal increase of blood cells, usually leukocytes.'|) (tptp.concept2words_2 X tptp.leukemia) (tptp.cancer_1 X) (not (tptp.breast_cancer_1 X)) (not (tptp.burkitts_lymphoma_1 X)) (not (tptp.prostate_cancer_1 X))))) (forall ((X $$unsorted)) (=> (tptp.leukocyte_1 X) (and (tptp.original_name_2 X |tptp.'Leukocyte'|) (tptp.user_description_2 X |tptp.'A leukocyte is a type of white blood cell whose primary role is to fight infection and often serves as phagocytes.'|) (tptp.concept2words_2 X |tptp.'white blood cell'|) (tptp.concept2words_2 X |tptp.'white-blood-cell'|) (tptp.concept2words_2 X tptp.wbc) (tptp.concept2words_2 X tptp.leukocyte) (tptp.immune_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lexical_relation_1 X) (and (tptp.original_name_2 X |tptp.'Lexical-Relation'|) (tptp.concept2words_2 X |tptp.'lexical relation'|) (tptp.concept2words_2 X |tptp.'lexical-relation'|) (tptp.relation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.leydig_cell_1 X) (and (tptp.original_name_2 X |tptp.'Leydig-Cell'|) (tptp.user_description_2 X |tptp.'A type of cell that is adjacent to the seminiferous tubules of the testes; it secretes testosterone in response to luteinizing hormone.'|) (tptp.concept2words_2 X |tptp.'leydig cell'|) (tptp.concept2words_2 X |tptp.'leydig-cell'|) (tptp.vertebrate_cell_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lh_1 X) (and (tptp.original_name_2 X |tptp.'LH'|) (tptp.user_description_2 X |tptp.'Luteinizing hormone, a tropic hormone secreted by the anterior pituitary. In females, an LH surge in the first half of the menstrual cycle triggers ovulation and formation of the corpus luteum. In males, LH stimulates the Leydig cells to produce testosterone.'|) (tptp.concept2words_2 X |tptp.'luteinizing hormone'|) (tptp.concept2words_2 X |tptp.'luteinizing-hormone'|) (tptp.concept2words_2 X tptp.lh) (tptp.tropic_hormone_1 X) (tptp.glycoprotein_hormone_1 X) (not (tptp.fsh_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.hcg_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lichen_1 X) (and (tptp.original_name_2 X |tptp.'Lichen'|) (tptp.user_description_2 X |tptp.'A composite organism resulting from the mutualistic association between a fungus and a photosynthetic partner, usually an alga or a cyanobacterium.'|) (tptp.concept2words_2 X tptp.lichen) (tptp.interspecific_interaction_1 X) (not (tptp.soredium_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lie_3 X))) (let ((_let_2 (tptp.fn_lie_1 X))) (=> (tptp.lie_1 X) (and (tptp.original_name_2 X |tptp.'Lie'|) (tptp.concept2words_2 X tptp.lie) (tptp.concept2words_2 X tptp.misinform) (tptp.concept2words_2 X tptp.mislead) (tptp.express_1 X) (tptp.truth_value_1 _let_2) (tptp.information_1 _let_1) (tptp.truth_2 _let_1 _let_2) (tptp.the_categorical_value_2 _let_2 tptp.false_0) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_express_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_life_cycle_1 X))) (let ((_let_2 (tptp.fn_life_cycle_2 X))) (=> (tptp.life_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Life-Cycle'|) (tptp.user_description_2 X |tptp.'The events that occur in an organism_'s lifetime, from formation of the zygote to death.'|) (tptp.concept2words_2 X |tptp.'cycle of life'|) (tptp.concept2words_2 X |tptp.'life cycle'|) (tptp.concept2words_2 X |tptp.'life-cycle'|) (tptp.macrophysiological_process_1 X) (tptp.reproduction_1 _let_1) (tptp.organismal_development_1 _let_2) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.life_cycle_of_drosophila_1 X) (and (tptp.original_name_2 X |tptp.'Life-Cycle-Of-Drosophila'|) (tptp.user_description_2 X |tptp.'The sequence of stages in the life cycle of Drosophila.'|) (tptp.concept2words_2 X |tptp.'life cycle of fruit fly'|) (tptp.concept2words_2 X |tptp.'life-cycle-of-fruit-fly'|) (tptp.concept2words_2 X |tptp.'undergo the life cycle of drosophila'|) (tptp.concept2words_2 X |tptp.'life cycle of drosophila'|) (tptp.concept2words_2 X |tptp.'life-cycle-of-drosophila'|) (tptp.animal_life_cycle_1 X) (not (tptp.determinate_growth_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.iteroparity_1 X)) (not (tptp.life_history_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.life_cycle_of_fern_1 X) (and (tptp.original_name_2 X |tptp.'Life-Cycle-Of-Fern'|) (tptp.user_description_2 X |tptp.'The generation-to-generation sequence of stages in the lifespan of a fern.'|) (tptp.concept2words_2 X |tptp.'undergo the life cycle of fern'|) (tptp.concept2words_2 X |tptp.'life cycle of fern'|) (tptp.concept2words_2 X |tptp.'life-cycle-of-fern'|) (tptp.alternation_of_generations_1 X) (not (tptp.isomorphic_1 X))))) (forall ((X $$unsorted)) (=> (tptp.life_cycle_process_1 X) (and (tptp.original_name_2 X |tptp.'Life-Cycle-Process'|) (tptp.user_description_2 X |tptp.'A life cycle is a period involving all different generations of a species succeeding each other through means of reproduction, whether through asexual reproduction or sexual reproduction (a period from one generation of organisms to the same identical).'|) (tptp.concept2words_2 X |tptp.'life cycle activity'|) (tptp.concept2words_2 X |tptp.'life activity'|) (tptp.concept2words_2 X |tptp.'biological process'|) (tptp.concept2words_2 X |tptp.'biological activity'|) (tptp.concept2words_2 X |tptp.'life cycle process'|) (tptp.concept2words_2 X |tptp.'life-cycle-process'|) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.life_history_1 X) (and (tptp.original_name_2 X |tptp.'Life-History'|) (tptp.user_description_2 X |tptp.'The collection of traits that determine the schedule of key events, such as reproduction, in an organism_'s lifetime.'|) (tptp.concept2words_2 X |tptp.'history of life'|) (tptp.concept2words_2 X |tptp.'life history'|) (tptp.concept2words_2 X |tptp.'life-history'|) (tptp.evolutionary_process_1 X) (not (tptp.animal_life_cycle_1 X)) (not (tptp.determinate_growth_1 X)) (not (tptp.fungal_life_cycle_1 X)) (not (tptp.gastrulation_1 X)) (not (tptp.life_cycle_of_drosophila_1 X)) (not (tptp.morphogenesis_1 X)) (not (tptp.muscle_cell_determination_1 X)) (not (tptp.plant_life_cycle_1 X)) (not (tptp.sexual_life_cycle_1 X)) (not (tptp.skeletal_muscle_cell_differentiation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.life_stage_1 X) (and (tptp.original_name_2 X |tptp.'Life-Stage'|) (tptp.user_description_2 X |tptp.'Stages in the life cycle of an organism.'|) (tptp.concept2words_2 X |tptp.'stage of life'|) (tptp.concept2words_2 X |tptp.'life stage'|) (tptp.concept2words_2 X |tptp.'life-stage'|) (tptp.living_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.life_table_1 X) (and (tptp.original_name_2 X |tptp.'Life-Table'|) (tptp.user_description_2 X |tptp.'A table of data summarizing probability of mortality among different age groups in a population.'|) (tptp.concept2words_2 X |tptp.'table of life'|) (tptp.concept2words_2 X |tptp.'life table'|) (tptp.concept2words_2 X |tptp.'life-table'|) (tptp.population_representation_1 X) (not (tptp.action_spectrum_1 X)) (not (tptp.age_structure_diagram_1 X)) (not (tptp.cell_lineage_1 X)) (not (tptp.cladogram_1 X)) (not (tptp.climograph_1 X)) (not (tptp.fate_map_1 X)) (not (tptp.genetic_map_1 X)) (not (tptp.genomic_representation_1 X)) (not (tptp.genotypic_ratio_1 X)) (not (tptp.pedigree_1 X)) (not (tptp.periodic_table_1 X)) (not (tptp.phenotypic_ratio_1 X)) (not (tptp.phylogenetic_tree_1 X)) (not (tptp.punnett_square_1 X)) (not (tptp.reproductive_table_1 X)) (not (tptp.species_area_curve_1 X)) (not (tptp.survivorship_curve_1 X)) (not (tptp.tree_of_life_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ligament_2 X))) (let ((_let_2 (tptp.fn_ligament_1 X))) (=> (tptp.ligament_1 X) (and (tptp.original_name_2 X |tptp.'Ligament'|) (tptp.user_description_2 X |tptp.'A fibrous connective tissue that connects bones to other bones at joints.'|) (tptp.concept2words_2 X tptp.ligament) (tptp.fibrous_connective_tissue_1 X) (not (tptp.tendon_1 X)) (tptp.collagen_1 _let_2) (tptp.connective_tissue_1 _let_1) (tptp.has_part_2 _let_1 _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ligand_2 X))) (let ((_let_2 (tptp.fn_ligand_binding_1 _let_1))) (let ((_let_3 (tptp.fn_ligand_binding_3 _let_1))) (let ((_let_4 (tptp.fn_ligand_1 X))) (=> (tptp.ligand_1 X) (and (tptp.original_name_2 X |tptp.'Ligand'|) (tptp.user_description_2 X |tptp.'A ligand is a molecule that binds to something else, often a receptor to trigger a response'|) (tptp.concept2words_2 X tptp.ligand) (tptp.role_1 X) (tptp.chemical_entity_1 _let_4) (tptp.ligand_binding_1 _let_1) (tptp.chemical_entity_1 _let_3) (tptp.ligand_1 _let_2) (tptp.object_2 _let_1 _let_4) (tptp.plays_2 _let_4 X) (tptp.in_event_2 X _let_1) (tptp.has_function_2 _let_4 _let_1) (= X _let_2) (= _let_4 _let_3) (= _let_2 _let_2)))))))) (forall ((X $$unsorted) (X2 $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.plays_2 X1 X2) (tptp.exactCardinality X tptp.object_0 |"1"| tptp.tangible_entity_0) (tptp.chemical_entity_1 X1) (tptp.ligand_1 X2) (tptp.attach_1 X)) (and (tptp.ligand_binding_1 X) (= (tptp.fn_ligand_binding_3 X) X1) (= (tptp.fn_ligand_binding_1 X) X2)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ligand_binding_3 X))) (let ((_let_2 (tptp.fn_ligand_binding_1 X))) (=> (tptp.ligand_binding_1 X) (and (tptp.original_name_2 X |tptp.'Ligand-Binding'|) (tptp.user_description_2 X |tptp.'The attachment of a molecule, the ligand, usually to a larger molecule which causes a receptor protein to undergo a change in shape often activating a cellular response.'|) (tptp.concept2words_2 X tptp.bind) (tptp.concept2words_2 X |tptp.'binding of ligand'|) (tptp.concept2words_2 X |tptp.'ligand binding'|) (tptp.concept2words_2 X |tptp.'ligand-binding'|) (tptp.attach_1 X) (not (tptp.annealing_1 X)) (not (tptp.base_pairing_1 X)) (not (tptp.intercellular_joining_1 X)) (not (tptp.nucleic_acid_hybridization_1 X)) (tptp.ligand_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.in_event_2 _let_2 X) (tptp.plays_2 _let_1 _let_2) (tptp.has_function_2 _let_1 X) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_attach_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.ligand_gated_calcium_channel_1 X) (and (tptp.original_name_2 X |tptp.'Ligand-Gated-Calcium-Channel'|) (tptp.user_description_2 X |tptp.'A receptor with a channel specific for Ca2+ ions that allows Ca2+ ions through when the receptor changes shape upon the binding of a signaling molecule.'|) (tptp.concept2words_2 X |tptp.'ligand gated calcium channel'|) (tptp.concept2words_2 X |tptp.'ligand-gated-calcium-channel'|) (tptp.ligand_gated_ion_channel_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_gated_channel_15 X))) (let ((_let_2 (tptp.fn_channel_protein_8 X))) (let ((_let_3 (tptp.fn_transport_protein_28 X))) (let ((_let_4 (tptp.fn_gated_channel_20 X))) (let ((_let_5 (tptp.fn_transport_protein_21 X))) (let ((_let_6 (tptp.fn_receptor_protein_5 X))) (let ((_let_7 (tptp.fn_gated_channel_7 X))) (let ((_let_8 (tptp.fn_transport_protein_19 X))) (let ((_let_9 (tptp.fn_receptor_protein_4 X))) (let ((_let_10 (tptp.fn_gated_channel_3 X))) (let ((_let_11 (tptp.fn_channel_protein_5 X))) (let ((_let_12 (tptp.fn_transport_protein_34 X))) (let ((_let_13 (tptp.fn_gated_channel_30 X))) (let ((_let_14 (tptp.fn_transport_protein_20 X))) (let ((_let_15 (tptp.fn_receptor_protein_3 X))) (let ((_let_16 (tptp.fn_channel_protein_11 X))) (let ((_let_17 (tptp.fn_ligand_gated_ion_channel_8 X))) (let ((_let_18 (tptp.fn_facilitated_diffusion_using_channel_protein_8 _let_17))) (let ((_let_19 (tptp.fn_ligand_gated_ion_channel_9 X))) (let ((_let_20 (tptp.fn_ligand_gated_ion_channel_13 X))) (let ((_let_21 (tptp.fn_ligand_gated_ion_channel_7 X))) (let ((_let_22 (tptp.fn_ligand_gated_ion_channel_11 X))) (let ((_let_23 (tptp.fn_ligand_gated_ion_channel_12 X))) (let ((_let_24 (tptp.fn_ligand_gated_ion_channel_10 X))) (let ((_let_25 (tptp.fn_ligand_gated_ion_channel_5 X))) (let ((_let_26 (tptp.fn_ligand_gated_ion_channel_6 X))) (let ((_let_27 (tptp.fn_ligand_gated_ion_channel_14 X))) (let ((_let_28 (tptp.fn_ligand_gated_ion_channel_15 X))) (=> (tptp.ligand_gated_ion_channel_1 X) (and (tptp.original_name_2 X |tptp.'Ligand-Gated-Ion-Channel'|) (tptp.user_description_2 X |tptp.'A transmembrane protein that allows a particular ion to flow into the cell when a specific signal binds to the extracellular end of the protein.'|) (tptp.concept2words_2 X |tptp.'ligand gated ion channel'|) (tptp.concept2words_2 X |tptp.'ligand-gated ion-channel'|) (tptp.concept2words_2 X |tptp.'ligand-gated-ion-channel'|) (tptp.cell_surface_receptor_1 X) (tptp.gated_ion_channel_1 X) (tptp.hydrophilic_compound_1 _let_25) (tptp.spatial_entity_1 _let_26) (tptp.tangible_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.move_1 _let_21) (tptp.move_through_1 _let_21) (tptp.facilitated_diffusion_1 _let_17) (tptp.passive_transport_1 _let_17) (tptp.facilitated_diffusion_using_channel_protein_1 _let_17) (tptp.monomer_1 _let_19) (tptp.size_value_1 _let_24) (tptp.quantity_value_1 _let_22) (tptp.rate_value_1 _let_23) (tptp.size_value_1 _let_20) (tptp.block_1 _let_27) (tptp.hydrophobic_compound_1 _let_28) (tptp.spatial_entity_1 _let_18) (tptp.tangible_entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.object_2 _let_17 _let_26) (tptp.object_2 _let_21 _let_26) (tptp.called_2 _let_27 |"1"|) (tptp.object_2 _let_27 _let_25) (tptp.object_2 _let_27 _let_28) (not (= _let_28 _let_26)) (not (= _let_26 _let_25)) (not (= _let_25 _let_26)) (not (= _let_26 _let_28)) (tptp.object_2 _let_21 _let_25) (tptp.the_scalar_value_2 _let_24 tptp.big_0) (tptp.scalar_unit_class_2 _let_24 tptp.polypeptide_0) (tptp.size_2 X _let_24) (tptp.greater_than_2 _let_24 _let_20) (tptp.subevent_2 _let_17 _let_21) (tptp.rate_2 _let_17 _let_23) (tptp.facilitates_2 X _let_21) (tptp.agent_2 _let_21 X) (tptp.quantity_2 X _let_22) (tptp.directly_proportional_2 _let_22 _let_23) (tptp.has_function_2 X _let_17) (tptp.instrument_2 _let_17 X) (tptp.has_part_2 X _let_19) (tptp.size_2 _let_19 _let_20) (= _let_26 _let_18) (= _let_28 (tptp.fn_channel_protein_3 X)) (= _let_27 (tptp.fn_channel_protein_6 X)) (= _let_26 _let_16) (= _let_25 (tptp.fn_channel_protein_4 X)) (= (tptp.fn_ligand_gated_ion_channel_2 X) (tptp.fn_gated_channel_33 X)) (= (tptp.fn_ligand_gated_ion_channel_1 X) (tptp.fn_gated_channel_32 X)) (= _let_24 _let_15) (= _let_24 _let_14) (= _let_24 _let_13) (= (tptp.fn_ligand_gated_ion_channel_3 X) (tptp.fn_gated_channel_36 X)) (= _let_23 (tptp.fn_gated_channel_8 X)) (= _let_22 (tptp.fn_gated_channel_14 X)) (= _let_21 _let_12) (= _let_21 _let_11) (= _let_21 _let_10) (= (tptp.fn_ligand_gated_ion_channel_4 X) (tptp.fn_gated_channel_37 X)) (= _let_20 _let_9) (= _let_20 _let_8) (= _let_20 _let_7) (= _let_19 _let_6) (= _let_19 _let_5) (= _let_19 _let_4) (= _let_17 _let_3) (= _let_17 _let_2) (= _let_17 _let_1) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_ligase_2 X))) (let ((_let_2 (tptp.fn_ligase_1 X))) (=> (tptp.ligase_1 X) (and (tptp.original_name_2 X |tptp.'Ligase'|) (tptp.user_description_2 X |tptp.'Enzymes which join two molecules with covalent bonds.'|) (tptp.concept2words_2 X tptp.ligase) (tptp.protein_enzyme_1 X) (tptp.active_site_1 _let_2) (tptp.chemical_reaction_1 _let_1) (= _let_2 (tptp.fn_enzyme_2 X)) (= _let_1 (tptp.fn_enzyme_4 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_1 X))) (let ((_let_2 (tptp.fn_photon_1 _let_1))) (=> (tptp.light_1 X) (and (tptp.original_name_2 X |tptp.'Light'|) (tptp.description_2 X |tptp.'Electromagnetic energy vibrations in the visible frequency range that propagate through a region.'|) (tptp.user_description_2 X |tptp.'Light is a form of energy.'|) (tptp.concept2words_2 X |tptp.'visible light'|) (tptp.concept2words_2 X tptp.visible_light) (tptp.concept2words_2 X |tptp.'visible radiation'|) (tptp.concept2words_2 X tptp.visible_radiation) (tptp.concept2words_2 X |tptp.'light energy'|) (tptp.concept2words_2 X tptp.photo) (tptp.concept2words_2 X tptp.light) (tptp.electromagnetic_energy_1 X) (not (tptp.thermal_energy_1 X)) (tptp.photon_1 _let_1) (tptp.light_1 _let_2) (tptp.has_part_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_phosphorescence_4 X))) (let ((_let_2 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_25 X))) (let ((_let_3 (tptp.fn_chlorophyll_6 _let_2))) (let ((_let_4 (tptp.fn_fluorescence_5 X))) (let ((_let_5 (tptp.fn_fluorescence_6 X))) (let ((_let_6 (tptp.fn_phosphorescence_7 X))) (let ((_let_7 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_29 X))) (let ((_let_8 (tptp.fn_release_2 _let_7))) (let ((_let_9 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_12 X))) (let ((_let_10 (tptp.fn_move_into_1 _let_9))) (let ((_let_11 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_22 X))) (let ((_let_12 (tptp.fn_barrier_1 _let_11))) (let ((_let_13 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_14 X))) (let ((_let_14 (tptp.fn_barrier_1 _let_13))) (let ((_let_15 (tptp.fn_take_in_1 _let_9))) (let ((_let_16 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_16 X))) (let ((_let_17 (tptp.fn_make_contact_2 _let_16))) (let ((_let_18 (tptp.fn_hydrocarbon_molecule_16 _let_2))) (let ((_let_19 (tptp.fn_organic_molecule_2 _let_2))) (let ((_let_20 (tptp.fn_porphyrin_2 _let_2))) (let ((_let_21 (tptp.fn_fluorescence_2 X))) (let ((_let_22 (tptp.fn_move_out_of_2 X))) (let ((_let_23 (tptp.fn_release_3 _let_7))) (let ((_let_24 (tptp.fn_move_into_2 _let_9))) (let ((_let_25 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_26 X))) (let ((_let_26 (tptp.fn_electron_3 _let_25))) (let ((_let_27 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_27 X))) (let ((_let_28 (tptp.fn_hydrocarbon_molecule_30 _let_2))) (let ((_let_29 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_13 X))) (let ((_let_30 (tptp.fn_hydrocarbon_molecule_27 _let_2))) (let ((_let_31 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_31 X))) (let ((_let_32 (tptp.fn_hydrocarbon_molecule_28 _let_2))) (let ((_let_33 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_32 X))) (let ((_let_34 (tptp.fn_hydrocarbon_molecule_5 _let_2))) (let ((_let_35 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_18 X))) (let ((_let_36 (tptp.fn_hydrocarbon_molecule_17 _let_2))) (let ((_let_37 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_21 X))) (let ((_let_38 (tptp.fn_hydrocarbon_molecule_29 _let_2))) (let ((_let_39 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_33 X))) (let ((_let_40 (tptp.fn_hydrocarbon_molecule_6 _let_2))) (let ((_let_41 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_28 X))) (let ((_let_42 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_17 X))) (let ((_let_43 (tptp.fn_porphyrin_1 _let_2))) (let ((_let_44 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_24 X))) (let ((_let_45 (tptp.fn_decrease_3 _let_44))) (let ((_let_46 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_20 X))) (let ((_let_47 (tptp.fn_decrease_2 _let_44))) (let ((_let_48 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_11 X))) (let ((_let_49 (tptp.fn_release_1 _let_7))) (let ((_let_50 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_30 X))) (let ((_let_51 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_23 X))) (let ((_let_52 (tptp.fn_move_1 _let_51))) (let ((_let_53 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_3 X))) (let ((_let_54 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_2 X))) (let ((_let_55 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_7 X))) (let ((_let_56 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_8 X))) (let ((_let_57 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_1 X))) (=> (tptp.light_absorption_by_chlorophyll_followed_by_fluorescence_1 X) (and (tptp.original_name_2 X |tptp.'Light-Absorption-By-Chlorophyll-Followed-By-Fluorescence'|) (tptp.user_description_2 X |tptp.'The trapping of light energy is the key to photosynthesis. The first event is the absorption of light by a photoreceptor molecule. The principal photoreceptor in the chloroplasts of most green plants is chlorophyll a, a substituted tetrapyrrole. The four nitrogen atoms of the pyrroles are coordinated to a magnesium ion. Unlike a porphyrin such as heme, chlorophyll has a reduced pyrrole ring. Another distinctive feature of chlorophyll is the presence of phytol, a highly hydrophobic 20-carbon alcohol, esterified to an acid side chain.'|) (tptp.concept2words_2 X tptp.absorb) (tptp.concept2words_2 X |tptp.'light absorption by chlorophyll followed by fluorescence'|) (tptp.concept2words_2 X |tptp.'light-absorption-by-chlorophyll-followed-by-fluorescence'|) (tptp.phosphorescence_1 X) (tptp.block_1 _let_57) (tptp.time_interval_1 _let_54) (tptp.time_interval_1 _let_53) (tptp.system_1 (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_5 X)) (tptp.orbital_1 _let_55) (tptp.orbital_1 _let_56) (tptp.container_1 _let_48) (tptp.take_in_1 _let_9) (tptp.move_1 _let_9) (tptp.absorb_1 _let_9) (tptp.move_into_1 _let_9) (tptp.kinetic_energy_1 _let_29) (tptp.barrier_1 _let_13) (tptp.make_contact_1 _let_16) (tptp.shape_value_1 _let_42) (tptp.entity_1 _let_35) (tptp.chemical_entity_1 _let_35) (tptp.atom_1 _let_35) (tptp.carbon_1 _let_35) (tptp.quantity_value_1 _let_46) (tptp.carbon_skeleton_1 _let_37) (tptp.barrier_1 _let_11) (tptp.container_1 _let_11) (tptp.move_1 _let_51) (tptp.decrease_1 _let_44) (tptp.spatial_entity_1 _let_2) (tptp.organic_molecule_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.pigment_1 _let_2) (tptp.molecule_1 _let_2) (tptp.porphyrin_1 _let_2) (tptp.chlorophyll_1 _let_2) (tptp.hydrocarbon_molecule_1 _let_2) (tptp.spatial_entity_1 _let_25) (tptp.electron_1 _let_25) (tptp.potential_energy_1 _let_27) (tptp.emit_1 _let_41) (tptp.release_1 _let_7) (tptp.thermal_energy_1 _let_50) (tptp.quantity_value_1 _let_31) (tptp.speed_value_1 _let_33) (tptp.constant_motion_1 _let_39) (tptp.spatial_entity_1 _let_52) (tptp.tangible_entity_1 _let_49) (tptp.property_node_1 _let_47) (tptp.property_value_1 _let_45) (tptp.property_node_1 _let_43) (tptp.property_node_1 _let_40) (tptp.constant_motion_1 _let_38) (tptp.carbon_skeleton_1 _let_36) (tptp.property_node_1 _let_34) (tptp.speed_value_1 _let_32) (tptp.quantity_value_1 _let_30) (tptp.kinetic_energy_1 _let_28) (tptp.potential_energy_1 _let_26) (tptp.container_1 _let_24) (tptp.container_1 _let_23) (tptp.shape_value_1 _let_20) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.carbon_1 _let_18) (tptp.spatial_entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.move_1 _let_3) (tptp.absorb_1 _let_3) (tptp.instrument_2 _let_57 _let_2) (tptp.path_2 _let_9 _let_37) (tptp.in_event_2 _let_13 _let_57) (tptp.time_before_2 _let_54 _let_53) (tptp.next_event_2 _let_16 _let_9) (tptp.destination_2 _let_51 _let_56) (tptp.origin_2 _let_51 _let_55) (tptp.enables_2 _let_51 _let_44) (tptp.enables_2 _let_44 X) (tptp.base_2 _let_44 _let_27) (tptp.quantity_2 _let_27 _let_46) (tptp.time_during_2 _let_41 _let_54) (tptp.next_event_2 _let_41 _let_7) (tptp.time_during_2 _let_7 _let_53) (tptp.subevent_2 X _let_7) (tptp.path_2 X _let_37) (tptp.agent_2 X _let_2) (tptp.base_2 _let_16 _let_2) (tptp.plays_2 _let_2 _let_13) (tptp.plays_2 _let_2 _let_11) (tptp.object_2 _let_51 _let_25) (tptp.object_2 _let_7 _let_50) (tptp.base_2 _let_7 _let_2) (tptp.plays_2 _let_2 _let_48) (tptp.base_2 X _let_2) (tptp.base_2 _let_41 _let_2) (tptp.in_event_2 _let_48 X) (tptp.origin_2 X _let_2) (tptp.from_value_2 _let_44 _let_46) (tptp.shape_2 _let_2 _let_42) (tptp.the_categorical_value_2 _let_42 tptp.ring_shaped_0) (tptp.agent_2 _let_9 _let_2) (tptp.base_2 _let_9 _let_2) (tptp.first_subevent_2 X _let_9) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_41) (tptp.has_region_2 _let_2 _let_37) (tptp.object_2 _let_39 _let_2) (tptp.speed_2 _let_39 _let_33) (tptp.has_part_2 _let_2 _let_35) (tptp.is_inside_2 _let_35 _let_37) (tptp.possesses_2 _let_2 _let_29) (tptp.quantity_2 _let_29 _let_31) (tptp.directly_proportional_2 _let_33 _let_31) (tptp.possesses_2 _let_25 _let_27) (tptp.in_event_2 _let_11 _let_9) (= _let_2 _let_17) (= _let_2 _let_14) (= _let_2 _let_12) (= _let_25 _let_52) (= _let_50 _let_49) (= _let_48 _let_24) (= _let_48 _let_23) (= _let_2 _let_8) (= _let_2 _let_6) (= _let_48 _let_22) (= (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_19 X) _let_47) (= _let_46 _let_45) (= (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_15 X) _let_43) (= _let_42 _let_21) (= _let_42 _let_20) (= _let_2 _let_10) (= _let_2 _let_15) (= _let_9 _let_4) (= _let_2 _let_5) (= _let_9 _let_3) (= _let_41 (tptp.fn_phosphorescence_6 X)) (= _let_9 _let_1) (= (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_9 X) _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_19) (= _let_35 _let_18) (= (tptp.fn_light_absorption_by_chlorophyll_followed_by_fluorescence_10 X) _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_11 _let_24) (= _let_27 _let_26) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_12 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.light_chain_1 X) (and (tptp.original_name_2 X |tptp.'Light-Chain'|) (tptp.user_description_2 X |tptp.'The shorter of the two types of polypeptide chains making up an antibody molecule. It consists of a constant region, which confers lysis and phagocytosis of microbes, and a variable region, which binds to specific antigens.'|) (tptp.concept2words_2 X |tptp.'chain of light'|) (tptp.concept2words_2 X |tptp.'light chain'|) (tptp.concept2words_2 X |tptp.'light-chain'|) (tptp.polypeptide_1 X) (not (tptp.endothelin_1 X)) (not (tptp.globins_1 X)) (not (tptp.heavy_chain_1 X)) (not (tptp.neuropeptide_1 X)) (not (tptp.peptide_hormone_1 X)) (not (tptp.polypeptide_segment_1 X)) (not (tptp.signal_peptide_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_harvesting_complex_11 X))) (let ((_let_2 (tptp.fn_methyl_group_11 _let_1))) (let ((_let_3 (tptp.fn_light_harvesting_complex_20 X))) (let ((_let_4 (tptp.fn_chlorophyll_a_21 _let_3))) (let ((_let_5 (tptp.fn_chlorophyll_a_16 _let_3))) (let ((_let_6 (tptp.fn_light_harvesting_complex_10 X))) (let ((_let_7 (tptp.fn_carbon_skeleton_4 _let_6))) (let ((_let_8 (tptp.fn_methyl_group_10 _let_1))) (let ((_let_9 (tptp.fn_chlorophyll_a_38 _let_3))) (let ((_let_10 (tptp.fn_methyl_group_14 _let_1))) (let ((_let_11 (tptp.fn_chlorophyll_a_37 _let_3))) (let ((_let_12 (tptp.fn_carbon_skeleton_3 _let_6))) (let ((_let_13 (tptp.fn_functional_group_1 _let_1))) (let ((_let_14 (tptp.fn_light_harvesting_complex_17 X))) (let ((_let_15 (tptp.fn_attach_2 _let_14))) (let ((_let_16 (tptp.fn_light_harvesting_complex_3 X))) (let ((_let_17 (tptp.fn_carbon_skeleton_3 _let_16))) (let ((_let_18 (tptp.fn_light_harvesting_complex_15 X))) (let ((_let_19 (tptp.fn_attach_2 _let_18))) (let ((_let_20 (tptp.fn_light_harvesting_complex_19 X))) (let ((_let_21 (tptp.fn_chlorophyll_b_19 _let_20))) (let ((_let_22 (tptp.fn_carbon_skeleton_4 _let_16))) (let ((_let_23 (tptp.fn_carbon_skeleton_2 _let_6))) (let ((_let_24 (tptp.fn_porphyrin_7 _let_3))) (let ((_let_25 (tptp.fn_organic_molecule_2 _let_20))) (let ((_let_26 (tptp.fn_light_harvesting_complex_5 X))) (let ((_let_27 (tptp.fn_light_harvesting_complex_8 X))) (let ((_let_28 (tptp.fn_light_harvesting_complex_12 X))) (let ((_let_29 (tptp.fn_light_harvesting_complex_7 X))) (let ((_let_30 (tptp.fn_chlorophyll_a_20 _let_3))) (let ((_let_31 (tptp.fn_light_harvesting_complex_6 X))) (let ((_let_32 (tptp.fn_chlorophyll_a_18 _let_3))) (let ((_let_33 (tptp.fn_light_harvesting_complex_9 X))) (let ((_let_34 (tptp.fn_chlorophyll_a_19 _let_3))) (let ((_let_35 (tptp.fn_chlorophyll_a_22 _let_3))) (let ((_let_36 (tptp.fn_light_harvesting_complex_1 X))) (let ((_let_37 (tptp.fn_chlorophyll_b_39 _let_20))) (let ((_let_38 (tptp.fn_light_harvesting_complex_4 X))) (let ((_let_39 (tptp.fn_light_harvesting_complex_2 X))) (let ((_let_40 (tptp.fn_attach_1 _let_14))) (let ((_let_41 (tptp.fn_light_harvesting_complex_18 X))) (let ((_let_42 (tptp.fn_attach_1 _let_18))) (let ((_let_43 (tptp.fn_light_harvesting_complex_14 X))) (let ((_let_44 (tptp.fn_light_harvesting_complex_16 X))) (let ((_let_45 (tptp.fn_attach_1 _let_44))) (let ((_let_46 (tptp.fn_light_harvesting_complex_13 X))) (let ((_let_47 (tptp.fn_attach_2 _let_44))) (let ((_let_48 (tptp.fn_light_harvesting_complex_21 X))) (=> (tptp.light_harvesting_complex_1 X) (and (tptp.original_name_2 X |tptp.'Light-Harvesting-Complex'|) (tptp.user_description_2 X |tptp.'Light-Harvesting-Complexes have parts including electron transport assemblies, antenna pigments, and accessory pigments.'|) (tptp.concept2words_2 X |tptp.'light harvesting complex'|) (tptp.concept2words_2 X |tptp.'light-harvesting complex'|) (tptp.concept2words_2 X |tptp.'light-harvesting-complex'|) (tptp.molecular_assembly_1 X) (not (tptp.anaphase_promoting_complex_1 X)) (not (tptp.capsomere_1 X)) (not (tptp.complement_system_1 X)) (not (tptp.membrane_attack_complex_1 X)) (not (tptp.myofibril_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_core_1 X)) (not (tptp.reaction_center_complex_1 X)) (not (tptp.rosette_cellulose_synthesizing_complex_1 X)) (not (tptp.thick_filament_1 X)) (not (tptp.thin_filament_1 X)) (not (tptp.troponin_complex_1 X)) (tptp.entity_1 _let_36) (tptp.chemical_entity_1 _let_36) (tptp.atom_1 _let_36) (tptp.carbon_1 _let_36) (tptp.atom_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.carbon_1 _let_39) (tptp.carbon_skeleton_1 _let_16) (tptp.nitrogen_1 _let_38) (tptp.atom_1 _let_38) (tptp.chemical_entity_1 _let_38) (tptp.carbon_1 _let_26) (tptp.entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.atom_1 _let_26) (tptp.entity_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.atom_1 _let_31) (tptp.magnesium_1 _let_31) (tptp.entity_1 _let_29) (tptp.chemical_entity_1 _let_29) (tptp.atom_1 _let_29) (tptp.carbon_1 _let_29) (tptp.tangible_entity_1 _let_27) (tptp.hydrogen_1 _let_27) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.center_1 _let_33) (tptp.carbon_skeleton_1 _let_6) (tptp.functional_group_1 _let_1) (tptp.methyl_group_1 _let_1) (tptp.covalent_bond_1 _let_28) (tptp.single_bond_1 _let_28) (tptp.protein_1 _let_46) (tptp.protein_1 _let_43) (tptp.attach_1 _let_18) (tptp.attach_1 _let_44) (tptp.attach_1 _let_14) (tptp.protein_1 _let_41) (tptp.spatial_entity_1 _let_20) (tptp.organic_molecule_1 _let_20) (tptp.chlorophyll_b_1 _let_20) (tptp.spatial_entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.organic_molecule_1 _let_3) (tptp.porphyrin_1 _let_3) (tptp.chlorophyll_a_1 _let_3) (tptp.carotenoid_1 _let_48) (tptp.spatial_entity_1 _let_47) (tptp.spatial_entity_1 _let_45) (tptp.spatial_entity_1 _let_42) (tptp.spatial_entity_1 _let_40) (tptp.carbon_skeleton_1 _let_37) (tptp.carbon_skeleton_1 _let_35) (tptp.methyl_group_1 _let_34) (tptp.center_1 _let_32) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.magnesium_1 _let_30) (tptp.atom_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.nitrogen_1 _let_24) (tptp.atom_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.carbon_1 _let_22) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.organic_molecule_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.chemical_entity_1 _let_13) (tptp.organic_molecule_1 _let_12) (tptp.covalent_bond_1 _let_11) (tptp.single_bond_1 _let_11) (tptp.single_bond_1 _let_10) (tptp.entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.hydrogen_1 _let_9) (tptp.tangible_entity_1 _let_8) (tptp.hydrogen_1 _let_8) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_7) (tptp.entity_1 _let_5) (tptp.chemical_entity_1 _let_5) (tptp.atom_1 _let_5) (tptp.carbon_1 _let_5) (tptp.carbon_1 _let_4) (tptp.carbon_1 _let_2) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.element_2 X _let_48) (tptp.element_2 X _let_3) (tptp.element_2 X _let_20) (tptp.element_2 X _let_41) (tptp.element_2 X _let_43) (tptp.element_2 X _let_46) (not (= _let_41 _let_43)) (not (= _let_41 _let_46)) (not (= _let_14 _let_44)) (not (= _let_14 _let_18)) (not (= _let_44 _let_14)) (not (= _let_44 _let_18)) (not (= _let_18 _let_44)) (not (= _let_18 _let_14)) (not (= _let_43 _let_41)) (not (= _let_43 _let_46)) (not (= _let_46 _let_43)) (not (= _let_46 _let_41)) (tptp.base_2 _let_18 _let_20) (tptp.base_2 _let_14 _let_3) (tptp.base_2 _let_44 _let_48) (tptp.object_2 _let_44 _let_46) (tptp.object_2 _let_18 _let_43) (tptp.object_2 _let_14 _let_41) (tptp.has_part_2 _let_20 _let_39) (tptp.has_part_2 _let_3 _let_38) (tptp.is_inside_2 _let_39 _let_16) (tptp.is_inside_2 _let_26 _let_6) (not (= _let_38 _let_26)) (not (= _let_26 _let_38)) (tptp.has_part_2 _let_20 _let_36) (tptp.is_inside_2 _let_36 _let_16) (tptp.has_region_2 _let_20 _let_16) (tptp.possesses_2 _let_3 _let_28) (tptp.has_region_2 _let_3 _let_1) (tptp.has_region_2 _let_3 _let_6) (tptp.is_inside_2 _let_29 _let_6) (tptp.has_part_2 _let_3 _let_29) (tptp.has_part_2 _let_3 _let_27) (tptp.is_at_2 _let_31 _let_33) (tptp.has_region_2 _let_3 _let_33) (tptp.has_part_2 _let_3 _let_31) (not (= _let_31 _let_29)) (tptp.is_inside_2 _let_29 _let_1) (not (= _let_29 _let_31)) (tptp.has_part_2 _let_3 _let_26) (not (= _let_29 _let_26)) (not (= _let_26 _let_29)) (not (= _let_31 _let_26)) (not (= _let_26 _let_31)) (tptp.is_inside_2 _let_26 _let_1) (tptp.is_between_2 _let_28 _let_26) (tptp.is_between_2 _let_28 _let_27) (not (= _let_27 _let_26)) (not (= _let_26 _let_27)) (= _let_20 _let_19) (= _let_3 _let_15) (= _let_48 _let_47) (= _let_46 _let_45) (= _let_43 _let_42) (= _let_41 _let_40) (= _let_39 _let_25) (= _let_38 _let_24) (= _let_39 _let_22) (= _let_38 _let_23) (= _let_16 _let_37) (= _let_20 _let_17) (= _let_36 _let_22) (= _let_36 _let_21) (= _let_28 _let_11) (= _let_3 _let_13) (= _let_27 _let_9) (= _let_6 _let_35) (= _let_1 _let_34) (= _let_29 _let_4) (= _let_33 _let_32) (= _let_26 _let_5) (= _let_31 _let_30) (= _let_29 _let_5) (= _let_3 _let_12) (= _let_26 _let_7) (= _let_26 _let_4) (= _let_28 _let_10) (= _let_27 _let_8) (= _let_26 _let_2) (= _let_25 _let_22) (= _let_22 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_5) (= _let_4 _let_5) (= _let_5 _let_5) (= _let_5 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_5 _let_7) (= _let_7 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_microscope_1 X))) (let ((_let_2 (tptp.fn_light_microscope_2 X))) (=> (tptp.light_microscope_1 X) (and (tptp.original_name_2 X |tptp.'Light-Microscope'|) (tptp.user_description_2 X |tptp.'A light microscope is a tool for observation which passes light through a specimen and then through a set of lenses to produce an image.'|) (tptp.concept2words_2 X |tptp.'optical microscope'|) (tptp.concept2words_2 X |tptp.'optical-microscope'|) (tptp.concept2words_2 X |tptp.'microscope of light'|) (tptp.concept2words_2 X |tptp.'light microscope'|) (tptp.concept2words_2 X |tptp.'light-microscope'|) (tptp.microscope_1 X) (not (tptp.electron_microscope_1 X)) (not (tptp.transmission_electron_microscope_1 X)) (tptp.glass_lens_1 _let_1) (tptp.length_value_1 _let_2) (tptp.the_cardinal_value_2 _let_2 |"0.2e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.micrometer_0) (tptp.optical_resolution_2 X _let_2) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.glass_lens_0) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_microscopy_6 X))) (let ((_let_2 (tptp.fn_see_1 _let_1))) (let ((_let_3 (tptp.fn_light_microscopy_12 X))) (let ((_let_4 (tptp.fn_move_1 _let_3))) (let ((_let_5 (tptp.fn_light_microscopy_13 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_light_microscopy_9 X))) (let ((_let_8 (tptp.fn_artifact_1 _let_7))) (let ((_let_9 (tptp.fn_light_microscopy_5 X))) (let ((_let_10 (tptp.fn_light_microscopy_11 X))) (let ((_let_11 (tptp.fn_light_microscopy_10 X))) (let ((_let_12 (tptp.fn_light_microscopy_14 X))) (let ((_let_13 (tptp.fn_light_microscopy_8 X))) (let ((_let_14 (tptp.fn_expand_1 _let_13))) (let ((_let_15 (tptp.fn_sense_1 _let_1))) (let ((_let_16 (tptp.fn_light_microscopy_7 X))) (let ((_let_17 (tptp.fn_light_microscopy_1 X))) (let ((_let_18 (tptp.fn_light_microscopy_3 X))) (let ((_let_19 (tptp.fn_light_microscopy_2 X))) (=> (tptp.light_microscopy_1 X) (and (tptp.original_name_2 X |tptp.'Light-Microscopy'|) (tptp.user_description_2 X |tptp.'Visible light is passed through a specimen and then through glass lenses of the microscope magnifying the specimen up to 1000 times the actual size.'|) (tptp.concept2words_2 X |tptp.'optical microscopy'|) (tptp.concept2words_2 X |tptp.'optical-microscopy'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X |tptp.'microscopy of light'|) (tptp.concept2words_2 X |tptp.'light microscopy'|) (tptp.concept2words_2 X |tptp.'light-microscopy'|) (tptp.microscopy_1 X) (not (tptp.confocal_microscopy_1 X)) (not (tptp.electron_microscopy_1 X)) (tptp.glass_lens_1 _let_17) (tptp.angle_value_1 _let_19) (tptp.refract_1 _let_18) (tptp.create_1 _let_9) (tptp.see_1 _let_1) (tptp.eye_1 _let_16) (tptp.expand_1 _let_13) (tptp.image_1 _let_7) (tptp.specimen_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.light_1 _let_10) (tptp.move_through_1 _let_3) (tptp.move_through_1 _let_5) (tptp.light_microscope_1 _let_12) (tptp.tangible_entity_1 _let_15) (tptp.tangible_entity_1 _let_14) (tptp.create_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.light_1 _let_2) (tptp.abuts_2 _let_12 _let_10) (tptp.next_event_2 _let_5 _let_3) (tptp.base_2 _let_5 _let_11) (tptp.minCardinality _let_3 tptp.base_0 |"1"| tptp.glass_lens_0) (tptp.base_2 _let_3 _let_17) (tptp.next_event_2 _let_3 _let_18) (tptp.abuts_2 _let_10 _let_12) (tptp.angle_2 _let_10 _let_19) (tptp.has_part_2 _let_11 _let_7) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_18) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_5) (tptp.first_subevent_2 X _let_5) (tptp.agent_2 X _let_10) (tptp.object_2 _let_18 _let_10) (tptp.agent_2 _let_18 _let_17) (tptp.next_event_2 _let_18 _let_9) (tptp.agent_2 _let_13 _let_17) (tptp.next_event_2 _let_13 _let_1) (tptp.base_2 _let_1 _let_7) (tptp.next_event_2 _let_9 _let_13) (tptp.experiencer_2 _let_1 _let_16) (tptp.object_2 _let_5 _let_10) (tptp.object_2 _let_3 _let_10) (tptp.base_2 _let_13 _let_7) (tptp.instrument_2 X _let_12) (tptp.object_2 X _let_11) (tptp.object_2 _let_1 _let_10) (tptp.result_2 _let_9 _let_7) (= _let_16 _let_15) (= _let_10 _let_6) (= _let_10 _let_4) (= _let_7 _let_14) (= _let_12 (tptp.fn_microscopy_5 X)) (= _let_11 (tptp.fn_microscopy_1 X)) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_reaction_59 X))) (let ((_let_2 (tptp.fn_electrogenic_pump_28 _let_1))) (let ((_let_3 (tptp.fn_protein_pump_2 _let_1))) (let ((_let_4 (tptp.fn_light_reaction_53 X))) (let ((_let_5 (tptp.fn_electron_transport_chain_reaction_1 _let_4))) (let ((_let_6 (tptp.fn_proton_pump_76 _let_1))) (let ((_let_7 (tptp.fn_electrogenic_pump_30 _let_1))) (let ((_let_8 (tptp.fn_light_reaction_12 X))) (let ((_let_9 (tptp.fn_active_movement_of_ions_19 _let_8))) (let ((_let_10 (tptp.fn_protein_pump_3 _let_1))) (let ((_let_11 (tptp.fn_active_transport_18 _let_8))) (let ((_let_12 (tptp.fn_carrier_protein_18 _let_1))) (let ((_let_13 (tptp.fn_transport_protein_35 _let_1))) (let ((_let_14 (tptp.fn_proton_pump_43 _let_1))) (let ((_let_15 (tptp.fn_proton_pump_26 _let_1))) (let ((_let_16 (tptp.fn_active_movement_of_ions_14 _let_8))) (let ((_let_17 (tptp.fn_proton_pump_56 _let_1))) (let ((_let_18 (tptp.fn_electrogenic_pump_34 _let_1))) (let ((_let_19 (tptp.fn_carrier_protein_23 _let_1))) (let ((_let_20 (tptp.fn_proton_pump_18 _let_1))) (let ((_let_21 (tptp.fn_electrogenic_pump_35 _let_1))) (let ((_let_22 (tptp.fn_generation_of_hydrogen_ion_gradient_across_biomembrane_5 _let_8))) (let ((_let_23 (tptp.fn_protein_pump_1 _let_1))) (let ((_let_24 (tptp.fn_active_transport_22 _let_8))) (let ((_let_25 (tptp.fn_electrogenic_pump_5 _let_1))) (let ((_let_26 (tptp.fn_carrier_protein_4 _let_1))) (let ((_let_27 (tptp.fn_transport_protein_34 _let_1))) (let ((_let_28 (tptp.fn_proton_pump_29 _let_1))) (let ((_let_29 (tptp.fn_active_movement_of_ions_18 _let_8))) (let ((_let_30 (tptp.fn_active_movement_of_ions_13 _let_8))) (let ((_let_31 (tptp.fn_electrogenic_pump_4 _let_1))) (let ((_let_32 (tptp.fn_active_transport_21 _let_8))) (let ((_let_33 (tptp.fn_light_reaction_14 X))) (let ((_let_34 (tptp.fn_hypertonic_solution_6 _let_33))) (let ((_let_35 (tptp.fn_active_movement_of_ions_25 _let_8))) (let ((_let_36 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(tptp.hydrophilic_end_1 _let_16) (tptp.hydrophilic_region_1 _let_15) (tptp.hydrophilic_end_1 _let_15) (tptp.hydrophilic_region_1 _let_14) (tptp.hydrophilic_end_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.membrane_1 _let_12) (tptp.spatial_entity_1 _let_12) (tptp.biomembrane_1 _let_12) (tptp.biomembrane_1 _let_11) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.membrane_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_5) (tptp.active_transport_1 _let_3) (tptp.active_movement_of_ions_1 _let_2) (tptp.time_before_2 _let_152 _let_151) (tptp.object_2 _let_153 _let_100) (tptp.has_function_2 _let_133 _let_75) (tptp.next_event_2 _let_41 _let_4) (tptp.time_during_2 X _let_152) (tptp.next_event_2 X _let_49) (tptp.first_subevent_2 X _let_41) (tptp.enables_2 X _let_49) (tptp.site_2 X _let_91) (tptp.subevent_2 X _let_46) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_41) (tptp.causes_2 X _let_43) (tptp.raw_material_2 X _let_101) (tptp.time_during_2 _let_49 _let_151) (tptp.raw_material_2 _let_150 _let_101) (tptp.subevent_2 _let_150 _let_49) (tptp.subevent_2 _let_150 X) (tptp.called_2 _let_100 |"1"|) (tptp.called_2 _let_94 |tptp.'MT1'|) (tptp.result_2 X _let_52) (tptp.raw_material_2 X _let_149) (tptp.donor_2 _let_77 _let_132) (tptp.donor_2 _let_75 _let_132) (tptp.recipient_2 _let_77 _let_133) (tptp.recipient_2 _let_75 _let_133) (tptp.object_2 _let_43 _let_101) (tptp.raw_material_2 _let_43 _let_101) (tptp.result_2 _let_4 _let_132) (tptp.possesses_2 _let_132 _let_145) (tptp.agent_2 _let_41 _let_146) (tptp.base_2 _let_41 _let_146) (tptp.object_2 _let_94 _let_100) (tptp.origin_2 _let_8 _let_33) (tptp.origin_2 _let_94 _let_33) (tptp.is_hypotonic_to_2 _let_98 _let_33) (tptp.is_hypertonic_to_2 _let_33 _let_98) (tptp.quantity_2 _let_145 _let_141) (tptp.subevent_2 _let_4 _let_8) (tptp.raw_material_2 _let_4 _let_135) (tptp.possesses_2 _let_135 _let_137) (tptp.quantity_2 _let_137 _let_139) (tptp.greater_than_2 _let_139 _let_141) (tptp.raw_material_2 _let_49 _let_52) (tptp.raw_material_2 _let_131 _let_52) (tptp.subevent_2 _let_49 _let_131) (tptp.raw_material_2 _let_49 _let_132) (not (= _let_132 _let_133)) (not (= _let_133 _let_132)) (tptp.raw_material_2 _let_111 _let_117) (tptp.called_2 _let_121 |tptp.'FE_p'|) (tptp.has_part_2 _let_52 _let_107) (tptp.is_inside_2 _let_107 _let_108) (tptp.has_function_2 _let_102 _let_46) (tptp.instrument_2 _let_46 _let_102) (tptp.raw_material_2 _let_46 _let_117) (tptp.possesses_2 _let_117 _let_125) (tptp.quantity_2 _let_125 _let_123) (tptp.result_2 _let_46 _let_52) (tptp.possesses_2 _let_52 _let_119) (tptp.quantity_2 _let_119 _let_121) (tptp.greater_than_2 _let_121 _let_123) (tptp.called_2 _let_123 |tptp.'FE_r'|) (tptp.subevent_2 _let_46 _let_111) (tptp.result_2 _let_111 _let_52) (tptp.structural_complexity_2 _let_52 _let_113) (tptp.greater_than_2 _let_113 _let_115) (tptp.structural_complexity_2 _let_117 _let_115) (tptp.is_inside_2 _let_104 _let_106) (tptp.called_2 _let_105 |tptp.'Terminal PO4 Group'|) (tptp.is_inside_2 _let_109 _let_106) (not (= _let_109 _let_104)) (not (= _let_107 _let_104)) (not (= _let_104 _let_107)) (not (= _let_104 _let_109)) (tptp.is_inside_2 _let_107 _let_106) (not (= _let_107 _let_109)) (tptp.is_inside_2 _let_109 _let_108) (tptp.has_region_2 _let_52 _let_108) (tptp.has_part_2 _let_52 _let_109) (not (= _let_109 _let_107)) (tptp.has_part_2 _let_52 _let_104) (tptp.is_inside_2 _let_104 _let_108) (not (= _let_106 _let_108)) (tptp.has_region_2 _let_52 _let_106) (tptp.has_region_2 _let_52 _let_105) (not (= _let_108 _let_106)) (tptp.is_between_2 _let_103 _let_107) (tptp.is_inside_2 _let_107 _let_105) (tptp.is_inside_2 _let_109 _let_105) (not (= _let_108 _let_105)) (not (= _let_105 _let_108)) (tptp.possesses_2 _let_52 _let_103) (tptp.is_between_2 _let_103 _let_104) (tptp.is_inside_2 _let_104 _let_105) (not (= _let_106 _let_105)) (not (= _let_105 _let_106)) (tptp.destination_2 _let_94 _let_98) (tptp.result_2 _let_8 _let_102) (tptp.base_2 _let_88 _let_86) (tptp.next_event_2 _let_84 _let_88) (tptp.object_2 _let_84 _let_90) (tptp.raw_material_2 _let_8 _let_90) (tptp.subevent_2 _let_8 _let_88) (tptp.raw_material_2 _let_8 _let_86) (tptp.subevent_2 _let_8 _let_84) (tptp.is_at_2 _let_92 _let_95) (tptp.has_region_2 _let_91 _let_95) (tptp.base_2 _let_94 _let_91) (tptp.has_function_2 _let_91 _let_94) (tptp.is_across_2 _let_1 _let_91) (tptp.has_region_2 _let_1 _let_92) (tptp.has_part_2 _let_91 _let_1) (tptp.subevent_2 _let_8 _let_94) (tptp.path_2 _let_8 _let_91) (tptp.object_2 _let_94 _let_96) (tptp.object_2 _let_8 _let_96) (tptp.has_region_2 _let_91 _let_97) (tptp.agent_2 _let_8 _let_1) (tptp.has_region_2 _let_1 _let_97) (tptp.base_2 _let_8 _let_37) (tptp.is_between_2 _let_37 _let_98) (tptp.destination_2 _let_8 _let_98) (tptp.object_2 _let_8 _let_100) (tptp.is_between_2 _let_37 _let_33) (tptp.object_2 _let_41 _let_101) (= _let_52 _let_51) (= _let_149 (tptp.fn_chemical_reaction_2 X)) (= _let_132 _let_78) (= _let_132 _let_76) (= _let_133 _let_82) (= _let_133 _let_81) (= _let_101 _let_44) (= _let_132 _let_74) (= _let_146 _let_148) (= _let_41 _let_147) (= _let_100 _let_36) (= _let_33 _let_40) (= _let_98 _let_34) (= _let_145 _let_144) (= _let_8 _let_5) (= (tptp.fn_light_reaction_6 X) _let_143) (= (tptp.fn_light_reaction_5 X) _let_142) (= _let_141 _let_140) (= _let_139 _let_138) (= _let_137 _let_136) (= _let_135 _let_134) (= _let_133 _let_80) (= _let_132 _let_79) (= _let_132 _let_73) (= _let_131 _let_130) (= _let_52 _let_50) (= (tptp.fn_light_reaction_10 X) _let_129) (= (tptp.fn_light_reaction_9 X) _let_128) (= (tptp.fn_light_reaction_8 X) _let_127) (= (tptp.fn_light_reaction_7 X) _let_126) (= _let_108 _let_69) (= _let_107 _let_67) (= _let_125 _let_124) (= _let_102 _let_47) (= _let_123 _let_122) (= _let_121 _let_120) (= _let_119 _let_118) (= _let_117 _let_116) (= _let_115 _let_114) (= _let_113 _let_112) (= _let_52 _let_48) (= _let_111 _let_110) (= _let_106 _let_62) (= _let_109 _let_72) (= _let_108 _let_65) (= _let_108 _let_64) (= _let_109 _let_71) (= _let_106 _let_63) (= _let_104 _let_60) (= _let_104 _let_59) (= _let_104 _let_57) (= _let_109 _let_70) (= _let_108 _let_62) (= _let_107 _let_68) (= _let_105 _let_66) (= _let_107 _let_60) (= _let_105 _let_64) (= _let_107 _let_57) (= _let_105 _let_63) (= _let_106 _let_64) (= _let_105 _let_65) (= _let_105 _let_62) (= _let_104 _let_61) (= _let_104 _let_58) (= _let_104 _let_56) (= _let_103 _let_55) (= _let_103 _let_54) (= _let_103 _let_53) (= _let_102 _let_45) (= _let_101 _let_42) (= _let_33 _let_39) (= _let_33 _let_38) (= _let_100 _let_35) (= _let_37 _let_99) (= _let_98 _let_32) (= _let_97 _let_31) (= _let_97 _let_30) (= _let_96 _let_36) (= _let_94 _let_22) (= _let_8 _let_3) (= _let_8 _let_2) (= _let_92 _let_15) (= _let_91 _let_9) (= _let_95 _let_29) (= _let_95 _let_28) (= _let_94 _let_24) (= _let_91 _let_11) (= _let_94 _let_27) (= _let_94 _let_26) (= _let_94 _let_25) (= _let_94 _let_23) (= _let_94 _let_21) (= _let_94 _let_20) (= _let_92 _let_19) (= _let_92 _let_18) (= _let_92 _let_17) (= _let_1 _let_93) (= _let_92 _let_16) (= _let_92 _let_14) (= _let_91 _let_13) (= _let_91 _let_12) (= _let_91 _let_7) (= _let_91 _let_10) (= _let_91 _let_6) (= _let_90 _let_89) (= _let_88 _let_87) (= _let_86 _let_85) (= _let_84 _let_83) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_78) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_70 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_65) (= _let_65 _let_69) (= _let_69 _let_64) (= _let_64 _let_62) (= _let_60 _let_68) (= _let_68 _let_60) (= _let_67 _let_60) (= _let_60 _let_67) (= _let_67 _let_67) (= _let_67 _let_57) (= _let_57 _let_62) (= _let_64 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_38) (= _let_38 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_32) (= _let_32 _let_32) (= _let_32 _let_30) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_22 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_7 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_reflection_2 X))) (let ((_let_2 (tptp.fn_light_reflection_1 X))) (=> (tptp.light_reflection_1 X) (and (tptp.original_name_2 X |tptp.'Light-Reflection'|) (tptp.user_description_2 X |tptp.'Reflection is defined as the bouncing back of a ray of light into the same medium, when it strikes a surface.'|) (tptp.concept2words_2 X tptp.reflect) (tptp.concept2words_2 X |tptp.'reflection of light'|) (tptp.concept2words_2 X |tptp.'light reflection'|) (tptp.concept2words_2 X |tptp.'light-reflection'|) (tptp.move_1 X) (tptp.tangible_entity_1 _let_2) (tptp.light_1 _let_1) (tptp.agent_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_move_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_light_transmission_1 X))) (let ((_let_2 (tptp.fn_move_1 _let_1))) (let ((_let_3 (tptp.fn_light_transmission_2 X))) (=> (tptp.light_transmission_1 X) (and (tptp.original_name_2 X |tptp.'Light-Transmission'|) (tptp.user_description_2 X |tptp.'Light transmission is the percentage of incident light that passes through a film.'|) (tptp.concept2words_2 X tptp.transmittance) (tptp.concept2words_2 X tptp.transmit) (tptp.concept2words_2 X |tptp.'transmission of light'|) (tptp.concept2words_2 X |tptp.'light transmission'|) (tptp.concept2words_2 X |tptp.'light-transmission'|) (tptp.move_through_1 X) (tptp.move_through_1 _let_1) (tptp.light_1 _let_3) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_3) (tptp.object_2 _let_1 _let_3) (= _let_3 (tptp.fn_move_1 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.lightning_1 X) (and (tptp.original_name_2 X |tptp.'Lightning'|) (tptp.user_description_2 X |tptp.'A massive electrostatic discharge resulting from an imbalance of electrical charges in the atmosphere.'|) (tptp.concept2words_2 X tptp.lightning) (tptp.physical_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lignin_1 X) (and (tptp.original_name_2 X |tptp.'Lignin'|) (tptp.user_description_2 X |tptp.'A complex chemical compound embedded within the cellulose matrix of plant cell walls. Lignin is a hard substance that provides structural support for terrestrial plants.'|) (tptp.concept2words_2 X tptp.lignin) (tptp.polymer_1 X) (not (tptp.phytochrome_1 X)) (not (tptp.uric_acid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.limb_1 X) (and (tptp.original_name_2 X |tptp.'Limb'|) (tptp.user_description_2 X |tptp.'In animals, a jointed or prehensile appendage used for locomotion, grasping, or carrying. 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_let_15) (= _let_525 _let_287) (= _let_356 _let_123) (= _let_611 _let_610) (= _let_430 _let_197) (= _let_609 _let_608) (= _let_607 _let_606) (= _let_605 _let_604) (= _let_603 _let_602) (= _let_493 _let_271) (= _let_53 _let_50) (= _let_53 _let_48) (= _let_53 _let_46) (= _let_53 _let_44) (= _let_317 _let_81) (= _let_601 _let_600) (= _let_350 _let_118) (= _let_434 _let_212) (= _let_456 _let_244) (= _let_465 _let_261) (= _let_537 _let_295) (= _let_598 _let_597) (= _let_595 _let_594) (= _let_444 _let_229) (= _let_447 _let_232) (= _let_592 _let_304) (= _let_592 _let_303) (= _let_221 (tptp.fn_electron_transport_chain_reaction_7 X)) (= _let_188 _let_476) (= _let_3 _let_58) (= _let_532 _let_290) (= _let_439 _let_218) (= _let_433 _let_209) (= _let_316 _let_66) (= _let_457 _let_246) (= _let_430 _let_66) (= _let_430 _let_195) (= _let_5 _let_227) (= _let_442 _let_218) (= _let_442 _let_13) (= _let_429 _let_191) (= _let_190 _let_170) (= _let_429 _let_174) (= _let_16 _let_13) (= _let_591 _let_590) (= _let_393 _let_151) (= _let_589 _let_588) (= _let_136 _let_587) (= _let_424 _let_186) (= _let_586 _let_585) (= _let_316 _let_72) (= (tptp.fn_linear_electron_flow_171 X) _let_584) (= _let_583 _let_582) (= _let_581 _let_580) (= (tptp.fn_linear_electron_flow_170 X) _let_579) (= _let_578 _let_577) (= _let_576 _let_575) (= _let_442 _let_223) (= _let_429 _let_189) (= _let_457 _let_143) (= _let_420 _let_116) (= _let_431 _let_139) (= _let_175 _let_108) (= _let_506 _let_139) (= _let_347 _let_109) (= _let_316 _let_70) (= _let_457 _let_247) (= _let_457 _let_245) (= _let_452 _let_235) (= (tptp.fn_linear_electron_flow_169 X) _let_574) (= _let_447 _let_231) (= _let_573 _let_572) (= _let_571 _let_570) (= _let_316 _let_64) (= _let_350 _let_117) (= _let_175 _let_74) (= (tptp.fn_linear_electron_flow_134 X) _let_569) (= _let_568 _let_567) (= _let_566 _let_565) (= _let_564 _let_302) (= _let_564 _let_301) (= _let_563 _let_300) (= _let_563 _let_299) (= _let_562 _let_298) (= _let_562 _let_297) (= _let_347 _let_108) (= _let_175 _let_109) (= _let_435 _let_41) (= (tptp.fn_linear_electron_flow_108 X) _let_561) (= _let_560 _let_559) (= (tptp.fn_linear_electron_flow_107 X) _let_558) (= _let_557 _let_556) (= _let_555 _let_554) (= _let_553 _let_552) (= _let_434 _let_211) (= _let_206 _let_551) (= _let_459 _let_251) (= _let_550 _let_549) (= (tptp.fn_linear_electron_flow_306 X) (tptp.fn_electron_transport_chain_reaction_26 X)) (= (tptp.fn_linear_electron_flow_307 X) (tptp.fn_electron_transport_chain_reaction_27 X)) (= _let_69 _let_169) (= _let_460 _let_252) (= _let_548 _let_296) (= _let_548 _let_226) (= _let_63 _let_476) (= _let_547 (tptp.fn_electron_transport_chain_reaction_23 X)) (= _let_546 (tptp.fn_electron_transport_chain_reaction_22 X)) (= _let_545 (tptp.fn_electron_transport_chain_reaction_21 X)) (= _let_544 (tptp.fn_electron_transport_chain_reaction_20 X)) (= _let_543 (tptp.fn_electron_transport_chain_reaction_25 X)) (= _let_537 _let_70) (= (tptp.fn_linear_electron_flow_145 X) _let_542) (= _let_535 _let_292) (= _let_541 _let_540) (= _let_539 _let_538) (= _let_537 _let_293) (= _let_532 _let_289) (= (tptp.fn_linear_electron_flow_144 X) _let_536) (= _let_535 _let_291) (= _let_534 _let_533) (= _let_389 _let_143) (= _let_532 _let_70) (= _let_389 _let_142) (= _let_532 _let_288) (= _let_419 _let_173) (= _let_531 _let_530) (= _let_529 _let_528) (= X _let_259) (= _let_527 _let_526) (= _let_525 _let_161) (= _let_525 _let_204) (= _let_456 _let_242) (= _let_525 _let_286) (= _let_524 _let_523) (= (tptp.fn_linear_electron_flow_72 X) _let_522) (= (tptp.fn_linear_electron_flow_71 X) _let_521) (= _let_458 _let_249) (= _let_520 _let_519) (= _let_359 _let_125) (= _let_518 _let_285) (= _let_518 _let_284) (= _let_517 _let_516) (= _let_515 _let_514) (= _let_154 _let_466) (= (tptp.fn_linear_electron_flow_119 X) _let_513) (= _let_512 _let_511) (= _let_510 _let_509) (= _let_404 _let_160) (= _let_404 _let_159) (= _let_508 _let_507) (= _let_506 _let_247) (= _let_506 _let_283) (= _let_73 _let_505) (= _let_190 _let_504) (= _let_453 _let_236) (= _let_5 _let_503) (= _let_432 _let_159) (= _let_502 _let_274) (= (tptp.fn_linear_electron_flow_87 X) _let_501) (= _let_500 _let_282) (= _let_500 _let_281) (= _let_500 _let_280) (= _let_499 _let_498) (= _let_497 _let_279) (= _let_497 _let_278) (= _let_497 _let_277) (= _let_432 _let_204) (= _let_496 _let_276) (= _let_496 _let_274) (= _let_432 _let_203) (= _let_496 _let_275) (= _let_432 _let_160) (= _let_496 _let_273) (= _let_496 _let_272) (= _let_461 _let_238) (= _let_432 _let_153) (= _let_432 _let_201) (= _let_432 _let_205) (= _let_432 _let_200) (= _let_461 _let_255) (= _let_495 _let_466) (= _let_495 _let_494) (= _let_312 _let_41) (= _let_493 _let_215) (= _let_492 _let_381) (= _let_491 _let_41) (= _let_21 _let_52) (= _let_490 _let_489) (= _let_488 _let_487) (= _let_486 _let_485) (= _let_484 _let_483) (= _let_430 _let_194) (= _let_16 _let_11) (= _let_16 _let_8) (= _let_443 _let_10) (= _let_443 _let_11) (= _let_443 _let_225) (= _let_482 _let_481) (= _let_9 _let_480) (= _let_141 _let_227) (= _let_141 _let_226) (= _let_479 (tptp.fn_electron_transport_chain_reaction_3 X)) (= _let_1 _let_170) (= _let_1 _let_169) (= _let_183 (tptp.fn_electron_transport_chain_reaction_1 X)) (= (tptp.fn_linear_electron_flow_61 X) (tptp.fn_electron_transport_chain_reaction_18 X)) (= _let_478 _let_269) (= _let_478 _let_268) (= _let_477 _let_267) (= _let_477 _let_266) (= _let_419 _let_174) (= _let_419 _let_172) (= _let_12 _let_476) (= _let_469 _let_265) (= _let_475 _let_474) (= _let_468 _let_264) (= _let_473 _let_472) (= _let_471 _let_470) (= _let_467 _let_264) (= _let_469 _let_263) (= _let_468 _let_265) (= _let_467 _let_263) (= _let_152 _let_466) (= _let_456 _let_240) (= _let_465 _let_260) (= _let_464 _let_463) (= _let_156 _let_462) (= X _let_257) (= X _let_256) (= _let_461 _let_254) (= _let_202 _let_462) (= _let_461 _let_240) (= _let_461 _let_253) (= _let_69 _let_219) (= _let_460 _let_245) (= _let_460 _let_143) (= _let_459 _let_250) (= _let_458 _let_248) (= _let_457 _let_233) (= _let_451 _let_233) (= _let_456 _let_239) (= _let_404 _let_161) (= _let_456 _let_238) (= (tptp.fn_linear_electron_flow_156 X) _let_455) (= _let_454 _let_237) (= _let_16 _let_10) (= _let_454 _let_198) (= _let_453 _let_198) (= _let_452 _let_234) (= _let_451 _let_198) (= _let_450 _let_449) (= (tptp.fn_linear_electron_flow_168 X) _let_448) (= _let_447 _let_230) (= _let_446 _let_445) (= _let_444 _let_228) (= _let_270 _let_381) (= _let_443 _let_224) (= _let_316 _let_62) (= _let_430 _let_193) (= _let_442 _let_222) (= _let_317 _let_68) (= _let_202 _let_441) (= _let_440 _let_201) (= _let_440 _let_220) (= _let_350 _let_116) (= _let_439 _let_217) (= _let_421 _let_182) (= _let_438 _let_216) (= _let_213 _let_381) (= _let_438 _let_215) (= _let_437 _let_41) (= _let_146 _let_436) (= _let_435 _let_214) (= _let_347 _let_106) (= _let_434 _let_210) (= _let_433 _let_207) (= _let_432 _let_199) (= _let_404 _let_157) (= _let_16 _let_6) (= _let_430 _let_187) (= _let_431 _let_198) (= _let_430 _let_6) (= _let_429 _let_187) (= _let_359 _let_4) (= _let_316 _let_60) (= _let_16 _let_4) (= _let_395 _let_400) (= _let_401 _let_394) (= _let_428 _let_215) (= _let_427 _let_381) (= _let_426 _let_41) (= _let_425 _let_215) (= _let_424 _let_185) (= _let_424 _let_184) (= _let_369 _let_128) (= _let_421 _let_181) (= _let_421 _let_180) (= _let_423 _let_422) (= _let_421 _let_179) (= _let_421 _let_178) (= _let_420 _let_177) (= _let_420 _let_176) (= _let_419 _let_171) (= _let_418 _let_417) (= _let_416 _let_415) (= _let_16 _let_2) (= _let_410 _let_163) (= _let_414 _let_168) (= _let_414 _let_167) (= _let_393 _let_149) (= _let_413 _let_165) (= _let_412 _let_163) (= _let_413 _let_164) (= _let_412 _let_166) (= _let_393 _let_79) (= _let_393 _let_148) (= (tptp.fn_linear_electron_flow_84 X) _let_411) (= _let_410 _let_162) (= _let_409 _let_408) (= _let_317 _let_78) (= _let_317 _let_77) (= _let_393 _let_77) (= _let_393 _let_78) (= _let_404 _let_155) (= _let_406 _let_407) (= _let_406 _let_405) (= _let_404 _let_153) (= _let_399 _let_403) (= _let_397 _let_402) (= _let_401 _let_400) (= _let_399 _let_398) (= _let_397 _let_396) (= _let_395 _let_394) (= _let_393 _let_147) (= _let_392 _let_145) (= _let_392 _let_144) (= _let_333 _let_100) (= _let_333 _let_99) (= _let_391 _let_390) (= _let_389 _let_140) (= _let_294 _let_388) (= _let_386 _let_139) (= _let_67 _let_387) (= _let_386 _let_138) (= _let_386 _let_137) (= _let_76 _let_385) (= _let_98 _let_384) (= _let_383 _let_41) (= _let_382 _let_381) (= _let_380 _let_215) (= (tptp.fn_linear_electron_flow_243 X) _let_379) (= _let_378 _let_377) (= _let_376 _let_375) (= _let_374 _let_135) (= _let_374 _let_134) (= _let_83 _let_120) (= (tptp.fn_linear_electron_flow_244 X) _let_373) (= _let_372 _let_371) (= _let_370 _let_132) (= _let_370 _let_131) (= _let_370 _let_130) (= _let_310 _let_27) (= _let_310 _let_23) (= _let_370 _let_133) (= _let_370 _let_129) (= _let_311 _let_38) (= _let_310 _let_25) (= _let_310 _let_22) (= _let_323 _let_96) (= _let_322 _let_93) (= _let_369 _let_119) (= _let_26 _let_368) (= _let_24 _let_367) (= _let_3 _let_57) (= _let_347 _let_104) (= _let_320 _let_38) (= _let_19 _let_57) (= _let_366 _let_365) (= _let_83 _let_119) (= _let_311 _let_37) (= _let_364 _let_363) (= _let_61 _let_285) (= _let_362 _let_284) (= _let_361 _let_125) (= _let_359 _let_127) (= _let_126 _let_360) (= _let_359 _let_124) (= _let_339 _let_101) (= _let_358 _let_357) (= _let_356 _let_121) (= _let_318 _let_86) (= _let_355 _let_354) (= _let_340 _let_102) (= _let_353 _let_352) (= _let_319 _let_84) (= _let_21 _let_54) (= _let_351 _let_103) (= _let_350 _let_115) (= _let_349 _let_114) (= _let_348 _let_112) (= _let_349 _let_113) (= _let_348 _let_111) (= _let_317 _let_79) (= _let_316 _let_74) (= _let_347 _let_110) (= _let_316 _let_68) (= _let_347 _let_79) (= _let_347 _let_103) (= _let_346 _let_345) (= _let_344 _let_343) (= _let_342 _let_341) (= _let_340 _let_20) (= _let_339 _let_20) (= _let_338 _let_95) (= _let_337 _let_87) (= _let_309 _let_35) (= _let_309 _let_33) (= _let_321 _let_91) (= _let_336 _let_335) (= _let_334 _let_36) (= _let_333 _let_40) (= _let_332 _let_331) (= _let_330 _let_329) (= _let_328 _let_327) (= _let_326 _let_325) (= _let_21 _let_56) (= _let_32 _let_324) (= _let_321 _let_90) (= _let_323 _let_97) (= _let_323 _let_95) (= _let_322 _let_94) (= _let_322 _let_92) (= _let_321 _let_89) (= _let_321 _let_88) (= _let_320 _let_87) (= _let_311 _let_39) (= _let_310 _let_29) (= _let_319 _let_82) (= _let_318 _let_85) (= _let_317 _let_75) (= _let_316 _let_59) (= _let_21 _let_55) (= _let_21 _let_51) (= _let_34 _let_315) (= _let_53 _let_42) (= _let_314 _let_313) (= _let_312 _let_40) (= _let_311 _let_36) (= _let_310 _let_28) (= _let_309 _let_31) (= _let_310 _let_20) (= _let_309 _let_30) (= _let_308 _let_307) (= _let_306 _let_18) (= _let_306 _let_17) (= _let_305 _let_248) (= _let_304 _let_303) (= _let_303 _let_302) (= _let_302 _let_301) (= _let_301 _let_300) (= _let_299 _let_300) (= _let_300 _let_299) (= _let_299 _let_298) (= _let_297 _let_298) (= _let_298 _let_297) (= _let_297 _let_296) (= _let_296 _let_296) (= _let_226 _let_296) (= _let_296 _let_226) (= _let_226 _let_295) (= _let_295 _let_70) (= _let_293 _let_70) (= _let_70 _let_293) (= _let_293 _let_293) (= _let_293 _let_292) (= _let_292 _let_292) (= _let_292 _let_291) (= _let_291 _let_291) (= _let_291 _let_290) (= _let_290 _let_70) (= _let_289 _let_70) (= _let_70 _let_289) (= _let_289 _let_289) (= _let_289 _let_288) (= _let_288 _let_288) (= _let_288 _let_287) (= _let_287 _let_204) (= _let_204 _let_204) (= _let_161 _let_161) (= _let_161 _let_204) (= _let_204 _let_161) (= _let_286 _let_161) (= _let_161 _let_286) (= _let_286 _let_286) (= _let_286 _let_285) (= _let_284 _let_285) (= _let_285 _let_284) (= _let_284 _let_247) (= _let_139 _let_247) (= _let_247 _let_247) (= _let_247 _let_139) (= _let_139 _let_283) (= _let_283 _let_283) (= _let_283 _let_282) (= _let_282 _let_281) (= _let_281 _let_281) (= _let_281 _let_280) (= _let_280 _let_279) (= _let_278 _let_279) (= _let_279 _let_278) (= _let_278 _let_278) (= _let_277 _let_277) (= _let_277 _let_278) (= _let_278 _let_277) (= _let_277 _let_275) (= _let_273 _let_276) (= _let_276 _let_274) (= _let_274 _let_275) (= _let_275 _let_273) (= _let_273 _let_273) (= _let_272 _let_274) (= _let_274 _let_273) (= _let_273 _let_272) (= _let_272 _let_271) (= _let_271 _let_215) (= _let_215 _let_269) (= _let_269 _let_269) (= _let_268 _let_269) (= _let_269 _let_268) (= _let_268 _let_267) (= _let_266 _let_267) (= _let_267 _let_266) (= _let_266 _let_265) (= _let_265 _let_263) (= _let_263 _let_264) (= _let_264 _let_265) (= _let_265 _let_265) (= _let_265 _let_264) (= _let_264 _let_264) (= _let_264 _let_263) (= _let_263 _let_263) (= _let_263 _let_261) (= _let_261 _let_260) (= _let_260 _let_260) (= _let_260 _let_259) (= _let_259 _let_259) (= _let_259 _let_257) (= _let_257 _let_257) (= _let_257 _let_256) (= _let_256 _let_256) (= _let_256 _let_238) (= _let_238 _let_254) (= _let_255 _let_254) (= _let_254 _let_255) (= _let_255 _let_240) (= _let_240 _let_254) (= _let_254 _let_254) (= _let_254 _let_240) (= _let_240 _let_253) (= _let_253 _let_253) (= _let_253 _let_245) (= _let_245 _let_245) (= _let_252 _let_245) (= _let_245 _let_252) (= _let_252 _let_143) (= _let_143 _let_251) (= _let_251 _let_251) (= _let_251 _let_250) (= _let_250 _let_250) (= _let_250 _let_249) (= _let_249 _let_248) (= _let_248 _let_248) (= _let_248 _let_246) (= _let_246 _let_247) (= _let_247 _let_245) (= _let_245 _let_246) (= _let_246 _let_246) (= _let_246 _let_143) (= _let_143 _let_245) (= _let_245 _let_233) (= _let_233 _let_244) (= _let_244 _let_242) (= _let_242 _let_242) (= _let_242 _let_240) (= _let_239 _let_240) (= _let_240 _let_240) (= _let_240 _let_239) (= _let_239 _let_239) (= _let_238 _let_239) (= _let_239 _let_238) (= _let_238 _let_238) (= _let_238 _let_237) (= _let_237 _let_237) (= _let_237 _let_198) (= _let_198 _let_236) (= _let_236 _let_236) (= _let_236 _let_198) (= _let_198 _let_235) (= _let_235 _let_234) (= _let_234 _let_234) (= _let_234 _let_233) (= _let_233 _let_233) (= _let_233 _let_198) (= _let_198 _let_232) (= _let_232 _let_232) (= _let_232 _let_231) (= _let_231 _let_231) (= _let_231 _let_230) (= _let_230 _let_230) (= _let_230 _let_229) (= _let_229 _let_228) (= _let_228 _let_228) (= _let_228 _let_227) (= _let_227 _let_226) (= _let_226 _let_10) (= _let_225 _let_11) (= _let_11 _let_225) (= _let_225 _let_225) (= _let_225 _let_224) (= _let_224 _let_13) (= _let_13 _let_218) (= _let_218 _let_13) (= _let_13 _let_223) (= _let_223 _let_223) (= _let_223 _let_222) (= _let_222 _let_201) (= _let_201 _let_201) (= _let_220 _let_201) (= _let_201 _let_220) (= _let_220 _let_219) (= _let_219 _let_219) (= _let_219 _let_169) (= _let_169 _let_219) (= _let_219 _let_218) (= _let_218 _let_218) (= _let_218 _let_217) (= _let_217 _let_216) (= _let_216 _let_215) (= _let_215 _let_215) (= _let_215 _let_41) (= _let_41 _let_214) (= _let_214 _let_212) (= _let_212 _let_211) (= _let_211 _let_211) (= _let_211 _let_210) (= _let_210 _let_210) (= _let_210 _let_209) (= _let_209 _let_209) (= _let_209 _let_207) (= _let_207 _let_207) (= _let_207 _let_153) (= _let_205 _let_153) (= _let_153 _let_205) (= _let_204 _let_205) (= _let_205 _let_205) (= _let_205 _let_203) (= _let_204 _let_203) (= _let_203 _let_205) (= _let_205 _let_204) (= _let_204 _let_160) (= _let_160 _let_203) (= _let_203 _let_204) (= _let_204 _let_201) (= _let_201 _let_203) (= _let_203 _let_160) (= _let_160 _let_201) (= _let_201 _let_159) (= _let_201 _let_160) (= _let_160 _let_200) (= _let_200 _let_201) (= _let_201 _let_200) (= _let_200 _let_159) (= _let_159 _let_200) (= _let_200 _let_200) (= _let_200 _let_199) (= _let_199 _let_139) (= _let_139 _let_198) (= _let_198 _let_198) (= _let_198 _let_197) (= _let_197 _let_66) (= _let_195 _let_66) (= _let_66 _let_195) (= _let_195 _let_195) (= _let_195 _let_194) (= _let_194 _let_194) (= _let_194 _let_193) (= _let_193 _let_193) (= _let_193 _let_187) (= _let_187 _let_6) (= _let_6 _let_191) (= _let_191 _let_191) (= _let_191 _let_174) (= _let_174 _let_189) (= _let_189 _let_189) (= _let_189 _let_187) (= _let_187 _let_187) (= _let_187 _let_186) (= _let_186 _let_185) (= _let_185 _let_185) (= _let_185 _let_184) (= _let_184 _let_182) (= _let_182 _let_181) (= _let_181 _let_179) (= _let_179 _let_181) (= _let_181 _let_180) (= _let_180 _let_179) (= _let_179 _let_178) (= _let_178 _let_116) (= _let_116 _let_177) (= _let_177 _let_177) (= _let_177 _let_176) (= _let_176 _let_74) (= _let_108 _let_74) (= _let_74 _let_108) (= _let_108 _let_109) (= _let_109 _let_173) (= _let_173 _let_174) (= _let_174 _let_174) (= _let_174 _let_173) (= _let_173 _let_173) (= _let_173 _let_172) (= _let_172 _let_172) (= _let_172 _let_171) (= _let_171 _let_171) (= _let_171 _let_170) (= _let_170 _let_170) (= _let_170 _let_169) (= _let_169 _let_168) (= _let_167 _let_168) (= _let_168 _let_167) (= _let_167 _let_166) (= _let_166 _let_166) (= _let_166 _let_163) (= _let_163 _let_166) (= _let_166 _let_165) (= _let_165 _let_164) (= _let_164 _let_163) (= _let_163 _let_163) (= _let_163 _let_162) (= _let_162 _let_162) (= _let_162 _let_160) (= _let_160 _let_160) (= _let_160 _let_161) (= _let_161 _let_160) (= _let_159 _let_160) (= _let_160 _let_159) (= _let_157 _let_159) (= _let_159 _let_159) (= _let_159 _let_157) (= _let_157 _let_157) (= _let_155 _let_157) (= _let_157 _let_153) (= _let_153 _let_157) (= _let_157 _let_155) (= _let_155 _let_153) (= _let_153 _let_153) (= _let_153 _let_151) (= _let_151 _let_79) (= _let_79 _let_151) (= _let_151 _let_77) (= _let_149 _let_149) (= _let_149 _let_77) (= _let_77 _let_149) (= _let_148 _let_149) (= _let_149 _let_148) (= _let_148 _let_148) (= _let_148 _let_78) (= _let_78 _let_147) (= _let_147 _let_147) (= _let_147 _let_145) (= _let_145 _let_144) (= _let_144 _let_144) (= _let_144 _let_143) (= _let_143 _let_143) (= _let_143 _let_142) (= _let_140 _let_142) (= _let_142 _let_142) (= _let_142 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_138 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_137 _let_138) (= _let_138 _let_137) (= _let_137 _let_134) (= _let_134 _let_135) (= _let_135 _let_134) (= _let_134 _let_133) (= _let_131 _let_133) (= _let_133 _let_132) (= _let_132 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_128) (= _let_128 _let_119) (= _let_119 _let_119) (= _let_119 _let_125) (= _let_125 _let_127) (= _let_127 _let_125) (= _let_125 _let_4) (= _let_124 _let_4) (= _let_4 _let_124) (= _let_124 _let_124) (= _let_124 _let_123) (= _let_123 _let_121) (= _let_121 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_116 _let_116) (= _let_116 _let_115) (= _let_115 _let_115) (= _let_115 _let_114) (= _let_113 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_111) (= _let_111 _let_111) (= _let_111 _let_110) (= _let_79 _let_110) (= _let_110 _let_110) (= _let_110 _let_79) (= _let_109 _let_79) (= _let_79 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_106) (= _let_106 _let_106) (= _let_106 _let_104) (= _let_104 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_20) (= _let_20 _let_101) (= _let_101 _let_101) (= _let_101 _let_20) (= _let_20 _let_99) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_99) (= _let_99 _let_40) (= _let_40 _let_96) (= _let_96 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_89 _let_90) (= _let_90 _let_89) (= _let_89 _let_89) (= _let_88 _let_88) (= _let_88 _let_89) (= _let_89 _let_88) (= _let_88 _let_38) (= _let_38 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_85) (= _let_85 _let_84) (= _let_84 _let_82) (= _let_82 _let_82) (= _let_82 _let_81) (= _let_81 _let_79) (= _let_68 _let_79) (= _let_79 _let_79) (= _let_79 _let_68) (= _let_68 _let_78) (= _let_78 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_75) (= _let_75 _let_75) (= _let_75 _let_72) (= _let_72 _let_74) (= _let_74 _let_74) (= _let_74 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_68 _let_70) (= _let_70 _let_68) (= _let_66 _let_68) (= _let_68 _let_64) (= _let_64 _let_68) (= _let_68 _let_68) (= _let_68 _let_66) (= _let_66 _let_66) (= _let_66 _let_64) (= _let_64 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_54) (= _let_54 _let_55) (= _let_55 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_52) (= _let_52 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_48) (= _let_48 _let_46) (= _let_46 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_38 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_31) (= _let_31 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_28 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_27 _let_27) (= _let_27 _let_25) (= _let_25 _let_28) (= _let_28 _let_28) (= _let_28 _let_25) (= _let_25 _let_27) (= _let_23 _let_27) (= _let_27 _let_23) (= _let_23 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_10 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_8 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lining_1 X) (and (tptp.original_name_2 X |tptp.'Lining'|) (tptp.user_description_2 X |tptp.'Layer on the inside of something.'|) (tptp.concept2words_2 X tptp.lining) (tptp.layer_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_linkage_map_5 X))) (let ((_let_2 (tptp.fn_create_1 _let_1))) (let ((_let_3 (tptp.fn_linkage_map_2 X))) (let ((_let_4 (tptp.fn_genetic_marker_1 _let_3))) (let ((_let_5 (tptp.fn_linkage_map_6 X))) (let ((_let_6 (tptp.fn_linkage_map_4 X))) (let ((_let_7 (tptp.fn_information_1 _let_6))) (let ((_let_8 (tptp.fn_linkage_map_3 X))) (let ((_let_9 (tptp.fn_linkage_map_1 X))) (=> (tptp.linkage_map_1 X) (and (tptp.original_name_2 X |tptp.'Linkage-Map'|) (tptp.user_description_2 X |tptp.'A genetic map based on the frequencies of recombination between markers during crossing over of homologous chromosomes.'|) (tptp.concept2words_2 X |tptp.'map of linkage'|) (tptp.concept2words_2 X |tptp.'linkage map'|) (tptp.concept2words_2 X |tptp.'linkage-map'|) (tptp.genetic_map_1 X) (not (tptp.physical_map_1 X)) (tptp.recombination_frequency_1 _let_9) (tptp.genetic_marker_1 _let_3) (tptp.distance_between_genes_1 _let_8) (tptp.map_unit_1 _let_6) (tptp.create_1 _let_1) (tptp.dna_sequence_1 _let_5) (tptp.thing_1 _let_7) (tptp.dna_sequence_1 _let_4) (tptp.entity_1 _let_2) (tptp.object_2 _let_1 _let_5) (tptp.information_content_2 X _let_9) (tptp.information_content_2 X _let_6) (tptp.information_content_2 _let_6 _let_8) (tptp.plays_2 _let_5 _let_3) (tptp.result_2 _let_1 X) (= _let_6 (tptp.fn_information_1 X)) (= _let_8 _let_7) (= _let_5 _let_4) (= X _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_linked_genes_2 X))) (let ((_let_2 (tptp.fn_map_unit_12 _let_1))) (let ((_let_3 (tptp.fn_linked_genes_1 X))) (let ((_let_4 (tptp.fn_map_unit_1 _let_1))) (=> (tptp.linked_genes_1 X) (and (tptp.original_name_2 X |tptp.'Linked-Genes'|) (tptp.user_description_2 X |tptp.'Genes located close enough together on a chromosome that they tend to be inherited together.'|) (tptp.concept2words_2 X |tptp.'genetic linkage'|) (tptp.concept2words_2 X |tptp.'genetic-linkage'|) (tptp.concept2words_2 X |tptp.'linked genes'|) (tptp.concept2words_2 X |tptp.'linked gene'|) (tptp.concept2words_2 X |tptp.'linked-gene'|) (tptp.eukaryotic_gene_1 X) (tptp.thing_1 _let_3) (tptp.random_recombination_1 _let_3) (tptp.map_unit_1 _let_1) (tptp.gene_1 _let_4) (tptp.thing_1 _let_2) (tptp.random_recombination_1 _let_2) (tptp.information_content_2 _let_1 _let_3) (tptp.object_2 _let_3 X) (= X _let_4) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_linoleic_acid_51 X))) (let ((_let_2 (tptp.fn_atom_9 _let_1))) (let ((_let_3 (tptp.fn_unsaturated_fatty_acid_60 X))) (let ((_let_4 (tptp.fn_unsaturated_fatty_acid_77 X))) (let ((_let_5 (tptp.fn_linoleic_acid_56 X))) (let ((_let_6 (tptp.fn_second_electron_shell_20 _let_5))) (let ((_let_7 (tptp.fn_linoleic_acid_63 X))) (let ((_let_8 (tptp.fn_carboxyl_group_42 _let_7))) (let ((_let_9 (tptp.fn_second_electron_shell_14 _let_5))) (let ((_let_10 (tptp.fn_carboxyl_group_48 _let_7))) (let ((_let_11 (tptp.fn_carboxyl_group_57 _let_7))) (let ((_let_12 (tptp.fn_carboxyl_group_46 _let_7))) (let ((_let_13 (tptp.fn_linoleic_acid_48 X))) (let ((_let_14 (tptp.fn_atom_18 _let_13))) (let ((_let_15 (tptp.fn_unsaturated_fatty_acid_68 X))) (let ((_let_16 (tptp.fn_carbon_18 _let_13))) (let ((_let_17 (tptp.fn_linoleic_acid_29 X))) (let ((_let_18 (tptp.fn_first_electron_shell_7 _let_17))) (let ((_let_19 (tptp.fn_second_electron_shell_21 _let_5))) (let ((_let_20 (tptp.fn_unsaturated_fatty_acid_64 X))) (let ((_let_21 (tptp.fn_unsaturated_fatty_acid_22 X))) (let ((_let_22 (tptp.fn_fatty_acid_24 X))) (let ((_let_23 (tptp.fn_second_electron_shell_9 _let_5))) (let ((_let_24 (tptp.fn_carboxyl_group_18 _let_7))) (let ((_let_25 (tptp.fn_unsaturated_fatty_acid_21 X))) (let ((_let_26 (tptp.fn_fatty_acid_36 X))) (let ((_let_27 (tptp.fn_second_electron_shell_10 _let_5))) (let ((_let_28 (tptp.fn_second_electron_shell_5 _let_5))) (let ((_let_29 (tptp.fn_linoleic_acid_33 X))) (let ((_let_30 (tptp.fn_share_1 _let_29))) (let ((_let_31 (tptp.fn_share_3 _let_29))) (let ((_let_32 (tptp.fn_linoleic_acid_80 X))) (let ((_let_33 (tptp.fn_share_1 _let_32))) (let ((_let_34 (tptp.fn_unsaturated_fatty_acid_32 X))) (let ((_let_35 (tptp.fn_linoleic_acid_69 X))) (let ((_let_36 (tptp.fn_covalent_bond_20 _let_35))) (let ((_let_37 (tptp.fn_linoleic_acid_71 X))) (let ((_let_38 (tptp.fn_hydrogen_12 _let_37))) (let ((_let_39 (tptp.fn_share_2 _let_32))) (let ((_let_40 (tptp.fn_share_2 _let_29))) (let ((_let_41 (tptp.fn_linoleic_acid_90 X))) (let ((_let_42 (tptp.fn_share_2 _let_41))) (let ((_let_43 (tptp.fn_unsaturated_fatty_acid_41 X))) (let ((_let_44 (tptp.fn_unsaturated_fatty_acid_40 X))) (let ((_let_45 (tptp.fn_hydrogen_14 _let_37))) (let ((_let_46 (tptp.fn_covalent_bond_23 _let_35))) (let ((_let_47 (tptp.fn_unsaturated_fatty_acid_38 X))) (let ((_let_48 (tptp.fn_hydrogen_15 _let_37))) (let 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_let_13 _let_127) (= _let_13 _let_129) (= _let_13 _let_128) (= _let_13 _let_71) (= _let_5 _let_3) (= _let_273 _let_132) (= _let_17 _let_20) (= _let_254 _let_72) (= _let_273 _let_20) (= _let_274 _let_3) (= _let_273 _let_21) (= _let_272 _let_197) (= _let_245 _let_147) (= _let_227 _let_58) (= _let_271 _let_147) (= _let_227 _let_57) (= _let_142 _let_140) (= _let_1 _let_55) (= _let_1 _let_56) (= _let_247 _let_160) (= _let_1 _let_133) (= _let_247 _let_159) (= _let_247 _let_157) (= _let_1 _let_136) (= _let_270 _let_184) (= _let_1 _let_134) (= _let_270 _let_183) (= _let_1 _let_58) (= _let_270 _let_181) (= _let_229 _let_71) (= _let_269 (tptp.fn_unsaturated_fatty_acid_48 X)) (= _let_251 _let_170) (= _let_268 _let_194) (= _let_268 _let_192) (= _let_218 _let_16) (= _let_267 _let_190) (= _let_241 _let_118) (= _let_266 _let_265) (= _let_225 _let_46) (= _let_264 _let_263) (= _let_240 _let_97) (= _let_226 _let_49) (= _let_262 _let_188) (= _let_261 _let_50) (= _let_260 _let_8) (= _let_259 _let_258) (= _let_231 _let_79) (= _let_245 _let_146) (= _let_257 _let_256) (= _let_255 _let_88) (= _let_234 _let_77) (= _let_234 _let_88) (= _let_251 _let_11) (= _let_250 _let_78) (= _let_255 _let_176) (= _let_218 _let_14) (= _let_255 _let_178) (= _let_218 _let_18) (= _let_255 _let_177) (= _let_255 _let_79) (= _let_218 _let_12) (= _let_1 _let_52) (= _let_254 _let_65) (= _let_219 _let_8) (= _let_253 _let_252) (= _let_250 _let_79) (= _let_251 _let_10) (= _let_231 _let_83) (= _let_242 _let_9) (= _let_231 _let_78) (= _let_13 _let_65) (= _let_248 _let_161) (= _let_220 _let_24) (= _let_250 _let_77) (= _let_218 _let_11) (= _let_242 _let_12) (= _let_218 _let_10) (= _let_249 _let_163) (= _let_248 _let_24) (= _let_247 _let_156) (= _let_246 _let_146) (= _let_224 _let_39) (= _let_238 _let_99) (= _let_240 _let_112) (= _let_116 _let_115) (= _let_239 _let_106) (= _let_239 _let_104) (= _let_37 _let_33) (= _let_37 _let_31) (= _let_37 _let_30) (= _let_116 _let_114) (= _let_116 _let_113) (= _let_229 _let_70) (= _let_229 _let_69) (= _let_245 _let_145) (= _let_245 _let_143) (= _let_229 _let_67) (= _let_5 _let_2) (= _let_244 _let_131) (= _let_243 _let_126) (= _let_243 _let_125) (= _let_242 _let_18) (= _let_241 _let_117) (= _let_240 _let_110) (= _let_29 _let_94) (= _let_239 _let_103) (= _let_238 _let_97) (= _let_32 _let_94) (= _let_237 _let_92) (= _let_227 _let_53) (= _let_236 _let_235) (= _let_234 _let_79) (= _let_233 _let_62) (= _let_232 _let_84) (= _let_231 _let_77) (= _let_230 _let_62) (= _let_229 _let_65) (= _let_228 _let_50) (= _let_227 _let_52) (= _let_226 _let_48) (= _let_225 _let_45) (= _let_224 _let_38) (= _let_223 _let_27) (= _let_222 _let_221) (= _let_220 _let_23) (= _let_138 _let_19) (= _let_219 _let_6) (= _let_218 _let_9) (= _let_217 _let_28) (= _let_216 _let_216) (= _let_216 _let_215) (= _let_215 _let_215) (= _let_215 _let_214) (= _let_214 _let_202) (= _let_202 _let_202) (= _let_202 _let_213) (= _let_213 _let_213) (= _let_213 _let_186) (= _let_186 _let_102) (= _let_102 _let_43) (= _let_43 _let_102) (= _let_102 _let_95) (= _let_95 _let_154) (= _let_154 _let_64) (= _let_64 _let_64) (= _let_64 _let_150) (= _let_150 _let_63) (= _let_63 _let_210) (= _let_210 _let_153) (= _let_153 _let_208) (= _let_208 _let_212) (= _let_212 _let_212) (= _let_212 _let_208) (= _let_208 _let_151) (= _let_151 _let_211) (= _let_211 _let_210) (= _let_210 _let_210) (= _let_210 _let_209) (= _let_209 _let_209) (= _let_209 _let_63) (= _let_63 _let_87) (= _let_87 _let_150) (= _let_150 _let_207) (= _let_207 _let_208) (= _let_208 _let_208) (= _let_208 _let_153) (= _let_153 _let_86) (= _let_86 _let_207) (= _let_207 _let_151) (= _let_151 _let_207) (= _let_207 _let_207) (= _let_207 _let_86) (= _let_86 _let_152) (= _let_152 _let_206) (= _let_206 _let_200) (= _let_200 _let_200) (= _let_200 _let_205) (= _let_205 _let_205) (= _let_205 _let_152) (= _let_152 _let_203) (= _let_203 _let_204) (= _let_204 _let_204) (= _let_204 _let_203) (= _let_203 _let_203) (= _let_203 _let_202) (= _let_202 _let_201) (= _let_201 _let_201) (= _let_201 _let_200) (= _let_200 _let_141) (= _let_141 _let_141) (= _let_140 _let_199) (= _let_199 _let_152) (= _let_152 _let_199) (= _let_199 _let_199) (= _let_199 _let_198) (= _let_198 _let_4) (= _let_3 _let_124) (= _let_124 _let_132) (= _let_20 _let_21) (= _let_21 _let_140) (= _let_140 _let_197) (= _let_197 _let_197) (= _let_197 _let_196) (= _let_196 _let_195) (= _let_155 _let_195) (= _let_195 _let_155) (= _let_155 _let_147) (= _let_147 _let_194) (= _let_193 _let_194) (= _let_194 _let_193) (= _let_193 _let_192) (= _let_192 _let_191) (= _let_190 _let_191) (= _let_191 _let_190) (= _let_190 _let_189) (= _let_189 _let_189) (= _let_189 _let_188) (= _let_188 _let_188) (= _let_188 _let_187) (= _let_187 _let_186) (= _let_186 _let_186) (= _let_186 _let_50) (= _let_50 _let_185) (= _let_185 _let_185) (= _let_185 _let_8) (= _let_8 _let_182) (= _let_91 _let_184) (= _let_183 _let_184) (= _let_184 _let_183) (= _let_183 _let_183) (= _let_182 _let_182) (= _let_182 _let_183) (= _let_183 _let_182) (= _let_91 _let_182) (= _let_182 _let_91) (= _let_91 _let_91) (= _let_91 _let_181) (= _let_181 _let_181) (= _let_181 _let_180) (= _let_180 _let_178) (= _let_178 _let_178) (= _let_177 _let_178) (= _let_178 _let_177) (= _let_176 _let_177) (= _let_177 _let_176) (= _let_176 _let_175) (= _let_175 _let_176) (= _let_176 _let_174) (= _let_174 _let_175) (= _let_175 _let_174) (= _let_174 _let_80) (= _let_80 _let_168) (= _let_168 _let_88) (= _let_79 _let_173) (= _let_173 _let_172) (= _let_172 _let_172) (= _let_172 _let_129) (= _let_75 _let_129) (= _let_129 _let_75) (= _let_72 _let_127) (= _let_127 _let_72) (= _let_72 _let_65) (= _let_65 _let_170) (= _let_170 _let_11) (= _let_10 _let_11) (= _let_10 _let_169) (= _let_169 _let_169) (= _let_169 _let_81) (= _let_168 _let_81) (= _let_81 _let_168) (= _let_168 _let_168) (= _let_168 _let_78) (= _let_78 _let_167) (= _let_167 _let_78) (= _let_78 _let_79) (= _let_79 _let_167) (= _let_167 _let_79) (= _let_79 _let_77) (= _let_77 _let_165) (= _let_165 _let_166) (= _let_166 _let_165) (= _let_165 _let_165) (= _let_165 _let_80) (= _let_81 _let_164) (= _let_164 _let_164) (= _let_164 _let_163) (= _let_163 _let_163) (= _let_163 _let_162) (= _let_162 _let_158) (= _let_158 _let_161) (= _let_24 _let_161) (= _let_161 _let_161) (= _let_161 _let_24) (= _let_24 _let_160) (= _let_159 _let_160) (= _let_160 _let_160) (= _let_160 _let_159) (= _let_158 _let_159) (= _let_159 _let_158) (= _let_158 _let_158) (= _let_158 _let_157) (= _let_157 _let_157) (= _let_157 _let_156) (= _let_156 _let_156) (= _let_156 _let_155) (= _let_155 _let_155) (= _let_155 _let_146) (= _let_146 _let_96) (= _let_96 _let_154) (= _let_154 _let_154) (= _let_154 _let_153) (= _let_153 _let_153) (= _let_153 _let_152) (= _let_152 _let_152) (= _let_152 _let_151) (= _let_151 _let_151) (= _let_151 _let_150) (= _let_150 _let_150) (= _let_150 _let_149) (= _let_149 _let_148) (= _let_148 _let_148) (= _let_148 _let_147) (= _let_147 _let_147) (= _let_147 _let_146) (= _let_146 _let_146) (= _let_146 _let_145) (= _let_145 _let_143) (= _let_143 _let_141) (= _let_141 _let_140) (= _let_140 _let_140) (= _let_140 _let_139) (= _let_139 _let_56) (= _let_137 _let_56) (= _let_56 _let_137) (= _let_137 _let_137) (= _let_137 _let_136) (= _let_135 _let_136) (= _let_136 _let_136) (= _let_136 _let_135) (= _let_135 _let_135) (= _let_135 _let_134) (= _let_134 _let_134) (= _let_133 _let_134) (= _let_134 _let_133) (= _let_57 _let_133) (= _let_133 _let_133) (= _let_133 _let_57) (= _let_58 _let_55) (= _let_55 _let_58) (= _let_58 _let_52) (= _let_52 _let_21) (= _let_21 _let_132) (= _let_20 _let_132) (= _let_132 _let_132) (= _let_132 _let_20) (= _let_20 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_129) (= _let_129 _let_129) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_74 _let_128) (= _let_128 _let_74) (= _let_73 _let_74) (= _let_74 _let_72) (= _let_72 _let_73) (= _let_71 _let_127) (= _let_127 _let_127) (= _let_127 _let_71) (= _let_71 _let_65) (= _let_65 _let_43) (= _let_43 _let_126) (= _let_126 _let_126) (= _let_126 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_21) (= _let_20 _let_123) (= _let_123 _let_9) (= _let_9 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_121) (= _let_121 _let_121) (= _let_121 _let_15) (= _let_15 _let_12) (= _let_12 _let_18) (= _let_18 _let_118) (= _let_118 _let_120) (= _let_120 _let_118) (= _let_118 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_117) (= _let_117 _let_36) (= _let_109 _let_36) (= _let_36 _let_109) (= _let_108 _let_115) (= _let_114 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_44) (= _let_44 _let_97) (= _let_97 _let_112) (= _let_112 _let_112) (= _let_112 _let_110) (= _let_110 _let_96) (= _let_96 _let_94) (= _let_94 _let_108) (= _let_108 _let_109) (= _let_109 _let_109) (= _let_109 _let_108) (= _let_108 _let_107) (= _let_107 _let_108) (= _let_108 _let_108) (= _let_108 _let_106) (= _let_106 _let_107) (= _let_107 _let_105) (= _let_105 _let_106) (= _let_106 _let_104) (= _let_104 _let_105) (= _let_105 _let_103) (= _let_103 _let_104) (= _let_104 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_44) (= _let_44 _let_102) (= _let_102 _let_101) (= _let_101 _let_102) (= _let_102 _let_102) (= _let_102 _let_99) (= _let_99 _let_101) (= _let_101 _let_99) (= _let_99 _let_97) (= _let_97 _let_97) (= _let_97 _let_96) (= _let_96 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_94) (= _let_94 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_82) (= _let_82 _let_89) (= _let_89 _let_89) (= _let_89 _let_80) (= _let_80 _let_81) (= _let_81 _let_77) (= _let_77 _let_77) (= _let_77 _let_88) (= _let_88 _let_88) (= _let_88 _let_79) (= _let_79 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_86) (= _let_86 _let_62) (= _let_62 _let_85) (= _let_85 _let_84) (= _let_84 _let_84) (= _let_84 _let_82) (= _let_82 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_75) (= _let_76 _let_75) (= _let_75 _let_76) (= _let_76 _let_74) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_71 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_67) (= _let_65 _let_67) (= _let_67 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_61) (= _let_61 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_57 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_56 _let_57) (= _let_57 _let_57) (= _let_57 _let_53) (= _let_53 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_52 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_40 _let_43) (= _let_43 _let_43) (= _let_43 _let_39) (= _let_39 _let_42) (= _let_42 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_34) (= _let_34 _let_36) (= _let_36 _let_34) (= _let_34 _let_34) (= _let_34 _let_31) (= _let_31 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_16) (= _let_18 _let_16) (= _let_16 _let_18) (= _let_18 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_12 _let_14) (= _let_14 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_3 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lipase_4 X))) (let ((_let_2 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_3 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_4 (tptp.fn_hydrolysis_11 _let_1))) (let ((_let_5 (tptp.fn_exergonic_reaction_10 _let_1))) (let ((_let_6 (tptp.fn_lipase_3 X))) (let ((_let_7 (tptp.fn_lipase_1 X))) (let ((_let_8 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_9 (tptp.fn_lipase_2 X))) (=> (tptp.lipase_1 X) (and (tptp.original_name_2 X |tptp.'Lipase'|) (tptp.user_description_2 X |tptp.'Lipase is an enzyme which hydrolysis the fat to glycerol and fatty acids.'|) (tptp.concept2words_2 X tptp.lipase) (tptp.hydrolase_1 X) (tptp.fat_1 _let_7) (tptp.fatty_acid_1 _let_9) (tptp.glycerol_1 _let_6) (tptp.hydrolysis_1 _let_1) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.result_2 _let_1 _let_9) (tptp.raw_material_2 _let_1 _let_7) (tptp.result_2 _let_1 _let_6) (= _let_9 _let_8) (= _let_7 _let_5) (= _let_7 _let_4) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_4) (= _let_4 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lipid_13 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_lipid_16 X))) (let ((_let_4 (tptp.fn_hydrophobic_region_2 _let_3))) (let ((_let_5 (tptp.fn_lipid_15 X))) (let ((_let_6 (tptp.fn_lipid_14 X))) (let ((_let_7 (tptp.fn_lipid_2 X))) (let ((_let_8 (tptp.fn_lipid_11 X))) (let ((_let_9 (tptp.fn_lipid_3 X))) (let ((_let_10 (tptp.fn_lipid_4 X))) (let ((_let_11 (tptp.fn_lipid_10 X))) (=> (tptp.lipid_1 X) (and (tptp.original_name_2 X |tptp.'Lipid'|) (tptp.description_2 X |tptp.'One of a family of compounds, including fats, phospholipids, and steroids, that are insoluble in water. Organic molecule, generally containing hydrocarbon'|) (tptp.user_description_2 X |tptp.'Lipids are a broad group of naturally occurring molecules which includes fats, waxes, steroids, fat-soluble vitamins, phospholipids, and others.'|) (tptp.concept2words_2 X tptp.lipid) (tptp.organic_entity_1 X) (tptp.organic_molecule_1 X) (tptp.size_value_1 _let_7) (tptp.quantity_value_1 _let_9) (tptp.quantity_value_1 _let_10) (tptp.system_1 (tptp.fn_lipid_6 X)) (tptp.carbon_skeleton_1 _let_11) (tptp.water_1 _let_8) (tptp.solubility_value_1 _let_1) (tptp.carbon_skeleton_1 _let_6) (tptp.repel_1 _let_5) (tptp.hydrophobic_region_1 _let_3) (tptp.repel_1 _let_4) (tptp.property_node_1 _let_2) (tptp.the_scalar_value_2 _let_1 tptp.insoluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.organic_molecule_0) (tptp.is_inside_2 _let_11 _let_6) (tptp.greater_than_2 _let_10 _let_9) (tptp.called_2 _let_10 |tptp.'Q_hydrogen'|) (tptp.the_scalar_value_2 _let_10 tptp.high_0) (tptp.scalar_unit_class_2 _let_10 tptp.carbon_0) (tptp.called_2 _let_9 |tptp.'Q_carbon'|) (tptp.has_region_2 X _let_3) (tptp.solubility_in_water_2 X _let_1) (tptp.has_function_2 X _let_5) (tptp.size_2 X _let_7) (tptp.agent_2 _let_5 X) (tptp.object_2 _let_5 _let_8) (tptp.facilitates_2 _let_3 _let_5) (tptp.the_scalar_value_2 _let_7 tptp.big_0) (tptp.scalar_unit_class_2 _let_7 tptp.organic_molecule_0) (tptp.has_region_2 X _let_6) (tptp.site_2 _let_5 _let_3) (= _let_6 (tptp.fn_organic_molecule_3 X)) (= _let_5 _let_4) (= (tptp.fn_lipid_12 X) _let_2))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lipoprotein_1 X) (and (tptp.original_name_2 X |tptp.'Lipoprotein'|) (tptp.user_description_2 X |tptp.'Any of a group of biological molecules consisting of a lipid bound to a protein. Examples include high-density lipoprotein (HDL) and low-density lipoprotein (LDL), which transport fats in the bloodstream.'|) (tptp.concept2words_2 X tptp.lipoprotein) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_liquid_ammonia_3 X))) (let ((_let_2 (tptp.fn_liquid_ammonia_1 X))) (=> (tptp.liquid_ammonia_1 X) (and (tptp.original_name_2 X |tptp.'Liquid-Ammonia'|) (tptp.user_description_2 X |tptp.'It is liquid form of ammonia.'|) (tptp.concept2words_2 X |tptp.'ammonia of liquid'|) (tptp.concept2words_2 X |tptp.'liquid ammonia'|) (tptp.concept2words_2 X |tptp.'liquid-ammonia'|) (tptp.weak_base_1 X) (tptp.liquid_substance_1 X) (tptp.heat_of_vaporization_value_1 _let_2) (tptp.ammonia_1 _let_1) (tptp.the_cardinal_value_2 _let_2 |"300.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.calorie_per_gram_0) (tptp.heat_of_vaporization_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_liquid_substance_2 X))) (=> (tptp.liquid_substance_1 X) (and (tptp.original_name_2 X |tptp.'Liquid-Substance'|) (tptp.description_2 X |tptp.'A substance in the liquid state at room temperature'|) (tptp.concept2words_2 X tptp.liquid) (tptp.concept2words_2 X |tptp.'substance of liquid'|) (tptp.concept2words_2 X |tptp.'liquid substance'|) (tptp.concept2words_2 X |tptp.'liquid-substance'|) (tptp.fluid_substance_1 X) (tptp.state_value_1 _let_1) (tptp.physical_state_2 X _let_1) (tptp.the_categorical_value_2 _let_1 tptp.liquid_0))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lithium_9 X))) (let ((_let_2 (tptp.fn_atomic_nucleus_4 _let_1))) (let ((_let_3 (tptp.fn_atomic_nucleus_2 _let_1))) (let ((_let_4 (tptp.fn_atom_5 X))) (let ((_let_5 (tptp.fn_atomic_nucleus_1 _let_1))) (let ((_let_6 (tptp.fn_atom_17 X))) (let ((_let_7 (tptp.fn_atomic_nucleus_8 _let_1))) (let ((_let_8 (tptp.fn_lithium_10 X))) (let ((_let_9 (tptp.fn_atomic_nucleus_9 _let_1))) (let ((_let_10 (tptp.fn_lithium_8 X))) (let ((_let_11 (tptp.fn_lithium_17 X))) (let ((_let_12 (tptp.fn_lithium_12 X))) (let ((_let_13 (tptp.fn_atomic_nucleus_5 _let_1))) (let ((_let_14 (tptp.fn_lithium_19 X))) (let ((_let_15 (tptp.fn_lithium_11 X))) (let ((_let_16 (tptp.fn_lithium_13 X))) (let ((_let_17 (tptp.fn_lithium_5 X))) (let ((_let_18 (tptp.fn_lithium_6 X))) (let ((_let_19 (tptp.fn_lithium_7 X))) (let ((_let_20 (tptp.fn_lithium_4 X))) (=> (tptp.lithium_1 X) (and (tptp.original_name_2 X |tptp.'Lithium'|) (tptp.user_description_2 X |tptp.'Lithium is a metal atom with atomic number 3. It is represented by the symbol Li.'|) (tptp.concept2words_2 X |tptp.'Li'|) (tptp.concept2words_2 X tptp.lithium) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_20) (tptp.atomic_mass_value_1 _let_17) (tptp.valence_value_1 _let_18) (tptp.electronegativity_value_1 _let_19) (tptp.proton_1 _let_10) (tptp.atomic_nucleus_1 _let_1) (tptp.electron_1 _let_8) (tptp.quantity_value_1 _let_15) (tptp.atomic_number_value_1 _let_12) (tptp.atomic_weight_value_1 _let_16) (tptp.quantity_value_1 _let_11) (tptp.system_1 _let_14) (tptp.property_node_1 _let_13) (tptp.proton_1 _let_9) (tptp.electron_1 _let_7) (tptp.atomic_number_value_1 _let_5) (tptp.quantity_value_1 _let_3) (tptp.atom_1 _let_2) (tptp.has_part_2 X _let_20) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"3"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.neutron_0) (tptp.mass_number_2 X _let_17) (tptp.valence_2 X _let_18) (tptp.electronegativity_2 X _let_19) (tptp.quantity_2 _let_8 _let_15) (tptp.the_cardinal_value_2 _let_15 |"1"|) (tptp.cardinal_unit_class_2 _let_15 tptp.unity_0) (tptp.called_2 _let_15 |tptp.'Number_Electron'|) (tptp.the_cardinal_value_2 _let_19 |"0.98"|) (tptp.cardinal_unit_class_2 _let_19 tptp.unity_0) (tptp.the_cardinal_value_2 _let_18 |"1"|) (tptp.cardinal_unit_class_2 _let_18 tptp.unity_0) (tptp.the_cardinal_value_2 _let_17 |"7"|) (tptp.cardinal_unit_class_2 _let_17 tptp.unity_0) (tptp.the_cardinal_value_2 _let_12 |"3"|) (tptp.cardinal_unit_class_2 _let_12 tptp.unity_0) (tptp.the_cardinal_value_2 _let_16 |"6.941"|) (tptp.cardinal_unit_class_2 _let_16 tptp.dalton_0) (tptp.atomic_weight_2 X _let_16) (= _let_11 _let_15) (= _let_15 _let_11) (tptp.has_part_2 X _let_10) (tptp.called_2 _let_11 |tptp.'Number_Proton'|) (tptp.has_part_2 X _let_8) (tptp.has_region_2 X _let_1) (tptp.atomic_number_2 X _let_12) (tptp.called_2 _let_12 |tptp.'Atomic_Number'|) (tptp.is_inside_2 _let_10 _let_1) (tptp.quantity_2 _let_10 _let_11) (= _let_11 _let_12) (tptp.is_near_2 _let_8 _let_1) (tptp.is_near_2 _let_1 _let_8) (= _let_12 _let_11) (= _let_12 _let_6) (= (tptp.fn_lithium_16 X) (tptp.fn_atom_10 X)) (= (tptp.fn_lithium_14 X) (tptp.fn_atom_13 X)) (= _let_16 (tptp.fn_atom_16 X)) (= _let_11 _let_4) (= _let_15 (tptp.fn_atom_11 X)) (= (tptp.fn_lithium_18 X) (tptp.fn_atom_4 X)) (= _let_14 (tptp.fn_atom_3 X)) (= (tptp.fn_lithium_15 X) _let_13) (= X _let_2) (= _let_12 _let_5) (= _let_11 _let_3) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_succulent_plant_38 X))) (let ((_let_2 (tptp.fn_vascular_plant_20 X))) (let ((_let_3 (tptp.fn_lithops_66 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_lithops_40 X))) (let ((_let_6 (tptp.fn_plant_cell_63 _let_5))) (let ((_let_7 (tptp.fn_photosynthesis_28 _let_3))) (let ((_let_8 (tptp.fn_eukaryotic_cell_23 _let_5))) (let ((_let_9 (tptp.fn_plant_cell_84 _let_5))) (let ((_let_10 (tptp.fn_eukaryotic_cell_26 _let_5))) (let ((_let_11 (tptp.fn_succulent_plant_71 X))) (let ((_let_12 (tptp.fn_plant_cell_83 _let_5))) (let ((_let_13 (tptp.fn_succulent_plant_50 X))) (let ((_let_14 (tptp.fn_eukaryotic_cell_31 _let_5))) (let ((_let_15 (tptp.fn_plant_cell_97 _let_5))) (let ((_let_16 (tptp.fn_lithops_63 X))) (let ((_let_17 (tptp.fn_exocytosis_26 _let_16))) (let ((_let_18 (tptp.fn_succulent_plant_49 X))) (let ((_let_19 (tptp.fn_plant_cell_64 _let_5))) (let ((_let_20 (tptp.fn_succulent_plant_64 X))) (let ((_let_21 (tptp.fn_plant_cell_82 _let_5))) (let ((_let_22 (tptp.fn_succulent_plant_51 X))) (let ((_let_23 (tptp.fn_vascular_plant_16 X))) (let ((_let_24 (tptp.fn_succulent_plant_43 X))) (let ((_let_25 (tptp.fn_vascular_plant_6 X))) (let ((_let_26 (tptp.fn_succulent_plant_9 X))) (let ((_let_27 (tptp.fn_vascular_plant_15 X))) (let ((_let_28 (tptp.fn_succulent_plant_44 X))) (let ((_let_29 (tptp.fn_vascular_plant_9 X))) (let ((_let_30 (tptp.fn_succulent_plant_46 X))) (let ((_let_31 (tptp.fn_succulent_plant_41 X))) (let ((_let_32 (tptp.fn_seed_plant_7 X))) (let ((_let_33 (tptp.fn_crassulacean_acid_metabolism_119 _let_3))) (let ((_let_34 (tptp.fn_photosynthesis_38 _let_3))) (let ((_let_35 (tptp.fn_crassulacean_acid_metabolism_146 _let_3))) (let ((_let_36 (tptp.fn_photosynthesis_50 _let_3))) (let ((_let_37 (tptp.fn_crassulacean_acid_metabolism_138 _let_3))) (let ((_let_38 (tptp.fn_photosynthesis_51 _let_3))) (let ((_let_39 (tptp.fn_crassulacean_acid_metabolism_139 _let_3))) (let ((_let_40 (tptp.fn_photosynthesis_52 _let_3))) (let ((_let_41 (tptp.fn_crassulacean_acid_metabolism_118 _let_3))) (let ((_let_42 (tptp.fn_photosynthesis_34 _let_3))) (let ((_let_43 (tptp.fn_crassulacean_acid_metabolism_85 _let_3))) (let ((_let_44 (tptp.fn_succulent_plant_36 X))) (let ((_let_45 (tptp.fn_lithops_27 X))) (let ((_let_46 (tptp.fn_store_1 _let_45))) (let ((_let_47 (tptp.fn_lithops_26 X))) (let ((_let_48 (tptp.fn_store_1 _let_47))) (let ((_let_49 (tptp.fn_crassulacean_acid_metabolism_87 _let_3))) (let ((_let_50 (tptp.fn_lithops_68 X))) (let ((_let_51 (tptp.fn_store_1 _let_50))) (let ((_let_52 (tptp.fn_crassulacean_acid_metabolism_147 _let_3))) (let ((_let_53 (tptp.fn_photosynthesis_24 _let_3))) (let ((_let_54 (tptp.fn_crassulacean_acid_metabolism_143 _let_3))) (let ((_let_55 (tptp.fn_succulent_plant_33 X))) (let ((_let_56 (tptp.fn_anabolic_pathway_3 _let_3))) (let ((_let_57 (tptp.fn_crassulacean_acid_metabolism_156 _let_3))) (let ((_let_58 (tptp.fn_anabolic_pathway_1 _let_3))) (let ((_let_59 (tptp.fn_crassulacean_acid_metabolism_66 _let_3))) (let ((_let_60 (tptp.fn_photosynthesis_3 _let_3))) (let ((_let_61 (tptp.fn_crassulacean_acid_metabolism_67 _let_3))) (let ((_let_62 (tptp.fn_succulent_plant_31 X))) (let ((_let_63 (tptp.fn_photosynthesis_4 _let_3))) (let ((_let_64 (tptp.fn_crassulacean_acid_metabolism_73 _let_3))) (let ((_let_65 (tptp.fn_succulent_plant_32 X))) (let ((_let_66 (tptp.fn_lithops_55 X))) (let ((_let_67 (tptp.fn_leaf_16 _let_66))) (let ((_let_68 (tptp.fn_leaf_14 _let_66))) (let ((_let_69 (tptp.fn_leaf_51 _let_66))) (let ((_let_70 (tptp.fn_leaf_50 _let_66))) (let ((_let_71 (tptp.fn_succulent_plant_24 X))) (let ((_let_72 (tptp.fn_photosynthesis_37 _let_3))) (let ((_let_73 (tptp.fn_anabolic_pathway_5 _let_3))) (let ((_let_74 (tptp.fn_store_2 _let_47))) (let ((_let_75 (tptp.fn_store_2 _let_45))) (let ((_let_76 (tptp.fn_store_2 _let_50))) (let ((_let_77 (tptp.fn_succulent_plant_1 X))) (let ((_let_78 (tptp.fn_lithops_58 X))) (let ((_let_79 (tptp.fn_root_11 _let_78))) (let ((_let_80 (tptp.fn_succulent_plant_58 X))) (let ((_let_81 (tptp.fn_root_26 _let_78))) (let ((_let_82 (tptp.fn_succulent_plant_42 X))) (let ((_let_83 (tptp.fn_root_30 _let_78))) (let ((_let_84 (tptp.fn_root_27 _let_78))) (let ((_let_85 (tptp.fn_succulent_plant_4 X))) (let ((_let_86 (tptp.fn_angiosperm_2 X))) (let ((_let_87 (tptp.fn_succulent_plant_3 X))) (let ((_let_88 (tptp.fn_angiosperm_1 X))) (let ((_let_89 (tptp.fn_lithops_43 X))) (let ((_let_90 (tptp.fn_cellular_respiration_61 _let_89))) (let ((_let_91 (tptp.fn_lithops_44 X))) (let ((_let_92 (tptp.fn_photosynthesis_38 _let_91))) (let ((_let_93 (tptp.fn_exergonic_reaction_11 _let_89))) (let ((_let_94 (tptp.fn_plant_cell_59 _let_5))) (let ((_let_95 (tptp.fn_lithops_36 X))) (let ((_let_96 (tptp.fn_lithops_35 X))) (let ((_let_97 (tptp.fn_lithops_10 X))) (let ((_let_98 (tptp.fn_lithops_65 X))) (let ((_let_99 (tptp.fn_lithops_64 X))) (let ((_let_100 (tptp.fn_lithops_14 X))) (let ((_let_101 (tptp.fn_plant_cell_71 _let_5))) (let ((_let_102 (tptp.fn_lithops_9 X))) (let ((_let_103 (tptp.fn_lithops_41 X))) (let ((_let_104 (tptp.fn_plant_cell_21 _let_5))) (let ((_let_105 (tptp.fn_lithops_12 X))) (let ((_let_106 (tptp.fn_plant_cell_89 _let_5))) (let ((_let_107 (tptp.fn_lithops_42 X))) (let ((_let_108 (tptp.fn_plant_cell_1 _let_5))) (let ((_let_109 (tptp.fn_lithops_11 X))) (let ((_let_110 (tptp.fn_plant_cell_78 _let_5))) (let ((_let_111 (tptp.fn_lithops_13 X))) (let ((_let_112 (tptp.fn_lithops_47 X))) (let ((_let_113 (tptp.fn_lithops_62 X))) (let ((_let_114 (tptp.fn_lithops_67 X))) (let ((_let_115 (tptp.fn_lithops_21 X))) (let ((_let_116 (tptp.fn_lithops_22 X))) (let ((_let_117 (tptp.fn_lithops_31 X))) (let ((_let_118 (tptp.fn_lithops_30 X))) (let ((_let_119 (tptp.fn_lithops_33 X))) (let ((_let_120 (tptp.fn_lithops_32 X))) (let ((_let_121 (tptp.fn_lithops_37 X))) (let ((_let_122 (tptp.fn_lithops_23 X))) (let ((_let_123 (tptp.fn_lithops_29 X))) (let ((_let_124 (tptp.fn_lithops_17 X))) (let ((_let_125 (tptp.fn_lithops_24 X))) (let ((_let_126 (tptp.fn_lithops_25 X))) (let ((_let_127 (tptp.fn_crassulacean_acid_metabolism_63 _let_3))) (let ((_let_128 (tptp.fn_crassulacean_acid_metabolism_152 _let_3))) (let ((_let_129 (tptp.fn_lithops_28 X))) (let ((_let_130 (tptp.fn_crassulacean_acid_metabolism_153 _let_3))) (let ((_let_131 (tptp.fn_crassulacean_acid_metabolism_144 _let_3))) (let ((_let_132 (tptp.fn_crassulacean_acid_metabolism_64 _let_3))) (let ((_let_133 (tptp.fn_crassulacean_acid_metabolism_157 _let_3))) (let ((_let_134 (tptp.fn_lithops_48 X))) (let ((_let_135 (tptp.fn_lithops_51 X))) (let ((_let_136 (tptp.fn_lithops_49 X))) (let ((_let_137 (tptp.fn_lithops_50 X))) (let ((_let_138 (tptp.fn_leaf_12 _let_66))) (let ((_let_139 (tptp.fn_lithops_52 X))) (let ((_let_140 (tptp.fn_lithops_34 X))) (let ((_let_141 (tptp.fn_lithops_53 X))) (let ((_let_142 (tptp.fn_lithops_60 X))) (let ((_let_143 (tptp.fn_lithops_61 X))) (let ((_let_144 (tptp.fn_lithops_57 X))) (let ((_let_145 (tptp.fn_lithops_56 X))) (let ((_let_146 (tptp.fn_root_2 _let_78))) (let ((_let_147 (tptp.fn_lithops_46 X))) (let ((_let_148 (tptp.fn_root_15 _let_78))) (let ((_let_149 (tptp.fn_lithops_54 X))) (let ((_let_150 (tptp.fn_root_1 _let_78))) (let ((_let_151 (tptp.fn_root_16 _let_78))) (let ((_let_152 (tptp.fn_lithops_45 X))) (let ((_let_153 (tptp.fn_store_3 _let_47))) (let ((_let_154 (tptp.fn_lithops_69 X))) (let ((_let_155 (tptp.fn_store_3 _let_50))) (let ((_let_156 (tptp.fn_store_3 _let_45))) (let ((_let_157 (tptp.fn_tissue_1 _let_143))) (let ((_let_158 (tptp.fn_lithops_59 X))) (let ((_let_159 (tptp.fn_lithops_2 X))) (let ((_let_160 (tptp.fn_lithops_1 X))) (let ((_let_161 (tptp.fn_lithops_7 X))) (let ((_let_162 (tptp.fn_lithops_3 X))) (let ((_let_163 (tptp.fn_lithops_8 X))) (let ((_let_164 (tptp.fn_lithops_6 X))) (let ((_let_165 (tptp.fn_lithops_5 X))) (=> (tptp.lithops_1 X) (and (tptp.original_name_2 X |tptp.'Lithops'|) (tptp.user_description_2 X |tptp.'Lithops is a genus of perennial plants, also called stone plants.'|) (tptp.concept2words_2 X tptp.lithop) (tptp.succulent_plant_1 X) (tptp.perennial_1 X) (tptp.leaf_1 _let_160) (tptp.tip_1 _let_159) (tptp.tip_1 _let_162) (tptp.growth_1 _let_165) (tptp.rate_value_1 _let_164) (tptp.ground_1 _let_161) (tptp.bundle_sheath_cell_1 _let_163) (tptp.exchange_1 _let_102) (tptp.tangible_entity_1 _let_97) (tptp.nucleus_1 _let_97) (tptp.maintenance_1 _let_109) (tptp.support_1 _let_105) (tptp.defense_1 _let_111) (tptp.surface_1 _let_100) (tptp.cytoplasmic_side_1 _let_100) (tptp.spatial_entity_1 _let_115) (tptp.tangible_entity_1 _let_115) (tptp.chemical_entity_1 _let_115) (tptp.hydrophobic_compound_1 _let_115) (tptp.molecule_1 _let_115) (tptp.carbon_dioxide_1 _let_115) (tptp.free_energy_1 _let_116) (tptp.structural_complexity_value_1 _let_122) (tptp.size_value_1 _let_125) (tptp.size_value_1 _let_126) (tptp.store_1 _let_47) (tptp.store_1 _let_45) (tptp.free_energy_1 _let_129) (tptp.structural_complexity_value_1 _let_123) (tptp.quantity_value_1 _let_118) (tptp.quantity_value_1 _let_117) (tptp.entity_1 _let_120) (tptp.chemical_energy_1 _let_120) (tptp.spatial_entity_1 _let_119) (tptp.energy_1 _let_119) (tptp.visible_light_1 _let_119) (tptp.spatial_entity_1 _let_140) (tptp.tangible_entity_1 _let_140) (tptp.chemical_entity_1 _let_140) (tptp.sugar_1 _let_140) (tptp.glucose_1 _let_140) (tptp.metabolic_pathway_1 _let_96) (tptp.eukaryotic_cellular_respiration_1 _let_96) (tptp.organelle_1 _let_95) (tptp.mitochondrion_1 _let_95) (tptp.semiautonomous_organelle_1 _let_95) (tptp.entity_1 _let_121) (tptp.chemical_energy_1 _let_121) (tptp.cell_1 _let_5) (tptp.eukaryotic_cell_1 _let_5) (tptp.plant_cell_1 _let_5) (tptp.cell_wall_1 _let_103) (tptp.plant_cell_wall_1 _let_103) (tptp.cytoplasmic_streaming_1 _let_107) (tptp.exergonic_reaction_1 _let_89) (tptp.cellular_respiration_1 _let_89) (tptp.photosynthesis_1 _let_91) (tptp.spatial_entity_1 _let_152) (tptp.chemical_entity_1 _let_152) (tptp.hydrophobic_compound_1 _let_152) (tptp.molecule_1 _let_152) (tptp.tangible_entity_1 _let_152) (tptp.carbon_dioxide_1 _let_152) (tptp.surface_area_value_1 _let_147) (tptp.root_system_1 _let_112) (tptp.waxy_cuticle_1 _let_134) (tptp.epidermis_1 _let_136) (tptp.epidermis_1 _let_137) (tptp.waxy_cuticle_1 _let_135) (tptp.palisade_mesophyll_1 _let_139) (tptp.root_hair_1 _let_141) (tptp.quantity_value_1 _let_149) (tptp.leaf_1 _let_66) (tptp.flower_1 _let_145) (tptp.fruit_1 _let_144) (tptp.root_1 _let_78) (tptp.guard_cell_1 _let_158) (tptp.plant_cell_1 _let_142) (tptp.tissue_1 _let_143) (tptp.epidermis_1 _let_143) (tptp.ground_1 _let_113) (tptp.exocytosis_1 _let_16) (tptp.membrane_1 _let_99) (tptp.spatial_entity_1 _let_99) (tptp.biomembrane_1 _let_99) (tptp.plasma_membrane_1 _let_99) (tptp.spatial_entity_1 _let_98) (tptp.mixture_1 _let_98) (tptp.suspension_1 _let_98) (tptp.colloid_1 _let_98) (tptp.cytoplasm_1 _let_98) (tptp.anabolic_pathway_1 _let_3) (tptp.metabolic_pathway_1 _let_3) (tptp.photosynthesis_1 _let_3) (tptp.crassulacean_acid_metabolism_1 _let_3) (tptp.shoot_system_1 _let_114) (tptp.store_1 _let_50) (tptp.container_1 _let_154) (tptp.eukaryotic_cell_1 _let_157) (tptp.container_1 _let_156) (tptp.container_1 _let_155) (tptp.container_1 _let_153) (tptp.property_node_1 _let_151) (tptp.property_node_1 _let_150) (tptp.quantity_value_1 _let_148) (tptp.surface_area_value_1 _let_146) (tptp.palisade_mesophyll_1 _let_138) (tptp.property_node_1 _let_133) (tptp.property_node_1 _let_132) (tptp.store_1 _let_131) (tptp.property_node_1 _let_130) (tptp.property_node_1 _let_128) (tptp.property_node_1 _let_127) (tptp.defense_1 _let_110) (tptp.maintenance_1 _let_108) (tptp.cytoplasmic_streaming_1 _let_106) (tptp.support_1 _let_104) (tptp.exchange_1 _let_101) (tptp.organelle_1 _let_94) (tptp.mitochondrion_1 _let_94) (tptp.semiautonomous_organelle_1 _let_94) (tptp.chemical_entity_1 _let_93) (tptp.spatial_entity_1 _let_92) (tptp.tangible_entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.hydrophobic_compound_1 _let_92) (tptp.molecule_1 _let_92) (tptp.carbon_dioxide_1 _let_92) (tptp.tangible_entity_1 _let_90) (tptp.carbon_dioxide_1 _let_90) (tptp.tissue_1 _let_84) (tptp.epidermis_1 _let_83) (tptp.plant_cell_1 _let_81) (tptp.root_hair_1 _let_79) (tptp.spatial_entity_1 _let_76) (tptp.spatial_entity_1 _let_75) (tptp.spatial_entity_1 _let_74) (tptp.chemical_entity_1 _let_73) (tptp.tangible_entity_1 _let_72) (tptp.chemical_entity_1 _let_72) (tptp.sugar_1 _let_72) (tptp.epidermis_1 _let_70) (tptp.epidermis_1 _let_69) (tptp.waxy_cuticle_1 _let_68) (tptp.waxy_cuticle_1 _let_67) (tptp.free_energy_1 _let_64) (tptp.size_value_1 _let_63) (tptp.size_value_1 _let_61) (tptp.size_value_1 _let_60) (tptp.size_value_1 _let_59) (tptp.property_node_1 _let_58) (tptp.property_node_1 _let_57) (tptp.structural_complexity_value_1 _let_56) (tptp.structural_complexity_value_1 _let_54) (tptp.structural_complexity_value_1 _let_53) (tptp.structural_complexity_value_1 _let_52) (tptp.entity_1 _let_51) (tptp.chemical_energy_1 _let_49) (tptp.entity_1 _let_48) (tptp.entity_1 _let_46) (tptp.entity_1 _let_43) (tptp.chemical_energy_1 _let_43) (tptp.visible_light_1 _let_42) (tptp.energy_1 _let_42) (tptp.spatial_entity_1 _let_41) (tptp.energy_1 _let_41) (tptp.visible_light_1 _let_41) (tptp.quantity_value_1 _let_40) (tptp.quantity_value_1 _let_39) (tptp.quantity_value_1 _let_38) (tptp.quantity_value_1 _let_37) (tptp.free_energy_1 _let_36) (tptp.free_energy_1 _let_35) (tptp.spatial_entity_1 _let_34) (tptp.tangible_entity_1 _let_34) (tptp.chemical_entity_1 _let_34) (tptp.hydrophobic_compound_1 _let_34) (tptp.molecule_1 _let_34) (tptp.carbon_dioxide_1 _let_34) (tptp.spatial_entity_1 _let_33) (tptp.tangible_entity_1 _let_33) (tptp.chemical_entity_1 _let_33) (tptp.hydrophobic_compound_1 _let_33) (tptp.molecule_1 _let_33) (tptp.carbon_dioxide_1 _let_33) (tptp.cell_wall_1 _let_21) (tptp.plant_cell_wall_1 _let_21) (tptp.surface_1 _let_19) (tptp.cytoplasmic_side_1 _let_19) (tptp.spatial_entity_1 _let_17) (tptp.biomembrane_1 _let_17) (tptp.plasma_membrane_1 _let_17) (tptp.membrane_1 _let_15) (tptp.spatial_entity_1 _let_15) (tptp.biomembrane_1 _let_15) (tptp.plasma_membrane_1 _let_15) (tptp.mixture_1 _let_14) (tptp.cytoplasm_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.mixture_1 _let_12) (tptp.suspension_1 _let_12) (tptp.colloid_1 _let_12) (tptp.cytoplasm_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.nucleus_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.nucleus_1 _let_9) (tptp.eukaryotic_cellular_respiration_1 _let_8) (tptp.eukaryotic_cellular_respiration_1 _let_7) (tptp.metabolic_pathway_1 _let_6) (tptp.eukaryotic_cellular_respiration_1 _let_6) (tptp.cell_1 _let_4) (tptp.site_2 _let_91 _let_98) (tptp.is_above_2 _let_137 _let_134) (tptp.is_inside_2 X _let_161) (tptp.the_scalar_value_2 _let_164 tptp.slow_0) (tptp.scalar_unit_class_2 _let_164 tptp.activity_0) (tptp.object_2 _let_165 X) (tptp.rate_2 _let_165 _let_164) (tptp.is_above_2 _let_162 _let_161) (tptp.has_part_2 _let_66 _let_163) (tptp.has_region_2 _let_66 _let_162) (tptp.is_above_2 _let_159 _let_161) (tptp.has_region_2 _let_160 _let_159) (tptp.base_2 _let_50 _let_140) (tptp.has_part_2 _let_143 _let_158) (tptp.object_2 _let_50 _let_121) (tptp.base_2 _let_45 _let_140) (tptp.plays_2 _let_140 _let_154) (tptp.site_2 _let_89 _let_98) (tptp.is_inside_2 _let_99 _let_103) (tptp.raw_material_2 _let_91 _let_152) (tptp.in_event_2 _let_154 _let_47) (tptp.result_2 _let_89 _let_152) (tptp.path_2 _let_16 _let_99) (tptp.has_function_2 _let_99 _let_16) (tptp.quantity_2 _let_141 _let_149) (tptp.surface_area_2 _let_78 _let_147) (tptp.positive_influence_2 _let_149 _let_147) (tptp.the_scalar_value_2 _let_149 tptp.numerous_0) (tptp.scalar_unit_class_2 _let_149 tptp.eukaryotic_cell_structure_0) (tptp.result_2 _let_96 _let_115) (tptp.structural_complexity_2 _let_140 _let_123) (tptp.possesses_2 _let_140 _let_129) (tptp.has_part_2 X _let_145) (tptp.size_2 _let_140 _let_126) (tptp.base_2 _let_3 _let_5) (tptp.experiencer_2 _let_3 X) (tptp.has_part_2 X _let_144) (tptp.has_part_2 _let_78 _let_141) (tptp.is_inside_2 _let_142 _let_141) (tptp.has_part_2 _let_143 _let_142) (tptp.has_part_2 _let_78 _let_143) (tptp.has_function_2 X _let_3) (tptp.result_2 _let_3 _let_140) (tptp.base_2 _let_47 _let_140) (tptp.object_2 _let_47 _let_120) (tptp.has_part_2 _let_66 _let_137) (tptp.has_part_2 _let_66 _let_139) (tptp.is_above_2 _let_136 _let_139) (tptp.is_above_2 _let_135 _let_136) (tptp.has_part_2 _let_66 _let_134) (not (= _let_134 _let_135)) (tptp.has_part_2 _let_66 _let_135) (tptp.has_part_2 _let_66 _let_136) (not (= _let_136 _let_137)) (not (= _let_135 _let_134)) (not (= _let_137 _let_136)) (tptp.object_2 _let_45 _let_120) (tptp.quantity_2 _let_129 _let_118) (tptp.called_2 _let_117 |tptp.'FE_r'|) (tptp.size_2 _let_115 _let_125) (tptp.greater_than_2 _let_126 _let_125) (tptp.structural_complexity_2 _let_115 _let_122) (tptp.greater_than_2 _let_123 _let_122) (tptp.raw_material_2 _let_3 _let_119) (not (= _let_120 _let_119)) (not (= _let_119 _let_120)) (not (= _let_121 _let_119)) (not (= _let_119 _let_121)) (tptp.raw_material_2 _let_3 _let_115) (tptp.possesses_2 _let_115 _let_116) (tptp.quantity_2 _let_116 _let_117) (tptp.greater_than_2 _let_118 _let_117) (tptp.called_2 _let_118 |tptp.'FE_p'|) (tptp.has_part_2 X _let_5) (tptp.is_inside_2 _let_78 _let_112) (tptp.has_region_2 X _let_112) (tptp.is_inside_2 _let_112 _let_113) (tptp.is_above_2 _let_114 _let_113) (tptp.has_region_2 X _let_114) (tptp.has_part_2 X _let_78) (tptp.has_function_2 _let_5 _let_96) (tptp.object_2 _let_105 _let_5) (tptp.is_outside_2 _let_103 _let_99) (tptp.agent_2 _let_111 _let_103) (tptp.object_2 _let_111 _let_5) (tptp.has_part_2 _let_5 _let_98) (tptp.is_oriented_toward_2 _let_100 _let_98) (tptp.object_2 _let_107 _let_98) (tptp.base_2 _let_107 _let_5) (tptp.object_2 _let_109 _let_5) (tptp.agent_2 _let_109 _let_103) (tptp.has_function_2 _let_103 _let_111) (tptp.base_2 _let_102 _let_5) (tptp.agent_2 _let_102 _let_5) (tptp.has_part_2 _let_5 _let_103) (tptp.has_function_2 _let_103 _let_105) (tptp.agent_2 _let_105 _let_103) (tptp.is_inside_2 _let_98 _let_99) (tptp.has_region_2 _let_99 _let_100) (tptp.is_facing_2 _let_100 _let_98) (tptp.is_between_2 _let_98 _let_99) (tptp.has_part_2 _let_5 _let_99) (tptp.has_part_2 _let_5 _let_95) (tptp.has_function_2 _let_95 _let_96) (tptp.base_2 _let_96 _let_5) (tptp.has_part_2 _let_5 _let_97) (tptp.is_between_2 _let_98 _let_97) (= _let_158 _let_157) (= _let_121 _let_51) (= _let_140 _let_76) (= _let_154 _let_156) (= _let_140 _let_75) (= _let_89 (tptp.fn_succulent_plant_52 X)) (= _let_103 _let_22) (= _let_152 _let_92) (= _let_154 _let_155) (= _let_154 _let_153) (= _let_152 _let_93) (= _let_152 _let_90) (= _let_99 _let_17) (= (tptp.fn_lithops_39 X) _let_151) (= (tptp.fn_lithops_38 X) _let_150) (= _let_141 _let_79) (= _let_149 _let_148) (= _let_147 _let_146) (= _let_96 _let_7) (= _let_123 _let_55) (= _let_129 _let_65) (= _let_145 _let_88) (= _let_145 _let_87) (= _let_126 _let_62) (= _let_5 _let_4) (= _let_144 _let_86) (= _let_144 _let_85) (= _let_143 _let_84) (= _let_143 _let_83) (= _let_142 _let_81) (= _let_143 _let_82) (= _let_142 _let_80) (= _let_141 _let_77) (= _let_120 _let_48) (= _let_120 _let_44) (= _let_140 _let_74) (= _let_47 (tptp.fn_succulent_plant_10 X)) (= _let_140 _let_73) (= _let_140 _let_72) (= _let_140 _let_71) (= _let_3 _let_32) (= _let_3 _let_31) (= _let_135 _let_68) (= _let_136 _let_70) (= _let_139 _let_138) (= _let_137 _let_70) (= _let_136 _let_69) (= _let_135 _let_67) (= _let_134 _let_68) (= (tptp.fn_lithops_20 X) _let_133) (= (tptp.fn_lithops_19 X) _let_132) (= _let_120 _let_46) (= _let_45 _let_131) (= (tptp.fn_lithops_16 X) _let_130) (= _let_129 _let_64) (= (tptp.fn_lithops_15 X) _let_128) (= (tptp.fn_lithops_18 X) _let_127) (= _let_126 _let_63) (= _let_126 _let_61) (= _let_125 _let_60) (= _let_125 _let_59) (= _let_124 _let_58) (= _let_123 _let_56) (= _let_124 _let_57) (= _let_123 _let_54) (= _let_122 _let_53) (= _let_122 _let_52) (= _let_121 _let_49) (= _let_120 _let_43) (= _let_119 _let_42) (= _let_119 _let_41) (= _let_118 _let_40) (= _let_118 _let_39) (= _let_117 _let_38) (= _let_117 _let_37) (= _let_116 _let_36) (= _let_116 _let_35) (= _let_115 _let_34) (= _let_115 _let_33) (= _let_5 _let_2) (= _let_78 _let_30) (= _let_78 _let_29) (= _let_114 _let_28) (= _let_114 _let_27) (= _let_113 _let_26) (= _let_113 _let_25) (= _let_112 _let_24) (= _let_112 _let_23) (= _let_98 _let_14) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_103 _let_21) (= _let_102 _let_101) (= _let_99 _let_18) (= _let_100 _let_20) (= _let_100 _let_19) (= _let_99 _let_15) (= _let_98 _let_13) (= _let_98 _let_12) (= _let_5 _let_1) (= _let_97 _let_11) (= _let_97 _let_10) (= _let_97 _let_9) (= _let_96 _let_8) (= _let_96 _let_6) (= _let_95 _let_94) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_90) (= _let_90 _let_88) (= _let_88 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_82 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_79) (= _let_79 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_74) (= _let_74 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_72 _let_73) (= _let_73 _let_72) (= _let_71 _let_71) (= _let_71 _let_72) (= _let_72 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_65) (= _let_65 _let_64) (= _let_64 _let_63) (= _let_62 _let_63) (= _let_63 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_59) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_58) (= _let_58 _let_57) (= _let_57 _let_56) (= _let_55 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_54 _let_52) (= _let_52 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_52 _let_51) (= _let_51 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_44) (= _let_44 _let_46) (= _let_46 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_41) (= _let_41 _let_42) (= _let_42 _let_41) (= _let_41 _let_39) (= _let_39 _let_39) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_19) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_12) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_1) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.littoral_zone_1 X) (and (tptp.original_name_2 X |tptp.'Littoral-Zone'|) (tptp.user_description_2 X |tptp.'The shallow, well-lit, nearshore waters of a lake.'|) (tptp.concept2words_2 X |tptp.'zone of littoral'|) (tptp.concept2words_2 X |tptp.'littoral zone'|) (tptp.concept2words_2 X |tptp.'littoral-zone'|) (tptp.aquatic_zone_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.benthic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.marine_benthic_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_liver_8 X))) (let ((_let_2 (tptp.fn_store_2 _let_1))) (let ((_let_3 (tptp.fn_liver_12 X))) (let ((_let_4 (tptp.fn_release_2 _let_3))) (let ((_let_5 (tptp.fn_liver_4 X))) (let ((_let_6 (tptp.fn_gallbladder_3 _let_5))) (let ((_let_7 (tptp.fn_release_1 _let_3))) (let ((_let_8 (tptp.fn_liver_10 X))) (let ((_let_9 (tptp.fn_create_1 _let_8))) (let ((_let_10 (tptp.fn_store_3 _let_1))) (let ((_let_11 (tptp.fn_liver_7 X))) (let ((_let_12 (tptp.fn_gallbladder_2 _let_5))) (let ((_let_13 (tptp.fn_liver_5 X))) (let ((_let_14 (tptp.fn_liver_11 X))) (let ((_let_15 (tptp.fn_produce_1 _let_8))) (let ((_let_16 (tptp.fn_liver_6 X))) (let ((_let_17 (tptp.fn_store_1 _let_1))) (let ((_let_18 (tptp.fn_liver_9 X))) (let ((_let_19 (tptp.fn_liver_1 X))) (let ((_let_20 (tptp.fn_liver_3 X))) (let ((_let_21 (tptp.fn_liver_2 X))) (=> (tptp.liver_1 X) (and (tptp.original_name_2 X |tptp.'Liver'|) (tptp.user_description_2 X |tptp.'Large and complicated reddish-brown glandular organ located in the upper right portion of the abdominal cavity; secretes bile and functions in metabolism of protein and carbohydrate and fat; synthesizes substances involved in the clotting of the blood; synthesizes vitamin A; detoxifies poisonous substances and breaks down worn-out erythrocytes'|) (tptp.concept2words_2 X tptp.liver) (tptp.secretory_organ_1 X) (tptp.liver_cell_1 _let_19) (tptp.secretor_1 _let_21) (tptp.blood_vessel_1 _let_20) (tptp.gallbladder_1 _let_5) (tptp.store_1 _let_13) (tptp.chemical_entity_1 _let_16) (tptp.container_1 _let_11) (tptp.store_1 _let_1) (tptp.glycogen_1 _let_18) (tptp.produce_1 _let_8) (tptp.entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.bile_1 _let_14) (tptp.release_1 _let_3) (tptp.entity_1 _let_17) (tptp.tangible_entity_1 _let_15) (tptp.store_1 _let_12) (tptp.container_1 _let_10) (tptp.entity_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.bile_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.has_function_2 X _let_1) (tptp.plays_2 X _let_21) (tptp.has_part_2 X _let_19) (tptp.abuts_2 _let_19 _let_20) (tptp.next_event_2 _let_8 _let_3) (tptp.is_inside_2 _let_14 X) (tptp.origin_2 _let_3 X) (tptp.destination_2 _let_3 _let_5) (tptp.abuts_2 _let_20 _let_19) (tptp.result_2 _let_8 _let_14) (tptp.object_2 _let_3 _let_14) (tptp.object_2 _let_1 _let_18) (tptp.raw_material_2 _let_8 _let_16) (tptp.base_2 _let_3 X) (tptp.object_2 _let_13 _let_14) (tptp.has_function_2 _let_5 _let_13) (tptp.base_2 _let_13 _let_5) (tptp.base_2 _let_1 X) (tptp.plays_2 X _let_11) (tptp.in_event_2 _let_11 _let_1) (= _let_14 _let_9) (= _let_14 _let_7) (= _let_18 _let_17) (= _let_16 _let_15) (= X _let_4) (= _let_14 _let_6) (= _let_13 _let_12) (= _let_11 _let_10) (= X _let_2) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_liver_cell_49 X))) (let ((_let_2 (tptp.fn_rough_endoplasmic_reticulum_21 _let_1))) (let ((_let_3 (tptp.fn_liver_cell_55 X))) (let ((_let_4 (tptp.fn_nucleus_13 _let_3))) (let ((_let_5 (tptp.fn_liver_cell_48 X))) (let ((_let_6 (tptp.fn_synthesis_of_endomembranous_system_membrane_60 _let_5))) (let ((_let_7 (tptp.fn_rough_endoplasmic_reticulum_55 _let_1))) (let ((_let_8 (tptp.fn_eukaryotic_cell_35 X))) (let ((_let_9 (tptp.fn_rough_endoplasmic_reticulum_52 _let_1))) (let ((_let_10 (tptp.fn_liver_cell_52 X))) (let ((_let_11 (tptp.fn_endoplasmic_reticulum_31 _let_10))) (let ((_let_12 (tptp.fn_liver_cell_88 X))) (let ((_let_13 (tptp.fn_enzyme_4 _let_12))) (let ((_let_14 (tptp.fn_rough_endoplasmic_reticulum_68 _let_1))) (let ((_let_15 (tptp.fn_endoplasmic_reticulum_23 _let_10))) (let ((_let_16 (tptp.fn_liver_cell_90 X))) (let ((_let_17 (tptp.fn_peroxisome_41 _let_16))) (let ((_let_18 (tptp.fn_synthesis_of_endomembranous_system_membrane_59 _let_5))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_10))) (let ((_let_20 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_10))) (let ((_let_21 (tptp.fn_endoplasmic_reticulum_5 _let_10))) (let ((_let_22 (tptp.fn_smooth_endoplasmic_reticulum_50 _let_10))) (let ((_let_23 (tptp.fn_endoplasmic_reticulum_25 _let_10))) (let ((_let_24 (tptp.fn_eukaryotic_cell_36 X))) (let ((_let_25 (tptp.fn_eukaryotic_cell_20 X))) (let ((_let_26 (tptp.fn_peroxisome_11 _let_16))) (let ((_let_27 (tptp.fn_liver_cell_44 X))) (let ((_let_28 (tptp.fn_phosphorylated_intermediate_2 _let_27))) (let ((_let_29 (tptp.fn_liver_cell_43 X))) (let ((_let_30 (tptp.fn_glycogen_breakdown_in_vertebrates_31 _let_29))) (let ((_let_31 (tptp.fn_glycogen_breakdown_in_vertebrates_20 _let_29))) (let ((_let_32 (tptp.fn_glycogen_breakdown_18 _let_29))) (let ((_let_33 (tptp.fn_liver_cell_47 X))) (let ((_let_34 (tptp.fn_biomembrane_71 _let_33))) (let ((_let_35 (tptp.fn_liver_cell_63 X))) (let ((_let_36 (tptp.fn_glycolipid_4 _let_35))) (let ((_let_37 (tptp.fn_lipid_14 _let_35))) (let ((_let_38 (tptp.fn_biomembrane_29 _let_33))) (let ((_let_39 (tptp.fn_synthesis_of_endomembranous_system_membrane_53 _let_5))) (let ((_let_40 (tptp.fn_liver_cell_33 X))) (let ((_let_41 (tptp.fn_remove_1 _let_40))) (let ((_let_42 (tptp.fn_liver_cell_9 X))) (let ((_let_43 (tptp.fn_detoxification_3 _let_42))) (let ((_let_44 (tptp.fn_liver_cell_118 X))) (let ((_let_45 (tptp.fn_transfer_1 _let_44))) (let ((_let_46 (tptp.fn_smooth_endoplasmic_reticulum_47 _let_10))) (let ((_let_47 (tptp.fn_rough_endoplasmic_reticulum_62 _let_1))) (let ((_let_48 (tptp.fn_endoplasmic_reticulum_11 _let_10))) (let ((_let_49 (tptp.fn_detoxification_12 _let_42))) (let ((_let_50 (tptp.fn_liver_cell_54 X))) (let ((_let_51 (tptp.fn_detoxification_12 _let_50))) (let ((_let_52 (tptp.fn_liver_cell_106 X))) (let ((_let_53 (tptp.fn_eukaryotic_oxidative_phosphorylation_334 _let_52))) (let ((_let_54 (tptp.fn_liver_cell_53 X))) (let ((_let_55 (tptp.fn_obtain_1 _let_54))) (let ((_let_56 (tptp.fn_liver_cell_75 X))) (let ((_let_57 (tptp.fn_support_1 _let_56))) (let ((_let_58 (tptp.fn_liver_cell_50 X))) (let ((_let_59 (tptp.fn_store_2 _let_58))) (let ((_let_60 (tptp.fn_liver_cell_56 X))) (let ((_let_61 (tptp.fn_animal_plasma_membrane_56 _let_60))) (let ((_let_62 (tptp.fn_rough_endoplasmic_reticulum_23 _let_1))) (let ((_let_63 (tptp.fn_endoplasmic_reticulum_40 _let_10))) (let ((_let_64 (tptp.fn_endoplasmic_reticulum_2 _let_10))) (let ((_let_65 (tptp.fn_vertebrate_cell_9 X))) (let ((_let_66 (tptp.fn_eukaryotic_cell_42 X))) (let ((_let_67 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_10))) (let ((_let_68 (tptp.fn_rough_endoplasmic_reticulum_19 _let_1))) (let ((_let_69 (tptp.fn_vertebrate_cell_32 X))) (let ((_let_70 (tptp.fn_receive_1 _let_44))) (let ((_let_71 (tptp.fn_rough_endoplasmic_reticulum_27 _let_1))) (let ((_let_72 (tptp.fn_vertebrate_cell_22 X))) (let ((_let_73 (tptp.fn_eukaryotic_cell_26 X))) (let ((_let_74 (tptp.fn_rough_endoplasmic_reticulum_32 _let_1))) (let ((_let_75 (tptp.fn_vertebrate_cell_27 X))) (let ((_let_76 (tptp.fn_rough_endoplasmic_reticulum_87 _let_1))) (let ((_let_77 (tptp.fn_endoplasmic_reticulum_30 _let_10))) (let ((_let_78 (tptp.fn_smooth_endoplasmic_reticulum_28 _let_10))) (let ((_let_79 (tptp.fn_rough_endoplasmic_reticulum_30 _let_1))) (let ((_let_80 (tptp.fn_endoplasmic_reticulum_34 _let_10))) (let ((_let_81 (tptp.fn_rough_endoplasmic_reticulum_22 _let_1))) (let ((_let_82 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_10))) (let ((_let_83 (tptp.fn_rough_endoplasmic_reticulum_20 _let_1))) (let ((_let_84 (tptp.fn_endoplasmic_reticulum_27 _let_10))) (let ((_let_85 (tptp.fn_rough_endoplasmic_reticulum_24 _let_1))) (let ((_let_86 (tptp.fn_endoplasmic_reticulum_17 _let_10))) (let ((_let_87 (tptp.fn_endoplasmic_reticulum_3 _let_10))) (let ((_let_88 (tptp.fn_smooth_endoplasmic_reticulum_29 _let_10))) (let ((_let_89 (tptp.fn_endoplasmic_reticulum_14 _let_10))) (let ((_let_90 (tptp.fn_vertebrate_cell_21 X))) (let ((_let_91 (tptp.fn_eukaryotic_oxidative_phosphorylation_322 _let_52))) (let ((_let_92 (tptp.fn_biomembrane_15 _let_33))) (let ((_let_93 (tptp.fn_nucleus_17 _let_3))) (let ((_let_94 (tptp.fn_biomembrane_14 _let_33))) (let ((_let_95 (tptp.fn_peroxisome_43 _let_16))) (let ((_let_96 (tptp.fn_peroxisome_2 _let_16))) (let ((_let_97 (tptp.fn_detoxification_5 _let_42))) (let ((_let_98 (tptp.fn_detoxification_13 _let_42))) (let ((_let_99 (tptp.fn_liver_cell_32 X))) (let ((_let_100 (tptp.fn_add_2 _let_99))) (let ((_let_101 (tptp.fn_detoxification_3 _let_50))) (let ((_let_102 (tptp.fn_detoxification_13 _let_50))) (let ((_let_103 (tptp.fn_vertebrate_cell_26 X))) (let ((_let_104 (tptp.fn_liver_cell_59 X))) (let ((_let_105 (tptp.fn_integrin_30 _let_104))) (let ((_let_106 (tptp.fn_transmembrane_protein_4 _let_104))) (let ((_let_107 (tptp.fn_animal_plasma_membrane_67 _let_60))) (let ((_let_108 (tptp.fn_vertebrate_cell_6 X))) (let ((_let_109 (tptp.fn_integrin_29 _let_104))) (let ((_let_110 (tptp.fn_animal_plasma_membrane_54 _let_60))) (let ((_let_111 (tptp.fn_plasma_membrane_71 _let_60))) (let ((_let_112 (tptp.fn_biomembrane_63 _let_60))) (let ((_let_113 (tptp.fn_vertebrate_cell_3 X))) (let ((_let_114 (tptp.fn_eukaryotic_oxidative_phosphorylation_324 _let_52))) (let ((_let_115 (tptp.fn_vertebrate_cell_1 X))) (let ((_let_116 (tptp.fn_eukaryotic_oxidative_phosphorylation_333 _let_52))) (let ((_let_117 (tptp.fn_eukaryotic_cell_24 X))) (let ((_let_118 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_10))) (let ((_let_119 (tptp.fn_eukaryotic_cell_30 X))) (let ((_let_120 (tptp.fn_nucleus_6 _let_3))) (let ((_let_121 (tptp.fn_smooth_endoplasmic_reticulum_25 _let_10))) (let ((_let_122 (tptp.fn_smooth_endoplasmic_reticulum_31 _let_10))) (let ((_let_123 (tptp.fn_integrin_8 _let_104))) (let ((_let_124 (tptp.fn_plasma_membrane_55 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(tptp.tangible_entity_1 _let_112) (tptp.phospholipid_bilayer_1 _let_112) (tptp.tangible_entity_1 _let_111) (tptp.phospholipid_bilayer_1 _let_111) (tptp.tangible_entity_1 _let_110) (tptp.phospholipid_bilayer_1 _let_110) (tptp.tangible_entity_1 _let_109) (tptp.phospholipid_bilayer_1 _let_109) (tptp.tangible_entity_1 _let_107) (tptp.biomembrane_1 _let_106) (tptp.spatial_entity_1 _let_105) (tptp.biomembrane_1 _let_105) (tptp.animal_plasma_membrane_1 _let_105) (tptp.plasma_membrane_1 _let_105) (tptp.drug_1 _let_102) (tptp.barbiturate_1 _let_101) (tptp.spatial_entity_1 _let_100) (tptp.drug_1 _let_98) (tptp.protein_enzyme_1 _let_97) (tptp.protein_enzyme_1 _let_96) (tptp.protein_enzyme_1 _let_95) (tptp.aqueous_solution_1 _let_94) (tptp.aqueous_solution_1 _let_93) (tptp.aqueous_solution_1 _let_92) (tptp.organelle_1 _let_91) (tptp.mitochondrion_1 _let_91) (tptp.semiautonomous_organelle_1 _let_91) (tptp.mitochondrion_1 _let_89) (tptp.cisterna_1 _let_88) (tptp.cisterna_1 _let_87) (tptp.aqueous_solution_1 _let_86) (tptp.aqueous_solution_1 _let_85) (tptp.attach_1 _let_84) (tptp.attach_1 _let_83) (tptp.synthesis_reaction_1 _let_82) (tptp.synthesis_reaction_1 _let_81) (tptp.chemical_entity_1 _let_80) (tptp.glycolipid_1 _let_80) (tptp.chemical_entity_1 _let_79) (tptp.glycolipid_1 _let_79) (tptp.lipid_1 _let_79) (tptp.tangible_entity_1 _let_78) (tptp.er_membrane_1 _let_78) (tptp.biomembrane_1 _let_78) (tptp.tangible_entity_1 _let_77) (tptp.er_membrane_1 _let_77) (tptp.biomembrane_1 _let_77) (tptp.tangible_entity_1 _let_76) (tptp.biomembrane_1 _let_76) (tptp.er_membrane_1 _let_76) (tptp.mixture_1 _let_74) (tptp.cytoplasm_1 _let_74) (tptp.tangible_entity_1 _let_71) (tptp.nucleus_1 _let_71) (tptp.entity_1 _let_70) (tptp.peroxisome_1 _let_68) (tptp.substance_1 _let_67) (tptp.cytosol_1 _let_67) (tptp.cytosol_1 _let_64) (tptp.substance_1 _let_63) (tptp.cytosol_1 _let_63) (tptp.substance_1 _let_62) (tptp.cytosol_1 _let_62) (tptp.animal_cell_1 _let_61) (tptp.spatial_entity_1 _let_59) (tptp.tangible_entity_1 _let_57) (tptp.entity_1 _let_55) (tptp.eukaryotic_cell_1 _let_53) (tptp.liver_cell_1 _let_51) (tptp.liver_cell_1 _let_49) (tptp.eukaryotic_cell_1 _let_48) (tptp.cell_1 _let_48) (tptp.tangible_entity_1 _let_47) (tptp.eukaryotic_cell_1 _let_47) (tptp.cell_1 _let_47) (tptp.phospholipid_1 _let_46) (tptp.entity_1 _let_45) (tptp.barbiturate_1 _let_43) (tptp.spatial_entity_1 _let_41) (tptp.spatial_entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.glycolipid_1 _let_39) (tptp.lipid_1 _let_39) (tptp.glycolipid_1 _let_38) (tptp.carbon_skeleton_1 _let_37) (tptp.carbon_skeleton_1 _let_36) (tptp.carbon_skeleton_1 _let_34) (tptp.glucose_1_phosphate_1 _let_32) (tptp.phosphorylated_intermediate_1 _let_31) (tptp.chemical_entity_1 _let_31) (tptp.molecule_1 _let_31) (tptp.glucose_1_phosphate_1 _let_31) (tptp.phosphorylation_1 _let_30) (tptp.phosphorylation_1 _let_28) (tptp.smooth_endoplasmic_reticulum_1 _let_26) (tptp.transfer_1 _let_23) (tptp.protein_enzyme_1 _let_22) (tptp.enzyme_1 _let_22) (tptp.protein_enzyme_1 _let_21) (tptp.chemical_reaction_1 _let_20) (tptp.synthesis_of_lipid_1 _let_20) (tptp.chemical_reaction_1 _let_19) (tptp.synthesis_of_lipid_1 _let_19) (tptp.anabolic_pathway_1 _let_19) (tptp.synthesis_reaction_1 _let_18) (tptp.chemical_reaction_1 _let_18) (tptp.anabolic_pathway_1 _let_18) (tptp.metabolic_pathway_1 _let_18) (tptp.endergonic_reaction_1 _let_18) (tptp.synthesis_of_lipid_1 _let_18) (tptp.synthesis_reaction_1 _let_17) (tptp.chemical_reaction_1 _let_17) (tptp.synthesis_of_lipid_1 _let_17) (tptp.anabolic_pathway_1 _let_17) (tptp.synthesis_of_lipid_1 _let_15) (tptp.metabolic_pathway_1 _let_14) (tptp.synthesis_of_lipid_1 _let_14) (tptp.chemical_reaction_1 _let_13) (tptp.cisternal_space_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.cisternal_space_1 _let_9) (tptp.transfer_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.nuclear_membrane_1 _let_4) (tptp.biomembrane_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.biomembrane_1 _let_2) (tptp.nuclear_membrane_1 _let_2) (tptp.subevent_2 _let_42 _let_287) (tptp.object_2 _let_42 _let_227) (tptp.object_2 _let_42 _let_226) (tptp.agent_2 _let_42 _let_268) (tptp.base_2 _let_42 _let_164) (tptp.site_2 _let_42 _let_10) (tptp.next_event_2 _let_99 _let_287) (tptp.object_2 _let_40 _let_227) (tptp.has_function_2 _let_164 _let_42) (tptp.site_2 _let_29 X) (tptp.subevent_2 _let_29 _let_286) (tptp.by_means_of_2 _let_159 _let_144) (tptp.result_2 _let_144 _let_27) (tptp.abuts_2 _let_33 _let_282) (tptp.quantity_2 _let_1 _let_285) (tptp.has_function_2 _let_10 _let_50) (tptp.has_function_2 _let_10 _let_42) (tptp.facilitates_2 _let_10 _let_42) (tptp.site_2 _let_50 _let_16) (tptp.has_part_2 X _let_284) (tptp.called_2 _let_104 |tptp.'MP1'|) (tptp.site_2 _let_243 _let_170) (tptp.has_part_2 _let_170 _let_283) (tptp.has_function_2 _let_16 _let_50) (tptp.facilitates_2 _let_16 _let_50) (tptp.abuts_2 _let_282 _let_33) (tptp.is_inside_2 _let_283 _let_282) (tptp.enables_2 _let_201 _let_247) (tptp.object_2 _let_58 _let_281) (tptp.base_2 _let_144 _let_281) (tptp.base_2 _let_99 _let_227) (tptp.has_part_2 _let_16 _let_204) (tptp.result_2 _let_5 _let_33) (tptp.base_2 _let_58 X) (tptp.object_2 _let_56 X) (tptp.is_at_2 _let_269 _let_236) (tptp.object_2 _let_278 _let_269) (tptp.has_part_2 _let_60 _let_269) (tptp.is_across_2 _let_269 _let_60) (tptp.has_region_2 _let_269 _let_276) (tptp.is_across_2 _let_269 _let_277) (tptp.result_2 _let_151 _let_162) (tptp.has_function_2 _let_12 _let_151) (tptp.agent_2 _let_54 X) (tptp.recipient_2 _let_54 X) (tptp.first_subevent_2 _let_5 _let_151) (tptp.subevent_2 _let_5 _let_151) (tptp.result_2 _let_29 _let_27) (tptp.raw_material_2 _let_29 _let_281) (tptp.raw_material_2 _let_159 _let_281) (tptp.has_part_2 _let_3 _let_199) (tptp.has_part_2 _let_3 _let_280) (tptp.is_along_2 _let_33 _let_280) (tptp.is_along_2 _let_280 _let_33) (tptp.base_2 _let_278 _let_60) (tptp.has_region_2 _let_60 _let_277) (tptp.has_region_2 _let_60 _let_276) (tptp.is_outside_2 _let_276 _let_60) (tptp.has_part_2 _let_60 _let_270) (tptp.base_2 _let_248 X) (tptp.base_2 _let_52 X) (tptp.base_2 _let_249 X) (tptp.subevent_2 _let_52 _let_249) (tptp.enables_2 _let_258 _let_275) (tptp.recipient_2 _let_275 _let_252) (tptp.object_2 _let_50 _let_234) (tptp.has_function_2 X _let_50) (tptp.subevent_2 _let_50 _let_235) (tptp.object_2 _let_235 _let_233) (tptp.recipient_2 _let_158 _let_1) (tptp.recipient_2 _let_149 _let_10) (not (= _let_1 _let_10)) (not (= _let_10 _let_1)) (tptp.abuts_2 _let_1 _let_10) (tptp.abuts_2 _let_10 _let_1) (tptp.is_inside_2 _let_269 _let_236) (tptp.called_2 _let_269 |tptp.'MP1'|) (tptp.has_part_2 _let_60 _let_104) (tptp.called_2 _let_270 |tptp.'MP1'|) (not (= _let_104 _let_270)) (not (= _let_270 _let_269)) (tptp.is_at_2 _let_269 _let_60) (not (= _let_269 _let_104)) (not (= _let_104 _let_269)) (not (= _let_270 _let_104)) (not (= _let_269 _let_270)) (tptp.has_part_2 _let_10 _let_268) (tptp.site_2 _let_173 _let_10) (tptp.base_2 _let_260 _let_10) (tptp.object_2 _let_260 _let_262) (tptp.result_2 _let_264 _let_262) (tptp.causes_2 _let_266 _let_264) (tptp.base_2 _let_266 _let_171) (tptp.has_function_2 _let_10 _let_255) (tptp.site_2 _let_255 _let_10) (tptp.has_function_2 _let_10 _let_257) (tptp.base_2 _let_257 _let_10) (tptp.base_2 _let_258 _let_10) (tptp.the_scalar_value_2 _let_251 tptp.big_0) (tptp.scalar_unit_class_2 _let_251 tptp.prokaryote_0) (tptp.has_part_2 X _let_253) (tptp.is_inside_2 _let_253 _let_3) (tptp.volume_2 X _let_250) (tptp.directly_proportional_2 _let_251 _let_250) (tptp.size_2 X _let_251) (tptp.has_part_2 X _let_252) (tptp.is_inside_2 _let_252 _let_167) (tptp.base_2 _let_238 X) (tptp.has_function_2 _let_241 _let_56) (tptp.origin_2 _let_247 _let_16) (tptp.first_subevent_2 _let_52 _let_249) (tptp.causes_2 _let_247 _let_242) (tptp.destination_2 _let_247 _let_197) (tptp.site_2 _let_248 _let_197) (tptp.is_inside_2 _let_170 _let_60) (tptp.is_between_2 _let_170 _let_60) (tptp.agent_2 _let_246 _let_60) (tptp.object_2 _let_246 X) (tptp.has_region_2 X _let_245) (tptp.has_function_2 X _let_243) (tptp.base_2 _let_243 X) (tptp.has_region_2 X _let_244) (tptp.is_opposite_2 _let_245 _let_244) (tptp.is_opposite_2 _let_244 _let_245) (tptp.base_2 _let_242 X) (tptp.site_2 _let_242 _let_197) (tptp.has_function_2 _let_197 _let_52) (tptp.site_2 _let_52 _let_197) (tptp.is_inside_2 _let_197 _let_167) (tptp.has_part_2 X _let_239) (tptp.has_function_2 _let_239 _let_240) (tptp.result_2 _let_240 _let_241) (tptp.is_near_2 _let_3 _let_239) (tptp.is_near_2 _let_239 _let_3) (tptp.has_part_2 X _let_60) (tptp.has_part_2 _let_60 _let_236) (tptp.is_at_2 _let_236 _let_237) (tptp.has_region_2 X _let_237) (tptp.has_function_2 X _let_238) (tptp.object_2 _let_42 _let_161) (tptp.agent_2 _let_50 _let_223) (tptp.subevent_2 _let_42 _let_99) (tptp.base_2 _let_235 X) (tptp.object_2 _let_50 _let_233) (not (= _let_234 _let_233)) (tptp.object_2 _let_235 _let_234) (not (= _let_233 _let_234)) (tptp.has_function_2 X _let_42) (tptp.base_2 _let_50 X) (tptp.subevent_2 _let_42 _let_40) (tptp.object_2 _let_40 _let_226) (not (= _let_226 _let_161)) (not (= _let_227 _let_226)) (not (= _let_226 _let_227)) (not (= _let_161 _let_226)) (tptp.has_part_2 _let_16 _let_212) (tptp.has_part_2 _let_16 _let_223) (tptp.has_function_2 _let_10 _let_198) (tptp.result_2 _let_214 _let_221) (tptp.object_2 _let_44 _let_221) (tptp.causes_2 _let_44 _let_206) (tptp.has_part_2 _let_16 _let_217) (tptp.is_inside_2 _let_217 _let_16) (tptp.agent_2 _let_219 _let_16) (tptp.supports_2 _let_219 _let_203) (tptp.has_function_2 _let_217 _let_203) (tptp.site_2 _let_214 _let_16) (not (= _let_214 _let_151)) (tptp.site_2 _let_151 _let_10) (tptp.donor_2 _let_44 _let_10) (tptp.recipient_2 _let_44 _let_16) (not (= _let_151 _let_214)) (tptp.has_goal_2 _let_16 _let_206) (tptp.from_value_2 _let_206 _let_208) (tptp.size_2 _let_16 _let_208) (tptp.has_part_2 _let_16 _let_210) (tptp.is_between_2 _let_212 _let_210) (tptp.has_function_2 _let_16 _let_201) (tptp.has_function_2 _let_204 _let_201) (tptp.is_inside_2 _let_204 _let_16) (not (= _let_203 _let_201)) (not (= _let_201 _let_203)) (tptp.is_between_2 _let_33 _let_199) (tptp.has_part_2 _let_33 _let_35) (tptp.has_part_2 _let_10 _let_192) (tptp.has_part_2 _let_10 _let_175) (tptp.has_part_2 _let_10 _let_12) (tptp.has_region_2 _let_10 _let_150) (tptp.has_function_2 _let_10 _let_151) (tptp.instrument_2 _let_174 _let_10) (tptp.site_2 _let_198 _let_10) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_197) (tptp.site_2 _let_196 _let_10) (tptp.result_2 _let_196 _let_172) (tptp.raw_material_2 _let_189 _let_194) (tptp.is_inside_2 _let_194 _let_167) (tptp.has_part_2 _let_10 _let_171) (tptp.is_at_2 _let_191 _let_171) (tptp.has_part_2 _let_192 _let_191) (tptp.is_inside_2 _let_10 _let_167) (tptp.is_inside_2 _let_185 _let_167) (tptp.raw_material_2 _let_187 _let_185) (tptp.agent_2 _let_187 _let_12) (tptp.agent_2 _let_189 _let_12) (tptp.base_2 _let_177 _let_10) (tptp.object_2 _let_177 _let_179) (tptp.result_2 _let_181 _let_179) (tptp.causes_2 _let_183 _let_181) (tptp.base_2 _let_183 _let_171) (tptp.is_between_2 _let_170 _let_3) (tptp.is_between_2 _let_171 _let_175) (tptp.object_2 _let_174 _let_33) (tptp.is_inside_2 _let_150 _let_171) (tptp.has_part_2 _let_171 _let_172) (tptp.result_2 _let_173 _let_172) (tptp.has_part_2 _let_170 _let_167) (tptp.has_part_2 X _let_170) (tptp.base_2 _let_151 X) (tptp.has_part_2 _let_3 _let_33) (tptp.is_inside_2 _let_3 _let_167) (tptp.is_inside_2 _let_169 _let_167) (tptp.has_part_2 X _let_169) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.has_part_2 X _let_166) (tptp.is_inside_2 _let_166 _let_167) (tptp.is_inside_2 _let_16 _let_167) (tptp.has_part_2 X _let_16) (tptp.abuts_2 _let_150 _let_148) (tptp.abuts_2 _let_148 _let_150) (tptp.has_region_2 _let_1 _let_150) (tptp.donor_2 _let_149 _let_1) (tptp.has_region_2 _let_33 _let_148) (tptp.plays_2 _let_12 _let_153) (tptp.has_region_2 _let_12 _let_155) (tptp.site_2 _let_151 _let_155) (tptp.enables_2 _let_157 _let_151) (tptp.has_function_2 _let_12 _let_157) (tptp.facilitates_2 _let_155 _let_151) (tptp.in_event_2 _let_153 _let_151) (tptp.agent_2 _let_158 _let_10) (tptp.result_2 _let_159 _let_27) (tptp.is_inside_2 _let_160 _let_33) (tptp.has_region_2 _let_35 _let_160) (tptp.object_2 _let_40 _let_161) (tptp.object_2 _let_44 _let_162) (tptp.base_2 _let_40 _let_164) (= _let_281 _let_146) (= _let_281 _let_145) (= _let_227 _let_100) (= X _let_59) (= X _let_57) (= _let_278 _let_139) (= _let_277 _let_136) (= _let_269 _let_124) (= _let_162 _let_46) (= _let_12 _let_22) (= X _let_55) (= _let_151 _let_18) (= _let_27 _let_32) (= _let_27 _let_31) (= _let_159 _let_30) (= _let_281 _let_143) (= _let_281 _let_142) (= _let_281 _let_141) (= _let_199 _let_93) (= _let_33 _let_4) (= _let_280 _let_279) (= _let_278 _let_140) (= _let_60 _let_107) (= _let_278 _let_138) (= _let_278 _let_137) (= _let_277 _let_135) (= _let_270 _let_131) (= _let_270 _let_130) (= _let_276 _let_134) (= _let_276 _let_133) (= _let_276 _let_132) (= _let_248 _let_114) (= X _let_53) (= _let_275 _let_274) (= _let_234 _let_102) (= _let_234 _let_101) (= _let_231 _let_273) (= X _let_51) (= _let_232 _let_102) (= _let_233 _let_272) (= _let_235 _let_271) (= _let_158 _let_24) (= _let_149 _let_8) (= _let_1 (tptp.fn_eukaryotic_cell_19 X)) (= _let_236 _let_109) (= _let_60 _let_106) (= _let_269 _let_129) (= _let_269 _let_125) (= _let_60 _let_105) (= _let_270 _let_125) (= _let_270 _let_128) (= _let_269 _let_128) (= _let_269 _let_126) (= _let_104 _let_125) (= _let_269 _let_127) (= _let_269 _let_123) (= _let_268 _let_267) (= _let_173 _let_82) (= _let_171 _let_78) (= _let_266 _let_265) (= _let_264 _let_263) (= _let_262 _let_261) (= _let_260 _let_259) (= _let_258 _let_122) (= _let_258 _let_121) (= _let_257 _let_256) (= _let_255 _let_254) (= (tptp.fn_liver_cell_77 X) (tptp.fn_eukaryotic_cell_28 X)) (= (tptp.fn_liver_cell_78 X) (tptp.fn_eukaryotic_cell_60 X)) (= _let_253 _let_120) (= _let_3 _let_73) (= _let_253 _let_119) (= _let_252 _let_118) (= _let_167 _let_67) (= _let_167 _let_66) (= _let_252 _let_117) (= _let_251 (tptp.fn_eukaryotic_cell_27 X)) (= _let_250 (tptp.fn_eukaryotic_cell_59 X)) (= _let_56 (tptp.fn_vertebrate_cell_12 X)) (= _let_16 _let_69) (= _let_249 _let_116) (= _let_249 _let_115) (= _let_248 _let_113) (= _let_247 (tptp.fn_vertebrate_cell_31 X)) (= _let_246 (tptp.fn_vertebrate_cell_11 X)) (= _let_170 _let_75) (= _let_245 (tptp.fn_vertebrate_cell_16 X)) (= _let_244 (tptp.fn_vertebrate_cell_15 X)) (= _let_243 (tptp.fn_vertebrate_cell_10 X)) (= _let_167 _let_65) (= _let_197 _let_91) (= _let_52 (tptp.fn_vertebrate_cell_2 X)) (= _let_242 (tptp.fn_vertebrate_cell_4 X)) (= _let_241 (tptp.fn_vertebrate_cell_7 X)) (= _let_240 (tptp.fn_vertebrate_cell_8 X)) (= _let_3 _let_72) (= _let_239 (tptp.fn_vertebrate_cell_23 X)) (= _let_238 (tptp.fn_vertebrate_cell_30 X)) (= _let_237 (tptp.fn_vertebrate_cell_17 X)) (= _let_236 _let_112) (= _let_236 _let_111) (= _let_236 _let_110) (= _let_236 _let_108) (= X _let_61) (= _let_60 _let_103) (= _let_223 _let_97) (= _let_99 _let_230) (= _let_235 _let_224) (= _let_234 _let_43) (= _let_233 _let_225) (= _let_232 _let_98) (= _let_231 _let_230) (= _let_229 _let_228) (= X _let_49) (= _let_161 _let_43) (= _let_227 _let_98) (= _let_226 _let_225) (= _let_40 _let_224) (= _let_223 _let_95) (= (tptp.fn_liver_cell_120 X) _let_222) (= _let_198 _let_17) (= _let_221 _let_220) (= _let_219 _let_218) (= _let_217 _let_216) (= _let_16 _let_70) (= _let_44 _let_215) (= _let_151 _let_20) (= _let_151 _let_19) (= _let_10 _let_26) (= _let_151 _let_17) (= _let_214 _let_213) (= _let_212 _let_211) (= _let_210 _let_209) (= _let_208 _let_207) (= _let_206 _let_205) (= _let_204 _let_96) (= _let_204 _let_95) (= _let_203 _let_202) (= _let_201 _let_200) (= _let_199 _let_94) (= _let_199 _let_92) (= _let_33 _let_6) (= _let_35 _let_39) (= _let_35 _let_38) (= _let_192 _let_88) (= _let_175 _let_86) (= _let_150 _let_11) (= _let_151 _let_15) (= _let_174 _let_84) (= _let_198 _let_15) (= _let_197 _let_90) (= _let_197 _let_89) (= _let_10 _let_25) (= X _let_48) (= _let_172 _let_80) (= _let_196 _let_195) (= _let_167 _let_64) (= _let_194 _let_193) (= _let_192 _let_87) (= _let_191 _let_190) (= _let_189 _let_188) (= _let_12 _let_21) (= _let_187 _let_186) (= _let_185 _let_184) (= _let_167 _let_63) (= _let_171 _let_77) (= _let_183 _let_182) (= _let_181 _let_180) (= _let_179 _let_178) (= _let_177 _let_176) (= _let_175 _let_85) (= _let_174 _let_83) (= _let_173 _let_81) (= _let_172 _let_79) (= _let_171 _let_76) (= _let_151 _let_14) (= _let_170 _let_74) (= _let_169 _let_168) (= _let_3 _let_71) (= _let_16 _let_68) (= _let_167 _let_62) (= _let_166 _let_165) (= X _let_47) (= _let_164 _let_163) (= _let_162 _let_45) (= _let_161 _let_41) (= _let_160 _let_37) (= _let_160 _let_36) (= _let_160 _let_34) (= _let_159 _let_28) (= _let_158 _let_23) (= _let_157 _let_156) (= _let_155 _let_154) (= _let_153 _let_152) (= _let_151 _let_13) (= _let_150 _let_9) (= _let_149 _let_7) (= _let_33 _let_2) (= _let_148 _let_147) (= _let_146 _let_145) (= _let_145 _let_145) (= _let_145 _let_143) (= _let_143 _let_143) (= _let_143 _let_142) (= _let_141 _let_142) (= _let_142 _let_141) (= _let_141 _let_140) (= _let_139 _let_140) (= _let_140 _let_139) (= _let_139 _let_138) (= _let_138 _let_138) (= _let_138 _let_137) (= _let_137 _let_136) (= _let_136 _let_135) (= _let_135 _let_133) (= _let_133 _let_134) (= _let_134 _let_133) (= _let_132 _let_133) (= _let_133 _let_132) (= _let_132 _let_131) (= _let_131 _let_130) (= _let_130 _let_130) (= _let_130 _let_125) (= _let_128 _let_125) (= _let_125 _let_128) (= _let_128 _let_128) (= _let_128 _let_129) (= _let_129 _let_128) (= _let_127 _let_127) (= _let_127 _let_128) (= _let_128 _let_127) (= _let_126 _let_127) (= _let_127 _let_126) (= _let_125 _let_126) (= _let_126 _let_126) (= _let_126 _let_125) (= _let_125 _let_125) (= _let_124 _let_125) (= _let_125 _let_124) (= _let_124 _let_124) (= _let_124 _let_123) (= _let_123 _let_123) (= _let_123 _let_122) (= _let_122 _let_122) (= _let_122 _let_121) (= _let_121 _let_120) (= _let_120 _let_119) (= _let_119 _let_119) (= _let_119 _let_118) (= _let_118 _let_118) (= _let_118 _let_117) (= _let_117 _let_117) (= _let_117 _let_116) (= _let_116 _let_116) (= _let_116 _let_115) (= _let_115 _let_114) (= _let_114 _let_113) (= _let_113 _let_112) (= _let_112 _let_111) (= _let_110 _let_111) (= _let_111 _let_110) (= _let_110 _let_110) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_107) (= _let_107 _let_106) (= _let_106 _let_106) (= _let_106 _let_105) (= _let_105 _let_105) (= _let_105 _let_103) (= _let_103 _let_103) (= _let_103 _let_102) (= _let_102 _let_101) (= _let_101 _let_43) (= _let_43 _let_100) (= _let_100 _let_98) (= _let_98 _let_98) (= _let_98 _let_97) (= _let_97 _let_95) (= _let_95 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_93) (= _let_93 _let_94) (= _let_94 _let_93) (= _let_93 _let_92) (= _let_92 _let_17) (= _let_15 _let_90) (= _let_90 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_89) (= _let_89 _let_88) (= _let_88 _let_87) (= _let_87 _let_87) (= _let_87 _let_86) (= _let_86 _let_85) (= _let_85 _let_84) (= _let_84 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_71) (= _let_71 _let_71) (= _let_71 _let_69) (= _let_69 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_59) (= _let_59 _let_61) (= _let_61 _let_59) (= _let_59 _let_57) (= _let_57 _let_57) (= _let_57 _let_55) (= _let_55 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_49 _let_51) (= _let_51 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_43) (= _let_43 _let_43) (= _let_43 _let_41) (= _let_41 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_28) (= _let_28 _let_25) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.liverwort_1 X) (and (tptp.original_name_2 X |tptp.'Liverwort'|) (tptp.user_description_2 X |tptp.'One of a group of small, nonvascular land plants of the phylum Hepatophyta.'|) (tptp.concept2words_2 X tptp.hepatophyta) (tptp.concept2words_2 X tptp.hepatophyte) (tptp.concept2words_2 X tptp.liverwort) (tptp.bryophyte_1 X)))) (forall ((X $$unsorted)) (=> (tptp.living_entity_1 X) (and (tptp.original_name_2 X |tptp.'Living-Entity'|) (tptp.description_2 X |tptp.'Any living organism'|) (tptp.concept2words_2 X tptp.benefactive_role) (tptp.concept2words_2 X |tptp.'benefactive role'|) (tptp.concept2words_2 X tptp.beneficiary) (tptp.concept2words_2 X |tptp.'living thing'|) (tptp.concept2words_2 X tptp.living_thing) (tptp.concept2words_2 X |tptp.'animate thing'|) (tptp.concept2words_2 X tptp.animate_thing) (tptp.concept2words_2 X |tptp.'entity of living'|) (tptp.concept2words_2 X |tptp.'living entity'|) (tptp.concept2words_2 X |tptp.'living-entity'|) (tptp.physical_object_1 X) (tptp.organic_entity_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lizard_1 X) (and (tptp.original_name_2 X |tptp.'Lizard'|) (tptp.user_description_2 X |tptp.'A large group of squamate reptiles, inhabiting all continents except Antarctica. Unlike the other major group of squamates, snakes, reptiles have feet and external ears.'|) (tptp.concept2words_2 X tptp.lizard) (tptp.squamata_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_load_1 X))) (=> (tptp.load_1 X) (and (tptp.original_name_2 X |tptp.'Load'|) (tptp.concept2words_2 X tptp.load) (tptp.concept2words_2 X tptp.charge) (tptp.concept2words_2 X tptp.lade) (tptp.concept2words_2 X tptp.laden) (tptp.concept2words_2 X |tptp.'load up'|) (tptp.concept2words_2 X tptp.load_up) (tptp.concept2words_2 X tptp.stow) (tptp.move_into_1 X) (not (tptp.take_in_1 X)) (not (tptp.enter_1 X)) (not (tptp.capillary_action_1 X)) (not (tptp.implant_1 X)) (not (tptp.package_recombinants_in_capsid_1 X)) (tptp.activate_1 _let_1) (tptp.causes_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_loading_of_sugar_into_sieve_tube_element_13 X))) (let ((_let_2 (tptp.fn_photosynthesis_37 _let_1))) (let ((_let_3 (tptp.fn_anabolic_pathway_5 _let_1))) (let ((_let_4 (tptp.fn_loading_of_sugar_into_sieve_tube_element_12 X))) (let ((_let_5 (tptp.fn_move_into_1 _let_4))) (let ((_let_6 (tptp.fn_loading_of_sugar_into_sieve_tube_element_16 X))) (let ((_let_7 (tptp.fn_loading_of_sugar_into_sieve_tube_element_10 X))) (let ((_let_8 (tptp.fn_parenchyma_cell_15 _let_7))) (let ((_let_9 (tptp.fn_loading_of_sugar_into_sieve_tube_element_9 X))) (let ((_let_10 (tptp.fn_loading_of_sugar_into_sieve_tube_element_11 X))) (let ((_let_11 (tptp.fn_symplastic_transport_2 _let_10))) (let ((_let_12 (tptp.fn_loading_of_sugar_into_sieve_tube_element_15 X))) (let ((_let_13 (tptp.fn_oxidative_phosphorylation_15 _let_12))) (let ((_let_14 (tptp.fn_loading_of_sugar_into_sieve_tube_element_14 X))) (let ((_let_15 (tptp.fn_oxidative_phosphorylation_15 _let_14))) (let ((_let_16 (tptp.fn_loading_of_sugar_into_sieve_tube_element_8 X))) (let ((_let_17 (tptp.fn_loading_of_sugar_into_sieve_tube_element_6 X))) (let ((_let_18 (tptp.fn_loading_of_sugar_into_sieve_tube_element_5 X))) (let ((_let_19 (tptp.fn_loading_of_sugar_into_sieve_tube_element_7 X))) (let ((_let_20 (tptp.fn_loading_of_sugar_into_sieve_tube_element_4 X))) (let ((_let_21 (tptp.fn_loading_of_sugar_into_sieve_tube_element_3 X))) (=> (tptp.loading_of_sugar_into_sieve_tube_element_1 X) (and (tptp.original_name_2 X |tptp.'Loading-Of-Sugar-Into-Sieve-Tube-Element'|) (tptp.user_description_2 X |tptp.'It involves the loading of sugar into sieve tube elements of phloem in leaf during the process of translocation of phloem sap.'|) (tptp.concept2words_2 X tptp.load) (tptp.concept2words_2 X |tptp.'loading of sugar into sieve tube element'|) (tptp.concept2words_2 X |tptp.'loading-of-sugar-into-sieve-tube-element'|) (tptp.plant_transport_1 X) (tptp.frequency_value_1 _let_21) (tptp.frequency_value_1 _let_20) (tptp.cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_1 _let_18) (tptp.cotransport_of_sucrose_and_hydrogen_ion_by_plant_cell_1 _let_17) (tptp.companion_cell_1 _let_19) (tptp.biological_region_1 _let_16) (tptp.tangible_entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.sugar_1 _let_9) (tptp.mesophyll_cell_1 _let_7) (tptp.symplastic_transport_1 _let_10) (tptp.move_through_1 _let_4) (tptp.move_into_1 _let_4) (tptp.anabolic_pathway_1 _let_1) (tptp.photosynthesis_1 _let_1) (tptp.oxidative_phosphorylation_1 _let_14) (tptp.oxidative_phosphorylation_1 _let_12) (tptp.sieve_tube_element_1 _let_6) (tptp.cell_1 _let_15) (tptp.cell_1 _let_13) (tptp.move_through_1 _let_11) (tptp.photosynthesis_1 _let_8) (tptp.tangible_entity_1 _let_5) (tptp.chemical_entity_1 _let_3) (tptp.tangible_entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.sugar_1 _let_2) (tptp.the_scalar_value_2 _let_21 tptp.often_0) (tptp.scalar_unit_class_2 _let_21 tptp.cotransport_0) (tptp.the_scalar_value_2 _let_20 tptp.often_0) (tptp.scalar_unit_class_2 _let_20 tptp.cotransport_0) (tptp.is_outside_2 _let_7 _let_6) (tptp.frequency_2 _let_18 _let_21) (tptp.origin_2 _let_18 _let_7) (tptp.frequency_2 _let_17 _let_20) (tptp.origin_2 _let_17 _let_7) (tptp.destination_2 _let_17 _let_19) (tptp.origin_2 _let_4 _let_7) (tptp.destination_2 _let_4 _let_16) (tptp.object_2 X _let_9) (tptp.origin_2 X _let_7) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_18) (tptp.subevent_2 X _let_17) (tptp.first_subevent_2 X _let_10) (tptp.destination_2 X _let_6) (tptp.is_inside_2 _let_16 _let_6) (tptp.base_2 _let_14 _let_7) (tptp.base_2 _let_12 _let_7) (tptp.subevent_2 _let_10 _let_4) (tptp.result_2 _let_1 _let_9) (tptp.base_2 _let_1 _let_7) (tptp.base_2 _let_4 _let_6) (= _let_7 _let_15) (= _let_7 _let_13) (= _let_4 _let_11) (= _let_9 _let_3) (= _let_9 _let_2) (= _let_1 _let_8) (= _let_6 _let_5) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.loam_1 X) (and (tptp.original_name_2 X |tptp.'Loam'|) (tptp.user_description_2 X |tptp.'The most fertile type of soil, consisting of approximately equal proportions of clay, sand, and silt.'|) (tptp.concept2words_2 X tptp.loam) (tptp.heterogeneous_mixture_1 X) (not (tptp.suspension_1 X)) (not (tptp.acid_chyme_1 X)) (not (tptp.detritus_1 X)) (not (tptp.feces_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.homogeneous_mixture_1 X)) (not (tptp.mesohyl_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lobe_1 X) (and (tptp.original_name_2 X |tptp.'Lobe'|) (tptp.user_description_2 X |tptp.'Rounded, projecting section of an organ.'|) (tptp.concept2words_2 X tptp.lobe) (tptp.anatomical_structure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lobe_fin_fish_1 X) (and (tptp.original_name_2 X |tptp.'Lobe-Fin-Fish'|) (tptp.user_description_2 X |tptp.'Fish of the clade Sarcopterygii, whose pectoral and pelvic fins are muscular and supported by bony extensions of the skeleton.'|) (tptp.concept2words_2 X tptp.actinistia) (tptp.concept2words_2 X |tptp.'lobe fin fish'|) (tptp.concept2words_2 X |tptp.'lobe-fin-fish'|) (tptp.fish_1 X) (not (tptp.bony_fish_1 X)) (not (tptp.cartilaginous_fish_1 X)) (not (tptp.tetrapod_fish_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_local_biogeochemical_cycle_2 X))) (let ((_let_2 (tptp.fn_local_biogeochemical_cycle_1 X))) (=> (tptp.local_biogeochemical_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Local-Biogeochemical-Cycle'|) (tptp.user_description_2 X |tptp.'Biogeochemical cycle which cycles chemicals through biotic and abiotic components of ecosystems on a local scale. Chemicals which naturally exist in solid form (such as phosphorus and calcium) cycle locally.'|) (tptp.concept2words_2 X |tptp.'undergo the local biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'local biogeochemical cycle'|) (tptp.concept2words_2 X |tptp.'local-biogeochemical-cycle'|) (tptp.biogeochemical_cycle_1 X) (tptp.ecosystem_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.site_2 X _let_2) (tptp.object_2 X _let_1) (= _let_2 (tptp.fn_biogeochemical_cycle_2 X)) (= _let_1 (tptp.fn_biogeochemical_cycle_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_local_cell_communication_6 X))) (let ((_let_2 (tptp.fn_cell_signaling_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_1 X))) (let ((_let_4 (tptp.fn_cell_signaling_1 _let_1))) (let ((_let_5 (tptp.fn_local_cell_communication_3 X))) (let ((_let_6 (tptp.fn_cell_signaling_3 _let_1))) (let ((_let_7 (tptp.fn_local_cell_communication_4 X))) (let ((_let_8 (tptp.fn_cell_signaling_2 _let_1))) (let ((_let_9 (tptp.fn_local_cell_communication_5 X))) (let ((_let_10 (tptp.fn_local_cell_communication_7 X))) (let ((_let_11 (tptp.fn_local_cell_communication_2 X))) (=> (tptp.local_cell_communication_1 X) (and (tptp.original_name_2 X |tptp.'Local-Cell-Communication'|) (tptp.user_description_2 X |tptp.'Occurs when local regulators, messenger molecules that travel only short distances, target cells within the immediate vicinity of the signaling cell.'|) (tptp.concept2words_2 X |tptp.'communicate over a short distance'|) (tptp.concept2words_2 X |tptp.'local cell communication'|) (tptp.concept2words_2 X |tptp.'local-cell-communication'|) (tptp.intercellular_process_1 X) (tptp.cell_communication_1 X) (tptp.length_value_1 _let_11) (tptp.cellular_response_1 _let_5) (tptp.signal_transduction_1 _let_7) (tptp.signal_reception_1 _let_9) (tptp.cell_signaling_1 _let_1) (tptp.cell_1 _let_10) (tptp.signal_reception_1 _let_8) (tptp.signal_transduction_1 _let_6) (tptp.cellular_response_1 _let_4) (tptp.cell_1 _let_2) (tptp.the_scalar_value_2 _let_11 tptp.near_0) (tptp.scalar_unit_class_2 _let_11 tptp.long_distance_cell_communication_0) (tptp.distance_2 X _let_11) (tptp.subevent_2 X _let_1) (tptp.object_2 X _let_10) (tptp.base_2 _let_9 _let_10) (tptp.next_event_2 _let_9 _let_7) (tptp.base_2 _let_7 _let_10) (tptp.base_2 _let_5 _let_10) (tptp.subevent_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_10) (tptp.first_subevent_2 _let_1 _let_9) (tptp.subevent_2 _let_1 _let_9) (tptp.subevent_2 _let_1 _let_7) (tptp.next_event_2 _let_7 _let_5) (= _let_1 (tptp.fn_cell_communication_2 X)) (= _let_10 _let_3) (= _let_10 _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_local_regulator_2 X))) (let ((_let_2 (tptp.fn_local_regulator_1 X))) (=> (tptp.local_regulator_1 X) (and (tptp.original_name_2 X |tptp.'Local-Regulator'|) (tptp.user_description_2 X |tptp.'A chemical signal that influences only neighboring cells.'|) (tptp.concept2words_2 X |tptp.'regulator of local'|) (tptp.concept2words_2 X |tptp.'local regulator'|) (tptp.concept2words_2 X |tptp.'local-regulator'|) (tptp.chemical_messenger_1 X) (not (tptp.electrical_signal_1 X)) (not (tptp.elicitor_1 X)) (not (tptp.florigen_1 X)) (tptp.cell_communication_with_local_regulator_1 _let_2) (tptp.chemical_entity_1 _let_1) (tptp.agent_2 _let_2 _let_1) (tptp.plays_2 _let_1 X) (= _let_1 (tptp.fn_messenger_1 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_locomotion_1 X))) (=> (tptp.locomotion_1 X) (and (tptp.original_name_2 X |tptp.'Locomotion'|) (tptp.concept2words_2 X tptp.locomote) (tptp.concept2words_2 X tptp.travel) (tptp.concept2words_2 X tptp.go) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X tptp.locomotion) (tptp.move_1 X) (tptp.spatial_entity_1 _let_1) (tptp.agent_2 X _let_1) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_move_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.locomotion_as_macrophysiological_process_1 X) (and (tptp.original_name_2 X |tptp.'Locomotion-As-Macrophysiological-Process'|) (tptp.user_description_2 X |tptp.'Active motion from one place to another.'|) (tptp.concept2words_2 X |tptp.'locomotion as macrophysiological process'|) (tptp.concept2words_2 X |tptp.'locomotion-as-macrophysiological-process'|) (tptp.animal_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_3 X))) (let ((_let_2 (tptp.fn_flagellum_34 _let_1))) (let ((_let_3 (tptp.fn_flagellum_41 _let_1))) (let ((_let_4 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_5 X))) (let ((_let_5 (tptp.fn_fold_1 _let_4))) (let ((_let_6 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_7 X))) (let ((_let_7 (tptp.fn_microtubule_doublet_1 _let_6))) (let ((_let_8 (tptp.fn_flagellum_39 _let_1))) (let ((_let_9 (tptp.fn_microtubule_doublet_2 _let_6))) (let ((_let_10 (tptp.fn_flagellum_36 _let_1))) (let ((_let_11 (tptp.fn_flagellum_40 _let_1))) (let ((_let_12 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_4 X))) (let ((_let_13 (tptp.fn_fold_1 _let_12))) (let ((_let_14 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_10 X))) (let ((_let_15 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_14 X))) (let ((_let_16 (tptp.fn_flagellum_33 _let_1))) (let ((_let_17 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_12 X))) (let ((_let_18 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_6 X))) (let ((_let_19 (tptp.fn_flagellum_37 _let_1))) (let ((_let_20 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_15 X))) (let ((_let_21 (tptp.fn_flagellum_32 _let_1))) (let ((_let_22 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_8 X))) (let ((_let_23 (tptp.fn_flagellum_29 _let_1))) (let ((_let_24 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_13 X))) (let ((_let_25 (tptp.fn_flagellum_31 _let_1))) (let ((_let_26 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_9 X))) (let ((_let_27 (tptp.fn_flagellum_38 _let_1))) (let ((_let_28 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_11 X))) (let ((_let_29 (tptp.fn_flagellum_35 _let_1))) (let ((_let_30 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_2 X))) (let ((_let_31 (tptp.fn_locomotion_of_eukaryotic_cell_by_flagellum_1 X))) (=> (tptp.locomotion_of_eukaryotic_cell_by_flagellum_1 X) (and (tptp.original_name_2 X |tptp.'Locomotion-Of-Eukaryotic-Cell-By-Flagellum'|) (tptp.user_description_2 X |tptp.'Locomotion, usually swimming, of a eukaryotic cell by means of a beating flagellum. Most animals have sperm that use flagella for locomotion.'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X |tptp.'locomotion of eukaryotic cell by flagellum'|) (tptp.concept2words_2 X |tptp.'locomotion-of-eukaryotic-cell-by-flagellum'|) (tptp.locomotion_1 X) (tptp.dynein_walking_1 _let_31) (tptp.eukaryotic_cell_1 _let_30) (tptp.flagellum_1 _let_1) (tptp.fold_1 _let_12) (tptp.fold_1 _let_4) (tptp.entity_1 _let_18) (tptp.microtubule_doublet_1 _let_18) (tptp.entity_1 _let_6) (tptp.microtubule_doublet_1 _let_6) (tptp.dynein_1 _let_22) (tptp.protein_1 _let_26) (tptp.microtubule_1 _let_14) (tptp.microtubule_1 _let_28) (tptp.molecular_assembly_1 _let_17) (tptp.periphery_1 _let_24) (tptp.microtubule_1 _let_15) (tptp.microtubule_1 _let_20) (tptp.cell_1 _let_29) (tptp.microtubule_1 _let_27) (tptp.protein_1 _let_25) (tptp.periphery_1 _let_23) (tptp.dynein_1 _let_21) (tptp.microtubule_1 _let_19) (tptp.molecular_assembly_1 _let_16) (tptp.entity_1 _let_13) (tptp.microtubule_doublet_1 _let_11) (tptp.microtubule_1 _let_10) (tptp.microtubule_1 _let_9) (tptp.microtubule_1 _let_8) (tptp.microtubule_1 _let_7) (tptp.entity_1 _let_5) (tptp.microtubule_doublet_1 _let_3) (tptp.locomotion_1 _let_2) (tptp.first_subevent_2 X _let_12) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_31) (tptp.subevent_2 X _let_12) (tptp.called_2 _let_20 |"2"|) (tptp.called_2 _let_28 |"1"|) (tptp.called_2 _let_6 |"2"|) (tptp.called_2 _let_18 |"1"|) (tptp.agent_2 _let_4 _let_22) (tptp.agent_2 _let_4 _let_26) (tptp.base_2 _let_4 _let_18) (tptp.called_2 _let_4 |"2"|) (tptp.next_event_2 _let_31 _let_4) (tptp.next_event_2 _let_12 _let_31) (tptp.agent_2 _let_12 _let_26) (tptp.agent_2 _let_12 _let_22) (tptp.base_2 _let_12 _let_6) (tptp.called_2 _let_12 |"1"|) (tptp.object_2 _let_4 _let_6) (tptp.object_2 _let_12 _let_18) (tptp.has_part_2 _let_30 _let_1) (tptp.agent_2 X _let_30) (tptp.object_2 X _let_30) (tptp.element_2 _let_17 _let_22) (tptp.instrument_2 X _let_1) (tptp.has_function_2 _let_1 X) (tptp.is_at_2 _let_18 _let_24) (tptp.element_2 _let_18 _let_28) (tptp.is_between_2 _let_26 _let_28) (tptp.has_region_2 _let_17 _let_24) (tptp.is_at_2 _let_6 _let_24) (tptp.element_2 _let_17 _let_6) (tptp.element_2 _let_17 _let_26) (tptp.is_between_2 _let_26 _let_14) (tptp.has_part_2 _let_1 _let_17) (tptp.element_2 _let_17 _let_18) (tptp.element_2 _let_18 _let_20) (tptp.is_between_2 _let_22 _let_20) (tptp.is_between_2 _let_22 _let_15) (tptp.element_2 _let_6 _let_15) (tptp.called_2 _let_15 |"1"|) (tptp.called_2 _let_14 |"2"|) (tptp.element_2 _let_6 _let_14) (= _let_6 _let_5) (= _let_18 _let_13) (= _let_30 _let_29) (= X _let_2) (= _let_28 _let_27) (= _let_14 _let_8) (= _let_26 _let_25) (= _let_6 _let_3) (= _let_24 _let_23) (= _let_15 _let_10) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_11) (= _let_17 _let_16) (= _let_15 _let_9) (= _let_14 _let_7) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_4 X))) (let ((_let_2 (tptp.fn_motile_cilium_10 _let_1))) (let ((_let_3 (tptp.fn_locomotion_1 X))) (let ((_let_4 (tptp.fn_motile_cilium_18 _let_1))) (let ((_let_5 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_6 X))) (let ((_let_6 (tptp.fn_fold_1 _let_5))) (let ((_let_7 (tptp.fn_motile_cilium_19 _let_1))) (let ((_let_8 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_5 X))) (let ((_let_9 (tptp.fn_fold_1 _let_8))) (let ((_let_10 (tptp.fn_motile_cilium_16 _let_1))) (let ((_let_11 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_14 X))) (let ((_let_12 (tptp.fn_motile_cilium_17 _let_1))) (let ((_let_13 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_15 X))) (let ((_let_14 (tptp.fn_motile_cilium_8 _let_1))) (let ((_let_15 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_10 X))) (let ((_let_16 (tptp.fn_motile_cilium_13 _let_1))) (let ((_let_17 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_13 X))) (let ((_let_18 (tptp.fn_motile_cilium_15 _let_1))) (let ((_let_19 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_17 X))) (let ((_let_20 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_3 X))) (let ((_let_21 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_8 X))) (let ((_let_22 (tptp.fn_motile_cilium_7 _let_1))) (let ((_let_23 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_9 X))) (let ((_let_24 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_7 X))) (let ((_let_25 (tptp.fn_motile_cilium_14 _let_1))) (let ((_let_26 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_16 X))) (let ((_let_27 (tptp.fn_cell_4 _let_20))) (let ((_let_28 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_12 X))) (let ((_let_29 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_11 X))) (let ((_let_30 (tptp.fn_move_1 _let_29))) (let ((_let_31 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_2 X))) (let ((_let_32 (tptp.fn_locomotion_of_eukaryotic_cell_by_motile_cilium_1 X))) (=> (tptp.locomotion_of_eukaryotic_cell_by_motile_cilium_1 X) (and (tptp.original_name_2 X |tptp.'Locomotion-Of-Eukaryotic-Cell-By-Motile-Cilium'|) (tptp.user_description_2 X |tptp.'Locomotion, usually swimming, of a eukaryotic cell by means of motile cilia. A protozoan ciliate is an example of a eukaryotic cell that uses cilia for locomotion.'|) (tptp.concept2words_2 X tptp.move) (tptp.concept2words_2 X |tptp.'locomotion of eukaryotic cell by motile cilium'|) (tptp.concept2words_2 X |tptp.'locomotion-of-eukaryotic-cell-by-motile-cilium'|) (tptp.locomotion_1 X) (tptp.periphery_1 _let_32) (tptp.dynein_walking_1 _let_31) (tptp.spatial_entity_1 _let_20) (tptp.cell_1 _let_20) (tptp.eukaryotic_cell_1 _let_20) (tptp.spatial_entity_1 _let_1) (tptp.motile_cilium_1 _let_1) (tptp.fold_1 _let_8) (tptp.fold_1 _let_5) (tptp.entity_1 _let_24) (tptp.microtubule_doublet_1 _let_24) (tptp.entity_1 _let_21) (tptp.microtubule_doublet_1 _let_21) (tptp.dynein_1 _let_23) (tptp.protein_1 _let_15) (tptp.move_1 _let_29) (tptp.surface_1 _let_28) (tptp.molecular_assembly_1 _let_17) (tptp.microtubule_1 _let_11) (tptp.microtubule_1 _let_13) (tptp.microtubule_1 _let_26) (tptp.microtubule_1 _let_19) (tptp.spatial_entity_1 _let_30) (tptp.surface_1 _let_27) (tptp.microtubule_1 _let_25) (tptp.dynein_1 _let_22) (tptp.microtubule_1 _let_18) (tptp.molecular_assembly_1 _let_16) (tptp.protein_1 _let_14) (tptp.microtubule_1 _let_12) (tptp.microtubule_1 _let_10) (tptp.entity_1 _let_9) (tptp.microtubule_doublet_1 _let_7) (tptp.entity_1 _let_6) (tptp.microtubule_doublet_1 _let_4) (tptp.eukaryotic_cell_1 _let_2) (tptp.has_function_2 _let_1 X) (tptp.enables_2 _let_8 _let_29) (tptp.agent_2 _let_8 _let_15) (tptp.agent_2 _let_8 _let_23) (tptp.base_2 _let_8 _let_21) (tptp.next_event_2 _let_8 _let_31) (tptp.called_2 _let_8 |"1"|) (tptp.enables_2 _let_5 _let_29) (tptp.agent_2 _let_5 _let_15) (tptp.agent_2 _let_5 _let_23) (tptp.base_2 _let_5 _let_24) (tptp.called_2 _let_5 |"2"|) (tptp.next_event_2 _let_31 _let_5) (tptp.is_at_2 _let_24 _let_32) (tptp.is_at_2 _let_21 _let_32) (tptp.toward_2 _let_29 _let_28) (tptp.facilitates_2 _let_17 X) (tptp.has_region_2 _let_17 _let_32) (tptp.instrument_2 X _let_1) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_31) (tptp.first_subevent_2 X _let_8) (tptp.object_2 _let_29 _let_1) (tptp.object_2 _let_5 _let_21) (tptp.object_2 _let_8 _let_24) (tptp.agent_2 X _let_20) (tptp.object_2 X _let_20) (tptp.is_between_2 _let_15 _let_26) (tptp.is_between_2 _let_15 _let_19) (tptp.element_2 _let_24 _let_19) (tptp.element_2 _let_17 _let_24) (tptp.has_part_2 _let_1 _let_17) (tptp.called_2 _let_26 |"2"|) (tptp.element_2 _let_21 _let_26) (tptp.element_2 _let_21 _let_13) (tptp.is_between_2 _let_23 _let_13) (tptp.element_2 _let_17 _let_23) (tptp.called_2 _let_24 |tptp.'MD1'|) (tptp.element_2 _let_24 _let_11) (tptp.is_between_2 _let_23 _let_11) (tptp.called_2 _let_21 |tptp.'MD2'|) (tptp.element_2 _let_17 _let_21) (tptp.has_part_2 _let_20 _let_1) (tptp.called_2 _let_19 |"1"|) (tptp.element_2 _let_17 _let_15) (tptp.called_2 _let_13 |"1"|) (tptp.called_2 _let_11 |"2"|) (tptp.has_region_2 _let_20 _let_28) (= _let_1 _let_30) (= _let_21 _let_6) (= _let_24 _let_9) (= _let_20 _let_3) (= _let_28 _let_27) (= _let_26 _let_25) (= _let_24 _let_7) (= _let_23 _let_22) (= _let_21 _let_4) (= _let_20 _let_2) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.locomotor_cell_1 X) (and (tptp.original_name_2 X |tptp.'Locomotor-Cell'|) (tptp.user_description_2 X |tptp.'Cells with motile cilia or flagella that act as appendages that move the cell from one place to another or when attached to cells that are held in place, motile cilia and flagella can move fluid over the surface of the tissue.'|) (tptp.concept2words_2 X |tptp.'locomotor cell'|) (tptp.concept2words_2 X |tptp.'locomotor-cell'|) (tptp.cell_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_locus_1 X))) (=> (tptp.locus_1 X) (and (tptp.original_name_2 X |tptp.'Locus'|) (tptp.user_description_2 X |tptp.'A specific place along the length of a chromosome where a given gene is located.'|) (tptp.concept2words_2 X tptp.loci) (tptp.concept2words_2 X tptp.locus) (tptp.biological_region_1 X) (tptp.gene_1 _let_1) (tptp.is_at_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.logging_1 X) (and (tptp.original_name_2 X |tptp.'Logging'|) (tptp.user_description_2 X |tptp.'Any process in which selected trees are removed from a forested or wooded area. Also refers to the act of removing such trees.'|) (tptp.concept2words_2 X tptp.log) (tptp.concept2words_2 X tptp.logging) (tptp.human_driven_disturbance_1 X) (not (tptp.animal_husbandry_1 X)) (not (tptp.crop_rotation_1 X)) (not (tptp.hydroponic_culture_1 X)) (not (tptp.irrigation_1 X)) (not (tptp.monoculture_1 X)) (not (tptp.no_till_agriculture_1 X)) (not (tptp.sustainable_agriculture_1 X)) (not (tptp.vernalization_1 X))))) (forall ((X $$unsorted)) (=> (tptp.logistic_population_growth_1 X) (and (tptp.original_name_2 X |tptp.'Logistic-Population-Growth'|) (tptp.user_description_2 X |tptp.'A model of population growth in which the rate of growth is slow at low population size, increases as population size increases, then decreases again as the population size approaches carrying capacity.'|) (tptp.concept2words_2 X |tptp.'logistic population growth'|) (tptp.concept2words_2 X |tptp.'logistic-population-growth'|) (tptp.population_process_1 X) (not (tptp.demography_1 X)) (not (tptp.exponential_population_growth_1 X)) (not (tptp.extinction_vortex_1 X)) (not (tptp.propagation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.long_day_plant_1 X) (and (tptp.original_name_2 X |tptp.'Long-Day-Plant'|) (tptp.user_description_2 X |tptp.'A plant that flowers (usually in late spring or early summer) only when the light period is longer than a critical length.'|) (tptp.concept2words_2 X |tptp.'long day plant'|) (tptp.concept2words_2 X |tptp.'long-day-plant'|) (tptp.flowering_control_plant_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_long_distance_between_genes_1 X))) (=> (tptp.long_distance_between_genes_1 X) (and (tptp.original_name_2 X |tptp.'Long-Distance-Between-Genes'|) (tptp.user_description_2 X |tptp.'In genetic mapping, a long distance between genes implies that they are unlinked or on separate chromosomes.'|) (tptp.concept2words_2 X |tptp.'long distance between gene'|) (tptp.concept2words_2 X |tptp.'long-distance-between-gene'|) (tptp.distance_between_genes_1 X) (tptp.crossing_over_of_genes_1 _let_1) (tptp.agent_2 _let_1 X) (tptp.instrument_2 _let_1 X) (tptp.purpose_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_long_distance_cell_communication_3 X))) (let ((_let_2 (tptp.fn_signal_generation_4 _let_1))) (let ((_let_3 (tptp.fn_cell_communication_3 X))) (let ((_let_4 (tptp.fn_long_distance_cell_communication_6 X))) (let ((_let_5 (tptp.fn_secretion_2 _let_4))) (let ((_let_6 (tptp.fn_signal_generation_2 _let_1))) (let ((_let_7 (tptp.fn_long_distance_cell_communication_7 X))) (let ((_let_8 (tptp.fn_long_distance_cell_communication_4 X))) (let ((_let_9 (tptp.fn_long_distance_cell_communication_8 X))) (let ((_let_10 (tptp.fn_long_distance_cell_communication_5 X))) (let ((_let_11 (tptp.fn_signal_transmission_1 _let_10))) (let ((_let_12 (tptp.fn_long_distance_cell_communication_9 X))) (let ((_let_13 (tptp.fn_long_distance_cell_communication_2 X))) (=> (tptp.long_distance_cell_communication_1 X) (and (tptp.original_name_2 X |tptp.'Long-Distance-Cell-Communication'|) (tptp.user_description_2 X |tptp.'Transmission of a chemical stimulus, a hormone, from one cell to another cell in a distant part of the organism.'|) (tptp.concept2words_2 X |tptp.'communicate with'|) (tptp.concept2words_2 X |tptp.'communicate over a long distance'|) (tptp.concept2words_2 X |tptp.'long distance cell communication'|) (tptp.concept2words_2 X |tptp.'long-distance-cell-communication'|) (tptp.cell_communication_1 X) (tptp.length_value_1 _let_13) (tptp.signal_generation_1 _let_1) (tptp.living_entity_1 _let_8) (tptp.cell_1 _let_8) (tptp.signal_transmission_1 _let_10) (tptp.secretion_1 _let_4) (tptp.synthesis_reaction_1 _let_7) (tptp.cell_signaling_1 _let_9) (tptp.biological_region_1 _let_12) (tptp.biological_region_1 _let_11) (tptp.synthesis_reaction_1 _let_6) (tptp.living_entity_1 _let_5) (tptp.cell_1 _let_2) (tptp.is_outside_2 _let_12 _let_8) (tptp.next_event_2 _let_7 _let_4) (tptp.next_event_2 _let_10 _let_9) (tptp.distance_2 X _let_13) (tptp.subevent_2 X _let_10) (tptp.next_event_2 _let_1 _let_10) (tptp.subevent_2 _let_1 _let_4) (tptp.the_scalar_value_2 _let_13 tptp.far_0) (tptp.scalar_unit_class_2 _let_13 tptp.local_cell_communication_0) (tptp.base_2 _let_4 _let_8) (tptp.origin_2 _let_10 _let_12) (tptp.agent_2 X _let_8) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_9) (tptp.agent_2 _let_1 _let_8) (tptp.subevent_2 _let_1 _let_7) (= _let_8 _let_5) (= _let_12 _let_11) (= _let_8 _let_3) (= _let_9 (tptp.fn_cell_communication_2 X)) (= _let_1 (tptp.fn_cell_communication_5 X)) (= _let_8 _let_2) (= _let_7 _let_6) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.long_term_memory_1 X) (and (tptp.original_name_2 X |tptp.'Long-Term-Memory'|) (tptp.user_description_2 X |tptp.'The ability to retain and recall information over a lifetime.'|) (tptp.concept2words_2 X |tptp.'long term memory'|) (tptp.concept2words_2 X |tptp.'long-term-memory'|) (tptp.memory_1 X) (not (tptp.short_term_memory_1 X))))) (forall ((X $$unsorted)) (=> (tptp.long_term_potentiation_1 X) (and (tptp.original_name_2 X |tptp.'Long-Term-Potentiation'|) (tptp.user_description_2 X |tptp.'An enhanced responsiveness to action potentials by a postsynaptic cell.'|) (tptp.concept2words_2 X tptp.ltp) (tptp.concept2words_2 X |tptp.'long term potentiation'|) (tptp.concept2words_2 X |tptp.'long-term-potentiation'|) (tptp.nerve_related_intercellular_process_1 X)))) (forall ((X $$unsorted)) (=> (tptp.longitude_constant_1 X) (and (tptp.original_name_2 X |tptp.'Longitude-Constant'|) (tptp.concept2words_2 X |tptp.'constant of longitude'|) (tptp.concept2words_2 X |tptp.'longitude constant'|) (tptp.concept2words_2 X |tptp.'longitude-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.loop_of_henle_1 X) (and (tptp.original_name_2 X |tptp.'Loop-Of-Henle'|) (tptp.user_description_2 X |tptp.'The portion of a nephron between the proximal and distal tubules. The loop of Henle extends into the medulla of the kidney, makes a hairpin turn, and returns to the cortex. It resorbs water and salts from the forming urine.'|) (tptp.concept2words_2 X |tptp.'loop of henle'|) (tptp.concept2words_2 X |tptp.'loop-of-henle'|) (tptp.cuboidal_epithelium_1 X) (not (tptp.distal_tubule_1 X)) (not (tptp.ejaculatory_duct_1 X)) (not (tptp.endometrium_1 X)) (not (tptp.endothelium_1 X)) (not (tptp.epidermis_1 X)) (not (tptp.glans_1 X)) (not (tptp.hymen_1 X)) (not (tptp.iris_1 X)) (not (tptp.islets_of_langerhans_1 X)) (not (tptp.labia_minora_1 X)) (not (tptp.lacteal_1 X)) (not (tptp.prepuce_1 X)) (not (tptp.proximal_tubule_1 X)) (not (tptp.rectum_1 X)) (not (tptp.renal_cortex_1 X)) (not (tptp.seminiferous_tubule_1 X)) (not (tptp.trophoblast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_looped_domains_6 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_looped_domains_11 X))) (let ((_let_4 (tptp.fn_fold_1 _let_3))) (let ((_let_5 (tptp.fn_looped_domains_7 X))) (let ((_let_6 (tptp.fn_attach_2 _let_5))) (let ((_let_7 (tptp.fn_looped_domains_8 X))) (let ((_let_8 (tptp.fn_attach_2 _let_7))) (let ((_let_9 (tptp.fn_looped_domains_9 X))) (let ((_let_10 (tptp.fn_eukaryotic_chromatin_15 _let_9))) (let ((_let_11 (tptp.fn_looped_domains_12 X))) (let ((_let_12 (tptp.fn_attach_1 _let_1))) (let ((_let_13 (tptp.fn_looped_domains_15 X))) (let ((_let_14 (tptp.fn_attach_1 _let_5))) (let ((_let_15 (tptp.fn_looped_domains_14 X))) (let ((_let_16 (tptp.fn_looped_domains_10 X))) (let ((_let_17 (tptp.fn_fold_1 _let_16))) (let ((_let_18 (tptp.fn_looped_domains_5 X))) (let ((_let_19 (tptp.fn_attach_1 _let_7))) (let ((_let_20 (tptp.fn_looped_domains_13 X))) (let ((_let_21 (tptp.fn_looped_domains_2 X))) (let ((_let_22 (tptp.fn_looped_domains_1 X))) (let ((_let_23 (tptp.fn_looped_domains_3 X))) (let ((_let_24 (tptp.fn_looped_domains_4 X))) (=> (tptp.looped_domains_1 X) (and (tptp.original_name_2 X |tptp.'Looped-Domains'|) (tptp.user_description_2 X |tptp.'A looped domain is one level DNA coiling and packing which occurs in a condensed eukaryotic chromosome. Looped domains can be observed at the scale of 300nm where the DNA molecule attaches to a protein scaffold composed in part of topoisomerase and H1 molecules'|) (tptp.concept2words_2 X |tptp.'looped domains'|) (tptp.concept2words_2 X |tptp.'looped domain'|) (tptp.concept2words_2 X |tptp.'looped-domain'|) (tptp.eukaryotic_chromatin_1 X) (tptp.heterochromatin_1 _let_22) (tptp.organizing_1 _let_21) (tptp.gene_1 _let_23) (tptp.nuclear_membrane_1 _let_24) (tptp.chromosome_1 _let_18) (tptp.attach_1 _let_1) (tptp.attach_1 _let_5) (tptp.attach_1 _let_7) (tptp.eukaryotic_chromatin_1 _let_9) (tptp.fold_1 _let_16) (tptp.fold_1 _let_3) (tptp.condense_1 _let_11) (tptp.protein_1 _let_20) (tptp.nuclear_lamina_1 _let_15) (tptp.nuclear_matrix_1 _let_13) (tptp.spatial_entity_1 _let_19) (tptp.entity_1 _let_17) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.condense_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.same_type_2 X _let_9) (tptp.same_type_2 X _let_22) (tptp.is_inside_2 _let_15 _let_24) (tptp.object_2 _let_21 _let_23) (tptp.enables_2 _let_3 _let_11) (tptp.enables_2 _let_16 _let_11) (tptp.result_2 _let_16 _let_22) (tptp.result_2 _let_16 X) (tptp.same_type_2 _let_9 X) (tptp.same_type_2 _let_22 X) (tptp.enables_2 _let_7 _let_21) (tptp.enables_2 _let_5 _let_21) (tptp.enables_2 _let_1 _let_21) (tptp.object_2 _let_7 _let_20) (tptp.object_2 _let_16 _let_18) (tptp.object_2 _let_5 _let_15) (tptp.object_2 _let_1 _let_13) (tptp.base_2 _let_7 X) (tptp.base_2 _let_5 X) (tptp.object_2 _let_3 X) (tptp.base_2 _let_1 X) (tptp.object_2 _let_11 _let_9) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_15 _let_14) (= _let_13 _let_12) (= X _let_8) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_11 _let_10) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.loose_connective_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Loose-Connective-Tissue'|) (tptp.user_description_2 X |tptp.'The most common type of connective tissue in vertebrates. Loose connective tissue holds organs in place and surrounds blood vessels and neurons.'|) (tptp.concept2words_2 X |tptp.'loose connective tissue'|) (tptp.concept2words_2 X |tptp.'loose-connective-tissue'|) (tptp.connective_tissue_1 X) (not (tptp.adipose_tissue_1 X)) (not (tptp.av_valve_1 X)) (not (tptp.bone_1 X)) (not (tptp.cartilage_1 X)) (not (tptp.fibrous_connective_tissue_1 X)) (not (tptp.sclera_1 X)) (not (tptp.semilunar_valve_1 X)) (not (tptp.submucosa_1 X)) (not (tptp.vocal_cord_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lophophore_1 X) (and (tptp.original_name_2 X |tptp.'Lophophore'|) (tptp.user_description_2 X |tptp.'In some animals of the clade Lophotrochozoa, a ring of ciliated, coelomate tentacles surrounding the mouth and used for filter feeding.'|) (tptp.concept2words_2 X |tptp.'crown of ciliated tentacles'|) (tptp.concept2words_2 X tptp.lophophore) (tptp.invertebrate_appendage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lophotrochozoan_1 X) (and (tptp.original_name_2 X |tptp.'Lophotrochozoan'|) (tptp.user_description_2 X |tptp.'Member of the clade Lophotrochozoa, which consists of several animal phyla grouped together by shared molecular characteristics. Lophotrochozoans include animals with a lophophore or a trochophore larva.'|) (tptp.concept2words_2 X tptp.lophotrochozoa) (tptp.concept2words_2 X tptp.lophotrochozoan) (tptp.invertebrate_1 X) (not (tptp.ammonite_1 X)) (not (tptp.arthropod_1 X)) (not (tptp.bryozoan_1 X)) (not (tptp.cnidaria_1 X)) (not (tptp.ctenophora_1 X)) (not (tptp.echinoderm_1 X)) (not (tptp.nematode_1 X)) (not (tptp.porifera_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lose_1 X))) (=> (tptp.lose_1 X) (and (tptp.original_name_2 X |tptp.'Lose'|) (tptp.concept2words_2 X tptp.lose) (tptp.transfer_1 X) (tptp.tangible_entity_1 _let_1) (tptp.donor_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.loser_1 X) (and (tptp.original_name_2 X |tptp.'Loser'|) (tptp.concept2words_2 X tptp.loser) (tptp.concept2words_2 X |tptp.'also ran'|) (tptp.concept2words_2 X |tptp.'also-ran'|) (tptp.contestant_1 X) (not (tptp.winner_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_loss_of_energy_by_electron_14 X))) (let ((_let_2 (tptp.fn_decrease_3 _let_1))) (let ((_let_3 (tptp.fn_loss_of_energy_by_electron_12 X))) (let ((_let_4 (tptp.fn_decrease_2 _let_1))) (let ((_let_5 (tptp.fn_loss_of_energy_by_electron_16 X))) (let ((_let_6 (tptp.fn_electron_3 _let_5))) (let ((_let_7 (tptp.fn_loss_of_energy_by_electron_13 X))) (let ((_let_8 (tptp.fn_loss_of_energy_by_electron_15 X))) (let ((_let_9 (tptp.fn_loss_of_energy_by_electron_6 X))) (let ((_let_10 (tptp.fn_loss_of_energy_by_electron_3 X))) (let ((_let_11 (tptp.fn_loss_of_energy_by_electron_2 X))) (let ((_let_12 (tptp.fn_loss_of_energy_by_electron_1 X))) (=> (tptp.loss_of_energy_by_electron_1 X) (and (tptp.original_name_2 X |tptp.'Loss-Of-Energy-By-Electron'|) (tptp.user_description_2 X |tptp.'An electron can change its shell, but only by absorbing or losing an amount of energy equal to the difference in potential energy between the old shell and the new shell.'|) (tptp.concept2words_2 X tptp.lose) (tptp.concept2words_2 X |tptp.'loss of energy by electron'|) (tptp.concept2words_2 X |tptp.'loss-of-energy-by-electron'|) (tptp.lose_1 X) (not (tptp.relinquish_1 X)) (tptp.quantity_value_1 _let_12) (tptp.quantity_value_1 _let_11) (tptp.quantity_value_1 _let_10) (tptp.system_1 (tptp.fn_loss_of_energy_by_electron_5 X)) (tptp.move_1 _let_9) (tptp.quantity_value_1 _let_3) (tptp.potential_energy_1 _let_7) (tptp.decrease_1 _let_1) (tptp.energy_1 _let_8) (tptp.tangible_entity_1 _let_5) (tptp.electron_1 _let_5) (tptp.potential_energy_1 _let_6) (tptp.property_node_1 _let_4) (tptp.property_value_1 _let_2) (tptp.quantity_2 _let_8 _let_10) (tptp.quantity_2 _let_7 _let_3) (tptp.causes_2 X _let_9) (tptp.causes_2 X _let_1) (tptp.greater_than_or_equal_to_2 _let_3 _let_12) (tptp.called_2 _let_12 |tptp.'PE_Final'|) (tptp.called_2 _let_11 |tptp.'PE_Initial'|) (tptp.greater_than_or_equal_to_2 _let_11 _let_3) (tptp.called_2 _let_10 |tptp.'EnergyLost'|) (tptp.subevent_2 _let_9 _let_1) (tptp.donor_2 X _let_5) (tptp.object_2 X _let_8) (tptp.possesses_2 _let_5 _let_7) (tptp.from_value_2 _let_1 _let_3) (= _let_5 (tptp.fn_lose_1 X)) (= _let_8 (tptp.fn_transfer_1 X)) (= _let_7 _let_6) (= (tptp.fn_loss_of_energy_by_electron_11 X) _let_4) (= _let_3 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_louis_pasteur_2 X))) (let ((_let_2 (tptp.fn_louis_pasteur_1 X))) (let ((_let_3 (tptp.fn_louis_pasteur_3 X))) (=> (tptp.louis_pasteur_1 X) (and (tptp.original_name_2 X |tptp.'Louis-Pasteur'|) (tptp.user_description_2 X |tptp.'Scientist who developed the process of pasteurization, after studying microbes and the impact of temperature and pressure on their populations.'|) (tptp.concept2words_2 X |tptp.'pasteur of louis'|) (tptp.concept2words_2 X |tptp.'louis pasteur'|) (tptp.concept2words_2 X |tptp.'louis-pasteur'|) (tptp.scientist_1 X) (tptp.fermentation_1 _let_2) (tptp.discovery_1 _let_1) (tptp.chemical_reaction_1 _let_3) (tptp.supports_2 _let_3 _let_2) (tptp.objective_2 _let_1 _let_3) (tptp.objective_2 _let_1 _let_2) (tptp.supports_2 _let_1 _let_2) (tptp.agent_2 _let_1 X))))))) (forall ((X $$unsorted)) (=> (tptp.low_density_lipoprotein_1 X) (and (tptp.original_name_2 X |tptp.'Low-Density-Lipoprotein'|) (tptp.user_description_2 X |tptp.'One of five groups of lipoproteins that allow lipids such as triglycerides and cholesterol to be transported in the aqueous environment of blood. High levels of LDL are associated with cardiovascular disease.'|) (tptp.concept2words_2 X tptp.ldl) (tptp.concept2words_2 X |tptp.'low density lipoprotein'|) (tptp.concept2words_2 X |tptp.'low-density-lipoprotein'|) (tptp.lipoprotein_1 X) (not (tptp.high_density_lipoprotein_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lumen_1 X) (and (tptp.original_name_2 X |tptp.'Lumen'|) (tptp.user_description_2 X |tptp.'A space within a tubular organ or organelle.'|) (tptp.concept2words_2 X tptp.lumen) (tptp.biological_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.luminance_constant_1 X) (and (tptp.original_name_2 X |tptp.'Luminance-Constant'|) (tptp.concept2words_2 X |tptp.'constant of luminance'|) (tptp.concept2words_2 X |tptp.'luminance constant'|) (tptp.concept2words_2 X |tptp.'luminance-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.luminance_value_1 X) (and (tptp.original_name_2 X |tptp.'Luminance-Value'|) (tptp.description_2 X |tptp.'the quality of being luminous, emitting or reflecting light'|) (tptp.concept2words_2 X tptp.luminosity) (tptp.concept2words_2 X tptp.brightness) (tptp.concept2words_2 X |tptp.'brightness level'|) (tptp.concept2words_2 X tptp.luminance) (tptp.concept2words_2 X tptp.luminousness) (tptp.concept2words_2 X tptp.light) (tptp.concept2words_2 X |tptp.'value of luminance'|) (tptp.concept2words_2 X |tptp.'luminance value'|) (tptp.concept2words_2 X |tptp.'luminance-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.luminous_flux_constant_1 X) (and (tptp.original_name_2 X |tptp.'Luminous-Flux-Constant'|) (tptp.concept2words_2 X |tptp.'luminous flux constant'|) (tptp.concept2words_2 X |tptp.'luminous-flux-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.luminous_flux_value_1 X) (and (tptp.original_name_2 X |tptp.'Luminous-Flux-Value'|) (tptp.description_2 X |tptp.'the rate of flow of light energy'|) (tptp.concept2words_2 X |tptp.'luminous flux'|) (tptp.concept2words_2 X |tptp.'luminous-flux'|) (tptp.concept2words_2 X |tptp.'luminous flux value'|) (tptp.concept2words_2 X |tptp.'luminous-flux-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.luminous_intensity_constant_1 X) (and (tptp.original_name_2 X |tptp.'Luminous-Intensity-Constant'|) (tptp.concept2words_2 X |tptp.'luminous intensity constant'|) (tptp.concept2words_2 X |tptp.'luminous-intensity-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.luminous_intensity_value_1 X) (and (tptp.original_name_2 X |tptp.'Luminous-Intensity-Value'|) (tptp.description_2 X |tptp.'a measure of luminous intensity'|) (tptp.concept2words_2 X |tptp.'luminous intensity unit'|) (tptp.concept2words_2 X |tptp.'candlepower unit'|) (tptp.concept2words_2 X |tptp.'luminous intensity'|) (tptp.concept2words_2 X |tptp.'luminous-intensity'|) (tptp.concept2words_2 X |tptp.'luminous intensity value'|) (tptp.concept2words_2 X |tptp.'luminous-intensity-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lunch_1 X) (and (tptp.original_name_2 X |tptp.'Lunch'|) (tptp.concept2words_2 X tptp.lunch) (tptp.concept2words_2 X tptp.luncheon) (tptp.concept2words_2 X tptp.tiffin) (tptp.concept2words_2 X tptp.dejeuner) (tptp.meal_1 X) (not (tptp.supper_1 X)) (not (tptp.dinner_1 X)) (not (tptp.brunch_1 X)) (not (tptp.breakfast_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lung_2 X))) (let ((_let_2 (tptp.fn_lung_3 X))) (=> (tptp.lung_1 X) (and (tptp.original_name_2 X |tptp.'Lung'|) (tptp.user_description_2 X |tptp.'An infolded respiratory surface found in animals that breathe air, such as terrestrial vertebrates, pulmonate gastropods, and spiders. The internalized structure is connected to the outside by tubes through which air passes.'|) (tptp.concept2words_2 X tptp.lung) (tptp.respiratory_organ_1 X) (tptp.oxygen_molecule_1 _let_1) (tptp.quantity_value_1 _let_2) (tptp.the_scalar_value_2 _let_2 tptp.high_0) (tptp.scalar_unit_class_2 _let_2 tptp.molecule_0) (tptp.quantity_2 _let_1 _let_2) (tptp.is_inside_2 _let_1 X)))))) (forall ((X $$unsorted)) (=> (tptp.lungfish_1 X) (and (tptp.original_name_2 X |tptp.'Lungfish'|) (tptp.user_description_2 X |tptp.'A freshwater fish that has lungs and can breathe air.'|) (tptp.concept2words_2 X tptp.salamanderfish) (tptp.concept2words_2 X |tptp.'salamander fish'|) (tptp.concept2words_2 X |tptp.'salamander-fish'|) (tptp.concept2words_2 X tptp.lungfish) (tptp.bony_fish_1 X) (not (tptp.ray_finned_fish_1 X)) (not (tptp.zebrafish_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lupus_1 X) (and (tptp.original_name_2 X |tptp.'Lupus'|) (tptp.user_description_2 X |tptp.'A systemic autoimmune disease in which the immune system attacks the body_'s own tissue, resulting in chronic inflammation and tissue damage. Symptoms can occur in many body organs and tissues, including joints, skin, heart, and lungs.'|) (tptp.concept2words_2 X |tptp.'systemic lupus erythematosus'|) (tptp.concept2words_2 X |tptp.'systemic-lupus-erythematosus'|) (tptp.concept2words_2 X tptp.lupus) (tptp.autoimmune_disease_1 X) (not (tptp.immunodeficiency_1 X)) (not (tptp.rheumatoid_arthritis_1 X)) (not (tptp.type_1_diabetes_mellitus_1 X))))) (forall ((X $$unsorted)) (=> (tptp.luteal_phase_1 X) (and (tptp.original_name_2 X |tptp.'Luteal-Phase'|) (tptp.user_description_2 X |tptp.'The latter part of the ovarian cycle when the corpus luteum secretes progesterone.'|) (tptp.concept2words_2 X |tptp.'luteal phase'|) (tptp.concept2words_2 X |tptp.'luteal-phase'|) (tptp.female_reproductive_cycle_events_1 X) (not (tptp.proliferative_phase_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lutetium_11 X))) (let ((_let_2 (tptp.fn_lutetium_14 X))) (let ((_let_3 (tptp.fn_lutetium_12 X))) (let ((_let_4 (tptp.fn_lutetium_13 X))) (let ((_let_5 (tptp.fn_lutetium_5 X))) (let ((_let_6 (tptp.fn_lutetium_6 X))) (let ((_let_7 (tptp.fn_lutetium_7 X))) (let ((_let_8 (tptp.fn_lutetium_4 X))) (=> (tptp.lutetium_1 X) (and (tptp.original_name_2 X |tptp.'Lutetium'|) (tptp.user_description_2 X |tptp.'Lutetium is a metal atom with atomic number 71. It is represented by the symbol Lu.'|) (tptp.concept2words_2 X tptp.lutetium) (tptp.concept2words_2 X |tptp.'Lu'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_8) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"104"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"71"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"71"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"3"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.27"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"175"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"71"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"175"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_lutetium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_lutetium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_lutetium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lyase_1 X) (and (tptp.original_name_2 X |tptp.'Lyase'|) (tptp.user_description_2 X |tptp.'Enzymes which cleave various bonds by means other than hydrolysis and oxidation'|) (tptp.concept2words_2 X tptp.lyase) (tptp.protein_enzyme_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lycophyta_1 X) (and (tptp.original_name_2 X |tptp.'Lycophyta'|) (tptp.user_description_2 X |tptp.'The oldest extant lineage of vascular plants, going back to about 410 million years.'|) (tptp.concept2words_2 X tptp.lycophyta) (tptp.seedless_vascular_plant_1 X) (not (tptp.progymnosperm_1 X)) (not (tptp.pterophyte_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.lycophyta))) (=> (tptp.lycophyte_1 X) (and (tptp.original_name_2 X |tptp.'Lycophyte'|) (tptp.user_description_2 X |tptp.'Member of the phylum Lycophyta, including quillworts and club mosses.'|) (tptp.concept2words_2 X |tptp.'club moss'|) (tptp.concept2words_2 X |tptp.'club-moss'|) (tptp.concept2words_2 X |tptp.'spike moss'|) (tptp.concept2words_2 X |tptp.'spike-moss'|) _let_1 (tptp.concept2words_2 X tptp.lycopodiphyta) (tptp.concept2words_2 X tptp.lycopods) _let_1 (tptp.concept2words_2 X tptp.lycophyte) (tptp.vascular_plant_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lyme_disease_1 X) (and (tptp.original_name_2 X |tptp.'Lyme-Disease'|) (tptp.user_description_2 X |tptp.'An infectious disease caused by the bacterial genus Borrelia and trasmitted to humans through tick bites.'|) (tptp.concept2words_2 X |tptp.'lyme borreliosis'|) (tptp.concept2words_2 X |tptp.'lyme-borreliosis'|) (tptp.concept2words_2 X |tptp.'lyme disease'|) (tptp.concept2words_2 X |tptp.'lyme-disease'|) (tptp.bacterial_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.malaria_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lymph_1 X) (and (tptp.original_name_2 X |tptp.'Lymph'|) (tptp.user_description_2 X |tptp.'The fluid circulated by the lymphatic system. It is derived from interstitial fluid.'|) (tptp.concept2words_2 X tptp.lymph) (tptp.extra_cellular_fluid_1 X) (not (tptp.amniotic_fluid_1 X)) (not (tptp.aqueous_humor_1 X)) (not (tptp.bile_1 X)) (not (tptp.cerebrospinal_fluid_1 X)) (not (tptp.colloid_1 X)) (not (tptp.filtrate_1 X)) (not (tptp.gastric_juice_1 X)) (not (tptp.hemolymph_1 X)) (not (tptp.mucus_1 X)) (not (tptp.plasma_1 X)) (not (tptp.semen_1 X)) (not (tptp.sweat_1 X)) (not (tptp.urine_1 X)) (not (tptp.vitreous_humor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.lymph_node_1 X) (and (tptp.original_name_2 X |tptp.'Lymph-Node'|) (tptp.user_description_2 X |tptp.'An organ of the immune system, located in various parts of the body and connected by the lymphatic vessels. 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The lymphatic system functions in immunity and returns lost fluid to blood.'|) (tptp.concept2words_2 X |tptp.'lymphatic system'|) (tptp.concept2words_2 X |tptp.'lymphatic-system'|) (tptp.organ_system_1 X) (tptp.lacteal_1 _let_1) (tptp.element_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.lymphatic_tissue_1 X) (and (tptp.original_name_2 X |tptp.'Lymphatic-Tissue'|) (tptp.user_description_2 X |tptp.'Tissues of the lymphatic system.'|) (tptp.concept2words_2 X |tptp.'lymphatic tissue'|) (tptp.concept2words_2 X |tptp.'lymphatic-tissue'|) (tptp.tissue_1 X)))) (forall ((X $$unsorted)) (=> (tptp.lymphocyte_1 X) (and (tptp.original_name_2 X |tptp.'Lymphocyte'|) (tptp.user_description_2 X |tptp.'A type of white blood cell in the vertebrate immune system. 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(tptp.fn_hydrophilic_amino_acid_13 X))) (let ((_let_9 (tptp.fn_covalent_bond_24 _let_3))) (let ((_let_10 (tptp.fn_hydrophilic_amino_acid_9 X))) (let ((_let_11 (tptp.fn_hydrophilic_amino_acid_11 X))) (let ((_let_12 (tptp.fn_covalent_bond_17 _let_3))) (let ((_let_13 (tptp.fn_hydrophilic_amino_acid_8 X))) (let ((_let_14 (tptp.fn_basic_amino_acid_36 X))) (let ((_let_15 (tptp.fn_hydrophilic_amino_acid_34 X))) (let ((_let_16 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_17 (tptp.fn_basic_amino_acid_29 X))) (let ((_let_18 (tptp.fn_hydrophilic_amino_acid_26 X))) (let ((_let_19 (tptp.fn_basic_amino_acid_33 X))) (let ((_let_20 (tptp.fn_basic_amino_acid_34 X))) (let ((_let_21 (tptp.fn_hydrophilic_amino_acid_31 X))) (let ((_let_22 (tptp.fn_basic_amino_acid_31 X))) (let ((_let_23 (tptp.fn_hydrophilic_amino_acid_29 X))) (let ((_let_24 (tptp.fn_covalent_bond_20 _let_3))) (let ((_let_25 (tptp.fn_basic_amino_acid_13 X))) (let ((_let_26 (tptp.fn_basic_amino_acid_14 X))) (let ((_let_27 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(tptp.fn_lysine_18 X))) (let ((_let_71 (tptp.fn_lysine_17 X))) (let ((_let_72 (tptp.fn_lysine_40 X))) (let ((_let_73 (tptp.fn_lysine_28 X))) (let ((_let_74 (tptp.fn_lysine_3 X))) (let ((_let_75 (tptp.fn_lysine_4 X))) (let ((_let_76 (tptp.fn_lysine_5 X))) (let ((_let_77 (tptp.fn_lysine_39 X))) (let ((_let_78 (tptp.fn_lysine_26 X))) (let ((_let_79 (tptp.fn_lysine_23 X))) (let ((_let_80 (tptp.fn_lysine_32 X))) (let ((_let_81 (tptp.fn_lysine_6 X))) (let ((_let_82 (tptp.fn_lysine_7 X))) (let ((_let_83 (tptp.fn_lysine_20 X))) (let ((_let_84 (tptp.fn_lysine_25 X))) (let ((_let_85 (tptp.fn_lysine_24 X))) (let ((_let_86 (tptp.fn_lysine_13 X))) (let ((_let_87 (tptp.fn_lysine_33 X))) (let ((_let_88 (tptp.fn_lysine_34 X))) (let ((_let_89 (tptp.fn_lysine_27 X))) (let ((_let_90 (tptp.fn_lysine_37 X))) (let ((_let_91 (tptp.fn_atomic_nucleus_8 _let_52))) (let ((_let_92 (tptp.fn_lysine_29 X))) (=> (tptp.lysine_1 X) (and (tptp.original_name_2 X |tptp.'Lysine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins.'|) (tptp.concept2words_2 X tptp.lysine) (tptp.basic_amino_acid_1 X) (tptp.share_1 _let_50) (tptp.hold_1 _let_68) (tptp.hold_together_1 _let_68) (tptp.hold_1 _let_74) (tptp.hold_together_1 _let_74) (tptp.hold_1 _let_75) (tptp.hold_together_1 _let_75) (tptp.hold_1 _let_76) (tptp.hold_together_1 _let_76) (tptp.hold_together_1 _let_81) (tptp.hold_1 _let_82) (tptp.hold_together_1 _let_82) (tptp.polar_side_chain_1 _let_58) (tptp.hydrophilic_region_1 _let_59) (tptp.end_1 _let_60) (tptp.positively_charged_region_1 _let_61) (tptp.single_bond_1 _let_3) (tptp.covalent_bond_1 _let_3) (tptp.kinetic_energy_1 _let_86) (tptp.tangible_entity_1 _let_63) (tptp.entity_1 _let_63) (tptp.chemical_entity_1 _let_63) (tptp.atom_1 _let_63) (tptp.carbon_1 _let_63) (tptp.entity_1 _let_69) (tptp.chemical_entity_1 _let_69) (tptp.atom_1 _let_69) (tptp.hydrogen_1 _let_69) (tptp.tangible_entity_1 _let_66) (tptp.entity_1 _let_66) (tptp.oxygen_1 _let_66) (tptp.tangible_entity_1 _let_71) (tptp.entity_1 _let_71) (tptp.oxygen_1 _let_71) (tptp.entity_1 _let_70) (tptp.chemical_entity_1 _let_70) (tptp.atom_1 _let_70) (tptp.hydrogen_1 _let_70) (tptp.chemical_entity_1 _let_67) (tptp.tangible_entity_1 _let_67) (tptp.entity_1 _let_67) (tptp.atom_1 _let_67) (tptp.nitrogen_1 _let_67) (tptp.constant_motion_1 _let_83) (tptp.carbon_skeleton_1 _let_62) (tptp.functional_group_1 _let_64) (tptp.carboxyl_group_1 _let_64) (tptp.functional_group_1 _let_79) (tptp.amino_group_1 _let_79) (tptp.quantity_value_1 _let_85) (tptp.speed_value_1 _let_84) (tptp.electron_shell_1 _let_78) (tptp.electron_shell_1 _let_89) (tptp.electron_shell_1 _let_73) (tptp.electron_1 _let_92) (tptp.valence_electron_1 _let_54) (tptp.atomic_nucleus_1 _let_53) (tptp.hold_1 _let_80) (tptp.hold_together_1 _let_80) (tptp.electron_shell_1 _let_87) (tptp.electron_shell_1 _let_88) (tptp.atomic_nucleus_1 _let_52) (tptp.valence_electron_1 _let_51) (tptp.share_1 _let_90) (tptp.hold_together_1 _let_57) (tptp.hold_1 _let_77) (tptp.hold_together_1 _let_77) (tptp.hold_1 _let_72) (tptp.hold_together_1 _let_72) (tptp.hold_together_1 _let_65) (tptp.share_1 _let_55) (tptp.electron_1 _let_91) (tptp.hold_together_1 _let_56) (tptp.electron_shell_1 _let_49) (tptp.electron_shell_1 _let_33) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.share_1 _let_12) (tptp.atomic_nucleus_1 _let_9) (tptp.atomic_nucleus_1 _let_7) (tptp.valence_electron_1 _let_6) (tptp.valence_electron_1 _let_4) (not (= _let_51 _let_92)) (not (= _let_92 _let_51)) (tptp.is_near_2 _let_92 _let_52) (tptp.is_near_2 _let_52 _let_92) (not (= _let_73 _let_89)) (not (= _let_89 _let_73)) (tptp.object_2 _let_50 _let_54) (tptp.agent_2 _let_57 _let_3) (tptp.object_2 _let_57 _let_70) (tptp.agent_2 _let_50 _let_70) (tptp.agent_2 _let_50 _let_67) (tptp.object_2 _let_57 _let_67) (tptp.object_2 _let_90 _let_51) (tptp.result_2 _let_55 _let_3) (tptp.object_2 _let_80 _let_70) (tptp.agent_2 _let_90 _let_67) (tptp.agent_2 _let_90 _let_70) (tptp.object_2 _let_76 _let_70) (tptp.has_region_2 _let_67 _let_88) (tptp.has_part_2 _let_70 _let_54) (tptp.object_2 _let_80 _let_66) (tptp.has_region_2 _let_71 _let_78) (tptp.object_2 _let_90 _let_54) (tptp.result_2 _let_90 _let_3) (tptp.has_region_2 _let_63 _let_89) (not (= _let_78 _let_89)) (not (= _let_89 _let_78)) (tptp.object_2 _let_55 _let_51) (tptp.has_part_2 _let_67 _let_51) (tptp.has_region_2 _let_67 _let_52) (not (= _let_54 _let_51)) (not (= _let_51 _let_54)) (tptp.object_2 _let_81 _let_70) (tptp.object_2 _let_81 _let_66) (tptp.object_2 _let_82 _let_66) (tptp.object_2 _let_82 _let_70) (tptp.has_region_2 _let_70 _let_53) (tptp.agent_2 _let_55 _let_67) (tptp.agent_2 _let_55 _let_70) (tptp.has_region_2 _let_70 _let_87) (not (= _let_88 _let_87)) (not (= _let_87 _let_88)) (tptp.has_part_2 X _let_66) (tptp.has_part_2 X _let_69) (tptp.has_part_2 X _let_67) (tptp.has_region_2 X _let_79) (tptp.is_inside_2 _let_71 _let_64) (tptp.object_2 _let_77 _let_63) (tptp.object_2 _let_77 _let_71) (tptp.has_part_2 X _let_71) (tptp.possesses_2 X _let_3) (tptp.is_between_2 _let_3 _let_70) (tptp.object_2 _let_82 _let_71) (tptp.object_2 _let_82 _let_63) (tptp.has_part_2 X _let_63) (tptp.has_region_2 X _let_64) (tptp.is_inside_2 _let_69 _let_64) (tptp.object_2 _let_80 _let_71) (tptp.object_2 _let_80 _let_63) (tptp.object_2 _let_81 _let_63) (tptp.object_2 _let_81 _let_71) (tptp.object_2 _let_76 _let_71) (tptp.object_2 _let_75 _let_66) (tptp.object_2 _let_75 _let_70) (tptp.is_inside_2 _let_70 _let_79) (tptp.is_inside_2 _let_67 _let_79) (tptp.is_between_2 _let_3 _let_67) (tptp.object_2 _let_77 _let_70) (tptp.object_2 _let_77 _let_66) (tptp.has_region_2 _let_66 _let_78) (not (= _let_73 _let_78)) (not (= _let_78 _let_73)) (tptp.object_2 _let_74 _let_71) (tptp.object_2 _let_74 _let_70) (tptp.has_part_2 X _let_70) (not (= _let_67 _let_70)) (not (= _let_70 _let_67)) (tptp.object_2 _let_72 _let_71) (tptp.object_2 _let_72 _let_63) (tptp.object_2 _let_76 _let_63) (tptp.object_2 _let_76 _let_66) (tptp.is_inside_2 _let_66 _let_64) (tptp.object_2 _let_74 _let_66) (tptp.object_2 _let_74 _let_63) (tptp.object_2 _let_75 _let_63) (tptp.object_2 _let_75 _let_71) (tptp.has_region_2 _let_71 _let_73) (tptp.object_2 _let_72 _let_70) (tptp.object_2 _let_72 _let_66) (tptp.has_region_2 _let_66 _let_73) (not (= _let_71 _let_66)) (not (= _let_66 _let_71)) (tptp.object_2 _let_68 _let_71) (tptp.object_2 _let_68 _let_70) (not (= _let_70 _let_69)) (not (= _let_69 _let_70)) (not (= _let_67 _let_69)) (not (= _let_69 _let_67)) (tptp.object_2 _let_65 _let_70) (tptp.object_2 _let_65 _let_71) (not (= _let_71 _let_69)) (not (= _let_63 _let_71)) (not (= _let_71 _let_63)) (not (= _let_69 _let_71)) (tptp.object_2 _let_68 _let_63) (tptp.object_2 _let_68 _let_66) (not (= _let_66 _let_69)) (not (= _let_69 _let_63)) (not (= _let_63 _let_70)) (not (= _let_69 _let_66)) (not (= _let_63 _let_69)) (not (= _let_70 _let_63)) (tptp.object_2 _let_65 _let_63) (tptp.object_2 _let_65 _let_66) (not (= _let_66 _let_63)) (not (= _let_63 _let_66)) (not (= _let_67 _let_63)) (not (= _let_63 _let_67)) (tptp.has_region_2 X _let_62) (tptp.is_inside_2 _let_63 _let_62) (tptp.is_inside_2 _let_63 _let_64) (tptp.has_function_2 _let_3 _let_57) (tptp.object_2 _let_55 _let_54) (tptp.result_2 _let_50 _let_3) (tptp.object_2 _let_50 _let_51) (tptp.is_near_2 _let_51 _let_52) (not (= _let_52 _let_53)) (tptp.is_near_2 _let_53 _let_54) (tptp.is_near_2 _let_52 _let_51) (not (= _let_53 _let_52)) (tptp.is_near_2 _let_54 _let_53) (= _let_92 _let_91) (= _let_73 _let_33) (= _let_54 _let_4) (= _let_67 _let_16) (= _let_70 _let_24) (= _let_80 _let_46) (= _let_76 _let_39) (= _let_80 _let_45) (= _let_71 _let_21) (= _let_90 _let_13) (= _let_78 _let_41) (= _let_89 _let_49) (= _let_89 _let_48) (= _let_52 _let_8) (= _let_54 _let_11) (= _let_51 _let_5) (= _let_53 _let_10) (= _let_82 _let_46) (= _let_66 _let_21) (= _let_81 _let_39) (= _let_88 (tptp.fn_hydrophilic_amino_acid_14 X)) (= _let_87 (tptp.fn_hydrophilic_amino_acid_10 X)) (= _let_55 _let_13) (= (tptp.fn_lysine_43 X) (tptp.fn_basic_amino_acid_4 X)) (= (tptp.fn_lysine_44 X) (tptp.fn_basic_amino_acid_5 X)) (= _let_86 (tptp.fn_basic_amino_acid_7 X)) (= _let_85 (tptp.fn_basic_amino_acid_11 X)) (= _let_84 (tptp.fn_basic_amino_acid_10 X)) (= _let_83 (tptp.fn_basic_amino_acid_8 X)) (= _let_77 _let_34) (= _let_82 _let_36) (= _let_76 _let_38) (= _let_81 _let_47) (= _let_80 _let_44) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_70 _let_30) (= _let_79 _let_43) (= _let_79 _let_42) (= _let_75 _let_36) (= _let_78 _let_40) (= _let_77 _let_37) (= _let_70 _let_27) (= _let_70 _let_16) (= _let_74 _let_34) (= _let_76 _let_37) (= _let_72 _let_31) (= _let_75 _let_35) (= _let_74 _let_26) (= _let_73 _let_32) (= _let_72 _let_25) (= _let_67 _let_23) (= _let_69 _let_29) (= _let_69 _let_28) (= _let_68 _let_26) (= _let_71 _let_19) (= _let_71 _let_20) (= _let_70 _let_29) (= _let_70 _let_28) (= _let_69 _let_27) (= _let_66 _let_20) (= _let_68 _let_25) (= _let_67 _let_24) (= _let_63 _let_16) (= _let_67 _let_22) (= _let_66 _let_19) (= _let_65 (tptp.fn_basic_amino_acid_12 X)) (= _let_63 _let_15) (= _let_64 _let_18) (= _let_64 _let_17) (= _let_63 _let_14) (= _let_62 (tptp.fn_basic_amino_acid_30 X)) (= _let_61 (tptp.fn_basic_amino_acid_2 X)) (= _let_60 (tptp.fn_basic_amino_acid_6 X)) (= _let_59 (tptp.fn_basic_amino_acid_1 X)) (= _let_58 (tptp.fn_basic_amino_acid_28 X)) (= _let_57 _let_56) (= _let_55 _let_12) (= _let_54 _let_6) (= _let_53 _let_7) (= _let_53 _let_9) (= _let_51 _let_6) (= _let_52 _let_9) (= _let_52 _let_7) (= _let_51 _let_4) (= _let_50 _let_12) (= _let_49 _let_49) (= _let_48 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_46) (= _let_46 _let_46) (= _let_46 _let_36) (= _let_36 _let_39) (= _let_39 _let_39) (= _let_39 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_44 _let_43) (= _let_42 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_34) (= _let_34 _let_37) (= _let_37 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_26) (= _let_26 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_25) (= _let_25 _let_21) (= _let_21 _let_19) (= _let_20 _let_24) (= _let_24 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_27) (= _let_27 _let_29) (= _let_29 _let_29) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_16) (= _let_16 _let_24) (= _let_24 _let_24) (= _let_24 _let_16) (= _let_16 _let_16) (= _let_16 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_4) (= _let_4 _let_11) (= _let_11 _let_11) (= _let_11 _let_6) (= _let_6 _let_6) (= _let_6 _let_10) (= _let_10 _let_7) (= _let_7 _let_10) (= _let_10 _let_9) (= _let_8 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_1 _let_1) (= _let_1 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lysogenic_cycle_19 X))) (let ((_let_2 (tptp.fn_cell_24 _let_1))) (let ((_let_3 (tptp.fn_lysogenic_cycle_16 X))) (let ((_let_4 (tptp.fn_add_2 _let_3))) (let ((_let_5 (tptp.fn_lysogenic_cycle_14 X))) (let ((_let_6 (tptp.fn_break_contact_2 _let_5))) (let ((_let_7 (tptp.fn_add_1 _let_3))) (let ((_let_8 (tptp.fn_break_contact_1 _let_5))) (let ((_let_9 (tptp.fn_lysogenic_cycle_15 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_lysogenic_cycle_18 X))) (let ((_let_12 (tptp.fn_lysogenic_cycle_13 X))) (let ((_let_13 (tptp.fn_host_1 _let_12))) (let ((_let_14 (tptp.fn_host_2 _let_12))) (let ((_let_15 (tptp.fn_lysogenic_cycle_20 X))) (let ((_let_16 (tptp.fn_lysogenic_cycle_17 X))) (let ((_let_17 (tptp.fn_lysogenic_cycle_1 X))) (let ((_let_18 (tptp.fn_lysogenic_cycle_3 X))) (let ((_let_19 (tptp.fn_lysogenic_cycle_2 X))) (let ((_let_20 (tptp.fn_lysogenic_cycle_4 X))) (let ((_let_21 (tptp.fn_lysogenic_cycle_5 X))) (let ((_let_22 (tptp.fn_lysogenic_cycle_6 X))) (let ((_let_23 (tptp.fn_lysogenic_cycle_7 X))) (let ((_let_24 (tptp.fn_lysogenic_cycle_8 X))) (let ((_let_25 (tptp.fn_lysogenic_cycle_9 X))) (let ((_let_26 (tptp.fn_lysogenic_cycle_10 X))) (let ((_let_27 (tptp.fn_lysogenic_cycle_11 X))) (let ((_let_28 (tptp.fn_lysogenic_cycle_12 X))) (=> (tptp.lysogenic_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Lysogenic-Cycle'|) (tptp.user_description_2 X |tptp.'A type of phage reproductive cycle in which the viral genome becomes incorporated into the bacterial host chromosome as a prophage and does not kill the host.'|) (tptp.concept2words_2 X |tptp.'undergo the lysogenic cycle'|) (tptp.concept2words_2 X |tptp.'lysogenic cycle'|) (tptp.concept2words_2 X |tptp.'lysogenic-cycle'|) (tptp.phage_reproduction_cycle_1 X) (not (tptp.lytic_cycle_1 X)) (tptp.lytic_cycle_1 _let_17) (tptp.synthesis_of_dna_strand_1 _let_19) (tptp.change_1 _let_18) (tptp.environment_1 _let_20) (tptp.temperate_phage_1 _let_21) (tptp.recombination_1 _let_22) (tptp.molecule_1 _let_23) (tptp.prophage_1 _let_24) (tptp.gene_1 _let_25) (tptp.transcription_1 _let_26) (tptp.block_1 _let_27) (tptp.repressor_1 _let_28) (tptp.host_1 _let_12) (tptp.break_contact_1 _let_5) (tptp.move_through_1 _let_9) (tptp.add_1 _let_3) (tptp.genome_1 _let_16) (tptp.spatial_entity_1 _let_11) (tptp.genome_1 _let_11) (tptp.living_entity_1 _let_1) (tptp.cell_1 _let_1) (tptp.replication_1 _let_15) (tptp.event_1 _let_14) (tptp.living_entity_1 _let_13) (tptp.spatial_entity_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.genome_1 _let_2) (tptp.object_2 _let_15 _let_11) (tptp.objective_2 X _let_22) (tptp.causes_2 X _let_15) (tptp.causes_2 X _let_22) (tptp.result_2 X _let_24) (tptp.agent_2 X _let_21) (tptp.subevent_2 X _let_22) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_9) (tptp.first_subevent_2 X _let_9) (tptp.agent_2 _let_27 _let_28) (tptp.inhibits_2 _let_27 _let_26) (tptp.has_part_2 _let_24 _let_25) (tptp.result_2 _let_22 _let_24) (tptp.object_2 _let_22 _let_11) (tptp.object_2 _let_22 _let_16) (tptp.object_2 _let_22 _let_23) (tptp.has_part_2 _let_21 _let_16) (tptp.by_means_of_2 _let_3 _let_22) (tptp.next_event_2 _let_3 _let_19) (tptp.subevent_2 _let_3 _let_19) (tptp.next_event_2 _let_9 _let_3) (tptp.agent_2 _let_9 _let_21) (tptp.agent_2 _let_18 _let_20) (tptp.next_event_2 _let_19 _let_18) (tptp.agent_2 _let_19 _let_1) (tptp.enables_2 _let_17 _let_18) (tptp.subevent_2 _let_17 _let_5) (tptp.object_2 _let_9 _let_16) (tptp.object_2 _let_5 _let_16) (tptp.object_2 _let_3 _let_16) (tptp.base_2 _let_5 _let_11) (tptp.base_2 _let_3 _let_11) (tptp.in_event_2 _let_12 _let_15) (tptp.plays_2 _let_1 _let_12) (tptp.has_part_2 _let_1 _let_11) (= _let_16 _let_10) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_11 _let_6) (= _let_11 _let_4) (= _let_15 _let_14) (= _let_1 _let_13) (= _let_11 _let_2) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.lysosomal_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Lysosomal-Disorder'|) (tptp.user_description_2 X |tptp.'Lysosomal disorder is a group of approximately 40 rare inherited metabolic disorders that result from defects in lysosomal function'|) (tptp.concept2words_2 X |tptp.'lysosomal disorder'|) (tptp.concept2words_2 X |tptp.'lysosomal-disorder'|) (tptp.inborn_error_of_metabolism_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_6 X))) (let ((_let_2 (tptp.fn_organic_molecule_3 X))) (let ((_let_3 (tptp.fn_protein_enzyme_7 X))) (let ((_let_4 (tptp.fn_organic_molecule_1 X))) (let ((_let_5 (tptp.fn_protein_enzyme_8 X))) (let ((_let_6 (tptp.fn_organic_molecule_2 X))) (let ((_let_7 (tptp.fn_protein_enzyme_3 X))) (let ((_let_8 (tptp.fn_protein_9 X))) (let ((_let_9 (tptp.fn_protein_enzyme_9 X))) (let ((_let_10 (tptp.fn_polymer_4 X))) (let ((_let_11 (tptp.fn_protein_enzyme_10 X))) (let ((_let_12 (tptp.fn_enzyme_2 X))) (let ((_let_13 (tptp.fn_protein_enzyme_11 X))) (let ((_let_14 (tptp.fn_protein_14 X))) (let ((_let_15 (tptp.fn_enzyme_4 X))) (let ((_let_16 (tptp.fn_hydrolase_1 X))) (let ((_let_17 (tptp.fn_lysosomal_enzyme_11 X))) (let ((_let_18 (tptp.fn_lysosomal_enzyme_19 X))) (let ((_let_19 (tptp.fn_lysosomal_enzyme_8 X))) (let ((_let_20 (tptp.fn_lysosomal_enzyme_16 X))) (let ((_let_21 (tptp.fn_lysosomal_enzyme_20 X))) (let ((_let_22 (tptp.fn_lysosomal_enzyme_12 X))) (let ((_let_23 (tptp.fn_lysosomal_enzyme_9 X))) (let ((_let_24 (tptp.fn_lysosomal_enzyme_10 X))) (let ((_let_25 (tptp.fn_lysosomal_enzyme_6 X))) (let ((_let_26 (tptp.fn_lysosomal_enzyme_13 X))) (let ((_let_27 (tptp.fn_lysosomal_enzyme_14 X))) (let ((_let_28 (tptp.fn_lysosomal_enzyme_5 X))) (let ((_let_29 (tptp.fn_lysosomal_enzyme_23 X))) (let ((_let_30 (tptp.fn_lysosomal_enzyme_22 X))) (let ((_let_31 (tptp.fn_lysosomal_enzyme_21 X))) (let ((_let_32 (tptp.fn_lysosomal_enzyme_24 X))) (let ((_let_33 (tptp.fn_lysosomal_enzyme_7 X))) (let ((_let_34 (tptp.fn_lysosomal_enzyme_18 X))) (let ((_let_35 (tptp.fn_lysosomal_enzyme_15 X))) (let ((_let_36 (tptp.fn_lysosomal_enzyme_17 X))) (let ((_let_37 (tptp.fn_release_1 _let_36))) (=> (tptp.lysosomal_enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Lysosomal-Enzyme'|) (tptp.user_description_2 X |tptp.'Lysosomal enzymes are synthesized in the cytosol and the endoplasmic reticulum. Some important lysosomal enzymes include lipase, carbohydrase, proteases, nucleases and phosphoric acid'|) (tptp.concept2words_2 X |tptp.'enzyme in lysosome'|) (tptp.concept2words_2 X |tptp.'lysosomal enzyme'|) (tptp.concept2words_2 X |tptp.'lysosomal-enzyme'|) (tptp.hydrolase_1 X) (not (tptp.digestive_enzyme_1 X)) (not (tptp.nuclease_1 X)) (not (tptp.ribonuclease_1 X)) (tptp.polypeptide_1 _let_28) (tptp.spatial_entity_1 _let_25) (tptp.chemical_entity_1 _let_25) (tptp.monomer_1 _let_25) (tptp.molecule_1 _let_25) (tptp.amino_acid_1 _let_25) (tptp.decrease_1 _let_33) (tptp.atom_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.active_site_1 _let_23) (tptp.protein_domain_1 _let_24) (tptp.carbon_skeleton_1 _let_17) (tptp.monomer_1 _let_22) (tptp.hydrophilic_region_1 _let_26) (tptp.surface_1 _let_27) (tptp.catalyst_1 _let_35) (tptp.size_value_1 _let_20) (tptp.release_1 _let_36) (tptp.hydrolysis_1 _let_34) (tptp.chemical_reaction_1 _let_34) (tptp.carbon_1 _let_18) (tptp.size_value_1 _let_21) (tptp.speed_value_1 _let_31) (tptp.quantity_value_1 _let_30) (tptp.kinetic_energy_1 _let_29) (tptp.constant_motion_1 _let_32) (tptp.tangible_entity_1 _let_37) (tptp.object_2 _let_36 X) (tptp.has_function_2 X _let_34) (tptp.plays_2 X _let_35) (tptp.has_function_2 X _let_33) (tptp.enables_2 _let_33 _let_34) (tptp.site_2 _let_34 _let_23) (tptp.facilitates_2 _let_23 _let_34) (tptp.in_event_2 _let_35 _let_34) (tptp.possesses_2 X _let_29) (tptp.quantity_2 _let_29 _let_30) (tptp.directly_proportional_2 _let_31 _let_30) (tptp.speed_2 _let_32 _let_31) (tptp.object_2 _let_32 X) (tptp.has_region_2 X _let_26) (tptp.is_at_2 _let_26 _let_27) (tptp.has_region_2 X _let_27) (tptp.has_part_2 X _let_28) (tptp.has_part_2 _let_28 _let_25) (tptp.the_scalar_value_2 _let_20 tptp.big_0) (tptp.scalar_unit_class_2 _let_20 tptp.polypeptide_0) (tptp.has_part_2 X _let_19) (tptp.has_region_2 X _let_24) (tptp.is_at_2 _let_25 _let_24) (tptp.size_2 X _let_20) (tptp.greater_than_2 _let_20 _let_21) (tptp.size_2 _let_22 _let_21) (tptp.has_part_2 X _let_22) (tptp.has_region_2 X _let_23) (tptp.has_region_2 X _let_17) (tptp.is_inside_2 _let_18 _let_17) (tptp.has_part_2 X _let_18) (not (= _let_19 _let_18)) (not (= _let_18 _let_19)) (= X _let_37) (= _let_34 _let_16) (= _let_35 (tptp.fn_enzyme_6 X)) (= _let_23 _let_12) (= _let_34 _let_15) (= _let_33 (tptp.fn_enzyme_5 X)) (= (tptp.fn_lysosomal_enzyme_2 X) (tptp.fn_protein_10 X)) (= (tptp.fn_lysosomal_enzyme_3 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_lysosomal_enzyme_4 X) (tptp.fn_molecule_1 X)) (= _let_32 (tptp.fn_molecule_8 X)) (= _let_31 (tptp.fn_molecule_3 X)) (= _let_30 (tptp.fn_molecule_4 X)) (= _let_29 (tptp.fn_molecule_12 X)) (= _let_25 _let_14) (= _let_28 (tptp.fn_protein_8 X)) (= _let_27 (tptp.fn_protein_5 X)) (= _let_26 (tptp.fn_protein_1 X)) (= _let_25 _let_13) (= _let_24 (tptp.fn_protein_enzyme_5 X)) (= _let_23 _let_11) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_21 (tptp.fn_protein_enzyme_4 X)) (= _let_20 _let_8) (= _let_20 _let_7) (= _let_19 _let_6) (= _let_19 _let_5) (= _let_18 _let_4) (= _let_18 _let_3) (= _let_17 _let_2) (= _let_17 _let_1) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_3 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_1 _let_2) (= _let_2 _let_1))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lysosomal_membrane_16 X))) (let ((_let_2 (tptp.fn_phospholipid_bilayer_33 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_62 X))) (let ((_let_4 (tptp.fn_lysosomal_membrane_10 X))) (let ((_let_5 (tptp.fn_phospholipid_layer_1 _let_4))) (let ((_let_6 (tptp.fn_phospholipid_bilayer_35 _let_1))) (let ((_let_7 (tptp.fn_phospholipid_layer_21 _let_4))) (let ((_let_8 (tptp.fn_phospholipid_layer_20 _let_4))) (let ((_let_9 (tptp.fn_biomembrane_66 X))) (let ((_let_10 (tptp.fn_lysosomal_membrane_36 X))) (let ((_let_11 (tptp.fn_move_together_2 _let_10))) (let ((_let_12 (tptp.fn_lysosomal_membrane_58 X))) (let ((_let_13 (tptp.fn_move_apart_2 _let_12))) (let ((_let_14 (tptp.fn_phospholipid_layer_19 _let_4))) (let ((_let_15 (tptp.fn_phospholipid_layer_18 _let_4))) (let ((_let_16 (tptp.fn_phospholipid_layer_7 _let_4))) (let ((_let_17 (tptp.fn_phospholipid_layer_9 _let_4))) (let ((_let_18 (tptp.fn_biomembrane_13 X))) (let ((_let_19 (tptp.fn_phospholipid_layer_12 _let_4))) (let ((_let_20 (tptp.fn_phospholipid_layer_14 _let_4))) (let ((_let_21 (tptp.fn_phospholipid_layer_2 _let_4))) (let ((_let_22 (tptp.fn_phospholipid_bilayer_38 _let_1))) (let ((_let_23 (tptp.fn_biomembrane_83 X))) (let ((_let_24 (tptp.fn_phospholipid_layer_17 _let_4))) (let ((_let_25 (tptp.fn_biomembrane_82 X))) (let ((_let_26 (tptp.fn_phospholipid_layer_15 _let_4))) (let ((_let_27 (tptp.fn_phospholipid_bilayer_19 _let_1))) (let ((_let_28 (tptp.fn_phospholipid_bilayer_24 _let_1))) (let ((_let_29 (tptp.fn_biomembrane_65 X))) (let ((_let_30 (tptp.fn_biomembrane_67 X))) (let ((_let_31 (tptp.fn_move_together_1 _let_10))) (let ((_let_32 (tptp.fn_lysosomal_membrane_13 X))) (let ((_let_33 (tptp.fn_phospholipid_80 _let_32))) (let ((_let_34 (tptp.fn_phospholipid_116 _let_32))) (let ((_let_35 (tptp.fn_phospholipid_90 _let_32))) (let ((_let_36 (tptp.fn_phospholipid_bilayer_25 _let_1))) (let ((_let_37 (tptp.fn_phospholipid_84 _let_32))) (let ((_let_38 (tptp.fn_lysosomal_membrane_28 X))) (let ((_let_39 (tptp.fn_polar_covalent_bond_18 _let_38))) (let ((_let_40 (tptp.fn_polar_covalent_bond_19 _let_38))) (let ((_let_41 (tptp.fn_phospholipid_88 _let_32))) (let ((_let_42 (tptp.fn_phospholipid_bilayer_26 _let_1))) (let ((_let_43 (tptp.fn_biomembrane_80 X))) (let ((_let_44 (tptp.fn_phospholipid_97 _let_32))) (let ((_let_45 (tptp.fn_lipid_14 _let_32))) (let ((_let_46 (tptp.fn_phospholipid_92 _let_32))) (let ((_let_47 (tptp.fn_phospholipid_bilayer_23 _let_1))) (let ((_let_48 (tptp.fn_phospholipid_bilayer_34 _let_1))) (let ((_let_49 (tptp.fn_biomembrane_61 X))) (let ((_let_50 (tptp.fn_phospholipid_bilayer_39 _let_1))) (let ((_let_51 (tptp.fn_biomembrane_81 X))) (let ((_let_52 (tptp.fn_lysosomal_membrane_22 X))) (let ((_let_53 (tptp.fn_synthesis_of_membrane_protein_19 _let_52))) (let ((_let_54 (tptp.fn_lysosomal_membrane_17 X))) (let ((_let_55 (tptp.fn_rough_endoplasmic_reticulum_8 _let_54))) (let ((_let_56 (tptp.fn_rough_endoplasmic_reticulum_39 _let_54))) (let ((_let_57 (tptp.fn_endoplasmic_reticulum_35 _let_54))) (let ((_let_58 (tptp.fn_synthesis_of_membrane_protein_25 _let_52))) (let ((_let_59 (tptp.fn_synthesis_of_protein_16 _let_52))) (let ((_let_60 (tptp.fn_rough_endoplasmic_reticulum_40 _let_54))) (let ((_let_61 (tptp.fn_rough_endoplasmic_reticulum_57 _let_54))) (let ((_let_62 (tptp.fn_synthesis_of_protein_10 _let_52))) (let ((_let_63 (tptp.fn_lysosomal_membrane_19 X))) (let ((_let_64 (tptp.fn_ribosome_2 _let_63))) (let ((_let_65 (tptp.fn_rough_endoplasmic_reticulum_47 _let_54))) (let ((_let_66 (tptp.fn_lysosomal_membrane_53 X))) (let ((_let_67 (tptp.fn_block_1 _let_66))) (let ((_let_68 (tptp.fn_lysosomal_membrane_15 X))) (let ((_let_69 (tptp.fn_block_1 _let_68))) (let ((_let_70 (tptp.fn_biomembrane_48 X))) (let ((_let_71 (tptp.fn_synthesis_of_membrane_protein_17 _let_52))) (let ((_let_72 (tptp.fn_lysosomal_membrane_6 X))) (let ((_let_73 (tptp.fn_synthesis_of_endomembranous_system_membrane_60 _let_72))) (let ((_let_74 (tptp.fn_biomembrane_102 X))) (let ((_let_75 (tptp.fn_biomembrane_100 X))) (let ((_let_76 (tptp.fn_biomembrane_42 X))) (let ((_let_77 (tptp.fn_biomembrane_47 X))) (let ((_let_78 (tptp.fn_lysosomal_membrane_46 X))) (let ((_let_79 (tptp.fn_lysosomal_membrane_27 X))) (let ((_let_80 (tptp.fn_phospholipid_layer_16 _let_4))) (let ((_let_81 (tptp.fn_lysosomal_membrane_54 X))) (let ((_let_82 (tptp.fn_lysosomal_membrane_60 X))) (let ((_let_83 (tptp.fn_lysosomal_membrane_51 X))) (let ((_let_84 (tptp.fn_lysosomal_membrane_69 X))) (let ((_let_85 (tptp.fn_lysosomal_membrane_62 X))) (let ((_let_86 (tptp.fn_lysosomal_membrane_61 X))) (let ((_let_87 (tptp.fn_lysosomal_membrane_55 X))) (let ((_let_88 (tptp.fn_lysosomal_membrane_30 X))) (let ((_let_89 (tptp.fn_phospholipid_91 _let_32))) (let ((_let_90 (tptp.fn_lysosomal_membrane_39 X))) (let ((_let_91 (tptp.fn_phospholipid_98 _let_32))) (let ((_let_92 (tptp.fn_lysosomal_membrane_32 X))) (let ((_let_93 (tptp.fn_phospholipid_102 _let_32))) (let ((_let_94 (tptp.fn_lysosomal_membrane_25 X))) (let ((_let_95 (tptp.fn_phospholipid_44 _let_32))) (let ((_let_96 (tptp.fn_lysosomal_membrane_40 X))) (let ((_let_97 (tptp.fn_phospholipid_103 _let_32))) (let ((_let_98 (tptp.fn_lysosomal_membrane_24 X))) (let ((_let_99 (tptp.fn_phospholipid_43 _let_32))) (let ((_let_100 (tptp.fn_phospholipid_87 _let_32))) (let ((_let_101 (tptp.fn_lysosomal_membrane_33 X))) (let ((_let_102 (tptp.fn_phospholipid_94 _let_32))) (let ((_let_103 (tptp.fn_lysosomal_membrane_34 X))) (let ((_let_104 (tptp.fn_phospholipid_83 _let_32))) (let ((_let_105 (tptp.fn_lysosomal_membrane_42 X))) (let ((_let_106 (tptp.fn_phospholipid_99 _let_32))) (let ((_let_107 (tptp.fn_lysosomal_membrane_35 X))) (let ((_let_108 (tptp.fn_phospholipid_104 _let_32))) (let ((_let_109 (tptp.fn_lysosomal_membrane_37 X))) (let ((_let_110 (tptp.fn_phospholipid_105 _let_32))) (let ((_let_111 (tptp.fn_lysosomal_membrane_29 X))) (let ((_let_112 (tptp.fn_lysosomal_membrane_44 X))) (let ((_let_113 (tptp.fn_phospholipid_89 _let_32))) (let ((_let_114 (tptp.fn_lysosomal_membrane_43 X))) (let ((_let_115 (tptp.fn_lysosomal_membrane_31 X))) (let ((_let_116 (tptp.fn_lysosomal_membrane_41 X))) (let ((_let_117 (tptp.fn_phospholipid_bilayer_36 _let_1))) (let ((_let_118 (tptp.fn_lysosomal_membrane_9 X))) (let ((_let_119 (tptp.fn_lysosomal_membrane_12 X))) (let ((_let_120 (tptp.fn_lysosomal_membrane_45 X))) (let ((_let_121 (tptp.fn_phospholipid_bilayer_1 _let_1))) (let ((_let_122 (tptp.fn_lysosomal_membrane_26 X))) (let ((_let_123 (tptp.fn_phospholipid_bilayer_3 _let_1))) (let ((_let_124 (tptp.fn_lysosomal_membrane_11 X))) (let ((_let_125 (tptp.fn_lysosomal_membrane_18 X))) (let ((_let_126 (tptp.fn_bound_ribosome_4 _let_63))) (let ((_let_127 (tptp.fn_lysosomal_membrane_21 X))) (let ((_let_128 (tptp.fn_lysosomal_membrane_14 X))) (let ((_let_129 (tptp.fn_synthesis_of_membrane_protein_20 _let_52))) (let ((_let_130 (tptp.fn_lysosomal_membrane_23 X))) (let ((_let_131 (tptp.fn_lysosomal_membrane_65 X))) (let ((_let_132 (tptp.fn_lysosomal_membrane_67 X))) (let ((_let_133 (tptp.fn_lysosomal_membrane_66 X))) (let ((_let_134 (tptp.fn_lysosomal_membrane_48 X))) (let ((_let_135 (tptp.fn_lysosomal_membrane_47 X))) (let ((_let_136 (tptp.fn_lysosomal_membrane_63 X))) (let ((_let_137 (tptp.fn_lysosomal_membrane_64 X))) (let ((_let_138 (tptp.fn_lysosomal_membrane_8 X))) (let ((_let_139 (tptp.fn_lysosomal_membrane_59 X))) (let ((_let_140 (tptp.fn_lysosomal_membrane_56 X))) (let ((_let_141 (tptp.fn_lysosomal_membrane_57 X))) (let ((_let_142 (tptp.fn_lysosomal_membrane_38 X))) (let ((_let_143 (tptp.fn_lysosomal_membrane_4 X))) (let ((_let_144 (tptp.fn_lysosomal_membrane_5 X))) (let ((_let_145 (tptp.fn_rough_endoplasmic_reticulum_29 _let_54))) (let ((_let_146 (tptp.fn_lysosomal_membrane_20 X))) (let ((_let_147 (tptp.fn_move_apart_1 _let_12))) (let ((_let_148 (tptp.fn_lysosomal_membrane_52 X))) (let ((_let_149 (tptp.fn_lysosomal_membrane_1 X))) (=> (tptp.lysosomal_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Lysosomal-membrane'|) (tptp.user_description_2 X |tptp.'The lysosomal membrane maintains low internal pH by pumping hydrogen ions from the cytosol into the lumen of the lysosome'|) (tptp.concept2words_2 X |tptp.'lysosomal envelope'|) (tptp.concept2words_2 X |tptp.'lysosomal membrane'|) (tptp.concept2words_2 X |tptp.'lysosomal-membrane'|) (tptp.biomembrane_containing_double_lipid_bilayer_1 X) (not (tptp.chloroplast_membrane_1 X)) (not (tptp.er_membrane_1 X)) (not (tptp.mitochondrial_membrane_1 X)) (not (tptp.nuclear_membrane_1 X)) (not (tptp.plasma_membrane_1 X)) (tptp.protein_enzyme_1 _let_149) (tptp.quantity_value_1 _let_143) (tptp.quantity_value_1 _let_144) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_72) (tptp.rate_value_1 _let_138) (tptp.hydrophobic_face_1 _let_118) (tptp.phospholipid_layer_1 _let_4) (tptp.hydrophobic_core_1 _let_124) (tptp.phospholipid_layer_1 _let_119) (tptp.spatial_entity_1 _let_32) (tptp.lipid_1 _let_32) (tptp.phospholipid_1 _let_32) (tptp.hydrophobic_compound_1 _let_128) (tptp.spatial_entity_1 _let_128) (tptp.block_1 _let_68) (tptp.tangible_entity_1 _let_1) (tptp.phospholipid_bilayer_1 _let_1) (tptp.endoplasmic_reticulum_1 _let_54) (tptp.rough_endoplasmic_reticulum_1 _let_54) (tptp.spatial_entity_1 _let_125) (tptp.polymer_1 _let_125) (tptp.chemical_entity_1 _let_125) (tptp.tangible_entity_1 _let_125) (tptp.membrane_protein_1 _let_125) (tptp.protein_1 _let_125) (tptp.ribosome_1 _let_63) (tptp.bound_ribosome_1 _let_63) (tptp.chemical_reaction_1 _let_146) (tptp.synthesis_of_protein_1 _let_146) (tptp.polymer_synthesis_1 _let_146) (tptp.synthesis_of_glycoprotein_1 _let_146) (tptp.anabolic_pathway_1 _let_127) (tptp.synthesis_of_protein_1 _let_127) (tptp.synthesis_reaction_1 _let_52) (tptp.synthesis_of_protein_1 _let_52) (tptp.synthesis_of_membrane_protein_1 _let_52) (tptp.glycoprotein_1 _let_130) (tptp.speed_value_1 _let_98) (tptp.quantity_value_1 _let_94) (tptp.lipid_1 _let_122) (tptp.tangible_entity_1 _let_79) (tptp.organic_molecule_1 _let_79) (tptp.lipid_1 _let_79) (tptp.spatial_entity_1 _let_79) (tptp.phospholipid_1 _let_79) (tptp.polar_covalent_bond_1 _let_38) (tptp.chemical_bond_1 _let_38) (tptp.ester_linkage_1 _let_38) (tptp.kinetic_energy_1 _let_111) (tptp.repel_1 _let_88) (tptp.carbon_skeleton_1 _let_115) (tptp.tangible_entity_1 _let_92) (tptp.entity_1 _let_92) (tptp.chemical_entity_1 _let_92) (tptp.atom_1 _let_92) (tptp.carbon_1 _let_92) (tptp.fatty_acid_1 _let_101) (tptp.entity_1 _let_103) (tptp.atom_1 _let_103) (tptp.chemical_entity_1 _let_103) (tptp.phosphorus_1 _let_103) (tptp.entity_1 _let_107) (tptp.chemical_entity_1 _let_107) (tptp.atom_1 _let_107) (tptp.oxygen_1 _let_107) (tptp.move_together_1 _let_10) (tptp.constant_motion_1 _let_109) (tptp.move_apart_1 _let_142) (tptp.spatial_entity_1 _let_90) (tptp.chemical_entity_1 _let_90) (tptp.hydrophobic_compound_1 _let_90) (tptp.organic_acid_1 _let_90) (tptp.carboxylic_acid_1 _let_90) (tptp.fatty_acid_1 _let_90) (tptp.fatty_acid_tail_1 _let_96) (tptp.fatty_acid_tail_1 _let_116) (tptp.spatial_entity_1 _let_105) (tptp.functional_group_1 _let_105) (tptp.phosphate_group_1 _let_105) (tptp.entity_1 _let_114) (tptp.spatial_entity_1 _let_114) (tptp.tangible_entity_1 _let_114) (tptp.chemical_entity_1 _let_114) (tptp.glycerol_1 _let_114) (tptp.alcohol_1 _let_114) (tptp.hydrophilic_head_1 _let_112) (tptp.hydrophilic_face_1 _let_120) (tptp.hydrophobic_face_1 _let_78) (tptp.block_1 _let_135) (tptp.block_1 _let_134) (tptp.rate_value_1 _let_83) (tptp.phospholipid_1 _let_148) (tptp.block_1 _let_66) (tptp.fatty_acid_tail_1 _let_81) (tptp.fatty_acid_tail_1 _let_87) (tptp.tangible_entity_1 _let_140) (tptp.entity_1 _let_140) (tptp.chemical_entity_1 _let_140) (tptp.atom_1 _let_140) (tptp.carbon_1 _let_140) (tptp.chemical_bond_1 _let_141) (tptp.ester_linkage_1 _let_141) (tptp.move_apart_1 _let_12) (tptp.move_together_1 _let_139) (tptp.move_1 _let_82) (tptp.hydrophilic_head_1 _let_86) (tptp.hydrophilic_face_1 _let_85) (tptp.surface_1 _let_136) (tptp.inside_face_1 _let_136) (tptp.fluidity_value_1 _let_137) (tptp.chemical_entity_1 _let_131) (tptp.barrier_1 _let_133) (tptp.hydrophilic_compound_1 _let_132) (tptp.spatial_entity_1 _let_147) (tptp.chemical_reaction_1 _let_145) (tptp.synthesis_of_protein_1 _let_145) (tptp.polymer_synthesis_1 _let_145) (tptp.synthesis_of_glycoprotein_1 _let_145) (tptp.glycoprotein_1 _let_129) (tptp.rough_endoplasmic_reticulum_1 _let_126) (tptp.hydrophobic_core_1 _let_123) (tptp.lipid_1 _let_121) (tptp.hydrophobic_face_1 _let_117) (tptp.entity_1 _let_113) (tptp.spatial_entity_1 _let_113) (tptp.tangible_entity_1 _let_113) (tptp.chemical_entity_1 _let_113) (tptp.glycerol_1 _let_113) (tptp.alcohol_1 _let_113) (tptp.kinetic_energy_1 _let_110) (tptp.constant_motion_1 _let_108) (tptp.entity_1 _let_106) (tptp.chemical_entity_1 _let_106) (tptp.atom_1 _let_106) (tptp.oxygen_1 _let_106) (tptp.spatial_entity_1 _let_104) (tptp.functional_group_1 _let_104) (tptp.phosphate_group_1 _let_104) (tptp.chemical_bond_1 _let_102) (tptp.ester_linkage_1 _let_102) (tptp.fatty_acid_1 _let_100) (tptp.property_node_1 _let_99) (tptp.speed_value_1 _let_97) (tptp.property_node_1 _let_95) (tptp.quantity_value_1 _let_93) (tptp.tangible_entity_1 _let_91) (tptp.entity_1 _let_91) (tptp.chemical_entity_1 _let_91) (tptp.atom_1 _let_91) (tptp.carbon_1 _let_91) (tptp.spatial_entity_1 _let_89) (tptp.chemical_entity_1 _let_89) (tptp.hydrophobic_compound_1 _let_89) (tptp.organic_acid_1 _let_89) (tptp.carboxylic_acid_1 _let_89) (tptp.fatty_acid_1 _let_89) (tptp.fatty_acid_tail_1 _let_80) (tptp.spatial_entity_1 _let_73) (tptp.tangible_entity_1 _let_73) (tptp.biomembrane_1 _let_73) (tptp.spatial_entity_1 _let_71) (tptp.biomembrane_1 _let_71) (tptp.spatial_entity_1 _let_69) (tptp.spatial_entity_1 _let_67) (tptp.anabolic_pathway_1 _let_65) (tptp.synthesis_of_protein_1 _let_65) (tptp.synthesis_of_protein_1 _let_64) (tptp.ribosome_1 _let_62) (tptp.bound_ribosome_1 _let_61) (tptp.ribosome_1 _let_61) (tptp.spatial_entity_1 _let_60) (tptp.polymer_1 _let_60) (tptp.chemical_entity_1 _let_60) (tptp.membrane_protein_1 _let_60) (tptp.protein_1 _let_60) (tptp.tangible_entity_1 _let_60) (tptp.protein_1 _let_59) (tptp.spatial_entity_1 _let_58) (tptp.polymer_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.tangible_entity_1 _let_58) (tptp.membrane_protein_1 _let_58) (tptp.protein_1 _let_58) (tptp.synthesis_reaction_1 _let_57) (tptp.synthesis_of_protein_1 _let_56) (tptp.synthesis_of_membrane_protein_1 _let_56) (tptp.phospholipid_bilayer_1 _let_55) (tptp.tangible_entity_1 _let_53) (tptp.phospholipid_bilayer_1 _let_53) (tptp.hydrophilic_face_1 _let_50) (tptp.phospholipid_layer_1 _let_48) (tptp.fatty_acid_tail_1 _let_47) (tptp.fatty_acid_tail_1 _let_46) (tptp.carbon_skeleton_1 _let_45) (tptp.carbon_skeleton_1 _let_44) (tptp.hydrophilic_head_1 _let_42) (tptp.hydrophilic_head_1 _let_41) (tptp.entity_1 _let_40) (tptp.chemical_entity_1 _let_40) (tptp.atom_1 _let_40) (tptp.entity_1 _let_39) (tptp.chemical_entity_1 _let_39) (tptp.atom_1 _let_39) (tptp.entity_1 _let_37) (tptp.atom_1 _let_37) (tptp.chemical_entity_1 _let_37) (tptp.phosphorus_1 _let_37) (tptp.fatty_acid_tail_1 _let_36) (tptp.fatty_acid_tail_1 _let_35) (tptp.repel_1 _let_34) (tptp.repel_1 _let_33) (tptp.spatial_entity_1 _let_31) (tptp.phospholipid_1 _let_28) (tptp.fatty_acid_tail_1 _let_27) (tptp.fatty_acid_tail_1 _let_26) (tptp.hydrophilic_head_1 _let_24) (tptp.hydrophilic_face_1 _let_22) (tptp.hydrophilic_face_1 _let_21) (tptp.property_node_1 _let_20) (tptp.property_node_1 _let_19) (tptp.rate_value_1 _let_17) (tptp.rate_value_1 _let_16) (tptp.move_1 _let_15) (tptp.move_1 _let_14) (tptp.spatial_entity_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.lipid_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.phospholipid_1 _let_7) (tptp.hydrophobic_face_1 _let_6) (tptp.hydrophobic_face_1 _let_5) (tptp.phospholipid_layer_1 _let_2) (tptp.called_2 _let_148 |tptp.'P2'|) (tptp.is_inside_2 _let_148 _let_4) (tptp.quantity_2 _let_122 _let_144) (tptp.is_at_2 _let_149 X) (tptp.has_part_2 X _let_149) (tptp.called_2 _let_68 |"1"|) (tptp.instrument_2 _let_68 _let_96) (tptp.agent_2 _let_68 _let_124) (tptp.called_2 _let_32 |tptp.'P1'|) (tptp.object_2 _let_12 _let_79) (tptp.object_2 _let_10 _let_79) (tptp.object_2 _let_12 _let_148) (tptp.object_2 _let_10 _let_32) (tptp.result_2 _let_72 X) (tptp.is_inside_2 _let_125 _let_1) (tptp.has_function_2 _let_54 _let_146) (tptp.site_2 _let_127 _let_63) (tptp.has_function_2 _let_54 _let_127) (not (= _let_146 _let_127)) (not (= _let_127 _let_146)) (not (= _let_52 _let_127)) (not (= _let_127 _let_52)) (tptp.has_function_2 _let_54 _let_52) (tptp.site_2 _let_52 _let_63) (tptp.has_function_2 _let_63 _let_146) (not (= _let_52 _let_146)) (not (= _let_146 _let_52)) (tptp.called_2 _let_134 |"2"|) (tptp.instrument_2 _let_135 _let_112) (tptp.called_2 _let_141 |tptp.'EL1'|) (tptp.is_permeable_to_2 X _let_131) (tptp.directly_proportional_2 _let_137 _let_83) (tptp.quantity_2 _let_32 _let_143) (tptp.greater_than_2 _let_143 _let_144) (tptp.is_inside_2 _let_120 _let_136) (tptp.agent_2 _let_135 _let_120) (tptp.called_2 _let_135 |"3"|) (tptp.object_2 _let_142 _let_79) (tptp.object_2 _let_142 _let_32) (tptp.is_inside_2 _let_32 _let_4) (not (= _let_119 _let_4)) (not (= _let_4 _let_119)) (tptp.object_2 _let_139 _let_79) (tptp.has_part_2 _let_79 _let_140) (tptp.is_between_2 _let_141 _let_140) (tptp.possesses_2 _let_79 _let_141) (tptp.called_2 _let_79 |tptp.'P1'|) (tptp.fluidity_2 X _let_137) (tptp.inversely_proportional_2 _let_138 _let_137) (tptp.rate_2 _let_139 _let_138) (tptp.object_2 _let_139 _let_32) (tptp.called_2 _let_32 |tptp.'P4'|) (tptp.instrument_2 _let_134 _let_86) (tptp.is_at_2 _let_86 _let_85) (tptp.agent_2 _let_134 _let_85) (tptp.has_function_2 X _let_134) (tptp.has_region_2 X _let_136) (not (= _let_68 _let_135)) (tptp.has_function_2 X _let_135) (tptp.is_impermeable_to_2 X _let_132) (not (= _let_135 _let_68)) (not (= _let_134 _let_135)) (not (= _let_135 _let_134)) (tptp.object_2 _let_66 _let_132) (tptp.in_event_2 _let_133 _let_66) (tptp.plays_2 X _let_133) (tptp.has_function_2 X _let_68) (not (= _let_68 _let_134)) (not (= _let_134 _let_68)) (tptp.is_impermeable_to_2 X _let_128) (not (= _let_131 _let_128)) (not (= _let_132 _let_131)) (not (= _let_131 _let_132)) (not (= _let_128 _let_131)) (tptp.has_part_2 X _let_125) (tptp.has_part_2 X _let_130) (tptp.is_inside_2 _let_130 _let_1) (tptp.has_part_2 X _let_1) (tptp.is_inside_2 _let_87 _let_78) (tptp.has_region_2 _let_79 _let_87) (tptp.has_region_2 _let_79 _let_86) (tptp.is_inside_2 _let_86 _let_85) (tptp.has_region_2 _let_4 _let_85) (tptp.rate_2 _let_82 _let_83) (tptp.object_2 _let_82 _let_79) (tptp.has_region_2 _let_79 _let_81) (tptp.is_inside_2 _let_81 _let_78) (tptp.element_2 _let_4 _let_79) (tptp.has_region_2 _let_4 _let_78) (tptp.facilitates_2 _let_116 _let_88) (tptp.has_region_2 _let_32 _let_116) (tptp.has_region_2 _let_32 _let_105) (tptp.is_at_2 _let_105 _let_112) (tptp.has_region_2 _let_32 _let_112) (tptp.agent_2 _let_88 _let_32) (tptp.site_2 _let_88 _let_116) (tptp.is_at_2 _let_92 _let_116) (tptp.is_inside_2 _let_92 _let_115) (tptp.has_region_2 _let_32 _let_115) (not (= _let_90 _let_101)) (not (= _let_101 _let_90)) (tptp.has_part_2 _let_32 _let_90) (tptp.has_part_2 _let_32 _let_114) (tptp.is_at_2 _let_114 _let_112) (not (= _let_107 _let_103)) (not (= _let_103 _let_92)) (not (= _let_92 _let_103)) (not (= _let_103 _let_107)) (tptp.has_part_2 _let_32 _let_107) (tptp.possesses_2 _let_32 _let_111) (tptp.quantity_2 _let_111 _let_94) (tptp.directly_proportional_2 _let_98 _let_94) (tptp.speed_2 _let_109 _let_98) (tptp.object_2 _let_109 _let_32) (tptp.is_between_2 _let_38 _let_92) (tptp.is_between_2 _let_38 _let_107) (tptp.is_inside_2 _let_107 _let_105) (tptp.is_inside_2 _let_103 _let_105) (tptp.has_part_2 _let_32 _let_103) (tptp.called_2 _let_38 |tptp.'EL1'|) (tptp.possesses_2 _let_32 _let_38) (tptp.called_2 _let_101 |"1"|) (tptp.has_part_2 _let_32 _let_101) (tptp.has_region_2 _let_32 _let_96) (tptp.has_part_2 _let_32 _let_92) (tptp.called_2 _let_90 |"2"|) (tptp.has_function_2 _let_32 _let_88) (tptp.is_along_2 _let_118 _let_78) (tptp.is_along_2 _let_78 _let_118) (tptp.is_along_2 _let_119 _let_4) (tptp.has_region_2 _let_119 _let_118) (tptp.is_along_2 _let_4 _let_119) (tptp.has_region_2 _let_1 _let_4) (tptp.has_region_2 _let_1 _let_124) (tptp.has_region_2 _let_1 _let_119) (tptp.has_region_2 _let_119 _let_120) (tptp.is_between_2 _let_124 _let_120) (tptp.is_inside_2 _let_118 _let_124) (tptp.abuts_2 _let_116 _let_87) (tptp.abuts_2 _let_87 _let_116) (tptp.is_inside_2 _let_116 _let_118) (tptp.is_between_2 _let_124 _let_85) (tptp.is_inside_2 _let_78 _let_124) (tptp.element_2 _let_119 _let_122) (tptp.is_inside_2 _let_112 _let_120) (tptp.element_2 _let_119 _let_32) (tptp.is_inside_2 _let_96 _let_118) (tptp.result_2 _let_52 _let_125) (tptp.has_part_2 _let_54 _let_63) (tptp.has_function_2 _let_63 _let_127) (tptp.has_function_2 _let_63 _let_52) (tptp.is_between_2 _let_38 _let_103) (tptp.object_2 _let_66 _let_128) (tptp.object_2 _let_68 _let_128) (tptp.site_2 _let_52 _let_54) (= _let_79 _let_13) (= _let_79 _let_11) (= _let_148 _let_147) (= _let_32 _let_31) (= X _let_73) (= _let_1 _let_55) (= _let_127 _let_65) (= _let_146 _let_145) (= (tptp.fn_lysosomal_membrane_3 X) (tptp.fn_biomembrane_38 X)) (= _let_112 _let_43) (= _let_83 _let_18) (= (tptp.fn_lysosomal_membrane_7 X) (tptp.fn_biomembrane_28 X)) (= (tptp.fn_lysosomal_membrane_68 X) (tptp.fn_biomembrane_19 X)) (= (tptp.fn_lysosomal_membrane_2 X) (tptp.fn_biomembrane_37 X)) (= _let_144 (tptp.fn_biomembrane_17 X)) (= _let_143 (tptp.fn_biomembrane_16 X)) (= _let_135 _let_75) (= _let_120 _let_51) (= _let_119 _let_49) (= _let_4 _let_3) (= _let_32 _let_30) (= _let_142 (tptp.fn_biomembrane_68 X)) (= _let_141 (tptp.fn_biomembrane_51 X)) (= _let_140 (tptp.fn_biomembrane_59 X)) (= _let_79 _let_9) (= _let_32 _let_29) (= _let_139 (tptp.fn_biomembrane_69 X)) (= _let_138 (tptp.fn_biomembrane_21 X)) (= _let_137 (tptp.fn_biomembrane_18 X)) (= _let_136 _let_77) (= _let_136 _let_76) (= _let_85 _let_23) (= _let_86 _let_25) (= _let_135 _let_74) (= _let_134 (tptp.fn_biomembrane_101 X)) (= _let_68 _let_75) (= _let_133 (tptp.fn_biomembrane_49 X)) (= _let_66 (tptp.fn_biomembrane_50 X)) (= _let_132 (tptp.fn_biomembrane_72 X)) (= _let_131 (tptp.fn_biomembrane_55 X)) (= _let_128 _let_70) (= _let_1 _let_53) (= _let_130 _let_129) (= X _let_71) (= _let_52 _let_57) (= _let_128 _let_69) (= _let_128 _let_67) (= _let_103 _let_40) (= _let_103 _let_39) (= _let_63 _let_62) (= _let_127 _let_64) (= _let_63 _let_61) (= _let_54 _let_126) (= _let_52 _let_56) (= _let_125 _let_60) (= _let_125 _let_59) (= _let_125 _let_58) (= _let_4 _let_2) (= _let_87 _let_27) (= _let_116 _let_47) (= _let_85 _let_22) (= _let_78 _let_6) (= _let_124 _let_123) (= _let_122 _let_121) (= _let_112 _let_42) (= _let_120 _let_50) (= _let_119 _let_48) (= _let_32 _let_28) (= _let_96 _let_36) (= _let_118 _let_117) (= _let_116 _let_35) (= _let_116 _let_46) (= _let_115 _let_45) (= _let_115 _let_44) (= _let_114 _let_113) (= _let_112 _let_41) (= _let_111 _let_110) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_105 _let_104) (= _let_103 _let_37) (= _let_38 _let_102) (= _let_101 _let_100) (= (tptp.fn_lysosomal_membrane_50 X) _let_99) (= _let_98 _let_97) (= _let_96 _let_35) (= (tptp.fn_lysosomal_membrane_49 X) _let_95) (= _let_94 _let_93) (= _let_92 _let_91) (= _let_90 _let_89) (= _let_88 _let_34) (= _let_88 _let_33) (= _let_87 _let_26) (= _let_86 _let_24) (= _let_85 _let_21) (= _let_84 _let_20) (= _let_84 _let_19) (= _let_83 _let_17) (= _let_83 _let_16) (= _let_82 _let_15) (= _let_82 _let_14) (= _let_81 _let_80) (= _let_79 _let_8) (= _let_79 _let_7) (= _let_78 _let_5) (= _let_76 _let_77) (= _let_77 _let_76) (= _let_76 _let_75) (= _let_75 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_71) (= _let_71 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_67) (= _let_67 _let_65) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_61) (= _let_61 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_59) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_53) (= _let_53 _let_53) (= _let_53 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_35) (= _let_35 _let_35) (= _let_35 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lysosome_5 X))) (let ((_let_2 (tptp.fn_autophagy_33 _let_1))) (let ((_let_3 (tptp.fn_lysosome_10 X))) (let ((_let_4 (tptp.fn_impair_1 _let_3))) (let ((_let_5 (tptp.fn_autophagy_9 _let_1))) (let ((_let_6 (tptp.fn_autophagy_27 _let_1))) (let ((_let_7 (tptp.fn_autophagy_13 _let_1))) (let ((_let_8 (tptp.fn_lysosome_18 X))) (let ((_let_9 (tptp.fn_autophagy_10 _let_1))) (let ((_let_10 (tptp.fn_lysosome_6 X))) (let ((_let_11 (tptp.fn_autophagy_30 _let_1))) (let ((_let_12 (tptp.fn_lysosome_17 X))) (let ((_let_13 (tptp.fn_autophagy_4 _let_1))) (let ((_let_14 (tptp.fn_lysosome_7 X))) (let ((_let_15 (tptp.fn_lysosome_8 X))) (let ((_let_16 (tptp.fn_autophagy_24 _let_1))) (let ((_let_17 (tptp.fn_lysosome_14 X))) (let ((_let_18 (tptp.fn_autophagy_25 _let_1))) (let ((_let_19 (tptp.fn_lysosome_15 X))) (let ((_let_20 (tptp.fn_autophagy_26 _let_1))) (let ((_let_21 (tptp.fn_lysosome_16 X))) (let ((_let_22 (tptp.fn_autophagy_31 _let_1))) (let ((_let_23 (tptp.fn_lysosome_9 X))) (let ((_let_24 (tptp.fn_lysosome_4 X))) (let ((_let_25 (tptp.fn_intracellular_digestion_14 _let_24))) (let ((_let_26 (tptp.fn_lysosome_3 X))) (let ((_let_27 (tptp.fn_send_3 _let_19))) (let ((_let_28 (tptp.fn_lysosome_12 X))) (let ((_let_29 (tptp.fn_send_1 _let_19))) (let ((_let_30 (tptp.fn_lysosome_13 X))) (let ((_let_31 (tptp.fn_impair_1 _let_14))) (let ((_let_32 (tptp.fn_lysosome_11 X))) (let ((_let_33 (tptp.fn_lysosome_2 X))) (let ((_let_34 (tptp.fn_lysosome_1 X))) (=> (tptp.lysosome_1 X) (and (tptp.original_name_2 X |tptp.'Lysosome'|) (tptp.user_description_2 X |tptp.'Lysosomes are organelles containing digestive enzymes.They break down the food so it is easier to digest. They are found in animal cells, while in plant cells the same roles are performed by the vacuole. Lysosome has an acidic pH of about 5, which is the optimum pH for hydrolytic (lysosomal) enzymes'|) (tptp.concept2words_2 X tptp.lysosome) (tptp.organelle_1 X) (not (tptp.acrosome_1 X)) (not (tptp.cortical_granule_1 X)) (not (tptp.synaptic_vesicle_1 X)) (not (tptp.transport_vesicle_1 X)) (not (tptp.vacuole_1 X)) (tptp.spatial_entity_1 _let_34) (tptp.spatial_entity_1 _let_33) (tptp.lysosomal_enzyme_1 _let_26) (tptp.intracellular_digestion_1 _let_24) (tptp.autophagy_1 _let_1) (tptp.tangible_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.lysosomal_membrane_1 _let_10) (tptp.impair_1 _let_14) (tptp.take_apart_1 _let_14) (tptp.destroy_1 _let_15) (tptp.release_1 _let_23) (tptp.break_1 _let_3) (tptp.fat_1 _let_32) (tptp.rough_endoplasmic_reticulum_1 _let_28) (tptp.golgi_apparatus_1 _let_30) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_17) (tptp.send_1 _let_19) (tptp.break_1 _let_21) (tptp.release_1 _let_12) (tptp.tangible_entity_1 _let_8) (tptp.lysosomal_enzyme_1 _let_8) (tptp.tangible_entity_1 _let_31) (tptp.tangible_entity_1 _let_29) (tptp.entity_1 _let_27) (tptp.lysosomal_enzyme_1 _let_25) (tptp.release_1 _let_22) (tptp.break_1 _let_20) (tptp.send_1 _let_18) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_16) (tptp.take_apart_1 _let_13) (tptp.release_1 _let_11) (tptp.tangible_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.lysosomal_membrane_1 _let_9) (tptp.tangible_entity_1 _let_7) (tptp.lysosomal_enzyme_1 _let_7) (tptp.destroy_1 _let_6) (tptp.destroy_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.lysosome_1 _let_2) (tptp.destination_2 _let_19 _let_30) (tptp.agent_2 _let_17 _let_28) (tptp.causes_2 _let_3 _let_23) (tptp.has_function_2 X _let_24) (tptp.has_part_2 X _let_26) (tptp.is_outside_2 _let_34 X) (tptp.is_outside_2 _let_33 X) (tptp.object_2 _let_14 _let_32) (tptp.agent_2 _let_19 _let_28) (tptp.donor_2 _let_19 _let_28) (tptp.recipient_2 _let_19 _let_30) (tptp.object_2 _let_3 X) (tptp.agent_2 _let_24 _let_26) (tptp.causes_2 _let_21 _let_12) (tptp.object_2 _let_21 X) (tptp.base_2 _let_23 X) (tptp.object_2 _let_23 _let_8) (tptp.site_2 _let_15 X) (tptp.object_2 _let_15 _let_10) (tptp.result_2 _let_17 _let_10) (tptp.enables_2 _let_17 _let_19) (tptp.object_2 _let_19 _let_8) (tptp.object_2 _let_12 _let_8) (tptp.base_2 _let_12 X) (tptp.site_2 _let_14 X) (tptp.agent_2 _let_14 _let_8) (tptp.agent_2 _let_15 _let_8) (tptp.site_2 _let_1 X) (tptp.has_part_2 X _let_8) (tptp.agent_2 _let_1 _let_8) (tptp.has_function_2 X _let_1) (tptp.has_part_2 X _let_10) (= _let_32 _let_31) (= _let_30 _let_29) (= _let_28 _let_27) (= X _let_4) (= _let_26 _let_25) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_6) (= _let_15 _let_5) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= X _let_2) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lysozyme_9 X))) (let ((_let_2 (tptp.fn_attach_1 _let_1))) (let ((_let_3 (tptp.fn_lysozyme_3 X))) (let ((_let_4 (tptp.fn_toxin_1 _let_3))) (let ((_let_5 (tptp.fn_lysozyme_8 X))) (let ((_let_6 (tptp.fn_disulfide_bond_3 _let_5))) (let ((_let_7 (tptp.fn_protein_enzyme_10 X))) (let ((_let_8 (tptp.fn_enzyme_2 X))) (let ((_let_9 (tptp.fn_protein_enzyme_7 X))) (let ((_let_10 (tptp.fn_organic_molecule_1 X))) (let ((_let_11 (tptp.fn_protein_enzyme_6 X))) (let ((_let_12 (tptp.fn_organic_molecule_3 X))) (let ((_let_13 (tptp.fn_protein_enzyme_3 X))) (let ((_let_14 (tptp.fn_protein_9 X))) (let ((_let_15 (tptp.fn_protein_enzyme_9 X))) (let ((_let_16 (tptp.fn_polymer_4 X))) (let ((_let_17 (tptp.fn_polymer_1 X))) (let ((_let_18 (tptp.fn_molecule_10 X))) (let ((_let_19 (tptp.fn_lysozyme_6 X))) (let ((_let_20 (tptp.fn_bacterium_12 _let_19))) (let ((_let_21 (tptp.fn_lysozyme_4 X))) (let ((_let_22 (tptp.fn_impair_1 _let_21))) (let ((_let_23 (tptp.fn_attach_2 _let_1))) (let ((_let_24 (tptp.fn_lysozyme_17 X))) (let ((_let_25 (tptp.fn_lysozyme_23 X))) (let ((_let_26 (tptp.fn_lysozyme_22 X))) (let ((_let_27 (tptp.fn_lysozyme_16 X))) (let ((_let_28 (tptp.fn_lysozyme_12 X))) (let ((_let_29 (tptp.fn_lysozyme_14 X))) (let ((_let_30 (tptp.fn_lysozyme_15 X))) (let ((_let_31 (tptp.fn_lysozyme_11 X))) (let ((_let_32 (tptp.fn_lysozyme_13 X))) (let ((_let_33 (tptp.fn_lysozyme_21 X))) (let ((_let_34 (tptp.fn_lysozyme_20 X))) (let ((_let_35 (tptp.fn_lysozyme_24 X))) (let ((_let_36 (tptp.fn_lysozyme_25 X))) (let ((_let_37 (tptp.fn_lysozyme_26 X))) (let ((_let_38 (tptp.fn_lysozyme_19 X))) (let ((_let_39 (tptp.fn_lysozyme_18 X))) (let ((_let_40 (tptp.fn_lysozyme_10 X))) (let ((_let_41 (tptp.fn_lysozyme_2 X))) (let ((_let_42 (tptp.fn_lysozyme_7 X))) (let ((_let_43 (tptp.fn_lysozyme_5 X))) (let ((_let_44 (tptp.fn_lysozyme_1 X))) (=> (tptp.lysozyme_1 X) (and (tptp.original_name_2 X |tptp.'Lysozyme'|) (tptp.user_description_2 X |tptp.'An enzyme found in various body fluids (sweat, tears, blood) that attacks the peptidoglycan cell walls of bacteria. Lysozyme is a component of innate immunity.'|) (tptp.concept2words_2 X tptp.muramidase) (tptp.concept2words_2 X |tptp.'n acetylmuramide glycanhydrolase'|) (tptp.concept2words_2 X |tptp.'n-acetylmuramide-glycanhydrolase'|) (tptp.concept2words_2 X tptp.lysozyme) (tptp.hydrolase_1 X) (tptp.organic_structure_1 _let_44) (tptp.decrease_1 _let_41) (tptp.antibacterial_agent_1 _let_3) (tptp.destroy_1 _let_21) (tptp.spatial_entity_1 _let_43) (tptp.tangible_entity_1 _let_43) (tptp.cell_wall_1 _let_43) (tptp.bacterium_1 _let_19) (tptp.catalyst_1 _let_42) (tptp.chemical_bond_1 _let_5) (tptp.covalent_bond_1 _let_5) (tptp.disulfide_bond_1 _let_5) (tptp.attach_1 _let_1) (tptp.hydrolysis_1 _let_40) (tptp.size_value_1 _let_31) (tptp.atom_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.monomer_1 _let_32) (tptp.carbon_1 _let_29) (tptp.carbon_skeleton_1 _let_30) (tptp.protein_domain_1 _let_27) (tptp.active_site_1 _let_24) (tptp.surface_1 _let_39) (tptp.hydrophilic_region_1 _let_38) (tptp.kinetic_energy_1 _let_34) (tptp.size_value_1 _let_33) (tptp.spatial_entity_1 _let_26) (tptp.chemical_entity_1 _let_26) (tptp.monomer_1 _let_26) (tptp.molecule_1 _let_26) (tptp.amino_acid_1 _let_26) (tptp.r_group_1 _let_25) (tptp.quantity_value_1 _let_35) (tptp.speed_value_1 _let_36) (tptp.constant_motion_1 _let_37) (tptp.spatial_entity_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.cell_wall_1 _let_20) (tptp.protein_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.site_2 _let_1 _let_24) (tptp.enables_2 _let_1 _let_21) (tptp.has_function_2 X _let_1) (tptp.result_2 _let_21 _let_44) (tptp.in_event_2 _let_3 _let_21) (tptp.base_2 _let_1 _let_43) (tptp.object_2 _let_21 _let_43) (tptp.has_part_2 _let_19 _let_43) (tptp.possesses_2 X _let_5) (tptp.plays_2 X _let_3) (tptp.object_2 _let_1 X) (tptp.site_2 _let_40 _let_24) (tptp.has_function_2 X _let_40) (tptp.enables_2 _let_41 _let_40) (tptp.has_function_2 X _let_41) (tptp.plays_2 X _let_42) (tptp.in_event_2 _let_42 _let_40) (tptp.has_region_2 X _let_38) (tptp.is_at_2 _let_38 _let_39) (tptp.has_region_2 X _let_39) (tptp.possesses_2 X _let_34) (tptp.quantity_2 _let_34 _let_35) (tptp.directly_proportional_2 _let_36 _let_35) (tptp.speed_2 _let_37 _let_36) (tptp.object_2 _let_37 X) (tptp.has_part_2 X _let_29) (tptp.has_part_2 X _let_32) (tptp.size_2 _let_32 _let_33) (tptp.greater_than_2 _let_31 _let_33) (tptp.the_scalar_value_2 _let_31 tptp.big_0) (tptp.scalar_unit_class_2 _let_31 tptp.polypeptide_0) (tptp.has_part_2 X _let_28) (not (= _let_28 _let_29)) (tptp.is_inside_2 _let_29 _let_30) (tptp.has_region_2 X _let_30) (tptp.size_2 X _let_31) (not (= _let_29 _let_28)) (tptp.has_region_2 X _let_24) (tptp.is_inside_2 _let_25 _let_24) (tptp.has_region_2 _let_26 _let_25) (tptp.is_at_2 _let_26 _let_27) (tptp.has_region_2 X _let_27) (= _let_43 _let_23) (= _let_43 _let_22) (= _let_43 _let_20) (= _let_5 _let_18) (= _let_5 _let_17) (= X _let_6) (= X _let_4) (= X _let_2) (= _let_24 _let_8) (= _let_42 (tptp.fn_enzyme_6 X)) (= _let_41 (tptp.fn_enzyme_5 X)) (= _let_40 (tptp.fn_enzyme_4 X)) (= _let_39 (tptp.fn_protein_5 X)) (= _let_38 (tptp.fn_protein_1 X)) (= _let_37 (tptp.fn_molecule_8 X)) (= _let_36 (tptp.fn_molecule_3 X)) (= _let_35 (tptp.fn_molecule_4 X)) (= _let_34 (tptp.fn_molecule_12 X)) (= _let_33 (tptp.fn_protein_enzyme_4 X)) (= _let_32 _let_16) (= _let_32 _let_15) (= _let_31 _let_14) (= _let_31 _let_13) (= _let_29 _let_10) (= _let_30 _let_12) (= _let_30 _let_11) (= _let_29 _let_9) (= _let_28 (tptp.fn_protein_enzyme_8 X)) (= _let_27 (tptp.fn_protein_enzyme_5 X)) (= _let_26 (tptp.fn_protein_enzyme_11 X)) (= _let_25 (tptp.fn_protein_enzyme_12 X)) (= _let_24 _let_7) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_17) (= _let_17 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_13 _let_13) (= _let_13 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_lytic_cycle_17 X))) (let ((_let_2 (tptp.fn_host_1 _let_1))) (let ((_let_3 (tptp.fn_lytic_cycle_14 X))) (let ((_let_4 (tptp.fn_release_2 _let_3))) (let ((_let_5 (tptp.fn_lytic_cycle_15 X))) (let ((_let_6 (tptp.fn_impair_1 _let_5))) (let ((_let_7 (tptp.fn_lytic_cycle_13 X))) (let ((_let_8 (tptp.fn_impair_1 _let_7))) (let ((_let_9 (tptp.fn_lytic_cycle_10 X))) (let ((_let_10 (tptp.fn_locomotion_1 _let_9))) (let ((_let_11 (tptp.fn_lytic_cycle_11 X))) (let ((_let_12 (tptp.fn_create_1 _let_11))) (let ((_let_13 (tptp.fn_lytic_cycle_7 X))) (let ((_let_14 (tptp.fn_synthesis_of_protein_16 _let_13))) (let ((_let_15 (tptp.fn_anabolic_pathway_5 _let_13))) (let ((_let_16 (tptp.fn_host_2 _let_1))) (let ((_let_17 (tptp.fn_lytic_cycle_5 X))) (let ((_let_18 (tptp.fn_lytic_cycle_16 X))) (let ((_let_19 (tptp.fn_lytic_cycle_8 X))) (let ((_let_20 (tptp.fn_release_1 _let_3))) (let ((_let_21 (tptp.fn_lytic_cycle_12 X))) (let ((_let_22 (tptp.fn_produce_1 _let_11))) (let ((_let_23 (tptp.fn_lytic_cycle_18 X))) (let ((_let_24 (tptp.fn_lytic_cycle_9 X))) (let ((_let_25 (tptp.fn_impair_1 _let_24))) (let ((_let_26 (tptp.fn_lytic_cycle_6 X))) (let ((_let_27 (tptp.fn_lytic_cycle_1 X))) (let ((_let_28 (tptp.fn_lytic_cycle_2 X))) (let ((_let_29 (tptp.fn_lytic_cycle_3 X))) (let ((_let_30 (tptp.fn_lytic_cycle_4 X))) (=> (tptp.lytic_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Lytic-Cycle'|) (tptp.user_description_2 X |tptp.'A type of phage reproductive cycle resulting in the release of new phages by lysis (and death) of the host cell.'|) (tptp.concept2words_2 X |tptp.'undergo the lytic cycle'|) (tptp.concept2words_2 X |tptp.'lytic cycle'|) (tptp.concept2words_2 X |tptp.'lytic-cycle'|) (tptp.phage_reproduction_cycle_1 X) (not (tptp.lysogenic_cycle_1 X)) (tptp.virus_1 _let_27) (tptp.phage_1 _let_28) (tptp.move_through_1 _let_29) (tptp.dna_1 _let_30) (tptp.cell_1 _let_17) (tptp.dna_1 _let_26) (tptp.synthesis_of_protein_1 _let_13) (tptp.protein_enzyme_1 _let_19) (tptp.destroy_1 _let_24) (tptp.leave_1 _let_9) (tptp.produce_1 _let_11) (tptp.phage_1 _let_21) (tptp.lyse_1 _let_7) (tptp.release_1 _let_3) (tptp.destroy_1 _let_5) (tptp.phage_1 _let_18) (tptp.host_1 _let_1) (tptp.protein_1 _let_23) (tptp.tangible_entity_1 _let_25) (tptp.tangible_entity_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.event_1 _let_16) (tptp.chemical_entity_1 _let_15) (tptp.protein_1 _let_14) (tptp.entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.living_entity_1 _let_2) (tptp.has_part_2 _let_17 _let_26) (tptp.agent_2 _let_24 _let_19) (tptp.first_subevent_2 X _let_29) (tptp.subevent_2 X _let_29) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_9) (tptp.agent_2 X _let_28) (tptp.objective_2 X _let_5) (tptp.causes_2 X _let_5) (tptp.away_from_2 _let_9 _let_17) (tptp.next_event_2 _let_9 _let_5) (tptp.next_event_2 _let_11 _let_9) (tptp.raw_material_2 _let_11 _let_30) (tptp.base_2 _let_29 _let_17) (tptp.agent_2 _let_29 _let_28) (tptp.is_inside_2 _let_21 _let_17) (tptp.result_2 _let_7 _let_27) (tptp.minCardinality _let_3 tptp.object_0 |"100"| tptp.phage_0) (tptp.result_2 _let_5 _let_27) (tptp.by_means_of_2 _let_5 _let_7) (tptp.next_event_2 _let_5 _let_3) (tptp.result_2 _let_11 _let_18) (tptp.object_2 _let_24 _let_26) (tptp.raw_material_2 _let_11 _let_23) (tptp.object_2 _let_3 _let_21) (tptp.object_2 _let_7 _let_17) (tptp.object_2 _let_5 _let_17) (tptp.base_2 _let_3 _let_17) (tptp.result_2 _let_13 _let_19) (tptp.agent_2 _let_9 _let_18) (tptp.object_2 _let_9 _let_18) (tptp.plays_2 _let_17 _let_1) (tptp.in_event_2 _let_1 X) (= _let_18 _let_12) (= _let_26 _let_25) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_17 _let_8) (= _let_17 _let_6) (= _let_17 _let_4) (= _let_19 _let_15) (= _let_19 _let_14) (= _let_18 _let_10) (= _let_17 _let_2) (= X _let_16) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_m_phase_18 X))) (let ((_let_2 (tptp.fn_cytokinesis_2 _let_1))) (let ((_let_3 (tptp.fn_cell_division_2 X))) (let ((_let_4 (tptp.fn_m_phase_21 X))) (let ((_let_5 (tptp.fn_eukaryotic_cell_42 _let_4))) (let ((_let_6 (tptp.fn_cell_29 _let_4))) (let ((_let_7 (tptp.fn_m_phase_26 X))) (let ((_let_8 (tptp.fn_eukaryotic_cell_31 _let_7))) (let ((_let_9 (tptp.fn_m_phase_34 X))) (let ((_let_10 (tptp.fn_cytoplasmic_side_1 _let_9))) (let ((_let_11 (tptp.fn_impair_1 _let_1))) (let ((_let_12 (tptp.fn_eukaryotic_cell_42 _let_7))) (let ((_let_13 (tptp.fn_cell_29 _let_7))) (let ((_let_14 (tptp.fn_m_phase_31 X))) (let ((_let_15 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_14))) (let ((_let_16 (tptp.fn_m_phase_19 X))) (let ((_let_17 (tptp.fn_mitosis_31 _let_16))) (let ((_let_18 (tptp.fn_cell_division_3 X))) (let ((_let_19 (tptp.fn_smooth_endoplasmic_reticulum_10 _let_14))) (let ((_let_20 (tptp.fn_mitosis_32 _let_16))) (let ((_let_21 (tptp.fn_mitosis_54 _let_16))) (let ((_let_22 (tptp.fn_eukaryotic_cell_59 _let_4))) (let ((_let_23 (tptp.fn_m_phase_15 X))) (let ((_let_24 (tptp.fn_eukaryotic_cell_60 _let_4))) (let ((_let_25 (tptp.fn_eukaryotic_cell_44 _let_4))) (let ((_let_26 (tptp.fn_m_phase_7 X))) (let ((_let_27 (tptp.fn_eukaryotic_cell_27 _let_4))) (let ((_let_28 (tptp.fn_m_phase_14 X))) (let ((_let_29 (tptp.fn_eukaryotic_cell_28 _let_4))) (let ((_let_30 (tptp.fn_eukaryotic_cell_26 _let_4))) (let ((_let_31 (tptp.fn_m_phase_5 X))) (let ((_let_32 (tptp.fn_eukaryotic_cell_30 _let_4))) (let ((_let_33 (tptp.fn_m_phase_11 X))) (let ((_let_34 (tptp.fn_eukaryotic_cell_20 _let_4))) (let ((_let_35 (tptp.fn_m_phase_13 X))) (let ((_let_36 (tptp.fn_eukaryotic_cell_19 _let_4))) (let ((_let_37 (tptp.fn_m_phase_12 X))) (let ((_let_38 (tptp.fn_eukaryotic_cell_29 _let_4))) (let ((_let_39 (tptp.fn_m_phase_9 X))) (let ((_let_40 (tptp.fn_eukaryotic_cell_31 _let_4))) (let ((_let_41 (tptp.fn_m_phase_8 X))) (let ((_let_42 (tptp.fn_m_phase_16 X))) (let ((_let_43 (tptp.fn_eukaryotic_cell_41 _let_4))) (let ((_let_44 (tptp.fn_m_phase_17 X))) (let ((_let_45 (tptp.fn_eukaryotic_cell_29 _let_7))) (let ((_let_46 (tptp.fn_m_phase_37 X))) (let ((_let_47 (tptp.fn_m_phase_33 X))) (let ((_let_48 (tptp.fn_m_phase_25 X))) (let ((_let_49 (tptp.fn_eukaryotic_cell_26 _let_7))) (let ((_let_50 (tptp.fn_m_phase_35 X))) (let ((_let_51 (tptp.fn_cell_14 _let_7))) (let ((_let_52 (tptp.fn_m_phase_36 X))) (let ((_let_53 (tptp.fn_cell_14 _let_4))) (let ((_let_54 (tptp.fn_m_phase_10 X))) (let ((_let_55 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_14))) (let ((_let_56 (tptp.fn_m_phase_28 X))) (let ((_let_57 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_14))) (let ((_let_58 (tptp.fn_m_phase_30 X))) (let ((_let_59 (tptp.fn_m_phase_20 X))) (let ((_let_60 (tptp.fn_m_phase_23 X))) (let ((_let_61 (tptp.fn_cytokinesis_3 _let_1))) (let ((_let_62 (tptp.fn_cytokinesis_1 _let_1))) (let ((_let_63 (tptp.fn_m_phase_27 X))) (let ((_let_64 (tptp.fn_m_phase_6 X))) (let ((_let_65 (tptp.fn_mitosis_34 _let_16))) (let ((_let_66 (tptp.fn_m_phase_32 X))) (let ((_let_67 (tptp.fn_mitosis_45 _let_16))) (let ((_let_68 (tptp.fn_m_phase_29 X))) (let ((_let_69 (tptp.fn_mitosis_35 _let_16))) (let ((_let_70 (tptp.fn_m_phase_22 X))) (let ((_let_71 (tptp.fn_mitosis_40 _let_16))) (let ((_let_72 (tptp.fn_m_phase_24 X))) (let ((_let_73 (tptp.fn_m_phase_40 X))) (let ((_let_74 (tptp.fn_m_phase_41 X))) (let ((_let_75 (tptp.fn_m_phase_3 X))) (let ((_let_76 (tptp.fn_m_phase_4 X))) (let ((_let_77 (tptp.fn_m_phase_2 X))) (=> (tptp.m_phase_1 X) (and (tptp.original_name_2 X |tptp.'M-Phase'|) (tptp.user_description_2 X |tptp.'Mitotic phase is the cell division phase. It comprises of Mitosis and cytokinesis (separation of cytoplasm to form two daughter cells)'|) (tptp.concept2words_2 X |tptp.'m phase'|) (tptp.concept2words_2 X |tptp.'m-phase'|) (tptp.concept2words_2 X |tptp.'undergo mitotic phase'|) (tptp.concept2words_2 X |tptp.'mitotic phase'|) (tptp.concept2words_2 X |tptp.'mitotic-phase'|) (tptp.concept2words_2 X |tptp.'phase of m'|) (tptp.cell_division_1 X) (tptp.duration_value_1 _let_77) (tptp.time_interval_1 _let_75) (tptp.time_interval_1 _let_76) (tptp.tangible_entity_1 _let_31) (tptp.nucleus_1 _let_31) (tptp.eukaryotic_cell_1 _let_64) (tptp.surface_1 _let_26) (tptp.mixture_1 _let_41) (tptp.cytoplasm_1 _let_41) (tptp.spatial_entity_1 _let_39) (tptp.biomembrane_1 _let_39) (tptp.plasma_membrane_1 _let_39) (tptp.ribosome_1 _let_54) (tptp.eukaryotic_chromosome_1 _let_33) (tptp.chromosome_1 _let_33) (tptp.rough_endoplasmic_reticulum_1 _let_37) (tptp.smooth_endoplasmic_reticulum_1 _let_35) (tptp.size_value_1 _let_28) (tptp.volume_value_1 _let_23) (tptp.substance_1 _let_42) (tptp.cytosol_1 _let_42) (tptp.tangible_entity_1 _let_44) (tptp.phospholipid_bilayer_1 _let_44) (tptp.cytokinesis_1 _let_1) (tptp.mitosis_1 _let_16) (tptp.eukaryotic_cell_1 _let_59) (tptp.cell_1 _let_59) (tptp.cell_1 _let_4) (tptp.eukaryotic_cell_1 _let_4) (tptp.prophase_1 _let_70) (tptp.tangible_entity_1 _let_60) (tptp.nucleus_1 _let_60) (tptp.entity_1 _let_72) (tptp.tangible_entity_1 _let_72) (tptp.nucleus_1 _let_72) (tptp.tangible_entity_1 _let_48) (tptp.mixture_1 _let_48) (tptp.cytoplasm_1 _let_48) (tptp.cell_1 _let_7) (tptp.eukaryotic_cell_1 _let_7) (tptp.daughter_cell_1 _let_63) (tptp.substance_1 _let_56) (tptp.cytosol_1 _let_56) (tptp.tangible_entity_1 _let_68) (tptp.eukaryotic_cell_1 _let_68) (tptp.cell_1 _let_68) (tptp.golgi_apparatus_1 _let_58) (tptp.smooth_endoplasmic_reticulum_1 _let_14) (tptp.homologous_chromosome_1 _let_66) (tptp.substance_1 _let_47) (tptp.cytosol_1 _let_47) (tptp.cytoplasmic_side_1 _let_9) (tptp.tangible_entity_1 _let_50) (tptp.nucleus_1 _let_50) (tptp.ribosome_1 _let_52) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.parent_cell_1 _let_73) (tptp.daughter_cell_1 _let_74) (tptp.entity_1 _let_71) (tptp.tangible_entity_1 _let_71) (tptp.nucleus_1 _let_71) (tptp.prophase_1 _let_69) (tptp.tangible_entity_1 _let_67) (tptp.eukaryotic_cell_1 _let_67) (tptp.cell_1 _let_67) (tptp.homologous_chromosome_1 _let_65) (tptp.daughter_cell_1 _let_62) (tptp.eukaryotic_cell_1 _let_61) (tptp.golgi_apparatus_1 _let_57) (tptp.substance_1 _let_55) (tptp.cytosol_1 _let_55) (tptp.ribosome_1 _let_53) (tptp.ribosome_1 _let_51) (tptp.tangible_entity_1 _let_49) (tptp.nucleus_1 _let_49) (tptp.spatial_entity_1 _let_45) (tptp.biomembrane_1 _let_45) (tptp.plasma_membrane_1 _let_45) (tptp.tangible_entity_1 _let_43) (tptp.phospholipid_bilayer_1 _let_43) (tptp.mixture_1 _let_40) (tptp.cytoplasm_1 _let_40) (tptp.spatial_entity_1 _let_38) (tptp.biomembrane_1 _let_38) (tptp.plasma_membrane_1 _let_38) (tptp.rough_endoplasmic_reticulum_1 _let_36) (tptp.smooth_endoplasmic_reticulum_1 _let_34) (tptp.eukaryotic_chromosome_1 _let_32) (tptp.chromosome_1 _let_32) (tptp.tangible_entity_1 _let_30) (tptp.nucleus_1 _let_30) (tptp.property_node_1 _let_29) (tptp.size_value_1 _let_27) (tptp.surface_1 _let_25) (tptp.property_node_1 _let_24) (tptp.volume_value_1 _let_22) (tptp.eukaryotic_cell_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.nucleus_1 _let_20) (tptp.nucleus_1 _let_19) (tptp.eukaryotic_cell_1 _let_17) (tptp.cell_1 _let_17) (tptp.eukaryotic_cell_1 _let_15) (tptp.cell_1 _let_15) (tptp.substance_1 _let_13) (tptp.cytosol_1 _let_13) (tptp.substance_1 _let_12) (tptp.cytosol_1 _let_12) (tptp.tangible_entity_1 _let_11) (tptp.cytoplasm_1 _let_10) (tptp.mixture_1 _let_8) (tptp.cytoplasm_1 _let_8) (tptp.substance_1 _let_6) (tptp.cytosol_1 _let_6) (tptp.substance_1 _let_5) (tptp.cytosol_1 _let_5) (tptp.eukaryotic_cell_1 _let_2) (not (= _let_31 _let_72)) (tptp.result_2 _let_1 _let_4) (tptp.time_during_2 _let_1 _let_75) (tptp.the_scalar_value_2 _let_77 tptp.brief_0) (tptp.scalar_unit_class_2 _let_77 tptp.interphase_0) (tptp.duration_2 X _let_77) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_1) (tptp.result_2 X _let_64) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.eukaryotic_cell_0) (tptp.exactCardinality X tptp.object_0 |"1"| tptp.eukaryotic_cell_0) (tptp.first_subevent_2 X _let_16) (tptp.base_2 X _let_59) (tptp.result_2 _let_16 _let_31) (tptp.next_event_2 _let_16 _let_1) (tptp.time_during_2 _let_16 _let_76) (tptp.has_state_2 _let_59 _let_7) (not (= _let_72 _let_31)) (tptp.time_before_2 _let_76 _let_75) (tptp.is_oriented_toward_2 _let_9 _let_48) (tptp.has_region_2 _let_46 _let_9) (tptp.object_2 _let_1 _let_48) (tptp.is_facing_2 _let_9 _let_48) (tptp.in_event_2 _let_74 X) (tptp.object_2 X _let_59) (tptp.plays_2 _let_59 _let_73) (tptp.in_event_2 _let_73 X) (tptp.result_2 X _let_4) (tptp.plays_2 _let_4 _let_74) (tptp.first_subevent_2 _let_16 _let_70) (tptp.base_2 _let_16 _let_59) (tptp.base_2 _let_70 _let_59) (tptp.subevent_2 _let_16 _let_70) (tptp.result_2 _let_16 _let_72) (tptp.has_part_2 _let_64 _let_72) (tptp.object_2 _let_16 _let_60) (tptp.is_inside_2 _let_66 _let_60) (tptp.has_part_2 _let_59 _let_66) (tptp.has_state_2 _let_59 _let_68) (tptp.result_2 _let_70 _let_68) (tptp.base_2 _let_1 _let_7) (not (= _let_7 _let_4)) (tptp.plays_2 _let_4 _let_63) (tptp.in_event_2 _let_63 _let_1) (tptp.result_2 _let_1 _let_64) (not (= _let_4 _let_7)) (tptp.has_part_2 _let_59 _let_14) (tptp.is_inside_2 _let_14 _let_56) (tptp.is_inside_2 _let_58 _let_56) (tptp.has_part_2 _let_59 _let_58) (tptp.has_part_2 _let_59 _let_60) (tptp.is_inside_2 _let_60 _let_56) (tptp.is_at_2 _let_44 _let_26) (tptp.has_part_2 _let_39 _let_44) (tptp.is_between_2 _let_41 _let_39) (tptp.is_between_2 _let_41 _let_31) (tptp.has_part_2 _let_4 _let_31) (tptp.has_part_2 _let_41 _let_42) (tptp.has_part_2 _let_4 _let_41) (tptp.size_2 _let_4 _let_28) (tptp.directly_proportional_2 _let_28 _let_23) (tptp.volume_2 _let_4 _let_23) (tptp.abuts_2 _let_37 _let_35) (tptp.abuts_2 _let_35 _let_37) (tptp.has_part_2 _let_4 _let_37) (tptp.has_part_2 _let_4 _let_39) (tptp.is_inside_2 _let_41 _let_39) (not (= _let_35 _let_37)) (not (= _let_37 _let_35)) (tptp.has_part_2 _let_4 _let_35) (tptp.has_part_2 _let_4 _let_33) (tptp.is_inside_2 _let_33 _let_31) (tptp.the_scalar_value_2 _let_28 tptp.big_0) (tptp.scalar_unit_class_2 _let_28 tptp.prokaryote_0) (tptp.has_region_2 _let_4 _let_26) (tptp.has_part_2 _let_7 _let_50) (tptp.is_between_2 _let_48 _let_50) (tptp.is_between_2 _let_48 _let_46) (tptp.is_inside_2 _let_48 _let_46) (tptp.has_part_2 _let_7 _let_48) (tptp.has_part_2 _let_48 _let_47) (tptp.has_part_2 _let_7 _let_46) (tptp.is_inside_2 _let_52 _let_47) (tptp.has_part_2 _let_7 _let_52) (tptp.is_inside_2 _let_54 _let_42) (tptp.has_part_2 _let_4 _let_54) (= _let_48 _let_11) (= _let_48 _let_10) (= _let_74 (tptp.fn_cell_division_5 X)) (= _let_4 _let_3) (= _let_73 (tptp.fn_cell_division_6 X)) (= _let_59 _let_18) (= _let_64 _let_21) (= _let_72 _let_71) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_59 _let_17) (= _let_66 _let_65) (= _let_60 _let_20) (= _let_64 _let_2) (= _let_63 _let_62) (= _let_4 _let_2) (= _let_7 _let_61) (= _let_60 _let_19) (= _let_59 _let_15) (= _let_58 _let_57) (= _let_56 _let_55) (= _let_42 _let_6) (= _let_54 _let_53) (= _let_47 _let_13) (= _let_52 _let_51) (= _let_50 _let_49) (= _let_48 _let_8) (= _let_47 _let_12) (= _let_46 _let_45) (= _let_44 _let_43) (= _let_42 _let_5) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_33 _let_32) (= _let_31 _let_30) (= (tptp.fn_m_phase_39 X) _let_29) (= _let_28 _let_27) (= _let_26 _let_25) (= (tptp.fn_m_phase_38 X) _let_24) (= _let_23 _let_22) (= _let_21 _let_2) (= _let_2 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.m_phase_checkpoint_1 X) (and (tptp.original_name_2 X |tptp.'M-Phase-Checkpoint'|) (tptp.user_description_2 X |tptp.'Checkpoint in the regulation of the cell cycle which occurs between the G2 and M phases of the cycle.'|) (tptp.concept2words_2 X |tptp.'m phase checkpoint'|) (tptp.concept2words_2 X |tptp.'m-phase-checkpoint'|) (tptp.checkpoint_1 X)))) (forall ((X $$unsorted)) (=> (tptp.macroclimate_1 X) (and (tptp.original_name_2 X |tptp.'Macroclimate'|) (tptp.user_description_2 X |tptp.'The climate of a relatively large geographic area.'|) (tptp.concept2words_2 X tptp.macroclimate) (tptp.climate_1 X) (not (tptp.microclimate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.macroevolution_1 X) (and (tptp.original_name_2 X |tptp.'Macroevolution'|) (tptp.user_description_2 X |tptp.'Evolutionary processes that occur above the level of species. Macroevolution includes the origin of new major groups of organisms and changes in large-scale patterns of evolution that occur over very long periods of time. Examples include mass extinctions and the appearance of major novel characteristics of organisms.'|) (tptp.concept2words_2 X tptp.macroevolution) (tptp.evolution_1 X) (not (tptp.evolutionary_developmental_biology_1 X)) (not (tptp.human_evolution_1 X)) (not (tptp.microevolution_1 X))))) (forall ((X $$unsorted)) (=> (tptp.macronutrient_1 X) (and (tptp.original_name_2 X |tptp.'Macronutrient'|) (tptp.user_description_2 X |tptp.'A compound that must be obtained in comparatively large amounts. The three primary macronutrients are carbohydrates, fats, and proteins.'|) (tptp.concept2words_2 X tptp.macronutrient) (tptp.nutrient_1 X) (not (tptp.limiting_nutrient_1 X)) (not (tptp.micronutrient_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_macrophage_49 X))) (let ((_let_2 (tptp.fn_phagocytosis_70 _let_1))) (let ((_let_3 (tptp.fn_macrophage_39 X))) (let ((_let_4 (tptp.fn_locomotion_1 _let_3))) (let ((_let_5 (tptp.fn_macrophage_42 X))) (let ((_let_6 (tptp.fn_rough_endoplasmic_reticulum_62 _let_5))) (let ((_let_7 (tptp.fn_macrophage_41 X))) (let ((_let_8 (tptp.fn_animal_plasma_membrane_56 _let_7))) (let ((_let_9 (tptp.fn_macrophage_22 X))) (let ((_let_10 (tptp.fn_cytoplasm_7 _let_9))) (let ((_let_11 (tptp.fn_macrophage_40 X))) (let ((_let_12 (tptp.fn_metabolic_pathway_1 _let_11))) (let ((_let_13 (tptp.fn_immune_cell_5 X))) (let ((_let_14 (tptp.fn_macrophage_51 X))) (let ((_let_15 (tptp.fn_peroxisome_11 _let_14))) (let ((_let_16 (tptp.fn_immune_cell_3 X))) (let ((_let_17 (tptp.fn_rough_endoplasmic_reticulum_55 _let_5))) (let ((_let_18 (tptp.fn_animal_cell_73 X))) (let ((_let_19 (tptp.fn_eukaryotic_cell_29 X))) (let ((_let_20 (tptp.fn_animal_cell_75 X))) (let ((_let_21 (tptp.fn_eukaryotic_cell_15 X))) (let ((_let_22 (tptp.fn_plasma_membrane_55 _let_7))) (let ((_let_23 (tptp.fn_animal_plasma_membrane_62 _let_7))) (let ((_let_24 (tptp.fn_animal_plasma_membrane_53 _let_7))) (let ((_let_25 (tptp.fn_animal_plasma_membrane_47 _let_7))) (let ((_let_26 (tptp.fn_plasma_membrane_68 _let_7))) (let ((_let_27 (tptp.fn_plasma_membrane_3 _let_7))) (let ((_let_28 (tptp.fn_animal_cell_58 X))) (let ((_let_29 (tptp.fn_eukaryotic_cell_41 X))) (let ((_let_30 (tptp.fn_plasma_membrane_71 _let_7))) (let ((_let_31 (tptp.fn_animal_plasma_membrane_54 _let_7))) (let ((_let_32 (tptp.fn_biomembrane_63 _let_7))) (let ((_let_33 (tptp.fn_animal_cell_51 X))) (let ((_let_34 (tptp.fn_rough_endoplasmic_reticulum_56 _let_5))) (let ((_let_35 (tptp.fn_animal_cell_62 X))) (let ((_let_36 (tptp.fn_peroxisome_40 _let_14))) (let ((_let_37 (tptp.fn_rough_endoplasmic_reticulum_23 _let_5))) (let ((_let_38 (tptp.fn_cytoplasm_8 _let_9))) (let ((_let_39 (tptp.fn_animal_cell_79 X))) (let ((_let_40 (tptp.fn_rough_endoplasmic_reticulum_32 _let_5))) (let ((_let_41 (tptp.fn_animal_cell_78 X))) (let ((_let_42 (tptp.fn_rough_endoplasmic_reticulum_27 _let_5))) (let ((_let_43 (tptp.fn_animal_cell_59 X))) (let ((_let_44 (tptp.fn_eukaryotic_cell_25 X))) (let ((_let_45 (tptp.fn_animal_cell_52 X))) (let ((_let_46 (tptp.fn_macrophage_24 X))) (let ((_let_47 (tptp.fn_nucleus_6 _let_46))) (let ((_let_48 (tptp.fn_animal_cell_60 X))) (let ((_let_49 (tptp.fn_eukaryotic_cell_50 X))) (let ((_let_50 (tptp.fn_plasma_membrane_54 _let_7))) (let ((_let_51 (tptp.fn_animal_cell_85 X))) (let ((_let_52 (tptp.fn_animal_plasma_membrane_51 _let_7))) (let ((_let_53 (tptp.fn_animal_cell_84 X))) (let ((_let_54 (tptp.fn_animal_plasma_membrane_55 _let_7))) (let ((_let_55 (tptp.fn_plasma_membrane_65 _let_7))) (let ((_let_56 (tptp.fn_animal_cell_83 X))) (let ((_let_57 (tptp.fn_animal_plasma_membrane_77 _let_7))) (let ((_let_58 (tptp.fn_animal_plasma_membrane_52 _let_7))) (let ((_let_59 (tptp.fn_animal_plasma_membrane_75 _let_7))) (let ((_let_60 (tptp.fn_plasma_membrane_81 _let_7))) (let ((_let_61 (tptp.fn_animal_plasma_membrane_115 _let_7))) (let ((_let_62 (tptp.fn_animal_plasma_membrane_114 _let_7))) (let ((_let_63 (tptp.fn_plasma_membrane_33 _let_7))) (let ((_let_64 (tptp.fn_animal_plasma_membrane_30 _let_7))) (let ((_let_65 (tptp.fn_plasma_membrane_97 _let_7))) (let ((_let_66 (tptp.fn_phagocytosis_12 _let_1))) (let ((_let_67 (tptp.fn_rough_endoplasmic_reticulum_28 _let_5))) (let ((_let_68 (tptp.fn_colloid_4 _let_9))) (let ((_let_69 (tptp.fn_suspension_1 _let_9))) (let ((_let_70 (tptp.fn_animal_plasma_membrane_14 _let_7))) (let ((_let_71 (tptp.fn_macrophage_13 X))) (let ((_let_72 (tptp.fn_block_1 _let_71))) (let ((_let_73 (tptp.fn_phagocytosis_80 _let_1))) (let ((_let_74 (tptp.fn_macrophage_55 X))) (let ((_let_75 (tptp.fn_impair_1 _let_74))) (let ((_let_76 (tptp.fn_macrophage_56 X))) (let ((_let_77 (tptp.fn_perceive_1 _let_76))) (let ((_let_78 (tptp.fn_macrophage_47 X))) (let ((_let_79 (tptp.fn_impair_1 _let_78))) (let ((_let_80 (tptp.fn_macrophage_50 X))) (let ((_let_81 (tptp.fn_perceive_1 _let_80))) (let ((_let_82 (tptp.fn_macrophage_43 X))) (let ((_let_83 (tptp.fn_macrophage_21 X))) (let ((_let_84 (tptp.fn_macrophage_36 X))) (let ((_let_85 (tptp.fn_macrophage_64 X))) (let ((_let_86 (tptp.fn_macrophage_60 X))) (let ((_let_87 (tptp.fn_macrophage_37 X))) (let ((_let_88 (tptp.fn_macrophage_11 X))) (let ((_let_89 (tptp.fn_macrophage_59 X))) (let ((_let_90 (tptp.fn_macrophage_63 X))) (let ((_let_91 (tptp.fn_macrophage_65 X))) (let ((_let_92 (tptp.fn_macrophage_52 X))) (let ((_let_93 (tptp.fn_macrophage_38 X))) (let ((_let_94 (tptp.fn_macrophage_18 X))) (let ((_let_95 (tptp.fn_macrophage_6 X))) (let ((_let_96 (tptp.fn_macrophage_66 X))) (let ((_let_97 (tptp.fn_macrophage_8 X))) (let ((_let_98 (tptp.fn_macrophage_23 X))) (let ((_let_99 (tptp.fn_macrophage_7 X))) (let ((_let_100 (tptp.fn_macrophage_9 X))) (let ((_let_101 (tptp.fn_macrophage_58 X))) (let ((_let_102 (tptp.fn_macrophage_57 X))) (let ((_let_103 (tptp.fn_macrophage_10 X))) (let ((_let_104 (tptp.fn_macrophage_25 X))) (let ((_let_105 (tptp.fn_macrophage_61 X))) (let ((_let_106 (tptp.fn_macrophage_62 X))) (let ((_let_107 (tptp.fn_macrophage_31 X))) (let ((_let_108 (tptp.fn_macrophage_33 X))) (let ((_let_109 (tptp.fn_macrophage_30 X))) (let ((_let_110 (tptp.fn_macrophage_27 X))) (let ((_let_111 (tptp.fn_macrophage_34 X))) (let ((_let_112 (tptp.fn_macrophage_29 X))) (let ((_let_113 (tptp.fn_macrophage_28 X))) (let ((_let_114 (tptp.fn_macrophage_35 X))) (let ((_let_115 (tptp.fn_macrophage_32 X))) (let ((_let_116 (tptp.fn_macrophage_26 X))) (let ((_let_117 (tptp.fn_animal_plasma_membrane_50 _let_7))) (let ((_let_118 (tptp.fn_macrophage_54 X))) (let ((_let_119 (tptp.fn_macrophage_12 X))) (let ((_let_120 (tptp.fn_phagocytosis_81 _let_1))) (let ((_let_121 (tptp.fn_macrophage_44 X))) (let ((_let_122 (tptp.fn_macrophage_45 X))) (let ((_let_123 (tptp.fn_lysosome_8 _let_122))) (let ((_let_124 (tptp.fn_macrophage_15 X))) (let ((_let_125 (tptp.fn_catabolic_pathway_10 _let_11))) (let ((_let_126 (tptp.fn_macrophage_53 X))) (let ((_let_127 (tptp.fn_chromosome_6 _let_98))) (let ((_let_128 (tptp.fn_macrophage_17 X))) (let ((_let_129 (tptp.fn_nucleus_13 _let_46))) (let ((_let_130 (tptp.fn_macrophage_16 X))) (let ((_let_131 (tptp.fn_macrophage_14 X))) (let ((_let_132 (tptp.fn_macrophage_48 X))) (let ((_let_133 (tptp.fn_macrophage_46 X))) (let ((_let_134 (tptp.fn_macrophage_5 X))) (let ((_let_135 (tptp.fn_macrophage_4 X))) (let ((_let_136 (tptp.fn_macrophage_3 X))) (let ((_let_137 (tptp.fn_macrophage_1 X))) (let ((_let_138 (tptp.fn_macrophage_2 X))) (=> (tptp.macrophage_1 X) (and (tptp.original_name_2 X |tptp.'Macrophage'|) (tptp.user_description_2 X |tptp.'Macrophages are white blood cells within tissues, produced by the division of monocytes. They help to defend the body by destroying bacteria and other invaders.'|) (tptp.concept2words_2 X tptp.monocyte) (tptp.concept2words_2 X tptp.macrophage) (tptp.immune_cell_1 X) (tptp.energy_1 _let_137) (tptp.lysosomal_enzyme_1 _let_138) (tptp.chromosome_arm_1 _let_136) (tptp.chromosome_arm_1 _let_135) (tptp.er_membrane_1 _let_134) (tptp.cellular_work_1 _let_95) (tptp.active_transport_1 _let_95) (tptp.active_movement_of_ions_1 _let_95) (tptp.generation_of_hydrogen_ion_gradient_across_biomembrane_1 _let_95) (tptp.electron_transport_chain_pathway_1 _let_99) (tptp.eukaryotic_oxidative_phosphorylation_1 _let_97) (tptp.metabolic_pathway_1 _let_100) (tptp.endergonic_process_1 _let_100) (tptp.chemical_reaction_1 _let_100) (tptp.synthesis_of_organic_molecule_1 _let_100) (tptp.anabolic_pathway_1 _let_100) (tptp.synthesis_of_atp_1 _let_100) (tptp.catabolic_pathway_1 _let_103) (tptp.protein_1 _let_88) (tptp.organic_molecule_1 _let_88) (tptp.polymer_1 _let_88) (tptp.spatial_entity_1 _let_88) (tptp.membrane_protein_1 _let_88) (tptp.tangible_entity_1 _let_88) (tptp.transmembrane_protein_1 _let_88) (tptp.integral_protein_1 _let_88) (tptp.transport_protein_1 _let_88) (tptp.sodium_potassium_pump_1 _let_88) (tptp.hydrophobic_core_1 _let_119) (tptp.block_1 _let_71) (tptp.oxygen_molecule_1 _let_131) (tptp.substance_1 _let_124) (tptp.solid_substance_1 _let_124) (tptp.nuclear_membrane_1 _let_130) (tptp.biomembrane_1 _let_130) (tptp.centromere_1 _let_128) (tptp.golgi_apparatus_1 _let_94) (tptp.synthesis_reaction_1 _let_83) (tptp.chemical_reaction_1 _let_83) (tptp.anabolic_pathway_1 _let_83) (tptp.endergonic_reaction_1 _let_83) (tptp.metabolic_pathway_1 _let_83) (tptp.synthesis_of_lipid_1 _let_83) (tptp.suspension_1 _let_9) (tptp.colloid_1 _let_9) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.eukaryotic_chromosome_1 _let_98) (tptp.chromosome_1 _let_98) (tptp.tangible_entity_1 _let_46) (tptp.nucleus_1 _let_46) (tptp.centrosome_1 _let_104) (tptp.support_1 _let_116) (tptp.volume_value_1 _let_110) (tptp.protein_enzyme_1 _let_113) (tptp.protein_enzyme_1 _let_112) (tptp.size_value_1 _let_109) (tptp.create_1 _let_107) (tptp.produce_1 _let_107) (tptp.microtubule_1 _let_115) (tptp.hydrophobic_core_1 _let_108) (tptp.outside_face_1 _let_111) (tptp.extracellular_side_1 _let_111) (tptp.surface_1 _let_111) (tptp.attach_1 _let_114) (tptp.transfer_1 _let_84) (tptp.transfer_1 _let_87) (tptp.substance_1 _let_93) (tptp.cytosol_1 _let_93) (tptp.locomotion_1 _let_3) (tptp.metabolic_pathway_1 _let_11) (tptp.catabolic_pathway_1 _let_11) (tptp.eukaryotic_cellular_respiration_1 _let_11) (tptp.tangible_entity_1 _let_7) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.animal_plasma_membrane_1 _let_7) (tptp.plasma_membrane_1 _let_7) (tptp.rough_endoplasmic_reticulum_1 _let_5) (tptp.smooth_endoplasmic_reticulum_1 _let_82) (tptp.tangible_entity_1 _let_121) (tptp.pseudopodium_1 _let_121) (tptp.spatial_entity_1 _let_122) (tptp.lysosome_1 _let_122) (tptp.bacterium_1 _let_133) (tptp.impair_1 _let_78) (tptp.destroy_1 _let_78) (tptp.virus_1 _let_132) (tptp.phagocytosis_1 _let_1) (tptp.recognize_1 _let_80) (tptp.peroxisome_1 _let_14) (tptp.ribosome_1 _let_92) (tptp.eukaryotic_ribosome_1 _let_92) (tptp.organic_molecule_1 _let_126) (tptp.move_1 _let_118) (tptp.move_through_1 _let_118) (tptp.destroy_1 _let_74) (tptp.recognize_1 _let_76) (tptp.spatial_entity_1 _let_102) (tptp.polymer_1 _let_102) (tptp.organic_molecule_1 _let_102) (tptp.tangible_entity_1 _let_102) (tptp.membrane_protein_1 _let_102) (tptp.protein_1 _let_102) (tptp.transmembrane_protein_1 _let_101) (tptp.tangible_entity_1 _let_101) (tptp.membrane_protein_1 _let_101) (tptp.protein_1 _let_101) (tptp.spatial_entity_1 _let_101) (tptp.polymer_1 _let_101) (tptp.integrin_1 _let_101) (tptp.tangible_entity_1 _let_89) (tptp.phospholipid_bilayer_1 _let_89) (tptp.immune_system_1 _let_86) (tptp.cell_pole_1 _let_105) (tptp.cell_pole_1 _let_106) (tptp.surface_1 _let_90) (tptp.immune_response_1 _let_85) (tptp.support_1 _let_91) (tptp.semiautonomous_organelle_1 _let_96) (tptp.organelle_1 _let_96) (tptp.mitochondrion_1 _let_96) (tptp.nuclear_membrane_1 _let_129) (tptp.biomembrane_1 _let_129) (tptp.centromere_1 _let_127) (tptp.organic_molecule_1 _let_125) (tptp.destroy_1 _let_123) (tptp.tangible_entity_1 _let_120) (tptp.pseudopodium_1 _let_120) (tptp.move_1 _let_117) (tptp.move_through_1 _let_117) (tptp.entity_1 _let_81) (tptp.tangible_entity_1 _let_79) (tptp.entity_1 _let_77) (tptp.tangible_entity_1 _let_75) (tptp.physical_object_1 _let_73) (tptp.spatial_entity_1 _let_72) (tptp.chemical_entity_1 _let_70) (tptp.solid_substance_1 _let_69) (tptp.substance_1 _let_68) (tptp.solid_substance_1 _let_68) (tptp.lysosome_1 _let_67) (tptp.spatial_entity_1 _let_66) (tptp.lysosome_1 _let_66) (tptp.block_1 _let_65) (tptp.block_1 _let_64) (tptp.block_1 _let_63) (tptp.block_1 _let_62) (tptp.block_1 _let_61) (tptp.hydrophobic_core_1 _let_60) (tptp.hydrophobic_core_1 _let_59) (tptp.attach_1 _let_58) (tptp.attach_1 _let_57) (tptp.extracellular_side_1 _let_55) (tptp.outside_face_1 _let_54) (tptp.extracellular_side_1 _let_54) (tptp.surface_1 _let_54) (tptp.hydrophobic_core_1 _let_52) (tptp.tangible_entity_1 _let_50) (tptp.membrane_protein_1 _let_50) (tptp.protein_1 _let_50) (tptp.spatial_entity_1 _let_50) (tptp.polymer_1 _let_50) (tptp.eukaryotic_chromosome_1 _let_47) (tptp.tangible_entity_1 _let_42) (tptp.nucleus_1 _let_42) (tptp.mixture_1 _let_40) (tptp.cytoplasm_1 _let_40) (tptp.cytosol_1 _let_38) (tptp.substance_1 _let_37) (tptp.cytosol_1 _let_37) (tptp.cytosol_1 _let_36) (tptp.eukaryotic_ribosome_1 _let_34) (tptp.tangible_entity_1 _let_32) (tptp.phospholipid_bilayer_1 _let_32) (tptp.tangible_entity_1 _let_31) (tptp.phospholipid_bilayer_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.phospholipid_bilayer_1 _let_30) (tptp.membrane_protein_1 _let_27) (tptp.tangible_entity_1 _let_26) (tptp.membrane_protein_1 _let_26) (tptp.protein_1 _let_26) (tptp.tangible_entity_1 _let_25) (tptp.membrane_protein_1 _let_25) (tptp.spatial_entity_1 _let_25) (tptp.polymer_1 _let_25) (tptp.protein_1 _let_25) (tptp.organic_molecule_1 _let_25) (tptp.polymer_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.membrane_protein_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.transmembrane_protein_1 _let_24) (tptp.integral_protein_1 _let_24) (tptp.transport_protein_1 _let_24) (tptp.spatial_entity_1 _let_23) (tptp.tangible_entity_1 _let_23) (tptp.transmembrane_protein_1 _let_23) (tptp.integral_protein_1 _let_23) (tptp.transport_protein_1 _let_23) (tptp.tangible_entity_1 _let_22) (tptp.transmembrane_protein_1 _let_22) (tptp.integral_protein_1 _let_22) (tptp.transport_protein_1 _let_22) (tptp.transfer_1 _let_17) (tptp.smooth_endoplasmic_reticulum_1 _let_15) (tptp.cell_1 _let_12) (tptp.cell_1 _let_10) (tptp.animal_cell_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (not (= _let_76 _let_80)) (tptp.enables_2 _let_76 _let_1) (tptp.agent_2 _let_76 X) (not (= _let_74 _let_78)) (tptp.site_2 _let_74 _let_122) (tptp.agent_2 _let_74 X) (not (= _let_80 _let_76)) (tptp.enables_2 _let_80 _let_1) (tptp.agent_2 _let_80 X) (tptp.enables_2 _let_1 _let_74) (tptp.enables_2 _let_1 _let_78) (tptp.object_2 _let_1 _let_133) (not (= _let_132 _let_133)) (not (= _let_78 _let_74)) (tptp.agent_2 _let_78 X) (not (= _let_133 _let_132)) (tptp.has_function_2 X _let_76) (tptp.has_function_2 X _let_1) (tptp.has_function_2 X _let_78) (tptp.has_function_2 X _let_80) (tptp.facilitates_2 _let_138 _let_78) (tptp.facilitates_2 _let_138 _let_74) (tptp.has_function_2 _let_122 _let_78) (tptp.has_function_2 _let_122 _let_74) (tptp.has_function_2 _let_121 _let_3) (tptp.raw_material_2 _let_11 _let_137) (tptp.site_2 _let_11 _let_9) (tptp.instrument_2 _let_3 _let_121) (tptp.is_inside_2 _let_112 _let_134) (tptp.is_inside_2 _let_113 _let_134) (tptp.has_part_2 _let_98 _let_136) (tptp.has_part_2 _let_98 _let_135) (tptp.is_between_2 _let_128 _let_136) (tptp.is_between_2 _let_128 _let_135) (tptp.abuts_2 _let_134 _let_130) (tptp.abuts_2 _let_130 _let_134) (tptp.is_inside_2 _let_124 _let_93) (tptp.object_2 _let_80 _let_133) (tptp.object_2 _let_71 _let_131) (tptp.object_2 _let_78 _let_133) (tptp.object_2 _let_76 _let_132) (tptp.object_2 _let_74 _let_132) (tptp.object_2 _let_1 _let_132) (tptp.is_permeable_to_2 _let_7 _let_131) (tptp.object_2 _let_118 _let_131) (tptp.has_part_2 _let_46 _let_130) (tptp.has_region_2 _let_98 _let_128) (tptp.has_part_2 _let_9 _let_124) (tptp.site_2 _let_78 _let_122) (tptp.is_inside_2 _let_5 _let_93) (tptp.is_inside_2 _let_122 _let_93) (tptp.is_inside_2 _let_14 _let_93) (tptp.is_inside_2 _let_82 _let_93) (tptp.agent_2 _let_3 X) (tptp.object_2 _let_3 X) (tptp.is_between_2 _let_108 _let_111) (tptp.agent_2 _let_1 X) (tptp.has_part_2 X _let_121) (tptp.facilitates_2 _let_121 _let_1) (tptp.base_2 _let_1 X) (tptp.has_part_2 X _let_122) (tptp.called_2 _let_71 |"1"|) (tptp.base_2 _let_118 _let_7) (tptp.has_function_2 _let_7 _let_118) (tptp.path_2 _let_118 _let_119) (tptp.agent_2 _let_71 _let_119) (tptp.has_function_2 _let_7 _let_71) (tptp.instrument_2 _let_71 _let_7) (tptp.is_between_2 _let_9 _let_46) (tptp.the_scalar_value_2 _let_109 tptp.big_0) (tptp.scalar_unit_class_2 _let_109 tptp.prokaryote_0) (tptp.has_part_2 X _let_94) (tptp.first_subevent_2 _let_97 _let_99) (tptp.has_part_2 _let_7 _let_101) (tptp.called_2 _let_101 |tptp.'MP1'|) (tptp.is_between_2 _let_9 _let_7) (tptp.has_part_2 _let_9 _let_113) (tptp.has_part_2 _let_7 _let_102) (tptp.called_2 _let_102 |tptp.'MP1'|) (tptp.result_2 _let_107 _let_115) (tptp.has_function_2 _let_115 _let_116) (tptp.object_2 _let_116 X) (tptp.has_part_2 X _let_14) (tptp.has_region_2 _let_7 _let_111) (tptp.base_2 _let_114 _let_7) (tptp.object_2 _let_114 _let_88) (tptp.called_2 _let_88 |tptp.'MP1'|) (tptp.has_region_2 _let_88 _let_111) (tptp.is_outside_2 _let_111 _let_7) (tptp.is_inside_2 _let_9 _let_7) (tptp.has_part_2 _let_9 _let_112) (not (= _let_112 _let_113)) (not (= _let_113 _let_112)) (tptp.size_2 X _let_109) (tptp.directly_proportional_2 _let_109 _let_110) (tptp.volume_2 X _let_110) (tptp.has_function_2 X _let_11) (tptp.base_2 _let_11 X) (tptp.is_across_2 _let_88 _let_7) (tptp.has_region_2 _let_7 _let_108) (tptp.is_across_2 _let_88 _let_108) (tptp.is_at_2 _let_88 _let_7) (tptp.has_part_2 _let_7 _let_89) (tptp.has_region_2 X _let_105) (tptp.is_opposite_2 _let_105 _let_106) (tptp.has_region_2 X _let_106) (tptp.has_part_2 X _let_104) (tptp.has_function_2 _let_104 _let_107) (tptp.is_opposite_2 _let_106 _let_105) (tptp.base_2 _let_103 X) (tptp.site_2 _let_103 _let_96) (tptp.has_part_2 X _let_96) (tptp.has_part_2 X _let_46) (tptp.is_near_2 _let_46 _let_104) (tptp.is_near_2 _let_104 _let_46) (not (= _let_101 _let_88)) (not (= _let_88 _let_101)) (not (= _let_102 _let_101)) (not (= _let_88 _let_102)) (not (= _let_102 _let_88)) (not (= _let_101 _let_102)) (tptp.base_2 _let_99 X) (tptp.subevent_2 _let_97 _let_99) (tptp.site_2 _let_97 _let_96) (tptp.site_2 _let_100 _let_96) (tptp.base_2 _let_100 X) (tptp.is_inside_2 _let_96 _let_93) (tptp.has_function_2 _let_96 _let_97) (tptp.base_2 _let_97 X) (tptp.has_part_2 X _let_98) (tptp.is_inside_2 _let_98 _let_46) (tptp.base_2 _let_95 X) (tptp.has_function_2 X _let_95) (tptp.has_part_2 X _let_9) (tptp.has_part_2 _let_9 _let_93) (tptp.is_inside_2 _let_46 _let_93) (tptp.agent_2 _let_91 _let_7) (tptp.object_2 _let_91 X) (tptp.has_part_2 X _let_92) (tptp.is_inside_2 _let_92 _let_93) (tptp.is_inside_2 _let_94 _let_93) (tptp.has_part_2 X _let_7) (tptp.has_part_2 _let_7 _let_88) (tptp.is_inside_2 _let_88 _let_89) (tptp.is_at_2 _let_89 _let_90) (tptp.has_region_2 X _let_90) (tptp.donor_2 _let_87 _let_5) (tptp.recipient_2 _let_87 _let_82) (tptp.has_function_2 X _let_85) (tptp.agent_2 _let_85 X) (tptp.element_2 _let_86 X) (tptp.instrument_2 _let_85 _let_86) (tptp.agent_2 _let_84 _let_82) (tptp.recipient_2 _let_84 _let_5) (tptp.site_2 _let_83 _let_82) (not (= _let_5 _let_82)) (not (= _let_82 _let_5)) (tptp.has_part_2 X _let_5) (tptp.abuts_2 _let_5 _let_82) (tptp.has_function_2 _let_82 _let_83) (tptp.base_2 _let_83 X) (tptp.has_part_2 X _let_82) (tptp.abuts_2 _let_82 _let_5) (= _let_133 _let_81) (= _let_131 _let_72) (= _let_133 _let_79) (= _let_132 _let_77) (= _let_132 _let_75) (= _let_132 _let_73) (= _let_131 _let_70) (= _let_130 _let_129) (= _let_128 _let_127) (= _let_126 _let_125) (= _let_124 _let_69) (= _let_124 _let_68) (= _let_78 _let_123) (= _let_122 _let_67) (= _let_82 _let_15) (= _let_93 _let_36) (= X _let_4) (= _let_122 _let_66) (= _let_121 _let_120) (= X _let_2) (= _let_71 _let_62) (= _let_71 _let_65) (= _let_71 _let_64) (= _let_71 _let_63) (= _let_119 _let_60) (= _let_71 _let_61) (= _let_119 _let_59) (= _let_118 _let_117) (= _let_46 _let_42) (= (tptp.fn_macrophage_20 X) (tptp.fn_animal_cell_49 X)) (= (tptp.fn_macrophage_19 X) (tptp.fn_animal_cell_50 X)) (= _let_102 _let_49) (= _let_14 (tptp.fn_animal_cell_45 X)) (= _let_116 (tptp.fn_animal_cell_61 X)) (= _let_115 (tptp.fn_animal_cell_63 X)) (= _let_114 _let_58) (= _let_114 _let_57) (= _let_114 _let_56) (= _let_113 (tptp.fn_animal_cell_72 X)) (= _let_112 (tptp.fn_animal_cell_71 X)) (= _let_111 _let_54) (= _let_111 _let_55) (= _let_111 _let_53) (= X _let_12) (= _let_11 (tptp.fn_animal_cell_81 X)) (= _let_110 (tptp.fn_animal_cell_56 X)) (= _let_109 (tptp.fn_animal_cell_57 X)) (= _let_89 _let_32) (= _let_88 _let_27) (= _let_108 _let_52) (= _let_108 _let_51) (= _let_88 _let_25) (= _let_107 (tptp.fn_animal_cell_64 X)) (= _let_106 (tptp.fn_animal_cell_13 X)) (= _let_105 (tptp.fn_animal_cell_1 X)) (= _let_104 (tptp.fn_animal_cell_74 X)) (= _let_96 _let_44) (= _let_103 (tptp.fn_animal_cell_21 X)) (= _let_102 _let_50) (= _let_102 _let_25) (= _let_102 _let_48) (= _let_101 (tptp.fn_animal_cell_80 X)) (= _let_100 (tptp.fn_animal_cell_20 X)) (= _let_99 (tptp.fn_animal_cell_18 X)) (= _let_98 _let_47) (= _let_98 _let_45) (= _let_97 (tptp.fn_animal_cell_19 X)) (= _let_96 _let_43) (= _let_46 _let_41) (= _let_93 _let_38) (= _let_9 _let_40) (= X _let_10) (= _let_9 _let_39) (= _let_95 (tptp.fn_animal_cell_90 X)) (= _let_94 (tptp.fn_animal_cell_82 X)) (= _let_93 _let_37) (= _let_93 _let_35) (= _let_92 _let_34) (= _let_92 _let_33) (= _let_91 (tptp.fn_animal_cell_76 X)) (= _let_90 (tptp.fn_animal_cell_55 X)) (= _let_89 _let_31) (= _let_89 _let_30) (= _let_89 _let_29) (= _let_89 _let_28) (= _let_88 _let_26) (= _let_88 _let_24) (= _let_88 _let_23) (= _let_88 _let_22) (= _let_88 _let_21) (= _let_88 _let_20) (= X _let_8) (= _let_7 _let_19) (= _let_7 _let_18) (= _let_87 _let_17) (= _let_87 _let_16) (= _let_86 (tptp.fn_immune_cell_8 X)) (= _let_85 (tptp.fn_immune_cell_7 X)) (= _let_84 (tptp.fn_immune_cell_2 X)) (= _let_83 (tptp.fn_immune_cell_4 X)) (= _let_82 _let_13) (= X _let_6) (= _let_5 (tptp.fn_immune_cell_9 X)) (= _let_81 _let_79) (= _let_79 _let_77) (= _let_77 _let_75) (= _let_75 _let_75) (= _let_75 _let_73) (= _let_73 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_63) (= _let_63 _let_63) (= _let_63 _let_61) (= _let_61 _let_62) (= _let_62 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_57 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_54) (= _let_54 _let_55) (= _let_55 _let_54) (= _let_54 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_25) (= _let_25 _let_50) (= _let_50 _let_25) (= _let_25 _let_49) (= _let_49 _let_25) (= _let_25 _let_48) (= _let_48 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_38) (= _let_38 _let_37) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_30 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_28 _let_28) (= _let_28 _let_29) (= _let_29 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_24) (= _let_24 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_23 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_20 _let_20) (= _let_20 _let_21) (= _let_21 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_6 _let_8) (= _let_8 _let_6) (= _let_4 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.macrophysiological_process_1 X) (and (tptp.original_name_2 X |tptp.'Macrophysiological-Process'|) (tptp.user_description_2 X |tptp.'A process that involves multiple types of cells and possibily organs.'|) (tptp.concept2words_2 X |tptp.'macrophysiological process'|) (tptp.concept2words_2 X |tptp.'macrophysiological-process'|) (tptp.biological_process_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maggot_27 X))) (let ((_let_2 (tptp.fn_carbohydrate_38 _let_1))) (let ((_let_3 (tptp.fn_carbohydrate_39 _let_1))) (let ((_let_4 (tptp.fn_carbohydrate_5 _let_1))) (let ((_let_5 (tptp.fn_maggot_37 X))) (let ((_let_6 (tptp.fn_hold_2 _let_5))) (let ((_let_7 (tptp.fn_maggot_21 X))) (let ((_let_8 (tptp.fn_barrier_1 _let_7))) (let ((_let_9 (tptp.fn_maggot_20 X))) (let ((_let_10 (tptp.fn_agent_role_1 _let_9))) (let ((_let_11 (tptp.fn_insect_20 X))) (let ((_let_12 (tptp.fn_maggot_36 X))) (let ((_let_13 (tptp.fn_feed_4 _let_12))) (let ((_let_14 (tptp.fn_larva_1 X))) (let ((_let_15 (tptp.fn_animal_21 X))) (let ((_let_16 (tptp.fn_maggot_24 X))) (let ((_let_17 (tptp.fn_carbohydrate_37 _let_1))) (let ((_let_18 (tptp.fn_maggot_25 X))) (let ((_let_19 (tptp.fn_carbohydrate_32 _let_1))) (let ((_let_20 (tptp.fn_maggot_26 X))) (let ((_let_21 (tptp.fn_maggot_23 X))) (let ((_let_22 (tptp.fn_maggot_22 X))) (let ((_let_23 (tptp.fn_maggot_35 X))) (let ((_let_24 (tptp.fn_maggot_13 X))) (let ((_let_25 (tptp.fn_maggot_19 X))) (let ((_let_26 (tptp.fn_maggot_34 X))) (let ((_let_27 (tptp.fn_maggot_33 X))) (let ((_let_28 (tptp.fn_maggot_32 X))) (let ((_let_29 (tptp.fn_maggot_31 X))) (let ((_let_30 (tptp.fn_maggot_15 X))) (let ((_let_31 (tptp.fn_maggot_16 X))) (let ((_let_32 (tptp.fn_maggot_17 X))) (let ((_let_33 (tptp.fn_maggot_38 X))) (let ((_let_34 (tptp.fn_maggot_39 X))) (let ((_let_35 (tptp.fn_maggot_18 X))) (let ((_let_36 (tptp.fn_maggot_9 X))) (let ((_let_37 (tptp.fn_maggot_8 X))) (let ((_let_38 (tptp.fn_maggot_7 X))) (let ((_let_39 (tptp.fn_maggot_10 X))) (let ((_let_40 (tptp.fn_maggot_14 X))) (let ((_let_41 (tptp.fn_maggot_12 X))) (let ((_let_42 (tptp.fn_maggot_30 X))) (let ((_let_43 (tptp.fn_chemical_digestion_1 _let_42))) (let ((_let_44 (tptp.fn_maggot_28 X))) (let ((_let_45 (tptp.fn_maggot_11 X))) (let ((_let_46 (tptp.fn_chemical_3 _let_45))) (let ((_let_47 (tptp.fn_maggot_29 X))) (let ((_let_48 (tptp.fn_maggot_3 X))) (let ((_let_49 (tptp.fn_maggot_4 X))) (let ((_let_50 (tptp.fn_maggot_6 X))) (let ((_let_51 (tptp.fn_maggot_5 X))) (=> (tptp.maggot_1 X) (and (tptp.original_name_2 X |tptp.'Maggot'|) (tptp.user_description_2 X |tptp.'Larval form of insect from the order Diptera (flies)'|) (tptp.concept2words_2 X tptp.maggot) (tptp.larva_1 X) (tptp.diptera_1 X) (tptp.substrate_feeder_1 _let_48) (tptp.water_molecule_1 _let_49) (tptp.time_interval_1 _let_51) (tptp.time_interval_1 _let_50) (tptp.exoskeleton_1 _let_38) (tptp.locomotion_1 _let_37) (tptp.take_in_1 _let_36) (tptp.support_1 _let_39) (tptp.chemical_1 _let_45) (tptp.animal_cell_1 _let_41) (tptp.embryonic_cell_1 _let_41) (tptp.water_1 _let_24) (tptp.substance_1 _let_40) (tptp.esophagus_1 _let_30) (tptp.gastric_cecum_1 _let_31) (tptp.anus_1 _let_32) (tptp.temperature_value_1 _let_35) (tptp.specific_heat_value_1 _let_25) (tptp.agent_role_1 _let_9) (tptp.container_1 _let_7) (tptp.heterotroph_1 _let_22) (tptp.tangible_entity_1 _let_21) (tptp.carbon_1 _let_21) (tptp.entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.oxygen_1 _let_16) (tptp.entity_1 _let_18) (tptp.chemical_entity_1 _let_18) (tptp.atom_1 _let_18) (tptp.oxygen_1 _let_18) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.hydrogen_1 _let_20) (tptp.carbohydrate_1 _let_1) (tptp.activation_energy_1 _let_44) (tptp.protein_1 _let_47) (tptp.chemical_digestion_1 _let_42) (tptp.foregut_1 _let_29) (tptp.midgut_1 _let_28) (tptp.hindgut_1 _let_27) (tptp.digestive_system_1 _let_26) (tptp.nutrition_1 _let_23) (tptp.feed_1 _let_12) (tptp.hold_1 _let_5) (tptp.hold_together_1 _let_5) (tptp.rectum_1 _let_33) (tptp.mouth_1 _let_34) (tptp.chemical_entity_1 _let_46) (tptp.tangible_entity_1 _let_43) (tptp.entity_1 _let_19) (tptp.chemical_entity_1 _let_19) (tptp.atom_1 _let_19) (tptp.hydrogen_1 _let_19) (tptp.hold_together_1 _let_17) (tptp.tangible_entity_1 _let_13) (tptp.entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.tangible_entity_1 _let_6) (tptp.carbon_1 _let_4) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.oxygen_1 _let_3) (tptp.entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.oxygen_1 _let_2) (tptp.time_before_2 _let_51 _let_50) (tptp.time_during_2 _let_42 _let_50) (tptp.raw_material_2 _let_42 _let_49) (not (= _let_47 _let_49)) (not (= _let_49 _let_47)) (not (= _let_18 _let_21)) (not (= _let_21 _let_18)) (tptp.plays_2 X _let_48) (tptp.has_part_2 _let_40 _let_45) (tptp.object_2 _let_12 _let_40) (tptp.has_part_2 _let_45 _let_47) (tptp.raw_material_2 _let_42 _let_44) (tptp.plays_2 X _let_9) (tptp.plays_2 X _let_7) (tptp.has_part_2 X _let_41) (tptp.has_part_2 X _let_40) (tptp.is_inside_2 _let_40 _let_29) (tptp.has_part_2 X _let_38) (tptp.has_function_2 _let_38 _let_39) (tptp.object_2 _let_39 X) (tptp.base_2 _let_36 X) (tptp.agent_2 _let_36 X) (tptp.object_2 _let_37 X) (tptp.agent_2 _let_37 X) (tptp.has_part_2 X _let_33) (tptp.has_part_2 X _let_30) (tptp.result_2 _let_23 _let_1) (tptp.correspondence_2 _let_35 _let_25) (tptp.element_2 _let_26 _let_28) (tptp.element_2 _let_26 _let_29) (tptp.is_inside_2 _let_34 _let_29) (tptp.has_part_2 X _let_34) (tptp.temperature_2 X _let_35) (tptp.is_inside_2 _let_31 _let_28) (tptp.has_part_2 X _let_31) (tptp.has_part_2 X _let_32) (tptp.is_inside_2 _let_32 _let_27) (tptp.is_inside_2 _let_33 _let_27) (tptp.has_region_2 X _let_26) (tptp.element_2 _let_26 _let_27) (tptp.next_element_2 _let_28 _let_27) (tptp.next_element_2 _let_29 _let_28) (tptp.is_inside_2 _let_30 _let_29) (tptp.plays_2 X _let_22) (tptp.in_event_2 _let_22 _let_23) (tptp.agent_2 _let_23 X) (tptp.has_part_2 X _let_24) (tptp.specific_heat_2 _let_24 _let_25) (tptp.has_part_2 _let_1 _let_21) (not (= _let_16 _let_20)) (not (= _let_20 _let_16)) (not (= _let_16 _let_21)) (not (= _let_21 _let_16)) (tptp.has_part_2 _let_1 _let_16) (not (= _let_16 _let_18)) (not (= _let_20 _let_18)) (not (= _let_18 _let_16)) (tptp.has_part_2 _let_1 _let_18) (tptp.has_part_2 _let_1 _let_20) (not (= _let_18 _let_20)) (tptp.object_2 _let_5 _let_16) (tptp.object_2 _let_5 _let_21) (= _let_40 _let_13) (= _let_47 _let_46) (= _let_44 _let_43) (= X _let_10) (= X _let_8) (= _let_41 _let_15) (= _let_41 _let_14) (= _let_40 _let_11) (= _let_39 (tptp.fn_arthropod_7 X)) (= _let_38 (tptp.fn_arthropod_8 X)) (= _let_37 (tptp.fn_animal_22 X)) (= _let_36 (tptp.fn_animal_9 X)) (= _let_1 (tptp.fn_insect_22 X)) (= _let_35 (tptp.fn_insect_25 X)) (= _let_34 (tptp.fn_insect_11 X)) (= _let_33 (tptp.fn_insect_3 X)) (= _let_32 (tptp.fn_insect_4 X)) (= _let_31 (tptp.fn_insect_5 X)) (= _let_30 (tptp.fn_insect_6 X)) (= _let_29 (tptp.fn_insect_12 X)) (= _let_28 (tptp.fn_insect_13 X)) (= _let_27 (tptp.fn_insect_14 X)) (= _let_26 (tptp.fn_insect_19 X)) (= _let_25 (tptp.fn_insect_23 X)) (= _let_24 (tptp.fn_insect_18 X)) (= _let_23 (tptp.fn_insect_17 X)) (= _let_22 (tptp.fn_insect_21 X)) (= _let_21 _let_6) (= _let_16 _let_3) (= _let_21 _let_4) (= _let_20 _let_19) (= _let_18 _let_3) (= _let_5 _let_17) (= _let_16 _let_2) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_4) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_magnesium_11 X))) (let ((_let_2 (tptp.fn_magnesium_14 X))) (let ((_let_3 (tptp.fn_magnesium_12 X))) (let ((_let_4 (tptp.fn_magnesium_13 X))) (let ((_let_5 (tptp.fn_magnesium_4 X))) (let ((_let_6 (tptp.fn_magnesium_5 X))) (let ((_let_7 (tptp.fn_magnesium_6 X))) (let ((_let_8 (tptp.fn_magnesium_7 X))) (=> (tptp.magnesium_1 X) (and (tptp.original_name_2 X |tptp.'Magnesium'|) (tptp.user_description_2 X |tptp.'Magnesium is a metal atom with atomic number 12. It is represented by the symbol Mg.'|) (tptp.concept2words_2 X |tptp.'Mg'|) (tptp.concept2words_2 X tptp.magnesium) (tptp.metal_atom_1 X) (not (tptp.calcium_1 X)) (not (tptp.carbon_1 X)) (not (tptp.copper_1 X)) (not (tptp.hydrogen_1 X)) (not (tptp.iron_1 X)) (not (tptp.nitrogen_1 X)) (not (tptp.oxygen_1 X)) (not (tptp.phosphorus_1 X)) (not (tptp.potassium_1 X)) (not (tptp.sulfur_1 X)) (tptp.atomic_mass_value_1 _let_5) (tptp.valence_value_1 _let_6) (tptp.electronegativity_value_1 _let_7) (tptp.neutron_1 _let_8) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_7) (tptp.valence_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"12"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"12"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"12"| tptp.electron_0) (tptp.has_part_2 X _let_8) (tptp.the_cardinal_value_2 _let_2 |"2"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_7 |"1.31"|) (tptp.cardinal_unit_class_2 _let_7 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"24"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"12"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"24.31"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_magnesium_9 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_magnesium_10 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_magnesium_8 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cation_1 X))) (let ((_let_2 (tptp.fn_monoatomic_ion_1 X))) (let ((_let_3 (tptp.fn_magnesium_ion_6 X))) (let ((_let_4 (tptp.fn_magnesium_ion_7 X))) (let ((_let_5 (tptp.fn_magnesium_ion_3 X))) (let ((_let_6 (tptp.fn_lose_1 _let_5))) (let ((_let_7 (tptp.fn_magnesium_ion_4 X))) (let ((_let_8 (tptp.fn_magnesium_ion_1 X))) (let ((_let_9 (tptp.fn_magnesium_ion_2 X))) (=> (tptp.magnesium_ion_1 X) (and (tptp.original_name_2 X |tptp.'Magnesium-Ion'|) (tptp.user_description_2 X |tptp.'Ion of magnesium.'|) (tptp.concept2words_2 X |tptp.'ion of magnesium'|) (tptp.concept2words_2 X |tptp.'magnesium ion'|) (tptp.concept2words_2 X |tptp.'magnesium-ion'|) (tptp.monoatomic_ion_1 X) (tptp.cation_1 X) (not (tptp.methyl_ion_1 X)) (not (tptp.metal_cation_1 X)) (not (tptp.calcium_ion_1 X)) (not (tptp.hydronium_ion_1 X)) (not (tptp.sodium_ion_1 X)) (tptp.neutron_1 _let_8) (tptp.electron_1 _let_9) (tptp.lose_1 _let_5) (tptp.magnesium_1 _let_7) (tptp.charge_value_1 _let_3) (tptp.proton_1 _let_4) (tptp.tangible_entity_1 _let_6) (tptp.the_cardinal_value_2 _let_3 |"2.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.has_part_2 X _let_9) (tptp.has_part_2 X _let_8) (tptp.exactCardinality X tptp.has_part_0 |"10"| tptp.electron_0) (tptp.exactCardinality X tptp.has_part_0 |"12"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"12"| tptp.neutron_0) (tptp.donor_2 _let_5 _let_7) (tptp.result_2 _let_5 X) (tptp.has_part_2 X _let_4) (tptp.charge_2 X _let_3) (= _let_7 _let_6) (= _let_5 (tptp.fn_cation_7 X)) (= _let_4 _let_2) (= _let_4 _let_1) (= (tptp.fn_magnesium_ion_5 X) (tptp.fn_cation_4 X)) (= _let_3 (tptp.fn_cation_5 X)) (= _let_2 _let_1))))))))))))) (forall ((X $$unsorted)) (=> (tptp.magnetic_reversal_1 X) (and (tptp.original_name_2 X |tptp.'Magnetic-Reversal'|) (tptp.user_description_2 X |tptp.'A periodic change in the polarization of Earth_'s magnetic field so that the positions of magnetic north and magnetic south become interchanged.'|) (tptp.concept2words_2 X |tptp.'geomagnetic reversal'|) (tptp.concept2words_2 X |tptp.'geomagnetic-reversal'|) (tptp.concept2words_2 X |tptp.'magnetic reversal'|) (tptp.concept2words_2 X |tptp.'magnetic-reversal'|) (tptp.electromagnetic_process_1 X) (not (tptp.photoexcitation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.magnification_constant_1 X) (and (tptp.original_name_2 X |tptp.'Magnification-Constant'|) (tptp.concept2words_2 X |tptp.'constant of magnification'|) (tptp.concept2words_2 X |tptp.'magnification constant'|) (tptp.concept2words_2 X |tptp.'magnification-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.magnification_scale_1 X) (and (tptp.original_name_2 X |tptp.'Magnification-Scale'|) (tptp.concept2words_2 X |tptp.'scale of magnification'|) (tptp.concept2words_2 X |tptp.'magnification scale'|) (tptp.concept2words_2 X |tptp.'magnification-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.magnitude_value_1 X) (and (tptp.original_name_2 X |tptp.'Magnitude-Value'|) (tptp.concept2words_2 X 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(tptp.water_1 _let_91) (tptp.chemical_1 _let_91) (tptp.membrane_1 _let_13) (tptp.spatial_entity_1 _let_13) (tptp.tangible_entity_1 _let_13) (tptp.biomembrane_1 _let_13) (tptp.er_membrane_1 _let_13) (tptp.tangible_entity_1 _let_32) (tptp.membrane_protein_1 _let_32) (tptp.protein_1 _let_32) (tptp.integral_protein_1 _let_32) (tptp.transport_protein_1 _let_32) (tptp.transmembrane_protein_1 _let_32) (tptp.protein_pump_1 _let_32) (tptp.calcium_ion_1 _let_107) (tptp.water_1 _let_103) (tptp.chemical_1 _let_101) (tptp.chemical_entity_1 _let_105) (tptp.water_1 _let_97) (tptp.chemical_1 _let_97) (tptp.chemical_1 _let_98) (tptp.chemical_entity_1 _let_113) (tptp.substance_1 _let_111) (tptp.cytosol_1 _let_111) (tptp.chemical_entity_1 _let_108) (tptp.chemical_entity_1 _let_106) (tptp.chemical_entity_1 _let_104) (tptp.chemical_1 _let_102) (tptp.chemical_1 _let_100) (tptp.tangible_entity_1 _let_99) (tptp.membrane_protein_1 _let_99) (tptp.protein_1 _let_99) (tptp.release_1 _let_92) (tptp.golgi_apparatus_1 _let_81) (tptp.peroxisome_1 _let_78) (tptp.extra_cellular_matrix_1 _let_75) (tptp.cytoplasm_1 _let_74) (tptp.mixture_1 _let_72) (tptp.cytoplasm_1 _let_72) (tptp.water_1 _let_70) (tptp.chemical_1 _let_70) (tptp.water_1 _let_69) (tptp.chemical_1 _let_69) (tptp.chemical_1 _let_68) (tptp.chemical_1 _let_67) (tptp.chemical_1 _let_66) (tptp.chemical_1 _let_65) (tptp.chemical_1 _let_64) (tptp.cellular_work_1 _let_62) (tptp.water_1 _let_61) (tptp.water_1 _let_60) (tptp.chemical_1 _let_60) (tptp.move_1 _let_59) (tptp.move_through_1 _let_59) (tptp.move_1 _let_58) (tptp.move_through_1 _let_58) (tptp.concentration_gradient_1 _let_57) (tptp.concentration_gradient_1 _let_56) (tptp.membrane_1 _let_55) (tptp.spatial_entity_1 _let_55) (tptp.biomembrane_1 _let_55) (tptp.plasma_membrane_1 _let_54) (tptp.spatial_entity_1 _let_53) (tptp.biomembrane_1 _let_53) (tptp.plasma_membrane_1 _let_53) (tptp.membrane_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.membrane_1 _let_51) (tptp.spatial_entity_1 _let_51) (tptp.biomembrane_1 _let_51) (tptp.plasma_membrane_1 _let_51) (tptp.aqueous_solution_1 _let_50) (tptp.solution_1 _let_49) (tptp.aqueous_solution_1 _let_49) (tptp.surface_1 _let_48) (tptp.outside_face_1 _let_47) (tptp.surface_1 _let_46) (tptp.outside_face_1 _let_46) (tptp.outside_face_1 _let_45) (tptp.surface_1 _let_45) (tptp.outside_face_1 _let_44) (tptp.surface_1 _let_44) (tptp.outside_face_1 _let_43) (tptp.surface_1 _let_42) (tptp.outside_face_1 _let_42) (tptp.solution_1 _let_41) (tptp.aqueous_solution_1 _let_41) (tptp.aqueous_solution_1 _let_40) (tptp.aqueous_solution_1 _let_39) (tptp.biomembrane_1 _let_38) (tptp.spatial_entity_1 _let_37) (tptp.biomembrane_1 _let_37) (tptp.biomembrane_1 _let_36) (tptp.membrane_1 _let_35) (tptp.spatial_entity_1 _let_35) (tptp.biomembrane_1 _let_35) (tptp.membrane_1 _let_34) (tptp.spatial_entity_1 _let_34) (tptp.biomembrane_1 _let_34) (tptp.spatial_entity_1 _let_33) (tptp.biomembrane_1 _let_33) (tptp.membrane_1 _let_31) (tptp.spatial_entity_1 _let_31) (tptp.tangible_entity_1 _let_31) (tptp.er_membrane_1 _let_31) (tptp.biomembrane_1 _let_31) (tptp.hydrophilic_face_1 _let_30) (tptp.hydrophilic_face_1 _let_29) (tptp.ribosome_1 _let_28) (tptp.ribosome_1 _let_27) (tptp.eukaryotic_ribosome_1 _let_27) (tptp.solution_1 _let_26) (tptp.substance_1 _let_26) (tptp.cytosol_1 _let_26) (tptp.cytosol_1 _let_25) (tptp.aqueous_solution_1 _let_23) (tptp.solution_1 _let_23) (tptp.substance_1 _let_23) (tptp.cytosol_1 _let_23) (tptp.solution_1 _let_22) (tptp.aqueous_solution_1 _let_22) (tptp.substance_1 _let_22) (tptp.cytosol_1 _let_22) (tptp.substance_1 _let_21) (tptp.cytosol_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.nucleus_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.nucleus_1 _let_19) (tptp.mixture_1 _let_18) (tptp.cytoplasm_1 _let_18) (tptp.mixture_1 _let_17) (tptp.cytoplasm_1 _let_17) (tptp.mixture_1 _let_16) (tptp.cytoplasm_1 _let_16) (tptp.mixture_1 _let_15) (tptp.cytoplasm_1 _let_15) (tptp.endoplasmic_reticulum_1 _let_14) (tptp.endoplasmic_reticulum_1 _let_12) (tptp.smooth_endoplasmic_reticulum_1 _let_12) (tptp.smooth_endoplasmic_reticulum_1 _let_11) (tptp.cell_1 _let_9) (tptp.eukaryotic_cell_1 _let_6) (tptp.animal_cell_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.cell_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.cell_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.eukaryotic_cell_1 _let_2) (tptp.cell_1 _let_2) (tptp.concentration_2 _let_105 _let_119) (tptp.greater_than_2 _let_119 _let_118) (tptp.concentration_2 _let_107 _let_118) (tptp.is_inside_2 _let_117 _let_80) (not (= _let_80 _let_85)) (tptp.agent_2 _let_1 _let_32) (tptp.has_part_2 _let_10 _let_117) (not (= _let_10 _let_71)) (tptp.has_state_2 _let_10 _let_71) (not (= _let_85 _let_80)) (not (= _let_71 _let_10)) (tptp.concentration_2 _let_114 _let_116) (tptp.greater_than_2 _let_115 _let_116) (tptp.concentration_2 _let_109 _let_115) (tptp.is_outside_2 _let_8 _let_10) (tptp.has_part_2 _let_112 _let_114) (tptp.base_2 X _let_10) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.has_part_2 _let_71 _let_110) (tptp.has_part_2 _let_110 _let_73) (tptp.has_part_2 _let_10 _let_82) (tptp.has_part_2 _let_10 _let_83) (tptp.is_inside_2 _let_83 _let_80) (tptp.is_inside_2 _let_79 _let_80) (tptp.has_part_2 _let_10 _let_79) (tptp.is_inside_2 _let_82 _let_80) (tptp.has_part_2 _let_77 _let_80) (tptp.is_between_2 _let_77 _let_79) (tptp.has_part_2 _let_10 _let_24) (tptp.has_part_2 _let_10 _let_77) (tptp.has_part_2 _let_10 _let_76) (tptp.is_outside_2 _let_5 _let_10) (not (= _let_85 _let_87)) (not (= _let_87 _let_85)) (tptp.is_between_2 _let_13 _let_85) (tptp.is_inside_2 _let_86 _let_85) (tptp.has_region_2 _let_13 _let_86) (tptp.is_inside_2 _let_84 _let_85) (tptp.is_outside_2 _let_84 _let_13) (not (= _let_98 _let_97)) (not (= _let_97 _let_98)) (tptp.has_part_2 _let_87 _let_98) (tptp.has_solute_2 _let_87 _let_98) (tptp.destination_2 _let_3 _let_87) (tptp.destination_2 _let_90 _let_87) (tptp.has_function_2 _let_88 _let_90) (tptp.is_outside_2 _let_87 _let_88) (tptp.has_solvent_2 _let_87 _let_97) (tptp.has_part_2 _let_87 _let_97) (tptp.same_type_2 _let_96 _let_91) (tptp.same_type_2 _let_91 _let_95) (tptp.same_type_2 _let_95 _let_91) (tptp.same_type_2 _let_91 _let_96) (tptp.has_part_2 _let_80 _let_91) (tptp.is_inside_2 _let_80 _let_88) (not (= _let_94 _let_91)) (not (= _let_91 _let_94)) (tptp.same_type_2 _let_94 _let_96) (tptp.same_type_2 _let_96 _let_94) (tptp.same_type_2 _let_94 _let_95) (tptp.same_type_2 _let_95 _let_94) (tptp.has_part_2 _let_80 _let_94) (tptp.is_between_2 _let_89 _let_80) (tptp.base_2 _let_3 _let_89) (tptp.origin_2 _let_3 _let_80) (tptp.has_solute_2 _let_80 _let_94) (tptp.subevent_2 _let_3 _let_93) (tptp.path_2 _let_3 _let_88) (tptp.base_2 _let_90 _let_88) (tptp.subevent_2 _let_3 _let_90) (tptp.has_solvent_2 _let_80 _let_91) (tptp.origin_2 _let_90 _let_80) (tptp.is_between_2 _let_89 _let_87) (tptp.is_inside_2 _let_77 _let_88) (not (= _let_96 _let_95)) (not (= _let_95 _let_96)) (tptp.has_solvent_2 _let_85 _let_96) (tptp.has_part_2 _let_85 _let_96) (tptp.destination_2 _let_1 _let_85) (tptp.is_outside_2 _let_80 _let_13) (tptp.is_inside_2 _let_84 _let_80) (tptp.has_region_2 _let_13 _let_84) (tptp.has_part_2 _let_76 _let_13) (tptp.has_part_2 _let_76 _let_85) (tptp.origin_2 _let_1 _let_80) (tptp.is_between_2 _let_13 _let_80) (tptp.is_inside_2 _let_85 _let_13) (tptp.has_solute_2 _let_85 _let_95) (tptp.has_part_2 _let_85 _let_95) (tptp.path_2 _let_1 _let_13) (tptp.base_2 _let_1 _let_89) (tptp.is_between_2 _let_89 _let_85) (tptp.is_inside_2 _let_76 _let_80) (tptp.has_part_2 _let_10 _let_88) (tptp.base_2 _let_1 _let_10) (tptp.has_function_2 _let_10 _let_1) (tptp.base_2 _let_3 _let_10) (tptp.base_2 _let_93 _let_10) (tptp.has_function_2 _let_10 _let_3) (tptp.has_part_2 _let_13 _let_32) (tptp.is_across_2 _let_32 _let_13) (not (= _let_101 _let_103)) (not (= _let_103 _let_101)) (tptp.has_part_2 _let_73 _let_103) (tptp.has_part_2 _let_73 _let_101) (tptp.has_solute_2 _let_73 _let_101) (tptp.has_part_2 _let_98 _let_105) (tptp.is_inside_2 _let_87 _let_5) (tptp.is_inside_2 _let_24 _let_80) (tptp.has_region_2 _let_32 _let_86) (tptp.has_solvent_2 _let_73 _let_103) (tptp.has_part_2 _let_101 _let_107) (tptp.has_part_2 _let_95 _let_109) (= _let_10 _let_9) (= _let_114 _let_113) (= _let_10 _let_7) (= _let_1 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_1 X)) (= _let_3 _let_63) (= _let_110 _let_74) (= _let_73 _let_111) (= _let_110 _let_72) (= _let_109 _let_108) (= _let_107 _let_106) (= _let_86 _let_48) (= _let_80 _let_25) (= _let_87 _let_50) (= _let_105 _let_104) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_32 _let_99) (= _let_13 _let_38) (= _let_13 _let_37) (= _let_13 _let_33) (= _let_3 _let_62) (= _let_96 _let_70) (= _let_84 _let_30) (= _let_76 _let_14) (= _let_13 _let_31) (= _let_89 _let_57) (= _let_85 _let_41) (= _let_76 _let_12) (= _let_98 _let_67) (= _let_97 _let_69) (= _let_91 _let_61) (= _let_94 _let_66) (= _let_96 _let_69) (= _let_95 _let_68) (= _let_95 _let_67) (= _let_94 _let_65) (= _let_94 _let_64) (= _let_93 _let_92) (= _let_88 _let_55) (= _let_88 _let_52) (= _let_90 _let_59) (= _let_91 _let_60) (= _let_90 _let_58) (= _let_89 _let_56) (= _let_87 _let_49) (= _let_88 _let_54) (= _let_77 _let_17) (= _let_88 _let_53) (= _let_88 _let_51) (= _let_87 _let_39) (= _let_86 _let_43) (= _let_85 _let_40) (= _let_86 _let_47) (= _let_13 _let_36) (= _let_86 _let_46) (= _let_13 _let_35) (= _let_86 _let_45) (= _let_13 _let_34) (= _let_86 _let_44) (= _let_86 _let_42) (= _let_85 _let_39) (= _let_84 _let_29) (= _let_10 _let_4) (= _let_83 _let_28) (= _let_83 _let_27) (= _let_80 _let_23) (= _let_10 _let_2) (= _let_79 _let_20) (= _let_82 _let_81) (= _let_80 _let_26) (= _let_77 _let_16) (= _let_80 _let_22) (= _let_80 _let_21) (= _let_79 _let_19) (= _let_24 _let_78) (= _let_77 _let_18) (= _let_77 _let_15) (= _let_76 _let_11) (= _let_10 _let_6) (= _let_5 _let_75) (= _let_74 _let_72) (= _let_72 _let_72) (= _let_72 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_68) (= _let_67 _let_67) (= _let_67 _let_68) (= _let_68 _let_67) (= _let_67 _let_66) (= _let_66 _let_65) (= _let_65 _let_65) (= _let_64 _let_65) (= _let_65 _let_64) (= _let_64 _let_64) (= _let_64 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_60) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_60 _let_58) (= _let_58 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_57) (= _let_57 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_54) (= _let_53 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_52 _let_52) (= _let_52 _let_53) (= _let_53 _let_52) (= _let_51 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_39) (= _let_39 _let_39) (= _let_39 _let_48) (= _let_48 _let_47) (= _let_47 _let_47) (= _let_47 _let_46) (= _let_46 _let_46) (= _let_46 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_42) (= _let_42 _let_42) (= _let_42 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_39 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_35 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_33 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_25) (= _let_25 _let_26) (= _let_26 _let_26) (= _let_26 _let_25) (= _let_25 _let_23) (= _let_23 _let_23) (= _let_22 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_21 _let_21) (= _let_21 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_17) (= _let_17 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_4 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_2 _let_2) (= _let_2 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_5 X))) (let ((_let_2 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_3 X))) (let ((_let_3 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_2 X))) (let ((_let_4 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_1 X))) (let ((_let_5 (tptp.fn_maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_4 X))) (=> (tptp.maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Maintenance-Of-Concentration-Of-Calcium-Ion-In-Eukaryotic-Cell'|) (tptp.user_description_2 X |tptp.'Keeping a steady concentrations of Ca2+ ions in the cytosol of a nucleated cell.'|) (tptp.concept2words_2 X tptp.maintain) (tptp.concept2words_2 X |tptp.'maintenance of concentration of calcium ion in eukaryotic cell'|) (tptp.concept2words_2 X |tptp.'maintenance-of-concentration-of-calcium-ion-in-eukaryotic-cell'|) (tptp.concentration_maintenance_transport_1 X) (not (tptp.organizing_1 X)) (not (tptp.maintenance_of_ph_in_lysosome_1 X)) (not (tptp.ph_maintenance_1 X)) (tptp.uptake_of_calcium_ion_by_endoplasmic_reticulum_1 _let_4) (tptp.release_of_calcium_ion_by_cell_1 _let_3) (tptp.eukaryotic_cell_1 _let_2) (tptp.cellular_work_utilizing_atp_1 _let_5) (tptp.calcium_ion_1 _let_1) (tptp.causes_2 _let_5 X) (tptp.subevent_2 X _let_4) (tptp.subevent_2 X _let_3) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_concentration_maintenance_transport_9 X)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maintenance_of_ph_in_lysosome_3 X))) (let ((_let_2 (tptp.fn_relinquish_1 _let_1))) (let ((_let_3 (tptp.fn_maintenance_of_ph_in_lysosome_4 X))) (let ((_let_4 (tptp.fn_transfer_1 _let_1))) (let ((_let_5 (tptp.fn_maintenance_of_ph_in_lysosome_5 X))) (let ((_let_6 (tptp.fn_maintenance_of_ph_in_lysosome_2 X))) (let ((_let_7 (tptp.fn_maintenance_of_ph_in_lysosome_1 X))) (=> (tptp.maintenance_of_ph_in_lysosome_1 X) (and (tptp.original_name_2 X |tptp.'Maintenance-of-pH-in-Lysosome'|) (tptp.user_description_2 X |tptp.'This involves maintaining the pH inside a lysosome at about 5. This is the optimum pH for the functioning of hydrolytic lysosomal enzymes'|) (tptp.concept2words_2 X |tptp.'ph maintenance in lysosome'|) (tptp.concept2words_2 X |tptp.'lysosomal ph maintenance'|) (tptp.concept2words_2 X |tptp.'maintenance of lysosomal ph'|) (tptp.concept2words_2 X |tptp.'maintenance of ph'|) (tptp.concept2words_2 X tptp.maintain) (tptp.concept2words_2 X |tptp.'maintenance of ph in lysosome'|) (tptp.concept2words_2 X |tptp.'maintenance-of-ph-in-lysosome'|) (tptp.maintenance_1 X) (not (tptp.organizing_1 X)) (not (tptp.maintenance_of_concentration_of_calcium_ion_in_eukaryotic_cell_1 X)) (not (tptp.ph_maintenance_1 X)) (tptp.lysosome_1 _let_7) (tptp.vesicle_1 _let_6) (tptp.substance_1 _let_6) (tptp.lysosome_1 _let_6) (tptp.supply_1 _let_1) (tptp.cytosol_1 _let_3) (tptp.hydrogen_ion_1 _let_5) (tptp.entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.recipient_2 _let_1 _let_7) (tptp.subevent_2 X _let_1) (tptp.site_2 X _let_6) (tptp.object_2 _let_1 _let_5) (tptp.donor_2 _let_1 _let_3) (tptp.agent_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))))) (forall ((X $$unsorted)) (=> (tptp.major_depression_1 X) (and (tptp.original_name_2 X |tptp.'Major-Depression'|) (tptp.user_description_2 X |tptp.'A mental disorder characterized by periods of deep sadness, low self-esteem, and a loss of interest or pleasure in normally enjoyable activities.'|) (tptp.concept2words_2 X |tptp.'depression of major'|) (tptp.concept2words_2 X |tptp.'major depression'|) (tptp.concept2words_2 X |tptp.'major-depression'|) (tptp.mental_or_brain_disorder_1 X) (not (tptp.alzheimers_disease_1 X)) (not (tptp.bipolar_disorder_1 X)) (not (tptp.creutzfeldt_jacob_disease_1 X)) (not (tptp.multiple_sclerosis_1 X)) (not (tptp.parkinsons_disease_1 X)) (not (tptp.schizophrenia_1 X))))) (forall ((X $$unsorted)) (=> (tptp.major_histocompatibility_complex_gene_1 X) (and (tptp.original_name_2 X |tptp.'Major-Histocompatibility-Complex-Gene'|) (tptp.user_description_2 X |tptp.'The major histocompatibility complex (MHC) is a large genomic region or gene family found in most vertebrates that encodes MHC molecules. MHC molecules play an important role in the immune system and autoimmunity.'|) (tptp.concept2words_2 X |tptp.'major histocompatibility complex gene'|) (tptp.concept2words_2 X |tptp.'major-histocompatibility-complex-gene'|) (tptp.multigene_family_1 X) (not (tptp.multigene_family_of_identical_genes_1 X)) (not (tptp.multigene_family_of_nonidentical_genes_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_major_histocompatibility_complex_protein_5 X))) (let ((_let_2 (tptp.fn_major_histocompatibility_complex_protein_4 X))) (let ((_let_3 (tptp.fn_major_histocompatibility_complex_protein_3 X))) (let ((_let_4 (tptp.fn_major_histocompatibility_complex_protein_1 X))) (let ((_let_5 (tptp.fn_major_histocompatibility_complex_protein_2 X))) (=> (tptp.major_histocompatibility_complex_protein_1 X) (and (tptp.original_name_2 X |tptp.'Major-Histocompatibility-Complex-Protein'|) (tptp.user_description_2 X |tptp.'A cell-surface protein that presents antigens to T cells.'|) (tptp.concept2words_2 X tptp.mhc) (tptp.concept2words_2 X tptp.mchp) (tptp.concept2words_2 X |tptp.'major histocompatibility complex protein'|) (tptp.concept2words_2 X |tptp.'major-histocompatibility-complex-protein'|) (tptp.integral_protein_1 X) (tptp.glycoprotein_1 X) (tptp.interact_1 _let_4) (tptp.t_cells_1 _let_5) (tptp.share_1 _let_3) (tptp.unequal_sharing_of_electrons_1 _let_2) (tptp.unequal_sharing_1 _let_1) (tptp.agent_2 _let_4 X) (tptp.object_2 _let_4 _let_5) (tptp.has_function_2 X _let_4) (tptp.result_2 _let_3 X) (tptp.result_2 _let_2 X) (tptp.result_2 _let_1 X))))))))) (forall ((X $$unsorted)) (=> (tptp.make_1 X) (and (tptp.original_name_2 X |tptp.'Make'|) (tptp.user_description_2 X |tptp.'Form something by putting parts together or combining substances'|) (tptp.concept2words_2 X tptp.make) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_make_accessible_1 X))) (=> (tptp.make_accessible_1 X) (and (tptp.original_name_2 X |tptp.'Make-Accessible'|) (tptp.concept2words_2 X tptp.make) (tptp.concept2words_2 X |tptp.'make accessible'|) (tptp.concept2words_2 X |tptp.'make-accessible'|) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_make_contact_1 X))) (let ((_let_2 (tptp.fn_make_contact_2 X))) (=> (tptp.make_contact_1 X) (and (tptp.original_name_2 X |tptp.'Make-Contact'|) (tptp.concept2words_2 X |tptp.'criss-cross'|) (tptp.concept2words_2 X tptp.touch) (tptp.concept2words_2 X |tptp.'criss cross'|) (tptp.concept2words_2 X |tptp.'come into contact'|) (tptp.concept2words_2 X |tptp.'make contact'|) (tptp.concept2words_2 X |tptp.'contact of make'|) (tptp.concept2words_2 X |tptp.'make-contact'|) (tptp.action_1 X) (tptp.spatial_entity_1 _let_1) (tptp.spatial_entity_1 _let_2) (tptp.base_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (=> (tptp.make_error_1 X) (and (tptp.original_name_2 X |tptp.'Make-Error'|) (tptp.user_description_2 X |tptp.'In biology, a cellular action which produces an unexpected outcome.'|) (tptp.concept2words_2 X tptp.make) (tptp.concept2words_2 X |tptp.'error of make'|) (tptp.concept2words_2 X |tptp.'make error'|) (tptp.concept2words_2 X |tptp.'make-error'|) (tptp.make_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_make_inaccessible_1 X))) (=> (tptp.make_inaccessible_1 X) (and (tptp.original_name_2 X |tptp.'Make-Inaccessible'|) (tptp.concept2words_2 X tptp.make) (tptp.concept2words_2 X |tptp.'make inaccessible'|) (tptp.concept2words_2 X |tptp.'make-inaccessible'|) (tptp.action_1 X) (tptp.entity_1 _let_1) (tptp.object_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_make_request_3 X))) (let ((_let_2 (tptp.fn_make_request_1 X))) (=> (tptp.make_request_1 X) (and (tptp.original_name_2 X |tptp.'Make-Request'|) (tptp.concept2words_2 X tptp.request) (tptp.concept2words_2 X tptp.bespeak) (tptp.concept2words_2 X |tptp.'call for'|) (tptp.concept2words_2 X tptp.call_for) (tptp.concept2words_2 X tptp.quest) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'request of make'|) (tptp.concept2words_2 X |tptp.'make request'|) (tptp.concept2words_2 X |tptp.'make-request'|) (tptp.communicate_1 X) (not (tptp.teach_1 X)) (not (tptp.suggest_1 X)) (tptp.manner_value_1 _let_2) (tptp.request_1 _let_1) (tptp.the_categorical_value_2 _let_2 tptp.politely_0) (tptp.manner_2 X _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_communicate_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.malaria_1 X) (and (tptp.original_name_2 X |tptp.'Malaria'|) (tptp.user_description_2 X |tptp.'A mosquito-borne infectious disease of humans and other mammals caused by protozoans of the genus Plasmodium.'|) (tptp.concept2words_2 X |tptp.'malarial fever'|) (tptp.concept2words_2 X |tptp.'malarial-fever'|) (tptp.concept2words_2 X tptp.malaria) (tptp.protozoan_disease_1 X) (not (tptp.african_sleeping_sickness_1 X)) (not (tptp.aids_1 X)) (not (tptp.cholera_1 X)) (not (tptp.cowpox_1 X)) (not (tptp.encephalitis_1 X)) (not (tptp.gastric_ulcer_1 X)) (not (tptp.gonorrhea_1 X)) (not (tptp.hemorrhagic_fever_1 X)) (not (tptp.influenza_1 X)) (not (tptp.lyme_disease_1 X)) (not (tptp.mycosis_1 X)) (not (tptp.smallpox_1 X)) (not (tptp.tetanus_1 X)) (not (tptp.tobacco_mosaic_disease_1 X)) (not (tptp.tuberculosis_1 X))))) (forall ((X $$unsorted)) (=> (tptp.malate_1 X) (and (tptp.original_name_2 X |tptp.'Malate'|) (tptp.user_description_2 X |tptp.'Malate is a salt or ester of malic acid.'|) (tptp.concept2words_2 X tptp.malate) (tptp.organic_anion_1 X) (not (tptp.acetate_1 X)) (not (tptp.alpha_ketoglutarate_1 X)) (not (tptp.citrate_1 X)) (not (tptp.fumarate_1 X)) (not (tptp.isocitrate_1 X)) (not (tptp.oxaloacetate_1 X)) (not (tptp.succinate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.male_fruit_fly_1 X) (and (tptp.original_name_2 X |tptp.'Male-Fruit-Fly'|) (tptp.user_description_2 X |tptp.'Drosophila melanogaster is a species of Diptera, or the order of flies, in the family Drosophilidae. The species is commonly known as the common fruit fly or vinegar fly. It has 2 sex chromosomes and 6 autosomes.'|) (tptp.concept2words_2 X |tptp.'male fruit fly'|) (tptp.concept2words_2 X |tptp.'male fruit-fly'|) (tptp.concept2words_2 X |tptp.'male-fruit-fly'|) (tptp.fruit_fly_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_male_somatic_cell_1 X))) (let ((_let_2 (tptp.fn_male_somatic_cell_2 X))) (=> (tptp.male_somatic_cell_1 X) (and (tptp.original_name_2 X |tptp.'Male-Somatic-Cell'|) (tptp.user_description_2 X |tptp.'A male somatic cell contains 23 pair of chromosomes including XY.'|) (tptp.concept2words_2 X |tptp.'male somatic cell'|) (tptp.concept2words_2 X |tptp.'male-somatic-cell'|) (tptp.somatic_cell_1 X) (not (tptp.female_somatic_cell_1 X)) (tptp.dna_polymerase_iii_1 _let_1) (tptp.y_chromosome_1 _let_2) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.x_chromosome_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.y_chromosome_0) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_2 (tptp.fn_animal_cell_52 X)) (= _let_1 (tptp.fn_eukaryotic_cell_3 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_malignant_tumor_1 X))) (let ((_let_2 (tptp.fn_reproduce_2 _let_1))) (let ((_let_3 (tptp.fn_reproduce_1 _let_1))) (let ((_let_4 (tptp.fn_malignant_tumor_2 X))) (=> (tptp.malignant_tumor_1 X) (and (tptp.original_name_2 X |tptp.'Malignant-Tumor'|) (tptp.user_description_2 X |tptp.'A cancerous tumor that is invasive enough to impair the functions of one or more organs.'|) (tptp.concept2words_2 X |tptp.'cancerous tumor'|) (tptp.concept2words_2 X tptp.cancer) (tptp.concept2words_2 X |tptp.'metastatic tumor'|) (tptp.concept2words_2 X |tptp.'malignant tumor'|) (tptp.concept2words_2 X |tptp.'malignant-tumor'|) (tptp.tumor_1 X) (tptp.reproduce_1 _let_1) (tptp.cancer_cell_1 _let_4) (tptp.living_entity_1 _let_3) (tptp.living_entity_1 _let_2) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.cancer_cell_0) (tptp.has_part_2 X _let_4) (tptp.exactCardinality _let_1 tptp.agent_0 |"1"| tptp.cancer_cell_0) (tptp.minCardinality _let_1 tptp.result_0 |"1"| tptp.cancer_cell_0) (tptp.result_2 _let_1 X) (tptp.agent_2 _let_1 _let_4) (tptp.base_2 _let_1 _let_4) (tptp.result_2 _let_1 _let_4) (= X _let_2) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_3) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_tumor_growth_1 X))) (let ((_let_2 (tptp.fn_tumor_growth_8 X))) (let ((_let_3 (tptp.fn_malignant_tumor_growth_11 X))) (let ((_let_4 (tptp.fn_malignant_tumor_2 _let_3))) (let ((_let_5 (tptp.fn_malignant_tumor_growth_10 X))) (let ((_let_6 (tptp.fn_cell_division_3 _let_5))) (let ((_let_7 (tptp.fn_tumor_growth_7 X))) (let ((_let_8 (tptp.fn_cell_division_2 _let_5))) (let ((_let_9 (tptp.fn_cell_division_6 _let_5))) (let ((_let_10 (tptp.fn_malignant_tumor_growth_5 X))) (let ((_let_11 (tptp.fn_malignant_tumor_growth_13 X))) (let ((_let_12 (tptp.fn_produce_1 _let_11))) (let ((_let_13 (tptp.fn_malignant_tumor_growth_6 X))) (let ((_let_14 (tptp.fn_malignant_tumor_growth_7 X))) (let ((_let_15 (tptp.fn_malignant_tumor_growth_9 X))) (let ((_let_16 (tptp.fn_malignant_tumor_growth_8 X))) (let ((_let_17 (tptp.fn_malignant_tumor_growth_12 X))) (let ((_let_18 (tptp.fn_malignant_tumor_growth_4 X))) (let ((_let_19 (tptp.fn_malignant_tumor_growth_1 X))) (let ((_let_20 (tptp.fn_malignant_tumor_growth_3 X))) (=> (tptp.malignant_tumor_growth_1 X) (and (tptp.original_name_2 X |tptp.'Malignant-Tumor-Growth'|) (tptp.user_description_2 X |tptp.'Uncontrolled cell division of malignant cancerous cells, resulting in the growth of a malignant tumor. Tumor growth often also includes growth of supporting tissues, such as blood vessels.'|) (tptp.concept2words_2 X tptp.grow) (tptp.concept2words_2 X |tptp.'malignant tumor growth'|) (tptp.concept2words_2 X |tptp.'malignant-tumor-growth'|) (tptp.tumor_growth_1 X) (tptp.mutation_1 _let_19) (tptp.rate_value_1 _let_20) (tptp.distributing_1 _let_18) (tptp.parent_cell_1 _let_10) (tptp.organic_molecule_1 _let_13) (tptp.growth_1 _let_14) (tptp.cell_1 _let_16) (tptp.cancer_cell_1 _let_16) (tptp.cell_1 _let_15) (tptp.cancer_cell_1 _let_15) (tptp.cell_division_1 _let_5) (tptp.tumor_1 _let_3) (tptp.malignant_tumor_1 _let_3) (tptp.animal_1 _let_17) (tptp.produce_1 _let_11) (tptp.tangible_entity_1 _let_12) (tptp.parent_cell_1 _let_9) (tptp.cell_1 _let_8) (tptp.cell_1 _let_6) (tptp.cancer_cell_1 _let_4) (tptp.next_event_2 _let_18 _let_5) (tptp.object_2 _let_18 _let_15) (tptp.next_event_2 _let_11 _let_14) (tptp.next_event_2 _let_5 _let_11) (tptp.rate_2 _let_5 _let_20) (tptp.first_subevent_2 X _let_19) (tptp.subevent_2 X _let_18) (tptp.subevent_2 X _let_19) (tptp.the_scalar_value_2 _let_20 tptp.fast_0) (tptp.scalar_unit_class_2 _let_20 tptp.cellular_process_0) (tptp.next_event_2 _let_19 _let_18) (tptp.base_2 _let_19 _let_15) (tptp.enables_2 _let_19 _let_18) (tptp.plays_2 _let_15 _let_10) (tptp.base_2 X _let_17) (tptp.has_part_2 _let_17 _let_3) (tptp.toward_2 _let_14 _let_3) (tptp.has_part_2 _let_3 _let_15) (tptp.subevent_2 X _let_11) (tptp.result_2 _let_5 _let_16) (tptp.object_2 _let_5 _let_15) (tptp.base_2 _let_5 _let_15) (not (= _let_15 _let_16)) (not (= _let_16 _let_15)) (tptp.subevent_2 X _let_5) (tptp.enables_2 _let_5 X) (tptp.subevent_2 X _let_14) (tptp.causes_2 _let_11 _let_14) (tptp.agent_2 _let_11 _let_15) (tptp.in_event_2 _let_10 _let_5) (tptp.raw_material_2 _let_11 _let_13) (= _let_3 (tptp.fn_tumor_growth_2 X)) (= _let_17 (tptp.fn_tumor_growth_3 X)) (= _let_15 _let_4) (= _let_15 _let_6) (= _let_15 _let_2) (= _let_16 _let_8) (= _let_16 _let_7) (= _let_15 _let_1) (= _let_11 (tptp.fn_tumor_growth_10 X)) (= _let_14 (tptp.fn_tumor_growth_5 X)) (= _let_5 (tptp.fn_tumor_growth_6 X)) (= _let_13 _let_12) (= _let_10 _let_9) (= _let_7 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_4 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2) (= _let_2 _let_1)))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.malleus_1 X) (and (tptp.original_name_2 X |tptp.'Malleus'|) (tptp.user_description_2 X |tptp.'The first of three bones in the middle ear of mammals; also called the hammer.'|) (tptp.concept2words_2 X tptp.malleus) (tptp.bone_1 X) (not (tptp.incus_1 X)) (not (tptp.jaw_1 X)) (not (tptp.mandible_1 X)) (not (tptp.stapes_1 X))))) (forall ((X $$unsorted)) (=> (tptp.malnourishment_1 X) (and (tptp.original_name_2 X |tptp.'Malnourishment'|) (tptp.user_description_2 X |tptp.'Long-term lack of one or more essential nutrients.'|) (tptp.concept2words_2 X tptp.malnourishment) (tptp.nutrition_1 X) (not (tptp.overnourishment_1 X)) (not (tptp.undernourishment_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_malonate_1 X))) (=> (tptp.malonate_1 X) (and (tptp.original_name_2 X |tptp.'Malonate'|) (tptp.user_description_2 X |tptp.'Anion resulting from the disassociation of Benzoic Acid'|) (tptp.concept2words_2 X tptp.malonate) (tptp.organic_anion_1 X) (not (tptp.benzoate_1 X)) (not (tptp.carbonate_ion_1 X)) (not (tptp.cl_minus_1 X)) (not (tptp.azide_1 X)) (not (tptp.sulfide_1 X)) (not (tptp.sulfate_1 X)) (not (tptp.bicarbonate_ion_1 X)) (not (tptp.phosphate_ion_1 X)) (tptp.charge_value_1 _let_1) (tptp.the_cardinal_value_2 _let_1 |"-2"|) (tptp.cardinal_unit_class_2 _let_1 tptp.unity_0) (tptp.charge_2 X _let_1) (= (tptp.fn_malonate_2 X) (tptp.fn_anion_7 X)) (= _let_1 (tptp.fn_anion_6 X)))))) (forall ((X $$unsorted)) (=> (tptp.malpighian_tubule_1 X) (and (tptp.original_name_2 X |tptp.'Malpighian-Tubule'|) (tptp.user_description_2 X |tptp.'Unique excretory and osmoregulatory organ of terrestrial arthropods such as insects and spiders. 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_let_92 _let_87) (= _let_85 _let_91) (= _let_91 _let_84) (= _let_84 _let_90) (= _let_90 _let_82) (= _let_82 _let_89) (= _let_89 _let_81) (= _let_81 _let_88) (= _let_88 _let_87) (= _let_87 _let_85) (= _let_85 _let_84) (= _let_84 _let_82) (= _let_82 _let_81) (= _let_81 _let_62) (= _let_62 _let_45) (= _let_61 _let_45) (= _let_45 _let_61) (= _let_58 _let_59) (= _let_58 _let_78) (= _let_77 _let_10) (= _let_10 _let_79) (= _let_79 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_73 _let_74) (= _let_74 _let_73) (= _let_73 _let_72) (= _let_72 _let_68) (= _let_68 _let_71) (= _let_71 _let_67) (= _let_67 _let_70) (= _let_70 _let_65) (= _let_65 _let_69) (= _let_69 _let_64) (= _let_64 _let_68) (= _let_68 _let_67) (= _let_67 _let_65) (= _let_65 _let_64) (= _let_64 _let_62) (= _let_62 _let_62) (= _let_47 _let_62) (= _let_62 _let_47) (= _let_61 _let_61) (= _let_61 _let_47) (= _let_47 _let_61) (= _let_60 _let_61) (= _let_61 _let_60) (= _let_60 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_58) (= _let_58 _let_58) (= _let_58 _let_54) (= _let_53 _let_57) (= _let_57 _let_51) (= _let_51 _let_56) (= _let_56 _let_55) (= _let_55 _let_49) (= _let_49 _let_54) (= _let_54 _let_53) (= _let_53 _let_51) (= _let_51 _let_49) (= _let_49 _let_47) (= _let_47 _let_47) (= _let_46 _let_47) (= _let_47 _let_46) (= _let_46 _let_45) (= _let_45 _let_46) (= _let_46 _let_46) (= _let_46 _let_44) (= _let_44 _let_45) (= _let_45 _let_45) (= _let_45 _let_44) (= _let_44 _let_44) (= _let_43 _let_44) (= _let_44 _let_43) (= _let_43 _let_43) (= _let_43 _let_42) (= _let_42 _let_31) (= _let_24 _let_31) (= _let_31 _let_24) (= _let_24 _let_40) (= _let_40 _let_40) (= _let_40 _let_23) (= _let_23 _let_39) (= _let_39 _let_37) (= _let_37 _let_35) (= _let_35 _let_33) (= _let_33 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_30) (= _let_30 _let_29) (= _let_13 _let_29) (= _let_29 _let_29) (= _let_29 _let_13) (= _let_13 _let_28) (= _let_28 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_10 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X 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(tptp.fn_mammal_91 X))) (let ((_let_49 (tptp.fn_mammal_61 X))) (let ((_let_50 (tptp.fn_mammal_50 X))) (let ((_let_51 (tptp.fn_mammal_74 X))) (let ((_let_52 (tptp.fn_mammal_95 X))) (let ((_let_53 (tptp.fn_mammal_94 X))) (let ((_let_54 (tptp.fn_mammal_45 X))) (let ((_let_55 (tptp.fn_mammal_43 X))) (let ((_let_56 (tptp.fn_mammal_48 X))) (let ((_let_57 (tptp.fn_mammal_35 X))) (let ((_let_58 (tptp.fn_mammal_36 X))) (let ((_let_59 (tptp.fn_mammal_47 X))) (let ((_let_60 (tptp.fn_mammal_77 X))) (let ((_let_61 (tptp.fn_store_3 _let_1))) (let ((_let_62 (tptp.fn_mammal_81 X))) (let ((_let_63 (tptp.fn_pancreas_2 _let_52))) (let ((_let_64 (tptp.fn_mammal_40 X))) (let ((_let_65 (tptp.fn_pancreas_1 _let_52))) (let ((_let_66 (tptp.fn_mammal_42 X))) (let ((_let_67 (tptp.fn_secretion_3 _let_20))) (let ((_let_68 (tptp.fn_mammal_86 X))) (let ((_let_69 (tptp.fn_enzyme_5 _let_55))) (let ((_let_70 (tptp.fn_mammal_46 X))) (let ((_let_71 (tptp.fn_mammal_51 X))) (let ((_let_72 (tptp.fn_enzyme_5 _let_71))) (let ((_let_73 (tptp.fn_mammal_75 X))) (let ((_let_74 (tptp.fn_mammal_69 X))) (let ((_let_75 (tptp.fn_produce_1 _let_74))) (let ((_let_76 (tptp.fn_mammal_38 X))) (let ((_let_77 (tptp.fn_mammal_68 X))) (let ((_let_78 (tptp.fn_produce_1 _let_77))) (let ((_let_79 (tptp.fn_mammal_37 X))) (let ((_let_80 (tptp.fn_mammal_67 X))) (let ((_let_81 (tptp.fn_produce_1 _let_80))) (let ((_let_82 (tptp.fn_mammal_73 X))) (let ((_let_83 (tptp.fn_mammal_56 X))) (let ((_let_84 (tptp.fn_move_1 _let_83))) (let ((_let_85 (tptp.fn_mammal_57 X))) (let ((_let_86 (tptp.fn_mammal_55 X))) (let ((_let_87 (tptp.fn_move_1 _let_86))) (let ((_let_88 (tptp.fn_mammal_59 X))) (let ((_let_89 (tptp.fn_mammal_54 X))) (let ((_let_90 (tptp.fn_move_out_of_1 _let_89))) (let ((_let_91 (tptp.fn_mammal_66 X))) (let ((_let_92 (tptp.fn_move_out_of_1 _let_83))) (let ((_let_93 (tptp.fn_move_1 _let_89))) (let ((_let_94 (tptp.fn_mammal_58 X))) (let ((_let_95 (tptp.fn_move_out_of_1 _let_86))) (let ((_let_96 (tptp.fn_create_1 _let_80))) (let ((_let_97 (tptp.fn_mammal_72 X))) (let ((_let_98 (tptp.fn_create_1 _let_74))) (let ((_let_99 (tptp.fn_mammal_70 X))) (let ((_let_100 (tptp.fn_create_1 _let_77))) (let ((_let_101 (tptp.fn_mammal_71 X))) (let ((_let_102 (tptp.fn_secretion_1 _let_20))) (let ((_let_103 (tptp.fn_mammal_87 X))) (let ((_let_104 (tptp.fn_mammal_62 X))) (let ((_let_105 (tptp.fn_move_1 _let_104))) (let ((_let_106 (tptp.fn_mammal_63 X))) (let ((_let_107 (tptp.fn_mammal_65 X))) (let ((_let_108 (tptp.fn_move_1 _let_107))) (let ((_let_109 (tptp.fn_mammal_64 X))) (let ((_let_110 (tptp.fn_move_1 _let_109))) (let ((_let_111 (tptp.fn_mammal_3 X))) (let ((_let_112 (tptp.fn_mammal_2 X))) (let ((_let_113 (tptp.fn_mammal_6 X))) (let ((_let_114 (tptp.fn_mammal_14 X))) (let ((_let_115 (tptp.fn_mammal_4 X))) (let ((_let_116 (tptp.fn_mammal_5 X))) (let ((_let_117 (tptp.fn_mammal_18 X))) (let ((_let_118 (tptp.fn_mammal_8 X))) (let ((_let_119 (tptp.fn_mammal_7 X))) (let ((_let_120 (tptp.fn_mammal_9 X))) (let ((_let_121 (tptp.fn_mammal_26 X))) (let ((_let_122 (tptp.fn_mammal_1 X))) (let ((_let_123 (tptp.fn_mammal_17 X))) (let ((_let_124 (tptp.fn_mammal_10 X))) (let ((_let_125 (tptp.fn_mammal_11 X))) (let ((_let_126 (tptp.fn_mammal_12 X))) (let ((_let_127 (tptp.fn_mammal_15 X))) (let ((_let_128 (tptp.fn_mammal_13 X))) (let ((_let_129 (tptp.fn_mammal_16 X))) (let ((_let_130 (tptp.fn_mammal_22 X))) (let ((_let_131 (tptp.fn_mammal_19 X))) (let ((_let_132 (tptp.fn_mammal_20 X))) (let ((_let_133 (tptp.fn_mammal_21 X))) (let ((_let_134 (tptp.fn_mammal_23 X))) (let ((_let_135 (tptp.fn_mammal_24 X))) (let ((_let_136 (tptp.fn_mammal_25 X))) (=> (tptp.mammal_1 X) (and (tptp.original_name_2 X |tptp.'Mammal'|) (tptp.user_description_2 X |tptp.'Member of a clade of endothermic amniotes. 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(tptp.water_molecule_1 _let_33) (tptp.remove_1 _let_45) (tptp.chemical_energy_1 _let_34) (tptp.cellulase_1 _let_43) (tptp.entity_1 _let_57) (tptp.chemical_entity_1 _let_57) (tptp.atom_1 _let_57) (tptp.hydrogen_1 _let_57) (tptp.tangible_entity_1 _let_58) (tptp.entity_1 _let_58) (tptp.chemical_entity_1 _let_58) (tptp.atom_1 _let_58) (tptp.oxygen_1 _let_58) (tptp.organic_molecule_1 _let_79) (tptp.organic_molecule_1 _let_76) (tptp.abrade_1 _let_31) (tptp.tissue_1 _let_64) (tptp.pancreas_cell_1 _let_17) (tptp.spatial_entity_1 _let_66) (tptp.insulin_1 _let_66) (tptp.enzyme_1 _let_55) (tptp.digestive_enzyme_1 _let_55) (tptp.water_molecule_1 _let_40) (tptp.protein_1 _let_54) (tptp.decrease_1 _let_70) (tptp.protein_1 _let_59) (tptp.spatial_entity_1 _let_56) (tptp.chemical_entity_1 _let_56) (tptp.monomer_1 _let_56) (tptp.molecule_1 _let_56) (tptp.amino_acid_1 _let_56) (tptp.polypeptide_1 _let_8) (tptp.nutrition_1 _let_50) (tptp.enzyme_1 _let_71) (tptp.spatial_entity_1 _let_32) (tptp.cellulose_1 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(tptp.secretion_1 _let_20) (tptp.specific_heat_value_1 _let_29) (tptp.temperature_value_1 _let_30) (tptp.stomach_1 _let_48) (tptp.pharynx_1 _let_37) (tptp.esophagus_1 _let_47) (tptp.liver_1 _let_53) (tptp.pancreas_1 _let_52) (tptp.catabolic_pathway_1 _let_42) (tptp.take_in_1 _let_35) (tptp.locomotion_1 _let_27) (tptp.spatial_entity_1 _let_110) (tptp.spatial_entity_1 _let_108) (tptp.spatial_entity_1 _let_105) (tptp.tangible_entity_1 _let_102) (tptp.entity_1 _let_100) (tptp.entity_1 _let_98) (tptp.entity_1 _let_96) (tptp.tangible_entity_1 _let_95) (tptp.spatial_entity_1 _let_93) (tptp.tangible_entity_1 _let_92) (tptp.tangible_entity_1 _let_90) (tptp.spatial_entity_1 _let_87) (tptp.spatial_entity_1 _let_84) (tptp.tangible_entity_1 _let_81) (tptp.tangible_entity_1 _let_78) (tptp.tangible_entity_1 _let_75) (tptp.decrease_1 _let_72) (tptp.decrease_1 _let_69) (tptp.secretor_1 _let_67) (tptp.pancreas_cell_1 _let_65) (tptp.tissue_1 _let_63) (tptp.container_1 _let_61) (tptp.living_entity_1 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_let_39) (tptp.path_2 _let_89 _let_123) (tptp.destination_2 _let_89 _let_132) (tptp.origin_2 _let_89 _let_134) (not (= _let_89 _let_83)) (not (= _let_89 _let_86)) (not (= _let_86 _let_89)) (not (= _let_86 _let_83)) (tptp.path_2 _let_86 _let_123) (tptp.destination_2 _let_86 _let_133) (tptp.origin_2 _let_86 _let_135) (not (= _let_83 _let_89)) (not (= _let_83 _let_86)) (tptp.path_2 _let_83 _let_123) (tptp.destination_2 _let_83 _let_131) (tptp.origin_2 _let_83 _let_136) (tptp.is_inside_2 _let_136 _let_91) (tptp.is_inside_2 _let_135 _let_91) (tptp.is_inside_2 _let_134 _let_91) (tptp.is_outside_2 _let_133 _let_91) (tptp.is_outside_2 _let_132 _let_91) (tptp.is_outside_2 _let_131 _let_91) (tptp.is_at_2 _let_123 _let_124) (tptp.abuts_2 _let_123 _let_127) (tptp.is_outside_2 _let_123 _let_91) (tptp.destination_2 _let_104 _let_117) (tptp.called_2 _let_104 |tptp.'M1'|) (tptp.origin_2 _let_109 _let_117) (tptp.destination_2 _let_109 _let_26) (tptp.called_2 _let_109 |tptp.'M2'|) (tptp.origin_2 _let_107 _let_117) (tptp.destination_2 _let_107 _let_49) (tptp.called_2 _let_107 |tptp.'M3'|) (tptp.has_region_2 _let_91 _let_130) (tptp.abuts_2 _let_91 _let_114) (tptp.abuts_2 _let_91 _let_127) (tptp.abuts_2 _let_127 _let_123) (tptp.abuts_2 _let_127 _let_91) (tptp.is_at_2 _let_114 _let_129) (tptp.abuts_2 _let_114 _let_91) (tptp.abuts_2 _let_114 _let_115) (tptp.is_inside_2 _let_128 _let_91) (tptp.has_function_2 _let_128 _let_74) (tptp.has_function_2 _let_128 _let_77) (tptp.has_function_2 _let_128 _let_80) (tptp.agent_2 _let_80 _let_128) (tptp.called_2 _let_80 |tptp.'P1'|) (tptp.agent_2 _let_77 _let_128) (tptp.called_2 _let_77 |tptp.'P2'|) (tptp.agent_2 _let_74 _let_128) (tptp.called_2 _let_74 |tptp.'P3'|) (tptp.is_between_2 _let_126 _let_123) (tptp.is_between_2 _let_126 _let_127) (not (= _let_126 _let_125)) (tptp.called_2 _let_126 |tptp.'SP4'|) (tptp.is_between_2 _let_125 _let_123) (tptp.is_between_2 _let_125 _let_127) (not (= _let_125 _let_126)) (tptp.called_2 _let_125 |tptp.'SP5'|) (tptp.called_2 _let_124 |tptp.'E2'|) (tptp.has_region_2 X _let_111) (tptp.has_part_2 X _let_119) (tptp.has_part_2 X _let_117) (tptp.has_part_2 X _let_112) (tptp.has_part_2 X _let_123) (tptp.has_part_2 X _let_122) (tptp.shape_2 X _let_121) (tptp.is_inside_2 _let_120 _let_118) (tptp.has_part_2 _let_119 _let_118) (tptp.element_2 _let_60 _let_117) (tptp.path_2 _let_4 X) (tptp.enables_2 _let_46 _let_4) (tptp.element_2 _let_23 _let_116) (tptp.in_event_2 _let_113 _let_20) (tptp.abuts_2 _let_115 _let_114) (tptp.plays_2 _let_112 _let_113) (tptp.is_inside_2 _let_112 _let_111) (tptp.object_2 _let_109 _let_106) (tptp.object_2 _let_107 _let_106) (tptp.object_2 _let_104 _let_106) (tptp.object_2 _let_4 _let_32) (tptp.object_2 _let_20 _let_103) (tptp.result_2 _let_77 _let_101) (tptp.result_2 _let_74 _let_99) (tptp.result_2 _let_80 _let_97) (tptp.base_2 _let_86 _let_91) (tptp.object_2 _let_89 _let_94) (tptp.base_2 _let_83 _let_91) (tptp.base_2 _let_89 _let_91) (tptp.object_2 _let_86 _let_88) (tptp.object_2 _let_83 _let_85) (tptp.raw_material_2 _let_80 _let_82) (tptp.raw_material_2 _let_77 _let_79) (tptp.raw_material_2 _let_74 _let_76) (tptp.has_part_2 X _let_73) (tptp.base_2 _let_20 _let_73) (tptp.plays_2 _let_73 _let_68) (tptp.has_function_2 _let_71 _let_70) (tptp.has_function_2 _let_55 _let_70) (tptp.in_event_2 _let_68 _let_20) (tptp.is_inside_2 _let_66 _let_17) (tptp.has_part_2 _let_52 _let_64) (tptp.has_part_2 _let_64 _let_17) (tptp.in_event_2 _let_62 _let_1) (tptp.plays_2 X _let_62) (tptp.has_region_2 X _let_60) (tptp.base_2 _let_1 X) (tptp.result_2 _let_50 _let_59) (tptp.has_part_2 _let_59 _let_8) (tptp.has_part_2 _let_56 _let_58) (tptp.has_part_2 _let_8 _let_56) (tptp.has_part_2 _let_56 _let_57) (not (= _let_58 _let_57)) (not (= _let_57 _let_58)) (tptp.element_2 _let_23 _let_36) (tptp.is_specific_to_2 _let_55 _let_54) (tptp.next_element_2 _let_36 _let_24) (tptp.possesses_2 _let_33 _let_34) (tptp.raw_material_2 _let_42 _let_32) (tptp.raw_material_2 _let_41 _let_32) (not (= _let_54 _let_40)) (not (= _let_40 _let_54)) (tptp.temperature_2 X _let_30) (tptp.has_part_2 X _let_37) (tptp.element_2 _let_25 _let_37) (tptp.base_2 _let_46 _let_25) (tptp.enables_2 _let_46 _let_31) (tptp.element_2 _let_25 _let_48) (tptp.has_part_2 X _let_48) (tptp.has_part_2 X _let_53) (tptp.element_2 _let_25 _let_53) (tptp.element_2 _let_25 _let_47) (tptp.agent_2 _let_50 X) (tptp.in_event_2 _let_51 _let_50) (tptp.plays_2 X _let_51) (tptp.has_part_2 X _let_52) (tptp.element_2 _let_25 _let_52) (tptp.next_element_2 _let_37 _let_47) (tptp.has_part_2 X _let_47) (tptp.has_part_2 X _let_49) (tptp.abuts_2 _let_48 _let_47) (tptp.abuts_2 _let_47 _let_48) (tptp.object_2 _let_45 _let_39) (tptp.base_2 _let_45 _let_32) (tptp.object_2 _let_46 _let_32) (tptp.path_2 _let_46 X) (tptp.has_part_2 X _let_26) (tptp.result_2 _let_42 _let_39) (tptp.agent_2 _let_42 _let_43) (tptp.agent_2 _let_44 _let_43) (tptp.object_2 _let_44 _let_32) (tptp.raw_material_2 _let_38 _let_32) (tptp.raw_material_2 _let_38 _let_33) (tptp.result_2 _let_38 _let_39) (tptp.result_2 _let_41 _let_39) (not (= _let_40 _let_39)) (not (= _let_39 _let_40)) (tptp.agent_2 _let_35 X) (tptp.base_2 _let_35 X) (tptp.has_part_2 X _let_36) (tptp.abuts_2 _let_37 _let_36) (tptp.abuts_2 _let_36 _let_37) (tptp.path_2 _let_31 X) (tptp.object_2 _let_31 _let_32) (tptp.possesses_2 _let_32 _let_34) (not (= _let_33 _let_32)) (not (= _let_32 _let_33)) (tptp.object_2 _let_27 X) (tptp.agent_2 _let_27 X) (tptp.has_part_2 X _let_28) (tptp.specific_heat_2 _let_28 _let_29) (tptp.correspondence_2 _let_30 _let_29) (tptp.has_region_2 X _let_23) (tptp.element_2 _let_23 _let_24) (tptp.has_part_2 X _let_24) (tptp.has_region_2 X _let_25) (tptp.element_2 _let_25 _let_26) (= _let_106 _let_110) (= _let_106 _let_108) (= _let_106 _let_105) (= _let_32 _let_5) (= _let_103 _let_102) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_91 _let_95) (= _let_94 _let_93) (= _let_91 _let_92) (= _let_91 _let_90) (= _let_88 _let_87) (= _let_85 _let_84) (= _let_82 _let_81) (= _let_79 _let_78) (= _let_76 _let_75) (= _let_73 _let_22) (= _let_73 _let_21) (= _let_70 _let_72) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_19) (= _let_66 _let_18) (= _let_17 _let_65) (= _let_64 _let_63) (= _let_62 _let_61) (= _let_60 (tptp.fn_animal_4 X)) (= X _let_2) (= _let_1 (tptp.fn_animal_24 X)) (= _let_59 (tptp.fn_animal_7 X)) (= _let_57 _let_14) (= _let_58 _let_16) (= _let_58 _let_15) (= _let_57 _let_13) (= _let_57 _let_12) (= _let_56 _let_11) (= _let_8 (tptp.fn_animal_15 X)) (= _let_56 _let_10) (= _let_56 _let_9) (= _let_55 (tptp.fn_vertebrate_1 X)) (= (tptp.fn_mammal_99 X) (tptp.fn_vertebrate_61 X)) (= _let_54 (tptp.fn_vertebrate_3 X)) (= (tptp.fn_mammal_100 X) (tptp.fn_vertebrate_60 X)) (= _let_53 (tptp.fn_vertebrate_15 X)) (= _let_52 (tptp.fn_vertebrate_16 X)) (= _let_51 (tptp.fn_vertebrate_56 X)) (= _let_50 _let_7) (= _let_50 _let_6) (= _let_49 (tptp.fn_vertebrate_27 X)) (= _let_48 (tptp.fn_vertebrate_18 X)) (= _let_47 (tptp.fn_vertebrate_26 X)) (= _let_46 (tptp.fn_vertebrate_33 X)) (= _let_45 (tptp.fn_vertebrate_46 X)) (= _let_44 (tptp.fn_vertebrate_50 X)) (= _let_43 (tptp.fn_vertebrate_20 X)) (= _let_42 (tptp.fn_vertebrate_47 X)) (= _let_41 (tptp.fn_vertebrate_48 X)) (= _let_40 (tptp.fn_vertebrate_2 X)) (= _let_39 (tptp.fn_vertebrate_53 X)) (= _let_38 (tptp.fn_vertebrate_49 X)) (= _let_37 (tptp.fn_vertebrate_19 X)) (= _let_36 (tptp.fn_vertebrate_4 X)) (= _let_35 (tptp.fn_vertebrate_58 X)) (= _let_34 (tptp.fn_vertebrate_45 X)) (= _let_33 (tptp.fn_vertebrate_51 X)) (= _let_32 _let_3) (= _let_31 (tptp.fn_vertebrate_34 X)) (= _let_30 (tptp.fn_vertebrate_55 X)) (= _let_29 (tptp.fn_vertebrate_54 X)) (= _let_28 (tptp.fn_vertebrate_57 X)) (= _let_27 (tptp.fn_vertebrate_59 X)) (= _let_26 (tptp.fn_vertebrate_17 X)) (= _let_25 (tptp.fn_vertebrate_40 X)) (= _let_24 (tptp.fn_vertebrate_5 X)) (= _let_23 (tptp.fn_vertebrate_6 X)) (= _let_22 _let_21) (= _let_21 _let_21) (= _let_21 _let_19) (= _let_19 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_12 _let_13) (= _let_13 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_9) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammal_cloning_30 X))) (let ((_let_2 (tptp.fn_relinquish_1 _let_1))) (let ((_let_3 (tptp.fn_mammal_cloning_17 X))) (let ((_let_4 (tptp.fn_add_2 _let_3))) (let ((_let_5 (tptp.fn_mammal_cloning_16 X))) (let ((_let_6 (tptp.fn_remove_1 _let_5))) (let ((_let_7 (tptp.fn_mammal_cloning_18 X))) (let ((_let_8 (tptp.fn_remove_2 _let_7))) (let ((_let_9 (tptp.fn_add_1 _let_3))) (let ((_let_10 (tptp.fn_mammal_cloning_13 X))) (let ((_let_11 (tptp.fn_remove_1 _let_10))) (let ((_let_12 (tptp.fn_mammal_cloning_15 X))) (let ((_let_13 (tptp.fn_culturing_6 _let_12))) (let ((_let_14 (tptp.fn_mammal_cloning_24 X))) (let ((_let_15 (tptp.fn_mammal_cloning_12 X))) (let ((_let_16 (tptp.fn_mammal_cloning_29 X))) (let ((_let_17 (tptp.fn_mammal_cloning_14 X))) (let ((_let_18 (tptp.fn_add_2 _let_17))) (let ((_let_19 (tptp.fn_mammal_cloning_33 X))) (let ((_let_20 (tptp.fn_transfer_1 _let_1))) (let ((_let_21 (tptp.fn_mammal_cloning_31 X))) (let ((_let_22 (tptp.fn_remove_1 _let_7))) (let ((_let_23 (tptp.fn_mammal_cloning_28 X))) (let ((_let_24 (tptp.fn_mammal_cloning_26 X))) (let ((_let_25 (tptp.fn_mammal_cloning_19 X))) (let ((_let_26 (tptp.fn_transfer_1 _let_25))) (let ((_let_27 (tptp.fn_mammal_cloning_23 X))) (let ((_let_28 (tptp.fn_remove_2 _let_10))) (let ((_let_29 (tptp.fn_mammal_cloning_32 X))) (let ((_let_30 (tptp.fn_mammal_cloning_20 X))) (let ((_let_31 (tptp.fn_move_1 _let_30))) (let ((_let_32 (tptp.fn_mammal_cloning_22 X))) (let ((_let_33 (tptp.fn_mammal_cloning_25 X))) (let ((_let_34 (tptp.fn_move_into_1 _let_30))) (let ((_let_35 (tptp.fn_mammal_cloning_21 X))) (let ((_let_36 (tptp.fn_remove_2 _let_5))) (let ((_let_37 (tptp.fn_mammal_cloning_27 X))) (let ((_let_38 (tptp.fn_create_1 _let_15))) (let ((_let_39 (tptp.fn_mammal_cloning_34 X))) (let ((_let_40 (tptp.fn_mammal_cloning_7 X))) (let ((_let_41 (tptp.fn_mammal_cloning_8 X))) (let ((_let_42 (tptp.fn_mammal_cloning_9 X))) (let ((_let_43 (tptp.fn_mammal_cloning_10 X))) (let ((_let_44 (tptp.fn_mammal_cloning_11 X))) (let ((_let_45 (tptp.fn_mammal_cloning_5 X))) (let ((_let_46 (tptp.fn_mammal_cloning_4 X))) (let ((_let_47 (tptp.fn_mammal_cloning_3 X))) (let ((_let_48 (tptp.fn_mammal_cloning_1 X))) (let ((_let_49 (tptp.fn_mammal_cloning_2 X))) (let ((_let_50 (tptp.fn_mammal_cloning_6 X))) (=> (tptp.mammal_cloning_1 X) (and (tptp.original_name_2 X |tptp.'Mammal-Cloning'|) (tptp.user_description_2 X |tptp.'Mammal cloning is to reproduce a mammal with genetic materials identical to its single parent.'|) (tptp.concept2words_2 X tptp.clone) (tptp.concept2words_2 X |tptp.'cloning of mammal'|) (tptp.concept2words_2 X |tptp.'mammal cloning'|) (tptp.concept2words_2 X |tptp.'mammal-cloning'|) (tptp.reproductive_cloning_1 X) (tptp.enucleated_cell_1 _let_48) (tptp.egg_1 _let_48) (tptp.mammary_cell_1 _let_49) (tptp.egg_1 _let_47) (tptp.uterus_1 _let_46) (tptp.spatial_entity_1 _let_45) (tptp.somatic_cell_1 _let_50) (tptp.growth_1 _let_40) (tptp.gestation_1 _let_41) (tptp.culturing_1 _let_42) (tptp.cell_division_1 _let_43) (tptp.change_1 _let_44) (tptp.create_1 _let_15) (tptp.remove_1 _let_10) (tptp.add_1 _let_17) (tptp.culturing_1 _let_12) (tptp.remove_1 _let_5) (tptp.fusion_1 _let_3) (tptp.remove_1 _let_7) (tptp.transfer_1 _let_25) (tptp.implant_1 _let_30) (tptp.mammal_1 _let_35) (tptp.embryo_1 _let_32) (tptp.cell_1 _let_32) (tptp.egg_1 _let_27) (tptp.culture_medium_1 _let_14) (tptp.mammary_cell_1 _let_33) (tptp.egg_1 _let_24) (tptp.mammal_1 _let_37) (tptp.nucleus_1 _let_23) (tptp.egg_1 _let_16) (tptp.enucleated_cell_1 _let_16) (tptp.supply_1 _let_1) (tptp.electric_current_pulse_1 _let_21) (tptp.udder_1 _let_29) (tptp.culture_medium_1 _let_19) (tptp.mammal_1 _let_39) (tptp.entity_1 _let_38) (tptp.spatial_entity_1 _let_36) (tptp.tangible_entity_1 _let_34) (tptp.spatial_entity_1 _let_31) (tptp.spatial_entity_1 _let_28) (tptp.entity_1 _let_26) (tptp.spatial_entity_1 _let_22) (tptp.entity_1 _let_20) (tptp.spatial_entity_1 _let_18) (tptp.culture_medium_1 _let_13) (tptp.spatial_entity_1 _let_11) (tptp.spatial_entity_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.base_2 _let_15 _let_50) (tptp.next_event_2 _let_10 _let_17) (tptp.next_event_2 _let_17 _let_12) (tptp.next_event_2 _let_12 _let_44) (tptp.result_2 _let_44 _let_49) (tptp.object_2 _let_44 _let_33) (tptp.next_event_2 _let_44 _let_5) (tptp.next_event_2 _let_5 _let_7) (tptp.subevent_2 _let_3 _let_1) (tptp.next_event_2 _let_3 _let_43) (tptp.next_event_2 _let_7 _let_3) (tptp.result_2 _let_7 _let_48) (tptp.destination_2 _let_25 _let_14) (tptp.subevent_2 _let_25 _let_42) (tptp.next_event_2 _let_43 _let_25) (tptp.object_2 _let_43 _let_27) (tptp.base_2 _let_43 _let_27) (tptp.object_2 _let_42 _let_47) (tptp.next_event_2 _let_42 _let_30) (tptp.site_2 _let_30 _let_46) (tptp.destination_2 _let_30 _let_45) (tptp.next_event_2 _let_30 _let_41) (tptp.base_2 _let_41 _let_45) (tptp.result_2 _let_40 _let_39) (tptp.is_inside_2 _let_45 _let_35) (tptp.called_2 _let_37 |tptp.'Mammal II'|) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_17) (tptp.subevent_2 X _let_12) (tptp.subevent_2 X _let_44) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_43) (tptp.subevent_2 X _let_42) (tptp.subevent_2 X _let_30) (tptp.subevent_2 X _let_41) (tptp.subevent_2 X _let_40) (tptp.result_2 _let_15 _let_39) (tptp.base_2 _let_5 _let_37) (tptp.base_2 _let_30 _let_35) (tptp.base_2 _let_3 _let_16) (tptp.object_2 _let_10 _let_33) (tptp.object_2 _let_3 _let_33) (tptp.object_2 _let_30 _let_32) (tptp.base_2 _let_10 _let_29) (tptp.object_2 _let_25 _let_27) (tptp.base_2 _let_7 _let_24) (tptp.object_2 _let_5 _let_24) (tptp.object_2 _let_7 _let_23) (tptp.object_2 _let_1 _let_21) (tptp.base_2 _let_17 _let_19) (tptp.agent_2 _let_1 _let_16) (tptp.donor_2 _let_1 _let_16) (tptp.subevent_2 X _let_15) (tptp.base_2 _let_12 _let_14) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_16 _let_4) (= _let_33 _let_11) (= _let_33 _let_9) (= _let_32 _let_31) (= _let_29 _let_28) (= _let_27 _let_26) (= _let_24 _let_8) (= _let_24 _let_6) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= _let_16 _let_2) (= _let_15 (tptp.fn_reproductive_cloning_7 X)) (= _let_14 _let_13) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammal_homeotic_gene_1 X))) (let ((_let_2 (tptp.fn_animal_development_17 _let_1))) (let ((_let_3 (tptp.fn_mammal_homeotic_gene_2 X))) (=> (tptp.mammal_homeotic_gene_1 X) (and (tptp.original_name_2 X |tptp.'Mammal-Homeotic-Gene'|) (tptp.user_description_2 X |tptp.'Homeotic gene present in mammals.'|) (tptp.concept2words_2 X |tptp.'mammal homeotic gene'|) (tptp.concept2words_2 X |tptp.'mammal-homeotic-gene'|) (tptp.vertebrate_homeotic_gene_1 X) (tptp.animal_development_1 _let_1) (tptp.mammal_1 _let_3) (tptp.animal_1 _let_2) (tptp.agent_2 _let_1 X) (tptp.experiencer_2 _let_1 _let_3) (= _let_1 (tptp.fn_vertebrate_homeotic_gene_20 X)) (= _let_3 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.mammalian_blood_1 X) (and (tptp.original_name_2 X |tptp.'Mammalian-Blood'|) (tptp.user_description_2 X |tptp.'A connective tissue in mammals with a fluid matrix called plasma.'|) (tptp.concept2words_2 X |tptp.'mammalian blood'|) (tptp.concept2words_2 X |tptp.'mammalian-blood'|) (tptp.blood_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammalian_cell_3 X))) (let ((_let_2 (tptp.fn_mitochondrion_51 _let_1))) (let ((_let_3 (tptp.fn_mammalian_cell_1 X))) (let ((_let_4 (tptp.fn_mammalian_cell_2 X))) (=> (tptp.mammalian_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mammalian-Cell'|) (tptp.user_description_2 X |tptp.'Mammals including human are made up of very small cells called mammalian cells .These differ from plant cells by not having cell wall These are bounded by only plasma membrane so sensitive to osmotic lysis.'|) (tptp.concept2words_2 X |tptp.'mammalian cell'|) (tptp.concept2words_2 X |tptp.'mammalian-cell'|) (tptp.vertebrate_cell_1 X) (tptp.role_1 _let_3) (tptp.apoptosis_1 _let_4) (tptp.mitochondrion_1 _let_1) (tptp.eukaryotic_cell_1 _let_2) (tptp.in_event_2 _let_3 _let_4) (tptp.plays_2 _let_1 _let_3) (tptp.has_part_2 X _let_1) (= X _let_2)))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammalian_digestive_system_9 X))) (let ((_let_2 (tptp.fn_esophagus_8 _let_1))) (let ((_let_3 (tptp.fn_mammalian_digestive_system_10 X))) (let ((_let_4 (tptp.fn_esophagus_2 _let_1))) (let ((_let_5 (tptp.fn_mammalian_digestive_system_17 X))) (let ((_let_6 (tptp.fn_esophagus_4 _let_1))) (let ((_let_7 (tptp.fn_mammalian_digestive_system_11 X))) (let ((_let_8 (tptp.fn_mammalian_digestive_system_13 X))) (let ((_let_9 (tptp.fn_large_intestine_10 _let_8))) (let ((_let_10 (tptp.fn_mammalian_digestive_system_16 X))) (let ((_let_11 (tptp.fn_large_intestine_2 _let_8))) (let ((_let_12 (tptp.fn_mammalian_digestive_system_15 X))) (let ((_let_13 (tptp.fn_alimentary_canal_4 _let_3))) (let ((_let_14 (tptp.fn_mammalian_digestive_system_12 X))) (let ((_let_15 (tptp.fn_alimentary_canal_13 _let_3))) (let ((_let_16 (tptp.fn_mammalian_digestive_system_14 X))) (let ((_let_17 (tptp.fn_mouth_1 _let_16))) (let ((_let_18 (tptp.fn_mammalian_digestive_system_8 X))) (let ((_let_19 (tptp.fn_mammalian_digestive_system_6 X))) (let ((_let_20 (tptp.fn_release_1 _let_19))) (let ((_let_21 (tptp.fn_mammalian_digestive_system_7 X))) (let ((_let_22 (tptp.fn_release_2 _let_19))) (let ((_let_23 (tptp.fn_mammalian_digestive_system_5 X))) (let ((_let_24 (tptp.fn_mammalian_digestive_system_1 X))) (let ((_let_25 (tptp.fn_mammalian_digestive_system_4 X))) (let ((_let_26 (tptp.fn_mammalian_digestive_system_3 X))) (let ((_let_27 (tptp.fn_mammalian_digestive_system_2 X))) (=> (tptp.mammalian_digestive_system_1 X) (and (tptp.original_name_2 X |tptp.'Mammalian-Digestive-System'|) (tptp.user_description_2 X |tptp.'A system of organs in a mammal_'s body which is responsible for the digestion and absorption of nutrients from food.'|) (tptp.concept2words_2 X |tptp.'mammalian digestive system'|) (tptp.concept2words_2 X |tptp.'mammalian-digestive-system'|) (tptp.digestive_system_1 X) (tptp.anus_1 _let_24) (tptp.pancreas_1 _let_27) (tptp.gallbladder_1 _let_26) (tptp.liver_1 _let_25) (tptp.bacterium_1 _let_23) (tptp.release_1 _let_19) (tptp.gas_substance_1 _let_21) (tptp.tongue_1 _let_18) (tptp.digestive_organ_1 _let_1) (tptp.esophagus_1 _let_1) (tptp.alimentary_canal_1 _let_3) (tptp.stomach_1 _let_7) (tptp.small_intestine_1 _let_14) (tptp.large_intestine_1 _let_8) (tptp.mouth_1 _let_16) (tptp.rectum_1 _let_12) (tptp.colon_1 _let_10) (tptp.end_1 _let_5) (tptp.tangible_entity_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.tongue_1 _let_17) (tptp.large_intestine_1 _let_15) (tptp.small_intestine_1 _let_13) (tptp.rectum_1 _let_11) (tptp.colon_1 _let_9) (tptp.stomach_1 _let_6) (tptp.end_1 _let_4) (tptp.alimentary_canal_1 _let_2) (tptp.abuts_2 _let_12 _let_24) (tptp.has_region_2 X _let_3) (tptp.element_2 X _let_16) (tptp.element_2 X _let_24) (tptp.element_2 X _let_8) (tptp.element_2 X _let_14) (tptp.element_2 X _let_7) (tptp.element_2 X _let_27) (tptp.element_2 X _let_26) (tptp.element_2 X _let_25) (tptp.is_at_2 _let_16 _let_5) (tptp.next_element_2 _let_16 _let_1) (tptp.exactCardinality _let_16 tptp.has_part_0 |"6"| tptp.salivary_gland_0) (tptp.abuts_2 _let_24 _let_12) (tptp.next_element_2 _let_8 _let_24) (tptp.next_element_2 _let_14 _let_8) (tptp.next_element_2 _let_7 _let_14) (tptp.next_element_2 _let_1 _let_7) (tptp.is_inside_2 _let_21 _let_23) (tptp.path_2 _let_19 _let_24) (tptp.is_inside_2 _let_23 _let_10) (tptp.base_2 _let_19 _let_23) (tptp.object_2 _let_19 _let_21) (tptp.element_2 X _let_1) (tptp.has_part_2 _let_16 _let_18) (tptp.is_inside_2 _let_8 _let_3) (tptp.is_inside_2 _let_14 _let_3) (tptp.has_part_2 _let_8 _let_12) (tptp.has_part_2 _let_8 _let_10) (tptp.abuts_2 _let_12 _let_10) (tptp.abuts_2 _let_10 _let_12) (tptp.is_inside_2 _let_7 _let_3) (tptp.is_inside_2 _let_1 _let_3) (tptp.has_region_2 _let_3 _let_5) (tptp.called_2 _let_5 |tptp.'E1'|) (= _let_23 _let_22) (= _let_21 _let_20) (= _let_1 (tptp.fn_digestive_system_1 X)) (= _let_18 _let_17) (= _let_8 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_3 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammalian_limb_development_9 X))) (let ((_let_2 (tptp.fn_apoptosis_21 _let_1))) (let ((_let_3 (tptp.fn_apoptosis_48 _let_1))) (let ((_let_4 (tptp.fn_mammalian_limb_development_6 X))) (let ((_let_5 (tptp.fn_apoptosis_62 _let_1))) (let ((_let_6 (tptp.fn_mammalian_limb_development_10 X))) (let ((_let_7 (tptp.fn_apoptosis_29 _let_1))) (let ((_let_8 (tptp.fn_apoptosis_49 _let_1))) (let ((_let_9 (tptp.fn_mammalian_limb_development_7 X))) (let ((_let_10 (tptp.fn_apoptosis_40 _let_1))) (let ((_let_11 (tptp.fn_mammalian_limb_development_11 X))) (let ((_let_12 (tptp.fn_apoptosis_30 _let_1))) (let ((_let_13 (tptp.fn_apoptosis_51 _let_1))) (let ((_let_14 (tptp.fn_mammalian_limb_development_8 X))) (let ((_let_15 (tptp.fn_mammalian_limb_development_16 X))) (let ((_let_16 (tptp.fn_mammalian_limb_development_12 X))) (let ((_let_17 (tptp.fn_mammalian_limb_development_13 X))) (let ((_let_18 (tptp.fn_mammalian_limb_development_5 X))) (let ((_let_19 (tptp.fn_mammalian_limb_development_1 X))) (let ((_let_20 (tptp.fn_mammalian_limb_development_4 X))) (let ((_let_21 (tptp.fn_mammalian_limb_development_3 X))) (=> (tptp.mammalian_limb_development_1 X) (and (tptp.original_name_2 X |tptp.'Mammalian-Limb-Development'|) (tptp.user_description_2 X |tptp.'The processes which direct the formation of the limbs during the embryonic development of a mammal.'|) (tptp.concept2words_2 X tptp.develop) (tptp.concept2words_2 X |tptp.'mammalian limb development'|) (tptp.concept2words_2 X |tptp.'mammalian-limb-development'|) (tptp.limb_development_1 X) (tptp.eukaryotic_ribosome_1 _let_19) (tptp.biological_region_1 _let_21) (tptp.shape_value_1 _let_20) (tptp.cytosol_1 _let_18) (tptp.destroy_1 _let_4) (tptp.contract_1 _let_9) (tptp.nucleus_1 _let_14) (tptp.apoptosis_1 _let_1) (tptp.volume_value_1 _let_6) (tptp.size_value_1 _let_11) (tptp.mammal_1 _let_16) (tptp.animal_embryo_1 _let_17) (tptp.limb_1 _let_15) (tptp.organelle_1 _let_13) (tptp.property_node_1 _let_12) (tptp.size_value_1 _let_10) (tptp.contract_1 _let_8) (tptp.property_node_1 _let_7) (tptp.volume_value_1 _let_5) (tptp.destroy_1 _let_3) (tptp.destroy_1 _let_2) (tptp.the_categorical_value_2 _let_20 tptp.flat_0) (tptp.has_region_2 _let_17 _let_21) (tptp.shape_2 _let_21 _let_20) (tptp.the_scalar_value_2 _let_11 tptp.big_0) (tptp.scalar_unit_class_2 _let_11 tptp.prokaryote_0) (tptp.is_inside_2 _let_19 _let_18) (tptp.is_inside_2 _let_14 _let_18) (tptp.has_state_2 _let_17 _let_16) (tptp.base_2 X _let_17) (tptp.by_means_of_2 X _let_1) (tptp.directly_proportional_2 _let_11 _let_6) (tptp.from_value_2 _let_9 _let_6) (tptp.subevent_2 _let_1 _let_9) (tptp.subevent_2 _let_1 _let_4) (tptp.object_2 _let_4 _let_14) (= _let_1 (tptp.fn_limb_development_10 X)) (= _let_17 (tptp.fn_limb_development_11 X)) (= _let_16 (tptp.fn_limb_development_2 X)) (= _let_15 (tptp.fn_limb_development_3 X)) (= _let_14 _let_13) (= (tptp.fn_mammalian_limb_development_15 X) _let_12) (= _let_11 _let_10) (= _let_9 _let_8) (= (tptp.fn_mammalian_limb_development_14 X) _let_7) (= _let_6 _let_5) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mammalian_mitotic_cycle_6 X))) (let ((_let_2 (tptp.fn_mitosis_40 _let_1))) (let ((_let_3 (tptp.fn_mitotic_cell_cycle_36 X))) (let ((_let_4 (tptp.fn_animal_mitotic_cycle_26 X))) (let ((_let_5 (tptp.fn_mitosis_31 _let_1))) (let ((_let_6 (tptp.fn_animal_mitotic_cycle_19 X))) (let ((_let_7 (tptp.fn_animal_mitotic_cycle_3 X))) (let ((_let_8 (tptp.fn_mitotic_cell_cycle_51 X))) (let ((_let_9 (tptp.fn_animal_mitotic_cycle_23 X))) (let ((_let_10 (tptp.fn_mitotic_cell_cycle_37 X))) (let ((_let_11 (tptp.fn_mammalian_mitotic_cycle_11 X))) (let ((_let_12 (tptp.fn_vertebrate_cell_22 _let_11))) (let ((_let_13 (tptp.fn_mammalian_mitotic_cycle_8 X))) (let ((_let_14 (tptp.fn_telophase_18 _let_13))) (let ((_let_15 (tptp.fn_animal_mitotic_cycle_25 X))) (let ((_let_16 (tptp.fn_mitosis_39 _let_1))) (let ((_let_17 (tptp.fn_mammalian_mitotic_cycle_10 X))) (let ((_let_18 (tptp.fn_mammalian_mitotic_cycle_12 X))) (let ((_let_19 (tptp.fn_mammalian_mitotic_cycle_5 X))) (let ((_let_20 (tptp.fn_mammalian_mitotic_cycle_2 X))) (let ((_let_21 (tptp.fn_mammalian_mitotic_cycle_4 X))) (let ((_let_22 (tptp.fn_mammalian_mitotic_cycle_9 X))) (let ((_let_23 (tptp.fn_mammalian_mitotic_cycle_7 X))) (let ((_let_24 (tptp.fn_mammalian_mitotic_cycle_3 X))) (let ((_let_25 (tptp.fn_mammalian_mitotic_cycle_13 X))) (let ((_let_26 (tptp.fn_mammalian_mitotic_cycle_1 X))) (=> (tptp.mammalian_mitotic_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Mammalian-Mitotic-Cycle'|) (tptp.user_description_2 X |tptp.'Cell cycle followed by somatic cells in mammals. It results in daughter cells identical in genetic composition to the parent cells.'|) (tptp.concept2words_2 X |tptp.'undergo the mitotic cell cycle'|) (tptp.concept2words_2 X |tptp.'mammalian mitotic cycle'|) (tptp.concept2words_2 X |tptp.'mammalian-mitotic-cycle'|) (tptp.animal_mitotic_cycle_1 X) (tptp.mammalian_cell_1 _let_26) (tptp.mammalian_cell_1 _let_20) (tptp.mammalian_cell_1 _let_24) (tptp.mammalian_cell_1 _let_21) (tptp.mammalian_cell_1 _let_19) (tptp.mitosis_1 _let_1) (tptp.mammalian_cell_1 _let_23) (tptp.telophase_1 _let_13) (tptp.entity_1 _let_22) (tptp.tangible_entity_1 _let_22) (tptp.nucleus_1 _let_22) (tptp.entity_1 _let_17) (tptp.tangible_entity_1 _let_17) (tptp.nucleus_1 _let_17) (tptp.mammalian_cell_1 _let_11) (tptp.mammalian_cell_1 _let_18) (tptp.mammal_1 _let_25) (tptp.telophase_1 _let_16) (tptp.entity_1 _let_14) (tptp.tangible_entity_1 _let_14) (tptp.nucleus_1 _let_14) (tptp.tangible_entity_1 _let_12) (tptp.nucleus_1 _let_12) (tptp.eukaryotic_cell_1 _let_5) (tptp.cell_1 _let_5) (tptp.entity_1 _let_2) (tptp.tangible_entity_1 _let_2) (tptp.nucleus_1 _let_2) (tptp.has_state_2 _let_18 _let_26) (tptp.has_state_2 _let_26 _let_23) (tptp.experiencer_2 X _let_25) (tptp.result_2 _let_1 _let_22) (tptp.base_2 _let_1 _let_19) (tptp.result_2 _let_13 _let_22) (tptp.has_part_2 _let_11 _let_22) (not (= _let_11 _let_21)) (not (= _let_24 _let_11)) (not (= _let_11 _let_24)) (not (= _let_21 _let_11)) (tptp.base_2 X _let_18) (tptp.has_state_2 _let_18 _let_23) (tptp.has_state_2 _let_23 _let_19) (tptp.has_state_2 _let_19 _let_24) (not (= _let_24 _let_21)) (not (= _let_21 _let_24)) (tptp.result_2 X _let_21) (tptp.has_part_2 _let_21 _let_17) (not (= _let_22 _let_17)) (not (= _let_17 _let_22)) (tptp.object_2 X _let_18) (tptp.has_state_2 _let_18 _let_19) (tptp.has_state_2 _let_19 _let_20) (not (= _let_20 _let_11)) (tptp.result_2 X _let_11) (not (= _let_11 _let_20)) (tptp.subevent_2 _let_1 _let_13) (tptp.result_2 _let_13 _let_17) (tptp.result_2 _let_1 _let_17) (= _let_25 (tptp.fn_animal_mitotic_cycle_20 X)) (= _let_22 _let_2) (= _let_19 _let_5) (= _let_22 _let_14) (= _let_22 _let_12) (= _let_21 _let_7) (= _let_24 _let_9) (= _let_11 _let_7) (= _let_21 _let_6) (= _let_24 _let_15) (= _let_23 (tptp.fn_animal_mitotic_cycle_1 X)) (= _let_22 _let_10) (= _let_17 _let_3) (= _let_21 _let_9) (= _let_21 _let_8) (= _let_11 _let_6) (= _let_20 _let_7) (= _let_19 _let_4) (= _let_18 (tptp.fn_animal_mitotic_cycle_21 X)) (= _let_17 _let_2) (= _let_13 _let_16) (= _let_9 _let_15) (= _let_15 _let_15) (= _let_15 _let_2) (= _let_2 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_7) (= _let_7 _let_9) (= _let_9 _let_9) (= _let_6 _let_9) (= _let_9 _let_6) (= _let_6 _let_8) (= _let_8 _let_8) (= _let_8 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mammary_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mammary-Cell'|) (tptp.user_description_2 X |tptp.'The mammary cells are differentiated cells.'|) (tptp.concept2words_2 X |tptp.'mammary cell'|) (tptp.concept2words_2 X |tptp.'mammary-cell'|) (tptp.differentiated_cell_1 X) (not (tptp.differentiated_embryonic_cell_1 X)) (not (tptp.myoblast_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mammary_glands_1 X) (and (tptp.original_name_2 X |tptp.'Mammary-Glands'|) (tptp.user_description_2 X |tptp.'Exocrine glands in female mammals that produce milk to feed offspring.'|) (tptp.concept2words_2 X |tptp.'mammary glands'|) (tptp.concept2words_2 X |tptp.'mammary gland'|) (tptp.concept2words_2 X |tptp.'mammary-gland'|) (tptp.gland_1 X) (not (tptp.bartholins_gland_1 X)) (not (tptp.bulbourethral_gland_1 X)) (not (tptp.endocrine_gland_1 X)) (not (tptp.prostate_gland_1 X)) (not (tptp.salivary_gland_1 X)) (not (tptp.seminal_vesicle_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mandible_1 X) (and (tptp.original_name_2 X |tptp.'Mandible'|) (tptp.user_description_2 X |tptp.'Either of the paired jaw-like feeding appendages surrounding the mouth in crustaceans, hexapods, and myriapods. Also refers to the lower jaw of many vertebrates.'|) (tptp.concept2words_2 X tptp.mandible) (tptp.bone_1 X) (not (tptp.incus_1 X)) (not (tptp.jaw_1 X)) (not (tptp.malleus_1 X)) (not (tptp.stapes_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_manganese_9 X))) (let ((_let_2 (tptp.fn_manganese_12 X))) (let ((_let_3 (tptp.fn_manganese_10 X))) (let ((_let_4 (tptp.fn_manganese_11 X))) (let ((_let_5 (tptp.fn_manganese_4 X))) (let ((_let_6 (tptp.fn_manganese_5 X))) (let ((_let_7 (tptp.fn_manganese_3 X))) (=> (tptp.manganese_1 X) (and (tptp.original_name_2 X |tptp.'Manganese'|) (tptp.user_description_2 X |tptp.'Manganese is a metal atom with atomic number 25. It is represented by the symbol Mn.'|) (tptp.concept2words_2 X tptp.manganese) (tptp.concept2words_2 X |tptp.'Mn'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"30"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"25"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"25"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"7"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.55"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"55"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"25"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"54.94"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_manganese_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_manganese_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_manganese_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.manner_constant_1 X) (and (tptp.original_name_2 X |tptp.'Manner-Constant'|) (tptp.concept2words_2 X |tptp.'constant of manner'|) (tptp.concept2words_2 X |tptp.'manner constant'|) (tptp.concept2words_2 X |tptp.'manner-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.manner_value_1 X) (and (tptp.original_name_2 X |tptp.'Manner-Value'|) (tptp.description_2 X |tptp.'the manner in which an Event happens'|) (tptp.concept2words_2 X tptp.way) (tptp.concept2words_2 X tptp.mode) (tptp.concept2words_2 X tptp.style) (tptp.concept2words_2 X tptp.fashion) (tptp.concept2words_2 X |tptp.'personal manner'|) (tptp.concept2words_2 X tptp.manner) (tptp.concept2words_2 X |tptp.'value of manner'|) (tptp.concept2words_2 X |tptp.'manner value'|) (tptp.concept2words_2 X |tptp.'manner-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.mass_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mantle_1 X) (and (tptp.original_name_2 X |tptp.'Mantle'|) (tptp.user_description_2 X |tptp.'A fold of tissue that covers a mollusc_'s visceral mass and secretes the shell.'|) (tptp.concept2words_2 X tptp.mantle) (tptp.specialised_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mantle_cavity_1 X) (and (tptp.original_name_2 X |tptp.'Mantle-Cavity'|) (tptp.user_description_2 X |tptp.'A water-filled space between the visceral mass and mantle of a mollusc. Certain organs, including gills and anus, are located in the mantle cavity.'|) (tptp.concept2words_2 X |tptp.'cavity of mantle'|) (tptp.concept2words_2 X |tptp.'mantle cavity'|) (tptp.concept2words_2 X |tptp.'mantle-cavity'|) (tptp.body_cavity_1 X) (not (tptp.archenteron_1 X)) (not (tptp.coelom_1 X)) (not (tptp.rumen_1 X))))) (forall ((X $$unsorted)) (=> (tptp.map_1 X) (and (tptp.original_name_2 X |tptp.'Map'|) (tptp.user_description_2 X |tptp.'A map is a visual representation of an area or a method of presenting data in a visual way for clarification.'|) (tptp.concept2words_2 X tptp.map) (tptp.model_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_map_unit_11 X))) (let ((_let_2 (tptp.fn_recombination_frequency_2 _let_1))) (let ((_let_3 (tptp.fn_information_1 X))) (let ((_let_4 (tptp.fn_map_unit_12 X))) (let ((_let_5 (tptp.fn_recombination_frequency_1 _let_1))) (let ((_let_6 (tptp.fn_map_unit_10 X))) (let ((_let_7 (tptp.fn_map_unit_8 X))) (let ((_let_8 (tptp.fn_map_unit_6 X))) (let ((_let_9 (tptp.fn_map_unit_1 X))) (let ((_let_10 (tptp.fn_map_unit_7 X))) (=> (tptp.map_unit_1 X) (and (tptp.original_name_2 X |tptp.'Map-Unit'|) (tptp.user_description_2 X |tptp.'Relative distance between genes on a chromosome.'|) (tptp.concept2words_2 X tptp.centimorgan) (tptp.concept2words_2 X |tptp.'unit of map'|) (tptp.concept2words_2 X |tptp.'map unit'|) (tptp.concept2words_2 X |tptp.'map-unit'|) (tptp.distance_between_genes_1 X) (tptp.data_1 X) (not (tptp.recombination_frequency_1 X)) (not (tptp.tangible_entity_1 X)) (not (tptp.region_1 X)) (not (tptp.band_pattern_1 X)) (not (tptp.chiasma_1 X)) (not (tptp.nicks_in_damaged_dna_1 X)) (not (tptp.replication_fork_1 X)) (not (tptp.thermodynamic_system_1 X)) (not (tptp.waste_product_1 X)) (tptp.gene_1 _let_9) (tptp.system_1 (tptp.fn_map_unit_4 X)) (tptp.frequency_value_1 _let_8) (tptp.spatial_entity_1 _let_10) (tptp.length_value_1 _let_7) (tptp.gene_1 _let_6) (tptp.recombination_frequency_1 _let_1) (tptp.thing_1 _let_4) (tptp.random_recombination_1 _let_4) (tptp.gene_1 _let_5) (tptp.random_recombination_1 _let_2) (= _let_8 _let_7) (tptp.called_2 _let_8 |tptp.'FrequencyOfRecombination'|) (tptp.information_content_2 X _let_10) (tptp.is_between_2 _let_10 _let_6) (tptp.is_between_2 _let_10 _let_9) (tptp.exactCardinality _let_10 tptp.is_between_0 |"2"| tptp.gene_0) (tptp.object_2 _let_4 _let_9) (tptp.frequency_2 _let_4 _let_8) (tptp.distance_2 _let_4 _let_7) (= _let_7 _let_8) (tptp.called_2 _let_7 |tptp.'LengthOfMapUnit'|) (tptp.information_content_2 X _let_4) (tptp.information_content_2 _let_1 _let_4) (tptp.object_2 _let_4 _let_6) (= _let_4 _let_3) (= _let_6 _let_5) (= _let_4 _let_2) (= _let_3 _let_2) (= _let_2 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.margarine_1 X) (and (tptp.original_name_2 X |tptp.'Margarine'|) (tptp.user_description_2 X |tptp.'A butter substitute produced mainly from vegetable oil.'|) (tptp.concept2words_2 X tptp.margarine) (tptp.fat_1 X) (not (tptp.peanut_butter_1 X))))) (forall ((X $$unsorted)) (=> (tptp.marine_benthic_zone_1 X) (and (tptp.original_name_2 X |tptp.'Marine-Benthic-Zone'|) (tptp.user_description_2 X |tptp.'The bottom surface of a marine ecosystem. The ocean floor.'|) (tptp.concept2words_2 X |tptp.'marine benthic zone'|) (tptp.concept2words_2 X |tptp.'marine-benthic-zone'|) (tptp.benthic_zone_1 X) (not (tptp.abyssal_zone_1 X)) (not (tptp.aphotic_zone_1 X)) (not (tptp.deep_sea_hydrothermal_vent_1 X)) (not (tptp.estuary_1 X)) (not (tptp.eutrophic_lake_1 X)) (not (tptp.intertidal_zone_1 X)) (not (tptp.limnetic_zone_1 X)) (not (tptp.littoral_zone_1 X)) (not (tptp.neritic_zone_1 X)) (not (tptp.oceanic_pelagic_zone_1 X)) (not (tptp.oligotrophic_lake_1 X)) (not (tptp.photic_zone_1 X))))) (forall ((X $$unsorted)) (=> (tptp.marine_biome_1 X) (and (tptp.original_name_2 X |tptp.'Marine-Biome'|) (tptp.user_description_2 X |tptp.'An aquatic biome distinguished on the basis of physical and chemical characteristics, most notably the presence of salt concentrations which average 3% or higher. Marine biomes include the oceans which cover approximately 75% of the Earth_'s surface.'|) (tptp.concept2words_2 X |tptp.'biome of marine'|) (tptp.concept2words_2 X |tptp.'marine biome'|) (tptp.concept2words_2 X |tptp.'marine-biome'|) (tptp.biome_1 X) (not (tptp.freshwater_biome_1 X)) (not (tptp.terrestrial_biome_1 X))))) (forall ((X $$unsorted)) (=> (tptp.marine_invertebrate_1 X) (and (tptp.original_name_2 X |tptp.'Marine-Invertebrate'|) (tptp.user_description_2 X |tptp.'Invertebrates found in marine environment are marine invertebrates.'|) (tptp.concept2words_2 X |tptp.'invertebrate of marine'|) (tptp.concept2words_2 X |tptp.'marine invertebrate'|) (tptp.concept2words_2 X |tptp.'marine-invertebrate'|) (tptp.invertebrate_1 X)))) (forall ((X $$unsorted)) (=> (tptp.marine_mammal_1 X) (and (tptp.original_name_2 X |tptp.'Marine-Mammal'|) (tptp.user_description_2 X |tptp.'Specialized group of mammals adapted for life in the ocean.'|) (tptp.concept2words_2 X |tptp.'mammal of marine'|) (tptp.concept2words_2 X |tptp.'marine mammal'|) (tptp.concept2words_2 X |tptp.'marine-mammal'|) (tptp.mammal_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mark_2 X))) (let ((_let_2 (tptp.fn_mark_1 X))) (=> (tptp.mark_1 X) (and (tptp.original_name_2 X |tptp.'Mark'|) (tptp.concept2words_2 X tptp.write) (tptp.concept2words_2 X tptp.mark) (tptp.embody_1 X) (tptp.produce_1 X) (not (tptp.generation_of_kinetic_energy_1 X)) (not (tptp.optical_sectioning_1 X)) (not (tptp.speak_1 X)) (not (tptp.gesticulate_1 X)) (tptp.product_1 _let_2) (tptp.physical_mark_1 _let_1) (tptp.in_event_2 _let_2 X) (tptp.plays_2 _let_1 _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_embody_2 X))))))) (forall ((X $$unsorted)) (=> (tptp.mark_recapture_method_1 X) (and (tptp.original_name_2 X |tptp.'Mark-Recapture-Method'|) (tptp.user_description_2 X |tptp.'A sampling technique often used to estimate fish and wildlife populations.'|) (tptp.concept2words_2 X |tptp.'mark recapture method'|) (tptp.concept2words_2 X |tptp.'mark-recapture-method'|) (tptp.population_biology_technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.microscopy_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X))))) (forall ((X $$unsorted)) (=> (tptp.marsupial_1 X) (and (tptp.original_name_2 X |tptp.'Marsupial'|) (tptp.user_description_2 X |tptp.'A group of mammals whose young are born precociously and complete their fetal development inside a pouch on their mother_'s belly. Examples include koalas, opossums, and kangaroos.'|) (tptp.concept2words_2 X tptp.marsupial) (tptp.mammal_1 X) (not (tptp.eutherian_1 X)) (not (tptp.insectivora_1 X)) (not (tptp.lagomorpha_1 X)) (not (tptp.monotreme_1 X)) (not (tptp.person_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mass_constant_1 X) (and (tptp.original_name_2 X |tptp.'Mass-Constant'|) (tptp.concept2words_2 X |tptp.'constant of mass'|) (tptp.concept2words_2 X |tptp.'mass constant'|) (tptp.concept2words_2 X |tptp.'mass-constant'|) (tptp.constant_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mass_extinction_1 X) (and (tptp.original_name_2 X |tptp.'Mass-Extinction'|) (tptp.user_description_2 X |tptp.'A widespread and rapid decrease in the diversity of life on Earth, in which species across many taxa go extinct. Mass extinction occurs when the extinction rate increases more rapidly than the rate of speciation.'|) (tptp.concept2words_2 X |tptp.'extinction of mass'|) (tptp.concept2words_2 X |tptp.'mass extinction'|) (tptp.concept2words_2 X |tptp.'mass-extinction'|) (tptp.geological_time_period_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mass_scale_1 X) (and (tptp.original_name_2 X |tptp.'Mass-Scale'|) (tptp.concept2words_2 X |tptp.'scale of mass'|) (tptp.concept2words_2 X |tptp.'mass scale'|) (tptp.concept2words_2 X |tptp.'mass-scale'|) (tptp.scale_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mass_value_1 X) (and (tptp.original_name_2 X |tptp.'Mass-Value'|) (tptp.description_2 X |tptp.'the property of a body that causes it to have weight in a gravitational field'|) (tptp.concept2words_2 X tptp.mass) (tptp.concept2words_2 X |tptp.'atomic mass'|) (tptp.concept2words_2 X |tptp.'atomic-mass'|) (tptp.concept2words_2 X |tptp.'value of mass'|) (tptp.concept2words_2 X |tptp.'mass value'|) (tptp.concept2words_2 X |tptp.'mass-value'|) (tptp.property_value_1 X) (not (tptp.worth_value_1 X)) (not (tptp.wetness_value_1 X)) (not (tptp.voltage_value_1 X)) (not (tptp.unitless_value_1 X)) (not (tptp.truth_value_1 X)) (not (tptp.trait_value_1 X)) (not (tptp.texture_value_1 X)) (not (tptp.temperature_value_1 X)) (not (tptp.taste_value_1 X)) (not (tptp.state_value_1 X)) (not (tptp.smell_value_1 X)) (not (tptp.shape_value_1 X)) (not (tptp.sex_value_1 X)) (not (tptp.sentience_value_1 X)) (not (tptp.rotational_rate_value_1 X)) (not (tptp.rate_value_1 X)) (not (tptp.quantity_value_1 X)) (not (tptp.pressure_value_1 X)) (not (tptp.power_value_1 X)) (not (tptp.polarity_value_1 X)) (not (tptp.momentum_value_1 X)) (not (tptp.moment_of_inertia_value_1 X)) (not (tptp.manner_value_1 X)) (not (tptp.magnitude_value_1 X)) (not (tptp.luminous_intensity_value_1 X)) (not (tptp.luminous_flux_value_1 X)) (not (tptp.luminance_value_1 X)) (not (tptp.intensity_value_1 X)) (not (tptp.integrity_value_1 X)) (not (tptp.frequency_value_1 X)) (not (tptp.duration_value_1 X)) (not (tptp.density_value_1 X)) (not (tptp.consistency_value_1 X)) (not (tptp.color_value_1 X)) (not (tptp.capacity_value_1 X)) (not (tptp.brightness_value_1 X)) (not (tptp.breakability_value_1 X)) (not (tptp.area_value_1 X)) (not (tptp.animacy_value_1 X)) (not (tptp.angle_value_1 X)) (not (tptp.structural_complexity_value_1 X)) (not (tptp.electronegativity_value_1 X)) (not (tptp.coefficient_value_1 X)) (not (tptp.concentration_value_1 X)) (not (tptp.conductivity_value_1 X)) (not (tptp.electrolyte_status_value_1 X)) (not (tptp.equilibrium_constant_value_1 X)) (not (tptp.reaction_direction_value_1 X)) (not (tptp.salt_status_value_1 X)) (not (tptp.solubility_value_1 X)) (not (tptp.subscript_value_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mast_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mast-Cell'|) (tptp.user_description_2 X |tptp.'A type of cell found in various vertebrate tissues. Mast cells contain granules of histamine and heparin, which, when released, trigger an inflammatory response to pathogens and allergens.'|) (tptp.concept2words_2 X |tptp.'cell of mast'|) (tptp.concept2words_2 X |tptp.'mast cell'|) (tptp.concept2words_2 X |tptp.'mast-cell'|) (tptp.immune_cell_1 X) (not (tptp.antigen_presenting_cell_1 X)) (not (tptp.effector_cell_1 X)) (not (tptp.eosinophil_1 X)) (not (tptp.natural_killer_cell_1 X)) (not (tptp.neutrophil_1 X)) (not (tptp.recombinant_immune_cell_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_master_control_gene_8 X))) (let ((_let_2 (tptp.fn_code_for_1 _let_1))) (let ((_let_3 (tptp.fn_master_control_gene_13 X))) (let ((_let_4 (tptp.fn_kinetic_energy_2 _let_3))) (let ((_let_5 (tptp.fn_master_control_gene_11 X))) (let ((_let_6 (tptp.fn_cellular_response_3 _let_5))) (let ((_let_7 (tptp.fn_intracellular_process_1 _let_5))) (let ((_let_8 (tptp.fn_code_for_2 _let_1))) (let ((_let_9 (tptp.fn_master_control_gene_10 X))) (let ((_let_10 (tptp.fn_master_control_gene_16 X))) (let ((_let_11 (tptp.fn_master_control_gene_15 X))) (let ((_let_12 (tptp.fn_master_control_gene_21 X))) (let ((_let_13 (tptp.fn_master_control_gene_17 X))) (let ((_let_14 (tptp.fn_master_control_gene_14 X))) (let ((_let_15 (tptp.fn_master_control_gene_20 X))) (let ((_let_16 (tptp.fn_master_control_gene_18 X))) (let ((_let_17 (tptp.fn_master_control_gene_19 X))) (let ((_let_18 (tptp.fn_kinetic_energy_1 _let_3))) (let ((_let_19 (tptp.fn_master_control_gene_12 X))) (let ((_let_20 (tptp.fn_master_control_gene_9 X))) (let ((_let_21 (tptp.fn_master_control_gene_5 X))) (let ((_let_22 (tptp.fn_master_control_gene_6 X))) (let ((_let_23 (tptp.fn_master_control_gene_4 X))) (let ((_let_24 (tptp.fn_master_control_gene_7 X))) (let ((_let_25 (tptp.fn_master_control_gene_3 X))) (=> (tptp.master_control_gene_1 X) (and (tptp.original_name_2 X |tptp.'Master-Control-Gene'|) (tptp.user_description_2 X |tptp.'A single gene that, when expressed, initiates the development of a specific tissue or organ by activating many other genes.'|) (tptp.concept2words_2 X |tptp.'master regulatory gene'|) (tptp.concept2words_2 X |tptp.'master control gene'|) (tptp.concept2words_2 X |tptp.'master-control-gene'|) (tptp.regulatory_gene_1 X) (not (tptp.gap_gene_1 X)) (not (tptp.laci_1 X)) (not (tptp.operon_1 X)) (not (tptp.sonic_hedgehog_factor_1 X)) (not (tptp.trpr_1 X)) (tptp.gene_regulation_1 _let_25) (tptp.regulation_1 _let_23) (tptp.quantity_value_1 _let_21) (tptp.speed_value_1 _let_22) (tptp.carbon_skeleton_1 _let_24) (tptp.code_for_1 _let_1) (tptp.cell_1 _let_20) (tptp.transcription_factor_1 _let_9) (tptp.cellular_response_1 _let_5) (tptp.constant_motion_1 _let_19) (tptp.kinetic_energy_1 _let_3) (tptp.phosphodiester_bond_1 _let_14) (tptp.size_value_1 _let_11) (tptp.size_value_1 _let_10) (tptp.monomer_1 _let_13) (tptp.exon_1 _let_16) (tptp.exon_1 _let_17) (tptp.intron_1 _let_15) (tptp.monomer_1 _let_12) (tptp.constant_motion_1 _let_18) (tptp.entity_1 _let_8) (tptp.cell_1 _let_7) (tptp.cell_1 _let_6) (tptp.tangible_entity_1 _let_4) (tptp.entity_1 _let_2) (tptp.agent_2 _let_25 X) (tptp.has_region_2 X _let_24) (tptp.agent_2 _let_23 X) (tptp.supports_2 _let_23 _let_5) (tptp.directly_proportional_2 _let_22 _let_21) (tptp.speed_2 _let_19 _let_22) (tptp.quantity_2 _let_3 _let_21) (tptp.base_2 _let_5 _let_20) (tptp.possesses_2 X _let_3) (tptp.object_2 _let_19 X) (tptp.is_between_2 _let_15 _let_17) (tptp.next_element_2 _let_17 _let_15) (tptp.donor_2 _let_1 X) (tptp.has_function_2 X _let_1) (tptp.element_2 X _let_12) (tptp.first_element_2 X _let_12) (tptp.element_2 X _let_17) (tptp.is_between_2 _let_14 _let_12) (tptp.possesses_2 X _let_14) (tptp.element_2 X _let_15) (tptp.next_element_2 _let_15 _let_16) (tptp.element_2 X _let_16) (tptp.size_2 X _let_10) (tptp.greater_than_2 _let_10 _let_11) (tptp.size_2 _let_12 _let_11) (tptp.next_element_2 _let_12 _let_13) (tptp.element_2 X _let_13) (tptp.agent_2 _let_1 X) (tptp.result_2 _let_1 _let_9) (= _let_20 _let_7) (= _let_20 _let_6) (= _let_19 _let_18) (= X _let_4) (= (tptp.fn_master_control_gene_23 X) (tptp.fn_regulatory_gene_13 X)) (= (tptp.fn_master_control_gene_22 X) (tptp.fn_regulatory_gene_12 X)) (= _let_17 (tptp.fn_regulatory_gene_7 X)) (= _let_1 (tptp.fn_regulatory_gene_1 X)) (= _let_16 (tptp.fn_regulatory_gene_9 X)) (= _let_15 (tptp.fn_regulatory_gene_8 X)) (= _let_14 (tptp.fn_regulatory_gene_6 X)) (= _let_13 (tptp.fn_regulatory_gene_10 X)) (= _let_12 (tptp.fn_regulatory_gene_11 X)) (= _let_11 (tptp.fn_regulatory_gene_4 X)) (= _let_10 (tptp.fn_regulatory_gene_5 X)) (= X _let_2) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.match_result_viewpoint_1 X) (and (tptp.original_name_2 X |tptp.'Match-Result-Viewpoint'|) (tptp.concept2words_2 X |tptp.'match result viewpoint'|) (tptp.concept2words_2 X |tptp.'match-result-viewpoint'|) (tptp.viewpoint_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mate_choice_copying_1 X) (and (tptp.original_name_2 X |tptp.'Mate-Choice-Copying'|) (tptp.user_description_2 X |tptp.'Behavior in which individual mate choice is based on mate choices of other individuals in the population.'|) (tptp.concept2words_2 X |tptp.'mate choice copying'|) (tptp.concept2words_2 X |tptp.'mate-choice-copying'|) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maternal_chromosome_2 X))) (let ((_let_2 (tptp.fn_chemical_bond_4 _let_1))) (let ((_let_3 (tptp.fn_chemical_bond_1 _let_1))) (let ((_let_4 (tptp.fn_maternal_chromosome_1 X))) (=> (tptp.maternal_chromosome_1 X) (and (tptp.original_name_2 X |tptp.'Maternal-Chromosome'|) (tptp.user_description_2 X |tptp.'One of a pair of homologous chromosomes originating from the female gamete.'|) (tptp.concept2words_2 X |tptp.'maternal chromosome'|) (tptp.concept2words_2 X |tptp.'maternal-chromosome'|) (tptp.homologous_chromosome_1 X) (tptp.deoxyribonucleoside_monophosphate_1 _let_4) (tptp.phosphodiester_bond_1 _let_1) (tptp.chemical_entity_1 _let_3) (tptp.chemical_entity_1 _let_2) (tptp.has_part_2 X _let_4) (tptp.possesses_2 X _let_1) (tptp.is_between_2 _let_1 _let_4) (= _let_4 _let_3) (= _let_4 _let_2) (= _let_3 _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.maternal_effect_1 X) (and (tptp.original_name_2 X |tptp.'Maternal-Effect'|) (tptp.user_description_2 X |tptp.'A situation in which the phenotype of an organism is influenced by the environment and genotype of the mother despite the organism_'s own genotype.'|) (tptp.concept2words_2 X |tptp.'maternal effect'|) (tptp.concept2words_2 X |tptp.'maternal-effect'|) (tptp.inheritance_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_sex_linked_gene_9 X))) (let ((_let_2 (tptp.fn_sex_linked_gene_10 X))) (let ((_let_3 (tptp.fn_sex_linked_gene_15 X))) (let ((_let_4 (tptp.fn_maternal_effect_gene_15 X))) (let ((_let_5 (tptp.fn_gene_expression_3 _let_4))) (let ((_let_6 (tptp.fn_gene_expression_4 _let_4))) (let ((_let_7 (tptp.fn_maternal_effect_gene_14 X))) (let ((_let_8 (tptp.fn_cytoplasmic_determinant_2 _let_7))) (let ((_let_9 (tptp.fn_maternal_effect_gene_24 X))) (let ((_let_10 (tptp.fn_maternal_effect_gene_25 X))) (let ((_let_11 (tptp.fn_maternal_effect_gene_22 X))) (let ((_let_12 (tptp.fn_maternal_effect_gene_23 X))) (let ((_let_13 (tptp.fn_maternal_effect_gene_7 X))) (let ((_let_14 (tptp.fn_maternal_effect_gene_10 X))) (let ((_let_15 (tptp.fn_maternal_effect_gene_9 X))) (let ((_let_16 (tptp.fn_maternal_effect_gene_8 X))) (let ((_let_17 (tptp.fn_maternal_effect_gene_26 X))) (let ((_let_18 (tptp.fn_maternal_effect_gene_17 X))) (let ((_let_19 (tptp.fn_maternal_effect_gene_11 X))) (let ((_let_20 (tptp.fn_maternal_effect_gene_19 X))) (let ((_let_21 (tptp.fn_maternal_effect_gene_18 X))) (let ((_let_22 (tptp.fn_maternal_effect_gene_16 X))) (let ((_let_23 (tptp.fn_gene_expression_6 _let_4))) (let ((_let_24 (tptp.fn_maternal_effect_gene_13 X))) (let ((_let_25 (tptp.fn_create_1 _let_24))) (let ((_let_26 (tptp.fn_maternal_effect_gene_12 X))) (let ((_let_27 (tptp.fn_maternal_effect_gene_1 X))) (let ((_let_28 (tptp.fn_maternal_effect_gene_5 X))) (let ((_let_29 (tptp.fn_maternal_effect_gene_4 X))) (let ((_let_30 (tptp.fn_maternal_effect_gene_6 X))) (let ((_let_31 (tptp.fn_maternal_effect_gene_2 X))) (let ((_let_32 (tptp.fn_maternal_effect_gene_3 X))) (=> (tptp.maternal_effect_gene_1 X) (and (tptp.original_name_2 X |tptp.'Maternal-Effect-Gene'|) (tptp.user_description_2 X |tptp.'A gene whose condition (i.e., mutant or not) in the mother determines the phenotype of the offspring, regardless of the offspring_'s genotype.'|) (tptp.concept2words_2 X |tptp.'egg polarity gene'|) (tptp.concept2words_2 X |tptp.'egg-polarity-gene'|) (tptp.concept2words_2 X |tptp.'maternal effect gene'|) (tptp.concept2words_2 X |tptp.'maternal-effect-gene'|) (tptp.sex_linked_gene_1 X) (tptp.anatomical_structure_1 _let_27) (tptp.regulation_1 _let_31) (tptp.egg_1 _let_32) (tptp.regulation_1 _let_29) (tptp.organism_1 _let_28) (tptp.entity_1 _let_30) (tptp.constant_motion_1 _let_13) (tptp.kinetic_energy_1 _let_16) (tptp.quantity_value_1 _let_15) (tptp.speed_value_1 _let_14) (tptp.code_for_1 _let_19) (tptp.body_axis_1 _let_26) (tptp.create_1 _let_24) (tptp.cytoplasmic_determinant_1 _let_7) (tptp.gene_expression_1 _let_4) (tptp.chemical_entity_1 _let_22) (tptp.protein_1 _let_22) (tptp.exon_1 _let_18) (tptp.exon_1 _let_21) (tptp.intron_1 _let_20) (tptp.size_value_1 _let_11) (tptp.size_value_1 _let_12) (tptp.monomer_1 _let_9) (tptp.monomer_1 _let_10) (tptp.phosphodiester_bond_1 _let_17) (tptp.entity_1 _let_25) (tptp.gene_1 _let_23) (tptp.chemical_entity_1 _let_8) (tptp.chemical_entity_1 _let_6) (tptp.protein_1 _let_6) (tptp.code_for_1 _let_5) (tptp.donor_2 _let_19 X) (tptp.agent_2 _let_31 X) (tptp.base_2 _let_31 _let_32) (tptp.causes_2 _let_31 _let_29) (tptp.object_2 _let_31 _let_30) (tptp.object_2 _let_29 _let_27) (tptp.base_2 _let_29 _let_28) (tptp.has_part_2 _let_28 _let_27) (tptp.agent_2 _let_24 _let_22) (tptp.result_2 _let_24 _let_26) (tptp.plays_2 _let_22 _let_7) (tptp.object_2 _let_4 X) (tptp.result_2 _let_4 _let_22) (tptp.result_2 _let_19 _let_22) (tptp.next_element_2 _let_20 _let_18) (tptp.element_2 X _let_21) (tptp.agent_2 _let_19 X) (tptp.has_function_2 X _let_19) (tptp.element_2 X _let_20) (tptp.is_between_2 _let_20 _let_21) (tptp.next_element_2 _let_21 _let_20) (tptp.is_between_2 _let_17 _let_10) (tptp.possesses_2 X _let_17) (tptp.element_2 X _let_10) (tptp.first_element_2 X _let_10) (tptp.element_2 X _let_18) (tptp.object_2 _let_13 X) (tptp.speed_2 _let_13 _let_14) (tptp.directly_proportional_2 _let_14 _let_15) (tptp.quantity_2 _let_16 _let_15) (tptp.possesses_2 X _let_16) (tptp.element_2 X _let_9) (tptp.next_element_2 _let_10 _let_9) (tptp.size_2 _let_10 _let_11) (tptp.greater_than_2 _let_12 _let_11) (tptp.size_2 X _let_12) (= _let_26 _let_25) (= _let_22 _let_8) (= X _let_23) (= _let_19 _let_5) (= _let_22 _let_6) (= (tptp.fn_maternal_effect_gene_20 X) (tptp.fn_sex_linked_gene_1 X)) (= (tptp.fn_maternal_effect_gene_21 X) (tptp.fn_sex_linked_gene_2 X)) (= _let_18 _let_2) (= (tptp.fn_maternal_effect_gene_27 X) (tptp.fn_sex_linked_gene_6 X)) (= _let_21 _let_2) (= (tptp.fn_maternal_effect_gene_28 X) (tptp.fn_sex_linked_gene_5 X)) (= _let_21 _let_1) (= _let_20 (tptp.fn_sex_linked_gene_8 X)) (= _let_19 _let_3) (= _let_18 _let_1) (= _let_17 (tptp.fn_sex_linked_gene_7 X)) (= _let_16 (tptp.fn_sex_linked_gene_14 X)) (= _let_15 (tptp.fn_sex_linked_gene_3 X)) (= _let_14 (tptp.fn_sex_linked_gene_4 X)) (= _let_13 (tptp.fn_sex_linked_gene_13 X)) (= _let_12 (tptp.fn_sex_linked_gene_11 X)) (= _let_11 (tptp.fn_sex_linked_gene_12 X)) (= _let_10 (tptp.fn_sex_linked_gene_17 X)) (= _let_9 (tptp.fn_sex_linked_gene_16 X)) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_2) (= _let_1 _let_1) (= _let_1 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2) (= _let_2 _let_1)))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maternal_effect_gene_mutation_1 X))) (let ((_let_2 (tptp.fn_organism_role_1 _let_1))) (let ((_let_3 (tptp.fn_maternal_effect_gene_mutation_2 X))) (let ((_let_4 (tptp.fn_create_1 _let_3))) (let ((_let_5 (tptp.fn_organism_role_2 _let_1))) (let ((_let_6 (tptp.fn_maternal_effect_gene_mutation_4 X))) (let ((_let_7 (tptp.fn_maternal_effect_gene_mutation_3 X))) (=> (tptp.maternal_effect_gene_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Maternal-Effect-Gene-Mutation'|) (tptp.user_description_2 X |tptp.'A gene mutation, that when mutant in the mother, results in a mutant phenotype in the offspring, regardless of the offspring_'s genotype.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'maternal effect gene mutation'|) (tptp.concept2words_2 X |tptp.'maternal-effect-gene-mutation'|) (tptp.development_related_mutation_1 X) (tptp.offspring_1 _let_1) (tptp.create_1 _let_3) (tptp.maternal_effect_gene_1 _let_7) (tptp.entity_1 _let_6) (tptp.organism_1 _let_6) (tptp.event_1 _let_5) (tptp.entity_1 _let_4) (tptp.organism_1 _let_2) (tptp.causes_2 X _let_3) (tptp.result_2 _let_3 _let_6) (tptp.object_2 X _let_7) (tptp.plays_2 _let_6 _let_1) (tptp.in_event_2 _let_1 X) (= _let_6 _let_4) (= _let_7 (tptp.fn_mutation_2 X)) (= _let_6 _let_2) (= X _let_5) (= _let_4 _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_maternal_substance_1 X))) (=> (tptp.maternal_substance_1 X) (and (tptp.original_name_2 X |tptp.'Maternal-Substance'|) (tptp.user_description_2 X |tptp.'The maternal substances in the egg that influence the course of early development, called cytoplasmic determinants,regulate the expression of genes that affect the developmental fate of the cells.'|) (tptp.concept2words_2 X |tptp.'maternal substance'|) (tptp.concept2words_2 X |tptp.'maternal-substance'|) (tptp.organic_entity_1 X) (tptp.substance_1 X) (tptp.egg_1 _let_1) (tptp.has_part_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mathematical_model_1 X) (and (tptp.original_name_2 X |tptp.'Mathematical-Model'|) (tptp.user_description_2 X |tptp.'A method of representing data or information based on mathematical formulas.'|) (tptp.concept2words_2 X |tptp.'mathematical model'|) (tptp.concept2words_2 X |tptp.'mathematical-model'|) (tptp.representation_of_data_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_matheos_experiment_38 X))) (let ((_let_2 (tptp.fn_fluorescent_staining_4 _let_1))) (let ((_let_3 (tptp.fn_matheos_experiment_39 X))) (let ((_let_4 (tptp.fn_add_2 _let_3))) (let ((_let_5 (tptp.fn_matheos_experiment_60 X))) (let ((_let_6 (tptp.fn_fungal_cell_18 _let_5))) (let ((_let_7 (tptp.fn_matheos_experiment_74 X))) (let ((_let_8 (tptp.fn_add_1 _let_7))) (let ((_let_9 (tptp.fn_matheos_experiment_63 X))) (let ((_let_10 (tptp.fn_fungal_cell_18 _let_9))) (let ((_let_11 (tptp.fn_matheos_experiment_73 X))) (let ((_let_12 (tptp.fn_add_1 _let_11))) (let ((_let_13 (tptp.fn_matheos_experiment_51 X))) (let ((_let_14 (tptp.fn_fungal_cell_18 _let_13))) (let ((_let_15 (tptp.fn_matheos_experiment_44 X))) (let ((_let_16 (tptp.fn_add_1 _let_15))) (let ((_let_17 (tptp.fn_matheos_experiment_47 X))) (let ((_let_18 (tptp.fn_fungal_cell_18 _let_17))) (let ((_let_19 (tptp.fn_matheos_experiment_45 X))) (let ((_let_20 (tptp.fn_add_1 _let_19))) (let ((_let_21 (tptp.fn_matheos_experiment_43 X))) (let ((_let_22 (tptp.fn_yeast_18 _let_21))) (let ((_let_23 (tptp.fn_add_1 _let_1))) (let ((_let_24 (tptp.fn_fluorescent_staining_4 _let_7))) (let ((_let_25 (tptp.fn_matheos_experiment_54 X))) (let ((_let_26 (tptp.fn_add_2 _let_25))) (let ((_let_27 (tptp.fn_fluorescent_staining_4 _let_11))) (let ((_let_28 (tptp.fn_matheos_experiment_55 X))) (let ((_let_29 (tptp.fn_add_2 _let_28))) (let ((_let_30 (tptp.fn_fluorescent_staining_2 _let_1))) (let ((_let_31 (tptp.fn_matheos_experiment_42 X))) (let ((_let_32 (tptp.fn_fluorescent_staining_3 _let_1))) (let ((_let_33 (tptp.fn_matheos_experiment_34 X))) (let ((_let_34 (tptp.fn_matheos_experiment_41 X))) (let ((_let_35 (tptp.fn_matheos_experiment_75 X))) (let ((_let_36 (tptp.fn_fungal_cell_17 _let_5))) (let ((_let_37 (tptp.fn_matheos_experiment_71 X))) (let ((_let_38 (tptp.fn_fungal_cell_1 _let_5))) (let ((_let_39 (tptp.fn_matheos_experiment_70 X))) (let ((_let_40 (tptp.fn_matheos_experiment_29 X))) (let ((_let_41 (tptp.fn_fungal_cell_17 _let_9))) (let ((_let_42 (tptp.fn_matheos_experiment_68 X))) (let ((_let_43 (tptp.fn_fungal_cell_1 _let_9))) (let ((_let_44 (tptp.fn_matheos_experiment_67 X))) (let ((_let_45 (tptp.fn_matheos_experiment_28 X))) (let ((_let_46 (tptp.fn_fungal_cell_17 _let_13))) (let ((_let_47 (tptp.fn_matheos_experiment_52 X))) (let ((_let_48 (tptp.fn_fungal_cell_1 _let_13))) (let ((_let_49 (tptp.fn_matheos_experiment_53 X))) (let ((_let_50 (tptp.fn_matheos_experiment_27 X))) (let ((_let_51 (tptp.fn_fungal_cell_17 _let_17))) (let ((_let_52 (tptp.fn_matheos_experiment_48 X))) (let ((_let_53 (tptp.fn_fungal_cell_1 _let_17))) (let ((_let_54 (tptp.fn_matheos_experiment_49 X))) (let ((_let_55 (tptp.fn_matheos_experiment_77 X))) (let ((_let_56 (tptp.fn_yeast_21 _let_21))) (let ((_let_57 (tptp.fn_matheos_experiment_76 X))) (let ((_let_58 (tptp.fn_fluorescent_staining_2 _let_15))) (let ((_let_59 (tptp.fn_matheos_experiment_50 X))) (let ((_let_60 (tptp.fn_fluorescent_staining_3 _let_15))) (let ((_let_61 (tptp.fn_matheos_experiment_31 X))) (let ((_let_62 (tptp.fn_matheos_experiment_59 X))) (let ((_let_63 (tptp.fn_fluorescent_staining_3 _let_7))) (let ((_let_64 (tptp.fn_matheos_experiment_33 X))) (let ((_let_65 (tptp.fn_fluorescent_staining_2 _let_7))) (let ((_let_66 (tptp.fn_matheos_experiment_72 X))) (let ((_let_67 (tptp.fn_matheos_experiment_56 X))) (let ((_let_68 (tptp.fn_fluorescent_staining_3 _let_11))) (let ((_let_69 (tptp.fn_matheos_experiment_32 X))) (let ((_let_70 (tptp.fn_fluorescent_staining_2 _let_11))) (let ((_let_71 (tptp.fn_matheos_experiment_69 X))) (let ((_let_72 (tptp.fn_fluorescent_staining_2 _let_19))) (let ((_let_73 (tptp.fn_matheos_experiment_46 X))) (let ((_let_74 (tptp.fn_fluorescent_staining_3 _let_19))) (let ((_let_75 (tptp.fn_matheos_experiment_30 X))) (let ((_let_76 (tptp.fn_matheos_experiment_40 X))) (let ((_let_77 (tptp.fn_fluorescent_staining_2 _let_76))) (let ((_let_78 (tptp.fn_matheos_experiment_35 X))) (let ((_let_79 (tptp.fn_matheos_experiment_79 X))) (let ((_let_80 (tptp.fn_cell_wall_15 _let_79))) (let ((_let_81 (tptp.fn_matheos_experiment_78 X))) (let ((_let_82 (tptp.fn_matheos_experiment_66 X))) (let ((_let_83 (tptp.fn_biotechnology_2 _let_82))) (let ((_let_84 (tptp.fn_matheos_experiment_61 X))) (let ((_let_85 (tptp.fn_matheos_experiment_62 X))) (let ((_let_86 (tptp.fn_scientist_2 _let_85))) (let ((_let_87 (tptp.fn_matheos_experiment_65 X))) (let ((_let_88 (tptp.fn_biotechnology_2 _let_87))) (let ((_let_89 (tptp.fn_matheos_experiment_64 X))) (let ((_let_90 (tptp.fn_fluorescent_staining_5 _let_1))) (let ((_let_91 (tptp.fn_fluorescent_staining_5 _let_7))) (let ((_let_92 (tptp.fn_fluorescent_staining_5 _let_11))) (let ((_let_93 (tptp.fn_fluorescent_staining_5 _let_76))) (let ((_let_94 (tptp.fn_matheos_experiment_37 X))) (let ((_let_95 (tptp.fn_add_1 _let_76))) (let ((_let_96 (tptp.fn_add_1 _let_3))) (let ((_let_97 (tptp.fn_matheos_experiment_36 X))) (let ((_let_98 (tptp.fn_add_1 _let_25))) (let ((_let_99 (tptp.fn_matheos_experiment_58 X))) (let ((_let_100 (tptp.fn_add_1 _let_28))) (let ((_let_101 (tptp.fn_matheos_experiment_57 X))) (let ((_let_102 (tptp.fn_fluorescent_staining_5 _let_19))) (let ((_let_103 (tptp.fn_fluorescent_staining_5 _let_15))) (let ((_let_104 (tptp.fn_matheos_experiment_5 X))) (let ((_let_105 (tptp.fn_matheos_experiment_6 X))) (let ((_let_106 (tptp.fn_matheos_experiment_1 X))) (let ((_let_107 (tptp.fn_matheos_experiment_2 X))) (let ((_let_108 (tptp.fn_matheos_experiment_7 X))) (let ((_let_109 (tptp.fn_matheos_experiment_8 X))) (let ((_let_110 (tptp.fn_matheos_experiment_11 X))) (let ((_let_111 (tptp.fn_matheos_experiment_13 X))) (let ((_let_112 (tptp.fn_matheos_experiment_12 X))) (let ((_let_113 (tptp.fn_matheos_experiment_15 X))) (let ((_let_114 (tptp.fn_matheos_experiment_17 X))) (let ((_let_115 (tptp.fn_matheos_experiment_18 X))) (let ((_let_116 (tptp.fn_matheos_experiment_19 X))) (let ((_let_117 (tptp.fn_matheos_experiment_23 X))) (let ((_let_118 (tptp.fn_matheos_experiment_24 X))) (=> (tptp.matheos_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Matheos-Experiment'|) (tptp.user_description_2 X |tptp.'Experiment conducted by D. Matheos and colleagues at Princeton University which studied the communication pathways used by mating yeast.'|) (tptp.concept2words_2 X |tptp.'matheos experiment'|) (tptp.concept2words_2 X |tptp.'matheos-experiment'|) (tptp.experiment_1 X) (tptp.saccharomyces_cerevisiae_1 _let_106) (tptp.saccharomyces_cerevisiae_1 _let_107) (tptp.color_value_1 _let_104) (tptp.color_value_1 _let_105) (tptp.color_value_1 _let_108) (tptp.color_value_1 _let_109) (tptp.color_value_1 _let_110) (tptp.formin_1 _let_112) (tptp.fus3_1 _let_111) (tptp.color_value_1 _let_113) (tptp.color_value_1 _let_114) (tptp.color_value_1 _let_115) (tptp.color_value_1 _let_116) (tptp.color_value_1 _let_117) (tptp.color_value_1 _let_118) (tptp.spatial_entity_1 _let_50) (tptp.fungal_cell_wall_1 _let_50) (tptp.spatial_entity_1 _let_45) (tptp.fungal_cell_wall_1 _let_45) (tptp.spatial_entity_1 _let_40) (tptp.fungal_cell_wall_1 _let_40) (tptp.fluorescent_substance_1 _let_75) (tptp.fluorescent_substance_1 _let_61) (tptp.fluorescent_substance_1 _let_69) (tptp.fluorescent_substance_1 _let_64) (tptp.fluorescent_substance_1 _let_33) (tptp.fluorescent_substance_1 _let_78) (tptp.mating_factor_1 _let_97) (tptp.shmoo_1 _let_94) (tptp.fluorescent_staining_1 _let_1) (tptp.add_1 _let_3) (tptp.fluorescent_staining_1 _let_76) (tptp.spatial_entity_1 _let_34) (tptp.specimen_stained_with_fluorescent_substance_1 _let_34) (tptp.fluorescent_substance_1 _let_31) (tptp.saccharomyces_cerevisiae_1 _let_21) (tptp.fluorescent_staining_1 _let_15) (tptp.fluorescent_staining_1 _let_19) (tptp.fluorescent_substance_1 _let_73) (tptp.delta_fus3_yeast_1 _let_17) (tptp.membrane_1 _let_52) (tptp.spatial_entity_1 _let_52) (tptp.biomembrane_1 _let_52) (tptp.plasma_membrane_1 _let_52) (tptp.extra_cellular_matrix_1 _let_54) (tptp.fluorescent_substance_1 _let_59) (tptp.delta_formin_yeast_1 _let_13) (tptp.membrane_1 _let_47) (tptp.spatial_entity_1 _let_47) (tptp.biomembrane_1 _let_47) (tptp.plasma_membrane_1 _let_47) (tptp.extra_cellular_matrix_1 _let_49) (tptp.add_1 _let_25) (tptp.add_1 _let_28) (tptp.spatial_entity_1 _let_67) (tptp.specimen_stained_with_fluorescent_substance_1 _let_67) (tptp.mating_factor_1 _let_101) (tptp.mating_factor_1 _let_99) (tptp.spatial_entity_1 _let_62) (tptp.specimen_stained_with_fluorescent_substance_1 _let_62) (tptp.delta_formin_yeast_1 _let_5) (tptp.change_1 _let_84) (tptp.scientist_1 _let_85) (tptp.delta_fus3_yeast_1 _let_9) (tptp.change_1 _let_89) (tptp.in_vitro_mutagenesis_1 _let_87) (tptp.in_vitro_mutagenesis_1 _let_82) (tptp.extra_cellular_matrix_1 _let_44) (tptp.membrane_1 _let_42) (tptp.spatial_entity_1 _let_42) (tptp.biomembrane_1 _let_42) (tptp.plasma_membrane_1 _let_42) (tptp.fluorescent_substance_1 _let_71) (tptp.extra_cellular_matrix_1 _let_39) (tptp.membrane_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.biomembrane_1 _let_37) (tptp.plasma_membrane_1 _let_37) (tptp.fluorescent_substance_1 _let_66) (tptp.fluorescent_staining_1 _let_11) (tptp.fluorescent_staining_1 _let_7) (tptp.spatial_entity_1 _let_35) (tptp.fungal_cell_wall_1 _let_35) (tptp.membrane_1 _let_57) (tptp.spatial_entity_1 _let_57) (tptp.biomembrane_1 _let_57) (tptp.plasma_membrane_1 _let_57) (tptp.spatial_entity_1 _let_55) (tptp.fungal_cell_wall_1 _let_55) (tptp.membrane_1 _let_81) (tptp.spatial_entity_1 _let_81) (tptp.biomembrane_1 _let_81) (tptp.plasma_membrane_1 _let_81) (tptp.fungal_cell_wall_1 _let_79) (tptp.tangible_entity_1 _let_103) (tptp.tangible_entity_1 _let_102) (tptp.spatial_entity_1 _let_100) (tptp.spatial_entity_1 _let_98) (tptp.spatial_entity_1 _let_96) (tptp.spatial_entity_1 _let_95) (tptp.tangible_entity_1 _let_93) (tptp.tangible_entity_1 _let_92) (tptp.tangible_entity_1 _let_91) (tptp.tangible_entity_1 _let_90) (tptp.change_1 _let_88) (tptp.study_1 _let_86) (tptp.change_1 _let_83) (tptp.membrane_1 _let_80) (tptp.spatial_entity_1 _let_80) (tptp.biomembrane_1 _let_80) (tptp.plasma_membrane_1 _let_80) (tptp.fluorescent_substance_1 _let_77) (tptp.fluorescent_substance_1 _let_74) (tptp.fluorescent_substance_1 _let_72) (tptp.fluorescent_substance_1 _let_70) (tptp.fluorescent_substance_1 _let_68) (tptp.fluorescent_substance_1 _let_65) (tptp.fluorescent_substance_1 _let_63) (tptp.fluorescent_substance_1 _let_60) (tptp.fluorescent_substance_1 _let_58) (tptp.membrane_1 _let_56) (tptp.spatial_entity_1 _let_56) (tptp.biomembrane_1 _let_56) (tptp.plasma_membrane_1 _let_56) (tptp.extra_cellular_matrix_1 _let_53) (tptp.membrane_1 _let_51) (tptp.spatial_entity_1 _let_51) (tptp.biomembrane_1 _let_51) (tptp.plasma_membrane_1 _let_51) (tptp.extra_cellular_matrix_1 _let_48) (tptp.membrane_1 _let_46) (tptp.spatial_entity_1 _let_46) (tptp.biomembrane_1 _let_46) (tptp.plasma_membrane_1 _let_46) (tptp.extra_cellular_matrix_1 _let_43) (tptp.membrane_1 _let_41) (tptp.spatial_entity_1 _let_41) (tptp.biomembrane_1 _let_41) (tptp.plasma_membrane_1 _let_41) (tptp.extra_cellular_matrix_1 _let_38) (tptp.membrane_1 _let_36) (tptp.spatial_entity_1 _let_36) (tptp.biomembrane_1 _let_36) (tptp.plasma_membrane_1 _let_36) (tptp.fluorescent_substance_1 _let_32) (tptp.fluorescent_substance_1 _let_30) (tptp.spatial_entity_1 _let_29) (tptp.specimen_stained_with_fluorescent_substance_1 _let_27) (tptp.spatial_entity_1 _let_26) (tptp.specimen_stained_with_fluorescent_substance_1 _let_24) (tptp.spatial_entity_1 _let_23) (tptp.fungal_cell_wall_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.fungal_cell_wall_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.fungal_cell_wall_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.fungal_cell_wall_1 _let_10) (tptp.spatial_entity_1 _let_8) (tptp.fungal_cell_wall_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.specimen_stained_with_fluorescent_substance_1 _let_2) (tptp.color_2 _let_75 _let_118) (tptp.the_categorical_value_2 _let_118 tptp.yellow_0) (tptp.color_2 _let_61 _let_117) (tptp.the_categorical_value_2 _let_117 tptp.yellow_0) (tptp.color_2 _let_69 _let_116) (tptp.the_categorical_value_2 _let_116 tptp.green_0) (tptp.color_2 _let_64 _let_115) (tptp.the_categorical_value_2 _let_115 tptp.green_0) (tptp.color_2 _let_33 _let_114) (tptp.the_categorical_value_2 _let_114 tptp.green_0) (tptp.color_2 _let_78 _let_113) (tptp.the_categorical_value_2 _let_113 tptp.red_0) (tptp.next_event_2 _let_1 _let_3) (tptp.called_2 _let_1 |"5"|) (tptp.result_2 _let_3 _let_94) (tptp.next_event_2 _let_3 _let_76) (tptp.called_2 _let_76 |"6"|) (tptp.has_state_2 _let_34 _let_94) (tptp.color_2 _let_31 _let_110) (tptp.has_part_2 _let_21 _let_112) (tptp.has_part_2 _let_21 _let_111) (tptp.the_categorical_value_2 _let_110 tptp.green_0) (tptp.called_2 _let_15 |"2"|) (tptp.called_2 _let_19 |"4"|) (tptp.color_2 _let_73 _let_109) (tptp.is_outside_2 _let_54 _let_17) (tptp.the_categorical_value_2 _let_109 tptp.red_0) (tptp.color_2 _let_59 _let_108) (tptp.is_outside_2 _let_49 _let_13) (tptp.the_categorical_value_2 _let_108 tptp.red_0) (tptp.next_event_2 _let_25 _let_15) (tptp.result_2 _let_25 _let_13) (tptp.called_2 _let_25 |"1"|) (tptp.next_event_2 _let_28 _let_19) (tptp.result_2 _let_28 _let_17) (tptp.called_2 _let_28 |"2"|) (tptp.has_state_2 _let_67 _let_17) (tptp.has_state_2 _let_62 _let_13) (tptp.subevent_2 X _let_82) (tptp.subevent_2 X _let_87) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_28) (tptp.subevent_2 X _let_15) (tptp.subevent_2 X _let_19) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_76) (tptp.first_subevent_2 X _let_82) (tptp.first_subevent_2 X _let_87) (tptp.result_2 _let_84 _let_5) (tptp.base_2 _let_84 _let_107) (tptp.result_2 _let_89 _let_9) (tptp.base_2 _let_89 _let_106) (tptp.agent_2 _let_87 _let_85) (tptp.result_2 _let_87 _let_9) (tptp.next_event_2 _let_87 _let_11) (tptp.result_2 _let_82 _let_5) (tptp.agent_2 _let_82 _let_85) (tptp.next_event_2 _let_82 _let_7) (tptp.the_categorical_value_2 _let_105 tptp.green_0) (tptp.is_outside_2 _let_44 _let_9) (tptp.color_2 _let_71 _let_105) (tptp.the_categorical_value_2 _let_104 tptp.green_0) (tptp.is_outside_2 _let_39 _let_5) (tptp.color_2 _let_66 _let_104) (tptp.next_event_2 _let_11 _let_28) (tptp.called_2 _let_11 |"3"|) (tptp.next_event_2 _let_7 _let_25) (tptp.called_2 _let_7 |"1"|) (tptp.base_2 _let_15 _let_13) (tptp.base_2 _let_19 _let_17) (tptp.object_2 _let_28 _let_101) (tptp.object_2 _let_25 _let_99) (tptp.object_2 _let_3 _let_97) (tptp.object_2 _let_19 _let_50) (tptp.object_2 _let_15 _let_45) (tptp.object_2 _let_76 _let_79) (tptp.base_2 _let_76 _let_94) (tptp.object_2 _let_11 _let_40) (tptp.object_2 _let_1 _let_55) (tptp.object_2 _let_7 _let_35) (tptp.base_2 _let_11 _let_9) (tptp.has_state_2 _let_9 _let_67) (tptp.base_2 _let_7 _let_5) (tptp.has_state_2 _let_5 _let_62) (tptp.base_2 _let_1 _let_21) (tptp.has_state_2 _let_21 _let_34) (tptp.base_2 _let_28 _let_67) (tptp.base_2 _let_3 _let_34) (tptp.base_2 _let_25 _let_62) (tptp.by_means_of_2 _let_87 _let_89) (tptp.agent_2 X _let_85) (tptp.by_means_of_2 _let_82 _let_84) (tptp.agent_2 _let_76 _let_78) (tptp.agent_2 _let_19 _let_73) (tptp.has_state_2 _let_73 _let_75) (tptp.agent_2 _let_11 _let_71) (tptp.result_2 _let_11 _let_67) (tptp.has_part_2 _let_67 _let_69) (tptp.agent_2 _let_7 _let_66) (tptp.result_2 _let_7 _let_62) (tptp.has_part_2 _let_62 _let_64) (tptp.agent_2 _let_15 _let_59) (tptp.has_state_2 _let_59 _let_61) (tptp.has_part_2 _let_21 _let_55) (tptp.is_outside_2 _let_55 _let_57) (tptp.has_part_2 _let_21 _let_57) (tptp.has_part_2 _let_17 _let_52) (tptp.has_part_2 _let_17 _let_50) (tptp.is_outside_2 _let_50 _let_52) (tptp.is_outside_2 _let_54 _let_52) (tptp.has_part_2 _let_13 _let_47) (tptp.has_part_2 _let_13 _let_45) (tptp.is_outside_2 _let_45 _let_47) (tptp.is_outside_2 _let_49 _let_47) (tptp.has_part_2 _let_9 _let_42) (tptp.has_part_2 _let_9 _let_40) (tptp.is_outside_2 _let_40 _let_42) (tptp.is_outside_2 _let_44 _let_42) (tptp.has_part_2 _let_5 _let_37) (tptp.has_part_2 _let_5 _let_35) (tptp.is_outside_2 _let_35 _let_37) (tptp.is_outside_2 _let_39 _let_37) (tptp.agent_2 _let_1 _let_31) (tptp.has_state_2 _let_31 _let_33) (tptp.has_part_2 _let_34 _let_33) (tptp.result_2 _let_1 _let_34) (= _let_13 _let_103) (= _let_17 _let_102) (= _let_101 _let_100) (= _let_99 _let_98) (= _let_97 _let_96) (= _let_50 _let_20) (= _let_45 _let_16) (= _let_79 _let_95) (= _let_94 _let_93) (= _let_40 _let_12) (= _let_55 _let_23) (= _let_35 _let_8) (= _let_9 _let_92) (= _let_5 _let_91) (= _let_21 _let_90) (= _let_67 _let_29) (= _let_34 _let_4) (= _let_62 _let_26) (= _let_89 _let_88) (= X _let_86) (= _let_84 _let_83) (= _let_81 _let_80) (= _let_78 _let_77) (= _let_75 _let_74) (= _let_73 _let_72) (= _let_71 _let_70) (= _let_69 _let_68) (= _let_67 _let_27) (= _let_66 _let_65) (= _let_64 _let_63) (= _let_62 _let_24) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_22) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_18) (= _let_49 _let_48) (= _let_47 _let_46) (= _let_45 _let_14) (= _let_44 _let_43) (= _let_42 _let_41) (= _let_40 _let_10) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_6) (= _let_34 _let_2) (= _let_33 _let_32) (= _let_31 _let_30) (= _let_27 _let_29) (= _let_29 _let_27) (= _let_27 _let_27) (= _let_27 _let_24) (= _let_24 _let_26) (= _let_26 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_2) (= _let_2 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mating_1 X) (and (tptp.original_name_2 X |tptp.'Mating'|) (tptp.user_description_2 X |tptp.'The pairing of opposite-sex or hermaphroditic organisms for copulation or sperm transfer.'|) (tptp.concept2words_2 X tptp.mate) (tptp.concept2words_2 X tptp.mating) (tptp.reproductive_behavior_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mating_factor_1 X) (and (tptp.original_name_2 X |tptp.'Mating-Factor'|) (tptp.user_description_2 X |tptp.'Signaling molecule which induces the mating response in yeast cells. There are two yeast mating factors, produced by two mating types, alpha and a. Mating type _'alpha_' produces alpha mating factor, and mating type _'a_' produces a mating factor.'|) (tptp.concept2words_2 X |tptp.'factor of mating'|) (tptp.concept2words_2 X |tptp.'mating factor'|) (tptp.concept2words_2 X |tptp.'mating-factor'|) (tptp.pheromone_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mating_factor_a_4 X))) (let ((_let_2 (tptp.fn_mating_factor_a_5 X))) (let ((_let_3 (tptp.fn_mating_factor_a_7 X))) (let ((_let_4 (tptp.fn_mating_factor_a_6 X))) (let ((_let_5 (tptp.fn_mating_factor_a_8 X))) (let ((_let_6 (tptp.fn_mating_factor_a_9 X))) (let ((_let_7 (tptp.fn_mating_factor_a_3 X))) (let ((_let_8 (tptp.fn_mating_factor_a_10 X))) (let ((_let_9 (tptp.fn_messenger_1 _let_8))) (=> (tptp.mating_factor_a_1 X) (and (tptp.original_name_2 X |tptp.'Mating-Factor-A'|) (tptp.user_description_2 X |tptp.'Signaling molecule produced by mating type a yeast cells, which communicates the presence of the mating type a cell to nearby mating type alpha cells.'|) (tptp.concept2words_2 X |tptp.'mating factor a'|) (tptp.concept2words_2 X |tptp.'mating-factor-a'|) (tptp.mating_factor_1 X) (tptp.constant_motion_1 _let_7) (tptp.atom_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.carbon_1 _let_2) (tptp.kinetic_energy_1 _let_4) (tptp.carbon_skeleton_1 _let_3) (tptp.quantity_value_1 _let_5) (tptp.speed_value_1 _let_6) (tptp.yeast_mating_factor_1 _let_8) (tptp.chemical_entity_1 _let_9) (tptp.plays_2 X _let_8) (tptp.possesses_2 X _let_4) (tptp.quantity_2 _let_4 _let_5) (tptp.directly_proportional_2 _let_6 _let_5) (tptp.speed_2 _let_7 _let_6) (tptp.object_2 _let_7 X) (tptp.has_part_2 X _let_1) (not (= _let_1 _let_2)) (tptp.is_inside_2 _let_2 _let_3) (tptp.has_region_2 X _let_3) (tptp.has_part_2 X _let_2) (not (= _let_2 _let_1)) (= X _let_9) (= (tptp.fn_mating_factor_a_2 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_mating_factor_a_1 X) (tptp.fn_molecule_1 X)) (= _let_7 (tptp.fn_molecule_8 X)) (= _let_6 (tptp.fn_molecule_3 X)) (= _let_5 (tptp.fn_molecule_4 X)) (= _let_4 (tptp.fn_molecule_12 X)) (= _let_3 (tptp.fn_hormone_1 X)) (= _let_2 (tptp.fn_hormone_2 X)) (= _let_1 (tptp.fn_hormone_3 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mating_factor_alpha_4 X))) (let ((_let_2 (tptp.fn_mating_factor_alpha_5 X))) (let ((_let_3 (tptp.fn_mating_factor_alpha_7 X))) (let ((_let_4 (tptp.fn_mating_factor_alpha_6 X))) (let ((_let_5 (tptp.fn_mating_factor_alpha_8 X))) (let ((_let_6 (tptp.fn_mating_factor_alpha_9 X))) (let ((_let_7 (tptp.fn_mating_factor_alpha_3 X))) (let ((_let_8 (tptp.fn_mating_factor_alpha_10 X))) (let ((_let_9 (tptp.fn_messenger_1 _let_8))) (=> (tptp.mating_factor_alpha_1 X) (and (tptp.original_name_2 X |tptp.'Mating-Factor-Alpha'|) (tptp.user_description_2 X |tptp.'Signaling molecule produced by mating type alpha yeast cells, which communicates the presence of the mating type alpha cell to nearby mating type a cells.'|) (tptp.concept2words_2 X |tptp.'mating factor alpha'|) (tptp.concept2words_2 X |tptp.'mating-factor-alpha'|) (tptp.mating_factor_1 X) (tptp.constant_motion_1 _let_7) (tptp.atom_1 _let_1) (tptp.chemical_entity_1 _let_1) (tptp.carbon_1 _let_2) (tptp.kinetic_energy_1 _let_4) (tptp.carbon_skeleton_1 _let_3) (tptp.quantity_value_1 _let_5) (tptp.speed_value_1 _let_6) (tptp.yeast_mating_factor_1 _let_8) (tptp.chemical_entity_1 _let_9) (tptp.plays_2 X _let_8) (tptp.possesses_2 X _let_4) (tptp.quantity_2 _let_4 _let_5) (tptp.directly_proportional_2 _let_6 _let_5) (tptp.speed_2 _let_7 _let_6) (tptp.object_2 _let_7 X) (tptp.has_part_2 X _let_1) (not (= _let_1 _let_2)) (tptp.is_inside_2 _let_2 _let_3) (tptp.has_region_2 X _let_3) (tptp.has_part_2 X _let_2) (not (= _let_2 _let_1)) (= X _let_9) (= (tptp.fn_mating_factor_alpha_2 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_mating_factor_alpha_1 X) (tptp.fn_molecule_1 X)) (= _let_7 (tptp.fn_molecule_8 X)) (= _let_6 (tptp.fn_molecule_3 X)) (= _let_5 (tptp.fn_molecule_4 X)) (= _let_4 (tptp.fn_molecule_12 X)) (= _let_3 (tptp.fn_hormone_1 X)) (= _let_2 (tptp.fn_hormone_2 X)) (= _let_1 (tptp.fn_hormone_3 X)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mating_of_saccharomyces_cerevisiae_9 X))) (let ((_let_2 (tptp.fn_shmoo_formation_4 _let_1))) (let ((_let_3 (tptp.fn_mating_of_saccharomyces_cerevisiae_18 X))) (let ((_let_4 (tptp.fn_shmoo_fusion_1 _let_3))) (let ((_let_5 (tptp.fn_mating_of_saccharomyces_cerevisiae_10 X))) (let ((_let_6 (tptp.fn_shmoo_formation_4 _let_5))) (let ((_let_7 (tptp.fn_shmoo_fusion_2 _let_3))) (let ((_let_8 (tptp.fn_mating_of_saccharomyces_cerevisiae_19 X))) (let ((_let_9 (tptp.fn_cell_communication_with_mating_factor_a_4 _let_8))) (let ((_let_10 (tptp.fn_mating_of_saccharomyces_cerevisiae_20 X))) (let ((_let_11 (tptp.fn_cell_communication_with_mating_factor_alpha_16 _let_10))) (let ((_let_12 (tptp.fn_shmoo_formation_2 _let_5))) (let ((_let_13 (tptp.fn_mating_of_saccharomyces_cerevisiae_17 X))) (let ((_let_14 (tptp.fn_shmoo_2 _let_13))) (let ((_let_15 (tptp.fn_mating_of_saccharomyces_cerevisiae_7 X))) (let ((_let_16 (tptp.fn_shmoo_4 _let_13))) (let ((_let_17 (tptp.fn_mating_of_saccharomyces_cerevisiae_8 X))) (let ((_let_18 (tptp.fn_shmoo_3 _let_13))) (let ((_let_19 (tptp.fn_mating_of_saccharomyces_cerevisiae_14 X))) (let ((_let_20 (tptp.fn_mating_of_saccharomyces_cerevisiae_21 X))) (let ((_let_21 (tptp.fn_shmoo_2 _let_20))) (let ((_let_22 (tptp.fn_mating_of_saccharomyces_cerevisiae_12 X))) (let ((_let_23 (tptp.fn_shmoo_4 _let_20))) (let ((_let_24 (tptp.fn_mating_of_saccharomyces_cerevisiae_13 X))) (let ((_let_25 (tptp.fn_shmoo_3 _let_20))) (let ((_let_26 (tptp.fn_mating_of_saccharomyces_cerevisiae_16 X))) (let ((_let_27 (tptp.fn_mating_of_saccharomyces_cerevisiae_11 X))) (let ((_let_28 (tptp.fn_cell_communication_with_mating_factor_a_6 _let_8))) (let ((_let_29 (tptp.fn_cell_communication_with_mating_factor_alpha_15 _let_10))) (let ((_let_30 (tptp.fn_mating_of_saccharomyces_cerevisiae_15 X))) (let ((_let_31 (tptp.fn_cell_communication_with_mating_factor_alpha_13 _let_10))) (let ((_let_32 (tptp.fn_mating_of_saccharomyces_cerevisiae_2 X))) (let ((_let_33 (tptp.fn_mating_of_saccharomyces_cerevisiae_1 X))) (let ((_let_34 (tptp.fn_mating_of_saccharomyces_cerevisiae_3 X))) (let ((_let_35 (tptp.fn_mating_of_saccharomyces_cerevisiae_4 X))) (let ((_let_36 (tptp.fn_mating_of_saccharomyces_cerevisiae_5 X))) (let ((_let_37 (tptp.fn_mating_of_saccharomyces_cerevisiae_6 X))) (=> (tptp.mating_of_saccharomyces_cerevisiae_1 X) (and (tptp.original_name_2 X |tptp.'Mating-of-Saccharomyces-Cerevisiae'|) (tptp.user_description_2 X |tptp.'Process of genetic exchange between different mating types, alpha and a , of haploid yeast cells, resulting in the formation of diploid yeast cells.'|) (tptp.concept2words_2 X |tptp.'mating of saccharomyces cerevisiae'|) (tptp.concept2words_2 X |tptp.'mating-of-saccharomyces-cerevisiae'|) (tptp.mating_1 X) (tptp.signal_reception_1 _let_33) (tptp.signal_transduction_with_phosphorylation_cascade_1 _let_32) (tptp.grow_1 _let_34) (tptp.grow_1 _let_35) (tptp.extra_cellular_matrix_1 _let_36) (tptp.extra_cellular_matrix_1 _let_37) (tptp.plasma_membrane_1 _let_15) (tptp.extra_cellular_matrix_1 _let_17) (tptp.intracellular_process_1 _let_1) (tptp.cellular_response_1 _let_1) (tptp.shmoo_formation_1 _let_1) (tptp.intracellular_process_1 _let_5) (tptp.cellular_response_1 _let_5) (tptp.shmoo_formation_1 _let_5) (tptp.yeast_1 _let_27) (tptp.mating_type_alpha_1 _let_27) (tptp.plasma_membrane_1 _let_22) (tptp.extra_cellular_matrix_1 _let_24) (tptp.lobe_1 _let_19) (tptp.cell_signaling_1 _let_30) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_30) (tptp.cell_signaling_with_mating_factor_1 _let_30) (tptp.lobe_1 _let_26) (tptp.shmoo_1 _let_13) (tptp.shmoo_fusion_1 _let_3) (tptp.cell_communication_with_mating_factor_a_1 _let_8) (tptp.cell_communication_with_mating_factor_alpha_1 _let_10) (tptp.shmoo_1 _let_20) (tptp.intracellular_process_1 _let_31) (tptp.cellular_response_1 _let_31) (tptp.shmoo_formation_1 _let_31) (tptp.cell_signaling_1 _let_29) (tptp.cell_signaling_with_g_protein_coupled_receptor_1 _let_29) (tptp.cell_signaling_with_mating_factor_1 _let_29) (tptp.intracellular_process_1 _let_28) (tptp.cellular_response_1 _let_28) (tptp.shmoo_formation_1 _let_28) (tptp.lobe_1 _let_25) (tptp.extra_cellular_matrix_1 _let_23) (tptp.plasma_membrane_1 _let_21) (tptp.lobe_1 _let_18) (tptp.extra_cellular_matrix_1 _let_16) (tptp.plasma_membrane_1 _let_14) (tptp.yeast_1 _let_12) (tptp.mating_type_alpha_1 _let_11) (tptp.mating_type_alpha_1 _let_9) (tptp.shmoo_1 _let_7) (tptp.shmoo_1 _let_6) (tptp.shmoo_1 _let_4) (tptp.shmoo_1 _let_2) (tptp.is_outside_2 _let_37 _let_15) (tptp.is_outside_2 _let_37 _let_13) (tptp.is_outside_2 _let_36 _let_22) (tptp.is_outside_2 _let_36 _let_20) (tptp.is_facing_2 _let_19 _let_26) (tptp.object_2 _let_35 _let_19) (tptp.toward_2 _let_35 _let_26) (tptp.toward_2 _let_34 _let_19) (tptp.object_2 _let_34 _let_26) (tptp.next_event_2 _let_32 _let_5) (tptp.agent_2 _let_32 _let_27) (tptp.recipient_2 _let_33 _let_27) (tptp.next_event_2 _let_33 _let_32) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_10) (tptp.subevent_2 X _let_3) (tptp.object_2 _let_3 _let_20) (tptp.base_2 _let_3 _let_13) (tptp.result_2 _let_1 _let_13) (tptp.result_2 _let_5 _let_20) (tptp.has_state_2 _let_27 _let_20) (tptp.agent_2 _let_10 _let_27) (tptp.subevent_2 _let_10 _let_30) (tptp.subevent_2 _let_30 _let_1) (tptp.object_2 _let_8 _let_27) (tptp.agent_2 _let_5 _let_27) (tptp.has_part_2 _let_20 _let_22) (tptp.is_outside_2 _let_24 _let_22) (tptp.is_outside_2 _let_24 _let_20) (tptp.has_part_2 _let_20 _let_26) (tptp.has_part_2 _let_13 _let_15) (tptp.is_outside_2 _let_17 _let_15) (tptp.is_outside_2 _let_17 _let_13) (tptp.has_part_2 _let_13 _let_19) (= _let_20 _let_7) (= _let_13 _let_4) (= _let_13 _let_2) (= _let_27 _let_12) (= _let_20 _let_6) (= _let_27 _let_11) (= _let_1 _let_31) (= _let_30 _let_29) (= _let_5 _let_28) (= _let_27 _let_9) (= _let_26 _let_25) (= _let_24 _let_23) (= _let_22 _let_21) (= _let_19 _let_18) (= _let_17 _let_16) (= _let_15 _let_14) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_2))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_yeast_21 X))) (let ((_let_2 (tptp.fn_mating_type_a_11 X))) (let ((_let_3 (tptp.fn_facilitated_diffusion_49 _let_2))) (let ((_let_4 (tptp.fn_mating_type_a_16 X))) (let ((_let_5 (tptp.fn_proton_pump_76 _let_4))) (let ((_let_6 (tptp.fn_electrogenic_pump_30 _let_4))) (let ((_let_7 (tptp.fn_transport_protein_35 _let_4))) (let ((_let_8 (tptp.fn_protein_pump_3 _let_4))) (let ((_let_9 (tptp.fn_carrier_protein_18 _let_4))) (let ((_let_10 (tptp.fn_mating_type_a_21 X))) (let ((_let_11 (tptp.fn_plasma_membrane_65 _let_10))) (let ((_let_12 (tptp.fn_biomembrane_41 _let_10))) (let ((_let_13 (tptp.fn_plasma_membrane_55 _let_10))) (let ((_let_14 (tptp.fn_facilitated_diffusion_50 _let_2))) (let ((_let_15 (tptp.fn_plasma_membrane_3 _let_10))) (let ((_let_16 (tptp.fn_plasma_membrane_54 _let_10))) (let ((_let_17 (tptp.fn_plasma_membrane_68 _let_10))) (let ((_let_18 (tptp.fn_plasma_membrane_71 _let_10))) (let ((_let_19 (tptp.fn_biomembrane_63 _let_10))) (let ((_let_20 (tptp.fn_transport_protein_12 _let_4))) (let ((_let_21 (tptp.fn_electrogenic_pump_19 _let_4))) (let ((_let_22 (tptp.fn_yeast_2 X))) (let ((_let_23 (tptp.fn_mating_type_a_12 X))) (let ((_let_24 (tptp.fn_cytoplasmic_side_1 _let_23))) (let ((_let_25 (tptp.fn_yeast_6 X))) (let ((_let_26 (tptp.fn_fungal_cell_8 X))) (let ((_let_27 (tptp.fn_yeast_3 X))) (let ((_let_28 (tptp.fn_fungal_cell_6 X))) (let ((_let_29 (tptp.fn_yeast_19 X))) (let ((_let_30 (tptp.fn_fungal_cell_7 X))) (let ((_let_31 (tptp.fn_electrogenic_pump_29 _let_4))) (let ((_let_32 (tptp.fn_passive_transport_of_solute_3 _let_2))) (let ((_let_33 (tptp.fn_mating_type_a_13 X))) (let ((_let_34 (tptp.fn_plasma_membrane_6 _let_10))) (let ((_let_35 (tptp.fn_mating_type_a_19 X))) (let ((_let_36 (tptp.fn_mating_type_a_14 X))) (let ((_let_37 (tptp.fn_mating_type_a_18 X))) (let ((_let_38 (tptp.fn_mating_type_a_17 X))) (let ((_let_39 (tptp.fn_plasma_membrane_66 _let_10))) (let ((_let_40 (tptp.fn_mating_type_a_10 X))) (let ((_let_41 (tptp.fn_mating_type_a_5 X))) (let ((_let_42 (tptp.fn_mating_type_a_7 X))) (let ((_let_43 (tptp.fn_mating_type_a_4 X))) (let ((_let_44 (tptp.fn_mating_type_a_6 X))) (let ((_let_45 (tptp.fn_facilitated_diffusion_51 _let_2))) (let ((_let_46 (tptp.fn_mating_type_a_9 X))) (let ((_let_47 (tptp.fn_facilitated_diffusion_52 _let_2))) (let ((_let_48 (tptp.fn_mating_type_a_20 X))) (let ((_let_49 (tptp.fn_mating_type_a_15 X))) (let ((_let_50 (tptp.fn_nucleus_13 _let_41))) (let ((_let_51 (tptp.fn_mating_type_a_8 X))) (let ((_let_52 (tptp.fn_plasma_membrane_4 _let_10))) (let ((_let_53 (tptp.fn_mating_type_a_1 X))) (let ((_let_54 (tptp.fn_mating_type_a_2 X))) (let ((_let_55 (tptp.fn_mating_type_a_3 X))) (=> (tptp.mating_type_a_1 X) (and (tptp.original_name_2 X |tptp.'Mating-Type-A'|) (tptp.user_description_2 X |tptp.'Strain of haploid yeast which deomstrates simple, genetically based sexual differentiation that distinguishes them from the other mating type, mating type alpha. Mating type a can only mate with mating type alpha.'|) (tptp.concept2words_2 X |tptp.'mating type a'|) (tptp.concept2words_2 X |tptp.'mating-type-a'|) (tptp.saccharomyces_cerevisiae_1 X) (tptp.extra_cellular_matrix_1 _let_53) (tptp.protein_enzyme_1 _let_54) (tptp.er_membrane_1 _let_55) (tptp.ribosome_1 _let_43) (tptp.eukaryotic_ribosome_1 _let_43) (tptp.tangible_entity_1 _let_41) (tptp.nucleus_1 _let_41) (tptp.golgi_apparatus_1 _let_44) (tptp.substance_1 _let_42) (tptp.cytosol_1 _let_42) (tptp.nuclear_membrane_1 _let_51) (tptp.biomembrane_1 _let_51) (tptp.attach_1 _let_46) (tptp.mixture_1 _let_40) (tptp.cytoplasm_1 _let_40) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_2) (tptp.cytoplasmic_side_1 _let_23) (tptp.outside_face_1 _let_33) (tptp.extracellular_side_1 _let_33) (tptp.spatial_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.transmembrane_protein_1 _let_36) (tptp.integral_protein_1 _let_36) (tptp.transport_protein_1 _let_36) (tptp.gradient_1 _let_49) (tptp.concentration_gradient_1 _let_49) (tptp.entity_1 _let_49) (tptp.membrane_potential_1 _let_49) (tptp.membrane_protein_1 _let_4) (tptp.carrier_protein_1 _let_4) (tptp.protein_pump_1 _let_4) (tptp.transport_protein_1 _let_4) (tptp.electrogenic_pump_1 _let_4) (tptp.proton_pump_1 _let_4) (tptp.tangible_entity_1 _let_38) (tptp.phospholipid_bilayer_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.membrane_protein_1 _let_37) (tptp.protein_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.polymer_1 _let_37) (tptp.hydrophobic_core_1 _let_35) (tptp.attach_1 _let_48) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.membrane_protein_1 _let_52) (tptp.nuclear_membrane_1 _let_50) (tptp.biomembrane_1 _let_50) (tptp.attach_1 _let_47) (tptp.attach_1 _let_45) (tptp.cytoplasmic_side_1 _let_39) (tptp.hydrophobic_core_1 _let_34) (tptp.gradient_1 _let_32) (tptp.concentration_gradient_1 _let_32) (tptp.entity_1 _let_31) (tptp.membrane_potential_1 _let_31) (tptp.cytoplasm_1 _let_24) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.phospholipid_bilayer_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.phospholipid_bilayer_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.protein_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.polymer_1 _let_16) (tptp.membrane_protein_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.membrane_protein_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.transmembrane_protein_1 _let_13) (tptp.integral_protein_1 _let_13) (tptp.transport_protein_1 _let_13) (tptp.outside_face_1 _let_12) (tptp.extracellular_side_1 _let_11) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.membrane_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.abuts_2 _let_51 _let_55) (tptp.abuts_2 _let_55 _let_51) (tptp.is_inside_2 _let_54 _let_55) (tptp.has_part_2 _let_40 _let_54) (tptp.is_oriented_toward_2 _let_23 _let_40) (not (= _let_36 _let_4)) (tptp.called_2 _let_36 |tptp.'MP2'|) (not (= _let_4 _let_36)) (not (= _let_4 _let_37)) (tptp.is_across_2 _let_4 _let_35) (tptp.called_2 _let_4 |tptp.'MP1'|) (not (= _let_37 _let_4)) (tptp.is_outside_2 _let_53 X) (tptp.is_outside_2 _let_53 _let_10) (tptp.is_at_2 _let_4 _let_10) (tptp.agent_2 _let_2 _let_49) (tptp.is_facing_2 _let_23 _let_40) (tptp.has_part_2 _let_41 _let_51) (tptp.is_across_2 _let_49 _let_10) (tptp.is_across_2 _let_4 _let_10) (tptp.has_part_2 _let_10 _let_4) (tptp.called_2 _let_37 |tptp.'MP1'|) (tptp.path_2 _let_2 _let_10) (tptp.base_2 _let_46 _let_10) (tptp.object_2 _let_46 _let_36) (tptp.object_2 _let_48 _let_36) (tptp.base_2 _let_48 _let_10) (tptp.is_inside_2 _let_44 _let_42) (tptp.is_inside_2 _let_40 _let_10) (tptp.has_part_2 _let_40 _let_42) (tptp.is_inside_2 _let_43 _let_42) (tptp.has_part_2 X _let_43) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_10) (tptp.is_between_2 _let_40 _let_10) (tptp.is_between_2 _let_40 _let_41) (tptp.has_part_2 X _let_41) (tptp.has_part_2 X _let_40) (tptp.called_2 _let_37 |tptp.'MP2'|) (tptp.is_inside_2 _let_36 _let_38) (tptp.has_part_2 _let_10 _let_38) (tptp.has_region_2 _let_10 _let_23) (tptp.has_part_2 _let_10 _let_37) (not (= _let_37 _let_36)) (tptp.is_across_2 _let_36 _let_10) (tptp.has_part_2 _let_10 _let_36) (tptp.is_at_2 _let_36 _let_10) (not (= _let_36 _let_37)) (tptp.has_region_2 _let_10 _let_33) (tptp.is_outside_2 _let_33 _let_10) (tptp.has_region_2 _let_10 _let_35) (tptp.is_across_2 _let_36 _let_35) (tptp.has_region_2 _let_36 _let_33) (= _let_4 _let_52) (= _let_49 _let_32) (= _let_40 _let_24) (= _let_51 _let_50) (= _let_49 _let_31) (= _let_10 _let_9) (= _let_10 _let_8) (= _let_10 _let_5) (= _let_48 _let_47) (= _let_36 _let_14) (= _let_46 _let_45) (= _let_10 _let_3) (= _let_44 _let_30) (= _let_44 _let_29) (= _let_43 _let_28) (= _let_42 _let_26) (= _let_43 _let_27) (= _let_42 _let_25) (= _let_41 (tptp.fn_yeast_4 X)) (= _let_40 _let_22) (= _let_10 _let_1) (= _let_23 _let_39) (= _let_10 _let_6) (= _let_38 _let_21) (= _let_10 _let_7) (= _let_38 _let_19) (= _let_38 _let_20) (= _let_38 _let_18) (= _let_36 _let_15) (= _let_37 _let_17) (= _let_37 _let_16) (= _let_36 _let_13) (= _let_35 _let_34) (= _let_33 _let_12) (= _let_33 _let_11) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_yeast_21 X))) (let ((_let_2 (tptp.fn_mating_type_alpha_11 X))) (let ((_let_3 (tptp.fn_facilitated_diffusion_49 _let_2))) (let ((_let_4 (tptp.fn_mating_type_alpha_16 X))) (let ((_let_5 (tptp.fn_proton_pump_76 _let_4))) (let ((_let_6 (tptp.fn_electrogenic_pump_30 _let_4))) (let ((_let_7 (tptp.fn_transport_protein_35 _let_4))) (let ((_let_8 (tptp.fn_protein_pump_3 _let_4))) (let ((_let_9 (tptp.fn_carrier_protein_18 _let_4))) (let ((_let_10 (tptp.fn_mating_type_alpha_21 X))) (let ((_let_11 (tptp.fn_plasma_membrane_65 _let_10))) (let ((_let_12 (tptp.fn_biomembrane_41 _let_10))) (let ((_let_13 (tptp.fn_plasma_membrane_55 _let_10))) (let ((_let_14 (tptp.fn_facilitated_diffusion_50 _let_2))) (let ((_let_15 (tptp.fn_plasma_membrane_3 _let_10))) (let ((_let_16 (tptp.fn_plasma_membrane_54 _let_10))) (let ((_let_17 (tptp.fn_plasma_membrane_68 _let_10))) (let ((_let_18 (tptp.fn_plasma_membrane_71 _let_10))) (let ((_let_19 (tptp.fn_biomembrane_63 _let_10))) (let ((_let_20 (tptp.fn_transport_protein_12 _let_4))) (let ((_let_21 (tptp.fn_electrogenic_pump_19 _let_4))) (let ((_let_22 (tptp.fn_yeast_2 X))) (let ((_let_23 (tptp.fn_mating_type_alpha_12 X))) (let ((_let_24 (tptp.fn_cytoplasmic_side_1 _let_23))) (let ((_let_25 (tptp.fn_yeast_6 X))) (let ((_let_26 (tptp.fn_fungal_cell_8 X))) (let ((_let_27 (tptp.fn_yeast_3 X))) (let ((_let_28 (tptp.fn_fungal_cell_6 X))) (let ((_let_29 (tptp.fn_yeast_19 X))) (let ((_let_30 (tptp.fn_fungal_cell_7 X))) (let ((_let_31 (tptp.fn_electrogenic_pump_29 _let_4))) (let ((_let_32 (tptp.fn_passive_transport_of_solute_3 _let_2))) (let ((_let_33 (tptp.fn_mating_type_alpha_13 X))) (let ((_let_34 (tptp.fn_plasma_membrane_6 _let_10))) (let ((_let_35 (tptp.fn_mating_type_alpha_19 X))) (let ((_let_36 (tptp.fn_mating_type_alpha_14 X))) (let ((_let_37 (tptp.fn_mating_type_alpha_18 X))) (let ((_let_38 (tptp.fn_mating_type_alpha_17 X))) (let ((_let_39 (tptp.fn_plasma_membrane_66 _let_10))) (let ((_let_40 (tptp.fn_mating_type_alpha_10 X))) (let ((_let_41 (tptp.fn_mating_type_alpha_5 X))) (let ((_let_42 (tptp.fn_mating_type_alpha_7 X))) (let ((_let_43 (tptp.fn_mating_type_alpha_4 X))) (let ((_let_44 (tptp.fn_mating_type_alpha_6 X))) (let ((_let_45 (tptp.fn_facilitated_diffusion_51 _let_2))) (let ((_let_46 (tptp.fn_mating_type_alpha_9 X))) (let ((_let_47 (tptp.fn_facilitated_diffusion_52 _let_2))) (let ((_let_48 (tptp.fn_mating_type_alpha_20 X))) (let ((_let_49 (tptp.fn_mating_type_alpha_15 X))) (let ((_let_50 (tptp.fn_nucleus_13 _let_41))) (let ((_let_51 (tptp.fn_mating_type_alpha_8 X))) (let ((_let_52 (tptp.fn_plasma_membrane_4 _let_10))) (let ((_let_53 (tptp.fn_mating_type_alpha_1 X))) (let ((_let_54 (tptp.fn_mating_type_alpha_2 X))) (let ((_let_55 (tptp.fn_mating_type_alpha_3 X))) (=> (tptp.mating_type_alpha_1 X) (and (tptp.original_name_2 X |tptp.'Mating-Type-Alpha'|) (tptp.user_description_2 X |tptp.'Strain of haploid yeast which deomstrates simple, genetically based sexual differentiation that distinguishes them from the other mating type, mating type a. Mating type alpha can only mate with mating type a.'|) (tptp.concept2words_2 X |tptp.'mating type alpha'|) (tptp.concept2words_2 X |tptp.'mating-type-alpha'|) (tptp.saccharomyces_cerevisiae_1 X) (tptp.extra_cellular_matrix_1 _let_53) (tptp.protein_enzyme_1 _let_54) (tptp.er_membrane_1 _let_55) (tptp.ribosome_1 _let_43) (tptp.eukaryotic_ribosome_1 _let_43) (tptp.tangible_entity_1 _let_41) (tptp.nucleus_1 _let_41) (tptp.golgi_apparatus_1 _let_44) (tptp.substance_1 _let_42) (tptp.cytosol_1 _let_42) (tptp.nuclear_membrane_1 _let_51) (tptp.biomembrane_1 _let_51) (tptp.attach_1 _let_46) (tptp.mixture_1 _let_40) (tptp.cytoplasm_1 _let_40) (tptp.facilitated_diffusion_of_polar_molecule_1 _let_2) (tptp.cytoplasmic_side_1 _let_23) (tptp.outside_face_1 _let_33) (tptp.extracellular_side_1 _let_33) (tptp.spatial_entity_1 _let_36) (tptp.membrane_protein_1 _let_36) (tptp.tangible_entity_1 _let_36) (tptp.transmembrane_protein_1 _let_36) (tptp.integral_protein_1 _let_36) (tptp.transport_protein_1 _let_36) (tptp.gradient_1 _let_49) (tptp.concentration_gradient_1 _let_49) (tptp.entity_1 _let_49) (tptp.membrane_potential_1 _let_49) (tptp.membrane_protein_1 _let_4) (tptp.carrier_protein_1 _let_4) (tptp.protein_pump_1 _let_4) (tptp.transport_protein_1 _let_4) (tptp.electrogenic_pump_1 _let_4) (tptp.proton_pump_1 _let_4) (tptp.tangible_entity_1 _let_38) (tptp.phospholipid_bilayer_1 _let_38) (tptp.tangible_entity_1 _let_37) (tptp.membrane_protein_1 _let_37) (tptp.protein_1 _let_37) (tptp.spatial_entity_1 _let_37) (tptp.polymer_1 _let_37) (tptp.hydrophobic_core_1 _let_35) (tptp.attach_1 _let_48) (tptp.membrane_1 _let_10) (tptp.spatial_entity_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.plasma_membrane_1 _let_10) (tptp.membrane_protein_1 _let_52) (tptp.nuclear_membrane_1 _let_50) (tptp.biomembrane_1 _let_50) (tptp.attach_1 _let_47) (tptp.attach_1 _let_45) (tptp.cytoplasmic_side_1 _let_39) (tptp.hydrophobic_core_1 _let_34) (tptp.gradient_1 _let_32) (tptp.concentration_gradient_1 _let_32) (tptp.entity_1 _let_31) (tptp.membrane_potential_1 _let_31) (tptp.cytoplasm_1 _let_24) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.tangible_entity_1 _let_19) (tptp.phospholipid_bilayer_1 _let_19) (tptp.tangible_entity_1 _let_18) (tptp.phospholipid_bilayer_1 _let_18) (tptp.tangible_entity_1 _let_17) (tptp.membrane_protein_1 _let_17) (tptp.protein_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.membrane_protein_1 _let_16) (tptp.protein_1 _let_16) (tptp.spatial_entity_1 _let_16) (tptp.polymer_1 _let_16) (tptp.membrane_protein_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.membrane_protein_1 _let_14) (tptp.tangible_entity_1 _let_13) (tptp.transmembrane_protein_1 _let_13) (tptp.integral_protein_1 _let_13) (tptp.transport_protein_1 _let_13) (tptp.outside_face_1 _let_12) (tptp.extracellular_side_1 _let_11) (tptp.membrane_1 _let_9) (tptp.spatial_entity_1 _let_9) (tptp.biomembrane_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.biomembrane_1 _let_7) (tptp.membrane_1 _let_6) (tptp.spatial_entity_1 _let_6) (tptp.biomembrane_1 _let_6) (tptp.membrane_1 _let_5) (tptp.spatial_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.abuts_2 _let_51 _let_55) (tptp.abuts_2 _let_55 _let_51) (tptp.is_inside_2 _let_54 _let_55) (tptp.has_part_2 _let_40 _let_54) (tptp.is_oriented_toward_2 _let_23 _let_40) (not (= _let_36 _let_4)) (tptp.called_2 _let_36 |tptp.'MP2'|) (not (= _let_4 _let_36)) (not (= _let_4 _let_37)) (tptp.is_across_2 _let_4 _let_35) (tptp.called_2 _let_4 |tptp.'MP1'|) (not (= _let_37 _let_4)) (tptp.is_outside_2 _let_53 X) (tptp.is_outside_2 _let_53 _let_10) (tptp.is_at_2 _let_4 _let_10) (tptp.agent_2 _let_2 _let_49) (tptp.is_facing_2 _let_23 _let_40) (tptp.has_part_2 _let_41 _let_51) (tptp.is_across_2 _let_49 _let_10) (tptp.is_across_2 _let_4 _let_10) (tptp.has_part_2 _let_10 _let_4) (tptp.called_2 _let_37 |tptp.'MP1'|) (tptp.path_2 _let_2 _let_10) (tptp.base_2 _let_46 _let_10) (tptp.object_2 _let_46 _let_36) (tptp.object_2 _let_48 _let_36) (tptp.base_2 _let_48 _let_10) (tptp.is_inside_2 _let_44 _let_42) (tptp.is_inside_2 _let_40 _let_10) (tptp.has_part_2 _let_40 _let_42) (tptp.is_inside_2 _let_43 _let_42) (tptp.has_part_2 X _let_43) (tptp.has_part_2 X _let_44) (tptp.has_part_2 X _let_10) (tptp.is_between_2 _let_40 _let_10) (tptp.is_between_2 _let_40 _let_41) (tptp.has_part_2 X _let_41) (tptp.has_part_2 X _let_40) (tptp.called_2 _let_37 |tptp.'MP2'|) (tptp.is_inside_2 _let_36 _let_38) (tptp.has_part_2 _let_10 _let_38) (tptp.has_region_2 _let_10 _let_23) (tptp.has_part_2 _let_10 _let_37) (not (= _let_37 _let_36)) (tptp.is_across_2 _let_36 _let_10) (tptp.has_part_2 _let_10 _let_36) (tptp.is_at_2 _let_36 _let_10) (not (= _let_36 _let_37)) (tptp.has_region_2 _let_10 _let_33) (tptp.is_outside_2 _let_33 _let_10) (tptp.has_region_2 _let_10 _let_35) (tptp.is_across_2 _let_36 _let_35) (tptp.has_region_2 _let_36 _let_33) (= _let_4 _let_52) (= _let_49 _let_32) (= _let_40 _let_24) (= _let_51 _let_50) (= _let_49 _let_31) (= _let_10 _let_9) (= _let_10 _let_8) (= _let_10 _let_5) (= _let_48 _let_47) (= _let_36 _let_14) (= _let_46 _let_45) (= _let_10 _let_3) (= _let_44 _let_30) (= _let_44 _let_29) (= _let_43 _let_28) (= _let_42 _let_26) (= _let_43 _let_27) (= _let_42 _let_25) (= _let_41 (tptp.fn_yeast_4 X)) (= _let_40 _let_22) (= _let_10 _let_1) (= _let_23 _let_39) (= _let_10 _let_6) (= _let_38 _let_21) (= _let_10 _let_7) (= _let_38 _let_19) (= _let_38 _let_20) (= _let_38 _let_18) (= _let_36 _let_15) (= _let_37 _let_17) (= _let_37 _let_16) (= _let_36 _let_13) (= _let_35 _let_34) (= _let_33 _let_12) (= _let_33 _let_11) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_28) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_19 _let_20) (= _let_20 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_16 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_11) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_6 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_5 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.maturation_1 X) (and (tptp.original_name_2 X |tptp.'Maturation'|) (tptp.user_description_2 X |tptp.'The act of comingto full development; becoming mature is called as maturation.'|) (tptp.concept2words_2 X tptp.mature) (tptp.concept2words_2 X tptp.maturation) (tptp.change_of_state_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mature_muscle_cell_1 X))) (=> (tptp.mature_muscle_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mature-Muscle-Cell'|) (tptp.user_description_2 X |tptp.'Muscle cell in a mature vertebrate which is no longer growing or dividing.'|) (tptp.concept2words_2 X |tptp.'mature muscle cell'|) (tptp.concept2words_2 X |tptp.'mature-muscle-cell'|) (tptp.nondividing_cell_1 X) (tptp.animal_cell_1 X) (tptp.muscle_cell_1 _let_1) (tptp.has_state_2 _let_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mature_nerve_cell_1 X))) (=> (tptp.mature_nerve_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mature-Nerve-Cell'|) (tptp.user_description_2 X |tptp.'Nerve cell in a mature vertebrate which is no longer growing or dividing.'|) (tptp.concept2words_2 X |tptp.'mature nerve cell'|) (tptp.concept2words_2 X |tptp.'mature-nerve-cell'|) (tptp.nondividing_cell_1 X) (tptp.animal_cell_1 X) (tptp.nerve_cell_1 _let_1) (tptp.has_state_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mayfly_1 X) (and (tptp.original_name_2 X |tptp.'Mayfly'|) (tptp.user_description_2 X |tptp.'An insect belonging to the order Ephemeroptera, which have aquatic larvae and a short-lived adult stage.'|) (tptp.concept2words_2 X tptp.dayfly) (tptp.concept2words_2 X tptp.shadfly) (tptp.concept2words_2 X tptp.mayfly) (tptp.ephemeroptera_1 X) (not (tptp.aphid_1 X)) (not (tptp.beetle_1 X)) (not (tptp.caddisfly_1 X)) (not (tptp.dermaptera_1 X)) (not (tptp.diptera_1 X)) (not (tptp.hymenoptera_1 X)) (not (tptp.isoptera_1 X)) (not (tptp.lepidoptera_1 X)) (not (tptp.odonata_1 X)) (not (tptp.orthoptera_1 X)) (not (tptp.sucking_louse_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meal_1 X))) (=> (tptp.meal_1 X) (and (tptp.original_name_2 X |tptp.'Meal'|) (tptp.concept2words_2 X tptp.meal) (tptp.activity_1 X) (tptp.eat_1 _let_1) (tptp.subevent_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.measure_1 X) (and (tptp.original_name_2 X |tptp.'Measure'|) (tptp.user_description_2 X |tptp.'The act of knowing the value of an entity.'|) (tptp.concept2words_2 X tptp.measure) (tptp.action_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mechanical_digestion_7 X))) (let ((_let_2 (tptp.fn_mechanical_digestion_3 X))) (let ((_let_3 (tptp.fn_mechanical_digestion_1 X))) (let ((_let_4 (tptp.fn_mechanical_digestion_4 X))) (=> (tptp.mechanical_digestion_1 X) (and (tptp.original_name_2 X |tptp.'Mechanical-Digestion'|) (tptp.user_description_2 X |tptp.'The breaking of food into smaller pieces by mechanical means, such as chewing or ginding, which increases the surface area for chemical processing.'|) (tptp.concept2words_2 X tptp.digest) (tptp.concept2words_2 X |tptp.'mechanical digestion'|) (tptp.concept2words_2 X |tptp.'mechanical-digestion'|) (tptp.digestive_process_1 X) (tptp.break_1 X) (tptp.substance_1 _let_3) (tptp.system_1 (tptp.fn_mechanical_digestion_2 X)) (tptp.surface_area_value_1 _let_2) (tptp.surface_area_value_1 _let_4) (tptp.tangible_entity_1 _let_1) (tptp.surface_area_2 _let_1 _let_4) (tptp.greater_than_2 _let_2 _let_4) (tptp.result_2 X _let_3) (tptp.surface_area_2 _let_3 _let_2) (tptp.object_2 X _let_1) (= _let_1 (tptp.fn_impair_1 X))))))))) (forall ((X $$unsorted)) (=> (tptp.mechanical_energy_1 X) (and (tptp.original_name_2 X |tptp.'Mechanical-Energy'|) (tptp.user_description_2 X |tptp.'The energy that is possessed by an object due to its motion or due to its position. Mechanical energy can be either kinetic energy (energy of motion) or potential energy (stored energy of position).'|) (tptp.concept2words_2 X |tptp.'mechanical energy'|) (tptp.concept2words_2 X |tptp.'mechanical-energy'|) (tptp.energy_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mechanical_isolation_1 X) (and (tptp.original_name_2 X |tptp.'Mechanical-Isolation'|) (tptp.user_description_2 X |tptp.'A prezygotic barrier to reproduction. In animals, mechanical isolation occurs when the genitals of mating individuals are not compatible. In angiosperms, mechanical isolation occurs when a pollinator can transfer pollen effectively only to flowers of the same species.'|) (tptp.concept2words_2 X |tptp.'mechanical isolation'|) (tptp.concept2words_2 X |tptp.'mechanical-isolation'|) (tptp.species_isolation_1 X) (not (tptp.adaptation_1 X)) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mimicry_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mechanical_work_7 X))) (let ((_let_2 (tptp.fn_dephosphorylation_10 _let_1))) (let ((_let_3 (tptp.fn_hydrolysis_9 _let_1))) (let ((_let_4 (tptp.fn_decomposition_reaction_4 _let_1))) (let ((_let_5 (tptp.fn_exergonic_reaction_11 _let_1))) (let ((_let_6 (tptp.fn_mechanical_work_3 X))) (let ((_let_7 (tptp.fn_mechanical_work_6 X))) (let ((_let_8 (tptp.fn_mechanical_work_5 X))) (let ((_let_9 (tptp.fn_mechanical_work_4 X))) (let ((_let_10 (tptp.fn_organic_molecule_1 _let_6))) (let ((_let_11 (tptp.fn_mechanical_work_10 X))) (let ((_let_12 (tptp.fn_organic_molecule_2 _let_6))) (let ((_let_13 (tptp.fn_mechanical_work_9 X))) (let ((_let_14 (tptp.fn_mechanical_work_8 X))) (let ((_let_15 (tptp.fn_mechanical_work_1 X))) (let ((_let_16 (tptp.fn_mechanical_work_2 X))) (=> (tptp.mechanical_work_1 X) (and (tptp.original_name_2 X |tptp.'Mechanical-Work'|) (tptp.user_description_2 X |tptp.'In cells and organisms, mechanical work is the process of using energy to move or change the shape of molecules or objects.'|) (tptp.concept2words_2 X |tptp.'mechanical work'|) (tptp.concept2words_2 X |tptp.'mechanical-work'|) (tptp.cellular_work_1 X) (tptp.time_interval_1 _let_15) (tptp.time_interval_1 _let_16) (tptp.organic_molecule_1 _let_6) (tptp.energy_1 _let_9) (tptp.entity_1 _let_9) (tptp.chemical_energy_1 _let_9) (tptp.consume_1 _let_8) (tptp.release_1 _let_7) (tptp.dephosphorylation_of_atp_1 _let_1) (tptp.phosphate_ion_1 _let_14) (tptp.atom_1 _let_13) (tptp.chemical_entity_1 _let_13) (tptp.carbon_1 _let_11) (tptp.atom_1 _let_12) (tptp.chemical_entity_1 _let_12) (tptp.carbon_1 _let_10) (tptp.chemical_entity_1 _let_5) (tptp.chemical_entity_1 _let_4) (tptp.chemical_entity_1 _let_3) (tptp.anion_1 _let_2) (tptp.time_during_2 _let_8 _let_16) (tptp.time_during_2 _let_7 _let_15) (tptp.result_2 _let_1 _let_9) (tptp.time_before_2 _let_16 _let_15) (tptp.result_2 _let_1 _let_14) (tptp.subevent_2 X _let_8) (tptp.subevent_2 X _let_7) (tptp.next_event_2 _let_8 _let_7) (tptp.object_2 _let_8 _let_9) (tptp.raw_material_2 X _let_9) (= _let_14 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_14 _let_2) (= _let_13 _let_12) (= _let_11 _let_10) (= _let_9 (tptp.fn_cellular_work_15 X)) (= _let_8 (tptp.fn_cellular_work_11 X)) (= _let_7 (tptp.fn_cellular_work_12 X)) (= _let_6 (tptp.fn_cellular_work_10 X)) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_3 _let_2)))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mechanoreceptor_1 X) (and (tptp.original_name_2 X |tptp.'Mechanoreceptor'|) (tptp.user_description_2 X |tptp.'A sensory receptor that responds to deformation or mechanical pressure. Mechanoreceptors detect pressure, stretch, and touch, sound, and motion.'|) (tptp.concept2words_2 X tptp.mechanoreceptor) (tptp.sensory_receptor_1 X) (not (tptp.chemoreceptor_1 X)) (not (tptp.electromagnetic_receptor_1 X)) (not (tptp.exteroceptor_1 X)) (not (tptp.nociceptor_1 X)) (not (tptp.pain_receptor_1 X)) (not (tptp.thermoreceptor_1 X))))) (forall ((X $$unsorted)) (=> (tptp.medial_1 X) (and (tptp.original_name_2 X |tptp.'Medial'|) (tptp.user_description_2 X |tptp.'Region at the midline of the body. Opposite of lateral.'|) (tptp.concept2words_2 X |tptp.'midline,'|) (tptp.concept2words_2 X |tptp.'sagittal,'|) (tptp.concept2words_2 X tptp.axial) (tptp.concept2words_2 X tptp.sagittal) (tptp.concept2words_2 X tptp.midline) (tptp.concept2words_2 X tptp.medial) (tptp.anatomical_region_1 X)))) (forall ((X $$unsorted)) (=> (tptp.medical_procedure_1 X) (and (tptp.original_name_2 X |tptp.'Medical-Procedure'|) (tptp.user_description_2 X |tptp.'Intervention by trained personnel intended to alleviate a health problem.'|) (tptp.concept2words_2 X |tptp.'procedure of medical'|) (tptp.concept2words_2 X |tptp.'medical procedure'|) (tptp.concept2words_2 X |tptp.'medical-procedure'|) (tptp.event_1 X)))) (forall ((X $$unsorted)) (=> (tptp.medical_treatment_of_cancer_1 X) (and (tptp.original_name_2 X |tptp.'Medical-Treatment-Of-Cancer'|) (tptp.user_description_2 X |tptp.'A series of medical steps designed to reduce or eliminate the presence of tumors.'|) (tptp.concept2words_2 X |tptp.'medical treatment of cancer'|) (tptp.concept2words_2 X |tptp.'medical-treatment-of-cancer'|) (tptp.medical_procedure_1 X)))) (forall ((X $$unsorted)) (=> (tptp.medicine_1 X) (and (tptp.original_name_2 X |tptp.'Medicine'|) (tptp.user_description_2 X |tptp.'The science and practice of healing. Also, chemicals used to treat or cure disorders and disease and promote healing.'|) (tptp.concept2words_2 X tptp.medicine) (tptp.inquiry_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_medium_1 X))) (=> (tptp.medium_1 X) (and (tptp.original_name_2 X |tptp.'Medium'|) (tptp.concept2words_2 X tptp.medium) (tptp.concept2words_2 X tptp.means) (tptp.concept2words_2 X tptp.communication) (tptp.concept2words_2 X tptp.communicating) (tptp.role_1 X) (tptp.tangible_entity_1 _let_1) (tptp.plays_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.medulla_oblongata_1 X) (and (tptp.original_name_2 X |tptp.'Medulla-Oblongata'|) (tptp.user_description_2 X |tptp.'The lower part of the vertebrate brain, visible as a swelling of the hindbrain anterior to the spinal cord. The medulla oblongata controls autonomic functions such as breathing, heart rate, blood pressure, swallowing, and vomiting.'|) (tptp.concept2words_2 X |tptp.'medulla oblongata'|) (tptp.concept2words_2 X |tptp.'medulla-oblongata'|) (tptp.brainstem_1 X) (not (tptp.cerebral_cortex_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.midbrain_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.corpus_callosum_1 X))))) (forall ((X $$unsorted)) (=> (tptp.medusa_1 X) (and (tptp.original_name_2 X |tptp.'Medusa'|) (tptp.user_description_2 X |tptp.'The pelagic, flattened stage of the cnidarian body plan. The alternate body plan is the polyp, which is benthic and vaguely tubular.'|) (tptp.concept2words_2 X tptp.medusa) (tptp.cnidaria_1 X)))) (forall ((X $$unsorted)) (=> (tptp.megaphyll_1 X) (and (tptp.original_name_2 X |tptp.'Megaphyll'|) (tptp.user_description_2 X |tptp.'A leaf that is not necessarily large but has a very branched vascular system. Most vascular plants have megaphylls.'|) (tptp.concept2words_2 X tptp.megaphyll) (tptp.leaf_1 X) (not (tptp.cotyledon_1 X)) (not (tptp.microphyll_1 X)) (not (tptp.sepal_1 X)) (not (tptp.sporophyll_1 X))))) (forall ((X $$unsorted)) (=> (tptp.megasporangium_1 X) (and (tptp.original_name_2 X |tptp.'Megasporangium'|) (tptp.user_description_2 X |tptp.'An enclosure on a plant or fungus where megaspores are produced.'|) (tptp.concept2words_2 X tptp.megasporangia) (tptp.concept2words_2 X tptp.megasporangium) (tptp.alternating_generation_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.megaspore_1 X) (and (tptp.original_name_2 X |tptp.'Megaspore'|) (tptp.user_description_2 X |tptp.'A spore that gives rise to a male gametophyte.'|) (tptp.concept2words_2 X tptp.megaspore) (tptp.spore_1 X) (not (tptp.conidium_1 X)) (not (tptp.microspore_1 X)) (not (tptp.plant_spore_1 X)) (not (tptp.zoospore_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiosis_14 X))) (let ((_let_2 (tptp.fn_endoplasmic_reticulum_23 _let_1))) (let ((_let_3 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_5 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_7 (tptp.fn_endoplasmic_reticulum_11 _let_1))) (let ((_let_8 (tptp.fn_meiosis_19 X))) (let ((_let_9 (tptp.fn_gametogenesis_1 _let_8))) (let ((_let_10 (tptp.fn_cell_division_2 X))) (let ((_let_11 (tptp.fn_meiosis_15 X))) (let ((_let_12 (tptp.fn_meiosis_18 X))) (let ((_let_13 (tptp.fn_eukaryotic_cell_20 _let_12))) (let ((_let_14 (tptp.fn_eukaryotic_cell_30 _let_12))) (let ((_let_15 (tptp.fn_meiosis_13 X))) (let ((_let_16 (tptp.fn_gametogenesis_2 _let_8))) (let ((_let_17 (tptp.fn_meiosis_16 X))) (let ((_let_18 (tptp.fn_haploid_number_1 _let_17))) (let ((_let_19 (tptp.fn_meiosis_17 X))) (let ((_let_20 (tptp.fn_eukaryotic_cell_30 _let_19))) (let ((_let_21 (tptp.fn_meiosis_12 X))) (let ((_let_22 (tptp.fn_meiosis_10 X))) (let ((_let_23 (tptp.fn_meiosis_5 X))) (let ((_let_24 (tptp.fn_meiosis_6 X))) (let ((_let_25 (tptp.fn_meiosis_9 X))) (let ((_let_26 (tptp.fn_meiosis_7 X))) (let ((_let_27 (tptp.fn_meiosis_8 X))) (=> (tptp.meiosis_1 X) (and (tptp.original_name_2 X |tptp.'Meiosis'|) (tptp.user_description_2 X |tptp.'Meiosis includes two nuclear division and production of four haploid cells genetically different (has half the number of chromosomes as do their parent cell) to their parent cell.The meiotic cell cycle has two cell divisions and one duplication of DNA. The Gametes (Sex cell) are also the result of meiosis as the haploid cells formed as result of meiosis further undergo changes to form gametes.'|) (tptp.concept2words_2 X |tptp.'meiotic cell division'|) (tptp.concept2words_2 X |tptp.'undergo meiosis'|) (tptp.concept2words_2 X tptp.meiosis) (tptp.cell_division_1 X) (tptp.system_1 (tptp.fn_meiosis_3 X)) (tptp.quantity_value_1 _let_23) (tptp.meiosis_i_1 _let_24) (tptp.nuclear_division_1 _let_26) (tptp.genetic_variation_1 _let_27) (tptp.meiosis_ii_1 _let_25) (tptp.daughter_cell_1 _let_22) (tptp.eukaryotic_chromosome_1 _let_21) (tptp.chromosome_1 _let_21) (tptp.eukaryotic_chromosome_1 _let_15) (tptp.chromosome_1 _let_15) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.endoplasmic_reticulum_1 _let_1) (tptp.synthesis_reaction_1 _let_11) (tptp.chemical_reaction_1 _let_11) (tptp.anabolic_pathway_1 _let_11) (tptp.synthesis_of_lipid_1 _let_11) (tptp.haploid_number_1 _let_17) (tptp.diploid_cell_1 _let_19) (tptp.gamete_1 _let_12) (tptp.eukaryotic_cell_1 _let_12) (tptp.cell_1 _let_12) (tptp.gametogenesis_1 _let_8) (tptp.eukaryotic_chromosome_1 _let_20) (tptp.chromosome_1 _let_20) (tptp.property_node_1 _let_18) (tptp.meiosis_1 _let_16) (tptp.eukaryotic_chromosome_1 _let_14) (tptp.chromosome_1 _let_14) (tptp.smooth_endoplasmic_reticulum_1 _let_13) (tptp.gamete_1 _let_9) (tptp.eukaryotic_cell_1 _let_7) (tptp.cell_1 _let_7) (tptp.synthesis_reaction_1 _let_6) (tptp.synthesis_reaction_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.synthesis_of_lipid_1 _let_4) (tptp.chemical_reaction_1 _let_3) (tptp.synthesis_of_lipid_1 _let_3) (tptp.anabolic_pathway_1 _let_3) (tptp.synthesis_of_lipid_1 _let_2) (tptp.exactCardinality X tptp.causes_0 |"2"| tptp.nuclear_division_0) (tptp.causes_2 X _let_27) (tptp.causes_2 X _let_26) (tptp.exactCardinality X tptp.subevent_0 |"2"| tptp.cell_division_0) (tptp.subevent_2 X _let_25) (tptp.subevent_2 X _let_24) (tptp.first_subevent_2 X _let_24) (tptp.called_2 _let_17 |tptp.'HaploidNumber_EukaryoticChromosome1'|) (tptp.quantity_2 _let_15 _let_17) (tptp.quantity_2 _let_21 _let_23) (tptp.called_2 _let_23 |tptp.'Quantity_EukaryoticChromosome2'|) (tptp.object_2 X _let_19) (tptp.in_event_2 _let_22 X) (tptp.plays_2 _let_12 _let_22) (tptp.has_part_2 _let_19 _let_21) (tptp.result_2 _let_8 _let_12) (tptp.result_2 X _let_12) (tptp.base_2 _let_11 _let_12) (tptp.has_part_2 _let_12 _let_1) (tptp.site_2 _let_11 _let_1) (tptp.has_function_2 _let_1 _let_11) (tptp.has_part_2 _let_12 _let_15) (= _let_19 (tptp.fn_cell_division_3 X)) (= _let_12 _let_10) (= _let_22 (tptp.fn_cell_division_5 X)) (= _let_21 _let_20) (= (tptp.fn_meiosis_11 X) _let_18) (= X _let_16) (= _let_12 _let_9) (= _let_15 _let_14) (= _let_1 _let_13) (= _let_12 _let_7) (= _let_11 _let_6) (= _let_11 _let_5) (= _let_11 _let_4) (= _let_11 _let_3) (= _let_11 _let_2) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiosis_i_23 X))) (let ((_let_2 (tptp.fn_prophase_i_6 _let_1))) (let ((_let_3 (tptp.fn_cell_division_2 X))) (let ((_let_4 (tptp.fn_meiosis_i_22 X))) (let ((_let_5 (tptp.fn_cytokinesis_2 _let_4))) (let ((_let_6 (tptp.fn_meiosis_i_20 X))) (let ((_let_7 (tptp.fn_cell_25 _let_6))) (let ((_let_8 (tptp.fn_eukaryotic_cell_30 _let_6))) (let ((_let_9 (tptp.fn_cell_division_3 X))) (let ((_let_10 (tptp.fn_impair_1 _let_4))) (let ((_let_11 (tptp.fn_meiosis_i_21 X))) (let ((_let_12 (tptp.fn_eukaryotic_cell_42 _let_11))) (let ((_let_13 (tptp.fn_cell_29 _let_11))) (let ((_let_14 (tptp.fn_meiosis_i_24 X))) (let ((_let_15 (tptp.fn_eukaryotic_cell_44 _let_11))) (let ((_let_16 (tptp.fn_meiosis_i_10 X))) (let ((_let_17 (tptp.fn_eukaryotic_cell_41 _let_11))) (let ((_let_18 (tptp.fn_meiosis_i_12 X))) (let ((_let_19 (tptp.fn_eukaryotic_cell_29 _let_11))) (let ((_let_20 (tptp.fn_meiosis_i_7 X))) (let ((_let_21 (tptp.fn_eukaryotic_cell_31 _let_11))) (let ((_let_22 (tptp.fn_meiosis_i_6 X))) (let ((_let_23 (tptp.fn_meiosis_i_13 X))) (let ((_let_24 (tptp.fn_eukaryotic_cell_59 _let_11))) (let ((_let_25 (tptp.fn_meiosis_i_9 X))) (let ((_let_26 (tptp.fn_eukaryotic_cell_27 _let_11))) (let ((_let_27 (tptp.fn_meiosis_i_11 X))) (let ((_let_28 (tptp.fn_eukaryotic_cell_28 _let_11))) (let ((_let_29 (tptp.fn_eukaryotic_cell_30 _let_11))) (let ((_let_30 (tptp.fn_meiosis_i_19 X))) (let ((_let_31 (tptp.fn_eukaryotic_cell_26 _let_11))) (let ((_let_32 (tptp.fn_meiosis_i_14 X))) (let ((_let_33 (tptp.fn_eukaryotic_cell_60 _let_11))) (let ((_let_34 (tptp.fn_meiosis_i_5 X))) (let ((_let_35 (tptp.fn_meiosis_i_4 X))) (let ((_let_36 (tptp.fn_meiosis_i_26 X))) (let ((_let_37 (tptp.fn_meiosis_i_27 X))) (let ((_let_38 (tptp.fn_eukaryotic_cell_26 _let_6))) (let ((_let_39 (tptp.fn_meiosis_i_25 X))) (let ((_let_40 (tptp.fn_cell_14 _let_11))) (let ((_let_41 (tptp.fn_meiosis_i_8 X))) (let ((_let_42 (tptp.fn_meiosis_i_16 X))) (let ((_let_43 (tptp.fn_diploid_number_1 _let_42))) (let ((_let_44 (tptp.fn_meiosis_i_18 X))) (let ((_let_45 (tptp.fn_crossing_over_10 _let_44))) (let ((_let_46 (tptp.fn_meiosis_i_17 X))) (let ((_let_47 (tptp.fn_meiosis_i_3 X))) (let ((_let_48 (tptp.fn_meiosis_i_2 X))) (let ((_let_49 (tptp.fn_meiosis_i_1 X))) (=> (tptp.meiosis_i_1 X) (and (tptp.original_name_2 X |tptp.'Meiosis-I'|) (tptp.user_description_2 X |tptp.'In organisms that reproduce sexually, the first of two stages of cell division, which results in daughter cells containing half the number of chromsome sets as the parent cell. Meiosis I starts with a diploid cell and produces two haploid daughter cells.'|) (tptp.concept2words_2 X |tptp.'meiosis i'|) (tptp.concept2words_2 X |tptp.'meiosis-i'|) (tptp.concept2words_2 X |tptp.'undergo meiosis'|) (tptp.meiotic_event_1 X) (tptp.cell_division_1 X) (tptp.produce_1 _let_49) (tptp.prophase_i_1 _let_49) (tptp.independent_assortment_1 _let_48) (tptp.decrease_1 _let_47) (tptp.resource_1 _let_35) (tptp.atp_1 _let_34) (tptp.mixture_1 _let_22) (tptp.cytoplasm_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.biomembrane_1 _let_20) (tptp.plasma_membrane_1 _let_20) (tptp.ribosome_1 _let_41) (tptp.volume_value_1 _let_25) (tptp.surface_1 _let_16) (tptp.size_value_1 _let_27) (tptp.tangible_entity_1 _let_18) (tptp.phospholipid_bilayer_1 _let_18) (tptp.substance_1 _let_23) (tptp.cytosol_1 _let_23) (tptp.tangible_entity_1 _let_32) (tptp.nucleus_1 _let_32) (tptp.diploid_number_1 _let_42) (tptp.hold_1 _let_46) (tptp.crossing_over_1 _let_44) (tptp.eukaryotic_chromosome_1 _let_30) (tptp.chromosome_1 _let_30) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_6) (tptp.diploid_cell_1 _let_11) (tptp.organism_1 _let_11) (tptp.cytokinesis_1 _let_4) (tptp.prophase_i_1 _let_1) (tptp.eukaryotic_chromosome_1 _let_14) (tptp.chromosome_1 _let_14) (tptp.tangible_entity_1 _let_39) (tptp.nucleus_1 _let_39) (tptp.daughter_cell_1 _let_36) (tptp.parent_cell_1 _let_37) (tptp.hold_1 _let_45) (tptp.property_node_1 _let_43) (tptp.ribosome_1 _let_40) (tptp.tangible_entity_1 _let_38) (tptp.nucleus_1 _let_38) (tptp.property_node_1 _let_33) (tptp.tangible_entity_1 _let_31) (tptp.nucleus_1 _let_31) (tptp.eukaryotic_chromosome_1 _let_29) (tptp.chromosome_1 _let_29) (tptp.property_node_1 _let_28) (tptp.size_value_1 _let_26) (tptp.volume_value_1 _let_24) (tptp.mixture_1 _let_21) (tptp.cytoplasm_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.biomembrane_1 _let_19) (tptp.plasma_membrane_1 _let_19) (tptp.tangible_entity_1 _let_17) (tptp.phospholipid_bilayer_1 _let_17) (tptp.surface_1 _let_15) (tptp.substance_1 _let_13) (tptp.cytosol_1 _let_13) (tptp.substance_1 _let_12) (tptp.cytosol_1 _let_12) (tptp.tangible_entity_1 _let_10) (tptp.eukaryotic_chromosome_1 _let_8) (tptp.chromosome_1 _let_8) (tptp.chromosome_1 _let_7) (tptp.eukaryotic_cell_1 _let_5) (tptp.meiosis_i_1 _let_2) (tptp.subevent_2 _let_49 _let_44) (tptp.quantity_2 _let_30 _let_42) (tptp.called_2 _let_30 |tptp.'2n chromosomes'|) (tptp.subevent_2 X _let_47) (tptp.subevent_2 X _let_46) (tptp.causes_2 X _let_48) (tptp.object_2 _let_47 _let_30) (tptp.object_2 _let_4 _let_11) (tptp.object_2 X _let_11) (tptp.plays_2 _let_11 _let_37) (tptp.subevent_2 _let_44 _let_46) (tptp.called_2 _let_42 |tptp.'Diploid'|) (tptp.result_2 _let_4 _let_6) (tptp.subevent_2 X _let_1) (tptp.first_subevent_2 X _let_1) (tptp.has_part_2 _let_11 _let_41) (tptp.is_inside_2 _let_41 _let_23) (tptp.has_part_2 _let_6 _let_39) (tptp.is_inside_2 _let_14 _let_39) (tptp.in_event_2 _let_37 X) (tptp.in_event_2 _let_36 X) (tptp.raw_material_2 X _let_34) (tptp.plays_2 _let_34 _let_35) (tptp.in_event_2 _let_35 X) (tptp.result_2 X _let_6) (tptp.plays_2 _let_6 _let_36) (tptp.has_part_2 _let_11 _let_32) (tptp.size_2 _let_11 _let_27) (tptp.has_part_2 _let_11 _let_20) (tptp.has_part_2 _let_11 _let_22) (tptp.has_part_2 _let_11 _let_30) (tptp.is_inside_2 _let_30 _let_32) (tptp.volume_2 _let_11 _let_25) (tptp.directly_proportional_2 _let_27 _let_25) (tptp.has_region_2 _let_11 _let_16) (tptp.is_at_2 _let_18 _let_16) (tptp.has_part_2 _let_20 _let_18) (tptp.is_inside_2 _let_22 _let_20) (tptp.has_part_2 _let_22 _let_23) (tptp.has_part_2 _let_6 _let_14) (= _let_11 _let_10) (= _let_11 _let_9) (= _let_46 _let_45) (= (tptp.fn_meiosis_i_15 X) _let_43) (= _let_6 _let_5) (= X _let_2) (= _let_23 _let_13) (= _let_41 _let_40) (= _let_14 _let_8) (= _let_39 _let_38) (= _let_37 (tptp.fn_cell_division_6 X)) (= _let_36 (tptp.fn_cell_division_5 X)) (= _let_6 _let_3) (= _let_35 (tptp.fn_cell_division_1 X)) (= _let_34 (tptp.fn_cell_division_4 X)) (= (tptp.fn_meiosis_i_29 X) _let_33) (= _let_32 _let_31) (= _let_30 _let_29) (= (tptp.fn_meiosis_i_28 X) _let_28) (= _let_27 _let_26) (= _let_25 _let_24) (= _let_23 _let_12) (= _let_22 _let_21) (= _let_20 _let_19) (= _let_18 _let_17) (= _let_16 _let_15) (= _let_14 _let_7) (= _let_13 _let_12) (= _let_12 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_cell_division_3 X))) (let ((_let_2 (tptp.fn_meiosis_ii_9 X))) (let ((_let_3 (tptp.fn_meiotic_event_1 _let_2))) (let ((_let_4 (tptp.fn_meiotic_event_1 X))) (let ((_let_5 (tptp.fn_meiosis_ii_12 X))) (let ((_let_6 (tptp.fn_cytokinesis_2 _let_5))) (let ((_let_7 (tptp.fn_cell_division_2 X))) (let ((_let_8 (tptp.fn_meiosis_ii_13 X))) (let ((_let_9 (tptp.fn_cell_28 _let_8))) (let ((_let_10 (tptp.fn_meiosis_ii_14 X))) (let ((_let_11 (tptp.fn_cell_22 _let_8))) (let ((_let_12 (tptp.fn_meiosis_ii_24 X))) (let ((_let_13 (tptp.fn_cell_30 _let_8))) (let ((_let_14 (tptp.fn_meiosis_ii_25 X))) (let ((_let_15 (tptp.fn_cell_11 _let_8))) (let ((_let_16 (tptp.fn_meiosis_ii_22 X))) (let ((_let_17 (tptp.fn_cell_10 _let_8))) (let ((_let_18 (tptp.fn_cell_4 _let_8))) (let ((_let_19 (tptp.fn_meiosis_ii_23 X))) (let ((_let_20 (tptp.fn_cell_26 _let_8))) (let ((_let_21 (tptp.fn_meiosis_ii_21 X))) (let ((_let_22 (tptp.fn_cell_23 _let_8))) (let ((_let_23 (tptp.fn_cell_14 _let_8))) (let ((_let_24 (tptp.fn_meiosis_ii_15 X))) (let ((_let_25 (tptp.fn_cell_29 _let_8))) (let ((_let_26 (tptp.fn_meiosis_ii_20 X))) (let ((_let_27 (tptp.fn_meiosis_ii_18 X))) (let ((_let_28 (tptp.fn_cytokinesis_3 _let_5))) (let ((_let_29 (tptp.fn_meiosis_ii_7 X))) (let ((_let_30 (tptp.fn_cytokinesis_1 _let_5))) (let ((_let_31 (tptp.fn_meiosis_ii_8 X))) (let ((_let_32 (tptp.fn_meiosis_ii_27 X))) (let ((_let_33 (tptp.fn_meiosis_ii_26 X))) (let ((_let_34 (tptp.fn_meiosis_ii_19 X))) (let ((_let_35 (tptp.fn_meiotic_event_1 _let_34))) (let ((_let_36 (tptp.fn_meiosis_ii_5 X))) (let ((_let_37 (tptp.fn_meiosis_ii_10 X))) (let ((_let_38 (tptp.fn_meiotic_event_1 _let_37))) (let ((_let_39 (tptp.fn_meiosis_ii_4 X))) (let ((_let_40 (tptp.fn_meiosis_ii_11 X))) (let ((_let_41 (tptp.fn_meiotic_event_1 _let_40))) (let ((_let_42 (tptp.fn_meiosis_ii_6 X))) (let ((_let_43 (tptp.fn_meiosis_ii_17 X))) (let ((_let_44 (tptp.fn_impair_1 _let_43))) (let ((_let_45 (tptp.fn_meiosis_ii_16 X))) (let ((_let_46 (tptp.fn_meiosis_ii_3 X))) (let ((_let_47 (tptp.fn_meiosis_ii_2 X))) (let ((_let_48 (tptp.fn_meiosis_ii_1 X))) (=> (tptp.meiosis_ii_1 X) (and (tptp.original_name_2 X |tptp.'Meiosis-II'|) (tptp.user_description_2 X |tptp.'In organisms that reproduce sexually, the second of two stages of cell division, which separates and segregates the sister chromatids, producing four haploid daughter cells.'|) (tptp.concept2words_2 X |tptp.'meiosis ii'|) (tptp.concept2words_2 X |tptp.'undergo meiosis'|) (tptp.concept2words_2 X |tptp.'meiosis-ii'|) (tptp.cell_division_1 X) (tptp.meiotic_event_1 X) (tptp.gamete_1 _let_48) (tptp.independent_assortment_1 _let_47) (tptp.haploid_cell_1 _let_46) (tptp.cell_1 _let_39) (tptp.cell_1 _let_36) (tptp.cell_1 _let_42) (tptp.eukaryotic_cell_1 _let_29) (tptp.daughter_cell_1 _let_31) (tptp.prophase_ii_1 _let_2) (tptp.metaphase_ii_1 _let_37) (tptp.telophase_ii_1 _let_40) (tptp.cytokinesis_1 _let_5) (tptp.eukaryotic_cell_1 _let_8) (tptp.mixture_1 _let_10) (tptp.cytoplasm_1 _let_10) (tptp.ribosome_1 _let_24) (tptp.sister_chromatid_1 _let_45) (tptp.divide_1 _let_43) (tptp.cell_1 _let_27) (tptp.eukaryotic_cell_1 _let_27) (tptp.anaphase_ii_1 _let_34) (tptp.substance_1 _let_26) (tptp.cytosol_1 _let_26) (tptp.tangible_entity_1 _let_21) (tptp.phospholipid_bilayer_1 _let_21) (tptp.size_value_1 _let_16) (tptp.surface_1 _let_19) (tptp.volume_value_1 _let_12) (tptp.plasma_membrane_1 _let_14) (tptp.daughter_cell_1 _let_33) (tptp.parent_cell_1 _let_32) (tptp.tangible_entity_1 _let_44) (tptp.cell_1 _let_41) (tptp.cell_1 _let_38) (tptp.cell_1 _let_35) (tptp.daughter_cell_1 _let_30) (tptp.eukaryotic_cell_1 _let_28) (tptp.substance_1 _let_25) (tptp.cytosol_1 _let_25) (tptp.ribosome_1 _let_23) (tptp.property_node_1 _let_22) (tptp.tangible_entity_1 _let_20) (tptp.phospholipid_bilayer_1 _let_20) (tptp.surface_1 _let_18) (tptp.property_node_1 _let_17) (tptp.size_value_1 _let_15) (tptp.plasma_membrane_1 _let_13) (tptp.volume_value_1 _let_11) (tptp.mixture_1 _let_9) (tptp.cytoplasm_1 _let_9) (tptp.eukaryotic_cell_1 _let_6) (tptp.cell_1 _let_3) (tptp.has_state_2 _let_39 _let_36) (tptp.has_state_2 _let_36 _let_42) (tptp.has_state_2 _let_42 _let_29) (tptp.next_event_2 _let_2 _let_37) (tptp.next_event_2 _let_37 _let_34) (tptp.next_event_2 _let_40 _let_5) (tptp.has_state_2 _let_8 _let_39) (not (= _let_8 _let_27)) (tptp.result_2 _let_43 _let_48) (tptp.exactCardinality _let_43 tptp.result_0 |"4"| tptp.gamete_0) (tptp.by_means_of_2 _let_43 _let_47) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.haploid_cell_0) (tptp.exactCardinality X tptp.result_0 |"2"| tptp.daughter_cell_0) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_37) (tptp.subevent_2 X _let_34) (tptp.subevent_2 X _let_40) (tptp.subevent_2 X _let_5) (tptp.first_subevent_2 X _let_2) (tptp.same_type_2 _let_46 _let_27) (not (= _let_27 _let_8)) (tptp.same_type_2 _let_27 _let_46) (tptp.next_event_2 _let_34 _let_40) (tptp.subevent_2 _let_34 _let_43) (tptp.object_2 _let_43 _let_45) (tptp.base_2 X _let_8) (tptp.base_2 _let_2 _let_8) (tptp.base_2 _let_40 _let_42) (tptp.base_2 _let_37 _let_39) (tptp.base_2 _let_34 _let_36) (tptp.in_event_2 _let_33 X) (tptp.object_2 X _let_8) (tptp.plays_2 _let_8 _let_32) (tptp.in_event_2 _let_32 X) (tptp.result_2 X _let_27) (tptp.plays_2 _let_27 _let_33) (tptp.base_2 _let_5 _let_29) (tptp.result_2 _let_5 _let_27) (tptp.plays_2 _let_27 _let_31) (tptp.in_event_2 _let_31 _let_5) (not (= _let_29 _let_27)) (not (= _let_27 _let_29)) (tptp.has_part_2 _let_14 _let_21) (tptp.is_inside_2 _let_10 _let_14) (tptp.has_part_2 _let_10 _let_26) (tptp.is_inside_2 _let_24 _let_26) (tptp.has_part_2 _let_8 _let_24) (tptp.directly_proportional_2 _let_16 _let_12) (tptp.size_2 _let_8 _let_16) (tptp.is_at_2 _let_21 _let_19) (tptp.has_region_2 _let_8 _let_19) (tptp.has_part_2 _let_8 _let_14) (tptp.volume_2 _let_8 _let_12) (tptp.has_part_2 _let_8 _let_10) (= _let_45 _let_44) (= _let_8 _let_4) (= _let_8 _let_3) (= _let_42 _let_41) (= _let_39 _let_38) (= _let_36 _let_35) (= _let_33 (tptp.fn_cell_division_5 X)) (= _let_27 _let_7) (= _let_32 (tptp.fn_cell_division_6 X)) (= _let_8 _let_1) (= _let_31 _let_30) (= _let_29 _let_28) (= _let_27 _let_6) (= _let_26 _let_25) (= _let_24 _let_23) (= (tptp.fn_meiosis_ii_29 X) _let_22) (= _let_21 _let_20) (= _let_19 _let_18) (= (tptp.fn_meiosis_ii_28 X) _let_17) (= _let_16 _let_15) (= _let_14 _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiosis_in_female_2 X))) (let ((_let_2 (tptp.fn_meiosis_in_female_1 X))) (=> (tptp.meiosis_in_female_1 X) (and (tptp.original_name_2 X |tptp.'Meiosis-in-Female'|) (tptp.user_description_2 X |tptp.'A modified type of cell division in sexually reproducing organisms consisting of two rounds of cell division but only one round of DNA replication. It results in one egg cells with half the number of chromosome sets as the original cell and three polar bodies.'|) (tptp.concept2words_2 X |tptp.'undergo meiosis'|) (tptp.concept2words_2 X |tptp.'meiosis in female'|) (tptp.concept2words_2 X |tptp.'meiosis-in-female'|) (tptp.meiosis_1 X) (tptp.egg_1 _let_2) (tptp.polar_body_1 _let_1) (tptp.exactCardinality X tptp.result_0 |"3"| tptp.polar_body_0) (tptp.exactCardinality X tptp.result_0 |"1"| tptp.egg_cell_0) (tptp.result_2 X _let_2) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_cell_division_2 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiosis_in_male_1 X))) (=> (tptp.meiosis_in_male_1 X) (and (tptp.original_name_2 X |tptp.'Meiosis-in-Male'|) (tptp.user_description_2 X |tptp.'A modified type of cell division in sexually reproducing organisms consisting of two rounds of cell division but only one round of DNA replication. It results in four sperm cells with half the number of chromosome sets as the original cell.'|) (tptp.concept2words_2 X |tptp.'undergo meiosis'|) (tptp.concept2words_2 X |tptp.'meiosis in male'|) (tptp.concept2words_2 X |tptp.'meiosis-in-male'|) (tptp.meiosis_1 X) (tptp.sperm_cell_1 _let_1) (tptp.exactCardinality X tptp.result_0 |"4"| tptp.gamete_0) (tptp.exactCardinality X tptp.result_0 |"4"| tptp.sperm_cell_0) (tptp.result_2 X _let_1) (= _let_1 (tptp.fn_meiosis_18 X)))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.subevent_2 X X1) (tptp.eukaryotic_cell_cycle_1 X) (tptp.meiosis_1 X1)) (and (tptp.meiotic_cell_cycle_1 X) (= (tptp.fn_meiotic_cell_cycle_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiotic_cell_cycle_3 X))) (let ((_let_2 (tptp.fn_meiotic_cell_cycle_1 X))) (=> (tptp.meiotic_cell_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Meiotic-cell-cycle'|) (tptp.user_description_2 X |tptp.'Meiotic cell cycle is the cell cycle followed by gonadic cells. It results in daughter cells identical in genetic composition to the parent cells'|) (tptp.concept2words_2 X |tptp.'meiotic cell cycle'|) (tptp.concept2words_2 X |tptp.'meiotic cycle'|) (tptp.concept2words_2 X |tptp.'meiotic-cycle'|) (tptp.concept2words_2 X |tptp.'undergo the meiotic cell cycle'|) (tptp.concept2words_2 X |tptp.'meiotic-cell-cycle'|) (tptp.eukaryotic_cell_cycle_1 X) (not (tptp.gametogenesis_1 X)) (tptp.cytokinesis_1 _let_2) (tptp.meiosis_1 _let_1) (tptp.next_event_2 _let_1 _let_2) (tptp.subevent_2 X _let_2) (tptp.subevent_2 X _let_1) (= _let_1 (tptp.fn_cell_cycle_6 X))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meiotic_event_1 X))) (=> (tptp.meiotic_event_1 X) (and (tptp.original_name_2 X |tptp.'Meiotic-Event'|) (tptp.user_description_2 X |tptp.'Events of cellular division which include Meiosis I and Meiosis II'|) (tptp.concept2words_2 X |tptp.'phases of meiosis'|) (tptp.concept2words_2 X |tptp.'phases-of-meiosis'|) (tptp.concept2words_2 X |tptp.'meiotic event'|) (tptp.concept2words_2 X |tptp.'meiotic-event'|) (tptp.cellular_process_1 X) (tptp.cell_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meitnerium_6 X))) (let ((_let_2 (tptp.fn_meitnerium_7 X))) (let ((_let_3 (tptp.fn_meitnerium_1 X))) (let ((_let_4 (tptp.fn_meitnerium_2 X))) (=> (tptp.meitnerium_1 X) (and (tptp.original_name_2 X |tptp.'Meitnerium'|) (tptp.user_description_2 X |tptp.'Meitnerium is a metal atom with atomic number 109. It is represented by the symbol Mt.'|) (tptp.concept2words_2 X tptp.meitnerium) (tptp.concept2words_2 X |tptp.'Mt'|) (tptp.metal_atom_1 X) (tptp.atomic_mass_value_1 _let_3) (tptp.neutron_1 _let_4) (tptp.atomic_weight_value_1 _let_1) (tptp.atomic_number_value_1 _let_2) (tptp.mass_number_2 X _let_3) (tptp.exactCardinality X tptp.has_part_0 |"159"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"109"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"109"| tptp.electron_0) (tptp.has_part_2 X _let_4) (tptp.the_cardinal_value_2 _let_3 |"268"|) (tptp.cardinal_unit_class_2 _let_3 tptp.unity_0) (tptp.the_cardinal_value_2 _let_2 |"109"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_1 |"268"|) (tptp.cardinal_unit_class_2 _let_1 tptp.dalton_0) (tptp.atomic_number_2 X _let_2) (tptp.atomic_weight_2 X _let_1) (= (tptp.fn_meitnerium_4 X) (tptp.fn_atom_12 X)) (= _let_2 (tptp.fn_atom_17 X)) (= (tptp.fn_meitnerium_5 X) (tptp.fn_atom_13 X)) (= _let_1 (tptp.fn_atom_16 X))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_melanocyte_stimulating_hormone_1 X))) (let ((_let_2 (tptp.fn_disulfide_bond_3 _let_1))) (=> (tptp.melanocyte_stimulating_hormone_1 X) (and (tptp.original_name_2 X |tptp.'Melanocyte-Stimulating-Hormone'|) (tptp.user_description_2 X |tptp.'A pituitary hormone that stimulates the production and release of the pigment melanin by melanocytes in hair and skin.'|) (tptp.concept2words_2 X tptp.msh) (tptp.concept2words_2 X tptp.intermedins) (tptp.concept2words_2 X |tptp.'melanocyte stimulating hormone'|) (tptp.concept2words_2 X |tptp.'melanocyte-stimulating-hormone'|) (tptp.pituitary_peptide_hormone_1 X) (not (tptp.adrenocorticotropic_hormone_1 X)) (not (tptp.anp_1 X)) (not (tptp.antidiuretic_hormone_1 X)) (not (tptp.calcitonin_1 X)) (not (tptp.cholecystokinin_1 X)) (not (tptp.gastrin_1 X)) (not (tptp.glucagon_1 X)) (not (tptp.gonadotropin_releasing_hormone_1 X)) (not (tptp.oxytocin_1 X)) (not (tptp.parathyroid_hormone_1 X)) (not (tptp.secretin_1 X)) (tptp.disulfide_bond_1 _let_1) (tptp.protein_1 _let_2) (tptp.possesses_2 X _let_1) (= X _let_2)))))) (forall ((X $$unsorted)) (=> (tptp.melatonin_1 X) (and (tptp.original_name_2 X |tptp.'Melatonin'|) (tptp.user_description_2 X |tptp.'A naturally occuring hormone found in animals and plants. In animals, melatonin is secreted by the pineal gland and regulates circadian rhythms.'|) (tptp.concept2words_2 X tptp.melatonin) (tptp.amino_acid_hormone_1 X) (not (tptp.catecholamine_1 X)) (not (tptp.dopamine_1 X)) (not (tptp.epinephrine_1 X)) (not (tptp.norepinephrine_1 X)) (not (tptp.t3_1 X)) (not (tptp.t4_1 X))))) (forall ((X $$unsorted) (X1 $$unsorted) (X2 $$unsorted)) (=> (and (tptp.result_2 X X1) (tptp.object_2 X X2) (tptp.liquid_substance_1 X1) (tptp.change_of_state_1 X) (tptp.solid_substance_1 X2)) (and (tptp.melting_1 X) (= (tptp.fn_melting_3 X) X2) (= (tptp.fn_melting_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_melting_3 X))) (let ((_let_2 (tptp.fn_melting_2 X))) (=> (tptp.melting_1 X) (and (tptp.original_name_2 X |tptp.'Melting'|) (tptp.user_description_2 X |tptp.'Applying heat to change a substance from a solid state to a liquid state.'|) (tptp.concept2words_2 X tptp.melt) (tptp.concept2words_2 X tptp.melting) (tptp.change_of_state_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.metamorphosis_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.liquid_substance_1 _let_2) (tptp.solid_substance_1 _let_1) (tptp.result_2 X _let_2) (tptp.object_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_semipermeable_entity_2 X))) (let ((_let_2 (tptp.fn_membrane_2 X))) (let ((_let_3 (tptp.fn_block_1 _let_2))) (let ((_let_4 (tptp.fn_membrane_1 X))) (let ((_let_5 (tptp.fn_barrier_1 _let_4))) (let ((_let_6 (tptp.fn_membrane_5 X))) (let ((_let_7 (tptp.fn_membrane_3 X))) (let ((_let_8 (tptp.fn_move_1 _let_7))) (let ((_let_9 (tptp.fn_membrane_4 X))) (=> (tptp.membrane_1 X) (and (tptp.original_name_2 X |tptp.'Membrane'|) (tptp.description_2 X |tptp.'A thin, soft, pliable sheet or layer made of organic substance.'|) (tptp.user_description_2 X |tptp.'A membrane is a layer of material which serves as a selective barrier between two phases and remains impermeable to specific particles, molecules, or substances .It acts as a pliable sheet of tissue that covers or lines or connects organs or cells of animals.'|) (tptp.concept2words_2 X tptp.membrane) (tptp.semipermeable_entity_1 X) (tptp.barrier_1 _let_4) (tptp.block_1 _let_2) (tptp.move_through_1 _let_7) (tptp.tangible_entity_1 _let_9) (tptp.spatial_entity_1 _let_6) (tptp.tangible_entity_1 _let_6) (tptp.spatial_entity_1 _let_8) (tptp.tangible_entity_1 _let_5) (tptp.spatial_entity_1 _let_3) (tptp.is_permeable_to_2 X _let_9) (tptp.has_function_2 X _let_7) (not (= _let_6 _let_9)) (not (= _let_9 _let_6)) (tptp.base_2 _let_7 X) (tptp.in_event_2 _let_4 _let_2) (tptp.object_2 _let_7 _let_9) (tptp.object_2 _let_2 _let_6) (tptp.is_impermeable_to_2 X _let_6) (tptp.plays_2 X _let_4) (= _let_9 _let_8) (= _let_6 _let_3) (= _let_6 _let_1) (= X _let_5) (= _let_3 _let_1))))))))))))) (forall ((X $$unsorted)) (=> (tptp.membrane_attack_complex_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-Attack-Complex'|) (tptp.user_description_2 X |tptp.'A group of complement proteins that forms a pore in the bacterial membrane, causing it to swell and lyse.'|) (tptp.concept2words_2 X |tptp.'membrane attack complex'|) (tptp.concept2words_2 X |tptp.'membrane-attack-complex'|) (tptp.protein_complex_1 X) (not (tptp.anaphase_promoting_complex_1 X)) (not (tptp.capsomere_1 X)) (not (tptp.complement_system_1 X)) (not (tptp.light_harvesting_complex_1 X)) (not (tptp.myofibril_1 X)) (not (tptp.proteasome_1 X)) (not (tptp.protein_core_1 X)) (not (tptp.reaction_center_complex_1 X)) (not (tptp.rosette_cellulose_synthesizing_complex_1 X)) (not (tptp.thick_filament_1 X)) (not (tptp.thin_filament_1 X)) (not (tptp.troponin_complex_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_enzyme_10 X))) (let ((_let_2 (tptp.fn_membrane_bound_enzyme_3 X))) (let ((_let_3 (tptp.fn_make_accessible_1 _let_2))) (let ((_let_4 (tptp.fn_membrane_bound_enzyme_2 X))) (let ((_let_5 (tptp.fn_membrane_bound_enzyme_1 X))) (=> (tptp.membrane_bound_enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-Bound-Enzyme'|) (tptp.user_description_2 X |tptp.'A protein built into the membrane may be an enzyme with its active site exposed to substances in the adjacent solution.'|) (tptp.concept2words_2 X |tptp.'membrane enclosed enzyme'|) (tptp.concept2words_2 X |tptp.'membrane-enclosed-enzyme'|) (tptp.concept2words_2 X |tptp.'membrane bound enzyme'|) (tptp.concept2words_2 X |tptp.'membrane-bound enzyme'|) (tptp.concept2words_2 X |tptp.'membrane-bound-enzyme'|) (tptp.protein_enzyme_1 X) (tptp.membrane_protein_1 X) (tptp.tangible_entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.active_site_1 _let_4) (tptp.expose_1 _let_2) (tptp.entity_1 _let_3) (tptp.toward_2 _let_2 _let_5) (tptp.object_2 _let_2 _let_4) (tptp.has_region_2 X _let_4) (= _let_4 _let_3) (= _let_4 _let_1) (= _let_3 _let_1))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.is_at_2 X X1) (tptp.carbohydrate_side_chain_1 X) (tptp.biomembrane_1 X1)) (and (tptp.membrane_carbohydrate_1 X) (= (tptp.fn_membrane_carbohydrate_3 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_membrane_carbohydrate_3 X))) (let ((_let_2 (tptp.fn_membrane_carbohydrate_1 X))) (=> (tptp.membrane_carbohydrate_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-carbohydrate'|) (tptp.user_description_2 X |tptp.'Carbohydrates found within and on plasma membranes'|) (tptp.concept2words_2 X |tptp.'carbohydrate of membrane'|) (tptp.concept2words_2 X |tptp.'membrane carbohydrate'|) (tptp.concept2words_2 X |tptp.'membrane-carbohydrate'|) (tptp.carbohydrate_side_chain_1 X) (tptp.length_value_1 _let_2) (tptp.biomembrane_1 _let_1) (tptp.length_2 X _let_2) (tptp.is_at_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_membrane_enclosure_1 X))) (let ((_let_2 (tptp.fn_membrane_enclosure_3 X))) (let ((_let_3 (tptp.fn_membrane_enclosure_2 X))) (=> (tptp.membrane_enclosure_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-Enclosure'|) (tptp.description_2 X |tptp.'A membrane that serves as an enclosure or container'|) (tptp.user_description_2 X |tptp.'A type of enclosure made of membrane'|) (tptp.concept2words_2 X |tptp.'enclosure of membrane'|) (tptp.concept2words_2 X |tptp.'membrane enclosure'|) (tptp.concept2words_2 X |tptp.'membrane-enclosure'|) (tptp.organic_structure_1 X) (tptp.biomembrane_1 _let_1) (tptp.physical_object_1 _let_3) (tptp.living_entity_1 _let_2) (tptp.is_inside_2 _let_3 X) (tptp.has_part_2 _let_2 X) (tptp.has_part_2 X _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_membrane_potential_2 X))) (let ((_let_2 (tptp.fn_biomembrane_8 _let_1))) (let ((_let_3 (tptp.fn_biomembrane_15 _let_1))) (let ((_let_4 (tptp.fn_membrane_potential_4 X))) (let ((_let_5 (tptp.fn_biomembrane_14 _let_1))) (let ((_let_6 (tptp.fn_membrane_potential_3 X))) (let ((_let_7 (tptp.fn_membrane_potential_1 X))) (=> (tptp.membrane_potential_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-Potential'|) (tptp.user_description_2 X |tptp.'The difference in voltage across a membrane due to the unequal distribution of ions across the membrane.'|) (tptp.concept2words_2 X |tptp.'potential of membrane'|) (tptp.concept2words_2 X |tptp.'membrane potential'|) (tptp.concept2words_2 X |tptp.'membrane-potential'|) (tptp.voltage_1 X) (tptp.cellular_work_1 _let_7) (tptp.biomembrane_1 _let_1) (tptp.aqueous_solution_1 _let_6) (tptp.aqueous_solution_1 _let_4) (tptp.aqueous_solution_1 _let_5) (tptp.aqueous_solution_1 _let_3) (tptp.membrane_potential_1 _let_2) (not (= _let_4 _let_6)) (not (= _let_6 _let_4)) (tptp.instrument_2 _let_7 X) (tptp.purpose_2 X _let_7) (tptp.is_between_2 _let_1 _let_6) (tptp.is_between_2 _let_1 _let_4) (tptp.possesses_2 _let_1 X) (= _let_6 _let_5) (= _let_4 _let_3) (= X _let_2))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_membrane_protein_4 X))) (let ((_let_2 (tptp.fn_solubility_value_1 _let_1))) (let ((_let_3 (tptp.fn_membrane_protein_1 X))) (let ((_let_4 (tptp.fn_membrane_protein_2 X))) (=> (tptp.membrane_protein_1 X) (and (tptp.original_name_2 X |tptp.'Membrane-Protein'|) (tptp.user_description_2 X |tptp.'A protein attached to or embedded within a cell membrane.'|) (tptp.concept2words_2 X |tptp.'protein of membrane'|) (tptp.concept2words_2 X |tptp.'membrane protein'|) (tptp.concept2words_2 X |tptp.'membrane-protein'|) (tptp.protein_1 X) (tptp.biomembrane_1 _let_3) (tptp.phospholipid_bilayer_1 _let_4) (tptp.solubility_value_1 _let_1) (tptp.property_node_1 _let_2) (tptp.solubility_in_water_2 X _let_1) (tptp.the_scalar_value_2 _let_1 tptp.insoluble_0) (tptp.scalar_unit_class_2 _let_1 tptp.protein_0) (tptp.has_part_2 _let_3 _let_4) (tptp.has_part_2 _let_3 X) (= (tptp.fn_membrane_protein_3 X) _let_2)))))))) (forall ((X $$unsorted)) (=> (tptp.memory_1 X) (and (tptp.original_name_2 X |tptp.'Memory'|) (tptp.user_description_2 X |tptp.'The ability to store and later recover information about previous experiences or events.'|) (tptp.concept2words_2 X tptp.memorize) (tptp.concept2words_2 X tptp.memory) (tptp.state_1 X)))) (forall ((X $$unsorted)) (=> (tptp.memory_cell_1 X) (and (tptp.original_name_2 X |tptp.'Memory-Cell'|) (tptp.user_description_2 X |tptp.'One of a clone of long-lived T or B cells that is formed during a primary immune response. Upon subsequent exposure to the same antigen, memory cells are reactivated and begin to mount the second immune response.'|) (tptp.concept2words_2 X |tptp.'cell of memory'|) (tptp.concept2words_2 X |tptp.'memory cell'|) (tptp.concept2words_2 X |tptp.'memory-cell'|) (tptp.b_cell_1 X) (tptp.t_cells_1 X) (not (tptp.plasma_cell_1 X)) (not (tptp.cytotoxic_t_1 X)) (not (tptp.helper_t_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_scientist_1 X))) (let ((_let_2 (tptp.fn_mendel_6 X))) (let ((_let_3 (tptp.fn_analysis_1 _let_2))) (let ((_let_4 (tptp.fn_mendel_8 X))) (let ((_let_5 (tptp.fn_transfer_1 _let_4))) (let ((_let_6 (tptp.fn_mendel_9 X))) (let ((_let_7 (tptp.fn_mendel_7 X))) (let ((_let_8 (tptp.fn_mendel_5 X))) (let ((_let_9 (tptp.fn_mendel_4 X))) (let ((_let_10 (tptp.fn_mendel_1 X))) (let ((_let_11 (tptp.fn_mendel_2 X))) (let ((_let_12 (tptp.fn_mendel_3 X))) (=> (tptp.mendel_1 X) (and (tptp.original_name_2 X |tptp.'Mendel'|) (tptp.user_description_2 X |tptp.'Mendel brought an experimental and quantitative approach to genetics. Mendel discovered the basic principles of heridity by breeding garden peas in carefully planned experiments.'|) (tptp.concept2words_2 X |tptp.'gregor mendel'|) (tptp.concept2words_2 X |tptp.'gregor-mendel'|) (tptp.concept2words_2 X tptp.mendel) (tptp.geneticist_1 X) (not (tptp.sturtevant_1 X)) (tptp.p_generation_1 _let_10) (tptp.f1_generation_1 _let_11) (tptp.pea_1 _let_12) (tptp.create_1 _let_9) (tptp.mendelian_law_1 _let_8) (tptp.analysis_1 _let_2) (tptp.f2_generation_1 _let_7) (tptp.mendel_pollination_1 _let_4) (tptp.study_1 _let_6) (tptp.entity_1 _let_5) (tptp.entity_1 _let_3) (tptp.instrument_2 _let_6 _let_12) (tptp.object_2 _let_6 _let_11) (tptp.object_2 _let_6 _let_10) (tptp.object_2 _let_4 _let_11) (tptp.object_2 _let_4 _let_10) (tptp.agent_2 _let_4 X) (tptp.object_2 _let_9 _let_8) (tptp.agent_2 _let_9 X) (tptp.result_2 _let_2 _let_8) (tptp.agent_2 _let_2 X) (tptp.object_2 _let_4 _let_7) (tptp.object_2 _let_2 _let_7) (tptp.agent_2 _let_6 X) (tptp.object_2 _let_6 _let_7) (= _let_7 _let_5) (= _let_7 _let_3) (= _let_7 _let_1) (= _let_6 (tptp.fn_scientist_2 X)) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mendel_pollination_6 X))) (let ((_let_2 (tptp.fn_mendel_8 _let_1))) (let ((_let_3 (tptp.fn_mendel_pollination_5 X))) (let ((_let_4 (tptp.fn_remove_1 _let_3))) (let ((_let_5 (tptp.fn_mendel_pollination_4 X))) (let ((_let_6 (tptp.fn_mendel_pollination_3 X))) (let ((_let_7 (tptp.fn_mendel_pollination_1 X))) (let ((_let_8 (tptp.fn_mendel_pollination_2 X))) (=> (tptp.mendel_pollination_1 X) (and (tptp.original_name_2 X |tptp.'Mendel-Pollination'|) (tptp.user_description_2 X |tptp.'Mendel used a paintbrush to transfer sperm-bearing pollen from one plant to the egg-bearing carpel of another plant.'|) (tptp.concept2words_2 X |tptp.'pollination of mendel'|) (tptp.concept2words_2 X |tptp.'mendel pollination'|) (tptp.concept2words_2 X |tptp.'mendel-pollination'|) (tptp.pollination_1 X) (not (tptp.self_pollination_1 X)) (tptp.self_pollination_1 _let_7) (tptp.event_1 _let_8) (tptp.paintbrush_1 _let_6) (tptp.stamen_1 _let_5) (tptp.remove_1 _let_3) (tptp.mendel_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.mendel_pollination_1 _let_2) (tptp.instrument_2 _let_8 _let_6) (tptp.next_event_2 _let_3 _let_8) (tptp.prevents_2 _let_3 _let_7) (tptp.instrument_2 X _let_6) (tptp.first_subevent_2 X _let_3) (tptp.subevent_2 X _let_3) (tptp.object_2 _let_3 _let_5) (tptp.agent_2 X _let_1) (= _let_5 _let_4) (= X _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mendelevium_9 X))) (let ((_let_2 (tptp.fn_mendelevium_12 X))) (let ((_let_3 (tptp.fn_mendelevium_10 X))) (let ((_let_4 (tptp.fn_mendelevium_11 X))) (let ((_let_5 (tptp.fn_mendelevium_4 X))) (let ((_let_6 (tptp.fn_mendelevium_5 X))) (let ((_let_7 (tptp.fn_mendelevium_3 X))) (=> (tptp.mendelevium_1 X) (and (tptp.original_name_2 X |tptp.'Mendelevium'|) (tptp.user_description_2 X |tptp.'Mendelevium is a metal atom with atomic number 101. It is represented by the symbol Md.'|) (tptp.concept2words_2 X tptp.mendelevium) (tptp.concept2words_2 X tptp.md) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"157"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"101"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"101"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"15"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"1.3"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"258"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"101"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"258"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_mendelevium_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_mendelevium_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_mendelevium_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.mendelian_genetics_1 X) (and (tptp.original_name_2 X |tptp.'Mendelian-Genetics'|) (tptp.user_description_2 X |tptp.'The study of how heritable traits are passed from parents to offspring.'|) (tptp.concept2words_2 X |tptp.'mendelian genetics'|) (tptp.concept2words_2 X |tptp.'mendelian-genetic'|) (tptp.genetics_1 X) (not (tptp.developmental_genetics_1 X)) (not (tptp.molecular_genetics_1 X)) (not (tptp.non_mendelian_genetics_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mendelian_law_3 X))) (let ((_let_2 (tptp.fn_mendelian_law_2 X))) (let ((_let_3 (tptp.fn_mendelian_law_1 X))) (=> (tptp.mendelian_law_1 X) (and (tptp.original_name_2 X |tptp.'Mendelian-Law'|) (tptp.user_description_2 X |tptp.'The laws of Allele Segregation and Independent Assortment which describe the behavior of Mendelian Inheritance.'|) (tptp.concept2words_2 X |tptp.'mendel law'|) (tptp.concept2words_2 X |tptp.'mendel-law'|) (tptp.concept2words_2 X |tptp.'mendelian law of random separation of genes across generations'|) (tptp.concept2words_2 X |tptp.'mendelian-law-of-random-separation-of-genes-across-generations'|) (tptp.concept2words_2 X |tptp.'mendels laws'|) (tptp.concept2words_2 X |tptp.'mendels-laws'|) (tptp.concept2words_2 X tptp.mendelism) (tptp.concept2words_2 X |tptp.'mendelian inheritance'|) (tptp.concept2words_2 X |tptp.'mendelian-inheritance'|) (tptp.concept2words_2 X |tptp.'mendelian law'|) (tptp.concept2words_2 X |tptp.'mendelian-law'|) (tptp.scientific_laws_1 X) (not (tptp.first_law_thermodynamics_1 X)) (not (tptp.rule_of_probability_1 X)) (not (tptp.second_law_thermodynamics_1 X)) (tptp.law_of_independent_assortment_1 _let_3) (tptp.law_of_segregation_1 _let_2) (tptp.inheritance_1 _let_1) (tptp.information_content_2 X _let_3) (tptp.information_content_2 X _let_2) (tptp.information_content_2 X _let_1) (= _let_1 (tptp.fn_information_1 X)))))))) (forall ((X $$unsorted)) (=> (tptp.meniscus_1 X) (and (tptp.original_name_2 X |tptp.'Meniscus'|) (tptp.user_description_2 X |tptp.'Cartilage found in the knee that functions as a shock absorbing system.'|) (tptp.concept2words_2 X tptp.meniscus) (tptp.cartilage_1 X)))) (forall ((X $$unsorted)) (=> (tptp.menopause_1 X) (and (tptp.original_name_2 X |tptp.'Menopause'|) (tptp.user_description_2 X |tptp.'The end of a human female_'s reproductive years, marked by the cessation of ovulation and menstruation.'|) (tptp.concept2words_2 X tptp.menopause) (tptp.developmental_stage_1 X) (not (tptp.adulthood_1 X)) (not (tptp.algae_bloom_1 X)) (not (tptp.axes_formation_1 X)) (not (tptp.blastulation_1 X)) (not (tptp.eight_cell_stage_1 X)) (not (tptp.embryogenesis_1 X)) (not (tptp.fetal_stage_1 X)) (not (tptp.follicular_phase_1 X)) (not (tptp.juvenile_stage_1 X)) (not (tptp.larval_stage_1 X)) (not (tptp.multinucleated_stage_1 X)) (not (tptp.segment_formation_1 X)) (not (tptp.sensitive_period_1 X)) (not (tptp.two_cell_stage_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.concept2words_2 X tptp.period))) (=> (tptp.menstrual_cycle_1 X) (and (tptp.original_name_2 X |tptp.'Menstrual-Cycle'|) (tptp.user_description_2 X |tptp.'Also called the uterine cycle. In humans and some other primates, a cycle during which the endometrial lining is shed from the uterus if an egg is not fertilized.'|) (tptp.concept2words_2 X |tptp.'uterine cycle'|) (tptp.concept2words_2 X |tptp.'uterine-cycle'|) (tptp.concept2words_2 X tptp.menses) _let_1 _let_1 (tptp.concept2words_2 X |tptp.'menstrual cycle'|) (tptp.concept2words_2 X |tptp.'menstrual-cycle'|) (tptp.female_reproductive_cycle_events_1 X))))) (forall ((X $$unsorted)) (=> (tptp.menstrual_flow_1 X) (and (tptp.original_name_2 X |tptp.'Menstrual-Flow'|) (tptp.user_description_2 X |tptp.'The part of the menstrual cycle when menstrual fluid is shed.'|) (tptp.concept2words_2 X |tptp.'menstrual flow'|) (tptp.concept2words_2 X |tptp.'menstrual-flow'|) (tptp.menstrual_cycle_1 X)))) (forall ((X $$unsorted)) (=> (tptp.menstruation_1 X) (and (tptp.original_name_2 X |tptp.'Menstruation'|) (tptp.user_description_2 X |tptp.'The shedding of part of the endometrial lining when an egg is not fertilized during a menstrual (uterine) cycle.'|) (tptp.concept2words_2 X tptp.menstruate) (tptp.concept2words_2 X tptp.menstruation) (tptp.menstrual_cycle_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mental_or_brain_disorder_1 X) (and (tptp.original_name_2 X |tptp.'Mental-Or-Brain-Disorder'|) (tptp.user_description_2 X |tptp.'A disorder affecting one_'s brain or mental health.'|) (tptp.concept2words_2 X |tptp.'mental or brain disorder'|) (tptp.concept2words_2 X |tptp.'mental-or-brain-disorder'|) (tptp.disease_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mercury_9 X))) (let ((_let_2 (tptp.fn_mercury_12 X))) (let ((_let_3 (tptp.fn_mercury_10 X))) (let ((_let_4 (tptp.fn_mercury_11 X))) (let ((_let_5 (tptp.fn_mercury_4 X))) (let ((_let_6 (tptp.fn_mercury_5 X))) (let ((_let_7 (tptp.fn_mercury_3 X))) (=> (tptp.mercury_1 X) (and (tptp.original_name_2 X |tptp.'Mercury'|) (tptp.user_description_2 X |tptp.'Mercury is a metal atom with atomic number 80. It is represented by the symbol Hg.'|) (tptp.concept2words_2 X tptp.mercury) (tptp.concept2words_2 X |tptp.'Hg'|) (tptp.metal_atom_1 X) (tptp.neutron_1 _let_7) (tptp.atomic_mass_value_1 _let_5) (tptp.electronegativity_value_1 _let_6) (tptp.valence_electron_1 _let_1) (tptp.atomic_weight_value_1 _let_3) (tptp.atomic_number_value_1 _let_4) (tptp.quantity_value_1 _let_2) (tptp.electronegativity_2 X _let_6) (tptp.mass_number_2 X _let_5) (tptp.exactCardinality X tptp.has_part_0 |"121"| tptp.neutron_0) (tptp.exactCardinality X tptp.has_part_0 |"80"| tptp.proton_0) (tptp.exactCardinality X tptp.has_part_0 |"80"| tptp.electron_0) (tptp.has_part_2 X _let_7) (tptp.the_cardinal_value_2 _let_2 |"2"|) (tptp.cardinal_unit_class_2 _let_2 tptp.unity_0) (tptp.the_cardinal_value_2 _let_6 |"2"|) (tptp.cardinal_unit_class_2 _let_6 tptp.unity_0) (tptp.the_cardinal_value_2 _let_5 |"201"|) (tptp.cardinal_unit_class_2 _let_5 tptp.unity_0) (tptp.the_cardinal_value_2 _let_4 |"80"|) (tptp.cardinal_unit_class_2 _let_4 tptp.unity_0) (tptp.the_cardinal_value_2 _let_3 |"200.6"|) (tptp.cardinal_unit_class_2 _let_3 tptp.dalton_0) (tptp.atomic_number_2 X _let_4) (tptp.atomic_weight_2 X _let_3) (tptp.has_part_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (= (tptp.fn_mercury_7 X) (tptp.fn_atom_12 X)) (= _let_4 (tptp.fn_atom_17 X)) (= (tptp.fn_mercury_8 X) (tptp.fn_atom_13 X)) (= _let_3 (tptp.fn_atom_16 X)) (= (tptp.fn_mercury_6 X) (tptp.fn_atom_1 X)) (= _let_2 (tptp.fn_atom_5 X)) (= _let_1 (tptp.fn_atom_14 X)))))))))))) (forall ((X $$unsorted)) (=> (tptp.meristem_1 X) (and (tptp.original_name_2 X |tptp.'Meristem'|) (tptp.user_description_2 X |tptp.'Plant tissue consisting of undifferentiated cells, found in regions where growth can occur.'|) (tptp.concept2words_2 X tptp.meristem) (tptp.plant_specific_tissue_1 X) (not (tptp.endosperm_1 X)) (not (tptp.integument_1 X)) (not (tptp.mesophyll_1 X)) (not (tptp.phloem_1 X)) (not (tptp.primary_plant_body_1 X)) (not (tptp.primary_plant_1 X)) (not (tptp.protonema_1 X)) (not (tptp.receptacle_1 X)) (not (tptp.vessel_1 X))))) (forall ((X $$unsorted)) (=> (tptp.meristem_identity_gene_1 X) (and (tptp.original_name_2 X |tptp.'Meristem-Identity-Gene'|) (tptp.user_description_2 X |tptp.'A plant gene that facilitates the change from vegetative growth to flower production.'|) (tptp.concept2words_2 X |tptp.'meristem identity gene'|) (tptp.concept2words_2 X |tptp.'meristem-identity gene'|) (tptp.concept2words_2 X |tptp.'meristem-identity-gene'|) (tptp.plant_gene_1 X)))) (forall ((X $$unsorted)) (=> (tptp.meroblastic_cleavage_1 X) (and (tptp.original_name_2 X |tptp.'Meroblastic-Cleavage'|) (tptp.user_description_2 X |tptp.'A type of cleavage that occurs in yolk-rich eggs. Instead of the egg dividing completely, in meroblastic cleavage the cleavage furrows do not penetrate into the yolk, resulting in an embryo with one large cell and many smaller cells.'|) (tptp.concept2words_2 X |tptp.'undergo meroblastic cleavage'|) (tptp.concept2words_2 X |tptp.'meroblastic cleavage'|) (tptp.concept2words_2 X |tptp.'meroblastic-cleavage'|) (tptp.cleavage_1 X) (not (tptp.determinate_cleavage_1 X)) (not (tptp.holoblastic_cleavage_1 X)) (not (tptp.indeterminate_cleavage_1 X)) (not (tptp.spiral_cleavage_1 X))))) (forall ((X $$unsorted)) (=> (tptp.meronymic_relation_1 X) (and (tptp.original_name_2 X |tptp.'Meronymic-Relation'|) (tptp.user_description_2 X |tptp.'A meronymic relation is a relation between parts and wholes. The parts of an entity are other entities, and the parts or steps of an event are other events. If a relation is a meronymic relation, then its inverse is also a meronymic relation.'|) (tptp.concept2words_2 X |tptp.'meronymic relation'|) (tptp.concept2words_2 X |tptp.'meronymic-relation'|) (tptp.relation_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_meselson_and_stahl_experiment_13 X))) (let ((_let_2 (tptp.fn_dna_replication_23 _let_1))) (let ((_let_3 (tptp.fn_synthesis_of_nucleic_acid_6 _let_1))) (let ((_let_4 (tptp.fn_meselson_and_stahl_experiment_22 X))) (let ((_let_5 (tptp.fn_dna_replication_23 _let_4))) (let ((_let_6 (tptp.fn_synthesis_of_nucleic_acid_6 _let_4))) (let ((_let_7 (tptp.fn_meselson_and_stahl_experiment_14 X))) (let ((_let_8 (tptp.fn_culturing_7 _let_7))) (let ((_let_9 (tptp.fn_meselson_and_stahl_experiment_19 X))) (let ((_let_10 (tptp.fn_culture_2 _let_9))) (let ((_let_11 (tptp.fn_meselson_and_stahl_experiment_15 X))) (let ((_let_12 (tptp.fn_add_2 _let_11))) (let ((_let_13 (tptp.fn_meselson_and_stahl_experiment_11 X))) (let ((_let_14 (tptp.fn_meselson_and_stahl_experiment_12 X))) (let ((_let_15 (tptp.fn_culturing_6 _let_7))) (let ((_let_16 (tptp.fn_meselson_and_stahl_experiment_20 X))) (let ((_let_17 (tptp.fn_culturing_2 _let_7))) (let ((_let_18 (tptp.fn_meselson_and_stahl_experiment_18 X))) (let ((_let_19 (tptp.fn_add_1 _let_11))) (let ((_let_20 (tptp.fn_meselson_and_stahl_experiment_21 X))) (let ((_let_21 (tptp.fn_meselson_and_stahl_experiment_16 X))) (let ((_let_22 (tptp.fn_transfer_1 _let_21))) (let ((_let_23 (tptp.fn_meselson_and_stahl_experiment_17 X))) (let ((_let_24 (tptp.fn_meselson_and_stahl_experiment_4 X))) (let ((_let_25 (tptp.fn_meselson_and_stahl_experiment_8 X))) (let ((_let_26 (tptp.fn_meselson_and_stahl_experiment_2 X))) (let ((_let_27 (tptp.fn_meselson_and_stahl_experiment_3 X))) (let ((_let_28 (tptp.fn_meselson_and_stahl_experiment_1 X))) (let ((_let_29 (tptp.fn_meselson_and_stahl_experiment_7 X))) (let ((_let_30 (tptp.fn_meselson_and_stahl_experiment_9 X))) (let ((_let_31 (tptp.fn_meselson_and_stahl_experiment_10 X))) (=> (tptp.meselson_and_stahl_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Meselson-and-Stahl-Experiment'|) (tptp.user_description_2 X |tptp.'An experiment that showed that DNA replicates by a semiconservative mechanism, resulting in two DNA molecules, with each containing one new strand and one old strand.'|) (tptp.concept2words_2 X |tptp.'meselson and stahl experiment'|) (tptp.concept2words_2 X |tptp.'meselson-and-stahl-experiment'|) (tptp.experiment_1 X) (not (tptp.anchor_cell_destruction_experiment_1 X)) (not (tptp.bicoid_protein_hypothesis_experiment_1 X)) (not (tptp.controlled_experiment_1 X)) (not (tptp.steward_experiment_on_carrot_1 X)) (not (tptp.study_on_drosophila_by_morgan_1 X)) (not (tptp.tomato_chimera_experiment_1 X)) (not (tptp.undifferentiated_cell_nucleus_transplantation_to_frog_egg_1 X)) (tptp.nitrogen_1 _let_28) (tptp.density_value_1 _let_26) (tptp.density_value_1 _let_27) (tptp.culture_medium_1 _let_24) 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_let_1 _let_24) (tptp.time_during_2 _let_7 _let_31) (tptp.next_event_2 _let_7 _let_11) (tptp.time_during_2 _let_11 _let_30) (tptp.next_event_2 _let_11 _let_1) (tptp.time_during_2 _let_21 _let_29) (tptp.agent_2 _let_21 _let_24) (tptp.has_part_2 _let_24 _let_28) (tptp.the_scalar_value_2 _let_27 tptp.rare_0) (tptp.scalar_unit_class_2 _let_27 tptp.nitrogen_isotope_0) (tptp.has_part_2 _let_16 _let_20) (tptp.the_scalar_value_2 _let_26 tptp.dense_0) (tptp.scalar_unit_class_2 _let_26 tptp.nitrogen_isotope_0) (tptp.first_subevent_2 X _let_7) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_4) (tptp.density_2 _let_28 _let_27) (tptp.density_2 _let_20 _let_26) (tptp.time_during_2 _let_4 _let_25) (not (= _let_4 _let_1)) (tptp.next_event_2 _let_4 _let_21) (tptp.site_2 _let_4 _let_24) (tptp.object_2 _let_21 _let_23) (tptp.base_2 _let_11 _let_18) (tptp.object_2 _let_11 _let_20) (tptp.element_2 _let_9 _let_18) (tptp.object_2 _let_7 _let_18) (tptp.result_2 _let_7 _let_9) (tptp.base_2 _let_7 _let_16) (tptp.result_2 _let_4 _let_14) (tptp.result_2 _let_1 _let_13) (= _let_23 _let_22) (= _let_18 _let_12) (= _let_20 _let_19) (= _let_18 _let_10) (= _let_18 _let_8) (= _let_9 _let_17) (= _let_16 _let_15) (= _let_14 _let_6) (= _let_14 _let_5) (= _let_13 _let_3) (= _let_13 _let_2) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mesenchyme_cell_2 X))) (let ((_let_2 (tptp.fn_mesenchyme_cell_1 X))) (let ((_let_3 (tptp.fn_mesenchyme_cell_3 X))) (=> (tptp.mesenchyme_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mesenchyme-Cell'|) (tptp.user_description_2 X |tptp.'A cell that forms undifferentiated loose connective tissue. Mesenchyme cells derive from mesoderm during embryonic development.'|) (tptp.concept2words_2 X |tptp.'cell of mesenchyme'|) (tptp.concept2words_2 X |tptp.'mesenchyme cell'|) (tptp.concept2words_2 X |tptp.'mesenchyme-cell'|) (tptp.animal_cell_1 X) (tptp.spatial_entity_1 _let_2) (tptp.spatial_entity_1 _let_1) (tptp.block_1 _let_3) (tptp.instrument_2 _let_3 X) (tptp.is_between_2 X _let_2) (tptp.is_between_2 X _let_1))))))) (forall ((X $$unsorted)) (=> (tptp.mesentery_1 X) (and (tptp.original_name_2 X |tptp.'Mesentery'|) (tptp.user_description_2 X |tptp.'The layers of peritoneum that attach the gut system and its associated organs, for example, the spleen, to the dorsal surface of the peritoneal cavity.'|) (tptp.concept2words_2 X tptp.mesentery) (tptp.specialised_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mesoderm_1 X) (and (tptp.original_name_2 X |tptp.'Mesoderm'|) (tptp.user_description_2 X |tptp.'In bilateral animals, the middle of the three embryonic germ layers. Mesoderm develops into the coelom, muscles, endoskeletal system, kidneys, gonads, vascular system, and notochord (in chordates only).'|) (tptp.concept2words_2 X tptp.mesoderm) (tptp.germ_layer_1 X) (not (tptp.ectoderm_1 X)) (not (tptp.endoderm_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mesohyl_1 X) (and (tptp.original_name_2 X |tptp.'Mesohyl'|) (tptp.user_description_2 X |tptp.'In sponges, the gelatinous matrix that fills the space between the external pinacoderm layer and the inner choanoderm layer.'|) (tptp.concept2words_2 X tptp.mesenchyme) (tptp.concept2words_2 X tptp.mesohyl) (tptp.suspension_1 X) (not (tptp.acid_chyme_1 X)) (not (tptp.detritus_1 X)) (not (tptp.feces_1 X)) (not (tptp.homogenate_1 X)) (not (tptp.homogeneous_mixture_1 X)) (not (tptp.loam_1 X)) (not (tptp.peat_1 X)) (not (tptp.protobiont_1 X)) (not (tptp.saliva_1 X)) (not (tptp.soil_1 X)) (not (tptp.topsoil_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mesophyll_10 X))) (let ((_let_2 (tptp.fn_plant_cell_6 _let_1))) (let ((_let_3 (tptp.fn_mesophyll_9 X))) (let ((_let_4 (tptp.fn_mesophyll_7 X))) (let ((_let_5 (tptp.fn_plant_cell_6 _let_4))) (let ((_let_6 (tptp.fn_mesophyll_8 X))) (let ((_let_7 (tptp.fn_mesophyll_3 X))) (let ((_let_8 (tptp.fn_mesophyll_4 X))) (let ((_let_9 (tptp.fn_mesophyll_6 X))) (let ((_let_10 (tptp.fn_mesophyll_5 X))) (=> (tptp.mesophyll_1 X) (and (tptp.original_name_2 X |tptp.'Mesophyll'|) (tptp.user_description_2 X |tptp.'Most of the interior of the leaf between the upper and lower layers of epidermis is a parenchyma (ground tissue) or chlorenchyma tissue called the mesophyll.'|) (tptp.concept2words_2 X tptp.mesophyll) (tptp.ground_tissue_1 X) (not (tptp.cortex_1 X)) (not (tptp.pith_1 X)) (not (tptp.endosperm_1 X)) (not (tptp.integument_1 X)) (not (tptp.leaf_primordium_1 X)) (not (tptp.meristem_1 X)) (not (tptp.phloem_1 X)) (not (tptp.primary_plant_body_1 X)) (not (tptp.primary_plant_1 X)) (not (tptp.protonema_1 X)) (not (tptp.receptacle_1 X)) (not (tptp.vessel_1 X)) (tptp.quantity_value_1 _let_7) (tptp.quantity_value_1 _let_8) (tptp.mesophyll_cell_1 _let_10) (tptp.mesophyll_cell_1 _let_9) (tptp.plant_cell_1 _let_4) (tptp.chloroplast_1 _let_6) (tptp.chloroplast_1 _let_3) (tptp.mesophyll_cell_1 _let_1) (tptp.chloroplast_1 _let_5) (tptp.chloroplast_1 _let_2) (tptp.abuts_2 _let_9 _let_10) (not (= _let_9 _let_10)) (not (= _let_9 _let_1)) (tptp.abuts_2 _let_10 _let_9) (not (= _let_10 _let_9)) (not (= _let_10 _let_1)) (not (= _let_1 _let_10)) (not (= _let_1 _let_9)) (tptp.quantity_2 _let_3 _let_8) (tptp.has_part_2 X _let_10) (tptp.has_part_2 X _let_9) (tptp.greater_than_or_equal_to_2 _let_8 _let_7) (tptp.greater_than_2 _let_8 _let_7) (tptp.quantity_2 _let_6 _let_7) (tptp.has_part_2 X _let_1) (tptp.has_part_2 _let_4 _let_6) (tptp.has_part_2 _let_1 _let_3) (= _let_1 (tptp.fn_tissue_1 X)) (= _let_6 _let_5) (= _let_3 _let_2)))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mesophyll_cell_1 X) (and (tptp.original_name_2 X |tptp.'Mesophyll-Cell'|) (tptp.user_description_2 X |tptp.'Mesophyll cells are the objects inside a cross-section of a leaf which are loosley packed cells that give the leaf a spongy appearence.'|) (tptp.concept2words_2 X |tptp.'cell of mesophyll'|) (tptp.concept2words_2 X |tptp.'mesophyll cell'|) (tptp.concept2words_2 X |tptp.'mesophyll-cell'|) (tptp.parenchyma_cell_1 X) (not (tptp.bundle_sheath_cell_1 X)) (not (tptp.collenchyma_cell_1 X)) (not (tptp.companion_cell_1 X)) (not (tptp.fiber_cell_1 X)) (not (tptp.fusiform_initials_1 X)) (not (tptp.guard_cell_1 X)) (not (tptp.initial_meristem_1 X)) (not (tptp.placental_transfer_cell_1 X)) (not (tptp.plant_cell_inside_hypertonic_solution_1 X)) (not (tptp.plant_cell_inside_hypotonic_solution_1 X)) (not (tptp.plant_cell_inside_isotonic_solution_1 X)) (not (tptp.rhizoid_1 X)) (not (tptp.sclereid_1 X)) (not (tptp.sclerenchyma_cell_1 X)) (not (tptp.sieve_tube_element_1 X)) (not (tptp.tracheid_1 X)) (not (tptp.vessel_element_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_legume_13 X))) (let ((_let_2 (tptp.fn_dicot_1 X))) (let ((_let_3 (tptp.fn_mesquite_5 X))) (let ((_let_4 (tptp.fn_mesquite_2 X))) (let ((_let_5 (tptp.fn_mesquite_1 X))) (=> (tptp.mesquite_1 X) (and (tptp.original_name_2 X |tptp.'Mesquite'|) (tptp.user_description_2 X |tptp.'Tree-like legume which is adapted for life in desert climates.'|) (tptp.concept2words_2 X tptp.mesquite) (tptp.desert_plant_1 X) (tptp.legume_1 X) (tptp.length_value_1 _let_5) (tptp.length_value_1 _let_4) (tptp.root_1 _let_3) (tptp.taproot_1 _let_3) (tptp.the_cardinal_value_2 _let_5 |"20.0e0"|) (tptp.cardinal_unit_class_2 _let_5 tptp.meter_0) (tptp.greater_than_2 _let_4 _let_5) (tptp.length_2 _let_3 _let_4) (tptp.has_part_2 X _let_3) (= _let_3 _let_2) (= _let_3 _let_1) (= _let_2 _let_1))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_message_1 X))) (=> (tptp.message_1 X) (and (tptp.original_name_2 X |tptp.'Message'|) (tptp.description_2 X |tptp.'an encoding of information in a language'|) 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The state of high metabolism is a cell is calle as Cell-with-high-metabolic-activity.'|) (tptp.concept2words_2 X |tptp.'cell with high metabolic activity'|) (tptp.concept2words_2 X |tptp.'metabolically active cell'|) (tptp.concept2words_2 X |tptp.'metabolically-active-cell'|) (tptp.eukaryotic_cell_1 X) (tptp.cell_state_1 X) (tptp.metabolism_1 _let_46) (tptp.frequency_value_1 _let_45) (tptp.chemical_entity_1 _let_23) (tptp.entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.cellular_work_1 _let_30) (tptp.nuclear_lamina_1 _let_38) (tptp.aqueous_solution_1 _let_40) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_10) (tptp.nuclear_membrane_1 _let_10) (tptp.biomembrane_1 _let_10) (tptp.spatial_entity_1 _let_42) (tptp.outer_membrane_1 _let_42) (tptp.synthesis_of_endomembranous_system_membrane_1 _let_4) (tptp.release_1 _let_43) (tptp.rough_endoplasmic_reticulum_1 _let_7) (tptp.endoplasmic_reticulum_1 _let_29) (tptp.smooth_endoplasmic_reticulum_1 _let_29) (tptp.eukaryotic_chromosome_1 _let_33) (tptp.chromosome_1 _let_33) (tptp.tangible_entity_1 _let_2) (tptp.nucleus_1 _let_2) (tptp.spatial_entity_1 _let_18) (tptp.biomembrane_1 _let_18) (tptp.plasma_membrane_1 _let_18) (tptp.semiautonomous_organelle_1 _let_28) (tptp.mitochondrion_1 _let_28) (tptp.organelle_1 _let_28) (tptp.spatial_entity_1 _let_44) (tptp.cisternal_space_1 _let_44) (tptp.tangible_entity_1 _let_25) (tptp.biomembrane_1 _let_25) (tptp.er_membrane_1 _let_25) (tptp.tangible_entity_1 _let_19) (tptp.phospholipid_bilayer_1 _let_19) (tptp.substance_1 _let_27) (tptp.cytosol_1 _let_27) (tptp.eukaryotic_cellular_respiration_1 _let_32) (tptp.size_value_1 _let_35) (tptp.surface_1 _let_20) (tptp.volume_value_1 _let_34) (tptp.ribosome_1 _let_36) (tptp.eukaryotic_ribosome_1 _let_36) (tptp.mixture_1 _let_21) (tptp.cytoplasm_1 _let_21) (tptp.golgi_apparatus_1 _let_31) (tptp.carbon_skeleton_1 _let_24) (tptp.lipid_1 _let_22) (tptp.glycolipid_1 _let_22) (tptp.protein_enzyme_1 _let_26) (tptp.spatial_entity_1 _let_41) (tptp.outer_membrane_1 _let_41) (tptp.aqueous_solution_1 _let_39) (tptp.nuclear_lamina_1 _let_37) (tptp.spatial_entity_1 _let_17) (tptp.cisternal_space_1 _let_17) (tptp.cisternal_space_1 _let_16) (tptp.release_1 _let_15) (tptp.release_1 _let_14) (tptp.endoplasmic_reticulum_1 _let_13) (tptp.smooth_endoplasmic_reticulum_1 _let_13) (tptp.rough_endoplasmic_reticulum_1 _let_11) (tptp.tangible_entity_1 _let_8) (tptp.biomembrane_1 _let_8) (tptp.er_membrane_1 _let_8) (tptp.spatial_entity_1 _let_5) (tptp.tangible_entity_1 _let_5) (tptp.biomembrane_1 _let_5) (tptp.nuclear_membrane_1 _let_3) (tptp.biomembrane_1 _let_3) (tptp.has_goal_2 X _let_46) (tptp.the_scalar_value_2 _let_45 tptp.often_0) (tptp.scalar_unit_class_2 _let_45 tptp.event_0) (tptp.frequency_2 _let_46 _let_45) (tptp.result_2 _let_4 _let_10) (tptp.base_2 _let_43 _let_7) (tptp.has_region_2 _let_7 _let_44) (tptp.is_inside_2 _let_44 _let_25) (tptp.subevent_2 _let_4 _let_43) (tptp.base_2 _let_43 _let_29) (tptp.has_region_2 _let_29 _let_44) (tptp.has_part_2 _let_10 _let_42) (tptp.abuts_2 _let_7 _let_42) (tptp.abuts_2 _let_42 _let_7) (tptp.has_part_2 _let_2 _let_38) (tptp.is_along_2 _let_38 _let_10) (tptp.is_between_2 _let_10 _let_40) (tptp.has_part_2 _let_2 _let_40) (tptp.is_along_2 _let_10 _let_38) (tptp.has_region_2 _let_22 _let_24) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_29) (not (= _let_7 _let_29)) (not (= _let_29 _let_7)) (tptp.has_part_2 X _let_7) (tptp.abuts_2 _let_7 _let_29) (tptp.abuts_2 _let_29 _let_7) (tptp.is_inside_2 _let_24 _let_10) (tptp.abuts_2 _let_10 _let_25) (tptp.is_inside_2 _let_26 _let_25) (tptp.has_part_2 _let_21 _let_26) (tptp.abuts_2 _let_25 _let_10) (tptp.is_between_2 _let_21 _let_2) (tptp.has_part_2 _let_2 _let_10) (tptp.has_part_2 _let_10 _let_22) (tptp.has_part_2 X _let_2) (= _let_10 _let_5) (= _let_43 _let_15) (= _let_25 _let_8) (= _let_44 _let_17) (= _let_44 _let_16) (= _let_29 _let_13) (= _let_43 _let_14) (= _let_7 _let_11) (= _let_42 _let_41) (= _let_40 _let_39) (= _let_10 _let_3) (= _let_38 _let_37) (= (tptp.fn_metabolically_active_cell_9 X) (tptp.fn_eukaryotic_cell_28 X)) (= (tptp.fn_metabolically_active_cell_8 X) (tptp.fn_eukaryotic_cell_60 X)) (= _let_36 (tptp.fn_eukaryotic_cell_45 X)) (= _let_35 (tptp.fn_eukaryotic_cell_27 X)) (= _let_34 (tptp.fn_eukaryotic_cell_59 X)) (= _let_33 (tptp.fn_eukaryotic_cell_30 X)) (= _let_32 (tptp.fn_eukaryotic_cell_23 X)) (= _let_31 (tptp.fn_eukaryotic_cell_24 X)) (= _let_30 (tptp.fn_eukaryotic_cell_32 X)) (= _let_29 _let_12) (= _let_7 _let_9) (= _let_28 (tptp.fn_eukaryotic_cell_25 X)) (= _let_27 (tptp.fn_eukaryotic_cell_42 X)) (= _let_26 (tptp.fn_eukaryotic_cell_21 X)) (= _let_25 _let_6) (= _let_24 (tptp.fn_eukaryotic_cell_17 X)) (= _let_23 (tptp.fn_eukaryotic_cell_18 X)) (= _let_22 (tptp.fn_eukaryotic_cell_40 X)) (= _let_10 _let_1) (= _let_21 (tptp.fn_eukaryotic_cell_31 X)) (= _let_2 (tptp.fn_eukaryotic_cell_26 X)) (= _let_20 (tptp.fn_eukaryotic_cell_44 X)) (= _let_19 (tptp.fn_eukaryotic_cell_41 X)) (= _let_18 (tptp.fn_eukaryotic_cell_29 X)) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1)))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metabolism_1 X))) (=> (tptp.metabolism_1 X) (and (tptp.original_name_2 X |tptp.'Metabolism'|) (tptp.user_description_2 X |tptp.'Metabolism is the set of chemical reactions that occur in living organisms to maintain life. These processes allow organisms to grow and reproduce, maintain their structures, and respond to their environments. Metabolism is usually divided into two categories. Catabolism breaks down organic matter, for example to harvest energy in cellular respiration. Anabolism, on the other hand, uses energy to construct components of cells such as proteins and nucleic acids'|) (tptp.concept2words_2 X |tptp.'metabolic process'|) (tptp.concept2words_2 X |tptp.'cellular metabolism'|) (tptp.concept2words_2 X |tptp.'cellular-metabolism'|) (tptp.concept2words_2 X tptp.metabolize) (tptp.concept2words_2 X tptp.metabolism) (tptp.biological_process_1 X) (tptp.organism_1 _let_1) (tptp.base_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metal_1 X))) (=> (tptp.metal_1 X) (and (tptp.original_name_2 X |tptp.'Metal'|) (tptp.concept2words_2 X tptp.metal) (tptp.concept2words_2 X |tptp.'metallic element'|) (tptp.concept2words_2 X tptp.metallic_element) (tptp.concept2words_2 X tptp.alloy) (tptp.chemical_1 X) (tptp.metal_atom_1 _let_1) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_chemical_3 X)))))) (forall ((X $$unsorted)) (=> (tptp.metal_atom_1 X) (and (tptp.original_name_2 X |tptp.'Metal-Atom'|) (tptp.user_description_2 X |tptp.'Metals are elements that are usually solids at room temperature, exhibit high electrical and heat conductivity, and appear lustrous. Most of the elements in the periodic table are metals.'|) (tptp.concept2words_2 X |tptp.'atom of metal'|) (tptp.concept2words_2 X |tptp.'metal atom'|) (tptp.concept2words_2 X |tptp.'metal-atom'|) (tptp.atom_1 X)))) (forall ((X $$unsorted)) (=> (tptp.metal_cation_1 X) (and (tptp.original_name_2 X |tptp.'Metal-Cation'|) (tptp.user_description_2 X |tptp.'A metal cation is a positively charged metal ion.'|) (tptp.concept2words_2 X |tptp.'cation of metal'|) (tptp.concept2words_2 X |tptp.'metal cation'|) (tptp.concept2words_2 X |tptp.'metal-cation'|) (tptp.cation_1 X) (not (tptp.methyl_ion_1 X)) (not (tptp.calcium_ion_1 X)) (not (tptp.hydronium_ion_1 X)) (not (tptp.magnesium_ion_1 X)) (not (tptp.sodium_ion_1 X))))) (forall ((X $$unsorted)) (=> (tptp.metalloid_atom_1 X) (and (tptp.original_name_2 X |tptp.'Metalloid-Atom'|) (tptp.user_description_2 X |tptp.'Metalloids are elements that lie along the diagonal line separating the metals from the nonmetals in the periodic table; the properties of metalloids are intermediate between those of metals and nonmetals.'|) (tptp.concept2words_2 X |tptp.'metalloid atom'|) (tptp.concept2words_2 X |tptp.'metalloid-atom'|) (tptp.atom_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metamorphosis_1 X))) (let ((_let_2 (tptp.fn_metamorphosis_2 X))) (=> (tptp.metamorphosis_1 X) (and (tptp.original_name_2 X |tptp.'Metamorphosis'|) (tptp.user_description_2 X |tptp.'Metamorphosis is a developmental process which occurs in some animals during which an animal in an immature larval stage transforms into a sexually-immature juvenile.'|) (tptp.concept2words_2 X tptp.transformation) (tptp.concept2words_2 X tptp.metamorphose) (tptp.concept2words_2 X tptp.transform) (tptp.concept2words_2 X tptp.metamorphosis) (tptp.change_of_state_1 X) (not (tptp.alteration_of_mrna_ends_1 X)) (not (tptp.coil_1 X)) (not (tptp.conformational_change_1 X)) (not (tptp.conversion_to_isomer_1 X)) (not (tptp.detoxification_1 X)) (not (tptp.evaporation_1 X)) (not (tptp.fold_1 X)) (not (tptp.freezing_1 X)) (not (tptp.gene_therapy_1 X)) (not (tptp.melting_1 X)) (not (tptp.mutation_1 X)) (not (tptp.post_translational_modification_1 X)) (not (tptp.refract_1 X)) (not (tptp.temperature_fluctuation_1 X)) (not (tptp.transformation_1 X)) (not (tptp.twist_1 X)) (tptp.animal_1 _let_1) (tptp.animal_1 _let_2) (tptp.object_2 X _let_2) (tptp.result_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metamorphosis_in_frog_3 X))) (let ((_let_2 (tptp.fn_lysosome_5 _let_1))) (let ((_let_3 (tptp.fn_metamorphosis_in_frog_2 X))) (let ((_let_4 (tptp.fn_metamorphosis_in_frog_5 X))) (let ((_let_5 (tptp.fn_metamorphosis_in_frog_4 X))) (let ((_let_6 (tptp.fn_metamorphosis_in_frog_1 X))) (=> (tptp.metamorphosis_in_frog_1 X) (and (tptp.original_name_2 X |tptp.'Metamorphosis-In-Frog'|) (tptp.user_description_2 X |tptp.'The process of metamorphosis from tadpole to frog.'|) (tptp.concept2words_2 X tptp.metamorphose) (tptp.concept2words_2 X |tptp.'metamorphosis in frog'|) (tptp.concept2words_2 X |tptp.'metamorphosis-in-frog'|) (tptp.metamorphosis_1 X) (tptp.destroy_1 _let_6) (tptp.autophagy_1 _let_3) (tptp.substance_1 _let_1) (tptp.lysosome_1 _let_1) (tptp.adult_1 _let_5) (tptp.frog_1 _let_5) (tptp.larva_1 _let_4) (tptp.tadpole_1 _let_4) (tptp.autophagy_1 _let_2) (tptp.next_event_2 _let_3 _let_6) (tptp.agent_2 _let_6 _let_1) (tptp.subevent_2 X _let_3) (tptp.subevent_2 X _let_6) (tptp.first_subevent_2 X _let_3) (tptp.result_2 X _let_5) (tptp.object_2 X _let_4) (tptp.site_2 _let_3 _let_1) (= _let_5 (tptp.fn_metamorphosis_1 X)) (= _let_4 (tptp.fn_metamorphosis_2 X)) (= _let_3 _let_2)))))))))) (forall ((X $$unsorted)) (=> (tptp.metanephridium_1 X) (and (tptp.original_name_2 X |tptp.'Metanephridium'|) (tptp.user_description_2 X |tptp.'An excretory organ found in many aquatic invertebrates. A metanephridium typically consist of a ciliated funnel attached to a long tubules that opens to the outside.'|) (tptp.concept2words_2 X tptp.metanephridia) (tptp.concept2words_2 X tptp.metanephridium) (tptp.excretory_organ_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metaphase_6 X))) (let ((_let_2 (tptp.fn_kinetochore_25 _let_1))) (let ((_let_3 (tptp.fn_metaphase_25 X))) (let ((_let_4 (tptp.fn_locomotion_1 _let_3))) (let ((_let_5 (tptp.fn_metaphase_21 X))) (let ((_let_6 (tptp.fn_cell_25 _let_5))) (let ((_let_7 (tptp.fn_metaphase_28 X))) (let ((_let_8 (tptp.fn_come_together_1 _let_7))) (let ((_let_9 (tptp.fn_kinetochore_24 _let_1))) (let ((_let_10 (tptp.fn_metaphase_10 X))) (let ((_let_11 (tptp.fn_metaphase_plate_5 _let_10))) (let ((_let_12 (tptp.fn_metaphase_plate_7 _let_10))) (let ((_let_13 (tptp.fn_metaphase_26 X))) (let ((_let_14 (tptp.fn_go_to_1 _let_13))) (let ((_let_15 (tptp.fn_go_to_1 _let_3))) (let ((_let_16 (tptp.fn_come_together_3 _let_7))) (let ((_let_17 (tptp.fn_metaphase_22 X))) (let ((_let_18 (tptp.fn_microtubule_elongation_2 _let_17))) (let ((_let_19 (tptp.fn_metaphase_24 X))) (let ((_let_20 (tptp.fn_make_contact_1 _let_19))) (let ((_let_21 (tptp.fn_metaphase_23 X))) (let ((_let_22 (tptp.fn_microtubule_elongation_2 _let_21))) (let ((_let_23 (tptp.fn_metaphase_18 X))) (let ((_let_24 (tptp.fn_mitotic_spindle_1 _let_23))) (let ((_let_25 (tptp.fn_make_contact_2 _let_19))) (let ((_let_26 (tptp.fn_metaphase_plate_2 _let_10))) (let ((_let_27 (tptp.fn_cell_1 _let_5))) (let ((_let_28 (tptp.fn_metaphase_plate_1 _let_10))) (let ((_let_29 (tptp.fn_locomotion_1 _let_13))) (let ((_let_30 (tptp.fn_come_together_2 _let_7))) (let ((_let_31 (tptp.fn_metaphase_27 X))) (let ((_let_32 (tptp.fn_chromosome_3 _let_31))) (let ((_let_33 (tptp.fn_metaphase_8 X))) (let ((_let_34 (tptp.fn_attach_2 _let_33))) (let ((_let_35 (tptp.fn_metaphase_19 X))) (let ((_let_36 (tptp.fn_metaphase_29 X))) (let ((_let_37 (tptp.fn_metaphase_9 X))) (let ((_let_38 (tptp.fn_cell_equator_1 _let_37))) (let ((_let_39 (tptp.fn_metaphase_14 X))) (let ((_let_40 (tptp.fn_microtubule_elongation_1 _let_17))) (let ((_let_41 (tptp.fn_metaphase_13 X))) (let ((_let_42 (tptp.fn_metaphase_15 X))) (let ((_let_43 (tptp.fn_microtubule_elongation_1 _let_21))) (let ((_let_44 (tptp.fn_metaphase_12 X))) (let ((_let_45 (tptp.fn_metaphase_31 X))) (let ((_let_46 (tptp.fn_metaphase_20 X))) (let ((_let_47 (tptp.fn_metaphase_11 X))) (let ((_let_48 (tptp.fn_metaphase_30 X))) (let ((_let_49 (tptp.fn_metaphase_7 X))) (let ((_let_50 (tptp.fn_attach_1 _let_49))) (let ((_let_51 (tptp.fn_metaphase_17 X))) (let ((_let_52 (tptp.fn_attach_1 _let_33))) (let ((_let_53 (tptp.fn_metaphase_16 X))) (let ((_let_54 (tptp.fn_attach_2 _let_49))) (let ((_let_55 (tptp.fn_metaphase_1 X))) (let ((_let_56 (tptp.fn_metaphase_2 X))) (let ((_let_57 (tptp.fn_metaphase_3 X))) (let ((_let_58 (tptp.fn_metaphase_5 X))) (let ((_let_59 (tptp.fn_metaphase_4 X))) (=> (tptp.metaphase_1 X) (and (tptp.original_name_2 X |tptp.'Metaphase'|) (tptp.user_description_2 X |tptp.'The stage of mitosis in which chromosomes are lined up at the metaphase plate, the spindle complex is completely formed, and the kinetochore of each chromatid is attached to its microtubule.'|) (tptp.concept2words_2 X |tptp.'undergo metaphase'|) (tptp.concept2words_2 X tptp.metaphase) (tptp.mitotic_stage_1 X) (tptp.resource_1 _let_55) (tptp.centrosome_1 _let_56) (tptp.centrosome_1 _let_57) (tptp.centrosome_1 _let_59) (tptp.cell_opposite_pole_1 _let_58) (tptp.spatial_entity_1 _let_1) (tptp.kinetochore_1 _let_1) (tptp.attach_1 _let_49) (tptp.attach_1 _let_33) (tptp.spatial_entity_1 _let_37) (tptp.cell_equator_1 _let_37) (tptp.metaphase_plate_1 _let_10) (tptp.cell_1 _let_47) (tptp.attach_1 _let_44) (tptp.attach_1 _let_41) (tptp.nonkinetochore_microtubule_1 _let_39) (tptp.nonkinetochore_microtubule_1 _let_42) (tptp.kinetochore_microtubule_1 _let_53) (tptp.kinetochore_microtubule_1 _let_51) (tptp.mitotic_spindle_1 _let_23) (tptp.diploid_chromosome_1 _let_35) (tptp.cell_pole_1 _let_46) (tptp.cell_1 _let_5) (tptp.microtubule_elongation_1 _let_17) (tptp.microtubule_elongation_1 _let_21) (tptp.make_contact_1 _let_19) (tptp.go_to_1 _let_3) (tptp.go_to_1 _let_13) (tptp.diploid_chromosome_1 _let_31) (tptp.come_together_1 _let_7) (tptp.centromere_1 _let_36) (tptp.kinetochore_1 _let_48) (tptp.cell_pole_1 _let_45) (tptp.spatial_entity_1 _let_54) (tptp.spatial_entity_1 _let_52) (tptp.spatial_entity_1 _let_50) (tptp.attach_1 _let_43) (tptp.attach_1 _let_40) (tptp.cell_1 _let_38) (tptp.spatial_entity_1 _let_34) (tptp.protein_1 _let_32) (tptp.spatial_entity_1 _let_30) (tptp.spatial_entity_1 _let_29) (tptp.cell_pole_1 _let_28) (tptp.cell_pole_1 _let_27) (tptp.cell_pole_1 _let_26) (tptp.spatial_entity_1 _let_25) (tptp.microtubule_1 _let_24) (tptp.microtubule_1 _let_22) (tptp.spatial_entity_1 _let_20) (tptp.microtubule_1 _let_18) (tptp.spatial_entity_1 _let_16) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_14) (tptp.cell_equator_1 _let_12) (tptp.centromere_1 _let_11) (tptp.centromere_1 _let_9) (tptp.spatial_entity_1 _let_8) (tptp.chromosome_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.chromosome_1 _let_2) (tptp.first_subevent_2 _let_7 _let_13) (tptp.first_subevent_2 _let_7 _let_3) (tptp.subevent_2 _let_7 _let_13) (tptp.subevent_2 _let_7 _let_3) (not (= _let_21 _let_17)) (not (= _let_17 _let_21)) (tptp.has_region_2 _let_5 _let_10) (tptp.has_part_2 _let_5 _let_31) (tptp.has_part_2 _let_5 _let_23) (tptp.has_part_2 _let_5 _let_57) (tptp.has_part_2 _let_5 _let_56) (tptp.element_2 _let_23 _let_51) (tptp.element_2 _let_23 _let_53) (tptp.element_2 _let_23 _let_39) (tptp.has_state_2 _let_47 _let_5) (tptp.minCardinality _let_47 tptp.has_part_0 |"2"| tptp.centrosome_0) (tptp.has_part_2 _let_47 _let_59) (tptp.minCardinality _let_59 tptp.is_at_0 |"2"| tptp.cell_opposite_pole_0) (tptp.is_at_2 _let_59 _let_58) (tptp.result_2 X _let_5) (tptp.subevent_2 X _let_17) (tptp.subevent_2 X _let_21) (tptp.subevent_2 X _let_19) (tptp.subevent_2 X _let_7) (tptp.is_between_2 _let_37 _let_46) (tptp.is_between_2 _let_37 _let_45) (tptp.is_at_2 _let_57 _let_45) (tptp.is_at_2 _let_56 _let_46) (tptp.called_2 _let_33 |"1"|) (tptp.called_2 _let_49 |"2"|) (tptp.in_event_2 _let_55 X) (tptp.base_2 _let_33 _let_48) (tptp.base_2 _let_49 _let_1) (tptp.object_2 _let_7 _let_31) (tptp.object_2 _let_7 _let_35) (tptp.base_2 _let_19 _let_42) (tptp.object_2 _let_33 _let_53) (tptp.object_2 _let_19 _let_39) (tptp.object_2 _let_49 _let_51) (tptp.destination_2 _let_3 _let_37) (tptp.destination_2 _let_7 _let_37) (tptp.destination_2 _let_13 _let_37) (tptp.has_region_2 _let_5 _let_45) (tptp.has_part_2 _let_5 _let_35) (tptp.agent_2 _let_3 _let_35) (tptp.object_2 _let_3 _let_35) (tptp.agent_2 _let_13 _let_31) (tptp.object_2 _let_13 _let_31) (tptp.element_2 _let_23 _let_42) (tptp.has_part_2 _let_31 _let_48) (tptp.base_2 X _let_47) (tptp.has_region_2 _let_5 _let_46) (tptp.is_between_2 _let_10 _let_46) (tptp.is_at_2 _let_36 _let_10) (tptp.is_between_2 _let_10 _let_45) (tptp.is_at_2 _let_10 _let_37) (tptp.object_2 _let_21 _let_42) (tptp.base_2 _let_44 _let_42) (tptp.subevent_2 _let_21 _let_44) (tptp.object_2 _let_17 _let_39) (tptp.base_2 _let_41 _let_39) (tptp.subevent_2 _let_17 _let_41) (tptp.has_region_2 _let_35 _let_36) (tptp.has_part_2 _let_35 _let_1) (tptp.has_region_2 _let_5 _let_37) (= _let_48 _let_34) (= _let_1 _let_54) (= _let_31 _let_30) (= _let_35 _let_8) (= _let_42 _let_25) (= _let_53 _let_52) (= _let_39 _let_20) (= _let_51 _let_50) (= _let_37 _let_15) (= _let_37 _let_16) (= _let_37 _let_14) (= _let_45 _let_27) (= _let_35 _let_6) (= _let_35 _let_4) (= _let_31 _let_29) (= _let_42 _let_24) (= _let_48 _let_32) (= _let_47 (tptp.fn_mitotic_stage_1 X)) (= _let_46 _let_27) (= _let_46 _let_28) (= _let_36 _let_11) (= _let_45 _let_26) (= _let_37 _let_12) (= _let_44 _let_43) (= _let_42 _let_22) (= _let_41 _let_40) (= _let_39 _let_18) (= _let_5 _let_38) (= _let_36 _let_9) (= _let_35 _let_2) (= _let_34 _let_32) (= _let_32 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_18) (= _let_18 _let_18) (= _let_18 _let_15) (= _let_15 _let_16) (= _let_16 _let_14) (= _let_14 _let_15) (= _let_15 _let_14) (= _let_14 _let_12) (= _let_12 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.metaphase_chromatin_1 X) (and (tptp.original_name_2 X |tptp.'Metaphase-Chromatin'|) (tptp.user_description_2 X |tptp.'The metaphase structure of chromatin differs vastly to that of interphase. It is optimised for physical strength and manageability, forming the classic chromosome structure seen in karyotypes. The structure of the condensed chromosome is thought to be loops of 30 nm fibre to a central scaffold of proteins. It is, however, not well characterised.The physical strength of chromatin is vital for this stage of division to prevent shear damage to the DNA as the daughter chromosomes are separated. To maximise strength the composition of the chromatin changes as it approaches the centromere, primarily through alternative histone H1 anologues.'|) (tptp.concept2words_2 X |tptp.'chromatin of metaphase'|) (tptp.concept2words_2 X |tptp.'metaphase chromatin'|) (tptp.concept2words_2 X |tptp.'metaphase-chromatin'|) (tptp.eukaryotic_chromatin_1 X)))) (forall ((X $$unsorted) (X4 $$unsorted) (X1 $$unsorted) (X2 $$unsorted) (X3 $$unsorted)) (=> (and (tptp.first_subevent_2 X X1) (tptp.object_2 X1 X2) (tptp.object_2 X1 X3) (tptp.subevent_2 X4 X) (tptp.homologous_chromosome_1 X2) (tptp.collecting_1 X1) (tptp.homologous_chromosome_1 X3) (tptp.meiosis_i_1 X4) (tptp.meiotic_event_1 X)) (and (tptp.metaphase_i_1 X) (= (tptp.fn_metaphase_i_2 X) X3) (= (tptp.fn_metaphase_i_7 X) X2) (= (tptp.fn_metaphase_i_8 X) X1) (= (tptp.fn_metaphase_i_4 X) X4)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metaphase_i_5 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_metaphase_i_8 X))) (let ((_let_4 (tptp.fn_collecting_1 _let_3))) (let ((_let_5 (tptp.fn_attach_1 _let_1))) (let ((_let_6 (tptp.fn_metaphase_i_6 X))) (let ((_let_7 (tptp.fn_metaphase_i_7 X))) (let ((_let_8 (tptp.fn_metaphase_i_3 X))) (let ((_let_9 (tptp.fn_metaphase_i_2 X))) (let ((_let_10 (tptp.fn_metaphase_i_4 X))) (=> (tptp.metaphase_i_1 X) (and (tptp.original_name_2 X |tptp.'Metaphase-I'|) (tptp.user_description_2 X |tptp.'The chromosomes are arranged on the metaphase plate. Kinetochore microtubules are attached to one chromosome of each pair. The microtubules from the opposite pole are attached to the homologous.'|) (tptp.concept2words_2 X |tptp.'undergo metaphase i'|) (tptp.concept2words_2 X |tptp.'undergo metaphase-i'|) (tptp.concept2words_2 X |tptp.'metaphase i'|) (tptp.concept2words_2 X |tptp.'metaphase-i'|) (tptp.meiotic_event_1 X) (tptp.homologous_chromosome_1 _let_9) (tptp.metaphase_plate_1 _let_8) (tptp.meiosis_i_1 _let_10) (tptp.attach_1 _let_1) (tptp.kinetochore_microtubule_1 _let_6) (tptp.homologous_chromosome_1 _let_7) (tptp.collecting_1 _let_3) (tptp.spatial_entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 _let_10 X) (tptp.site_2 _let_3 _let_8) (tptp.next_event_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_9) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.first_subevent_2 X _let_3) (tptp.is_on_2 _let_7 _let_8) (tptp.object_2 _let_3 _let_7) (tptp.base_2 _let_1 _let_7) (tptp.object_2 _let_1 _let_6) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_5) (= _let_4 _let_2)))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metaphase_ii_5 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_metaphase_ii_2 X))) (let ((_let_4 (tptp.fn_collecting_1 _let_3))) (let ((_let_5 (tptp.fn_metaphase_ii_3 X))) (let ((_let_6 (tptp.fn_attach_1 _let_1))) (let ((_let_7 (tptp.fn_metaphase_ii_4 X))) (let ((_let_8 (tptp.fn_metaphase_ii_1 X))) (=> (tptp.metaphase_ii_1 X) (and (tptp.original_name_2 X |tptp.'Metaphase-II'|) (tptp.user_description_2 X |tptp.'The chromosomes are arranged on the metaphase plate. The kinetochore of the sister-chromatids of each chromosome pointing toward the opposite poles.'|) (tptp.concept2words_2 X |tptp.'undergo metaphase ii'|) (tptp.concept2words_2 X |tptp.'undergo metaphase-ii'|) (tptp.concept2words_2 X |tptp.'metaphase ii'|) (tptp.concept2words_2 X |tptp.'metaphase-ii'|) (tptp.meiotic_event_1 X) (tptp.metaphase_plate_1 _let_8) (tptp.collecting_1 _let_3) (tptp.chromosome_1 _let_5) (tptp.kinetochore_microtubule_1 _let_7) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_6) (tptp.entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.subevent_2 X _let_1) (tptp.subevent_2 X _let_3) (tptp.site_2 _let_3 _let_8) (tptp.next_event_2 _let_3 _let_1) (tptp.object_2 _let_3 _let_5) (tptp.object_2 _let_1 _let_7) (tptp.base_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_7 _let_6) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metaphase_plate_6 X))) (let ((_let_2 (tptp.fn_condensed_diploid_chromosome_3 _let_1))) (let ((_let_3 (tptp.fn_metaphase_plate_3 X))) (let ((_let_4 (tptp.fn_eukaryotic_cell_30 _let_3))) (let ((_let_5 (tptp.fn_metaphase_plate_4 X))) (let ((_let_6 (tptp.fn_chromosome_6 _let_1))) (let ((_let_7 (tptp.fn_metaphase_plate_5 X))) (let ((_let_8 (tptp.fn_cell_1 _let_3))) (let ((_let_9 (tptp.fn_metaphase_plate_2 X))) (let ((_let_10 (tptp.fn_metaphase_plate_7 X))) (let ((_let_11 (tptp.fn_cell_equator_1 _let_10))) (let ((_let_12 (tptp.fn_metaphase_plate_1 X))) (=> (tptp.metaphase_plate_1 X) (and (tptp.original_name_2 X |tptp.'Metaphase-Plate'|) (tptp.user_description_2 X |tptp.'An imaginary plane along the equator of a cell in metaphase. As duplicated chromosomes line up during the metaphase, their centromeres align on the metaphase plate.'|) (tptp.concept2words_2 X |tptp.'equatorial plate'|) (tptp.concept2words_2 X |tptp.'equatorial-plate'|) (tptp.concept2words_2 X |tptp.'plate of metaphase'|) (tptp.concept2words_2 X |tptp.'metaphase plate'|) (tptp.concept2words_2 X |tptp.'metaphase-plate'|) (tptp.cellular_region_1 X) (not (tptp.cellular_structure_1 X)) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (tptp.cell_pole_1 _let_12) (tptp.cell_pole_1 _let_9) (tptp.cell_1 _let_3) (tptp.eukaryotic_cell_1 _let_3) (tptp.chromosome_1 _let_5) (tptp.eukaryotic_chromosome_1 _let_5) (tptp.centromere_1 _let_7) (tptp.condensed_diploid_chromosome_1 _let_1) (tptp.cell_equator_1 _let_10) (tptp.cell_1 _let_11) (tptp.cell_pole_1 _let_8) (tptp.centromere_1 _let_6) (tptp.eukaryotic_chromosome_1 _let_4) (tptp.chromosome_1 _let_4) (tptp.eukaryotic_chromosome_1 _let_2) (tptp.is_between_2 X _let_9) (tptp.is_between_2 X _let_12) (tptp.is_at_2 X _let_10) (tptp.is_at_2 _let_7 X) (tptp.has_region_2 _let_3 _let_12) (tptp.has_region_2 _let_3 _let_10) (tptp.has_region_2 _let_3 _let_9) (tptp.has_region_2 _let_1 _let_7) (tptp.has_part_2 _let_3 _let_5) (tptp.has_state_2 _let_5 _let_1) (= _let_3 _let_11) (= _let_9 _let_8) (= _let_7 _let_6) (= _let_5 _let_4) (= _let_5 _let_2) (= _let_4 _let_2)))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.metapopulation_1 X) (and (tptp.original_name_2 X |tptp.'Metapopulation'|) (tptp.user_description_2 X |tptp.'A group of populations of one species that are spatially separated but interact to some degree, including by immigration and emigration.'|) (tptp.concept2words_2 X tptp.metapopulation) (tptp.ecological_grouping_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_metastasis_23 X))) (let ((_let_2 (tptp.fn_smooth_endoplasmic_reticulum_42 _let_1))) (let ((_let_3 (tptp.fn_smooth_endoplasmic_reticulum_8 _let_1))) (let ((_let_4 (tptp.fn_smooth_endoplasmic_reticulum_48 _let_1))) (let ((_let_5 (tptp.fn_smooth_endoplasmic_reticulum_49 _let_1))) (let ((_let_6 (tptp.fn_smooth_endoplasmic_reticulum_7 _let_1))) (let ((_let_7 (tptp.fn_smooth_endoplasmic_reticulum_23 _let_1))) (let ((_let_8 (tptp.fn_smooth_endoplasmic_reticulum_34 _let_1))) (let ((_let_9 (tptp.fn_metastasis_21 X))) (let ((_let_10 (tptp.fn_eukaryotic_cell_42 _let_9))) (let ((_let_11 (tptp.fn_smooth_endoplasmic_reticulum_3 _let_1))) (let ((_let_12 (tptp.fn_eukaryotic_cell_24 _let_9))) (let ((_let_13 (tptp.fn_smooth_endoplasmic_reticulum_33 _let_1))) (let ((_let_14 (tptp.fn_metastasis_25 X))) (let ((_let_15 (tptp.fn_metabolic_pathway_1 _let_14))) (let ((_let_16 (tptp.fn_metastasis_13 X))) (let ((_let_17 (tptp.fn_malignant_tumor_growth_9 _let_16))) (let ((_let_18 (tptp.fn_metastasis_31 X))) (let ((_let_19 (tptp.fn_detach_1 _let_18))) (let ((_let_20 (tptp.fn_metastasis_22 X))) (let ((_let_21 (tptp.fn_extra_cellular_matrix_1 _let_20))) (let ((_let_22 (tptp.fn_metastasis_29 X))) (let ((_let_23 (tptp.fn_detach_1 _let_22))) (let ((_let_24 (tptp.fn_metastasis_9 X))) (let ((_let_25 (tptp.fn_locomotion_1 _let_24))) (let ((_let_26 (tptp.fn_metastasis_18 X))) (let ((_let_27 (tptp.fn_move_1 _let_26))) (let ((_let_28 (tptp.fn_metastasis_26 X))) (let ((_let_29 (tptp.fn_metastasis_24 X))) (let ((_let_30 (tptp.fn_eukaryotic_cell_20 _let_9))) (let ((_let_31 (tptp.fn_eukaryotic_cell_44 _let_9))) (let ((_let_32 (tptp.fn_metastasis_27 X))) (let ((_let_33 (tptp.fn_metastasis_16 X))) (let ((_let_34 (tptp.fn_create_1 _let_33))) (let ((_let_35 (tptp.fn_metastasis_17 X))) (let ((_let_36 (tptp.fn_malignant_tumor_growth_13 _let_16))) (let ((_let_37 (tptp.fn_metastasis_14 X))) (let ((_let_38 (tptp.fn_malignant_tumor_growth_7 _let_16))) (let ((_let_39 (tptp.fn_metastasis_10 X))) (let ((_let_40 (tptp.fn_malignant_tumor_growth_10 _let_16))) (let ((_let_41 (tptp.fn_metastasis_15 X))) (let ((_let_42 (tptp.fn_malignant_tumor_growth_12 _let_16))) (let ((_let_43 (tptp.fn_metastasis_11 X))) (let ((_let_44 (tptp.fn_malignant_tumor_growth_11 _let_16))) (let ((_let_45 (tptp.fn_metastasis_19 X))) (let ((_let_46 (tptp.fn_metastasis_12 X))) (let ((_let_47 (tptp.fn_cancer_cell_17 _let_46))) (let ((_let_48 (tptp.fn_metastasis_8 X))) (let ((_let_49 (tptp.fn_metastasis_28 X))) (let ((_let_50 (tptp.fn_metastasis_32 X))) (let ((_let_51 (tptp.fn_detach_2 _let_18))) (let ((_let_52 (tptp.fn_metastasis_30 X))) (let ((_let_53 (tptp.fn_go_to_1 _let_24))) (let ((_let_54 (tptp.fn_metastasis_20 X))) (let ((_let_55 (tptp.fn_metastasis_4 X))) (let ((_let_56 (tptp.fn_metastasis_3 X))) (let ((_let_57 (tptp.fn_metastasis_1 X))) (let ((_let_58 (tptp.fn_metastasis_2 X))) (let ((_let_59 (tptp.fn_metastasis_5 X))) (let ((_let_60 (tptp.fn_metastasis_7 X))) (let ((_let_61 (tptp.fn_metastasis_6 X))) (=> (tptp.metastasis_1 X) (and (tptp.original_name_2 X |tptp.'Metastasis'|) (tptp.user_description_2 X |tptp.'The dispersal of cancer cells from their original site to other parts of the body.'|) (tptp.concept2words_2 X tptp.metastasize) (tptp.concept2words_2 X tptp.metastasis) (tptp.biological_process_1 X) (tptp.lymph_vessel_1 _let_57) (tptp.lymph_1 _let_58) (tptp.animal_process_1 _let_56) (tptp.animal_organ_1 _let_55) (tptp.event_1 _let_59) (tptp.surface_protein_1 _let_61) (tptp.change_1 _let_60) (tptp.damage_1 _let_48) (tptp.invade_1 _let_24) (tptp.growth_1 _let_39) (tptp.animal_1 _let_43) (tptp.cell_1 _let_46) (tptp.cancer_cell_1 _let_46) (tptp.malignant_tumor_growth_1 _let_16) (tptp.produce_1 _let_37) (tptp.cell_division_1 _let_41) (tptp.produce_1 _let_33) (tptp.create_1 _let_33) (tptp.tumor_1 _let_35) (tptp.move_1 _let_26) (tptp.tumor_1 _let_45) (tptp.malignant_tumor_1 _let_45) (tptp.animal_tissue_1 _let_54) (tptp.spatial_entity_1 _let_9) (tptp.cancer_cell_1 _let_9) (tptp.eukaryotic_cell_1 _let_9) (tptp.cell_1 _let_9) (tptp.extra_cellular_matrix_1 _let_20) (tptp.smooth_endoplasmic_reticulum_1 _let_1) (tptp.golgi_apparatus_1 _let_29) (tptp.synthesis_reaction_1 _let_14) (tptp.metabolic_pathway_1 _let_14) (tptp.chemical_reaction_1 _let_14) (tptp.anabolic_pathway_1 _let_14) (tptp.synthesis_of_lipid_1 _let_14) (tptp.substance_1 _let_28) (tptp.cytosol_1 _let_28) (tptp.surface_1 _let_32) (tptp.spatial_entity_1 _let_49) (tptp.fiber_1 _let_49) (tptp.detach_1 _let_22) (tptp.cell_1 _let_52) (tptp.detach_1 _let_18) (tptp.cancer_cell_1 _let_50) (tptp.spatial_entity_1 _let_53) (tptp.spatial_entity_1 _let_51) (tptp.damage_1 _let_47) (tptp.tumor_1 _let_44) (tptp.malignant_tumor_1 _let_44) (tptp.animal_1 _let_42) (tptp.cell_division_1 _let_40) (tptp.growth_1 _let_38) (tptp.produce_1 _let_36) (tptp.entity_1 _let_34) (tptp.surface_1 _let_31) (tptp.smooth_endoplasmic_reticulum_1 _let_30) (tptp.spatial_entity_1 _let_27) (tptp.spatial_entity_1 _let_25) (tptp.spatial_entity_1 _let_23) (tptp.fiber_1 _let_21) (tptp.spatial_entity_1 _let_19) (tptp.cell_1 _let_17) (tptp.cancer_cell_1 _let_17) (tptp.cell_1 _let_15) (tptp.eukaryotic_cell_1 _let_13) (tptp.cell_1 _let_13) (tptp.golgi_apparatus_1 _let_12) (tptp.golgi_apparatus_1 _let_11) (tptp.substance_1 _let_10) (tptp.cytosol_1 _let_10) (tptp.substance_1 _let_8) (tptp.cytosol_1 _let_8) (tptp.synthesis_reaction_1 _let_7) (tptp.synthesis_reaction_1 _let_6) (tptp.chemical_reaction_1 _let_5) (tptp.synthesis_of_lipid_1 _let_5) (tptp.chemical_reaction_1 _let_4) (tptp.synthesis_of_lipid_1 _let_4) (tptp.anabolic_pathway_1 _let_4) (tptp.synthesis_of_lipid_1 _let_3) (tptp.synthesis_of_lipid_1 _let_2) (tptp.has_goal_2 _let_50 X) (tptp.next_event_2 _let_18 _let_26) (tptp.abuts_2 _let_52 _let_9) (tptp.prevents_2 _let_48 _let_56) (tptp.next_event_2 _let_60 _let_18) (tptp.next_event_2 _let_60 _let_22) (tptp.enables_2 _let_60 _let_18) (tptp.enables_2 _let_60 _let_22) (tptp.object_2 _let_60 _let_61) (tptp.causes_2 _let_60 _let_26) (tptp.next_event_2 _let_22 _let_26) (not (= _let_49 _let_9)) (tptp.is_at_2 _let_61 _let_32) (tptp.first_subevent_2 X _let_60) (tptp.exactCardinality X tptp.prevents_0 |"1"| tptp.animal_process_0) (tptp.prevents_2 X _let_56) (tptp.subevent_2 X _let_24) (tptp.subevent_2 X _let_18) (tptp.subevent_2 X _let_16) (tptp.subevent_2 X _let_26) (tptp.subevent_2 X _let_22) (tptp.subevent_2 X _let_60) (tptp.object_2 X _let_9) (not (= _let_9 _let_49)) (tptp.abuts_2 _let_9 _let_52) (tptp.has_state_2 _let_9 _let_50) (tptp.has_goal_2 _let_9 _let_59) (tptp.abuts_2 _let_54 _let_45) (tptp.abuts_2 _let_45 _let_54) (not (= _let_45 _let_35)) (tptp.origin_2 _let_26 _let_45) (tptp.destination_2 _let_26 _let_54) (tptp.instrument_2 _let_26 _let_58) (tptp.path_2 _let_26 _let_57) (tptp.next_event_2 _let_26 _let_24) (not (= _let_35 _let_45)) (tptp.has_part_2 _let_35 _let_46) (not (= _let_33 _let_37)) (not (= _let_37 _let_33)) (tptp.site_2 _let_16 _let_54) (tptp.subevent_2 _let_16 _let_33) (tptp.has_part_2 _let_43 _let_55) (tptp.has_part_2 _let_43 _let_35) (tptp.toward_2 _let_39 _let_35) (tptp.has_function_2 _let_55 _let_56) (tptp.base_2 _let_56 _let_55) (tptp.next_event_2 _let_24 _let_16) (tptp.objective_2 _let_24 X) (tptp.object_2 _let_18 _let_9) (tptp.object_2 _let_26 _let_50) (tptp.destination_2 _let_24 _let_54) (tptp.base_2 _let_18 _let_52) (tptp.agent_2 _let_24 _let_50) (tptp.object_2 _let_24 _let_50) (tptp.object_2 _let_22 _let_49) (tptp.is_inside_2 _let_49 _let_20) (tptp.result_2 _let_48 _let_46) (tptp.agent_2 _let_37 _let_46) (tptp.base_2 _let_16 _let_43) (tptp.has_part_2 _let_43 _let_45) (tptp.has_part_2 _let_45 _let_9) (tptp.subevent_2 _let_16 _let_37) (tptp.causes_2 _let_37 _let_39) (tptp.subevent_2 _let_16 _let_39) (tptp.is_inside_2 _let_29 _let_28) (tptp.is_inside_2 _let_1 _let_28) (tptp.site_2 _let_14 _let_1) (tptp.has_function_2 _let_1 _let_14) (tptp.has_part_2 _let_9 _let_29) (tptp.has_part_2 _let_9 _let_1) (tptp.has_region_2 _let_9 _let_32) (tptp.base_2 _let_14 _let_9) (tptp.result_2 _let_33 _let_35) (= _let_9 _let_19) (= _let_50 _let_27) (= _let_54 _let_53) (= _let_52 _let_51) (= _let_50 _let_25) (= _let_49 _let_23) (= _let_49 _let_21) (= _let_48 _let_47) (= _let_46 _let_17) (= _let_9 _let_17) (= _let_45 _let_44) (= _let_43 _let_42) (= _let_33 _let_36) (= _let_41 _let_40) (= _let_39 _let_38) (= _let_37 _let_36) (= _let_35 _let_34) (= _let_9 _let_15) (= _let_32 _let_31) (= _let_1 _let_30) (= _let_9 _let_13) (= _let_29 _let_12) (= _let_28 _let_10) (= _let_29 _let_11) (= _let_28 _let_8) (= _let_14 _let_7) (= _let_14 _let_6) (= _let_14 _let_5) (= _let_14 _let_4) (= _let_14 _let_3) (= _let_14 _let_2) (= _let_27 _let_25) (= _let_25 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.methamphetamine_1 X) (and (tptp.original_name_2 X |tptp.'Methamphetamine'|) (tptp.user_description_2 X |tptp.'Methamphetamine is a central nervous system stimulant drug that is similar in structure to amphetamine.'|) (tptp.concept2words_2 X tptp.crank) (tptp.concept2words_2 X tptp.methamphetamine) (tptp.molecule_1 X) (tptp.drug_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrocarbon_molecule_16 X))) (let ((_let_2 (tptp.fn_organic_molecule_2 X))) (let ((_let_3 (tptp.fn_methane_10 X))) (let ((_let_4 (tptp.fn_covalent_bond_19 _let_3))) (let ((_let_5 (tptp.fn_chemical_bond_1 _let_3))) (let ((_let_6 (tptp.fn_hydrocarbon_molecule_8 X))) (let ((_let_7 (tptp.fn_covalent_bond_18 _let_3))) (let ((_let_8 (tptp.fn_methane_9 X))) (let ((_let_9 (tptp.fn_carbon_10 _let_8))) (let ((_let_10 (tptp.fn_atom_14 _let_8))) (let ((_let_11 (tptp.fn_methane_12 X))) (let ((_let_12 (tptp.fn_covalent_bond_17 _let_3))) (let ((_let_13 (tptp.fn_methane_8 X))) (let ((_let_14 (tptp.fn_methane_11 X))) (let ((_let_15 (tptp.fn_methane_1 X))) (let ((_let_16 (tptp.fn_methane_2 X))) (=> (tptp.methane_1 X) (and (tptp.original_name_2 X |tptp.'Methane'|) (tptp.user_description_2 X |tptp.'Methane is a chemical compound with the chemical formula CH4. It is the simplest alkane, and the principal component of natural gas.'|) (tptp.concept2words_2 X tptp.ch4) (tptp.concept2words_2 X tptp.methane) (tptp.hydrocarbon_molecule_1 X) (not (tptp.ethane_1 X)) (tptp.mass_value_1 _let_15) (tptp.mass_value_1 _let_16) (tptp.system_1 (tptp.fn_methane_4 X)) (tptp.share_1 _let_13) (tptp.entity_1 _let_8) (tptp.chemical_entity_1 _let_8) (tptp.atom_1 _let_8) (tptp.carbon_1 _let_8) (tptp.chemical_bond_1 _let_3) (tptp.covalent_bond_1 _let_3) (tptp.single_bond_1 _let_3) (tptp.electron_1 _let_14) (tptp.valence_electron_1 _let_11) (tptp.electron_1 _let_11) (tptp.share_1 _let_12) (tptp.electron_1 _let_10) (tptp.electron_1 _let_9) (tptp.valence_electron_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.atom_1 _let_4) (tptp.called_2 _let_16 tptp.mass_electron) (tptp.the_cardinal_value_2 _let_15 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_15 tptp.dalton_0) (tptp.called_2 _let_15 tptp.mass_proton) (tptp.exactCardinality X tptp.possesses_0 |"4"| tptp.single_bond_0) (tptp.exactCardinality X tptp.has_part_0 |"1"| tptp.carbon_0) (tptp.exactCardinality X tptp.has_part_0 |"4"| tptp.hydrogen_0) (not (= _let_14 _let_11)) (not (= _let_11 _let_14)) (tptp.agent_2 _let_13 _let_8) (tptp.has_part_2 _let_8 _let_14) (tptp.result_2 _let_13 _let_3) (tptp.object_2 _let_13 _let_11) (tptp.has_part_2 X _let_8) (tptp.possesses_2 X _let_3) (tptp.is_between_2 _let_3 _let_8) (tptp.has_part_2 _let_8 _let_11) (= _let_14 _let_10) (= _let_14 _let_9) (= _let_13 _let_12) (= _let_8 _let_2) (= _let_11 _let_7) (= _let_11 _let_6) (= _let_8 _let_5) (= _let_8 _let_4) (= _let_8 _let_1) (= _let_3 (tptp.fn_hydrocarbon_molecule_14 X)) (= _let_10 _let_9) (= _let_9 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_4) (= _let_4 _let_5) (= _let_5 _let_4) (= _let_2 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_1) (= _let_1 _let_1)))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methane_gas_1 X))) (=> (tptp.methane_gas_1 X) (and (tptp.original_name_2 X |tptp.'Methane-Gas'|) (tptp.user_description_2 X |tptp.'The gaseous form of methane, chemical formula CH4.'|) (tptp.concept2words_2 X |tptp.'gas of methane'|) (tptp.concept2words_2 X |tptp.'methane gas'|) (tptp.concept2words_2 X |tptp.'methane-gas'|) (tptp.greenhouse_gas_1 X) (tptp.methane_1 _let_1) (tptp.has_part_2 X _let_1))))) (forall ((X $$unsorted)) (=> (tptp.methanogen_1 X) (and (tptp.original_name_2 X |tptp.'Methanogen'|) (tptp.user_description_2 X |tptp.'An archaean microbe that produces methane as a byproduct of metabolism in anoxic conditions.'|) (tptp.concept2words_2 X tptp.methanogen) (tptp.euryarchaeota_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methanol_substance_1 X))) (let ((_let_2 (tptp.fn_methanol_substance_2 X))) (=> (tptp.methanol_substance_1 X) (and (tptp.original_name_2 X |tptp.'Methanol-Substance'|) (tptp.user_description_2 X |tptp.'A liquid substance with molecular formula CH3OH.'|) (tptp.concept2words_2 X |tptp.'substance of methanol'|) (tptp.concept2words_2 X |tptp.'methanol substance'|) (tptp.concept2words_2 X |tptp.'methanol-substance'|) (tptp.liquid_substance_1 X) (tptp.methyl_alcohol_1 _let_1) (tptp.heat_of_vaporization_value_1 _let_2) (tptp.the_cardinal_value_2 _let_2 |"263.0e0"|) (tptp.cardinal_unit_class_2 _let_2 tptp.calorie_per_gram_0) (tptp.heat_of_vaporization_2 X _let_2) (tptp.has_part_2 X _let_1)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_hydrophobic_amino_acid_22 X))) (let ((_let_2 (tptp.fn_hydrophobic_amino_acid_23 X))) (let ((_let_3 (tptp.fn_methionine_16 X))) (let ((_let_4 (tptp.fn_share_1 _let_3))) (let ((_let_5 (tptp.fn_share_3 _let_3))) (let ((_let_6 (tptp.fn_hydrophobic_amino_acid_1 X))) (let ((_let_7 (tptp.fn_hydrophobic_amino_acid_7 X))) (let ((_let_8 (tptp.fn_hydrophobic_amino_acid_3 X))) (let ((_let_9 (tptp.fn_hydrophobic_amino_acid_9 X))) (let ((_let_10 (tptp.fn_hydrophobic_amino_acid_4 X))) (let ((_let_11 (tptp.fn_hydrophobic_amino_acid_80 X))) (let ((_let_12 (tptp.fn_hydrophobic_amino_acid_2 X))) (let ((_let_13 (tptp.fn_hydrophobic_amino_acid_13 X))) (let ((_let_14 (tptp.fn_hydrophobic_amino_acid_33 X))) (let ((_let_15 (tptp.fn_methionine_19 X))) (let ((_let_16 (tptp.fn_share_2 _let_15))) (let ((_let_17 (tptp.fn_hydrophobic_amino_acid_16 X))) (let ((_let_18 (tptp.fn_hydrophobic_amino_acid_42 X))) (let ((_let_19 (tptp.fn_hydrophobic_amino_acid_63 X))) (let ((_let_20 (tptp.fn_hydrophobic_amino_acid_43 X))) (let ((_let_21 (tptp.fn_methionine_11 X))) (let ((_let_22 (tptp.fn_methionine_4 X))) (let ((_let_23 (tptp.fn_methionine_5 X))) (let ((_let_24 (tptp.fn_methionine_9 X))) (let ((_let_25 (tptp.fn_methionine_10 X))) (let ((_let_26 (tptp.fn_methionine_25 X))) (let ((_let_27 (tptp.fn_methionine_1 X))) (let ((_let_28 (tptp.fn_methionine_6 X))) (let ((_let_29 (tptp.fn_methionine_2 X))) (let ((_let_30 (tptp.fn_methionine_24 X))) (let ((_let_31 (tptp.fn_methionine_3 X))) (let ((_let_32 (tptp.fn_methionine_12 X))) (let ((_let_33 (tptp.fn_methionine_23 X))) (let ((_let_34 (tptp.fn_methionine_17 X))) (let ((_let_35 (tptp.fn_methionine_15 X))) (let ((_let_36 (tptp.fn_methionine_14 X))) (let ((_let_37 (tptp.fn_methionine_18 X))) (let ((_let_38 (tptp.fn_methionine_13 X))) (let ((_let_39 (tptp.fn_methionine_22 X))) (let ((_let_40 (tptp.fn_methionine_20 X))) (let ((_let_41 (tptp.fn_methionine_21 X))) (let ((_let_42 (tptp.fn_methionine_7 X))) (let ((_let_43 (tptp.fn_methionine_8 X))) (=> (tptp.methionine_1 X) (and (tptp.original_name_2 X |tptp.'Methionine'|) (tptp.user_description_2 X |tptp.'One of the 20 most common amino acids that make up proteins. It is usually the first amino acid to be brought to the Translation Initiation Complex by tRNA.'|) (tptp.concept2words_2 X tptp.met) (tptp.concept2words_2 X tptp.methionine) (tptp.concept2words_2 X tptp.m) (tptp.hydrophobic_amino_acid_1 X) (tptp.share_1 _let_27) (tptp.share_1 _let_29) (tptp.share_1 _let_31) (tptp.electron_shell_1 _let_22) (tptp.electron_shell_1 _let_23) (tptp.tangible_entity_1 _let_28) (tptp.electron_1 _let_28) (tptp.entity_1 _let_28) (tptp.valence_electron_1 _let_28) (tptp.non_polar_side_chain_1 _let_42) (tptp.sulfur_1 _let_43) (tptp.entity_1 _let_24) (tptp.tangible_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.oxygen_1 _let_24) (tptp.atom_1 _let_25) (tptp.entity_1 _let_25) (tptp.tangible_entity_1 _let_25) (tptp.oxygen_1 _let_25) (tptp.tangible_entity_1 _let_21) (tptp.entity_1 _let_21) (tptp.chemical_entity_1 _let_21) (tptp.atom_1 _let_21) (tptp.carbon_1 _let_21) (tptp.hold_1 _let_32) (tptp.hold_together_1 _let_32) (tptp.tangible_entity_1 _let_38) (tptp.electron_1 _let_38) (tptp.entity_1 _let_38) (tptp.valence_electron_1 _let_38) (tptp.valence_electron_1 _let_36) (tptp.share_1 _let_35) (tptp.share_1 _let_3) (tptp.share_1 _let_34) (tptp.share_1 _let_37) (tptp.share_1 _let_15) (tptp.share_1 _let_40) (tptp.share_1 _let_41) (tptp.share_1 _let_39) (tptp.hold_1 _let_33) (tptp.hold_together_1 _let_33) (tptp.hold_1 _let_30) (tptp.hold_together_1 _let_30) (tptp.hold_1 _let_26) (tptp.hold_together_1 _let_26) (tptp.entity_1 _let_16) (tptp.entity_1 _let_5) (tptp.entity_1 _let_4) (tptp.is_inside_2 _let_43 _let_42) (tptp.object_2 _let_15 _let_38) (tptp.agent_2 _let_3 _let_24) (tptp.has_part_2 X _let_43) (tptp.object_2 _let_41 _let_38) (tptp.has_region_2 X _let_42) (tptp.object_2 _let_30 _let_25) (tptp.agent_2 _let_29 _let_24) (tptp.object_2 _let_26 _let_25) (tptp.object_2 _let_40 _let_38) (tptp.agent_2 _let_40 _let_25) (tptp.agent_2 _let_41 _let_25) (tptp.agent_2 _let_41 _let_21) (tptp.agent_2 _let_39 _let_21) (tptp.object_2 _let_39 _let_38) (tptp.agent_2 _let_39 _let_24) (tptp.agent_2 _let_15 _let_24) (tptp.agent_2 _let_15 _let_21) (tptp.agent_2 _let_40 _let_21) (tptp.agent_2 _let_3 _let_21) (tptp.agent_2 _let_37 _let_21) (tptp.object_2 _let_37 _let_38) (tptp.object_2 _let_33 _let_21) (tptp.object_2 _let_33 _let_25) (tptp.agent_2 _let_34 _let_25) (tptp.agent_2 _let_34 _let_21) (tptp.object_2 _let_32 _let_21) (tptp.object_2 _let_32 _let_25) (tptp.has_region_2 _let_25 _let_23) (tptp.object_2 _let_30 _let_21) (tptp.object_2 _let_30 _let_24) (tptp.has_part_2 X _let_24) (tptp.has_part_2 X _let_25) (tptp.agent_2 _let_27 _let_25) (tptp.agent_2 _let_27 _let_21) (tptp.object_2 _let_27 _let_28) (tptp.object_2 _let_29 _let_28) (tptp.agent_2 _let_29 _let_21) (not (= _let_21 _let_25)) (not (= _let_25 _let_21)) (tptp.object_2 _let_26 _let_21) (tptp.object_2 _let_26 _let_24) (tptp.agent_2 _let_27 _let_24) (not (= _let_21 _let_24)) (not (= _let_24 _let_21)) (tptp.has_part_2 X _let_21) (tptp.has_region_2 _let_24 _let_23) (not (= _let_24 _let_25)) (not (= _let_25 _let_24)) (= _let_38 _let_16) (= _let_24 _let_5) (= _let_24 _let_4) (= _let_43 (tptp.fn_organic_molecule_2 X)) (= _let_41 _let_20) (= _let_42 (tptp.fn_hydrophobic_amino_acid_28 X)) (= _let_30 _let_13) (= _let_29 _let_11) (= _let_26 _let_7) (= _let_41 _let_19) (= _let_40 _let_18) (= _let_40 _let_17) (= _let_15 (tptp.fn_hydrophobic_amino_acid_15 X)) (= _let_39 (tptp.fn_hydrophobic_amino_acid_35 X)) (= _let_38 _let_14) (= _let_37 (tptp.fn_hydrophobic_amino_acid_31 X)) (= _let_3 (tptp.fn_hydrophobic_amino_acid_11 X)) (= _let_36 (tptp.fn_hydrophobic_amino_acid_12 X)) (= _let_35 _let_9) (= _let_34 (tptp.fn_hydrophobic_amino_acid_10 X)) (= _let_33 (tptp.fn_hydrophobic_amino_acid_8 X)) (= _let_32 _let_7) (= _let_31 (tptp.fn_hydrophobic_amino_acid_5 X)) (= _let_27 _let_9) (= _let_25 _let_1) (= _let_24 _let_2) (= _let_30 _let_12) (= _let_29 _let_10) (= _let_28 (tptp.fn_hydrophobic_amino_acid_6 X)) (= _let_27 _let_8) (= _let_26 _let_6) (= _let_25 _let_2) (= _let_24 _let_1) (= _let_23 (tptp.fn_hydrophobic_amino_acid_34 X)) (= _let_22 (tptp.fn_hydrophobic_amino_acid_59 X)) (= _let_21 (tptp.fn_hydrophobic_amino_acid_20 X)) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_1) (= _let_2 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_1 _let_2) (= _let_2 _let_2) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.method_1 X) (and (tptp.original_name_2 X |tptp.'Method'|) (tptp.concept2words_2 X tptp.method) (tptp.km_class_1 X)))) (forall ((X $$unsorted)) (=> (tptp.methyl_alcohol_1 X) (and (tptp.original_name_2 X |tptp.'Methyl-Alcohol'|) (tptp.user_description_2 X |tptp.'It is a organic molecule with molecular formula CH3OH.'|) (tptp.concept2words_2 X |tptp.'alcohol of methyl'|) (tptp.concept2words_2 X |tptp.'methyl alcohol'|) (tptp.concept2words_2 X |tptp.'methyl-alcohol'|) (tptp.alcohol_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methyl_group_14 X))) (let ((_let_2 (tptp.fn_covalent_bond_18 _let_1))) (let ((_let_3 (tptp.fn_covalent_bond_15 _let_1))) (let ((_let_4 (tptp.fn_covalent_bond_22 _let_1))) (let ((_let_5 (tptp.fn_methyl_group_19 X))) (let ((_let_6 (tptp.fn_first_electron_shell_7 _let_5))) (let ((_let_7 (tptp.fn_covalent_bond_24 _let_1))) (let ((_let_8 (tptp.fn_first_electron_shell_3 _let_5))) (let ((_let_9 (tptp.fn_covalent_bond_20 _let_1))) (let ((_let_10 (tptp.fn_first_electron_shell_5 _let_5))) (let ((_let_11 (tptp.fn_methyl_group_11 X))) (let ((_let_12 (tptp.fn_carbon_10 _let_11))) (let ((_let_13 (tptp.fn_atom_14 _let_11))) (let ((_let_14 (tptp.fn_covalent_bond_19 _let_1))) (let ((_let_15 (tptp.fn_methyl_group_13 X))) (let ((_let_16 (tptp.fn_hold_2 _let_15))) (let ((_let_17 (tptp.fn_covalent_bond_12 _let_1))) (let ((_let_18 (tptp.fn_methyl_group_28 X))) (let ((_let_19 (tptp.fn_hydrogen_16 _let_18))) (let ((_let_20 (tptp.fn_methyl_group_27 X))) (let ((_let_21 (tptp.fn_hydrogen_16 _let_20))) (let ((_let_22 (tptp.fn_methyl_group_26 X))) (let ((_let_23 (tptp.fn_hydrogen_16 _let_22))) (let ((_let_24 (tptp.fn_methyl_group_25 X))) (let ((_let_25 (tptp.fn_hydrogen_16 _let_24))) (let ((_let_26 (tptp.fn_methyl_group_24 X))) (let ((_let_27 (tptp.fn_hydrogen_16 _let_26))) (let ((_let_28 (tptp.fn_methyl_group_23 X))) (let ((_let_29 (tptp.fn_hydrogen_16 _let_28))) (let ((_let_30 (tptp.fn_methyl_group_10 X))) (let ((_let_31 (tptp.fn_hydrogen_16 _let_30))) (let ((_let_32 (tptp.fn_covalent_bond_21 _let_1))) (let ((_let_33 (tptp.fn_hydrogen_14 _let_18))) (let ((_let_34 (tptp.fn_hydrogen_14 _let_20))) (let ((_let_35 (tptp.fn_hydrogen_14 _let_22))) (let ((_let_36 (tptp.fn_hydrogen_14 _let_24))) (let ((_let_37 (tptp.fn_hydrogen_14 _let_26))) (let ((_let_38 (tptp.fn_hydrogen_14 _let_28))) (let ((_let_39 (tptp.fn_covalent_bond_17 _let_1))) (let ((_let_40 (tptp.fn_methyl_group_12 X))) (let ((_let_41 (tptp.fn_methyl_group_20 X))) (let ((_let_42 (tptp.fn_methyl_group_15 X))) (let ((_let_43 (tptp.fn_covalent_bond_14 _let_1))) (let ((_let_44 (tptp.fn_methyl_group_17 X))) (let ((_let_45 (tptp.fn_methyl_group_21 X))) (let ((_let_46 (tptp.fn_covalent_bond_13 _let_1))) (let ((_let_47 (tptp.fn_methyl_group_22 X))) (let ((_let_48 (tptp.fn_methyl_group_16 X))) (let ((_let_49 (tptp.fn_covalent_bond_11 _let_1))) (let ((_let_50 (tptp.fn_methyl_group_8 X))) (let ((_let_51 (tptp.fn_methyl_group_18 X))) (let ((_let_52 (tptp.fn_methyl_group_9 X))) (let ((_let_53 (tptp.fn_chemical_marker_2 _let_52))) (let ((_let_54 (tptp.fn_methyl_group_1 X))) (let ((_let_55 (tptp.fn_methyl_group_2 X))) (=> (tptp.methyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Methyl-Group'|) (tptp.user_description_2 X |tptp.'A chemical group consisting of a carbon bonded to three hydrogen atoms. The methyl group may be attached to a carbon or to a different atom.'|) (tptp.concept2words_2 X |tptp.'ch3 group'|) (tptp.concept2words_2 X |tptp.'ch3-group'|) (tptp.concept2words_2 X |tptp.'group of methyl'|) (tptp.concept2words_2 X |tptp.'methyl group'|) (tptp.concept2words_2 X |tptp.'methyl-group'|) (tptp.functional_group_1 X) (not (tptp.acetyl_group_1 X)) (not (tptp.amino_group_1 X)) (not (tptp.carbonyl_group_1 X)) (not (tptp.carboxyl_group_1 X)) (not (tptp.hydroxyl_group_1 X)) (not (tptp.phosphate_group_1 X)) (tptp.mass_value_1 _let_54) (tptp.mass_value_1 _let_55) (tptp.system_1 (tptp.fn_methyl_group_4 X)) (tptp.hold_together_1 _let_50) (tptp.chemical_marker_1 _let_52) (tptp.tangible_entity_1 _let_30) (tptp.hydrogen_1 _let_30) (tptp.entity_1 _let_30) (tptp.chemical_entity_1 _let_30) (tptp.atom_1 _let_30) (tptp.carbon_1 _let_11) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.share_1 _let_40) (tptp.hold_1 _let_15) (tptp.hold_together_1 _let_15) (tptp.single_bond_1 _let_1) (tptp.atomic_nucleus_1 _let_42) (tptp.first_electron_shell_1 _let_48) (tptp.electron_shell_1 _let_48) (tptp.valence_electron_1 _let_44) (tptp.center_1 _let_51) (tptp.electron_shell_1 _let_5) (tptp.first_electron_shell_1 _let_5) (tptp.valence_electron_1 _let_41) (tptp.electron_1 _let_45) (tptp.s_orbital_1 _let_47) (tptp.hydrogen_1 _let_28) (tptp.hydrogen_1 _let_26) (tptp.hydrogen_1 _let_24) (tptp.hydrogen_1 _let_22) (tptp.hydrogen_1 _let_20) (tptp.hydrogen_1 _let_18) (tptp.spatial_entity_1 _let_53) (tptp.electron_shell_1 _let_49) (tptp.atomic_orbital_1 _let_46) (tptp.hold_together_1 _let_43) (tptp.share_1 _let_39) (tptp.center_1 _let_38) (tptp.center_1 _let_37) (tptp.center_1 _let_36) (tptp.center_1 _let_35) (tptp.center_1 _let_34) (tptp.center_1 _let_33) (tptp.center_1 _let_32) (tptp.electron_shell_1 _let_31) (tptp.first_electron_shell_1 _let_31) (tptp.electron_shell_1 _let_29) (tptp.first_electron_shell_1 _let_29) (tptp.electron_shell_1 _let_27) (tptp.first_electron_shell_1 _let_27) (tptp.electron_shell_1 _let_25) (tptp.first_electron_shell_1 _let_25) (tptp.electron_shell_1 _let_23) (tptp.first_electron_shell_1 _let_23) (tptp.electron_shell_1 _let_21) (tptp.first_electron_shell_1 _let_21) (tptp.electron_shell_1 _let_19) (tptp.first_electron_shell_1 _let_19) (tptp.electron_shell_1 _let_17) (tptp.tangible_entity_1 _let_16) (tptp.entity_1 _let_14) (tptp.chemical_entity_1 _let_14) (tptp.atom_1 _let_14) (tptp.electron_1 _let_13) (tptp.electron_1 _let_12) (tptp.electron_1 _let_10) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.atom_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_6) (tptp.atomic_nucleus_1 _let_4) (tptp.valence_electron_1 _let_3) (tptp.valence_electron_1 _let_2) (tptp.called_2 _let_55 tptp.mass_electron) (tptp.the_cardinal_value_2 _let_54 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_54 tptp.dalton_0) (tptp.called_2 _let_54 tptp.mass_proton) (tptp.is_inside_2 _let_30 X) (not (= _let_30 _let_11)) (tptp.is_inside_2 _let_11 X) (not (= _let_11 _let_30)) (tptp.object_2 _let_15 _let_11) (not (= _let_44 _let_41)) (not (= _let_41 _let_44)) (not (= _let_41 _let_45)) (not (= _let_45 _let_41)) (tptp.object_2 _let_15 _let_30) (tptp.has_region_2 _let_30 _let_48) (tptp.has_part_2 _let_11 _let_45) (tptp.has_region_2 _let_28 _let_51) (tptp.has_region_2 _let_28 _let_48) (tptp.has_region_2 _let_26 _let_51) (tptp.has_region_2 _let_26 _let_48) (tptp.has_region_2 _let_24 _let_51) (tptp.has_region_2 _let_24 _let_48) (tptp.has_region_2 _let_22 _let_51) (tptp.has_region_2 _let_22 _let_48) (tptp.has_region_2 _let_20 _let_51) (tptp.has_region_2 _let_20 _let_48) (tptp.has_region_2 _let_18 _let_51) (tptp.has_region_2 _let_18 _let_48) (tptp.plays_2 X _let_52) (tptp.agent_2 _let_40 _let_11) (tptp.object_2 _let_50 _let_11) (tptp.is_between_2 _let_1 _let_11) (tptp.has_part_2 _let_11 _let_41) (tptp.has_region_2 _let_30 _let_51) (tptp.agent_2 _let_40 _let_30) (tptp.object_2 _let_50 _let_30) (tptp.agent_2 _let_15 _let_1) (tptp.is_between_2 _let_1 _let_30) (tptp.has_part_2 _let_30 _let_44) (tptp.is_inside_2 _let_44 _let_47) (tptp.has_region_2 _let_48 _let_47) (not (= _let_48 _let_5)) (not (= _let_5 _let_48)) (tptp.has_region_2 _let_11 _let_5) (tptp.has_region_2 _let_11 _let_42) (tptp.is_inside_2 _let_42 _let_5) (tptp.is_near_2 _let_45 _let_42) (tptp.is_near_2 _let_42 _let_45) (tptp.object_2 _let_40 _let_44) (tptp.has_function_2 _let_1 _let_15) (tptp.result_2 _let_40 _let_1) (tptp.object_2 _let_40 _let_41) (tptp.is_near_2 _let_42 _let_41) (tptp.is_near_2 _let_41 _let_42) (= _let_30 _let_16) (= _let_48 _let_31) (= _let_45 _let_13) (= _let_45 _let_12) (= _let_51 _let_38) (= _let_48 _let_29) (= _let_51 _let_37) (= _let_48 _let_27) (= _let_51 _let_36) (= _let_48 _let_25) (= _let_51 _let_35) (= _let_48 _let_23) (= _let_51 _let_34) (= _let_48 _let_21) (= _let_51 _let_33) (= _let_48 _let_19) (= X _let_53) (= _let_11 _let_9) (= _let_51 _let_32) (= _let_50 _let_43) (= _let_5 _let_49) (= _let_48 _let_17) (= _let_47 _let_46) (= _let_44 _let_2) (= _let_30 _let_14) (= _let_45 _let_10) (= _let_42 _let_6) (= _let_11 _let_8) (= _let_44 _let_3) (= _let_15 _let_43) (= _let_41 _let_3) (= _let_42 _let_7) (= _let_42 _let_4) (= _let_41 _let_2) (= _let_40 _let_39) (= _let_38 _let_37) (= _let_37 _let_36) (= _let_36 _let_35) (= _let_35 _let_34) (= _let_34 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_29) (= _let_29 _let_27) (= _let_27 _let_25) (= _let_25 _let_23) (= _let_23 _let_21) (= _let_21 _let_19) (= _let_19 _let_17) (= _let_17 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_12) (= _let_12 _let_12) (= _let_12 _let_10) (= _let_10 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_2) (= _let_3 _let_6) (= _let_6 _let_7) (= _let_7 _let_7) (= _let_7 _let_6) (= _let_6 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_3 _let_3) (= _let_2 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.methyl_ion_1 X) (and (tptp.original_name_2 X |tptp.'Methyl-Ion'|) (tptp.user_description_2 X |tptp.'Methyl cation.'|) (tptp.concept2words_2 X |tptp.'ion of methyl'|) (tptp.concept2words_2 X |tptp.'methyl ion'|) (tptp.concept2words_2 X |tptp.'methyl-ion'|) (tptp.polyatomic_ion_1 X) (tptp.cation_1 X) (not (tptp.metal_cation_1 X)) (not (tptp.calcium_ion_1 X)) (not (tptp.hydronium_ion_1 X)) (not (tptp.magnesium_ion_1 X)) (not (tptp.sodium_ion_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methylated_compound_4 X))) (let ((_let_2 (tptp.fn_methylated_compound_5 X))) (let ((_let_3 (tptp.fn_methylated_compound_6 X))) (let ((_let_4 (tptp.fn_methylated_compound_3 X))) (let ((_let_5 (tptp.fn_methylated_compound_7 X))) (let ((_let_6 (tptp.fn_functional_group_1 _let_5))) (=> (tptp.methylated_compound_1 X) (and (tptp.original_name_2 X |tptp.'Methylated-Compound'|) (tptp.user_description_2 X |tptp.'A compound with a methyl group is called a methylated compound'|) (tptp.concept2words_2 X |tptp.'methylated compound'|) (tptp.concept2words_2 X |tptp.'methylated-compound'|) (tptp.molecule_1 X) (tptp.constant_motion_1 _let_4) (tptp.kinetic_energy_1 _let_1) (tptp.quantity_value_1 _let_2) (tptp.speed_value_1 _let_3) (tptp.methyl_group_1 _let_5) (tptp.chemical_entity_1 _let_6) (tptp.has_region_2 X _let_5) (tptp.possesses_2 X _let_1) (tptp.quantity_2 _let_1 _let_2) (tptp.directly_proportional_2 _let_3 _let_2) (tptp.speed_2 _let_4 _let_3) (tptp.object_2 _let_4 X) (= X _let_6) (= (tptp.fn_methylated_compound_2 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_methylated_compound_1 X) (tptp.fn_molecule_1 X)) (= _let_4 (tptp.fn_molecule_8 X)) (= _let_3 (tptp.fn_molecule_3 X)) (= _let_2 (tptp.fn_molecule_4 X)) (= _let_1 (tptp.fn_molecule_12 X))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methylated_dna_5 X))) (let ((_let_2 (tptp.fn_methylated_dna_2 X))) (let ((_let_3 (tptp.fn_methylated_dna_3 X))) (let ((_let_4 (tptp.fn_methylated_dna_4 X))) (let ((_let_5 (tptp.fn_methylated_dna_1 X))) (=> (tptp.methylated_dna_1 X) (and (tptp.original_name_2 X |tptp.'Methylated-DNA'|) (tptp.user_description_2 X |tptp.'A portion of a DNA molecule with one or more methyl groups attached.'|) (tptp.concept2words_2 X |tptp.'methylated dna'|) (tptp.concept2words_2 X |tptp.'methylated-dna'|) (tptp.methylated_compound_1 X) (not (tptp.improperly_methylated_dna_1 X)) (tptp.carbon_1 _let_5) (tptp.deoxyribose_1 _let_2) (tptp.monomer_1 _let_3) (tptp.nucleotide_1 _let_4) (tptp.monomer_1 _let_4) (tptp.atom_1 _let_1) (not (= _let_1 _let_5)) (not (= _let_5 _let_1)) (tptp.has_part_2 X _let_5) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_3) (tptp.has_part_2 X _let_2) (tptp.has_part_2 X _let_1) (= _let_1 (tptp.fn_molecule_7 X)))))))))) (forall ((X $$unsorted)) (=> (tptp.methylation_1 X) (and (tptp.original_name_2 X |tptp.'Methylation'|) (tptp.user_description_2 X |tptp.'The addition of a methyl group (-CH3) to a molecule.'|) (tptp.concept2words_2 X tptp.methylate) (tptp.concept2words_2 X tptp.methylation) (tptp.synthesis_reaction_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_methylation_enzyme_1 X))) (=> (tptp.methylation_enzyme_1 X) (and (tptp.original_name_2 X |tptp.'Methylation-Enzyme'|) (tptp.user_description_2 X |tptp.'Enzyme that acts to catayze the addition of methyl groups to a chemical entity.'|) (tptp.concept2words_2 X |tptp.'enzyme of methylation'|) (tptp.concept2words_2 X |tptp.'methylation enzyme'|) (tptp.concept2words_2 X |tptp.'methylation-enzyme'|) (tptp.transferase_1 X) (tptp.methylation_1 _let_1) (tptp.agent_2 _let_1 X))))) (forall ((X $$unsorted)) (=> (tptp.microbial_cell_to_cell_communication_1 X) (and (tptp.original_name_2 X |tptp.'Microbial-Cell-To-Cell-Communication'|) (tptp.user_description_2 X |tptp.'The secretion of small molecules whose increase in concentration, when detected by other bacterial cells allows them to monitor the local density of cells allowing bacterial populations to coordinate their behaviors so they can carry out activities that are only productive when performed by a given number of cells in synchrony.'|) (tptp.concept2words_2 X tptp.communicate) (tptp.concept2words_2 X |tptp.'microbial cell to cell communication'|) (tptp.concept2words_2 X |tptp.'microbial-cell-to-cell-communication'|) (tptp.chemical_signaling_1 X) (not (tptp.cell_communication_with_neurotransmitter_1 X))))) (forall ((X $$unsorted)) (=> (tptp.microclimate_1 X) (and (tptp.original_name_2 X |tptp.'Microclimate'|) (tptp.user_description_2 X |tptp.'Climatic conditions on a very small spatial scale, as under a log or on the surface of a rock in the intertidal.'|) (tptp.concept2words_2 X tptp.microclimate) (tptp.climate_1 X) (not (tptp.macroclimate_1 X))))) (forall ((X $$unsorted)) (=> (tptp.microevolution_1 X) (and (tptp.original_name_2 X |tptp.'Microevolution'|) (tptp.user_description_2 X |tptp.'Evolutionary processes that occur below the level of species; changes in population allele frequences over generations.'|) (tptp.concept2words_2 X tptp.microevolution) (tptp.evolution_1 X) (not (tptp.evolutionary_developmental_biology_1 X)) (not (tptp.human_evolution_1 X)) (not (tptp.macroevolution_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microfibril_13 X))) (let ((_let_2 (tptp.fn_exocytosis_35 _let_1))) (let ((_let_3 (tptp.fn_microfibril_11 X))) (let ((_let_4 (tptp.fn_hold_2 _let_3))) (let ((_let_5 (tptp.fn_exocytosis_24 _let_1))) (let ((_let_6 (tptp.fn_hold_1 _let_3))) (let ((_let_7 (tptp.fn_exocytosis_48 _let_1))) (let ((_let_8 (tptp.fn_exocytosis_18 _let_1))) (let ((_let_9 (tptp.fn_exocytosis_33 _let_1))) (let ((_let_10 (tptp.fn_bulk_transport_6 _let_1))) (let ((_let_11 (tptp.fn_microfibril_20 X))) (let ((_let_12 (tptp.fn_microfibril_19 X))) (let ((_let_13 (tptp.fn_microfibril_17 X))) (let ((_let_14 (tptp.fn_microfibril_18 X))) (let ((_let_15 (tptp.fn_microfibril_16 X))) (let ((_let_16 (tptp.fn_microfibril_15 X))) (let ((_let_17 (tptp.fn_microfibril_21 X))) (let ((_let_18 (tptp.fn_microfibril_10 X))) (let ((_let_19 (tptp.fn_exocytosis_25 _let_1))) (let ((_let_20 (tptp.fn_microfibril_12 X))) (let ((_let_21 (tptp.fn_microfibril_14 X))) (let ((_let_22 (tptp.fn_microfibril_9 X))) (let ((_let_23 (tptp.fn_microfibril_2 X))) (let ((_let_24 (tptp.fn_microfibril_4 X))) (let ((_let_25 (tptp.fn_microfibril_7 X))) (let ((_let_26 (tptp.fn_microfibril_5 X))) (let ((_let_27 (tptp.fn_microfibril_6 X))) (=> (tptp.microfibril_1 X) (and (tptp.original_name_2 X |tptp.'Microfibril'|) (tptp.user_description_2 X |tptp.'Parallel cellulose molecules hydrogen bond with each other, producing microfibrils. Microfibrils are produced by an enzyme called cellulose synthase and become embedded in a matrix of polysaccharides and protein in the extracellular matrix.'|) (tptp.concept2words_2 X tptp.microfibril) (tptp.organic_molecule_1 X) (tptp.protein_related_aggregates_1 X) (not (tptp.thylakoid_electron_transport_chain_1 X)) (not (tptp.chylomicron_1 X)) (not (tptp.cytochrome_complex_1 X)) (not (tptp.electron_shuttle_system_1 X)) (not (tptp.electron_transport_chain_1 X)) (not (tptp.signal_recognition_particle_1 X)) (tptp.length_value_1 _let_23) (tptp.unitless_value_1 _let_24) (tptp.cellulose_1 _let_26) (tptp.cellulose_1 _let_27) (tptp.shape_value_1 _let_25) (tptp.tangible_entity_1 _let_22) (tptp.cell_1 _let_22) (tptp.tangible_entity_1 _let_18) (tptp.transport_vesicle_1 _let_18) (tptp.hold_1 _let_3) (tptp.carry_1 _let_20) (tptp.exocytosis_1 _let_1) (tptp.release_1 _let_21) (tptp.speed_value_1 _let_16) (tptp.quantity_value_1 _let_15) (tptp.carbon_skeleton_1 _let_13) (tptp.kinetic_energy_1 _let_14) (tptp.carbon_1 _let_12) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.constant_motion_1 _let_17) (tptp.carry_1 _let_19) (tptp.cell_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.cell_1 _let_9) (tptp.release_1 _let_8) (tptp.release_1 _let_7) (tptp.tangible_entity_1 _let_6) (tptp.transport_vesicle_1 _let_5) (tptp.tangible_entity_1 _let_4) (tptp.tangible_entity_1 _let_2) (tptp.molecule_1 _let_2) (tptp.organic_molecule_1 _let_2) (tptp.the_categorical_value_2 _let_25 tptp.cylinder_0) (tptp.is_parallel_to_2 _let_27 _let_26) (tptp.is_parallel_to_2 _let_26 _let_27) (tptp.element_2 X _let_27) (tptp.element_2 X _let_26) (tptp.importance_2 X _let_24) (tptp.shape_2 X _let_25) (tptp.length_2 X _let_23) (tptp.instrument_2 _let_20 _let_18) (tptp.subevent_2 _let_20 _let_3) (tptp.first_subevent_2 _let_20 _let_3) (tptp.the_scalar_value_2 _let_24 tptp.high_0) (tptp.scalar_unit_class_2 _let_24 tptp.organic_molecule_0) (tptp.the_scalar_value_2 _let_23 tptp.long_0) (tptp.scalar_unit_class_2 _let_23 tptp.organic_molecule_0) (tptp.agent_2 _let_3 _let_18) (tptp.object_2 _let_3 X) (tptp.subevent_2 _let_1 _let_21) (tptp.subevent_2 _let_1 _let_20) (tptp.agent_2 _let_20 _let_18) (tptp.has_part_2 _let_22 _let_18) (tptp.base_2 _let_1 _let_22) (tptp.instrument_2 _let_1 _let_18) (tptp.object_2 _let_1 X) (tptp.is_inside_2 X _let_18) (tptp.has_function_2 _let_18 _let_20) (tptp.object_2 _let_20 X) (tptp.object_2 _let_21 X) (tptp.possesses_2 X _let_14) (tptp.quantity_2 _let_14 _let_15) (tptp.directly_proportional_2 _let_16 _let_15) (tptp.speed_2 _let_17 _let_16) (tptp.object_2 _let_17 X) (tptp.has_part_2 X _let_11) (not (= _let_11 _let_12)) (tptp.is_inside_2 _let_12 _let_13) (tptp.has_region_2 X _let_13) (tptp.has_part_2 X _let_12) (not (= _let_12 _let_11)) (= _let_18 _let_6) (= X _let_4) (= _let_21 _let_8) (= _let_22 _let_10) (= _let_22 _let_9) (= _let_21 _let_7) (= _let_20 _let_19) (= _let_18 _let_5) (= X _let_2) (= (tptp.fn_microfibril_23 X) (tptp.fn_molecule_1 X)) (= (tptp.fn_microfibril_22 X) (tptp.fn_molecule_2 X)) (= _let_17 (tptp.fn_molecule_8 X)) (= _let_16 (tptp.fn_molecule_3 X)) (= _let_15 (tptp.fn_molecule_4 X)) (= _let_14 (tptp.fn_molecule_12 X)) (= _let_13 (tptp.fn_organic_molecule_3 X)) (= _let_12 (tptp.fn_organic_molecule_1 X)) (= _let_11 (tptp.fn_organic_molecule_2 X)) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_7) (= _let_7 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_protein_9 X))) (let ((_let_2 (tptp.fn_polymer_8 X))) (let ((_let_3 (tptp.fn_microfilament_15 X))) (let ((_let_4 (tptp.fn_microfilament_22 X))) (let ((_let_5 (tptp.fn_microfilament_11 X))) (let ((_let_6 (tptp.fn_microfilament_23 X))) (let ((_let_7 (tptp.fn_microfilament_16 X))) (let ((_let_8 (tptp.fn_microfilament_17 X))) (let ((_let_9 (tptp.fn_microfilament_18 X))) (let ((_let_10 (tptp.fn_microfilament_13 X))) (let ((_let_11 (tptp.fn_microfilament_12 X))) (let ((_let_12 (tptp.fn_microfilament_19 X))) (let ((_let_13 (tptp.fn_microfilament_20 X))) (let ((_let_14 (tptp.fn_microfilament_21 X))) (let ((_let_15 (tptp.fn_microfilament_14 X))) (let ((_let_16 (tptp.fn_microfilament_27 X))) (let ((_let_17 (tptp.fn_microfilament_24 X))) (let ((_let_18 (tptp.fn_microfilament_25 X))) (let ((_let_19 (tptp.fn_attach_1 _let_18))) (let ((_let_20 (tptp.fn_attach_2 _let_18))) (let ((_let_21 (tptp.fn_microfilament_26 X))) (let ((_let_22 (tptp.fn_microfilament_1 X))) (let ((_let_23 (tptp.fn_microfilament_6 X))) (let ((_let_24 (tptp.fn_microfilament_2 X))) (let ((_let_25 (tptp.fn_microfilament_4 X))) (=> (tptp.microfilament_1 X) (and (tptp.original_name_2 X |tptp.'Microfilament'|) (tptp.user_description_2 X |tptp.'Microfilaments (or actin filaments or actin microfilaments) are the thinnest filaments of the cytoskeleton found in the cytoplasm of all eukaryotic cells.'|) (tptp.concept2words_2 X |tptp.'actin filament'|) (tptp.concept2words_2 X |tptp.'actin microfilament'|) (tptp.concept2words_2 X |tptp.'actin-microfilament'|) (tptp.concept2words_2 X tptp.microfilament) (tptp.filament_protein_1 X) (tptp.intermediate_filament_1 _let_22) (tptp.shape_value_1 _let_24) (tptp.length_value_1 _let_25) (tptp.actin_1 _let_23) (tptp.polypeptide_1 _let_5) (tptp.atom_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.carbon_1 _let_10) (tptp.constant_motion_1 _let_15) (tptp.protein_domain_1 _let_3) (tptp.hydrophilic_region_1 _let_7) (tptp.surface_1 _let_8) (tptp.carbon_skeleton_1 _let_9) (tptp.kinetic_energy_1 _let_12) (tptp.quantity_value_1 _let_13) (tptp.speed_value_1 _let_14) (tptp.spatial_entity_1 _let_4) (tptp.chemical_entity_1 _let_4) (tptp.monomer_1 _let_4) (tptp.molecule_1 _let_4) (tptp.amino_acid_1 _let_4) (tptp.size_value_1 _let_6) (tptp.size_value_1 _let_17) (tptp.attach_1 _let_18) (tptp.molecular_assembly_1 _let_21) (tptp.monomer_1 _let_16) (tptp.spatial_entity_1 _let_20) (tptp.spatial_entity_1 _let_19) (tptp.the_cardinal_value_2 _let_25 |"7.0e0"|) (tptp.cardinal_unit_class_2 _let_25 tptp.nanometer_0) (tptp.the_categorical_value_2 _let_24 tptp.cylinder_0) (tptp.diameter_2 X _let_25) (tptp.shape_2 X _let_24) (tptp.exactCardinality X tptp.has_part_0 |"2"| tptp.actin_0) (tptp.has_part_2 X _let_23) (tptp.element_2 _let_21 _let_22) (tptp.base_2 _let_18 _let_21) (tptp.object_2 _let_18 X) (tptp.greater_than_2 _let_6 _let_17) (tptp.has_part_2 X _let_16) (tptp.size_2 _let_16 _let_17) (tptp.possesses_2 X _let_12) (tptp.quantity_2 _let_12 _let_13) (tptp.directly_proportional_2 _let_14 _let_13) (tptp.speed_2 _let_15 _let_14) (tptp.object_2 _let_15 X) (tptp.has_part_2 X _let_11) (tptp.has_region_2 X _let_9) (tptp.is_inside_2 _let_10 _let_9) (tptp.has_part_2 X _let_10) (not (= _let_11 _let_10)) (not (= _let_10 _let_11)) (tptp.the_scalar_value_2 _let_6 tptp.big_0) (tptp.scalar_unit_class_2 _let_6 tptp.polypeptide_0) (tptp.has_region_2 X _let_7) (tptp.is_at_2 _let_7 _let_8) (tptp.has_region_2 X _let_8) (tptp.has_region_2 X _let_3) (tptp.is_at_2 _let_4 _let_3) (tptp.has_part_2 _let_5 _let_4) (tptp.has_part_2 X _let_5) (tptp.size_2 X _let_6) (= _let_21 _let_20) (= X _let_19) (= _let_6 _let_2) (= (tptp.fn_microfilament_10 X) (tptp.fn_polymer_10 X)) (= _let_17 (tptp.fn_polymer_7 X)) (= _let_16 (tptp.fn_polymer_4 X)) (= (tptp.fn_microfilament_8 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_microfilament_7 X) (tptp.fn_molecule_1 X)) (= _let_15 (tptp.fn_molecule_8 X)) (= _let_14 (tptp.fn_molecule_3 X)) (= _let_13 (tptp.fn_molecule_4 X)) (= _let_12 (tptp.fn_molecule_12 X)) (= _let_11 (tptp.fn_organic_molecule_2 X)) (= _let_10 (tptp.fn_organic_molecule_1 X)) (= _let_9 (tptp.fn_organic_molecule_3 X)) (= (tptp.fn_microfilament_9 X) (tptp.fn_protein_10 X)) (= _let_8 (tptp.fn_protein_5 X)) (= _let_7 (tptp.fn_protein_1 X)) (= _let_6 _let_1) (= _let_5 (tptp.fn_protein_8 X)) (= _let_4 (tptp.fn_protein_14 X)) (= _let_3 (tptp.fn_protein_7 X)) (= _let_2 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microfilament_elongation_3 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_microfilament_elongation_2 X))) (let ((_let_4 (tptp.fn_attach_1 _let_1))) (let ((_let_5 (tptp.fn_microfilament_elongation_1 X))) (=> (tptp.microfilament_elongation_1 X) (and (tptp.original_name_2 X |tptp.'Microfilament-Elongation'|) (tptp.user_description_2 X |tptp.'The process in which the microfilaments are elongated by the enzymatic addition of actin monomers.'|) (tptp.concept2words_2 X tptp.elongate) (tptp.concept2words_2 X |tptp.'elongation of microfilament'|) (tptp.concept2words_2 X |tptp.'microfilament elongation'|) (tptp.concept2words_2 X |tptp.'microfilament-elongation'|) (tptp.grow_1 X) (tptp.actin_1 _let_5) (tptp.microfilament_1 _let_3) (tptp.attach_1 _let_1) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.by_means_of_2 _let_1 X) (tptp.object_2 X _let_3) (tptp.object_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.micrograph_1 X) (and (tptp.original_name_2 X |tptp.'Micrograph'|) (tptp.user_description_2 X |tptp.'An image produced by a microscope.'|) (tptp.concept2words_2 X tptp.photomicrograph) (tptp.concept2words_2 X tptp.micrograph) (tptp.image_1 X)))) (forall ((X $$unsorted)) (=> (tptp.micronutrient_1 X) (and (tptp.original_name_2 X |tptp.'Micronutrient'|) (tptp.user_description_2 X |tptp.'Chemicals that are required only in small amounts.'|) (tptp.concept2words_2 X tptp.micronutrient) (tptp.nutrient_1 X) (not (tptp.limiting_nutrient_1 X)) (not (tptp.macronutrient_1 X))))) (forall ((X $$unsorted)) (=> (tptp.microphyll_1 X) (and (tptp.original_name_2 X |tptp.'Microphyll'|) (tptp.user_description_2 X |tptp.'A leaf that has a single, unbranched vein.'|) (tptp.concept2words_2 X tptp.microphyll) (tptp.leaf_1 X) (not (tptp.cotyledon_1 X)) (not (tptp.megaphyll_1 X)) (not (tptp.sepal_1 X)) (not (tptp.sporophyll_1 X))))) (forall ((X $$unsorted)) (=> (tptp.micropyle_1 X) (and (tptp.original_name_2 X |tptp.'Micropyle'|) (tptp.user_description_2 X |tptp.'A small pore in the surface of an ovule, through which the pollen tube penetrates.'|) (tptp.concept2words_2 X tptp.micropyle) (tptp.plant_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.microrna_1 X) (and (tptp.original_name_2 X |tptp.'MicroRNA'|) (tptp.user_description_2 X |tptp.'A short (~22 base pair) sequence of RNA that binds to the complementary sequence of a messenger RNA transcript and suppresses translation of that part of the transcript.'|) (tptp.concept2words_2 X tptp.microrna) (tptp.regulatory_rna_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microsatellite_dna_5 X))) (let ((_let_2 (tptp.fn_phosphodiester_bond_15 _let_1))) (let ((_let_3 (tptp.fn_phosphodiester_bond_16 _let_1))) (let ((_let_4 (tptp.fn_microsatellite_dna_9 X))) (let ((_let_5 (tptp.fn_nucleoside_monophosphate_11 _let_4))) (let ((_let_6 (tptp.fn_deoxyribonucleotide_7 _let_4))) (let ((_let_7 (tptp.fn_microsatellite_dna_6 X))) (let ((_let_8 (tptp.fn_organic_molecule_1 _let_7))) (let ((_let_9 (tptp.fn_organic_molecule_2 _let_7))) (let ((_let_10 (tptp.fn_microsatellite_dna_11 X))) (let ((_let_11 (tptp.fn_hold_2 _let_10))) (let ((_let_12 (tptp.fn_microsatellite_dna_10 X))) (let ((_let_13 (tptp.fn_attach_2 _let_12))) (let ((_let_14 (tptp.fn_microsatellite_dna_8 X))) (let ((_let_15 (tptp.fn_attach_1 _let_14))) (let ((_let_16 (tptp.fn_microsatellite_dna_4 X))) (let ((_let_17 (tptp.fn_phosphodiester_bond_14 _let_1))) (let ((_let_18 (tptp.fn_microsatellite_dna_7 X))) (let ((_let_19 (tptp.fn_microsatellite_dna_2 X))) (let ((_let_20 (tptp.fn_microsatellite_dna_3 X))) (let ((_let_21 (tptp.fn_microsatellite_dna_1 X))) (=> (tptp.microsatellite_dna_1 X) (and (tptp.original_name_2 X |tptp.'Microsatellite-DNA'|) (tptp.user_description_2 X |tptp.'A type of tandemly repetitive DNA with 10-100 base pairs of repetitive DNA per site.'|) (tptp.concept2words_2 X |tptp.'microsatellite dna'|) (tptp.concept2words_2 X |tptp.'microsatellite-dna'|) (tptp.tandemly_repeated_dna_1 X) (not (tptp.minisatellite_dna_1 X)) (not (tptp.regular_satellite_dna_1 X)) (not (tptp.short_tandem_repeat_1 X)) (tptp.base_pair_1 _let_21) (tptp.genome_1 _let_19) (tptp.deoxyribose_1 _let_20) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.carbon_1 _let_16) (tptp.phosphodiester_bond_1 _let_1) (tptp.nucleoside_1 _let_7) (tptp.organic_molecule_1 _let_7) (tptp.number_5_prime_carbon_1 _let_18) (tptp.attach_1 _let_14) (tptp.deoxyribonucleoside_monophosphate_1 _let_4) (tptp.attach_1 _let_12) (tptp.hold_1 _let_10) (tptp.hold_together_1 _let_10) (tptp.hold_together_1 _let_17) (tptp.spatial_entity_1 _let_15) (tptp.spatial_entity_1 _let_13) (tptp.tangible_entity_1 _let_11) (tptp.atom_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.carbon_1 _let_8) (tptp.nucleoside_1 _let_6) (tptp.nucleoside_1 _let_5) (tptp.entity_1 _let_3) (tptp.chemical_entity_1 _let_3) (tptp.atom_1 _let_3) (tptp.carbon_1 _let_3) (tptp.entity_1 _let_2) (tptp.chemical_entity_1 _let_2) (tptp.atom_1 _let_2) (tptp.carbon_1 _let_2) (tptp.is_between_2 _let_1 _let_4) (tptp.has_part_2 X _let_4) (tptp.has_part_2 X _let_21) (tptp.has_part_2 X _let_20) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.dna_sequence_0) (tptp.maxCardinality X tptp.has_part_0 |"100"| tptp.base_pair_0) (tptp.minCardinality X tptp.has_part_0 |"10"| tptp.nucleotide_0) (tptp.maxCardinality X tptp.has_part_0 |"100"| tptp.nucleotide_0) (tptp.has_part_2 _let_19 X) (tptp.object_2 _let_14 _let_4) (tptp.base_2 _let_12 _let_4) (tptp.object_2 _let_10 _let_4) (tptp.possesses_2 X _let_1) (tptp.has_part_2 _let_4 _let_7) (tptp.has_function_2 _let_1 _let_10) (tptp.agent_2 _let_10 _let_1) (tptp.object_2 _let_10 _let_16) (tptp.is_between_2 _let_1 _let_16) (tptp.has_part_2 _let_7 _let_18) (= _let_4 _let_15) (= _let_4 _let_13) (= _let_4 _let_11) (= _let_1 (tptp.fn_tandemly_repeated_dna_2 X)) (= _let_7 _let_6) (= _let_7 _let_5) (= _let_18 _let_9) (= _let_18 _let_8) (= _let_10 _let_17) (= _let_16 _let_3) (= _let_16 _let_2) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_11 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_5) (= _let_5 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.microscope_1 X) (and (tptp.original_name_2 X |tptp.'Microscope'|) (tptp.user_description_2 X |tptp.'A microscope is a tool for increasing the magnification of a visual image for the purpose of observation.'|) (tptp.concept2words_2 X tptp.microscope) (tptp.optical_device_1 X) (not (tptp.lens_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microscopy_5 X))) (let ((_let_2 (tptp.fn_device_1 _let_1))) (let ((_let_3 (tptp.fn_microscopy_4 X))) (let ((_let_4 (tptp.fn_microscopy_2 X))) (let ((_let_5 (tptp.fn_microscopy_1 X))) (=> (tptp.microscopy_1 X) (and (tptp.original_name_2 X |tptp.'Microscopy'|) (tptp.user_description_2 X |tptp.'Microscopy is the technical field of using microscope to view samples or objects that cannot be seen with the unaided eyes.'|) (tptp.concept2words_2 X tptp.inquire) (tptp.concept2words_2 X tptp.microscopy) (tptp.technique_1 X) (not (tptp.absolute_dating_1 X)) (not (tptp.atomic_tracking_1 X)) (not (tptp.autoradiography_1 X)) (not (tptp.cloning_1 X)) (not (tptp.dna_mapping_1 X)) (not (tptp.dna_microarray_1 X)) (not (tptp.fetoscopy_1 X)) (not (tptp.genetic_linkage_mapping_1 X)) (not (tptp.gram_stain_1 X)) (not (tptp.in_situ_hybridization_1 X)) (not (tptp.in_vitro_hybridization_1 X)) (not (tptp.mark_recapture_method_1 X)) (not (tptp.molecular_clock_1 X)) (not (tptp.nuclear_transplantation_1 X)) (not (tptp.population_viability_analysis_1 X)) (not (tptp.positron_emission_tomography_1 X)) (not (tptp.radiometric_dating_1 X)) (not (tptp.rule_of_addition_1 X)) (not (tptp.shotgun_sequencing_1 X)) (not (tptp.testcross_1 X)) (not (tptp.x_ray_crystallography_1 X)) (tptp.tangible_entity_1 _let_5) (tptp.size_value_1 _let_4) (tptp.instrument_role_1 _let_3) (tptp.microscope_1 _let_1) (tptp.instrument_role_1 _let_2) (tptp.in_event_2 _let_3 X) (tptp.the_scalar_value_2 _let_4 tptp.microscopic_0) (tptp.scalar_unit_class_2 _let_4 tptp.spatial_entity_0) (tptp.object_2 X _let_5) (tptp.instrument_2 X _let_1) (tptp.size_2 _let_5 _let_4) (tptp.purpose_2 _let_1 _let_3) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (=> (tptp.microsporangium_1 X) (and (tptp.original_name_2 X |tptp.'Microsporangium'|) (tptp.user_description_2 X |tptp.'An enclosure on a plant or fungus where microspores are produced.'|) (tptp.concept2words_2 X tptp.microsporangia) (tptp.concept2words_2 X tptp.microsporangium) (tptp.alternating_generation_organ_1 X)))) (forall ((X $$unsorted)) (=> (tptp.microspore_1 X) (and (tptp.original_name_2 X |tptp.'Microspore'|) (tptp.user_description_2 X |tptp.'A spore that gives rise to a male gametophyte.'|) (tptp.concept2words_2 X tptp.microspore) (tptp.spore_1 X) (not (tptp.conidium_1 X)) (not (tptp.megaspore_1 X)) (not (tptp.plant_spore_1 X)) (not (tptp.zoospore_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_13 X))) (let ((_let_2 (tptp.fn_microtubule_14 X))) (let ((_let_3 (tptp.fn_microtubule_8 X))) (let ((_let_4 (tptp.fn_microtubule_7 X))) (let ((_let_5 (tptp.fn_microtubule_6 X))) (let ((_let_6 (tptp.fn_microtubule_5 X))) (let ((_let_7 (tptp.fn_microtubule_1 X))) (let ((_let_8 (tptp.fn_microtubule_3 X))) (let ((_let_9 (tptp.fn_microtubule_4 X))) (=> (tptp.microtubule_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule'|) (tptp.user_description_2 X |tptp.'Microtubules are one of the components of the cytoskeleton. They are made-up of two subunits- alpha-tubulin and beta-tubulin. Microtubules serve as structural components within cells and are involved in many cellular processes including mitosis, cytokinesis, and vesicular transport. They form part of mitotic spindle'|) (tptp.concept2words_2 X tptp.microtubule) (tptp.cellular_structure_1 X) (tptp.surface_1 _let_7) (tptp.shape_value_1 _let_8) (tptp.tubulin_1 _let_9) (tptp.length_value_1 _let_6) (tptp.length_value_1 _let_5) (tptp.length_value_1 _let_4) (tptp.length_value_1 _let_3) (tptp.length_value_1 _let_1) (tptp.lumen_1 _let_2) (tptp.the_categorical_value_2 _let_8 tptp.tube_0) (tptp.has_part_2 X _let_9) (tptp.minCardinality X tptp.has_part_0 |"2"| tptp.tubulin_0) (tptp.diameter_2 X _let_3) (tptp.length_2 X _let_4) (tptp.shape_2 X _let_8) (tptp.has_region_2 X _let_2) (tptp.has_region_2 X _let_7) (tptp.greater_than_or_equal_to_2 _let_6 _let_4) (tptp.the_cardinal_value_2 _let_6 |"25.0e0"|) (tptp.cardinal_unit_class_2 _let_6 tptp.micrometer_0) (tptp.the_cardinal_value_2 _let_5 |"200.0e0"|) (tptp.cardinal_unit_class_2 _let_5 tptp.nanometer_0) (tptp.greater_than_or_equal_to_2 _let_4 _let_5) (tptp.the_scalar_value_2 _let_4 tptp.long_0) (tptp.scalar_unit_class_2 _let_4 tptp.cellular_structure_0) (tptp.the_cardinal_value_2 _let_3 |"25.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.nanometer_0) (tptp.the_cardinal_value_2 _let_1 |"15.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.nanometer_0) (tptp.diameter_2 _let_2 _let_1))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_doublet_2 X))) (let ((_let_2 (tptp.fn_microtubule_doublet_1 X))) (=> (tptp.microtubule_doublet_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule-Doublet'|) (tptp.user_description_2 X |tptp.'Structure formed by two microtubules.'|) (tptp.concept2words_2 X |tptp.'doublet of microtubule'|) (tptp.concept2words_2 X |tptp.'microtubule doublet'|) (tptp.concept2words_2 X |tptp.'microtubule-doublet'|) (tptp.tangible_entity_1 X) (tptp.aggregate_1 X) (tptp.microtubule_1 _let_2) (tptp.microtubule_1 _let_1) (tptp.element_2 X _let_1) (tptp.element_2 X _let_2) (tptp.exactCardinality X tptp.element_0 |"2"| tptp.microtubule_0) (tptp.called_2 _let_2 |"2"|) (tptp.called_2 _let_1 |"1"|)))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_elongation_1 X))) (let ((_let_2 (tptp.fn_attach_2 _let_1))) (let ((_let_3 (tptp.fn_microtubule_elongation_2 X))) (let ((_let_4 (tptp.fn_attach_1 _let_1))) (let ((_let_5 (tptp.fn_microtubule_elongation_3 X))) (=> (tptp.microtubule_elongation_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule-Elongation'|) (tptp.user_description_2 X |tptp.'Microtubule-elongation is a process by which the microtuble fibers elongate. Microtubule elongation is important in vesicular transport and cell elongation during cytokinesis to provide for the formation of two daughter cells.'|) (tptp.concept2words_2 X |tptp.'microtubule elongation'|) (tptp.concept2words_2 X |tptp.'microtubule lengthening'|) (tptp.concept2words_2 X |tptp.'microtubule increase in length'|) (tptp.concept2words_2 X |tptp.'microtubule elongates'|) (tptp.concept2words_2 X tptp.elongate) (tptp.concept2words_2 X |tptp.'elongation of microtubule'|) (tptp.concept2words_2 X |tptp.'microtubule-elongation'|) (tptp.grow_1 X) (not (tptp.elongation_1 X)) (not (tptp.culturing_1 X)) (tptp.attach_1 _let_1) (tptp.microtubule_1 _let_3) (tptp.tubulin_1 _let_5) (tptp.spatial_entity_1 _let_4) (tptp.spatial_entity_1 _let_2) (tptp.object_2 X _let_3) (tptp.minCardinality X tptp.subevent_0 |"1"| tptp.attach_0) (tptp.subevent_2 X _let_1) (tptp.object_2 _let_1 _let_5) (tptp.base_2 _let_1 _let_3) (= _let_5 _let_4) (= _let_3 _let_2))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_organizing_center_9 X))) (let ((_let_2 (tptp.fn_metabolic_pathway_1 _let_1))) (let ((_let_3 (tptp.fn_microtubule_organizing_center_8 X))) (let ((_let_4 (tptp.fn_metabolic_pathway_1 _let_3))) (let ((_let_5 (tptp.fn_microtubule_organizing_center_7 X))) (let ((_let_6 (tptp.fn_support_1 _let_5))) (let ((_let_7 (tptp.fn_microtubule_organizing_center_4 X))) (let ((_let_8 (tptp.fn_microtubule_organizing_center_5 X))) (let ((_let_9 (tptp.fn_create_1 _let_8))) (let ((_let_10 (tptp.fn_microtubule_organizing_center_6 X))) (let ((_let_11 (tptp.fn_produce_1 _let_8))) (let ((_let_12 (tptp.fn_microtubule_organizing_center_3 X))) (let ((_let_13 (tptp.fn_microtubule_organizing_center_1 X))) (let ((_let_14 (tptp.fn_microtubule_organizing_center_2 X))) (=> (tptp.microtubule_organizing_center_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule-Organizing-Center'|) (tptp.user_description_2 X |tptp.'Eukaryotic cellular structure that produces and organizes microtubules.'|) (tptp.concept2words_2 X tptp.mtoc) (tptp.concept2words_2 X |tptp.'microtubule organizing center'|) (tptp.concept2words_2 X |tptp.'microtubule-organizing-center'|) (tptp.cellular_structure_1 X) (tptp.organizing_1 _let_13) (tptp.protein_enzyme_1 _let_14) (tptp.tubulin_1 _let_12) (tptp.eukaryotic_cell_1 _let_7) (tptp.produce_1 _let_8) (tptp.microtubule_1 _let_10) (tptp.support_1 _let_5) (tptp.synthesis_of_lipid_1 _let_3) (tptp.synthesis_of_atp_1 _let_1) (tptp.tangible_entity_1 _let_11) (tptp.entity_1 _let_9) (tptp.tangible_entity_1 _let_6) (tptp.cell_1 _let_4) (tptp.cell_1 _let_2) (tptp.has_function_2 X _let_8) (tptp.has_function_2 X _let_13) (tptp.agent_2 _let_1 _let_14) (tptp.agent_2 _let_3 _let_14) (tptp.has_function_2 _let_10 _let_5) (tptp.agent_2 _let_8 X) (tptp.object_2 _let_13 _let_10) (tptp.agent_2 _let_13 X) (tptp.raw_material_2 _let_8 _let_12) (tptp.object_2 _let_5 _let_7) (tptp.result_2 _let_8 _let_10) (tptp.base_2 _let_3 _let_7) (tptp.base_2 _let_1 _let_7) (= _let_12 _let_11) (= _let_7 _let_6) (= _let_10 _let_9) (= _let_7 _let_4) (= _let_7 _let_2) (= _let_6 _let_4) (= _let_4 _let_2)))))))))))))))))) (forall ((X $$unsorted) (X1 $$unsorted)) (=> (and (tptp.object_2 X X1) (tptp.contract_1 X) (tptp.microtubule_1 X1)) (and (tptp.microtubule_shortening_1 X) (= (tptp.fn_microtubule_shortening_2 X) X1)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_shortening_2 X))) (let ((_let_2 (tptp.fn_microtubule_4 _let_1))) (let ((_let_3 (tptp.fn_microtubule_shortening_4 X))) (let ((_let_4 (tptp.fn_remove_1 _let_3))) (let ((_let_5 (tptp.fn_microtubule_shortening_3 X))) (let ((_let_6 (tptp.fn_remove_2 _let_3))) (=> (tptp.microtubule_shortening_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule-Shortening'|) (tptp.user_description_2 X |tptp.'During mitosis, the process in which the spindle fibers shorten, separating the chromosomes to opposite poles of the cell.'|) (tptp.concept2words_2 X |tptp.'microtubule contraction'|) (tptp.concept2words_2 X |tptp.'microtubule depolymerisation'|) (tptp.concept2words_2 X |tptp.'microtubule depolymerization'|) (tptp.concept2words_2 X |tptp.'microtubule shortening'|) (tptp.concept2words_2 X |tptp.'microtubule shorten'|) (tptp.concept2words_2 X tptp.shorten) (tptp.concept2words_2 X |tptp.'shortening of microtubule'|) (tptp.concept2words_2 X |tptp.'microtubule-shortening'|) (tptp.contract_1 X) (not (tptp.dry_1 X)) (not (tptp.dim_1 X)) (not (tptp.cool_1 X)) (tptp.spatial_entity_1 _let_1) (tptp.microtubule_1 _let_1) (tptp.spatial_entity_1 _let_5) (tptp.tubulin_1 _let_5) (tptp.remove_1 _let_3) (tptp.spatial_entity_1 _let_6) (tptp.spatial_entity_1 _let_4) (tptp.tubulin_1 _let_2) (tptp.subevent_2 X _let_3) (tptp.object_2 X _let_1) (tptp.object_2 _let_3 _let_5) (tptp.base_2 _let_3 _let_1) (tptp.has_part_2 _let_1 _let_5) (= _let_5 _let_4) (= _let_1 _let_6) (= _let_5 _let_2) (= _let_4 _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microtubule_triplet_3 X))) (let ((_let_2 (tptp.fn_microtubule_triplet_2 X))) (let ((_let_3 (tptp.fn_microtubule_triplet_1 X))) (=> (tptp.microtubule_triplet_1 X) (and (tptp.original_name_2 X |tptp.'Microtubule-Triplet'|) (tptp.user_description_2 X |tptp.'A group of three microtubules that anchors a cilium or flagellum into a basal body.'|) (tptp.concept2words_2 X |tptp.'triplet of microtubule'|) (tptp.concept2words_2 X |tptp.'microtubule triplet'|) (tptp.concept2words_2 X |tptp.'microtubule-triplet'|) (tptp.tangible_entity_1 X) (tptp.aggregate_1 X) (tptp.microtubule_1 _let_3) (tptp.microtubule_1 _let_2) (tptp.microtubule_1 _let_1) (tptp.element_2 X _let_3) (tptp.element_2 X _let_2) (tptp.element_2 X _let_1) (tptp.minCardinality X tptp.element_0 |"3"| tptp.microtubule_0))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microvillus_8 X))) (let ((_let_2 (tptp.fn_support_1 _let_1))) (let ((_let_3 (tptp.fn_microvillus_1 X))) (let ((_let_4 (tptp.fn_microvillus_3 X))) (let ((_let_5 (tptp.fn_microvillus_6 X))) (let ((_let_6 (tptp.fn_microvillus_7 X))) (=> (tptp.microvillus_1 X) (and (tptp.original_name_2 X |tptp.'Microvillus'|) (tptp.user_description_2 X |tptp.'Thin, fingerlike extensions of the plasma membrane of epithelial cells that increase the surface are of absorptive surfaces such as the lumen of the small intestine.'|) (tptp.concept2words_2 X tptp.microvilli) (tptp.concept2words_2 X tptp.microvillus) (tptp.cellular_structure_1 X) (tptp.microfilament_1 _let_3) (tptp.size_value_1 _let_4) (tptp.length_value_1 _let_5) (tptp.length_value_1 _let_6) (tptp.support_1 _let_1) (tptp.tangible_entity_1 _let_2) (tptp.minCardinality X tptp.has_part_0 |"1"| tptp.microfilament_0) (tptp.has_part_2 X _let_3) (tptp.width_2 X _let_6) (tptp.length_2 X _let_5) (tptp.size_2 X _let_4) (tptp.the_scalar_value_2 _let_6 tptp.thin_0) (tptp.scalar_unit_class_2 _let_6 tptp.cellular_structure_0) (tptp.the_scalar_value_2 _let_5 tptp.long_0) (tptp.scalar_unit_class_2 _let_5 tptp.cellular_structure_0) (tptp.the_scalar_value_2 _let_4 tptp.microscopic_0) (tptp.scalar_unit_class_2 _let_4 tptp.cellular_structure_0) (tptp.facilitates_2 _let_3 _let_1) (tptp.object_2 _let_1 X) (= X _let_2)))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_microwaves_3 X))) (let ((_let_2 (tptp.fn_microwaves_4 X))) (let ((_let_3 (tptp.fn_microwaves_2 X))) (let ((_let_4 (tptp.fn_microwaves_1 X))) (=> (tptp.microwaves_1 X) (and (tptp.original_name_2 X |tptp.'Microwaves'|) (tptp.user_description_2 X |tptp.'Microwaves are the radiation with wavelenth ranging from 1 mm to 1 m. Their wavelength is shorter than that of infrared-rays, but longer than Radiowaves.'|) (tptp.concept2words_2 X tptp.microwave) (tptp.radiation_1 X) (tptp.electromagnetic_spectrum_1 _let_4) (tptp.length_value_1 _let_3) (tptp.length_value_1 _let_1) (tptp.length_value_1 _let_2) (tptp.element_2 _let_4 X) (tptp.wavelength_2 X _let_2) (tptp.greater_than_or_equal_to_2 _let_3 _let_2) (tptp.the_cardinal_value_2 _let_3 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_3 tptp.meter_0) (tptp.the_cardinal_value_2 _let_1 |"1.0e0"|) (tptp.cardinal_unit_class_2 _let_1 tptp.millimeter_0) (tptp.greater_than_or_equal_to_2 _let_2 _let_1)))))))) (forall ((X $$unsorted)) (=> (tptp.midbrain_1 X) (and (tptp.original_name_2 X |tptp.'Midbrain'|) (tptp.user_description_2 X |tptp.'A region of the vertebrate brain involved with sensory integration, motor control, sleep/wake cycles, and temperature regulation.'|) (tptp.concept2words_2 X tptp.mesencephalon) (tptp.concept2words_2 X tptp.midbrain) (tptp.embryonic_brain_region_1 X) (not (tptp.reticular_formation_1 X)) (not (tptp.primary_visual_cortex_1 X)) (not (tptp.brainstem_1 X)) (not (tptp.cerebellum_1 X)) (not (tptp.cerebrum_1 X)) (not (tptp.forebrain_1 X)) (not (tptp.hindbrain_1 X)) (not (tptp.hypothalamus_1 X)) (not (tptp.medulla_oblongata_1 X)) (not (tptp.pons_1 X)) (not (tptp.posterior_pituitary_1 X)) (not (tptp.primary_motor_cortex_1 X)) (not (tptp.reticular_system_1 X)) (not (tptp.suprachiasmatic_nucleus_1 X)) (not (tptp.thalamus_1 X)) (not (tptp.lateral_geniculate_1 X)) (not (tptp.corpus_callosum_1 X)) (not (tptp.cerebral_cortex_1 X))))) (forall ((X $$unsorted)) (=> (tptp.middle_ear_1 X) (and (tptp.original_name_2 X |tptp.'Middle-Ear'|) (tptp.user_description_2 X |tptp.'In vertebrates, the region of the ear between the tympanic membrane and the oval window. In mammals, the middle ear contains three bones (incus, malleus, and stapes) that are involved in sound perception.'|) (tptp.concept2words_2 X |tptp.'ear of middle'|) (tptp.concept2words_2 X |tptp.'middle ear'|) (tptp.concept2words_2 X |tptp.'middle-ear'|) (tptp.auditory_space_1 X) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.mitochondrial_matrix_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X))))) (forall ((X $$unsorted)) (=> (tptp.middle_lamella_1 X) (and (tptp.original_name_2 X |tptp.'Middle-Lamella'|) (tptp.user_description_2 X |tptp.'In plants, a thin layer of extracellular pectin that cements the cell walls of adjacent cells together.'|) (tptp.concept2words_2 X |tptp.'lamella of middle'|) (tptp.concept2words_2 X |tptp.'middle lamella'|) (tptp.concept2words_2 X |tptp.'middle-lamella'|) (tptp.extra_cellular_matrix_1 X) (not (tptp.basement_membrane_1 X)) (not (tptp.extraembryonic_membrane_1 X)) (not (tptp.zona_pellucida_1 X))))) (forall ((X $$unsorted)) (=> (tptp.midgut_1 X) (and (tptp.original_name_2 X |tptp.'Midgut'|) (tptp.user_description_2 X |tptp.'Middle region of the alimentary canal in some animals in which most of the digestion takes place. Contains pouches called gstric cecae.'|) (tptp.concept2words_2 X tptp.midgut) (tptp.animal_space_1 X)))) (forall ((X $$unsorted)) (=> (tptp.migration_1 X) (and (tptp.original_name_2 X |tptp.'Migration'|) (tptp.user_description_2 X |tptp.'Physical movement from one location to another.'|) (tptp.concept2words_2 X tptp.migrate) (tptp.concept2words_2 X tptp.migration) (tptp.social_behavior_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_milk_2 X))) (let ((_let_2 (tptp.fn_milk_1 X))) (let ((_let_3 (tptp.fn_milk_3 X))) (=> (tptp.milk_1 X) (and (tptp.original_name_2 X |tptp.'Milk'|) (tptp.user_description_2 X |tptp.'An opaque white or bluish-white liquid secreted by the mammary glands of female mammals, serving for the nourishment of their young.'|) (tptp.concept2words_2 X tptp.milk) (tptp.organic_entity_1 X) (tptp.liquid_substance_1 X) (tptp.macronutrient_1 _let_2) (tptp.fluid_feeding_1 _let_1) (tptp.lactose_1 _let_3) (tptp.has_part_2 X _let_3) (tptp.plays_2 X _let_2) (tptp.in_event_2 _let_2 _let_1))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_miller_urey_experiment_33 X))) (let ((_let_2 (tptp.fn_boiling_1 _let_1))) (let ((_let_3 (tptp.fn_miller_urey_experiment_19 X))) (let ((_let_4 (tptp.fn_mixture_1 _let_3))) (let ((_let_5 (tptp.fn_miller_urey_experiment_32 X))) (let ((_let_6 (tptp.fn_move_1 _let_5))) (let ((_let_7 (tptp.fn_miller_urey_experiment_28 X))) (let ((_let_8 (tptp.fn_cool_1 _let_7))) (let ((_let_9 (tptp.fn_miller_urey_experiment_29 X))) (let ((_let_10 (tptp.fn_move_1 _let_9))) (let ((_let_11 (tptp.fn_miller_urey_experiment_27 X))) (let ((_let_12 (tptp.fn_move_1 _let_11))) (let ((_let_13 (tptp.fn_miller_urey_experiment_26 X))) (let ((_let_14 (tptp.fn_move_1 _let_13))) (let ((_let_15 (tptp.fn_miller_urey_experiment_25 X))) (let ((_let_16 (tptp.fn_solution_5 _let_15))) (let ((_let_17 (tptp.fn_solution_6 _let_15))) (let ((_let_18 (tptp.fn_boiling_2 _let_1))) (let ((_let_19 (tptp.fn_miller_urey_experiment_35 X))) (let ((_let_20 (tptp.fn_miller_urey_experiment_34 X))) (let ((_let_21 (tptp.fn_water_vapor_1 _let_20))) (let ((_let_22 (tptp.fn_miller_urey_experiment_24 X))) (let ((_let_23 (tptp.fn_miller_urey_experiment_20 X))) (let ((_let_24 (tptp.fn_ammonia_gas_1 _let_23))) (let ((_let_25 (tptp.fn_miller_urey_experiment_23 X))) (let ((_let_26 (tptp.fn_miller_urey_experiment_17 X))) (let ((_let_27 (tptp.fn_miller_urey_experiment_31 X))) (let ((_let_28 (tptp.fn_add_1 _let_27))) (let ((_let_29 (tptp.fn_miller_urey_experiment_18 X))) (let ((_let_30 (tptp.fn_miller_urey_experiment_30 X))) (let ((_let_31 (tptp.fn_chemical_reaction_2 _let_30))) (let ((_let_32 (tptp.fn_miller_urey_experiment_21 X))) (let ((_let_33 (tptp.fn_chemical_reaction_1 _let_30))) (let ((_let_34 (tptp.fn_miller_urey_experiment_22 X))) (let ((_let_35 (tptp.fn_add_2 _let_27))) (let ((_let_36 (tptp.fn_mixture_2 _let_3))) (let ((_let_37 (tptp.fn_miller_urey_experiment_3 X))) (let ((_let_38 (tptp.fn_miller_urey_experiment_12 X))) (let ((_let_39 (tptp.fn_miller_urey_experiment_11 X))) (let ((_let_40 (tptp.fn_miller_urey_experiment_10 X))) (let ((_let_41 (tptp.fn_miller_urey_experiment_16 X))) (let ((_let_42 (tptp.fn_miller_urey_experiment_15 X))) (let ((_let_43 (tptp.fn_miller_urey_experiment_14 X))) (let ((_let_44 (tptp.fn_miller_urey_experiment_13 X))) (let ((_let_45 (tptp.fn_miller_urey_experiment_4 X))) (let ((_let_46 (tptp.fn_miller_urey_experiment_5 X))) (let ((_let_47 (tptp.fn_miller_urey_experiment_9 X))) (let ((_let_48 (tptp.fn_miller_urey_experiment_8 X))) (let ((_let_49 (tptp.fn_miller_urey_experiment_7 X))) (let ((_let_50 (tptp.fn_miller_urey_experiment_6 X))) (let ((_let_51 (tptp.fn_miller_urey_experiment_1 X))) (let ((_let_52 (tptp.fn_miller_urey_experiment_2 X))) (=> (tptp.miller_urey_experiment_1 X) (and (tptp.original_name_2 X |tptp.'Miller-Urey-Experiment'|) (tptp.user_description_2 X |tptp.'Experimental closed system created by Stanley Miller and Harold Urey, used to mimic the conditions present on early Earth. The Miller-Urey experiment provided evidence in support of the theory of abiotic synthesis of organic materials important to life.'|) (tptp.concept2words_2 X |tptp.'miller urey hypothesis'|) (tptp.concept2words_2 X |tptp.'miller-urey hypothesis'|) (tptp.concept2words_2 X |tptp.'miller urey experiment'|) (tptp.concept2words_2 X |tptp.'miller-urey-experiment'|) (tptp.technique_1 X) (tptp.laboratory_1 _let_51) (tptp.flask_1 _let_52) (tptp.flask_1 _let_37) (tptp.condense_1 _let_45) (tptp.analysis_1 _let_46) (tptp.organic_molecule_substance_1 _let_50) (tptp.hydrocarbon_molecule_1 _let_49) (tptp.formaldehyde_1 _let_48) (tptp.amino_acid_1 _let_47) (tptp.methane_1 _let_40) (tptp.flask_1 _let_39) (tptp.flask_1 _let_38) (tptp.formaldehyde_1 _let_44) (tptp.hydrogen_cyanide_1 _let_43) (tptp.hydrocarbon_molecule_1 _let_42) (tptp.amino_acid_1 _let_41) (tptp.organic_molecule_substance_1 _let_26) (tptp.electric_current_pulse_1 _let_29) (tptp.homogeneous_mixture_1 _let_3) (tptp.substance_1 _let_23) (tptp.ammonia_gas_1 _let_23) (tptp.hydrogen_molecule_1 _let_32) (tptp.hydrogen_cyanide_1 _let_34) (tptp.ammonia_1 _let_25) (tptp.water_molecule_1 _let_22) (tptp.aqueous_solution_1 _let_15) (tptp.flow_1 _let_13) (tptp.flow_1 _let_11) (tptp.cool_1 _let_7) (tptp.flow_1 _let_9) (tptp.chemical_reaction_1 _let_30) (tptp.add_1 _let_27) (tptp.flow_1 _let_5) (tptp.boiling_1 _let_1) (tptp.spatial_entity_1 _let_20) (tptp.substance_1 _let_20) (tptp.water_vapor_1 _let_20) (tptp.gas_substance_1 _let_20) (tptp.water_1 _let_19) (tptp.substance_1 _let_36) (tptp.spatial_entity_1 _let_35) (tptp.chemical_entity_1 _let_33) (tptp.chemical_entity_1 _let_31) (tptp.spatial_entity_1 _let_28) (tptp.ammonia_1 _let_24) (tptp.water_molecule_1 _let_21) (tptp.liquid_substance_1 _let_18) (tptp.chemical_1 _let_17) (tptp.chemical_1 _let_16) (tptp.spatial_entity_1 _let_14) (tptp.spatial_entity_1 _let_12) (tptp.spatial_entity_1 _let_10) (tptp.tangible_entity_1 _let_8) (tptp.spatial_entity_1 _let_6) (tptp.substance_1 _let_4) (tptp.gas_substance_1 _let_2) (tptp.is_inside_2 _let_19 _let_52) (tptp.called_2 _let_52 |tptp.'F1'|) (not (= _let_52 _let_37)) (tptp.called_2 _let_37 |tptp.'F2'|) (not (= _let_37 _let_52)) (not (= _let_37 _let_39)) (not (= _let_37 _let_38)) (tptp.next_event_2 _let_1 _let_5) (tptp.destination_2 _let_5 _let_37) (tptp.origin_2 _let_5 _let_52) (tptp.next_event_2 _let_5 _let_27) (tptp.enables_2 _let_27 _let_30) (tptp.next_event_2 _let_27 _let_30) (tptp.next_event_2 _let_30 _let_9) (tptp.result_2 _let_30 _let_49) (tptp.result_2 _let_30 _let_48) (tptp.result_2 _let_30 _let_47) (tptp.raw_material_2 _let_30 _let_22) (tptp.raw_material_2 _let_30 _let_25) (tptp.raw_material_2 _let_30 _let_40) (tptp.origin_2 _let_9 _let_37) (tptp.next_event_2 _let_9 _let_7) (tptp.destination_2 _let_9 _let_39) (tptp.next_event_2 _let_7 _let_45) (tptp.next_event_2 _let_45 _let_11) (tptp.raw_material_2 _let_45 _let_15) (tptp.result_2 _let_45 _let_15) (tptp.next_event_2 _let_11 _let_46) (tptp.origin_2 _let_11 _let_39) (tptp.destination_2 _let_11 _let_38) (tptp.destination_2 _let_13 _let_52) (tptp.origin_2 _let_13 _let_38) (tptp.next_event_2 _let_46 _let_13) (tptp.base_2 _let_46 _let_15) (tptp.site_2 X _let_51) (tptp.result_2 X _let_50) (tptp.result_2 X _let_49) (tptp.result_2 X _let_48) (tptp.result_2 X _let_47) (tptp.result_2 X _let_34) (tptp.raw_material_2 X _let_29) (tptp.raw_material_2 X _let_32) (tptp.raw_material_2 X _let_20) (tptp.raw_material_2 X _let_23) (tptp.raw_material_2 X _let_40) (tptp.first_subevent_2 X _let_1) (tptp.subevent_2 X _let_46) (tptp.subevent_2 X _let_13) (tptp.subevent_2 X _let_11) (tptp.subevent_2 X _let_45) (tptp.subevent_2 X _let_7) (tptp.subevent_2 X _let_9) (tptp.subevent_2 X _let_30) (tptp.subevent_2 X _let_27) (tptp.subevent_2 X _let_5) (tptp.subevent_2 X _let_1) (tptp.is_inside_2 _let_15 _let_38) (tptp.has_part_2 _let_15 _let_44) (tptp.has_part_2 _let_15 _let_43) (tptp.has_part_2 _let_15 _let_42) (tptp.has_part_2 _let_15 _let_41) (tptp.is_inside_2 _let_3 _let_37) (tptp.has_part_2 _let_3 _let_40) (tptp.has_part_2 _let_3 _let_32) (tptp.called_2 _let_39 |tptp.'F3'|) (not (= _let_39 _let_37)) (tptp.called_2 _let_38 |tptp.'F4'|) (not (= _let_38 _let_37)) (tptp.object_2 _let_13 _let_15) (tptp.object_2 _let_11 _let_15) (tptp.object_2 _let_9 _let_15) (tptp.base_2 _let_7 _let_15) (tptp.object_2 _let_5 _let_20) (tptp.has_part_2 _let_3 _let_23) (tptp.base_2 _let_27 _let_3) (tptp.has_part_2 _let_3 _let_20) (tptp.result_2 _let_30 _let_34) (tptp.raw_material_2 _let_30 _let_32) (tptp.object_2 _let_27 _let_29) (tptp.has_part_2 _let_15 _let_26) (tptp.has_solute_2 _let_15 _let_26) (tptp.has_part_2 _let_23 _let_25) (tptp.has_part_2 _let_20 _let_22) (tptp.base_2 _let_1 _let_19) (tptp.object_2 _let_1 _let_19) (tptp.result_2 _let_1 _let_20) (= _let_15 _let_14) (= _let_15 _let_12) (= _let_15 _let_10) (= _let_15 _let_8) (= _let_20 _let_6) (= _let_23 _let_36) (= _let_3 _let_35) (= _let_20 _let_4) (= _let_34 _let_33) (= _let_32 _let_31) (= _let_29 _let_28) (= _let_26 _let_17) (= _let_26 _let_16) (= _let_25 _let_24) (= _let_22 _let_21) (= _let_20 _let_2) (= _let_19 _let_18) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_14) (= _let_14 _let_12) (= _let_12 _let_10) (= _let_10 _let_8) (= _let_8 _let_6) (= _let_6 _let_4) (= _let_4 _let_4) (= _let_4 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.millipede_1 X) (and (tptp.original_name_2 X |tptp.'Millipede'|) (tptp.user_description_2 X |tptp.'Member of a class of terrestrial arthropods that appear to have two pairs of walking legs per body segment.'|) (tptp.concept2words_2 X tptp.millipede) (tptp.myriapod_1 X) (not (tptp.centipede_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mimicry_1 X) (and (tptp.original_name_2 X |tptp.'Mimicry'|) (tptp.user_description_2 X |tptp.'An adaptation resulting in two species that have the same or similar appearance, in which at least one species benefits from the similarity.'|) (tptp.concept2words_2 X tptp.mimicry) (tptp.adaptation_1 X) (not (tptp.adaptive_radiation_1 X)) (not (tptp.allopatric_speciation_1 X)) (not (tptp.anagenesis_1 X)) (not (tptp.bottleneck_effect_1 X)) (not (tptp.cephalization_1 X)) (not (tptp.character_displacement_1 X)) (not (tptp.cladogenesis_1 X)) (not (tptp.convergent_evolution_1 X)) (not (tptp.endosymbiosis_1 X)) (not (tptp.gene_flow_1 X)) (not (tptp.genetic_drift_1 X)) (not (tptp.heterochrony_1 X)) (not (tptp.homology_1 X)) (not (tptp.mechanical_isolation_1 X)) (not (tptp.natural_selection_1 X)) (not (tptp.paedomorphosis_1 X)) (not (tptp.punctuated_equilibria_1 X)) (not (tptp.reproductive_isolation_1 X)) (not (tptp.selection_force_1 X)) (not (tptp.speciation_1 X))))) (forall ((X $$unsorted)) (=> (tptp.mimosa_pudica_1 X) (and (tptp.original_name_2 X |tptp.'Mimosa-Pudica'|) (tptp.user_description_2 X |tptp.'A bushy legume which demonstrates rapid, visible leaf movement when touched. Also called Sensitive or Touch-Me-Not plant.'|) (tptp.concept2words_2 X |tptp.'mimosa pudica'|) (tptp.concept2words_2 X |tptp.'mimosa-pudica'|) (tptp.angiosperm_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mineral_1 X) (and (tptp.original_name_2 X |tptp.'Mineral'|) (tptp.user_description_2 X |tptp.'In nutrition, a compound that is required in the diet but is inorganic and cannot be synthesized biologically.'|) (tptp.concept2words_2 X tptp.mineral) (tptp.chemical_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mineralocorticoid_1 X) (and (tptp.original_name_2 X |tptp.'Mineralocorticoid'|) (tptp.user_description_2 X |tptp.'One of a group of adrenal steroid hormones that regulate water and salt balance within the body.'|) (tptp.concept2words_2 X tptp.mineralocorticoid) (tptp.corticosteroid_1 X) (not (tptp.glucocorticoid_1 X))))) (forall ((X $$unsorted)) (=> (tptp.minimum_viable_population_1 X) (and (tptp.original_name_2 X |tptp.'Minimum-Viable-Population'|) (tptp.user_description_2 X |tptp.'The smallest population size of a species that can be sustained in the wild.'|) (tptp.concept2words_2 X |tptp.'minimum viable population'|) (tptp.concept2words_2 X |tptp.'minimum-viable-population'|) (tptp.population_1 X)))) (forall ((X $$unsorted)) (=> (tptp.minipill_1 X) (and (tptp.original_name_2 X |tptp.'Minipill'|) (tptp.user_description_2 X |tptp.'A form of oral contraception that contains only progestins, and no estrogen.'|) (tptp.concept2words_2 X tptp.minipill) (tptp.birth_control_pill_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_minisatellite_dna_2 X))) (let ((_let_2 (tptp.fn_tandemly_repeated_dna_1 _let_1))) (let ((_let_3 (tptp.fn_minisatellite_dna_1 X))) (=> (tptp.minisatellite_dna_1 X) (and (tptp.original_name_2 X |tptp.'Minisatellite-DNA'|) (tptp.user_description_2 X |tptp.'A type of tandemly repeated DNA with 100-100,000 base pairs of repetitive DNA per site.'|) (tptp.concept2words_2 X |tptp.'minisatellite dna'|) (tptp.concept2words_2 X |tptp.'minisatellite-dna'|) (tptp.tandemly_repeated_dna_1 X) (not (tptp.microsatellite_dna_1 X)) (not (tptp.regular_satellite_dna_1 X)) (not (tptp.short_tandem_repeat_1 X)) (tptp.nucleotide_1 _let_3) (tptp.minisatellite_dna_1 _let_1) (tptp.tandemly_repeated_dna_1 _let_2) (tptp.has_part_2 X _let_3) (tptp.minCardinality X tptp.has_part_0 |"100"| tptp.nucleotide_0) (tptp.maxCardinality X tptp.has_part_0 |"100000"| tptp.nucleotide_0) (tptp.abuts_2 X _let_1) (tptp.abuts_2 _let_1 X) (= X _let_2) (= _let_2 _let_2))))))) (forall ((X $$unsorted)) (=> (tptp.misfolded_protein_1 X) (and (tptp.original_name_2 X |tptp.'Misfolded-Protein'|) (tptp.user_description_2 X |tptp.'A misfolded form of a protein.'|) (tptp.concept2words_2 X |tptp.'misfolded protein'|) (tptp.concept2words_2 X |tptp.'misfolded-protein'|) (tptp.protein_1 X)))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mismatch_repair_1 X))) (let ((_let_2 (tptp.fn_mismatched_nucleotide_1 _let_1))) (let ((_let_3 (tptp.fn_dna_repair_8 X))) (let ((_let_4 (tptp.fn_mismatch_repair_4 X))) (let ((_let_5 (tptp.fn_replace_3 _let_4))) (let ((_let_6 (tptp.fn_mismatch_repair_2 X))) (let ((_let_7 (tptp.fn_replace_1 _let_4))) (let ((_let_8 (tptp.fn_replace_2 _let_4))) (let ((_let_9 (tptp.fn_mismatch_repair_3 X))) (=> (tptp.mismatch_repair_1 X) (and (tptp.original_name_2 X |tptp.'Mismatch-Repair'|) (tptp.user_description_2 X |tptp.'A DNA repair mechanism that employs specific enzymes to detect, remove, and replace wrongly paired nucleotides.'|) (tptp.concept2words_2 X tptp.repair) (tptp.concept2words_2 X |tptp.'mismatch repair'|) (tptp.concept2words_2 X |tptp.'mismatch-repair'|) (tptp.dna_repair_1 X) (not (tptp.nucleotide_excision_repair_1 X)) (tptp.spatial_entity_1 _let_1) (tptp.mismatched_nucleotide_1 _let_1) (tptp.spatial_entity_1 _let_6) (tptp.damaged_dna_strand_1 _let_6) (tptp.deoxyribonucleoside_monophosphate_1 _let_9) (tptp.replace_1 _let_4) (tptp.spatial_entity_1 _let_8) (tptp.spatial_entity_1 _let_7) (tptp.spatial_entity_1 _let_5) (tptp.damaged_dna_strand_1 _let_2) (tptp.subevent_2 X _let_4) (tptp.base_2 _let_4 _let_6) (tptp.object_2 _let_4 _let_9) (tptp.called_2 _let_9 |tptp.'new entity'|) (tptp.object_2 _let_4 _let_1) (tptp.called_2 _let_1 |tptp.'old entity'|) (tptp.object_2 X _let_6) (tptp.is_at_2 _let_1 _let_6) (= _let_6 _let_5) (= _let_9 _let_8) (= _let_1 _let_7) (= _let_6 _let_3) (= _let_6 _let_2) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_2))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mismatched_nucleotide_1 X))) (=> (tptp.mismatched_nucleotide_1 X) (and (tptp.original_name_2 X |tptp.'Mismatched-Nucleotide'|) (tptp.user_description_2 X |tptp.'The pairing of an incorrect nucleotide to the template during synthesis of DNA or RNA. Examples of mismatched bases are G paired with T and A paired with C.'|) (tptp.concept2words_2 X |tptp.'incorrectly paired nucelotide'|) (tptp.concept2words_2 X |tptp.'incorrectly-paired-nucelotide'|) (tptp.concept2words_2 X |tptp.'mismatched nucleotide'|) (tptp.concept2words_2 X |tptp.'mismatched-nucleotide'|) (tptp.nucleotide_1 X) (tptp.damaged_dna_strand_1 _let_1) (tptp.is_at_2 X _let_1))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_misplaced_methyl_group_12 X))) (let ((_let_2 (tptp.fn_second_electron_shell_21 _let_1))) (let ((_let_3 (tptp.fn_methyl_group_19 X))) (let ((_let_4 (tptp.fn_misplaced_methyl_group_9 X))) (let ((_let_5 (tptp.fn_first_electron_shell_7 _let_4))) (let ((_let_6 (tptp.fn_misplaced_methyl_group_6 X))) (let ((_let_7 (tptp.fn_covalent_bond_22 _let_6))) (let ((_let_8 (tptp.fn_second_electron_shell_13 _let_1))) (let ((_let_9 (tptp.fn_methyl_group_11 X))) (let ((_let_10 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_11 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_12 (tptp.fn_misplaced_methyl_group_7 X))) (let ((_let_13 (tptp.fn_organic_molecule_1 _let_12))) (let ((_let_14 (tptp.fn_second_electron_shell_14 _let_1))) (let ((_let_15 (tptp.fn_covalent_bond_24 _let_6))) (let ((_let_16 (tptp.fn_misplaced_methyl_group_4 X))) (let ((_let_17 (tptp.fn_carbon_18 _let_16))) (let ((_let_18 (tptp.fn_atom_18 _let_16))) (let ((_let_19 (tptp.fn_second_electron_shell_11 _let_1))) (let ((_let_20 (tptp.fn_methyl_group_21 X))) (let ((_let_21 (tptp.fn_carbon_10 _let_16))) (let ((_let_22 (tptp.fn_atom_14 _let_16))) (let ((_let_23 (tptp.fn_second_electron_shell_9 _let_1))) (let ((_let_24 (tptp.fn_covalent_bond_23 _let_6))) (let ((_let_25 (tptp.fn_second_electron_shell_20 _let_1))) (let ((_let_26 (tptp.fn_carbon_17 _let_16))) (let ((_let_27 (tptp.fn_covalent_bond_4 _let_6))) (let ((_let_28 (tptp.fn_atom_8 _let_16))) (let ((_let_29 (tptp.fn_covalent_bond_17 _let_6))) (let ((_let_30 (tptp.fn_methyl_group_12 X))) (let ((_let_31 (tptp.fn_methyl_group_14 X))) (let ((_let_32 (tptp.fn_polymer_1 _let_12))) (let ((_let_33 (tptp.fn_covalent_bond_15 _let_6))) (let ((_let_34 (tptp.fn_methyl_group_20 X))) (let ((_let_35 (tptp.fn_covalent_bond_18 _let_6))) (let ((_let_36 (tptp.fn_methyl_group_17 X))) (let ((_let_37 (tptp.fn_first_electron_shell_5 _let_4))) (let ((_let_38 (tptp.fn_covalent_bond_21 _let_6))) (let ((_let_39 (tptp.fn_methyl_group_18 X))) (let ((_let_40 (tptp.fn_methyl_group_10 X))) (let ((_let_41 (tptp.fn_first_electron_shell_3 _let_4))) (let ((_let_42 (tptp.fn_organic_molecule_2 _let_12))) (let ((_let_43 (tptp.fn_misplaced_methyl_group_16 X))) (let ((_let_44 (tptp.fn_share_1 _let_43))) (let ((_let_45 (tptp.fn_misplaced_methyl_group_1 X))) (let ((_let_46 (tptp.fn_chromosome_4 _let_45))) (let ((_let_47 (tptp.fn_functional_group_1 X))) (let ((_let_48 (tptp.fn_misplaced_methyl_group_13 X))) (let ((_let_49 (tptp.fn_misplaced_methyl_group_8 X))) (let ((_let_50 (tptp.fn_atom_9 _let_16))) (let ((_let_51 (tptp.fn_misplaced_methyl_group_11 X))) (let ((_let_52 (tptp.fn_misplaced_methyl_group_14 X))) (let ((_let_53 (tptp.fn_misplaced_methyl_group_17 X))) (let ((_let_54 (tptp.fn_misplaced_methyl_group_18 X))) (let ((_let_55 (tptp.fn_misplaced_methyl_group_2 X))) (let ((_let_56 (tptp.fn_misplaced_methyl_group_15 X))) (let ((_let_57 (tptp.fn_misplaced_methyl_group_3 X))) (let ((_let_58 (tptp.fn_misplaced_methyl_group_10 X))) (let ((_let_59 (tptp.fn_misplaced_methyl_group_5 X))) (=> (tptp.misplaced_methyl_group_1 X) (and (tptp.original_name_2 X |tptp.'Misplaced-Methyl-Group'|) (tptp.user_description_2 X |tptp.'Misplaced methyl groups could interefere with the development of an organism.'|) (tptp.concept2words_2 X |tptp.'misplaced methyl group'|) (tptp.concept2words_2 X |tptp.'misplaced-methyl-group'|) (tptp.methyl_group_1 X) (tptp.chromosome_1 _let_45) (tptp.share_1 _let_55) (tptp.electron_1 _let_57) (tptp.valence_electron_1 _let_57) (tptp.carbon_1 _let_16) (tptp.entity_1 _let_16) (tptp.chemical_entity_1 _let_16) (tptp.atom_1 _let_16) (tptp.tangible_entity_1 _let_59) (tptp.hydrogen_1 _let_59) (tptp.entity_1 _let_59) (tptp.chemical_entity_1 _let_59) (tptp.atom_1 _let_59) (tptp.single_bond_1 _let_6) (tptp.covalent_bond_1 _let_6) (tptp.chemical_entity_1 _let_12) (tptp.polymer_1 _let_12) (tptp.entity_1 _let_12) (tptp.dna_1 _let_12) (tptp.organic_molecule_1 _let_12) (tptp.atomic_nucleus_1 _let_49) (tptp.electron_shell_1 _let_4) (tptp.first_electron_shell_1 _let_4) (tptp.center_1 _let_58) (tptp.atomic_nucleus_1 _let_51) (tptp.electron_shell_1 _let_1) (tptp.second_electron_shell_1 _let_1) (tptp.electron_shell_1 _let_48) (tptp.first_electron_shell_1 _let_48) (tptp.electron_1 _let_52) (tptp.valence_electron_1 _let_56) (tptp.share_1 _let_43) (tptp.center_1 _let_53) (tptp.proton_1 _let_54) (tptp.electron_shell_1 _let_50) (tptp.entity_1 _let_46) (tptp.dna_1 _let_46) (tptp.entity_1 _let_44) (tptp.atom_1 _let_42) (tptp.chemical_entity_1 _let_42) (tptp.atom_1 _let_41) (tptp.center_1 _let_38) (tptp.electron_1 _let_37) (tptp.valence_electron_1 _let_35) (tptp.valence_electron_1 _let_33) (tptp.covalent_bond_1 _let_32) (tptp.share_1 _let_29) (tptp.proton_1 _let_28) (tptp.proton_1 _let_27) (tptp.proton_1 _let_26) (tptp.proton_1 _let_25) (tptp.center_1 _let_24) (tptp.center_1 _let_23) (tptp.electron_1 _let_22) (tptp.electron_1 _let_21) (tptp.electron_1 _let_19) (tptp.atomic_nucleus_1 _let_18) (tptp.atomic_nucleus_1 _let_17) (tptp.atomic_nucleus_1 _let_15) (tptp.atomic_nucleus_1 _let_14) (tptp.carbon_1 _let_13) (tptp.entity_1 _let_11) (tptp.chemical_entity_1 _let_11) (tptp.atom_1 _let_11) (tptp.entity_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.atom_1 _let_10) (tptp.atom_1 _let_8) (tptp.atomic_nucleus_1 _let_7) (tptp.atomic_nucleus_1 _let_5) (tptp.first_electron_shell_1 _let_2) (tptp.agent_2 _let_43 _let_59) (tptp.has_region_2 _let_12 X) (tptp.has_part_2 _let_12 _let_59) (tptp.possesses_2 _let_12 _let_6) (tptp.has_part_2 _let_45 _let_12) (tptp.has_part_2 _let_12 _let_16) (tptp.agent_2 _let_43 _let_16) (tptp.has_region_2 _let_59 _let_49) (tptp.has_region_2 _let_59 _let_58) (tptp.is_between_2 _let_6 _let_59) (tptp.is_inside_2 _let_59 X) (tptp.result_2 _let_43 _let_6) (tptp.is_between_2 _let_6 _let_16) (not (= _let_16 _let_59)) (tptp.has_region_2 _let_59 _let_4) (not (= _let_4 _let_48)) (not (= _let_59 _let_16)) (not (= _let_48 _let_4)) (tptp.agent_2 _let_55 _let_16) (tptp.agent_2 _let_55 _let_59) (tptp.has_part_2 _let_59 _let_57) (tptp.object_2 _let_43 _let_57) (tptp.object_2 _let_43 _let_56) (tptp.is_inside_2 _let_16 X) (tptp.has_part_2 _let_16 _let_56) (not (= _let_56 _let_52)) (not (= _let_57 _let_56)) (not (= _let_56 _let_57)) (not (= _let_52 _let_56)) (tptp.object_2 _let_55 _let_57) (tptp.is_at_2 _let_49 _let_58) (tptp.is_near_2 _let_57 _let_49) (tptp.is_near_2 _let_49 _let_57) (not (= _let_53 _let_58)) (not (= _let_58 _let_53)) (tptp.result_2 _let_55 _let_6) (tptp.object_2 _let_55 _let_56) (tptp.is_near_2 _let_56 _let_51) (tptp.is_near_2 _let_51 _let_56) (not (= _let_49 _let_51)) (not (= _let_51 _let_49)) (tptp.has_region_2 _let_16 _let_53) (tptp.has_part_2 _let_16 _let_52) (tptp.has_region_2 _let_16 _let_51) (tptp.has_part_2 _let_16 _let_54) (tptp.is_inside_2 _let_54 _let_51) (tptp.has_region_2 _let_16 _let_48) (tptp.is_inside_2 _let_51 _let_48) (tptp.is_at_2 _let_51 _let_53) (tptp.is_near_2 _let_52 _let_51) (tptp.is_near_2 _let_51 _let_52) (tptp.is_inside_2 _let_48 _let_1) (tptp.is_inside_2 _let_49 _let_4) (tptp.has_region_2 _let_16 _let_1) (= _let_59 _let_44) (= _let_12 _let_47) (= _let_59 _let_42) (= _let_6 _let_32) (= _let_12 _let_46) (= _let_16 _let_13) (= _let_43 _let_29) (= _let_58 _let_39) (= _let_48 _let_3) (= _let_59 _let_41) (= _let_4 (tptp.fn_methyl_group_16 X)) (= _let_6 _let_31) (= _let_43 _let_30) (= _let_59 _let_11) (= _let_59 _let_40) (= _let_55 _let_30) (= _let_52 _let_20) (= _let_57 _let_36) (= _let_56 _let_35) (= _let_16 _let_10) (= _let_56 _let_34) (= _let_16 _let_9) (= _let_53 _let_24) (= _let_58 _let_38) (= _let_57 _let_37) (= _let_57 _let_35) (= _let_49 _let_7) (= _let_51 _let_15) (= _let_56 _let_33) (= _let_55 _let_29) (= _let_51 _let_7) (= _let_54 _let_28) (= _let_16 _let_11) (= _let_54 _let_27) (= _let_54 _let_26) (= _let_54 _let_25) (= _let_53 _let_23) (= _let_52 _let_21) (= _let_51 _let_17) (= _let_51 _let_18) (= _let_52 _let_22) (= _let_52 _let_19) (= _let_51 _let_14) (= _let_16 _let_8) (= _let_1 _let_50) (= _let_49 _let_5) (= _let_48 _let_2) (= _let_47 _let_46) (= _let_46 _let_29) (= _let_30 _let_30) (= _let_30 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_11) (= _let_41 _let_41) (= _let_41 _let_11) (= _let_11 _let_41) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_38) (= _let_38 _let_38) (= _let_38 _let_36) (= _let_36 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_33 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_31) (= _let_31 _let_31) (= _let_31 _let_29) (= _let_29 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_27) (= _let_27 _let_28) (= _let_28 _let_27) (= _let_27 _let_27) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_26 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_21) (= _let_21 _let_22) (= _let_22 _let_20) (= _let_20 _let_21) (= _let_21 _let_21) (= _let_21 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_7) (= _let_7 _let_18) (= _let_18 _let_18) (= _let_18 _let_17) (= _let_17 _let_18) (= _let_18 _let_15) (= _let_15 _let_17) (= _let_17 _let_17) (= _let_17 _let_15) (= _let_15 _let_15) (= _let_15 _let_14) (= _let_14 _let_14) (= _let_14 _let_13) (= _let_13 _let_11) (= _let_10 _let_10) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_9 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_8) (= _let_8 _let_5) (= _let_5 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_3) (= _let_3 _let_2) (= _let_2 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.missense_mutation_1 X) (and (tptp.original_name_2 X |tptp.'Missense-Mutation'|) (tptp.user_description_2 X |tptp.'A point mutation that changes a codon so that it codes for a different amino acid.'|) (tptp.concept2words_2 X tptp.mutate) (tptp.concept2words_2 X |tptp.'missense mutation'|) (tptp.concept2words_2 X |tptp.'missense-mutation'|) (tptp.mutation_1 X)))) (forall ((X $$unsorted)) (=> (tptp.mite_1 X) (and (tptp.original_name_2 X |tptp.'Mite'|) (tptp.user_description_2 X |tptp.'One of a group of mostly microscopic arachnid arthropods of the subclass Acari.'|) (tptp.concept2words_2 X tptp.mite) (tptp.arachnid_1 X) (not (tptp.scorpion_1 X)) (not (tptp.spider_1 X)) (not (tptp.tick_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mitochondrial_dna_27 X))) (let ((_let_2 (tptp.fn_phosphodiester_bond_32 _let_1))) (let ((_let_3 (tptp.fn_mitochondrial_dna_6 X))) (let ((_let_4 (tptp.fn_hydrogen_2 _let_3))) (let ((_let_5 (tptp.fn_phosphodiester_bond_36 _let_1))) (let ((_let_6 (tptp.fn_mitochondrial_dna_9 X))) (let ((_let_7 (tptp.fn_ester_linkage_40 _let_6))) (let ((_let_8 (tptp.fn_phosphodiester_bond_14 _let_1))) (let ((_let_9 (tptp.fn_mitochondrial_dna_8 X))) (let ((_let_10 (tptp.fn_covalent_bond_14 _let_9))) (let ((_let_11 (tptp.fn_ester_linkage_19 _let_6))) (let ((_let_12 (tptp.fn_mitochondrial_dna_11 X))) (let ((_let_13 (tptp.fn_carbonyl_group_10 _let_12))) (let ((_let_14 (tptp.fn_mitochondrial_dna_23 X))) (let ((_let_15 (tptp.fn_carbon_skeleton_1 _let_14))) (let ((_let_16 (tptp.fn_dna_15 X))) (let ((_let_17 (tptp.fn_nucleic_acid_19 X))) (let ((_let_18 (tptp.fn_phosphodiester_bond_20 _let_1))) (let ((_let_19 (tptp.fn_phosphodiester_bond_33 _let_1))) (let ((_let_20 (tptp.fn_phosphodiester_bond_16 _let_1))) (let ((_let_21 (tptp.fn_mitochondrial_dna_20 X))) (let ((_let_22 (tptp.fn_share_3 _let_21))) (let ((_let_23 (tptp.fn_ester_linkage_28 _let_6))) (let ((_let_24 (tptp.fn_carbonyl_group_7 _let_12))) (let ((_let_25 (tptp.fn_carbon_skeleton_4 _let_14))) (let ((_let_26 (tptp.fn_organic_molecule_1 X))) (let ((_let_27 (tptp.fn_covalent_bond_19 _let_6))) (let ((_let_28 (tptp.fn_phosphodiester_bond_15 _let_1))) (let ((_let_29 (tptp.fn_dna_9 X))) (let ((_let_30 (tptp.fn_phosphodiester_bond_29 _let_1))) (let ((_let_31 (tptp.fn_phosphodiester_bond_30 _let_1))) (let ((_let_32 (tptp.fn_phosphodiester_bond_27 _let_1))) (let ((_let_33 (tptp.fn_phosphodiester_bond_4 _let_1))) (let ((_let_34 (tptp.fn_mitochondrial_dna_66 X))) (let ((_let_35 (tptp.fn_share_1 _let_34))) (let ((_let_36 (tptp.fn_share_3 _let_34))) (let ((_let_37 (tptp.fn_ester_linkage_27 _let_6))) (let ((_let_38 (tptp.fn_mitochondrial_dna_10 X))) (let ((_let_39 (tptp.fn_hydroxyl_group_4 _let_38))) (let ((_let_40 (tptp.fn_carbonyl_group_9 _let_12))) (let ((_let_41 (tptp.fn_covalent_bond_20 _let_9))) (let ((_let_42 (tptp.fn_phosphodiester_bond_18 _let_1))) (let ((_let_43 (tptp.fn_mitochondrial_dna_68 X))) (let ((_let_44 (tptp.fn_share_3 _let_43))) (let ((_let_45 (tptp.fn_covalent_bond_19 _let_9))) (let ((_let_46 (tptp.fn_mitochondrial_dna_67 X))) (let ((_let_47 (tptp.fn_share_1 _let_46))) (let ((_let_48 (tptp.fn_phosphodiester_bond_39 _let_1))) (let ((_let_49 (tptp.fn_covalent_bond_23 _let_6))) (let ((_let_50 (tptp.fn_covalent_bond_23 _let_9))) (let ((_let_51 (tptp.fn_phosphodiester_bond_40 _let_1))) (let ((_let_52 (tptp.fn_phosphodiester_bond_7 _let_1))) (let ((_let_53 (tptp.fn_ester_linkage_45 _let_6))) (let ((_let_54 (tptp.fn_hydroxyl_group_9 _let_38))) (let ((_let_55 (tptp.fn_phosphodiester_bond_38 _let_1))) (let ((_let_56 (tptp.fn_covalent_bond_15 _let_9))) (let ((_let_57 (tptp.fn_ester_linkage_29 _let_6))) (let ((_let_58 (tptp.fn_mitochondrial_dna_24 X))) (let ((_let_59 (tptp.fn_atom_14 _let_58))) (let ((_let_60 (tptp.fn_covalent_bond_18 _let_6))) (let ((_let_61 (tptp.fn_carbon_10 _let_58))) (let ((_let_62 (tptp.fn_covalent_bond_22 _let_9))) (let ((_let_63 (tptp.fn_ester_linkage_42 _let_6))) (let ((_let_64 (tptp.fn_covalent_bond_24 _let_9))) (let ((_let_65 (tptp.fn_polar_covalent_bond_13 _let_6))) (let ((_let_66 (tptp.fn_phosphodiester_bond_23 _let_1))) (let ((_let_67 (tptp.fn_polar_covalent_bond_12 _let_6))) (let ((_let_68 (tptp.fn_share_2 _let_21))) (let ((_let_69 (tptp.fn_phosphodiester_bond_6 _let_1))) (let ((_let_70 (tptp.fn_covalent_bond_17 _let_9))) (let ((_let_71 (tptp.fn_carbonyl_group_5 _let_12))) (let ((_let_72 (tptp.fn_share_2 _let_43))) (let ((_let_73 (tptp.fn_ester_linkage_26 _let_6))) (let ((_let_74 (tptp.fn_covalent_bond_18 _let_9))) (let ((_let_75 (tptp.fn_share_1 _let_43))) (let ((_let_76 (tptp.fn_hydroxyl_group_6 _let_38))) (let ((_let_77 (tptp.fn_carbon_skeleton_2 _let_14))) (let ((_let_78 (tptp.fn_organic_molecule_2 X))) (let ((_let_79 (tptp.fn_covalent_bond_20 _let_6))) (let ((_let_80 (tptp.fn_polar_covalent_bond_18 _let_6))) (let ((_let_81 (tptp.fn_share_3 _let_46))) (let ((_let_82 (tptp.fn_hydrogen_14 _let_3))) (let ((_let_83 (tptp.fn_ester_linkage_44 _let_6))) (let ((_let_84 (tptp.fn_covalent_bond_21 _let_9))) (let ((_let_85 (tptp.fn_ester_linkage_32 _let_6))) (let ((_let_86 (tptp.fn_hydroxyl_group_5 _let_38))) (let ((_let_87 (tptp.fn_share_1 _let_21))) (let ((_let_88 (tptp.fn_mitochondrial_dna_19 X))) (let ((_let_89 (tptp.fn_hold_2 _let_88))) (let ((_let_90 (tptp.fn_polar_covalent_bond_16 _let_6))) (let ((_let_91 (tptp.fn_carbon_17 _let_58))) (let ((_let_92 (tptp.fn_covalent_bond_4 _let_6))) (let ((_let_93 (tptp.fn_atom_8 _let_58))) (let ((_let_94 (tptp.fn_carbon_18 _let_58))) (let ((_let_95 (tptp.fn_atom_18 _let_58))) (let ((_let_96 (tptp.fn_covalent_bond_22 _let_6))) (let ((_let_97 (tptp.fn_carbon_16 _let_58))) (let ((_let_98 (tptp.fn_atom_17 _let_58))) (let ((_let_99 (tptp.fn_carbonyl_group_8 _let_12))) (let ((_let_100 (tptp.fn_hold_1 _let_88))) (let ((_let_101 (tptp.fn_hydroxyl_group_8 _let_38))) (let ((_let_102 (tptp.fn_polar_covalent_bond_11 _let_6))) (let ((_let_103 (tptp.fn_share_2 _let_34))) (let ((_let_104 (tptp.fn_ester_linkage_43 _let_6))) (let ((_let_105 (tptp.fn_covalent_bond_21 _let_6))) (let ((_let_106 (tptp.fn_hydroxyl_group_10 _let_38))) (let ((_let_107 (tptp.fn_polar_covalent_bond_21 _let_6))) (let ((_let_108 (tptp.fn_carbon_skeleton_3 _let_14))) (let ((_let_109 (tptp.fn_functional_group_1 _let_38))) (let ((_let_110 (tptp.fn_functional_group_1 _let_12))) (let ((_let_111 (tptp.fn_mitochondrial_dna_26 X))) (let ((_let_112 (tptp.fn_semiautonomous_organelle_2 _let_111))) (let ((_let_113 (tptp.fn_phosphodiester_bond_26 _let_1))) (let ((_let_114 (tptp.fn_mitochondrial_dna_32 X))) (let ((_let_115 (tptp.fn_mitochondrial_dna_37 X))) (let ((_let_116 (tptp.fn_phosphodiester_bond_11 _let_1))) (let ((_let_117 (tptp.fn_phosphodiester_bond_31 _let_1))) (let ((_let_118 (tptp.fn_phosphodiester_bond_44 _let_1))) (let ((_let_119 (tptp.fn_mitochondrial_dna_64 X))) (let ((_let_120 (tptp.fn_phosphodiester_bond_12 _let_1))) (let ((_let_121 (tptp.fn_mitochondrial_dna_34 X))) (let ((_let_122 (tptp.fn_phosphodiester_bond_1 _let_1))) (let ((_let_123 (tptp.fn_mitochondrial_dna_31 X))) (let ((_let_124 (tptp.fn_mitochondrial_dna_12 X))) (let ((_let_125 (tptp.fn_mitochondrial_dna_22 X))) (let ((_let_126 (tptp.fn_mitochondrial_dna_42 X))) (let ((_let_127 (tptp.fn_mitochondrial_dna_7 X))) (let ((_let_128 (tptp.fn_mitochondrial_dna_41 X))) (let ((_let_129 (tptp.fn_phosphodiester_bond_37 _let_1))) (let ((_let_130 (tptp.fn_mitochondrial_dna_35 X))) (let ((_let_131 (tptp.fn_mitochondrial_dna_45 X))) (let ((_let_132 (tptp.fn_mitochondrial_dna_48 X))) (let ((_let_133 (tptp.fn_mitochondrial_dna_39 X))) (let ((_let_134 (tptp.fn_mitochondrial_dna_5 X))) (let ((_let_135 (tptp.fn_mitochondrial_dna_69 X))) (let ((_let_136 (tptp.fn_mitochondrial_dna_38 X))) (let ((_let_137 (tptp.fn_mitochondrial_dna_65 X))) (let ((_let_138 (tptp.fn_mitochondrial_dna_43 X))) (let ((_let_139 (tptp.fn_mitochondrial_dna_21 X))) (let ((_let_140 (tptp.fn_mitochondrial_dna_49 X))) (let ((_let_141 (tptp.fn_mitochondrial_dna_46 X))) (let ((_let_142 (tptp.fn_mitochondrial_dna_51 X))) (let ((_let_143 (tptp.fn_carbon_11 _let_58))) (let ((_let_144 (tptp.fn_mitochondrial_dna_50 X))) (let ((_let_145 (tptp.fn_carbon_7 _let_58))) (let ((_let_146 (tptp.fn_carbon_20 _let_58))) (let ((_let_147 (tptp.fn_carbon_13 _let_58))) (let ((_let_148 (tptp.fn_mitochondrial_dna_40 X))) (let ((_let_149 (tptp.fn_mitochondrial_dna_44 X))) (let ((_let_150 (tptp.fn_mitochondrial_dna_47 X))) (let ((_let_151 (tptp.fn_ester_linkage_16 _let_6))) (let ((_let_152 (tptp.fn_ester_linkage_11 _let_6))) (let ((_let_153 (tptp.fn_mitochondrial_dna_36 X))) (let ((_let_154 (tptp.fn_mitochondrial_dna_53 X))) (let ((_let_155 (tptp.fn_mitochondrial_dna_52 X))) (let ((_let_156 (tptp.fn_mitochondrial_dna_33 X))) (let ((_let_157 (tptp.fn_mitochondrial_dna_13 X))) (let ((_let_158 (tptp.fn_mitochondrial_dna_18 X))) (let ((_let_159 (tptp.fn_mitochondrial_dna_17 X))) (let ((_let_160 (tptp.fn_mitochondrial_dna_14 X))) (let ((_let_161 (tptp.fn_mitochondrial_dna_15 X))) (let ((_let_162 (tptp.fn_mitochondrial_dna_16 X))) (let ((_let_163 (tptp.fn_mitochondrial_dna_25 X))) (let ((_let_164 (tptp.fn_mitochondrial_dna_28 X))) (let ((_let_165 (tptp.fn_mitochondrial_dna_4 X))) (let ((_let_166 (tptp.fn_mitochondrial_dna_1 X))) (let ((_let_167 (tptp.fn_mitochondrial_dna_2 X))) (let ((_let_168 (tptp.fn_mitochondrial_dna_3 X))) (=> (tptp.mitochondrial_dna_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-DNA'|) (tptp.user_description_2 X |tptp.'DNA in the mitochondrial of eukaryotic cells. 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_let_43) (tptp.share_1 _let_135) (tptp.second_electron_shell_1 _let_152) (tptp.property_node_1 _let_151) (tptp.property_node_1 _let_147) (tptp.equation_set_1 _let_146) (tptp.equation_big_node_1 _let_145) (tptp.system_1 _let_143) (tptp.proton_1 _let_129) (tptp.equation_big_node_1 _let_122) (tptp.property_node_1 _let_120) (tptp.property_node_1 _let_118) (tptp.equation_set_1 _let_117) (tptp.property_node_1 _let_116) (tptp.atomic_number_value_1 _let_113) (tptp.dna_1 _let_112) (tptp.chemical_entity_1 _let_110) (tptp.chemical_entity_1 _let_109) (tptp.organic_molecule_1 _let_108) (tptp.center_1 _let_107) (tptp.center_1 _let_106) (tptp.center_1 _let_105) (tptp.center_1 _let_104) (tptp.entity_1 _let_103) (tptp.electron_1 _let_102) (tptp.valence_electron_1 _let_102) (tptp.electron_1 _let_101) (tptp.valence_electron_1 _let_101) (tptp.tangible_entity_1 _let_100) (tptp.double_bond_1 _let_99) (tptp.atomic_number_value_1 _let_98) (tptp.atomic_number_value_1 _let_97) (tptp.atomic_nucleus_1 _let_96) (tptp.atomic_nucleus_1 _let_95) (tptp.atomic_nucleus_1 _let_94) (tptp.proton_1 _let_93) (tptp.proton_1 _let_92) (tptp.proton_1 _let_91) (tptp.unequal_sharing_1 _let_90) (tptp.tangible_entity_1 _let_89) (tptp.entity_1 _let_87) (tptp.unequal_sharing_1 _let_86) (tptp.unequal_sharing_1 _let_85) (tptp.center_1 _let_84) (tptp.center_1 _let_83) (tptp.center_1 _let_82) (tptp.entity_1 _let_81) (tptp.entity_1 _let_80) (tptp.chemical_entity_1 _let_80) (tptp.atom_1 _let_80) (tptp.entity_1 _let_79) (tptp.chemical_entity_1 _let_79) (tptp.atom_1 _let_79) (tptp.atom_1 _let_77) (tptp.chemical_entity_1 _let_77) (tptp.hydrogen_1 _let_76) (tptp.entity_1 _let_75) (tptp.valence_electron_1 _let_74) (tptp.entity_1 _let_73) (tptp.tangible_entity_1 _let_73) (tptp.electron_1 _let_73) (tptp.valence_electron_1 _let_73) (tptp.entity_1 _let_72) (tptp.share_1 _let_71) (tptp.share_1 _let_70) (tptp.share_1 _let_69) (tptp.entity_1 _let_68) (tptp.valence_electron_1 _let_67) (tptp.electron_1 _let_66) 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_let_36) (tptp.entity_1 _let_35) (tptp.oxygen_1 _let_33) (tptp.atom_1 _let_32) (tptp.oxygen_1 _let_32) (tptp.ester_linkage_1 _let_31) (tptp.ester_linkage_1 _let_30) (tptp.entity_1 _let_28) (tptp.chemical_entity_1 _let_28) (tptp.atom_1 _let_28) (tptp.carbon_1 _let_28) (tptp.entity_1 _let_27) (tptp.chemical_entity_1 _let_27) (tptp.atom_1 _let_27) (tptp.carbon_1 _let_25) (tptp.entity_1 _let_24) (tptp.chemical_entity_1 _let_24) (tptp.atom_1 _let_24) (tptp.carbon_1 _let_24) (tptp.entity_1 _let_23) (tptp.chemical_entity_1 _let_23) (tptp.atom_1 _let_23) (tptp.carbon_1 _let_23) (tptp.entity_1 _let_22) (tptp.entity_1 _let_20) (tptp.chemical_entity_1 _let_20) (tptp.atom_1 _let_20) (tptp.carbon_1 _let_20) (tptp.system_1 _let_19) (tptp.system_1 _let_18) (tptp.hold_together_1 _let_15) (tptp.hold_together_1 _let_13) (tptp.hold_together_1 _let_11) (tptp.hold_together_1 _let_10) (tptp.hold_together_1 _let_8) (tptp.electronegativity_value_1 _let_7) (tptp.electronegativity_value_1 _let_5) 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(tptp.has_region_2 X _let_38) (tptp.has_region_2 _let_125 _let_138) (tptp.object_2 _let_21 _let_132) (tptp.object_2 _let_21 _let_136) (tptp.agent_2 _let_21 _let_127) (tptp.agent_2 _let_34 _let_3) (tptp.object_2 _let_34 _let_148) (tptp.result_2 _let_43 _let_6) (tptp.object_2 _let_43 _let_133) (not (= _let_148 _let_133)) (not (= _let_133 _let_148)) (tptp.has_region_2 _let_125 _let_126) (not (= _let_138 _let_126)) (not (= _let_126 _let_138)) (tptp.is_between_2 _let_9 _let_127) (tptp.has_region_2 _let_3 _let_126) (not (= _let_149 _let_126)) (not (= _let_126 _let_149)) (tptp.is_between_2 _let_6 _let_3) (tptp.has_part_2 X _let_3) (tptp.object_2 _let_88 _let_3) (tptp.has_region_2 X _let_14) (tptp.has_part_2 X _let_58) (tptp.is_inside_2 _let_58 _let_14) (not (= _let_3 _let_58)) (not (= _let_58 _let_3)) (tptp.size_2 X _let_161) (tptp.greater_than_2 _let_161 _let_162) (tptp.size_2 _let_163 _let_162) (tptp.has_part_2 X _let_163) (tptp.possesses_2 X _let_157) (tptp.quantity_2 _let_157 _let_158) (tptp.directly_proportional_2 _let_159 _let_158) (tptp.speed_2 _let_160 _let_159) (tptp.object_2 _let_160 X) (tptp.is_inside_2 _let_58 _let_12) (tptp.is_between_2 _let_9 _let_58) (tptp.is_inside_2 _let_127 _let_12) (tptp.object_2 _let_88 _let_127) (tptp.agent_2 _let_88 _let_9) (tptp.is_between_2 _let_9 _let_125) (tptp.agent_2 _let_135 _let_125) (tptp.has_part_2 X _let_155) (tptp.possesses_2 X _let_1) (tptp.possesses_2 _let_156 _let_1) (tptp.has_part_2 _let_156 _let_124) (tptp.has_part_2 X _let_154) (not (= _let_155 _let_154)) (not (= _let_154 _let_155)) (tptp.complement_2 _let_155 _let_154) (tptp.complement_2 _let_154 _let_155) (tptp.has_region_2 _let_3 _let_149) (tptp.is_inside_2 _let_3 _let_38) (tptp.agent_2 _let_21 _let_3) (tptp.agent_2 _let_21 _let_125) (tptp.has_region_2 _let_125 _let_128) (tptp.is_inside_2 _let_127 _let_38) (not (= _let_127 _let_3)) (not (= _let_3 _let_125)) (tptp.has_part_2 _let_125 _let_148) (tptp.object_2 _let_21 _let_148) (not (= _let_3 _let_127)) (not (= _let_125 _let_3)) (tptp.has_part_2 _let_58 _let_132) (tptp.agent_2 _let_21 _let_58) (tptp.has_region_2 _let_58 _let_150) (not (= _let_128 _let_131)) (not (= _let_131 _let_128)) (tptp.has_part_2 _let_127 _let_136) (tptp.electronegativity_2 _let_127 _let_121) (tptp.object_2 _let_43 _let_148) (tptp.agent_2 _let_43 _let_125) (tptp.has_region_2 _let_125 _let_149) (not (= _let_138 _let_149)) (not (= _let_149 _let_138)) (tptp.agent_2 _let_88 _let_6) (tptp.result_2 _let_46 _let_6) (tptp.object_2 _let_46 _let_136) (not (= _let_148 _let_136)) (not (= _let_136 _let_148)) (tptp.has_function_2 _let_6 _let_88) (tptp.object_2 _let_88 _let_125) (tptp.has_region_2 _let_125 _let_131) (not (= _let_58 _let_125)) (not (= _let_125 _let_58)) (tptp.has_function_2 _let_9 _let_88) (tptp.is_at_2 _let_141 _let_150) (tptp.is_at_2 _let_131 _let_149) (tptp.is_near_2 _let_131 _let_148) (tptp.is_near_2 _let_148 _let_131) (not (= _let_150 _let_149)) (not (= _let_149 _let_150)) (tptp.result_2 _let_135 _let_9) (tptp.object_2 _let_135 _let_132) (tptp.is_near_2 _let_132 _let_141) (tptp.is_near_2 _let_141 _let_132) (not (= _let_131 _let_141)) (not (= _let_141 _let_131)) (tptp.has_part_2 _let_58 _let_140) (tptp.is_inside_2 _let_140 _let_141) (tptp.has_region_2 _let_58 _let_141) (tptp.atomic_number_2 _let_58 _let_142) (tptp.called_2 _let_142 |tptp.'Atomic_Number'|) (tptp.electronegativity_2 _let_3 _let_115) (tptp.the_cardinal_value_2 _let_115 |"2.1"|) (tptp.cardinal_unit_class_2 _let_115 tptp.unity_0) (not (= _let_125 _let_127)) (not (= _let_127 _let_58)) (not (= _let_58 _let_127)) (not (= _let_127 _let_125)) (tptp.is_between_2 _let_6 _let_127) (tptp.element_2 _let_1 _let_6) (tptp.is_near_2 _let_128 _let_136) (not (= _let_136 _let_132)) (not (= _let_132 _let_133)) (tptp.is_near_2 _let_136 _let_128) (not (= _let_132 _let_136)) (not (= _let_133 _let_132)) (tptp.object_2 _let_135 _let_133) (tptp.agent_2 _let_135 _let_58) (not (= _let_124 _let_127)) (not (= _let_127 _let_124)) (tptp.atomic_number_2 _let_124 _let_114) (tptp.agent_2 _let_134 _let_124) (tptp.result_2 _let_134 _let_1) (not (= _let_115 _let_119)) (tptp.is_near_2 _let_133 _let_131) (tptp.is_near_2 _let_131 _let_132) (not (= _let_119 _let_115)) (tptp.electronegativity_2 _let_125 _let_119) (tptp.has_part_2 _let_125 _let_133) (tptp.is_near_2 _let_131 _let_133) (tptp.is_near_2 _let_132 _let_131) (tptp.is_inside_2 _let_130 _let_128) (tptp.has_part_2 _let_127 _let_130) (tptp.has_region_2 _let_127 _let_128) (tptp.is_at_2 _let_128 _let_126) (tptp.has_region_2 _let_127 _let_126) (tptp.is_between_2 _let_6 _let_125) (tptp.is_between_2 _let_6 _let_124) (tptp.is_between_2 _let_6 _let_58) (tptp.is_between_2 _let_1 _let_58) (tptp.is_between_2 _let_1 _let_124) (tptp.object_2 _let_88 _let_124) (tptp.object_2 _let_88 _let_58) (tptp.has_function_2 _let_1 _let_88) (tptp.agent_2 _let_88 _let_1) (not (= _let_121 _let_115)) (tptp.the_cardinal_value_2 _let_121 |"3.44"|) (tptp.cardinal_unit_class_2 _let_121 tptp.unity_0) (not (= _let_115 _let_121)) (tptp.called_2 _let_114 |tptp.'Atomic_Number'|) (tptp.called_2 _let_6 |"2"|) (tptp.agent_2 _let_137 _let_124) (tptp.result_2 _let_137 _let_1) (tptp.has_region_2 _let_3 _let_138) (not (= _let_139 _let_58)) (not (= _let_58 _let_139)) (tptp.agent_2 _let_21 _let_139) (tptp.object_2 _let_88 _let_139) (tptp.agent_2 _let_43 _let_3) (tptp.agent_2 _let_21 _let_124) (tptp.agent_2 _let_43 _let_127) (tptp.agent_2 _let_34 _let_125) (tptp.object_2 _let_43 _let_136) (= _let_133 _let_68) (= _let_3 _let_81) (= _let_127 _let_47) (= _let_164 (tptp.fn_polymer_4 X)) (= X _let_112) (= X _let_110) (= X _let_109) (= _let_138 _let_50) (= _let_21 _let_70) (= _let_148 _let_103) (= _let_34 _let_90) (= _let_133 _let_67) (= _let_43 _let_90) (= _let_138 _let_84) (= _let_126 _let_50) (= _let_149 _let_105) (= _let_126 _let_49) (= _let_88 _let_15) (= _let_3 _let_79) (= _let_3 _let_78) (= _let_3 _let_77) (= _let_58 _let_26) (= _let_58 _let_25) (= _let_14 (tptp.fn_organic_molecule_3 X)) (= X _let_108) (= (tptp.fn_mitochondrial_dna_57 X) (tptp.fn_nucleic_acid_33 X)) (= (tptp.fn_mitochondrial_dna_56 X) (tptp.fn_nucleic_acid_34 X)) (= _let_163 (tptp.fn_nucleic_acid_20 X)) (= _let_162 (tptp.fn_nucleic_acid_28 X)) (= _let_161 (tptp.fn_nucleic_acid_29 X)) (= (tptp.fn_mitochondrial_dna_54 X) (tptp.fn_molecule_2 X)) (= (tptp.fn_mitochondrial_dna_55 X) (tptp.fn_molecule_1 X)) (= _let_160 (tptp.fn_molecule_8 X)) (= _let_159 (tptp.fn_molecule_3 X)) (= _let_158 (tptp.fn_molecule_4 X)) (= _let_157 (tptp.fn_molecule_12 X)) (= _let_58 _let_24) (= _let_135 _let_71) (= _let_125 _let_40) (= _let_9 _let_100) (= _let_9 _let_99) (= _let_88 _let_13) (= _let_127 _let_40) (= _let_124 _let_29) (= _let_156 (tptp.fn_dna_14 X)) (= _let_1 _let_17) (= _let_1 _let_16) (= _let_155 (tptp.fn_dna_11 X)) (= _let_154 (tptp.fn_dna_2 X)) (= _let_3 _let_80) (= _let_149 _let_106) (= _let_128 _let_54) (= _let_21 _let_86) (= _let_148 _let_101) (= _let_125 _let_39) (= _let_127 _let_41) (= _let_3 _let_45) (= _let_3 _let_76) (= _let_127 _let_39) (= _let_132 _let_57) (= _let_21 _let_85) (= _let_150 _let_83) (= _let_153 _let_152) (= _let_128 _let_53) (= (tptp.fn_mitochondrial_dna_60 X) _let_151) (= _let_121 _let_7) (= _let_127 _let_45) (= _let_136 _let_74) (= _let_127 _let_37) (= _let_138 _let_83) (= _let_149 _let_104) (= _let_43 _let_85) (= _let_148 _let_57) (= _let_136 _let_73) (= _let_46 _let_85) (= _let_131 _let_63) (= _let_58 _let_23) (= _let_125 _let_41) (= _let_125 _let_37) (= _let_88 _let_11) (= _let_88 _let_10) (= _let_150 _let_50) (= _let_149 _let_107) (= _let_149 _let_84) (= _let_131 _let_64) (= _let_148 _let_56) (= _let_148 _let_102) (= _let_131 _let_65) (= _let_148 _let_74) (= _let_131 _let_62) (= _let_132 _let_61) (= _let_132 _let_60) (= _let_132 _let_59) (= _let_141 _let_64) (= _let_132 _let_56) (= _let_135 _let_70) (= (tptp.fn_mitochondrial_dna_58 X) _let_147) (= (tptp.fn_mitochondrial_dna_29 X) _let_146) (= (tptp.fn_mitochondrial_dna_63 X) _let_145) (= _let_144 _let_143) (= _let_142 _let_98) (= _let_142 _let_97) (= _let_141 _let_95) (= _let_141 _let_96) (= _let_141 _let_94) (= _let_140 _let_93) (= _let_58 _let_27) (= _let_140 _let_92) (= _let_140 _let_91) (= _let_115 _let_4) (= _let_136 _let_72) (= _let_125 _let_36) (= _let_125 _let_35) (= _let_127 _let_44) (= _let_124 _let_22) (= _let_3 _let_75) (= _let_139 _let_89) (= _let_58 _let_22) (= _let_139 _let_87) (= _let_138 _let_82) (= _let_124 _let_20) (= _let_137 _let_69) (= _let_125 _let_33) (= _let_127 _let_42) (= _let_128 _let_52) (= _let_136 _let_66) (= _let_133 _let_66) (= _let_135 _let_69) (= _let_134 _let_69) (= _let_133 _let_55) (= _let_132 _let_55) (= _let_131 _let_51) (= _let_130 _let_129) (= _let_128 _let_51) (= _let_127 _let_32) (= _let_126 _let_48) (= _let_125 _let_32) (= _let_6 _let_31) (= _let_123 _let_19) (= _let_6 _let_30) (= _let_124 _let_28) (= _let_58 _let_20) (= _let_123 _let_18) (= (tptp.fn_mitochondrial_dna_62 X) _let_122) (= _let_88 _let_8) (= _let_121 _let_5) (= (tptp.fn_mitochondrial_dna_70 X) _let_120) (= _let_119 _let_5) (= (tptp.fn_mitochondrial_dna_61 X) _let_118) (= (tptp.fn_mitochondrial_dna_30 X) _let_117) (= (tptp.fn_mitochondrial_dna_59 X) _let_116) (= _let_115 _let_2) (= _let_114 _let_113) (= _let_112 _let_110) (= _let_109 _let_110) (= _let_110 _let_109) (= _let_109 _let_108) (= _let_108 _let_108) (= _let_108 _let_83) (= _let_83 _let_50) (= _let_50 _let_107) (= _let_106 _let_107) (= _let_107 _let_106) (= _let_106 _let_104) (= _let_104 _let_105) (= _let_105 _let_105) (= _let_105 _let_104) (= _let_104 _let_104) (= _let_104 _let_84) (= _let_84 _let_103) (= _let_103 _let_102) (= _let_102 _let_102) (= _let_102 _let_56) (= _let_56 _let_102) (= _let_102 _let_101) (= _let_101 _let_56) (= _let_56 _let_101) (= _let_101 _let_101) (= _let_101 _let_57) (= _let_57 _let_57) (= _let_57 _let_74) (= _let_74 _let_99) (= _let_99 _let_99) (= _let_99 _let_100) (= _let_100 _let_99) (= _let_99 _let_97) (= _let_97 _let_97) (= _let_97 _let_98) (= _let_98 _let_97) (= _let_97 _let_96) (= _let_96 _let_95) (= _let_95 _let_95) (= _let_95 _let_96) (= _let_96 _let_64) (= _let_64 _let_95) (= _let_95 _let_64) (= _let_64 _let_64) (= _let_94 _let_64) (= _let_64 _let_94) (= _let_94 _let_94) (= _let_94 _let_92) (= _let_92 _let_93) (= _let_93 _let_92) (= _let_92 _let_92) (= _let_91 _let_92) (= _let_92 _let_91) (= _let_91 _let_90) (= _let_90 _let_90) (= _let_90 _let_85) (= _let_85 _let_85) (= _let_85 _let_89) (= _let_89 _let_87) (= _let_87 _let_87) (= _let_87 _let_70) (= _let_70 _let_86) (= _let_86 _let_86) (= _let_86 _let_85) (= _let_85 _let_50) (= _let_50 _let_84) (= _let_84 _let_84) (= _let_84 _let_83) (= _let_83 _let_83) (= _let_83 _let_82) (= _let_82 _let_81) (= _let_81 _let_80) (= _let_80 _let_80) (= _let_80 _let_45) (= _let_79 _let_45) (= _let_45 _let_79) (= _let_79 _let_79) (= _let_78 _let_79) (= _let_79 _let_78) (= _let_78 _let_78) (= _let_77 _let_78) (= _let_78 _let_77) (= _let_77 _let_77) (= _let_77 _let_76) (= _let_76 _let_76) (= _let_76 _let_75) (= _let_75 _let_74) (= _let_74 _let_74) (= _let_74 _let_73) (= _let_73 _let_73) (= _let_73 _let_72) (= _let_72 _let_72) (= _let_72 _let_66) (= _let_66 _let_71) (= _let_71 _let_70) (= _let_70 _let_70) (= _let_70 _let_69) (= _let_69 _let_69) (= _let_69 _let_68) (= _let_68 _let_67) (= _let_67 _let_67) (= _let_67 _let_66) (= _let_66 _let_66) (= _let_66 _let_55) (= _let_55 _let_64) (= _let_65 _let_65) (= _let_65 _let_64) (= _let_64 _let_65) (= _let_65 _let_63) (= _let_63 _let_64) (= _let_64 _let_63) (= _let_63 _let_63) (= _let_63 _let_62) (= _let_62 _let_62) (= _let_62 _let_51) (= _let_51 _let_61) (= _let_61 _let_61) (= _let_61 _let_60) (= _let_59 _let_60) (= _let_60 _let_59) (= _let_59 _let_59) (= _let_59 _let_57) (= _let_57 _let_59) (= _let_59 _let_56) (= _let_56 _let_57) (= _let_57 _let_56) (= _let_56 _let_56) (= _let_56 _let_55) (= _let_55 _let_55) (= _let_55 _let_54) (= _let_54 _let_53) (= _let_53 _let_53) (= _let_53 _let_52) (= _let_52 _let_52) (= _let_52 _let_51) (= _let_51 _let_51) (= _let_51 _let_50) (= _let_50 _let_50) (= _let_50 _let_49) (= _let_49 _let_49) (= _let_49 _let_48) (= _let_48 _let_48) (= _let_48 _let_47) (= _let_47 _let_45) (= _let_45 _let_45) (= _let_41 _let_45) (= _let_45 _let_41) (= _let_37 _let_44) (= _let_44 _let_44) (= _let_44 _let_42) (= _let_42 _let_42) (= _let_42 _let_32) (= _let_32 _let_41) (= _let_40 _let_41) (= _let_41 _let_41) (= _let_41 _let_40) (= _let_40 _let_40) (= _let_40 _let_39) (= _let_39 _let_39) (= _let_39 _let_37) (= _let_37 _let_37) (= _let_37 _let_36) (= _let_36 _let_36) (= _let_36 _let_35) (= _let_35 _let_35) (= _let_35 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_32 _let_32) (= _let_32 _let_31) (= _let_30 _let_31) (= _let_31 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_22) (= _let_20 _let_28) (= _let_28 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_26 _let_27) (= _let_27 _let_26) (= _let_25 _let_26) (= _let_26 _let_25) (= _let_25 _let_25) (= _let_25 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_22) (= _let_22 _let_22) (= _let_22 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_17) (= _let_17 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_11) (= _let_10 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_10) (= _let_10 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_7) (= _let_7 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_2) (= _let_2 _let_2)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_electron_transport_chain_5 X))) (let ((_let_2 (tptp.fn_mitochondrial_electron_transport_chain_13 X))) (let ((_let_3 (tptp.fn_cytochrome_c_2 _let_2))) (let ((_let_4 (tptp.fn_mitochondrial_electron_transport_chain_6 X))) (let ((_let_5 (tptp.fn_barrier_1 _let_4))) (let ((_let_6 (tptp.fn_mitochondrial_electron_transport_chain_7 X))) (let ((_let_7 (tptp.fn_biomembrane_32 _let_6))) (let ((_let_8 (tptp.fn_mitochondrial_electron_transport_chain_16 X))) (let ((_let_9 (tptp.fn_biomembrane_31 _let_6))) (let ((_let_10 (tptp.fn_mitochondrial_electron_transport_chain_15 X))) (let ((_let_11 (tptp.fn_biomembrane_18 _let_6))) (let ((_let_12 (tptp.fn_mitochondrial_electron_transport_chain_12 X))) (let ((_let_13 (tptp.fn_biomembrane_19 _let_6))) (let ((_let_14 (tptp.fn_biomembrane_39 _let_6))) (let ((_let_15 (tptp.fn_electron_transport_chain_3 X))) (let ((_let_16 (tptp.fn_mitochondrial_electron_transport_chain_5 X))) (let ((_let_17 (tptp.fn_mitochondrial_electron_transport_chain_8 X))) (let ((_let_18 (tptp.fn_mitochondrial_electron_transport_chain_9 X))) (let ((_let_19 (tptp.fn_mitochondrial_electron_transport_chain_10 X))) (let ((_let_20 (tptp.fn_mitochondrial_matrix_4 _let_19))) (let ((_let_21 (tptp.fn_mitochondrial_electron_transport_chain_11 X))) (let ((_let_22 (tptp.fn_mitochondrial_electron_transport_chain_18 X))) (let ((_let_23 (tptp.fn_mitochondrial_membrane_37 _let_22))) (let ((_let_24 (tptp.fn_mitochondrial_electron_transport_chain_19 X))) (let ((_let_25 (tptp.fn_biomembrane_49 _let_6))) (let ((_let_26 (tptp.fn_mitochondrial_electron_transport_chain_3 X))) (let ((_let_27 (tptp.fn_mitochondrial_electron_transport_chain_2 X))) (let ((_let_28 (tptp.fn_mitochondrial_electron_transport_chain_1 X))) (let ((_let_29 (tptp.fn_mitochondrial_electron_transport_chain_4 X))) (=> (tptp.mitochondrial_electron_transport_chain_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-Electron-Transport-Chain'|) (tptp.user_description_2 X |tptp.'A sequence of electron carrier molecules (membrane proteins) that shuttle electrons during the redox reactions that release energy used to make ATP. The electron transport chain assembly is present in the inner membrane of mitochondria of eukaryotes.'|) (tptp.concept2words_2 X |tptp.'electron transport chain in mitochondria'|) (tptp.concept2words_2 X |tptp.'mitochondrial electron transport chain'|) (tptp.concept2words_2 X |tptp.'mitochondrial-electron-transport-chain'|) (tptp.electron_transport_chain_1 X) (not (tptp.prokaryotic_electron_transport_chain_1 X)) (tptp.cytosol_1 _let_28) (tptp.multiprotein_complex_iv_1 _let_27) (tptp.multiprotein_complex_iii_1 _let_26) (tptp.crista_1 _let_29) (tptp.multiprotein_complex_ii_1 _let_16) (tptp.container_1 _let_4) (tptp.inner_membrane_1 _let_6) (tptp.ubiquinone_1 _let_17) (tptp.multiprotein_complex_i_1 _let_18) (tptp.mitochondrial_matrix_1 _let_19) (tptp.mitochondrion_1 _let_21) (tptp.semiautonomous_organelle_1 _let_21) (tptp.fluidity_value_1 _let_12) (tptp.cytochrome_c_1 _let_2) (tptp.protein_1 _let_2) (tptp.quantity_value_1 _let_10) (tptp.saturated_fatty_acid_1 _let_8) (tptp.mitochondrial_membrane_1 _let_22) (tptp.entity_1 _let_24) (tptp.spatial_entity_1 _let_24) (tptp.inner_membrane_1 _let_24) (tptp.biomembrane_1 _let_24) (tptp.barrier_1 _let_25) (tptp.entity_1 _let_23) (tptp.spatial_entity_1 _let_23) (tptp.inner_membrane_1 _let_23) (tptp.biomembrane_1 _let_23) (tptp.mitochondrion_1 _let_20) (tptp.semiautonomous_organelle_1 _let_20) (tptp.property_node_1 _let_14) (tptp.property_node_1 _let_13) (tptp.fluidity_value_1 _let_11) (tptp.quantity_value_1 _let_9) (tptp.saturated_fatty_acid_1 _let_7) (tptp.tangible_entity_1 _let_5) (tptp.biomembrane_1 _let_3) (tptp.has_part_2 _let_6 _let_29) (tptp.has_part_2 _let_6 _let_18) (tptp.has_part_2 _let_6 _let_26) (tptp.has_part_2 _let_6 _let_27) (tptp.is_outside_2 _let_6 _let_19) (tptp.is_between_2 _let_17 _let_16) (tptp.is_between_2 _let_17 _let_26) (tptp.first_element_2 X _let_18) (tptp.element_2 X _let_18) (tptp.element_2 X _let_26) (tptp.element_2 X _let_27) (tptp.next_element_2 _let_26 _let_27) (tptp.next_element_2 _let_16 _let_26) (tptp.next_element_2 _let_18 _let_16) (tptp.is_inside_2 _let_19 _let_6) (tptp.is_along_2 _let_19 _let_29) (tptp.is_along_2 _let_29 _let_19) (tptp.is_inside_2 _let_21 _let_28) (tptp.is_between_2 _let_2 _let_27) (tptp.is_between_2 _let_2 _let_26) (tptp.has_part_2 _let_24 X) (tptp.plays_2 _let_6 _let_4) (tptp.has_part_2 _let_6 _let_2) (tptp.has_part_2 _let_22 _let_24) (tptp.has_region_2 _let_21 _let_19) (tptp.element_2 X _let_17) (not (= _let_18 _let_17)) (not (= _let_2 _let_18)) (not (= _let_18 _let_2)) (not (= _let_17 _let_18)) (tptp.element_2 X _let_16) (tptp.has_part_2 _let_6 _let_16) (tptp.has_part_2 _let_6 _let_17) (not (= _let_17 _let_2)) (tptp.element_2 X _let_2) (not (= _let_2 _let_17)) (tptp.fluidity_2 _let_6 _let_12) (tptp.has_part_2 _let_6 _let_8) (tptp.quantity_2 _let_8 _let_10) (tptp.directly_proportional_2 _let_10 _let_12) (= _let_4 _let_25) (= _let_6 _let_5) (= _let_6 _let_3) (= _let_24 _let_23) (= _let_21 _let_20) (= _let_18 _let_15) (= _let_2 (tptp.fn_electron_transport_chain_2 X)) (= _let_17 (tptp.fn_electron_transport_chain_4 X)) (= _let_6 _let_1) (= _let_16 _let_15) (= (tptp.fn_mitochondrial_electron_transport_chain_17 X) _let_14) (= (tptp.fn_mitochondrial_electron_transport_chain_14 X) _let_13) (= _let_12 _let_11) (= _let_10 _let_9) (= _let_8 _let_7) (= _let_5 _let_3) (= _let_3 _let_3) (= _let_3 _let_1) (= _let_1 _let_1))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mitochondrial_gene_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-Gene'|) (tptp.user_description_2 X |tptp.'A gene located in the chromosome of a mitochondrion.'|) (tptp.concept2words_2 X |tptp.'mitochondrial gene'|) (tptp.concept2words_2 X |tptp.'mitochondrial-gene'|) (tptp.extranuclear_gene_1 X) (not (tptp.chloroplast_gene_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mitochondrial_matrix_5 X))) (let ((_let_2 (tptp.fn_mitochondrial_dna_4 _let_1))) (let ((_let_3 (tptp.fn_mitochondrial_matrix_4 X))) (let ((_let_4 (tptp.fn_semiautonomous_organelle_4 _let_3))) (let ((_let_5 (tptp.fn_semiautonomous_organelle_5 _let_3))) (let ((_let_6 (tptp.fn_mitochondrial_matrix_6 X))) (let ((_let_7 (tptp.fn_semiautonomous_organelle_7 _let_3))) (let ((_let_8 (tptp.fn_mitochondrial_matrix_7 X))) (let ((_let_9 (tptp.fn_mitochondrial_dna_26 _let_1))) (let ((_let_10 (tptp.fn_semiautonomous_organelle_2 _let_3))) (let ((_let_11 (tptp.fn_mitochondrial_matrix_3 X))) (let ((_let_12 (tptp.fn_mitochondrial_matrix_2 X))) (=> (tptp.mitochondrial_matrix_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-Matrix'|) (tptp.user_description_2 X |tptp.'The mitochondrial matrix contains soluble enzymes that catalyze the oxidation of pyruvate and other small organic molecules. It also contains mitochondrial DNA and ribosomes'|) (tptp.concept2words_2 X |tptp.'mitochondrial matrix'|) (tptp.concept2words_2 X |tptp.'mitochondrial-matrix'|) (tptp.subcellular_region_1 X) (not (tptp.number_3_prime_end_1 X)) (not (tptp.number_5_prime_end_1 X)) (not (tptp.a_site_1 X)) (not (tptp.e_site_1 X)) (not (tptp.p_site_1 X)) (not (tptp.active_site_1 X)) (not (tptp.amino_end_1 X)) (not (tptp.carboxyl_end_1 X)) (not (tptp.cell_equator_1 X)) (not (tptp.cell_opposite_pole_1 X)) (not (tptp.cell_pole_1 X)) (not (tptp.centromere_1 X)) (not (tptp.cis_face_1 X)) (not (tptp.cisternal_space_1 X)) (not (tptp.cleavage_furrow_1 X)) (not (tptp.cytoplasmic_side_1 X)) (not (tptp.inside_face_1 X)) (not (tptp.intermembrane_space_1 X)) (not (tptp.metaphase_plate_1 X)) (not (tptp.origin_of_replication_1 X)) (not (tptp.plasmodesmata_1 X)) (not (tptp.poly_a__tail_1 X)) (not (tptp.splice_site_1 X)) (not (tptp.target_destination_1 X)) (not (tptp.thylakoid_space_1 X)) (not (tptp.trans_face_1 X)) (not (tptp.abdominal_cavity_1 X)) (not (tptp.antheridium_1 X)) (not (tptp.archegonium_1 X)) (not (tptp.atrium_1 X)) (not (tptp.blastocoel_1 X)) (not (tptp.blastopore_1 X)) (not (tptp.body_cavity_1 X)) (not (tptp.central_canal_1 X)) (not (tptp.cloaca_1 X)) (not (tptp.duodenum_1 X)) (not (tptp.gastrovascular_cavity_1 X)) (not (tptp.micropyle_1 X)) (not (tptp.middle_ear_1 X)) (not (tptp.optic_chiasm_1 X)) (not (tptp.oral_cavity_1 X)) (not (tptp.osculum_1 X)) (not (tptp.outer_ear_1 X)) (not (tptp.oval_window_1 X)) (not (tptp.pharyngeal_cleft_1 X)) (not (tptp.pharyngeal_slit_1 X)) (not (tptp.pupil_of_an_eye_1 X)) (not (tptp.renal_medulla_1 X)) (not (tptp.renal_pelvis_1 X)) (not (tptp.round_window_1 X)) (not (tptp.saccule_1 X)) (not (tptp.semicircular_canal_1 X)) (not (tptp.spongocoel_1 X)) (not (tptp.stoma_1 X)) (not (tptp.synapse_1 X)) (not (tptp.synaptic_cleft_1 X)) (not (tptp.utricle_1 X)) (not (tptp.ventricle_1 X)) (not (tptp.vestibule_of_the_ear_1 X)) (tptp.aqueous_solution_1 _let_12) (tptp.ph_value_1 _let_11) (tptp.mitochondrion_1 _let_3) (tptp.semiautonomous_organelle_1 _let_3) (tptp.dna_1 _let_1) (tptp.mitochondrial_dna_1 _let_1) (tptp.chemical_entity_1 _let_6) (tptp.protein_1 _let_6) (tptp.protein_enzyme_1 _let_6) (tptp.ribosome_1 _let_8) (tptp.dna_1 _let_10) (tptp.mitochondrion_1 _let_9) (tptp.ribosome_1 _let_7) (tptp.chemical_entity_1 _let_5) (tptp.protein_1 _let_5) (tptp.protein_enzyme_1 _let_4) (tptp.mitochondrial_matrix_1 _let_2) (tptp.is_inside_2 _let_12 X) (tptp.ph_2 _let_12 _let_11) (tptp.the_cardinal_value_2 _let_11 |"8.0e0"|) (tptp.cardinal_unit_class_2 _let_11 tptp.unity_0) (tptp.is_inside_2 _let_6 X) (tptp.is_inside_2 _let_8 X) (tptp.is_inside_2 _let_1 X) (tptp.has_region_2 _let_3 X) (tptp.has_part_2 _let_3 _let_1) (tptp.has_part_2 _let_3 _let_8) (tptp.has_part_2 _let_3 _let_6) (= _let_1 _let_10) (= _let_3 _let_9) (= X _let_2) (= _let_8 _let_7) (= _let_6 _let_5) (= _let_6 _let_4) (= _let_5 _let_4) (= _let_2 _let_2)))))))))))))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mitochondrial_membrane_84 X))) (let ((_let_2 (tptp.fn_phospholipid_80 _let_1))) (let ((_let_3 (tptp.fn_phospholipid_116 _let_1))) (let ((_let_4 (tptp.fn_biomembrane_65 X))) (let ((_let_5 (tptp.fn_biomembrane_66 X))) (let ((_let_6 (tptp.fn_phospholipid_90 _let_1))) (let ((_let_7 (tptp.fn_biomembrane_77 X))) (let ((_let_8 (tptp.fn_phospholipid_92 _let_1))) (let ((_let_9 (tptp.fn_phospholipid_98 _let_1))) (let ((_let_10 (tptp.fn_organic_molecule_2 _let_1))) (let ((_let_11 (tptp.fn_biomembrane_102 X))) (let ((_let_12 (tptp.fn_biomembrane_100 X))) (let ((_let_13 (tptp.fn_biomembrane_50 X))) (let ((_let_14 (tptp.fn_mitochondrial_membrane_52 X))) (let ((_let_15 (tptp.fn_block_1 _let_14))) (let ((_let_16 (tptp.fn_biomembrane_48 X))) (let ((_let_17 (tptp.fn_mitochondrial_membrane_37 X))) (let ((_let_18 (tptp.fn_biomembrane_50 _let_17))) (let ((_let_19 (tptp.fn_biomembrane_100 _let_17))) (let ((_let_20 (tptp.fn_biomembrane_101 _let_17))) (let ((_let_21 (tptp.fn_biomembrane_102 _let_17))) (let ((_let_22 (tptp.fn_mitochondrial_membrane_36 X))) (let ((_let_23 (tptp.fn_atp_synthase_37 _let_22))) (let ((_let_24 (tptp.fn_biomembrane_containing_double_lipid_bilayer_2 X))) (let ((_let_25 (tptp.fn_mitochondrial_membrane_80 X))) (let ((_let_26 (tptp.fn_cytochrome_c_2 _let_25))) (let ((_let_27 (tptp.fn_mitochondrial_membrane_38 X))) (let ((_let_28 (tptp.fn_fold_1 _let_27))) (let ((_let_29 (tptp.fn_biomembrane_63 _let_17))) (let ((_let_30 (tptp.fn_atp_synthase_40 _let_22))) (let ((_let_31 (tptp.fn_biomembrane_52 _let_17))) (let ((_let_32 (tptp.fn_atp_synthase_44 _let_22))) (let ((_let_33 (tptp.fn_biomembrane_41 _let_17))) (let ((_let_34 (tptp.fn_cytochrome_c_1 _let_25))) (let ((_let_35 (tptp.fn_biomembrane_47 _let_17))) (let ((_let_36 (tptp.fn_biomembrane_14 _let_17))) (let ((_let_37 (tptp.fn_mitochondrial_membrane_32 X))) (let ((_let_38 (tptp.fn_mitochondrial_matrix_2 _let_37))) (let ((_let_39 (tptp.fn_biomembrane_101 X))) (let ((_let_40 (tptp.fn_biomembrane_41 X))) (let ((_let_41 (tptp.fn_biomembrane_47 X))) (let ((_let_42 (tptp.fn_mitochondrial_membrane_81 X))) (let ((_let_43 (tptp.fn_mitochondrial_membrane_83 X))) (let ((_let_44 (tptp.fn_mitochondrial_membrane_20 X))) (let ((_let_45 (tptp.fn_mitochondrial_membrane_82 X))) (let ((_let_46 (tptp.fn_mitochondrial_membrane_53 X))) (let ((_let_47 (tptp.fn_mitochondrial_membrane_41 X))) (let ((_let_48 (tptp.fn_block_1 _let_47))) (let ((_let_49 (tptp.fn_mitochondrial_membrane_30 X))) (let ((_let_50 (tptp.fn_biomembrane_72 _let_17))) (let ((_let_51 (tptp.fn_mitochondrial_membrane_75 X))) (let ((_let_52 (tptp.fn_biomembrane_55 _let_17))) (let ((_let_53 (tptp.fn_mitochondrial_membrane_62 X))) (let ((_let_54 (tptp.fn_biomembrane_48 _let_17))) (let ((_let_55 (tptp.fn_mitochondrial_membrane_74 X))) (let ((_let_56 (tptp.fn_biomembrane_32 _let_17))) (let ((_let_57 (tptp.fn_mitochondrial_membrane_70 X))) (let ((_let_58 (tptp.fn_biomembrane_31 _let_17))) (let ((_let_59 (tptp.fn_mitochondrial_membrane_60 X))) (let ((_let_60 (tptp.fn_biomembrane_18 _let_17))) (let ((_let_61 (tptp.fn_mitochondrial_membrane_64 X))) (let ((_let_62 (tptp.fn_biomembrane_4 _let_17))) (let ((_let_63 (tptp.fn_mitochondrial_membrane_63 X))) (let ((_let_64 (tptp.fn_biomembrane_3 _let_17))) (let ((_let_65 (tptp.fn_biomembrane_71 _let_17))) (let ((_let_66 (tptp.fn_mitochondrial_membrane_73 X))) (let ((_let_67 (tptp.fn_biomembrane_73 _let_17))) (let ((_let_68 (tptp.fn_mitochondrial_membrane_58 X))) (let ((_let_69 (tptp.fn_biomembrane_70 _let_17))) (let ((_let_70 (tptp.fn_mitochondrial_membrane_66 X))) (let ((_let_71 (tptp.fn_biomembrane_30 _let_17))) (let ((_let_72 (tptp.fn_mitochondrial_membrane_71 X))) (let ((_let_73 (tptp.fn_mitochondrial_membrane_72 X))) (let ((_let_74 (tptp.fn_biomembrane_61 _let_17))) (let ((_let_75 (tptp.fn_mitochondrial_membrane_59 X))) (let ((_let_76 (tptp.fn_biomembrane_25 _let_17))) (let ((_let_77 (tptp.fn_mitochondrial_membrane_65 X))) (let ((_let_78 (tptp.fn_biomembrane_26 _let_17))) (let ((_let_79 (tptp.fn_mitochondrial_membrane_69 X))) (let ((_let_80 (tptp.fn_biomembrane_15 _let_17))) (let ((_let_81 (tptp.fn_mitochondrial_membrane_42 X))) (let ((_let_82 (tptp.fn_mitochondrial_membrane_67 X))) (let ((_let_83 (tptp.fn_biomembrane_42 _let_17))) (let ((_let_84 (tptp.fn_mitochondrial_membrane_68 X))) (let ((_let_85 (tptp.fn_mitochondrial_membrane_43 X))) (let ((_let_86 (tptp.fn_biomembrane_49 _let_17))) (let ((_let_87 (tptp.fn_mitochondrial_membrane_61 X))) (let ((_let_88 (tptp.fn_biomembrane_39 _let_17))) (let ((_let_89 (tptp.fn_biomembrane_19 _let_17))) (let ((_let_90 (tptp.fn_mitochondrial_membrane_33 X))) (let ((_let_91 (tptp.fn_mitochondrial_membrane_34 X))) (let ((_let_92 (tptp.fn_mitochondrial_membrane_55 X))) (let ((_let_93 (tptp.fn_mitochondrial_membrane_31 X))) (let ((_let_94 (tptp.fn_mitochondrial_membrane_87 X))) (let ((_let_95 (tptp.fn_mitochondrial_membrane_51 X))) (let ((_let_96 (tptp.fn_mitochondrial_membrane_25 X))) (let ((_let_97 (tptp.fn_mitochondrial_membrane_29 X))) (let ((_let_98 (tptp.fn_mitochondrial_membrane_26 X))) (let ((_let_99 (tptp.fn_mitochondrial_membrane_18 X))) (let ((_let_100 (tptp.fn_mitochondrial_membrane_19 X))) (let ((_let_101 (tptp.fn_mitochondrial_membrane_86 X))) (let ((_let_102 (tptp.fn_mitochondrial_membrane_85 X))) (let ((_let_103 (tptp.fn_mitochondrial_membrane_46 X))) (let ((_let_104 (tptp.fn_mitochondrial_membrane_54 X))) (let ((_let_105 (tptp.fn_mitochondrial_membrane_44 X))) (let ((_let_106 (tptp.fn_mitochondrial_membrane_27 X))) (let ((_let_107 (tptp.fn_mitochondrial_membrane_28 X))) (let ((_let_108 (tptp.fn_mitochondrial_membrane_49 X))) (let ((_let_109 (tptp.fn_mitochondrial_membrane_23 X))) (let ((_let_110 (tptp.fn_mitochondrial_membrane_48 X))) (let ((_let_111 (tptp.fn_mitochondrial_membrane_50 X))) (let ((_let_112 (tptp.fn_mitochondrial_membrane_24 X))) (let ((_let_113 (tptp.fn_mitochondrial_membrane_47 X))) (let ((_let_114 (tptp.fn_mitochondrial_membrane_45 X))) (let ((_let_115 (tptp.fn_atp_synthase_8 _let_22))) (let ((_let_116 (tptp.fn_mitochondrial_membrane_39 X))) (let ((_let_117 (tptp.fn_atp_synthase_7 _let_22))) (let ((_let_118 (tptp.fn_mitochondrial_matrix_4 _let_37))) (let ((_let_119 (tptp.fn_mitochondrial_membrane_35 X))) (let ((_let_120 (tptp.fn_organelle_1 _let_119))) (let ((_let_121 (tptp.fn_mitochondrial_membrane_7 X))) (let ((_let_122 (tptp.fn_mitochondrial_membrane_2 X))) (let ((_let_123 (tptp.fn_mitochondrial_membrane_5 X))) (let ((_let_124 (tptp.fn_mitochondrial_membrane_6 X))) (let ((_let_125 (tptp.fn_mitochondrial_membrane_8 X))) (let ((_let_126 (tptp.fn_mitochondrial_membrane_16 X))) (let ((_let_127 (tptp.fn_mitochondrial_membrane_15 X))) (let ((_let_128 (tptp.fn_mitochondrial_membrane_14 X))) (let ((_let_129 (tptp.fn_mitochondrial_membrane_13 X))) (let ((_let_130 (tptp.fn_mitochondrial_membrane_17 X))) (let ((_let_131 (tptp.fn_mitochondrial_membrane_10 X))) (let ((_let_132 (tptp.fn_mitochondrial_membrane_11 X))) (let ((_let_133 (tptp.fn_mitochondrial_membrane_12 X))) (=> (tptp.mitochondrial_membrane_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-Membrane'|) (tptp.user_description_2 X |tptp.'Double lipid bilayer which surrounds the mitochondrion and forms the infolds, called cristae, which function in the reactions of cellular respiration.'|) (tptp.concept2words_2 X |tptp.'mitochondrial membrane'|) (tptp.concept2words_2 X |tptp.'mitochondrial-membrane'|) (tptp.biomembrane_containing_double_lipid_bilayer_1 X) (not (tptp.chloroplast_membrane_1 X)) (not (tptp.er_membrane_1 X)) (not (tptp.lysosomal_membrane_1 X)) (not (tptp.nuclear_membrane_1 X)) (not (tptp.plasma_membrane_1 X)) (tptp.area_value_1 _let_122) (tptp.area_value_1 _let_123) (tptp.intensity_value_1 _let_124) (tptp.crista_1 _let_121) (tptp.length_value_1 _let_125) (tptp.hydrophilic_face_1 _let_131) (tptp.hydrophilic_face_1 _let_132) (tptp.hydrophilic_face_1 _let_133) (tptp.multiprotein_complex_iv_1 _let_129) (tptp.multiprotein_complex_iii_1 _let_128) (tptp.multiprotein_complex_ii_1 _let_127) (tptp.multiprotein_complex_i_1 _let_126) (tptp.ubiquinone_1 _let_130) (tptp.block_1 _let_99) (tptp.block_1 _let_100) (tptp.fatty_acid_tail_1 _let_44) (tptp.inside_face_1 _let_109) (tptp.surface_1 _let_112) (tptp.outside_face_1 _let_112) (tptp.carbohydrate_side_chain_1 _let_96) (tptp.carbon_skeleton_1 _let_98) (tptp.saturated_fatty_acid_1 _let_106) (tptp.quantity_value_1 _let_107) (tptp.attach_1 _let_97) (tptp.nadh_1 _let_49) (tptp.tangible_entity_1 _let_93) (tptp.phospholipid_bilayer_1 _let_93) (tptp.mitochondrial_matrix_1 _let_37) (tptp.intermembrane_space_1 _let_90) (tptp.outer_membrane_1 _let_91) (tptp.organelle_1 _let_119) (tptp.mitochondrion_1 _let_119) (tptp.semiautonomous_organelle_1 _let_119) (tptp.atp_synthase_1 _let_22) (tptp.entity_1 _let_17) (tptp.spatial_entity_1 _let_17) (tptp.inner_membrane_1 _let_17) (tptp.biomembrane_1 _let_17) (tptp.fold_1 _let_27) (tptp.quantity_value_1 _let_116) (tptp.block_1 _let_47) (tptp.aqueous_solution_1 _let_81) (tptp.aqueous_solution_1 _let_85) (tptp.barrier_1 _let_105) (tptp.density_value_1 _let_114) (tptp.chemical_entity_1 _let_103) (tptp.aqueous_solution_1 _let_113) (tptp.aqueous_solution_1 _let_110) (tptp.fluidity_value_1 _let_108) (tptp.temperature_value_1 _let_111) (tptp.move_through_1 _let_95) (tptp.block_1 _let_14) (tptp.hydrophobic_compound_1 _let_46) (tptp.spatial_entity_1 _let_46) (tptp.hydrophilic_compound_1 _let_104) (tptp.glycoprotein_1 _let_92) (tptp.attach_1 _let_68) (tptp.phospholipid_layer_1 _let_75) (tptp.quantity_value_1 _let_59) (tptp.barrier_1 _let_87) (tptp.chemical_entity_1 _let_53) (tptp.density_value_1 _let_63) (tptp.fluidity_value_1 _let_61) (tptp.temperature_value_1 _let_77) (tptp.carbohydrate_side_chain_1 _let_70) (tptp.surface_1 _let_82) (tptp.outside_face_1 _let_82) (tptp.inside_face_1 _let_84) (tptp.move_through_1 _let_79) (tptp.saturated_fatty_acid_1 _let_57) (tptp.glycoprotein_1 _let_72) (tptp.tangible_entity_1 _let_73) (tptp.phospholipid_bilayer_1 _let_73) (tptp.carbon_skeleton_1 _let_66) (tptp.hydrophobic_compound_1 _let_55) (tptp.hydrophilic_compound_1 _let_51) (tptp.cytochrome_c_1 _let_25) (tptp.repel_1 _let_42) (tptp.tangible_entity_1 _let_45) (tptp.entity_1 _let_45) (tptp.chemical_entity_1 _let_45) (tptp.atom_1 _let_45) (tptp.carbon_1 _let_45) (tptp.fatty_acid_tail_1 _let_43) (tptp.tangible_entity_1 _let_1) (tptp.lipid_1 _let_1) (tptp.spatial_entity_1 _let_1) (tptp.organic_molecule_1 _let_1) (tptp.phospholipid_1 _let_1) (tptp.phospholipid_layer_1 _let_102) (tptp.phospholipid_layer_1 _let_101) (tptp.hydrophobic_core_1 _let_94) (tptp.biomembrane_1 _let_120) (tptp.mitochondrion_1 _let_118) (tptp.semiautonomous_organelle_1 _let_118) (tptp.property_node_1 _let_117) (tptp.quantity_value_1 _let_115) (tptp.property_node_1 _let_89) (tptp.property_node_1 _let_88) (tptp.barrier_1 _let_86) (tptp.inside_face_1 _let_83) (tptp.aqueous_solution_1 _let_80) (tptp.property_node_1 _let_78) (tptp.temperature_value_1 _let_76) (tptp.phospholipid_layer_1 _let_74) (tptp.glycoprotein_1 _let_71) (tptp.carbohydrate_side_chain_1 _let_69) (tptp.attach_1 _let_67) (tptp.carbon_skeleton_1 _let_65) (tptp.property_node_1 _let_64) (tptp.density_value_1 _let_62) (tptp.fluidity_value_1 _let_60) (tptp.quantity_value_1 _let_58) (tptp.saturated_fatty_acid_1 _let_56) (tptp.hydrophobic_compound_1 _let_54) (tptp.chemical_entity_1 _let_52) (tptp.hydrophilic_compound_1 _let_50) (tptp.spatial_entity_1 _let_48) (tptp.aqueous_solution_1 _let_38) (tptp.aqueous_solution_1 _let_36) (tptp.surface_1 _let_35) (tptp.surface_1 _let_34) (tptp.outside_face_1 _let_34) (tptp.outside_face_1 _let_33) (tptp.move_through_1 _let_32) (tptp.move_through_1 _let_31) (tptp.tangible_entity_1 _let_30) (tptp.phospholipid_bilayer_1 _let_30) (tptp.tangible_entity_1 _let_29) (tptp.phospholipid_bilayer_1 _let_29) (tptp.entity_1 _let_28) (tptp.biomembrane_1 _let_26) (tptp.spatial_entity_1 _let_23) (tptp.biomembrane_1 _let_23) (tptp.block_1 _let_21) (tptp.block_1 _let_20) (tptp.block_1 _let_19) (tptp.block_1 _let_18) (tptp.spatial_entity_1 _let_15) (tptp.atom_1 _let_10) (tptp.chemical_entity_1 _let_10) (tptp.tangible_entity_1 _let_9) (tptp.entity_1 _let_9) (tptp.chemical_entity_1 _let_9) (tptp.atom_1 _let_9) (tptp.carbon_1 _let_9) (tptp.fatty_acid_tail_1 _let_8) (tptp.fatty_acid_tail_1 _let_6) (tptp.repel_1 _let_3) (tptp.repel_1 _let_2) (tptp.abuts_2 _let_43 _let_44) (tptp.is_inside_2 _let_130 _let_73) (tptp.is_at_2 _let_126 _let_84) (tptp.is_across_2 _let_126 _let_17) (tptp.is_across_2 _let_128 _let_17) (tptp.is_across_2 _let_129 _let_17) (not (= _let_53 _let_49)) (tptp.is_inside_2 _let_133 _let_110) (tptp.is_outside_2 _let_133 X) (tptp.is_outside_2 _let_132 _let_113) (tptp.is_inside_2 _let_132 X) (tptp.instrument_2 _let_14 _let_44) (not (= _let_85 _let_81)) (tptp.is_outside_2 _let_131 _let_85) (tptp.is_inside_2 _let_131 _let_17) (not (= _let_81 _let_85)) (tptp.is_inside_2 _let_81 _let_90) (tptp.instrument_2 _let_47 _let_17) (tptp.the_scalar_value_2 _let_116 tptp.high_0) (tptp.scalar_unit_class_2 _let_116 tptp.channel_protein_0) (tptp.the_scalar_value_2 _let_125 tptp.narrow_0) (tptp.scalar_unit_class_2 _let_125 tptp.region_0) (tptp.intensity_2 _let_27 _let_124) (tptp.has_part_2 _let_17 _let_130) (tptp.has_part_2 _let_17 _let_129) (tptp.has_part_2 _let_17 _let_128) (tptp.has_part_2 _let_17 _let_127) (tptp.has_part_2 _let_17 _let_126) (tptp.has_part_2 _let_17 _let_121) (tptp.area_2 _let_17 _let_123) (tptp.is_outside_2 _let_17 _let_37) (tptp.is_impermeable_to_2 _let_17 _let_49) (tptp.is_along_2 _let_121 _let_37) (tptp.area_2 _let_91 _let_122) (tptp.width_2 _let_90 _let_125) (tptp.directly_proportional_2 _let_124 _let_123) (tptp.greater_than_2 _let_123 _let_122) (tptp.is_along_2 _let_37 _let_121) (tptp.is_inside_2 _let_37 _let_17) (not (= _let_49 _let_53)) (tptp.abuts_2 _let_44 _let_43) (tptp.called_2 _let_100 |"2"|) (tptp.called_2 _let_99 |"3"|) (tptp.object_2 _let_27 _let_17) (tptp.has_part_2 _let_17 _let_25) (tptp.has_part_2 _let_17 _let_22) (tptp.has_part_2 _let_119 X) (tptp.is_inside_2 _let_85 _let_37) (tptp.has_region_2 _let_119 _let_37) (tptp.is_at_2 _let_25 _let_82) (tptp.quantity_2 _let_22 _let_116) (tptp.has_function_2 X _let_95) (tptp.is_impermeable_to_2 X _let_46) (tptp.is_permeable_to_2 X _let_103) (tptp.is_impermeable_to_2 X _let_104) (tptp.called_2 _let_14 |"1"|) (tptp.has_function_2 X _let_14) (tptp.instrument_2 _let_14 _let_43) (tptp.has_function_2 X _let_99) (tptp.called_2 _let_99 |"2"|) (tptp.inversely_proportional_2 _let_114 _let_108) (tptp.density_2 X _let_114) (tptp.has_function_2 X _let_100) (tptp.called_2 _let_100 |"3"|) (tptp.directly_proportional_2 _let_111 _let_108) (tptp.temperature_2 X _let_111) (tptp.has_region_2 X _let_112) (tptp.is_inside_2 _let_112 _let_113) (tptp.is_between_2 X _let_113) (tptp.directly_proportional_2 _let_107 _let_108) (tptp.fluidity_2 X _let_108) (tptp.has_region_2 X _let_109) (tptp.is_inside_2 _let_110 _let_109) (tptp.is_between_2 X _let_110) (tptp.object_2 _let_14 _let_104) (tptp.in_event_2 _let_105 _let_14) (tptp.plays_2 X _let_105) (tptp.has_part_2 X _let_106) (tptp.quantity_2 _let_106 _let_107) (tptp.has_region_2 _let_93 _let_102) (tptp.element_2 _let_102 _let_1) (tptp.called_2 _let_1 |tptp.'P1'|) (not (= _let_101 _let_102)) (not (= _let_102 _let_101)) (tptp.object_2 _let_95 _let_103) (not (= _let_46 _let_103)) (not (= _let_103 _let_46)) (not (= _let_104 _let_103)) (not (= _let_103 _let_104)) (tptp.has_region_2 _let_93 _let_101) (tptp.element_2 _let_101 _let_1) (tptp.called_2 _let_1 |tptp.'P4'|) (tptp.is_along_2 _let_102 _let_101) (tptp.is_along_2 _let_101 _let_102) (tptp.agent_2 _let_14 _let_94) (not (= _let_14 _let_99)) (not (= _let_99 _let_100)) (not (= _let_99 _let_14)) (not (= _let_100 _let_99)) (not (= _let_14 _let_100)) (not (= _let_100 _let_14)) (tptp.is_outside_2 _let_96 X) (tptp.object_2 _let_97 _let_96) (tptp.base_2 _let_97 _let_98) (tptp.is_inside_2 _let_98 X) (tptp.has_part_2 X _let_93) (tptp.has_part_2 X _let_92) (tptp.is_inside_2 _let_92 _let_93) (tptp.has_region_2 _let_93 _let_94) (tptp.path_2 _let_95 _let_94) (tptp.base_2 _let_95 X) (tptp.has_region_2 X _let_90) (tptp.is_between_2 _let_90 _let_17) (tptp.has_part_2 X _let_17) (tptp.has_part_2 X _let_91) (tptp.is_between_2 _let_90 _let_91) (tptp.is_permeable_to_2 _let_17 _let_53) (tptp.density_2 _let_17 _let_63) (tptp.is_between_2 _let_17 _let_85) (tptp.temperature_2 _let_17 _let_77) (tptp.is_outside_2 _let_70 _let_17) (tptp.has_region_2 _let_17 _let_82) (tptp.base_2 _let_79 _let_17) (tptp.has_function_2 _let_17 _let_47) (tptp.has_part_2 _let_17 _let_73) (tptp.is_impermeable_to_2 _let_17 _let_55) (tptp.plays_2 _let_17 _let_87) (tptp.in_event_2 _let_87 _let_47) (tptp.has_region_2 _let_17 _let_84) (tptp.is_inside_2 _let_85 _let_84) (tptp.is_between_2 _let_17 _let_81) (tptp.is_inside_2 _let_82 _let_81) (tptp.has_function_2 _let_17 _let_79) (tptp.object_2 _let_79 _let_53) (tptp.fluidity_2 _let_17 _let_61) (tptp.directly_proportional_2 _let_77 _let_61) (tptp.has_part_2 _let_17 _let_72) (tptp.is_inside_2 _let_72 _let_73) (tptp.is_inside_2 _let_66 _let_17) (tptp.base_2 _let_68 _let_66) (tptp.object_2 _let_68 _let_70) (tptp.has_part_2 _let_17 _let_57) (tptp.quantity_2 _let_57 _let_59) (tptp.directly_proportional_2 _let_59 _let_61) (tptp.inversely_proportional_2 _let_63 _let_61) (tptp.is_impermeable_to_2 _let_17 _let_51) (not (= _let_53 _let_51)) (not (= _let_55 _let_53)) (not (= _let_53 _let_55)) (not (= _let_51 _let_53)) (tptp.has_part_2 _let_1 _let_45) (tptp.is_at_2 _let_45 _let_44) (tptp.site_2 _let_42 _let_44) (tptp.facilitates_2 _let_44 _let_42) (tptp.has_region_2 _let_1 _let_44) (tptp.has_region_2 _let_1 _let_43) (tptp.has_function_2 _let_1 _let_42) (tptp.agent_2 _let_42 _let_1) (tptp.object_2 _let_14 _let_46) (tptp.object_2 _let_47 _let_49) (= _let_17 _let_28) (= X _let_120) (= _let_85 _let_38) (= _let_119 _let_118) (= (tptp.fn_mitochondrial_membrane_40 X) _let_117) (= _let_116 _let_115) (= (tptp.fn_mitochondrial_membrane_22 X) (tptp.fn_biomembrane_19 X)) (= (tptp.fn_mitochondrial_membrane_56 X) (tptp.fn_biomembrane_39 X)) (= (tptp.fn_mitochondrial_membrane_21 X) (tptp.fn_biomembrane_26 X)) (= (tptp.fn_mitochondrial_membrane_57 X) (tptp.fn_biomembrane_3 X)) (= _let_43 _let_7) (= _let_100 _let_12) (= _let_114 (tptp.fn_biomembrane_4 X)) (= _let_113 (tptp.fn_biomembrane_15 X)) (= _let_112 _let_41) (= _let_112 _let_40) (= _let_111 (tptp.fn_biomembrane_25 X)) (= _let_110 (tptp.fn_biomembrane_14 X)) (= _let_109 (tptp.fn_biomembrane_42 X)) (= _let_108 (tptp.fn_biomembrane_18 X)) (= _let_107 (tptp.fn_biomembrane_31 X)) (= _let_106 (tptp.fn_biomembrane_32 X)) (= _let_105 (tptp.fn_biomembrane_49 X)) (= _let_14 _let_13) (= _let_1 _let_5) (= _let_104 (tptp.fn_biomembrane_72 X)) (= _let_46 _let_16) (= _let_103 (tptp.fn_biomembrane_55 X)) (= _let_1 _let_4) (= _let_102 (tptp.fn_biomembrane_62 X)) (= _let_101 (tptp.fn_biomembrane_61 X)) (= _let_100 _let_39) (= _let_14 _let_12) (= _let_100 _let_11) (= _let_99 _let_39) (= _let_14 _let_11) (= _let_98 (tptp.fn_biomembrane_71 X)) (= _let_97 (tptp.fn_biomembrane_73 X)) (= _let_96 (tptp.fn_biomembrane_70 X)) (= _let_95 (tptp.fn_biomembrane_52 X)) (= _let_94 (tptp.fn_biomembrane_75 X)) (= _let_93 (tptp.fn_biomembrane_63 X)) (= _let_92 (tptp.fn_biomembrane_30 X)) (= _let_91 (tptp.fn_biomembrane_containing_double_lipid_bilayer_1 X)) (= _let_17 _let_24) (= _let_90 (tptp.fn_biomembrane_containing_double_lipid_bilayer_3 X)) (= _let_82 _let_35) (= _let_17 _let_26) (= _let_82 _let_34) (= _let_47 _let_21) (= _let_47 _let_20) (= _let_47 _let_19) (= (tptp.fn_mitochondrial_membrane_77 X) _let_89) (= _let_73 _let_30) (= (tptp.fn_mitochondrial_membrane_79 X) _let_88) (= _let_47 _let_18) (= _let_87 _let_86) (= _let_85 _let_36) (= _let_84 _let_83) (= _let_82 _let_33) (= _let_81 _let_80) (= _let_17 _let_23) (= _let_79 _let_32) (= _let_79 _let_31) (= (tptp.fn_mitochondrial_membrane_76 X) _let_78) (= _let_77 _let_76) (= _let_75 _let_74) (= _let_73 _let_29) (= _let_72 _let_71) (= _let_70 _let_69) (= _let_68 _let_67) (= _let_66 _let_65) (= (tptp.fn_mitochondrial_membrane_78 X) _let_64) (= _let_63 _let_62) (= _let_61 _let_60) (= _let_59 _let_58) (= _let_57 _let_56) (= _let_55 _let_54) (= _let_53 _let_52) (= _let_51 _let_50) (= _let_49 _let_48) (= _let_46 _let_15) (= _let_45 _let_10) (= _let_45 _let_9) (= _let_44 _let_6) (= _let_44 _let_8) (= _let_43 _let_6) (= _let_42 _let_3) (= _let_42 _let_2) (= _let_40 _let_41) (= _let_41 _let_40) (= _let_40 _let_12) (= _let_12 _let_39) (= _let_39 _let_39) (= _let_39 _let_11) (= _let_11 _let_38) (= _let_38 _let_36) (= _let_36 _let_36) (= _let_36 _let_34) (= _let_34 _let_35) (= _let_35 _let_34) (= _let_34 _let_34) (= _let_34 _let_33) (= _let_33 _let_33) (= _let_33 _let_32) (= _let_31 _let_31) (= _let_31 _let_32) (= _let_32 _let_31) (= _let_31 _let_30) (= _let_30 _let_29) (= _let_29 _let_29) (= _let_29 _let_28) (= _let_28 _let_26) (= _let_26 _let_26) (= _let_23 _let_26) (= _let_26 _let_23) (= _let_23 _let_24) (= _let_24 _let_24) (= _let_24 _let_23) (= _let_23 _let_23) (= _let_23 _let_21) (= _let_21 _let_20) (= _let_20 _let_20) (= _let_20 _let_19) (= _let_19 _let_19) (= _let_19 _let_18) (= _let_18 _let_16) (= _let_16 _let_16) (= _let_16 _let_15) (= _let_15 _let_13) (= _let_13 _let_13) (= _let_13 _let_12) (= _let_11 _let_12) (= _let_12 _let_12) (= _let_12 _let_11) (= _let_11 _let_11) (= _let_11 _let_10) (= _let_10 _let_9) (= _let_9 _let_9) (= _let_9 _let_8) (= _let_8 _let_6) (= _let_6 _let_8) (= _let_8 _let_8) (= _let_8 _let_7) (= _let_7 _let_6) (= _let_6 _let_5) (= _let_5 _let_5) (= _let_5 _let_4) (= _let_4 _let_4) (= _let_4 _let_3) (= _let_2 _let_3) (= _let_3 _let_2))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (forall ((X $$unsorted)) (=> (tptp.mitochondrial_myopathy_1 X) (and (tptp.original_name_2 X |tptp.'Mitochondrial-Myopathy'|) (tptp.user_description_2 X |tptp.'A disorder that causes problems with muscle growth and/or function due to problems with the muscle cells_' mitochondria.'|) (tptp.concept2words_2 X |tptp.'mitochondrial myopathy'|) (tptp.concept2words_2 X |tptp.'mitochondrial-myopathy'|) (tptp.metabolic_disorder_1 X) (not (tptp.hyperthyroidism_1 X)) (not (tptp.diabetes_mellitus_1 X)) (not (tptp.cretinism_1 X)) (not (tptp.hypopituitarism_1 X)) (not (tptp.gigantism_1 X))))) (forall ((X $$unsorted)) (let ((_let_1 (tptp.fn_mitochondrion_66 X))) (let ((_let_2 (tptp.fn_electrochemical_gradient_17 _let_1))) (let ((_let_3 (tptp.fn_mitochondrion_74 X))) (let ((_let_4 (tptp.fn_passive_transport_18 _let_3))) (let ((_let_5 (tptp.fn_gradient_2 _let_1))) (let ((_let_6 (tptp.fn_electrochemical_gradient_14 _let_1))) (let ((_let_7 (tptp.fn_electrochemical_gradient_18 _let_1))) (let ((_let_8 (tptp.fn_mitochondrion_54 X))) (let ((_let_9 (tptp.fn_chemiosmosis_117 _let_8))) (let ((_let_10 (tptp.fn_mitochondrion_55 X))) 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